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authorFlorian Fainelli <florian@openwrt.org>2013-07-09 20:52:49 +0000
committerFlorian Fainelli <florian@openwrt.org>2013-07-09 20:52:49 +0000
commitde69c9edb0665d43ba2caf7fb3f79200f91eb6fc (patch)
tree9020784148d49c65308491014ad8dbe28df7fbac /target/linux/brcm2708/patches-3.10
parent818d2603ee2e28fa9b84c7bb67a4ffc0a6fa7e55 (diff)
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brcm2708: add support for 3.10 kernel
Signed-off-by: Florian Fainelli <florian@openwrt.org> SVN-Revision: 37218
Diffstat (limited to 'target/linux/brcm2708/patches-3.10')
-rw-r--r--target/linux/brcm2708/patches-3.10/001-Add-dwc_otg-driver.patch57362
-rw-r--r--target/linux/brcm2708/patches-3.10/002-Main-bcm2708-linux-port.patch8404
-rw-r--r--target/linux/brcm2708/patches-3.10/003-bcm2708-watchdog-driver.patch416
-rw-r--r--target/linux/brcm2708/patches-3.10/004-bcm2708-framebuffer-driver.patch3427
-rw-r--r--target/linux/brcm2708/patches-3.10/005-bcm2708-vchiq-driver.patch13559
-rw-r--r--target/linux/brcm2708/patches-3.10/006-Allow-mac-address-to-be-set-in-smsc95xx.patch82
-rw-r--r--target/linux/brcm2708/patches-3.10/007-bcm2708_hw_random-driver.patch148
-rw-r--r--target/linux/brcm2708/patches-3.10/008-lirc_rpi_driver.patch723
-rw-r--r--target/linux/brcm2708/patches-3.10/009-bcm2708-spi-driver.patch659
-rw-r--r--target/linux/brcm2708/patches-3.10/010-bcm2835-thermal-driver.patch212
-rw-r--r--target/linux/brcm2708/patches-3.10/011-bcm2835-cpufreq-driver.patch269
-rw-r--r--target/linux/brcm2708/patches-3.10/012-bcm2708-sound-driver.patch2244
-rw-r--r--target/linux/brcm2708/patches-3.10/013-bcm2835-hwmon-driver.patch257
-rw-r--r--target/linux/brcm2708/patches-3.10/014-bcm2708-sdhci-driver.patch2581
-rw-r--r--target/linux/brcm2708/patches-3.10/015-bcm2708-i2c-driver.patch452
-rw-r--r--target/linux/brcm2708/patches-3.10/016-amba-pl011-fifosize.patch12
16 files changed, 90807 insertions, 0 deletions
diff --git a/target/linux/brcm2708/patches-3.10/001-Add-dwc_otg-driver.patch b/target/linux/brcm2708/patches-3.10/001-Add-dwc_otg-driver.patch
new file mode 100644
index 0000000000..154ebaa474
--- /dev/null
+++ b/target/linux/brcm2708/patches-3.10/001-Add-dwc_otg-driver.patch
@@ -0,0 +1,57362 @@
+diff -urN linux-3.10/drivers/usb/core/generic.c linux-rpi-3.10.y/drivers/usb/core/generic.c
+--- linux-3.10/drivers/usb/core/generic.c 2013-06-30 23:13:29.000000000 +0100
++++ linux-rpi-3.10.y/drivers/usb/core/generic.c 2013-07-06 15:25:50.000000000 +0100
+@@ -152,6 +152,7 @@
+ dev_warn(&udev->dev,
+ "no configuration chosen from %d choice%s\n",
+ num_configs, plural(num_configs));
++ dev_warn(&udev->dev, "No support over %dmA\n", udev->bus_mA);
+ }
+ return i;
+ }
+diff -urN linux-3.10/drivers/usb/core/message.c linux-rpi-3.10.y/drivers/usb/core/message.c
+--- linux-3.10/drivers/usb/core/message.c 2013-06-30 23:13:29.000000000 +0100
++++ linux-rpi-3.10.y/drivers/usb/core/message.c 2013-07-06 15:25:50.000000000 +0100
+@@ -1875,6 +1875,85 @@
+ if (cp->string == NULL &&
+ !(dev->quirks & USB_QUIRK_CONFIG_INTF_STRINGS))
+ cp->string = usb_cache_string(dev, cp->desc.iConfiguration);
++/* Uncomment this define to enable the HS Electrical Test support */
++#define DWC_HS_ELECT_TST 1
++#ifdef DWC_HS_ELECT_TST
++ /* Here we implement the HS Electrical Test support. The
++ * tester uses a vendor ID of 0x1A0A to indicate we should
++ * run a special test sequence. The product ID tells us
++ * which sequence to run. We invoke the test sequence by
++ * sending a non-standard SetFeature command to our root
++ * hub port. Our dwc_otg_hcd_hub_control() routine will
++ * recognize the command and perform the desired test
++ * sequence.
++ */
++ if (dev->descriptor.idVendor == 0x1A0A) {
++ /* HSOTG Electrical Test */
++ dev_warn(&dev->dev, "VID from HSOTG Electrical Test Fixture\n");
++
++ if (dev->bus && dev->bus->root_hub) {
++ struct usb_device *hdev = dev->bus->root_hub;
++ dev_warn(&dev->dev, "Got PID 0x%x\n", dev->descriptor.idProduct);
++
++ switch (dev->descriptor.idProduct) {
++ case 0x0101: /* TEST_SE0_NAK */
++ dev_warn(&dev->dev, "TEST_SE0_NAK\n");
++ usb_control_msg(hdev, usb_sndctrlpipe(hdev, 0),
++ USB_REQ_SET_FEATURE, USB_RT_PORT,
++ USB_PORT_FEAT_TEST, 0x300, NULL, 0, HZ);
++ break;
++
++ case 0x0102: /* TEST_J */
++ dev_warn(&dev->dev, "TEST_J\n");
++ usb_control_msg(hdev, usb_sndctrlpipe(hdev, 0),
++ USB_REQ_SET_FEATURE, USB_RT_PORT,
++ USB_PORT_FEAT_TEST, 0x100, NULL, 0, HZ);
++ break;
++
++ case 0x0103: /* TEST_K */
++ dev_warn(&dev->dev, "TEST_K\n");
++ usb_control_msg(hdev, usb_sndctrlpipe(hdev, 0),
++ USB_REQ_SET_FEATURE, USB_RT_PORT,
++ USB_PORT_FEAT_TEST, 0x200, NULL, 0, HZ);
++ break;
++
++ case 0x0104: /* TEST_PACKET */
++ dev_warn(&dev->dev, "TEST_PACKET\n");
++ usb_control_msg(hdev, usb_sndctrlpipe(hdev, 0),
++ USB_REQ_SET_FEATURE, USB_RT_PORT,
++ USB_PORT_FEAT_TEST, 0x400, NULL, 0, HZ);
++ break;
++
++ case 0x0105: /* TEST_FORCE_ENABLE */
++ dev_warn(&dev->dev, "TEST_FORCE_ENABLE\n");
++ usb_control_msg(hdev, usb_sndctrlpipe(hdev, 0),
++ USB_REQ_SET_FEATURE, USB_RT_PORT,
++ USB_PORT_FEAT_TEST, 0x500, NULL, 0, HZ);
++ break;
++
++ case 0x0106: /* HS_HOST_PORT_SUSPEND_RESUME */
++ dev_warn(&dev->dev, "HS_HOST_PORT_SUSPEND_RESUME\n");
++ usb_control_msg(hdev, usb_sndctrlpipe(hdev, 0),
++ USB_REQ_SET_FEATURE, USB_RT_PORT,
++ USB_PORT_FEAT_TEST, 0x600, NULL, 0, 40 * HZ);
++ break;
++
++ case 0x0107: /* SINGLE_STEP_GET_DEVICE_DESCRIPTOR setup */
++ dev_warn(&dev->dev, "SINGLE_STEP_GET_DEVICE_DESCRIPTOR setup\n");
++ usb_control_msg(hdev, usb_sndctrlpipe(hdev, 0),
++ USB_REQ_SET_FEATURE, USB_RT_PORT,
++ USB_PORT_FEAT_TEST, 0x700, NULL, 0, 40 * HZ);
++ break;
++
++ case 0x0108: /* SINGLE_STEP_GET_DEVICE_DESCRIPTOR execute */
++ dev_warn(&dev->dev, "SINGLE_STEP_GET_DEVICE_DESCRIPTOR execute\n");
++ usb_control_msg(hdev, usb_sndctrlpipe(hdev, 0),
++ USB_REQ_SET_FEATURE, USB_RT_PORT,
++ USB_PORT_FEAT_TEST, 0x800, NULL, 0, 40 * HZ);
++ }
++ }
++ }
++#endif /* DWC_HS_ELECT_TST */
+
+ /* Now that the interfaces are installed, re-enable LPM. */
+ usb_unlocked_enable_lpm(dev);
+diff -urN linux-3.10/drivers/usb/core/otg_whitelist.h linux-rpi-3.10.y/drivers/usb/core/otg_whitelist.h
+--- linux-3.10/drivers/usb/core/otg_whitelist.h 2013-06-30 23:13:29.000000000 +0100
++++ linux-rpi-3.10.y/drivers/usb/core/otg_whitelist.h 2013-07-06 15:25:50.000000000 +0100
+@@ -19,33 +19,82 @@
+ static struct usb_device_id whitelist_table [] = {
+
+ /* hubs are optional in OTG, but very handy ... */
++#define CERT_WITHOUT_HUBS
++#if defined(CERT_WITHOUT_HUBS)
++{ USB_DEVICE( 0x0000, 0x0000 ), }, /* Root HUB Only*/
++#else
+ { USB_DEVICE_INFO(USB_CLASS_HUB, 0, 0), },
+ { USB_DEVICE_INFO(USB_CLASS_HUB, 0, 1), },
++{ USB_DEVICE_INFO(USB_CLASS_HUB, 0, 2), },
++#endif
+
+ #ifdef CONFIG_USB_PRINTER /* ignoring nonstatic linkage! */
+ /* FIXME actually, printers are NOT supposed to use device classes;
+ * they're supposed to use interface classes...
+ */
+-{ USB_DEVICE_INFO(7, 1, 1) },
+-{ USB_DEVICE_INFO(7, 1, 2) },
+-{ USB_DEVICE_INFO(7, 1, 3) },
++//{ USB_DEVICE_INFO(7, 1, 1) },
++//{ USB_DEVICE_INFO(7, 1, 2) },
++//{ USB_DEVICE_INFO(7, 1, 3) },
+ #endif
+
+ #ifdef CONFIG_USB_NET_CDCETHER
+ /* Linux-USB CDC Ethernet gadget */
+-{ USB_DEVICE(0x0525, 0xa4a1), },
++//{ USB_DEVICE(0x0525, 0xa4a1), },
+ /* Linux-USB CDC Ethernet + RNDIS gadget */
+-{ USB_DEVICE(0x0525, 0xa4a2), },
++//{ USB_DEVICE(0x0525, 0xa4a2), },
+ #endif
+
+ #if defined(CONFIG_USB_TEST) || defined(CONFIG_USB_TEST_MODULE)
+ /* gadget zero, for testing */
+-{ USB_DEVICE(0x0525, 0xa4a0), },
++//{ USB_DEVICE(0x0525, 0xa4a0), },
+ #endif
++
++/* OPT Tester */
++{ USB_DEVICE( 0x1a0a, 0x0101 ), }, /* TEST_SE0_NAK */
++{ USB_DEVICE( 0x1a0a, 0x0102 ), }, /* Test_J */
++{ USB_DEVICE( 0x1a0a, 0x0103 ), }, /* Test_K */
++{ USB_DEVICE( 0x1a0a, 0x0104 ), }, /* Test_PACKET */
++{ USB_DEVICE( 0x1a0a, 0x0105 ), }, /* Test_FORCE_ENABLE */
++{ USB_DEVICE( 0x1a0a, 0x0106 ), }, /* HS_PORT_SUSPEND_RESUME */
++{ USB_DEVICE( 0x1a0a, 0x0107 ), }, /* SINGLE_STEP_GET_DESCRIPTOR setup */
++{ USB_DEVICE( 0x1a0a, 0x0108 ), }, /* SINGLE_STEP_GET_DESCRIPTOR execute */
++
++/* Sony cameras */
++{ USB_DEVICE_VER(0x054c,0x0010,0x0410, 0x0500), },
++
++/* Memory Devices */
++//{ USB_DEVICE( 0x0781, 0x5150 ), }, /* SanDisk */
++//{ USB_DEVICE( 0x05DC, 0x0080 ), }, /* Lexar */
++//{ USB_DEVICE( 0x4146, 0x9281 ), }, /* IOMEGA */
++//{ USB_DEVICE( 0x067b, 0x2507 ), }, /* Hammer 20GB External HD */
++{ USB_DEVICE( 0x0EA0, 0x2168 ), }, /* Ours Technology Inc. (BUFFALO ClipDrive)*/
++//{ USB_DEVICE( 0x0457, 0x0150 ), }, /* Silicon Integrated Systems Corp. */
++
++/* HP Printers */
++//{ USB_DEVICE( 0x03F0, 0x1102 ), }, /* HP Photosmart 245 */
++//{ USB_DEVICE( 0x03F0, 0x1302 ), }, /* HP Photosmart 370 Series */
++
++/* Speakers */
++//{ USB_DEVICE( 0x0499, 0x3002 ), }, /* YAMAHA YST-MS35D USB Speakers */
++//{ USB_DEVICE( 0x0672, 0x1041 ), }, /* Labtec USB Headset */
+
+ { } /* Terminating entry */
+ };
+
++static inline void report_errors(struct usb_device *dev)
++{
++ /* OTG MESSAGE: report errors here, customize to match your product */
++ dev_info(&dev->dev, "device Vendor:%04x Product:%04x is not supported\n",
++ le16_to_cpu(dev->descriptor.idVendor),
++ le16_to_cpu(dev->descriptor.idProduct));
++ if (USB_CLASS_HUB == dev->descriptor.bDeviceClass){
++ dev_printk(KERN_CRIT, &dev->dev, "Unsupported Hub Topology\n");
++ } else {
++ dev_printk(KERN_CRIT, &dev->dev, "Attached Device is not Supported\n");
++ }
++}
++
++
+ static int is_targeted(struct usb_device *dev)
+ {
+ struct usb_device_id *id = whitelist_table;
+@@ -55,58 +104,83 @@
+ return 1;
+
+ /* HNP test device is _never_ targeted (see OTG spec 6.6.6) */
+- if ((le16_to_cpu(dev->descriptor.idVendor) == 0x1a0a &&
+- le16_to_cpu(dev->descriptor.idProduct) == 0xbadd))
+- return 0;
++ if (dev->descriptor.idVendor == 0x1a0a &&
++ dev->descriptor.idProduct == 0xbadd) {
++ return 0;
++ } else if (!enable_whitelist) {
++ return 1;
++ } else {
+
+- /* NOTE: can't use usb_match_id() since interface caches
+- * aren't set up yet. this is cut/paste from that code.
+- */
+- for (id = whitelist_table; id->match_flags; id++) {
+- if ((id->match_flags & USB_DEVICE_ID_MATCH_VENDOR) &&
+- id->idVendor != le16_to_cpu(dev->descriptor.idVendor))
+- continue;
+-
+- if ((id->match_flags & USB_DEVICE_ID_MATCH_PRODUCT) &&
+- id->idProduct != le16_to_cpu(dev->descriptor.idProduct))
+- continue;
+-
+- /* No need to test id->bcdDevice_lo != 0, since 0 is never
+- greater than any unsigned number. */
+- if ((id->match_flags & USB_DEVICE_ID_MATCH_DEV_LO) &&
+- (id->bcdDevice_lo > le16_to_cpu(dev->descriptor.bcdDevice)))
+- continue;
+-
+- if ((id->match_flags & USB_DEVICE_ID_MATCH_DEV_HI) &&
+- (id->bcdDevice_hi < le16_to_cpu(dev->descriptor.bcdDevice)))
+- continue;
+-
+- if ((id->match_flags & USB_DEVICE_ID_MATCH_DEV_CLASS) &&
+- (id->bDeviceClass != dev->descriptor.bDeviceClass))
+- continue;
+-
+- if ((id->match_flags & USB_DEVICE_ID_MATCH_DEV_SUBCLASS) &&
+- (id->bDeviceSubClass != dev->descriptor.bDeviceSubClass))
+- continue;
+-
+- if ((id->match_flags & USB_DEVICE_ID_MATCH_DEV_PROTOCOL) &&
+- (id->bDeviceProtocol != dev->descriptor.bDeviceProtocol))
+- continue;
++#ifdef DEBUG
++ dev_dbg(&dev->dev, "device V:%04x P:%04x DC:%04x SC:%04x PR:%04x \n",
++ dev->descriptor.idVendor,
++ dev->descriptor.idProduct,
++ dev->descriptor.bDeviceClass,
++ dev->descriptor.bDeviceSubClass,
++ dev->descriptor.bDeviceProtocol);
++#endif
+
+ return 1;
++ /* NOTE: can't use usb_match_id() since interface caches
++ * aren't set up yet. this is cut/paste from that code.
++ */
++ for (id = whitelist_table; id->match_flags; id++) {
++#ifdef DEBUG
++ dev_dbg(&dev->dev,
++ "ID: V:%04x P:%04x DC:%04x SC:%04x PR:%04x \n",
++ id->idVendor,
++ id->idProduct,
++ id->bDeviceClass,
++ id->bDeviceSubClass,
++ id->bDeviceProtocol);
++#endif
++
++ if ((id->match_flags & USB_DEVICE_ID_MATCH_VENDOR) &&
++ id->idVendor != le16_to_cpu(dev->descriptor.idVendor))
++ continue;
++
++ if ((id->match_flags & USB_DEVICE_ID_MATCH_PRODUCT) &&
++ id->idProduct != le16_to_cpu(dev->descriptor.idProduct))
++ continue;
++
++ /* No need to test id->bcdDevice_lo != 0, since 0 is never
++ greater than any unsigned number. */
++ if ((id->match_flags & USB_DEVICE_ID_MATCH_DEV_LO) &&
++ (id->bcdDevice_lo > le16_to_cpu(dev->descriptor.bcdDevice)))
++ continue;
++
++ if ((id->match_flags & USB_DEVICE_ID_MATCH_DEV_HI) &&
++ (id->bcdDevice_hi < le16_to_cpu(dev->descriptor.bcdDevice)))
++ continue;
++
++ if ((id->match_flags & USB_DEVICE_ID_MATCH_DEV_CLASS) &&
++ (id->bDeviceClass != dev->descriptor.bDeviceClass))
++ continue;
++
++ if ((id->match_flags & USB_DEVICE_ID_MATCH_DEV_SUBCLASS) &&
++ (id->bDeviceSubClass != dev->descriptor.bDeviceSubClass))
++ continue;
++
++ if ((id->match_flags & USB_DEVICE_ID_MATCH_DEV_PROTOCOL) &&
++ (id->bDeviceProtocol != dev->descriptor.bDeviceProtocol))
++ continue;
++
++ return 1;
++ }
+ }
+
+ /* add other match criteria here ... */
+
+-
+- /* OTG MESSAGE: report errors here, customize to match your product */
+- dev_err(&dev->dev, "device v%04x p%04x is not supported\n",
+- le16_to_cpu(dev->descriptor.idVendor),
+- le16_to_cpu(dev->descriptor.idProduct));
+ #ifdef CONFIG_USB_OTG_WHITELIST
++ report_errors(dev);
+ return 0;
+ #else
+- return 1;
++ if (enable_whitelist) {
++ report_errors(dev);
++ return 0;
++ } else {
++ return 1;
++ }
+ #endif
+ }
+
+diff -urN linux-3.10/drivers/usb/gadget/file_storage.c linux-rpi-3.10.y/drivers/usb/gadget/file_storage.c
+--- linux-3.10/drivers/usb/gadget/file_storage.c 1970-01-01 01:00:00.000000000 +0100
++++ linux-rpi-3.10.y/drivers/usb/gadget/file_storage.c 2013-07-06 15:25:50.000000000 +0100
+@@ -0,0 +1,3676 @@
++/*
++ * file_storage.c -- File-backed USB Storage Gadget, for USB development
++ *
++ * Copyright (C) 2003-2008 Alan Stern
++ * All rights reserved.
++ *
++ * Redistribution and use in source and binary forms, with or without
++ * modification, are permitted provided that the following conditions
++ * are met:
++ * 1. Redistributions of source code must retain the above copyright
++ * notice, this list of conditions, and the following disclaimer,
++ * without modification.
++ * 2. Redistributions in binary form must reproduce the above copyright
++ * notice, this list of conditions and the following disclaimer in the
++ * documentation and/or other materials provided with the distribution.
++ * 3. The names of the above-listed copyright holders may not be used
++ * to endorse or promote products derived from this software without
++ * specific prior written permission.
++ *
++ * ALTERNATIVELY, this software may be distributed under the terms of the
++ * GNU General Public License ("GPL") as published by the Free Software
++ * Foundation, either version 2 of that License or (at your option) any
++ * later version.
++ *
++ * THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS
++ * IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO,
++ * THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR
++ * PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT OWNER OR
++ * CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL,
++ * EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO,
++ * PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR
++ * PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF
++ * LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING
++ * NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS
++ * SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
++ */
++
++
++/*
++ * The File-backed Storage Gadget acts as a USB Mass Storage device,
++ * appearing to the host as a disk drive or as a CD-ROM drive. In addition
++ * to providing an example of a genuinely useful gadget driver for a USB
++ * device, it also illustrates a technique of double-buffering for increased
++ * throughput. Last but not least, it gives an easy way to probe the
++ * behavior of the Mass Storage drivers in a USB host.
++ *
++ * Backing storage is provided by a regular file or a block device, specified
++ * by the "file" module parameter. Access can be limited to read-only by
++ * setting the optional "ro" module parameter. (For CD-ROM emulation,
++ * access is always read-only.) The gadget will indicate that it has
++ * removable media if the optional "removable" module parameter is set.
++ *
++ * The gadget supports the Control-Bulk (CB), Control-Bulk-Interrupt (CBI),
++ * and Bulk-Only (also known as Bulk-Bulk-Bulk or BBB) transports, selected
++ * by the optional "transport" module parameter. It also supports the
++ * following protocols: RBC (0x01), ATAPI or SFF-8020i (0x02), QIC-157 (0c03),
++ * UFI (0x04), SFF-8070i (0x05), and transparent SCSI (0x06), selected by
++ * the optional "protocol" module parameter. In addition, the default
++ * Vendor ID, Product ID, release number and serial number can be overridden.
++ *
++ * There is support for multiple logical units (LUNs), each of which has
++ * its own backing file. The number of LUNs can be set using the optional
++ * "luns" module parameter (anywhere from 1 to 8), and the corresponding
++ * files are specified using comma-separated lists for "file" and "ro".
++ * The default number of LUNs is taken from the number of "file" elements;
++ * it is 1 if "file" is not given. If "removable" is not set then a backing
++ * file must be specified for each LUN. If it is set, then an unspecified
++ * or empty backing filename means the LUN's medium is not loaded. Ideally
++ * each LUN would be settable independently as a disk drive or a CD-ROM
++ * drive, but currently all LUNs have to be the same type. The CD-ROM
++ * emulation includes a single data track and no audio tracks; hence there
++ * need be only one backing file per LUN.
++ *
++ * Requirements are modest; only a bulk-in and a bulk-out endpoint are
++ * needed (an interrupt-out endpoint is also needed for CBI). The memory
++ * requirement amounts to two 16K buffers, size configurable by a parameter.
++ * Support is included for both full-speed and high-speed operation.
++ *
++ * Note that the driver is slightly non-portable in that it assumes a
++ * single memory/DMA buffer will be useable for bulk-in, bulk-out, and
++ * interrupt-in endpoints. With most device controllers this isn't an
++ * issue, but there may be some with hardware restrictions that prevent
++ * a buffer from being used by more than one endpoint.
++ *
++ * Module options:
++ *
++ * file=filename[,filename...]
++ * Required if "removable" is not set, names of
++ * the files or block devices used for
++ * backing storage
++ * serial=HHHH... Required serial number (string of hex chars)
++ * ro=b[,b...] Default false, booleans for read-only access
++ * removable Default false, boolean for removable media
++ * luns=N Default N = number of filenames, number of
++ * LUNs to support
++ * nofua=b[,b...] Default false, booleans for ignore FUA flag
++ * in SCSI WRITE(10,12) commands
++ * stall Default determined according to the type of
++ * USB device controller (usually true),
++ * boolean to permit the driver to halt
++ * bulk endpoints
++ * cdrom Default false, boolean for whether to emulate
++ * a CD-ROM drive
++ * transport=XXX Default BBB, transport name (CB, CBI, or BBB)
++ * protocol=YYY Default SCSI, protocol name (RBC, 8020 or
++ * ATAPI, QIC, UFI, 8070, or SCSI;
++ * also 1 - 6)
++ * vendor=0xVVVV Default 0x0525 (NetChip), USB Vendor ID
++ * product=0xPPPP Default 0xa4a5 (FSG), USB Product ID
++ * release=0xRRRR Override the USB release number (bcdDevice)
++ * buflen=N Default N=16384, buffer size used (will be
++ * rounded down to a multiple of
++ * PAGE_CACHE_SIZE)
++ *
++ * If CONFIG_USB_FILE_STORAGE_TEST is not set, only the "file", "serial", "ro",
++ * "removable", "luns", "nofua", "stall", and "cdrom" options are available;
++ * default values are used for everything else.
++ *
++ * The pathnames of the backing files and the ro settings are available in
++ * the attribute files "file", "nofua", and "ro" in the lun<n> subdirectory of
++ * the gadget's sysfs directory. If the "removable" option is set, writing to
++ * these files will simulate ejecting/loading the medium (writing an empty
++ * line means eject) and adjusting a write-enable tab. Changes to the ro
++ * setting are not allowed when the medium is loaded or if CD-ROM emulation
++ * is being used.
++ *
++ * This gadget driver is heavily based on "Gadget Zero" by David Brownell.
++ * The driver's SCSI command interface was based on the "Information
++ * technology - Small Computer System Interface - 2" document from
++ * X3T9.2 Project 375D, Revision 10L, 7-SEP-93, available at
++ * <http://www.t10.org/ftp/t10/drafts/s2/s2-r10l.pdf>. The single exception
++ * is opcode 0x23 (READ FORMAT CAPACITIES), which was based on the
++ * "Universal Serial Bus Mass Storage Class UFI Command Specification"
++ * document, Revision 1.0, December 14, 1998, available at
++ * <http://www.usb.org/developers/devclass_docs/usbmass-ufi10.pdf>.
++ */
++
++
++/*
++ * Driver Design
++ *
++ * The FSG driver is fairly straightforward. There is a main kernel
++ * thread that handles most of the work. Interrupt routines field
++ * callbacks from the controller driver: bulk- and interrupt-request
++ * completion notifications, endpoint-0 events, and disconnect events.
++ * Completion events are passed to the main thread by wakeup calls. Many
++ * ep0 requests are handled at interrupt time, but SetInterface,
++ * SetConfiguration, and device reset requests are forwarded to the
++ * thread in the form of "exceptions" using SIGUSR1 signals (since they
++ * should interrupt any ongoing file I/O operations).
++ *
++ * The thread's main routine implements the standard command/data/status
++ * parts of a SCSI interaction. It and its subroutines are full of tests
++ * for pending signals/exceptions -- all this polling is necessary since
++ * the kernel has no setjmp/longjmp equivalents. (Maybe this is an
++ * indication that the driver really wants to be running in userspace.)
++ * An important point is that so long as the thread is alive it keeps an
++ * open reference to the backing file. This will prevent unmounting
++ * the backing file's underlying filesystem and could cause problems
++ * during system shutdown, for example. To prevent such problems, the
++ * thread catches INT, TERM, and KILL signals and converts them into
++ * an EXIT exception.
++ *
++ * In normal operation the main thread is started during the gadget's
++ * fsg_bind() callback and stopped during fsg_unbind(). But it can also
++ * exit when it receives a signal, and there's no point leaving the
++ * gadget running when the thread is dead. So just before the thread
++ * exits, it deregisters the gadget driver. This makes things a little
++ * tricky: The driver is deregistered at two places, and the exiting
++ * thread can indirectly call fsg_unbind() which in turn can tell the
++ * thread to exit. The first problem is resolved through the use of the
++ * REGISTERED atomic bitflag; the driver will only be deregistered once.
++ * The second problem is resolved by having fsg_unbind() check
++ * fsg->state; it won't try to stop the thread if the state is already
++ * FSG_STATE_TERMINATED.
++ *
++ * To provide maximum throughput, the driver uses a circular pipeline of
++ * buffer heads (struct fsg_buffhd). In principle the pipeline can be
++ * arbitrarily long; in practice the benefits don't justify having more
++ * than 2 stages (i.e., double buffering). But it helps to think of the
++ * pipeline as being a long one. Each buffer head contains a bulk-in and
++ * a bulk-out request pointer (since the buffer can be used for both
++ * output and input -- directions always are given from the host's
++ * point of view) as well as a pointer to the buffer and various state
++ * variables.
++ *
++ * Use of the pipeline follows a simple protocol. There is a variable
++ * (fsg->next_buffhd_to_fill) that points to the next buffer head to use.
++ * At any time that buffer head may still be in use from an earlier
++ * request, so each buffer head has a state variable indicating whether
++ * it is EMPTY, FULL, or BUSY. Typical use involves waiting for the
++ * buffer head to be EMPTY, filling the buffer either by file I/O or by
++ * USB I/O (during which the buffer head is BUSY), and marking the buffer
++ * head FULL when the I/O is complete. Then the buffer will be emptied
++ * (again possibly by USB I/O, during which it is marked BUSY) and
++ * finally marked EMPTY again (possibly by a completion routine).
++ *
++ * A module parameter tells the driver to avoid stalling the bulk
++ * endpoints wherever the transport specification allows. This is
++ * necessary for some UDCs like the SuperH, which cannot reliably clear a
++ * halt on a bulk endpoint. However, under certain circumstances the
++ * Bulk-only specification requires a stall. In such cases the driver
++ * will halt the endpoint and set a flag indicating that it should clear
++ * the halt in software during the next device reset. Hopefully this
++ * will permit everything to work correctly. Furthermore, although the
++ * specification allows the bulk-out endpoint to halt when the host sends
++ * too much data, implementing this would cause an unavoidable race.
++ * The driver will always use the "no-stall" approach for OUT transfers.
++ *
++ * One subtle point concerns sending status-stage responses for ep0
++ * requests. Some of these requests, such as device reset, can involve
++ * interrupting an ongoing file I/O operation, which might take an
++ * arbitrarily long time. During that delay the host might give up on
++ * the original ep0 request and issue a new one. When that happens the
++ * driver should not notify the host about completion of the original
++ * request, as the host will no longer be waiting for it. So the driver
++ * assigns to each ep0 request a unique tag, and it keeps track of the
++ * tag value of the request associated with a long-running exception
++ * (device-reset, interface-change, or configuration-change). When the
++ * exception handler is finished, the status-stage response is submitted
++ * only if the current ep0 request tag is equal to the exception request
++ * tag. Thus only the most recently received ep0 request will get a
++ * status-stage response.
++ *
++ * Warning: This driver source file is too long. It ought to be split up
++ * into a header file plus about 3 separate .c files, to handle the details
++ * of the Gadget, USB Mass Storage, and SCSI protocols.
++ */
++
++
++/* #define VERBOSE_DEBUG */
++/* #define DUMP_MSGS */
++
++
++#include <linux/blkdev.h>
++#include <linux/completion.h>
++#include <linux/dcache.h>
++#include <linux/delay.h>
++#include <linux/device.h>
++#include <linux/fcntl.h>
++#include <linux/file.h>
++#include <linux/fs.h>
++#include <linux/kref.h>
++#include <linux/kthread.h>
++#include <linux/limits.h>
++#include <linux/module.h>
++#include <linux/rwsem.h>
++#include <linux/slab.h>
++#include <linux/spinlock.h>
++#include <linux/string.h>
++#include <linux/freezer.h>
++#include <linux/utsname.h>
++
++#include <linux/usb/ch9.h>
++#include <linux/usb/gadget.h>
++
++#include "gadget_chips.h"
++
++
++
++/*
++ * Kbuild is not very cooperative with respect to linking separately
++ * compiled library objects into one module. So for now we won't use
++ * separate compilation ... ensuring init/exit sections work to shrink
++ * the runtime footprint, and giving us at least some parts of what
++ * a "gcc --combine ... part1.c part2.c part3.c ... " build would.
++ */
++#include "usbstring.c"
++#include "config.c"
++#include "epautoconf.c"
++
++/*-------------------------------------------------------------------------*/
++
++#define DRIVER_DESC "File-backed Storage Gadget"
++#define DRIVER_NAME "g_file_storage"
++#define DRIVER_VERSION "1 September 2010"
++
++static char fsg_string_manufacturer[64];
++static const char fsg_string_product[] = DRIVER_DESC;
++static const char fsg_string_config[] = "Self-powered";
++static const char fsg_string_interface[] = "Mass Storage";
++
++
++#include "storage_common.c"
++
++
++MODULE_DESCRIPTION(DRIVER_DESC);
++MODULE_AUTHOR("Alan Stern");
++MODULE_LICENSE("Dual BSD/GPL");
++
++/*
++ * This driver assumes self-powered hardware and has no way for users to
++ * trigger remote wakeup. It uses autoconfiguration to select endpoints
++ * and endpoint addresses.
++ */
++
++
++/*-------------------------------------------------------------------------*/
++
++
++/* Encapsulate the module parameter settings */
++
++static struct {
++ char *file[FSG_MAX_LUNS];
++ char *serial;
++ bool ro[FSG_MAX_LUNS];
++ bool nofua[FSG_MAX_LUNS];
++ unsigned int num_filenames;
++ unsigned int num_ros;
++ unsigned int num_nofuas;
++ unsigned int nluns;
++
++ bool removable;
++ bool can_stall;
++ bool cdrom;
++
++ char *transport_parm;
++ char *protocol_parm;
++ unsigned short vendor;
++ unsigned short product;
++ unsigned short release;
++ unsigned int buflen;
++
++ int transport_type;
++ char *transport_name;
++ int protocol_type;
++ char *protocol_name;
++
++} mod_data = { // Default values
++ .transport_parm = "BBB",
++ .protocol_parm = "SCSI",
++ .removable = 0,
++ .can_stall = 1,
++ .cdrom = 0,
++ .vendor = FSG_VENDOR_ID,
++ .product = FSG_PRODUCT_ID,
++ .release = 0xffff, // Use controller chip type
++ .buflen = 16384,
++ };
++
++
++module_param_array_named(file, mod_data.file, charp, &mod_data.num_filenames,
++ S_IRUGO);
++MODULE_PARM_DESC(file, "names of backing files or devices");
++
++module_param_named(serial, mod_data.serial, charp, S_IRUGO);
++MODULE_PARM_DESC(serial, "USB serial number");
++
++module_param_array_named(ro, mod_data.ro, bool, &mod_data.num_ros, S_IRUGO);
++MODULE_PARM_DESC(ro, "true to force read-only");
++
++module_param_array_named(nofua, mod_data.nofua, bool, &mod_data.num_nofuas,
++ S_IRUGO);
++MODULE_PARM_DESC(nofua, "true to ignore SCSI WRITE(10,12) FUA bit");
++
++module_param_named(luns, mod_data.nluns, uint, S_IRUGO);
++MODULE_PARM_DESC(luns, "number of LUNs");
++
++module_param_named(removable, mod_data.removable, bool, S_IRUGO);
++MODULE_PARM_DESC(removable, "true to simulate removable media");
++
++module_param_named(stall, mod_data.can_stall, bool, S_IRUGO);
++MODULE_PARM_DESC(stall, "false to prevent bulk stalls");
++
++module_param_named(cdrom, mod_data.cdrom, bool, S_IRUGO);
++MODULE_PARM_DESC(cdrom, "true to emulate cdrom instead of disk");
++
++/* In the non-TEST version, only the module parameters listed above
++ * are available. */
++#ifdef CONFIG_USB_FILE_STORAGE_TEST
++
++module_param_named(transport, mod_data.transport_parm, charp, S_IRUGO);
++MODULE_PARM_DESC(transport, "type of transport (BBB, CBI, or CB)");
++
++module_param_named(protocol, mod_data.protocol_parm, charp, S_IRUGO);
++MODULE_PARM_DESC(protocol, "type of protocol (RBC, 8020, QIC, UFI, "
++ "8070, or SCSI)");
++
++module_param_named(vendor, mod_data.vendor, ushort, S_IRUGO);
++MODULE_PARM_DESC(vendor, "USB Vendor ID");
++
++module_param_named(product, mod_data.product, ushort, S_IRUGO);
++MODULE_PARM_DESC(product, "USB Product ID");
++
++module_param_named(release, mod_data.release, ushort, S_IRUGO);
++MODULE_PARM_DESC(release, "USB release number");
++
++module_param_named(buflen, mod_data.buflen, uint, S_IRUGO);
++MODULE_PARM_DESC(buflen, "I/O buffer size");
++
++#endif /* CONFIG_USB_FILE_STORAGE_TEST */
++
++
++/*
++ * These definitions will permit the compiler to avoid generating code for
++ * parts of the driver that aren't used in the non-TEST version. Even gcc
++ * can recognize when a test of a constant expression yields a dead code
++ * path.
++ */
++
++#ifdef CONFIG_USB_FILE_STORAGE_TEST
++
++#define transport_is_bbb() (mod_data.transport_type == USB_PR_BULK)
++#define transport_is_cbi() (mod_data.transport_type == USB_PR_CBI)
++#define protocol_is_scsi() (mod_data.protocol_type == USB_SC_SCSI)
++
++#else
++
++#define transport_is_bbb() 1
++#define transport_is_cbi() 0
++#define protocol_is_scsi() 1
++
++#endif /* CONFIG_USB_FILE_STORAGE_TEST */
++
++
++/*-------------------------------------------------------------------------*/
++
++
++struct fsg_dev {
++ /* lock protects: state, all the req_busy's, and cbbuf_cmnd */
++ spinlock_t lock;
++ struct usb_gadget *gadget;
++
++ /* filesem protects: backing files in use */
++ struct rw_semaphore filesem;
++
++ /* reference counting: wait until all LUNs are released */
++ struct kref ref;
++
++ struct usb_ep *ep0; // Handy copy of gadget->ep0
++ struct usb_request *ep0req; // For control responses
++ unsigned int ep0_req_tag;
++ const char *ep0req_name;
++
++ struct usb_request *intreq; // For interrupt responses
++ int intreq_busy;
++ struct fsg_buffhd *intr_buffhd;
++
++ unsigned int bulk_out_maxpacket;
++ enum fsg_state state; // For exception handling
++ unsigned int exception_req_tag;
++
++ u8 config, new_config;
++
++ unsigned int running : 1;
++ unsigned int bulk_in_enabled : 1;
++ unsigned int bulk_out_enabled : 1;
++ unsigned int intr_in_enabled : 1;
++ unsigned int phase_error : 1;
++ unsigned int short_packet_received : 1;
++ unsigned int bad_lun_okay : 1;
++
++ unsigned long atomic_bitflags;
++#define REGISTERED 0
++#define IGNORE_BULK_OUT 1
++#define SUSPENDED 2
++
++ struct usb_ep *bulk_in;
++ struct usb_ep *bulk_out;
++ struct usb_ep *intr_in;
++
++ struct fsg_buffhd *next_buffhd_to_fill;
++ struct fsg_buffhd *next_buffhd_to_drain;
++
++ int thread_wakeup_needed;
++ struct completion thread_notifier;
++ struct task_struct *thread_task;
++
++ int cmnd_size;
++ u8 cmnd[MAX_COMMAND_SIZE];
++ enum data_direction data_dir;
++ u32 data_size;
++ u32 data_size_from_cmnd;
++ u32 tag;
++ unsigned int lun;
++ u32 residue;
++ u32 usb_amount_left;
++
++ /* The CB protocol offers no way for a host to know when a command
++ * has completed. As a result the next command may arrive early,
++ * and we will still have to handle it. For that reason we need
++ * a buffer to store new commands when using CB (or CBI, which
++ * does not oblige a host to wait for command completion either). */
++ int cbbuf_cmnd_size;
++ u8 cbbuf_cmnd[MAX_COMMAND_SIZE];
++
++ unsigned int nluns;
++ struct fsg_lun *luns;
++ struct fsg_lun *curlun;
++ /* Must be the last entry */
++ struct fsg_buffhd buffhds[];
++};
++
++typedef void (*fsg_routine_t)(struct fsg_dev *);
++
++static int exception_in_progress(struct fsg_dev *fsg)
++{
++ return (fsg->state > FSG_STATE_IDLE);
++}
++
++/* Make bulk-out requests be divisible by the maxpacket size */
++static void set_bulk_out_req_length(struct fsg_dev *fsg,
++ struct fsg_buffhd *bh, unsigned int length)
++{
++ unsigned int rem;
++
++ bh->bulk_out_intended_length = length;
++ rem = length % fsg->bulk_out_maxpacket;
++ if (rem > 0)
++ length += fsg->bulk_out_maxpacket - rem;
++ bh->outreq->length = length;
++}
++
++static struct fsg_dev *the_fsg;
++static struct usb_gadget_driver fsg_driver;
++
++
++/*-------------------------------------------------------------------------*/
++
++static int fsg_set_halt(struct fsg_dev *fsg, struct usb_ep *ep)
++{
++ const char *name;
++
++ if (ep == fsg->bulk_in)
++ name = "bulk-in";
++ else if (ep == fsg->bulk_out)
++ name = "bulk-out";
++ else
++ name = ep->name;
++ DBG(fsg, "%s set halt\n", name);
++ return usb_ep_set_halt(ep);
++}
++
++
++/*-------------------------------------------------------------------------*/
++
++/*
++ * DESCRIPTORS ... most are static, but strings and (full) configuration
++ * descriptors are built on demand. Also the (static) config and interface
++ * descriptors are adjusted during fsg_bind().
++ */
++
++/* There is only one configuration. */
++#define CONFIG_VALUE 1
++
++static struct usb_device_descriptor
++device_desc = {
++ .bLength = sizeof device_desc,
++ .bDescriptorType = USB_DT_DEVICE,
++
++ .bcdUSB = cpu_to_le16(0x0200),
++ .bDeviceClass = USB_CLASS_PER_INTERFACE,
++
++ /* The next three values can be overridden by module parameters */
++ .idVendor = cpu_to_le16(FSG_VENDOR_ID),
++ .idProduct = cpu_to_le16(FSG_PRODUCT_ID),
++ .bcdDevice = cpu_to_le16(0xffff),
++
++ .iManufacturer = FSG_STRING_MANUFACTURER,
++ .iProduct = FSG_STRING_PRODUCT,
++ .iSerialNumber = FSG_STRING_SERIAL,
++ .bNumConfigurations = 1,
++};
++
++static struct usb_config_descriptor
++config_desc = {
++ .bLength = sizeof config_desc,
++ .bDescriptorType = USB_DT_CONFIG,
++
++ /* wTotalLength computed by usb_gadget_config_buf() */
++ .bNumInterfaces = 1,
++ .bConfigurationValue = CONFIG_VALUE,
++ .iConfiguration = FSG_STRING_CONFIG,
++ .bmAttributes = USB_CONFIG_ATT_ONE | USB_CONFIG_ATT_SELFPOWER,
++ .bMaxPower = CONFIG_USB_GADGET_VBUS_DRAW / 2,
++};
++
++
++static struct usb_qualifier_descriptor
++dev_qualifier = {
++ .bLength = sizeof dev_qualifier,
++ .bDescriptorType = USB_DT_DEVICE_QUALIFIER,
++
++ .bcdUSB = cpu_to_le16(0x0200),
++ .bDeviceClass = USB_CLASS_PER_INTERFACE,
++
++ .bNumConfigurations = 1,
++};
++
++static int populate_bos(struct fsg_dev *fsg, u8 *buf)
++{
++ memcpy(buf, &fsg_bos_desc, USB_DT_BOS_SIZE);
++ buf += USB_DT_BOS_SIZE;
++
++ memcpy(buf, &fsg_ext_cap_desc, USB_DT_USB_EXT_CAP_SIZE);
++ buf += USB_DT_USB_EXT_CAP_SIZE;
++
++ memcpy(buf, &fsg_ss_cap_desc, USB_DT_USB_SS_CAP_SIZE);
++
++ return USB_DT_BOS_SIZE + USB_DT_USB_SS_CAP_SIZE
++ + USB_DT_USB_EXT_CAP_SIZE;
++}
++
++/*
++ * Config descriptors must agree with the code that sets configurations
++ * and with code managing interfaces and their altsettings. They must
++ * also handle different speeds and other-speed requests.
++ */
++static int populate_config_buf(struct usb_gadget *gadget,
++ u8 *buf, u8 type, unsigned index)
++{
++ enum usb_device_speed speed = gadget->speed;
++ int len;
++ const struct usb_descriptor_header **function;
++
++ if (index > 0)
++ return -EINVAL;
++
++ if (gadget_is_dualspeed(gadget) && type == USB_DT_OTHER_SPEED_CONFIG)
++ speed = (USB_SPEED_FULL + USB_SPEED_HIGH) - speed;
++ function = gadget_is_dualspeed(gadget) && speed == USB_SPEED_HIGH
++ ? (const struct usb_descriptor_header **)fsg_hs_function
++ : (const struct usb_descriptor_header **)fsg_fs_function;
++
++ /* for now, don't advertise srp-only devices */
++ if (!gadget_is_otg(gadget))
++ function++;
++
++ len = usb_gadget_config_buf(&config_desc, buf, EP0_BUFSIZE, function);
++ ((struct usb_config_descriptor *) buf)->bDescriptorType = type;
++ return len;
++}
++
++
++/*-------------------------------------------------------------------------*/
++
++/* These routines may be called in process context or in_irq */
++
++/* Caller must hold fsg->lock */
++static void wakeup_thread(struct fsg_dev *fsg)
++{
++ /* Tell the main thread that something has happened */
++ fsg->thread_wakeup_needed = 1;
++ if (fsg->thread_task)
++ wake_up_process(fsg->thread_task);
++}
++
++
++static void raise_exception(struct fsg_dev *fsg, enum fsg_state new_state)
++{
++ unsigned long flags;
++
++ /* Do nothing if a higher-priority exception is already in progress.
++ * If a lower-or-equal priority exception is in progress, preempt it
++ * and notify the main thread by sending it a signal. */
++ spin_lock_irqsave(&fsg->lock, flags);
++ if (fsg->state <= new_state) {
++ fsg->exception_req_tag = fsg->ep0_req_tag;
++ fsg->state = new_state;
++ if (fsg->thread_task)
++ send_sig_info(SIGUSR1, SEND_SIG_FORCED,
++ fsg->thread_task);
++ }
++ spin_unlock_irqrestore(&fsg->lock, flags);
++}
++
++
++/*-------------------------------------------------------------------------*/
++
++/* The disconnect callback and ep0 routines. These always run in_irq,
++ * except that ep0_queue() is called in the main thread to acknowledge
++ * completion of various requests: set config, set interface, and
++ * Bulk-only device reset. */
++
++static void fsg_disconnect(struct usb_gadget *gadget)
++{
++ struct fsg_dev *fsg = get_gadget_data(gadget);
++
++ DBG(fsg, "disconnect or port reset\n");
++ raise_exception(fsg, FSG_STATE_DISCONNECT);
++}
++
++
++static int ep0_queue(struct fsg_dev *fsg)
++{
++ int rc;
++
++ rc = usb_ep_queue(fsg->ep0, fsg->ep0req, GFP_ATOMIC);
++ if (rc != 0 && rc != -ESHUTDOWN) {
++
++ /* We can't do much more than wait for a reset */
++ WARNING(fsg, "error in submission: %s --> %d\n",
++ fsg->ep0->name, rc);
++ }
++ return rc;
++}
++
++static void ep0_complete(struct usb_ep *ep, struct usb_request *req)
++{
++ struct fsg_dev *fsg = ep->driver_data;
++
++ if (req->actual > 0)
++ dump_msg(fsg, fsg->ep0req_name, req->buf, req->actual);
++ if (req->status || req->actual != req->length)
++ DBG(fsg, "%s --> %d, %u/%u\n", __func__,
++ req->status, req->actual, req->length);
++ if (req->status == -ECONNRESET) // Request was cancelled
++ usb_ep_fifo_flush(ep);
++
++ if (req->status == 0 && req->context)
++ ((fsg_routine_t) (req->context))(fsg);
++}
++
++
++/*-------------------------------------------------------------------------*/
++
++/* Bulk and interrupt endpoint completion handlers.
++ * These always run in_irq. */
++
++static void bulk_in_complete(struct usb_ep *ep, struct usb_request *req)
++{
++ struct fsg_dev *fsg = ep->driver_data;
++ struct fsg_buffhd *bh = req->context;
++
++ if (req->status || req->actual != req->length)
++ DBG(fsg, "%s --> %d, %u/%u\n", __func__,
++ req->status, req->actual, req->length);
++ if (req->status == -ECONNRESET) // Request was cancelled
++ usb_ep_fifo_flush(ep);
++
++ /* Hold the lock while we update the request and buffer states */
++ smp_wmb();
++ spin_lock(&fsg->lock);
++ bh->inreq_busy = 0;
++ bh->state = BUF_STATE_EMPTY;
++ wakeup_thread(fsg);
++ spin_unlock(&fsg->lock);
++}
++
++static void bulk_out_complete(struct usb_ep *ep, struct usb_request *req)
++{
++ struct fsg_dev *fsg = ep->driver_data;
++ struct fsg_buffhd *bh = req->context;
++
++ dump_msg(fsg, "bulk-out", req->buf, req->actual);
++ if (req->status || req->actual != bh->bulk_out_intended_length)
++ DBG(fsg, "%s --> %d, %u/%u\n", __func__,
++ req->status, req->actual,
++ bh->bulk_out_intended_length);
++ if (req->status == -ECONNRESET) // Request was cancelled
++ usb_ep_fifo_flush(ep);
++
++ /* Hold the lock while we update the request and buffer states */
++ smp_wmb();
++ spin_lock(&fsg->lock);
++ bh->outreq_busy = 0;
++ bh->state = BUF_STATE_FULL;
++ wakeup_thread(fsg);
++ spin_unlock(&fsg->lock);
++}
++
++
++#ifdef CONFIG_USB_FILE_STORAGE_TEST
++static void intr_in_complete(struct usb_ep *ep, struct usb_request *req)
++{
++ struct fsg_dev *fsg = ep->driver_data;
++ struct fsg_buffhd *bh = req->context;
++
++ if (req->status || req->actual != req->length)
++ DBG(fsg, "%s --> %d, %u/%u\n", __func__,
++ req->status, req->actual, req->length);
++ if (req->status == -ECONNRESET) // Request was cancelled
++ usb_ep_fifo_flush(ep);
++
++ /* Hold the lock while we update the request and buffer states */
++ smp_wmb();
++ spin_lock(&fsg->lock);
++ fsg->intreq_busy = 0;
++ bh->state = BUF_STATE_EMPTY;
++ wakeup_thread(fsg);
++ spin_unlock(&fsg->lock);
++}
++
++#else
++static void intr_in_complete(struct usb_ep *ep, struct usb_request *req)
++{}
++#endif /* CONFIG_USB_FILE_STORAGE_TEST */
++
++
++/*-------------------------------------------------------------------------*/
++
++/* Ep0 class-specific handlers. These always run in_irq. */
++
++#ifdef CONFIG_USB_FILE_STORAGE_TEST
++static void received_cbi_adsc(struct fsg_dev *fsg, struct fsg_buffhd *bh)
++{
++ struct usb_request *req = fsg->ep0req;
++ static u8 cbi_reset_cmnd[6] = {
++ SEND_DIAGNOSTIC, 4, 0xff, 0xff, 0xff, 0xff};
++
++ /* Error in command transfer? */
++ if (req->status || req->length != req->actual ||
++ req->actual < 6 || req->actual > MAX_COMMAND_SIZE) {
++
++ /* Not all controllers allow a protocol stall after
++ * receiving control-out data, but we'll try anyway. */
++ fsg_set_halt(fsg, fsg->ep0);
++ return; // Wait for reset
++ }
++
++ /* Is it the special reset command? */
++ if (req->actual >= sizeof cbi_reset_cmnd &&
++ memcmp(req->buf, cbi_reset_cmnd,
++ sizeof cbi_reset_cmnd) == 0) {
++
++ /* Raise an exception to stop the current operation
++ * and reinitialize our state. */
++ DBG(fsg, "cbi reset request\n");
++ raise_exception(fsg, FSG_STATE_RESET);
++ return;
++ }
++
++ VDBG(fsg, "CB[I] accept device-specific command\n");
++ spin_lock(&fsg->lock);
++
++ /* Save the command for later */
++ if (fsg->cbbuf_cmnd_size)
++ WARNING(fsg, "CB[I] overwriting previous command\n");
++ fsg->cbbuf_cmnd_size = req->actual;
++ memcpy(fsg->cbbuf_cmnd, req->buf, fsg->cbbuf_cmnd_size);
++
++ wakeup_thread(fsg);
++ spin_unlock(&fsg->lock);
++}
++
++#else
++static void received_cbi_adsc(struct fsg_dev *fsg, struct fsg_buffhd *bh)
++{}
++#endif /* CONFIG_USB_FILE_STORAGE_TEST */
++
++
++static int class_setup_req(struct fsg_dev *fsg,
++ const struct usb_ctrlrequest *ctrl)
++{
++ struct usb_request *req = fsg->ep0req;
++ int value = -EOPNOTSUPP;
++ u16 w_index = le16_to_cpu(ctrl->wIndex);
++ u16 w_value = le16_to_cpu(ctrl->wValue);
++ u16 w_length = le16_to_cpu(ctrl->wLength);
++
++ if (!fsg->config)
++ return value;
++
++ /* Handle Bulk-only class-specific requests */
++ if (transport_is_bbb()) {
++ switch (ctrl->bRequest) {
++
++ case US_BULK_RESET_REQUEST:
++ if (ctrl->bRequestType != (USB_DIR_OUT |
++ USB_TYPE_CLASS | USB_RECIP_INTERFACE))
++ break;
++ if (w_index != 0 || w_value != 0 || w_length != 0) {
++ value = -EDOM;
++ break;
++ }
++
++ /* Raise an exception to stop the current operation
++ * and reinitialize our state. */
++ DBG(fsg, "bulk reset request\n");
++ raise_exception(fsg, FSG_STATE_RESET);
++ value = DELAYED_STATUS;
++ break;
++
++ case US_BULK_GET_MAX_LUN:
++ if (ctrl->bRequestType != (USB_DIR_IN |
++ USB_TYPE_CLASS | USB_RECIP_INTERFACE))
++ break;
++ if (w_index != 0 || w_value != 0 || w_length != 1) {
++ value = -EDOM;
++ break;
++ }
++ VDBG(fsg, "get max LUN\n");
++ *(u8 *) req->buf = fsg->nluns - 1;
++ value = 1;
++ break;
++ }
++ }
++
++ /* Handle CBI class-specific requests */
++ else {
++ switch (ctrl->bRequest) {
++
++ case USB_CBI_ADSC_REQUEST:
++ if (ctrl->bRequestType != (USB_DIR_OUT |
++ USB_TYPE_CLASS | USB_RECIP_INTERFACE))
++ break;
++ if (w_index != 0 || w_value != 0) {
++ value = -EDOM;
++ break;
++ }
++ if (w_length > MAX_COMMAND_SIZE) {
++ value = -EOVERFLOW;
++ break;
++ }
++ value = w_length;
++ fsg->ep0req->context = received_cbi_adsc;
++ break;
++ }
++ }
++
++ if (value == -EOPNOTSUPP)
++ VDBG(fsg,
++ "unknown class-specific control req "
++ "%02x.%02x v%04x i%04x l%u\n",
++ ctrl->bRequestType, ctrl->bRequest,
++ le16_to_cpu(ctrl->wValue), w_index, w_length);
++ return value;
++}
++
++
++/*-------------------------------------------------------------------------*/
++
++/* Ep0 standard request handlers. These always run in_irq. */
++
++static int standard_setup_req(struct fsg_dev *fsg,
++ const struct usb_ctrlrequest *ctrl)
++{
++ struct usb_request *req = fsg->ep0req;
++ int value = -EOPNOTSUPP;
++ u16 w_index = le16_to_cpu(ctrl->wIndex);
++ u16 w_value = le16_to_cpu(ctrl->wValue);
++
++ /* Usually this just stores reply data in the pre-allocated ep0 buffer,
++ * but config change events will also reconfigure hardware. */
++ switch (ctrl->bRequest) {
++
++ case USB_REQ_GET_DESCRIPTOR:
++ if (ctrl->bRequestType != (USB_DIR_IN | USB_TYPE_STANDARD |
++ USB_RECIP_DEVICE))
++ break;
++ switch (w_value >> 8) {
++
++ case USB_DT_DEVICE:
++ VDBG(fsg, "get device descriptor\n");
++ device_desc.bMaxPacketSize0 = fsg->ep0->maxpacket;
++ value = sizeof device_desc;
++ memcpy(req->buf, &device_desc, value);
++ break;
++ case USB_DT_DEVICE_QUALIFIER:
++ VDBG(fsg, "get device qualifier\n");
++ if (!gadget_is_dualspeed(fsg->gadget) ||
++ fsg->gadget->speed == USB_SPEED_SUPER)
++ break;
++ /*
++ * Assume ep0 uses the same maxpacket value for both
++ * speeds
++ */
++ dev_qualifier.bMaxPacketSize0 = fsg->ep0->maxpacket;
++ value = sizeof dev_qualifier;
++ memcpy(req->buf, &dev_qualifier, value);
++ break;
++
++ case USB_DT_OTHER_SPEED_CONFIG:
++ VDBG(fsg, "get other-speed config descriptor\n");
++ if (!gadget_is_dualspeed(fsg->gadget) ||
++ fsg->gadget->speed == USB_SPEED_SUPER)
++ break;
++ goto get_config;
++ case USB_DT_CONFIG:
++ VDBG(fsg, "get configuration descriptor\n");
++get_config:
++ value = populate_config_buf(fsg->gadget,
++ req->buf,
++ w_value >> 8,
++ w_value & 0xff);
++ break;
++
++ case USB_DT_STRING:
++ VDBG(fsg, "get string descriptor\n");
++
++ /* wIndex == language code */
++ value = usb_gadget_get_string(&fsg_stringtab,
++ w_value & 0xff, req->buf);
++ break;
++
++ case USB_DT_BOS:
++ VDBG(fsg, "get bos descriptor\n");
++
++ if (gadget_is_superspeed(fsg->gadget))
++ value = populate_bos(fsg, req->buf);
++ break;
++ }
++
++ break;
++
++ /* One config, two speeds */
++ case USB_REQ_SET_CONFIGURATION:
++ if (ctrl->bRequestType != (USB_DIR_OUT | USB_TYPE_STANDARD |
++ USB_RECIP_DEVICE))
++ break;
++ VDBG(fsg, "set configuration\n");
++ if (w_value == CONFIG_VALUE || w_value == 0) {
++ fsg->new_config = w_value;
++
++ /* Raise an exception to wipe out previous transaction
++ * state (queued bufs, etc) and set the new config. */
++ raise_exception(fsg, FSG_STATE_CONFIG_CHANGE);
++ value = DELAYED_STATUS;
++ }
++ break;
++ case USB_REQ_GET_CONFIGURATION:
++ if (ctrl->bRequestType != (USB_DIR_IN | USB_TYPE_STANDARD |
++ USB_RECIP_DEVICE))
++ break;
++ VDBG(fsg, "get configuration\n");
++ *(u8 *) req->buf = fsg->config;
++ value = 1;
++ break;
++
++ case USB_REQ_SET_INTERFACE:
++ if (ctrl->bRequestType != (USB_DIR_OUT| USB_TYPE_STANDARD |
++ USB_RECIP_INTERFACE))
++ break;
++ if (fsg->config && w_index == 0) {
++
++ /* Raise an exception to wipe out previous transaction
++ * state (queued bufs, etc) and install the new
++ * interface altsetting. */
++ raise_exception(fsg, FSG_STATE_INTERFACE_CHANGE);
++ value = DELAYED_STATUS;
++ }
++ break;
++ case USB_REQ_GET_INTERFACE:
++ if (ctrl->bRequestType != (USB_DIR_IN | USB_TYPE_STANDARD |
++ USB_RECIP_INTERFACE))
++ break;
++ if (!fsg->config)
++ break;
++ if (w_index != 0) {
++ value = -EDOM;
++ break;
++ }
++ VDBG(fsg, "get interface\n");
++ *(u8 *) req->buf = 0;
++ value = 1;
++ break;
++
++ default:
++ VDBG(fsg,
++ "unknown control req %02x.%02x v%04x i%04x l%u\n",
++ ctrl->bRequestType, ctrl->bRequest,
++ w_value, w_index, le16_to_cpu(ctrl->wLength));
++ }
++
++ return value;
++}
++
++
++static int fsg_setup(struct usb_gadget *gadget,
++ const struct usb_ctrlrequest *ctrl)
++{
++ struct fsg_dev *fsg = get_gadget_data(gadget);
++ int rc;
++ int w_length = le16_to_cpu(ctrl->wLength);
++
++ ++fsg->ep0_req_tag; // Record arrival of a new request
++ fsg->ep0req->context = NULL;
++ fsg->ep0req->length = 0;
++ dump_msg(fsg, "ep0-setup", (u8 *) ctrl, sizeof(*ctrl));
++
++ if ((ctrl->bRequestType & USB_TYPE_MASK) == USB_TYPE_CLASS)
++ rc = class_setup_req(fsg, ctrl);
++ else
++ rc = standard_setup_req(fsg, ctrl);
++
++ /* Respond with data/status or defer until later? */
++ if (rc >= 0 && rc != DELAYED_STATUS) {
++ rc = min(rc, w_length);
++ fsg->ep0req->length = rc;
++ fsg->ep0req->zero = rc < w_length;
++ fsg->ep0req_name = (ctrl->bRequestType & USB_DIR_IN ?
++ "ep0-in" : "ep0-out");
++ rc = ep0_queue(fsg);
++ }
++
++ /* Device either stalls (rc < 0) or reports success */
++ return rc;
++}
++
++
++/*-------------------------------------------------------------------------*/
++
++/* All the following routines run in process context */
++
++
++/* Use this for bulk or interrupt transfers, not ep0 */
++static void start_transfer(struct fsg_dev *fsg, struct usb_ep *ep,
++ struct usb_request *req, int *pbusy,
++ enum fsg_buffer_state *state)
++{
++ int rc;
++
++ if (ep == fsg->bulk_in)
++ dump_msg(fsg, "bulk-in", req->buf, req->length);
++ else if (ep == fsg->intr_in)
++ dump_msg(fsg, "intr-in", req->buf, req->length);
++
++ spin_lock_irq(&fsg->lock);
++ *pbusy = 1;
++ *state = BUF_STATE_BUSY;
++ spin_unlock_irq(&fsg->lock);
++ rc = usb_ep_queue(ep, req, GFP_KERNEL);
++ if (rc != 0) {
++ *pbusy = 0;
++ *state = BUF_STATE_EMPTY;
++
++ /* We can't do much more than wait for a reset */
++
++ /* Note: currently the net2280 driver fails zero-length
++ * submissions if DMA is enabled. */
++ if (rc != -ESHUTDOWN && !(rc == -EOPNOTSUPP &&
++ req->length == 0))
++ WARNING(fsg, "error in submission: %s --> %d\n",
++ ep->name, rc);
++ }
++}
++
++
++static int sleep_thread(struct fsg_dev *fsg)
++{
++ int rc = 0;
++
++ /* Wait until a signal arrives or we are woken up */
++ for (;;) {
++ try_to_freeze();
++ set_current_state(TASK_INTERRUPTIBLE);
++ if (signal_pending(current)) {
++ rc = -EINTR;
++ break;
++ }
++ if (fsg->thread_wakeup_needed)
++ break;
++ schedule();
++ }
++ __set_current_state(TASK_RUNNING);
++ fsg->thread_wakeup_needed = 0;
++ return rc;
++}
++
++
++/*-------------------------------------------------------------------------*/
++
++static int do_read(struct fsg_dev *fsg)
++{
++ struct fsg_lun *curlun = fsg->curlun;
++ u32 lba;
++ struct fsg_buffhd *bh;
++ int rc;
++ u32 amount_left;
++ loff_t file_offset, file_offset_tmp;
++ unsigned int amount;
++ ssize_t nread;
++
++ /* Get the starting Logical Block Address and check that it's
++ * not too big */
++ if (fsg->cmnd[0] == READ_6)
++ lba = get_unaligned_be24(&fsg->cmnd[1]);
++ else {
++ lba = get_unaligned_be32(&fsg->cmnd[2]);
++
++ /* We allow DPO (Disable Page Out = don't save data in the
++ * cache) and FUA (Force Unit Access = don't read from the
++ * cache), but we don't implement them. */
++ if ((fsg->cmnd[1] & ~0x18) != 0) {
++ curlun->sense_data = SS_INVALID_FIELD_IN_CDB;
++ return -EINVAL;
++ }
++ }
++ if (lba >= curlun->num_sectors) {
++ curlun->sense_data = SS_LOGICAL_BLOCK_ADDRESS_OUT_OF_RANGE;
++ return -EINVAL;
++ }
++ file_offset = ((loff_t) lba) << curlun->blkbits;
++
++ /* Carry out the file reads */
++ amount_left = fsg->data_size_from_cmnd;
++ if (unlikely(amount_left == 0))
++ return -EIO; // No default reply
++
++ for (;;) {
++
++ /* Figure out how much we need to read:
++ * Try to read the remaining amount.
++ * But don't read more than the buffer size.
++ * And don't try to read past the end of the file.
++ */
++ amount = min((unsigned int) amount_left, mod_data.buflen);
++ amount = min((loff_t) amount,
++ curlun->file_length - file_offset);
++
++ /* Wait for the next buffer to become available */
++ bh = fsg->next_buffhd_to_fill;
++ while (bh->state != BUF_STATE_EMPTY) {
++ rc = sleep_thread(fsg);
++ if (rc)
++ return rc;
++ }
++
++ /* If we were asked to read past the end of file,
++ * end with an empty buffer. */
++ if (amount == 0) {
++ curlun->sense_data =
++ SS_LOGICAL_BLOCK_ADDRESS_OUT_OF_RANGE;
++ curlun->sense_data_info = file_offset >> curlun->blkbits;
++ curlun->info_valid = 1;
++ bh->inreq->length = 0;
++ bh->state = BUF_STATE_FULL;
++ break;
++ }
++
++ /* Perform the read */
++ file_offset_tmp = file_offset;
++ nread = vfs_read(curlun->filp,
++ (char __user *) bh->buf,
++ amount, &file_offset_tmp);
++ VLDBG(curlun, "file read %u @ %llu -> %d\n", amount,
++ (unsigned long long) file_offset,
++ (int) nread);
++ if (signal_pending(current))
++ return -EINTR;
++
++ if (nread < 0) {
++ LDBG(curlun, "error in file read: %d\n",
++ (int) nread);
++ nread = 0;
++ } else if (nread < amount) {
++ LDBG(curlun, "partial file read: %d/%u\n",
++ (int) nread, amount);
++ nread = round_down(nread, curlun->blksize);
++ }
++ file_offset += nread;
++ amount_left -= nread;
++ fsg->residue -= nread;
++
++ /* Except at the end of the transfer, nread will be
++ * equal to the buffer size, which is divisible by the
++ * bulk-in maxpacket size.
++ */
++ bh->inreq->length = nread;
++ bh->state = BUF_STATE_FULL;
++
++ /* If an error occurred, report it and its position */
++ if (nread < amount) {
++ curlun->sense_data = SS_UNRECOVERED_READ_ERROR;
++ curlun->sense_data_info = file_offset >> curlun->blkbits;
++ curlun->info_valid = 1;
++ break;
++ }
++
++ if (amount_left == 0)
++ break; // No more left to read
++
++ /* Send this buffer and go read some more */
++ bh->inreq->zero = 0;
++ start_transfer(fsg, fsg->bulk_in, bh->inreq,
++ &bh->inreq_busy, &bh->state);
++ fsg->next_buffhd_to_fill = bh->next;
++ }
++
++ return -EIO; // No default reply
++}
++
++
++/*-------------------------------------------------------------------------*/
++
++static int do_write(struct fsg_dev *fsg)
++{
++ struct fsg_lun *curlun = fsg->curlun;
++ u32 lba;
++ struct fsg_buffhd *bh;
++ int get_some_more;
++ u32 amount_left_to_req, amount_left_to_write;
++ loff_t usb_offset, file_offset, file_offset_tmp;
++ unsigned int amount;
++ ssize_t nwritten;
++ int rc;
++
++ if (curlun->ro) {
++ curlun->sense_data = SS_WRITE_PROTECTED;
++ return -EINVAL;
++ }
++ spin_lock(&curlun->filp->f_lock);
++ curlun->filp->f_flags &= ~O_SYNC; // Default is not to wait
++ spin_unlock(&curlun->filp->f_lock);
++
++ /* Get the starting Logical Block Address and check that it's
++ * not too big */
++ if (fsg->cmnd[0] == WRITE_6)
++ lba = get_unaligned_be24(&fsg->cmnd[1]);
++ else {
++ lba = get_unaligned_be32(&fsg->cmnd[2]);
++
++ /* We allow DPO (Disable Page Out = don't save data in the
++ * cache) and FUA (Force Unit Access = write directly to the
++ * medium). We don't implement DPO; we implement FUA by
++ * performing synchronous output. */
++ if ((fsg->cmnd[1] & ~0x18) != 0) {
++ curlun->sense_data = SS_INVALID_FIELD_IN_CDB;
++ return -EINVAL;
++ }
++ /* FUA */
++ if (!curlun->nofua && (fsg->cmnd[1] & 0x08)) {
++ spin_lock(&curlun->filp->f_lock);
++ curlun->filp->f_flags |= O_DSYNC;
++ spin_unlock(&curlun->filp->f_lock);
++ }
++ }
++ if (lba >= curlun->num_sectors) {
++ curlun->sense_data = SS_LOGICAL_BLOCK_ADDRESS_OUT_OF_RANGE;
++ return -EINVAL;
++ }
++
++ /* Carry out the file writes */
++ get_some_more = 1;
++ file_offset = usb_offset = ((loff_t) lba) << curlun->blkbits;
++ amount_left_to_req = amount_left_to_write = fsg->data_size_from_cmnd;
++
++ while (amount_left_to_write > 0) {
++
++ /* Queue a request for more data from the host */
++ bh = fsg->next_buffhd_to_fill;
++ if (bh->state == BUF_STATE_EMPTY && get_some_more) {
++
++ /* Figure out how much we want to get:
++ * Try to get the remaining amount,
++ * but not more than the buffer size.
++ */
++ amount = min(amount_left_to_req, mod_data.buflen);
++
++ /* Beyond the end of the backing file? */
++ if (usb_offset >= curlun->file_length) {
++ get_some_more = 0;
++ curlun->sense_data =
++ SS_LOGICAL_BLOCK_ADDRESS_OUT_OF_RANGE;
++ curlun->sense_data_info = usb_offset >> curlun->blkbits;
++ curlun->info_valid = 1;
++ continue;
++ }
++
++ /* Get the next buffer */
++ usb_offset += amount;
++ fsg->usb_amount_left -= amount;
++ amount_left_to_req -= amount;
++ if (amount_left_to_req == 0)
++ get_some_more = 0;
++
++ /* Except at the end of the transfer, amount will be
++ * equal to the buffer size, which is divisible by
++ * the bulk-out maxpacket size.
++ */
++ set_bulk_out_req_length(fsg, bh, amount);
++ start_transfer(fsg, fsg->bulk_out, bh->outreq,
++ &bh->outreq_busy, &bh->state);
++ fsg->next_buffhd_to_fill = bh->next;
++ continue;
++ }
++
++ /* Write the received data to the backing file */
++ bh = fsg->next_buffhd_to_drain;
++ if (bh->state == BUF_STATE_EMPTY && !get_some_more)
++ break; // We stopped early
++ if (bh->state == BUF_STATE_FULL) {
++ smp_rmb();
++ fsg->next_buffhd_to_drain = bh->next;
++ bh->state = BUF_STATE_EMPTY;
++
++ /* Did something go wrong with the transfer? */
++ if (bh->outreq->status != 0) {
++ curlun->sense_data = SS_COMMUNICATION_FAILURE;
++ curlun->sense_data_info = file_offset >> curlun->blkbits;
++ curlun->info_valid = 1;
++ break;
++ }
++
++ amount = bh->outreq->actual;
++ if (curlun->file_length - file_offset < amount) {
++ LERROR(curlun,
++ "write %u @ %llu beyond end %llu\n",
++ amount, (unsigned long long) file_offset,
++ (unsigned long long) curlun->file_length);
++ amount = curlun->file_length - file_offset;
++ }
++
++ /* Don't accept excess data. The spec doesn't say
++ * what to do in this case. We'll ignore the error.
++ */
++ amount = min(amount, bh->bulk_out_intended_length);
++
++ /* Don't write a partial block */
++ amount = round_down(amount, curlun->blksize);
++ if (amount == 0)
++ goto empty_write;
++
++ /* Perform the write */
++ file_offset_tmp = file_offset;
++ nwritten = vfs_write(curlun->filp,
++ (char __user *) bh->buf,
++ amount, &file_offset_tmp);
++ VLDBG(curlun, "file write %u @ %llu -> %d\n", amount,
++ (unsigned long long) file_offset,
++ (int) nwritten);
++ if (signal_pending(current))
++ return -EINTR; // Interrupted!
++
++ if (nwritten < 0) {
++ LDBG(curlun, "error in file write: %d\n",
++ (int) nwritten);
++ nwritten = 0;
++ } else if (nwritten < amount) {
++ LDBG(curlun, "partial file write: %d/%u\n",
++ (int) nwritten, amount);
++ nwritten = round_down(nwritten, curlun->blksize);
++ }
++ file_offset += nwritten;
++ amount_left_to_write -= nwritten;
++ fsg->residue -= nwritten;
++
++ /* If an error occurred, report it and its position */
++ if (nwritten < amount) {
++ curlun->sense_data = SS_WRITE_ERROR;
++ curlun->sense_data_info = file_offset >> curlun->blkbits;
++ curlun->info_valid = 1;
++ break;
++ }
++
++ empty_write:
++ /* Did the host decide to stop early? */
++ if (bh->outreq->actual < bh->bulk_out_intended_length) {
++ fsg->short_packet_received = 1;
++ break;
++ }
++ continue;
++ }
++
++ /* Wait for something to happen */
++ rc = sleep_thread(fsg);
++ if (rc)
++ return rc;
++ }
++
++ return -EIO; // No default reply
++}
++
++
++/*-------------------------------------------------------------------------*/
++
++static int do_synchronize_cache(struct fsg_dev *fsg)
++{
++ struct fsg_lun *curlun = fsg->curlun;
++ int rc;
++
++ /* We ignore the requested LBA and write out all file's
++ * dirty data buffers. */
++ rc = fsg_lun_fsync_sub(curlun);
++ if (rc)
++ curlun->sense_data = SS_WRITE_ERROR;
++ return 0;
++}
++
++
++/*-------------------------------------------------------------------------*/
++
++static void invalidate_sub(struct fsg_lun *curlun)
++{
++ struct file *filp = curlun->filp;
++ struct inode *inode = filp->f_path.dentry->d_inode;
++ unsigned long rc;
++
++ rc = invalidate_mapping_pages(inode->i_mapping, 0, -1);
++ VLDBG(curlun, "invalidate_mapping_pages -> %ld\n", rc);
++}
++
++static int do_verify(struct fsg_dev *fsg)
++{
++ struct fsg_lun *curlun = fsg->curlun;
++ u32 lba;
++ u32 verification_length;
++ struct fsg_buffhd *bh = fsg->next_buffhd_to_fill;
++ loff_t file_offset, file_offset_tmp;
++ u32 amount_left;
++ unsigned int amount;
++ ssize_t nread;
++
++ /* Get the starting Logical Block Address and check that it's
++ * not too big */
++ lba = get_unaligned_be32(&fsg->cmnd[2]);
++ if (lba >= curlun->num_sectors) {
++ curlun->sense_data = SS_LOGICAL_BLOCK_ADDRESS_OUT_OF_RANGE;
++ return -EINVAL;
++ }
++
++ /* We allow DPO (Disable Page Out = don't save data in the
++ * cache) but we don't implement it. */
++ if ((fsg->cmnd[1] & ~0x10) != 0) {
++ curlun->sense_data = SS_INVALID_FIELD_IN_CDB;
++ return -EINVAL;
++ }
++
++ verification_length = get_unaligned_be16(&fsg->cmnd[7]);
++ if (unlikely(verification_length == 0))
++ return -EIO; // No default reply
++
++ /* Prepare to carry out the file verify */
++ amount_left = verification_length << curlun->blkbits;
++ file_offset = ((loff_t) lba) << curlun->blkbits;
++
++ /* Write out all the dirty buffers before invalidating them */
++ fsg_lun_fsync_sub(curlun);
++ if (signal_pending(current))
++ return -EINTR;
++
++ invalidate_sub(curlun);
++ if (signal_pending(current))
++ return -EINTR;
++
++ /* Just try to read the requested blocks */
++ while (amount_left > 0) {
++
++ /* Figure out how much we need to read:
++ * Try to read the remaining amount, but not more than
++ * the buffer size.
++ * And don't try to read past the end of the file.
++ */
++ amount = min((unsigned int) amount_left, mod_data.buflen);
++ amount = min((loff_t) amount,
++ curlun->file_length - file_offset);
++ if (amount == 0) {
++ curlun->sense_data =
++ SS_LOGICAL_BLOCK_ADDRESS_OUT_OF_RANGE;
++ curlun->sense_data_info = file_offset >> curlun->blkbits;
++ curlun->info_valid = 1;
++ break;
++ }
++
++ /* Perform the read */
++ file_offset_tmp = file_offset;
++ nread = vfs_read(curlun->filp,
++ (char __user *) bh->buf,
++ amount, &file_offset_tmp);
++ VLDBG(curlun, "file read %u @ %llu -> %d\n", amount,
++ (unsigned long long) file_offset,
++ (int) nread);
++ if (signal_pending(current))
++ return -EINTR;
++
++ if (nread < 0) {
++ LDBG(curlun, "error in file verify: %d\n",
++ (int) nread);
++ nread = 0;
++ } else if (nread < amount) {
++ LDBG(curlun, "partial file verify: %d/%u\n",
++ (int) nread, amount);
++ nread = round_down(nread, curlun->blksize);
++ }
++ if (nread == 0) {
++ curlun->sense_data = SS_UNRECOVERED_READ_ERROR;
++ curlun->sense_data_info = file_offset >> curlun->blkbits;
++ curlun->info_valid = 1;
++ break;
++ }
++ file_offset += nread;
++ amount_left -= nread;
++ }
++ return 0;
++}
++
++
++/*-------------------------------------------------------------------------*/
++
++static int do_inquiry(struct fsg_dev *fsg, struct fsg_buffhd *bh)
++{
++ u8 *buf = (u8 *) bh->buf;
++
++ static char vendor_id[] = "Linux ";
++ static char product_disk_id[] = "File-Stor Gadget";
++ static char product_cdrom_id[] = "File-CD Gadget ";
++
++ if (!fsg->curlun) { // Unsupported LUNs are okay
++ fsg->bad_lun_okay = 1;
++ memset(buf, 0, 36);
++ buf[0] = 0x7f; // Unsupported, no device-type
++ buf[4] = 31; // Additional length
++ return 36;
++ }
++
++ memset(buf, 0, 8);
++ buf[0] = (mod_data.cdrom ? TYPE_ROM : TYPE_DISK);
++ if (mod_data.removable)
++ buf[1] = 0x80;
++ buf[2] = 2; // ANSI SCSI level 2
++ buf[3] = 2; // SCSI-2 INQUIRY data format
++ buf[4] = 31; // Additional length
++ // No special options
++ sprintf(buf + 8, "%-8s%-16s%04x", vendor_id,
++ (mod_data.cdrom ? product_cdrom_id :
++ product_disk_id),
++ mod_data.release);
++ return 36;
++}
++
++
++static int do_request_sense(struct fsg_dev *fsg, struct fsg_buffhd *bh)
++{
++ struct fsg_lun *curlun = fsg->curlun;
++ u8 *buf = (u8 *) bh->buf;
++ u32 sd, sdinfo;
++ int valid;
++
++ /*
++ * From the SCSI-2 spec., section 7.9 (Unit attention condition):
++ *
++ * If a REQUEST SENSE command is received from an initiator
++ * with a pending unit attention condition (before the target
++ * generates the contingent allegiance condition), then the
++ * target shall either:
++ * a) report any pending sense data and preserve the unit
++ * attention condition on the logical unit, or,
++ * b) report the unit attention condition, may discard any
++ * pending sense data, and clear the unit attention
++ * condition on the logical unit for that initiator.
++ *
++ * FSG normally uses option a); enable this code to use option b).
++ */
++#if 0
++ if (curlun && curlun->unit_attention_data != SS_NO_SENSE) {
++ curlun->sense_data = curlun->unit_attention_data;
++ curlun->unit_attention_data = SS_NO_SENSE;
++ }
++#endif
++
++ if (!curlun) { // Unsupported LUNs are okay
++ fsg->bad_lun_okay = 1;
++ sd = SS_LOGICAL_UNIT_NOT_SUPPORTED;
++ sdinfo = 0;
++ valid = 0;
++ } else {
++ sd = curlun->sense_data;
++ sdinfo = curlun->sense_data_info;
++ valid = curlun->info_valid << 7;
++ curlun->sense_data = SS_NO_SENSE;
++ curlun->sense_data_info = 0;
++ curlun->info_valid = 0;
++ }
++
++ memset(buf, 0, 18);
++ buf[0] = valid | 0x70; // Valid, current error
++ buf[2] = SK(sd);
++ put_unaligned_be32(sdinfo, &buf[3]); /* Sense information */
++ buf[7] = 18 - 8; // Additional sense length
++ buf[12] = ASC(sd);
++ buf[13] = ASCQ(sd);
++ return 18;
++}
++
++
++static int do_read_capacity(struct fsg_dev *fsg, struct fsg_buffhd *bh)
++{
++ struct fsg_lun *curlun = fsg->curlun;
++ u32 lba = get_unaligned_be32(&fsg->cmnd[2]);
++ int pmi = fsg->cmnd[8];
++ u8 *buf = (u8 *) bh->buf;
++
++ /* Check the PMI and LBA fields */
++ if (pmi > 1 || (pmi == 0 && lba != 0)) {
++ curlun->sense_data = SS_INVALID_FIELD_IN_CDB;
++ return -EINVAL;
++ }
++
++ put_unaligned_be32(curlun->num_sectors - 1, &buf[0]);
++ /* Max logical block */
++ put_unaligned_be32(curlun->blksize, &buf[4]); /* Block length */
++ return 8;
++}
++
++
++static int do_read_header(struct fsg_dev *fsg, struct fsg_buffhd *bh)
++{
++ struct fsg_lun *curlun = fsg->curlun;
++ int msf = fsg->cmnd[1] & 0x02;
++ u32 lba = get_unaligned_be32(&fsg->cmnd[2]);
++ u8 *buf = (u8 *) bh->buf;
++
++ if ((fsg->cmnd[1] & ~0x02) != 0) { /* Mask away MSF */
++ curlun->sense_data = SS_INVALID_FIELD_IN_CDB;
++ return -EINVAL;
++ }
++ if (lba >= curlun->num_sectors) {
++ curlun->sense_data = SS_LOGICAL_BLOCK_ADDRESS_OUT_OF_RANGE;
++ return -EINVAL;
++ }
++
++ memset(buf, 0, 8);
++ buf[0] = 0x01; /* 2048 bytes of user data, rest is EC */
++ store_cdrom_address(&buf[4], msf, lba);
++ return 8;
++}
++
++
++static int do_read_toc(struct fsg_dev *fsg, struct fsg_buffhd *bh)
++{
++ struct fsg_lun *curlun = fsg->curlun;
++ int msf = fsg->cmnd[1] & 0x02;
++ int start_track = fsg->cmnd[6];
++ u8 *buf = (u8 *) bh->buf;
++
++ if ((fsg->cmnd[1] & ~0x02) != 0 || /* Mask away MSF */
++ start_track > 1) {
++ curlun->sense_data = SS_INVALID_FIELD_IN_CDB;
++ return -EINVAL;
++ }
++
++ memset(buf, 0, 20);
++ buf[1] = (20-2); /* TOC data length */
++ buf[2] = 1; /* First track number */
++ buf[3] = 1; /* Last track number */
++ buf[5] = 0x16; /* Data track, copying allowed */
++ buf[6] = 0x01; /* Only track is number 1 */
++ store_cdrom_address(&buf[8], msf, 0);
++
++ buf[13] = 0x16; /* Lead-out track is data */
++ buf[14] = 0xAA; /* Lead-out track number */
++ store_cdrom_address(&buf[16], msf, curlun->num_sectors);
++ return 20;
++}
++
++
++static int do_mode_sense(struct fsg_dev *fsg, struct fsg_buffhd *bh)
++{
++ struct fsg_lun *curlun = fsg->curlun;
++ int mscmnd = fsg->cmnd[0];
++ u8 *buf = (u8 *) bh->buf;
++ u8 *buf0 = buf;
++ int pc, page_code;
++ int changeable_values, all_pages;
++ int valid_page = 0;
++ int len, limit;
++
++ if ((fsg->cmnd[1] & ~0x08) != 0) { // Mask away DBD
++ curlun->sense_data = SS_INVALID_FIELD_IN_CDB;
++ return -EINVAL;
++ }
++ pc = fsg->cmnd[2] >> 6;
++ page_code = fsg->cmnd[2] & 0x3f;
++ if (pc == 3) {
++ curlun->sense_data = SS_SAVING_PARAMETERS_NOT_SUPPORTED;
++ return -EINVAL;
++ }
++ changeable_values = (pc == 1);
++ all_pages = (page_code == 0x3f);
++
++ /* Write the mode parameter header. Fixed values are: default
++ * medium type, no cache control (DPOFUA), and no block descriptors.
++ * The only variable value is the WriteProtect bit. We will fill in
++ * the mode data length later. */
++ memset(buf, 0, 8);
++ if (mscmnd == MODE_SENSE) {
++ buf[2] = (curlun->ro ? 0x80 : 0x00); // WP, DPOFUA
++ buf += 4;
++ limit = 255;
++ } else { // MODE_SENSE_10
++ buf[3] = (curlun->ro ? 0x80 : 0x00); // WP, DPOFUA
++ buf += 8;
++ limit = 65535; // Should really be mod_data.buflen
++ }
++
++ /* No block descriptors */
++
++ /* The mode pages, in numerical order. The only page we support
++ * is the Caching page. */
++ if (page_code == 0x08 || all_pages) {
++ valid_page = 1;
++ buf[0] = 0x08; // Page code
++ buf[1] = 10; // Page length
++ memset(buf+2, 0, 10); // None of the fields are changeable
++
++ if (!changeable_values) {
++ buf[2] = 0x04; // Write cache enable,
++ // Read cache not disabled
++ // No cache retention priorities
++ put_unaligned_be16(0xffff, &buf[4]);
++ /* Don't disable prefetch */
++ /* Minimum prefetch = 0 */
++ put_unaligned_be16(0xffff, &buf[8]);
++ /* Maximum prefetch */
++ put_unaligned_be16(0xffff, &buf[10]);
++ /* Maximum prefetch ceiling */
++ }
++ buf += 12;
++ }
++
++ /* Check that a valid page was requested and the mode data length
++ * isn't too long. */
++ len = buf - buf0;
++ if (!valid_page || len > limit) {
++ curlun->sense_data = SS_INVALID_FIELD_IN_CDB;
++ return -EINVAL;
++ }
++
++ /* Store the mode data length */
++ if (mscmnd == MODE_SENSE)
++ buf0[0] = len - 1;
++ else
++ put_unaligned_be16(len - 2, buf0);
++ return len;
++}
++
++
++static int do_start_stop(struct fsg_dev *fsg)
++{
++ struct fsg_lun *curlun = fsg->curlun;
++ int loej, start;
++
++ if (!mod_data.removable) {
++ curlun->sense_data = SS_INVALID_COMMAND;
++ return -EINVAL;
++ }
++
++ // int immed = fsg->cmnd[1] & 0x01;
++ loej = fsg->cmnd[4] & 0x02;
++ start = fsg->cmnd[4] & 0x01;
++
++#ifdef CONFIG_USB_FILE_STORAGE_TEST
++ if ((fsg->cmnd[1] & ~0x01) != 0 || // Mask away Immed
++ (fsg->cmnd[4] & ~0x03) != 0) { // Mask LoEj, Start
++ curlun->sense_data = SS_INVALID_FIELD_IN_CDB;
++ return -EINVAL;
++ }
++
++ if (!start) {
++
++ /* Are we allowed to unload the media? */
++ if (curlun->prevent_medium_removal) {
++ LDBG(curlun, "unload attempt prevented\n");
++ curlun->sense_data = SS_MEDIUM_REMOVAL_PREVENTED;
++ return -EINVAL;
++ }
++ if (loej) { // Simulate an unload/eject
++ up_read(&fsg->filesem);
++ down_write(&fsg->filesem);
++ fsg_lun_close(curlun);
++ up_write(&fsg->filesem);
++ down_read(&fsg->filesem);
++ }
++ } else {
++
++ /* Our emulation doesn't support mounting; the medium is
++ * available for use as soon as it is loaded. */
++ if (!fsg_lun_is_open(curlun)) {
++ curlun->sense_data = SS_MEDIUM_NOT_PRESENT;
++ return -EINVAL;
++ }
++ }
++#endif
++ return 0;
++}
++
++
++static int do_prevent_allow(struct fsg_dev *fsg)
++{
++ struct fsg_lun *curlun = fsg->curlun;
++ int prevent;
++
++ if (!mod_data.removable) {
++ curlun->sense_data = SS_INVALID_COMMAND;
++ return -EINVAL;
++ }
++
++ prevent = fsg->cmnd[4] & 0x01;
++ if ((fsg->cmnd[4] & ~0x01) != 0) { // Mask away Prevent
++ curlun->sense_data = SS_INVALID_FIELD_IN_CDB;
++ return -EINVAL;
++ }
++
++ if (curlun->prevent_medium_removal && !prevent)
++ fsg_lun_fsync_sub(curlun);
++ curlun->prevent_medium_removal = prevent;
++ return 0;
++}
++
++
++static int do_read_format_capacities(struct fsg_dev *fsg,
++ struct fsg_buffhd *bh)
++{
++ struct fsg_lun *curlun = fsg->curlun;
++ u8 *buf = (u8 *) bh->buf;
++
++ buf[0] = buf[1] = buf[2] = 0;
++ buf[3] = 8; // Only the Current/Maximum Capacity Descriptor
++ buf += 4;
++
++ put_unaligned_be32(curlun->num_sectors, &buf[0]);
++ /* Number of blocks */
++ put_unaligned_be32(curlun->blksize, &buf[4]); /* Block length */
++ buf[4] = 0x02; /* Current capacity */
++ return 12;
++}
++
++
++static int do_mode_select(struct fsg_dev *fsg, struct fsg_buffhd *bh)
++{
++ struct fsg_lun *curlun = fsg->curlun;
++
++ /* We don't support MODE SELECT */
++ curlun->sense_data = SS_INVALID_COMMAND;
++ return -EINVAL;
++}
++
++
++/*-------------------------------------------------------------------------*/
++
++static int halt_bulk_in_endpoint(struct fsg_dev *fsg)
++{
++ int rc;
++
++ rc = fsg_set_halt(fsg, fsg->bulk_in);
++ if (rc == -EAGAIN)
++ VDBG(fsg, "delayed bulk-in endpoint halt\n");
++ while (rc != 0) {
++ if (rc != -EAGAIN) {
++ WARNING(fsg, "usb_ep_set_halt -> %d\n", rc);
++ rc = 0;
++ break;
++ }
++
++ /* Wait for a short time and then try again */
++ if (msleep_interruptible(100) != 0)
++ return -EINTR;
++ rc = usb_ep_set_halt(fsg->bulk_in);
++ }
++ return rc;
++}
++
++static int wedge_bulk_in_endpoint(struct fsg_dev *fsg)
++{
++ int rc;
++
++ DBG(fsg, "bulk-in set wedge\n");
++ rc = usb_ep_set_wedge(fsg->bulk_in);
++ if (rc == -EAGAIN)
++ VDBG(fsg, "delayed bulk-in endpoint wedge\n");
++ while (rc != 0) {
++ if (rc != -EAGAIN) {
++ WARNING(fsg, "usb_ep_set_wedge -> %d\n", rc);
++ rc = 0;
++ break;
++ }
++
++ /* Wait for a short time and then try again */
++ if (msleep_interruptible(100) != 0)
++ return -EINTR;
++ rc = usb_ep_set_wedge(fsg->bulk_in);
++ }
++ return rc;
++}
++
++static int throw_away_data(struct fsg_dev *fsg)
++{
++ struct fsg_buffhd *bh;
++ u32 amount;
++ int rc;
++
++ while ((bh = fsg->next_buffhd_to_drain)->state != BUF_STATE_EMPTY ||
++ fsg->usb_amount_left > 0) {
++
++ /* Throw away the data in a filled buffer */
++ if (bh->state == BUF_STATE_FULL) {
++ smp_rmb();
++ bh->state = BUF_STATE_EMPTY;
++ fsg->next_buffhd_to_drain = bh->next;
++
++ /* A short packet or an error ends everything */
++ if (bh->outreq->actual < bh->bulk_out_intended_length ||
++ bh->outreq->status != 0) {
++ raise_exception(fsg, FSG_STATE_ABORT_BULK_OUT);
++ return -EINTR;
++ }
++ continue;
++ }
++
++ /* Try to submit another request if we need one */
++ bh = fsg->next_buffhd_to_fill;
++ if (bh->state == BUF_STATE_EMPTY && fsg->usb_amount_left > 0) {
++ amount = min(fsg->usb_amount_left,
++ (u32) mod_data.buflen);
++
++ /* Except at the end of the transfer, amount will be
++ * equal to the buffer size, which is divisible by
++ * the bulk-out maxpacket size.
++ */
++ set_bulk_out_req_length(fsg, bh, amount);
++ start_transfer(fsg, fsg->bulk_out, bh->outreq,
++ &bh->outreq_busy, &bh->state);
++ fsg->next_buffhd_to_fill = bh->next;
++ fsg->usb_amount_left -= amount;
++ continue;
++ }
++
++ /* Otherwise wait for something to happen */
++ rc = sleep_thread(fsg);
++ if (rc)
++ return rc;
++ }
++ return 0;
++}
++
++
++static int finish_reply(struct fsg_dev *fsg)
++{
++ struct fsg_buffhd *bh = fsg->next_buffhd_to_fill;
++ int rc = 0;
++
++ switch (fsg->data_dir) {
++ case DATA_DIR_NONE:
++ break; // Nothing to send
++
++ /* If we don't know whether the host wants to read or write,
++ * this must be CB or CBI with an unknown command. We mustn't
++ * try to send or receive any data. So stall both bulk pipes
++ * if we can and wait for a reset. */
++ case DATA_DIR_UNKNOWN:
++ if (mod_data.can_stall) {
++ fsg_set_halt(fsg, fsg->bulk_out);
++ rc = halt_bulk_in_endpoint(fsg);
++ }
++ break;
++
++ /* All but the last buffer of data must have already been sent */
++ case DATA_DIR_TO_HOST:
++ if (fsg->data_size == 0)
++ ; // Nothing to send
++
++ /* If there's no residue, simply send the last buffer */
++ else if (fsg->residue == 0) {
++ bh->inreq->zero = 0;
++ start_transfer(fsg, fsg->bulk_in, bh->inreq,
++ &bh->inreq_busy, &bh->state);
++ fsg->next_buffhd_to_fill = bh->next;
++ }
++
++ /* There is a residue. For CB and CBI, simply mark the end
++ * of the data with a short packet. However, if we are
++ * allowed to stall, there was no data at all (residue ==
++ * data_size), and the command failed (invalid LUN or
++ * sense data is set), then halt the bulk-in endpoint
++ * instead. */
++ else if (!transport_is_bbb()) {
++ if (mod_data.can_stall &&
++ fsg->residue == fsg->data_size &&
++ (!fsg->curlun || fsg->curlun->sense_data != SS_NO_SENSE)) {
++ bh->state = BUF_STATE_EMPTY;
++ rc = halt_bulk_in_endpoint(fsg);
++ } else {
++ bh->inreq->zero = 1;
++ start_transfer(fsg, fsg->bulk_in, bh->inreq,
++ &bh->inreq_busy, &bh->state);
++ fsg->next_buffhd_to_fill = bh->next;
++ }
++ }
++
++ /*
++ * For Bulk-only, mark the end of the data with a short
++ * packet. If we are allowed to stall, halt the bulk-in
++ * endpoint. (Note: This violates the Bulk-Only Transport
++ * specification, which requires us to pad the data if we
++ * don't halt the endpoint. Presumably nobody will mind.)
++ */
++ else {
++ bh->inreq->zero = 1;
++ start_transfer(fsg, fsg->bulk_in, bh->inreq,
++ &bh->inreq_busy, &bh->state);
++ fsg->next_buffhd_to_fill = bh->next;
++ if (mod_data.can_stall)
++ rc = halt_bulk_in_endpoint(fsg);
++ }
++ break;
++
++ /* We have processed all we want from the data the host has sent.
++ * There may still be outstanding bulk-out requests. */
++ case DATA_DIR_FROM_HOST:
++ if (fsg->residue == 0)
++ ; // Nothing to receive
++
++ /* Did the host stop sending unexpectedly early? */
++ else if (fsg->short_packet_received) {
++ raise_exception(fsg, FSG_STATE_ABORT_BULK_OUT);
++ rc = -EINTR;
++ }
++
++ /* We haven't processed all the incoming data. Even though
++ * we may be allowed to stall, doing so would cause a race.
++ * The controller may already have ACK'ed all the remaining
++ * bulk-out packets, in which case the host wouldn't see a
++ * STALL. Not realizing the endpoint was halted, it wouldn't
++ * clear the halt -- leading to problems later on. */
++#if 0
++ else if (mod_data.can_stall) {
++ fsg_set_halt(fsg, fsg->bulk_out);
++ raise_exception(fsg, FSG_STATE_ABORT_BULK_OUT);
++ rc = -EINTR;
++ }
++#endif
++
++ /* We can't stall. Read in the excess data and throw it
++ * all away. */
++ else
++ rc = throw_away_data(fsg);
++ break;
++ }
++ return rc;
++}
++
++
++static int send_status(struct fsg_dev *fsg)
++{
++ struct fsg_lun *curlun = fsg->curlun;
++ struct fsg_buffhd *bh;
++ int rc;
++ u8 status = US_BULK_STAT_OK;
++ u32 sd, sdinfo = 0;
++
++ /* Wait for the next buffer to become available */
++ bh = fsg->next_buffhd_to_fill;
++ while (bh->state != BUF_STATE_EMPTY) {
++ rc = sleep_thread(fsg);
++ if (rc)
++ return rc;
++ }
++
++ if (curlun) {
++ sd = curlun->sense_data;
++ sdinfo = curlun->sense_data_info;
++ } else if (fsg->bad_lun_okay)
++ sd = SS_NO_SENSE;
++ else
++ sd = SS_LOGICAL_UNIT_NOT_SUPPORTED;
++
++ if (fsg->phase_error) {
++ DBG(fsg, "sending phase-error status\n");
++ status = US_BULK_STAT_PHASE;
++ sd = SS_INVALID_COMMAND;
++ } else if (sd != SS_NO_SENSE) {
++ DBG(fsg, "sending command-failure status\n");
++ status = US_BULK_STAT_FAIL;
++ VDBG(fsg, " sense data: SK x%02x, ASC x%02x, ASCQ x%02x;"
++ " info x%x\n",
++ SK(sd), ASC(sd), ASCQ(sd), sdinfo);
++ }
++
++ if (transport_is_bbb()) {
++ struct bulk_cs_wrap *csw = bh->buf;
++
++ /* Store and send the Bulk-only CSW */
++ csw->Signature = cpu_to_le32(US_BULK_CS_SIGN);
++ csw->Tag = fsg->tag;
++ csw->Residue = cpu_to_le32(fsg->residue);
++ csw->Status = status;
++
++ bh->inreq->length = US_BULK_CS_WRAP_LEN;
++ bh->inreq->zero = 0;
++ start_transfer(fsg, fsg->bulk_in, bh->inreq,
++ &bh->inreq_busy, &bh->state);
++
++ } else if (mod_data.transport_type == USB_PR_CB) {
++
++ /* Control-Bulk transport has no status phase! */
++ return 0;
++
++ } else { // USB_PR_CBI
++ struct interrupt_data *buf = bh->buf;
++
++ /* Store and send the Interrupt data. UFI sends the ASC
++ * and ASCQ bytes. Everything else sends a Type (which
++ * is always 0) and the status Value. */
++ if (mod_data.protocol_type == USB_SC_UFI) {
++ buf->bType = ASC(sd);
++ buf->bValue = ASCQ(sd);
++ } else {
++ buf->bType = 0;
++ buf->bValue = status;
++ }
++ fsg->intreq->length = CBI_INTERRUPT_DATA_LEN;
++
++ fsg->intr_buffhd = bh; // Point to the right buffhd
++ fsg->intreq->buf = bh->inreq->buf;
++ fsg->intreq->context = bh;
++ start_transfer(fsg, fsg->intr_in, fsg->intreq,
++ &fsg->intreq_busy, &bh->state);
++ }
++
++ fsg->next_buffhd_to_fill = bh->next;
++ return 0;
++}
++
++
++/*-------------------------------------------------------------------------*/
++
++/* Check whether the command is properly formed and whether its data size
++ * and direction agree with the values we already have. */
++static int check_command(struct fsg_dev *fsg, int cmnd_size,
++ enum data_direction data_dir, unsigned int mask,
++ int needs_medium, const char *name)
++{
++ int i;
++ int lun = fsg->cmnd[1] >> 5;
++ static const char dirletter[4] = {'u', 'o', 'i', 'n'};
++ char hdlen[20];
++ struct fsg_lun *curlun;
++
++ /* Adjust the expected cmnd_size for protocol encapsulation padding.
++ * Transparent SCSI doesn't pad. */
++ if (protocol_is_scsi())
++ ;
++
++ /* There's some disagreement as to whether RBC pads commands or not.
++ * We'll play it safe and accept either form. */
++ else if (mod_data.protocol_type == USB_SC_RBC) {
++ if (fsg->cmnd_size == 12)
++ cmnd_size = 12;
++
++ /* All the other protocols pad to 12 bytes */
++ } else
++ cmnd_size = 12;
++
++ hdlen[0] = 0;
++ if (fsg->data_dir != DATA_DIR_UNKNOWN)
++ sprintf(hdlen, ", H%c=%u", dirletter[(int) fsg->data_dir],
++ fsg->data_size);
++ VDBG(fsg, "SCSI command: %s; Dc=%d, D%c=%u; Hc=%d%s\n",
++ name, cmnd_size, dirletter[(int) data_dir],
++ fsg->data_size_from_cmnd, fsg->cmnd_size, hdlen);
++
++ /* We can't reply at all until we know the correct data direction
++ * and size. */
++ if (fsg->data_size_from_cmnd == 0)
++ data_dir = DATA_DIR_NONE;
++ if (fsg->data_dir == DATA_DIR_UNKNOWN) { // CB or CBI
++ fsg->data_dir = data_dir;
++ fsg->data_size = fsg->data_size_from_cmnd;
++
++ } else { // Bulk-only
++ if (fsg->data_size < fsg->data_size_from_cmnd) {
++
++ /* Host data size < Device data size is a phase error.
++ * Carry out the command, but only transfer as much
++ * as we are allowed. */
++ fsg->data_size_from_cmnd = fsg->data_size;
++ fsg->phase_error = 1;
++ }
++ }
++ fsg->residue = fsg->usb_amount_left = fsg->data_size;
++
++ /* Conflicting data directions is a phase error */
++ if (fsg->data_dir != data_dir && fsg->data_size_from_cmnd > 0) {
++ fsg->phase_error = 1;
++ return -EINVAL;
++ }
++
++ /* Verify the length of the command itself */
++ if (cmnd_size != fsg->cmnd_size) {
++
++ /* Special case workaround: There are plenty of buggy SCSI
++ * implementations. Many have issues with cbw->Length
++ * field passing a wrong command size. For those cases we
++ * always try to work around the problem by using the length
++ * sent by the host side provided it is at least as large
++ * as the correct command length.
++ * Examples of such cases would be MS-Windows, which issues
++ * REQUEST SENSE with cbw->Length == 12 where it should
++ * be 6, and xbox360 issuing INQUIRY, TEST UNIT READY and
++ * REQUEST SENSE with cbw->Length == 10 where it should
++ * be 6 as well.
++ */
++ if (cmnd_size <= fsg->cmnd_size) {
++ DBG(fsg, "%s is buggy! Expected length %d "
++ "but we got %d\n", name,
++ cmnd_size, fsg->cmnd_size);
++ cmnd_size = fsg->cmnd_size;
++ } else {
++ fsg->phase_error = 1;
++ return -EINVAL;
++ }
++ }
++
++ /* Check that the LUN values are consistent */
++ if (transport_is_bbb()) {
++ if (fsg->lun != lun)
++ DBG(fsg, "using LUN %d from CBW, "
++ "not LUN %d from CDB\n",
++ fsg->lun, lun);
++ }
++
++ /* Check the LUN */
++ curlun = fsg->curlun;
++ if (curlun) {
++ if (fsg->cmnd[0] != REQUEST_SENSE) {
++ curlun->sense_data = SS_NO_SENSE;
++ curlun->sense_data_info = 0;
++ curlun->info_valid = 0;
++ }
++ } else {
++ fsg->bad_lun_okay = 0;
++
++ /* INQUIRY and REQUEST SENSE commands are explicitly allowed
++ * to use unsupported LUNs; all others may not. */
++ if (fsg->cmnd[0] != INQUIRY &&
++ fsg->cmnd[0] != REQUEST_SENSE) {
++ DBG(fsg, "unsupported LUN %d\n", fsg->lun);
++ return -EINVAL;
++ }
++ }
++
++ /* If a unit attention condition exists, only INQUIRY and
++ * REQUEST SENSE commands are allowed; anything else must fail. */
++ if (curlun && curlun->unit_attention_data != SS_NO_SENSE &&
++ fsg->cmnd[0] != INQUIRY &&
++ fsg->cmnd[0] != REQUEST_SENSE) {
++ curlun->sense_data = curlun->unit_attention_data;
++ curlun->unit_attention_data = SS_NO_SENSE;
++ return -EINVAL;
++ }
++
++ /* Check that only command bytes listed in the mask are non-zero */
++ fsg->cmnd[1] &= 0x1f; // Mask away the LUN
++ for (i = 1; i < cmnd_size; ++i) {
++ if (fsg->cmnd[i] && !(mask & (1 << i))) {
++ if (curlun)
++ curlun->sense_data = SS_INVALID_FIELD_IN_CDB;
++ return -EINVAL;
++ }
++ }
++
++ /* If the medium isn't mounted and the command needs to access
++ * it, return an error. */
++ if (curlun && !fsg_lun_is_open(curlun) && needs_medium) {
++ curlun->sense_data = SS_MEDIUM_NOT_PRESENT;
++ return -EINVAL;
++ }
++
++ return 0;
++}
++
++/* wrapper of check_command for data size in blocks handling */
++static int check_command_size_in_blocks(struct fsg_dev *fsg, int cmnd_size,
++ enum data_direction data_dir, unsigned int mask,
++ int needs_medium, const char *name)
++{
++ if (fsg->curlun)
++ fsg->data_size_from_cmnd <<= fsg->curlun->blkbits;
++ return check_command(fsg, cmnd_size, data_dir,
++ mask, needs_medium, name);
++}
++
++static int do_scsi_command(struct fsg_dev *fsg)
++{
++ struct fsg_buffhd *bh;
++ int rc;
++ int reply = -EINVAL;
++ int i;
++ static char unknown[16];
++
++ dump_cdb(fsg);
++
++ /* Wait for the next buffer to become available for data or status */
++ bh = fsg->next_buffhd_to_drain = fsg->next_buffhd_to_fill;
++ while (bh->state != BUF_STATE_EMPTY) {
++ rc = sleep_thread(fsg);
++ if (rc)
++ return rc;
++ }
++ fsg->phase_error = 0;
++ fsg->short_packet_received = 0;
++
++ down_read(&fsg->filesem); // We're using the backing file
++ switch (fsg->cmnd[0]) {
++
++ case INQUIRY:
++ fsg->data_size_from_cmnd = fsg->cmnd[4];
++ if ((reply = check_command(fsg, 6, DATA_DIR_TO_HOST,
++ (1<<4), 0,
++ "INQUIRY")) == 0)
++ reply = do_inquiry(fsg, bh);
++ break;
++
++ case MODE_SELECT:
++ fsg->data_size_from_cmnd = fsg->cmnd[4];
++ if ((reply = check_command(fsg, 6, DATA_DIR_FROM_HOST,
++ (1<<1) | (1<<4), 0,
++ "MODE SELECT(6)")) == 0)
++ reply = do_mode_select(fsg, bh);
++ break;
++
++ case MODE_SELECT_10:
++ fsg->data_size_from_cmnd = get_unaligned_be16(&fsg->cmnd[7]);
++ if ((reply = check_command(fsg, 10, DATA_DIR_FROM_HOST,
++ (1<<1) | (3<<7), 0,
++ "MODE SELECT(10)")) == 0)
++ reply = do_mode_select(fsg, bh);
++ break;
++
++ case MODE_SENSE:
++ fsg->data_size_from_cmnd = fsg->cmnd[4];
++ if ((reply = check_command(fsg, 6, DATA_DIR_TO_HOST,
++ (1<<1) | (1<<2) | (1<<4), 0,
++ "MODE SENSE(6)")) == 0)
++ reply = do_mode_sense(fsg, bh);
++ break;
++
++ case MODE_SENSE_10:
++ fsg->data_size_from_cmnd = get_unaligned_be16(&fsg->cmnd[7]);
++ if ((reply = check_command(fsg, 10, DATA_DIR_TO_HOST,
++ (1<<1) | (1<<2) | (3<<7), 0,
++ "MODE SENSE(10)")) == 0)
++ reply = do_mode_sense(fsg, bh);
++ break;
++
++ case ALLOW_MEDIUM_REMOVAL:
++ fsg->data_size_from_cmnd = 0;
++ if ((reply = check_command(fsg, 6, DATA_DIR_NONE,
++ (1<<4), 0,
++ "PREVENT-ALLOW MEDIUM REMOVAL")) == 0)
++ reply = do_prevent_allow(fsg);
++ break;
++
++ case READ_6:
++ i = fsg->cmnd[4];
++ fsg->data_size_from_cmnd = (i == 0) ? 256 : i;
++ if ((reply = check_command_size_in_blocks(fsg, 6,
++ DATA_DIR_TO_HOST,
++ (7<<1) | (1<<4), 1,
++ "READ(6)")) == 0)
++ reply = do_read(fsg);
++ break;
++
++ case READ_10:
++ fsg->data_size_from_cmnd = get_unaligned_be16(&fsg->cmnd[7]);
++ if ((reply = check_command_size_in_blocks(fsg, 10,
++ DATA_DIR_TO_HOST,
++ (1<<1) | (0xf<<2) | (3<<7), 1,
++ "READ(10)")) == 0)
++ reply = do_read(fsg);
++ break;
++
++ case READ_12:
++ fsg->data_size_from_cmnd = get_unaligned_be32(&fsg->cmnd[6]);
++ if ((reply = check_command_size_in_blocks(fsg, 12,
++ DATA_DIR_TO_HOST,
++ (1<<1) | (0xf<<2) | (0xf<<6), 1,
++ "READ(12)")) == 0)
++ reply = do_read(fsg);
++ break;
++
++ case READ_CAPACITY:
++ fsg->data_size_from_cmnd = 8;
++ if ((reply = check_command(fsg, 10, DATA_DIR_TO_HOST,
++ (0xf<<2) | (1<<8), 1,
++ "READ CAPACITY")) == 0)
++ reply = do_read_capacity(fsg, bh);
++ break;
++
++ case READ_HEADER:
++ if (!mod_data.cdrom)
++ goto unknown_cmnd;
++ fsg->data_size_from_cmnd = get_unaligned_be16(&fsg->cmnd[7]);
++ if ((reply = check_command(fsg, 10, DATA_DIR_TO_HOST,
++ (3<<7) | (0x1f<<1), 1,
++ "READ HEADER")) == 0)
++ reply = do_read_header(fsg, bh);
++ break;
++
++ case READ_TOC:
++ if (!mod_data.cdrom)
++ goto unknown_cmnd;
++ fsg->data_size_from_cmnd = get_unaligned_be16(&fsg->cmnd[7]);
++ if ((reply = check_command(fsg, 10, DATA_DIR_TO_HOST,
++ (7<<6) | (1<<1), 1,
++ "READ TOC")) == 0)
++ reply = do_read_toc(fsg, bh);
++ break;
++
++ case READ_FORMAT_CAPACITIES:
++ fsg->data_size_from_cmnd = get_unaligned_be16(&fsg->cmnd[7]);
++ if ((reply = check_command(fsg, 10, DATA_DIR_TO_HOST,
++ (3<<7), 1,
++ "READ FORMAT CAPACITIES")) == 0)
++ reply = do_read_format_capacities(fsg, bh);
++ break;
++
++ case REQUEST_SENSE:
++ fsg->data_size_from_cmnd = fsg->cmnd[4];
++ if ((reply = check_command(fsg, 6, DATA_DIR_TO_HOST,
++ (1<<4), 0,
++ "REQUEST SENSE")) == 0)
++ reply = do_request_sense(fsg, bh);
++ break;
++
++ case START_STOP:
++ fsg->data_size_from_cmnd = 0;
++ if ((reply = check_command(fsg, 6, DATA_DIR_NONE,
++ (1<<1) | (1<<4), 0,
++ "START-STOP UNIT")) == 0)
++ reply = do_start_stop(fsg);
++ break;
++
++ case SYNCHRONIZE_CACHE:
++ fsg->data_size_from_cmnd = 0;
++ if ((reply = check_command(fsg, 10, DATA_DIR_NONE,
++ (0xf<<2) | (3<<7), 1,
++ "SYNCHRONIZE CACHE")) == 0)
++ reply = do_synchronize_cache(fsg);
++ break;
++
++ case TEST_UNIT_READY:
++ fsg->data_size_from_cmnd = 0;
++ reply = check_command(fsg, 6, DATA_DIR_NONE,
++ 0, 1,
++ "TEST UNIT READY");
++ break;
++
++ /* Although optional, this command is used by MS-Windows. We
++ * support a minimal version: BytChk must be 0. */
++ case VERIFY:
++ fsg->data_size_from_cmnd = 0;
++ if ((reply = check_command(fsg, 10, DATA_DIR_NONE,
++ (1<<1) | (0xf<<2) | (3<<7), 1,
++ "VERIFY")) == 0)
++ reply = do_verify(fsg);
++ break;
++
++ case WRITE_6:
++ i = fsg->cmnd[4];
++ fsg->data_size_from_cmnd = (i == 0) ? 256 : i;
++ if ((reply = check_command_size_in_blocks(fsg, 6,
++ DATA_DIR_FROM_HOST,
++ (7<<1) | (1<<4), 1,
++ "WRITE(6)")) == 0)
++ reply = do_write(fsg);
++ break;
++
++ case WRITE_10:
++ fsg->data_size_from_cmnd = get_unaligned_be16(&fsg->cmnd[7]);
++ if ((reply = check_command_size_in_blocks(fsg, 10,
++ DATA_DIR_FROM_HOST,
++ (1<<1) | (0xf<<2) | (3<<7), 1,
++ "WRITE(10)")) == 0)
++ reply = do_write(fsg);
++ break;
++
++ case WRITE_12:
++ fsg->data_size_from_cmnd = get_unaligned_be32(&fsg->cmnd[6]);
++ if ((reply = check_command_size_in_blocks(fsg, 12,
++ DATA_DIR_FROM_HOST,
++ (1<<1) | (0xf<<2) | (0xf<<6), 1,
++ "WRITE(12)")) == 0)
++ reply = do_write(fsg);
++ break;
++
++ /* Some mandatory commands that we recognize but don't implement.
++ * They don't mean much in this setting. It's left as an exercise
++ * for anyone interested to implement RESERVE and RELEASE in terms
++ * of Posix locks. */
++ case FORMAT_UNIT:
++ case RELEASE:
++ case RESERVE:
++ case SEND_DIAGNOSTIC:
++ // Fall through
++
++ default:
++ unknown_cmnd:
++ fsg->data_size_from_cmnd = 0;
++ sprintf(unknown, "Unknown x%02x", fsg->cmnd[0]);
++ if ((reply = check_command(fsg, fsg->cmnd_size,
++ DATA_DIR_UNKNOWN, ~0, 0, unknown)) == 0) {
++ fsg->curlun->sense_data = SS_INVALID_COMMAND;
++ reply = -EINVAL;
++ }
++ break;
++ }
++ up_read(&fsg->filesem);
++
++ if (reply == -EINTR || signal_pending(current))
++ return -EINTR;
++
++ /* Set up the single reply buffer for finish_reply() */
++ if (reply == -EINVAL)
++ reply = 0; // Error reply length
++ if (reply >= 0 && fsg->data_dir == DATA_DIR_TO_HOST) {
++ reply = min((u32) reply, fsg->data_size_from_cmnd);
++ bh->inreq->length = reply;
++ bh->state = BUF_STATE_FULL;
++ fsg->residue -= reply;
++ } // Otherwise it's already set
++
++ return 0;
++}
++
++
++/*-------------------------------------------------------------------------*/
++
++static int received_cbw(struct fsg_dev *fsg, struct fsg_buffhd *bh)
++{
++ struct usb_request *req = bh->outreq;
++ struct bulk_cb_wrap *cbw = req->buf;
++
++ /* Was this a real packet? Should it be ignored? */
++ if (req->status || test_bit(IGNORE_BULK_OUT, &fsg->atomic_bitflags))
++ return -EINVAL;
++
++ /* Is the CBW valid? */
++ if (req->actual != US_BULK_CB_WRAP_LEN ||
++ cbw->Signature != cpu_to_le32(
++ US_BULK_CB_SIGN)) {
++ DBG(fsg, "invalid CBW: len %u sig 0x%x\n",
++ req->actual,
++ le32_to_cpu(cbw->Signature));
++
++ /* The Bulk-only spec says we MUST stall the IN endpoint
++ * (6.6.1), so it's unavoidable. It also says we must
++ * retain this state until the next reset, but there's
++ * no way to tell the controller driver it should ignore
++ * Clear-Feature(HALT) requests.
++ *
++ * We aren't required to halt the OUT endpoint; instead
++ * we can simply accept and discard any data received
++ * until the next reset. */
++ wedge_bulk_in_endpoint(fsg);
++ set_bit(IGNORE_BULK_OUT, &fsg->atomic_bitflags);
++ return -EINVAL;
++ }
++
++ /* Is the CBW meaningful? */
++ if (cbw->Lun >= FSG_MAX_LUNS || cbw->Flags & ~US_BULK_FLAG_IN ||
++ cbw->Length <= 0 || cbw->Length > MAX_COMMAND_SIZE) {
++ DBG(fsg, "non-meaningful CBW: lun = %u, flags = 0x%x, "
++ "cmdlen %u\n",
++ cbw->Lun, cbw->Flags, cbw->Length);
++
++ /* We can do anything we want here, so let's stall the
++ * bulk pipes if we are allowed to. */
++ if (mod_data.can_stall) {
++ fsg_set_halt(fsg, fsg->bulk_out);
++ halt_bulk_in_endpoint(fsg);
++ }
++ return -EINVAL;
++ }
++
++ /* Save the command for later */
++ fsg->cmnd_size = cbw->Length;
++ memcpy(fsg->cmnd, cbw->CDB, fsg->cmnd_size);
++ if (cbw->Flags & US_BULK_FLAG_IN)
++ fsg->data_dir = DATA_DIR_TO_HOST;
++ else
++ fsg->data_dir = DATA_DIR_FROM_HOST;
++ fsg->data_size = le32_to_cpu(cbw->DataTransferLength);
++ if (fsg->data_size == 0)
++ fsg->data_dir = DATA_DIR_NONE;
++ fsg->lun = cbw->Lun;
++ fsg->tag = cbw->Tag;
++ return 0;
++}
++
++
++static int get_next_command(struct fsg_dev *fsg)
++{
++ struct fsg_buffhd *bh;
++ int rc = 0;
++
++ if (transport_is_bbb()) {
++
++ /* Wait for the next buffer to become available */
++ bh = fsg->next_buffhd_to_fill;
++ while (bh->state != BUF_STATE_EMPTY) {
++ rc = sleep_thread(fsg);
++ if (rc)
++ return rc;
++ }
++
++ /* Queue a request to read a Bulk-only CBW */
++ set_bulk_out_req_length(fsg, bh, US_BULK_CB_WRAP_LEN);
++ start_transfer(fsg, fsg->bulk_out, bh->outreq,
++ &bh->outreq_busy, &bh->state);
++
++ /* We will drain the buffer in software, which means we
++ * can reuse it for the next filling. No need to advance
++ * next_buffhd_to_fill. */
++
++ /* Wait for the CBW to arrive */
++ while (bh->state != BUF_STATE_FULL) {
++ rc = sleep_thread(fsg);
++ if (rc)
++ return rc;
++ }
++ smp_rmb();
++ rc = received_cbw(fsg, bh);
++ bh->state = BUF_STATE_EMPTY;
++
++ } else { // USB_PR_CB or USB_PR_CBI
++
++ /* Wait for the next command to arrive */
++ while (fsg->cbbuf_cmnd_size == 0) {
++ rc = sleep_thread(fsg);
++ if (rc)
++ return rc;
++ }
++
++ /* Is the previous status interrupt request still busy?
++ * The host is allowed to skip reading the status,
++ * so we must cancel it. */
++ if (fsg->intreq_busy)
++ usb_ep_dequeue(fsg->intr_in, fsg->intreq);
++
++ /* Copy the command and mark the buffer empty */
++ fsg->data_dir = DATA_DIR_UNKNOWN;
++ spin_lock_irq(&fsg->lock);
++ fsg->cmnd_size = fsg->cbbuf_cmnd_size;
++ memcpy(fsg->cmnd, fsg->cbbuf_cmnd, fsg->cmnd_size);
++ fsg->cbbuf_cmnd_size = 0;
++ spin_unlock_irq(&fsg->lock);
++
++ /* Use LUN from the command */
++ fsg->lun = fsg->cmnd[1] >> 5;
++ }
++
++ /* Update current lun */
++ if (fsg->lun >= 0 && fsg->lun < fsg->nluns)
++ fsg->curlun = &fsg->luns[fsg->lun];
++ else
++ fsg->curlun = NULL;
++
++ return rc;
++}
++
++
++/*-------------------------------------------------------------------------*/
++
++static int enable_endpoint(struct fsg_dev *fsg, struct usb_ep *ep,
++ const struct usb_endpoint_descriptor *d)
++{
++ int rc;
++
++ ep->driver_data = fsg;
++ ep->desc = d;
++ rc = usb_ep_enable(ep);
++ if (rc)
++ ERROR(fsg, "can't enable %s, result %d\n", ep->name, rc);
++ return rc;
++}
++
++static int alloc_request(struct fsg_dev *fsg, struct usb_ep *ep,
++ struct usb_request **preq)
++{
++ *preq = usb_ep_alloc_request(ep, GFP_ATOMIC);
++ if (*preq)
++ return 0;
++ ERROR(fsg, "can't allocate request for %s\n", ep->name);
++ return -ENOMEM;
++}
++
++/*
++ * Reset interface setting and re-init endpoint state (toggle etc).
++ * Call with altsetting < 0 to disable the interface. The only other
++ * available altsetting is 0, which enables the interface.
++ */
++static int do_set_interface(struct fsg_dev *fsg, int altsetting)
++{
++ int rc = 0;
++ int i;
++ const struct usb_endpoint_descriptor *d;
++
++ if (fsg->running)
++ DBG(fsg, "reset interface\n");
++
++reset:
++ /* Deallocate the requests */
++ for (i = 0; i < fsg_num_buffers; ++i) {
++ struct fsg_buffhd *bh = &fsg->buffhds[i];
++
++ if (bh->inreq) {
++ usb_ep_free_request(fsg->bulk_in, bh->inreq);
++ bh->inreq = NULL;
++ }
++ if (bh->outreq) {
++ usb_ep_free_request(fsg->bulk_out, bh->outreq);
++ bh->outreq = NULL;
++ }
++ }
++ if (fsg->intreq) {
++ usb_ep_free_request(fsg->intr_in, fsg->intreq);
++ fsg->intreq = NULL;
++ }
++
++ /* Disable the endpoints */
++ if (fsg->bulk_in_enabled) {
++ usb_ep_disable(fsg->bulk_in);
++ fsg->bulk_in_enabled = 0;
++ }
++ if (fsg->bulk_out_enabled) {
++ usb_ep_disable(fsg->bulk_out);
++ fsg->bulk_out_enabled = 0;
++ }
++ if (fsg->intr_in_enabled) {
++ usb_ep_disable(fsg->intr_in);
++ fsg->intr_in_enabled = 0;
++ }
++
++ fsg->running = 0;
++ if (altsetting < 0 || rc != 0)
++ return rc;
++
++ DBG(fsg, "set interface %d\n", altsetting);
++
++ /* Enable the endpoints */
++ d = fsg_ep_desc(fsg->gadget,
++ &fsg_fs_bulk_in_desc, &fsg_hs_bulk_in_desc,
++ &fsg_ss_bulk_in_desc);
++ if ((rc = enable_endpoint(fsg, fsg->bulk_in, d)) != 0)
++ goto reset;
++ fsg->bulk_in_enabled = 1;
++
++ d = fsg_ep_desc(fsg->gadget,
++ &fsg_fs_bulk_out_desc, &fsg_hs_bulk_out_desc,
++ &fsg_ss_bulk_out_desc);
++ if ((rc = enable_endpoint(fsg, fsg->bulk_out, d)) != 0)
++ goto reset;
++ fsg->bulk_out_enabled = 1;
++ fsg->bulk_out_maxpacket = usb_endpoint_maxp(d);
++ clear_bit(IGNORE_BULK_OUT, &fsg->atomic_bitflags);
++
++ if (transport_is_cbi()) {
++ d = fsg_ep_desc(fsg->gadget,
++ &fsg_fs_intr_in_desc, &fsg_hs_intr_in_desc,
++ &fsg_ss_intr_in_desc);
++ if ((rc = enable_endpoint(fsg, fsg->intr_in, d)) != 0)
++ goto reset;
++ fsg->intr_in_enabled = 1;
++ }
++
++ /* Allocate the requests */
++ for (i = 0; i < fsg_num_buffers; ++i) {
++ struct fsg_buffhd *bh = &fsg->buffhds[i];
++
++ if ((rc = alloc_request(fsg, fsg->bulk_in, &bh->inreq)) != 0)
++ goto reset;
++ if ((rc = alloc_request(fsg, fsg->bulk_out, &bh->outreq)) != 0)
++ goto reset;
++ bh->inreq->buf = bh->outreq->buf = bh->buf;
++ bh->inreq->context = bh->outreq->context = bh;
++ bh->inreq->complete = bulk_in_complete;
++ bh->outreq->complete = bulk_out_complete;
++ }
++ if (transport_is_cbi()) {
++ if ((rc = alloc_request(fsg, fsg->intr_in, &fsg->intreq)) != 0)
++ goto reset;
++ fsg->intreq->complete = intr_in_complete;
++ }
++
++ fsg->running = 1;
++ for (i = 0; i < fsg->nluns; ++i)
++ fsg->luns[i].unit_attention_data = SS_RESET_OCCURRED;
++ return rc;
++}
++
++
++/*
++ * Change our operational configuration. This code must agree with the code
++ * that returns config descriptors, and with interface altsetting code.
++ *
++ * It's also responsible for power management interactions. Some
++ * configurations might not work with our current power sources.
++ * For now we just assume the gadget is always self-powered.
++ */
++static int do_set_config(struct fsg_dev *fsg, u8 new_config)
++{
++ int rc = 0;
++
++ /* Disable the single interface */
++ if (fsg->config != 0) {
++ DBG(fsg, "reset config\n");
++ fsg->config = 0;
++ rc = do_set_interface(fsg, -1);
++ }
++
++ /* Enable the interface */
++ if (new_config != 0) {
++ fsg->config = new_config;
++ if ((rc = do_set_interface(fsg, 0)) != 0)
++ fsg->config = 0; // Reset on errors
++ else
++ INFO(fsg, "%s config #%d\n",
++ usb_speed_string(fsg->gadget->speed),
++ fsg->config);
++ }
++ return rc;
++}
++
++
++/*-------------------------------------------------------------------------*/
++
++static void handle_exception(struct fsg_dev *fsg)
++{
++ siginfo_t info;
++ int sig;
++ int i;
++ int num_active;
++ struct fsg_buffhd *bh;
++ enum fsg_state old_state;
++ u8 new_config;
++ struct fsg_lun *curlun;
++ unsigned int exception_req_tag;
++ int rc;
++
++ /* Clear the existing signals. Anything but SIGUSR1 is converted
++ * into a high-priority EXIT exception. */
++ for (;;) {
++ sig = dequeue_signal_lock(current, &current->blocked, &info);
++ if (!sig)
++ break;
++ if (sig != SIGUSR1) {
++ if (fsg->state < FSG_STATE_EXIT)
++ DBG(fsg, "Main thread exiting on signal\n");
++ raise_exception(fsg, FSG_STATE_EXIT);
++ }
++ }
++
++ /* Cancel all the pending transfers */
++ if (fsg->intreq_busy)
++ usb_ep_dequeue(fsg->intr_in, fsg->intreq);
++ for (i = 0; i < fsg_num_buffers; ++i) {
++ bh = &fsg->buffhds[i];
++ if (bh->inreq_busy)
++ usb_ep_dequeue(fsg->bulk_in, bh->inreq);
++ if (bh->outreq_busy)
++ usb_ep_dequeue(fsg->bulk_out, bh->outreq);
++ }
++
++ /* Wait until everything is idle */
++ for (;;) {
++ num_active = fsg->intreq_busy;
++ for (i = 0; i < fsg_num_buffers; ++i) {
++ bh = &fsg->buffhds[i];
++ num_active += bh->inreq_busy + bh->outreq_busy;
++ }
++ if (num_active == 0)
++ break;
++ if (sleep_thread(fsg))
++ return;
++ }
++
++ /* Clear out the controller's fifos */
++ if (fsg->bulk_in_enabled)
++ usb_ep_fifo_flush(fsg->bulk_in);
++ if (fsg->bulk_out_enabled)
++ usb_ep_fifo_flush(fsg->bulk_out);
++ if (fsg->intr_in_enabled)
++ usb_ep_fifo_flush(fsg->intr_in);
++
++ /* Reset the I/O buffer states and pointers, the SCSI
++ * state, and the exception. Then invoke the handler. */
++ spin_lock_irq(&fsg->lock);
++
++ for (i = 0; i < fsg_num_buffers; ++i) {
++ bh = &fsg->buffhds[i];
++ bh->state = BUF_STATE_EMPTY;
++ }
++ fsg->next_buffhd_to_fill = fsg->next_buffhd_to_drain =
++ &fsg->buffhds[0];
++
++ exception_req_tag = fsg->exception_req_tag;
++ new_config = fsg->new_config;
++ old_state = fsg->state;
++
++ if (old_state == FSG_STATE_ABORT_BULK_OUT)
++ fsg->state = FSG_STATE_STATUS_PHASE;
++ else {
++ for (i = 0; i < fsg->nluns; ++i) {
++ curlun = &fsg->luns[i];
++ curlun->prevent_medium_removal = 0;
++ curlun->sense_data = curlun->unit_attention_data =
++ SS_NO_SENSE;
++ curlun->sense_data_info = 0;
++ curlun->info_valid = 0;
++ }
++ fsg->state = FSG_STATE_IDLE;
++ }
++ spin_unlock_irq(&fsg->lock);
++
++ /* Carry out any extra actions required for the exception */
++ switch (old_state) {
++ default:
++ break;
++
++ case FSG_STATE_ABORT_BULK_OUT:
++ send_status(fsg);
++ spin_lock_irq(&fsg->lock);
++ if (fsg->state == FSG_STATE_STATUS_PHASE)
++ fsg->state = FSG_STATE_IDLE;
++ spin_unlock_irq(&fsg->lock);
++ break;
++
++ case FSG_STATE_RESET:
++ /* In case we were forced against our will to halt a
++ * bulk endpoint, clear the halt now. (The SuperH UDC
++ * requires this.) */
++ if (test_and_clear_bit(IGNORE_BULK_OUT, &fsg->atomic_bitflags))
++ usb_ep_clear_halt(fsg->bulk_in);
++
++ if (transport_is_bbb()) {
++ if (fsg->ep0_req_tag == exception_req_tag)
++ ep0_queue(fsg); // Complete the status stage
++
++ } else if (transport_is_cbi())
++ send_status(fsg); // Status by interrupt pipe
++
++ /* Technically this should go here, but it would only be
++ * a waste of time. Ditto for the INTERFACE_CHANGE and
++ * CONFIG_CHANGE cases. */
++ // for (i = 0; i < fsg->nluns; ++i)
++ // fsg->luns[i].unit_attention_data = SS_RESET_OCCURRED;
++ break;
++
++ case FSG_STATE_INTERFACE_CHANGE:
++ rc = do_set_interface(fsg, 0);
++ if (fsg->ep0_req_tag != exception_req_tag)
++ break;
++ if (rc != 0) // STALL on errors
++ fsg_set_halt(fsg, fsg->ep0);
++ else // Complete the status stage
++ ep0_queue(fsg);
++ break;
++
++ case FSG_STATE_CONFIG_CHANGE:
++ rc = do_set_config(fsg, new_config);
++ if (fsg->ep0_req_tag != exception_req_tag)
++ break;
++ if (rc != 0) // STALL on errors
++ fsg_set_halt(fsg, fsg->ep0);
++ else // Complete the status stage
++ ep0_queue(fsg);
++ break;
++
++ case FSG_STATE_DISCONNECT:
++ for (i = 0; i < fsg->nluns; ++i)
++ fsg_lun_fsync_sub(fsg->luns + i);
++ do_set_config(fsg, 0); // Unconfigured state
++ break;
++
++ case FSG_STATE_EXIT:
++ case FSG_STATE_TERMINATED:
++ do_set_config(fsg, 0); // Free resources
++ spin_lock_irq(&fsg->lock);
++ fsg->state = FSG_STATE_TERMINATED; // Stop the thread
++ spin_unlock_irq(&fsg->lock);
++ break;
++ }
++}
++
++
++/*-------------------------------------------------------------------------*/
++
++static int fsg_main_thread(void *fsg_)
++{
++ struct fsg_dev *fsg = fsg_;
++
++ /* Allow the thread to be killed by a signal, but set the signal mask
++ * to block everything but INT, TERM, KILL, and USR1. */
++ allow_signal(SIGINT);
++ allow_signal(SIGTERM);
++ allow_signal(SIGKILL);
++ allow_signal(SIGUSR1);
++
++ /* Allow the thread to be frozen */
++ set_freezable();
++
++ /* Arrange for userspace references to be interpreted as kernel
++ * pointers. That way we can pass a kernel pointer to a routine
++ * that expects a __user pointer and it will work okay. */
++ set_fs(get_ds());
++
++ /* The main loop */
++ while (fsg->state != FSG_STATE_TERMINATED) {
++ if (exception_in_progress(fsg) || signal_pending(current)) {
++ handle_exception(fsg);
++ continue;
++ }
++
++ if (!fsg->running) {
++ sleep_thread(fsg);
++ continue;
++ }
++
++ if (get_next_command(fsg))
++ continue;
++
++ spin_lock_irq(&fsg->lock);
++ if (!exception_in_progress(fsg))
++ fsg->state = FSG_STATE_DATA_PHASE;
++ spin_unlock_irq(&fsg->lock);
++
++ if (do_scsi_command(fsg) || finish_reply(fsg))
++ continue;
++
++ spin_lock_irq(&fsg->lock);
++ if (!exception_in_progress(fsg))
++ fsg->state = FSG_STATE_STATUS_PHASE;
++ spin_unlock_irq(&fsg->lock);
++
++ if (send_status(fsg))
++ continue;
++
++ spin_lock_irq(&fsg->lock);
++ if (!exception_in_progress(fsg))
++ fsg->state = FSG_STATE_IDLE;
++ spin_unlock_irq(&fsg->lock);
++ }
++
++ spin_lock_irq(&fsg->lock);
++ fsg->thread_task = NULL;
++ spin_unlock_irq(&fsg->lock);
++
++ /* If we are exiting because of a signal, unregister the
++ * gadget driver. */
++ if (test_and_clear_bit(REGISTERED, &fsg->atomic_bitflags))
++ usb_gadget_unregister_driver(&fsg_driver);
++
++ /* Let the unbind and cleanup routines know the thread has exited */
++ complete_and_exit(&fsg->thread_notifier, 0);
++}
++
++
++/*-------------------------------------------------------------------------*/
++
++
++/* The write permissions and store_xxx pointers are set in fsg_bind() */
++static DEVICE_ATTR(ro, 0444, fsg_show_ro, NULL);
++static DEVICE_ATTR(nofua, 0644, fsg_show_nofua, NULL);
++static DEVICE_ATTR(file, 0444, fsg_show_file, NULL);
++
++
++/*-------------------------------------------------------------------------*/
++
++static void fsg_release(struct kref *ref)
++{
++ struct fsg_dev *fsg = container_of(ref, struct fsg_dev, ref);
++
++ kfree(fsg->luns);
++ kfree(fsg);
++}
++
++static void lun_release(struct device *dev)
++{
++ struct rw_semaphore *filesem = dev_get_drvdata(dev);
++ struct fsg_dev *fsg =
++ container_of(filesem, struct fsg_dev, filesem);
++
++ kref_put(&fsg->ref, fsg_release);
++}
++
++static void /* __init_or_exit */ fsg_unbind(struct usb_gadget *gadget)
++{
++ struct fsg_dev *fsg = get_gadget_data(gadget);
++ int i;
++ struct fsg_lun *curlun;
++ struct usb_request *req = fsg->ep0req;
++
++ DBG(fsg, "unbind\n");
++ clear_bit(REGISTERED, &fsg->atomic_bitflags);
++
++ /* If the thread isn't already dead, tell it to exit now */
++ if (fsg->state != FSG_STATE_TERMINATED) {
++ raise_exception(fsg, FSG_STATE_EXIT);
++ wait_for_completion(&fsg->thread_notifier);
++
++ /* The cleanup routine waits for this completion also */
++ complete(&fsg->thread_notifier);
++ }
++
++ /* Unregister the sysfs attribute files and the LUNs */
++ for (i = 0; i < fsg->nluns; ++i) {
++ curlun = &fsg->luns[i];
++ if (curlun->registered) {
++ device_remove_file(&curlun->dev, &dev_attr_nofua);
++ device_remove_file(&curlun->dev, &dev_attr_ro);
++ device_remove_file(&curlun->dev, &dev_attr_file);
++ fsg_lun_close(curlun);
++ device_unregister(&curlun->dev);
++ curlun->registered = 0;
++ }
++ }
++
++ /* Free the data buffers */
++ for (i = 0; i < fsg_num_buffers; ++i)
++ kfree(fsg->buffhds[i].buf);
++
++ /* Free the request and buffer for endpoint 0 */
++ if (req) {
++ kfree(req->buf);
++ usb_ep_free_request(fsg->ep0, req);
++ }
++
++ set_gadget_data(gadget, NULL);
++}
++
++
++static int __init check_parameters(struct fsg_dev *fsg)
++{
++ int prot;
++ int gcnum;
++
++ /* Store the default values */
++ mod_data.transport_type = USB_PR_BULK;
++ mod_data.transport_name = "Bulk-only";
++ mod_data.protocol_type = USB_SC_SCSI;
++ mod_data.protocol_name = "Transparent SCSI";
++
++ /* Some peripheral controllers are known not to be able to
++ * halt bulk endpoints correctly. If one of them is present,
++ * disable stalls.
++ */
++ if (gadget_is_at91(fsg->gadget))
++ mod_data.can_stall = 0;
++
++ if (mod_data.release == 0xffff) { // Parameter wasn't set
++ gcnum = usb_gadget_controller_number(fsg->gadget);
++ if (gcnum >= 0)
++ mod_data.release = 0x0300 + gcnum;
++ else {
++ WARNING(fsg, "controller '%s' not recognized\n",
++ fsg->gadget->name);
++ mod_data.release = 0x0399;
++ }
++ }
++
++ prot = simple_strtol(mod_data.protocol_parm, NULL, 0);
++
++#ifdef CONFIG_USB_FILE_STORAGE_TEST
++ if (strnicmp(mod_data.transport_parm, "BBB", 10) == 0) {
++ ; // Use default setting
++ } else if (strnicmp(mod_data.transport_parm, "CB", 10) == 0) {
++ mod_data.transport_type = USB_PR_CB;
++ mod_data.transport_name = "Control-Bulk";
++ } else if (strnicmp(mod_data.transport_parm, "CBI", 10) == 0) {
++ mod_data.transport_type = USB_PR_CBI;
++ mod_data.transport_name = "Control-Bulk-Interrupt";
++ } else {
++ ERROR(fsg, "invalid transport: %s\n", mod_data.transport_parm);
++ return -EINVAL;
++ }
++
++ if (strnicmp(mod_data.protocol_parm, "SCSI", 10) == 0 ||
++ prot == USB_SC_SCSI) {
++ ; // Use default setting
++ } else if (strnicmp(mod_data.protocol_parm, "RBC", 10) == 0 ||
++ prot == USB_SC_RBC) {
++ mod_data.protocol_type = USB_SC_RBC;
++ mod_data.protocol_name = "RBC";
++ } else if (strnicmp(mod_data.protocol_parm, "8020", 4) == 0 ||
++ strnicmp(mod_data.protocol_parm, "ATAPI", 10) == 0 ||
++ prot == USB_SC_8020) {
++ mod_data.protocol_type = USB_SC_8020;
++ mod_data.protocol_name = "8020i (ATAPI)";
++ } else if (strnicmp(mod_data.protocol_parm, "QIC", 3) == 0 ||
++ prot == USB_SC_QIC) {
++ mod_data.protocol_type = USB_SC_QIC;
++ mod_data.protocol_name = "QIC-157";
++ } else if (strnicmp(mod_data.protocol_parm, "UFI", 10) == 0 ||
++ prot == USB_SC_UFI) {
++ mod_data.protocol_type = USB_SC_UFI;
++ mod_data.protocol_name = "UFI";
++ } else if (strnicmp(mod_data.protocol_parm, "8070", 4) == 0 ||
++ prot == USB_SC_8070) {
++ mod_data.protocol_type = USB_SC_8070;
++ mod_data.protocol_name = "8070i";
++ } else {
++ ERROR(fsg, "invalid protocol: %s\n", mod_data.protocol_parm);
++ return -EINVAL;
++ }
++
++ mod_data.buflen &= PAGE_CACHE_MASK;
++ if (mod_data.buflen <= 0) {
++ ERROR(fsg, "invalid buflen\n");
++ return -ETOOSMALL;
++ }
++
++#endif /* CONFIG_USB_FILE_STORAGE_TEST */
++
++ /* Serial string handling.
++ * On a real device, the serial string would be loaded
++ * from permanent storage. */
++ if (mod_data.serial) {
++ const char *ch;
++ unsigned len = 0;
++
++ /* Sanity check :
++ * The CB[I] specification limits the serial string to
++ * 12 uppercase hexadecimal characters.
++ * BBB need at least 12 uppercase hexadecimal characters,
++ * with a maximum of 126. */
++ for (ch = mod_data.serial; *ch; ++ch) {
++ ++len;
++ if ((*ch < '0' || *ch > '9') &&
++ (*ch < 'A' || *ch > 'F')) { /* not uppercase hex */
++ WARNING(fsg,
++ "Invalid serial string character: %c\n",
++ *ch);
++ goto no_serial;
++ }
++ }
++ if (len > 126 ||
++ (mod_data.transport_type == USB_PR_BULK && len < 12) ||
++ (mod_data.transport_type != USB_PR_BULK && len > 12)) {
++ WARNING(fsg, "Invalid serial string length!\n");
++ goto no_serial;
++ }
++ fsg_strings[FSG_STRING_SERIAL - 1].s = mod_data.serial;
++ } else {
++ WARNING(fsg, "No serial-number string provided!\n");
++ no_serial:
++ device_desc.iSerialNumber = 0;
++ }
++
++ return 0;
++}
++
++
++static int __init fsg_bind(struct usb_gadget *gadget)
++{
++ struct fsg_dev *fsg = the_fsg;
++ int rc;
++ int i;
++ struct fsg_lun *curlun;
++ struct usb_ep *ep;
++ struct usb_request *req;
++ char *pathbuf, *p;
++
++ fsg->gadget = gadget;
++ set_gadget_data(gadget, fsg);
++ fsg->ep0 = gadget->ep0;
++ fsg->ep0->driver_data = fsg;
++
++ if ((rc = check_parameters(fsg)) != 0)
++ goto out;
++
++ if (mod_data.removable) { // Enable the store_xxx attributes
++ dev_attr_file.attr.mode = 0644;
++ dev_attr_file.store = fsg_store_file;
++ if (!mod_data.cdrom) {
++ dev_attr_ro.attr.mode = 0644;
++ dev_attr_ro.store = fsg_store_ro;
++ }
++ }
++
++ /* Only for removable media? */
++ dev_attr_nofua.attr.mode = 0644;
++ dev_attr_nofua.store = fsg_store_nofua;
++
++ /* Find out how many LUNs there should be */
++ i = mod_data.nluns;
++ if (i == 0)
++ i = max(mod_data.num_filenames, 1u);
++ if (i > FSG_MAX_LUNS) {
++ ERROR(fsg, "invalid number of LUNs: %d\n", i);
++ rc = -EINVAL;
++ goto out;
++ }
++
++ /* Create the LUNs, open their backing files, and register the
++ * LUN devices in sysfs. */
++ fsg->luns = kzalloc(i * sizeof(struct fsg_lun), GFP_KERNEL);
++ if (!fsg->luns) {
++ rc = -ENOMEM;
++ goto out;
++ }
++ fsg->nluns = i;
++
++ for (i = 0; i < fsg->nluns; ++i) {
++ curlun = &fsg->luns[i];
++ curlun->cdrom = !!mod_data.cdrom;
++ curlun->ro = mod_data.cdrom || mod_data.ro[i];
++ curlun->initially_ro = curlun->ro;
++ curlun->removable = mod_data.removable;
++ curlun->nofua = mod_data.nofua[i];
++ curlun->dev.release = lun_release;
++ curlun->dev.parent = &gadget->dev;
++ curlun->dev.driver = &fsg_driver.driver;
++ dev_set_drvdata(&curlun->dev, &fsg->filesem);
++ dev_set_name(&curlun->dev,"%s-lun%d",
++ dev_name(&gadget->dev), i);
++
++ kref_get(&fsg->ref);
++ rc = device_register(&curlun->dev);
++ if (rc) {
++ INFO(fsg, "failed to register LUN%d: %d\n", i, rc);
++ put_device(&curlun->dev);
++ goto out;
++ }
++ curlun->registered = 1;
++
++ rc = device_create_file(&curlun->dev, &dev_attr_ro);
++ if (rc)
++ goto out;
++ rc = device_create_file(&curlun->dev, &dev_attr_nofua);
++ if (rc)
++ goto out;
++ rc = device_create_file(&curlun->dev, &dev_attr_file);
++ if (rc)
++ goto out;
++
++ if (mod_data.file[i] && *mod_data.file[i]) {
++ rc = fsg_lun_open(curlun, mod_data.file[i]);
++ if (rc)
++ goto out;
++ } else if (!mod_data.removable) {
++ ERROR(fsg, "no file given for LUN%d\n", i);
++ rc = -EINVAL;
++ goto out;
++ }
++ }
++
++ /* Find all the endpoints we will use */
++ usb_ep_autoconfig_reset(gadget);
++ ep = usb_ep_autoconfig(gadget, &fsg_fs_bulk_in_desc);
++ if (!ep)
++ goto autoconf_fail;
++ ep->driver_data = fsg; // claim the endpoint
++ fsg->bulk_in = ep;
++
++ ep = usb_ep_autoconfig(gadget, &fsg_fs_bulk_out_desc);
++ if (!ep)
++ goto autoconf_fail;
++ ep->driver_data = fsg; // claim the endpoint
++ fsg->bulk_out = ep;
++
++ if (transport_is_cbi()) {
++ ep = usb_ep_autoconfig(gadget, &fsg_fs_intr_in_desc);
++ if (!ep)
++ goto autoconf_fail;
++ ep->driver_data = fsg; // claim the endpoint
++ fsg->intr_in = ep;
++ }
++
++ /* Fix up the descriptors */
++ device_desc.idVendor = cpu_to_le16(mod_data.vendor);
++ device_desc.idProduct = cpu_to_le16(mod_data.product);
++ device_desc.bcdDevice = cpu_to_le16(mod_data.release);
++
++ i = (transport_is_cbi() ? 3 : 2); // Number of endpoints
++ fsg_intf_desc.bNumEndpoints = i;
++ fsg_intf_desc.bInterfaceSubClass = mod_data.protocol_type;
++ fsg_intf_desc.bInterfaceProtocol = mod_data.transport_type;
++ fsg_fs_function[i + FSG_FS_FUNCTION_PRE_EP_ENTRIES] = NULL;
++
++ if (gadget_is_dualspeed(gadget)) {
++ fsg_hs_function[i + FSG_HS_FUNCTION_PRE_EP_ENTRIES] = NULL;
++
++ /* Assume endpoint addresses are the same for both speeds */
++ fsg_hs_bulk_in_desc.bEndpointAddress =
++ fsg_fs_bulk_in_desc.bEndpointAddress;
++ fsg_hs_bulk_out_desc.bEndpointAddress =
++ fsg_fs_bulk_out_desc.bEndpointAddress;
++ fsg_hs_intr_in_desc.bEndpointAddress =
++ fsg_fs_intr_in_desc.bEndpointAddress;
++ }
++
++ if (gadget_is_superspeed(gadget)) {
++ unsigned max_burst;
++
++ fsg_ss_function[i + FSG_SS_FUNCTION_PRE_EP_ENTRIES] = NULL;
++
++ /* Calculate bMaxBurst, we know packet size is 1024 */
++ max_burst = min_t(unsigned, mod_data.buflen / 1024, 15);
++
++ /* Assume endpoint addresses are the same for both speeds */
++ fsg_ss_bulk_in_desc.bEndpointAddress =
++ fsg_fs_bulk_in_desc.bEndpointAddress;
++ fsg_ss_bulk_in_comp_desc.bMaxBurst = max_burst;
++
++ fsg_ss_bulk_out_desc.bEndpointAddress =
++ fsg_fs_bulk_out_desc.bEndpointAddress;
++ fsg_ss_bulk_out_comp_desc.bMaxBurst = max_burst;
++ }
++
++ if (gadget_is_otg(gadget))
++ fsg_otg_desc.bmAttributes |= USB_OTG_HNP;
++
++ rc = -ENOMEM;
++
++ /* Allocate the request and buffer for endpoint 0 */
++ fsg->ep0req = req = usb_ep_alloc_request(fsg->ep0, GFP_KERNEL);
++ if (!req)
++ goto out;
++ req->buf = kmalloc(EP0_BUFSIZE, GFP_KERNEL);
++ if (!req->buf)
++ goto out;
++ req->complete = ep0_complete;
++
++ /* Allocate the data buffers */
++ for (i = 0; i < fsg_num_buffers; ++i) {
++ struct fsg_buffhd *bh = &fsg->buffhds[i];
++
++ /* Allocate for the bulk-in endpoint. We assume that
++ * the buffer will also work with the bulk-out (and
++ * interrupt-in) endpoint. */
++ bh->buf = kmalloc(mod_data.buflen, GFP_KERNEL);
++ if (!bh->buf)
++ goto out;
++ bh->next = bh + 1;
++ }
++ fsg->buffhds[fsg_num_buffers - 1].next = &fsg->buffhds[0];
++
++ /* This should reflect the actual gadget power source */
++ usb_gadget_set_selfpowered(gadget);
++
++ snprintf(fsg_string_manufacturer, sizeof fsg_string_manufacturer,
++ "%s %s with %s",
++ init_utsname()->sysname, init_utsname()->release,
++ gadget->name);
++
++ fsg->thread_task = kthread_create(fsg_main_thread, fsg,
++ "file-storage-gadget");
++ if (IS_ERR(fsg->thread_task)) {
++ rc = PTR_ERR(fsg->thread_task);
++ goto out;
++ }
++
++ INFO(fsg, DRIVER_DESC ", version: " DRIVER_VERSION "\n");
++ INFO(fsg, "NOTE: This driver is deprecated. "
++ "Consider using g_mass_storage instead.\n");
++ INFO(fsg, "Number of LUNs=%d\n", fsg->nluns);
++
++ pathbuf = kmalloc(PATH_MAX, GFP_KERNEL);
++ for (i = 0; i < fsg->nluns; ++i) {
++ curlun = &fsg->luns[i];
++ if (fsg_lun_is_open(curlun)) {
++ p = NULL;
++ if (pathbuf) {
++ p = d_path(&curlun->filp->f_path,
++ pathbuf, PATH_MAX);
++ if (IS_ERR(p))
++ p = NULL;
++ }
++ LINFO(curlun, "ro=%d, nofua=%d, file: %s\n",
++ curlun->ro, curlun->nofua, (p ? p : "(error)"));
++ }
++ }
++ kfree(pathbuf);
++
++ DBG(fsg, "transport=%s (x%02x)\n",
++ mod_data.transport_name, mod_data.transport_type);
++ DBG(fsg, "protocol=%s (x%02x)\n",
++ mod_data.protocol_name, mod_data.protocol_type);
++ DBG(fsg, "VendorID=x%04x, ProductID=x%04x, Release=x%04x\n",
++ mod_data.vendor, mod_data.product, mod_data.release);
++ DBG(fsg, "removable=%d, stall=%d, cdrom=%d, buflen=%u\n",
++ mod_data.removable, mod_data.can_stall,
++ mod_data.cdrom, mod_data.buflen);
++ DBG(fsg, "I/O thread pid: %d\n", task_pid_nr(fsg->thread_task));
++
++ set_bit(REGISTERED, &fsg->atomic_bitflags);
++
++ /* Tell the thread to start working */
++ wake_up_process(fsg->thread_task);
++ return 0;
++
++autoconf_fail:
++ ERROR(fsg, "unable to autoconfigure all endpoints\n");
++ rc = -ENOTSUPP;
++
++out:
++ fsg->state = FSG_STATE_TERMINATED; // The thread is dead
++ fsg_unbind(gadget);
++ complete(&fsg->thread_notifier);
++ return rc;
++}
++
++
++/*-------------------------------------------------------------------------*/
++
++static void fsg_suspend(struct usb_gadget *gadget)
++{
++ struct fsg_dev *fsg = get_gadget_data(gadget);
++
++ DBG(fsg, "suspend\n");
++ set_bit(SUSPENDED, &fsg->atomic_bitflags);
++}
++
++static void fsg_resume(struct usb_gadget *gadget)
++{
++ struct fsg_dev *fsg = get_gadget_data(gadget);
++
++ DBG(fsg, "resume\n");
++ clear_bit(SUSPENDED, &fsg->atomic_bitflags);
++}
++
++
++/*-------------------------------------------------------------------------*/
++
++static struct usb_gadget_driver fsg_driver = {
++ .max_speed = USB_SPEED_SUPER,
++ .function = (char *) fsg_string_product,
++ .unbind = fsg_unbind,
++ .disconnect = fsg_disconnect,
++ .setup = fsg_setup,
++ .suspend = fsg_suspend,
++ .resume = fsg_resume,
++
++ .driver = {
++ .name = DRIVER_NAME,
++ .owner = THIS_MODULE,
++ // .release = ...
++ // .suspend = ...
++ // .resume = ...
++ },
++};
++
++
++static int __init fsg_alloc(void)
++{
++ struct fsg_dev *fsg;
++
++ fsg = kzalloc(sizeof *fsg +
++ fsg_num_buffers * sizeof *(fsg->buffhds), GFP_KERNEL);
++
++ if (!fsg)
++ return -ENOMEM;
++ spin_lock_init(&fsg->lock);
++ init_rwsem(&fsg->filesem);
++ kref_init(&fsg->ref);
++ init_completion(&fsg->thread_notifier);
++
++ the_fsg = fsg;
++ return 0;
++}
++
++
++static int __init fsg_init(void)
++{
++ int rc;
++ struct fsg_dev *fsg;
++
++ rc = fsg_num_buffers_validate();
++ if (rc != 0)
++ return rc;
++
++ if ((rc = fsg_alloc()) != 0)
++ return rc;
++ fsg = the_fsg;
++ if ((rc = usb_gadget_probe_driver(&fsg_driver, fsg_bind)) != 0)
++ kref_put(&fsg->ref, fsg_release);
++ return rc;
++}
++module_init(fsg_init);
++
++
++static void __exit fsg_cleanup(void)
++{
++ struct fsg_dev *fsg = the_fsg;
++
++ /* Unregister the driver iff the thread hasn't already done so */
++ if (test_and_clear_bit(REGISTERED, &fsg->atomic_bitflags))
++ usb_gadget_unregister_driver(&fsg_driver);
++
++ /* Wait for the thread to finish up */
++ wait_for_completion(&fsg->thread_notifier);
++
++ kref_put(&fsg->ref, fsg_release);
++}
++module_exit(fsg_cleanup);
+diff -urN linux-3.10/drivers/usb/host/dwc_common_port/changes.txt linux-rpi-3.10.y/drivers/usb/host/dwc_common_port/changes.txt
+--- linux-3.10/drivers/usb/host/dwc_common_port/changes.txt 1970-01-01 01:00:00.000000000 +0100
++++ linux-rpi-3.10.y/drivers/usb/host/dwc_common_port/changes.txt 2013-07-06 15:25:50.000000000 +0100
+@@ -0,0 +1,174 @@
++
++dwc_read_reg32() and friends now take an additional parameter, a pointer to an
++IO context struct. The IO context struct should live in an os-dependent struct
++in your driver. As an example, the dwc_usb3 driver has an os-dependent struct
++named 'os_dep' embedded in the main device struct. So there these calls look
++like this:
++
++ dwc_read_reg32(&usb3_dev->os_dep.ioctx, &pcd->dev_global_regs->dcfg);
++
++ dwc_write_reg32(&usb3_dev->os_dep.ioctx,
++ &pcd->dev_global_regs->dcfg, 0);
++
++Note that for the existing Linux driver ports, it is not necessary to actually
++define the 'ioctx' member in the os-dependent struct. Since Linux does not
++require an IO context, its macros for dwc_read_reg32() and friends do not
++use the context pointer, so it is optimized away by the compiler. But it is
++necessary to add the pointer parameter to all of the call sites, to be ready
++for any future ports (such as FreeBSD) which do require an IO context.
++
++
++Similarly, dwc_alloc(), dwc_alloc_atomic(), dwc_strdup(), and dwc_free() now
++take an additional parameter, a pointer to a memory context. Examples:
++
++ addr = dwc_alloc(&usb3_dev->os_dep.memctx, size);
++
++ dwc_free(&usb3_dev->os_dep.memctx, addr);
++
++Again, for the Linux ports, it is not necessary to actually define the memctx
++member, but it is necessary to add the pointer parameter to all of the call
++sites.
++
++
++Same for dwc_dma_alloc() and dwc_dma_free(). Examples:
++
++ virt_addr = dwc_dma_alloc(&usb3_dev->os_dep.dmactx, size, &phys_addr);
++
++ dwc_dma_free(&usb3_dev->os_dep.dmactx, size, virt_addr, phys_addr);
++
++
++Same for dwc_mutex_alloc() and dwc_mutex_free(). Examples:
++
++ mutex = dwc_mutex_alloc(&usb3_dev->os_dep.mtxctx);
++
++ dwc_mutex_free(&usb3_dev->os_dep.mtxctx, mutex);
++
++
++Same for dwc_spinlock_alloc() and dwc_spinlock_free(). Examples:
++
++ lock = dwc_spinlock_alloc(&usb3_dev->osdep.splctx);
++
++ dwc_spinlock_free(&usb3_dev->osdep.splctx, lock);
++
++
++Same for dwc_timer_alloc(). Example:
++
++ timer = dwc_timer_alloc(&usb3_dev->os_dep.tmrctx, "dwc_usb3_tmr1",
++ cb_func, cb_data);
++
++
++Same for dwc_waitq_alloc(). Example:
++
++ waitq = dwc_waitq_alloc(&usb3_dev->os_dep.wtqctx);
++
++
++Same for dwc_thread_run(). Example:
++
++ thread = dwc_thread_run(&usb3_dev->os_dep.thdctx, func,
++ "dwc_usb3_thd1", data);
++
++
++Same for dwc_workq_alloc(). Example:
++
++ workq = dwc_workq_alloc(&usb3_dev->osdep.wkqctx, "dwc_usb3_wkq1");
++
++
++Same for dwc_task_alloc(). Example:
++
++ task = dwc_task_alloc(&usb3_dev->os_dep.tskctx, "dwc_usb3_tsk1",
++ cb_func, cb_data);
++
++
++In addition to the context pointer additions, a few core functions have had
++other changes made to their parameters:
++
++The 'flags' parameter to dwc_spinlock_irqsave() and dwc_spinunlock_irqrestore()
++has been changed from a uint64_t to a dwc_irqflags_t.
++
++dwc_thread_should_stop() now takes a 'dwc_thread_t *' parameter, because the
++FreeBSD equivalent of that function requires it.
++
++And, in addition to the context pointer, dwc_task_alloc() also adds a
++'char *name' parameter, to be consistent with dwc_thread_run() and
++dwc_workq_alloc(), and because the FreeBSD equivalent of that function
++requires a unique name.
++
++
++Here is a complete list of the core functions that now take a pointer to a
++context as their first parameter:
++
++ dwc_read_reg32
++ dwc_read_reg64
++ dwc_write_reg32
++ dwc_write_reg64
++ dwc_modify_reg32
++ dwc_modify_reg64
++ dwc_alloc
++ dwc_alloc_atomic
++ dwc_strdup
++ dwc_free
++ dwc_dma_alloc
++ dwc_dma_free
++ dwc_mutex_alloc
++ dwc_mutex_free
++ dwc_spinlock_alloc
++ dwc_spinlock_free
++ dwc_timer_alloc
++ dwc_waitq_alloc
++ dwc_thread_run
++ dwc_workq_alloc
++ dwc_task_alloc Also adds a 'char *name' as its 2nd parameter
++
++And here are the core functions that have other changes to their parameters:
++
++ dwc_spinlock_irqsave 'flags' param is now a 'dwc_irqflags_t *'
++ dwc_spinunlock_irqrestore 'flags' param is now a 'dwc_irqflags_t'
++ dwc_thread_should_stop Adds a 'dwc_thread_t *' parameter
++
++
++
++The changes to the core functions also require some of the other library
++functions to change:
++
++ dwc_cc_if_alloc() and dwc_cc_if_free() now take a 'void *memctx'
++ (for memory allocation) as the 1st param and a 'void *mtxctx'
++ (for mutex allocation) as the 2nd param.
++
++ dwc_cc_clear(), dwc_cc_add(), dwc_cc_change(), dwc_cc_remove(),
++ dwc_cc_data_for_save(), and dwc_cc_restore_from_data() now take a
++ 'void *memctx' as the 1st param.
++
++ dwc_dh_modpow(), dwc_dh_pk(), and dwc_dh_derive_keys() now take a
++ 'void *memctx' as the 1st param.
++
++ dwc_modpow() now takes a 'void *memctx' as the 1st param.
++
++ dwc_alloc_notification_manager() now takes a 'void *memctx' as the
++ 1st param and a 'void *wkqctx' (for work queue allocation) as the 2nd
++ param, and also now returns an integer value that is non-zero if
++ allocation of its data structures or work queue fails.
++
++ dwc_register_notifier() now takes a 'void *memctx' as the 1st param.
++
++ dwc_memory_debug_start() now takes a 'void *mem_ctx' as the first
++ param, and also now returns an integer value that is non-zero if
++ allocation of its data structures fails.
++
++
++
++Other miscellaneous changes:
++
++The DEBUG_MEMORY and DEBUG_REGS #define's have been renamed to
++DWC_DEBUG_MEMORY and DWC_DEBUG_REGS.
++
++The following #define's have been added to allow selectively compiling library
++features:
++
++ DWC_CCLIB
++ DWC_CRYPTOLIB
++ DWC_NOTIFYLIB
++ DWC_UTFLIB
++
++A DWC_LIBMODULE #define has also been added. If this is not defined, then the
++module code in dwc_common_linux.c is not compiled in. This allows linking the
++library code directly into a driver module, instead of as a standalone module.
+diff -urN linux-3.10/drivers/usb/host/dwc_common_port/doc/doxygen.cfg linux-rpi-3.10.y/drivers/usb/host/dwc_common_port/doc/doxygen.cfg
+--- linux-3.10/drivers/usb/host/dwc_common_port/doc/doxygen.cfg 1970-01-01 01:00:00.000000000 +0100
++++ linux-rpi-3.10.y/drivers/usb/host/dwc_common_port/doc/doxygen.cfg 2013-07-06 15:25:50.000000000 +0100
+@@ -0,0 +1,270 @@
++# Doxyfile 1.4.5
++
++#---------------------------------------------------------------------------
++# Project related configuration options
++#---------------------------------------------------------------------------
++PROJECT_NAME = "Synopsys DWC Portability and Common Library for UWB"
++PROJECT_NUMBER =
++OUTPUT_DIRECTORY = doc
++CREATE_SUBDIRS = NO
++OUTPUT_LANGUAGE = English
++BRIEF_MEMBER_DESC = YES
++REPEAT_BRIEF = YES
++ABBREVIATE_BRIEF = "The $name class" \
++ "The $name widget" \
++ "The $name file" \
++ is \
++ provides \
++ specifies \
++ contains \
++ represents \
++ a \
++ an \
++ the
++ALWAYS_DETAILED_SEC = YES
++INLINE_INHERITED_MEMB = NO
++FULL_PATH_NAMES = NO
++STRIP_FROM_PATH = ..
++STRIP_FROM_INC_PATH =
++SHORT_NAMES = NO
++JAVADOC_AUTOBRIEF = YES
++MULTILINE_CPP_IS_BRIEF = NO
++DETAILS_AT_TOP = YES
++INHERIT_DOCS = YES
++SEPARATE_MEMBER_PAGES = NO
++TAB_SIZE = 8
++ALIASES =
++OPTIMIZE_OUTPUT_FOR_C = YES
++OPTIMIZE_OUTPUT_JAVA = NO
++BUILTIN_STL_SUPPORT = NO
++DISTRIBUTE_GROUP_DOC = NO
++SUBGROUPING = NO
++#---------------------------------------------------------------------------
++# Build related configuration options
++#---------------------------------------------------------------------------
++EXTRACT_ALL = NO
++EXTRACT_PRIVATE = NO
++EXTRACT_STATIC = YES
++EXTRACT_LOCAL_CLASSES = NO
++EXTRACT_LOCAL_METHODS = NO
++HIDE_UNDOC_MEMBERS = NO
++HIDE_UNDOC_CLASSES = NO
++HIDE_FRIEND_COMPOUNDS = NO
++HIDE_IN_BODY_DOCS = NO
++INTERNAL_DOCS = NO
++CASE_SENSE_NAMES = YES
++HIDE_SCOPE_NAMES = NO
++SHOW_INCLUDE_FILES = NO
++INLINE_INFO = YES
++SORT_MEMBER_DOCS = NO
++SORT_BRIEF_DOCS = NO
++SORT_BY_SCOPE_NAME = NO
++GENERATE_TODOLIST = YES
++GENERATE_TESTLIST = YES
++GENERATE_BUGLIST = YES
++GENERATE_DEPRECATEDLIST= YES
++ENABLED_SECTIONS =
++MAX_INITIALIZER_LINES = 30
++SHOW_USED_FILES = YES
++SHOW_DIRECTORIES = YES
++FILE_VERSION_FILTER =
++#---------------------------------------------------------------------------
++# configuration options related to warning and progress messages
++#---------------------------------------------------------------------------
++QUIET = YES
++WARNINGS = YES
++WARN_IF_UNDOCUMENTED = NO
++WARN_IF_DOC_ERROR = YES
++WARN_NO_PARAMDOC = YES
++WARN_FORMAT = "$file:$line: $text"
++WARN_LOGFILE =
++#---------------------------------------------------------------------------
++# configuration options related to the input files
++#---------------------------------------------------------------------------
++INPUT = .
++FILE_PATTERNS = *.c \
++ *.cc \
++ *.cxx \
++ *.cpp \
++ *.c++ \
++ *.d \
++ *.java \
++ *.ii \
++ *.ixx \
++ *.ipp \
++ *.i++ \
++ *.inl \
++ *.h \
++ *.hh \
++ *.hxx \
++ *.hpp \
++ *.h++ \
++ *.idl \
++ *.odl \
++ *.cs \
++ *.php \
++ *.php3 \
++ *.inc \
++ *.m \
++ *.mm \
++ *.dox \
++ *.py \
++ *.C \
++ *.CC \
++ *.C++ \
++ *.II \
++ *.I++ \
++ *.H \
++ *.HH \
++ *.H++ \
++ *.CS \
++ *.PHP \
++ *.PHP3 \
++ *.M \
++ *.MM \
++ *.PY
++RECURSIVE = NO
++EXCLUDE =
++EXCLUDE_SYMLINKS = NO
++EXCLUDE_PATTERNS =
++EXAMPLE_PATH =
++EXAMPLE_PATTERNS = *
++EXAMPLE_RECURSIVE = NO
++IMAGE_PATH =
++INPUT_FILTER =
++FILTER_PATTERNS =
++FILTER_SOURCE_FILES = NO
++#---------------------------------------------------------------------------
++# configuration options related to source browsing
++#---------------------------------------------------------------------------
++SOURCE_BROWSER = NO
++INLINE_SOURCES = NO
++STRIP_CODE_COMMENTS = YES
++REFERENCED_BY_RELATION = YES
++REFERENCES_RELATION = YES
++USE_HTAGS = NO
++VERBATIM_HEADERS = NO
++#---------------------------------------------------------------------------
++# configuration options related to the alphabetical class index
++#---------------------------------------------------------------------------
++ALPHABETICAL_INDEX = NO
++COLS_IN_ALPHA_INDEX = 5
++IGNORE_PREFIX =
++#---------------------------------------------------------------------------
++# configuration options related to the HTML output
++#---------------------------------------------------------------------------
++GENERATE_HTML = YES
++HTML_OUTPUT = html
++HTML_FILE_EXTENSION = .html
++HTML_HEADER =
++HTML_FOOTER =
++HTML_STYLESHEET =
++HTML_ALIGN_MEMBERS = YES
++GENERATE_HTMLHELP = NO
++CHM_FILE =
++HHC_LOCATION =
++GENERATE_CHI = NO
++BINARY_TOC = NO
++TOC_EXPAND = NO
++DISABLE_INDEX = NO
++ENUM_VALUES_PER_LINE = 4
++GENERATE_TREEVIEW = YES
++TREEVIEW_WIDTH = 250
++#---------------------------------------------------------------------------
++# configuration options related to the LaTeX output
++#---------------------------------------------------------------------------
++GENERATE_LATEX = NO
++LATEX_OUTPUT = latex
++LATEX_CMD_NAME = latex
++MAKEINDEX_CMD_NAME = makeindex
++COMPACT_LATEX = NO
++PAPER_TYPE = a4wide
++EXTRA_PACKAGES =
++LATEX_HEADER =
++PDF_HYPERLINKS = NO
++USE_PDFLATEX = NO
++LATEX_BATCHMODE = NO
++LATEX_HIDE_INDICES = NO
++#---------------------------------------------------------------------------
++# configuration options related to the RTF output
++#---------------------------------------------------------------------------
++GENERATE_RTF = NO
++RTF_OUTPUT = rtf
++COMPACT_RTF = NO
++RTF_HYPERLINKS = NO
++RTF_STYLESHEET_FILE =
++RTF_EXTENSIONS_FILE =
++#---------------------------------------------------------------------------
++# configuration options related to the man page output
++#---------------------------------------------------------------------------
++GENERATE_MAN = NO
++MAN_OUTPUT = man
++MAN_EXTENSION = .3
++MAN_LINKS = NO
++#---------------------------------------------------------------------------
++# configuration options related to the XML output
++#---------------------------------------------------------------------------
++GENERATE_XML = NO
++XML_OUTPUT = xml
++XML_SCHEMA =
++XML_DTD =
++XML_PROGRAMLISTING = YES
++#---------------------------------------------------------------------------
++# configuration options for the AutoGen Definitions output
++#---------------------------------------------------------------------------
++GENERATE_AUTOGEN_DEF = NO
++#---------------------------------------------------------------------------
++# configuration options related to the Perl module output
++#---------------------------------------------------------------------------
++GENERATE_PERLMOD = NO
++PERLMOD_LATEX = NO
++PERLMOD_PRETTY = YES
++PERLMOD_MAKEVAR_PREFIX =
++#---------------------------------------------------------------------------
++# Configuration options related to the preprocessor
++#---------------------------------------------------------------------------
++ENABLE_PREPROCESSING = YES
++MACRO_EXPANSION = NO
++EXPAND_ONLY_PREDEF = NO
++SEARCH_INCLUDES = YES
++INCLUDE_PATH =
++INCLUDE_FILE_PATTERNS =
++PREDEFINED = DEBUG DEBUG_MEMORY
++EXPAND_AS_DEFINED =
++SKIP_FUNCTION_MACROS = YES
++#---------------------------------------------------------------------------
++# Configuration::additions related to external references
++#---------------------------------------------------------------------------
++TAGFILES =
++GENERATE_TAGFILE =
++ALLEXTERNALS = NO
++EXTERNAL_GROUPS = YES
++PERL_PATH = /usr/bin/perl
++#---------------------------------------------------------------------------
++# Configuration options related to the dot tool
++#---------------------------------------------------------------------------
++CLASS_DIAGRAMS = YES
++HIDE_UNDOC_RELATIONS = YES
++HAVE_DOT = NO
++CLASS_GRAPH = YES
++COLLABORATION_GRAPH = YES
++GROUP_GRAPHS = YES
++UML_LOOK = NO
++TEMPLATE_RELATIONS = NO
++INCLUDE_GRAPH = NO
++INCLUDED_BY_GRAPH = YES
++CALL_GRAPH = NO
++GRAPHICAL_HIERARCHY = YES
++DIRECTORY_GRAPH = YES
++DOT_IMAGE_FORMAT = png
++DOT_PATH =
++DOTFILE_DIRS =
++MAX_DOT_GRAPH_DEPTH = 1000
++DOT_TRANSPARENT = NO
++DOT_MULTI_TARGETS = NO
++GENERATE_LEGEND = YES
++DOT_CLEANUP = YES
++#---------------------------------------------------------------------------
++# Configuration::additions related to the search engine
++#---------------------------------------------------------------------------
++SEARCHENGINE = NO
+diff -urN linux-3.10/drivers/usb/host/dwc_common_port/dwc_cc.c linux-rpi-3.10.y/drivers/usb/host/dwc_common_port/dwc_cc.c
+--- linux-3.10/drivers/usb/host/dwc_common_port/dwc_cc.c 1970-01-01 01:00:00.000000000 +0100
++++ linux-rpi-3.10.y/drivers/usb/host/dwc_common_port/dwc_cc.c 2013-07-06 15:25:50.000000000 +0100
+@@ -0,0 +1,532 @@
++/* =========================================================================
++ * $File: //dwh/usb_iip/dev/software/dwc_common_port_2/dwc_cc.c $
++ * $Revision: #4 $
++ * $Date: 2010/11/04 $
++ * $Change: 1621692 $
++ *
++ * Synopsys Portability Library Software and documentation
++ * (hereinafter, "Software") is an Unsupported proprietary work of
++ * Synopsys, Inc. unless otherwise expressly agreed to in writing
++ * between Synopsys and you.
++ *
++ * The Software IS NOT an item of Licensed Software or Licensed Product
++ * under any End User Software License Agreement or Agreement for
++ * Licensed Product with Synopsys or any supplement thereto. You are
++ * permitted to use and redistribute this Software in source and binary
++ * forms, with or without modification, provided that redistributions
++ * of source code must retain this notice. You may not view, use,
++ * disclose, copy or distribute this file or any information contained
++ * herein except pursuant to this license grant from Synopsys. If you
++ * do not agree with this notice, including the disclaimer below, then
++ * you are not authorized to use the Software.
++ *
++ * THIS SOFTWARE IS BEING DISTRIBUTED BY SYNOPSYS SOLELY ON AN "AS IS"
++ * BASIS AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT
++ * LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS
++ * FOR A PARTICULAR PURPOSE ARE HEREBY DISCLAIMED. IN NO EVENT SHALL
++ * SYNOPSYS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL,
++ * EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO,
++ * PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR
++ * PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY
++ * OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
++ * (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE
++ * USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH
++ * DAMAGE.
++ * ========================================================================= */
++#ifdef DWC_CCLIB
++
++#include "dwc_cc.h"
++
++typedef struct dwc_cc
++{
++ uint32_t uid;
++ uint8_t chid[16];
++ uint8_t cdid[16];
++ uint8_t ck[16];
++ uint8_t *name;
++ uint8_t length;
++ DWC_CIRCLEQ_ENTRY(dwc_cc) list_entry;
++} dwc_cc_t;
++
++DWC_CIRCLEQ_HEAD(context_list, dwc_cc);
++
++/** The main structure for CC management. */
++struct dwc_cc_if
++{
++ dwc_mutex_t *mutex;
++ char *filename;
++
++ unsigned is_host:1;
++
++ dwc_notifier_t *notifier;
++
++ struct context_list list;
++};
++
++#ifdef DEBUG
++static inline void dump_bytes(char *name, uint8_t *bytes, int len)
++{
++ int i;
++ DWC_PRINTF("%s: ", name);
++ for (i=0; i<len; i++) {
++ DWC_PRINTF("%02x ", bytes[i]);
++ }
++ DWC_PRINTF("\n");
++}
++#else
++#define dump_bytes(x...)
++#endif
++
++static dwc_cc_t *alloc_cc(void *mem_ctx, uint8_t *name, uint32_t length)
++{
++ dwc_cc_t *cc = dwc_alloc(mem_ctx, sizeof(dwc_cc_t));
++ if (!cc) {
++ return NULL;
++ }
++ DWC_MEMSET(cc, 0, sizeof(dwc_cc_t));
++
++ if (name) {
++ cc->length = length;
++ cc->name = dwc_alloc(mem_ctx, length);
++ if (!cc->name) {
++ dwc_free(mem_ctx, cc);
++ return NULL;
++ }
++
++ DWC_MEMCPY(cc->name, name, length);
++ }
++
++ return cc;
++}
++
++static void free_cc(void *mem_ctx, dwc_cc_t *cc)
++{
++ if (cc->name) {
++ dwc_free(mem_ctx, cc->name);
++ }
++ dwc_free(mem_ctx, cc);
++}
++
++static uint32_t next_uid(dwc_cc_if_t *cc_if)
++{
++ uint32_t uid = 0;
++ dwc_cc_t *cc;
++ DWC_CIRCLEQ_FOREACH(cc, &cc_if->list, list_entry) {
++ if (cc->uid > uid) {
++ uid = cc->uid;
++ }
++ }
++
++ if (uid == 0) {
++ uid = 255;
++ }
++
++ return uid + 1;
++}
++
++static dwc_cc_t *cc_find(dwc_cc_if_t *cc_if, uint32_t uid)
++{
++ dwc_cc_t *cc;
++ DWC_CIRCLEQ_FOREACH(cc, &cc_if->list, list_entry) {
++ if (cc->uid == uid) {
++ return cc;
++ }
++ }
++ return NULL;
++}
++
++static unsigned int cc_data_size(dwc_cc_if_t *cc_if)
++{
++ unsigned int size = 0;
++ dwc_cc_t *cc;
++ DWC_CIRCLEQ_FOREACH(cc, &cc_if->list, list_entry) {
++ size += (48 + 1);
++ if (cc->name) {
++ size += cc->length;
++ }
++ }
++ return size;
++}
++
++static uint32_t cc_match_chid(dwc_cc_if_t *cc_if, uint8_t *chid)
++{
++ uint32_t uid = 0;
++ dwc_cc_t *cc;
++
++ DWC_CIRCLEQ_FOREACH(cc, &cc_if->list, list_entry) {
++ if (DWC_MEMCMP(cc->chid, chid, 16) == 0) {
++ uid = cc->uid;
++ break;
++ }
++ }
++ return uid;
++}
++static uint32_t cc_match_cdid(dwc_cc_if_t *cc_if, uint8_t *cdid)
++{
++ uint32_t uid = 0;
++ dwc_cc_t *cc;
++
++ DWC_CIRCLEQ_FOREACH(cc, &cc_if->list, list_entry) {
++ if (DWC_MEMCMP(cc->cdid, cdid, 16) == 0) {
++ uid = cc->uid;
++ break;
++ }
++ }
++ return uid;
++}
++
++/* Internal cc_add */
++static int32_t cc_add(void *mem_ctx, dwc_cc_if_t *cc_if, uint8_t *chid,
++ uint8_t *cdid, uint8_t *ck, uint8_t *name, uint8_t length)
++{
++ dwc_cc_t *cc;
++ uint32_t uid;
++
++ if (cc_if->is_host) {
++ uid = cc_match_cdid(cc_if, cdid);
++ }
++ else {
++ uid = cc_match_chid(cc_if, chid);
++ }
++
++ if (uid) {
++ DWC_DEBUGC("Replacing previous connection context id=%d name=%p name_len=%d", uid, name, length);
++ cc = cc_find(cc_if, uid);
++ }
++ else {
++ cc = alloc_cc(mem_ctx, name, length);
++ cc->uid = next_uid(cc_if);
++ DWC_CIRCLEQ_INSERT_TAIL(&cc_if->list, cc, list_entry);
++ }
++
++ DWC_MEMCPY(&(cc->chid[0]), chid, 16);
++ DWC_MEMCPY(&(cc->cdid[0]), cdid, 16);
++ DWC_MEMCPY(&(cc->ck[0]), ck, 16);
++
++ DWC_DEBUGC("Added connection context id=%d name=%p name_len=%d", cc->uid, name, length);
++ dump_bytes("CHID", cc->chid, 16);
++ dump_bytes("CDID", cc->cdid, 16);
++ dump_bytes("CK", cc->ck, 16);
++ return cc->uid;
++}
++
++/* Internal cc_clear */
++static void cc_clear(void *mem_ctx, dwc_cc_if_t *cc_if)
++{
++ while (!DWC_CIRCLEQ_EMPTY(&cc_if->list)) {
++ dwc_cc_t *cc = DWC_CIRCLEQ_FIRST(&cc_if->list);
++ DWC_CIRCLEQ_REMOVE_INIT(&cc_if->list, cc, list_entry);
++ free_cc(mem_ctx, cc);
++ }
++}
++
++dwc_cc_if_t *dwc_cc_if_alloc(void *mem_ctx, void *mtx_ctx,
++ dwc_notifier_t *notifier, unsigned is_host)
++{
++ dwc_cc_if_t *cc_if = NULL;
++
++ /* Allocate a common_cc_if structure */
++ cc_if = dwc_alloc(mem_ctx, sizeof(dwc_cc_if_t));
++
++ if (!cc_if)
++ return NULL;
++
++#if (defined(DWC_LINUX) && defined(CONFIG_DEBUG_MUTEXES))
++ DWC_MUTEX_ALLOC_LINUX_DEBUG(cc_if->mutex);
++#else
++ cc_if->mutex = dwc_mutex_alloc(mtx_ctx);
++#endif
++ if (!cc_if->mutex) {
++ dwc_free(mem_ctx, cc_if);
++ return NULL;
++ }
++
++ DWC_CIRCLEQ_INIT(&cc_if->list);
++ cc_if->is_host = is_host;
++ cc_if->notifier = notifier;
++ return cc_if;
++}
++
++void dwc_cc_if_free(void *mem_ctx, void *mtx_ctx, dwc_cc_if_t *cc_if)
++{
++#if (defined(DWC_LINUX) && defined(CONFIG_DEBUG_MUTEXES))
++ DWC_MUTEX_FREE(cc_if->mutex);
++#else
++ dwc_mutex_free(mtx_ctx, cc_if->mutex);
++#endif
++ cc_clear(mem_ctx, cc_if);
++ dwc_free(mem_ctx, cc_if);
++}
++
++static void cc_changed(dwc_cc_if_t *cc_if)
++{
++ if (cc_if->notifier) {
++ dwc_notify(cc_if->notifier, DWC_CC_LIST_CHANGED_NOTIFICATION, cc_if);
++ }
++}
++
++void dwc_cc_clear(void *mem_ctx, dwc_cc_if_t *cc_if)
++{
++ DWC_MUTEX_LOCK(cc_if->mutex);
++ cc_clear(mem_ctx, cc_if);
++ DWC_MUTEX_UNLOCK(cc_if->mutex);
++ cc_changed(cc_if);
++}
++
++int32_t dwc_cc_add(void *mem_ctx, dwc_cc_if_t *cc_if, uint8_t *chid,
++ uint8_t *cdid, uint8_t *ck, uint8_t *name, uint8_t length)
++{
++ uint32_t uid;
++
++ DWC_MUTEX_LOCK(cc_if->mutex);
++ uid = cc_add(mem_ctx, cc_if, chid, cdid, ck, name, length);
++ DWC_MUTEX_UNLOCK(cc_if->mutex);
++ cc_changed(cc_if);
++
++ return uid;
++}
++
++void dwc_cc_change(void *mem_ctx, dwc_cc_if_t *cc_if, int32_t id, uint8_t *chid,
++ uint8_t *cdid, uint8_t *ck, uint8_t *name, uint8_t length)
++{
++ dwc_cc_t* cc;
++
++ DWC_DEBUGC("Change connection context %d", id);
++
++ DWC_MUTEX_LOCK(cc_if->mutex);
++ cc = cc_find(cc_if, id);
++ if (!cc) {
++ DWC_ERROR("Uid %d not found in cc list\n", id);
++ DWC_MUTEX_UNLOCK(cc_if->mutex);
++ return;
++ }
++
++ if (chid) {
++ DWC_MEMCPY(&(cc->chid[0]), chid, 16);
++ }
++ if (cdid) {
++ DWC_MEMCPY(&(cc->cdid[0]), cdid, 16);
++ }
++ if (ck) {
++ DWC_MEMCPY(&(cc->ck[0]), ck, 16);
++ }
++
++ if (name) {
++ if (cc->name) {
++ dwc_free(mem_ctx, cc->name);
++ }
++ cc->name = dwc_alloc(mem_ctx, length);
++ if (!cc->name) {
++ DWC_ERROR("Out of memory in dwc_cc_change()\n");
++ DWC_MUTEX_UNLOCK(cc_if->mutex);
++ return;
++ }
++ cc->length = length;
++ DWC_MEMCPY(cc->name, name, length);
++ }
++
++ DWC_MUTEX_UNLOCK(cc_if->mutex);
++
++ cc_changed(cc_if);
++
++ DWC_DEBUGC("Changed connection context id=%d\n", id);
++ dump_bytes("New CHID", cc->chid, 16);
++ dump_bytes("New CDID", cc->cdid, 16);
++ dump_bytes("New CK", cc->ck, 16);
++}
++
++void dwc_cc_remove(void *mem_ctx, dwc_cc_if_t *cc_if, int32_t id)
++{
++ dwc_cc_t *cc;
++
++ DWC_DEBUGC("Removing connection context %d", id);
++
++ DWC_MUTEX_LOCK(cc_if->mutex);
++ cc = cc_find(cc_if, id);
++ if (!cc) {
++ DWC_ERROR("Uid %d not found in cc list\n", id);
++ DWC_MUTEX_UNLOCK(cc_if->mutex);
++ return;
++ }
++
++ DWC_CIRCLEQ_REMOVE_INIT(&cc_if->list, cc, list_entry);
++ DWC_MUTEX_UNLOCK(cc_if->mutex);
++ free_cc(mem_ctx, cc);
++
++ cc_changed(cc_if);
++}
++
++uint8_t *dwc_cc_data_for_save(void *mem_ctx, dwc_cc_if_t *cc_if, unsigned int *length)
++{
++ uint8_t *buf, *x;
++ uint8_t zero = 0;
++ dwc_cc_t *cc;
++
++ DWC_MUTEX_LOCK(cc_if->mutex);
++ *length = cc_data_size(cc_if);
++ if (!(*length)) {
++ DWC_MUTEX_UNLOCK(cc_if->mutex);
++ return NULL;
++ }
++
++ DWC_DEBUGC("Creating data for saving (length=%d)", *length);
++
++ buf = dwc_alloc(mem_ctx, *length);
++ if (!buf) {
++ *length = 0;
++ DWC_MUTEX_UNLOCK(cc_if->mutex);
++ return NULL;
++ }
++
++ x = buf;
++ DWC_CIRCLEQ_FOREACH(cc, &cc_if->list, list_entry) {
++ DWC_MEMCPY(x, cc->chid, 16);
++ x += 16;
++ DWC_MEMCPY(x, cc->cdid, 16);
++ x += 16;
++ DWC_MEMCPY(x, cc->ck, 16);
++ x += 16;
++ if (cc->name) {
++ DWC_MEMCPY(x, &cc->length, 1);
++ x += 1;
++ DWC_MEMCPY(x, cc->name, cc->length);
++ x += cc->length;
++ }
++ else {
++ DWC_MEMCPY(x, &zero, 1);
++ x += 1;
++ }
++ }
++ DWC_MUTEX_UNLOCK(cc_if->mutex);
++
++ return buf;
++}
++
++void dwc_cc_restore_from_data(void *mem_ctx, dwc_cc_if_t *cc_if, uint8_t *data, uint32_t length)
++{
++ uint8_t name_length;
++ uint8_t *name;
++ uint8_t *chid;
++ uint8_t *cdid;
++ uint8_t *ck;
++ uint32_t i = 0;
++
++ DWC_MUTEX_LOCK(cc_if->mutex);
++ cc_clear(mem_ctx, cc_if);
++
++ while (i < length) {
++ chid = &data[i];
++ i += 16;
++ cdid = &data[i];
++ i += 16;
++ ck = &data[i];
++ i += 16;
++
++ name_length = data[i];
++ i ++;
++
++ if (name_length) {
++ name = &data[i];
++ i += name_length;
++ }
++ else {
++ name = NULL;
++ }
++
++ /* check to see if we haven't overflown the buffer */
++ if (i > length) {
++ DWC_ERROR("Data format error while attempting to load CCs "
++ "(nlen=%d, iter=%d, buflen=%d).\n", name_length, i, length);
++ break;
++ }
++
++ cc_add(mem_ctx, cc_if, chid, cdid, ck, name, name_length);
++ }
++ DWC_MUTEX_UNLOCK(cc_if->mutex);
++
++ cc_changed(cc_if);
++}
++
++uint32_t dwc_cc_match_chid(dwc_cc_if_t *cc_if, uint8_t *chid)
++{
++ uint32_t uid = 0;
++
++ DWC_MUTEX_LOCK(cc_if->mutex);
++ uid = cc_match_chid(cc_if, chid);
++ DWC_MUTEX_UNLOCK(cc_if->mutex);
++ return uid;
++}
++uint32_t dwc_cc_match_cdid(dwc_cc_if_t *cc_if, uint8_t *cdid)
++{
++ uint32_t uid = 0;
++
++ DWC_MUTEX_LOCK(cc_if->mutex);
++ uid = cc_match_cdid(cc_if, cdid);
++ DWC_MUTEX_UNLOCK(cc_if->mutex);
++ return uid;
++}
++
++uint8_t *dwc_cc_ck(dwc_cc_if_t *cc_if, int32_t id)
++{
++ uint8_t *ck = NULL;
++ dwc_cc_t *cc;
++
++ DWC_MUTEX_LOCK(cc_if->mutex);
++ cc = cc_find(cc_if, id);
++ if (cc) {
++ ck = cc->ck;
++ }
++ DWC_MUTEX_UNLOCK(cc_if->mutex);
++
++ return ck;
++
++}
++
++uint8_t *dwc_cc_chid(dwc_cc_if_t *cc_if, int32_t id)
++{
++ uint8_t *retval = NULL;
++ dwc_cc_t *cc;
++
++ DWC_MUTEX_LOCK(cc_if->mutex);
++ cc = cc_find(cc_if, id);
++ if (cc) {
++ retval = cc->chid;
++ }
++ DWC_MUTEX_UNLOCK(cc_if->mutex);
++
++ return retval;
++}
++
++uint8_t *dwc_cc_cdid(dwc_cc_if_t *cc_if, int32_t id)
++{
++ uint8_t *retval = NULL;
++ dwc_cc_t *cc;
++
++ DWC_MUTEX_LOCK(cc_if->mutex);
++ cc = cc_find(cc_if, id);
++ if (cc) {
++ retval = cc->cdid;
++ }
++ DWC_MUTEX_UNLOCK(cc_if->mutex);
++
++ return retval;
++}
++
++uint8_t *dwc_cc_name(dwc_cc_if_t *cc_if, int32_t id, uint8_t *length)
++{
++ uint8_t *retval = NULL;
++ dwc_cc_t *cc;
++
++ DWC_MUTEX_LOCK(cc_if->mutex);
++ *length = 0;
++ cc = cc_find(cc_if, id);
++ if (cc) {
++ *length = cc->length;
++ retval = cc->name;
++ }
++ DWC_MUTEX_UNLOCK(cc_if->mutex);
++
++ return retval;
++}
++
++#endif /* DWC_CCLIB */
+diff -urN linux-3.10/drivers/usb/host/dwc_common_port/dwc_cc.h linux-rpi-3.10.y/drivers/usb/host/dwc_common_port/dwc_cc.h
+--- linux-3.10/drivers/usb/host/dwc_common_port/dwc_cc.h 1970-01-01 01:00:00.000000000 +0100
++++ linux-rpi-3.10.y/drivers/usb/host/dwc_common_port/dwc_cc.h 2013-07-06 15:25:50.000000000 +0100
+@@ -0,0 +1,225 @@
++/* =========================================================================
++ * $File: //dwh/usb_iip/dev/software/dwc_common_port_2/dwc_cc.h $
++ * $Revision: #4 $
++ * $Date: 2010/09/28 $
++ * $Change: 1596182 $
++ *
++ * Synopsys Portability Library Software and documentation
++ * (hereinafter, "Software") is an Unsupported proprietary work of
++ * Synopsys, Inc. unless otherwise expressly agreed to in writing
++ * between Synopsys and you.
++ *
++ * The Software IS NOT an item of Licensed Software or Licensed Product
++ * under any End User Software License Agreement or Agreement for
++ * Licensed Product with Synopsys or any supplement thereto. You are
++ * permitted to use and redistribute this Software in source and binary
++ * forms, with or without modification, provided that redistributions
++ * of source code must retain this notice. You may not view, use,
++ * disclose, copy or distribute this file or any information contained
++ * herein except pursuant to this license grant from Synopsys. If you
++ * do not agree with this notice, including the disclaimer below, then
++ * you are not authorized to use the Software.
++ *
++ * THIS SOFTWARE IS BEING DISTRIBUTED BY SYNOPSYS SOLELY ON AN "AS IS"
++ * BASIS AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT
++ * LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS
++ * FOR A PARTICULAR PURPOSE ARE HEREBY DISCLAIMED. IN NO EVENT SHALL
++ * SYNOPSYS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL,
++ * EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO,
++ * PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR
++ * PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY
++ * OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
++ * (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE
++ * USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH
++ * DAMAGE.
++ * ========================================================================= */
++#ifndef _DWC_CC_H_
++#define _DWC_CC_H_
++
++#ifdef __cplusplus
++extern "C" {
++#endif
++
++/** @file
++ *
++ * This file defines the Context Context library.
++ *
++ * The main data structure is dwc_cc_if_t which is returned by either the
++ * dwc_cc_if_alloc function or returned by the module to the user via a provided
++ * function. The data structure is opaque and should only be manipulated via the
++ * functions provied in this API.
++ *
++ * It manages a list of connection contexts and operations can be performed to
++ * add, remove, query, search, and change, those contexts. Additionally,
++ * a dwc_notifier_t object can be requested from the manager so that
++ * the user can be notified whenever the context list has changed.
++ */
++
++#include "dwc_os.h"
++#include "dwc_list.h"
++#include "dwc_notifier.h"
++
++
++/* Notifications */
++#define DWC_CC_LIST_CHANGED_NOTIFICATION "DWC_CC_LIST_CHANGED_NOTIFICATION"
++
++struct dwc_cc_if;
++typedef struct dwc_cc_if dwc_cc_if_t;
++
++
++/** @name Connection Context Operations */
++/** @{ */
++
++/** This function allocates memory for a dwc_cc_if_t structure, initializes
++ * fields to default values, and returns a pointer to the structure or NULL on
++ * error. */
++extern dwc_cc_if_t *dwc_cc_if_alloc(void *mem_ctx, void *mtx_ctx,
++ dwc_notifier_t *notifier, unsigned is_host);
++
++/** Frees the memory for the specified CC structure allocated from
++ * dwc_cc_if_alloc(). */
++extern void dwc_cc_if_free(void *mem_ctx, void *mtx_ctx, dwc_cc_if_t *cc_if);
++
++/** Removes all contexts from the connection context list */
++extern void dwc_cc_clear(void *mem_ctx, dwc_cc_if_t *cc_if);
++
++/** Adds a connection context (CHID, CK, CDID, Name) to the connection context list.
++ * If a CHID already exists, the CK and name are overwritten. Statistics are
++ * not overwritten.
++ *
++ * @param cc_if The cc_if structure.
++ * @param chid A pointer to the 16-byte CHID. This value will be copied.
++ * @param ck A pointer to the 16-byte CK. This value will be copied.
++ * @param cdid A pointer to the 16-byte CDID. This value will be copied.
++ * @param name An optional host friendly name as defined in the association model
++ * spec. Must be a UTF16-LE unicode string. Can be NULL to indicated no name.
++ * @param length The length othe unicode string.
++ * @return A unique identifier used to refer to this context that is valid for
++ * as long as this context is still in the list. */
++extern int32_t dwc_cc_add(void *mem_ctx, dwc_cc_if_t *cc_if, uint8_t *chid,
++ uint8_t *cdid, uint8_t *ck, uint8_t *name,
++ uint8_t length);
++
++/** Changes the CHID, CK, CDID, or Name values of a connection context in the
++ * list, preserving any accumulated statistics. This would typically be called
++ * if the host decideds to change the context with a SET_CONNECTION request.
++ *
++ * @param cc_if The cc_if structure.
++ * @param id The identifier of the connection context.
++ * @param chid A pointer to the 16-byte CHID. This value will be copied. NULL
++ * indicates no change.
++ * @param cdid A pointer to the 16-byte CDID. This value will be copied. NULL
++ * indicates no change.
++ * @param ck A pointer to the 16-byte CK. This value will be copied. NULL
++ * indicates no change.
++ * @param name Host friendly name UTF16-LE. NULL indicates no change.
++ * @param length Length of name. */
++extern void dwc_cc_change(void *mem_ctx, dwc_cc_if_t *cc_if, int32_t id,
++ uint8_t *chid, uint8_t *cdid, uint8_t *ck,
++ uint8_t *name, uint8_t length);
++
++/** Remove the specified connection context.
++ * @param cc_if The cc_if structure.
++ * @param id The identifier of the connection context to remove. */
++extern void dwc_cc_remove(void *mem_ctx, dwc_cc_if_t *cc_if, int32_t id);
++
++/** Get a binary block of data for the connection context list and attributes.
++ * This data can be used by the OS specific driver to save the connection
++ * context list into non-volatile memory.
++ *
++ * @param cc_if The cc_if structure.
++ * @param length Return the length of the data buffer.
++ * @return A pointer to the data buffer. The memory for this buffer should be
++ * freed with DWC_FREE() after use. */
++extern uint8_t *dwc_cc_data_for_save(void *mem_ctx, dwc_cc_if_t *cc_if,
++ unsigned int *length);
++
++/** Restore the connection context list from the binary data that was previously
++ * returned from a call to dwc_cc_data_for_save. This can be used by the OS specific
++ * driver to load a connection context list from non-volatile memory.
++ *
++ * @param cc_if The cc_if structure.
++ * @param data The data bytes as returned from dwc_cc_data_for_save.
++ * @param length The length of the data. */
++extern void dwc_cc_restore_from_data(void *mem_ctx, dwc_cc_if_t *cc_if,
++ uint8_t *data, unsigned int length);
++
++/** Find the connection context from the specified CHID.
++ *
++ * @param cc_if The cc_if structure.
++ * @param chid A pointer to the CHID data.
++ * @return A non-zero identifier of the connection context if the CHID matches.
++ * Otherwise returns 0. */
++extern uint32_t dwc_cc_match_chid(dwc_cc_if_t *cc_if, uint8_t *chid);
++
++/** Find the connection context from the specified CDID.
++ *
++ * @param cc_if The cc_if structure.
++ * @param cdid A pointer to the CDID data.
++ * @return A non-zero identifier of the connection context if the CHID matches.
++ * Otherwise returns 0. */
++extern uint32_t dwc_cc_match_cdid(dwc_cc_if_t *cc_if, uint8_t *cdid);
++
++/** Retrieve the CK from the specified connection context.
++ *
++ * @param cc_if The cc_if structure.
++ * @param id The identifier of the connection context.
++ * @return A pointer to the CK data. The memory does not need to be freed. */
++extern uint8_t *dwc_cc_ck(dwc_cc_if_t *cc_if, int32_t id);
++
++/** Retrieve the CHID from the specified connection context.
++ *
++ * @param cc_if The cc_if structure.
++ * @param id The identifier of the connection context.
++ * @return A pointer to the CHID data. The memory does not need to be freed. */
++extern uint8_t *dwc_cc_chid(dwc_cc_if_t *cc_if, int32_t id);
++
++/** Retrieve the CDID from the specified connection context.
++ *
++ * @param cc_if The cc_if structure.
++ * @param id The identifier of the connection context.
++ * @return A pointer to the CDID data. The memory does not need to be freed. */
++extern uint8_t *dwc_cc_cdid(dwc_cc_if_t *cc_if, int32_t id);
++
++extern uint8_t *dwc_cc_name(dwc_cc_if_t *cc_if, int32_t id, uint8_t *length);
++
++/** Checks a buffer for non-zero.
++ * @param id A pointer to a 16 byte buffer.
++ * @return true if the 16 byte value is non-zero. */
++static inline unsigned dwc_assoc_is_not_zero_id(uint8_t *id) {
++ int i;
++ for (i=0; i<16; i++) {
++ if (id[i]) return 1;
++ }
++ return 0;
++}
++
++/** Checks a buffer for zero.
++ * @param id A pointer to a 16 byte buffer.
++ * @return true if the 16 byte value is zero. */
++static inline unsigned dwc_assoc_is_zero_id(uint8_t *id) {
++ return !dwc_assoc_is_not_zero_id(id);
++}
++
++/** Prints an ASCII representation for the 16-byte chid, cdid, or ck, into
++ * buffer. */
++static inline int dwc_print_id_string(char *buffer, uint8_t *id) {
++ char *ptr = buffer;
++ int i;
++ for (i=0; i<16; i++) {
++ ptr += DWC_SPRINTF(ptr, "%02x", id[i]);
++ if (i < 15) {
++ ptr += DWC_SPRINTF(ptr, " ");
++ }
++ }
++ return ptr - buffer;
++}
++
++/** @} */
++
++#ifdef __cplusplus
++}
++#endif
++
++#endif /* _DWC_CC_H_ */
++
+diff -urN linux-3.10/drivers/usb/host/dwc_common_port/dwc_common_fbsd.c linux-rpi-3.10.y/drivers/usb/host/dwc_common_port/dwc_common_fbsd.c
+--- linux-3.10/drivers/usb/host/dwc_common_port/dwc_common_fbsd.c 1970-01-01 01:00:00.000000000 +0100
++++ linux-rpi-3.10.y/drivers/usb/host/dwc_common_port/dwc_common_fbsd.c 2013-07-06 15:25:50.000000000 +0100
+@@ -0,0 +1,1308 @@
++#include "dwc_os.h"
++#include "dwc_list.h"
++
++#ifdef DWC_CCLIB
++# include "dwc_cc.h"
++#endif
++
++#ifdef DWC_CRYPTOLIB
++# include "dwc_modpow.h"
++# include "dwc_dh.h"
++# include "dwc_crypto.h"
++#endif
++
++#ifdef DWC_NOTIFYLIB
++# include "dwc_notifier.h"
++#endif
++
++/* OS-Level Implementations */
++
++/* This is the FreeBSD 7.0 kernel implementation of the DWC platform library. */
++
++
++/* MISC */
++
++void *DWC_MEMSET(void *dest, uint8_t byte, uint32_t size)
++{
++ return memset(dest, byte, size);
++}
++
++void *DWC_MEMCPY(void *dest, void const *src, uint32_t size)
++{
++ return memcpy(dest, src, size);
++}
++
++void *DWC_MEMMOVE(void *dest, void *src, uint32_t size)
++{
++ bcopy(src, dest, size);
++ return dest;
++}
++
++int DWC_MEMCMP(void *m1, void *m2, uint32_t size)
++{
++ return memcmp(m1, m2, size);
++}
++
++int DWC_STRNCMP(void *s1, void *s2, uint32_t size)
++{
++ return strncmp(s1, s2, size);
++}
++
++int DWC_STRCMP(void *s1, void *s2)
++{
++ return strcmp(s1, s2);
++}
++
++int DWC_STRLEN(char const *str)
++{
++ return strlen(str);
++}
++
++char *DWC_STRCPY(char *to, char const *from)
++{
++ return strcpy(to, from);
++}
++
++char *DWC_STRDUP(char const *str)
++{
++ int len = DWC_STRLEN(str) + 1;
++ char *new = DWC_ALLOC_ATOMIC(len);
++
++ if (!new) {
++ return NULL;
++ }
++
++ DWC_MEMCPY(new, str, len);
++ return new;
++}
++
++int DWC_ATOI(char *str, int32_t *value)
++{
++ char *end = NULL;
++
++ *value = strtol(str, &end, 0);
++ if (*end == '\0') {
++ return 0;
++ }
++
++ return -1;
++}
++
++int DWC_ATOUI(char *str, uint32_t *value)
++{
++ char *end = NULL;
++
++ *value = strtoul(str, &end, 0);
++ if (*end == '\0') {
++ return 0;
++ }
++
++ return -1;
++}
++
++
++#ifdef DWC_UTFLIB
++/* From usbstring.c */
++
++int DWC_UTF8_TO_UTF16LE(uint8_t const *s, uint16_t *cp, unsigned len)
++{
++ int count = 0;
++ u8 c;
++ u16 uchar;
++
++ /* this insists on correct encodings, though not minimal ones.
++ * BUT it currently rejects legit 4-byte UTF-8 code points,
++ * which need surrogate pairs. (Unicode 3.1 can use them.)
++ */
++ while (len != 0 && (c = (u8) *s++) != 0) {
++ if (unlikely(c & 0x80)) {
++ // 2-byte sequence:
++ // 00000yyyyyxxxxxx = 110yyyyy 10xxxxxx
++ if ((c & 0xe0) == 0xc0) {
++ uchar = (c & 0x1f) << 6;
++
++ c = (u8) *s++;
++ if ((c & 0xc0) != 0xc0)
++ goto fail;
++ c &= 0x3f;
++ uchar |= c;
++
++ // 3-byte sequence (most CJKV characters):
++ // zzzzyyyyyyxxxxxx = 1110zzzz 10yyyyyy 10xxxxxx
++ } else if ((c & 0xf0) == 0xe0) {
++ uchar = (c & 0x0f) << 12;
++
++ c = (u8) *s++;
++ if ((c & 0xc0) != 0xc0)
++ goto fail;
++ c &= 0x3f;
++ uchar |= c << 6;
++
++ c = (u8) *s++;
++ if ((c & 0xc0) != 0xc0)
++ goto fail;
++ c &= 0x3f;
++ uchar |= c;
++
++ /* no bogus surrogates */
++ if (0xd800 <= uchar && uchar <= 0xdfff)
++ goto fail;
++
++ // 4-byte sequence (surrogate pairs, currently rare):
++ // 11101110wwwwzzzzyy + 110111yyyyxxxxxx
++ // = 11110uuu 10uuzzzz 10yyyyyy 10xxxxxx
++ // (uuuuu = wwww + 1)
++ // FIXME accept the surrogate code points (only)
++ } else
++ goto fail;
++ } else
++ uchar = c;
++ put_unaligned (cpu_to_le16 (uchar), cp++);
++ count++;
++ len--;
++ }
++ return count;
++fail:
++ return -1;
++}
++
++#endif /* DWC_UTFLIB */
++
++
++/* dwc_debug.h */
++
++dwc_bool_t DWC_IN_IRQ(void)
++{
++// return in_irq();
++ return 0;
++}
++
++dwc_bool_t DWC_IN_BH(void)
++{
++// return in_softirq();
++ return 0;
++}
++
++void DWC_VPRINTF(char *format, va_list args)
++{
++ vprintf(format, args);
++}
++
++int DWC_VSNPRINTF(char *str, int size, char *format, va_list args)
++{
++ return vsnprintf(str, size, format, args);
++}
++
++void DWC_PRINTF(char *format, ...)
++{
++ va_list args;
++
++ va_start(args, format);
++ DWC_VPRINTF(format, args);
++ va_end(args);
++}
++
++int DWC_SPRINTF(char *buffer, char *format, ...)
++{
++ int retval;
++ va_list args;
++
++ va_start(args, format);
++ retval = vsprintf(buffer, format, args);
++ va_end(args);
++ return retval;
++}
++
++int DWC_SNPRINTF(char *buffer, int size, char *format, ...)
++{
++ int retval;
++ va_list args;
++
++ va_start(args, format);
++ retval = vsnprintf(buffer, size, format, args);
++ va_end(args);
++ return retval;
++}
++
++void __DWC_WARN(char *format, ...)
++{
++ va_list args;
++
++ va_start(args, format);
++ DWC_VPRINTF(format, args);
++ va_end(args);
++}
++
++void __DWC_ERROR(char *format, ...)
++{
++ va_list args;
++
++ va_start(args, format);
++ DWC_VPRINTF(format, args);
++ va_end(args);
++}
++
++void DWC_EXCEPTION(char *format, ...)
++{
++ va_list args;
++
++ va_start(args, format);
++ DWC_VPRINTF(format, args);
++ va_end(args);
++// BUG_ON(1); ???
++}
++
++#ifdef DEBUG
++void __DWC_DEBUG(char *format, ...)
++{
++ va_list args;
++
++ va_start(args, format);
++ DWC_VPRINTF(format, args);
++ va_end(args);
++}
++#endif
++
++
++/* dwc_mem.h */
++
++#if 0
++dwc_pool_t *DWC_DMA_POOL_CREATE(uint32_t size,
++ uint32_t align,
++ uint32_t alloc)
++{
++ struct dma_pool *pool = dma_pool_create("Pool", NULL,
++ size, align, alloc);
++ return (dwc_pool_t *)pool;
++}
++
++void DWC_DMA_POOL_DESTROY(dwc_pool_t *pool)
++{
++ dma_pool_destroy((struct dma_pool *)pool);
++}
++
++void *DWC_DMA_POOL_ALLOC(dwc_pool_t *pool, uint64_t *dma_addr)
++{
++// return dma_pool_alloc((struct dma_pool *)pool, GFP_KERNEL, dma_addr);
++ return dma_pool_alloc((struct dma_pool *)pool, M_WAITOK, dma_addr);
++}
++
++void *DWC_DMA_POOL_ZALLOC(dwc_pool_t *pool, uint64_t *dma_addr)
++{
++ void *vaddr = DWC_DMA_POOL_ALLOC(pool, dma_addr);
++ memset(..);
++}
++
++void DWC_DMA_POOL_FREE(dwc_pool_t *pool, void *vaddr, void *daddr)
++{
++ dma_pool_free(pool, vaddr, daddr);
++}
++#endif
++
++static void dmamap_cb(void *arg, bus_dma_segment_t *segs, int nseg, int error)
++{
++ if (error)
++ return;
++ *(bus_addr_t *)arg = segs[0].ds_addr;
++}
++
++void *__DWC_DMA_ALLOC(void *dma_ctx, uint32_t size, dwc_dma_t *dma_addr)
++{
++ dwc_dmactx_t *dma = (dwc_dmactx_t *)dma_ctx;
++ int error;
++
++ error = bus_dma_tag_create(
++#if __FreeBSD_version >= 700000
++ bus_get_dma_tag(dma->dev), /* parent */
++#else
++ NULL, /* parent */
++#endif
++ 4, 0, /* alignment, bounds */
++ BUS_SPACE_MAXADDR_32BIT, /* lowaddr */
++ BUS_SPACE_MAXADDR, /* highaddr */
++ NULL, NULL, /* filter, filterarg */
++ size, /* maxsize */
++ 1, /* nsegments */
++ size, /* maxsegsize */
++ 0, /* flags */
++ NULL, /* lockfunc */
++ NULL, /* lockarg */
++ &dma->dma_tag);
++ if (error) {
++ device_printf(dma->dev, "%s: bus_dma_tag_create failed: %d\n",
++ __func__, error);
++ goto fail_0;
++ }
++
++ error = bus_dmamem_alloc(dma->dma_tag, &dma->dma_vaddr,
++ BUS_DMA_NOWAIT | BUS_DMA_COHERENT, &dma->dma_map);
++ if (error) {
++ device_printf(dma->dev, "%s: bus_dmamem_alloc(%ju) failed: %d\n",
++ __func__, (uintmax_t)size, error);
++ goto fail_1;
++ }
++
++ dma->dma_paddr = 0;
++ error = bus_dmamap_load(dma->dma_tag, dma->dma_map, dma->dma_vaddr, size,
++ dmamap_cb, &dma->dma_paddr, BUS_DMA_NOWAIT);
++ if (error || dma->dma_paddr == 0) {
++ device_printf(dma->dev, "%s: bus_dmamap_load failed: %d\n",
++ __func__, error);
++ goto fail_2;
++ }
++
++ *dma_addr = dma->dma_paddr;
++ return dma->dma_vaddr;
++
++fail_2:
++ bus_dmamap_unload(dma->dma_tag, dma->dma_map);
++fail_1:
++ bus_dmamem_free(dma->dma_tag, dma->dma_vaddr, dma->dma_map);
++ bus_dma_tag_destroy(dma->dma_tag);
++fail_0:
++ dma->dma_map = NULL;
++ dma->dma_tag = NULL;
++
++ return NULL;
++}
++
++void __DWC_DMA_FREE(void *dma_ctx, uint32_t size, void *virt_addr, dwc_dma_t dma_addr)
++{
++ dwc_dmactx_t *dma = (dwc_dmactx_t *)dma_ctx;
++
++ if (dma->dma_tag == NULL)
++ return;
++ if (dma->dma_map != NULL) {
++ bus_dmamap_sync(dma->dma_tag, dma->dma_map,
++ BUS_DMASYNC_POSTREAD | BUS_DMASYNC_POSTWRITE);
++ bus_dmamap_unload(dma->dma_tag, dma->dma_map);
++ bus_dmamem_free(dma->dma_tag, dma->dma_vaddr, dma->dma_map);
++ dma->dma_map = NULL;
++ }
++
++ bus_dma_tag_destroy(dma->dma_tag);
++ dma->dma_tag = NULL;
++}
++
++void *__DWC_ALLOC(void *mem_ctx, uint32_t size)
++{
++ return malloc(size, M_DEVBUF, M_WAITOK | M_ZERO);
++}
++
++void *__DWC_ALLOC_ATOMIC(void *mem_ctx, uint32_t size)
++{
++ return malloc(size, M_DEVBUF, M_NOWAIT | M_ZERO);
++}
++
++void __DWC_FREE(void *mem_ctx, void *addr)
++{
++ free(addr, M_DEVBUF);
++}
++
++
++#ifdef DWC_CRYPTOLIB
++/* dwc_crypto.h */
++
++void DWC_RANDOM_BYTES(uint8_t *buffer, uint32_t length)
++{
++ get_random_bytes(buffer, length);
++}
++
++int DWC_AES_CBC(uint8_t *message, uint32_t messagelen, uint8_t *key, uint32_t keylen, uint8_t iv[16], uint8_t *out)
++{
++ struct crypto_blkcipher *tfm;
++ struct blkcipher_desc desc;
++ struct scatterlist sgd;
++ struct scatterlist sgs;
++
++ tfm = crypto_alloc_blkcipher("cbc(aes)", 0, CRYPTO_ALG_ASYNC);
++ if (tfm == NULL) {
++ printk("failed to load transform for aes CBC\n");
++ return -1;
++ }
++
++ crypto_blkcipher_setkey(tfm, key, keylen);
++ crypto_blkcipher_set_iv(tfm, iv, 16);
++
++ sg_init_one(&sgd, out, messagelen);
++ sg_init_one(&sgs, message, messagelen);
++
++ desc.tfm = tfm;
++ desc.flags = 0;
++
++ if (crypto_blkcipher_encrypt(&desc, &sgd, &sgs, messagelen)) {
++ crypto_free_blkcipher(tfm);
++ DWC_ERROR("AES CBC encryption failed");
++ return -1;
++ }
++
++ crypto_free_blkcipher(tfm);
++ return 0;
++}
++
++int DWC_SHA256(uint8_t *message, uint32_t len, uint8_t *out)
++{
++ struct crypto_hash *tfm;
++ struct hash_desc desc;
++ struct scatterlist sg;
++
++ tfm = crypto_alloc_hash("sha256", 0, CRYPTO_ALG_ASYNC);
++ if (IS_ERR(tfm)) {
++ DWC_ERROR("Failed to load transform for sha256: %ld", PTR_ERR(tfm));
++ return 0;
++ }
++ desc.tfm = tfm;
++ desc.flags = 0;
++
++ sg_init_one(&sg, message, len);
++ crypto_hash_digest(&desc, &sg, len, out);
++ crypto_free_hash(tfm);
++
++ return 1;
++}
++
++int DWC_HMAC_SHA256(uint8_t *message, uint32_t messagelen,
++ uint8_t *key, uint32_t keylen, uint8_t *out)
++{
++ struct crypto_hash *tfm;
++ struct hash_desc desc;
++ struct scatterlist sg;
++
++ tfm = crypto_alloc_hash("hmac(sha256)", 0, CRYPTO_ALG_ASYNC);
++ if (IS_ERR(tfm)) {
++ DWC_ERROR("Failed to load transform for hmac(sha256): %ld", PTR_ERR(tfm));
++ return 0;
++ }
++ desc.tfm = tfm;
++ desc.flags = 0;
++
++ sg_init_one(&sg, message, messagelen);
++ crypto_hash_setkey(tfm, key, keylen);
++ crypto_hash_digest(&desc, &sg, messagelen, out);
++ crypto_free_hash(tfm);
++
++ return 1;
++}
++
++#endif /* DWC_CRYPTOLIB */
++
++
++/* Byte Ordering Conversions */
++
++uint32_t DWC_CPU_TO_LE32(uint32_t *p)
++{
++#ifdef __LITTLE_ENDIAN
++ return *p;
++#else
++ uint8_t *u_p = (uint8_t *)p;
++
++ return (u_p[3] | (u_p[2] << 8) | (u_p[1] << 16) | (u_p[0] << 24));
++#endif
++}
++
++uint32_t DWC_CPU_TO_BE32(uint32_t *p)
++{
++#ifdef __BIG_ENDIAN
++ return *p;
++#else
++ uint8_t *u_p = (uint8_t *)p;
++
++ return (u_p[3] | (u_p[2] << 8) | (u_p[1] << 16) | (u_p[0] << 24));
++#endif
++}
++
++uint32_t DWC_LE32_TO_CPU(uint32_t *p)
++{
++#ifdef __LITTLE_ENDIAN
++ return *p;
++#else
++ uint8_t *u_p = (uint8_t *)p;
++
++ return (u_p[3] | (u_p[2] << 8) | (u_p[1] << 16) | (u_p[0] << 24));
++#endif
++}
++
++uint32_t DWC_BE32_TO_CPU(uint32_t *p)
++{
++#ifdef __BIG_ENDIAN
++ return *p;
++#else
++ uint8_t *u_p = (uint8_t *)p;
++
++ return (u_p[3] | (u_p[2] << 8) | (u_p[1] << 16) | (u_p[0] << 24));
++#endif
++}
++
++uint16_t DWC_CPU_TO_LE16(uint16_t *p)
++{
++#ifdef __LITTLE_ENDIAN
++ return *p;
++#else
++ uint8_t *u_p = (uint8_t *)p;
++ return (u_p[1] | (u_p[0] << 8));
++#endif
++}
++
++uint16_t DWC_CPU_TO_BE16(uint16_t *p)
++{
++#ifdef __BIG_ENDIAN
++ return *p;
++#else
++ uint8_t *u_p = (uint8_t *)p;
++ return (u_p[1] | (u_p[0] << 8));
++#endif
++}
++
++uint16_t DWC_LE16_TO_CPU(uint16_t *p)
++{
++#ifdef __LITTLE_ENDIAN
++ return *p;
++#else
++ uint8_t *u_p = (uint8_t *)p;
++ return (u_p[1] | (u_p[0] << 8));
++#endif
++}
++
++uint16_t DWC_BE16_TO_CPU(uint16_t *p)
++{
++#ifdef __BIG_ENDIAN
++ return *p;
++#else
++ uint8_t *u_p = (uint8_t *)p;
++ return (u_p[1] | (u_p[0] << 8));
++#endif
++}
++
++
++/* Registers */
++
++uint32_t DWC_READ_REG32(void *io_ctx, uint32_t volatile *reg)
++{
++ dwc_ioctx_t *io = (dwc_ioctx_t *)io_ctx;
++ bus_size_t ior = (bus_size_t)reg;
++
++ return bus_space_read_4(io->iot, io->ioh, ior);
++}
++
++#if 0
++uint64_t DWC_READ_REG64(void *io_ctx, uint64_t volatile *reg)
++{
++ dwc_ioctx_t *io = (dwc_ioctx_t *)io_ctx;
++ bus_size_t ior = (bus_size_t)reg;
++
++ return bus_space_read_8(io->iot, io->ioh, ior);
++}
++#endif
++
++void DWC_WRITE_REG32(void *io_ctx, uint32_t volatile *reg, uint32_t value)
++{
++ dwc_ioctx_t *io = (dwc_ioctx_t *)io_ctx;
++ bus_size_t ior = (bus_size_t)reg;
++
++ bus_space_write_4(io->iot, io->ioh, ior, value);
++}
++
++#if 0
++void DWC_WRITE_REG64(void *io_ctx, uint64_t volatile *reg, uint64_t value)
++{
++ dwc_ioctx_t *io = (dwc_ioctx_t *)io_ctx;
++ bus_size_t ior = (bus_size_t)reg;
++
++ bus_space_write_8(io->iot, io->ioh, ior, value);
++}
++#endif
++
++void DWC_MODIFY_REG32(void *io_ctx, uint32_t volatile *reg, uint32_t clear_mask,
++ uint32_t set_mask)
++{
++ dwc_ioctx_t *io = (dwc_ioctx_t *)io_ctx;
++ bus_size_t ior = (bus_size_t)reg;
++
++ bus_space_write_4(io->iot, io->ioh, ior,
++ (bus_space_read_4(io->iot, io->ioh, ior) &
++ ~clear_mask) | set_mask);
++}
++
++#if 0
++void DWC_MODIFY_REG64(void *io_ctx, uint64_t volatile *reg, uint64_t clear_mask,
++ uint64_t set_mask)
++{
++ dwc_ioctx_t *io = (dwc_ioctx_t *)io_ctx;
++ bus_size_t ior = (bus_size_t)reg;
++
++ bus_space_write_8(io->iot, io->ioh, ior,
++ (bus_space_read_8(io->iot, io->ioh, ior) &
++ ~clear_mask) | set_mask);
++}
++#endif
++
++
++/* Locking */
++
++dwc_spinlock_t *DWC_SPINLOCK_ALLOC(void)
++{
++ struct mtx *sl = DWC_ALLOC(sizeof(*sl));
++
++ if (!sl) {
++ DWC_ERROR("Cannot allocate memory for spinlock");
++ return NULL;
++ }
++
++ mtx_init(sl, "dw3spn", NULL, MTX_SPIN);
++ return (dwc_spinlock_t *)sl;
++}
++
++void DWC_SPINLOCK_FREE(dwc_spinlock_t *lock)
++{
++ struct mtx *sl = (struct mtx *)lock;
++
++ mtx_destroy(sl);
++ DWC_FREE(sl);
++}
++
++void DWC_SPINLOCK(dwc_spinlock_t *lock)
++{
++ mtx_lock_spin((struct mtx *)lock); // ???
++}
++
++void DWC_SPINUNLOCK(dwc_spinlock_t *lock)
++{
++ mtx_unlock_spin((struct mtx *)lock); // ???
++}
++
++void DWC_SPINLOCK_IRQSAVE(dwc_spinlock_t *lock, dwc_irqflags_t *flags)
++{
++ mtx_lock_spin((struct mtx *)lock);
++}
++
++void DWC_SPINUNLOCK_IRQRESTORE(dwc_spinlock_t *lock, dwc_irqflags_t flags)
++{
++ mtx_unlock_spin((struct mtx *)lock);
++}
++
++dwc_mutex_t *DWC_MUTEX_ALLOC(void)
++{
++ struct mtx *m;
++ dwc_mutex_t *mutex = (dwc_mutex_t *)DWC_ALLOC(sizeof(struct mtx));
++
++ if (!mutex) {
++ DWC_ERROR("Cannot allocate memory for mutex");
++ return NULL;
++ }
++
++ m = (struct mtx *)mutex;
++ mtx_init(m, "dw3mtx", NULL, MTX_DEF);
++ return mutex;
++}
++
++#if (defined(DWC_LINUX) && defined(CONFIG_DEBUG_MUTEXES))
++#else
++void DWC_MUTEX_FREE(dwc_mutex_t *mutex)
++{
++ mtx_destroy((struct mtx *)mutex);
++ DWC_FREE(mutex);
++}
++#endif
++
++void DWC_MUTEX_LOCK(dwc_mutex_t *mutex)
++{
++ struct mtx *m = (struct mtx *)mutex;
++
++ mtx_lock(m);
++}
++
++int DWC_MUTEX_TRYLOCK(dwc_mutex_t *mutex)
++{
++ struct mtx *m = (struct mtx *)mutex;
++
++ return mtx_trylock(m);
++}
++
++void DWC_MUTEX_UNLOCK(dwc_mutex_t *mutex)
++{
++ struct mtx *m = (struct mtx *)mutex;
++
++ mtx_unlock(m);
++}
++
++
++/* Timing */
++
++void DWC_UDELAY(uint32_t usecs)
++{
++ DELAY(usecs);
++}
++
++void DWC_MDELAY(uint32_t msecs)
++{
++ do {
++ DELAY(1000);
++ } while (--msecs);
++}
++
++void DWC_MSLEEP(uint32_t msecs)
++{
++ struct timeval tv;
++
++ tv.tv_sec = msecs / 1000;
++ tv.tv_usec = (msecs - tv.tv_sec * 1000) * 1000;
++ pause("dw3slp", tvtohz(&tv));
++}
++
++uint32_t DWC_TIME(void)
++{
++ struct timeval tv;
++
++ microuptime(&tv); // or getmicrouptime? (less precise, but faster)
++ return tv.tv_sec * 1000 + tv.tv_usec / 1000;
++}
++
++
++/* Timers */
++
++struct dwc_timer {
++ struct callout t;
++ char *name;
++ dwc_spinlock_t *lock;
++ dwc_timer_callback_t cb;
++ void *data;
++};
++
++dwc_timer_t *DWC_TIMER_ALLOC(char *name, dwc_timer_callback_t cb, void *data)
++{
++ dwc_timer_t *t = DWC_ALLOC(sizeof(*t));
++
++ if (!t) {
++ DWC_ERROR("Cannot allocate memory for timer");
++ return NULL;
++ }
++
++ callout_init(&t->t, 1);
++
++ t->name = DWC_STRDUP(name);
++ if (!t->name) {
++ DWC_ERROR("Cannot allocate memory for timer->name");
++ goto no_name;
++ }
++
++ t->lock = DWC_SPINLOCK_ALLOC();
++ if (!t->lock) {
++ DWC_ERROR("Cannot allocate memory for lock");
++ goto no_lock;
++ }
++
++ t->cb = cb;
++ t->data = data;
++
++ return t;
++
++ no_lock:
++ DWC_FREE(t->name);
++ no_name:
++ DWC_FREE(t);
++
++ return NULL;
++}
++
++void DWC_TIMER_FREE(dwc_timer_t *timer)
++{
++ callout_stop(&timer->t);
++ DWC_SPINLOCK_FREE(timer->lock);
++ DWC_FREE(timer->name);
++ DWC_FREE(timer);
++}
++
++void DWC_TIMER_SCHEDULE(dwc_timer_t *timer, uint32_t time)
++{
++ struct timeval tv;
++
++ tv.tv_sec = time / 1000;
++ tv.tv_usec = (time - tv.tv_sec * 1000) * 1000;
++ callout_reset(&timer->t, tvtohz(&tv), timer->cb, timer->data);
++}
++
++void DWC_TIMER_CANCEL(dwc_timer_t *timer)
++{
++ callout_stop(&timer->t);
++}
++
++
++/* Wait Queues */
++
++struct dwc_waitq {
++ struct mtx lock;
++ int abort;
++};
++
++dwc_waitq_t *DWC_WAITQ_ALLOC(void)
++{
++ dwc_waitq_t *wq = DWC_ALLOC(sizeof(*wq));
++
++ if (!wq) {
++ DWC_ERROR("Cannot allocate memory for waitqueue");
++ return NULL;
++ }
++
++ mtx_init(&wq->lock, "dw3wtq", NULL, MTX_DEF);
++ wq->abort = 0;
++
++ return wq;
++}
++
++void DWC_WAITQ_FREE(dwc_waitq_t *wq)
++{
++ mtx_destroy(&wq->lock);
++ DWC_FREE(wq);
++}
++
++int32_t DWC_WAITQ_WAIT(dwc_waitq_t *wq, dwc_waitq_condition_t cond, void *data)
++{
++// intrmask_t ipl;
++ int result = 0;
++
++ mtx_lock(&wq->lock);
++// ipl = splbio();
++
++ /* Skip the sleep if already aborted or triggered */
++ if (!wq->abort && !cond(data)) {
++// splx(ipl);
++ result = msleep(wq, &wq->lock, PCATCH, "dw3wat", 0); // infinite timeout
++// ipl = splbio();
++ }
++
++ if (result == ERESTART) { // signaled - restart
++ result = -DWC_E_RESTART;
++
++ } else if (result == EINTR) { // signaled - interrupt
++ result = -DWC_E_ABORT;
++
++ } else if (wq->abort) {
++ result = -DWC_E_ABORT;
++
++ } else {
++ result = 0;
++ }
++
++ wq->abort = 0;
++// splx(ipl);
++ mtx_unlock(&wq->lock);
++ return result;
++}
++
++int32_t DWC_WAITQ_WAIT_TIMEOUT(dwc_waitq_t *wq, dwc_waitq_condition_t cond,
++ void *data, int32_t msecs)
++{
++ struct timeval tv, tv1, tv2;
++// intrmask_t ipl;
++ int result = 0;
++
++ tv.tv_sec = msecs / 1000;
++ tv.tv_usec = (msecs - tv.tv_sec * 1000) * 1000;
++
++ mtx_lock(&wq->lock);
++// ipl = splbio();
++
++ /* Skip the sleep if already aborted or triggered */
++ if (!wq->abort && !cond(data)) {
++// splx(ipl);
++ getmicrouptime(&tv1);
++ result = msleep(wq, &wq->lock, PCATCH, "dw3wto", tvtohz(&tv));
++ getmicrouptime(&tv2);
++// ipl = splbio();
++ }
++
++ if (result == 0) { // awoken
++ if (wq->abort) {
++ result = -DWC_E_ABORT;
++ } else {
++ tv2.tv_usec -= tv1.tv_usec;
++ if (tv2.tv_usec < 0) {
++ tv2.tv_usec += 1000000;
++ tv2.tv_sec--;
++ }
++
++ tv2.tv_sec -= tv1.tv_sec;
++ result = tv2.tv_sec * 1000 + tv2.tv_usec / 1000;
++ result = msecs - result;
++ if (result <= 0)
++ result = 1;
++ }
++ } else if (result == ERESTART) { // signaled - restart
++ result = -DWC_E_RESTART;
++
++ } else if (result == EINTR) { // signaled - interrupt
++ result = -DWC_E_ABORT;
++
++ } else { // timed out
++ result = -DWC_E_TIMEOUT;
++ }
++
++ wq->abort = 0;
++// splx(ipl);
++ mtx_unlock(&wq->lock);
++ return result;
++}
++
++void DWC_WAITQ_TRIGGER(dwc_waitq_t *wq)
++{
++ wakeup(wq);
++}
++
++void DWC_WAITQ_ABORT(dwc_waitq_t *wq)
++{
++// intrmask_t ipl;
++
++ mtx_lock(&wq->lock);
++// ipl = splbio();
++ wq->abort = 1;
++ wakeup(wq);
++// splx(ipl);
++ mtx_unlock(&wq->lock);
++}
++
++
++/* Threading */
++
++struct dwc_thread {
++ struct proc *proc;
++ int abort;
++};
++
++dwc_thread_t *DWC_THREAD_RUN(dwc_thread_function_t func, char *name, void *data)
++{
++ int retval;
++ dwc_thread_t *thread = DWC_ALLOC(sizeof(*thread));
++
++ if (!thread) {
++ return NULL;
++ }
++
++ thread->abort = 0;
++ retval = kthread_create((void (*)(void *))func, data, &thread->proc,
++ RFPROC | RFNOWAIT, 0, "%s", name);
++ if (retval) {
++ DWC_FREE(thread);
++ return NULL;
++ }
++
++ return thread;
++}
++
++int DWC_THREAD_STOP(dwc_thread_t *thread)
++{
++ int retval;
++
++ thread->abort = 1;
++ retval = tsleep(&thread->abort, 0, "dw3stp", 60 * hz);
++
++ if (retval == 0) {
++ /* DWC_THREAD_EXIT() will free the thread struct */
++ return 0;
++ }
++
++ /* NOTE: We leak the thread struct if thread doesn't die */
++
++ if (retval == EWOULDBLOCK) {
++ return -DWC_E_TIMEOUT;
++ }
++
++ return -DWC_E_UNKNOWN;
++}
++
++dwc_bool_t DWC_THREAD_SHOULD_STOP(dwc_thread_t *thread)
++{
++ return thread->abort;
++}
++
++void DWC_THREAD_EXIT(dwc_thread_t *thread)
++{
++ wakeup(&thread->abort);
++ DWC_FREE(thread);
++ kthread_exit(0);
++}
++
++
++/* tasklets
++ - Runs in interrupt context (cannot sleep)
++ - Each tasklet runs on a single CPU [ How can we ensure this on FreeBSD? Does it matter? ]
++ - Different tasklets can be running simultaneously on different CPUs [ shouldn't matter ]
++ */
++struct dwc_tasklet {
++ struct task t;
++ dwc_tasklet_callback_t cb;
++ void *data;
++};
++
++static void tasklet_callback(void *data, int pending) // what to do with pending ???
++{
++ dwc_tasklet_t *task = (dwc_tasklet_t *)data;
++
++ task->cb(task->data);
++}
++
++dwc_tasklet_t *DWC_TASK_ALLOC(char *name, dwc_tasklet_callback_t cb, void *data)
++{
++ dwc_tasklet_t *task = DWC_ALLOC(sizeof(*task));
++
++ if (task) {
++ task->cb = cb;
++ task->data = data;
++ TASK_INIT(&task->t, 0, tasklet_callback, task);
++ } else {
++ DWC_ERROR("Cannot allocate memory for tasklet");
++ }
++
++ return task;
++}
++
++void DWC_TASK_FREE(dwc_tasklet_t *task)
++{
++ taskqueue_drain(taskqueue_fast, &task->t); // ???
++ DWC_FREE(task);
++}
++
++void DWC_TASK_SCHEDULE(dwc_tasklet_t *task)
++{
++ /* Uses predefined system queue */
++ taskqueue_enqueue_fast(taskqueue_fast, &task->t);
++}
++
++
++/* workqueues
++ - Runs in process context (can sleep)
++ */
++typedef struct work_container {
++ dwc_work_callback_t cb;
++ void *data;
++ dwc_workq_t *wq;
++ char *name;
++ int hz;
++
++#ifdef DEBUG
++ DWC_CIRCLEQ_ENTRY(work_container) entry;
++#endif
++ struct task task;
++} work_container_t;
++
++#ifdef DEBUG
++DWC_CIRCLEQ_HEAD(work_container_queue, work_container);
++#endif
++
++struct dwc_workq {
++ struct taskqueue *taskq;
++ dwc_spinlock_t *lock;
++ dwc_waitq_t *waitq;
++ int pending;
++
++#ifdef DEBUG
++ struct work_container_queue entries;
++#endif
++};
++
++static void do_work(void *data, int pending) // what to do with pending ???
++{
++ work_container_t *container = (work_container_t *)data;
++ dwc_workq_t *wq = container->wq;
++ dwc_irqflags_t flags;
++
++ if (container->hz) {
++ pause("dw3wrk", container->hz);
++ }
++
++ container->cb(container->data);
++ DWC_DEBUG("Work done: %s, container=%p", container->name, container);
++
++ DWC_SPINLOCK_IRQSAVE(wq->lock, &flags);
++
++#ifdef DEBUG
++ DWC_CIRCLEQ_REMOVE(&wq->entries, container, entry);
++#endif
++ if (container->name)
++ DWC_FREE(container->name);
++ DWC_FREE(container);
++ wq->pending--;
++ DWC_SPINUNLOCK_IRQRESTORE(wq->lock, flags);
++ DWC_WAITQ_TRIGGER(wq->waitq);
++}
++
++static int work_done(void *data)
++{
++ dwc_workq_t *workq = (dwc_workq_t *)data;
++
++ return workq->pending == 0;
++}
++
++int DWC_WORKQ_WAIT_WORK_DONE(dwc_workq_t *workq, int timeout)
++{
++ return DWC_WAITQ_WAIT_TIMEOUT(workq->waitq, work_done, workq, timeout);
++}
++
++dwc_workq_t *DWC_WORKQ_ALLOC(char *name)
++{
++ dwc_workq_t *wq = DWC_ALLOC(sizeof(*wq));
++
++ if (!wq) {
++ DWC_ERROR("Cannot allocate memory for workqueue");
++ return NULL;
++ }
++
++ wq->taskq = taskqueue_create(name, M_NOWAIT, taskqueue_thread_enqueue, &wq->taskq);
++ if (!wq->taskq) {
++ DWC_ERROR("Cannot allocate memory for taskqueue");
++ goto no_taskq;
++ }
++
++ wq->pending = 0;
++
++ wq->lock = DWC_SPINLOCK_ALLOC();
++ if (!wq->lock) {
++ DWC_ERROR("Cannot allocate memory for spinlock");
++ goto no_lock;
++ }
++
++ wq->waitq = DWC_WAITQ_ALLOC();
++ if (!wq->waitq) {
++ DWC_ERROR("Cannot allocate memory for waitqueue");
++ goto no_waitq;
++ }
++
++ taskqueue_start_threads(&wq->taskq, 1, PWAIT, "%s taskq", "dw3tsk");
++
++#ifdef DEBUG
++ DWC_CIRCLEQ_INIT(&wq->entries);
++#endif
++ return wq;
++
++ no_waitq:
++ DWC_SPINLOCK_FREE(wq->lock);
++ no_lock:
++ taskqueue_free(wq->taskq);
++ no_taskq:
++ DWC_FREE(wq);
++
++ return NULL;
++}
++
++void DWC_WORKQ_FREE(dwc_workq_t *wq)
++{
++#ifdef DEBUG
++ dwc_irqflags_t flags;
++
++ DWC_SPINLOCK_IRQSAVE(wq->lock, &flags);
++
++ if (wq->pending != 0) {
++ struct work_container *container;
++
++ DWC_ERROR("Destroying work queue with pending work");
++
++ DWC_CIRCLEQ_FOREACH(container, &wq->entries, entry) {
++ DWC_ERROR("Work %s still pending", container->name);
++ }
++ }
++
++ DWC_SPINUNLOCK_IRQRESTORE(wq->lock, flags);
++#endif
++ DWC_WAITQ_FREE(wq->waitq);
++ DWC_SPINLOCK_FREE(wq->lock);
++ taskqueue_free(wq->taskq);
++ DWC_FREE(wq);
++}
++
++void DWC_WORKQ_SCHEDULE(dwc_workq_t *wq, dwc_work_callback_t cb, void *data,
++ char *format, ...)
++{
++ dwc_irqflags_t flags;
++ work_container_t *container;
++ static char name[128];
++ va_list args;
++
++ va_start(args, format);
++ DWC_VSNPRINTF(name, 128, format, args);
++ va_end(args);
++
++ DWC_SPINLOCK_IRQSAVE(wq->lock, &flags);
++ wq->pending++;
++ DWC_SPINUNLOCK_IRQRESTORE(wq->lock, flags);
++ DWC_WAITQ_TRIGGER(wq->waitq);
++
++ container = DWC_ALLOC_ATOMIC(sizeof(*container));
++ if (!container) {
++ DWC_ERROR("Cannot allocate memory for container");
++ return;
++ }
++
++ container->name = DWC_STRDUP(name);
++ if (!container->name) {
++ DWC_ERROR("Cannot allocate memory for container->name");
++ DWC_FREE(container);
++ return;
++ }
++
++ container->cb = cb;
++ container->data = data;
++ container->wq = wq;
++ container->hz = 0;
++
++ DWC_DEBUG("Queueing work: %s, container=%p", container->name, container);
++
++ TASK_INIT(&container->task, 0, do_work, container);
++
++#ifdef DEBUG
++ DWC_CIRCLEQ_INSERT_TAIL(&wq->entries, container, entry);
++#endif
++ taskqueue_enqueue_fast(wq->taskq, &container->task);
++}
++
++void DWC_WORKQ_SCHEDULE_DELAYED(dwc_workq_t *wq, dwc_work_callback_t cb,
++ void *data, uint32_t time, char *format, ...)
++{
++ dwc_irqflags_t flags;
++ work_container_t *container;
++ static char name[128];
++ struct timeval tv;
++ va_list args;
++
++ va_start(args, format);
++ DWC_VSNPRINTF(name, 128, format, args);
++ va_end(args);
++
++ DWC_SPINLOCK_IRQSAVE(wq->lock, &flags);
++ wq->pending++;
++ DWC_SPINUNLOCK_IRQRESTORE(wq->lock, flags);
++ DWC_WAITQ_TRIGGER(wq->waitq);
++
++ container = DWC_ALLOC_ATOMIC(sizeof(*container));
++ if (!container) {
++ DWC_ERROR("Cannot allocate memory for container");
++ return;
++ }
++
++ container->name = DWC_STRDUP(name);
++ if (!container->name) {
++ DWC_ERROR("Cannot allocate memory for container->name");
++ DWC_FREE(container);
++ return;
++ }
++
++ container->cb = cb;
++ container->data = data;
++ container->wq = wq;
++
++ tv.tv_sec = time / 1000;
++ tv.tv_usec = (time - tv.tv_sec * 1000) * 1000;
++ container->hz = tvtohz(&tv);
++
++ DWC_DEBUG("Queueing work: %s, container=%p", container->name, container);
++
++ TASK_INIT(&container->task, 0, do_work, container);
++
++#ifdef DEBUG
++ DWC_CIRCLEQ_INSERT_TAIL(&wq->entries, container, entry);
++#endif
++ taskqueue_enqueue_fast(wq->taskq, &container->task);
++}
++
++int DWC_WORKQ_PENDING(dwc_workq_t *wq)
++{
++ return wq->pending;
++}
+diff -urN linux-3.10/drivers/usb/host/dwc_common_port/dwc_common_linux.c linux-rpi-3.10.y/drivers/usb/host/dwc_common_port/dwc_common_linux.c
+--- linux-3.10/drivers/usb/host/dwc_common_port/dwc_common_linux.c 1970-01-01 01:00:00.000000000 +0100
++++ linux-rpi-3.10.y/drivers/usb/host/dwc_common_port/dwc_common_linux.c 2013-07-06 15:25:50.000000000 +0100
+@@ -0,0 +1,1426 @@
++#include <linux/kernel.h>
++#include <linux/init.h>
++#include <linux/module.h>
++#include <linux/kthread.h>
++
++#ifdef DWC_CCLIB
++# include "dwc_cc.h"
++#endif
++
++#ifdef DWC_CRYPTOLIB
++# include "dwc_modpow.h"
++# include "dwc_dh.h"
++# include "dwc_crypto.h"
++#endif
++
++#ifdef DWC_NOTIFYLIB
++# include "dwc_notifier.h"
++#endif
++
++/* OS-Level Implementations */
++
++/* This is the Linux kernel implementation of the DWC platform library. */
++#include <linux/moduleparam.h>
++#include <linux/ctype.h>
++#include <linux/crypto.h>
++#include <linux/delay.h>
++#include <linux/device.h>
++#include <linux/dma-mapping.h>
++#include <linux/cdev.h>
++#include <linux/errno.h>
++#include <linux/interrupt.h>
++#include <linux/jiffies.h>
++#include <linux/list.h>
++#include <linux/pci.h>
++#include <linux/random.h>
++#include <linux/scatterlist.h>
++#include <linux/slab.h>
++#include <linux/stat.h>
++#include <linux/string.h>
++#include <linux/timer.h>
++#include <linux/usb.h>
++
++#include <linux/version.h>
++
++#if LINUX_VERSION_CODE >= KERNEL_VERSION(2,6,24)
++# include <linux/usb/gadget.h>
++#else
++# include <linux/usb_gadget.h>
++#endif
++
++#include <asm/io.h>
++#include <asm/page.h>
++#include <asm/uaccess.h>
++#include <asm/unaligned.h>
++
++#include "dwc_os.h"
++#include "dwc_list.h"
++
++
++/* MISC */
++
++void *DWC_MEMSET(void *dest, uint8_t byte, uint32_t size)
++{
++ return memset(dest, byte, size);
++}
++
++void *DWC_MEMCPY(void *dest, void const *src, uint32_t size)
++{
++ return memcpy(dest, src, size);
++}
++
++void *DWC_MEMMOVE(void *dest, void *src, uint32_t size)
++{
++ return memmove(dest, src, size);
++}
++
++int DWC_MEMCMP(void *m1, void *m2, uint32_t size)
++{
++ return memcmp(m1, m2, size);
++}
++
++int DWC_STRNCMP(void *s1, void *s2, uint32_t size)
++{
++ return strncmp(s1, s2, size);
++}
++
++int DWC_STRCMP(void *s1, void *s2)
++{
++ return strcmp(s1, s2);
++}
++
++int DWC_STRLEN(char const *str)
++{
++ return strlen(str);
++}
++
++char *DWC_STRCPY(char *to, char const *from)
++{
++ return strcpy(to, from);
++}
++
++char *DWC_STRDUP(char const *str)
++{
++ int len = DWC_STRLEN(str) + 1;
++ char *new = DWC_ALLOC_ATOMIC(len);
++
++ if (!new) {
++ return NULL;
++ }
++
++ DWC_MEMCPY(new, str, len);
++ return new;
++}
++
++int DWC_ATOI(const char *str, int32_t *value)
++{
++ char *end = NULL;
++
++ *value = simple_strtol(str, &end, 0);
++ if (*end == '\0') {
++ return 0;
++ }
++
++ return -1;
++}
++
++int DWC_ATOUI(const char *str, uint32_t *value)
++{
++ char *end = NULL;
++
++ *value = simple_strtoul(str, &end, 0);
++ if (*end == '\0') {
++ return 0;
++ }
++
++ return -1;
++}
++
++
++#ifdef DWC_UTFLIB
++/* From usbstring.c */
++
++int DWC_UTF8_TO_UTF16LE(uint8_t const *s, uint16_t *cp, unsigned len)
++{
++ int count = 0;
++ u8 c;
++ u16 uchar;
++
++ /* this insists on correct encodings, though not minimal ones.
++ * BUT it currently rejects legit 4-byte UTF-8 code points,
++ * which need surrogate pairs. (Unicode 3.1 can use them.)
++ */
++ while (len != 0 && (c = (u8) *s++) != 0) {
++ if (unlikely(c & 0x80)) {
++ // 2-byte sequence:
++ // 00000yyyyyxxxxxx = 110yyyyy 10xxxxxx
++ if ((c & 0xe0) == 0xc0) {
++ uchar = (c & 0x1f) << 6;
++
++ c = (u8) *s++;
++ if ((c & 0xc0) != 0xc0)
++ goto fail;
++ c &= 0x3f;
++ uchar |= c;
++
++ // 3-byte sequence (most CJKV characters):
++ // zzzzyyyyyyxxxxxx = 1110zzzz 10yyyyyy 10xxxxxx
++ } else if ((c & 0xf0) == 0xe0) {
++ uchar = (c & 0x0f) << 12;
++
++ c = (u8) *s++;
++ if ((c & 0xc0) != 0xc0)
++ goto fail;
++ c &= 0x3f;
++ uchar |= c << 6;
++
++ c = (u8) *s++;
++ if ((c & 0xc0) != 0xc0)
++ goto fail;
++ c &= 0x3f;
++ uchar |= c;
++
++ /* no bogus surrogates */
++ if (0xd800 <= uchar && uchar <= 0xdfff)
++ goto fail;
++
++ // 4-byte sequence (surrogate pairs, currently rare):
++ // 11101110wwwwzzzzyy + 110111yyyyxxxxxx
++ // = 11110uuu 10uuzzzz 10yyyyyy 10xxxxxx
++ // (uuuuu = wwww + 1)
++ // FIXME accept the surrogate code points (only)
++ } else
++ goto fail;
++ } else
++ uchar = c;
++ put_unaligned (cpu_to_le16 (uchar), cp++);
++ count++;
++ len--;
++ }
++ return count;
++fail:
++ return -1;
++}
++#endif /* DWC_UTFLIB */
++
++
++/* dwc_debug.h */
++
++dwc_bool_t DWC_IN_IRQ(void)
++{
++ return in_irq();
++}
++
++dwc_bool_t DWC_IN_BH(void)
++{
++ return in_softirq();
++}
++
++void DWC_VPRINTF(char *format, va_list args)
++{
++ vprintk(format, args);
++}
++
++int DWC_VSNPRINTF(char *str, int size, char *format, va_list args)
++{
++ return vsnprintf(str, size, format, args);
++}
++
++void DWC_PRINTF(char *format, ...)
++{
++ va_list args;
++
++ va_start(args, format);
++ DWC_VPRINTF(format, args);
++ va_end(args);
++}
++
++int DWC_SPRINTF(char *buffer, char *format, ...)
++{
++ int retval;
++ va_list args;
++
++ va_start(args, format);
++ retval = vsprintf(buffer, format, args);
++ va_end(args);
++ return retval;
++}
++
++int DWC_SNPRINTF(char *buffer, int size, char *format, ...)
++{
++ int retval;
++ va_list args;
++
++ va_start(args, format);
++ retval = vsnprintf(buffer, size, format, args);
++ va_end(args);
++ return retval;
++}
++
++void __DWC_WARN(char *format, ...)
++{
++ va_list args;
++
++ va_start(args, format);
++ DWC_PRINTF(KERN_WARNING);
++ DWC_VPRINTF(format, args);
++ va_end(args);
++}
++
++void __DWC_ERROR(char *format, ...)
++{
++ va_list args;
++
++ va_start(args, format);
++ DWC_PRINTF(KERN_ERR);
++ DWC_VPRINTF(format, args);
++ va_end(args);
++}
++
++void DWC_EXCEPTION(char *format, ...)
++{
++ va_list args;
++
++ va_start(args, format);
++ DWC_PRINTF(KERN_ERR);
++ DWC_VPRINTF(format, args);
++ va_end(args);
++ BUG_ON(1);
++}
++
++#ifdef DEBUG
++void __DWC_DEBUG(char *format, ...)
++{
++ va_list args;
++
++ va_start(args, format);
++ DWC_PRINTF(KERN_DEBUG);
++ DWC_VPRINTF(format, args);
++ va_end(args);
++}
++#endif
++
++
++/* dwc_mem.h */
++
++#if 0
++dwc_pool_t *DWC_DMA_POOL_CREATE(uint32_t size,
++ uint32_t align,
++ uint32_t alloc)
++{
++ struct dma_pool *pool = dma_pool_create("Pool", NULL,
++ size, align, alloc);
++ return (dwc_pool_t *)pool;
++}
++
++void DWC_DMA_POOL_DESTROY(dwc_pool_t *pool)
++{
++ dma_pool_destroy((struct dma_pool *)pool);
++}
++
++void *DWC_DMA_POOL_ALLOC(dwc_pool_t *pool, uint64_t *dma_addr)
++{
++ return dma_pool_alloc((struct dma_pool *)pool, GFP_KERNEL, dma_addr);
++}
++
++void *DWC_DMA_POOL_ZALLOC(dwc_pool_t *pool, uint64_t *dma_addr)
++{
++ void *vaddr = DWC_DMA_POOL_ALLOC(pool, dma_addr);
++ memset(..);
++}
++
++void DWC_DMA_POOL_FREE(dwc_pool_t *pool, void *vaddr, void *daddr)
++{
++ dma_pool_free(pool, vaddr, daddr);
++}
++#endif
++
++void *__DWC_DMA_ALLOC(void *dma_ctx, uint32_t size, dwc_dma_t *dma_addr)
++{
++#ifdef xxCOSIM /* Only works for 32-bit cosim */
++ void *buf = dma_alloc_coherent(dma_ctx, (size_t)size, dma_addr, GFP_KERNEL);
++#else
++ void *buf = dma_alloc_coherent(dma_ctx, (size_t)size, dma_addr, GFP_KERNEL | GFP_DMA32);
++#endif
++ if (!buf) {
++ return NULL;
++ }
++
++ memset(buf, 0, (size_t)size);
++ return buf;
++}
++
++void *__DWC_DMA_ALLOC_ATOMIC(void *dma_ctx, uint32_t size, dwc_dma_t *dma_addr)
++{
++ void *buf = dma_alloc_coherent(NULL, (size_t)size, dma_addr, GFP_ATOMIC);
++ if (!buf) {
++ return NULL;
++ }
++ memset(buf, 0, (size_t)size);
++ return buf;
++}
++
++void __DWC_DMA_FREE(void *dma_ctx, uint32_t size, void *virt_addr, dwc_dma_t dma_addr)
++{
++ dma_free_coherent(dma_ctx, size, virt_addr, dma_addr);
++}
++
++void *__DWC_ALLOC(void *mem_ctx, uint32_t size)
++{
++ return kzalloc(size, GFP_KERNEL);
++}
++
++void *__DWC_ALLOC_ATOMIC(void *mem_ctx, uint32_t size)
++{
++ return kzalloc(size, GFP_ATOMIC);
++}
++
++void __DWC_FREE(void *mem_ctx, void *addr)
++{
++ kfree(addr);
++}
++
++
++#ifdef DWC_CRYPTOLIB
++/* dwc_crypto.h */
++
++void DWC_RANDOM_BYTES(uint8_t *buffer, uint32_t length)
++{
++ get_random_bytes(buffer, length);
++}
++
++int DWC_AES_CBC(uint8_t *message, uint32_t messagelen, uint8_t *key, uint32_t keylen, uint8_t iv[16], uint8_t *out)
++{
++ struct crypto_blkcipher *tfm;
++ struct blkcipher_desc desc;
++ struct scatterlist sgd;
++ struct scatterlist sgs;
++
++ tfm = crypto_alloc_blkcipher("cbc(aes)", 0, CRYPTO_ALG_ASYNC);
++ if (tfm == NULL) {
++ printk("failed to load transform for aes CBC\n");
++ return -1;
++ }
++
++ crypto_blkcipher_setkey(tfm, key, keylen);
++ crypto_blkcipher_set_iv(tfm, iv, 16);
++
++ sg_init_one(&sgd, out, messagelen);
++ sg_init_one(&sgs, message, messagelen);
++
++ desc.tfm = tfm;
++ desc.flags = 0;
++
++ if (crypto_blkcipher_encrypt(&desc, &sgd, &sgs, messagelen)) {
++ crypto_free_blkcipher(tfm);
++ DWC_ERROR("AES CBC encryption failed");
++ return -1;
++ }
++
++ crypto_free_blkcipher(tfm);
++ return 0;
++}
++
++int DWC_SHA256(uint8_t *message, uint32_t len, uint8_t *out)
++{
++ struct crypto_hash *tfm;
++ struct hash_desc desc;
++ struct scatterlist sg;
++
++ tfm = crypto_alloc_hash("sha256", 0, CRYPTO_ALG_ASYNC);
++ if (IS_ERR(tfm)) {
++ DWC_ERROR("Failed to load transform for sha256: %ld\n", PTR_ERR(tfm));
++ return 0;
++ }
++ desc.tfm = tfm;
++ desc.flags = 0;
++
++ sg_init_one(&sg, message, len);
++ crypto_hash_digest(&desc, &sg, len, out);
++ crypto_free_hash(tfm);
++
++ return 1;
++}
++
++int DWC_HMAC_SHA256(uint8_t *message, uint32_t messagelen,
++ uint8_t *key, uint32_t keylen, uint8_t *out)
++{
++ struct crypto_hash *tfm;
++ struct hash_desc desc;
++ struct scatterlist sg;
++
++ tfm = crypto_alloc_hash("hmac(sha256)", 0, CRYPTO_ALG_ASYNC);
++ if (IS_ERR(tfm)) {
++ DWC_ERROR("Failed to load transform for hmac(sha256): %ld\n", PTR_ERR(tfm));
++ return 0;
++ }
++ desc.tfm = tfm;
++ desc.flags = 0;
++
++ sg_init_one(&sg, message, messagelen);
++ crypto_hash_setkey(tfm, key, keylen);
++ crypto_hash_digest(&desc, &sg, messagelen, out);
++ crypto_free_hash(tfm);
++
++ return 1;
++}
++#endif /* DWC_CRYPTOLIB */
++
++
++/* Byte Ordering Conversions */
++
++uint32_t DWC_CPU_TO_LE32(uint32_t *p)
++{
++#ifdef __LITTLE_ENDIAN
++ return *p;
++#else
++ uint8_t *u_p = (uint8_t *)p;
++
++ return (u_p[3] | (u_p[2] << 8) | (u_p[1] << 16) | (u_p[0] << 24));
++#endif
++}
++
++uint32_t DWC_CPU_TO_BE32(uint32_t *p)
++{
++#ifdef __BIG_ENDIAN
++ return *p;
++#else
++ uint8_t *u_p = (uint8_t *)p;
++
++ return (u_p[3] | (u_p[2] << 8) | (u_p[1] << 16) | (u_p[0] << 24));
++#endif
++}
++
++uint32_t DWC_LE32_TO_CPU(uint32_t *p)
++{
++#ifdef __LITTLE_ENDIAN
++ return *p;
++#else
++ uint8_t *u_p = (uint8_t *)p;
++
++ return (u_p[3] | (u_p[2] << 8) | (u_p[1] << 16) | (u_p[0] << 24));
++#endif
++}
++
++uint32_t DWC_BE32_TO_CPU(uint32_t *p)
++{
++#ifdef __BIG_ENDIAN
++ return *p;
++#else
++ uint8_t *u_p = (uint8_t *)p;
++
++ return (u_p[3] | (u_p[2] << 8) | (u_p[1] << 16) | (u_p[0] << 24));
++#endif
++}
++
++uint16_t DWC_CPU_TO_LE16(uint16_t *p)
++{
++#ifdef __LITTLE_ENDIAN
++ return *p;
++#else
++ uint8_t *u_p = (uint8_t *)p;
++ return (u_p[1] | (u_p[0] << 8));
++#endif
++}
++
++uint16_t DWC_CPU_TO_BE16(uint16_t *p)
++{
++#ifdef __BIG_ENDIAN
++ return *p;
++#else
++ uint8_t *u_p = (uint8_t *)p;
++ return (u_p[1] | (u_p[0] << 8));
++#endif
++}
++
++uint16_t DWC_LE16_TO_CPU(uint16_t *p)
++{
++#ifdef __LITTLE_ENDIAN
++ return *p;
++#else
++ uint8_t *u_p = (uint8_t *)p;
++ return (u_p[1] | (u_p[0] << 8));
++#endif
++}
++
++uint16_t DWC_BE16_TO_CPU(uint16_t *p)
++{
++#ifdef __BIG_ENDIAN
++ return *p;
++#else
++ uint8_t *u_p = (uint8_t *)p;
++ return (u_p[1] | (u_p[0] << 8));
++#endif
++}
++
++
++/* Registers */
++
++uint32_t DWC_READ_REG32(uint32_t volatile *reg)
++{
++ return readl(reg);
++}
++
++#if 0
++uint64_t DWC_READ_REG64(uint64_t volatile *reg)
++{
++}
++#endif
++
++void DWC_WRITE_REG32(uint32_t volatile *reg, uint32_t value)
++{
++ writel(value, reg);
++}
++
++#if 0
++void DWC_WRITE_REG64(uint64_t volatile *reg, uint64_t value)
++{
++}
++#endif
++
++void DWC_MODIFY_REG32(uint32_t volatile *reg, uint32_t clear_mask, uint32_t set_mask)
++{
++ writel((readl(reg) & ~clear_mask) | set_mask, reg);
++}
++
++#if 0
++void DWC_MODIFY_REG64(uint64_t volatile *reg, uint64_t clear_mask, uint64_t set_mask)
++{
++}
++#endif
++
++
++/* Locking */
++
++dwc_spinlock_t *DWC_SPINLOCK_ALLOC(void)
++{
++ spinlock_t *sl = (spinlock_t *)1;
++
++#if defined(CONFIG_PREEMPT) || defined(CONFIG_SMP)
++ sl = DWC_ALLOC(sizeof(*sl));
++ if (!sl) {
++ DWC_ERROR("Cannot allocate memory for spinlock\n");
++ return NULL;
++ }
++
++ spin_lock_init(sl);
++#endif
++ return (dwc_spinlock_t *)sl;
++}
++
++void DWC_SPINLOCK_FREE(dwc_spinlock_t *lock)
++{
++#if defined(CONFIG_PREEMPT) || defined(CONFIG_SMP)
++ DWC_FREE(lock);
++#endif
++}
++
++void DWC_SPINLOCK(dwc_spinlock_t *lock)
++{
++#if defined(CONFIG_PREEMPT) || defined(CONFIG_SMP)
++ spin_lock((spinlock_t *)lock);
++#endif
++}
++
++void DWC_SPINUNLOCK(dwc_spinlock_t *lock)
++{
++#if defined(CONFIG_PREEMPT) || defined(CONFIG_SMP)
++ spin_unlock((spinlock_t *)lock);
++#endif
++}
++
++void DWC_SPINLOCK_IRQSAVE(dwc_spinlock_t *lock, dwc_irqflags_t *flags)
++{
++ dwc_irqflags_t f;
++
++#if defined(CONFIG_PREEMPT) || defined(CONFIG_SMP)
++ spin_lock_irqsave((spinlock_t *)lock, f);
++#else
++ local_irq_save(f);
++#endif
++ *flags = f;
++}
++
++void DWC_SPINUNLOCK_IRQRESTORE(dwc_spinlock_t *lock, dwc_irqflags_t flags)
++{
++#if defined(CONFIG_PREEMPT) || defined(CONFIG_SMP)
++ spin_unlock_irqrestore((spinlock_t *)lock, flags);
++#else
++ local_irq_restore(flags);
++#endif
++}
++
++dwc_mutex_t *DWC_MUTEX_ALLOC(void)
++{
++ struct mutex *m;
++ dwc_mutex_t *mutex = (dwc_mutex_t *)DWC_ALLOC(sizeof(struct mutex));
++
++ if (!mutex) {
++ DWC_ERROR("Cannot allocate memory for mutex\n");
++ return NULL;
++ }
++
++ m = (struct mutex *)mutex;
++ mutex_init(m);
++ return mutex;
++}
++
++#if (defined(DWC_LINUX) && defined(CONFIG_DEBUG_MUTEXES))
++#else
++void DWC_MUTEX_FREE(dwc_mutex_t *mutex)
++{
++ mutex_destroy((struct mutex *)mutex);
++ DWC_FREE(mutex);
++}
++#endif
++
++void DWC_MUTEX_LOCK(dwc_mutex_t *mutex)
++{
++ struct mutex *m = (struct mutex *)mutex;
++ mutex_lock(m);
++}
++
++int DWC_MUTEX_TRYLOCK(dwc_mutex_t *mutex)
++{
++ struct mutex *m = (struct mutex *)mutex;
++ return mutex_trylock(m);
++}
++
++void DWC_MUTEX_UNLOCK(dwc_mutex_t *mutex)
++{
++ struct mutex *m = (struct mutex *)mutex;
++ mutex_unlock(m);
++}
++
++
++/* Timing */
++
++void DWC_UDELAY(uint32_t usecs)
++{
++ udelay(usecs);
++}
++
++void DWC_MDELAY(uint32_t msecs)
++{
++ mdelay(msecs);
++}
++
++void DWC_MSLEEP(uint32_t msecs)
++{
++ msleep(msecs);
++}
++
++uint32_t DWC_TIME(void)
++{
++ return jiffies_to_msecs(jiffies);
++}
++
++
++/* Timers */
++
++struct dwc_timer {
++ struct timer_list *t;
++ char *name;
++ dwc_timer_callback_t cb;
++ void *data;
++ uint8_t scheduled;
++ dwc_spinlock_t *lock;
++};
++
++static void timer_callback(unsigned long data)
++{
++ dwc_timer_t *timer = (dwc_timer_t *)data;
++ dwc_irqflags_t flags;
++
++ DWC_SPINLOCK_IRQSAVE(timer->lock, &flags);
++ timer->scheduled = 0;
++ DWC_SPINUNLOCK_IRQRESTORE(timer->lock, flags);
++ DWC_DEBUGC("Timer %s callback", timer->name);
++ timer->cb(timer->data);
++}
++
++dwc_timer_t *DWC_TIMER_ALLOC(char *name, dwc_timer_callback_t cb, void *data)
++{
++ dwc_timer_t *t = DWC_ALLOC(sizeof(*t));
++
++ if (!t) {
++ DWC_ERROR("Cannot allocate memory for timer");
++ return NULL;
++ }
++
++ t->t = DWC_ALLOC(sizeof(*t->t));
++ if (!t->t) {
++ DWC_ERROR("Cannot allocate memory for timer->t");
++ goto no_timer;
++ }
++
++ t->name = DWC_STRDUP(name);
++ if (!t->name) {
++ DWC_ERROR("Cannot allocate memory for timer->name");
++ goto no_name;
++ }
++
++ t->lock = DWC_SPINLOCK_ALLOC();
++ if (!t->lock) {
++ DWC_ERROR("Cannot allocate memory for lock");
++ goto no_lock;
++ }
++
++ t->scheduled = 0;
++ t->t->base = &boot_tvec_bases;
++ t->t->expires = jiffies;
++ setup_timer(t->t, timer_callback, (unsigned long)t);
++
++ t->cb = cb;
++ t->data = data;
++
++ return t;
++
++ no_lock:
++ DWC_FREE(t->name);
++ no_name:
++ DWC_FREE(t->t);
++ no_timer:
++ DWC_FREE(t);
++ return NULL;
++}
++
++void DWC_TIMER_FREE(dwc_timer_t *timer)
++{
++ dwc_irqflags_t flags;
++
++ DWC_SPINLOCK_IRQSAVE(timer->lock, &flags);
++
++ if (timer->scheduled) {
++ del_timer(timer->t);
++ timer->scheduled = 0;
++ }
++
++ DWC_SPINUNLOCK_IRQRESTORE(timer->lock, flags);
++ DWC_SPINLOCK_FREE(timer->lock);
++ DWC_FREE(timer->t);
++ DWC_FREE(timer->name);
++ DWC_FREE(timer);
++}
++
++void DWC_TIMER_SCHEDULE(dwc_timer_t *timer, uint32_t time)
++{
++ dwc_irqflags_t flags;
++
++ DWC_SPINLOCK_IRQSAVE(timer->lock, &flags);
++
++ if (!timer->scheduled) {
++ timer->scheduled = 1;
++ DWC_DEBUGC("Scheduling timer %s to expire in +%d msec", timer->name, time);
++ timer->t->expires = jiffies + msecs_to_jiffies(time);
++ add_timer(timer->t);
++ } else {
++ DWC_DEBUGC("Modifying timer %s to expire in +%d msec", timer->name, time);
++ mod_timer(timer->t, jiffies + msecs_to_jiffies(time));
++ }
++
++ DWC_SPINUNLOCK_IRQRESTORE(timer->lock, flags);
++}
++
++void DWC_TIMER_CANCEL(dwc_timer_t *timer)
++{
++ del_timer(timer->t);
++}
++
++
++/* Wait Queues */
++
++struct dwc_waitq {
++ wait_queue_head_t queue;
++ int abort;
++};
++
++dwc_waitq_t *DWC_WAITQ_ALLOC(void)
++{
++ dwc_waitq_t *wq = DWC_ALLOC(sizeof(*wq));
++
++ if (!wq) {
++ DWC_ERROR("Cannot allocate memory for waitqueue\n");
++ return NULL;
++ }
++
++ init_waitqueue_head(&wq->queue);
++ wq->abort = 0;
++ return wq;
++}
++
++void DWC_WAITQ_FREE(dwc_waitq_t *wq)
++{
++ DWC_FREE(wq);
++}
++
++int32_t DWC_WAITQ_WAIT(dwc_waitq_t *wq, dwc_waitq_condition_t cond, void *data)
++{
++ int result = wait_event_interruptible(wq->queue,
++ cond(data) || wq->abort);
++ if (result == -ERESTARTSYS) {
++ wq->abort = 0;
++ return -DWC_E_RESTART;
++ }
++
++ if (wq->abort == 1) {
++ wq->abort = 0;
++ return -DWC_E_ABORT;
++ }
++
++ wq->abort = 0;
++
++ if (result == 0) {
++ return 0;
++ }
++
++ return -DWC_E_UNKNOWN;
++}
++
++int32_t DWC_WAITQ_WAIT_TIMEOUT(dwc_waitq_t *wq, dwc_waitq_condition_t cond,
++ void *data, int32_t msecs)
++{
++ int32_t tmsecs;
++ int result = wait_event_interruptible_timeout(wq->queue,
++ cond(data) || wq->abort,
++ msecs_to_jiffies(msecs));
++ if (result == -ERESTARTSYS) {
++ wq->abort = 0;
++ return -DWC_E_RESTART;
++ }
++
++ if (wq->abort == 1) {
++ wq->abort = 0;
++ return -DWC_E_ABORT;
++ }
++
++ wq->abort = 0;
++
++ if (result > 0) {
++ tmsecs = jiffies_to_msecs(result);
++ if (!tmsecs) {
++ return 1;
++ }
++
++ return tmsecs;
++ }
++
++ if (result == 0) {
++ return -DWC_E_TIMEOUT;
++ }
++
++ return -DWC_E_UNKNOWN;
++}
++
++void DWC_WAITQ_TRIGGER(dwc_waitq_t *wq)
++{
++ wq->abort = 0;
++ wake_up_interruptible(&wq->queue);
++}
++
++void DWC_WAITQ_ABORT(dwc_waitq_t *wq)
++{
++ wq->abort = 1;
++ wake_up_interruptible(&wq->queue);
++}
++
++
++/* Threading */
++
++dwc_thread_t *DWC_THREAD_RUN(dwc_thread_function_t func, char *name, void *data)
++{
++ struct task_struct *thread = kthread_run(func, data, name);
++
++ if (thread == ERR_PTR(-ENOMEM)) {
++ return NULL;
++ }
++
++ return (dwc_thread_t *)thread;
++}
++
++int DWC_THREAD_STOP(dwc_thread_t *thread)
++{
++ return kthread_stop((struct task_struct *)thread);
++}
++
++dwc_bool_t DWC_THREAD_SHOULD_STOP(void)
++{
++ return kthread_should_stop();
++}
++
++
++/* tasklets
++ - run in interrupt context (cannot sleep)
++ - each tasklet runs on a single CPU
++ - different tasklets can be running simultaneously on different CPUs
++ */
++struct dwc_tasklet {
++ struct tasklet_struct t;
++ dwc_tasklet_callback_t cb;
++ void *data;
++};
++
++static void tasklet_callback(unsigned long data)
++{
++ dwc_tasklet_t *t = (dwc_tasklet_t *)data;
++ t->cb(t->data);
++}
++
++dwc_tasklet_t *DWC_TASK_ALLOC(char *name, dwc_tasklet_callback_t cb, void *data)
++{
++ dwc_tasklet_t *t = DWC_ALLOC(sizeof(*t));
++
++ if (t) {
++ t->cb = cb;
++ t->data = data;
++ tasklet_init(&t->t, tasklet_callback, (unsigned long)t);
++ } else {
++ DWC_ERROR("Cannot allocate memory for tasklet\n");
++ }
++
++ return t;
++}
++
++void DWC_TASK_FREE(dwc_tasklet_t *task)
++{
++ DWC_FREE(task);
++}
++
++void DWC_TASK_SCHEDULE(dwc_tasklet_t *task)
++{
++ tasklet_schedule(&task->t);
++}
++
++void DWC_TASK_HI_SCHEDULE(dwc_tasklet_t *task)
++{
++ tasklet_hi_schedule(&task->t);
++}
++
++
++/* workqueues
++ - run in process context (can sleep)
++ */
++typedef struct work_container {
++ dwc_work_callback_t cb;
++ void *data;
++ dwc_workq_t *wq;
++ char *name;
++
++#ifdef DEBUG
++ DWC_CIRCLEQ_ENTRY(work_container) entry;
++#endif
++ struct delayed_work work;
++} work_container_t;
++
++#ifdef DEBUG
++DWC_CIRCLEQ_HEAD(work_container_queue, work_container);
++#endif
++
++struct dwc_workq {
++ struct workqueue_struct *wq;
++ dwc_spinlock_t *lock;
++ dwc_waitq_t *waitq;
++ int pending;
++
++#ifdef DEBUG
++ struct work_container_queue entries;
++#endif
++};
++
++static void do_work(struct work_struct *work)
++{
++ dwc_irqflags_t flags;
++ struct delayed_work *dw = container_of(work, struct delayed_work, work);
++ work_container_t *container = container_of(dw, struct work_container, work);
++ dwc_workq_t *wq = container->wq;
++
++ container->cb(container->data);
++
++#ifdef DEBUG
++ DWC_CIRCLEQ_REMOVE(&wq->entries, container, entry);
++#endif
++ DWC_DEBUGC("Work done: %s, container=%p", container->name, container);
++ if (container->name) {
++ DWC_FREE(container->name);
++ }
++ DWC_FREE(container);
++
++ DWC_SPINLOCK_IRQSAVE(wq->lock, &flags);
++ wq->pending--;
++ DWC_SPINUNLOCK_IRQRESTORE(wq->lock, flags);
++ DWC_WAITQ_TRIGGER(wq->waitq);
++}
++
++static int work_done(void *data)
++{
++ dwc_workq_t *workq = (dwc_workq_t *)data;
++ return workq->pending == 0;
++}
++
++int DWC_WORKQ_WAIT_WORK_DONE(dwc_workq_t *workq, int timeout)
++{
++ return DWC_WAITQ_WAIT_TIMEOUT(workq->waitq, work_done, workq, timeout);
++}
++
++dwc_workq_t *DWC_WORKQ_ALLOC(char *name)
++{
++ dwc_workq_t *wq = DWC_ALLOC(sizeof(*wq));
++
++ if (!wq) {
++ return NULL;
++ }
++
++ wq->wq = create_singlethread_workqueue(name);
++ if (!wq->wq) {
++ goto no_wq;
++ }
++
++ wq->pending = 0;
++
++ wq->lock = DWC_SPINLOCK_ALLOC();
++ if (!wq->lock) {
++ goto no_lock;
++ }
++
++ wq->waitq = DWC_WAITQ_ALLOC();
++ if (!wq->waitq) {
++ goto no_waitq;
++ }
++
++#ifdef DEBUG
++ DWC_CIRCLEQ_INIT(&wq->entries);
++#endif
++ return wq;
++
++ no_waitq:
++ DWC_SPINLOCK_FREE(wq->lock);
++ no_lock:
++ destroy_workqueue(wq->wq);
++ no_wq:
++ DWC_FREE(wq);
++
++ return NULL;
++}
++
++void DWC_WORKQ_FREE(dwc_workq_t *wq)
++{
++#ifdef DEBUG
++ if (wq->pending != 0) {
++ struct work_container *wc;
++ DWC_ERROR("Destroying work queue with pending work");
++ DWC_CIRCLEQ_FOREACH(wc, &wq->entries, entry) {
++ DWC_ERROR("Work %s still pending", wc->name);
++ }
++ }
++#endif
++ destroy_workqueue(wq->wq);
++ DWC_SPINLOCK_FREE(wq->lock);
++ DWC_WAITQ_FREE(wq->waitq);
++ DWC_FREE(wq);
++}
++
++void DWC_WORKQ_SCHEDULE(dwc_workq_t *wq, dwc_work_callback_t cb, void *data,
++ char *format, ...)
++{
++ dwc_irqflags_t flags;
++ work_container_t *container;
++ static char name[128];
++ va_list args;
++
++ va_start(args, format);
++ DWC_VSNPRINTF(name, 128, format, args);
++ va_end(args);
++
++ DWC_SPINLOCK_IRQSAVE(wq->lock, &flags);
++ wq->pending++;
++ DWC_SPINUNLOCK_IRQRESTORE(wq->lock, flags);
++ DWC_WAITQ_TRIGGER(wq->waitq);
++
++ container = DWC_ALLOC_ATOMIC(sizeof(*container));
++ if (!container) {
++ DWC_ERROR("Cannot allocate memory for container\n");
++ return;
++ }
++
++ container->name = DWC_STRDUP(name);
++ if (!container->name) {
++ DWC_ERROR("Cannot allocate memory for container->name\n");
++ DWC_FREE(container);
++ return;
++ }
++
++ container->cb = cb;
++ container->data = data;
++ container->wq = wq;
++ DWC_DEBUGC("Queueing work: %s, container=%p", container->name, container);
++ INIT_WORK(&container->work.work, do_work);
++
++#ifdef DEBUG
++ DWC_CIRCLEQ_INSERT_TAIL(&wq->entries, container, entry);
++#endif
++ queue_work(wq->wq, &container->work.work);
++}
++
++void DWC_WORKQ_SCHEDULE_DELAYED(dwc_workq_t *wq, dwc_work_callback_t cb,
++ void *data, uint32_t time, char *format, ...)
++{
++ dwc_irqflags_t flags;
++ work_container_t *container;
++ static char name[128];
++ va_list args;
++
++ va_start(args, format);
++ DWC_VSNPRINTF(name, 128, format, args);
++ va_end(args);
++
++ DWC_SPINLOCK_IRQSAVE(wq->lock, &flags);
++ wq->pending++;
++ DWC_SPINUNLOCK_IRQRESTORE(wq->lock, flags);
++ DWC_WAITQ_TRIGGER(wq->waitq);
++
++ container = DWC_ALLOC_ATOMIC(sizeof(*container));
++ if (!container) {
++ DWC_ERROR("Cannot allocate memory for container\n");
++ return;
++ }
++
++ container->name = DWC_STRDUP(name);
++ if (!container->name) {
++ DWC_ERROR("Cannot allocate memory for container->name\n");
++ DWC_FREE(container);
++ return;
++ }
++
++ container->cb = cb;
++ container->data = data;
++ container->wq = wq;
++ DWC_DEBUGC("Queueing work: %s, container=%p", container->name, container);
++ INIT_DELAYED_WORK(&container->work, do_work);
++
++#ifdef DEBUG
++ DWC_CIRCLEQ_INSERT_TAIL(&wq->entries, container, entry);
++#endif
++ queue_delayed_work(wq->wq, &container->work, msecs_to_jiffies(time));
++}
++
++int DWC_WORKQ_PENDING(dwc_workq_t *wq)
++{
++ return wq->pending;
++}
++
++
++#ifdef DWC_LIBMODULE
++
++#ifdef DWC_CCLIB
++/* CC */
++EXPORT_SYMBOL(dwc_cc_if_alloc);
++EXPORT_SYMBOL(dwc_cc_if_free);
++EXPORT_SYMBOL(dwc_cc_clear);
++EXPORT_SYMBOL(dwc_cc_add);
++EXPORT_SYMBOL(dwc_cc_remove);
++EXPORT_SYMBOL(dwc_cc_change);
++EXPORT_SYMBOL(dwc_cc_data_for_save);
++EXPORT_SYMBOL(dwc_cc_restore_from_data);
++EXPORT_SYMBOL(dwc_cc_match_chid);
++EXPORT_SYMBOL(dwc_cc_match_cdid);
++EXPORT_SYMBOL(dwc_cc_ck);
++EXPORT_SYMBOL(dwc_cc_chid);
++EXPORT_SYMBOL(dwc_cc_cdid);
++EXPORT_SYMBOL(dwc_cc_name);
++#endif /* DWC_CCLIB */
++
++#ifdef DWC_CRYPTOLIB
++# ifndef CONFIG_MACH_IPMATE
++/* Modpow */
++EXPORT_SYMBOL(dwc_modpow);
++
++/* DH */
++EXPORT_SYMBOL(dwc_dh_modpow);
++EXPORT_SYMBOL(dwc_dh_derive_keys);
++EXPORT_SYMBOL(dwc_dh_pk);
++# endif /* CONFIG_MACH_IPMATE */
++
++/* Crypto */
++EXPORT_SYMBOL(dwc_wusb_aes_encrypt);
++EXPORT_SYMBOL(dwc_wusb_cmf);
++EXPORT_SYMBOL(dwc_wusb_prf);
++EXPORT_SYMBOL(dwc_wusb_fill_ccm_nonce);
++EXPORT_SYMBOL(dwc_wusb_gen_nonce);
++EXPORT_SYMBOL(dwc_wusb_gen_key);
++EXPORT_SYMBOL(dwc_wusb_gen_mic);
++#endif /* DWC_CRYPTOLIB */
++
++/* Notification */
++#ifdef DWC_NOTIFYLIB
++EXPORT_SYMBOL(dwc_alloc_notification_manager);
++EXPORT_SYMBOL(dwc_free_notification_manager);
++EXPORT_SYMBOL(dwc_register_notifier);
++EXPORT_SYMBOL(dwc_unregister_notifier);
++EXPORT_SYMBOL(dwc_add_observer);
++EXPORT_SYMBOL(dwc_remove_observer);
++EXPORT_SYMBOL(dwc_notify);
++#endif
++
++/* Memory Debugging Routines */
++#ifdef DWC_DEBUG_MEMORY
++EXPORT_SYMBOL(dwc_alloc_debug);
++EXPORT_SYMBOL(dwc_alloc_atomic_debug);
++EXPORT_SYMBOL(dwc_free_debug);
++EXPORT_SYMBOL(dwc_dma_alloc_debug);
++EXPORT_SYMBOL(dwc_dma_free_debug);
++#endif
++
++EXPORT_SYMBOL(DWC_MEMSET);
++EXPORT_SYMBOL(DWC_MEMCPY);
++EXPORT_SYMBOL(DWC_MEMMOVE);
++EXPORT_SYMBOL(DWC_MEMCMP);
++EXPORT_SYMBOL(DWC_STRNCMP);
++EXPORT_SYMBOL(DWC_STRCMP);
++EXPORT_SYMBOL(DWC_STRLEN);
++EXPORT_SYMBOL(DWC_STRCPY);
++EXPORT_SYMBOL(DWC_STRDUP);
++EXPORT_SYMBOL(DWC_ATOI);
++EXPORT_SYMBOL(DWC_ATOUI);
++
++#ifdef DWC_UTFLIB
++EXPORT_SYMBOL(DWC_UTF8_TO_UTF16LE);
++#endif /* DWC_UTFLIB */
++
++EXPORT_SYMBOL(DWC_IN_IRQ);
++EXPORT_SYMBOL(DWC_IN_BH);
++EXPORT_SYMBOL(DWC_VPRINTF);
++EXPORT_SYMBOL(DWC_VSNPRINTF);
++EXPORT_SYMBOL(DWC_PRINTF);
++EXPORT_SYMBOL(DWC_SPRINTF);
++EXPORT_SYMBOL(DWC_SNPRINTF);
++EXPORT_SYMBOL(__DWC_WARN);
++EXPORT_SYMBOL(__DWC_ERROR);
++EXPORT_SYMBOL(DWC_EXCEPTION);
++
++#ifdef DEBUG
++EXPORT_SYMBOL(__DWC_DEBUG);
++#endif
++
++EXPORT_SYMBOL(__DWC_DMA_ALLOC);
++EXPORT_SYMBOL(__DWC_DMA_ALLOC_ATOMIC);
++EXPORT_SYMBOL(__DWC_DMA_FREE);
++EXPORT_SYMBOL(__DWC_ALLOC);
++EXPORT_SYMBOL(__DWC_ALLOC_ATOMIC);
++EXPORT_SYMBOL(__DWC_FREE);
++
++#ifdef DWC_CRYPTOLIB
++EXPORT_SYMBOL(DWC_RANDOM_BYTES);
++EXPORT_SYMBOL(DWC_AES_CBC);
++EXPORT_SYMBOL(DWC_SHA256);
++EXPORT_SYMBOL(DWC_HMAC_SHA256);
++#endif
++
++EXPORT_SYMBOL(DWC_CPU_TO_LE32);
++EXPORT_SYMBOL(DWC_CPU_TO_BE32);
++EXPORT_SYMBOL(DWC_LE32_TO_CPU);
++EXPORT_SYMBOL(DWC_BE32_TO_CPU);
++EXPORT_SYMBOL(DWC_CPU_TO_LE16);
++EXPORT_SYMBOL(DWC_CPU_TO_BE16);
++EXPORT_SYMBOL(DWC_LE16_TO_CPU);
++EXPORT_SYMBOL(DWC_BE16_TO_CPU);
++EXPORT_SYMBOL(DWC_READ_REG32);
++EXPORT_SYMBOL(DWC_WRITE_REG32);
++EXPORT_SYMBOL(DWC_MODIFY_REG32);
++
++#if 0
++EXPORT_SYMBOL(DWC_READ_REG64);
++EXPORT_SYMBOL(DWC_WRITE_REG64);
++EXPORT_SYMBOL(DWC_MODIFY_REG64);
++#endif
++
++EXPORT_SYMBOL(DWC_SPINLOCK_ALLOC);
++EXPORT_SYMBOL(DWC_SPINLOCK_FREE);
++EXPORT_SYMBOL(DWC_SPINLOCK);
++EXPORT_SYMBOL(DWC_SPINUNLOCK);
++EXPORT_SYMBOL(DWC_SPINLOCK_IRQSAVE);
++EXPORT_SYMBOL(DWC_SPINUNLOCK_IRQRESTORE);
++EXPORT_SYMBOL(DWC_MUTEX_ALLOC);
++
++#if (!defined(DWC_LINUX) || !defined(CONFIG_DEBUG_MUTEXES))
++EXPORT_SYMBOL(DWC_MUTEX_FREE);
++#endif
++
++EXPORT_SYMBOL(DWC_MUTEX_LOCK);
++EXPORT_SYMBOL(DWC_MUTEX_TRYLOCK);
++EXPORT_SYMBOL(DWC_MUTEX_UNLOCK);
++EXPORT_SYMBOL(DWC_UDELAY);
++EXPORT_SYMBOL(DWC_MDELAY);
++EXPORT_SYMBOL(DWC_MSLEEP);
++EXPORT_SYMBOL(DWC_TIME);
++EXPORT_SYMBOL(DWC_TIMER_ALLOC);
++EXPORT_SYMBOL(DWC_TIMER_FREE);
++EXPORT_SYMBOL(DWC_TIMER_SCHEDULE);
++EXPORT_SYMBOL(DWC_TIMER_CANCEL);
++EXPORT_SYMBOL(DWC_WAITQ_ALLOC);
++EXPORT_SYMBOL(DWC_WAITQ_FREE);
++EXPORT_SYMBOL(DWC_WAITQ_WAIT);
++EXPORT_SYMBOL(DWC_WAITQ_WAIT_TIMEOUT);
++EXPORT_SYMBOL(DWC_WAITQ_TRIGGER);
++EXPORT_SYMBOL(DWC_WAITQ_ABORT);
++EXPORT_SYMBOL(DWC_THREAD_RUN);
++EXPORT_SYMBOL(DWC_THREAD_STOP);
++EXPORT_SYMBOL(DWC_THREAD_SHOULD_STOP);
++EXPORT_SYMBOL(DWC_TASK_ALLOC);
++EXPORT_SYMBOL(DWC_TASK_FREE);
++EXPORT_SYMBOL(DWC_TASK_SCHEDULE);
++EXPORT_SYMBOL(DWC_WORKQ_WAIT_WORK_DONE);
++EXPORT_SYMBOL(DWC_WORKQ_ALLOC);
++EXPORT_SYMBOL(DWC_WORKQ_FREE);
++EXPORT_SYMBOL(DWC_WORKQ_SCHEDULE);
++EXPORT_SYMBOL(DWC_WORKQ_SCHEDULE_DELAYED);
++EXPORT_SYMBOL(DWC_WORKQ_PENDING);
++
++static int dwc_common_port_init_module(void)
++{
++ int result = 0;
++
++ printk(KERN_DEBUG "Module dwc_common_port init\n" );
++
++#ifdef DWC_DEBUG_MEMORY
++ result = dwc_memory_debug_start(NULL);
++ if (result) {
++ printk(KERN_ERR
++ "dwc_memory_debug_start() failed with error %d\n",
++ result);
++ return result;
++ }
++#endif
++
++#ifdef DWC_NOTIFYLIB
++ result = dwc_alloc_notification_manager(NULL, NULL);
++ if (result) {
++ printk(KERN_ERR
++ "dwc_alloc_notification_manager() failed with error %d\n",
++ result);
++ return result;
++ }
++#endif
++ return result;
++}
++
++static void dwc_common_port_exit_module(void)
++{
++ printk(KERN_DEBUG "Module dwc_common_port exit\n" );
++
++#ifdef DWC_NOTIFYLIB
++ dwc_free_notification_manager();
++#endif
++
++#ifdef DWC_DEBUG_MEMORY
++ dwc_memory_debug_stop();
++#endif
++}
++
++module_init(dwc_common_port_init_module);
++module_exit(dwc_common_port_exit_module);
++
++MODULE_DESCRIPTION("DWC Common Library - Portable version");
++MODULE_AUTHOR("Synopsys Inc.");
++MODULE_LICENSE ("GPL");
++
++#endif /* DWC_LIBMODULE */
+diff -urN linux-3.10/drivers/usb/host/dwc_common_port/dwc_common_nbsd.c linux-rpi-3.10.y/drivers/usb/host/dwc_common_port/dwc_common_nbsd.c
+--- linux-3.10/drivers/usb/host/dwc_common_port/dwc_common_nbsd.c 1970-01-01 01:00:00.000000000 +0100
++++ linux-rpi-3.10.y/drivers/usb/host/dwc_common_port/dwc_common_nbsd.c 2013-07-06 15:25:50.000000000 +0100
+@@ -0,0 +1,1275 @@
++#include "dwc_os.h"
++#include "dwc_list.h"
++
++#ifdef DWC_CCLIB
++# include "dwc_cc.h"
++#endif
++
++#ifdef DWC_CRYPTOLIB
++# include "dwc_modpow.h"
++# include "dwc_dh.h"
++# include "dwc_crypto.h"
++#endif
++
++#ifdef DWC_NOTIFYLIB
++# include "dwc_notifier.h"
++#endif
++
++/* OS-Level Implementations */
++
++/* This is the NetBSD 4.0.1 kernel implementation of the DWC platform library. */
++
++
++/* MISC */
++
++void *DWC_MEMSET(void *dest, uint8_t byte, uint32_t size)
++{
++ return memset(dest, byte, size);
++}
++
++void *DWC_MEMCPY(void *dest, void const *src, uint32_t size)
++{
++ return memcpy(dest, src, size);
++}
++
++void *DWC_MEMMOVE(void *dest, void *src, uint32_t size)
++{
++ bcopy(src, dest, size);
++ return dest;
++}
++
++int DWC_MEMCMP(void *m1, void *m2, uint32_t size)
++{
++ return memcmp(m1, m2, size);
++}
++
++int DWC_STRNCMP(void *s1, void *s2, uint32_t size)
++{
++ return strncmp(s1, s2, size);
++}
++
++int DWC_STRCMP(void *s1, void *s2)
++{
++ return strcmp(s1, s2);
++}
++
++int DWC_STRLEN(char const *str)
++{
++ return strlen(str);
++}
++
++char *DWC_STRCPY(char *to, char const *from)
++{
++ return strcpy(to, from);
++}
++
++char *DWC_STRDUP(char const *str)
++{
++ int len = DWC_STRLEN(str) + 1;
++ char *new = DWC_ALLOC_ATOMIC(len);
++
++ if (!new) {
++ return NULL;
++ }
++
++ DWC_MEMCPY(new, str, len);
++ return new;
++}
++
++int DWC_ATOI(char *str, int32_t *value)
++{
++ char *end = NULL;
++
++ /* NetBSD doesn't have 'strtol' in the kernel, but 'strtoul'
++ * should be equivalent on 2's complement machines
++ */
++ *value = strtoul(str, &end, 0);
++ if (*end == '\0') {
++ return 0;
++ }
++
++ return -1;
++}
++
++int DWC_ATOUI(char *str, uint32_t *value)
++{
++ char *end = NULL;
++
++ *value = strtoul(str, &end, 0);
++ if (*end == '\0') {
++ return 0;
++ }
++
++ return -1;
++}
++
++
++#ifdef DWC_UTFLIB
++/* From usbstring.c */
++
++int DWC_UTF8_TO_UTF16LE(uint8_t const *s, uint16_t *cp, unsigned len)
++{
++ int count = 0;
++ u8 c;
++ u16 uchar;
++
++ /* this insists on correct encodings, though not minimal ones.
++ * BUT it currently rejects legit 4-byte UTF-8 code points,
++ * which need surrogate pairs. (Unicode 3.1 can use them.)
++ */
++ while (len != 0 && (c = (u8) *s++) != 0) {
++ if (unlikely(c & 0x80)) {
++ // 2-byte sequence:
++ // 00000yyyyyxxxxxx = 110yyyyy 10xxxxxx
++ if ((c & 0xe0) == 0xc0) {
++ uchar = (c & 0x1f) << 6;
++
++ c = (u8) *s++;
++ if ((c & 0xc0) != 0xc0)
++ goto fail;
++ c &= 0x3f;
++ uchar |= c;
++
++ // 3-byte sequence (most CJKV characters):
++ // zzzzyyyyyyxxxxxx = 1110zzzz 10yyyyyy 10xxxxxx
++ } else if ((c & 0xf0) == 0xe0) {
++ uchar = (c & 0x0f) << 12;
++
++ c = (u8) *s++;
++ if ((c & 0xc0) != 0xc0)
++ goto fail;
++ c &= 0x3f;
++ uchar |= c << 6;
++
++ c = (u8) *s++;
++ if ((c & 0xc0) != 0xc0)
++ goto fail;
++ c &= 0x3f;
++ uchar |= c;
++
++ /* no bogus surrogates */
++ if (0xd800 <= uchar && uchar <= 0xdfff)
++ goto fail;
++
++ // 4-byte sequence (surrogate pairs, currently rare):
++ // 11101110wwwwzzzzyy + 110111yyyyxxxxxx
++ // = 11110uuu 10uuzzzz 10yyyyyy 10xxxxxx
++ // (uuuuu = wwww + 1)
++ // FIXME accept the surrogate code points (only)
++ } else
++ goto fail;
++ } else
++ uchar = c;
++ put_unaligned (cpu_to_le16 (uchar), cp++);
++ count++;
++ len--;
++ }
++ return count;
++fail:
++ return -1;
++}
++
++#endif /* DWC_UTFLIB */
++
++
++/* dwc_debug.h */
++
++dwc_bool_t DWC_IN_IRQ(void)
++{
++// return in_irq();
++ return 0;
++}
++
++dwc_bool_t DWC_IN_BH(void)
++{
++// return in_softirq();
++ return 0;
++}
++
++void DWC_VPRINTF(char *format, va_list args)
++{
++ vprintf(format, args);
++}
++
++int DWC_VSNPRINTF(char *str, int size, char *format, va_list args)
++{
++ return vsnprintf(str, size, format, args);
++}
++
++void DWC_PRINTF(char *format, ...)
++{
++ va_list args;
++
++ va_start(args, format);
++ DWC_VPRINTF(format, args);
++ va_end(args);
++}
++
++int DWC_SPRINTF(char *buffer, char *format, ...)
++{
++ int retval;
++ va_list args;
++
++ va_start(args, format);
++ retval = vsprintf(buffer, format, args);
++ va_end(args);
++ return retval;
++}
++
++int DWC_SNPRINTF(char *buffer, int size, char *format, ...)
++{
++ int retval;
++ va_list args;
++
++ va_start(args, format);
++ retval = vsnprintf(buffer, size, format, args);
++ va_end(args);
++ return retval;
++}
++
++void __DWC_WARN(char *format, ...)
++{
++ va_list args;
++
++ va_start(args, format);
++ DWC_VPRINTF(format, args);
++ va_end(args);
++}
++
++void __DWC_ERROR(char *format, ...)
++{
++ va_list args;
++
++ va_start(args, format);
++ DWC_VPRINTF(format, args);
++ va_end(args);
++}
++
++void DWC_EXCEPTION(char *format, ...)
++{
++ va_list args;
++
++ va_start(args, format);
++ DWC_VPRINTF(format, args);
++ va_end(args);
++// BUG_ON(1); ???
++}
++
++#ifdef DEBUG
++void __DWC_DEBUG(char *format, ...)
++{
++ va_list args;
++
++ va_start(args, format);
++ DWC_VPRINTF(format, args);
++ va_end(args);
++}
++#endif
++
++
++/* dwc_mem.h */
++
++#if 0
++dwc_pool_t *DWC_DMA_POOL_CREATE(uint32_t size,
++ uint32_t align,
++ uint32_t alloc)
++{
++ struct dma_pool *pool = dma_pool_create("Pool", NULL,
++ size, align, alloc);
++ return (dwc_pool_t *)pool;
++}
++
++void DWC_DMA_POOL_DESTROY(dwc_pool_t *pool)
++{
++ dma_pool_destroy((struct dma_pool *)pool);
++}
++
++void *DWC_DMA_POOL_ALLOC(dwc_pool_t *pool, uint64_t *dma_addr)
++{
++// return dma_pool_alloc((struct dma_pool *)pool, GFP_KERNEL, dma_addr);
++ return dma_pool_alloc((struct dma_pool *)pool, M_WAITOK, dma_addr);
++}
++
++void *DWC_DMA_POOL_ZALLOC(dwc_pool_t *pool, uint64_t *dma_addr)
++{
++ void *vaddr = DWC_DMA_POOL_ALLOC(pool, dma_addr);
++ memset(..);
++}
++
++void DWC_DMA_POOL_FREE(dwc_pool_t *pool, void *vaddr, void *daddr)
++{
++ dma_pool_free(pool, vaddr, daddr);
++}
++#endif
++
++void *__DWC_DMA_ALLOC(void *dma_ctx, uint32_t size, dwc_dma_t *dma_addr)
++{
++ dwc_dmactx_t *dma = (dwc_dmactx_t *)dma_ctx;
++ int error;
++
++ error = bus_dmamem_alloc(dma->dma_tag, size, 1, size, dma->segs,
++ sizeof(dma->segs) / sizeof(dma->segs[0]),
++ &dma->nsegs, BUS_DMA_NOWAIT);
++ if (error) {
++ printf("%s: bus_dmamem_alloc(%ju) failed: %d\n", __func__,
++ (uintmax_t)size, error);
++ goto fail_0;
++ }
++
++ error = bus_dmamem_map(dma->dma_tag, dma->segs, dma->nsegs, size,
++ (caddr_t *)&dma->dma_vaddr,
++ BUS_DMA_NOWAIT | BUS_DMA_COHERENT);
++ if (error) {
++ printf("%s: bus_dmamem_map failed: %d\n", __func__, error);
++ goto fail_1;
++ }
++
++ error = bus_dmamap_create(dma->dma_tag, size, 1, size, 0,
++ BUS_DMA_NOWAIT, &dma->dma_map);
++ if (error) {
++ printf("%s: bus_dmamap_create failed: %d\n", __func__, error);
++ goto fail_2;
++ }
++
++ error = bus_dmamap_load(dma->dma_tag, dma->dma_map, dma->dma_vaddr,
++ size, NULL, BUS_DMA_NOWAIT);
++ if (error) {
++ printf("%s: bus_dmamap_load failed: %d\n", __func__, error);
++ goto fail_3;
++ }
++
++ dma->dma_paddr = (bus_addr_t)dma->segs[0].ds_addr;
++ *dma_addr = dma->dma_paddr;
++ return dma->dma_vaddr;
++
++fail_3:
++ bus_dmamap_destroy(dma->dma_tag, dma->dma_map);
++fail_2:
++ bus_dmamem_unmap(dma->dma_tag, dma->dma_vaddr, size);
++fail_1:
++ bus_dmamem_free(dma->dma_tag, dma->segs, dma->nsegs);
++fail_0:
++ dma->dma_map = NULL;
++ dma->dma_vaddr = NULL;
++ dma->nsegs = 0;
++
++ return NULL;
++}
++
++void __DWC_DMA_FREE(void *dma_ctx, uint32_t size, void *virt_addr, dwc_dma_t dma_addr)
++{
++ dwc_dmactx_t *dma = (dwc_dmactx_t *)dma_ctx;
++
++ if (dma->dma_map != NULL) {
++ bus_dmamap_sync(dma->dma_tag, dma->dma_map, 0, size,
++ BUS_DMASYNC_POSTREAD | BUS_DMASYNC_POSTWRITE);
++ bus_dmamap_unload(dma->dma_tag, dma->dma_map);
++ bus_dmamap_destroy(dma->dma_tag, dma->dma_map);
++ bus_dmamem_unmap(dma->dma_tag, dma->dma_vaddr, size);
++ bus_dmamem_free(dma->dma_tag, dma->segs, dma->nsegs);
++ dma->dma_paddr = 0;
++ dma->dma_map = NULL;
++ dma->dma_vaddr = NULL;
++ dma->nsegs = 0;
++ }
++}
++
++void *__DWC_ALLOC(void *mem_ctx, uint32_t size)
++{
++ return malloc(size, M_DEVBUF, M_WAITOK | M_ZERO);
++}
++
++void *__DWC_ALLOC_ATOMIC(void *mem_ctx, uint32_t size)
++{
++ return malloc(size, M_DEVBUF, M_NOWAIT | M_ZERO);
++}
++
++void __DWC_FREE(void *mem_ctx, void *addr)
++{
++ free(addr, M_DEVBUF);
++}
++
++
++#ifdef DWC_CRYPTOLIB
++/* dwc_crypto.h */
++
++void DWC_RANDOM_BYTES(uint8_t *buffer, uint32_t length)
++{
++ get_random_bytes(buffer, length);
++}
++
++int DWC_AES_CBC(uint8_t *message, uint32_t messagelen, uint8_t *key, uint32_t keylen, uint8_t iv[16], uint8_t *out)
++{
++ struct crypto_blkcipher *tfm;
++ struct blkcipher_desc desc;
++ struct scatterlist sgd;
++ struct scatterlist sgs;
++
++ tfm = crypto_alloc_blkcipher("cbc(aes)", 0, CRYPTO_ALG_ASYNC);
++ if (tfm == NULL) {
++ printk("failed to load transform for aes CBC\n");
++ return -1;
++ }
++
++ crypto_blkcipher_setkey(tfm, key, keylen);
++ crypto_blkcipher_set_iv(tfm, iv, 16);
++
++ sg_init_one(&sgd, out, messagelen);
++ sg_init_one(&sgs, message, messagelen);
++
++ desc.tfm = tfm;
++ desc.flags = 0;
++
++ if (crypto_blkcipher_encrypt(&desc, &sgd, &sgs, messagelen)) {
++ crypto_free_blkcipher(tfm);
++ DWC_ERROR("AES CBC encryption failed");
++ return -1;
++ }
++
++ crypto_free_blkcipher(tfm);
++ return 0;
++}
++
++int DWC_SHA256(uint8_t *message, uint32_t len, uint8_t *out)
++{
++ struct crypto_hash *tfm;
++ struct hash_desc desc;
++ struct scatterlist sg;
++
++ tfm = crypto_alloc_hash("sha256", 0, CRYPTO_ALG_ASYNC);
++ if (IS_ERR(tfm)) {
++ DWC_ERROR("Failed to load transform for sha256: %ld", PTR_ERR(tfm));
++ return 0;
++ }
++ desc.tfm = tfm;
++ desc.flags = 0;
++
++ sg_init_one(&sg, message, len);
++ crypto_hash_digest(&desc, &sg, len, out);
++ crypto_free_hash(tfm);
++
++ return 1;
++}
++
++int DWC_HMAC_SHA256(uint8_t *message, uint32_t messagelen,
++ uint8_t *key, uint32_t keylen, uint8_t *out)
++{
++ struct crypto_hash *tfm;
++ struct hash_desc desc;
++ struct scatterlist sg;
++
++ tfm = crypto_alloc_hash("hmac(sha256)", 0, CRYPTO_ALG_ASYNC);
++ if (IS_ERR(tfm)) {
++ DWC_ERROR("Failed to load transform for hmac(sha256): %ld", PTR_ERR(tfm));
++ return 0;
++ }
++ desc.tfm = tfm;
++ desc.flags = 0;
++
++ sg_init_one(&sg, message, messagelen);
++ crypto_hash_setkey(tfm, key, keylen);
++ crypto_hash_digest(&desc, &sg, messagelen, out);
++ crypto_free_hash(tfm);
++
++ return 1;
++}
++
++#endif /* DWC_CRYPTOLIB */
++
++
++/* Byte Ordering Conversions */
++
++uint32_t DWC_CPU_TO_LE32(uint32_t *p)
++{
++#ifdef __LITTLE_ENDIAN
++ return *p;
++#else
++ uint8_t *u_p = (uint8_t *)p;
++
++ return (u_p[3] | (u_p[2] << 8) | (u_p[1] << 16) | (u_p[0] << 24));
++#endif
++}
++
++uint32_t DWC_CPU_TO_BE32(uint32_t *p)
++{
++#ifdef __BIG_ENDIAN
++ return *p;
++#else
++ uint8_t *u_p = (uint8_t *)p;
++
++ return (u_p[3] | (u_p[2] << 8) | (u_p[1] << 16) | (u_p[0] << 24));
++#endif
++}
++
++uint32_t DWC_LE32_TO_CPU(uint32_t *p)
++{
++#ifdef __LITTLE_ENDIAN
++ return *p;
++#else
++ uint8_t *u_p = (uint8_t *)p;
++
++ return (u_p[3] | (u_p[2] << 8) | (u_p[1] << 16) | (u_p[0] << 24));
++#endif
++}
++
++uint32_t DWC_BE32_TO_CPU(uint32_t *p)
++{
++#ifdef __BIG_ENDIAN
++ return *p;
++#else
++ uint8_t *u_p = (uint8_t *)p;
++
++ return (u_p[3] | (u_p[2] << 8) | (u_p[1] << 16) | (u_p[0] << 24));
++#endif
++}
++
++uint16_t DWC_CPU_TO_LE16(uint16_t *p)
++{
++#ifdef __LITTLE_ENDIAN
++ return *p;
++#else
++ uint8_t *u_p = (uint8_t *)p;
++ return (u_p[1] | (u_p[0] << 8));
++#endif
++}
++
++uint16_t DWC_CPU_TO_BE16(uint16_t *p)
++{
++#ifdef __BIG_ENDIAN
++ return *p;
++#else
++ uint8_t *u_p = (uint8_t *)p;
++ return (u_p[1] | (u_p[0] << 8));
++#endif
++}
++
++uint16_t DWC_LE16_TO_CPU(uint16_t *p)
++{
++#ifdef __LITTLE_ENDIAN
++ return *p;
++#else
++ uint8_t *u_p = (uint8_t *)p;
++ return (u_p[1] | (u_p[0] << 8));
++#endif
++}
++
++uint16_t DWC_BE16_TO_CPU(uint16_t *p)
++{
++#ifdef __BIG_ENDIAN
++ return *p;
++#else
++ uint8_t *u_p = (uint8_t *)p;
++ return (u_p[1] | (u_p[0] << 8));
++#endif
++}
++
++
++/* Registers */
++
++uint32_t DWC_READ_REG32(void *io_ctx, uint32_t volatile *reg)
++{
++ dwc_ioctx_t *io = (dwc_ioctx_t *)io_ctx;
++ bus_size_t ior = (bus_size_t)reg;
++
++ return bus_space_read_4(io->iot, io->ioh, ior);
++}
++
++#if 0
++uint64_t DWC_READ_REG64(void *io_ctx, uint64_t volatile *reg)
++{
++ dwc_ioctx_t *io = (dwc_ioctx_t *)io_ctx;
++ bus_size_t ior = (bus_size_t)reg;
++
++ return bus_space_read_8(io->iot, io->ioh, ior);
++}
++#endif
++
++void DWC_WRITE_REG32(void *io_ctx, uint32_t volatile *reg, uint32_t value)
++{
++ dwc_ioctx_t *io = (dwc_ioctx_t *)io_ctx;
++ bus_size_t ior = (bus_size_t)reg;
++
++ bus_space_write_4(io->iot, io->ioh, ior, value);
++}
++
++#if 0
++void DWC_WRITE_REG64(void *io_ctx, uint64_t volatile *reg, uint64_t value)
++{
++ dwc_ioctx_t *io = (dwc_ioctx_t *)io_ctx;
++ bus_size_t ior = (bus_size_t)reg;
++
++ bus_space_write_8(io->iot, io->ioh, ior, value);
++}
++#endif
++
++void DWC_MODIFY_REG32(void *io_ctx, uint32_t volatile *reg, uint32_t clear_mask,
++ uint32_t set_mask)
++{
++ dwc_ioctx_t *io = (dwc_ioctx_t *)io_ctx;
++ bus_size_t ior = (bus_size_t)reg;
++
++ bus_space_write_4(io->iot, io->ioh, ior,
++ (bus_space_read_4(io->iot, io->ioh, ior) &
++ ~clear_mask) | set_mask);
++}
++
++#if 0
++void DWC_MODIFY_REG64(void *io_ctx, uint64_t volatile *reg, uint64_t clear_mask,
++ uint64_t set_mask)
++{
++ dwc_ioctx_t *io = (dwc_ioctx_t *)io_ctx;
++ bus_size_t ior = (bus_size_t)reg;
++
++ bus_space_write_8(io->iot, io->ioh, ior,
++ (bus_space_read_8(io->iot, io->ioh, ior) &
++ ~clear_mask) | set_mask);
++}
++#endif
++
++
++/* Locking */
++
++dwc_spinlock_t *DWC_SPINLOCK_ALLOC(void)
++{
++ struct simplelock *sl = DWC_ALLOC(sizeof(*sl));
++
++ if (!sl) {
++ DWC_ERROR("Cannot allocate memory for spinlock");
++ return NULL;
++ }
++
++ simple_lock_init(sl);
++ return (dwc_spinlock_t *)sl;
++}
++
++void DWC_SPINLOCK_FREE(dwc_spinlock_t *lock)
++{
++ struct simplelock *sl = (struct simplelock *)lock;
++
++ DWC_FREE(sl);
++}
++
++void DWC_SPINLOCK(dwc_spinlock_t *lock)
++{
++ simple_lock((struct simplelock *)lock);
++}
++
++void DWC_SPINUNLOCK(dwc_spinlock_t *lock)
++{
++ simple_unlock((struct simplelock *)lock);
++}
++
++void DWC_SPINLOCK_IRQSAVE(dwc_spinlock_t *lock, dwc_irqflags_t *flags)
++{
++ simple_lock((struct simplelock *)lock);
++ *flags = splbio();
++}
++
++void DWC_SPINUNLOCK_IRQRESTORE(dwc_spinlock_t *lock, dwc_irqflags_t flags)
++{
++ splx(flags);
++ simple_unlock((struct simplelock *)lock);
++}
++
++dwc_mutex_t *DWC_MUTEX_ALLOC(void)
++{
++ dwc_mutex_t *mutex = DWC_ALLOC(sizeof(struct lock));
++
++ if (!mutex) {
++ DWC_ERROR("Cannot allocate memory for mutex");
++ return NULL;
++ }
++
++ lockinit((struct lock *)mutex, 0, "dw3mtx", 0, 0);
++ return mutex;
++}
++
++#if (defined(DWC_LINUX) && defined(CONFIG_DEBUG_MUTEXES))
++#else
++void DWC_MUTEX_FREE(dwc_mutex_t *mutex)
++{
++ DWC_FREE(mutex);
++}
++#endif
++
++void DWC_MUTEX_LOCK(dwc_mutex_t *mutex)
++{
++ lockmgr((struct lock *)mutex, LK_EXCLUSIVE, NULL);
++}
++
++int DWC_MUTEX_TRYLOCK(dwc_mutex_t *mutex)
++{
++ int status;
++
++ status = lockmgr((struct lock *)mutex, LK_EXCLUSIVE | LK_NOWAIT, NULL);
++ return status == 0;
++}
++
++void DWC_MUTEX_UNLOCK(dwc_mutex_t *mutex)
++{
++ lockmgr((struct lock *)mutex, LK_RELEASE, NULL);
++}
++
++
++/* Timing */
++
++void DWC_UDELAY(uint32_t usecs)
++{
++ DELAY(usecs);
++}
++
++void DWC_MDELAY(uint32_t msecs)
++{
++ do {
++ DELAY(1000);
++ } while (--msecs);
++}
++
++void DWC_MSLEEP(uint32_t msecs)
++{
++ struct timeval tv;
++
++ tv.tv_sec = msecs / 1000;
++ tv.tv_usec = (msecs - tv.tv_sec * 1000) * 1000;
++ tsleep(&tv, 0, "dw3slp", tvtohz(&tv));
++}
++
++uint32_t DWC_TIME(void)
++{
++ struct timeval tv;
++
++ microuptime(&tv); // or getmicrouptime? (less precise, but faster)
++ return tv.tv_sec * 1000 + tv.tv_usec / 1000;
++}
++
++
++/* Timers */
++
++struct dwc_timer {
++ struct callout t;
++ char *name;
++ dwc_spinlock_t *lock;
++ dwc_timer_callback_t cb;
++ void *data;
++};
++
++dwc_timer_t *DWC_TIMER_ALLOC(char *name, dwc_timer_callback_t cb, void *data)
++{
++ dwc_timer_t *t = DWC_ALLOC(sizeof(*t));
++
++ if (!t) {
++ DWC_ERROR("Cannot allocate memory for timer");
++ return NULL;
++ }
++
++ callout_init(&t->t);
++
++ t->name = DWC_STRDUP(name);
++ if (!t->name) {
++ DWC_ERROR("Cannot allocate memory for timer->name");
++ goto no_name;
++ }
++
++ t->lock = DWC_SPINLOCK_ALLOC();
++ if (!t->lock) {
++ DWC_ERROR("Cannot allocate memory for timer->lock");
++ goto no_lock;
++ }
++
++ t->cb = cb;
++ t->data = data;
++
++ return t;
++
++ no_lock:
++ DWC_FREE(t->name);
++ no_name:
++ DWC_FREE(t);
++
++ return NULL;
++}
++
++void DWC_TIMER_FREE(dwc_timer_t *timer)
++{
++ callout_stop(&timer->t);
++ DWC_SPINLOCK_FREE(timer->lock);
++ DWC_FREE(timer->name);
++ DWC_FREE(timer);
++}
++
++void DWC_TIMER_SCHEDULE(dwc_timer_t *timer, uint32_t time)
++{
++ struct timeval tv;
++
++ tv.tv_sec = time / 1000;
++ tv.tv_usec = (time - tv.tv_sec * 1000) * 1000;
++ callout_reset(&timer->t, tvtohz(&tv), timer->cb, timer->data);
++}
++
++void DWC_TIMER_CANCEL(dwc_timer_t *timer)
++{
++ callout_stop(&timer->t);
++}
++
++
++/* Wait Queues */
++
++struct dwc_waitq {
++ struct simplelock lock;
++ int abort;
++};
++
++dwc_waitq_t *DWC_WAITQ_ALLOC(void)
++{
++ dwc_waitq_t *wq = DWC_ALLOC(sizeof(*wq));
++
++ if (!wq) {
++ DWC_ERROR("Cannot allocate memory for waitqueue");
++ return NULL;
++ }
++
++ simple_lock_init(&wq->lock);
++ wq->abort = 0;
++
++ return wq;
++}
++
++void DWC_WAITQ_FREE(dwc_waitq_t *wq)
++{
++ DWC_FREE(wq);
++}
++
++int32_t DWC_WAITQ_WAIT(dwc_waitq_t *wq, dwc_waitq_condition_t cond, void *data)
++{
++ int ipl;
++ int result = 0;
++
++ simple_lock(&wq->lock);
++ ipl = splbio();
++
++ /* Skip the sleep if already aborted or triggered */
++ if (!wq->abort && !cond(data)) {
++ splx(ipl);
++ result = ltsleep(wq, PCATCH, "dw3wat", 0, &wq->lock); // infinite timeout
++ ipl = splbio();
++ }
++
++ if (result == 0) { // awoken
++ if (wq->abort) {
++ wq->abort = 0;
++ result = -DWC_E_ABORT;
++ } else {
++ result = 0;
++ }
++
++ splx(ipl);
++ simple_unlock(&wq->lock);
++ } else {
++ wq->abort = 0;
++ splx(ipl);
++ simple_unlock(&wq->lock);
++
++ if (result == ERESTART) { // signaled - restart
++ result = -DWC_E_RESTART;
++ } else { // signaled - must be EINTR
++ result = -DWC_E_ABORT;
++ }
++ }
++
++ return result;
++}
++
++int32_t DWC_WAITQ_WAIT_TIMEOUT(dwc_waitq_t *wq, dwc_waitq_condition_t cond,
++ void *data, int32_t msecs)
++{
++ struct timeval tv, tv1, tv2;
++ int ipl;
++ int result = 0;
++
++ tv.tv_sec = msecs / 1000;
++ tv.tv_usec = (msecs - tv.tv_sec * 1000) * 1000;
++
++ simple_lock(&wq->lock);
++ ipl = splbio();
++
++ /* Skip the sleep if already aborted or triggered */
++ if (!wq->abort && !cond(data)) {
++ splx(ipl);
++ getmicrouptime(&tv1);
++ result = ltsleep(wq, PCATCH, "dw3wto", tvtohz(&tv), &wq->lock);
++ getmicrouptime(&tv2);
++ ipl = splbio();
++ }
++
++ if (result == 0) { // awoken
++ if (wq->abort) {
++ wq->abort = 0;
++ splx(ipl);
++ simple_unlock(&wq->lock);
++ result = -DWC_E_ABORT;
++ } else {
++ splx(ipl);
++ simple_unlock(&wq->lock);
++
++ tv2.tv_usec -= tv1.tv_usec;
++ if (tv2.tv_usec < 0) {
++ tv2.tv_usec += 1000000;
++ tv2.tv_sec--;
++ }
++
++ tv2.tv_sec -= tv1.tv_sec;
++ result = tv2.tv_sec * 1000 + tv2.tv_usec / 1000;
++ result = msecs - result;
++ if (result <= 0)
++ result = 1;
++ }
++ } else {
++ wq->abort = 0;
++ splx(ipl);
++ simple_unlock(&wq->lock);
++
++ if (result == ERESTART) { // signaled - restart
++ result = -DWC_E_RESTART;
++
++ } else if (result == EINTR) { // signaled - interrupt
++ result = -DWC_E_ABORT;
++
++ } else { // timed out
++ result = -DWC_E_TIMEOUT;
++ }
++ }
++
++ return result;
++}
++
++void DWC_WAITQ_TRIGGER(dwc_waitq_t *wq)
++{
++ wakeup(wq);
++}
++
++void DWC_WAITQ_ABORT(dwc_waitq_t *wq)
++{
++ int ipl;
++
++ simple_lock(&wq->lock);
++ ipl = splbio();
++ wq->abort = 1;
++ wakeup(wq);
++ splx(ipl);
++ simple_unlock(&wq->lock);
++}
++
++
++/* Threading */
++
++struct dwc_thread {
++ struct proc *proc;
++ int abort;
++};
++
++dwc_thread_t *DWC_THREAD_RUN(dwc_thread_function_t func, char *name, void *data)
++{
++ int retval;
++ dwc_thread_t *thread = DWC_ALLOC(sizeof(*thread));
++
++ if (!thread) {
++ return NULL;
++ }
++
++ thread->abort = 0;
++ retval = kthread_create1((void (*)(void *))func, data, &thread->proc,
++ "%s", name);
++ if (retval) {
++ DWC_FREE(thread);
++ return NULL;
++ }
++
++ return thread;
++}
++
++int DWC_THREAD_STOP(dwc_thread_t *thread)
++{
++ int retval;
++
++ thread->abort = 1;
++ retval = tsleep(&thread->abort, 0, "dw3stp", 60 * hz);
++
++ if (retval == 0) {
++ /* DWC_THREAD_EXIT() will free the thread struct */
++ return 0;
++ }
++
++ /* NOTE: We leak the thread struct if thread doesn't die */
++
++ if (retval == EWOULDBLOCK) {
++ return -DWC_E_TIMEOUT;
++ }
++
++ return -DWC_E_UNKNOWN;
++}
++
++dwc_bool_t DWC_THREAD_SHOULD_STOP(dwc_thread_t *thread)
++{
++ return thread->abort;
++}
++
++void DWC_THREAD_EXIT(dwc_thread_t *thread)
++{
++ wakeup(&thread->abort);
++ DWC_FREE(thread);
++ kthread_exit(0);
++}
++
++/* tasklets
++ - Runs in interrupt context (cannot sleep)
++ - Each tasklet runs on a single CPU
++ - Different tasklets can be running simultaneously on different CPUs
++ [ On NetBSD there is no corresponding mechanism, drivers don't have bottom-
++ halves. So we just call the callback directly from DWC_TASK_SCHEDULE() ]
++ */
++struct dwc_tasklet {
++ dwc_tasklet_callback_t cb;
++ void *data;
++};
++
++static void tasklet_callback(void *data)
++{
++ dwc_tasklet_t *task = (dwc_tasklet_t *)data;
++
++ task->cb(task->data);
++}
++
++dwc_tasklet_t *DWC_TASK_ALLOC(char *name, dwc_tasklet_callback_t cb, void *data)
++{
++ dwc_tasklet_t *task = DWC_ALLOC(sizeof(*task));
++
++ if (task) {
++ task->cb = cb;
++ task->data = data;
++ } else {
++ DWC_ERROR("Cannot allocate memory for tasklet");
++ }
++
++ return task;
++}
++
++void DWC_TASK_FREE(dwc_tasklet_t *task)
++{
++ DWC_FREE(task);
++}
++
++void DWC_TASK_SCHEDULE(dwc_tasklet_t *task)
++{
++ tasklet_callback(task);
++}
++
++
++/* workqueues
++ - Runs in process context (can sleep)
++ */
++typedef struct work_container {
++ dwc_work_callback_t cb;
++ void *data;
++ dwc_workq_t *wq;
++ char *name;
++ int hz;
++ struct work task;
++} work_container_t;
++
++struct dwc_workq {
++ struct workqueue *taskq;
++ dwc_spinlock_t *lock;
++ dwc_waitq_t *waitq;
++ int pending;
++ struct work_container *container;
++};
++
++static void do_work(struct work *task, void *data)
++{
++ dwc_workq_t *wq = (dwc_workq_t *)data;
++ work_container_t *container = wq->container;
++ dwc_irqflags_t flags;
++
++ if (container->hz) {
++ tsleep(container, 0, "dw3wrk", container->hz);
++ }
++
++ container->cb(container->data);
++ DWC_DEBUG("Work done: %s, container=%p", container->name, container);
++
++ DWC_SPINLOCK_IRQSAVE(wq->lock, &flags);
++ if (container->name)
++ DWC_FREE(container->name);
++ DWC_FREE(container);
++ wq->pending--;
++ DWC_SPINUNLOCK_IRQRESTORE(wq->lock, flags);
++ DWC_WAITQ_TRIGGER(wq->waitq);
++}
++
++static int work_done(void *data)
++{
++ dwc_workq_t *workq = (dwc_workq_t *)data;
++
++ return workq->pending == 0;
++}
++
++int DWC_WORKQ_WAIT_WORK_DONE(dwc_workq_t *workq, int timeout)
++{
++ return DWC_WAITQ_WAIT_TIMEOUT(workq->waitq, work_done, workq, timeout);
++}
++
++dwc_workq_t *DWC_WORKQ_ALLOC(char *name)
++{
++ int result;
++ dwc_workq_t *wq = DWC_ALLOC(sizeof(*wq));
++
++ if (!wq) {
++ DWC_ERROR("Cannot allocate memory for workqueue");
++ return NULL;
++ }
++
++ result = workqueue_create(&wq->taskq, name, do_work, wq, 0 /*PWAIT*/,
++ IPL_BIO, 0);
++ if (result) {
++ DWC_ERROR("Cannot create workqueue");
++ goto no_taskq;
++ }
++
++ wq->pending = 0;
++
++ wq->lock = DWC_SPINLOCK_ALLOC();
++ if (!wq->lock) {
++ DWC_ERROR("Cannot allocate memory for spinlock");
++ goto no_lock;
++ }
++
++ wq->waitq = DWC_WAITQ_ALLOC();
++ if (!wq->waitq) {
++ DWC_ERROR("Cannot allocate memory for waitqueue");
++ goto no_waitq;
++ }
++
++ return wq;
++
++ no_waitq:
++ DWC_SPINLOCK_FREE(wq->lock);
++ no_lock:
++ workqueue_destroy(wq->taskq);
++ no_taskq:
++ DWC_FREE(wq);
++
++ return NULL;
++}
++
++void DWC_WORKQ_FREE(dwc_workq_t *wq)
++{
++#ifdef DEBUG
++ dwc_irqflags_t flags;
++
++ DWC_SPINLOCK_IRQSAVE(wq->lock, &flags);
++
++ if (wq->pending != 0) {
++ struct work_container *container = wq->container;
++
++ DWC_ERROR("Destroying work queue with pending work");
++
++ if (container && container->name) {
++ DWC_ERROR("Work %s still pending", container->name);
++ }
++ }
++
++ DWC_SPINUNLOCK_IRQRESTORE(wq->lock, flags);
++#endif
++ DWC_WAITQ_FREE(wq->waitq);
++ DWC_SPINLOCK_FREE(wq->lock);
++ workqueue_destroy(wq->taskq);
++ DWC_FREE(wq);
++}
++
++void DWC_WORKQ_SCHEDULE(dwc_workq_t *wq, dwc_work_callback_t cb, void *data,
++ char *format, ...)
++{
++ dwc_irqflags_t flags;
++ work_container_t *container;
++ static char name[128];
++ va_list args;
++
++ va_start(args, format);
++ DWC_VSNPRINTF(name, 128, format, args);
++ va_end(args);
++
++ DWC_SPINLOCK_IRQSAVE(wq->lock, &flags);
++ wq->pending++;
++ DWC_SPINUNLOCK_IRQRESTORE(wq->lock, flags);
++ DWC_WAITQ_TRIGGER(wq->waitq);
++
++ container = DWC_ALLOC_ATOMIC(sizeof(*container));
++ if (!container) {
++ DWC_ERROR("Cannot allocate memory for container");
++ return;
++ }
++
++ container->name = DWC_STRDUP(name);
++ if (!container->name) {
++ DWC_ERROR("Cannot allocate memory for container->name");
++ DWC_FREE(container);
++ return;
++ }
++
++ container->cb = cb;
++ container->data = data;
++ container->wq = wq;
++ container->hz = 0;
++ wq->container = container;
++
++ DWC_DEBUG("Queueing work: %s, container=%p", container->name, container);
++ workqueue_enqueue(wq->taskq, &container->task);
++}
++
++void DWC_WORKQ_SCHEDULE_DELAYED(dwc_workq_t *wq, dwc_work_callback_t cb,
++ void *data, uint32_t time, char *format, ...)
++{
++ dwc_irqflags_t flags;
++ work_container_t *container;
++ static char name[128];
++ struct timeval tv;
++ va_list args;
++
++ va_start(args, format);
++ DWC_VSNPRINTF(name, 128, format, args);
++ va_end(args);
++
++ DWC_SPINLOCK_IRQSAVE(wq->lock, &flags);
++ wq->pending++;
++ DWC_SPINUNLOCK_IRQRESTORE(wq->lock, flags);
++ DWC_WAITQ_TRIGGER(wq->waitq);
++
++ container = DWC_ALLOC_ATOMIC(sizeof(*container));
++ if (!container) {
++ DWC_ERROR("Cannot allocate memory for container");
++ return;
++ }
++
++ container->name = DWC_STRDUP(name);
++ if (!container->name) {
++ DWC_ERROR("Cannot allocate memory for container->name");
++ DWC_FREE(container);
++ return;
++ }
++
++ container->cb = cb;
++ container->data = data;
++ container->wq = wq;
++ tv.tv_sec = time / 1000;
++ tv.tv_usec = (time - tv.tv_sec * 1000) * 1000;
++ container->hz = tvtohz(&tv);
++ wq->container = container;
++
++ DWC_DEBUG("Queueing work: %s, container=%p", container->name, container);
++ workqueue_enqueue(wq->taskq, &container->task);
++}
++
++int DWC_WORKQ_PENDING(dwc_workq_t *wq)
++{
++ return wq->pending;
++}
+diff -urN linux-3.10/drivers/usb/host/dwc_common_port/dwc_crypto.c linux-rpi-3.10.y/drivers/usb/host/dwc_common_port/dwc_crypto.c
+--- linux-3.10/drivers/usb/host/dwc_common_port/dwc_crypto.c 1970-01-01 01:00:00.000000000 +0100
++++ linux-rpi-3.10.y/drivers/usb/host/dwc_common_port/dwc_crypto.c 2013-07-06 15:25:50.000000000 +0100
+@@ -0,0 +1,308 @@
++/* =========================================================================
++ * $File: //dwh/usb_iip/dev/software/dwc_common_port_2/dwc_crypto.c $
++ * $Revision: #5 $
++ * $Date: 2010/09/28 $
++ * $Change: 1596182 $
++ *
++ * Synopsys Portability Library Software and documentation
++ * (hereinafter, "Software") is an Unsupported proprietary work of
++ * Synopsys, Inc. unless otherwise expressly agreed to in writing
++ * between Synopsys and you.
++ *
++ * The Software IS NOT an item of Licensed Software or Licensed Product
++ * under any End User Software License Agreement or Agreement for
++ * Licensed Product with Synopsys or any supplement thereto. You are
++ * permitted to use and redistribute this Software in source and binary
++ * forms, with or without modification, provided that redistributions
++ * of source code must retain this notice. You may not view, use,
++ * disclose, copy or distribute this file or any information contained
++ * herein except pursuant to this license grant from Synopsys. If you
++ * do not agree with this notice, including the disclaimer below, then
++ * you are not authorized to use the Software.
++ *
++ * THIS SOFTWARE IS BEING DISTRIBUTED BY SYNOPSYS SOLELY ON AN "AS IS"
++ * BASIS AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT
++ * LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS
++ * FOR A PARTICULAR PURPOSE ARE HEREBY DISCLAIMED. IN NO EVENT SHALL
++ * SYNOPSYS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL,
++ * EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO,
++ * PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR
++ * PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY
++ * OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
++ * (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE
++ * USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH
++ * DAMAGE.
++ * ========================================================================= */
++
++/** @file
++ * This file contains the WUSB cryptographic routines.
++ */
++
++#ifdef DWC_CRYPTOLIB
++
++#include "dwc_crypto.h"
++#include "usb.h"
++
++#ifdef DEBUG
++static inline void dump_bytes(char *name, uint8_t *bytes, int len)
++{
++ int i;
++ DWC_PRINTF("%s: ", name);
++ for (i=0; i<len; i++) {
++ DWC_PRINTF("%02x ", bytes[i]);
++ }
++ DWC_PRINTF("\n");
++}
++#else
++#define dump_bytes(x...)
++#endif
++
++/* Display a block */
++void show_block(const u8 *blk, const char *prefix, const char *suffix, int a)
++{
++#ifdef DWC_DEBUG_CRYPTO
++ int i, blksize = 16;
++
++ DWC_DEBUG("%s", prefix);
++
++ if (suffix == NULL) {
++ suffix = "\n";
++ blksize = a;
++ }
++
++ for (i = 0; i < blksize; i++)
++ DWC_PRINT("%02x%s", *blk++, ((i & 3) == 3) ? " " : " ");
++ DWC_PRINT(suffix);
++#endif
++}
++
++/**
++ * Encrypts an array of bytes using the AES encryption engine.
++ * If <code>dst</code> == <code>src</code>, then the bytes will be encrypted
++ * in-place.
++ *
++ * @return 0 on success, negative error code on error.
++ */
++int dwc_wusb_aes_encrypt(u8 *src, u8 *key, u8 *dst)
++{
++ u8 block_t[16];
++ DWC_MEMSET(block_t, 0, 16);
++
++ return DWC_AES_CBC(src, 16, key, 16, block_t, dst);
++}
++
++/**
++ * The CCM-MAC-FUNCTION described in section 6.5 of the WUSB spec.
++ * This function takes a data string and returns the encrypted CBC
++ * Counter-mode MIC.
++ *
++ * @param key The 128-bit symmetric key.
++ * @param nonce The CCM nonce.
++ * @param label The unique 14-byte ASCII text label.
++ * @param bytes The byte array to be encrypted.
++ * @param len Length of the byte array.
++ * @param result Byte array to receive the 8-byte encrypted MIC.
++ */
++void dwc_wusb_cmf(u8 *key, u8 *nonce,
++ char *label, u8 *bytes, int len, u8 *result)
++{
++ u8 block_m[16];
++ u8 block_x[16];
++ u8 block_t[8];
++ int idx, blkNum;
++ u16 la = (u16)(len + 14);
++
++ /* Set the AES-128 key */
++ //dwc_aes_setkey(tfm, key, 16);
++
++ /* Fill block B0 from flags = 0x59, N, and l(m) = 0 */
++ block_m[0] = 0x59;
++ for (idx = 0; idx < 13; idx++)
++ block_m[idx + 1] = nonce[idx];
++ block_m[14] = 0;
++ block_m[15] = 0;
++
++ /* Produce the CBC IV */
++ dwc_wusb_aes_encrypt(block_m, key, block_x);
++ show_block(block_m, "CBC IV in: ", "\n", 0);
++ show_block(block_x, "CBC IV out:", "\n", 0);
++
++ /* Fill block B1 from l(a) = Blen + 14, and A */
++ block_x[0] ^= (u8)(la >> 8);
++ block_x[1] ^= (u8)la;
++ for (idx = 0; idx < 14; idx++)
++ block_x[idx + 2] ^= label[idx];
++ show_block(block_x, "After xor: ", "b1\n", 16);
++
++ dwc_wusb_aes_encrypt(block_x, key, block_x);
++ show_block(block_x, "After AES: ", "b1\n", 16);
++
++ idx = 0;
++ blkNum = 0;
++
++ /* Fill remaining blocks with B */
++ while (len-- > 0) {
++ block_x[idx] ^= *bytes++;
++ if (++idx >= 16) {
++ idx = 0;
++ show_block(block_x, "After xor: ", "\n", blkNum);
++ dwc_wusb_aes_encrypt(block_x, key, block_x);
++ show_block(block_x, "After AES: ", "\n", blkNum);
++ blkNum++;
++ }
++ }
++
++ /* Handle partial last block */
++ if (idx > 0) {
++ show_block(block_x, "After xor: ", "\n", blkNum);
++ dwc_wusb_aes_encrypt(block_x, key, block_x);
++ show_block(block_x, "After AES: ", "\n", blkNum);
++ }
++
++ /* Save the MIC tag */
++ DWC_MEMCPY(block_t, block_x, 8);
++ show_block(block_t, "MIC tag : ", NULL, 8);
++
++ /* Fill block A0 from flags = 0x01, N, and counter = 0 */
++ block_m[0] = 0x01;
++ block_m[14] = 0;
++ block_m[15] = 0;
++
++ /* Encrypt the counter */
++ dwc_wusb_aes_encrypt(block_m, key, block_x);
++ show_block(block_x, "CTR[MIC] : ", NULL, 8);
++
++ /* XOR with MIC tag */
++ for (idx = 0; idx < 8; idx++) {
++ block_t[idx] ^= block_x[idx];
++ }
++
++ /* Return result to caller */
++ DWC_MEMCPY(result, block_t, 8);
++ show_block(result, "CCM-MIC : ", NULL, 8);
++
++}
++
++/**
++ * The PRF function described in section 6.5 of the WUSB spec. This function
++ * concatenates MIC values returned from dwc_cmf() to create a value of
++ * the requested length.
++ *
++ * @param prf_len Length of the PRF function in bits (64, 128, or 256).
++ * @param key, nonce, label, bytes, len Same as for dwc_cmf().
++ * @param result Byte array to receive the result.
++ */
++void dwc_wusb_prf(int prf_len, u8 *key,
++ u8 *nonce, char *label, u8 *bytes, int len, u8 *result)
++{
++ int i;
++
++ nonce[0] = 0;
++ for (i = 0; i < prf_len >> 6; i++, nonce[0]++) {
++ dwc_wusb_cmf(key, nonce, label, bytes, len, result);
++ result += 8;
++ }
++}
++
++/**
++ * Fills in CCM Nonce per the WUSB spec.
++ *
++ * @param[in] haddr Host address.
++ * @param[in] daddr Device address.
++ * @param[in] tkid Session Key(PTK) identifier.
++ * @param[out] nonce Pointer to where the CCM Nonce output is to be written.
++ */
++void dwc_wusb_fill_ccm_nonce(uint16_t haddr, uint16_t daddr, uint8_t *tkid,
++ uint8_t *nonce)
++{
++
++ DWC_DEBUG("%s %x %x\n", __func__, daddr, haddr);
++
++ DWC_MEMSET(&nonce[0], 0, 16);
++
++ DWC_MEMCPY(&nonce[6], tkid, 3);
++ nonce[9] = daddr & 0xFF;
++ nonce[10] = (daddr >> 8) & 0xFF;
++ nonce[11] = haddr & 0xFF;
++ nonce[12] = (haddr >> 8) & 0xFF;
++
++ dump_bytes("CCM nonce", nonce, 16);
++}
++
++/**
++ * Generates a 16-byte cryptographic-grade random number for the Host/Device
++ * Nonce.
++ */
++void dwc_wusb_gen_nonce(uint16_t addr, uint8_t *nonce)
++{
++ uint8_t inonce[16];
++ uint32_t temp[4];
++
++ /* Fill in the Nonce */
++ DWC_MEMSET(&inonce[0], 0, sizeof(inonce));
++ inonce[9] = addr & 0xFF;
++ inonce[10] = (addr >> 8) & 0xFF;
++ inonce[11] = inonce[9];
++ inonce[12] = inonce[10];
++
++ /* Collect "randomness samples" */
++ DWC_RANDOM_BYTES((uint8_t *)temp, 16);
++
++ dwc_wusb_prf_128((uint8_t *)temp, nonce,
++ "Random Numbers", (uint8_t *)temp, sizeof(temp),
++ nonce);
++}
++
++/**
++ * Generates the Session Key (PTK) and Key Confirmation Key (KCK) per the
++ * WUSB spec.
++ *
++ * @param[in] ccm_nonce Pointer to CCM Nonce.
++ * @param[in] mk Master Key to derive the session from
++ * @param[in] hnonce Pointer to Host Nonce.
++ * @param[in] dnonce Pointer to Device Nonce.
++ * @param[out] kck Pointer to where the KCK output is to be written.
++ * @param[out] ptk Pointer to where the PTK output is to be written.
++ */
++void dwc_wusb_gen_key(uint8_t *ccm_nonce, uint8_t *mk, uint8_t *hnonce,
++ uint8_t *dnonce, uint8_t *kck, uint8_t *ptk)
++{
++ uint8_t idata[32];
++ uint8_t odata[32];
++
++ dump_bytes("ck", mk, 16);
++ dump_bytes("hnonce", hnonce, 16);
++ dump_bytes("dnonce", dnonce, 16);
++
++ /* The data is the HNonce and DNonce concatenated */
++ DWC_MEMCPY(&idata[0], hnonce, 16);
++ DWC_MEMCPY(&idata[16], dnonce, 16);
++
++ dwc_wusb_prf_256(mk, ccm_nonce, "Pair-wise keys", idata, 32, odata);
++
++ /* Low 16 bytes of the result is the KCK, high 16 is the PTK */
++ DWC_MEMCPY(kck, &odata[0], 16);
++ DWC_MEMCPY(ptk, &odata[16], 16);
++
++ dump_bytes("kck", kck, 16);
++ dump_bytes("ptk", ptk, 16);
++}
++
++/**
++ * Generates the Message Integrity Code over the Handshake data per the
++ * WUSB spec.
++ *
++ * @param ccm_nonce Pointer to CCM Nonce.
++ * @param kck Pointer to Key Confirmation Key.
++ * @param data Pointer to Handshake data to be checked.
++ * @param mic Pointer to where the MIC output is to be written.
++ */
++void dwc_wusb_gen_mic(uint8_t *ccm_nonce, uint8_t *kck,
++ uint8_t *data, uint8_t *mic)
++{
++
++ dwc_wusb_prf_64(kck, ccm_nonce, "out-of-bandMIC",
++ data, WUSB_HANDSHAKE_LEN_FOR_MIC, mic);
++}
++
++#endif /* DWC_CRYPTOLIB */
+diff -urN linux-3.10/drivers/usb/host/dwc_common_port/dwc_crypto.h linux-rpi-3.10.y/drivers/usb/host/dwc_common_port/dwc_crypto.h
+--- linux-3.10/drivers/usb/host/dwc_common_port/dwc_crypto.h 1970-01-01 01:00:00.000000000 +0100
++++ linux-rpi-3.10.y/drivers/usb/host/dwc_common_port/dwc_crypto.h 2013-07-06 15:25:50.000000000 +0100
+@@ -0,0 +1,111 @@
++/* =========================================================================
++ * $File: //dwh/usb_iip/dev/software/dwc_common_port_2/dwc_crypto.h $
++ * $Revision: #3 $
++ * $Date: 2010/09/28 $
++ * $Change: 1596182 $
++ *
++ * Synopsys Portability Library Software and documentation
++ * (hereinafter, "Software") is an Unsupported proprietary work of
++ * Synopsys, Inc. unless otherwise expressly agreed to in writing
++ * between Synopsys and you.
++ *
++ * The Software IS NOT an item of Licensed Software or Licensed Product
++ * under any End User Software License Agreement or Agreement for
++ * Licensed Product with Synopsys or any supplement thereto. You are
++ * permitted to use and redistribute this Software in source and binary
++ * forms, with or without modification, provided that redistributions
++ * of source code must retain this notice. You may not view, use,
++ * disclose, copy or distribute this file or any information contained
++ * herein except pursuant to this license grant from Synopsys. If you
++ * do not agree with this notice, including the disclaimer below, then
++ * you are not authorized to use the Software.
++ *
++ * THIS SOFTWARE IS BEING DISTRIBUTED BY SYNOPSYS SOLELY ON AN "AS IS"
++ * BASIS AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT
++ * LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS
++ * FOR A PARTICULAR PURPOSE ARE HEREBY DISCLAIMED. IN NO EVENT SHALL
++ * SYNOPSYS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL,
++ * EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO,
++ * PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR
++ * PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY
++ * OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
++ * (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE
++ * USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH
++ * DAMAGE.
++ * ========================================================================= */
++
++#ifndef _DWC_CRYPTO_H_
++#define _DWC_CRYPTO_H_
++
++#ifdef __cplusplus
++extern "C" {
++#endif
++
++/** @file
++ *
++ * This file contains declarations for the WUSB Cryptographic routines as
++ * defined in the WUSB spec. They are only to be used internally by the DWC UWB
++ * modules.
++ */
++
++#include "dwc_os.h"
++
++int dwc_wusb_aes_encrypt(u8 *src, u8 *key, u8 *dst);
++
++void dwc_wusb_cmf(u8 *key, u8 *nonce,
++ char *label, u8 *bytes, int len, u8 *result);
++void dwc_wusb_prf(int prf_len, u8 *key,
++ u8 *nonce, char *label, u8 *bytes, int len, u8 *result);
++
++/**
++ * The PRF-64 function described in section 6.5 of the WUSB spec.
++ *
++ * @param key, nonce, label, bytes, len, result Same as for dwc_prf().
++ */
++static inline void dwc_wusb_prf_64(u8 *key, u8 *nonce,
++ char *label, u8 *bytes, int len, u8 *result)
++{
++ dwc_wusb_prf(64, key, nonce, label, bytes, len, result);
++}
++
++/**
++ * The PRF-128 function described in section 6.5 of the WUSB spec.
++ *
++ * @param key, nonce, label, bytes, len, result Same as for dwc_prf().
++ */
++static inline void dwc_wusb_prf_128(u8 *key, u8 *nonce,
++ char *label, u8 *bytes, int len, u8 *result)
++{
++ dwc_wusb_prf(128, key, nonce, label, bytes, len, result);
++}
++
++/**
++ * The PRF-256 function described in section 6.5 of the WUSB spec.
++ *
++ * @param key, nonce, label, bytes, len, result Same as for dwc_prf().
++ */
++static inline void dwc_wusb_prf_256(u8 *key, u8 *nonce,
++ char *label, u8 *bytes, int len, u8 *result)
++{
++ dwc_wusb_prf(256, key, nonce, label, bytes, len, result);
++}
++
++
++void dwc_wusb_fill_ccm_nonce(uint16_t haddr, uint16_t daddr, uint8_t *tkid,
++ uint8_t *nonce);
++void dwc_wusb_gen_nonce(uint16_t addr,
++ uint8_t *nonce);
++
++void dwc_wusb_gen_key(uint8_t *ccm_nonce, uint8_t *mk,
++ uint8_t *hnonce, uint8_t *dnonce,
++ uint8_t *kck, uint8_t *ptk);
++
++
++void dwc_wusb_gen_mic(uint8_t *ccm_nonce, uint8_t
++ *kck, uint8_t *data, uint8_t *mic);
++
++#ifdef __cplusplus
++}
++#endif
++
++#endif /* _DWC_CRYPTO_H_ */
+diff -urN linux-3.10/drivers/usb/host/dwc_common_port/dwc_dh.c linux-rpi-3.10.y/drivers/usb/host/dwc_common_port/dwc_dh.c
+--- linux-3.10/drivers/usb/host/dwc_common_port/dwc_dh.c 1970-01-01 01:00:00.000000000 +0100
++++ linux-rpi-3.10.y/drivers/usb/host/dwc_common_port/dwc_dh.c 2013-07-06 15:25:50.000000000 +0100
+@@ -0,0 +1,291 @@
++/* =========================================================================
++ * $File: //dwh/usb_iip/dev/software/dwc_common_port_2/dwc_dh.c $
++ * $Revision: #3 $
++ * $Date: 2010/09/28 $
++ * $Change: 1596182 $
++ *
++ * Synopsys Portability Library Software and documentation
++ * (hereinafter, "Software") is an Unsupported proprietary work of
++ * Synopsys, Inc. unless otherwise expressly agreed to in writing
++ * between Synopsys and you.
++ *
++ * The Software IS NOT an item of Licensed Software or Licensed Product
++ * under any End User Software License Agreement or Agreement for
++ * Licensed Product with Synopsys or any supplement thereto. You are
++ * permitted to use and redistribute this Software in source and binary
++ * forms, with or without modification, provided that redistributions
++ * of source code must retain this notice. You may not view, use,
++ * disclose, copy or distribute this file or any information contained
++ * herein except pursuant to this license grant from Synopsys. If you
++ * do not agree with this notice, including the disclaimer below, then
++ * you are not authorized to use the Software.
++ *
++ * THIS SOFTWARE IS BEING DISTRIBUTED BY SYNOPSYS SOLELY ON AN "AS IS"
++ * BASIS AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT
++ * LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS
++ * FOR A PARTICULAR PURPOSE ARE HEREBY DISCLAIMED. IN NO EVENT SHALL
++ * SYNOPSYS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL,
++ * EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO,
++ * PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR
++ * PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY
++ * OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
++ * (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE
++ * USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH
++ * DAMAGE.
++ * ========================================================================= */
++#ifdef DWC_CRYPTOLIB
++
++#ifndef CONFIG_MACH_IPMATE
++
++#include "dwc_dh.h"
++#include "dwc_modpow.h"
++
++#ifdef DEBUG
++/* This function prints out a buffer in the format described in the Association
++ * Model specification. */
++static void dh_dump(char *str, void *_num, int len)
++{
++ uint8_t *num = _num;
++ int i;
++ DWC_PRINTF("%s\n", str);
++ for (i = 0; i < len; i ++) {
++ DWC_PRINTF("%02x", num[i]);
++ if (((i + 1) % 2) == 0) DWC_PRINTF(" ");
++ if (((i + 1) % 26) == 0) DWC_PRINTF("\n");
++ }
++
++ DWC_PRINTF("\n");
++}
++#else
++#define dh_dump(_x...) do {; } while(0)
++#endif
++
++/* Constant g value */
++static __u32 dh_g[] = {
++ 0x02000000,
++};
++
++/* Constant p value */
++static __u32 dh_p[] = {
++ 0xFFFFFFFF, 0xFFFFFFFF, 0xA2DA0FC9, 0x34C26821, 0x8B62C6C4, 0xD11CDC80, 0x084E0229, 0x74CC678A,
++ 0xA6BE0B02, 0x229B133B, 0x79084A51, 0xDD04348E, 0xB31995EF, 0x1B433ACD, 0x6D0A2B30, 0x37145FF2,
++ 0x6D35E14F, 0x45C2516D, 0x76B585E4, 0xC67E5E62, 0xE9424CF4, 0x6BED37A6, 0xB65CFF0B, 0xEDB706F4,
++ 0xFB6B38EE, 0xA59F895A, 0x11249FAE, 0xE61F4B7C, 0x51662849, 0x3D5BE4EC, 0xB87C00C2, 0x05BF63A1,
++ 0x3648DA98, 0x9AD3551C, 0xA83F1669, 0x5FCF24FD, 0x235D6583, 0x96ADA3DC, 0x56F3621C, 0xBB528520,
++ 0x0729D59E, 0x6D969670, 0x4E350C67, 0x0498BC4A, 0x086C74F1, 0x7C2118CA, 0x465E9032, 0x3BCE362E,
++ 0x2C779EE3, 0x03860E18, 0xA283279B, 0x8FA207EC, 0xF05DC5B5, 0xC9524C6F, 0xF6CB2BDE, 0x18175895,
++ 0x7C499539, 0xE56A95EA, 0x1826D215, 0x1005FA98, 0x5A8E7215, 0x2DC4AA8A, 0x0D1733AD, 0x337A5004,
++ 0xAB2155A8, 0x64BA1CDF, 0x0485FBEC, 0x0AEFDB58, 0x5771EA8A, 0x7D0C065D, 0x850F97B3, 0xC7E4E1A6,
++ 0x8CAEF5AB, 0xD73309DB, 0xE0948C1E, 0x9D61254A, 0x26D2E3CE, 0x6BEED21A, 0x06FA2FF1, 0x64088AD9,
++ 0x730276D8, 0x646AC83E, 0x182B1F52, 0x0C207B17, 0x5717E1BB, 0x6C5D617A, 0xC0880977, 0xE246D9BA,
++ 0xA04FE208, 0x31ABE574, 0xFC5BDB43, 0x8E10FDE0, 0x20D1824B, 0xCAD23AA9, 0xFFFFFFFF, 0xFFFFFFFF,
++};
++
++static void dh_swap_bytes(void *_in, void *_out, uint32_t len)
++{
++ uint8_t *in = _in;
++ uint8_t *out = _out;
++ int i;
++ for (i=0; i<len; i++) {
++ out[i] = in[len-1-i];
++ }
++}
++
++/* Computes the modular exponentiation (num^exp % mod). num, exp, and mod are
++ * big endian numbers of size len, in bytes. Each len value must be a multiple
++ * of 4. */
++int dwc_dh_modpow(void *mem_ctx, void *num, uint32_t num_len,
++ void *exp, uint32_t exp_len,
++ void *mod, uint32_t mod_len,
++ void *out)
++{
++ /* modpow() takes little endian numbers. AM uses big-endian. This
++ * function swaps bytes of numbers before passing onto modpow. */
++
++ int retval = 0;
++ uint32_t *result;
++
++ uint32_t *bignum_num = dwc_alloc(mem_ctx, num_len + 4);
++ uint32_t *bignum_exp = dwc_alloc(mem_ctx, exp_len + 4);
++ uint32_t *bignum_mod = dwc_alloc(mem_ctx, mod_len + 4);
++
++ dh_swap_bytes(num, &bignum_num[1], num_len);
++ bignum_num[0] = num_len / 4;
++
++ dh_swap_bytes(exp, &bignum_exp[1], exp_len);
++ bignum_exp[0] = exp_len / 4;
++
++ dh_swap_bytes(mod, &bignum_mod[1], mod_len);
++ bignum_mod[0] = mod_len / 4;
++
++ result = dwc_modpow(mem_ctx, bignum_num, bignum_exp, bignum_mod);
++ if (!result) {
++ retval = -1;
++ goto dh_modpow_nomem;
++ }
++
++ dh_swap_bytes(&result[1], out, result[0] * 4);
++ dwc_free(mem_ctx, result);
++
++ dh_modpow_nomem:
++ dwc_free(mem_ctx, bignum_num);
++ dwc_free(mem_ctx, bignum_exp);
++ dwc_free(mem_ctx, bignum_mod);
++ return retval;
++}
++
++
++int dwc_dh_pk(void *mem_ctx, uint8_t nd, uint8_t *exp, uint8_t *pk, uint8_t *hash)
++{
++ int retval;
++ uint8_t m3[385];
++
++#ifndef DH_TEST_VECTORS
++ DWC_RANDOM_BYTES(exp, 32);
++#endif
++
++ /* Compute the pkd */
++ if ((retval = dwc_dh_modpow(mem_ctx, dh_g, 4,
++ exp, 32,
++ dh_p, 384, pk))) {
++ return retval;
++ }
++
++ m3[384] = nd;
++ DWC_MEMCPY(&m3[0], pk, 384);
++ DWC_SHA256(m3, 385, hash);
++
++ dh_dump("PK", pk, 384);
++ dh_dump("SHA-256(M3)", hash, 32);
++ return 0;
++}
++
++int dwc_dh_derive_keys(void *mem_ctx, uint8_t nd, uint8_t *pkh, uint8_t *pkd,
++ uint8_t *exp, int is_host,
++ char *dd, uint8_t *ck, uint8_t *kdk)
++{
++ int retval;
++ uint8_t mv[784];
++ uint8_t sha_result[32];
++ uint8_t dhkey[384];
++ uint8_t shared_secret[384];
++ char *message;
++ uint32_t vd;
++
++ uint8_t *pk;
++
++ if (is_host) {
++ pk = pkd;
++ }
++ else {
++ pk = pkh;
++ }
++
++ if ((retval = dwc_dh_modpow(mem_ctx, pk, 384,
++ exp, 32,
++ dh_p, 384, shared_secret))) {
++ return retval;
++ }
++ dh_dump("Shared Secret", shared_secret, 384);
++
++ DWC_SHA256(shared_secret, 384, dhkey);
++ dh_dump("DHKEY", dhkey, 384);
++
++ DWC_MEMCPY(&mv[0], pkd, 384);
++ DWC_MEMCPY(&mv[384], pkh, 384);
++ DWC_MEMCPY(&mv[768], "displayed digest", 16);
++ dh_dump("MV", mv, 784);
++
++ DWC_SHA256(mv, 784, sha_result);
++ dh_dump("SHA-256(MV)", sha_result, 32);
++ dh_dump("First 32-bits of SHA-256(MV)", sha_result, 4);
++
++ dh_swap_bytes(sha_result, &vd, 4);
++#ifdef DEBUG
++ DWC_PRINTF("Vd (decimal) = %d\n", vd);
++#endif
++
++ switch (nd) {
++ case 2:
++ vd = vd % 100;
++ DWC_SPRINTF(dd, "%02d", vd);
++ break;
++ case 3:
++ vd = vd % 1000;
++ DWC_SPRINTF(dd, "%03d", vd);
++ break;
++ case 4:
++ vd = vd % 10000;
++ DWC_SPRINTF(dd, "%04d", vd);
++ break;
++ }
++#ifdef DEBUG
++ DWC_PRINTF("Display Digits: %s\n", dd);
++#endif
++
++ message = "connection key";
++ DWC_HMAC_SHA256(message, DWC_STRLEN(message), dhkey, 32, sha_result);
++ dh_dump("HMAC(SHA-256, DHKey, connection key)", sha_result, 32);
++ DWC_MEMCPY(ck, sha_result, 16);
++
++ message = "key derivation key";
++ DWC_HMAC_SHA256(message, DWC_STRLEN(message), dhkey, 32, sha_result);
++ dh_dump("HMAC(SHA-256, DHKey, key derivation key)", sha_result, 32);
++ DWC_MEMCPY(kdk, sha_result, 32);
++
++ return 0;
++}
++
++
++#ifdef DH_TEST_VECTORS
++
++static __u8 dh_a[] = {
++ 0x44, 0x00, 0x51, 0xd6,
++ 0xf0, 0xb5, 0x5e, 0xa9,
++ 0x67, 0xab, 0x31, 0xc6,
++ 0x8a, 0x8b, 0x5e, 0x37,
++ 0xd9, 0x10, 0xda, 0xe0,
++ 0xe2, 0xd4, 0x59, 0xa4,
++ 0x86, 0x45, 0x9c, 0xaa,
++ 0xdf, 0x36, 0x75, 0x16,
++};
++
++static __u8 dh_b[] = {
++ 0x5d, 0xae, 0xc7, 0x86,
++ 0x79, 0x80, 0xa3, 0x24,
++ 0x8c, 0xe3, 0x57, 0x8f,
++ 0xc7, 0x5f, 0x1b, 0x0f,
++ 0x2d, 0xf8, 0x9d, 0x30,
++ 0x6f, 0xa4, 0x52, 0xcd,
++ 0xe0, 0x7a, 0x04, 0x8a,
++ 0xde, 0xd9, 0x26, 0x56,
++};
++
++void dwc_run_dh_test_vectors(void *mem_ctx)
++{
++ uint8_t pkd[384];
++ uint8_t pkh[384];
++ uint8_t hashd[32];
++ uint8_t hashh[32];
++ uint8_t ck[16];
++ uint8_t kdk[32];
++ char dd[5];
++
++ DWC_PRINTF("\n\n\nDH_TEST_VECTORS\n\n");
++
++ /* compute the PKd and SHA-256(PKd || Nd) */
++ DWC_PRINTF("Computing PKd\n");
++ dwc_dh_pk(mem_ctx, 2, dh_a, pkd, hashd);
++
++ /* compute the PKd and SHA-256(PKh || Nd) */
++ DWC_PRINTF("Computing PKh\n");
++ dwc_dh_pk(mem_ctx, 2, dh_b, pkh, hashh);
++
++ /* compute the dhkey */
++ dwc_dh_derive_keys(mem_ctx, 2, pkh, pkd, dh_a, 0, dd, ck, kdk);
++}
++#endif /* DH_TEST_VECTORS */
++
++#endif /* !CONFIG_MACH_IPMATE */
++
++#endif /* DWC_CRYPTOLIB */
+diff -urN linux-3.10/drivers/usb/host/dwc_common_port/dwc_dh.h linux-rpi-3.10.y/drivers/usb/host/dwc_common_port/dwc_dh.h
+--- linux-3.10/drivers/usb/host/dwc_common_port/dwc_dh.h 1970-01-01 01:00:00.000000000 +0100
++++ linux-rpi-3.10.y/drivers/usb/host/dwc_common_port/dwc_dh.h 2013-07-06 15:25:50.000000000 +0100
+@@ -0,0 +1,106 @@
++/* =========================================================================
++ * $File: //dwh/usb_iip/dev/software/dwc_common_port_2/dwc_dh.h $
++ * $Revision: #4 $
++ * $Date: 2010/09/28 $
++ * $Change: 1596182 $
++ *
++ * Synopsys Portability Library Software and documentation
++ * (hereinafter, "Software") is an Unsupported proprietary work of
++ * Synopsys, Inc. unless otherwise expressly agreed to in writing
++ * between Synopsys and you.
++ *
++ * The Software IS NOT an item of Licensed Software or Licensed Product
++ * under any End User Software License Agreement or Agreement for
++ * Licensed Product with Synopsys or any supplement thereto. You are
++ * permitted to use and redistribute this Software in source and binary
++ * forms, with or without modification, provided that redistributions
++ * of source code must retain this notice. You may not view, use,
++ * disclose, copy or distribute this file or any information contained
++ * herein except pursuant to this license grant from Synopsys. If you
++ * do not agree with this notice, including the disclaimer below, then
++ * you are not authorized to use the Software.
++ *
++ * THIS SOFTWARE IS BEING DISTRIBUTED BY SYNOPSYS SOLELY ON AN "AS IS"
++ * BASIS AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT
++ * LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS
++ * FOR A PARTICULAR PURPOSE ARE HEREBY DISCLAIMED. IN NO EVENT SHALL
++ * SYNOPSYS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL,
++ * EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO,
++ * PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR
++ * PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY
++ * OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
++ * (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE
++ * USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH
++ * DAMAGE.
++ * ========================================================================= */
++#ifndef _DWC_DH_H_
++#define _DWC_DH_H_
++
++#ifdef __cplusplus
++extern "C" {
++#endif
++
++#include "dwc_os.h"
++
++/** @file
++ *
++ * This file defines the common functions on device and host for performing
++ * numeric association as defined in the WUSB spec. They are only to be
++ * used internally by the DWC UWB modules. */
++
++extern int dwc_dh_sha256(uint8_t *message, uint32_t len, uint8_t *out);
++extern int dwc_dh_hmac_sha256(uint8_t *message, uint32_t messagelen,
++ uint8_t *key, uint32_t keylen,
++ uint8_t *out);
++extern int dwc_dh_modpow(void *mem_ctx, void *num, uint32_t num_len,
++ void *exp, uint32_t exp_len,
++ void *mod, uint32_t mod_len,
++ void *out);
++
++/** Computes PKD or PKH, and SHA-256(PKd || Nd)
++ *
++ * PK = g^exp mod p.
++ *
++ * Input:
++ * Nd = Number of digits on the device.
++ *
++ * Output:
++ * exp = A 32-byte buffer to be filled with a randomly generated number.
++ * used as either A or B.
++ * pk = A 384-byte buffer to be filled with the PKH or PKD.
++ * hash = A 32-byte buffer to be filled with SHA-256(PK || ND).
++ */
++extern int dwc_dh_pk(void *mem_ctx, uint8_t nd, uint8_t *exp, uint8_t *pkd, uint8_t *hash);
++
++/** Computes the DHKEY, and VD.
++ *
++ * If called from host, then it will comput DHKEY=PKD^exp % p.
++ * If called from device, then it will comput DHKEY=PKH^exp % p.
++ *
++ * Input:
++ * pkd = The PKD value.
++ * pkh = The PKH value.
++ * exp = The A value (if device) or B value (if host) generated in dwc_wudev_dh_pk.
++ * is_host = Set to non zero if a WUSB host is calling this function.
++ *
++ * Output:
++
++ * dd = A pointer to an buffer to be set to the displayed digits string to be shown
++ * to the user. This buffer should be at 5 bytes long to hold 4 digits plus a
++ * null termination character. This buffer can be used directly for display.
++ * ck = A 16-byte buffer to be filled with the CK.
++ * kdk = A 32-byte buffer to be filled with the KDK.
++ */
++extern int dwc_dh_derive_keys(void *mem_ctx, uint8_t nd, uint8_t *pkh, uint8_t *pkd,
++ uint8_t *exp, int is_host,
++ char *dd, uint8_t *ck, uint8_t *kdk);
++
++#ifdef DH_TEST_VECTORS
++extern void dwc_run_dh_test_vectors(void);
++#endif
++
++#ifdef __cplusplus
++}
++#endif
++
++#endif /* _DWC_DH_H_ */
+diff -urN linux-3.10/drivers/usb/host/dwc_common_port/dwc_list.h linux-rpi-3.10.y/drivers/usb/host/dwc_common_port/dwc_list.h
+--- linux-3.10/drivers/usb/host/dwc_common_port/dwc_list.h 1970-01-01 01:00:00.000000000 +0100
++++ linux-rpi-3.10.y/drivers/usb/host/dwc_common_port/dwc_list.h 2013-07-06 15:25:50.000000000 +0100
+@@ -0,0 +1,594 @@
++/* $OpenBSD: queue.h,v 1.26 2004/05/04 16:59:32 grange Exp $ */
++/* $NetBSD: queue.h,v 1.11 1996/05/16 05:17:14 mycroft Exp $ */
++
++/*
++ * Copyright (c) 1991, 1993
++ * The Regents of the University of California. All rights reserved.
++ *
++ * Redistribution and use in source and binary forms, with or without
++ * modification, are permitted provided that the following conditions
++ * are met:
++ * 1. Redistributions of source code must retain the above copyright
++ * notice, this list of conditions and the following disclaimer.
++ * 2. Redistributions in binary form must reproduce the above copyright
++ * notice, this list of conditions and the following disclaimer in the
++ * documentation and/or other materials provided with the distribution.
++ * 3. Neither the name of the University nor the names of its contributors
++ * may be used to endorse or promote products derived from this software
++ * without specific prior written permission.
++ *
++ * THIS SOFTWARE IS PROVIDED BY THE REGENTS AND CONTRIBUTORS ``AS IS'' AND
++ * ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
++ * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE
++ * ARE DISCLAIMED. IN NO EVENT SHALL THE REGENTS OR CONTRIBUTORS BE LIABLE
++ * FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL
++ * DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS
++ * OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION)
++ * HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT
++ * LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY
++ * OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF
++ * SUCH DAMAGE.
++ *
++ * @(#)queue.h 8.5 (Berkeley) 8/20/94
++ */
++
++#ifndef _DWC_LIST_H_
++#define _DWC_LIST_H_
++
++#ifdef __cplusplus
++extern "C" {
++#endif
++
++/** @file
++ *
++ * This file defines linked list operations. It is derived from BSD with
++ * only the MACRO names being prefixed with DWC_. This is because a few of
++ * these names conflict with those on Linux. For documentation on use, see the
++ * inline comments in the source code. The original license for this source
++ * code applies and is preserved in the dwc_list.h source file.
++ */
++
++/*
++ * This file defines five types of data structures: singly-linked lists,
++ * lists, simple queues, tail queues, and circular queues.
++ *
++ *
++ * A singly-linked list is headed by a single forward pointer. The elements
++ * are singly linked for minimum space and pointer manipulation overhead at
++ * the expense of O(n) removal for arbitrary elements. New elements can be
++ * added to the list after an existing element or at the head of the list.
++ * Elements being removed from the head of the list should use the explicit
++ * macro for this purpose for optimum efficiency. A singly-linked list may
++ * only be traversed in the forward direction. Singly-linked lists are ideal
++ * for applications with large datasets and few or no removals or for
++ * implementing a LIFO queue.
++ *
++ * A list is headed by a single forward pointer (or an array of forward
++ * pointers for a hash table header). The elements are doubly linked
++ * so that an arbitrary element can be removed without a need to
++ * traverse the list. New elements can be added to the list before
++ * or after an existing element or at the head of the list. A list
++ * may only be traversed in the forward direction.
++ *
++ * A simple queue is headed by a pair of pointers, one the head of the
++ * list and the other to the tail of the list. The elements are singly
++ * linked to save space, so elements can only be removed from the
++ * head of the list. New elements can be added to the list before or after
++ * an existing element, at the head of the list, or at the end of the
++ * list. A simple queue may only be traversed in the forward direction.
++ *
++ * A tail queue is headed by a pair of pointers, one to the head of the
++ * list and the other to the tail of the list. The elements are doubly
++ * linked so that an arbitrary element can be removed without a need to
++ * traverse the list. New elements can be added to the list before or
++ * after an existing element, at the head of the list, or at the end of
++ * the list. A tail queue may be traversed in either direction.
++ *
++ * A circle queue is headed by a pair of pointers, one to the head of the
++ * list and the other to the tail of the list. The elements are doubly
++ * linked so that an arbitrary element can be removed without a need to
++ * traverse the list. New elements can be added to the list before or after
++ * an existing element, at the head of the list, or at the end of the list.
++ * A circle queue may be traversed in either direction, but has a more
++ * complex end of list detection.
++ *
++ * For details on the use of these macros, see the queue(3) manual page.
++ */
++
++/*
++ * Double-linked List.
++ */
++
++typedef struct dwc_list_link {
++ struct dwc_list_link *next;
++ struct dwc_list_link *prev;
++} dwc_list_link_t;
++
++#define DWC_LIST_INIT(link) do { \
++ (link)->next = (link); \
++ (link)->prev = (link); \
++} while (0)
++
++#define DWC_LIST_FIRST(link) ((link)->next)
++#define DWC_LIST_LAST(link) ((link)->prev)
++#define DWC_LIST_END(link) (link)
++#define DWC_LIST_NEXT(link) ((link)->next)
++#define DWC_LIST_PREV(link) ((link)->prev)
++#define DWC_LIST_EMPTY(link) \
++ (DWC_LIST_FIRST(link) == DWC_LIST_END(link))
++#define DWC_LIST_ENTRY(link, type, field) \
++ (type *)((uint8_t *)(link) - (size_t)(&((type *)0)->field))
++
++#if 0
++#define DWC_LIST_INSERT_HEAD(list, link) do { \
++ (link)->next = (list)->next; \
++ (link)->prev = (list); \
++ (list)->next->prev = (link); \
++ (list)->next = (link); \
++} while (0)
++
++#define DWC_LIST_INSERT_TAIL(list, link) do { \
++ (link)->next = (list); \
++ (link)->prev = (list)->prev; \
++ (list)->prev->next = (link); \
++ (list)->prev = (link); \
++} while (0)
++#else
++#define DWC_LIST_INSERT_HEAD(list, link) do { \
++ dwc_list_link_t *__next__ = (list)->next; \
++ __next__->prev = (link); \
++ (link)->next = __next__; \
++ (link)->prev = (list); \
++ (list)->next = (link); \
++} while (0)
++
++#define DWC_LIST_INSERT_TAIL(list, link) do { \
++ dwc_list_link_t *__prev__ = (list)->prev; \
++ (list)->prev = (link); \
++ (link)->next = (list); \
++ (link)->prev = __prev__; \
++ __prev__->next = (link); \
++} while (0)
++#endif
++
++#if 0
++static inline void __list_add(struct list_head *new,
++ struct list_head *prev,
++ struct list_head *next)
++{
++ next->prev = new;
++ new->next = next;
++ new->prev = prev;
++ prev->next = new;
++}
++
++static inline void list_add(struct list_head *new, struct list_head *head)
++{
++ __list_add(new, head, head->next);
++}
++
++static inline void list_add_tail(struct list_head *new, struct list_head *head)
++{
++ __list_add(new, head->prev, head);
++}
++
++static inline void __list_del(struct list_head * prev, struct list_head * next)
++{
++ next->prev = prev;
++ prev->next = next;
++}
++
++static inline void list_del(struct list_head *entry)
++{
++ __list_del(entry->prev, entry->next);
++ entry->next = LIST_POISON1;
++ entry->prev = LIST_POISON2;
++}
++#endif
++
++#define DWC_LIST_REMOVE(link) do { \
++ (link)->next->prev = (link)->prev; \
++ (link)->prev->next = (link)->next; \
++} while (0)
++
++#define DWC_LIST_REMOVE_INIT(link) do { \
++ DWC_LIST_REMOVE(link); \
++ DWC_LIST_INIT(link); \
++} while (0)
++
++#define DWC_LIST_MOVE_HEAD(list, link) do { \
++ DWC_LIST_REMOVE(link); \
++ DWC_LIST_INSERT_HEAD(list, link); \
++} while (0)
++
++#define DWC_LIST_MOVE_TAIL(list, link) do { \
++ DWC_LIST_REMOVE(link); \
++ DWC_LIST_INSERT_TAIL(list, link); \
++} while (0)
++
++#define DWC_LIST_FOREACH(var, list) \
++ for((var) = DWC_LIST_FIRST(list); \
++ (var) != DWC_LIST_END(list); \
++ (var) = DWC_LIST_NEXT(var))
++
++#define DWC_LIST_FOREACH_SAFE(var, var2, list) \
++ for((var) = DWC_LIST_FIRST(list), (var2) = DWC_LIST_NEXT(var); \
++ (var) != DWC_LIST_END(list); \
++ (var) = (var2), (var2) = DWC_LIST_NEXT(var2))
++
++#define DWC_LIST_FOREACH_REVERSE(var, list) \
++ for((var) = DWC_LIST_LAST(list); \
++ (var) != DWC_LIST_END(list); \
++ (var) = DWC_LIST_PREV(var))
++
++/*
++ * Singly-linked List definitions.
++ */
++#define DWC_SLIST_HEAD(name, type) \
++struct name { \
++ struct type *slh_first; /* first element */ \
++}
++
++#define DWC_SLIST_HEAD_INITIALIZER(head) \
++ { NULL }
++
++#define DWC_SLIST_ENTRY(type) \
++struct { \
++ struct type *sle_next; /* next element */ \
++}
++
++/*
++ * Singly-linked List access methods.
++ */
++#define DWC_SLIST_FIRST(head) ((head)->slh_first)
++#define DWC_SLIST_END(head) NULL
++#define DWC_SLIST_EMPTY(head) (SLIST_FIRST(head) == SLIST_END(head))
++#define DWC_SLIST_NEXT(elm, field) ((elm)->field.sle_next)
++
++#define DWC_SLIST_FOREACH(var, head, field) \
++ for((var) = SLIST_FIRST(head); \
++ (var) != SLIST_END(head); \
++ (var) = SLIST_NEXT(var, field))
++
++#define DWC_SLIST_FOREACH_PREVPTR(var, varp, head, field) \
++ for((varp) = &SLIST_FIRST((head)); \
++ ((var) = *(varp)) != SLIST_END(head); \
++ (varp) = &SLIST_NEXT((var), field))
++
++/*
++ * Singly-linked List functions.
++ */
++#define DWC_SLIST_INIT(head) { \
++ SLIST_FIRST(head) = SLIST_END(head); \
++}
++
++#define DWC_SLIST_INSERT_AFTER(slistelm, elm, field) do { \
++ (elm)->field.sle_next = (slistelm)->field.sle_next; \
++ (slistelm)->field.sle_next = (elm); \
++} while (0)
++
++#define DWC_SLIST_INSERT_HEAD(head, elm, field) do { \
++ (elm)->field.sle_next = (head)->slh_first; \
++ (head)->slh_first = (elm); \
++} while (0)
++
++#define DWC_SLIST_REMOVE_NEXT(head, elm, field) do { \
++ (elm)->field.sle_next = (elm)->field.sle_next->field.sle_next; \
++} while (0)
++
++#define DWC_SLIST_REMOVE_HEAD(head, field) do { \
++ (head)->slh_first = (head)->slh_first->field.sle_next; \
++} while (0)
++
++#define DWC_SLIST_REMOVE(head, elm, type, field) do { \
++ if ((head)->slh_first == (elm)) { \
++ SLIST_REMOVE_HEAD((head), field); \
++ } \
++ else { \
++ struct type *curelm = (head)->slh_first; \
++ while( curelm->field.sle_next != (elm) ) \
++ curelm = curelm->field.sle_next; \
++ curelm->field.sle_next = \
++ curelm->field.sle_next->field.sle_next; \
++ } \
++} while (0)
++
++/*
++ * Simple queue definitions.
++ */
++#define DWC_SIMPLEQ_HEAD(name, type) \
++struct name { \
++ struct type *sqh_first; /* first element */ \
++ struct type **sqh_last; /* addr of last next element */ \
++}
++
++#define DWC_SIMPLEQ_HEAD_INITIALIZER(head) \
++ { NULL, &(head).sqh_first }
++
++#define DWC_SIMPLEQ_ENTRY(type) \
++struct { \
++ struct type *sqe_next; /* next element */ \
++}
++
++/*
++ * Simple queue access methods.
++ */
++#define DWC_SIMPLEQ_FIRST(head) ((head)->sqh_first)
++#define DWC_SIMPLEQ_END(head) NULL
++#define DWC_SIMPLEQ_EMPTY(head) (SIMPLEQ_FIRST(head) == SIMPLEQ_END(head))
++#define DWC_SIMPLEQ_NEXT(elm, field) ((elm)->field.sqe_next)
++
++#define DWC_SIMPLEQ_FOREACH(var, head, field) \
++ for((var) = SIMPLEQ_FIRST(head); \
++ (var) != SIMPLEQ_END(head); \
++ (var) = SIMPLEQ_NEXT(var, field))
++
++/*
++ * Simple queue functions.
++ */
++#define DWC_SIMPLEQ_INIT(head) do { \
++ (head)->sqh_first = NULL; \
++ (head)->sqh_last = &(head)->sqh_first; \
++} while (0)
++
++#define DWC_SIMPLEQ_INSERT_HEAD(head, elm, field) do { \
++ if (((elm)->field.sqe_next = (head)->sqh_first) == NULL) \
++ (head)->sqh_last = &(elm)->field.sqe_next; \
++ (head)->sqh_first = (elm); \
++} while (0)
++
++#define DWC_SIMPLEQ_INSERT_TAIL(head, elm, field) do { \
++ (elm)->field.sqe_next = NULL; \
++ *(head)->sqh_last = (elm); \
++ (head)->sqh_last = &(elm)->field.sqe_next; \
++} while (0)
++
++#define DWC_SIMPLEQ_INSERT_AFTER(head, listelm, elm, field) do { \
++ if (((elm)->field.sqe_next = (listelm)->field.sqe_next) == NULL)\
++ (head)->sqh_last = &(elm)->field.sqe_next; \
++ (listelm)->field.sqe_next = (elm); \
++} while (0)
++
++#define DWC_SIMPLEQ_REMOVE_HEAD(head, field) do { \
++ if (((head)->sqh_first = (head)->sqh_first->field.sqe_next) == NULL) \
++ (head)->sqh_last = &(head)->sqh_first; \
++} while (0)
++
++/*
++ * Tail queue definitions.
++ */
++#define DWC_TAILQ_HEAD(name, type) \
++struct name { \
++ struct type *tqh_first; /* first element */ \
++ struct type **tqh_last; /* addr of last next element */ \
++}
++
++#define DWC_TAILQ_HEAD_INITIALIZER(head) \
++ { NULL, &(head).tqh_first }
++
++#define DWC_TAILQ_ENTRY(type) \
++struct { \
++ struct type *tqe_next; /* next element */ \
++ struct type **tqe_prev; /* address of previous next element */ \
++}
++
++/*
++ * tail queue access methods
++ */
++#define DWC_TAILQ_FIRST(head) ((head)->tqh_first)
++#define DWC_TAILQ_END(head) NULL
++#define DWC_TAILQ_NEXT(elm, field) ((elm)->field.tqe_next)
++#define DWC_TAILQ_LAST(head, headname) \
++ (*(((struct headname *)((head)->tqh_last))->tqh_last))
++/* XXX */
++#define DWC_TAILQ_PREV(elm, headname, field) \
++ (*(((struct headname *)((elm)->field.tqe_prev))->tqh_last))
++#define DWC_TAILQ_EMPTY(head) \
++ (DWC_TAILQ_FIRST(head) == DWC_TAILQ_END(head))
++
++#define DWC_TAILQ_FOREACH(var, head, field) \
++ for ((var) = DWC_TAILQ_FIRST(head); \
++ (var) != DWC_TAILQ_END(head); \
++ (var) = DWC_TAILQ_NEXT(var, field))
++
++#define DWC_TAILQ_FOREACH_REVERSE(var, head, headname, field) \
++ for ((var) = DWC_TAILQ_LAST(head, headname); \
++ (var) != DWC_TAILQ_END(head); \
++ (var) = DWC_TAILQ_PREV(var, headname, field))
++
++/*
++ * Tail queue functions.
++ */
++#define DWC_TAILQ_INIT(head) do { \
++ (head)->tqh_first = NULL; \
++ (head)->tqh_last = &(head)->tqh_first; \
++} while (0)
++
++#define DWC_TAILQ_INSERT_HEAD(head, elm, field) do { \
++ if (((elm)->field.tqe_next = (head)->tqh_first) != NULL) \
++ (head)->tqh_first->field.tqe_prev = \
++ &(elm)->field.tqe_next; \
++ else \
++ (head)->tqh_last = &(elm)->field.tqe_next; \
++ (head)->tqh_first = (elm); \
++ (elm)->field.tqe_prev = &(head)->tqh_first; \
++} while (0)
++
++#define DWC_TAILQ_INSERT_TAIL(head, elm, field) do { \
++ (elm)->field.tqe_next = NULL; \
++ (elm)->field.tqe_prev = (head)->tqh_last; \
++ *(head)->tqh_last = (elm); \
++ (head)->tqh_last = &(elm)->field.tqe_next; \
++} while (0)
++
++#define DWC_TAILQ_INSERT_AFTER(head, listelm, elm, field) do { \
++ if (((elm)->field.tqe_next = (listelm)->field.tqe_next) != NULL)\
++ (elm)->field.tqe_next->field.tqe_prev = \
++ &(elm)->field.tqe_next; \
++ else \
++ (head)->tqh_last = &(elm)->field.tqe_next; \
++ (listelm)->field.tqe_next = (elm); \
++ (elm)->field.tqe_prev = &(listelm)->field.tqe_next; \
++} while (0)
++
++#define DWC_TAILQ_INSERT_BEFORE(listelm, elm, field) do { \
++ (elm)->field.tqe_prev = (listelm)->field.tqe_prev; \
++ (elm)->field.tqe_next = (listelm); \
++ *(listelm)->field.tqe_prev = (elm); \
++ (listelm)->field.tqe_prev = &(elm)->field.tqe_next; \
++} while (0)
++
++#define DWC_TAILQ_REMOVE(head, elm, field) do { \
++ if (((elm)->field.tqe_next) != NULL) \
++ (elm)->field.tqe_next->field.tqe_prev = \
++ (elm)->field.tqe_prev; \
++ else \
++ (head)->tqh_last = (elm)->field.tqe_prev; \
++ *(elm)->field.tqe_prev = (elm)->field.tqe_next; \
++} while (0)
++
++#define DWC_TAILQ_REPLACE(head, elm, elm2, field) do { \
++ if (((elm2)->field.tqe_next = (elm)->field.tqe_next) != NULL) \
++ (elm2)->field.tqe_next->field.tqe_prev = \
++ &(elm2)->field.tqe_next; \
++ else \
++ (head)->tqh_last = &(elm2)->field.tqe_next; \
++ (elm2)->field.tqe_prev = (elm)->field.tqe_prev; \
++ *(elm2)->field.tqe_prev = (elm2); \
++} while (0)
++
++/*
++ * Circular queue definitions.
++ */
++#define DWC_CIRCLEQ_HEAD(name, type) \
++struct name { \
++ struct type *cqh_first; /* first element */ \
++ struct type *cqh_last; /* last element */ \
++}
++
++#define DWC_CIRCLEQ_HEAD_INITIALIZER(head) \
++ { DWC_CIRCLEQ_END(&head), DWC_CIRCLEQ_END(&head) }
++
++#define DWC_CIRCLEQ_ENTRY(type) \
++struct { \
++ struct type *cqe_next; /* next element */ \
++ struct type *cqe_prev; /* previous element */ \
++}
++
++/*
++ * Circular queue access methods
++ */
++#define DWC_CIRCLEQ_FIRST(head) ((head)->cqh_first)
++#define DWC_CIRCLEQ_LAST(head) ((head)->cqh_last)
++#define DWC_CIRCLEQ_END(head) ((void *)(head))
++#define DWC_CIRCLEQ_NEXT(elm, field) ((elm)->field.cqe_next)
++#define DWC_CIRCLEQ_PREV(elm, field) ((elm)->field.cqe_prev)
++#define DWC_CIRCLEQ_EMPTY(head) \
++ (DWC_CIRCLEQ_FIRST(head) == DWC_CIRCLEQ_END(head))
++
++#define DWC_CIRCLEQ_EMPTY_ENTRY(elm, field) (((elm)->field.cqe_next == NULL) && ((elm)->field.cqe_prev == NULL))
++
++#define DWC_CIRCLEQ_FOREACH(var, head, field) \
++ for((var) = DWC_CIRCLEQ_FIRST(head); \
++ (var) != DWC_CIRCLEQ_END(head); \
++ (var) = DWC_CIRCLEQ_NEXT(var, field))
++
++#define DWC_CIRCLEQ_FOREACH_SAFE(var, var2, head, field) \
++ for((var) = DWC_CIRCLEQ_FIRST(head), var2 = DWC_CIRCLEQ_NEXT(var, field); \
++ (var) != DWC_CIRCLEQ_END(head); \
++ (var) = var2, var2 = DWC_CIRCLEQ_NEXT(var, field))
++
++#define DWC_CIRCLEQ_FOREACH_REVERSE(var, head, field) \
++ for((var) = DWC_CIRCLEQ_LAST(head); \
++ (var) != DWC_CIRCLEQ_END(head); \
++ (var) = DWC_CIRCLEQ_PREV(var, field))
++
++/*
++ * Circular queue functions.
++ */
++#define DWC_CIRCLEQ_INIT(head) do { \
++ (head)->cqh_first = DWC_CIRCLEQ_END(head); \
++ (head)->cqh_last = DWC_CIRCLEQ_END(head); \
++} while (0)
++
++#define DWC_CIRCLEQ_INIT_ENTRY(elm, field) do { \
++ (elm)->field.cqe_next = NULL; \
++ (elm)->field.cqe_prev = NULL; \
++} while (0)
++
++#define DWC_CIRCLEQ_INSERT_AFTER(head, listelm, elm, field) do { \
++ (elm)->field.cqe_next = (listelm)->field.cqe_next; \
++ (elm)->field.cqe_prev = (listelm); \
++ if ((listelm)->field.cqe_next == DWC_CIRCLEQ_END(head)) \
++ (head)->cqh_last = (elm); \
++ else \
++ (listelm)->field.cqe_next->field.cqe_prev = (elm); \
++ (listelm)->field.cqe_next = (elm); \
++} while (0)
++
++#define DWC_CIRCLEQ_INSERT_BEFORE(head, listelm, elm, field) do { \
++ (elm)->field.cqe_next = (listelm); \
++ (elm)->field.cqe_prev = (listelm)->field.cqe_prev; \
++ if ((listelm)->field.cqe_prev == DWC_CIRCLEQ_END(head)) \
++ (head)->cqh_first = (elm); \
++ else \
++ (listelm)->field.cqe_prev->field.cqe_next = (elm); \
++ (listelm)->field.cqe_prev = (elm); \
++} while (0)
++
++#define DWC_CIRCLEQ_INSERT_HEAD(head, elm, field) do { \
++ (elm)->field.cqe_next = (head)->cqh_first; \
++ (elm)->field.cqe_prev = DWC_CIRCLEQ_END(head); \
++ if ((head)->cqh_last == DWC_CIRCLEQ_END(head)) \
++ (head)->cqh_last = (elm); \
++ else \
++ (head)->cqh_first->field.cqe_prev = (elm); \
++ (head)->cqh_first = (elm); \
++} while (0)
++
++#define DWC_CIRCLEQ_INSERT_TAIL(head, elm, field) do { \
++ (elm)->field.cqe_next = DWC_CIRCLEQ_END(head); \
++ (elm)->field.cqe_prev = (head)->cqh_last; \
++ if ((head)->cqh_first == DWC_CIRCLEQ_END(head)) \
++ (head)->cqh_first = (elm); \
++ else \
++ (head)->cqh_last->field.cqe_next = (elm); \
++ (head)->cqh_last = (elm); \
++} while (0)
++
++#define DWC_CIRCLEQ_REMOVE(head, elm, field) do { \
++ if ((elm)->field.cqe_next == DWC_CIRCLEQ_END(head)) \
++ (head)->cqh_last = (elm)->field.cqe_prev; \
++ else \
++ (elm)->field.cqe_next->field.cqe_prev = \
++ (elm)->field.cqe_prev; \
++ if ((elm)->field.cqe_prev == DWC_CIRCLEQ_END(head)) \
++ (head)->cqh_first = (elm)->field.cqe_next; \
++ else \
++ (elm)->field.cqe_prev->field.cqe_next = \
++ (elm)->field.cqe_next; \
++} while (0)
++
++#define DWC_CIRCLEQ_REMOVE_INIT(head, elm, field) do { \
++ DWC_CIRCLEQ_REMOVE(head, elm, field); \
++ DWC_CIRCLEQ_INIT_ENTRY(elm, field); \
++} while (0)
++
++#define DWC_CIRCLEQ_REPLACE(head, elm, elm2, field) do { \
++ if (((elm2)->field.cqe_next = (elm)->field.cqe_next) == \
++ DWC_CIRCLEQ_END(head)) \
++ (head).cqh_last = (elm2); \
++ else \
++ (elm2)->field.cqe_next->field.cqe_prev = (elm2); \
++ if (((elm2)->field.cqe_prev = (elm)->field.cqe_prev) == \
++ DWC_CIRCLEQ_END(head)) \
++ (head).cqh_first = (elm2); \
++ else \
++ (elm2)->field.cqe_prev->field.cqe_next = (elm2); \
++} while (0)
++
++#ifdef __cplusplus
++}
++#endif
++
++#endif /* _DWC_LIST_H_ */
+diff -urN linux-3.10/drivers/usb/host/dwc_common_port/dwc_mem.c linux-rpi-3.10.y/drivers/usb/host/dwc_common_port/dwc_mem.c
+--- linux-3.10/drivers/usb/host/dwc_common_port/dwc_mem.c 1970-01-01 01:00:00.000000000 +0100
++++ linux-rpi-3.10.y/drivers/usb/host/dwc_common_port/dwc_mem.c 2013-07-06 15:25:50.000000000 +0100
+@@ -0,0 +1,245 @@
++/* Memory Debugging */
++#ifdef DWC_DEBUG_MEMORY
++
++#include "dwc_os.h"
++#include "dwc_list.h"
++
++struct allocation {
++ void *addr;
++ void *ctx;
++ char *func;
++ int line;
++ uint32_t size;
++ int dma;
++ DWC_CIRCLEQ_ENTRY(allocation) entry;
++};
++
++DWC_CIRCLEQ_HEAD(allocation_queue, allocation);
++
++struct allocation_manager {
++ void *mem_ctx;
++ struct allocation_queue allocations;
++
++ /* statistics */
++ int num;
++ int num_freed;
++ int num_active;
++ uint32_t total;
++ uint32_t cur;
++ uint32_t max;
++};
++
++static struct allocation_manager *manager = NULL;
++
++static int add_allocation(void *ctx, uint32_t size, char const *func, int line, void *addr,
++ int dma)
++{
++ struct allocation *a;
++
++ DWC_ASSERT(manager != NULL, "manager not allocated");
++
++ a = __DWC_ALLOC_ATOMIC(manager->mem_ctx, sizeof(*a));
++ if (!a) {
++ return -DWC_E_NO_MEMORY;
++ }
++
++ a->func = __DWC_ALLOC_ATOMIC(manager->mem_ctx, DWC_STRLEN(func) + 1);
++ if (!a->func) {
++ __DWC_FREE(manager->mem_ctx, a);
++ return -DWC_E_NO_MEMORY;
++ }
++
++ DWC_MEMCPY(a->func, func, DWC_STRLEN(func) + 1);
++ a->addr = addr;
++ a->ctx = ctx;
++ a->line = line;
++ a->size = size;
++ a->dma = dma;
++ DWC_CIRCLEQ_INSERT_TAIL(&manager->allocations, a, entry);
++
++ /* Update stats */
++ manager->num++;
++ manager->num_active++;
++ manager->total += size;
++ manager->cur += size;
++
++ if (manager->max < manager->cur) {
++ manager->max = manager->cur;
++ }
++
++ return 0;
++}
++
++static struct allocation *find_allocation(void *ctx, void *addr)
++{
++ struct allocation *a;
++
++ DWC_CIRCLEQ_FOREACH(a, &manager->allocations, entry) {
++ if (a->ctx == ctx && a->addr == addr) {
++ return a;
++ }
++ }
++
++ return NULL;
++}
++
++static void free_allocation(void *ctx, void *addr, char const *func, int line)
++{
++ struct allocation *a = find_allocation(ctx, addr);
++
++ if (!a) {
++ DWC_ASSERT(0,
++ "Free of address %p that was never allocated or already freed %s:%d",
++ addr, func, line);
++ return;
++ }
++
++ DWC_CIRCLEQ_REMOVE(&manager->allocations, a, entry);
++
++ manager->num_active--;
++ manager->num_freed++;
++ manager->cur -= a->size;
++ __DWC_FREE(manager->mem_ctx, a->func);
++ __DWC_FREE(manager->mem_ctx, a);
++}
++
++int dwc_memory_debug_start(void *mem_ctx)
++{
++ DWC_ASSERT(manager == NULL, "Memory debugging has already started\n");
++
++ if (manager) {
++ return -DWC_E_BUSY;
++ }
++
++ manager = __DWC_ALLOC(mem_ctx, sizeof(*manager));
++ if (!manager) {
++ return -DWC_E_NO_MEMORY;
++ }
++
++ DWC_CIRCLEQ_INIT(&manager->allocations);
++ manager->mem_ctx = mem_ctx;
++ manager->num = 0;
++ manager->num_freed = 0;
++ manager->num_active = 0;
++ manager->total = 0;
++ manager->cur = 0;
++ manager->max = 0;
++
++ return 0;
++}
++
++void dwc_memory_debug_stop(void)
++{
++ struct allocation *a;
++
++ dwc_memory_debug_report();
++
++ DWC_CIRCLEQ_FOREACH(a, &manager->allocations, entry) {
++ DWC_ERROR("Memory leaked from %s:%d\n", a->func, a->line);
++ free_allocation(a->ctx, a->addr, NULL, -1);
++ }
++
++ __DWC_FREE(manager->mem_ctx, manager);
++}
++
++void dwc_memory_debug_report(void)
++{
++ struct allocation *a;
++
++ DWC_PRINTF("\n\n\n----------------- Memory Debugging Report -----------------\n\n");
++ DWC_PRINTF("Num Allocations = %d\n", manager->num);
++ DWC_PRINTF("Freed = %d\n", manager->num_freed);
++ DWC_PRINTF("Active = %d\n", manager->num_active);
++ DWC_PRINTF("Current Memory Used = %d\n", manager->cur);
++ DWC_PRINTF("Total Memory Used = %d\n", manager->total);
++ DWC_PRINTF("Maximum Memory Used at Once = %d\n", manager->max);
++ DWC_PRINTF("Unfreed allocations:\n");
++
++ DWC_CIRCLEQ_FOREACH(a, &manager->allocations, entry) {
++ DWC_PRINTF(" addr=%p, size=%d from %s:%d, DMA=%d\n",
++ a->addr, a->size, a->func, a->line, a->dma);
++ }
++}
++
++/* The replacement functions */
++void *dwc_alloc_debug(void *mem_ctx, uint32_t size, char const *func, int line)
++{
++ void *addr = __DWC_ALLOC(mem_ctx, size);
++
++ if (!addr) {
++ return NULL;
++ }
++
++ if (add_allocation(mem_ctx, size, func, line, addr, 0)) {
++ __DWC_FREE(mem_ctx, addr);
++ return NULL;
++ }
++
++ return addr;
++}
++
++void *dwc_alloc_atomic_debug(void *mem_ctx, uint32_t size, char const *func,
++ int line)
++{
++ void *addr = __DWC_ALLOC_ATOMIC(mem_ctx, size);
++
++ if (!addr) {
++ return NULL;
++ }
++
++ if (add_allocation(mem_ctx, size, func, line, addr, 0)) {
++ __DWC_FREE(mem_ctx, addr);
++ return NULL;
++ }
++
++ return addr;
++}
++
++void dwc_free_debug(void *mem_ctx, void *addr, char const *func, int line)
++{
++ free_allocation(mem_ctx, addr, func, line);
++ __DWC_FREE(mem_ctx, addr);
++}
++
++void *dwc_dma_alloc_debug(void *dma_ctx, uint32_t size, dwc_dma_t *dma_addr,
++ char const *func, int line)
++{
++ void *addr = __DWC_DMA_ALLOC(dma_ctx, size, dma_addr);
++
++ if (!addr) {
++ return NULL;
++ }
++
++ if (add_allocation(dma_ctx, size, func, line, addr, 1)) {
++ __DWC_DMA_FREE(dma_ctx, size, addr, *dma_addr);
++ return NULL;
++ }
++
++ return addr;
++}
++
++void *dwc_dma_alloc_atomic_debug(void *dma_ctx, uint32_t size,
++ dwc_dma_t *dma_addr, char const *func, int line)
++{
++ void *addr = __DWC_DMA_ALLOC_ATOMIC(dma_ctx, size, dma_addr);
++
++ if (!addr) {
++ return NULL;
++ }
++
++ if (add_allocation(dma_ctx, size, func, line, addr, 1)) {
++ __DWC_DMA_FREE(dma_ctx, size, addr, *dma_addr);
++ return NULL;
++ }
++
++ return addr;
++}
++
++void dwc_dma_free_debug(void *dma_ctx, uint32_t size, void *virt_addr,
++ dwc_dma_t dma_addr, char const *func, int line)
++{
++ free_allocation(dma_ctx, virt_addr, func, line);
++ __DWC_DMA_FREE(dma_ctx, size, virt_addr, dma_addr);
++}
++
++#endif /* DWC_DEBUG_MEMORY */
+diff -urN linux-3.10/drivers/usb/host/dwc_common_port/dwc_modpow.c linux-rpi-3.10.y/drivers/usb/host/dwc_common_port/dwc_modpow.c
+--- linux-3.10/drivers/usb/host/dwc_common_port/dwc_modpow.c 1970-01-01 01:00:00.000000000 +0100
++++ linux-rpi-3.10.y/drivers/usb/host/dwc_common_port/dwc_modpow.c 2013-07-06 15:25:50.000000000 +0100
+@@ -0,0 +1,636 @@
++/* Bignum routines adapted from PUTTY sources. PuTTY copyright notice follows.
++ *
++ * PuTTY is copyright 1997-2007 Simon Tatham.
++ *
++ * Portions copyright Robert de Bath, Joris van Rantwijk, Delian
++ * Delchev, Andreas Schultz, Jeroen Massar, Wez Furlong, Nicolas Barry,
++ * Justin Bradford, Ben Harris, Malcolm Smith, Ahmad Khalifa, Markus
++ * Kuhn, and CORE SDI S.A.
++ *
++ * Permission is hereby granted, free of charge, to any person
++ * obtaining a copy of this software and associated documentation files
++ * (the "Software"), to deal in the Software without restriction,
++ * including without limitation the rights to use, copy, modify, merge,
++ * publish, distribute, sublicense, and/or sell copies of the Software,
++ * and to permit persons to whom the Software is furnished to do so,
++ * subject to the following conditions:
++ *
++ * The above copyright notice and this permission notice shall be
++ * included in all copies or substantial portions of the Software.
++
++ * THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND,
++ * EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF
++ * MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND
++ * NONINFRINGEMENT. IN NO EVENT SHALL THE COPYRIGHT HOLDERS BE LIABLE
++ * FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION OF
++ * CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION
++ * WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE.
++ *
++ */
++#ifdef DWC_CRYPTOLIB
++
++#ifndef CONFIG_MACH_IPMATE
++
++#include "dwc_modpow.h"
++
++#define BIGNUM_INT_MASK 0xFFFFFFFFUL
++#define BIGNUM_TOP_BIT 0x80000000UL
++#define BIGNUM_INT_BITS 32
++
++
++static void *snmalloc(void *mem_ctx, size_t n, size_t size)
++{
++ void *p;
++ size *= n;
++ if (size == 0) size = 1;
++ p = dwc_alloc(mem_ctx, size);
++ return p;
++}
++
++#define snewn(ctx, n, type) ((type *)snmalloc((ctx), (n), sizeof(type)))
++#define sfree dwc_free
++
++/*
++ * Usage notes:
++ * * Do not call the DIVMOD_WORD macro with expressions such as array
++ * subscripts, as some implementations object to this (see below).
++ * * Note that none of the division methods below will cope if the
++ * quotient won't fit into BIGNUM_INT_BITS. Callers should be careful
++ * to avoid this case.
++ * If this condition occurs, in the case of the x86 DIV instruction,
++ * an overflow exception will occur, which (according to a correspondent)
++ * will manifest on Windows as something like
++ * 0xC0000095: Integer overflow
++ * The C variant won't give the right answer, either.
++ */
++
++#define MUL_WORD(w1, w2) ((BignumDblInt)w1 * w2)
++
++#if defined __GNUC__ && defined __i386__
++#define DIVMOD_WORD(q, r, hi, lo, w) \
++ __asm__("div %2" : \
++ "=d" (r), "=a" (q) : \
++ "r" (w), "d" (hi), "a" (lo))
++#else
++#define DIVMOD_WORD(q, r, hi, lo, w) do { \
++ BignumDblInt n = (((BignumDblInt)hi) << BIGNUM_INT_BITS) | lo; \
++ q = n / w; \
++ r = n % w; \
++} while (0)
++#endif
++
++// q = n / w;
++// r = n % w;
++
++#define BIGNUM_INT_BYTES (BIGNUM_INT_BITS / 8)
++
++#define BIGNUM_INTERNAL
++
++static Bignum newbn(void *mem_ctx, int length)
++{
++ Bignum b = snewn(mem_ctx, length + 1, BignumInt);
++ //if (!b)
++ //abort(); /* FIXME */
++ DWC_MEMSET(b, 0, (length + 1) * sizeof(*b));
++ b[0] = length;
++ return b;
++}
++
++void freebn(void *mem_ctx, Bignum b)
++{
++ /*
++ * Burn the evidence, just in case.
++ */
++ DWC_MEMSET(b, 0, sizeof(b[0]) * (b[0] + 1));
++ sfree(mem_ctx, b);
++}
++
++/*
++ * Compute c = a * b.
++ * Input is in the first len words of a and b.
++ * Result is returned in the first 2*len words of c.
++ */
++static void internal_mul(BignumInt *a, BignumInt *b,
++ BignumInt *c, int len)
++{
++ int i, j;
++ BignumDblInt t;
++
++ for (j = 0; j < 2 * len; j++)
++ c[j] = 0;
++
++ for (i = len - 1; i >= 0; i--) {
++ t = 0;
++ for (j = len - 1; j >= 0; j--) {
++ t += MUL_WORD(a[i], (BignumDblInt) b[j]);
++ t += (BignumDblInt) c[i + j + 1];
++ c[i + j + 1] = (BignumInt) t;
++ t = t >> BIGNUM_INT_BITS;
++ }
++ c[i] = (BignumInt) t;
++ }
++}
++
++static void internal_add_shifted(BignumInt *number,
++ unsigned n, int shift)
++{
++ int word = 1 + (shift / BIGNUM_INT_BITS);
++ int bshift = shift % BIGNUM_INT_BITS;
++ BignumDblInt addend;
++
++ addend = (BignumDblInt)n << bshift;
++
++ while (addend) {
++ addend += number[word];
++ number[word] = (BignumInt) addend & BIGNUM_INT_MASK;
++ addend >>= BIGNUM_INT_BITS;
++ word++;
++ }
++}
++
++/*
++ * Compute a = a % m.
++ * Input in first alen words of a and first mlen words of m.
++ * Output in first alen words of a
++ * (of which first alen-mlen words will be zero).
++ * The MSW of m MUST have its high bit set.
++ * Quotient is accumulated in the `quotient' array, which is a Bignum
++ * rather than the internal bigendian format. Quotient parts are shifted
++ * left by `qshift' before adding into quot.
++ */
++static void internal_mod(BignumInt *a, int alen,
++ BignumInt *m, int mlen,
++ BignumInt *quot, int qshift)
++{
++ BignumInt m0, m1;
++ unsigned int h;
++ int i, k;
++
++ m0 = m[0];
++ if (mlen > 1)
++ m1 = m[1];
++ else
++ m1 = 0;
++
++ for (i = 0; i <= alen - mlen; i++) {
++ BignumDblInt t;
++ unsigned int q, r, c, ai1;
++
++ if (i == 0) {
++ h = 0;
++ } else {
++ h = a[i - 1];
++ a[i - 1] = 0;
++ }
++
++ if (i == alen - 1)
++ ai1 = 0;
++ else
++ ai1 = a[i + 1];
++
++ /* Find q = h:a[i] / m0 */
++ if (h >= m0) {
++ /*
++ * Special case.
++ *
++ * To illustrate it, suppose a BignumInt is 8 bits, and
++ * we are dividing (say) A1:23:45:67 by A1:B2:C3. Then
++ * our initial division will be 0xA123 / 0xA1, which
++ * will give a quotient of 0x100 and a divide overflow.
++ * However, the invariants in this division algorithm
++ * are not violated, since the full number A1:23:... is
++ * _less_ than the quotient prefix A1:B2:... and so the
++ * following correction loop would have sorted it out.
++ *
++ * In this situation we set q to be the largest
++ * quotient we _can_ stomach (0xFF, of course).
++ */
++ q = BIGNUM_INT_MASK;
++ } else {
++ /* Macro doesn't want an array subscript expression passed
++ * into it (see definition), so use a temporary. */
++ BignumInt tmplo = a[i];
++ DIVMOD_WORD(q, r, h, tmplo, m0);
++
++ /* Refine our estimate of q by looking at
++ h:a[i]:a[i+1] / m0:m1 */
++ t = MUL_WORD(m1, q);
++ if (t > ((BignumDblInt) r << BIGNUM_INT_BITS) + ai1) {
++ q--;
++ t -= m1;
++ r = (r + m0) & BIGNUM_INT_MASK; /* overflow? */
++ if (r >= (BignumDblInt) m0 &&
++ t > ((BignumDblInt) r << BIGNUM_INT_BITS) + ai1) q--;
++ }
++ }
++
++ /* Subtract q * m from a[i...] */
++ c = 0;
++ for (k = mlen - 1; k >= 0; k--) {
++ t = MUL_WORD(q, m[k]);
++ t += c;
++ c = (unsigned)(t >> BIGNUM_INT_BITS);
++ if ((BignumInt) t > a[i + k])
++ c++;
++ a[i + k] -= (BignumInt) t;
++ }
++
++ /* Add back m in case of borrow */
++ if (c != h) {
++ t = 0;
++ for (k = mlen - 1; k >= 0; k--) {
++ t += m[k];
++ t += a[i + k];
++ a[i + k] = (BignumInt) t;
++ t = t >> BIGNUM_INT_BITS;
++ }
++ q--;
++ }
++ if (quot)
++ internal_add_shifted(quot, q, qshift + BIGNUM_INT_BITS * (alen - mlen - i));
++ }
++}
++
++/*
++ * Compute p % mod.
++ * The most significant word of mod MUST be non-zero.
++ * We assume that the result array is the same size as the mod array.
++ * We optionally write out a quotient if `quotient' is non-NULL.
++ * We can avoid writing out the result if `result' is NULL.
++ */
++void bigdivmod(void *mem_ctx, Bignum p, Bignum mod, Bignum result, Bignum quotient)
++{
++ BignumInt *n, *m;
++ int mshift;
++ int plen, mlen, i, j;
++
++ /* Allocate m of size mlen, copy mod to m */
++ /* We use big endian internally */
++ mlen = mod[0];
++ m = snewn(mem_ctx, mlen, BignumInt);
++ //if (!m)
++ //abort(); /* FIXME */
++ for (j = 0; j < mlen; j++)
++ m[j] = mod[mod[0] - j];
++
++ /* Shift m left to make msb bit set */
++ for (mshift = 0; mshift < BIGNUM_INT_BITS-1; mshift++)
++ if ((m[0] << mshift) & BIGNUM_TOP_BIT)
++ break;
++ if (mshift) {
++ for (i = 0; i < mlen - 1; i++)
++ m[i] = (m[i] << mshift) | (m[i + 1] >> (BIGNUM_INT_BITS - mshift));
++ m[mlen - 1] = m[mlen - 1] << mshift;
++ }
++
++ plen = p[0];
++ /* Ensure plen > mlen */
++ if (plen <= mlen)
++ plen = mlen + 1;
++
++ /* Allocate n of size plen, copy p to n */
++ n = snewn(mem_ctx, plen, BignumInt);
++ //if (!n)
++ //abort(); /* FIXME */
++ for (j = 0; j < plen; j++)
++ n[j] = 0;
++ for (j = 1; j <= (int)p[0]; j++)
++ n[plen - j] = p[j];
++
++ /* Main computation */
++ internal_mod(n, plen, m, mlen, quotient, mshift);
++
++ /* Fixup result in case the modulus was shifted */
++ if (mshift) {
++ for (i = plen - mlen - 1; i < plen - 1; i++)
++ n[i] = (n[i] << mshift) | (n[i + 1] >> (BIGNUM_INT_BITS - mshift));
++ n[plen - 1] = n[plen - 1] << mshift;
++ internal_mod(n, plen, m, mlen, quotient, 0);
++ for (i = plen - 1; i >= plen - mlen; i--)
++ n[i] = (n[i] >> mshift) | (n[i - 1] << (BIGNUM_INT_BITS - mshift));
++ }
++
++ /* Copy result to buffer */
++ if (result) {
++ for (i = 1; i <= (int)result[0]; i++) {
++ int j = plen - i;
++ result[i] = j >= 0 ? n[j] : 0;
++ }
++ }
++
++ /* Free temporary arrays */
++ for (i = 0; i < mlen; i++)
++ m[i] = 0;
++ sfree(mem_ctx, m);
++ for (i = 0; i < plen; i++)
++ n[i] = 0;
++ sfree(mem_ctx, n);
++}
++
++/*
++ * Simple remainder.
++ */
++Bignum bigmod(void *mem_ctx, Bignum a, Bignum b)
++{
++ Bignum r = newbn(mem_ctx, b[0]);
++ bigdivmod(mem_ctx, a, b, r, NULL);
++ return r;
++}
++
++/*
++ * Compute (base ^ exp) % mod.
++ */
++Bignum dwc_modpow(void *mem_ctx, Bignum base_in, Bignum exp, Bignum mod)
++{
++ BignumInt *a, *b, *n, *m;
++ int mshift;
++ int mlen, i, j;
++ Bignum base, result;
++
++ /*
++ * The most significant word of mod needs to be non-zero. It
++ * should already be, but let's make sure.
++ */
++ //assert(mod[mod[0]] != 0);
++
++ /*
++ * Make sure the base is smaller than the modulus, by reducing
++ * it modulo the modulus if not.
++ */
++ base = bigmod(mem_ctx, base_in, mod);
++
++ /* Allocate m of size mlen, copy mod to m */
++ /* We use big endian internally */
++ mlen = mod[0];
++ m = snewn(mem_ctx, mlen, BignumInt);
++ //if (!m)
++ //abort(); /* FIXME */
++ for (j = 0; j < mlen; j++)
++ m[j] = mod[mod[0] - j];
++
++ /* Shift m left to make msb bit set */
++ for (mshift = 0; mshift < BIGNUM_INT_BITS - 1; mshift++)
++ if ((m[0] << mshift) & BIGNUM_TOP_BIT)
++ break;
++ if (mshift) {
++ for (i = 0; i < mlen - 1; i++)
++ m[i] =
++ (m[i] << mshift) | (m[i + 1] >>
++ (BIGNUM_INT_BITS - mshift));
++ m[mlen - 1] = m[mlen - 1] << mshift;
++ }
++
++ /* Allocate n of size mlen, copy base to n */
++ n = snewn(mem_ctx, mlen, BignumInt);
++ //if (!n)
++ //abort(); /* FIXME */
++ i = mlen - base[0];
++ for (j = 0; j < i; j++)
++ n[j] = 0;
++ for (j = 0; j < base[0]; j++)
++ n[i + j] = base[base[0] - j];
++
++ /* Allocate a and b of size 2*mlen. Set a = 1 */
++ a = snewn(mem_ctx, 2 * mlen, BignumInt);
++ //if (!a)
++ //abort(); /* FIXME */
++ b = snewn(mem_ctx, 2 * mlen, BignumInt);
++ //if (!b)
++ //abort(); /* FIXME */
++ for (i = 0; i < 2 * mlen; i++)
++ a[i] = 0;
++ a[2 * mlen - 1] = 1;
++
++ /* Skip leading zero bits of exp. */
++ i = 0;
++ j = BIGNUM_INT_BITS - 1;
++ while (i < exp[0] && (exp[exp[0] - i] & (1 << j)) == 0) {
++ j--;
++ if (j < 0) {
++ i++;
++ j = BIGNUM_INT_BITS - 1;
++ }
++ }
++
++ /* Main computation */
++ while (i < exp[0]) {
++ while (j >= 0) {
++ internal_mul(a + mlen, a + mlen, b, mlen);
++ internal_mod(b, mlen * 2, m, mlen, NULL, 0);
++ if ((exp[exp[0] - i] & (1 << j)) != 0) {
++ internal_mul(b + mlen, n, a, mlen);
++ internal_mod(a, mlen * 2, m, mlen, NULL, 0);
++ } else {
++ BignumInt *t;
++ t = a;
++ a = b;
++ b = t;
++ }
++ j--;
++ }
++ i++;
++ j = BIGNUM_INT_BITS - 1;
++ }
++
++ /* Fixup result in case the modulus was shifted */
++ if (mshift) {
++ for (i = mlen - 1; i < 2 * mlen - 1; i++)
++ a[i] =
++ (a[i] << mshift) | (a[i + 1] >>
++ (BIGNUM_INT_BITS - mshift));
++ a[2 * mlen - 1] = a[2 * mlen - 1] << mshift;
++ internal_mod(a, mlen * 2, m, mlen, NULL, 0);
++ for (i = 2 * mlen - 1; i >= mlen; i--)
++ a[i] =
++ (a[i] >> mshift) | (a[i - 1] <<
++ (BIGNUM_INT_BITS - mshift));
++ }
++
++ /* Copy result to buffer */
++ result = newbn(mem_ctx, mod[0]);
++ for (i = 0; i < mlen; i++)
++ result[result[0] - i] = a[i + mlen];
++ while (result[0] > 1 && result[result[0]] == 0)
++ result[0]--;
++
++ /* Free temporary arrays */
++ for (i = 0; i < 2 * mlen; i++)
++ a[i] = 0;
++ sfree(mem_ctx, a);
++ for (i = 0; i < 2 * mlen; i++)
++ b[i] = 0;
++ sfree(mem_ctx, b);
++ for (i = 0; i < mlen; i++)
++ m[i] = 0;
++ sfree(mem_ctx, m);
++ for (i = 0; i < mlen; i++)
++ n[i] = 0;
++ sfree(mem_ctx, n);
++
++ freebn(mem_ctx, base);
++
++ return result;
++}
++
++
++#ifdef UNITTEST
++
++static __u32 dh_p[] = {
++ 96,
++ 0xFFFFFFFF,
++ 0xFFFFFFFF,
++ 0xA93AD2CA,
++ 0x4B82D120,
++ 0xE0FD108E,
++ 0x43DB5BFC,
++ 0x74E5AB31,
++ 0x08E24FA0,
++ 0xBAD946E2,
++ 0x770988C0,
++ 0x7A615D6C,
++ 0xBBE11757,
++ 0x177B200C,
++ 0x521F2B18,
++ 0x3EC86A64,
++ 0xD8760273,
++ 0xD98A0864,
++ 0xF12FFA06,
++ 0x1AD2EE6B,
++ 0xCEE3D226,
++ 0x4A25619D,
++ 0x1E8C94E0,
++ 0xDB0933D7,
++ 0xABF5AE8C,
++ 0xA6E1E4C7,
++ 0xB3970F85,
++ 0x5D060C7D,
++ 0x8AEA7157,
++ 0x58DBEF0A,
++ 0xECFB8504,
++ 0xDF1CBA64,
++ 0xA85521AB,
++ 0x04507A33,
++ 0xAD33170D,
++ 0x8AAAC42D,
++ 0x15728E5A,
++ 0x98FA0510,
++ 0x15D22618,
++ 0xEA956AE5,
++ 0x3995497C,
++ 0x95581718,
++ 0xDE2BCBF6,
++ 0x6F4C52C9,
++ 0xB5C55DF0,
++ 0xEC07A28F,
++ 0x9B2783A2,
++ 0x180E8603,
++ 0xE39E772C,
++ 0x2E36CE3B,
++ 0x32905E46,
++ 0xCA18217C,
++ 0xF1746C08,
++ 0x4ABC9804,
++ 0x670C354E,
++ 0x7096966D,
++ 0x9ED52907,
++ 0x208552BB,
++ 0x1C62F356,
++ 0xDCA3AD96,
++ 0x83655D23,
++ 0xFD24CF5F,
++ 0x69163FA8,
++ 0x1C55D39A,
++ 0x98DA4836,
++ 0xA163BF05,
++ 0xC2007CB8,
++ 0xECE45B3D,
++ 0x49286651,
++ 0x7C4B1FE6,
++ 0xAE9F2411,
++ 0x5A899FA5,
++ 0xEE386BFB,
++ 0xF406B7ED,
++ 0x0BFF5CB6,
++ 0xA637ED6B,
++ 0xF44C42E9,
++ 0x625E7EC6,
++ 0xE485B576,
++ 0x6D51C245,
++ 0x4FE1356D,
++ 0xF25F1437,
++ 0x302B0A6D,
++ 0xCD3A431B,
++ 0xEF9519B3,
++ 0x8E3404DD,
++ 0x514A0879,
++ 0x3B139B22,
++ 0x020BBEA6,
++ 0x8A67CC74,
++ 0x29024E08,
++ 0x80DC1CD1,
++ 0xC4C6628B,
++ 0x2168C234,
++ 0xC90FDAA2,
++ 0xFFFFFFFF,
++ 0xFFFFFFFF,
++};
++
++static __u32 dh_a[] = {
++ 8,
++ 0xdf367516,
++ 0x86459caa,
++ 0xe2d459a4,
++ 0xd910dae0,
++ 0x8a8b5e37,
++ 0x67ab31c6,
++ 0xf0b55ea9,
++ 0x440051d6,
++};
++
++static __u32 dh_b[] = {
++ 8,
++ 0xded92656,
++ 0xe07a048a,
++ 0x6fa452cd,
++ 0x2df89d30,
++ 0xc75f1b0f,
++ 0x8ce3578f,
++ 0x7980a324,
++ 0x5daec786,
++};
++
++static __u32 dh_g[] = {
++ 1,
++ 2,
++};
++
++int main(void)
++{
++ int i;
++ __u32 *k;
++ k = dwc_modpow(NULL, dh_g, dh_a, dh_p);
++
++ printf("\n\n");
++ for (i=0; i<k[0]; i++) {
++ __u32 word32 = k[k[0] - i];
++ __u16 l = word32 & 0xffff;
++ __u16 m = (word32 & 0xffff0000) >> 16;
++ printf("%04x %04x ", m, l);
++ if (!((i + 1)%13)) printf("\n");
++ }
++ printf("\n\n");
++
++ if ((k[0] == 0x60) && (k[1] == 0x28e490e5) && (k[0x60] == 0x5a0d3d4e)) {
++ printf("PASS\n\n");
++ }
++ else {
++ printf("FAIL\n\n");
++ }
++
++}
++
++#endif /* UNITTEST */
++
++#endif /* CONFIG_MACH_IPMATE */
++
++#endif /*DWC_CRYPTOLIB */
+diff -urN linux-3.10/drivers/usb/host/dwc_common_port/dwc_modpow.h linux-rpi-3.10.y/drivers/usb/host/dwc_common_port/dwc_modpow.h
+--- linux-3.10/drivers/usb/host/dwc_common_port/dwc_modpow.h 1970-01-01 01:00:00.000000000 +0100
++++ linux-rpi-3.10.y/drivers/usb/host/dwc_common_port/dwc_modpow.h 2013-07-06 15:25:50.000000000 +0100
+@@ -0,0 +1,34 @@
++/*
++ * dwc_modpow.h
++ * See dwc_modpow.c for license and changes
++ */
++#ifndef _DWC_MODPOW_H
++#define _DWC_MODPOW_H
++
++#ifdef __cplusplus
++extern "C" {
++#endif
++
++#include "dwc_os.h"
++
++/** @file
++ *
++ * This file defines the module exponentiation function which is only used
++ * internally by the DWC UWB modules for calculation of PKs during numeric
++ * association. The routine is taken from the PUTTY, an open source terminal
++ * emulator. The PUTTY License is preserved in the dwc_modpow.c file.
++ *
++ */
++
++typedef uint32_t BignumInt;
++typedef uint64_t BignumDblInt;
++typedef BignumInt *Bignum;
++
++/* Compute modular exponentiaion */
++extern Bignum dwc_modpow(void *mem_ctx, Bignum base_in, Bignum exp, Bignum mod);
++
++#ifdef __cplusplus
++}
++#endif
++
++#endif /* _LINUX_BIGNUM_H */
+diff -urN linux-3.10/drivers/usb/host/dwc_common_port/dwc_notifier.c linux-rpi-3.10.y/drivers/usb/host/dwc_common_port/dwc_notifier.c
+--- linux-3.10/drivers/usb/host/dwc_common_port/dwc_notifier.c 1970-01-01 01:00:00.000000000 +0100
++++ linux-rpi-3.10.y/drivers/usb/host/dwc_common_port/dwc_notifier.c 2013-07-06 15:25:50.000000000 +0100
+@@ -0,0 +1,319 @@
++#ifdef DWC_NOTIFYLIB
++
++#include "dwc_notifier.h"
++#include "dwc_list.h"
++
++typedef struct dwc_observer {
++ void *observer;
++ dwc_notifier_callback_t callback;
++ void *data;
++ char *notification;
++ DWC_CIRCLEQ_ENTRY(dwc_observer) list_entry;
++} observer_t;
++
++DWC_CIRCLEQ_HEAD(observer_queue, dwc_observer);
++
++typedef struct dwc_notifier {
++ void *mem_ctx;
++ void *object;
++ struct observer_queue observers;
++ DWC_CIRCLEQ_ENTRY(dwc_notifier) list_entry;
++} notifier_t;
++
++DWC_CIRCLEQ_HEAD(notifier_queue, dwc_notifier);
++
++typedef struct manager {
++ void *mem_ctx;
++ void *wkq_ctx;
++ dwc_workq_t *wq;
++// dwc_mutex_t *mutex;
++ struct notifier_queue notifiers;
++} manager_t;
++
++static manager_t *manager = NULL;
++
++static int create_manager(void *mem_ctx, void *wkq_ctx)
++{
++ manager = dwc_alloc(mem_ctx, sizeof(manager_t));
++ if (!manager) {
++ return -DWC_E_NO_MEMORY;
++ }
++
++ DWC_CIRCLEQ_INIT(&manager->notifiers);
++
++ manager->wq = dwc_workq_alloc(wkq_ctx, "DWC Notification WorkQ");
++ if (!manager->wq) {
++ return -DWC_E_NO_MEMORY;
++ }
++
++ return 0;
++}
++
++static void free_manager(void)
++{
++ dwc_workq_free(manager->wq);
++
++ /* All notifiers must have unregistered themselves before this module
++ * can be removed. Hitting this assertion indicates a programmer
++ * error. */
++ DWC_ASSERT(DWC_CIRCLEQ_EMPTY(&manager->notifiers),
++ "Notification manager being freed before all notifiers have been removed");
++ dwc_free(manager->mem_ctx, manager);
++}
++
++#ifdef DEBUG
++static void dump_manager(void)
++{
++ notifier_t *n;
++ observer_t *o;
++
++ DWC_ASSERT(manager, "Notification manager not found");
++
++ DWC_DEBUG("List of all notifiers and observers:\n");
++ DWC_CIRCLEQ_FOREACH(n, &manager->notifiers, list_entry) {
++ DWC_DEBUG("Notifier %p has observers:\n", n->object);
++ DWC_CIRCLEQ_FOREACH(o, &n->observers, list_entry) {
++ DWC_DEBUG(" %p watching %s\n", o->observer, o->notification);
++ }
++ }
++}
++#else
++#define dump_manager(...)
++#endif
++
++static observer_t *alloc_observer(void *mem_ctx, void *observer, char *notification,
++ dwc_notifier_callback_t callback, void *data)
++{
++ observer_t *new_observer = dwc_alloc(mem_ctx, sizeof(observer_t));
++
++ if (!new_observer) {
++ return NULL;
++ }
++
++ DWC_CIRCLEQ_INIT_ENTRY(new_observer, list_entry);
++ new_observer->observer = observer;
++ new_observer->notification = notification;
++ new_observer->callback = callback;
++ new_observer->data = data;
++ return new_observer;
++}
++
++static void free_observer(void *mem_ctx, observer_t *observer)
++{
++ dwc_free(mem_ctx, observer);
++}
++
++static notifier_t *alloc_notifier(void *mem_ctx, void *object)
++{
++ notifier_t *notifier;
++
++ if (!object) {
++ return NULL;
++ }
++
++ notifier = dwc_alloc(mem_ctx, sizeof(notifier_t));
++ if (!notifier) {
++ return NULL;
++ }
++
++ DWC_CIRCLEQ_INIT(&notifier->observers);
++ DWC_CIRCLEQ_INIT_ENTRY(notifier, list_entry);
++
++ notifier->mem_ctx = mem_ctx;
++ notifier->object = object;
++ return notifier;
++}
++
++static void free_notifier(notifier_t *notifier)
++{
++ observer_t *observer;
++
++ DWC_CIRCLEQ_FOREACH(observer, &notifier->observers, list_entry) {
++ free_observer(notifier->mem_ctx, observer);
++ }
++
++ dwc_free(notifier->mem_ctx, notifier);
++}
++
++static notifier_t *find_notifier(void *object)
++{
++ notifier_t *notifier;
++
++ DWC_ASSERT(manager, "Notification manager not found");
++
++ if (!object) {
++ return NULL;
++ }
++
++ DWC_CIRCLEQ_FOREACH(notifier, &manager->notifiers, list_entry) {
++ if (notifier->object == object) {
++ return notifier;
++ }
++ }
++
++ return NULL;
++}
++
++int dwc_alloc_notification_manager(void *mem_ctx, void *wkq_ctx)
++{
++ return create_manager(mem_ctx, wkq_ctx);
++}
++
++void dwc_free_notification_manager(void)
++{
++ free_manager();
++}
++
++dwc_notifier_t *dwc_register_notifier(void *mem_ctx, void *object)
++{
++ notifier_t *notifier;
++
++ DWC_ASSERT(manager, "Notification manager not found");
++
++ notifier = find_notifier(object);
++ if (notifier) {
++ DWC_ERROR("Notifier %p is already registered\n", object);
++ return NULL;
++ }
++
++ notifier = alloc_notifier(mem_ctx, object);
++ if (!notifier) {
++ return NULL;
++ }
++
++ DWC_CIRCLEQ_INSERT_TAIL(&manager->notifiers, notifier, list_entry);
++
++ DWC_INFO("Notifier %p registered", object);
++ dump_manager();
++
++ return notifier;
++}
++
++void dwc_unregister_notifier(dwc_notifier_t *notifier)
++{
++ DWC_ASSERT(manager, "Notification manager not found");
++
++ if (!DWC_CIRCLEQ_EMPTY(&notifier->observers)) {
++ observer_t *o;
++
++ DWC_ERROR("Notifier %p has active observers when removing\n", notifier->object);
++ DWC_CIRCLEQ_FOREACH(o, &notifier->observers, list_entry) {
++ DWC_DEBUGC(" %p watching %s\n", o->observer, o->notification);
++ }
++
++ DWC_ASSERT(DWC_CIRCLEQ_EMPTY(&notifier->observers),
++ "Notifier %p has active observers when removing", notifier);
++ }
++
++ DWC_CIRCLEQ_REMOVE_INIT(&manager->notifiers, notifier, list_entry);
++ free_notifier(notifier);
++
++ DWC_INFO("Notifier unregistered");
++ dump_manager();
++}
++
++/* Add an observer to observe the notifier for a particular state, event, or notification. */
++int dwc_add_observer(void *observer, void *object, char *notification,
++ dwc_notifier_callback_t callback, void *data)
++{
++ notifier_t *notifier = find_notifier(object);
++ observer_t *new_observer;
++
++ if (!notifier) {
++ DWC_ERROR("Notifier %p is not found when adding observer\n", object);
++ return -DWC_E_INVALID;
++ }
++
++ new_observer = alloc_observer(notifier->mem_ctx, observer, notification, callback, data);
++ if (!new_observer) {
++ return -DWC_E_NO_MEMORY;
++ }
++
++ DWC_CIRCLEQ_INSERT_TAIL(&notifier->observers, new_observer, list_entry);
++
++ DWC_INFO("Added observer %p to notifier %p observing notification %s, callback=%p, data=%p",
++ observer, object, notification, callback, data);
++
++ dump_manager();
++ return 0;
++}
++
++int dwc_remove_observer(void *observer)
++{
++ notifier_t *n;
++
++ DWC_ASSERT(manager, "Notification manager not found");
++
++ DWC_CIRCLEQ_FOREACH(n, &manager->notifiers, list_entry) {
++ observer_t *o;
++ observer_t *o2;
++
++ DWC_CIRCLEQ_FOREACH_SAFE(o, o2, &n->observers, list_entry) {
++ if (o->observer == observer) {
++ DWC_CIRCLEQ_REMOVE_INIT(&n->observers, o, list_entry);
++ DWC_INFO("Removing observer %p from notifier %p watching notification %s:",
++ o->observer, n->object, o->notification);
++ free_observer(n->mem_ctx, o);
++ }
++ }
++ }
++
++ dump_manager();
++ return 0;
++}
++
++typedef struct callback_data {
++ void *mem_ctx;
++ dwc_notifier_callback_t cb;
++ void *observer;
++ void *data;
++ void *object;
++ char *notification;
++ void *notification_data;
++} cb_data_t;
++
++static void cb_task(void *data)
++{
++ cb_data_t *cb = (cb_data_t *)data;
++
++ cb->cb(cb->object, cb->notification, cb->observer, cb->notification_data, cb->data);
++ dwc_free(cb->mem_ctx, cb);
++}
++
++void dwc_notify(dwc_notifier_t *notifier, char *notification, void *notification_data)
++{
++ observer_t *o;
++
++ DWC_ASSERT(manager, "Notification manager not found");
++
++ DWC_CIRCLEQ_FOREACH(o, &notifier->observers, list_entry) {
++ int len = DWC_STRLEN(notification);
++
++ if (DWC_STRLEN(o->notification) != len) {
++ continue;
++ }
++
++ if (DWC_STRNCMP(o->notification, notification, len) == 0) {
++ cb_data_t *cb_data = dwc_alloc(notifier->mem_ctx, sizeof(cb_data_t));
++
++ if (!cb_data) {
++ DWC_ERROR("Failed to allocate callback data\n");
++ return;
++ }
++
++ cb_data->mem_ctx = notifier->mem_ctx;
++ cb_data->cb = o->callback;
++ cb_data->observer = o->observer;
++ cb_data->data = o->data;
++ cb_data->object = notifier->object;
++ cb_data->notification = notification;
++ cb_data->notification_data = notification_data;
++ DWC_DEBUGC("Observer found %p for notification %s\n", o->observer, notification);
++ DWC_WORKQ_SCHEDULE(manager->wq, cb_task, cb_data,
++ "Notify callback from %p for Notification %s, to observer %p",
++ cb_data->object, notification, cb_data->observer);
++ }
++ }
++}
++
++#endif /* DWC_NOTIFYLIB */
+diff -urN linux-3.10/drivers/usb/host/dwc_common_port/dwc_notifier.h linux-rpi-3.10.y/drivers/usb/host/dwc_common_port/dwc_notifier.h
+--- linux-3.10/drivers/usb/host/dwc_common_port/dwc_notifier.h 1970-01-01 01:00:00.000000000 +0100
++++ linux-rpi-3.10.y/drivers/usb/host/dwc_common_port/dwc_notifier.h 2013-07-06 15:25:50.000000000 +0100
+@@ -0,0 +1,122 @@
++
++#ifndef __DWC_NOTIFIER_H__
++#define __DWC_NOTIFIER_H__
++
++#ifdef __cplusplus
++extern "C" {
++#endif
++
++#include "dwc_os.h"
++
++/** @file
++ *
++ * A simple implementation of the Observer pattern. Any "module" can
++ * register as an observer or notifier. The notion of "module" is abstract and
++ * can mean anything used to identify either an observer or notifier. Usually
++ * it will be a pointer to a data structure which contains some state, ie an
++ * object.
++ *
++ * Before any notifiers can be added, the global notification manager must be
++ * brought up with dwc_alloc_notification_manager().
++ * dwc_free_notification_manager() will bring it down and free all resources.
++ * These would typically be called upon module load and unload. The
++ * notification manager is a single global instance that handles all registered
++ * observable modules and observers so this should be done only once.
++ *
++ * A module can be observable by using Notifications to publicize some general
++ * information about it's state or operation. It does not care who listens, or
++ * even if anyone listens, or what they do with the information. The observable
++ * modules do not need to know any information about it's observers or their
++ * interface, or their state or data.
++ *
++ * Any module can register to emit Notifications. It should publish a list of
++ * notifications that it can emit and their behavior, such as when they will get
++ * triggered, and what information will be provided to the observer. Then it
++ * should register itself as an observable module. See dwc_register_notifier().
++ *
++ * Any module can observe any observable, registered module, provided it has a
++ * handle to the other module and knows what notifications to observe. See
++ * dwc_add_observer().
++ *
++ * A function of type dwc_notifier_callback_t is called whenever a notification
++ * is triggered with one or more observers observing it. This function is
++ * called in it's own process so it may sleep or block if needed. It is
++ * guaranteed to be called sometime after the notification has occurred and will
++ * be called once per each time the notification is triggered. It will NOT be
++ * called in the same process context used to trigger the notification.
++ *
++ * @section Limitiations
++ *
++ * Keep in mind that Notifications that can be triggered in rapid sucession may
++ * schedule too many processes too handle. Be aware of this limitation when
++ * designing to use notifications, and only add notifications for appropriate
++ * observable information.
++ *
++ * Also Notification callbacks are not synchronous. If you need to synchronize
++ * the behavior between module/observer you must use other means. And perhaps
++ * that will mean Notifications are not the proper solution.
++ */
++
++struct dwc_notifier;
++typedef struct dwc_notifier dwc_notifier_t;
++
++/** The callback function must be of this type.
++ *
++ * @param object This is the object that is being observed.
++ * @param notification This is the notification that was triggered.
++ * @param observer This is the observer
++ * @param notification_data This is notification-specific data that the notifier
++ * has included in this notification. The value of this should be published in
++ * the documentation of the observable module with the notifications.
++ * @param user_data This is any custom data that the observer provided when
++ * adding itself as an observer to the notification. */
++typedef void (*dwc_notifier_callback_t)(void *object, char *notification, void *observer,
++ void *notification_data, void *user_data);
++
++/** Brings up the notification manager. */
++extern int dwc_alloc_notification_manager(void *mem_ctx, void *wkq_ctx);
++/** Brings down the notification manager. */
++extern void dwc_free_notification_manager(void);
++
++/** This function registers an observable module. A dwc_notifier_t object is
++ * returned to the observable module. This is an opaque object that is used by
++ * the observable module to trigger notifications. This object should only be
++ * accessible to functions that are authorized to trigger notifications for this
++ * module. Observers do not need this object. */
++extern dwc_notifier_t *dwc_register_notifier(void *mem_ctx, void *object);
++
++/** This function unregisters an observable module. All observers have to be
++ * removed prior to unregistration. */
++extern void dwc_unregister_notifier(dwc_notifier_t *notifier);
++
++/** Add a module as an observer to the observable module. The observable module
++ * needs to have previously registered with the notification manager.
++ *
++ * @param observer The observer module
++ * @param object The module to observe
++ * @param notification The notification to observe
++ * @param callback The callback function to call
++ * @param user_data Any additional user data to pass into the callback function */
++extern int dwc_add_observer(void *observer, void *object, char *notification,
++ dwc_notifier_callback_t callback, void *user_data);
++
++/** Removes the specified observer from all notifications that it is currently
++ * observing. */
++extern int dwc_remove_observer(void *observer);
++
++/** This function triggers a Notification. It should be called by the
++ * observable module, or any module or library which the observable module
++ * allows to trigger notification on it's behalf. Such as the dwc_cc_t.
++ *
++ * dwc_notify is a non-blocking function. Callbacks are scheduled called in
++ * their own process context for each trigger. Callbacks can be blocking.
++ * dwc_notify can be called from interrupt context if needed.
++ *
++ */
++void dwc_notify(dwc_notifier_t *notifier, char *notification, void *notification_data);
++
++#ifdef __cplusplus
++}
++#endif
++
++#endif /* __DWC_NOTIFIER_H__ */
+diff -urN linux-3.10/drivers/usb/host/dwc_common_port/dwc_os.h linux-rpi-3.10.y/drivers/usb/host/dwc_common_port/dwc_os.h
+--- linux-3.10/drivers/usb/host/dwc_common_port/dwc_os.h 1970-01-01 01:00:00.000000000 +0100
++++ linux-rpi-3.10.y/drivers/usb/host/dwc_common_port/dwc_os.h 2013-07-06 15:25:50.000000000 +0100
+@@ -0,0 +1,1262 @@
++/* =========================================================================
++ * $File: //dwh/usb_iip/dev/software/dwc_common_port_2/dwc_os.h $
++ * $Revision: #14 $
++ * $Date: 2010/11/04 $
++ * $Change: 1621695 $
++ *
++ * Synopsys Portability Library Software and documentation
++ * (hereinafter, "Software") is an Unsupported proprietary work of
++ * Synopsys, Inc. unless otherwise expressly agreed to in writing
++ * between Synopsys and you.
++ *
++ * The Software IS NOT an item of Licensed Software or Licensed Product
++ * under any End User Software License Agreement or Agreement for
++ * Licensed Product with Synopsys or any supplement thereto. You are
++ * permitted to use and redistribute this Software in source and binary
++ * forms, with or without modification, provided that redistributions
++ * of source code must retain this notice. You may not view, use,
++ * disclose, copy or distribute this file or any information contained
++ * herein except pursuant to this license grant from Synopsys. If you
++ * do not agree with this notice, including the disclaimer below, then
++ * you are not authorized to use the Software.
++ *
++ * THIS SOFTWARE IS BEING DISTRIBUTED BY SYNOPSYS SOLELY ON AN "AS IS"
++ * BASIS AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT
++ * LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS
++ * FOR A PARTICULAR PURPOSE ARE HEREBY DISCLAIMED. IN NO EVENT SHALL
++ * SYNOPSYS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL,
++ * EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO,
++ * PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR
++ * PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY
++ * OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
++ * (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE
++ * USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH
++ * DAMAGE.
++ * ========================================================================= */
++#ifndef _DWC_OS_H_
++#define _DWC_OS_H_
++
++#ifdef __cplusplus
++extern "C" {
++#endif
++
++/** @file
++ *
++ * DWC portability library, low level os-wrapper functions
++ *
++ */
++
++/* These basic types need to be defined by some OS header file or custom header
++ * file for your specific target architecture.
++ *
++ * uint8_t, int8_t, uint16_t, int16_t, uint32_t, int32_t, uint64_t, int64_t
++ *
++ * Any custom or alternate header file must be added and enabled here.
++ */
++
++#ifdef DWC_LINUX
++# include <linux/types.h>
++# ifdef CONFIG_DEBUG_MUTEXES
++# include <linux/mutex.h>
++# endif
++# include <linux/errno.h>
++# include <stdarg.h>
++#endif
++
++#if defined(DWC_FREEBSD) || defined(DWC_NETBSD)
++# include <os_dep.h>
++#endif
++
++
++/** @name Primitive Types and Values */
++
++/** We define a boolean type for consistency. Can be either YES or NO */
++typedef uint8_t dwc_bool_t;
++#define YES 1
++#define NO 0
++
++#ifdef DWC_LINUX
++
++/** @name Error Codes */
++#define DWC_E_INVALID EINVAL
++#define DWC_E_NO_MEMORY ENOMEM
++#define DWC_E_NO_DEVICE ENODEV
++#define DWC_E_NOT_SUPPORTED EOPNOTSUPP
++#define DWC_E_TIMEOUT ETIMEDOUT
++#define DWC_E_BUSY EBUSY
++#define DWC_E_AGAIN EAGAIN
++#define DWC_E_RESTART ERESTART
++#define DWC_E_ABORT ECONNABORTED
++#define DWC_E_SHUTDOWN ESHUTDOWN
++#define DWC_E_NO_DATA ENODATA
++#define DWC_E_DISCONNECT ECONNRESET
++#define DWC_E_UNKNOWN EINVAL
++#define DWC_E_NO_STREAM_RES ENOSR
++#define DWC_E_COMMUNICATION ECOMM
++#define DWC_E_OVERFLOW EOVERFLOW
++#define DWC_E_PROTOCOL EPROTO
++#define DWC_E_IN_PROGRESS EINPROGRESS
++#define DWC_E_PIPE EPIPE
++#define DWC_E_IO EIO
++#define DWC_E_NO_SPACE ENOSPC
++
++#else
++
++/** @name Error Codes */
++#define DWC_E_INVALID 1001
++#define DWC_E_NO_MEMORY 1002
++#define DWC_E_NO_DEVICE 1003
++#define DWC_E_NOT_SUPPORTED 1004
++#define DWC_E_TIMEOUT 1005
++#define DWC_E_BUSY 1006
++#define DWC_E_AGAIN 1007
++#define DWC_E_RESTART 1008
++#define DWC_E_ABORT 1009
++#define DWC_E_SHUTDOWN 1010
++#define DWC_E_NO_DATA 1011
++#define DWC_E_DISCONNECT 2000
++#define DWC_E_UNKNOWN 3000
++#define DWC_E_NO_STREAM_RES 4001
++#define DWC_E_COMMUNICATION 4002
++#define DWC_E_OVERFLOW 4003
++#define DWC_E_PROTOCOL 4004
++#define DWC_E_IN_PROGRESS 4005
++#define DWC_E_PIPE 4006
++#define DWC_E_IO 4007
++#define DWC_E_NO_SPACE 4008
++
++#endif
++
++
++/** @name Tracing/Logging Functions
++ *
++ * These function provide the capability to add tracing, debugging, and error
++ * messages, as well exceptions as assertions. The WUDEV uses these
++ * extensively. These could be logged to the main console, the serial port, an
++ * internal buffer, etc. These functions could also be no-op if they are too
++ * expensive on your system. By default undefining the DEBUG macro already
++ * no-ops some of these functions. */
++
++/** Returns non-zero if in interrupt context. */
++extern dwc_bool_t DWC_IN_IRQ(void);
++#define dwc_in_irq DWC_IN_IRQ
++
++/** Returns "IRQ" if DWC_IN_IRQ is true. */
++static inline char *dwc_irq(void) {
++ return DWC_IN_IRQ() ? "IRQ" : "";
++}
++
++/** Returns non-zero if in bottom-half context. */
++extern dwc_bool_t DWC_IN_BH(void);
++#define dwc_in_bh DWC_IN_BH
++
++/** Returns "BH" if DWC_IN_BH is true. */
++static inline char *dwc_bh(void) {
++ return DWC_IN_BH() ? "BH" : "";
++}
++
++/**
++ * A vprintf() clone. Just call vprintf if you've got it.
++ */
++extern void DWC_VPRINTF(char *format, va_list args);
++#define dwc_vprintf DWC_VPRINTF
++
++/**
++ * A vsnprintf() clone. Just call vprintf if you've got it.
++ */
++extern int DWC_VSNPRINTF(char *str, int size, char *format, va_list args);
++#define dwc_vsnprintf DWC_VSNPRINTF
++
++/**
++ * printf() clone. Just call printf if you've go it.
++ */
++extern void DWC_PRINTF(char *format, ...)
++/* This provides compiler level static checking of the parameters if you're
++ * using GCC. */
++#ifdef __GNUC__
++ __attribute__ ((format(printf, 1, 2)));
++#else
++ ;
++#endif
++#define dwc_printf DWC_PRINTF
++
++/**
++ * sprintf() clone. Just call sprintf if you've got it.
++ */
++extern int DWC_SPRINTF(char *string, char *format, ...)
++#ifdef __GNUC__
++ __attribute__ ((format(printf, 2, 3)));
++#else
++ ;
++#endif
++#define dwc_sprintf DWC_SPRINTF
++
++/**
++ * snprintf() clone. Just call snprintf if you've got it.
++ */
++extern int DWC_SNPRINTF(char *string, int size, char *format, ...)
++#ifdef __GNUC__
++ __attribute__ ((format(printf, 3, 4)));
++#else
++ ;
++#endif
++#define dwc_snprintf DWC_SNPRINTF
++
++/**
++ * Prints a WARNING message. On systems that don't differentiate between
++ * warnings and regular log messages, just print it. Indicates that something
++ * may be wrong with the driver. Works like printf().
++ *
++ * Use the DWC_WARN macro to call this function.
++ */
++extern void __DWC_WARN(char *format, ...)
++#ifdef __GNUC__
++ __attribute__ ((format(printf, 1, 2)));
++#else
++ ;
++#endif
++
++/**
++ * Prints an error message. On systems that don't differentiate between errors
++ * and regular log messages, just print it. Indicates that something went wrong
++ * with the driver. Works like printf().
++ *
++ * Use the DWC_ERROR macro to call this function.
++ */
++extern void __DWC_ERROR(char *format, ...)
++#ifdef __GNUC__
++ __attribute__ ((format(printf, 1, 2)));
++#else
++ ;
++#endif
++
++/**
++ * Prints an exception error message and takes some user-defined action such as
++ * print out a backtrace or trigger a breakpoint. Indicates that something went
++ * abnormally wrong with the driver such as programmer error, or other
++ * exceptional condition. It should not be ignored so even on systems without
++ * printing capability, some action should be taken to notify the developer of
++ * it. Works like printf().
++ */
++extern void DWC_EXCEPTION(char *format, ...)
++#ifdef __GNUC__
++ __attribute__ ((format(printf, 1, 2)));
++#else
++ ;
++#endif
++#define dwc_exception DWC_EXCEPTION
++
++#ifndef DWC_OTG_DEBUG_LEV
++#define DWC_OTG_DEBUG_LEV 0
++#endif
++
++#ifdef DEBUG
++/**
++ * Prints out a debug message. Used for logging/trace messages.
++ *
++ * Use the DWC_DEBUG macro to call this function
++ */
++extern void __DWC_DEBUG(char *format, ...)
++#ifdef __GNUC__
++ __attribute__ ((format(printf, 1, 2)));
++#else
++ ;
++#endif
++#else
++#define __DWC_DEBUG printk
++#endif
++
++/**
++ * Prints out a Debug message.
++ */
++#define DWC_DEBUG(_format, _args...) __DWC_DEBUG("DEBUG:%s:%s: " _format "\n", \
++ __func__, dwc_irq(), ## _args)
++#define dwc_debug DWC_DEBUG
++/**
++ * Prints out a Debug message if enabled at compile time.
++ */
++#if DWC_OTG_DEBUG_LEV > 0
++#define DWC_DEBUGC(_format, _args...) DWC_DEBUG(_format, ##_args )
++#else
++#define DWC_DEBUGC(_format, _args...)
++#endif
++#define dwc_debugc DWC_DEBUGC
++/**
++ * Prints out an informative message.
++ */
++#define DWC_INFO(_format, _args...) DWC_PRINTF("INFO:%s: " _format "\n", \
++ dwc_irq(), ## _args)
++#define dwc_info DWC_INFO
++/**
++ * Prints out an informative message if enabled at compile time.
++ */
++#if DWC_OTG_DEBUG_LEV > 1
++#define DWC_INFOC(_format, _args...) DWC_INFO(_format, ##_args )
++#else
++#define DWC_INFOC(_format, _args...)
++#endif
++#define dwc_infoc DWC_INFOC
++/**
++ * Prints out a warning message.
++ */
++#define DWC_WARN(_format, _args...) __DWC_WARN("WARN:%s:%s:%d: " _format "\n", \
++ dwc_irq(), __func__, __LINE__, ## _args)
++#define dwc_warn DWC_WARN
++/**
++ * Prints out an error message.
++ */
++#define DWC_ERROR(_format, _args...) __DWC_ERROR("ERROR:%s:%s:%d: " _format "\n", \
++ dwc_irq(), __func__, __LINE__, ## _args)
++#define dwc_error DWC_ERROR
++
++#define DWC_PROTO_ERROR(_format, _args...) __DWC_WARN("ERROR:%s:%s:%d: " _format "\n", \
++ dwc_irq(), __func__, __LINE__, ## _args)
++#define dwc_proto_error DWC_PROTO_ERROR
++
++#ifdef DEBUG
++/** Prints out a exception error message if the _expr expression fails. Disabled
++ * if DEBUG is not enabled. */
++#define DWC_ASSERT(_expr, _format, _args...) do { \
++ if (!(_expr)) { DWC_EXCEPTION("%s:%s:%d: " _format "\n", dwc_irq(), \
++ __FILE__, __LINE__, ## _args); } \
++ } while (0)
++#else
++#define DWC_ASSERT(_x...)
++#endif
++#define dwc_assert DWC_ASSERT
++
++
++/** @name Byte Ordering
++ * The following functions are for conversions between processor's byte ordering
++ * and specific ordering you want.
++ */
++
++/** Converts 32 bit data in CPU byte ordering to little endian. */
++extern uint32_t DWC_CPU_TO_LE32(uint32_t *p);
++#define dwc_cpu_to_le32 DWC_CPU_TO_LE32
++
++/** Converts 32 bit data in CPU byte orderint to big endian. */
++extern uint32_t DWC_CPU_TO_BE32(uint32_t *p);
++#define dwc_cpu_to_be32 DWC_CPU_TO_BE32
++
++/** Converts 32 bit little endian data to CPU byte ordering. */
++extern uint32_t DWC_LE32_TO_CPU(uint32_t *p);
++#define dwc_le32_to_cpu DWC_LE32_TO_CPU
++
++/** Converts 32 bit big endian data to CPU byte ordering. */
++extern uint32_t DWC_BE32_TO_CPU(uint32_t *p);
++#define dwc_be32_to_cpu DWC_BE32_TO_CPU
++
++/** Converts 16 bit data in CPU byte ordering to little endian. */
++extern uint16_t DWC_CPU_TO_LE16(uint16_t *p);
++#define dwc_cpu_to_le16 DWC_CPU_TO_LE16
++
++/** Converts 16 bit data in CPU byte orderint to big endian. */
++extern uint16_t DWC_CPU_TO_BE16(uint16_t *p);
++#define dwc_cpu_to_be16 DWC_CPU_TO_BE16
++
++/** Converts 16 bit little endian data to CPU byte ordering. */
++extern uint16_t DWC_LE16_TO_CPU(uint16_t *p);
++#define dwc_le16_to_cpu DWC_LE16_TO_CPU
++
++/** Converts 16 bit bi endian data to CPU byte ordering. */
++extern uint16_t DWC_BE16_TO_CPU(uint16_t *p);
++#define dwc_be16_to_cpu DWC_BE16_TO_CPU
++
++
++/** @name Register Read/Write
++ *
++ * The following six functions should be implemented to read/write registers of
++ * 32-bit and 64-bit sizes. All modules use this to read/write register values.
++ * The reg value is a pointer to the register calculated from the void *base
++ * variable passed into the driver when it is started. */
++
++#ifdef DWC_LINUX
++/* Linux doesn't need any extra parameters for register read/write, so we
++ * just throw away the IO context parameter.
++ */
++/** Reads the content of a 32-bit register. */
++extern uint32_t DWC_READ_REG32(uint32_t volatile *reg);
++#define dwc_read_reg32(_ctx_,_reg_) DWC_READ_REG32(_reg_)
++
++/** Reads the content of a 64-bit register. */
++extern uint64_t DWC_READ_REG64(uint64_t volatile *reg);
++#define dwc_read_reg64(_ctx_,_reg_) DWC_READ_REG64(_reg_)
++
++/** Writes to a 32-bit register. */
++extern void DWC_WRITE_REG32(uint32_t volatile *reg, uint32_t value);
++#define dwc_write_reg32(_ctx_,_reg_,_val_) DWC_WRITE_REG32(_reg_, _val_)
++
++/** Writes to a 64-bit register. */
++extern void DWC_WRITE_REG64(uint64_t volatile *reg, uint64_t value);
++#define dwc_write_reg64(_ctx_,_reg_,_val_) DWC_WRITE_REG64(_reg_, _val_)
++
++/**
++ * Modify bit values in a register. Using the
++ * algorithm: (reg_contents & ~clear_mask) | set_mask.
++ */
++extern void DWC_MODIFY_REG32(uint32_t volatile *reg, uint32_t clear_mask, uint32_t set_mask);
++#define dwc_modify_reg32(_ctx_,_reg_,_cmsk_,_smsk_) DWC_MODIFY_REG32(_reg_,_cmsk_,_smsk_)
++extern void DWC_MODIFY_REG64(uint64_t volatile *reg, uint64_t clear_mask, uint64_t set_mask);
++#define dwc_modify_reg64(_ctx_,_reg_,_cmsk_,_smsk_) DWC_MODIFY_REG64(_reg_,_cmsk_,_smsk_)
++
++#endif /* DWC_LINUX */
++
++#if defined(DWC_FREEBSD) || defined(DWC_NETBSD)
++typedef struct dwc_ioctx {
++ struct device *dev;
++ bus_space_tag_t iot;
++ bus_space_handle_t ioh;
++} dwc_ioctx_t;
++
++/** BSD needs two extra parameters for register read/write, so we pass
++ * them in using the IO context parameter.
++ */
++/** Reads the content of a 32-bit register. */
++extern uint32_t DWC_READ_REG32(void *io_ctx, uint32_t volatile *reg);
++#define dwc_read_reg32 DWC_READ_REG32
++
++/** Reads the content of a 64-bit register. */
++extern uint64_t DWC_READ_REG64(void *io_ctx, uint64_t volatile *reg);
++#define dwc_read_reg64 DWC_READ_REG64
++
++/** Writes to a 32-bit register. */
++extern void DWC_WRITE_REG32(void *io_ctx, uint32_t volatile *reg, uint32_t value);
++#define dwc_write_reg32 DWC_WRITE_REG32
++
++/** Writes to a 64-bit register. */
++extern void DWC_WRITE_REG64(void *io_ctx, uint64_t volatile *reg, uint64_t value);
++#define dwc_write_reg64 DWC_WRITE_REG64
++
++/**
++ * Modify bit values in a register. Using the
++ * algorithm: (reg_contents & ~clear_mask) | set_mask.
++ */
++extern void DWC_MODIFY_REG32(void *io_ctx, uint32_t volatile *reg, uint32_t clear_mask, uint32_t set_mask);
++#define dwc_modify_reg32 DWC_MODIFY_REG32
++extern void DWC_MODIFY_REG64(void *io_ctx, uint64_t volatile *reg, uint64_t clear_mask, uint64_t set_mask);
++#define dwc_modify_reg64 DWC_MODIFY_REG64
++
++#endif /* DWC_FREEBSD || DWC_NETBSD */
++
++/** @cond */
++
++/** @name Some convenience MACROS used internally. Define DWC_DEBUG_REGS to log the
++ * register writes. */
++
++#ifdef DWC_LINUX
++
++# ifdef DWC_DEBUG_REGS
++
++#define dwc_define_read_write_reg_n(_reg,_container_type) \
++static inline uint32_t dwc_read_##_reg##_n(_container_type *container, int num) { \
++ return DWC_READ_REG32(&container->regs->_reg[num]); \
++} \
++static inline void dwc_write_##_reg##_n(_container_type *container, int num, uint32_t data) { \
++ DWC_DEBUG("WRITING %8s[%d]: %p: %08x", #_reg, num, \
++ &(((uint32_t*)container->regs->_reg)[num]), data); \
++ DWC_WRITE_REG32(&(((uint32_t*)container->regs->_reg)[num]), data); \
++}
++
++#define dwc_define_read_write_reg(_reg,_container_type) \
++static inline uint32_t dwc_read_##_reg(_container_type *container) { \
++ return DWC_READ_REG32(&container->regs->_reg); \
++} \
++static inline void dwc_write_##_reg(_container_type *container, uint32_t data) { \
++ DWC_DEBUG("WRITING %11s: %p: %08x", #_reg, &container->regs->_reg, data); \
++ DWC_WRITE_REG32(&container->regs->_reg, data); \
++}
++
++# else /* DWC_DEBUG_REGS */
++
++#define dwc_define_read_write_reg_n(_reg,_container_type) \
++static inline uint32_t dwc_read_##_reg##_n(_container_type *container, int num) { \
++ return DWC_READ_REG32(&container->regs->_reg[num]); \
++} \
++static inline void dwc_write_##_reg##_n(_container_type *container, int num, uint32_t data) { \
++ DWC_WRITE_REG32(&(((uint32_t*)container->regs->_reg)[num]), data); \
++}
++
++#define dwc_define_read_write_reg(_reg,_container_type) \
++static inline uint32_t dwc_read_##_reg(_container_type *container) { \
++ return DWC_READ_REG32(&container->regs->_reg); \
++} \
++static inline void dwc_write_##_reg(_container_type *container, uint32_t data) { \
++ DWC_WRITE_REG32(&container->regs->_reg, data); \
++}
++
++# endif /* DWC_DEBUG_REGS */
++
++#endif /* DWC_LINUX */
++
++#if defined(DWC_FREEBSD) || defined(DWC_NETBSD)
++
++# ifdef DWC_DEBUG_REGS
++
++#define dwc_define_read_write_reg_n(_reg,_container_type) \
++static inline uint32_t dwc_read_##_reg##_n(void *io_ctx, _container_type *container, int num) { \
++ return DWC_READ_REG32(io_ctx, &container->regs->_reg[num]); \
++} \
++static inline void dwc_write_##_reg##_n(void *io_ctx, _container_type *container, int num, uint32_t data) { \
++ DWC_DEBUG("WRITING %8s[%d]: %p: %08x", #_reg, num, \
++ &(((uint32_t*)container->regs->_reg)[num]), data); \
++ DWC_WRITE_REG32(io_ctx, &(((uint32_t*)container->regs->_reg)[num]), data); \
++}
++
++#define dwc_define_read_write_reg(_reg,_container_type) \
++static inline uint32_t dwc_read_##_reg(void *io_ctx, _container_type *container) { \
++ return DWC_READ_REG32(io_ctx, &container->regs->_reg); \
++} \
++static inline void dwc_write_##_reg(void *io_ctx, _container_type *container, uint32_t data) { \
++ DWC_DEBUG("WRITING %11s: %p: %08x", #_reg, &container->regs->_reg, data); \
++ DWC_WRITE_REG32(io_ctx, &container->regs->_reg, data); \
++}
++
++# else /* DWC_DEBUG_REGS */
++
++#define dwc_define_read_write_reg_n(_reg,_container_type) \
++static inline uint32_t dwc_read_##_reg##_n(void *io_ctx, _container_type *container, int num) { \
++ return DWC_READ_REG32(io_ctx, &container->regs->_reg[num]); \
++} \
++static inline void dwc_write_##_reg##_n(void *io_ctx, _container_type *container, int num, uint32_t data) { \
++ DWC_WRITE_REG32(io_ctx, &(((uint32_t*)container->regs->_reg)[num]), data); \
++}
++
++#define dwc_define_read_write_reg(_reg,_container_type) \
++static inline uint32_t dwc_read_##_reg(void *io_ctx, _container_type *container) { \
++ return DWC_READ_REG32(io_ctx, &container->regs->_reg); \
++} \
++static inline void dwc_write_##_reg(void *io_ctx, _container_type *container, uint32_t data) { \
++ DWC_WRITE_REG32(io_ctx, &container->regs->_reg, data); \
++}
++
++# endif /* DWC_DEBUG_REGS */
++
++#endif /* DWC_FREEBSD || DWC_NETBSD */
++
++/** @endcond */
++
++
++#ifdef DWC_CRYPTOLIB
++/** @name Crypto Functions
++ *
++ * These are the low-level cryptographic functions used by the driver. */
++
++/** Perform AES CBC */
++extern int DWC_AES_CBC(uint8_t *message, uint32_t messagelen, uint8_t *key, uint32_t keylen, uint8_t iv[16], uint8_t *out);
++#define dwc_aes_cbc DWC_AES_CBC
++
++/** Fill the provided buffer with random bytes. These should be cryptographic grade random numbers. */
++extern void DWC_RANDOM_BYTES(uint8_t *buffer, uint32_t length);
++#define dwc_random_bytes DWC_RANDOM_BYTES
++
++/** Perform the SHA-256 hash function */
++extern int DWC_SHA256(uint8_t *message, uint32_t len, uint8_t *out);
++#define dwc_sha256 DWC_SHA256
++
++/** Calculated the HMAC-SHA256 */
++extern int DWC_HMAC_SHA256(uint8_t *message, uint32_t messagelen, uint8_t *key, uint32_t keylen, uint8_t *out);
++#define dwc_hmac_sha256 DWC_HMAC_SHA256
++
++#endif /* DWC_CRYPTOLIB */
++
++
++/** @name Memory Allocation
++ *
++ * These function provide access to memory allocation. There are only 2 DMA
++ * functions and 3 Regular memory functions that need to be implemented. None
++ * of the memory debugging routines need to be implemented. The allocation
++ * routines all ZERO the contents of the memory.
++ *
++ * Defining DWC_DEBUG_MEMORY turns on memory debugging and statistic gathering.
++ * This checks for memory leaks, keeping track of alloc/free pairs. It also
++ * keeps track of how much memory the driver is using at any given time. */
++
++#define DWC_PAGE_SIZE 4096
++#define DWC_PAGE_OFFSET(addr) (((uint32_t)addr) & 0xfff)
++#define DWC_PAGE_ALIGNED(addr) ((((uint32_t)addr) & 0xfff) == 0)
++
++#define DWC_INVALID_DMA_ADDR 0x0
++
++#ifdef DWC_LINUX
++/** Type for a DMA address */
++typedef dma_addr_t dwc_dma_t;
++#endif
++
++#if defined(DWC_FREEBSD) || defined(DWC_NETBSD)
++typedef bus_addr_t dwc_dma_t;
++#endif
++
++#ifdef DWC_FREEBSD
++typedef struct dwc_dmactx {
++ struct device *dev;
++ bus_dma_tag_t dma_tag;
++ bus_dmamap_t dma_map;
++ bus_addr_t dma_paddr;
++ void *dma_vaddr;
++} dwc_dmactx_t;
++#endif
++
++#ifdef DWC_NETBSD
++typedef struct dwc_dmactx {
++ struct device *dev;
++ bus_dma_tag_t dma_tag;
++ bus_dmamap_t dma_map;
++ bus_dma_segment_t segs[1];
++ int nsegs;
++ bus_addr_t dma_paddr;
++ void *dma_vaddr;
++} dwc_dmactx_t;
++#endif
++
++/* @todo these functions will be added in the future */
++#if 0
++/**
++ * Creates a DMA pool from which you can allocate DMA buffers. Buffers
++ * allocated from this pool will be guaranteed to meet the size, alignment, and
++ * boundary requirements specified.
++ *
++ * @param[in] size Specifies the size of the buffers that will be allocated from
++ * this pool.
++ * @param[in] align Specifies the byte alignment requirements of the buffers
++ * allocated from this pool. Must be a power of 2.
++ * @param[in] boundary Specifies the N-byte boundary that buffers allocated from
++ * this pool must not cross.
++ *
++ * @returns A pointer to an internal opaque structure which is not to be
++ * accessed outside of these library functions. Use this handle to specify
++ * which pools to allocate/free DMA buffers from and also to destroy the pool,
++ * when you are done with it.
++ */
++extern dwc_pool_t *DWC_DMA_POOL_CREATE(uint32_t size, uint32_t align, uint32_t boundary);
++
++/**
++ * Destroy a DMA pool. All buffers allocated from that pool must be freed first.
++ */
++extern void DWC_DMA_POOL_DESTROY(dwc_pool_t *pool);
++
++/**
++ * Allocate a buffer from the specified DMA pool and zeros its contents.
++ */
++extern void *DWC_DMA_POOL_ALLOC(dwc_pool_t *pool, uint64_t *dma_addr);
++
++/**
++ * Free a previously allocated buffer from the DMA pool.
++ */
++extern void DWC_DMA_POOL_FREE(dwc_pool_t *pool, void *vaddr, void *daddr);
++#endif
++
++/** Allocates a DMA capable buffer and zeroes its contents. */
++extern void *__DWC_DMA_ALLOC(void *dma_ctx, uint32_t size, dwc_dma_t *dma_addr);
++
++/** Allocates a DMA capable buffer and zeroes its contents in atomic contest */
++extern void *__DWC_DMA_ALLOC_ATOMIC(void *dma_ctx, uint32_t size, dwc_dma_t *dma_addr);
++
++/** Frees a previously allocated buffer. */
++extern void __DWC_DMA_FREE(void *dma_ctx, uint32_t size, void *virt_addr, dwc_dma_t dma_addr);
++
++/** Allocates a block of memory and zeroes its contents. */
++extern void *__DWC_ALLOC(void *mem_ctx, uint32_t size);
++
++/** Allocates a block of memory and zeroes its contents, in an atomic manner
++ * which can be used inside interrupt context. The size should be sufficiently
++ * small, a few KB at most, such that failures are not likely to occur. Can just call
++ * __DWC_ALLOC if it is atomic. */
++extern void *__DWC_ALLOC_ATOMIC(void *mem_ctx, uint32_t size);
++
++/** Frees a previously allocated buffer. */
++extern void __DWC_FREE(void *mem_ctx, void *addr);
++
++#ifndef DWC_DEBUG_MEMORY
++
++#define DWC_ALLOC(_size_) __DWC_ALLOC(NULL, _size_)
++#define DWC_ALLOC_ATOMIC(_size_) __DWC_ALLOC_ATOMIC(NULL, _size_)
++#define DWC_FREE(_addr_) __DWC_FREE(NULL, _addr_)
++
++# ifdef DWC_LINUX
++#define DWC_DMA_ALLOC(_size_,_dma_) __DWC_DMA_ALLOC(NULL, _size_, _dma_)
++#define DWC_DMA_ALLOC_ATOMIC(_size_,_dma_) __DWC_DMA_ALLOC_ATOMIC(NULL, _size_,_dma_)
++#define DWC_DMA_FREE(_size_,_virt_,_dma_) __DWC_DMA_FREE(NULL, _size_, _virt_, _dma_)
++# endif
++
++# if defined(DWC_FREEBSD) || defined(DWC_NETBSD)
++#define DWC_DMA_ALLOC __DWC_DMA_ALLOC
++#define DWC_DMA_FREE __DWC_DMA_FREE
++# endif
++extern void *dwc_dma_alloc_atomic_debug(uint32_t size, dwc_dma_t *dma_addr, char const *func, int line);
++
++#else /* DWC_DEBUG_MEMORY */
++
++extern void *dwc_alloc_debug(void *mem_ctx, uint32_t size, char const *func, int line);
++extern void *dwc_alloc_atomic_debug(void *mem_ctx, uint32_t size, char const *func, int line);
++extern void dwc_free_debug(void *mem_ctx, void *addr, char const *func, int line);
++extern void *dwc_dma_alloc_debug(void *dma_ctx, uint32_t size, dwc_dma_t *dma_addr,
++ char const *func, int line);
++extern void *dwc_dma_alloc_atomic_debug(void *dma_ctx, uint32_t size, dwc_dma_t *dma_addr,
++ char const *func, int line);
++extern void dwc_dma_free_debug(void *dma_ctx, uint32_t size, void *virt_addr,
++ dwc_dma_t dma_addr, char const *func, int line);
++
++extern int dwc_memory_debug_start(void *mem_ctx);
++extern void dwc_memory_debug_stop(void);
++extern void dwc_memory_debug_report(void);
++
++#define DWC_ALLOC(_size_) dwc_alloc_debug(NULL, _size_, __func__, __LINE__)
++#define DWC_ALLOC_ATOMIC(_size_) dwc_alloc_atomic_debug(NULL, _size_, \
++ __func__, __LINE__)
++#define DWC_FREE(_addr_) dwc_free_debug(NULL, _addr_, __func__, __LINE__)
++
++# ifdef DWC_LINUX
++#define DWC_DMA_ALLOC(_size_,_dma_) dwc_dma_alloc_debug(NULL, _size_, \
++ _dma_, __func__, __LINE__)
++#define DWC_DMA_ALLOC_ATOMIC(_size_,_dma_) dwc_dma_alloc_atomic_debug(NULL, _size_, \
++ _dma_, __func__, __LINE__)
++#define DWC_DMA_FREE(_size_,_virt_,_dma_) dwc_dma_free_debug(NULL, _size_, \
++ _virt_, _dma_, __func__, __LINE__)
++# endif
++
++# if defined(DWC_FREEBSD) || defined(DWC_NETBSD)
++#define DWC_DMA_ALLOC(_ctx_,_size_,_dma_) dwc_dma_alloc_debug(_ctx_, _size_, \
++ _dma_, __func__, __LINE__)
++#define DWC_DMA_FREE(_ctx_,_size_,_virt_,_dma_) dwc_dma_free_debug(_ctx_, _size_, \
++ _virt_, _dma_, __func__, __LINE__)
++# endif
++
++#endif /* DWC_DEBUG_MEMORY */
++
++#define dwc_alloc(_ctx_,_size_) DWC_ALLOC(_size_)
++#define dwc_alloc_atomic(_ctx_,_size_) DWC_ALLOC_ATOMIC(_size_)
++#define dwc_free(_ctx_,_addr_) DWC_FREE(_addr_)
++
++#ifdef DWC_LINUX
++/* Linux doesn't need any extra parameters for DMA buffer allocation, so we
++ * just throw away the DMA context parameter.
++ */
++#define dwc_dma_alloc(_ctx_,_size_,_dma_) DWC_DMA_ALLOC(_size_, _dma_)
++#define dwc_dma_alloc_atomic(_ctx_,_size_,_dma_) DWC_DMA_ALLOC_ATOMIC(_size_, _dma_)
++#define dwc_dma_free(_ctx_,_size_,_virt_,_dma_) DWC_DMA_FREE(_size_, _virt_, _dma_)
++#endif
++
++#if defined(DWC_FREEBSD) || defined(DWC_NETBSD)
++/** BSD needs several extra parameters for DMA buffer allocation, so we pass
++ * them in using the DMA context parameter.
++ */
++#define dwc_dma_alloc DWC_DMA_ALLOC
++#define dwc_dma_free DWC_DMA_FREE
++#endif
++
++
++/** @name Memory and String Processing */
++
++/** memset() clone */
++extern void *DWC_MEMSET(void *dest, uint8_t byte, uint32_t size);
++#define dwc_memset DWC_MEMSET
++
++/** memcpy() clone */
++extern void *DWC_MEMCPY(void *dest, void const *src, uint32_t size);
++#define dwc_memcpy DWC_MEMCPY
++
++/** memmove() clone */
++extern void *DWC_MEMMOVE(void *dest, void *src, uint32_t size);
++#define dwc_memmove DWC_MEMMOVE
++
++/** memcmp() clone */
++extern int DWC_MEMCMP(void *m1, void *m2, uint32_t size);
++#define dwc_memcmp DWC_MEMCMP
++
++/** strcmp() clone */
++extern int DWC_STRCMP(void *s1, void *s2);
++#define dwc_strcmp DWC_STRCMP
++
++/** strncmp() clone */
++extern int DWC_STRNCMP(void *s1, void *s2, uint32_t size);
++#define dwc_strncmp DWC_STRNCMP
++
++/** strlen() clone, for NULL terminated ASCII strings */
++extern int DWC_STRLEN(char const *str);
++#define dwc_strlen DWC_STRLEN
++
++/** strcpy() clone, for NULL terminated ASCII strings */
++extern char *DWC_STRCPY(char *to, const char *from);
++#define dwc_strcpy DWC_STRCPY
++
++/** strdup() clone. If you wish to use memory allocation debugging, this
++ * implementation of strdup should use the DWC_* memory routines instead of
++ * calling a predefined strdup. Otherwise the memory allocated by this routine
++ * will not be seen by the debugging routines. */
++extern char *DWC_STRDUP(char const *str);
++#define dwc_strdup(_ctx_,_str_) DWC_STRDUP(_str_)
++
++/** NOT an atoi() clone. Read the description carefully. Returns an integer
++ * converted from the string str in base 10 unless the string begins with a "0x"
++ * in which case it is base 16. String must be a NULL terminated sequence of
++ * ASCII characters and may optionally begin with whitespace, a + or -, and a
++ * "0x" prefix if base 16. The remaining characters must be valid digits for
++ * the number and end with a NULL character. If any invalid characters are
++ * encountered or it returns with a negative error code and the results of the
++ * conversion are undefined. On sucess it returns 0. Overflow conditions are
++ * undefined. An example implementation using atoi() can be referenced from the
++ * Linux implementation. */
++extern int DWC_ATOI(const char *str, int32_t *value);
++#define dwc_atoi DWC_ATOI
++
++/** Same as above but for unsigned. */
++extern int DWC_ATOUI(const char *str, uint32_t *value);
++#define dwc_atoui DWC_ATOUI
++
++#ifdef DWC_UTFLIB
++/** This routine returns a UTF16LE unicode encoded string from a UTF8 string. */
++extern int DWC_UTF8_TO_UTF16LE(uint8_t const *utf8string, uint16_t *utf16string, unsigned len);
++#define dwc_utf8_to_utf16le DWC_UTF8_TO_UTF16LE
++#endif
++
++
++/** @name Wait queues
++ *
++ * Wait queues provide a means of synchronizing between threads or processes. A
++ * process can block on a waitq if some condition is not true, waiting for it to
++ * become true. When the waitq is triggered all waiting process will get
++ * unblocked and the condition will be check again. Waitqs should be triggered
++ * every time a condition can potentially change.*/
++struct dwc_waitq;
++
++/** Type for a waitq */
++typedef struct dwc_waitq dwc_waitq_t;
++
++/** The type of waitq condition callback function. This is called every time
++ * condition is evaluated. */
++typedef int (*dwc_waitq_condition_t)(void *data);
++
++/** Allocate a waitq */
++extern dwc_waitq_t *DWC_WAITQ_ALLOC(void);
++#define dwc_waitq_alloc(_ctx_) DWC_WAITQ_ALLOC()
++
++/** Free a waitq */
++extern void DWC_WAITQ_FREE(dwc_waitq_t *wq);
++#define dwc_waitq_free DWC_WAITQ_FREE
++
++/** Check the condition and if it is false, block on the waitq. When unblocked, check the
++ * condition again. The function returns when the condition becomes true. The return value
++ * is 0 on condition true, DWC_WAITQ_ABORTED on abort or killed, or DWC_WAITQ_UNKNOWN on error. */
++extern int32_t DWC_WAITQ_WAIT(dwc_waitq_t *wq, dwc_waitq_condition_t cond, void *data);
++#define dwc_waitq_wait DWC_WAITQ_WAIT
++
++/** Check the condition and if it is false, block on the waitq. When unblocked,
++ * check the condition again. The function returns when the condition become
++ * true or the timeout has passed. The return value is 0 on condition true or
++ * DWC_TIMED_OUT on timeout, or DWC_WAITQ_ABORTED, or DWC_WAITQ_UNKNOWN on
++ * error. */
++extern int32_t DWC_WAITQ_WAIT_TIMEOUT(dwc_waitq_t *wq, dwc_waitq_condition_t cond,
++ void *data, int32_t msecs);
++#define dwc_waitq_wait_timeout DWC_WAITQ_WAIT_TIMEOUT
++
++/** Trigger a waitq, unblocking all processes. This should be called whenever a condition
++ * has potentially changed. */
++extern void DWC_WAITQ_TRIGGER(dwc_waitq_t *wq);
++#define dwc_waitq_trigger DWC_WAITQ_TRIGGER
++
++/** Unblock all processes waiting on the waitq with an ABORTED result. */
++extern void DWC_WAITQ_ABORT(dwc_waitq_t *wq);
++#define dwc_waitq_abort DWC_WAITQ_ABORT
++
++
++/** @name Threads
++ *
++ * A thread must be explicitly stopped. It must check DWC_THREAD_SHOULD_STOP
++ * whenever it is woken up, and then return. The DWC_THREAD_STOP function
++ * returns the value from the thread.
++ */
++
++struct dwc_thread;
++
++/** Type for a thread */
++typedef struct dwc_thread dwc_thread_t;
++
++/** The thread function */
++typedef int (*dwc_thread_function_t)(void *data);
++
++/** Create a thread and start it running the thread_function. Returns a handle
++ * to the thread */
++extern dwc_thread_t *DWC_THREAD_RUN(dwc_thread_function_t func, char *name, void *data);
++#define dwc_thread_run(_ctx_,_func_,_name_,_data_) DWC_THREAD_RUN(_func_, _name_, _data_)
++
++/** Stops a thread. Return the value returned by the thread. Or will return
++ * DWC_ABORT if the thread never started. */
++extern int DWC_THREAD_STOP(dwc_thread_t *thread);
++#define dwc_thread_stop DWC_THREAD_STOP
++
++/** Signifies to the thread that it must stop. */
++#ifdef DWC_LINUX
++/* Linux doesn't need any parameters for kthread_should_stop() */
++extern dwc_bool_t DWC_THREAD_SHOULD_STOP(void);
++#define dwc_thread_should_stop(_thrd_) DWC_THREAD_SHOULD_STOP()
++
++/* No thread_exit function in Linux */
++#define dwc_thread_exit(_thrd_)
++#endif
++
++#if defined(DWC_FREEBSD) || defined(DWC_NETBSD)
++/** BSD needs the thread pointer for kthread_suspend_check() */
++extern dwc_bool_t DWC_THREAD_SHOULD_STOP(dwc_thread_t *thread);
++#define dwc_thread_should_stop DWC_THREAD_SHOULD_STOP
++
++/** The thread must call this to exit. */
++extern void DWC_THREAD_EXIT(dwc_thread_t *thread);
++#define dwc_thread_exit DWC_THREAD_EXIT
++#endif
++
++
++/** @name Work queues
++ *
++ * Workqs are used to queue a callback function to be called at some later time,
++ * in another thread. */
++struct dwc_workq;
++
++/** Type for a workq */
++typedef struct dwc_workq dwc_workq_t;
++
++/** The type of the callback function to be called. */
++typedef void (*dwc_work_callback_t)(void *data);
++
++/** Allocate a workq */
++extern dwc_workq_t *DWC_WORKQ_ALLOC(char *name);
++#define dwc_workq_alloc(_ctx_,_name_) DWC_WORKQ_ALLOC(_name_)
++
++/** Free a workq. All work must be completed before being freed. */
++extern void DWC_WORKQ_FREE(dwc_workq_t *workq);
++#define dwc_workq_free DWC_WORKQ_FREE
++
++/** Schedule a callback on the workq, passing in data. The function will be
++ * scheduled at some later time. */
++extern void DWC_WORKQ_SCHEDULE(dwc_workq_t *workq, dwc_work_callback_t cb,
++ void *data, char *format, ...)
++#ifdef __GNUC__
++ __attribute__ ((format(printf, 4, 5)));
++#else
++ ;
++#endif
++#define dwc_workq_schedule DWC_WORKQ_SCHEDULE
++
++/** Schedule a callback on the workq, that will be called until at least
++ * given number miliseconds have passed. */
++extern void DWC_WORKQ_SCHEDULE_DELAYED(dwc_workq_t *workq, dwc_work_callback_t cb,
++ void *data, uint32_t time, char *format, ...)
++#ifdef __GNUC__
++ __attribute__ ((format(printf, 5, 6)));
++#else
++ ;
++#endif
++#define dwc_workq_schedule_delayed DWC_WORKQ_SCHEDULE_DELAYED
++
++/** The number of processes in the workq */
++extern int DWC_WORKQ_PENDING(dwc_workq_t *workq);
++#define dwc_workq_pending DWC_WORKQ_PENDING
++
++/** Blocks until all the work in the workq is complete or timed out. Returns <
++ * 0 on timeout. */
++extern int DWC_WORKQ_WAIT_WORK_DONE(dwc_workq_t *workq, int timeout);
++#define dwc_workq_wait_work_done DWC_WORKQ_WAIT_WORK_DONE
++
++
++/** @name Tasklets
++ *
++ */
++struct dwc_tasklet;
++
++/** Type for a tasklet */
++typedef struct dwc_tasklet dwc_tasklet_t;
++
++/** The type of the callback function to be called */
++typedef void (*dwc_tasklet_callback_t)(void *data);
++
++/** Allocates a tasklet */
++extern dwc_tasklet_t *DWC_TASK_ALLOC(char *name, dwc_tasklet_callback_t cb, void *data);
++#define dwc_task_alloc(_ctx_,_name_,_cb_,_data_) DWC_TASK_ALLOC(_name_, _cb_, _data_)
++
++/** Frees a tasklet */
++extern void DWC_TASK_FREE(dwc_tasklet_t *task);
++#define dwc_task_free DWC_TASK_FREE
++
++/** Schedules a tasklet to run */
++extern void DWC_TASK_SCHEDULE(dwc_tasklet_t *task);
++#define dwc_task_schedule DWC_TASK_SCHEDULE
++
++extern void DWC_TASK_HI_SCHEDULE(dwc_tasklet_t *task);
++#define dwc_task_hi_schedule DWC_TASK_HI_SCHEDULE
++
++/** @name Timer
++ *
++ * Callbacks must be small and atomic.
++ */
++struct dwc_timer;
++
++/** Type for a timer */
++typedef struct dwc_timer dwc_timer_t;
++
++/** The type of the callback function to be called */
++typedef void (*dwc_timer_callback_t)(void *data);
++
++/** Allocates a timer */
++extern dwc_timer_t *DWC_TIMER_ALLOC(char *name, dwc_timer_callback_t cb, void *data);
++#define dwc_timer_alloc(_ctx_,_name_,_cb_,_data_) DWC_TIMER_ALLOC(_name_,_cb_,_data_)
++
++/** Frees a timer */
++extern void DWC_TIMER_FREE(dwc_timer_t *timer);
++#define dwc_timer_free DWC_TIMER_FREE
++
++/** Schedules the timer to run at time ms from now. And will repeat at every
++ * repeat_interval msec therafter
++ *
++ * Modifies a timer that is still awaiting execution to a new expiration time.
++ * The mod_time is added to the old time. */
++extern void DWC_TIMER_SCHEDULE(dwc_timer_t *timer, uint32_t time);
++#define dwc_timer_schedule DWC_TIMER_SCHEDULE
++
++/** Disables the timer from execution. */
++extern void DWC_TIMER_CANCEL(dwc_timer_t *timer);
++#define dwc_timer_cancel DWC_TIMER_CANCEL
++
++
++/** @name Spinlocks
++ *
++ * These locks are used when the work between the lock/unlock is atomic and
++ * short. Interrupts are also disabled during the lock/unlock and thus they are
++ * suitable to lock between interrupt/non-interrupt context. They also lock
++ * between processes if you have multiple CPUs or Preemption. If you don't have
++ * multiple CPUS or Preemption, then the you can simply implement the
++ * DWC_SPINLOCK and DWC_SPINUNLOCK to disable and enable interrupts. Because
++ * the work between the lock/unlock is atomic, the process context will never
++ * change, and so you never have to lock between processes. */
++
++struct dwc_spinlock;
++
++/** Type for a spinlock */
++typedef struct dwc_spinlock dwc_spinlock_t;
++
++/** Type for the 'flags' argument to spinlock funtions */
++typedef unsigned long dwc_irqflags_t;
++
++/** Returns an initialized lock variable. This function should allocate and
++ * initialize the OS-specific data structure used for locking. This data
++ * structure is to be used for the DWC_LOCK and DWC_UNLOCK functions and should
++ * be freed by the DWC_FREE_LOCK when it is no longer used. */
++extern dwc_spinlock_t *DWC_SPINLOCK_ALLOC(void);
++#define dwc_spinlock_alloc(_ctx_) DWC_SPINLOCK_ALLOC()
++
++/** Frees an initialized lock variable. */
++extern void DWC_SPINLOCK_FREE(dwc_spinlock_t *lock);
++#define dwc_spinlock_free(_ctx_,_lock_) DWC_SPINLOCK_FREE(_lock_)
++
++/** Disables interrupts and blocks until it acquires the lock.
++ *
++ * @param lock Pointer to the spinlock.
++ * @param flags Unsigned long for irq flags storage.
++ */
++extern void DWC_SPINLOCK_IRQSAVE(dwc_spinlock_t *lock, dwc_irqflags_t *flags);
++#define dwc_spinlock_irqsave DWC_SPINLOCK_IRQSAVE
++
++/** Re-enables the interrupt and releases the lock.
++ *
++ * @param lock Pointer to the spinlock.
++ * @param flags Unsigned long for irq flags storage. Must be the same as was
++ * passed into DWC_LOCK.
++ */
++extern void DWC_SPINUNLOCK_IRQRESTORE(dwc_spinlock_t *lock, dwc_irqflags_t flags);
++#define dwc_spinunlock_irqrestore DWC_SPINUNLOCK_IRQRESTORE
++
++/** Blocks until it acquires the lock.
++ *
++ * @param lock Pointer to the spinlock.
++ */
++extern void DWC_SPINLOCK(dwc_spinlock_t *lock);
++#define dwc_spinlock DWC_SPINLOCK
++
++/** Releases the lock.
++ *
++ * @param lock Pointer to the spinlock.
++ */
++extern void DWC_SPINUNLOCK(dwc_spinlock_t *lock);
++#define dwc_spinunlock DWC_SPINUNLOCK
++
++
++/** @name Mutexes
++ *
++ * Unlike spinlocks Mutexes lock only between processes and the work between the
++ * lock/unlock CAN block, therefore it CANNOT be called from interrupt context.
++ */
++
++struct dwc_mutex;
++
++/** Type for a mutex */
++typedef struct dwc_mutex dwc_mutex_t;
++
++/* For Linux Mutex Debugging make it inline because the debugging routines use
++ * the symbol to determine recursive locking. This makes it falsely think
++ * recursive locking occurs. */
++#if defined(DWC_LINUX) && defined(CONFIG_DEBUG_MUTEXES)
++#define DWC_MUTEX_ALLOC_LINUX_DEBUG(__mutexp) ({ \
++ __mutexp = (dwc_mutex_t *)DWC_ALLOC(sizeof(struct mutex)); \
++ mutex_init((struct mutex *)__mutexp); \
++})
++#endif
++
++/** Allocate a mutex */
++extern dwc_mutex_t *DWC_MUTEX_ALLOC(void);
++#define dwc_mutex_alloc(_ctx_) DWC_MUTEX_ALLOC()
++
++/* For memory leak debugging when using Linux Mutex Debugging */
++#if defined(DWC_LINUX) && defined(CONFIG_DEBUG_MUTEXES)
++#define DWC_MUTEX_FREE(__mutexp) do { \
++ mutex_destroy((struct mutex *)__mutexp); \
++ DWC_FREE(__mutexp); \
++} while(0)
++#else
++/** Free a mutex */
++extern void DWC_MUTEX_FREE(dwc_mutex_t *mutex);
++#define dwc_mutex_free(_ctx_,_mutex_) DWC_MUTEX_FREE(_mutex_)
++#endif
++
++/** Lock a mutex */
++extern void DWC_MUTEX_LOCK(dwc_mutex_t *mutex);
++#define dwc_mutex_lock DWC_MUTEX_LOCK
++
++/** Non-blocking lock returns 1 on successful lock. */
++extern int DWC_MUTEX_TRYLOCK(dwc_mutex_t *mutex);
++#define dwc_mutex_trylock DWC_MUTEX_TRYLOCK
++
++/** Unlock a mutex */
++extern void DWC_MUTEX_UNLOCK(dwc_mutex_t *mutex);
++#define dwc_mutex_unlock DWC_MUTEX_UNLOCK
++
++
++/** @name Time */
++
++/** Microsecond delay.
++ *
++ * @param usecs Microseconds to delay.
++ */
++extern void DWC_UDELAY(uint32_t usecs);
++#define dwc_udelay DWC_UDELAY
++
++/** Millisecond delay.
++ *
++ * @param msecs Milliseconds to delay.
++ */
++extern void DWC_MDELAY(uint32_t msecs);
++#define dwc_mdelay DWC_MDELAY
++
++/** Non-busy waiting.
++ * Sleeps for specified number of milliseconds.
++ *
++ * @param msecs Milliseconds to sleep.
++ */
++extern void DWC_MSLEEP(uint32_t msecs);
++#define dwc_msleep DWC_MSLEEP
++
++/**
++ * Returns number of milliseconds since boot.
++ */
++extern uint32_t DWC_TIME(void);
++#define dwc_time DWC_TIME
++
++
++
++
++/* @mainpage DWC Portability and Common Library
++ *
++ * This is the documentation for the DWC Portability and Common Library.
++ *
++ * @section intro Introduction
++ *
++ * The DWC Portability library consists of wrapper calls and data structures to
++ * all low-level functions which are typically provided by the OS. The WUDEV
++ * driver uses only these functions. In order to port the WUDEV driver, only
++ * the functions in this library need to be re-implemented, with the same
++ * behavior as documented here.
++ *
++ * The Common library consists of higher level functions, which rely only on
++ * calling the functions from the DWC Portability library. These common
++ * routines are shared across modules. Some of the common libraries need to be
++ * used directly by the driver programmer when porting WUDEV. Such as the
++ * parameter and notification libraries.
++ *
++ * @section low Portability Library OS Wrapper Functions
++ *
++ * Any function starting with DWC and in all CAPS is a low-level OS-wrapper that
++ * needs to be implemented when porting, for example DWC_MUTEX_ALLOC(). All of
++ * these functions are included in the dwc_os.h file.
++ *
++ * There are many functions here covering a wide array of OS services. Please
++ * see dwc_os.h for details, and implementation notes for each function.
++ *
++ * @section common Common Library Functions
++ *
++ * Any function starting with dwc and in all lowercase is a common library
++ * routine. These functions have a portable implementation and do not need to
++ * be reimplemented when porting. The common routines can be used by any
++ * driver, and some must be used by the end user to control the drivers. For
++ * example, you must use the Parameter common library in order to set the
++ * parameters in the WUDEV module.
++ *
++ * The common libraries consist of the following:
++ *
++ * - Connection Contexts - Used internally and can be used by end-user. See dwc_cc.h
++ * - Parameters - Used internally and can be used by end-user. See dwc_params.h
++ * - Notifications - Used internally and can be used by end-user. See dwc_notifier.h
++ * - Lists - Used internally and can be used by end-user. See dwc_list.h
++ * - Memory Debugging - Used internally and can be used by end-user. See dwc_os.h
++ * - Modpow - Used internally only. See dwc_modpow.h
++ * - DH - Used internally only. See dwc_dh.h
++ * - Crypto - Used internally only. See dwc_crypto.h
++ *
++ *
++ * @section prereq Prerequistes For dwc_os.h
++ * @subsection types Data Types
++ *
++ * The dwc_os.h file assumes that several low-level data types are pre defined for the
++ * compilation environment. These data types are:
++ *
++ * - uint8_t - unsigned 8-bit data type
++ * - int8_t - signed 8-bit data type
++ * - uint16_t - unsigned 16-bit data type
++ * - int16_t - signed 16-bit data type
++ * - uint32_t - unsigned 32-bit data type
++ * - int32_t - signed 32-bit data type
++ * - uint64_t - unsigned 64-bit data type
++ * - int64_t - signed 64-bit data type
++ *
++ * Ensure that these are defined before using dwc_os.h. The easiest way to do
++ * that is to modify the top of the file to include the appropriate header.
++ * This is already done for the Linux environment. If the DWC_LINUX macro is
++ * defined, the correct header will be added. A standard header <stdint.h> is
++ * also used for environments where standard C headers are available.
++ *
++ * @subsection stdarg Variable Arguments
++ *
++ * Variable arguments are provided by a standard C header <stdarg.h>. it is
++ * available in Both the Linux and ANSI C enviornment. An equivalent must be
++ * provided in your enviornment in order to use dwc_os.h with the debug and
++ * tracing message functionality.
++ *
++ * @subsection thread Threading
++ *
++ * WUDEV Core must be run on an operating system that provides for multiple
++ * threads/processes. Threading can be implemented in many ways, even in
++ * embedded systems without an operating system. At the bare minimum, the
++ * system should be able to start any number of processes at any time to handle
++ * special work. It need not be a pre-emptive system. Process context can
++ * change upon a call to a blocking function. The hardware interrupt context
++ * that calls the module's ISR() function must be differentiable from process
++ * context, even if your processes are impemented via a hardware interrupt.
++ * Further locking mechanism between process must exist (or be implemented), and
++ * process context must have a way to disable interrupts for a period of time to
++ * lock them out. If all of this exists, the functions in dwc_os.h related to
++ * threading should be able to be implemented with the defined behavior.
++ *
++ */
++
++#ifdef __cplusplus
++}
++#endif
++
++#endif /* _DWC_OS_H_ */
+diff -urN linux-3.10/drivers/usb/host/dwc_common_port/Makefile linux-rpi-3.10.y/drivers/usb/host/dwc_common_port/Makefile
+--- linux-3.10/drivers/usb/host/dwc_common_port/Makefile 1970-01-01 01:00:00.000000000 +0100
++++ linux-rpi-3.10.y/drivers/usb/host/dwc_common_port/Makefile 2013-07-06 15:25:50.000000000 +0100
+@@ -0,0 +1,58 @@
++#
++# Makefile for DWC_common library
++#
++
++ifneq ($(KERNELRELEASE),)
++
++EXTRA_CFLAGS += -DDWC_LINUX
++#EXTRA_CFLAGS += -DDEBUG
++#EXTRA_CFLAGS += -DDWC_DEBUG_REGS
++#EXTRA_CFLAGS += -DDWC_DEBUG_MEMORY
++
++EXTRA_CFLAGS += -DDWC_LIBMODULE
++EXTRA_CFLAGS += -DDWC_CCLIB
++#EXTRA_CFLAGS += -DDWC_CRYPTOLIB
++EXTRA_CFLAGS += -DDWC_NOTIFYLIB
++EXTRA_CFLAGS += -DDWC_UTFLIB
++
++obj-$(CONFIG_USB_DWCOTG) += dwc_common_port_lib.o
++dwc_common_port_lib-objs := dwc_cc.o dwc_modpow.o dwc_dh.o \
++ dwc_crypto.o dwc_notifier.o \
++ dwc_common_linux.o dwc_mem.o
++
++kernrelwd := $(subst ., ,$(KERNELRELEASE))
++kernrel3 := $(word 1,$(kernrelwd)).$(word 2,$(kernrelwd)).$(word 3,$(kernrelwd))
++
++ifneq ($(kernrel3),2.6.20)
++# grayg - I only know that we use EXTRA_CFLAGS in 2.6.31 actually
++EXTRA_CFLAGS += $(CPPFLAGS)
++endif
++
++else
++
++#ifeq ($(KDIR),)
++#$(error Must give "KDIR=/path/to/kernel/source" on command line or in environment)
++#endif
++
++ifeq ($(ARCH),)
++$(error Must give "ARCH=<arch>" on command line or in environment. Also, if \
++ cross-compiling, must give "CROSS_COMPILE=/path/to/compiler/plus/tool-prefix-")
++endif
++
++ifeq ($(DOXYGEN),)
++DOXYGEN := doxygen
++endif
++
++default:
++ $(MAKE) -C$(KDIR) M=$(PWD) ARCH=$(ARCH) CROSS_COMPILE=$(CROSS_COMPILE) modules
++
++docs: $(wildcard *.[hc]) doc/doxygen.cfg
++ $(DOXYGEN) doc/doxygen.cfg
++
++tags: $(wildcard *.[hc])
++ $(CTAGS) -e $(wildcard *.[hc]) $(wildcard linux/*.[hc]) $(wildcard $(KDIR)/include/linux/usb*.h)
++
++endif
++
++clean:
++ rm -rf *.o *.ko .*.cmd *.mod.c .*.o.d .*.o.tmp modules.order Module.markers Module.symvers .tmp_versions/
+diff -urN linux-3.10/drivers/usb/host/dwc_common_port/Makefile.fbsd linux-rpi-3.10.y/drivers/usb/host/dwc_common_port/Makefile.fbsd
+--- linux-3.10/drivers/usb/host/dwc_common_port/Makefile.fbsd 1970-01-01 01:00:00.000000000 +0100
++++ linux-rpi-3.10.y/drivers/usb/host/dwc_common_port/Makefile.fbsd 2013-07-06 15:25:50.000000000 +0100
+@@ -0,0 +1,17 @@
++CFLAGS += -I/sys/i386/compile/GENERIC -I/sys/i386/include -I/usr/include
++CFLAGS += -DDWC_FREEBSD
++CFLAGS += -DDEBUG
++#CFLAGS += -DDWC_DEBUG_REGS
++#CFLAGS += -DDWC_DEBUG_MEMORY
++
++#CFLAGS += -DDWC_LIBMODULE
++#CFLAGS += -DDWC_CCLIB
++#CFLAGS += -DDWC_CRYPTOLIB
++#CFLAGS += -DDWC_NOTIFYLIB
++#CFLAGS += -DDWC_UTFLIB
++
++KMOD = dwc_common_port_lib
++SRCS = dwc_cc.c dwc_modpow.c dwc_dh.c dwc_crypto.c dwc_notifier.c \
++ dwc_common_fbsd.c dwc_mem.c
++
++.include <bsd.kmod.mk>
+diff -urN linux-3.10/drivers/usb/host/dwc_common_port/Makefile.linux linux-rpi-3.10.y/drivers/usb/host/dwc_common_port/Makefile.linux
+--- linux-3.10/drivers/usb/host/dwc_common_port/Makefile.linux 1970-01-01 01:00:00.000000000 +0100
++++ linux-rpi-3.10.y/drivers/usb/host/dwc_common_port/Makefile.linux 2013-07-06 15:25:50.000000000 +0100
+@@ -0,0 +1,49 @@
++#
++# Makefile for DWC_common library
++#
++ifneq ($(KERNELRELEASE),)
++
++EXTRA_CFLAGS += -DDWC_LINUX
++#EXTRA_CFLAGS += -DDEBUG
++#EXTRA_CFLAGS += -DDWC_DEBUG_REGS
++#EXTRA_CFLAGS += -DDWC_DEBUG_MEMORY
++
++EXTRA_CFLAGS += -DDWC_LIBMODULE
++EXTRA_CFLAGS += -DDWC_CCLIB
++EXTRA_CFLAGS += -DDWC_CRYPTOLIB
++EXTRA_CFLAGS += -DDWC_NOTIFYLIB
++EXTRA_CFLAGS += -DDWC_UTFLIB
++
++obj-m := dwc_common_port_lib.o
++dwc_common_port_lib-objs := dwc_cc.o dwc_modpow.o dwc_dh.o \
++ dwc_crypto.o dwc_notifier.o \
++ dwc_common_linux.o dwc_mem.o
++
++else
++
++ifeq ($(KDIR),)
++$(error Must give "KDIR=/path/to/kernel/source" on command line or in environment)
++endif
++
++ifeq ($(ARCH),)
++$(error Must give "ARCH=<arch>" on command line or in environment. Also, if \
++ cross-compiling, must give "CROSS_COMPILE=/path/to/compiler/plus/tool-prefix-")
++endif
++
++ifeq ($(DOXYGEN),)
++DOXYGEN := doxygen
++endif
++
++default:
++ $(MAKE) -C$(KDIR) M=$(PWD) ARCH=$(ARCH) CROSS_COMPILE=$(CROSS_COMPILE) modules
++
++docs: $(wildcard *.[hc]) doc/doxygen.cfg
++ $(DOXYGEN) doc/doxygen.cfg
++
++tags: $(wildcard *.[hc])
++ $(CTAGS) -e $(wildcard *.[hc]) $(wildcard linux/*.[hc]) $(wildcard $(KDIR)/include/linux/usb*.h)
++
++endif
++
++clean:
++ rm -rf *.o *.ko .*.cmd *.mod.c .*.o.d .*.o.tmp modules.order Module.markers Module.symvers .tmp_versions/
+diff -urN linux-3.10/drivers/usb/host/dwc_common_port/usb.h linux-rpi-3.10.y/drivers/usb/host/dwc_common_port/usb.h
+--- linux-3.10/drivers/usb/host/dwc_common_port/usb.h 1970-01-01 01:00:00.000000000 +0100
++++ linux-rpi-3.10.y/drivers/usb/host/dwc_common_port/usb.h 2013-07-06 15:25:50.000000000 +0100
+@@ -0,0 +1,946 @@
++/*
++ * Copyright (c) 1998 The NetBSD Foundation, Inc.
++ * All rights reserved.
++ *
++ * This code is derived from software contributed to The NetBSD Foundation
++ * by Lennart Augustsson (lennart@augustsson.net) at
++ * Carlstedt Research & Technology.
++ *
++ * Redistribution and use in source and binary forms, with or without
++ * modification, are permitted provided that the following conditions
++ * are met:
++ * 1. Redistributions of source code must retain the above copyright
++ * notice, this list of conditions and the following disclaimer.
++ * 2. Redistributions in binary form must reproduce the above copyright
++ * notice, this list of conditions and the following disclaimer in the
++ * documentation and/or other materials provided with the distribution.
++ * 3. All advertising materials mentioning features or use of this software
++ * must display the following acknowledgement:
++ * This product includes software developed by the NetBSD
++ * Foundation, Inc. and its contributors.
++ * 4. Neither the name of The NetBSD Foundation nor the names of its
++ * contributors may be used to endorse or promote products derived
++ * from this software without specific prior written permission.
++ *
++ * THIS SOFTWARE IS PROVIDED BY THE NETBSD FOUNDATION, INC. AND CONTRIBUTORS
++ * ``AS IS'' AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED
++ * TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR
++ * PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE FOUNDATION OR CONTRIBUTORS
++ * BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR
++ * CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF
++ * SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS
++ * INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN
++ * CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE)
++ * ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE
++ * POSSIBILITY OF SUCH DAMAGE.
++ */
++
++/* Modified by Synopsys, Inc, 12/12/2007 */
++
++
++#ifndef _USB_H_
++#define _USB_H_
++
++#ifdef __cplusplus
++extern "C" {
++#endif
++
++/*
++ * The USB records contain some unaligned little-endian word
++ * components. The U[SG]ETW macros take care of both the alignment
++ * and endian problem and should always be used to access non-byte
++ * values.
++ */
++typedef u_int8_t uByte;
++typedef u_int8_t uWord[2];
++typedef u_int8_t uDWord[4];
++
++#define USETW2(w,h,l) ((w)[0] = (u_int8_t)(l), (w)[1] = (u_int8_t)(h))
++#define UCONSTW(x) { (x) & 0xff, ((x) >> 8) & 0xff }
++#define UCONSTDW(x) { (x) & 0xff, ((x) >> 8) & 0xff, \
++ ((x) >> 16) & 0xff, ((x) >> 24) & 0xff }
++
++#if 1
++#define UGETW(w) ((w)[0] | ((w)[1] << 8))
++#define USETW(w,v) ((w)[0] = (u_int8_t)(v), (w)[1] = (u_int8_t)((v) >> 8))
++#define UGETDW(w) ((w)[0] | ((w)[1] << 8) | ((w)[2] << 16) | ((w)[3] << 24))
++#define USETDW(w,v) ((w)[0] = (u_int8_t)(v), \
++ (w)[1] = (u_int8_t)((v) >> 8), \
++ (w)[2] = (u_int8_t)((v) >> 16), \
++ (w)[3] = (u_int8_t)((v) >> 24))
++#else
++/*
++ * On little-endian machines that can handle unanliged accesses
++ * (e.g. i386) these macros can be replaced by the following.
++ */
++#define UGETW(w) (*(u_int16_t *)(w))
++#define USETW(w,v) (*(u_int16_t *)(w) = (v))
++#define UGETDW(w) (*(u_int32_t *)(w))
++#define USETDW(w,v) (*(u_int32_t *)(w) = (v))
++#endif
++
++/*
++ * Macros for accessing UAS IU fields, which are big-endian
++ */
++#define IUSETW2(w,h,l) ((w)[0] = (u_int8_t)(h), (w)[1] = (u_int8_t)(l))
++#define IUCONSTW(x) { ((x) >> 8) & 0xff, (x) & 0xff }
++#define IUCONSTDW(x) { ((x) >> 24) & 0xff, ((x) >> 16) & 0xff, \
++ ((x) >> 8) & 0xff, (x) & 0xff }
++#define IUGETW(w) (((w)[0] << 8) | (w)[1])
++#define IUSETW(w,v) ((w)[0] = (u_int8_t)((v) >> 8), (w)[1] = (u_int8_t)(v))
++#define IUGETDW(w) (((w)[0] << 24) | ((w)[1] << 16) | ((w)[2] << 8) | (w)[3])
++#define IUSETDW(w,v) ((w)[0] = (u_int8_t)((v) >> 24), \
++ (w)[1] = (u_int8_t)((v) >> 16), \
++ (w)[2] = (u_int8_t)((v) >> 8), \
++ (w)[3] = (u_int8_t)(v))
++
++#define UPACKED __attribute__((__packed__))
++
++typedef struct {
++ uByte bmRequestType;
++ uByte bRequest;
++ uWord wValue;
++ uWord wIndex;
++ uWord wLength;
++} UPACKED usb_device_request_t;
++
++#define UT_GET_DIR(a) ((a) & 0x80)
++#define UT_WRITE 0x00
++#define UT_READ 0x80
++
++#define UT_GET_TYPE(a) ((a) & 0x60)
++#define UT_STANDARD 0x00
++#define UT_CLASS 0x20
++#define UT_VENDOR 0x40
++
++#define UT_GET_RECIPIENT(a) ((a) & 0x1f)
++#define UT_DEVICE 0x00
++#define UT_INTERFACE 0x01
++#define UT_ENDPOINT 0x02
++#define UT_OTHER 0x03
++
++#define UT_READ_DEVICE (UT_READ | UT_STANDARD | UT_DEVICE)
++#define UT_READ_INTERFACE (UT_READ | UT_STANDARD | UT_INTERFACE)
++#define UT_READ_ENDPOINT (UT_READ | UT_STANDARD | UT_ENDPOINT)
++#define UT_WRITE_DEVICE (UT_WRITE | UT_STANDARD | UT_DEVICE)
++#define UT_WRITE_INTERFACE (UT_WRITE | UT_STANDARD | UT_INTERFACE)
++#define UT_WRITE_ENDPOINT (UT_WRITE | UT_STANDARD | UT_ENDPOINT)
++#define UT_READ_CLASS_DEVICE (UT_READ | UT_CLASS | UT_DEVICE)
++#define UT_READ_CLASS_INTERFACE (UT_READ | UT_CLASS | UT_INTERFACE)
++#define UT_READ_CLASS_OTHER (UT_READ | UT_CLASS | UT_OTHER)
++#define UT_READ_CLASS_ENDPOINT (UT_READ | UT_CLASS | UT_ENDPOINT)
++#define UT_WRITE_CLASS_DEVICE (UT_WRITE | UT_CLASS | UT_DEVICE)
++#define UT_WRITE_CLASS_INTERFACE (UT_WRITE | UT_CLASS | UT_INTERFACE)
++#define UT_WRITE_CLASS_OTHER (UT_WRITE | UT_CLASS | UT_OTHER)
++#define UT_WRITE_CLASS_ENDPOINT (UT_WRITE | UT_CLASS | UT_ENDPOINT)
++#define UT_READ_VENDOR_DEVICE (UT_READ | UT_VENDOR | UT_DEVICE)
++#define UT_READ_VENDOR_INTERFACE (UT_READ | UT_VENDOR | UT_INTERFACE)
++#define UT_READ_VENDOR_OTHER (UT_READ | UT_VENDOR | UT_OTHER)
++#define UT_READ_VENDOR_ENDPOINT (UT_READ | UT_VENDOR | UT_ENDPOINT)
++#define UT_WRITE_VENDOR_DEVICE (UT_WRITE | UT_VENDOR | UT_DEVICE)
++#define UT_WRITE_VENDOR_INTERFACE (UT_WRITE | UT_VENDOR | UT_INTERFACE)
++#define UT_WRITE_VENDOR_OTHER (UT_WRITE | UT_VENDOR | UT_OTHER)
++#define UT_WRITE_VENDOR_ENDPOINT (UT_WRITE | UT_VENDOR | UT_ENDPOINT)
++
++/* Requests */
++#define UR_GET_STATUS 0x00
++#define USTAT_STANDARD_STATUS 0x00
++#define WUSTAT_WUSB_FEATURE 0x01
++#define WUSTAT_CHANNEL_INFO 0x02
++#define WUSTAT_RECEIVED_DATA 0x03
++#define WUSTAT_MAS_AVAILABILITY 0x04
++#define WUSTAT_CURRENT_TRANSMIT_POWER 0x05
++#define UR_CLEAR_FEATURE 0x01
++#define UR_SET_FEATURE 0x03
++#define UR_SET_AND_TEST_FEATURE 0x0c
++#define UR_SET_ADDRESS 0x05
++#define UR_GET_DESCRIPTOR 0x06
++#define UDESC_DEVICE 0x01
++#define UDESC_CONFIG 0x02
++#define UDESC_STRING 0x03
++#define UDESC_INTERFACE 0x04
++#define UDESC_ENDPOINT 0x05
++#define UDESC_SS_USB_COMPANION 0x30
++#define UDESC_DEVICE_QUALIFIER 0x06
++#define UDESC_OTHER_SPEED_CONFIGURATION 0x07
++#define UDESC_INTERFACE_POWER 0x08
++#define UDESC_OTG 0x09
++#define WUDESC_SECURITY 0x0c
++#define WUDESC_KEY 0x0d
++#define WUD_GET_KEY_INDEX(_wValue_) ((_wValue_) & 0xf)
++#define WUD_GET_KEY_TYPE(_wValue_) (((_wValue_) & 0x30) >> 4)
++#define WUD_KEY_TYPE_ASSOC 0x01
++#define WUD_KEY_TYPE_GTK 0x02
++#define WUD_GET_KEY_ORIGIN(_wValue_) (((_wValue_) & 0x40) >> 6)
++#define WUD_KEY_ORIGIN_HOST 0x00
++#define WUD_KEY_ORIGIN_DEVICE 0x01
++#define WUDESC_ENCRYPTION_TYPE 0x0e
++#define WUDESC_BOS 0x0f
++#define WUDESC_DEVICE_CAPABILITY 0x10
++#define WUDESC_WIRELESS_ENDPOINT_COMPANION 0x11
++#define UDESC_BOS 0x0f
++#define UDESC_DEVICE_CAPABILITY 0x10
++#define UDESC_CS_DEVICE 0x21 /* class specific */
++#define UDESC_CS_CONFIG 0x22
++#define UDESC_CS_STRING 0x23
++#define UDESC_CS_INTERFACE 0x24
++#define UDESC_CS_ENDPOINT 0x25
++#define UDESC_HUB 0x29
++#define UR_SET_DESCRIPTOR 0x07
++#define UR_GET_CONFIG 0x08
++#define UR_SET_CONFIG 0x09
++#define UR_GET_INTERFACE 0x0a
++#define UR_SET_INTERFACE 0x0b
++#define UR_SYNCH_FRAME 0x0c
++#define WUR_SET_ENCRYPTION 0x0d
++#define WUR_GET_ENCRYPTION 0x0e
++#define WUR_SET_HANDSHAKE 0x0f
++#define WUR_GET_HANDSHAKE 0x10
++#define WUR_SET_CONNECTION 0x11
++#define WUR_SET_SECURITY_DATA 0x12
++#define WUR_GET_SECURITY_DATA 0x13
++#define WUR_SET_WUSB_DATA 0x14
++#define WUDATA_DRPIE_INFO 0x01
++#define WUDATA_TRANSMIT_DATA 0x02
++#define WUDATA_TRANSMIT_PARAMS 0x03
++#define WUDATA_RECEIVE_PARAMS 0x04
++#define WUDATA_TRANSMIT_POWER 0x05
++#define WUR_LOOPBACK_DATA_WRITE 0x15
++#define WUR_LOOPBACK_DATA_READ 0x16
++#define WUR_SET_INTERFACE_DS 0x17
++
++/* Feature numbers */
++#define UF_ENDPOINT_HALT 0
++#define UF_DEVICE_REMOTE_WAKEUP 1
++#define UF_TEST_MODE 2
++#define UF_DEVICE_B_HNP_ENABLE 3
++#define UF_DEVICE_A_HNP_SUPPORT 4
++#define UF_DEVICE_A_ALT_HNP_SUPPORT 5
++#define WUF_WUSB 3
++#define WUF_TX_DRPIE 0x0
++#define WUF_DEV_XMIT_PACKET 0x1
++#define WUF_COUNT_PACKETS 0x2
++#define WUF_CAPTURE_PACKETS 0x3
++#define UF_FUNCTION_SUSPEND 0
++#define UF_U1_ENABLE 48
++#define UF_U2_ENABLE 49
++#define UF_LTM_ENABLE 50
++
++/* Class requests from the USB 2.0 hub spec, table 11-15 */
++#define UCR_CLEAR_HUB_FEATURE (0x2000 | UR_CLEAR_FEATURE)
++#define UCR_CLEAR_PORT_FEATURE (0x2300 | UR_CLEAR_FEATURE)
++#define UCR_GET_HUB_DESCRIPTOR (0xa000 | UR_GET_DESCRIPTOR)
++#define UCR_GET_HUB_STATUS (0xa000 | UR_GET_STATUS)
++#define UCR_GET_PORT_STATUS (0xa300 | UR_GET_STATUS)
++#define UCR_SET_HUB_FEATURE (0x2000 | UR_SET_FEATURE)
++#define UCR_SET_PORT_FEATURE (0x2300 | UR_SET_FEATURE)
++#define UCR_SET_AND_TEST_PORT_FEATURE (0xa300 | UR_SET_AND_TEST_FEATURE)
++
++#ifdef _MSC_VER
++#include <pshpack1.h>
++#endif
++
++typedef struct {
++ uByte bLength;
++ uByte bDescriptorType;
++ uByte bDescriptorSubtype;
++} UPACKED usb_descriptor_t;
++
++typedef struct {
++ uByte bLength;
++ uByte bDescriptorType;
++} UPACKED usb_descriptor_header_t;
++
++typedef struct {
++ uByte bLength;
++ uByte bDescriptorType;
++ uWord bcdUSB;
++#define UD_USB_2_0 0x0200
++#define UD_IS_USB2(d) (UGETW((d)->bcdUSB) >= UD_USB_2_0)
++ uByte bDeviceClass;
++ uByte bDeviceSubClass;
++ uByte bDeviceProtocol;
++ uByte bMaxPacketSize;
++ /* The fields below are not part of the initial descriptor. */
++ uWord idVendor;
++ uWord idProduct;
++ uWord bcdDevice;
++ uByte iManufacturer;
++ uByte iProduct;
++ uByte iSerialNumber;
++ uByte bNumConfigurations;
++} UPACKED usb_device_descriptor_t;
++#define USB_DEVICE_DESCRIPTOR_SIZE 18
++
++typedef struct {
++ uByte bLength;
++ uByte bDescriptorType;
++ uWord wTotalLength;
++ uByte bNumInterface;
++ uByte bConfigurationValue;
++ uByte iConfiguration;
++#define UC_ATT_ONE (1 << 7) /* must be set */
++#define UC_ATT_SELFPOWER (1 << 6) /* self powered */
++#define UC_ATT_WAKEUP (1 << 5) /* can wakeup */
++#define UC_ATT_BATTERY (1 << 4) /* battery powered */
++ uByte bmAttributes;
++#define UC_BUS_POWERED 0x80
++#define UC_SELF_POWERED 0x40
++#define UC_REMOTE_WAKEUP 0x20
++ uByte bMaxPower; /* max current in 2 mA units */
++#define UC_POWER_FACTOR 2
++} UPACKED usb_config_descriptor_t;
++#define USB_CONFIG_DESCRIPTOR_SIZE 9
++
++typedef struct {
++ uByte bLength;
++ uByte bDescriptorType;
++ uByte bInterfaceNumber;
++ uByte bAlternateSetting;
++ uByte bNumEndpoints;
++ uByte bInterfaceClass;
++ uByte bInterfaceSubClass;
++ uByte bInterfaceProtocol;
++ uByte iInterface;
++} UPACKED usb_interface_descriptor_t;
++#define USB_INTERFACE_DESCRIPTOR_SIZE 9
++
++typedef struct {
++ uByte bLength;
++ uByte bDescriptorType;
++ uByte bEndpointAddress;
++#define UE_GET_DIR(a) ((a) & 0x80)
++#define UE_SET_DIR(a,d) ((a) | (((d)&1) << 7))
++#define UE_DIR_IN 0x80
++#define UE_DIR_OUT 0x00
++#define UE_ADDR 0x0f
++#define UE_GET_ADDR(a) ((a) & UE_ADDR)
++ uByte bmAttributes;
++#define UE_XFERTYPE 0x03
++#define UE_CONTROL 0x00
++#define UE_ISOCHRONOUS 0x01
++#define UE_BULK 0x02
++#define UE_INTERRUPT 0x03
++#define UE_GET_XFERTYPE(a) ((a) & UE_XFERTYPE)
++#define UE_ISO_TYPE 0x0c
++#define UE_ISO_ASYNC 0x04
++#define UE_ISO_ADAPT 0x08
++#define UE_ISO_SYNC 0x0c
++#define UE_GET_ISO_TYPE(a) ((a) & UE_ISO_TYPE)
++ uWord wMaxPacketSize;
++ uByte bInterval;
++} UPACKED usb_endpoint_descriptor_t;
++#define USB_ENDPOINT_DESCRIPTOR_SIZE 7
++
++typedef struct ss_endpoint_companion_descriptor {
++ uByte bLength;
++ uByte bDescriptorType;
++ uByte bMaxBurst;
++#define USSE_GET_MAX_STREAMS(a) ((a) & 0x1f)
++#define USSE_SET_MAX_STREAMS(a, b) ((a) | ((b) & 0x1f))
++#define USSE_GET_MAX_PACKET_NUM(a) ((a) & 0x03)
++#define USSE_SET_MAX_PACKET_NUM(a, b) ((a) | ((b) & 0x03))
++ uByte bmAttributes;
++ uWord wBytesPerInterval;
++} UPACKED ss_endpoint_companion_descriptor_t;
++#define USB_SS_ENDPOINT_COMPANION_DESCRIPTOR_SIZE 6
++
++typedef struct {
++ uByte bLength;
++ uByte bDescriptorType;
++ uWord bString[127];
++} UPACKED usb_string_descriptor_t;
++#define USB_MAX_STRING_LEN 128
++#define USB_LANGUAGE_TABLE 0 /* # of the string language id table */
++
++/* Hub specific request */
++#define UR_GET_BUS_STATE 0x02
++#define UR_CLEAR_TT_BUFFER 0x08
++#define UR_RESET_TT 0x09
++#define UR_GET_TT_STATE 0x0a
++#define UR_STOP_TT 0x0b
++
++/* Hub features */
++#define UHF_C_HUB_LOCAL_POWER 0
++#define UHF_C_HUB_OVER_CURRENT 1
++#define UHF_PORT_CONNECTION 0
++#define UHF_PORT_ENABLE 1
++#define UHF_PORT_SUSPEND 2
++#define UHF_PORT_OVER_CURRENT 3
++#define UHF_PORT_RESET 4
++#define UHF_PORT_L1 5
++#define UHF_PORT_POWER 8
++#define UHF_PORT_LOW_SPEED 9
++#define UHF_PORT_HIGH_SPEED 10
++#define UHF_C_PORT_CONNECTION 16
++#define UHF_C_PORT_ENABLE 17
++#define UHF_C_PORT_SUSPEND 18
++#define UHF_C_PORT_OVER_CURRENT 19
++#define UHF_C_PORT_RESET 20
++#define UHF_C_PORT_L1 23
++#define UHF_PORT_TEST 21
++#define UHF_PORT_INDICATOR 22
++
++typedef struct {
++ uByte bDescLength;
++ uByte bDescriptorType;
++ uByte bNbrPorts;
++ uWord wHubCharacteristics;
++#define UHD_PWR 0x0003
++#define UHD_PWR_GANGED 0x0000
++#define UHD_PWR_INDIVIDUAL 0x0001
++#define UHD_PWR_NO_SWITCH 0x0002
++#define UHD_COMPOUND 0x0004
++#define UHD_OC 0x0018
++#define UHD_OC_GLOBAL 0x0000
++#define UHD_OC_INDIVIDUAL 0x0008
++#define UHD_OC_NONE 0x0010
++#define UHD_TT_THINK 0x0060
++#define UHD_TT_THINK_8 0x0000
++#define UHD_TT_THINK_16 0x0020
++#define UHD_TT_THINK_24 0x0040
++#define UHD_TT_THINK_32 0x0060
++#define UHD_PORT_IND 0x0080
++ uByte bPwrOn2PwrGood; /* delay in 2 ms units */
++#define UHD_PWRON_FACTOR 2
++ uByte bHubContrCurrent;
++ uByte DeviceRemovable[32]; /* max 255 ports */
++#define UHD_NOT_REMOV(desc, i) \
++ (((desc)->DeviceRemovable[(i)/8] >> ((i) % 8)) & 1)
++ /* deprecated */ uByte PortPowerCtrlMask[1];
++} UPACKED usb_hub_descriptor_t;
++#define USB_HUB_DESCRIPTOR_SIZE 9 /* includes deprecated PortPowerCtrlMask */
++
++typedef struct {
++ uByte bLength;
++ uByte bDescriptorType;
++ uWord bcdUSB;
++ uByte bDeviceClass;
++ uByte bDeviceSubClass;
++ uByte bDeviceProtocol;
++ uByte bMaxPacketSize0;
++ uByte bNumConfigurations;
++ uByte bReserved;
++} UPACKED usb_device_qualifier_t;
++#define USB_DEVICE_QUALIFIER_SIZE 10
++
++typedef struct {
++ uByte bLength;
++ uByte bDescriptorType;
++ uByte bmAttributes;
++#define UOTG_SRP 0x01
++#define UOTG_HNP 0x02
++} UPACKED usb_otg_descriptor_t;
++
++/* OTG feature selectors */
++#define UOTG_B_HNP_ENABLE 3
++#define UOTG_A_HNP_SUPPORT 4
++#define UOTG_A_ALT_HNP_SUPPORT 5
++
++typedef struct {
++ uWord wStatus;
++/* Device status flags */
++#define UDS_SELF_POWERED 0x0001
++#define UDS_REMOTE_WAKEUP 0x0002
++/* Endpoint status flags */
++#define UES_HALT 0x0001
++} UPACKED usb_status_t;
++
++typedef struct {
++ uWord wHubStatus;
++#define UHS_LOCAL_POWER 0x0001
++#define UHS_OVER_CURRENT 0x0002
++ uWord wHubChange;
++} UPACKED usb_hub_status_t;
++
++typedef struct {
++ uWord wPortStatus;
++#define UPS_CURRENT_CONNECT_STATUS 0x0001
++#define UPS_PORT_ENABLED 0x0002
++#define UPS_SUSPEND 0x0004
++#define UPS_OVERCURRENT_INDICATOR 0x0008
++#define UPS_RESET 0x0010
++#define UPS_PORT_POWER 0x0100
++#define UPS_LOW_SPEED 0x0200
++#define UPS_HIGH_SPEED 0x0400
++#define UPS_PORT_TEST 0x0800
++#define UPS_PORT_INDICATOR 0x1000
++ uWord wPortChange;
++#define UPS_C_CONNECT_STATUS 0x0001
++#define UPS_C_PORT_ENABLED 0x0002
++#define UPS_C_SUSPEND 0x0004
++#define UPS_C_OVERCURRENT_INDICATOR 0x0008
++#define UPS_C_PORT_RESET 0x0010
++} UPACKED usb_port_status_t;
++
++#ifdef _MSC_VER
++#include <poppack.h>
++#endif
++
++/* Device class codes */
++#define UDCLASS_IN_INTERFACE 0x00
++#define UDCLASS_COMM 0x02
++#define UDCLASS_HUB 0x09
++#define UDSUBCLASS_HUB 0x00
++#define UDPROTO_FSHUB 0x00
++#define UDPROTO_HSHUBSTT 0x01
++#define UDPROTO_HSHUBMTT 0x02
++#define UDCLASS_DIAGNOSTIC 0xdc
++#define UDCLASS_WIRELESS 0xe0
++#define UDSUBCLASS_RF 0x01
++#define UDPROTO_BLUETOOTH 0x01
++#define UDCLASS_VENDOR 0xff
++
++/* Interface class codes */
++#define UICLASS_UNSPEC 0x00
++
++#define UICLASS_AUDIO 0x01
++#define UISUBCLASS_AUDIOCONTROL 1
++#define UISUBCLASS_AUDIOSTREAM 2
++#define UISUBCLASS_MIDISTREAM 3
++
++#define UICLASS_CDC 0x02 /* communication */
++#define UISUBCLASS_DIRECT_LINE_CONTROL_MODEL 1
++#define UISUBCLASS_ABSTRACT_CONTROL_MODEL 2
++#define UISUBCLASS_TELEPHONE_CONTROL_MODEL 3
++#define UISUBCLASS_MULTICHANNEL_CONTROL_MODEL 4
++#define UISUBCLASS_CAPI_CONTROLMODEL 5
++#define UISUBCLASS_ETHERNET_NETWORKING_CONTROL_MODEL 6
++#define UISUBCLASS_ATM_NETWORKING_CONTROL_MODEL 7
++#define UIPROTO_CDC_AT 1
++
++#define UICLASS_HID 0x03
++#define UISUBCLASS_BOOT 1
++#define UIPROTO_BOOT_KEYBOARD 1
++
++#define UICLASS_PHYSICAL 0x05
++
++#define UICLASS_IMAGE 0x06
++
++#define UICLASS_PRINTER 0x07
++#define UISUBCLASS_PRINTER 1
++#define UIPROTO_PRINTER_UNI 1
++#define UIPROTO_PRINTER_BI 2
++#define UIPROTO_PRINTER_1284 3
++
++#define UICLASS_MASS 0x08
++#define UISUBCLASS_RBC 1
++#define UISUBCLASS_SFF8020I 2
++#define UISUBCLASS_QIC157 3
++#define UISUBCLASS_UFI 4
++#define UISUBCLASS_SFF8070I 5
++#define UISUBCLASS_SCSI 6
++#define UIPROTO_MASS_CBI_I 0
++#define UIPROTO_MASS_CBI 1
++#define UIPROTO_MASS_BBB_OLD 2 /* Not in the spec anymore */
++#define UIPROTO_MASS_BBB 80 /* 'P' for the Iomega Zip drive */
++
++#define UICLASS_HUB 0x09
++#define UISUBCLASS_HUB 0
++#define UIPROTO_FSHUB 0
++#define UIPROTO_HSHUBSTT 0 /* Yes, same as previous */
++#define UIPROTO_HSHUBMTT 1
++
++#define UICLASS_CDC_DATA 0x0a
++#define UISUBCLASS_DATA 0
++#define UIPROTO_DATA_ISDNBRI 0x30 /* Physical iface */
++#define UIPROTO_DATA_HDLC 0x31 /* HDLC */
++#define UIPROTO_DATA_TRANSPARENT 0x32 /* Transparent */
++#define UIPROTO_DATA_Q921M 0x50 /* Management for Q921 */
++#define UIPROTO_DATA_Q921 0x51 /* Data for Q921 */
++#define UIPROTO_DATA_Q921TM 0x52 /* TEI multiplexer for Q921 */
++#define UIPROTO_DATA_V42BIS 0x90 /* Data compression */
++#define UIPROTO_DATA_Q931 0x91 /* Euro-ISDN */
++#define UIPROTO_DATA_V120 0x92 /* V.24 rate adaption */
++#define UIPROTO_DATA_CAPI 0x93 /* CAPI 2.0 commands */
++#define UIPROTO_DATA_HOST_BASED 0xfd /* Host based driver */
++#define UIPROTO_DATA_PUF 0xfe /* see Prot. Unit Func. Desc.*/
++#define UIPROTO_DATA_VENDOR 0xff /* Vendor specific */
++
++#define UICLASS_SMARTCARD 0x0b
++
++/*#define UICLASS_FIRM_UPD 0x0c*/
++
++#define UICLASS_SECURITY 0x0d
++
++#define UICLASS_DIAGNOSTIC 0xdc
++
++#define UICLASS_WIRELESS 0xe0
++#define UISUBCLASS_RF 0x01
++#define UIPROTO_BLUETOOTH 0x01
++
++#define UICLASS_APPL_SPEC 0xfe
++#define UISUBCLASS_FIRMWARE_DOWNLOAD 1
++#define UISUBCLASS_IRDA 2
++#define UIPROTO_IRDA 0
++
++#define UICLASS_VENDOR 0xff
++
++#define USB_HUB_MAX_DEPTH 5
++
++/*
++ * Minimum time a device needs to be powered down to go through
++ * a power cycle. XXX Are these time in the spec?
++ */
++#define USB_POWER_DOWN_TIME 200 /* ms */
++#define USB_PORT_POWER_DOWN_TIME 100 /* ms */
++
++#if 0
++/* These are the values from the spec. */
++#define USB_PORT_RESET_DELAY 10 /* ms */
++#define USB_PORT_ROOT_RESET_DELAY 50 /* ms */
++#define USB_PORT_RESET_RECOVERY 10 /* ms */
++#define USB_PORT_POWERUP_DELAY 100 /* ms */
++#define USB_SET_ADDRESS_SETTLE 2 /* ms */
++#define USB_RESUME_DELAY (20*5) /* ms */
++#define USB_RESUME_WAIT 10 /* ms */
++#define USB_RESUME_RECOVERY 10 /* ms */
++#define USB_EXTRA_POWER_UP_TIME 0 /* ms */
++#else
++/* Allow for marginal (i.e. non-conforming) devices. */
++#define USB_PORT_RESET_DELAY 50 /* ms */
++#define USB_PORT_ROOT_RESET_DELAY 250 /* ms */
++#define USB_PORT_RESET_RECOVERY 250 /* ms */
++#define USB_PORT_POWERUP_DELAY 300 /* ms */
++#define USB_SET_ADDRESS_SETTLE 10 /* ms */
++#define USB_RESUME_DELAY (50*5) /* ms */
++#define USB_RESUME_WAIT 50 /* ms */
++#define USB_RESUME_RECOVERY 50 /* ms */
++#define USB_EXTRA_POWER_UP_TIME 20 /* ms */
++#endif
++
++#define USB_MIN_POWER 100 /* mA */
++#define USB_MAX_POWER 500 /* mA */
++
++#define USB_BUS_RESET_DELAY 100 /* ms XXX?*/
++
++#define USB_UNCONFIG_NO 0
++#define USB_UNCONFIG_INDEX (-1)
++
++/*** ioctl() related stuff ***/
++
++struct usb_ctl_request {
++ int ucr_addr;
++ usb_device_request_t ucr_request;
++ void *ucr_data;
++ int ucr_flags;
++#define USBD_SHORT_XFER_OK 0x04 /* allow short reads */
++ int ucr_actlen; /* actual length transferred */
++};
++
++struct usb_alt_interface {
++ int uai_config_index;
++ int uai_interface_index;
++ int uai_alt_no;
++};
++
++#define USB_CURRENT_CONFIG_INDEX (-1)
++#define USB_CURRENT_ALT_INDEX (-1)
++
++struct usb_config_desc {
++ int ucd_config_index;
++ usb_config_descriptor_t ucd_desc;
++};
++
++struct usb_interface_desc {
++ int uid_config_index;
++ int uid_interface_index;
++ int uid_alt_index;
++ usb_interface_descriptor_t uid_desc;
++};
++
++struct usb_endpoint_desc {
++ int ued_config_index;
++ int ued_interface_index;
++ int ued_alt_index;
++ int ued_endpoint_index;
++ usb_endpoint_descriptor_t ued_desc;
++};
++
++struct usb_full_desc {
++ int ufd_config_index;
++ u_int ufd_size;
++ u_char *ufd_data;
++};
++
++struct usb_string_desc {
++ int usd_string_index;
++ int usd_language_id;
++ usb_string_descriptor_t usd_desc;
++};
++
++struct usb_ctl_report_desc {
++ int ucrd_size;
++ u_char ucrd_data[1024]; /* filled data size will vary */
++};
++
++typedef struct { u_int32_t cookie; } usb_event_cookie_t;
++
++#define USB_MAX_DEVNAMES 4
++#define USB_MAX_DEVNAMELEN 16
++struct usb_device_info {
++ u_int8_t udi_bus;
++ u_int8_t udi_addr; /* device address */
++ usb_event_cookie_t udi_cookie;
++ char udi_product[USB_MAX_STRING_LEN];
++ char udi_vendor[USB_MAX_STRING_LEN];
++ char udi_release[8];
++ u_int16_t udi_productNo;
++ u_int16_t udi_vendorNo;
++ u_int16_t udi_releaseNo;
++ u_int8_t udi_class;
++ u_int8_t udi_subclass;
++ u_int8_t udi_protocol;
++ u_int8_t udi_config;
++ u_int8_t udi_speed;
++#define USB_SPEED_UNKNOWN 0
++#define USB_SPEED_LOW 1
++#define USB_SPEED_FULL 2
++#define USB_SPEED_HIGH 3
++#define USB_SPEED_VARIABLE 4
++#define USB_SPEED_SUPER 5
++ int udi_power; /* power consumption in mA, 0 if selfpowered */
++ int udi_nports;
++ char udi_devnames[USB_MAX_DEVNAMES][USB_MAX_DEVNAMELEN];
++ u_int8_t udi_ports[16];/* hub only: addresses of devices on ports */
++#define USB_PORT_ENABLED 0xff
++#define USB_PORT_SUSPENDED 0xfe
++#define USB_PORT_POWERED 0xfd
++#define USB_PORT_DISABLED 0xfc
++};
++
++struct usb_ctl_report {
++ int ucr_report;
++ u_char ucr_data[1024]; /* filled data size will vary */
++};
++
++struct usb_device_stats {
++ u_long uds_requests[4]; /* indexed by transfer type UE_* */
++};
++
++#define WUSB_MIN_IE 0x80
++#define WUSB_WCTA_IE 0x80
++#define WUSB_WCONNECTACK_IE 0x81
++#define WUSB_WHOSTINFO_IE 0x82
++#define WUHI_GET_CA(_bmAttributes_) ((_bmAttributes_) & 0x3)
++#define WUHI_CA_RECONN 0x00
++#define WUHI_CA_LIMITED 0x01
++#define WUHI_CA_ALL 0x03
++#define WUHI_GET_MLSI(_bmAttributes_) (((_bmAttributes_) & 0x38) >> 3)
++#define WUSB_WCHCHANGEANNOUNCE_IE 0x83
++#define WUSB_WDEV_DISCONNECT_IE 0x84
++#define WUSB_WHOST_DISCONNECT_IE 0x85
++#define WUSB_WRELEASE_CHANNEL_IE 0x86
++#define WUSB_WWORK_IE 0x87
++#define WUSB_WCHANNEL_STOP_IE 0x88
++#define WUSB_WDEV_KEEPALIVE_IE 0x89
++#define WUSB_WISOCH_DISCARD_IE 0x8A
++#define WUSB_WRESETDEVICE_IE 0x8B
++#define WUSB_WXMIT_PACKET_ADJUST_IE 0x8C
++#define WUSB_MAX_IE 0x8C
++
++/* Device Notification Types */
++
++#define WUSB_DN_MIN 0x01
++#define WUSB_DN_CONNECT 0x01
++# define WUSB_DA_OLDCONN 0x00
++# define WUSB_DA_NEWCONN 0x01
++# define WUSB_DA_SELF_BEACON 0x02
++# define WUSB_DA_DIR_BEACON 0x04
++# define WUSB_DA_NO_BEACON 0x06
++#define WUSB_DN_DISCONNECT 0x02
++#define WUSB_DN_EPRDY 0x03
++#define WUSB_DN_MASAVAILCHANGED 0x04
++#define WUSB_DN_REMOTEWAKEUP 0x05
++#define WUSB_DN_SLEEP 0x06
++#define WUSB_DN_ALIVE 0x07
++#define WUSB_DN_MAX 0x07
++
++#ifdef _MSC_VER
++#include <pshpack1.h>
++#endif
++
++/* WUSB Handshake Data. Used during the SET/GET HANDSHAKE requests */
++typedef struct wusb_hndshk_data {
++ uByte bMessageNumber;
++ uByte bStatus;
++ uByte tTKID[3];
++ uByte bReserved;
++ uByte CDID[16];
++ uByte Nonce[16];
++ uByte MIC[8];
++} UPACKED wusb_hndshk_data_t;
++#define WUSB_HANDSHAKE_LEN_FOR_MIC 38
++
++/* WUSB Connection Context */
++typedef struct wusb_conn_context {
++ uByte CHID [16];
++ uByte CDID [16];
++ uByte CK [16];
++} UPACKED wusb_conn_context_t;
++
++/* WUSB Security Descriptor */
++typedef struct wusb_security_desc {
++ uByte bLength;
++ uByte bDescriptorType;
++ uWord wTotalLength;
++ uByte bNumEncryptionTypes;
++} UPACKED wusb_security_desc_t;
++
++/* WUSB Encryption Type Descriptor */
++typedef struct wusb_encrypt_type_desc {
++ uByte bLength;
++ uByte bDescriptorType;
++
++ uByte bEncryptionType;
++#define WUETD_UNSECURE 0
++#define WUETD_WIRED 1
++#define WUETD_CCM_1 2
++#define WUETD_RSA_1 3
++
++ uByte bEncryptionValue;
++ uByte bAuthKeyIndex;
++} UPACKED wusb_encrypt_type_desc_t;
++
++/* WUSB Key Descriptor */
++typedef struct wusb_key_desc {
++ uByte bLength;
++ uByte bDescriptorType;
++ uByte tTKID[3];
++ uByte bReserved;
++ uByte KeyData[1]; /* variable length */
++} UPACKED wusb_key_desc_t;
++
++/* WUSB BOS Descriptor (Binary device Object Store) */
++typedef struct wusb_bos_desc {
++ uByte bLength;
++ uByte bDescriptorType;
++ uWord wTotalLength;
++ uByte bNumDeviceCaps;
++} UPACKED wusb_bos_desc_t;
++
++#define USB_DEVICE_CAPABILITY_20_EXTENSION 0x02
++typedef struct usb_dev_cap_20_ext_desc {
++ uByte bLength;
++ uByte bDescriptorType;
++ uByte bDevCapabilityType;
++#define USB_20_EXT_LPM 0x02
++ uDWord bmAttributes;
++} UPACKED usb_dev_cap_20_ext_desc_t;
++
++#define USB_DEVICE_CAPABILITY_SS_USB 0x03
++typedef struct usb_dev_cap_ss_usb {
++ uByte bLength;
++ uByte bDescriptorType;
++ uByte bDevCapabilityType;
++#define USB_DC_SS_USB_LTM_CAPABLE 0x02
++ uByte bmAttributes;
++#define USB_DC_SS_USB_SPEED_SUPPORT_LOW 0x01
++#define USB_DC_SS_USB_SPEED_SUPPORT_FULL 0x02
++#define USB_DC_SS_USB_SPEED_SUPPORT_HIGH 0x04
++#define USB_DC_SS_USB_SPEED_SUPPORT_SS 0x08
++ uWord wSpeedsSupported;
++ uByte bFunctionalitySupport;
++ uByte bU1DevExitLat;
++ uWord wU2DevExitLat;
++} UPACKED usb_dev_cap_ss_usb_t;
++
++#define USB_DEVICE_CAPABILITY_CONTAINER_ID 0x04
++typedef struct usb_dev_cap_container_id {
++ uByte bLength;
++ uByte bDescriptorType;
++ uByte bDevCapabilityType;
++ uByte bReserved;
++ uByte containerID[16];
++} UPACKED usb_dev_cap_container_id_t;
++
++/* Device Capability Type Codes */
++#define WUSB_DEVICE_CAPABILITY_WIRELESS_USB 0x01
++
++/* Device Capability Descriptor */
++typedef struct wusb_dev_cap_desc {
++ uByte bLength;
++ uByte bDescriptorType;
++ uByte bDevCapabilityType;
++ uByte caps[1]; /* Variable length */
++} UPACKED wusb_dev_cap_desc_t;
++
++/* Device Capability Descriptor */
++typedef struct wusb_dev_cap_uwb_desc {
++ uByte bLength;
++ uByte bDescriptorType;
++ uByte bDevCapabilityType;
++ uByte bmAttributes;
++ uWord wPHYRates; /* Bitmap */
++ uByte bmTFITXPowerInfo;
++ uByte bmFFITXPowerInfo;
++ uWord bmBandGroup;
++ uByte bReserved;
++} UPACKED wusb_dev_cap_uwb_desc_t;
++
++/* Wireless USB Endpoint Companion Descriptor */
++typedef struct wusb_endpoint_companion_desc {
++ uByte bLength;
++ uByte bDescriptorType;
++ uByte bMaxBurst;
++ uByte bMaxSequence;
++ uWord wMaxStreamDelay;
++ uWord wOverTheAirPacketSize;
++ uByte bOverTheAirInterval;
++ uByte bmCompAttributes;
++} UPACKED wusb_endpoint_companion_desc_t;
++
++/* Wireless USB Numeric Association M1 Data Structure */
++typedef struct wusb_m1_data {
++ uByte version;
++ uWord langId;
++ uByte deviceFriendlyNameLength;
++ uByte sha_256_m3[32];
++ uByte deviceFriendlyName[256];
++} UPACKED wusb_m1_data_t;
++
++typedef struct wusb_m2_data {
++ uByte version;
++ uWord langId;
++ uByte hostFriendlyNameLength;
++ uByte pkh[384];
++ uByte hostFriendlyName[256];
++} UPACKED wusb_m2_data_t;
++
++typedef struct wusb_m3_data {
++ uByte pkd[384];
++ uByte nd;
++} UPACKED wusb_m3_data_t;
++
++typedef struct wusb_m4_data {
++ uDWord _attributeTypeIdAndLength_1;
++ uWord associationTypeId;
++
++ uDWord _attributeTypeIdAndLength_2;
++ uWord associationSubTypeId;
++
++ uDWord _attributeTypeIdAndLength_3;
++ uDWord length;
++
++ uDWord _attributeTypeIdAndLength_4;
++ uDWord associationStatus;
++
++ uDWord _attributeTypeIdAndLength_5;
++ uByte chid[16];
++
++ uDWord _attributeTypeIdAndLength_6;
++ uByte cdid[16];
++
++ uDWord _attributeTypeIdAndLength_7;
++ uByte bandGroups[2];
++} UPACKED wusb_m4_data_t;
++
++#ifdef _MSC_VER
++#include <poppack.h>
++#endif
++
++#ifdef __cplusplus
++}
++#endif
++
++#endif /* _USB_H_ */
+diff -urN linux-3.10/drivers/usb/host/dwc_otg/doc/doxygen.cfg linux-rpi-3.10.y/drivers/usb/host/dwc_otg/doc/doxygen.cfg
+--- linux-3.10/drivers/usb/host/dwc_otg/doc/doxygen.cfg 1970-01-01 01:00:00.000000000 +0100
++++ linux-rpi-3.10.y/drivers/usb/host/dwc_otg/doc/doxygen.cfg 2013-07-06 15:25:50.000000000 +0100
+@@ -0,0 +1,224 @@
++# Doxyfile 1.3.9.1
++
++#---------------------------------------------------------------------------
++# Project related configuration options
++#---------------------------------------------------------------------------
++PROJECT_NAME = "DesignWare USB 2.0 OTG Controller (DWC_otg) Device Driver"
++PROJECT_NUMBER = v3.00a
++OUTPUT_DIRECTORY = ./doc/
++CREATE_SUBDIRS = NO
++OUTPUT_LANGUAGE = English
++BRIEF_MEMBER_DESC = YES
++REPEAT_BRIEF = YES
++ABBREVIATE_BRIEF = "The $name class" \
++ "The $name widget" \
++ "The $name file" \
++ is \
++ provides \
++ specifies \
++ contains \
++ represents \
++ a \
++ an \
++ the
++ALWAYS_DETAILED_SEC = NO
++INLINE_INHERITED_MEMB = NO
++FULL_PATH_NAMES = NO
++STRIP_FROM_PATH =
++STRIP_FROM_INC_PATH =
++SHORT_NAMES = NO
++JAVADOC_AUTOBRIEF = YES
++MULTILINE_CPP_IS_BRIEF = NO
++INHERIT_DOCS = YES
++DISTRIBUTE_GROUP_DOC = NO
++TAB_SIZE = 8
++ALIASES =
++OPTIMIZE_OUTPUT_FOR_C = YES
++OPTIMIZE_OUTPUT_JAVA = NO
++SUBGROUPING = YES
++#---------------------------------------------------------------------------
++# Build related configuration options
++#---------------------------------------------------------------------------
++EXTRACT_ALL = NO
++EXTRACT_PRIVATE = YES
++EXTRACT_STATIC = YES
++EXTRACT_LOCAL_CLASSES = YES
++EXTRACT_LOCAL_METHODS = NO
++HIDE_UNDOC_MEMBERS = NO
++HIDE_UNDOC_CLASSES = NO
++HIDE_FRIEND_COMPOUNDS = NO
++HIDE_IN_BODY_DOCS = NO
++INTERNAL_DOCS = NO
++CASE_SENSE_NAMES = NO
++HIDE_SCOPE_NAMES = NO
++SHOW_INCLUDE_FILES = YES
++INLINE_INFO = YES
++SORT_MEMBER_DOCS = NO
++SORT_BRIEF_DOCS = NO
++SORT_BY_SCOPE_NAME = NO
++GENERATE_TODOLIST = YES
++GENERATE_TESTLIST = YES
++GENERATE_BUGLIST = YES
++GENERATE_DEPRECATEDLIST= YES
++ENABLED_SECTIONS =
++MAX_INITIALIZER_LINES = 30
++SHOW_USED_FILES = YES
++SHOW_DIRECTORIES = YES
++#---------------------------------------------------------------------------
++# configuration options related to warning and progress messages
++#---------------------------------------------------------------------------
++QUIET = YES
++WARNINGS = YES
++WARN_IF_UNDOCUMENTED = NO
++WARN_IF_DOC_ERROR = YES
++WARN_FORMAT = "$file:$line: $text"
++WARN_LOGFILE =
++#---------------------------------------------------------------------------
++# configuration options related to the input files
++#---------------------------------------------------------------------------
++INPUT = .
++FILE_PATTERNS = *.c \
++ *.h \
++ ./linux/*.c \
++ ./linux/*.h
++RECURSIVE = NO
++EXCLUDE = ./test/ \
++ ./dwc_otg/.AppleDouble/
++EXCLUDE_SYMLINKS = YES
++EXCLUDE_PATTERNS = *.mod.*
++EXAMPLE_PATH =
++EXAMPLE_PATTERNS = *
++EXAMPLE_RECURSIVE = NO
++IMAGE_PATH =
++INPUT_FILTER =
++FILTER_PATTERNS =
++FILTER_SOURCE_FILES = NO
++#---------------------------------------------------------------------------
++# configuration options related to source browsing
++#---------------------------------------------------------------------------
++SOURCE_BROWSER = YES
++INLINE_SOURCES = NO
++STRIP_CODE_COMMENTS = YES
++REFERENCED_BY_RELATION = NO
++REFERENCES_RELATION = NO
++VERBATIM_HEADERS = NO
++#---------------------------------------------------------------------------
++# configuration options related to the alphabetical class index
++#---------------------------------------------------------------------------
++ALPHABETICAL_INDEX = NO
++COLS_IN_ALPHA_INDEX = 5
++IGNORE_PREFIX =
++#---------------------------------------------------------------------------
++# configuration options related to the HTML output
++#---------------------------------------------------------------------------
++GENERATE_HTML = YES
++HTML_OUTPUT = html
++HTML_FILE_EXTENSION = .html
++HTML_HEADER =
++HTML_FOOTER =
++HTML_STYLESHEET =
++HTML_ALIGN_MEMBERS = YES
++GENERATE_HTMLHELP = NO
++CHM_FILE =
++HHC_LOCATION =
++GENERATE_CHI = NO
++BINARY_TOC = NO
++TOC_EXPAND = NO
++DISABLE_INDEX = NO
++ENUM_VALUES_PER_LINE = 4
++GENERATE_TREEVIEW = YES
++TREEVIEW_WIDTH = 250
++#---------------------------------------------------------------------------
++# configuration options related to the LaTeX output
++#---------------------------------------------------------------------------
++GENERATE_LATEX = NO
++LATEX_OUTPUT = latex
++LATEX_CMD_NAME = latex
++MAKEINDEX_CMD_NAME = makeindex
++COMPACT_LATEX = NO
++PAPER_TYPE = a4wide
++EXTRA_PACKAGES =
++LATEX_HEADER =
++PDF_HYPERLINKS = NO
++USE_PDFLATEX = NO
++LATEX_BATCHMODE = NO
++LATEX_HIDE_INDICES = NO
++#---------------------------------------------------------------------------
++# configuration options related to the RTF output
++#---------------------------------------------------------------------------
++GENERATE_RTF = NO
++RTF_OUTPUT = rtf
++COMPACT_RTF = NO
++RTF_HYPERLINKS = NO
++RTF_STYLESHEET_FILE =
++RTF_EXTENSIONS_FILE =
++#---------------------------------------------------------------------------
++# configuration options related to the man page output
++#---------------------------------------------------------------------------
++GENERATE_MAN = NO
++MAN_OUTPUT = man
++MAN_EXTENSION = .3
++MAN_LINKS = NO
++#---------------------------------------------------------------------------
++# configuration options related to the XML output
++#---------------------------------------------------------------------------
++GENERATE_XML = NO
++XML_OUTPUT = xml
++XML_SCHEMA =
++XML_DTD =
++XML_PROGRAMLISTING = YES
++#---------------------------------------------------------------------------
++# configuration options for the AutoGen Definitions output
++#---------------------------------------------------------------------------
++GENERATE_AUTOGEN_DEF = NO
++#---------------------------------------------------------------------------
++# configuration options related to the Perl module output
++#---------------------------------------------------------------------------
++GENERATE_PERLMOD = NO
++PERLMOD_LATEX = NO
++PERLMOD_PRETTY = YES
++PERLMOD_MAKEVAR_PREFIX =
++#---------------------------------------------------------------------------
++# Configuration options related to the preprocessor
++#---------------------------------------------------------------------------
++ENABLE_PREPROCESSING = YES
++MACRO_EXPANSION = YES
++EXPAND_ONLY_PREDEF = YES
++SEARCH_INCLUDES = YES
++INCLUDE_PATH =
++INCLUDE_FILE_PATTERNS =
++PREDEFINED = DEVICE_ATTR DWC_EN_ISOC
++EXPAND_AS_DEFINED = DWC_OTG_DEVICE_ATTR_BITFIELD_SHOW DWC_OTG_DEVICE_ATTR_BITFIELD_STORE DWC_OTG_DEVICE_ATTR_BITFIELD_RW DWC_OTG_DEVICE_ATTR_BITFIELD_RO DWC_OTG_DEVICE_ATTR_REG_SHOW DWC_OTG_DEVICE_ATTR_REG_STORE DWC_OTG_DEVICE_ATTR_REG32_RW DWC_OTG_DEVICE_ATTR_REG32_RO DWC_EN_ISOC
++SKIP_FUNCTION_MACROS = NO
++#---------------------------------------------------------------------------
++# Configuration::additions related to external references
++#---------------------------------------------------------------------------
++TAGFILES =
++GENERATE_TAGFILE =
++ALLEXTERNALS = NO
++EXTERNAL_GROUPS = YES
++PERL_PATH = /usr/bin/perl
++#---------------------------------------------------------------------------
++# Configuration options related to the dot tool
++#---------------------------------------------------------------------------
++CLASS_DIAGRAMS = YES
++HIDE_UNDOC_RELATIONS = YES
++HAVE_DOT = NO
++CLASS_GRAPH = YES
++COLLABORATION_GRAPH = YES
++UML_LOOK = NO
++TEMPLATE_RELATIONS = NO
++INCLUDE_GRAPH = YES
++INCLUDED_BY_GRAPH = YES
++CALL_GRAPH = NO
++GRAPHICAL_HIERARCHY = YES
++DOT_IMAGE_FORMAT = png
++DOT_PATH =
++DOTFILE_DIRS =
++MAX_DOT_GRAPH_DEPTH = 1000
++GENERATE_LEGEND = YES
++DOT_CLEANUP = YES
++#---------------------------------------------------------------------------
++# Configuration::additions related to the search engine
++#---------------------------------------------------------------------------
++SEARCHENGINE = NO
+diff -urN linux-3.10/drivers/usb/host/dwc_otg/dummy_audio.c linux-rpi-3.10.y/drivers/usb/host/dwc_otg/dummy_audio.c
+--- linux-3.10/drivers/usb/host/dwc_otg/dummy_audio.c 1970-01-01 01:00:00.000000000 +0100
++++ linux-rpi-3.10.y/drivers/usb/host/dwc_otg/dummy_audio.c 2013-07-06 15:25:50.000000000 +0100
+@@ -0,0 +1,1575 @@
++/*
++ * zero.c -- Gadget Zero, for USB development
++ *
++ * Copyright (C) 2003-2004 David Brownell
++ * All rights reserved.
++ *
++ * Redistribution and use in source and binary forms, with or without
++ * modification, are permitted provided that the following conditions
++ * are met:
++ * 1. Redistributions of source code must retain the above copyright
++ * notice, this list of conditions, and the following disclaimer,
++ * without modification.
++ * 2. Redistributions in binary form must reproduce the above copyright
++ * notice, this list of conditions and the following disclaimer in the
++ * documentation and/or other materials provided with the distribution.
++ * 3. The names of the above-listed copyright holders may not be used
++ * to endorse or promote products derived from this software without
++ * specific prior written permission.
++ *
++ * ALTERNATIVELY, this software may be distributed under the terms of the
++ * GNU General Public License ("GPL") as published by the Free Software
++ * Foundation, either version 2 of that License or (at your option) any
++ * later version.
++ *
++ * THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS
++ * IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO,
++ * THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR
++ * PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT OWNER OR
++ * CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL,
++ * EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO,
++ * PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR
++ * PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF
++ * LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING
++ * NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS
++ * SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
++ */
++
++
++/*
++ * Gadget Zero only needs two bulk endpoints, and is an example of how you
++ * can write a hardware-agnostic gadget driver running inside a USB device.
++ *
++ * Hardware details are visible (see CONFIG_USB_ZERO_* below) but don't
++ * affect most of the driver.
++ *
++ * Use it with the Linux host/master side "usbtest" driver to get a basic
++ * functional test of your device-side usb stack, or with "usb-skeleton".
++ *
++ * It supports two similar configurations. One sinks whatever the usb host
++ * writes, and in return sources zeroes. The other loops whatever the host
++ * writes back, so the host can read it. Module options include:
++ *
++ * buflen=N default N=4096, buffer size used
++ * qlen=N default N=32, how many buffers in the loopback queue
++ * loopdefault default false, list loopback config first
++ *
++ * Many drivers will only have one configuration, letting them be much
++ * simpler if they also don't support high speed operation (like this
++ * driver does).
++ */
++
++#include <linux/config.h>
++#include <linux/module.h>
++#include <linux/kernel.h>
++#include <linux/delay.h>
++#include <linux/ioport.h>
++#include <linux/sched.h>
++#include <linux/slab.h>
++#include <linux/smp_lock.h>
++#include <linux/errno.h>
++#include <linux/init.h>
++#include <linux/timer.h>
++#include <linux/list.h>
++#include <linux/interrupt.h>
++#include <linux/uts.h>
++#include <linux/version.h>
++#include <linux/device.h>
++#include <linux/moduleparam.h>
++#include <linux/proc_fs.h>
++
++#include <asm/byteorder.h>
++#include <asm/io.h>
++#include <asm/irq.h>
++#include <asm/system.h>
++#include <asm/unaligned.h>
++
++#if LINUX_VERSION_CODE >= KERNEL_VERSION(2,6,21)
++# include <linux/usb/ch9.h>
++#else
++# include <linux/usb_ch9.h>
++#endif
++
++#include <linux/usb_gadget.h>
++
++
++/*-------------------------------------------------------------------------*/
++/*-------------------------------------------------------------------------*/
++
++
++static int utf8_to_utf16le(const char *s, u16 *cp, unsigned len)
++{
++ int count = 0;
++ u8 c;
++ u16 uchar;
++
++ /* this insists on correct encodings, though not minimal ones.
++ * BUT it currently rejects legit 4-byte UTF-8 code points,
++ * which need surrogate pairs. (Unicode 3.1 can use them.)
++ */
++ while (len != 0 && (c = (u8) *s++) != 0) {
++ if (unlikely(c & 0x80)) {
++ // 2-byte sequence:
++ // 00000yyyyyxxxxxx = 110yyyyy 10xxxxxx
++ if ((c & 0xe0) == 0xc0) {
++ uchar = (c & 0x1f) << 6;
++
++ c = (u8) *s++;
++ if ((c & 0xc0) != 0xc0)
++ goto fail;
++ c &= 0x3f;
++ uchar |= c;
++
++ // 3-byte sequence (most CJKV characters):
++ // zzzzyyyyyyxxxxxx = 1110zzzz 10yyyyyy 10xxxxxx
++ } else if ((c & 0xf0) == 0xe0) {
++ uchar = (c & 0x0f) << 12;
++
++ c = (u8) *s++;
++ if ((c & 0xc0) != 0xc0)
++ goto fail;
++ c &= 0x3f;
++ uchar |= c << 6;
++
++ c = (u8) *s++;
++ if ((c & 0xc0) != 0xc0)
++ goto fail;
++ c &= 0x3f;
++ uchar |= c;
++
++ /* no bogus surrogates */
++ if (0xd800 <= uchar && uchar <= 0xdfff)
++ goto fail;
++
++ // 4-byte sequence (surrogate pairs, currently rare):
++ // 11101110wwwwzzzzyy + 110111yyyyxxxxxx
++ // = 11110uuu 10uuzzzz 10yyyyyy 10xxxxxx
++ // (uuuuu = wwww + 1)
++ // FIXME accept the surrogate code points (only)
++
++ } else
++ goto fail;
++ } else
++ uchar = c;
++ put_unaligned (cpu_to_le16 (uchar), cp++);
++ count++;
++ len--;
++ }
++ return count;
++fail:
++ return -1;
++}
++
++
++/**
++ * usb_gadget_get_string - fill out a string descriptor
++ * @table: of c strings encoded using UTF-8
++ * @id: string id, from low byte of wValue in get string descriptor
++ * @buf: at least 256 bytes
++ *
++ * Finds the UTF-8 string matching the ID, and converts it into a
++ * string descriptor in utf16-le.
++ * Returns length of descriptor (always even) or negative errno
++ *
++ * If your driver needs stings in multiple languages, you'll probably
++ * "switch (wIndex) { ... }" in your ep0 string descriptor logic,
++ * using this routine after choosing which set of UTF-8 strings to use.
++ * Note that US-ASCII is a strict subset of UTF-8; any string bytes with
++ * the eighth bit set will be multibyte UTF-8 characters, not ISO-8859/1
++ * characters (which are also widely used in C strings).
++ */
++int
++usb_gadget_get_string (struct usb_gadget_strings *table, int id, u8 *buf)
++{
++ struct usb_string *s;
++ int len;
++
++ /* descriptor 0 has the language id */
++ if (id == 0) {
++ buf [0] = 4;
++ buf [1] = USB_DT_STRING;
++ buf [2] = (u8) table->language;
++ buf [3] = (u8) (table->language >> 8);
++ return 4;
++ }
++ for (s = table->strings; s && s->s; s++)
++ if (s->id == id)
++ break;
++
++ /* unrecognized: stall. */
++ if (!s || !s->s)
++ return -EINVAL;
++
++ /* string descriptors have length, tag, then UTF16-LE text */
++ len = min ((size_t) 126, strlen (s->s));
++ memset (buf + 2, 0, 2 * len); /* zero all the bytes */
++ len = utf8_to_utf16le(s->s, (u16 *)&buf[2], len);
++ if (len < 0)
++ return -EINVAL;
++ buf [0] = (len + 1) * 2;
++ buf [1] = USB_DT_STRING;
++ return buf [0];
++}
++
++
++/*-------------------------------------------------------------------------*/
++/*-------------------------------------------------------------------------*/
++
++
++/**
++ * usb_descriptor_fillbuf - fill buffer with descriptors
++ * @buf: Buffer to be filled
++ * @buflen: Size of buf
++ * @src: Array of descriptor pointers, terminated by null pointer.
++ *
++ * Copies descriptors into the buffer, returning the length or a
++ * negative error code if they can't all be copied. Useful when
++ * assembling descriptors for an associated set of interfaces used
++ * as part of configuring a composite device; or in other cases where
++ * sets of descriptors need to be marshaled.
++ */
++int
++usb_descriptor_fillbuf(void *buf, unsigned buflen,
++ const struct usb_descriptor_header **src)
++{
++ u8 *dest = buf;
++
++ if (!src)
++ return -EINVAL;
++
++ /* fill buffer from src[] until null descriptor ptr */
++ for (; 0 != *src; src++) {
++ unsigned len = (*src)->bLength;
++
++ if (len > buflen)
++ return -EINVAL;
++ memcpy(dest, *src, len);
++ buflen -= len;
++ dest += len;
++ }
++ return dest - (u8 *)buf;
++}
++
++
++/**
++ * usb_gadget_config_buf - builts a complete configuration descriptor
++ * @config: Header for the descriptor, including characteristics such
++ * as power requirements and number of interfaces.
++ * @desc: Null-terminated vector of pointers to the descriptors (interface,
++ * endpoint, etc) defining all functions in this device configuration.
++ * @buf: Buffer for the resulting configuration descriptor.
++ * @length: Length of buffer. If this is not big enough to hold the
++ * entire configuration descriptor, an error code will be returned.
++ *
++ * This copies descriptors into the response buffer, building a descriptor
++ * for that configuration. It returns the buffer length or a negative
++ * status code. The config.wTotalLength field is set to match the length
++ * of the result, but other descriptor fields (including power usage and
++ * interface count) must be set by the caller.
++ *
++ * Gadget drivers could use this when constructing a config descriptor
++ * in response to USB_REQ_GET_DESCRIPTOR. They will need to patch the
++ * resulting bDescriptorType value if USB_DT_OTHER_SPEED_CONFIG is needed.
++ */
++int usb_gadget_config_buf(
++ const struct usb_config_descriptor *config,
++ void *buf,
++ unsigned length,
++ const struct usb_descriptor_header **desc
++)
++{
++ struct usb_config_descriptor *cp = buf;
++ int len;
++
++ /* config descriptor first */
++ if (length < USB_DT_CONFIG_SIZE || !desc)
++ return -EINVAL;
++ *cp = *config;
++
++ /* then interface/endpoint/class/vendor/... */
++ len = usb_descriptor_fillbuf(USB_DT_CONFIG_SIZE + (u8*)buf,
++ length - USB_DT_CONFIG_SIZE, desc);
++ if (len < 0)
++ return len;
++ len += USB_DT_CONFIG_SIZE;
++ if (len > 0xffff)
++ return -EINVAL;
++
++ /* patch up the config descriptor */
++ cp->bLength = USB_DT_CONFIG_SIZE;
++ cp->bDescriptorType = USB_DT_CONFIG;
++ cp->wTotalLength = cpu_to_le16(len);
++ cp->bmAttributes |= USB_CONFIG_ATT_ONE;
++ return len;
++}
++
++/*-------------------------------------------------------------------------*/
++/*-------------------------------------------------------------------------*/
++
++
++#define RBUF_LEN (1024*1024)
++static int rbuf_start;
++static int rbuf_len;
++static __u8 rbuf[RBUF_LEN];
++
++/*-------------------------------------------------------------------------*/
++
++#define DRIVER_VERSION "St Patrick's Day 2004"
++
++static const char shortname [] = "zero";
++static const char longname [] = "YAMAHA YST-MS35D USB Speaker ";
++
++static const char source_sink [] = "source and sink data";
++static const char loopback [] = "loop input to output";
++
++/*-------------------------------------------------------------------------*/
++
++/*
++ * driver assumes self-powered hardware, and
++ * has no way for users to trigger remote wakeup.
++ *
++ * this version autoconfigures as much as possible,
++ * which is reasonable for most "bulk-only" drivers.
++ */
++static const char *EP_IN_NAME; /* source */
++static const char *EP_OUT_NAME; /* sink */
++
++/*-------------------------------------------------------------------------*/
++
++/* big enough to hold our biggest descriptor */
++#define USB_BUFSIZ 512
++
++struct zero_dev {
++ spinlock_t lock;
++ struct usb_gadget *gadget;
++ struct usb_request *req; /* for control responses */
++
++ /* when configured, we have one of two configs:
++ * - source data (in to host) and sink it (out from host)
++ * - or loop it back (out from host back in to host)
++ */
++ u8 config;
++ struct usb_ep *in_ep, *out_ep;
++
++ /* autoresume timer */
++ struct timer_list resume;
++};
++
++#define xprintk(d,level,fmt,args...) \
++ dev_printk(level , &(d)->gadget->dev , fmt , ## args)
++
++#ifdef DEBUG
++#define DBG(dev,fmt,args...) \
++ xprintk(dev , KERN_DEBUG , fmt , ## args)
++#else
++#define DBG(dev,fmt,args...) \
++ do { } while (0)
++#endif /* DEBUG */
++
++#ifdef VERBOSE
++#define VDBG DBG
++#else
++#define VDBG(dev,fmt,args...) \
++ do { } while (0)
++#endif /* VERBOSE */
++
++#define ERROR(dev,fmt,args...) \
++ xprintk(dev , KERN_ERR , fmt , ## args)
++#define WARN(dev,fmt,args...) \
++ xprintk(dev , KERN_WARNING , fmt , ## args)
++#define INFO(dev,fmt,args...) \
++ xprintk(dev , KERN_INFO , fmt , ## args)
++
++/*-------------------------------------------------------------------------*/
++
++static unsigned buflen = 4096;
++static unsigned qlen = 32;
++static unsigned pattern = 0;
++
++module_param (buflen, uint, S_IRUGO|S_IWUSR);
++module_param (qlen, uint, S_IRUGO|S_IWUSR);
++module_param (pattern, uint, S_IRUGO|S_IWUSR);
++
++/*
++ * if it's nonzero, autoresume says how many seconds to wait
++ * before trying to wake up the host after suspend.
++ */
++static unsigned autoresume = 0;
++module_param (autoresume, uint, 0);
++
++/*
++ * Normally the "loopback" configuration is second (index 1) so
++ * it's not the default. Here's where to change that order, to
++ * work better with hosts where config changes are problematic.
++ * Or controllers (like superh) that only support one config.
++ */
++static int loopdefault = 0;
++
++module_param (loopdefault, bool, S_IRUGO|S_IWUSR);
++
++/*-------------------------------------------------------------------------*/
++
++/* Thanks to NetChip Technologies for donating this product ID.
++ *
++ * DO NOT REUSE THESE IDs with a protocol-incompatible driver!! Ever!!
++ * Instead: allocate your own, using normal USB-IF procedures.
++ */
++#ifndef CONFIG_USB_ZERO_HNPTEST
++#define DRIVER_VENDOR_NUM 0x0525 /* NetChip */
++#define DRIVER_PRODUCT_NUM 0xa4a0 /* Linux-USB "Gadget Zero" */
++#else
++#define DRIVER_VENDOR_NUM 0x1a0a /* OTG test device IDs */
++#define DRIVER_PRODUCT_NUM 0xbadd
++#endif
++
++/*-------------------------------------------------------------------------*/
++
++/*
++ * DESCRIPTORS ... most are static, but strings and (full)
++ * configuration descriptors are built on demand.
++ */
++
++/*
++#define STRING_MANUFACTURER 25
++#define STRING_PRODUCT 42
++#define STRING_SERIAL 101
++*/
++#define STRING_MANUFACTURER 1
++#define STRING_PRODUCT 2
++#define STRING_SERIAL 3
++
++#define STRING_SOURCE_SINK 250
++#define STRING_LOOPBACK 251
++
++/*
++ * This device advertises two configurations; these numbers work
++ * on a pxa250 as well as more flexible hardware.
++ */
++#define CONFIG_SOURCE_SINK 3
++#define CONFIG_LOOPBACK 2
++
++/*
++static struct usb_device_descriptor
++device_desc = {
++ .bLength = sizeof device_desc,
++ .bDescriptorType = USB_DT_DEVICE,
++
++ .bcdUSB = __constant_cpu_to_le16 (0x0200),
++ .bDeviceClass = USB_CLASS_VENDOR_SPEC,
++
++ .idVendor = __constant_cpu_to_le16 (DRIVER_VENDOR_NUM),
++ .idProduct = __constant_cpu_to_le16 (DRIVER_PRODUCT_NUM),
++ .iManufacturer = STRING_MANUFACTURER,
++ .iProduct = STRING_PRODUCT,
++ .iSerialNumber = STRING_SERIAL,
++ .bNumConfigurations = 2,
++};
++*/
++static struct usb_device_descriptor
++device_desc = {
++ .bLength = sizeof device_desc,
++ .bDescriptorType = USB_DT_DEVICE,
++ .bcdUSB = __constant_cpu_to_le16 (0x0100),
++ .bDeviceClass = USB_CLASS_PER_INTERFACE,
++ .bDeviceSubClass = 0,
++ .bDeviceProtocol = 0,
++ .bMaxPacketSize0 = 64,
++ .bcdDevice = __constant_cpu_to_le16 (0x0100),
++ .idVendor = __constant_cpu_to_le16 (0x0499),
++ .idProduct = __constant_cpu_to_le16 (0x3002),
++ .iManufacturer = STRING_MANUFACTURER,
++ .iProduct = STRING_PRODUCT,
++ .iSerialNumber = STRING_SERIAL,
++ .bNumConfigurations = 1,
++};
++
++static struct usb_config_descriptor
++z_config = {
++ .bLength = sizeof z_config,
++ .bDescriptorType = USB_DT_CONFIG,
++
++ /* compute wTotalLength on the fly */
++ .bNumInterfaces = 2,
++ .bConfigurationValue = 1,
++ .iConfiguration = 0,
++ .bmAttributes = 0x40,
++ .bMaxPower = 0, /* self-powered */
++};
++
++
++static struct usb_otg_descriptor
++otg_descriptor = {
++ .bLength = sizeof otg_descriptor,
++ .bDescriptorType = USB_DT_OTG,
++
++ .bmAttributes = USB_OTG_SRP,
++};
++
++/* one interface in each configuration */
++#ifdef CONFIG_USB_GADGET_DUALSPEED
++
++/*
++ * usb 2.0 devices need to expose both high speed and full speed
++ * descriptors, unless they only run at full speed.
++ *
++ * that means alternate endpoint descriptors (bigger packets)
++ * and a "device qualifier" ... plus more construction options
++ * for the config descriptor.
++ */
++
++static struct usb_qualifier_descriptor
++dev_qualifier = {
++ .bLength = sizeof dev_qualifier,
++ .bDescriptorType = USB_DT_DEVICE_QUALIFIER,
++
++ .bcdUSB = __constant_cpu_to_le16 (0x0200),
++ .bDeviceClass = USB_CLASS_VENDOR_SPEC,
++
++ .bNumConfigurations = 2,
++};
++
++
++struct usb_cs_as_general_descriptor {
++ __u8 bLength;
++ __u8 bDescriptorType;
++
++ __u8 bDescriptorSubType;
++ __u8 bTerminalLink;
++ __u8 bDelay;
++ __u16 wFormatTag;
++} __attribute__ ((packed));
++
++struct usb_cs_as_format_descriptor {
++ __u8 bLength;
++ __u8 bDescriptorType;
++
++ __u8 bDescriptorSubType;
++ __u8 bFormatType;
++ __u8 bNrChannels;
++ __u8 bSubframeSize;
++ __u8 bBitResolution;
++ __u8 bSamfreqType;
++ __u8 tLowerSamFreq[3];
++ __u8 tUpperSamFreq[3];
++} __attribute__ ((packed));
++
++static const struct usb_interface_descriptor
++z_audio_control_if_desc = {
++ .bLength = sizeof z_audio_control_if_desc,
++ .bDescriptorType = USB_DT_INTERFACE,
++ .bInterfaceNumber = 0,
++ .bAlternateSetting = 0,
++ .bNumEndpoints = 0,
++ .bInterfaceClass = USB_CLASS_AUDIO,
++ .bInterfaceSubClass = 0x1,
++ .bInterfaceProtocol = 0,
++ .iInterface = 0,
++};
++
++static const struct usb_interface_descriptor
++z_audio_if_desc = {
++ .bLength = sizeof z_audio_if_desc,
++ .bDescriptorType = USB_DT_INTERFACE,
++ .bInterfaceNumber = 1,
++ .bAlternateSetting = 0,
++ .bNumEndpoints = 0,
++ .bInterfaceClass = USB_CLASS_AUDIO,
++ .bInterfaceSubClass = 0x2,
++ .bInterfaceProtocol = 0,
++ .iInterface = 0,
++};
++
++static const struct usb_interface_descriptor
++z_audio_if_desc2 = {
++ .bLength = sizeof z_audio_if_desc,
++ .bDescriptorType = USB_DT_INTERFACE,
++ .bInterfaceNumber = 1,
++ .bAlternateSetting = 1,
++ .bNumEndpoints = 1,
++ .bInterfaceClass = USB_CLASS_AUDIO,
++ .bInterfaceSubClass = 0x2,
++ .bInterfaceProtocol = 0,
++ .iInterface = 0,
++};
++
++static const struct usb_cs_as_general_descriptor
++z_audio_cs_as_if_desc = {
++ .bLength = 7,
++ .bDescriptorType = 0x24,
++
++ .bDescriptorSubType = 0x01,
++ .bTerminalLink = 0x01,
++ .bDelay = 0x0,
++ .wFormatTag = __constant_cpu_to_le16 (0x0001)
++};
++
++
++static const struct usb_cs_as_format_descriptor
++z_audio_cs_as_format_desc = {
++ .bLength = 0xe,
++ .bDescriptorType = 0x24,
++
++ .bDescriptorSubType = 2,
++ .bFormatType = 1,
++ .bNrChannels = 1,
++ .bSubframeSize = 1,
++ .bBitResolution = 8,
++ .bSamfreqType = 0,
++ .tLowerSamFreq = {0x7e, 0x13, 0x00},
++ .tUpperSamFreq = {0xe2, 0xd6, 0x00},
++};
++
++static const struct usb_endpoint_descriptor
++z_iso_ep = {
++ .bLength = 0x09,
++ .bDescriptorType = 0x05,
++ .bEndpointAddress = 0x04,
++ .bmAttributes = 0x09,
++ .wMaxPacketSize = 0x0038,
++ .bInterval = 0x01,
++ .bRefresh = 0x00,
++ .bSynchAddress = 0x00,
++};
++
++static char z_iso_ep2[] = {0x07, 0x25, 0x01, 0x00, 0x02, 0x00, 0x02};
++
++// 9 bytes
++static char z_ac_interface_header_desc[] =
++{ 0x09, 0x24, 0x01, 0x00, 0x01, 0x2b, 0x00, 0x01, 0x01 };
++
++// 12 bytes
++static char z_0[] = {0x0c, 0x24, 0x02, 0x01, 0x01, 0x01, 0x00, 0x02,
++ 0x03, 0x00, 0x00, 0x00};
++// 13 bytes
++static char z_1[] = {0x0d, 0x24, 0x06, 0x02, 0x01, 0x02, 0x15, 0x00,
++ 0x02, 0x00, 0x02, 0x00, 0x00};
++// 9 bytes
++static char z_2[] = {0x09, 0x24, 0x03, 0x03, 0x01, 0x03, 0x00, 0x02,
++ 0x00};
++
++static char za_0[] = {0x09, 0x04, 0x01, 0x02, 0x01, 0x01, 0x02, 0x00,
++ 0x00};
++
++static char za_1[] = {0x07, 0x24, 0x01, 0x01, 0x00, 0x01, 0x00};
++
++static char za_2[] = {0x0e, 0x24, 0x02, 0x01, 0x02, 0x01, 0x08, 0x00,
++ 0x7e, 0x13, 0x00, 0xe2, 0xd6, 0x00};
++
++static char za_3[] = {0x09, 0x05, 0x04, 0x09, 0x70, 0x00, 0x01, 0x00,
++ 0x00};
++
++static char za_4[] = {0x07, 0x25, 0x01, 0x00, 0x02, 0x00, 0x02};
++
++static char za_5[] = {0x09, 0x04, 0x01, 0x03, 0x01, 0x01, 0x02, 0x00,
++ 0x00};
++
++static char za_6[] = {0x07, 0x24, 0x01, 0x01, 0x00, 0x01, 0x00};
++
++static char za_7[] = {0x0e, 0x24, 0x02, 0x01, 0x01, 0x02, 0x10, 0x00,
++ 0x7e, 0x13, 0x00, 0xe2, 0xd6, 0x00};
++
++static char za_8[] = {0x09, 0x05, 0x04, 0x09, 0x70, 0x00, 0x01, 0x00,
++ 0x00};
++
++static char za_9[] = {0x07, 0x25, 0x01, 0x00, 0x02, 0x00, 0x02};
++
++static char za_10[] = {0x09, 0x04, 0x01, 0x04, 0x01, 0x01, 0x02, 0x00,
++ 0x00};
++
++static char za_11[] = {0x07, 0x24, 0x01, 0x01, 0x00, 0x01, 0x00};
++
++static char za_12[] = {0x0e, 0x24, 0x02, 0x01, 0x02, 0x02, 0x10, 0x00,
++ 0x73, 0x13, 0x00, 0xe2, 0xd6, 0x00};
++
++static char za_13[] = {0x09, 0x05, 0x04, 0x09, 0xe0, 0x00, 0x01, 0x00,
++ 0x00};
++
++static char za_14[] = {0x07, 0x25, 0x01, 0x00, 0x02, 0x00, 0x02};
++
++static char za_15[] = {0x09, 0x04, 0x01, 0x05, 0x01, 0x01, 0x02, 0x00,
++ 0x00};
++
++static char za_16[] = {0x07, 0x24, 0x01, 0x01, 0x00, 0x01, 0x00};
++
++static char za_17[] = {0x0e, 0x24, 0x02, 0x01, 0x01, 0x03, 0x14, 0x00,
++ 0x7e, 0x13, 0x00, 0xe2, 0xd6, 0x00};
++
++static char za_18[] = {0x09, 0x05, 0x04, 0x09, 0xa8, 0x00, 0x01, 0x00,
++ 0x00};
++
++static char za_19[] = {0x07, 0x25, 0x01, 0x00, 0x02, 0x00, 0x02};
++
++static char za_20[] = {0x09, 0x04, 0x01, 0x06, 0x01, 0x01, 0x02, 0x00,
++ 0x00};
++
++static char za_21[] = {0x07, 0x24, 0x01, 0x01, 0x00, 0x01, 0x00};
++
++static char za_22[] = {0x0e, 0x24, 0x02, 0x01, 0x02, 0x03, 0x14, 0x00,
++ 0x7e, 0x13, 0x00, 0xe2, 0xd6, 0x00};
++
++static char za_23[] = {0x09, 0x05, 0x04, 0x09, 0x50, 0x01, 0x01, 0x00,
++ 0x00};
++
++static char za_24[] = {0x07, 0x25, 0x01, 0x00, 0x02, 0x00, 0x02};
++
++
++
++static const struct usb_descriptor_header *z_function [] = {
++ (struct usb_descriptor_header *) &z_audio_control_if_desc,
++ (struct usb_descriptor_header *) &z_ac_interface_header_desc,
++ (struct usb_descriptor_header *) &z_0,
++ (struct usb_descriptor_header *) &z_1,
++ (struct usb_descriptor_header *) &z_2,
++ (struct usb_descriptor_header *) &z_audio_if_desc,
++ (struct usb_descriptor_header *) &z_audio_if_desc2,
++ (struct usb_descriptor_header *) &z_audio_cs_as_if_desc,
++ (struct usb_descriptor_header *) &z_audio_cs_as_format_desc,
++ (struct usb_descriptor_header *) &z_iso_ep,
++ (struct usb_descriptor_header *) &z_iso_ep2,
++ (struct usb_descriptor_header *) &za_0,
++ (struct usb_descriptor_header *) &za_1,
++ (struct usb_descriptor_header *) &za_2,
++ (struct usb_descriptor_header *) &za_3,
++ (struct usb_descriptor_header *) &za_4,
++ (struct usb_descriptor_header *) &za_5,
++ (struct usb_descriptor_header *) &za_6,
++ (struct usb_descriptor_header *) &za_7,
++ (struct usb_descriptor_header *) &za_8,
++ (struct usb_descriptor_header *) &za_9,
++ (struct usb_descriptor_header *) &za_10,
++ (struct usb_descriptor_header *) &za_11,
++ (struct usb_descriptor_header *) &za_12,
++ (struct usb_descriptor_header *) &za_13,
++ (struct usb_descriptor_header *) &za_14,
++ (struct usb_descriptor_header *) &za_15,
++ (struct usb_descriptor_header *) &za_16,
++ (struct usb_descriptor_header *) &za_17,
++ (struct usb_descriptor_header *) &za_18,
++ (struct usb_descriptor_header *) &za_19,
++ (struct usb_descriptor_header *) &za_20,
++ (struct usb_descriptor_header *) &za_21,
++ (struct usb_descriptor_header *) &za_22,
++ (struct usb_descriptor_header *) &za_23,
++ (struct usb_descriptor_header *) &za_24,
++ NULL,
++};
++
++/* maxpacket and other transfer characteristics vary by speed. */
++#define ep_desc(g,hs,fs) (((g)->speed==USB_SPEED_HIGH)?(hs):(fs))
++
++#else
++
++/* if there's no high speed support, maxpacket doesn't change. */
++#define ep_desc(g,hs,fs) fs
++
++#endif /* !CONFIG_USB_GADGET_DUALSPEED */
++
++static char manufacturer [40];
++//static char serial [40];
++static char serial [] = "Ser 00 em";
++
++/* static strings, in UTF-8 */
++static struct usb_string strings [] = {
++ { STRING_MANUFACTURER, manufacturer, },
++ { STRING_PRODUCT, longname, },
++ { STRING_SERIAL, serial, },
++ { STRING_LOOPBACK, loopback, },
++ { STRING_SOURCE_SINK, source_sink, },
++ { } /* end of list */
++};
++
++static struct usb_gadget_strings stringtab = {
++ .language = 0x0409, /* en-us */
++ .strings = strings,
++};
++
++/*
++ * config descriptors are also handcrafted. these must agree with code
++ * that sets configurations, and with code managing interfaces and their
++ * altsettings. other complexity may come from:
++ *
++ * - high speed support, including "other speed config" rules
++ * - multiple configurations
++ * - interfaces with alternate settings
++ * - embedded class or vendor-specific descriptors
++ *
++ * this handles high speed, and has a second config that could as easily
++ * have been an alternate interface setting (on most hardware).
++ *
++ * NOTE: to demonstrate (and test) more USB capabilities, this driver
++ * should include an altsetting to test interrupt transfers, including
++ * high bandwidth modes at high speed. (Maybe work like Intel's test
++ * device?)
++ */
++static int
++config_buf (struct usb_gadget *gadget, u8 *buf, u8 type, unsigned index)
++{
++ int len;
++ const struct usb_descriptor_header **function;
++
++ function = z_function;
++ len = usb_gadget_config_buf (&z_config, buf, USB_BUFSIZ, function);
++ if (len < 0)
++ return len;
++ ((struct usb_config_descriptor *) buf)->bDescriptorType = type;
++ return len;
++}
++
++/*-------------------------------------------------------------------------*/
++
++static struct usb_request *
++alloc_ep_req (struct usb_ep *ep, unsigned length)
++{
++ struct usb_request *req;
++
++ req = usb_ep_alloc_request (ep, GFP_ATOMIC);
++ if (req) {
++ req->length = length;
++ req->buf = usb_ep_alloc_buffer (ep, length,
++ &req->dma, GFP_ATOMIC);
++ if (!req->buf) {
++ usb_ep_free_request (ep, req);
++ req = NULL;
++ }
++ }
++ return req;
++}
++
++static void free_ep_req (struct usb_ep *ep, struct usb_request *req)
++{
++ if (req->buf)
++ usb_ep_free_buffer (ep, req->buf, req->dma, req->length);
++ usb_ep_free_request (ep, req);
++}
++
++/*-------------------------------------------------------------------------*/
++
++/* optionally require specific source/sink data patterns */
++
++static int
++check_read_data (
++ struct zero_dev *dev,
++ struct usb_ep *ep,
++ struct usb_request *req
++)
++{
++ unsigned i;
++ u8 *buf = req->buf;
++
++ for (i = 0; i < req->actual; i++, buf++) {
++ switch (pattern) {
++ /* all-zeroes has no synchronization issues */
++ case 0:
++ if (*buf == 0)
++ continue;
++ break;
++ /* mod63 stays in sync with short-terminated transfers,
++ * or otherwise when host and gadget agree on how large
++ * each usb transfer request should be. resync is done
++ * with set_interface or set_config.
++ */
++ case 1:
++ if (*buf == (u8)(i % 63))
++ continue;
++ break;
++ }
++ ERROR (dev, "bad OUT byte, buf [%d] = %d\n", i, *buf);
++ usb_ep_set_halt (ep);
++ return -EINVAL;
++ }
++ return 0;
++}
++
++/*-------------------------------------------------------------------------*/
++
++static void zero_reset_config (struct zero_dev *dev)
++{
++ if (dev->config == 0)
++ return;
++
++ DBG (dev, "reset config\n");
++
++ /* just disable endpoints, forcing completion of pending i/o.
++ * all our completion handlers free their requests in this case.
++ */
++ if (dev->in_ep) {
++ usb_ep_disable (dev->in_ep);
++ dev->in_ep = NULL;
++ }
++ if (dev->out_ep) {
++ usb_ep_disable (dev->out_ep);
++ dev->out_ep = NULL;
++ }
++ dev->config = 0;
++ del_timer (&dev->resume);
++}
++
++#define _write(f, buf, sz) (f->f_op->write(f, buf, sz, &f->f_pos))
++
++static void
++zero_isoc_complete (struct usb_ep *ep, struct usb_request *req)
++{
++ struct zero_dev *dev = ep->driver_data;
++ int status = req->status;
++ int i, j;
++
++ switch (status) {
++
++ case 0: /* normal completion? */
++ //printk ("\nzero ---------------> isoc normal completion %d bytes\n", req->actual);
++ for (i=0, j=rbuf_start; i<req->actual; i++) {
++ //printk ("%02x ", ((__u8*)req->buf)[i]);
++ rbuf[j] = ((__u8*)req->buf)[i];
++ j++;
++ if (j >= RBUF_LEN) j=0;
++ }
++ rbuf_start = j;
++ //printk ("\n\n");
++
++ if (rbuf_len < RBUF_LEN) {
++ rbuf_len += req->actual;
++ if (rbuf_len > RBUF_LEN) {
++ rbuf_len = RBUF_LEN;
++ }
++ }
++
++ break;
++
++ /* this endpoint is normally active while we're configured */
++ case -ECONNABORTED: /* hardware forced ep reset */
++ case -ECONNRESET: /* request dequeued */
++ case -ESHUTDOWN: /* disconnect from host */
++ VDBG (dev, "%s gone (%d), %d/%d\n", ep->name, status,
++ req->actual, req->length);
++ if (ep == dev->out_ep)
++ check_read_data (dev, ep, req);
++ free_ep_req (ep, req);
++ return;
++
++ case -EOVERFLOW: /* buffer overrun on read means that
++ * we didn't provide a big enough
++ * buffer.
++ */
++ default:
++#if 1
++ DBG (dev, "%s complete --> %d, %d/%d\n", ep->name,
++ status, req->actual, req->length);
++#endif
++ case -EREMOTEIO: /* short read */
++ break;
++ }
++
++ status = usb_ep_queue (ep, req, GFP_ATOMIC);
++ if (status) {
++ ERROR (dev, "kill %s: resubmit %d bytes --> %d\n",
++ ep->name, req->length, status);
++ usb_ep_set_halt (ep);
++ /* FIXME recover later ... somehow */
++ }
++}
++
++static struct usb_request *
++zero_start_isoc_ep (struct usb_ep *ep, int gfp_flags)
++{
++ struct usb_request *req;
++ int status;
++
++ req = alloc_ep_req (ep, 512);
++ if (!req)
++ return NULL;
++
++ req->complete = zero_isoc_complete;
++
++ status = usb_ep_queue (ep, req, gfp_flags);
++ if (status) {
++ struct zero_dev *dev = ep->driver_data;
++
++ ERROR (dev, "start %s --> %d\n", ep->name, status);
++ free_ep_req (ep, req);
++ req = NULL;
++ }
++
++ return req;
++}
++
++/* change our operational config. this code must agree with the code
++ * that returns config descriptors, and altsetting code.
++ *
++ * it's also responsible for power management interactions. some
++ * configurations might not work with our current power sources.
++ *
++ * note that some device controller hardware will constrain what this
++ * code can do, perhaps by disallowing more than one configuration or
++ * by limiting configuration choices (like the pxa2xx).
++ */
++static int
++zero_set_config (struct zero_dev *dev, unsigned number, int gfp_flags)
++{
++ int result = 0;
++ struct usb_gadget *gadget = dev->gadget;
++ const struct usb_endpoint_descriptor *d;
++ struct usb_ep *ep;
++
++ if (number == dev->config)
++ return 0;
++
++ zero_reset_config (dev);
++
++ gadget_for_each_ep (ep, gadget) {
++
++ if (strcmp (ep->name, "ep4") == 0) {
++
++ d = (struct usb_endpoint_descripter *)&za_23; // isoc ep desc for audio i/f alt setting 6
++ result = usb_ep_enable (ep, d);
++
++ if (result == 0) {
++ ep->driver_data = dev;
++ dev->in_ep = ep;
++
++ if (zero_start_isoc_ep (ep, gfp_flags) != 0) {
++
++ dev->in_ep = ep;
++ continue;
++ }
++
++ usb_ep_disable (ep);
++ result = -EIO;
++ }
++ }
++
++ }
++
++ dev->config = number;
++ return result;
++}
++
++/*-------------------------------------------------------------------------*/
++
++static void zero_setup_complete (struct usb_ep *ep, struct usb_request *req)
++{
++ if (req->status || req->actual != req->length)
++ DBG ((struct zero_dev *) ep->driver_data,
++ "setup complete --> %d, %d/%d\n",
++ req->status, req->actual, req->length);
++}
++
++/*
++ * The setup() callback implements all the ep0 functionality that's
++ * not handled lower down, in hardware or the hardware driver (like
++ * device and endpoint feature flags, and their status). It's all
++ * housekeeping for the gadget function we're implementing. Most of
++ * the work is in config-specific setup.
++ */
++static int
++zero_setup (struct usb_gadget *gadget, const struct usb_ctrlrequest *ctrl)
++{
++ struct zero_dev *dev = get_gadget_data (gadget);
++ struct usb_request *req = dev->req;
++ int value = -EOPNOTSUPP;
++
++ /* usually this stores reply data in the pre-allocated ep0 buffer,
++ * but config change events will reconfigure hardware.
++ */
++ req->zero = 0;
++ switch (ctrl->bRequest) {
++
++ case USB_REQ_GET_DESCRIPTOR:
++
++ switch (ctrl->wValue >> 8) {
++
++ case USB_DT_DEVICE:
++ value = min (ctrl->wLength, (u16) sizeof device_desc);
++ memcpy (req->buf, &device_desc, value);
++ break;
++#ifdef CONFIG_USB_GADGET_DUALSPEED
++ case USB_DT_DEVICE_QUALIFIER:
++ if (!gadget->is_dualspeed)
++ break;
++ value = min (ctrl->wLength, (u16) sizeof dev_qualifier);
++ memcpy (req->buf, &dev_qualifier, value);
++ break;
++
++ case USB_DT_OTHER_SPEED_CONFIG:
++ if (!gadget->is_dualspeed)
++ break;
++ // FALLTHROUGH
++#endif /* CONFIG_USB_GADGET_DUALSPEED */
++ case USB_DT_CONFIG:
++ value = config_buf (gadget, req->buf,
++ ctrl->wValue >> 8,
++ ctrl->wValue & 0xff);
++ if (value >= 0)
++ value = min (ctrl->wLength, (u16) value);
++ break;
++
++ case USB_DT_STRING:
++ /* wIndex == language code.
++ * this driver only handles one language, you can
++ * add string tables for other languages, using
++ * any UTF-8 characters
++ */
++ value = usb_gadget_get_string (&stringtab,
++ ctrl->wValue & 0xff, req->buf);
++ if (value >= 0) {
++ value = min (ctrl->wLength, (u16) value);
++ }
++ break;
++ }
++ break;
++
++ /* currently two configs, two speeds */
++ case USB_REQ_SET_CONFIGURATION:
++ if (ctrl->bRequestType != 0)
++ goto unknown;
++
++ spin_lock (&dev->lock);
++ value = zero_set_config (dev, ctrl->wValue, GFP_ATOMIC);
++ spin_unlock (&dev->lock);
++ break;
++ case USB_REQ_GET_CONFIGURATION:
++ if (ctrl->bRequestType != USB_DIR_IN)
++ goto unknown;
++ *(u8 *)req->buf = dev->config;
++ value = min (ctrl->wLength, (u16) 1);
++ break;
++
++ /* until we add altsetting support, or other interfaces,
++ * only 0/0 are possible. pxa2xx only supports 0/0 (poorly)
++ * and already killed pending endpoint I/O.
++ */
++ case USB_REQ_SET_INTERFACE:
++
++ if (ctrl->bRequestType != USB_RECIP_INTERFACE)
++ goto unknown;
++ spin_lock (&dev->lock);
++ if (dev->config) {
++ u8 config = dev->config;
++
++ /* resets interface configuration, forgets about
++ * previous transaction state (queued bufs, etc)
++ * and re-inits endpoint state (toggle etc)
++ * no response queued, just zero status == success.
++ * if we had more than one interface we couldn't
++ * use this "reset the config" shortcut.
++ */
++ zero_reset_config (dev);
++ zero_set_config (dev, config, GFP_ATOMIC);
++ value = 0;
++ }
++ spin_unlock (&dev->lock);
++ break;
++ case USB_REQ_GET_INTERFACE:
++ if ((ctrl->bRequestType == 0x21) && (ctrl->wIndex == 0x02)) {
++ value = ctrl->wLength;
++ break;
++ }
++ else {
++ if (ctrl->bRequestType != (USB_DIR_IN|USB_RECIP_INTERFACE))
++ goto unknown;
++ if (!dev->config)
++ break;
++ if (ctrl->wIndex != 0) {
++ value = -EDOM;
++ break;
++ }
++ *(u8 *)req->buf = 0;
++ value = min (ctrl->wLength, (u16) 1);
++ }
++ break;
++
++ /*
++ * These are the same vendor-specific requests supported by
++ * Intel's USB 2.0 compliance test devices. We exceed that
++ * device spec by allowing multiple-packet requests.
++ */
++ case 0x5b: /* control WRITE test -- fill the buffer */
++ if (ctrl->bRequestType != (USB_DIR_OUT|USB_TYPE_VENDOR))
++ goto unknown;
++ if (ctrl->wValue || ctrl->wIndex)
++ break;
++ /* just read that many bytes into the buffer */
++ if (ctrl->wLength > USB_BUFSIZ)
++ break;
++ value = ctrl->wLength;
++ break;
++ case 0x5c: /* control READ test -- return the buffer */
++ if (ctrl->bRequestType != (USB_DIR_IN|USB_TYPE_VENDOR))
++ goto unknown;
++ if (ctrl->wValue || ctrl->wIndex)
++ break;
++ /* expect those bytes are still in the buffer; send back */
++ if (ctrl->wLength > USB_BUFSIZ
++ || ctrl->wLength != req->length)
++ break;
++ value = ctrl->wLength;
++ break;
++
++ case 0x01: // SET_CUR
++ case 0x02:
++ case 0x03:
++ case 0x04:
++ case 0x05:
++ value = ctrl->wLength;
++ break;
++ case 0x81:
++ switch (ctrl->wValue) {
++ case 0x0201:
++ case 0x0202:
++ ((u8*)req->buf)[0] = 0x00;
++ ((u8*)req->buf)[1] = 0xe3;
++ break;
++ case 0x0300:
++ case 0x0500:
++ ((u8*)req->buf)[0] = 0x00;
++ break;
++ }
++ //((u8*)req->buf)[0] = 0x81;
++ //((u8*)req->buf)[1] = 0x81;
++ value = ctrl->wLength;
++ break;
++ case 0x82:
++ switch (ctrl->wValue) {
++ case 0x0201:
++ case 0x0202:
++ ((u8*)req->buf)[0] = 0x00;
++ ((u8*)req->buf)[1] = 0xc3;
++ break;
++ case 0x0300:
++ case 0x0500:
++ ((u8*)req->buf)[0] = 0x00;
++ break;
++ }
++ //((u8*)req->buf)[0] = 0x82;
++ //((u8*)req->buf)[1] = 0x82;
++ value = ctrl->wLength;
++ break;
++ case 0x83:
++ switch (ctrl->wValue) {
++ case 0x0201:
++ case 0x0202:
++ ((u8*)req->buf)[0] = 0x00;
++ ((u8*)req->buf)[1] = 0x00;
++ break;
++ case 0x0300:
++ ((u8*)req->buf)[0] = 0x60;
++ break;
++ case 0x0500:
++ ((u8*)req->buf)[0] = 0x18;
++ break;
++ }
++ //((u8*)req->buf)[0] = 0x83;
++ //((u8*)req->buf)[1] = 0x83;
++ value = ctrl->wLength;
++ break;
++ case 0x84:
++ switch (ctrl->wValue) {
++ case 0x0201:
++ case 0x0202:
++ ((u8*)req->buf)[0] = 0x00;
++ ((u8*)req->buf)[1] = 0x01;
++ break;
++ case 0x0300:
++ case 0x0500:
++ ((u8*)req->buf)[0] = 0x08;
++ break;
++ }
++ //((u8*)req->buf)[0] = 0x84;
++ //((u8*)req->buf)[1] = 0x84;
++ value = ctrl->wLength;
++ break;
++ case 0x85:
++ ((u8*)req->buf)[0] = 0x85;
++ ((u8*)req->buf)[1] = 0x85;
++ value = ctrl->wLength;
++ break;
++
++
++ default:
++unknown:
++ printk("unknown control req%02x.%02x v%04x i%04x l%d\n",
++ ctrl->bRequestType, ctrl->bRequest,
++ ctrl->wValue, ctrl->wIndex, ctrl->wLength);
++ }
++
++ /* respond with data transfer before status phase? */
++ if (value >= 0) {
++ req->length = value;
++ req->zero = value < ctrl->wLength
++ && (value % gadget->ep0->maxpacket) == 0;
++ value = usb_ep_queue (gadget->ep0, req, GFP_ATOMIC);
++ if (value < 0) {
++ DBG (dev, "ep_queue < 0 --> %d\n", value);
++ req->status = 0;
++ zero_setup_complete (gadget->ep0, req);
++ }
++ }
++
++ /* device either stalls (value < 0) or reports success */
++ return value;
++}
++
++static void
++zero_disconnect (struct usb_gadget *gadget)
++{
++ struct zero_dev *dev = get_gadget_data (gadget);
++ unsigned long flags;
++
++ spin_lock_irqsave (&dev->lock, flags);
++ zero_reset_config (dev);
++
++ /* a more significant application might have some non-usb
++ * activities to quiesce here, saving resources like power
++ * or pushing the notification up a network stack.
++ */
++ spin_unlock_irqrestore (&dev->lock, flags);
++
++ /* next we may get setup() calls to enumerate new connections;
++ * or an unbind() during shutdown (including removing module).
++ */
++}
++
++static void
++zero_autoresume (unsigned long _dev)
++{
++ struct zero_dev *dev = (struct zero_dev *) _dev;
++ int status;
++
++ /* normally the host would be woken up for something
++ * more significant than just a timer firing...
++ */
++ if (dev->gadget->speed != USB_SPEED_UNKNOWN) {
++ status = usb_gadget_wakeup (dev->gadget);
++ DBG (dev, "wakeup --> %d\n", status);
++ }
++}
++
++/*-------------------------------------------------------------------------*/
++
++static void
++zero_unbind (struct usb_gadget *gadget)
++{
++ struct zero_dev *dev = get_gadget_data (gadget);
++
++ DBG (dev, "unbind\n");
++
++ /* we've already been disconnected ... no i/o is active */
++ if (dev->req)
++ free_ep_req (gadget->ep0, dev->req);
++ del_timer_sync (&dev->resume);
++ kfree (dev);
++ set_gadget_data (gadget, NULL);
++}
++
++static int
++zero_bind (struct usb_gadget *gadget)
++{
++ struct zero_dev *dev;
++ //struct usb_ep *ep;
++
++ printk("binding\n");
++ /*
++ * DRIVER POLICY CHOICE: you may want to do this differently.
++ * One thing to avoid is reusing a bcdDevice revision code
++ * with different host-visible configurations or behavior
++ * restrictions -- using ep1in/ep2out vs ep1out/ep3in, etc
++ */
++ //device_desc.bcdDevice = __constant_cpu_to_le16 (0x0201);
++
++
++ /* ok, we made sense of the hardware ... */
++ dev = kmalloc (sizeof *dev, SLAB_KERNEL);
++ if (!dev)
++ return -ENOMEM;
++ memset (dev, 0, sizeof *dev);
++ spin_lock_init (&dev->lock);
++ dev->gadget = gadget;
++ set_gadget_data (gadget, dev);
++
++ /* preallocate control response and buffer */
++ dev->req = usb_ep_alloc_request (gadget->ep0, GFP_KERNEL);
++ if (!dev->req)
++ goto enomem;
++ dev->req->buf = usb_ep_alloc_buffer (gadget->ep0, USB_BUFSIZ,
++ &dev->req->dma, GFP_KERNEL);
++ if (!dev->req->buf)
++ goto enomem;
++
++ dev->req->complete = zero_setup_complete;
++
++ device_desc.bMaxPacketSize0 = gadget->ep0->maxpacket;
++
++#ifdef CONFIG_USB_GADGET_DUALSPEED
++ /* assume ep0 uses the same value for both speeds ... */
++ dev_qualifier.bMaxPacketSize0 = device_desc.bMaxPacketSize0;
++
++ /* and that all endpoints are dual-speed */
++ //hs_source_desc.bEndpointAddress = fs_source_desc.bEndpointAddress;
++ //hs_sink_desc.bEndpointAddress = fs_sink_desc.bEndpointAddress;
++#endif
++
++ usb_gadget_set_selfpowered (gadget);
++
++ init_timer (&dev->resume);
++ dev->resume.function = zero_autoresume;
++ dev->resume.data = (unsigned long) dev;
++
++ gadget->ep0->driver_data = dev;
++
++ INFO (dev, "%s, version: " DRIVER_VERSION "\n", longname);
++ INFO (dev, "using %s, OUT %s IN %s\n", gadget->name,
++ EP_OUT_NAME, EP_IN_NAME);
++
++ snprintf (manufacturer, sizeof manufacturer,
++ UTS_SYSNAME " " UTS_RELEASE " with %s",
++ gadget->name);
++
++ return 0;
++
++enomem:
++ zero_unbind (gadget);
++ return -ENOMEM;
++}
++
++/*-------------------------------------------------------------------------*/
++
++static void
++zero_suspend (struct usb_gadget *gadget)
++{
++ struct zero_dev *dev = get_gadget_data (gadget);
++
++ if (gadget->speed == USB_SPEED_UNKNOWN)
++ return;
++
++ if (autoresume) {
++ mod_timer (&dev->resume, jiffies + (HZ * autoresume));
++ DBG (dev, "suspend, wakeup in %d seconds\n", autoresume);
++ } else
++ DBG (dev, "suspend\n");
++}
++
++static void
++zero_resume (struct usb_gadget *gadget)
++{
++ struct zero_dev *dev = get_gadget_data (gadget);
++
++ DBG (dev, "resume\n");
++ del_timer (&dev->resume);
++}
++
++
++/*-------------------------------------------------------------------------*/
++
++static struct usb_gadget_driver zero_driver = {
++#ifdef CONFIG_USB_GADGET_DUALSPEED
++ .speed = USB_SPEED_HIGH,
++#else
++ .speed = USB_SPEED_FULL,
++#endif
++ .function = (char *) longname,
++ .bind = zero_bind,
++ .unbind = zero_unbind,
++
++ .setup = zero_setup,
++ .disconnect = zero_disconnect,
++
++ .suspend = zero_suspend,
++ .resume = zero_resume,
++
++ .driver = {
++ .name = (char *) shortname,
++ // .shutdown = ...
++ // .suspend = ...
++ // .resume = ...
++ },
++};
++
++MODULE_AUTHOR ("David Brownell");
++MODULE_LICENSE ("Dual BSD/GPL");
++
++static struct proc_dir_entry *pdir, *pfile;
++
++static int isoc_read_data (char *page, char **start,
++ off_t off, int count,
++ int *eof, void *data)
++{
++ int i;
++ static int c = 0;
++ static int done = 0;
++ static int s = 0;
++
++/*
++ printk ("\ncount: %d\n", count);
++ printk ("rbuf_start: %d\n", rbuf_start);
++ printk ("rbuf_len: %d\n", rbuf_len);
++ printk ("off: %d\n", off);
++ printk ("start: %p\n\n", *start);
++*/
++ if (done) {
++ c = 0;
++ done = 0;
++ *eof = 1;
++ return 0;
++ }
++
++ if (c == 0) {
++ if (rbuf_len == RBUF_LEN)
++ s = rbuf_start;
++ else s = 0;
++ }
++
++ for (i=0; i<count && c<rbuf_len; i++, c++) {
++ page[i] = rbuf[(c+s) % RBUF_LEN];
++ }
++ *start = page;
++
++ if (c >= rbuf_len) {
++ *eof = 1;
++ done = 1;
++ }
++
++
++ return i;
++}
++
++static int __init init (void)
++{
++
++ int retval = 0;
++
++ pdir = proc_mkdir("isoc_test", NULL);
++ if(pdir == NULL) {
++ retval = -ENOMEM;
++ printk("Error creating dir\n");
++ goto done;
++ }
++ pdir->owner = THIS_MODULE;
++
++ pfile = create_proc_read_entry("isoc_data",
++ 0444, pdir,
++ isoc_read_data,
++ NULL);
++ if (pfile == NULL) {
++ retval = -ENOMEM;
++ printk("Error creating file\n");
++ goto no_file;
++ }
++ pfile->owner = THIS_MODULE;
++
++ return usb_gadget_register_driver (&zero_driver);
++
++ no_file:
++ remove_proc_entry("isoc_data", NULL);
++ done:
++ return retval;
++}
++module_init (init);
++
++static void __exit cleanup (void)
++{
++
++ usb_gadget_unregister_driver (&zero_driver);
++
++ remove_proc_entry("isoc_data", pdir);
++ remove_proc_entry("isoc_test", NULL);
++}
++module_exit (cleanup);
+diff -urN linux-3.10/drivers/usb/host/dwc_otg/dwc_cfi_common.h linux-rpi-3.10.y/drivers/usb/host/dwc_otg/dwc_cfi_common.h
+--- linux-3.10/drivers/usb/host/dwc_otg/dwc_cfi_common.h 1970-01-01 01:00:00.000000000 +0100
++++ linux-rpi-3.10.y/drivers/usb/host/dwc_otg/dwc_cfi_common.h 2013-07-06 15:25:50.000000000 +0100
+@@ -0,0 +1,142 @@
++/* ==========================================================================
++ * Synopsys HS OTG Linux Software Driver and documentation (hereinafter,
++ * "Software") is an Unsupported proprietary work of Synopsys, Inc. unless
++ * otherwise expressly agreed to in writing between Synopsys and you.
++ *
++ * The Software IS NOT an item of Licensed Software or Licensed Product under
++ * any End User Software License Agreement or Agreement for Licensed Product
++ * with Synopsys or any supplement thereto. You are permitted to use and
++ * redistribute this Software in source and binary forms, with or without
++ * modification, provided that redistributions of source code must retain this
++ * notice. You may not view, use, disclose, copy or distribute this file or
++ * any information contained herein except pursuant to this license grant from
++ * Synopsys. If you do not agree with this notice, including the disclaimer
++ * below, then you are not authorized to use the Software.
++ *
++ * THIS SOFTWARE IS BEING DISTRIBUTED BY SYNOPSYS SOLELY ON AN "AS IS" BASIS
++ * AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
++ * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE
++ * ARE HEREBY DISCLAIMED. IN NO EVENT SHALL SYNOPSYS BE LIABLE FOR ANY DIRECT,
++ * INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES
++ * (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR
++ * SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER
++ * CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT
++ * LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY
++ * OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH
++ * DAMAGE.
++ * ========================================================================== */
++
++#if !defined(__DWC_CFI_COMMON_H__)
++#define __DWC_CFI_COMMON_H__
++
++//#include <linux/types.h>
++
++/**
++ * @file
++ *
++ * This file contains the CFI specific common constants, interfaces
++ * (functions and macros) and structures for Linux. No PCD specific
++ * data structure or definition is to be included in this file.
++ *
++ */
++
++/** This is a request for all Core Features */
++#define VEN_CORE_GET_FEATURES 0xB1
++
++/** This is a request to get the value of a specific Core Feature */
++#define VEN_CORE_GET_FEATURE 0xB2
++
++/** This command allows the host to set the value of a specific Core Feature */
++#define VEN_CORE_SET_FEATURE 0xB3
++
++/** This command allows the host to set the default values of
++ * either all or any specific Core Feature
++ */
++#define VEN_CORE_RESET_FEATURES 0xB4
++
++/** This command forces the PCD to write the deferred values of a Core Features */
++#define VEN_CORE_ACTIVATE_FEATURES 0xB5
++
++/** This request reads a DWORD value from a register at the specified offset */
++#define VEN_CORE_READ_REGISTER 0xB6
++
++/** This request writes a DWORD value into a register at the specified offset */
++#define VEN_CORE_WRITE_REGISTER 0xB7
++
++/** This structure is the header of the Core Features dataset returned to
++ * the Host
++ */
++struct cfi_all_features_header {
++/** The features header structure length is */
++#define CFI_ALL_FEATURES_HDR_LEN 8
++ /**
++ * The total length of the features dataset returned to the Host
++ */
++ uint16_t wTotalLen;
++
++ /**
++ * CFI version number inBinary-Coded Decimal (i.e., 1.00 is 100H).
++ * This field identifies the version of the CFI Specification with which
++ * the device is compliant.
++ */
++ uint16_t wVersion;
++
++ /** The ID of the Core */
++ uint16_t wCoreID;
++#define CFI_CORE_ID_UDC 1
++#define CFI_CORE_ID_OTG 2
++#define CFI_CORE_ID_WUDEV 3
++
++ /** Number of features returned by VEN_CORE_GET_FEATURES request */
++ uint16_t wNumFeatures;
++} UPACKED;
++
++typedef struct cfi_all_features_header cfi_all_features_header_t;
++
++/** This structure is a header of the Core Feature descriptor dataset returned to
++ * the Host after the VEN_CORE_GET_FEATURES request
++ */
++struct cfi_feature_desc_header {
++#define CFI_FEATURE_DESC_HDR_LEN 8
++
++ /** The feature ID */
++ uint16_t wFeatureID;
++
++ /** Length of this feature descriptor in bytes - including the
++ * length of the feature name string
++ */
++ uint16_t wLength;
++
++ /** The data length of this feature in bytes */
++ uint16_t wDataLength;
++
++ /**
++ * Attributes of this features
++ * D0: Access rights
++ * 0 - Read/Write
++ * 1 - Read only
++ */
++ uint8_t bmAttributes;
++#define CFI_FEATURE_ATTR_RO 1
++#define CFI_FEATURE_ATTR_RW 0
++
++ /** Length of the feature name in bytes */
++ uint8_t bNameLen;
++
++ /** The feature name buffer */
++ //uint8_t *name;
++} UPACKED;
++
++typedef struct cfi_feature_desc_header cfi_feature_desc_header_t;
++
++/**
++ * This structure describes a NULL terminated string referenced by its id field.
++ * It is very similar to usb_string structure but has the id field type set to 16-bit.
++ */
++struct cfi_string {
++ uint16_t id;
++ const uint8_t *s;
++};
++typedef struct cfi_string cfi_string_t;
++
++#endif
+diff -urN linux-3.10/drivers/usb/host/dwc_otg/dwc_otg_adp.c linux-rpi-3.10.y/drivers/usb/host/dwc_otg/dwc_otg_adp.c
+--- linux-3.10/drivers/usb/host/dwc_otg/dwc_otg_adp.c 1970-01-01 01:00:00.000000000 +0100
++++ linux-rpi-3.10.y/drivers/usb/host/dwc_otg/dwc_otg_adp.c 2013-07-06 15:25:50.000000000 +0100
+@@ -0,0 +1,854 @@
++/* ==========================================================================
++ * $File: //dwh/usb_iip/dev/software/otg/linux/drivers/dwc_otg_adp.c $
++ * $Revision: #12 $
++ * $Date: 2011/10/26 $
++ * $Change: 1873028 $
++ *
++ * Synopsys HS OTG Linux Software Driver and documentation (hereinafter,
++ * "Software") is an Unsupported proprietary work of Synopsys, Inc. unless
++ * otherwise expressly agreed to in writing between Synopsys and you.
++ *
++ * The Software IS NOT an item of Licensed Software or Licensed Product under
++ * any End User Software License Agreement or Agreement for Licensed Product
++ * with Synopsys or any supplement thereto. You are permitted to use and
++ * redistribute this Software in source and binary forms, with or without
++ * modification, provided that redistributions of source code must retain this
++ * notice. You may not view, use, disclose, copy or distribute this file or
++ * any information contained herein except pursuant to this license grant from
++ * Synopsys. If you do not agree with this notice, including the disclaimer
++ * below, then you are not authorized to use the Software.
++ *
++ * THIS SOFTWARE IS BEING DISTRIBUTED BY SYNOPSYS SOLELY ON AN "AS IS" BASIS
++ * AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
++ * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE
++ * ARE HEREBY DISCLAIMED. IN NO EVENT SHALL SYNOPSYS BE LIABLE FOR ANY DIRECT,
++ * INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES
++ * (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR
++ * SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER
++ * CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT
++ * LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY
++ * OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH
++ * DAMAGE.
++ * ========================================================================== */
++
++#include "dwc_os.h"
++#include "dwc_otg_regs.h"
++#include "dwc_otg_cil.h"
++#include "dwc_otg_adp.h"
++
++/** @file
++ *
++ * This file contains the most of the Attach Detect Protocol implementation for
++ * the driver to support OTG Rev2.0.
++ *
++ */
++
++void dwc_otg_adp_write_reg(dwc_otg_core_if_t * core_if, uint32_t value)
++{
++ adpctl_data_t adpctl;
++
++ adpctl.d32 = value;
++ adpctl.b.ar = 0x2;
++
++ DWC_WRITE_REG32(&core_if->core_global_regs->adpctl, adpctl.d32);
++
++ while (adpctl.b.ar) {
++ adpctl.d32 = DWC_READ_REG32(&core_if->core_global_regs->adpctl);
++ }
++
++}
++
++/**
++ * Function is called to read ADP registers
++ */
++uint32_t dwc_otg_adp_read_reg(dwc_otg_core_if_t * core_if)
++{
++ adpctl_data_t adpctl;
++
++ adpctl.d32 = 0;
++ adpctl.b.ar = 0x1;
++
++ DWC_WRITE_REG32(&core_if->core_global_regs->adpctl, adpctl.d32);
++
++ while (adpctl.b.ar) {
++ adpctl.d32 = DWC_READ_REG32(&core_if->core_global_regs->adpctl);
++ }
++
++ return adpctl.d32;
++}
++
++/**
++ * Function is called to read ADPCTL register and filter Write-clear bits
++ */
++uint32_t dwc_otg_adp_read_reg_filter(dwc_otg_core_if_t * core_if)
++{
++ adpctl_data_t adpctl;
++
++ adpctl.d32 = dwc_otg_adp_read_reg(core_if);
++ adpctl.b.adp_tmout_int = 0;
++ adpctl.b.adp_prb_int = 0;
++ adpctl.b.adp_tmout_int = 0;
++
++ return adpctl.d32;
++}
++
++/**
++ * Function is called to write ADP registers
++ */
++void dwc_otg_adp_modify_reg(dwc_otg_core_if_t * core_if, uint32_t clr,
++ uint32_t set)
++{
++ dwc_otg_adp_write_reg(core_if,
++ (dwc_otg_adp_read_reg(core_if) & (~clr)) | set);
++}
++
++static void adp_sense_timeout(void *ptr)
++{
++ dwc_otg_core_if_t *core_if = (dwc_otg_core_if_t *) ptr;
++ core_if->adp.sense_timer_started = 0;
++ DWC_PRINTF("ADP SENSE TIMEOUT\n");
++ if (core_if->adp_enable) {
++ dwc_otg_adp_sense_stop(core_if);
++ dwc_otg_adp_probe_start(core_if);
++ }
++}
++
++/**
++ * This function is called when the ADP vbus timer expires. Timeout is 1.1s.
++ */
++static void adp_vbuson_timeout(void *ptr)
++{
++ gpwrdn_data_t gpwrdn;
++ dwc_otg_core_if_t *core_if = (dwc_otg_core_if_t *) ptr;
++ hprt0_data_t hprt0 = {.d32 = 0 };
++ pcgcctl_data_t pcgcctl = {.d32 = 0 };
++ DWC_PRINTF("%s: 1.1 seconds expire after turning on VBUS\n",__FUNCTION__);
++ if (core_if) {
++ core_if->adp.vbuson_timer_started = 0;
++ /* Turn off vbus */
++ hprt0.b.prtpwr = 1;
++ DWC_MODIFY_REG32(core_if->host_if->hprt0, hprt0.d32, 0);
++ gpwrdn.d32 = 0;
++
++ /* Power off the core */
++ if (core_if->power_down == 2) {
++ /* Enable Wakeup Logic */
++// gpwrdn.b.wkupactiv = 1;
++ gpwrdn.b.pmuactv = 0;
++ gpwrdn.b.pwrdnrstn = 1;
++ gpwrdn.b.pwrdnclmp = 1;
++ DWC_MODIFY_REG32(&core_if->core_global_regs->gpwrdn, 0,
++ gpwrdn.d32);
++
++ /* Suspend the Phy Clock */
++ pcgcctl.b.stoppclk = 1;
++ DWC_MODIFY_REG32(core_if->pcgcctl, 0, pcgcctl.d32);
++
++ /* Switch on VDD */
++// gpwrdn.b.wkupactiv = 1;
++ gpwrdn.b.pmuactv = 1;
++ gpwrdn.b.pwrdnrstn = 1;
++ gpwrdn.b.pwrdnclmp = 1;
++ DWC_MODIFY_REG32(&core_if->core_global_regs->gpwrdn, 0,
++ gpwrdn.d32);
++ } else {
++ /* Enable Power Down Logic */
++ gpwrdn.b.pmuintsel = 1;
++ gpwrdn.b.pmuactv = 1;
++ DWC_MODIFY_REG32(&core_if->core_global_regs->gpwrdn, 0, gpwrdn.d32);
++ }
++
++ /* Power off the core */
++ if (core_if->power_down == 2) {
++ gpwrdn.d32 = 0;
++ gpwrdn.b.pwrdnswtch = 1;
++ DWC_MODIFY_REG32(&core_if->core_global_regs->gpwrdn,
++ gpwrdn.d32, 0);
++ }
++
++ /* Unmask SRP detected interrupt from Power Down Logic */
++ gpwrdn.d32 = 0;
++ gpwrdn.b.srp_det_msk = 1;
++ DWC_MODIFY_REG32(&core_if->core_global_regs->gpwrdn, 0, gpwrdn.d32);
++
++ dwc_otg_adp_probe_start(core_if);
++ dwc_otg_dump_global_registers(core_if);
++ dwc_otg_dump_host_registers(core_if);
++ }
++
++}
++
++/**
++ * Start the ADP Initial Probe timer to detect if Port Connected interrupt is
++ * not asserted within 1.1 seconds.
++ *
++ * @param core_if the pointer to core_if strucure.
++ */
++void dwc_otg_adp_vbuson_timer_start(dwc_otg_core_if_t * core_if)
++{
++ core_if->adp.vbuson_timer_started = 1;
++ if (core_if->adp.vbuson_timer)
++ {
++ DWC_PRINTF("SCHEDULING VBUSON TIMER\n");
++ /* 1.1 secs + 60ms necessary for cil_hcd_start*/
++ DWC_TIMER_SCHEDULE(core_if->adp.vbuson_timer, 1160);
++ } else {
++ DWC_WARN("VBUSON_TIMER = %p\n",core_if->adp.vbuson_timer);
++ }
++}
++
++#if 0
++/**
++ * Masks all DWC OTG core interrupts
++ *
++ */
++static void mask_all_interrupts(dwc_otg_core_if_t * core_if)
++{
++ int i;
++ gahbcfg_data_t ahbcfg = {.d32 = 0 };
++
++ /* Mask Host Interrupts */
++
++ /* Clear and disable HCINTs */
++ for (i = 0; i < core_if->core_params->host_channels; i++) {
++ DWC_WRITE_REG32(&core_if->host_if->hc_regs[i]->hcintmsk, 0);
++ DWC_WRITE_REG32(&core_if->host_if->hc_regs[i]->hcint, 0xFFFFFFFF);
++
++ }
++
++ /* Clear and disable HAINT */
++ DWC_WRITE_REG32(&core_if->host_if->host_global_regs->haintmsk, 0x0000);
++ DWC_WRITE_REG32(&core_if->host_if->host_global_regs->haint, 0xFFFFFFFF);
++
++ /* Mask Device Interrupts */
++ if (!core_if->multiproc_int_enable) {
++ /* Clear and disable IN Endpoint interrupts */
++ DWC_WRITE_REG32(&core_if->dev_if->dev_global_regs->diepmsk, 0);
++ for (i = 0; i <= core_if->dev_if->num_in_eps; i++) {
++ DWC_WRITE_REG32(&core_if->dev_if->in_ep_regs[i]->
++ diepint, 0xFFFFFFFF);
++ }
++
++ /* Clear and disable OUT Endpoint interrupts */
++ DWC_WRITE_REG32(&core_if->dev_if->dev_global_regs->doepmsk, 0);
++ for (i = 0; i <= core_if->dev_if->num_out_eps; i++) {
++ DWC_WRITE_REG32(&core_if->dev_if->out_ep_regs[i]->
++ doepint, 0xFFFFFFFF);
++ }
++
++ /* Clear and disable DAINT */
++ DWC_WRITE_REG32(&core_if->dev_if->dev_global_regs->daint,
++ 0xFFFFFFFF);
++ DWC_WRITE_REG32(&core_if->dev_if->dev_global_regs->daintmsk, 0);
++ } else {
++ for (i = 0; i < core_if->dev_if->num_in_eps; ++i) {
++ DWC_WRITE_REG32(&core_if->dev_if->dev_global_regs->
++ diepeachintmsk[i], 0);
++ DWC_WRITE_REG32(&core_if->dev_if->in_ep_regs[i]->
++ diepint, 0xFFFFFFFF);
++ }
++
++ for (i = 0; i < core_if->dev_if->num_out_eps; ++i) {
++ DWC_WRITE_REG32(&core_if->dev_if->dev_global_regs->
++ doepeachintmsk[i], 0);
++ DWC_WRITE_REG32(&core_if->dev_if->out_ep_regs[i]->
++ doepint, 0xFFFFFFFF);
++ }
++
++ DWC_WRITE_REG32(&core_if->dev_if->dev_global_regs->deachintmsk,
++ 0);
++ DWC_WRITE_REG32(&core_if->dev_if->dev_global_regs->deachint,
++ 0xFFFFFFFF);
++
++ }
++
++ /* Disable interrupts */
++ ahbcfg.b.glblintrmsk = 1;
++ DWC_MODIFY_REG32(&core_if->core_global_regs->gahbcfg, ahbcfg.d32, 0);
++
++ /* Disable all interrupts. */
++ DWC_WRITE_REG32(&core_if->core_global_regs->gintmsk, 0);
++
++ /* Clear any pending interrupts */
++ DWC_WRITE_REG32(&core_if->core_global_regs->gintsts, 0xFFFFFFFF);
++
++ /* Clear any pending OTG Interrupts */
++ DWC_WRITE_REG32(&core_if->core_global_regs->gotgint, 0xFFFFFFFF);
++}
++
++/**
++ * Unmask Port Connection Detected interrupt
++ *
++ */
++static void unmask_conn_det_intr(dwc_otg_core_if_t * core_if)
++{
++ gintmsk_data_t gintmsk = {.d32 = 0,.b.portintr = 1 };
++
++ DWC_WRITE_REG32(&core_if->core_global_regs->gintmsk, gintmsk.d32);
++}
++#endif
++
++/**
++ * Starts the ADP Probing
++ *
++ * @param core_if the pointer to core_if structure.
++ */
++uint32_t dwc_otg_adp_probe_start(dwc_otg_core_if_t * core_if)
++{
++
++ adpctl_data_t adpctl = {.d32 = 0};
++ gpwrdn_data_t gpwrdn;
++#if 0
++ adpctl_data_t adpctl_int = {.d32 = 0, .b.adp_prb_int = 1,
++ .b.adp_sns_int = 1, b.adp_tmout_int};
++#endif
++ dwc_otg_disable_global_interrupts(core_if);
++ DWC_PRINTF("ADP Probe Start\n");
++ core_if->adp.probe_enabled = 1;
++
++ adpctl.b.adpres = 1;
++ dwc_otg_adp_write_reg(core_if, adpctl.d32);
++
++ while (adpctl.b.adpres) {
++ adpctl.d32 = dwc_otg_adp_read_reg(core_if);
++ }
++
++ adpctl.d32 = 0;
++ gpwrdn.d32 = DWC_READ_REG32(&core_if->core_global_regs->gpwrdn);
++
++ /* In Host mode unmask SRP detected interrupt */
++ gpwrdn.d32 = 0;
++ gpwrdn.b.sts_chngint_msk = 1;
++ if (!gpwrdn.b.idsts) {
++ gpwrdn.b.srp_det_msk = 1;
++ }
++ DWC_MODIFY_REG32(&core_if->core_global_regs->gpwrdn, 0, gpwrdn.d32);
++
++ adpctl.b.adp_tmout_int_msk = 1;
++ adpctl.b.adp_prb_int_msk = 1;
++ adpctl.b.prb_dschg = 1;
++ adpctl.b.prb_delta = 1;
++ adpctl.b.prb_per = 1;
++ adpctl.b.adpen = 1;
++ adpctl.b.enaprb = 1;
++
++ dwc_otg_adp_write_reg(core_if, adpctl.d32);
++ DWC_PRINTF("ADP Probe Finish\n");
++ return 0;
++}
++
++/**
++ * Starts the ADP Sense timer to detect if ADP Sense interrupt is not asserted
++ * within 3 seconds.
++ *
++ * @param core_if the pointer to core_if strucure.
++ */
++void dwc_otg_adp_sense_timer_start(dwc_otg_core_if_t * core_if)
++{
++ core_if->adp.sense_timer_started = 1;
++ DWC_TIMER_SCHEDULE(core_if->adp.sense_timer, 3000 /* 3 secs */ );
++}
++
++/**
++ * Starts the ADP Sense
++ *
++ * @param core_if the pointer to core_if strucure.
++ */
++uint32_t dwc_otg_adp_sense_start(dwc_otg_core_if_t * core_if)
++{
++ adpctl_data_t adpctl;
++
++ DWC_PRINTF("ADP Sense Start\n");
++
++ /* Unmask ADP sense interrupt and mask all other from the core */
++ adpctl.d32 = dwc_otg_adp_read_reg_filter(core_if);
++ adpctl.b.adp_sns_int_msk = 1;
++ dwc_otg_adp_write_reg(core_if, adpctl.d32);
++ dwc_otg_disable_global_interrupts(core_if); // vahrama
++
++ /* Set ADP reset bit*/
++ adpctl.d32 = dwc_otg_adp_read_reg_filter(core_if);
++ adpctl.b.adpres = 1;
++ dwc_otg_adp_write_reg(core_if, adpctl.d32);
++
++ while (adpctl.b.adpres) {
++ adpctl.d32 = dwc_otg_adp_read_reg(core_if);
++ }
++
++ adpctl.b.adpres = 0;
++ adpctl.b.adpen = 1;
++ adpctl.b.enasns = 1;
++ dwc_otg_adp_write_reg(core_if, adpctl.d32);
++
++ dwc_otg_adp_sense_timer_start(core_if);
++
++ return 0;
++}
++
++/**
++ * Stops the ADP Probing
++ *
++ * @param core_if the pointer to core_if strucure.
++ */
++uint32_t dwc_otg_adp_probe_stop(dwc_otg_core_if_t * core_if)
++{
++
++ adpctl_data_t adpctl;
++ DWC_PRINTF("Stop ADP probe\n");
++ core_if->adp.probe_enabled = 0;
++ core_if->adp.probe_counter = 0;
++ adpctl.d32 = dwc_otg_adp_read_reg(core_if);
++
++ adpctl.b.adpen = 0;
++ adpctl.b.adp_prb_int = 1;
++ adpctl.b.adp_tmout_int = 1;
++ adpctl.b.adp_sns_int = 1;
++ dwc_otg_adp_write_reg(core_if, adpctl.d32);
++
++ return 0;
++}
++
++/**
++ * Stops the ADP Sensing
++ *
++ * @param core_if the pointer to core_if strucure.
++ */
++uint32_t dwc_otg_adp_sense_stop(dwc_otg_core_if_t * core_if)
++{
++ adpctl_data_t adpctl;
++
++ core_if->adp.sense_enabled = 0;
++
++ adpctl.d32 = dwc_otg_adp_read_reg_filter(core_if);
++ adpctl.b.enasns = 0;
++ adpctl.b.adp_sns_int = 1;
++ dwc_otg_adp_write_reg(core_if, adpctl.d32);
++
++ return 0;
++}
++
++/**
++ * Called to turn on the VBUS after initial ADP probe in host mode.
++ * If port power was already enabled in cil_hcd_start function then
++ * only schedule a timer.
++ *
++ * @param core_if the pointer to core_if structure.
++ */
++void dwc_otg_adp_turnon_vbus(dwc_otg_core_if_t * core_if)
++{
++ hprt0_data_t hprt0 = {.d32 = 0 };
++ hprt0.d32 = dwc_otg_read_hprt0(core_if);
++ DWC_PRINTF("Turn on VBUS for 1.1s, port power is %d\n", hprt0.b.prtpwr);
++
++ if (hprt0.b.prtpwr == 0) {
++ hprt0.b.prtpwr = 1;
++ //DWC_WRITE_REG32(core_if->host_if->hprt0, hprt0.d32);
++ }
++
++ dwc_otg_adp_vbuson_timer_start(core_if);
++}
++
++/**
++ * Called right after driver is loaded
++ * to perform initial actions for ADP
++ *
++ * @param core_if the pointer to core_if structure.
++ * @param is_host - flag for current mode of operation either from GINTSTS or GPWRDN
++ */
++void dwc_otg_adp_start(dwc_otg_core_if_t * core_if, uint8_t is_host)
++{
++ gpwrdn_data_t gpwrdn;
++
++ DWC_PRINTF("ADP Initial Start\n");
++ core_if->adp.adp_started = 1;
++
++ DWC_WRITE_REG32(&core_if->core_global_regs->gintsts, 0xFFFFFFFF);
++ dwc_otg_disable_global_interrupts(core_if);
++ if (is_host) {
++ DWC_PRINTF("HOST MODE\n");
++ /* Enable Power Down Logic Interrupt*/
++ gpwrdn.d32 = 0;
++ gpwrdn.b.pmuintsel = 1;
++ gpwrdn.b.pmuactv = 1;
++ DWC_MODIFY_REG32(&core_if->core_global_regs->gpwrdn, 0, gpwrdn.d32);
++ /* Initialize first ADP probe to obtain Ramp Time value */
++ core_if->adp.initial_probe = 1;
++ dwc_otg_adp_probe_start(core_if);
++ } else {
++ gotgctl_data_t gotgctl;
++ gotgctl.d32 = DWC_READ_REG32(&core_if->core_global_regs->gotgctl);
++ DWC_PRINTF("DEVICE MODE\n");
++ if (gotgctl.b.bsesvld == 0) {
++ /* Enable Power Down Logic Interrupt*/
++ gpwrdn.d32 = 0;
++ DWC_PRINTF("VBUS is not valid - start ADP probe\n");
++ gpwrdn.b.pmuintsel = 1;
++ gpwrdn.b.pmuactv = 1;
++ DWC_MODIFY_REG32(&core_if->core_global_regs->gpwrdn, 0, gpwrdn.d32);
++ core_if->adp.initial_probe = 1;
++ dwc_otg_adp_probe_start(core_if);
++ } else {
++ DWC_PRINTF("VBUS is valid - initialize core as a Device\n");
++ core_if->op_state = B_PERIPHERAL;
++ dwc_otg_core_init(core_if);
++ dwc_otg_enable_global_interrupts(core_if);
++ cil_pcd_start(core_if);
++ dwc_otg_dump_global_registers(core_if);
++ dwc_otg_dump_dev_registers(core_if);
++ }
++ }
++}
++
++void dwc_otg_adp_init(dwc_otg_core_if_t * core_if)
++{
++ core_if->adp.adp_started = 0;
++ core_if->adp.initial_probe = 0;
++ core_if->adp.probe_timer_values[0] = -1;
++ core_if->adp.probe_timer_values[1] = -1;
++ core_if->adp.probe_enabled = 0;
++ core_if->adp.sense_enabled = 0;
++ core_if->adp.sense_timer_started = 0;
++ core_if->adp.vbuson_timer_started = 0;
++ core_if->adp.probe_counter = 0;
++ core_if->adp.gpwrdn = 0;
++ core_if->adp.attached = DWC_OTG_ADP_UNKOWN;
++ /* Initialize timers */
++ core_if->adp.sense_timer =
++ DWC_TIMER_ALLOC("ADP SENSE TIMER", adp_sense_timeout, core_if);
++ core_if->adp.vbuson_timer =
++ DWC_TIMER_ALLOC("ADP VBUS ON TIMER", adp_vbuson_timeout, core_if);
++ if (!core_if->adp.sense_timer || !core_if->adp.vbuson_timer)
++ {
++ DWC_ERROR("Could not allocate memory for ADP timers\n");
++ }
++}
++
++void dwc_otg_adp_remove(dwc_otg_core_if_t * core_if)
++{
++ gpwrdn_data_t gpwrdn = { .d32 = 0 };
++ gpwrdn.b.pmuintsel = 1;
++ gpwrdn.b.pmuactv = 1;
++ DWC_MODIFY_REG32(&core_if->core_global_regs->gpwrdn, gpwrdn.d32, 0);
++
++ if (core_if->adp.probe_enabled)
++ dwc_otg_adp_probe_stop(core_if);
++ if (core_if->adp.sense_enabled)
++ dwc_otg_adp_sense_stop(core_if);
++ if (core_if->adp.sense_timer_started)
++ DWC_TIMER_CANCEL(core_if->adp.sense_timer);
++ if (core_if->adp.vbuson_timer_started)
++ DWC_TIMER_CANCEL(core_if->adp.vbuson_timer);
++ DWC_TIMER_FREE(core_if->adp.sense_timer);
++ DWC_TIMER_FREE(core_if->adp.vbuson_timer);
++}
++
++/////////////////////////////////////////////////////////////////////
++////////////// ADP Interrupt Handlers ///////////////////////////////
++/////////////////////////////////////////////////////////////////////
++/**
++ * This function sets Ramp Timer values
++ */
++static uint32_t set_timer_value(dwc_otg_core_if_t * core_if, uint32_t val)
++{
++ if (core_if->adp.probe_timer_values[0] == -1) {
++ core_if->adp.probe_timer_values[0] = val;
++ core_if->adp.probe_timer_values[1] = -1;
++ return 1;
++ } else {
++ core_if->adp.probe_timer_values[1] =
++ core_if->adp.probe_timer_values[0];
++ core_if->adp.probe_timer_values[0] = val;
++ return 0;
++ }
++}
++
++/**
++ * This function compares Ramp Timer values
++ */
++static uint32_t compare_timer_values(dwc_otg_core_if_t * core_if)
++{
++ uint32_t diff;
++ if (core_if->adp.probe_timer_values[0]>=core_if->adp.probe_timer_values[1])
++ diff = core_if->adp.probe_timer_values[0]-core_if->adp.probe_timer_values[1];
++ else
++ diff = core_if->adp.probe_timer_values[1]-core_if->adp.probe_timer_values[0];
++ if(diff < 2) {
++ return 0;
++ } else {
++ return 1;
++ }
++}
++
++/**
++ * This function handles ADP Probe Interrupts
++ */
++static int32_t dwc_otg_adp_handle_prb_intr(dwc_otg_core_if_t * core_if,
++ uint32_t val)
++{
++ adpctl_data_t adpctl = {.d32 = 0 };
++ gpwrdn_data_t gpwrdn, temp;
++ adpctl.d32 = val;
++
++ temp.d32 = DWC_READ_REG32(&core_if->core_global_regs->gpwrdn);
++ core_if->adp.probe_counter++;
++ core_if->adp.gpwrdn = DWC_READ_REG32(&core_if->core_global_regs->gpwrdn);
++ if (adpctl.b.rtim == 0 && !temp.b.idsts){
++ DWC_PRINTF("RTIM value is 0\n");
++ goto exit;
++ }
++ if (set_timer_value(core_if, adpctl.b.rtim) &&
++ core_if->adp.initial_probe) {
++ core_if->adp.initial_probe = 0;
++ dwc_otg_adp_probe_stop(core_if);
++ gpwrdn.d32 = 0;
++ gpwrdn.b.pmuactv = 1;
++ gpwrdn.b.pmuintsel = 1;
++ DWC_MODIFY_REG32(&core_if->core_global_regs->gpwrdn, gpwrdn.d32, 0);
++ DWC_WRITE_REG32(&core_if->core_global_regs->gintsts, 0xFFFFFFFF);
++
++ /* check which value is for device mode and which for Host mode */
++ if (!temp.b.idsts) { /* considered host mode value is 0 */
++ /*
++ * Turn on VBUS after initial ADP probe.
++ */
++ core_if->op_state = A_HOST;
++ dwc_otg_enable_global_interrupts(core_if);
++ DWC_SPINUNLOCK(core_if->lock);
++ cil_hcd_start(core_if);
++ dwc_otg_adp_turnon_vbus(core_if);
++ DWC_SPINLOCK(core_if->lock);
++ } else {
++ /*
++ * Initiate SRP after initial ADP probe.
++ */
++ dwc_otg_enable_global_interrupts(core_if);
++ dwc_otg_initiate_srp(core_if);
++ }
++ } else if (core_if->adp.probe_counter > 2){
++ gpwrdn.d32 = DWC_READ_REG32(&core_if->core_global_regs->gpwrdn);
++ if (compare_timer_values(core_if)) {
++ DWC_PRINTF("Difference in timer values !!! \n");
++// core_if->adp.attached = DWC_OTG_ADP_ATTACHED;
++ dwc_otg_adp_probe_stop(core_if);
++
++ /* Power on the core */
++ if (core_if->power_down == 2) {
++ gpwrdn.b.pwrdnswtch = 1;
++ DWC_MODIFY_REG32(&core_if->core_global_regs->
++ gpwrdn, 0, gpwrdn.d32);
++ }
++
++ /* check which value is for device mode and which for Host mode */
++ if (!temp.b.idsts) { /* considered host mode value is 0 */
++ /* Disable Interrupt from Power Down Logic */
++ gpwrdn.d32 = 0;
++ gpwrdn.b.pmuintsel = 1;
++ gpwrdn.b.pmuactv = 1;
++ DWC_MODIFY_REG32(&core_if->core_global_regs->
++ gpwrdn, gpwrdn.d32, 0);
++
++ /*
++ * Initialize the Core for Host mode.
++ */
++ core_if->op_state = A_HOST;
++ dwc_otg_core_init(core_if);
++ dwc_otg_enable_global_interrupts(core_if);
++ cil_hcd_start(core_if);
++ } else {
++ gotgctl_data_t gotgctl;
++ /* Mask SRP detected interrupt from Power Down Logic */
++ gpwrdn.d32 = 0;
++ gpwrdn.b.srp_det_msk = 1;
++ DWC_MODIFY_REG32(&core_if->core_global_regs->
++ gpwrdn, gpwrdn.d32, 0);
++
++ /* Disable Power Down Logic */
++ gpwrdn.d32 = 0;
++ gpwrdn.b.pmuintsel = 1;
++ gpwrdn.b.pmuactv = 1;
++ DWC_MODIFY_REG32(&core_if->core_global_regs->
++ gpwrdn, gpwrdn.d32, 0);
++
++ /*
++ * Initialize the Core for Device mode.
++ */
++ core_if->op_state = B_PERIPHERAL;
++ dwc_otg_core_init(core_if);
++ dwc_otg_enable_global_interrupts(core_if);
++ cil_pcd_start(core_if);
++
++ gotgctl.d32 = DWC_READ_REG32(&core_if->core_global_regs->gotgctl);
++ if (!gotgctl.b.bsesvld) {
++ dwc_otg_initiate_srp(core_if);
++ }
++ }
++ }
++ if (core_if->power_down == 2) {
++ if (gpwrdn.b.bsessvld) {
++ /* Mask SRP detected interrupt from Power Down Logic */
++ gpwrdn.d32 = 0;
++ gpwrdn.b.srp_det_msk = 1;
++ DWC_MODIFY_REG32(&core_if->core_global_regs->gpwrdn, gpwrdn.d32, 0);
++
++ /* Disable Power Down Logic */
++ gpwrdn.d32 = 0;
++ gpwrdn.b.pmuactv = 1;
++ DWC_MODIFY_REG32(&core_if->core_global_regs->gpwrdn, gpwrdn.d32, 0);
++
++ /*
++ * Initialize the Core for Device mode.
++ */
++ core_if->op_state = B_PERIPHERAL;
++ dwc_otg_core_init(core_if);
++ dwc_otg_enable_global_interrupts(core_if);
++ cil_pcd_start(core_if);
++ }
++ }
++ }
++exit:
++ /* Clear interrupt */
++ adpctl.d32 = dwc_otg_adp_read_reg(core_if);
++ adpctl.b.adp_prb_int = 1;
++ dwc_otg_adp_write_reg(core_if, adpctl.d32);
++
++ return 0;
++}
++
++/**
++ * This function hadles ADP Sense Interrupt
++ */
++static int32_t dwc_otg_adp_handle_sns_intr(dwc_otg_core_if_t * core_if)
++{
++ adpctl_data_t adpctl;
++ /* Stop ADP Sense timer */
++ DWC_TIMER_CANCEL(core_if->adp.sense_timer);
++
++ /* Restart ADP Sense timer */
++ dwc_otg_adp_sense_timer_start(core_if);
++
++ /* Clear interrupt */
++ adpctl.d32 = dwc_otg_adp_read_reg(core_if);
++ adpctl.b.adp_sns_int = 1;
++ dwc_otg_adp_write_reg(core_if, adpctl.d32);
++
++ return 0;
++}
++
++/**
++ * This function handles ADP Probe Interrupts
++ */
++static int32_t dwc_otg_adp_handle_prb_tmout_intr(dwc_otg_core_if_t * core_if,
++ uint32_t val)
++{
++ adpctl_data_t adpctl = {.d32 = 0 };
++ adpctl.d32 = val;
++ set_timer_value(core_if, adpctl.b.rtim);
++
++ /* Clear interrupt */
++ adpctl.d32 = dwc_otg_adp_read_reg(core_if);
++ adpctl.b.adp_tmout_int = 1;
++ dwc_otg_adp_write_reg(core_if, adpctl.d32);
++
++ return 0;
++}
++
++/**
++ * ADP Interrupt handler.
++ *
++ */
++int32_t dwc_otg_adp_handle_intr(dwc_otg_core_if_t * core_if)
++{
++ int retval = 0;
++ adpctl_data_t adpctl = {.d32 = 0};
++
++ adpctl.d32 = dwc_otg_adp_read_reg(core_if);
++ DWC_PRINTF("ADPCTL = %08x\n",adpctl.d32);
++
++ if (adpctl.b.adp_sns_int & adpctl.b.adp_sns_int_msk) {
++ DWC_PRINTF("ADP Sense interrupt\n");
++ retval |= dwc_otg_adp_handle_sns_intr(core_if);
++ }
++ if (adpctl.b.adp_tmout_int & adpctl.b.adp_tmout_int_msk) {
++ DWC_PRINTF("ADP timeout interrupt\n");
++ retval |= dwc_otg_adp_handle_prb_tmout_intr(core_if, adpctl.d32);
++ }
++ if (adpctl.b.adp_prb_int & adpctl.b.adp_prb_int_msk) {
++ DWC_PRINTF("ADP Probe interrupt\n");
++ adpctl.b.adp_prb_int = 1;
++ retval |= dwc_otg_adp_handle_prb_intr(core_if, adpctl.d32);
++ }
++
++// dwc_otg_adp_modify_reg(core_if, adpctl.d32, 0);
++ //dwc_otg_adp_write_reg(core_if, adpctl.d32);
++ DWC_PRINTF("RETURN FROM ADP ISR\n");
++
++ return retval;
++}
++
++/**
++ *
++ * @param core_if Programming view of DWC_otg controller.
++ */
++int32_t dwc_otg_adp_handle_srp_intr(dwc_otg_core_if_t * core_if)
++{
++
++#ifndef DWC_HOST_ONLY
++ hprt0_data_t hprt0;
++ gpwrdn_data_t gpwrdn;
++ DWC_DEBUGPL(DBG_ANY, "++ Power Down Logic Session Request Interrupt++\n");
++
++ gpwrdn.d32 = DWC_READ_REG32(&core_if->core_global_regs->gpwrdn);
++ /* check which value is for device mode and which for Host mode */
++ if (!gpwrdn.b.idsts) { /* considered host mode value is 0 */
++ DWC_PRINTF("SRP: Host mode\n");
++
++ if (core_if->adp_enable) {
++ dwc_otg_adp_probe_stop(core_if);
++
++ /* Power on the core */
++ if (core_if->power_down == 2) {
++ gpwrdn.b.pwrdnswtch = 1;
++ DWC_MODIFY_REG32(&core_if->core_global_regs->
++ gpwrdn, 0, gpwrdn.d32);
++ }
++
++ core_if->op_state = A_HOST;
++ dwc_otg_core_init(core_if);
++ dwc_otg_enable_global_interrupts(core_if);
++ cil_hcd_start(core_if);
++ }
++
++ /* Turn on the port power bit. */
++ hprt0.d32 = dwc_otg_read_hprt0(core_if);
++ hprt0.b.prtpwr = 1;
++ DWC_WRITE_REG32(core_if->host_if->hprt0, hprt0.d32);
++
++ /* Start the Connection timer. So a message can be displayed
++ * if connect does not occur within 10 seconds. */
++ cil_hcd_session_start(core_if);
++ } else {
++ DWC_PRINTF("SRP: Device mode %s\n", __FUNCTION__);
++ if (core_if->adp_enable) {
++ dwc_otg_adp_probe_stop(core_if);
++
++ /* Power on the core */
++ if (core_if->power_down == 2) {
++ gpwrdn.b.pwrdnswtch = 1;
++ DWC_MODIFY_REG32(&core_if->core_global_regs->
++ gpwrdn, 0, gpwrdn.d32);
++ }
++
++ gpwrdn.d32 = 0;
++ gpwrdn.b.pmuactv = 0;
++ DWC_MODIFY_REG32(&core_if->core_global_regs->gpwrdn, 0,
++ gpwrdn.d32);
++
++ core_if->op_state = B_PERIPHERAL;
++ dwc_otg_core_init(core_if);
++ dwc_otg_enable_global_interrupts(core_if);
++ cil_pcd_start(core_if);
++ }
++ }
++#endif
++ return 1;
++}
+diff -urN linux-3.10/drivers/usb/host/dwc_otg/dwc_otg_adp.h linux-rpi-3.10.y/drivers/usb/host/dwc_otg/dwc_otg_adp.h
+--- linux-3.10/drivers/usb/host/dwc_otg/dwc_otg_adp.h 1970-01-01 01:00:00.000000000 +0100
++++ linux-rpi-3.10.y/drivers/usb/host/dwc_otg/dwc_otg_adp.h 2013-07-06 15:25:50.000000000 +0100
+@@ -0,0 +1,80 @@
++/* ==========================================================================
++ * $File: //dwh/usb_iip/dev/software/otg/linux/drivers/dwc_otg_adp.h $
++ * $Revision: #7 $
++ * $Date: 2011/10/24 $
++ * $Change: 1871159 $
++ *
++ * Synopsys HS OTG Linux Software Driver and documentation (hereinafter,
++ * "Software") is an Unsupported proprietary work of Synopsys, Inc. unless
++ * otherwise expressly agreed to in writing between Synopsys and you.
++ *
++ * The Software IS NOT an item of Licensed Software or Licensed Product under
++ * any End User Software License Agreement or Agreement for Licensed Product
++ * with Synopsys or any supplement thereto. You are permitted to use and
++ * redistribute this Software in source and binary forms, with or without
++ * modification, provided that redistributions of source code must retain this
++ * notice. You may not view, use, disclose, copy or distribute this file or
++ * any information contained herein except pursuant to this license grant from
++ * Synopsys. If you do not agree with this notice, including the disclaimer
++ * below, then you are not authorized to use the Software.
++ *
++ * THIS SOFTWARE IS BEING DISTRIBUTED BY SYNOPSYS SOLELY ON AN "AS IS" BASIS
++ * AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
++ * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE
++ * ARE HEREBY DISCLAIMED. IN NO EVENT SHALL SYNOPSYS BE LIABLE FOR ANY DIRECT,
++ * INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES
++ * (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR
++ * SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER
++ * CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT
++ * LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY
++ * OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH
++ * DAMAGE.
++ * ========================================================================== */
++
++#ifndef __DWC_OTG_ADP_H__
++#define __DWC_OTG_ADP_H__
++
++/**
++ * @file
++ *
++ * This file contains the Attach Detect Protocol interfaces and defines
++ * (functions) and structures for Linux.
++ *
++ */
++
++#define DWC_OTG_ADP_UNATTACHED 0
++#define DWC_OTG_ADP_ATTACHED 1
++#define DWC_OTG_ADP_UNKOWN 2
++
++typedef struct dwc_otg_adp {
++ uint32_t adp_started;
++ uint32_t initial_probe;
++ int32_t probe_timer_values[2];
++ uint32_t probe_enabled;
++ uint32_t sense_enabled;
++ dwc_timer_t *sense_timer;
++ uint32_t sense_timer_started;
++ dwc_timer_t *vbuson_timer;
++ uint32_t vbuson_timer_started;
++ uint32_t attached;
++ uint32_t probe_counter;
++ uint32_t gpwrdn;
++} dwc_otg_adp_t;
++
++/**
++ * Attach Detect Protocol functions
++ */
++
++extern void dwc_otg_adp_write_reg(dwc_otg_core_if_t * core_if, uint32_t value);
++extern uint32_t dwc_otg_adp_read_reg(dwc_otg_core_if_t * core_if);
++extern uint32_t dwc_otg_adp_probe_start(dwc_otg_core_if_t * core_if);
++extern uint32_t dwc_otg_adp_sense_start(dwc_otg_core_if_t * core_if);
++extern uint32_t dwc_otg_adp_probe_stop(dwc_otg_core_if_t * core_if);
++extern uint32_t dwc_otg_adp_sense_stop(dwc_otg_core_if_t * core_if);
++extern void dwc_otg_adp_start(dwc_otg_core_if_t * core_if, uint8_t is_host);
++extern void dwc_otg_adp_init(dwc_otg_core_if_t * core_if);
++extern void dwc_otg_adp_remove(dwc_otg_core_if_t * core_if);
++extern int32_t dwc_otg_adp_handle_intr(dwc_otg_core_if_t * core_if);
++extern int32_t dwc_otg_adp_handle_srp_intr(dwc_otg_core_if_t * core_if);
++
++#endif //__DWC_OTG_ADP_H__
+diff -urN linux-3.10/drivers/usb/host/dwc_otg/dwc_otg_attr.c linux-rpi-3.10.y/drivers/usb/host/dwc_otg/dwc_otg_attr.c
+--- linux-3.10/drivers/usb/host/dwc_otg/dwc_otg_attr.c 1970-01-01 01:00:00.000000000 +0100
++++ linux-rpi-3.10.y/drivers/usb/host/dwc_otg/dwc_otg_attr.c 2013-07-06 15:25:50.000000000 +0100
+@@ -0,0 +1,1210 @@
++/* ==========================================================================
++ * $File: //dwh/usb_iip/dev/software/otg/linux/drivers/dwc_otg_attr.c $
++ * $Revision: #44 $
++ * $Date: 2010/11/29 $
++ * $Change: 1636033 $
++ *
++ * Synopsys HS OTG Linux Software Driver and documentation (hereinafter,
++ * "Software") is an Unsupported proprietary work of Synopsys, Inc. unless
++ * otherwise expressly agreed to in writing between Synopsys and you.
++ *
++ * The Software IS NOT an item of Licensed Software or Licensed Product under
++ * any End User Software License Agreement or Agreement for Licensed Product
++ * with Synopsys or any supplement thereto. You are permitted to use and
++ * redistribute this Software in source and binary forms, with or without
++ * modification, provided that redistributions of source code must retain this
++ * notice. You may not view, use, disclose, copy or distribute this file or
++ * any information contained herein except pursuant to this license grant from
++ * Synopsys. If you do not agree with this notice, including the disclaimer
++ * below, then you are not authorized to use the Software.
++ *
++ * THIS SOFTWARE IS BEING DISTRIBUTED BY SYNOPSYS SOLELY ON AN "AS IS" BASIS
++ * AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
++ * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE
++ * ARE HEREBY DISCLAIMED. IN NO EVENT SHALL SYNOPSYS BE LIABLE FOR ANY DIRECT,
++ * INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES
++ * (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR
++ * SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER
++ * CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT
++ * LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY
++ * OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH
++ * DAMAGE.
++ * ========================================================================== */
++
++/** @file
++ *
++ * The diagnostic interface will provide access to the controller for
++ * bringing up the hardware and testing. The Linux driver attributes
++ * feature will be used to provide the Linux Diagnostic
++ * Interface. These attributes are accessed through sysfs.
++ */
++
++/** @page "Linux Module Attributes"
++ *
++ * The Linux module attributes feature is used to provide the Linux
++ * Diagnostic Interface. These attributes are accessed through sysfs.
++ * The diagnostic interface will provide access to the controller for
++ * bringing up the hardware and testing.
++
++ The following table shows the attributes.
++ <table>
++ <tr>
++ <td><b> Name</b></td>
++ <td><b> Description</b></td>
++ <td><b> Access</b></td>
++ </tr>
++
++ <tr>
++ <td> mode </td>
++ <td> Returns the current mode: 0 for device mode, 1 for host mode</td>
++ <td> Read</td>
++ </tr>
++
++ <tr>
++ <td> hnpcapable </td>
++ <td> Gets or sets the "HNP-capable" bit in the Core USB Configuraton Register.
++ Read returns the current value.</td>
++ <td> Read/Write</td>
++ </tr>
++
++ <tr>
++ <td> srpcapable </td>
++ <td> Gets or sets the "SRP-capable" bit in the Core USB Configuraton Register.
++ Read returns the current value.</td>
++ <td> Read/Write</td>
++ </tr>
++
++ <tr>
++ <td> hsic_connect </td>
++ <td> Gets or sets the "HSIC-Connect" bit in the GLPMCFG Register.
++ Read returns the current value.</td>
++ <td> Read/Write</td>
++ </tr>
++
++ <tr>
++ <td> inv_sel_hsic </td>
++ <td> Gets or sets the "Invert Select HSIC" bit in the GLPMFG Register.
++ Read returns the current value.</td>
++ <td> Read/Write</td>
++ </tr>
++
++ <tr>
++ <td> hnp </td>
++ <td> Initiates the Host Negotiation Protocol. Read returns the status.</td>
++ <td> Read/Write</td>
++ </tr>
++
++ <tr>
++ <td> srp </td>
++ <td> Initiates the Session Request Protocol. Read returns the status.</td>
++ <td> Read/Write</td>
++ </tr>
++
++ <tr>
++ <td> buspower </td>
++ <td> Gets or sets the Power State of the bus (0 - Off or 1 - On)</td>
++ <td> Read/Write</td>
++ </tr>
++
++ <tr>
++ <td> bussuspend </td>
++ <td> Suspends the USB bus.</td>
++ <td> Read/Write</td>
++ </tr>
++
++ <tr>
++ <td> busconnected </td>
++ <td> Gets the connection status of the bus</td>
++ <td> Read</td>
++ </tr>
++
++ <tr>
++ <td> gotgctl </td>
++ <td> Gets or sets the Core Control Status Register.</td>
++ <td> Read/Write</td>
++ </tr>
++
++ <tr>
++ <td> gusbcfg </td>
++ <td> Gets or sets the Core USB Configuration Register</td>
++ <td> Read/Write</td>
++ </tr>
++
++ <tr>
++ <td> grxfsiz </td>
++ <td> Gets or sets the Receive FIFO Size Register</td>
++ <td> Read/Write</td>
++ </tr>
++
++ <tr>
++ <td> gnptxfsiz </td>
++ <td> Gets or sets the non-periodic Transmit Size Register</td>
++ <td> Read/Write</td>
++ </tr>
++
++ <tr>
++ <td> gpvndctl </td>
++ <td> Gets or sets the PHY Vendor Control Register</td>
++ <td> Read/Write</td>
++ </tr>
++
++ <tr>
++ <td> ggpio </td>
++ <td> Gets the value in the lower 16-bits of the General Purpose IO Register
++ or sets the upper 16 bits.</td>
++ <td> Read/Write</td>
++ </tr>
++
++ <tr>
++ <td> guid </td>
++ <td> Gets or sets the value of the User ID Register</td>
++ <td> Read/Write</td>
++ </tr>
++
++ <tr>
++ <td> gsnpsid </td>
++ <td> Gets the value of the Synopsys ID Regester</td>
++ <td> Read</td>
++ </tr>
++
++ <tr>
++ <td> devspeed </td>
++ <td> Gets or sets the device speed setting in the DCFG register</td>
++ <td> Read/Write</td>
++ </tr>
++
++ <tr>
++ <td> enumspeed </td>
++ <td> Gets the device enumeration Speed.</td>
++ <td> Read</td>
++ </tr>
++
++ <tr>
++ <td> hptxfsiz </td>
++ <td> Gets the value of the Host Periodic Transmit FIFO</td>
++ <td> Read</td>
++ </tr>
++
++ <tr>
++ <td> hprt0 </td>
++ <td> Gets or sets the value in the Host Port Control and Status Register</td>
++ <td> Read/Write</td>
++ </tr>
++
++ <tr>
++ <td> regoffset </td>
++ <td> Sets the register offset for the next Register Access</td>
++ <td> Read/Write</td>
++ </tr>
++
++ <tr>
++ <td> regvalue </td>
++ <td> Gets or sets the value of the register at the offset in the regoffset attribute.</td>
++ <td> Read/Write</td>
++ </tr>
++
++ <tr>
++ <td> remote_wakeup </td>
++ <td> On read, shows the status of Remote Wakeup. On write, initiates a remote
++ wakeup of the host. When bit 0 is 1 and Remote Wakeup is enabled, the Remote
++ Wakeup signalling bit in the Device Control Register is set for 1
++ milli-second.</td>
++ <td> Read/Write</td>
++ </tr>
++
++ <tr>
++ <td> rem_wakeup_pwrdn </td>
++ <td> On read, shows the status core - hibernated or not. On write, initiates
++ a remote wakeup of the device from Hibernation. </td>
++ <td> Read/Write</td>
++ </tr>
++
++ <tr>
++ <td> mode_ch_tim_en </td>
++ <td> This bit is used to enable or disable the host core to wait for 200 PHY
++ clock cycles at the end of Resume to change the opmode signal to the PHY to 00
++ after Suspend or LPM. </td>
++ <td> Read/Write</td>
++ </tr>
++
++ <tr>
++ <td> fr_interval </td>
++ <td> On read, shows the value of HFIR Frame Interval. On write, dynamically
++ reload HFIR register during runtime. The application can write a value to this
++ register only after the Port Enable bit of the Host Port Control and Status
++ register (HPRT.PrtEnaPort) has been set </td>
++ <td> Read/Write</td>
++ </tr>
++
++ <tr>
++ <td> disconnect_us </td>
++ <td> On read, shows the status of disconnect_device_us. On write, sets disconnect_us
++ which causes soft disconnect for 100us. Applicable only for device mode of operation.</td>
++ <td> Read/Write</td>
++ </tr>
++
++ <tr>
++ <td> regdump </td>
++ <td> Dumps the contents of core registers.</td>
++ <td> Read</td>
++ </tr>
++
++ <tr>
++ <td> spramdump </td>
++ <td> Dumps the contents of core registers.</td>
++ <td> Read</td>
++ </tr>
++
++ <tr>
++ <td> hcddump </td>
++ <td> Dumps the current HCD state.</td>
++ <td> Read</td>
++ </tr>
++
++ <tr>
++ <td> hcd_frrem </td>
++ <td> Shows the average value of the Frame Remaining
++ field in the Host Frame Number/Frame Remaining register when an SOF interrupt
++ occurs. This can be used to determine the average interrupt latency. Also
++ shows the average Frame Remaining value for start_transfer and the "a" and
++ "b" sample points. The "a" and "b" sample points may be used during debugging
++ bto determine how long it takes to execute a section of the HCD code.</td>
++ <td> Read</td>
++ </tr>
++
++ <tr>
++ <td> rd_reg_test </td>
++ <td> Displays the time required to read the GNPTXFSIZ register many times
++ (the output shows the number of times the register is read).
++ <td> Read</td>
++ </tr>
++
++ <tr>
++ <td> wr_reg_test </td>
++ <td> Displays the time required to write the GNPTXFSIZ register many times
++ (the output shows the number of times the register is written).
++ <td> Read</td>
++ </tr>
++
++ <tr>
++ <td> lpm_response </td>
++ <td> Gets or sets lpm_response mode. Applicable only in device mode.
++ <td> Write</td>
++ </tr>
++
++ <tr>
++ <td> sleep_status </td>
++ <td> Shows sleep status of device.
++ <td> Read</td>
++ </tr>
++
++ </table>
++
++ Example usage:
++ To get the current mode:
++ cat /sys/devices/lm0/mode
++
++ To power down the USB:
++ echo 0 > /sys/devices/lm0/buspower
++ */
++
++#include "dwc_otg_os_dep.h"
++#include "dwc_os.h"
++#include "dwc_otg_driver.h"
++#include "dwc_otg_attr.h"
++#include "dwc_otg_core_if.h"
++#include "dwc_otg_pcd_if.h"
++#include "dwc_otg_hcd_if.h"
++
++/*
++ * MACROs for defining sysfs attribute
++ */
++#ifdef LM_INTERFACE
++
++#define DWC_OTG_DEVICE_ATTR_BITFIELD_SHOW(_otg_attr_name_,_string_) \
++static ssize_t _otg_attr_name_##_show (struct device *_dev, struct device_attribute *attr, char *buf) \
++{ \
++ struct lm_device *lm_dev = container_of(_dev, struct lm_device, dev); \
++ dwc_otg_device_t *otg_dev = lm_get_drvdata(lm_dev); \
++ uint32_t val; \
++ val = dwc_otg_get_##_otg_attr_name_ (otg_dev->core_if); \
++ return sprintf (buf, "%s = 0x%x\n", _string_, val); \
++}
++#define DWC_OTG_DEVICE_ATTR_BITFIELD_STORE(_otg_attr_name_,_string_) \
++static ssize_t _otg_attr_name_##_store (struct device *_dev, struct device_attribute *attr, \
++ const char *buf, size_t count) \
++{ \
++ struct lm_device *lm_dev = container_of(_dev, struct lm_device, dev); \
++ dwc_otg_device_t *otg_dev = lm_get_drvdata(lm_dev); \
++ uint32_t set = simple_strtoul(buf, NULL, 16); \
++ dwc_otg_set_##_otg_attr_name_(otg_dev->core_if, set);\
++ return count; \
++}
++
++#elif defined(PCI_INTERFACE)
++
++#define DWC_OTG_DEVICE_ATTR_BITFIELD_SHOW(_otg_attr_name_,_string_) \
++static ssize_t _otg_attr_name_##_show (struct device *_dev, struct device_attribute *attr, char *buf) \
++{ \
++ dwc_otg_device_t *otg_dev = dev_get_drvdata(_dev); \
++ uint32_t val; \
++ val = dwc_otg_get_##_otg_attr_name_ (otg_dev->core_if); \
++ return sprintf (buf, "%s = 0x%x\n", _string_, val); \
++}
++#define DWC_OTG_DEVICE_ATTR_BITFIELD_STORE(_otg_attr_name_,_string_) \
++static ssize_t _otg_attr_name_##_store (struct device *_dev, struct device_attribute *attr, \
++ const char *buf, size_t count) \
++{ \
++ dwc_otg_device_t *otg_dev = dev_get_drvdata(_dev); \
++ uint32_t set = simple_strtoul(buf, NULL, 16); \
++ dwc_otg_set_##_otg_attr_name_(otg_dev->core_if, set);\
++ return count; \
++}
++
++#elif defined(PLATFORM_INTERFACE)
++
++#define DWC_OTG_DEVICE_ATTR_BITFIELD_SHOW(_otg_attr_name_,_string_) \
++static ssize_t _otg_attr_name_##_show (struct device *_dev, struct device_attribute *attr, char *buf) \
++{ \
++ struct platform_device *platform_dev = \
++ container_of(_dev, struct platform_device, dev); \
++ dwc_otg_device_t *otg_dev = platform_get_drvdata(platform_dev); \
++ uint32_t val; \
++ DWC_PRINTF("%s(%p) -> platform_dev %p, otg_dev %p\n", \
++ __func__, _dev, platform_dev, otg_dev); \
++ val = dwc_otg_get_##_otg_attr_name_ (otg_dev->core_if); \
++ return sprintf (buf, "%s = 0x%x\n", _string_, val); \
++}
++#define DWC_OTG_DEVICE_ATTR_BITFIELD_STORE(_otg_attr_name_,_string_) \
++static ssize_t _otg_attr_name_##_store (struct device *_dev, struct device_attribute *attr, \
++ const char *buf, size_t count) \
++{ \
++ struct platform_device *platform_dev = container_of(_dev, struct platform_device, dev); \
++ dwc_otg_device_t *otg_dev = platform_get_drvdata(platform_dev); \
++ uint32_t set = simple_strtoul(buf, NULL, 16); \
++ dwc_otg_set_##_otg_attr_name_(otg_dev->core_if, set);\
++ return count; \
++}
++#endif
++
++/*
++ * MACROs for defining sysfs attribute for 32-bit registers
++ */
++#ifdef LM_INTERFACE
++#define DWC_OTG_DEVICE_ATTR_REG_SHOW(_otg_attr_name_,_string_) \
++static ssize_t _otg_attr_name_##_show (struct device *_dev, struct device_attribute *attr, char *buf) \
++{ \
++ struct lm_device *lm_dev = container_of(_dev, struct lm_device, dev); \
++ dwc_otg_device_t *otg_dev = lm_get_drvdata(lm_dev); \
++ uint32_t val; \
++ val = dwc_otg_get_##_otg_attr_name_ (otg_dev->core_if); \
++ return sprintf (buf, "%s = 0x%08x\n", _string_, val); \
++}
++#define DWC_OTG_DEVICE_ATTR_REG_STORE(_otg_attr_name_,_string_) \
++static ssize_t _otg_attr_name_##_store (struct device *_dev, struct device_attribute *attr, \
++ const char *buf, size_t count) \
++{ \
++ struct lm_device *lm_dev = container_of(_dev, struct lm_device, dev); \
++ dwc_otg_device_t *otg_dev = lm_get_drvdata(lm_dev); \
++ uint32_t val = simple_strtoul(buf, NULL, 16); \
++ dwc_otg_set_##_otg_attr_name_ (otg_dev->core_if, val); \
++ return count; \
++}
++#elif defined(PCI_INTERFACE)
++#define DWC_OTG_DEVICE_ATTR_REG_SHOW(_otg_attr_name_,_string_) \
++static ssize_t _otg_attr_name_##_show (struct device *_dev, struct device_attribute *attr, char *buf) \
++{ \
++ dwc_otg_device_t *otg_dev = dev_get_drvdata(_dev); \
++ uint32_t val; \
++ val = dwc_otg_get_##_otg_attr_name_ (otg_dev->core_if); \
++ return sprintf (buf, "%s = 0x%08x\n", _string_, val); \
++}
++#define DWC_OTG_DEVICE_ATTR_REG_STORE(_otg_attr_name_,_string_) \
++static ssize_t _otg_attr_name_##_store (struct device *_dev, struct device_attribute *attr, \
++ const char *buf, size_t count) \
++{ \
++ dwc_otg_device_t *otg_dev = dev_get_drvdata(_dev); \
++ uint32_t val = simple_strtoul(buf, NULL, 16); \
++ dwc_otg_set_##_otg_attr_name_ (otg_dev->core_if, val); \
++ return count; \
++}
++
++#elif defined(PLATFORM_INTERFACE)
++#include "dwc_otg_dbg.h"
++#define DWC_OTG_DEVICE_ATTR_REG_SHOW(_otg_attr_name_,_string_) \
++static ssize_t _otg_attr_name_##_show (struct device *_dev, struct device_attribute *attr, char *buf) \
++{ \
++ struct platform_device *platform_dev = container_of(_dev, struct platform_device, dev); \
++ dwc_otg_device_t *otg_dev = platform_get_drvdata(platform_dev); \
++ uint32_t val; \
++ DWC_PRINTF("%s(%p) -> platform_dev %p, otg_dev %p\n", \
++ __func__, _dev, platform_dev, otg_dev); \
++ val = dwc_otg_get_##_otg_attr_name_ (otg_dev->core_if); \
++ return sprintf (buf, "%s = 0x%08x\n", _string_, val); \
++}
++#define DWC_OTG_DEVICE_ATTR_REG_STORE(_otg_attr_name_,_string_) \
++static ssize_t _otg_attr_name_##_store (struct device *_dev, struct device_attribute *attr, \
++ const char *buf, size_t count) \
++{ \
++ struct platform_device *platform_dev = container_of(_dev, struct platform_device, dev); \
++ dwc_otg_device_t *otg_dev = platform_get_drvdata(platform_dev); \
++ uint32_t val = simple_strtoul(buf, NULL, 16); \
++ dwc_otg_set_##_otg_attr_name_ (otg_dev->core_if, val); \
++ return count; \
++}
++
++#endif
++
++#define DWC_OTG_DEVICE_ATTR_BITFIELD_RW(_otg_attr_name_,_string_) \
++DWC_OTG_DEVICE_ATTR_BITFIELD_SHOW(_otg_attr_name_,_string_) \
++DWC_OTG_DEVICE_ATTR_BITFIELD_STORE(_otg_attr_name_,_string_) \
++DEVICE_ATTR(_otg_attr_name_,0644,_otg_attr_name_##_show,_otg_attr_name_##_store);
++
++#define DWC_OTG_DEVICE_ATTR_BITFIELD_RO(_otg_attr_name_,_string_) \
++DWC_OTG_DEVICE_ATTR_BITFIELD_SHOW(_otg_attr_name_,_string_) \
++DEVICE_ATTR(_otg_attr_name_,0444,_otg_attr_name_##_show,NULL);
++
++#define DWC_OTG_DEVICE_ATTR_REG32_RW(_otg_attr_name_,_addr_,_string_) \
++DWC_OTG_DEVICE_ATTR_REG_SHOW(_otg_attr_name_,_string_) \
++DWC_OTG_DEVICE_ATTR_REG_STORE(_otg_attr_name_,_string_) \
++DEVICE_ATTR(_otg_attr_name_,0644,_otg_attr_name_##_show,_otg_attr_name_##_store);
++
++#define DWC_OTG_DEVICE_ATTR_REG32_RO(_otg_attr_name_,_addr_,_string_) \
++DWC_OTG_DEVICE_ATTR_REG_SHOW(_otg_attr_name_,_string_) \
++DEVICE_ATTR(_otg_attr_name_,0444,_otg_attr_name_##_show,NULL);
++
++/** @name Functions for Show/Store of Attributes */
++/**@{*/
++
++/**
++ * Helper function returning the otg_device structure of the given device
++ */
++static dwc_otg_device_t *dwc_otg_drvdev(struct device *_dev)
++{
++ dwc_otg_device_t *otg_dev;
++ DWC_OTG_GETDRVDEV(otg_dev, _dev);
++ return otg_dev;
++}
++
++/**
++ * Show the register offset of the Register Access.
++ */
++static ssize_t regoffset_show(struct device *_dev,
++ struct device_attribute *attr, char *buf)
++{
++ dwc_otg_device_t *otg_dev = dwc_otg_drvdev(_dev);
++ return snprintf(buf, sizeof("0xFFFFFFFF\n") + 1, "0x%08x\n",
++ otg_dev->os_dep.reg_offset);
++}
++
++/**
++ * Set the register offset for the next Register Access Read/Write
++ */
++static ssize_t regoffset_store(struct device *_dev,
++ struct device_attribute *attr,
++ const char *buf, size_t count)
++{
++ dwc_otg_device_t *otg_dev = dwc_otg_drvdev(_dev);
++ uint32_t offset = simple_strtoul(buf, NULL, 16);
++#if defined(LM_INTERFACE) || defined(PLATFORM_INTERFACE)
++ if (offset < SZ_256K) {
++#elif defined(PCI_INTERFACE)
++ if (offset < 0x00040000) {
++#endif
++ otg_dev->os_dep.reg_offset = offset;
++ } else {
++ dev_err(_dev, "invalid offset\n");
++ }
++
++ return count;
++}
++
++DEVICE_ATTR(regoffset, S_IRUGO | S_IWUSR, regoffset_show, regoffset_store);
++
++/**
++ * Show the value of the register at the offset in the reg_offset
++ * attribute.
++ */
++static ssize_t regvalue_show(struct device *_dev,
++ struct device_attribute *attr, char *buf)
++{
++ dwc_otg_device_t *otg_dev = dwc_otg_drvdev(_dev);
++ uint32_t val;
++ volatile uint32_t *addr;
++
++ if (otg_dev->os_dep.reg_offset != 0xFFFFFFFF && 0 != otg_dev->os_dep.base) {
++ /* Calculate the address */
++ addr = (uint32_t *) (otg_dev->os_dep.reg_offset +
++ (uint8_t *) otg_dev->os_dep.base);
++ val = DWC_READ_REG32(addr);
++ return snprintf(buf,
++ sizeof("Reg@0xFFFFFFFF = 0xFFFFFFFF\n") + 1,
++ "Reg@0x%06x = 0x%08x\n", otg_dev->os_dep.reg_offset,
++ val);
++ } else {
++ dev_err(_dev, "Invalid offset (0x%0x)\n", otg_dev->os_dep.reg_offset);
++ return sprintf(buf, "invalid offset\n");
++ }
++}
++
++/**
++ * Store the value in the register at the offset in the reg_offset
++ * attribute.
++ *
++ */
++static ssize_t regvalue_store(struct device *_dev,
++ struct device_attribute *attr,
++ const char *buf, size_t count)
++{
++ dwc_otg_device_t *otg_dev = dwc_otg_drvdev(_dev);
++ volatile uint32_t *addr;
++ uint32_t val = simple_strtoul(buf, NULL, 16);
++ //dev_dbg(_dev, "Offset=0x%08x Val=0x%08x\n", otg_dev->reg_offset, val);
++ if (otg_dev->os_dep.reg_offset != 0xFFFFFFFF && 0 != otg_dev->os_dep.base) {
++ /* Calculate the address */
++ addr = (uint32_t *) (otg_dev->os_dep.reg_offset +
++ (uint8_t *) otg_dev->os_dep.base);
++ DWC_WRITE_REG32(addr, val);
++ } else {
++ dev_err(_dev, "Invalid Register Offset (0x%08x)\n",
++ otg_dev->os_dep.reg_offset);
++ }
++ return count;
++}
++
++DEVICE_ATTR(regvalue, S_IRUGO | S_IWUSR, regvalue_show, regvalue_store);
++
++/*
++ * Attributes
++ */
++DWC_OTG_DEVICE_ATTR_BITFIELD_RO(mode, "Mode");
++DWC_OTG_DEVICE_ATTR_BITFIELD_RW(hnpcapable, "HNPCapable");
++DWC_OTG_DEVICE_ATTR_BITFIELD_RW(srpcapable, "SRPCapable");
++DWC_OTG_DEVICE_ATTR_BITFIELD_RW(hsic_connect, "HSIC Connect");
++DWC_OTG_DEVICE_ATTR_BITFIELD_RW(inv_sel_hsic, "Invert Select HSIC");
++
++//DWC_OTG_DEVICE_ATTR_BITFIELD_RW(buspower,&(otg_dev->core_if->core_global_regs->gotgctl),(1<<8),8,"Mode");
++//DWC_OTG_DEVICE_ATTR_BITFIELD_RW(bussuspend,&(otg_dev->core_if->core_global_regs->gotgctl),(1<<8),8,"Mode");
++DWC_OTG_DEVICE_ATTR_BITFIELD_RO(busconnected, "Bus Connected");
++
++DWC_OTG_DEVICE_ATTR_REG32_RW(gotgctl, 0, "GOTGCTL");
++DWC_OTG_DEVICE_ATTR_REG32_RW(gusbcfg,
++ &(otg_dev->core_if->core_global_regs->gusbcfg),
++ "GUSBCFG");
++DWC_OTG_DEVICE_ATTR_REG32_RW(grxfsiz,
++ &(otg_dev->core_if->core_global_regs->grxfsiz),
++ "GRXFSIZ");
++DWC_OTG_DEVICE_ATTR_REG32_RW(gnptxfsiz,
++ &(otg_dev->core_if->core_global_regs->gnptxfsiz),
++ "GNPTXFSIZ");
++DWC_OTG_DEVICE_ATTR_REG32_RW(gpvndctl,
++ &(otg_dev->core_if->core_global_regs->gpvndctl),
++ "GPVNDCTL");
++DWC_OTG_DEVICE_ATTR_REG32_RW(ggpio,
++ &(otg_dev->core_if->core_global_regs->ggpio),
++ "GGPIO");
++DWC_OTG_DEVICE_ATTR_REG32_RW(guid, &(otg_dev->core_if->core_global_regs->guid),
++ "GUID");
++DWC_OTG_DEVICE_ATTR_REG32_RO(gsnpsid,
++ &(otg_dev->core_if->core_global_regs->gsnpsid),
++ "GSNPSID");
++DWC_OTG_DEVICE_ATTR_BITFIELD_RW(devspeed, "Device Speed");
++DWC_OTG_DEVICE_ATTR_BITFIELD_RO(enumspeed, "Device Enumeration Speed");
++
++DWC_OTG_DEVICE_ATTR_REG32_RO(hptxfsiz,
++ &(otg_dev->core_if->core_global_regs->hptxfsiz),
++ "HPTXFSIZ");
++DWC_OTG_DEVICE_ATTR_REG32_RW(hprt0, otg_dev->core_if->host_if->hprt0, "HPRT0");
++
++/**
++ * @todo Add code to initiate the HNP.
++ */
++/**
++ * Show the HNP status bit
++ */
++static ssize_t hnp_show(struct device *_dev,
++ struct device_attribute *attr, char *buf)
++{
++ dwc_otg_device_t *otg_dev = dwc_otg_drvdev(_dev);
++ return sprintf(buf, "HstNegScs = 0x%x\n",
++ dwc_otg_get_hnpstatus(otg_dev->core_if));
++}
++
++/**
++ * Set the HNP Request bit
++ */
++static ssize_t hnp_store(struct device *_dev,
++ struct device_attribute *attr,
++ const char *buf, size_t count)
++{
++ dwc_otg_device_t *otg_dev = dwc_otg_drvdev(_dev);
++ uint32_t in = simple_strtoul(buf, NULL, 16);
++ dwc_otg_set_hnpreq(otg_dev->core_if, in);
++ return count;
++}
++
++DEVICE_ATTR(hnp, 0644, hnp_show, hnp_store);
++
++/**
++ * @todo Add code to initiate the SRP.
++ */
++/**
++ * Show the SRP status bit
++ */
++static ssize_t srp_show(struct device *_dev,
++ struct device_attribute *attr, char *buf)
++{
++#ifndef DWC_HOST_ONLY
++ dwc_otg_device_t *otg_dev = dwc_otg_drvdev(_dev);
++ return sprintf(buf, "SesReqScs = 0x%x\n",
++ dwc_otg_get_srpstatus(otg_dev->core_if));
++#else
++ return sprintf(buf, "Host Only Mode!\n");
++#endif
++}
++
++/**
++ * Set the SRP Request bit
++ */
++static ssize_t srp_store(struct device *_dev,
++ struct device_attribute *attr,
++ const char *buf, size_t count)
++{
++#ifndef DWC_HOST_ONLY
++ dwc_otg_device_t *otg_dev = dwc_otg_drvdev(_dev);
++ dwc_otg_pcd_initiate_srp(otg_dev->pcd);
++#endif
++ return count;
++}
++
++DEVICE_ATTR(srp, 0644, srp_show, srp_store);
++
++/**
++ * @todo Need to do more for power on/off?
++ */
++/**
++ * Show the Bus Power status
++ */
++static ssize_t buspower_show(struct device *_dev,
++ struct device_attribute *attr, char *buf)
++{
++ dwc_otg_device_t *otg_dev = dwc_otg_drvdev(_dev);
++ return sprintf(buf, "Bus Power = 0x%x\n",
++ dwc_otg_get_prtpower(otg_dev->core_if));
++}
++
++/**
++ * Set the Bus Power status
++ */
++static ssize_t buspower_store(struct device *_dev,
++ struct device_attribute *attr,
++ const char *buf, size_t count)
++{
++ dwc_otg_device_t *otg_dev = dwc_otg_drvdev(_dev);
++ uint32_t on = simple_strtoul(buf, NULL, 16);
++ dwc_otg_set_prtpower(otg_dev->core_if, on);
++ return count;
++}
++
++DEVICE_ATTR(buspower, 0644, buspower_show, buspower_store);
++
++/**
++ * @todo Need to do more for suspend?
++ */
++/**
++ * Show the Bus Suspend status
++ */
++static ssize_t bussuspend_show(struct device *_dev,
++ struct device_attribute *attr, char *buf)
++{
++ dwc_otg_device_t *otg_dev = dwc_otg_drvdev(_dev);
++ return sprintf(buf, "Bus Suspend = 0x%x\n",
++ dwc_otg_get_prtsuspend(otg_dev->core_if));
++}
++
++/**
++ * Set the Bus Suspend status
++ */
++static ssize_t bussuspend_store(struct device *_dev,
++ struct device_attribute *attr,
++ const char *buf, size_t count)
++{
++ dwc_otg_device_t *otg_dev = dwc_otg_drvdev(_dev);
++ uint32_t in = simple_strtoul(buf, NULL, 16);
++ dwc_otg_set_prtsuspend(otg_dev->core_if, in);
++ return count;
++}
++
++DEVICE_ATTR(bussuspend, 0644, bussuspend_show, bussuspend_store);
++
++/**
++ * Show the Mode Change Ready Timer status
++ */
++static ssize_t mode_ch_tim_en_show(struct device *_dev,
++ struct device_attribute *attr, char *buf)
++{
++ dwc_otg_device_t *otg_dev = dwc_otg_drvdev(_dev);
++ return sprintf(buf, "Mode Change Ready Timer Enable = 0x%x\n",
++ dwc_otg_get_mode_ch_tim(otg_dev->core_if));
++}
++
++/**
++ * Set the Mode Change Ready Timer status
++ */
++static ssize_t mode_ch_tim_en_store(struct device *_dev,
++ struct device_attribute *attr,
++ const char *buf, size_t count)
++{
++ dwc_otg_device_t *otg_dev = dwc_otg_drvdev(_dev);
++ uint32_t in = simple_strtoul(buf, NULL, 16);
++ dwc_otg_set_mode_ch_tim(otg_dev->core_if, in);
++ return count;
++}
++
++DEVICE_ATTR(mode_ch_tim_en, 0644, mode_ch_tim_en_show, mode_ch_tim_en_store);
++
++/**
++ * Show the value of HFIR Frame Interval bitfield
++ */
++static ssize_t fr_interval_show(struct device *_dev,
++ struct device_attribute *attr, char *buf)
++{
++ dwc_otg_device_t *otg_dev = dwc_otg_drvdev(_dev);
++ return sprintf(buf, "Frame Interval = 0x%x\n",
++ dwc_otg_get_fr_interval(otg_dev->core_if));
++}
++
++/**
++ * Set the HFIR Frame Interval value
++ */
++static ssize_t fr_interval_store(struct device *_dev,
++ struct device_attribute *attr,
++ const char *buf, size_t count)
++{
++ dwc_otg_device_t *otg_dev = dwc_otg_drvdev(_dev);
++ uint32_t in = simple_strtoul(buf, NULL, 10);
++ dwc_otg_set_fr_interval(otg_dev->core_if, in);
++ return count;
++}
++
++DEVICE_ATTR(fr_interval, 0644, fr_interval_show, fr_interval_store);
++
++/**
++ * Show the status of Remote Wakeup.
++ */
++static ssize_t remote_wakeup_show(struct device *_dev,
++ struct device_attribute *attr, char *buf)
++{
++#ifndef DWC_HOST_ONLY
++ dwc_otg_device_t *otg_dev = dwc_otg_drvdev(_dev);
++
++ return sprintf(buf,
++ "Remote Wakeup Sig = %d Enabled = %d LPM Remote Wakeup = %d\n",
++ dwc_otg_get_remotewakesig(otg_dev->core_if),
++ dwc_otg_pcd_get_rmwkup_enable(otg_dev->pcd),
++ dwc_otg_get_lpm_remotewakeenabled(otg_dev->core_if));
++#else
++ return sprintf(buf, "Host Only Mode!\n");
++#endif /* DWC_HOST_ONLY */
++}
++
++/**
++ * Initiate a remote wakeup of the host. The Device control register
++ * Remote Wakeup Signal bit is written if the PCD Remote wakeup enable
++ * flag is set.
++ *
++ */
++static ssize_t remote_wakeup_store(struct device *_dev,
++ struct device_attribute *attr,
++ const char *buf, size_t count)
++{
++#ifndef DWC_HOST_ONLY
++ dwc_otg_device_t *otg_dev = dwc_otg_drvdev(_dev);
++ uint32_t val = simple_strtoul(buf, NULL, 16);
++
++ if (val & 1) {
++ dwc_otg_pcd_remote_wakeup(otg_dev->pcd, 1);
++ } else {
++ dwc_otg_pcd_remote_wakeup(otg_dev->pcd, 0);
++ }
++#endif /* DWC_HOST_ONLY */
++ return count;
++}
++
++DEVICE_ATTR(remote_wakeup, S_IRUGO | S_IWUSR, remote_wakeup_show,
++ remote_wakeup_store);
++
++/**
++ * Show the whether core is hibernated or not.
++ */
++static ssize_t rem_wakeup_pwrdn_show(struct device *_dev,
++ struct device_attribute *attr, char *buf)
++{
++#ifndef DWC_HOST_ONLY
++ dwc_otg_device_t *otg_dev = dwc_otg_drvdev(_dev);
++
++ if (dwc_otg_get_core_state(otg_dev->core_if)) {
++ DWC_PRINTF("Core is in hibernation\n");
++ } else {
++ DWC_PRINTF("Core is not in hibernation\n");
++ }
++#endif /* DWC_HOST_ONLY */
++ return 0;
++}
++
++extern int dwc_otg_device_hibernation_restore(dwc_otg_core_if_t * core_if,
++ int rem_wakeup, int reset);
++
++/**
++ * Initiate a remote wakeup of the device to exit from hibernation.
++ */
++static ssize_t rem_wakeup_pwrdn_store(struct device *_dev,
++ struct device_attribute *attr,
++ const char *buf, size_t count)
++{
++#ifndef DWC_HOST_ONLY
++ dwc_otg_device_t *otg_dev = dwc_otg_drvdev(_dev);
++ dwc_otg_device_hibernation_restore(otg_dev->core_if, 1, 0);
++#endif
++ return count;
++}
++
++DEVICE_ATTR(rem_wakeup_pwrdn, S_IRUGO | S_IWUSR, rem_wakeup_pwrdn_show,
++ rem_wakeup_pwrdn_store);
++
++static ssize_t disconnect_us(struct device *_dev,
++ struct device_attribute *attr,
++ const char *buf, size_t count)
++{
++
++#ifndef DWC_HOST_ONLY
++ dwc_otg_device_t *otg_dev = dwc_otg_drvdev(_dev);
++ uint32_t val = simple_strtoul(buf, NULL, 16);
++ DWC_PRINTF("The Passed value is %04x\n", val);
++
++ dwc_otg_pcd_disconnect_us(otg_dev->pcd, 50);
++
++#endif /* DWC_HOST_ONLY */
++ return count;
++}
++
++DEVICE_ATTR(disconnect_us, S_IWUSR, 0, disconnect_us);
++
++/**
++ * Dump global registers and either host or device registers (depending on the
++ * current mode of the core).
++ */
++static ssize_t regdump_show(struct device *_dev,
++ struct device_attribute *attr, char *buf)
++{
++ dwc_otg_device_t *otg_dev = dwc_otg_drvdev(_dev);
++
++ dwc_otg_dump_global_registers(otg_dev->core_if);
++ if (dwc_otg_is_host_mode(otg_dev->core_if)) {
++ dwc_otg_dump_host_registers(otg_dev->core_if);
++ } else {
++ dwc_otg_dump_dev_registers(otg_dev->core_if);
++
++ }
++ return sprintf(buf, "Register Dump\n");
++}
++
++DEVICE_ATTR(regdump, S_IRUGO, regdump_show, 0);
++
++/**
++ * Dump global registers and either host or device registers (depending on the
++ * current mode of the core).
++ */
++static ssize_t spramdump_show(struct device *_dev,
++ struct device_attribute *attr, char *buf)
++{
++ dwc_otg_device_t *otg_dev = dwc_otg_drvdev(_dev);
++
++ dwc_otg_dump_spram(otg_dev->core_if);
++
++ return sprintf(buf, "SPRAM Dump\n");
++}
++
++DEVICE_ATTR(spramdump, S_IRUGO, spramdump_show, 0);
++
++/**
++ * Dump the current hcd state.
++ */
++static ssize_t hcddump_show(struct device *_dev,
++ struct device_attribute *attr, char *buf)
++{
++#ifndef DWC_DEVICE_ONLY
++ dwc_otg_device_t *otg_dev = dwc_otg_drvdev(_dev);
++ dwc_otg_hcd_dump_state(otg_dev->hcd);
++#endif /* DWC_DEVICE_ONLY */
++ return sprintf(buf, "HCD Dump\n");
++}
++
++DEVICE_ATTR(hcddump, S_IRUGO, hcddump_show, 0);
++
++/**
++ * Dump the average frame remaining at SOF. This can be used to
++ * determine average interrupt latency. Frame remaining is also shown for
++ * start transfer and two additional sample points.
++ */
++static ssize_t hcd_frrem_show(struct device *_dev,
++ struct device_attribute *attr, char *buf)
++{
++#ifndef DWC_DEVICE_ONLY
++ dwc_otg_device_t *otg_dev = dwc_otg_drvdev(_dev);
++
++ dwc_otg_hcd_dump_frrem(otg_dev->hcd);
++#endif /* DWC_DEVICE_ONLY */
++ return sprintf(buf, "HCD Dump Frame Remaining\n");
++}
++
++DEVICE_ATTR(hcd_frrem, S_IRUGO, hcd_frrem_show, 0);
++
++/**
++ * Displays the time required to read the GNPTXFSIZ register many times (the
++ * output shows the number of times the register is read).
++ */
++#define RW_REG_COUNT 10000000
++#define MSEC_PER_JIFFIE 1000/HZ
++static ssize_t rd_reg_test_show(struct device *_dev,
++ struct device_attribute *attr, char *buf)
++{
++ dwc_otg_device_t *otg_dev = dwc_otg_drvdev(_dev);
++ int i;
++ int time;
++ int start_jiffies;
++
++ printk("HZ %d, MSEC_PER_JIFFIE %d, loops_per_jiffy %lu\n",
++ HZ, MSEC_PER_JIFFIE, loops_per_jiffy);
++ start_jiffies = jiffies;
++ for (i = 0; i < RW_REG_COUNT; i++) {
++ dwc_otg_get_gnptxfsiz(otg_dev->core_if);
++ }
++ time = jiffies - start_jiffies;
++ return sprintf(buf,
++ "Time to read GNPTXFSIZ reg %d times: %d msecs (%d jiffies)\n",
++ RW_REG_COUNT, time * MSEC_PER_JIFFIE, time);
++}
++
++DEVICE_ATTR(rd_reg_test, S_IRUGO, rd_reg_test_show, 0);
++
++/**
++ * Displays the time required to write the GNPTXFSIZ register many times (the
++ * output shows the number of times the register is written).
++ */
++static ssize_t wr_reg_test_show(struct device *_dev,
++ struct device_attribute *attr, char *buf)
++{
++ dwc_otg_device_t *otg_dev = dwc_otg_drvdev(_dev);
++ uint32_t reg_val;
++ int i;
++ int time;
++ int start_jiffies;
++
++ printk("HZ %d, MSEC_PER_JIFFIE %d, loops_per_jiffy %lu\n",
++ HZ, MSEC_PER_JIFFIE, loops_per_jiffy);
++ reg_val = dwc_otg_get_gnptxfsiz(otg_dev->core_if);
++ start_jiffies = jiffies;
++ for (i = 0; i < RW_REG_COUNT; i++) {
++ dwc_otg_set_gnptxfsiz(otg_dev->core_if, reg_val);
++ }
++ time = jiffies - start_jiffies;
++ return sprintf(buf,
++ "Time to write GNPTXFSIZ reg %d times: %d msecs (%d jiffies)\n",
++ RW_REG_COUNT, time * MSEC_PER_JIFFIE, time);
++}
++
++DEVICE_ATTR(wr_reg_test, S_IRUGO, wr_reg_test_show, 0);
++
++#ifdef CONFIG_USB_DWC_OTG_LPM
++
++/**
++* Show the lpm_response attribute.
++*/
++static ssize_t lpmresp_show(struct device *_dev,
++ struct device_attribute *attr, char *buf)
++{
++ dwc_otg_device_t *otg_dev = dwc_otg_drvdev(_dev);
++
++ if (!dwc_otg_get_param_lpm_enable(otg_dev->core_if))
++ return sprintf(buf, "** LPM is DISABLED **\n");
++
++ if (!dwc_otg_is_device_mode(otg_dev->core_if)) {
++ return sprintf(buf, "** Current mode is not device mode\n");
++ }
++ return sprintf(buf, "lpm_response = %d\n",
++ dwc_otg_get_lpmresponse(otg_dev->core_if));
++}
++
++/**
++* Store the lpm_response attribute.
++*/
++static ssize_t lpmresp_store(struct device *_dev,
++ struct device_attribute *attr,
++ const char *buf, size_t count)
++{
++ dwc_otg_device_t *otg_dev = dwc_otg_drvdev(_dev);
++ uint32_t val = simple_strtoul(buf, NULL, 16);
++
++ if (!dwc_otg_get_param_lpm_enable(otg_dev->core_if)) {
++ return 0;
++ }
++
++ if (!dwc_otg_is_device_mode(otg_dev->core_if)) {
++ return 0;
++ }
++
++ dwc_otg_set_lpmresponse(otg_dev->core_if, val);
++ return count;
++}
++
++DEVICE_ATTR(lpm_response, S_IRUGO | S_IWUSR, lpmresp_show, lpmresp_store);
++
++/**
++* Show the sleep_status attribute.
++*/
++static ssize_t sleepstatus_show(struct device *_dev,
++ struct device_attribute *attr, char *buf)
++{
++ dwc_otg_device_t *otg_dev = dwc_otg_drvdev(_dev);
++ return sprintf(buf, "Sleep Status = %d\n",
++ dwc_otg_get_lpm_portsleepstatus(otg_dev->core_if));
++}
++
++/**
++ * Store the sleep_status attribure.
++ */
++static ssize_t sleepstatus_store(struct device *_dev,
++ struct device_attribute *attr,
++ const char *buf, size_t count)
++{
++ dwc_otg_device_t *otg_dev = dwc_otg_drvdev(_dev);
++ dwc_otg_core_if_t *core_if = otg_dev->core_if;
++
++ if (dwc_otg_get_lpm_portsleepstatus(otg_dev->core_if)) {
++ if (dwc_otg_is_host_mode(core_if)) {
++
++ DWC_PRINTF("Host initiated resume\n");
++ dwc_otg_set_prtresume(otg_dev->core_if, 1);
++ }
++ }
++
++ return count;
++}
++
++DEVICE_ATTR(sleep_status, S_IRUGO | S_IWUSR, sleepstatus_show,
++ sleepstatus_store);
++
++#endif /* CONFIG_USB_DWC_OTG_LPM_ENABLE */
++
++/**@}*/
++
++/**
++ * Create the device files
++ */
++void dwc_otg_attr_create(
++#ifdef LM_INTERFACE
++ struct lm_device *dev
++#elif defined(PCI_INTERFACE)
++ struct pci_dev *dev
++#elif defined(PLATFORM_INTERFACE)
++ struct platform_device *dev
++#endif
++ )
++{
++ int error;
++
++ error = device_create_file(&dev->dev, &dev_attr_regoffset);
++ error = device_create_file(&dev->dev, &dev_attr_regvalue);
++ error = device_create_file(&dev->dev, &dev_attr_mode);
++ error = device_create_file(&dev->dev, &dev_attr_hnpcapable);
++ error = device_create_file(&dev->dev, &dev_attr_srpcapable);
++ error = device_create_file(&dev->dev, &dev_attr_hsic_connect);
++ error = device_create_file(&dev->dev, &dev_attr_inv_sel_hsic);
++ error = device_create_file(&dev->dev, &dev_attr_hnp);
++ error = device_create_file(&dev->dev, &dev_attr_srp);
++ error = device_create_file(&dev->dev, &dev_attr_buspower);
++ error = device_create_file(&dev->dev, &dev_attr_bussuspend);
++ error = device_create_file(&dev->dev, &dev_attr_mode_ch_tim_en);
++ error = device_create_file(&dev->dev, &dev_attr_fr_interval);
++ error = device_create_file(&dev->dev, &dev_attr_busconnected);
++ error = device_create_file(&dev->dev, &dev_attr_gotgctl);
++ error = device_create_file(&dev->dev, &dev_attr_gusbcfg);
++ error = device_create_file(&dev->dev, &dev_attr_grxfsiz);
++ error = device_create_file(&dev->dev, &dev_attr_gnptxfsiz);
++ error = device_create_file(&dev->dev, &dev_attr_gpvndctl);
++ error = device_create_file(&dev->dev, &dev_attr_ggpio);
++ error = device_create_file(&dev->dev, &dev_attr_guid);
++ error = device_create_file(&dev->dev, &dev_attr_gsnpsid);
++ error = device_create_file(&dev->dev, &dev_attr_devspeed);
++ error = device_create_file(&dev->dev, &dev_attr_enumspeed);
++ error = device_create_file(&dev->dev, &dev_attr_hptxfsiz);
++ error = device_create_file(&dev->dev, &dev_attr_hprt0);
++ error = device_create_file(&dev->dev, &dev_attr_remote_wakeup);
++ error = device_create_file(&dev->dev, &dev_attr_rem_wakeup_pwrdn);
++ error = device_create_file(&dev->dev, &dev_attr_disconnect_us);
++ error = device_create_file(&dev->dev, &dev_attr_regdump);
++ error = device_create_file(&dev->dev, &dev_attr_spramdump);
++ error = device_create_file(&dev->dev, &dev_attr_hcddump);
++ error = device_create_file(&dev->dev, &dev_attr_hcd_frrem);
++ error = device_create_file(&dev->dev, &dev_attr_rd_reg_test);
++ error = device_create_file(&dev->dev, &dev_attr_wr_reg_test);
++#ifdef CONFIG_USB_DWC_OTG_LPM
++ error = device_create_file(&dev->dev, &dev_attr_lpm_response);
++ error = device_create_file(&dev->dev, &dev_attr_sleep_status);
++#endif
++}
++
++/**
++ * Remove the device files
++ */
++void dwc_otg_attr_remove(
++#ifdef LM_INTERFACE
++ struct lm_device *dev
++#elif defined(PCI_INTERFACE)
++ struct pci_dev *dev
++#elif defined(PLATFORM_INTERFACE)
++ struct platform_device *dev
++#endif
++ )
++{
++ device_remove_file(&dev->dev, &dev_attr_regoffset);
++ device_remove_file(&dev->dev, &dev_attr_regvalue);
++ device_remove_file(&dev->dev, &dev_attr_mode);
++ device_remove_file(&dev->dev, &dev_attr_hnpcapable);
++ device_remove_file(&dev->dev, &dev_attr_srpcapable);
++ device_remove_file(&dev->dev, &dev_attr_hsic_connect);
++ device_remove_file(&dev->dev, &dev_attr_inv_sel_hsic);
++ device_remove_file(&dev->dev, &dev_attr_hnp);
++ device_remove_file(&dev->dev, &dev_attr_srp);
++ device_remove_file(&dev->dev, &dev_attr_buspower);
++ device_remove_file(&dev->dev, &dev_attr_bussuspend);
++ device_remove_file(&dev->dev, &dev_attr_mode_ch_tim_en);
++ device_remove_file(&dev->dev, &dev_attr_fr_interval);
++ device_remove_file(&dev->dev, &dev_attr_busconnected);
++ device_remove_file(&dev->dev, &dev_attr_gotgctl);
++ device_remove_file(&dev->dev, &dev_attr_gusbcfg);
++ device_remove_file(&dev->dev, &dev_attr_grxfsiz);
++ device_remove_file(&dev->dev, &dev_attr_gnptxfsiz);
++ device_remove_file(&dev->dev, &dev_attr_gpvndctl);
++ device_remove_file(&dev->dev, &dev_attr_ggpio);
++ device_remove_file(&dev->dev, &dev_attr_guid);
++ device_remove_file(&dev->dev, &dev_attr_gsnpsid);
++ device_remove_file(&dev->dev, &dev_attr_devspeed);
++ device_remove_file(&dev->dev, &dev_attr_enumspeed);
++ device_remove_file(&dev->dev, &dev_attr_hptxfsiz);
++ device_remove_file(&dev->dev, &dev_attr_hprt0);
++ device_remove_file(&dev->dev, &dev_attr_remote_wakeup);
++ device_remove_file(&dev->dev, &dev_attr_rem_wakeup_pwrdn);
++ device_remove_file(&dev->dev, &dev_attr_disconnect_us);
++ device_remove_file(&dev->dev, &dev_attr_regdump);
++ device_remove_file(&dev->dev, &dev_attr_spramdump);
++ device_remove_file(&dev->dev, &dev_attr_hcddump);
++ device_remove_file(&dev->dev, &dev_attr_hcd_frrem);
++ device_remove_file(&dev->dev, &dev_attr_rd_reg_test);
++ device_remove_file(&dev->dev, &dev_attr_wr_reg_test);
++#ifdef CONFIG_USB_DWC_OTG_LPM
++ device_remove_file(&dev->dev, &dev_attr_lpm_response);
++ device_remove_file(&dev->dev, &dev_attr_sleep_status);
++#endif
++}
+diff -urN linux-3.10/drivers/usb/host/dwc_otg/dwc_otg_attr.h linux-rpi-3.10.y/drivers/usb/host/dwc_otg/dwc_otg_attr.h
+--- linux-3.10/drivers/usb/host/dwc_otg/dwc_otg_attr.h 1970-01-01 01:00:00.000000000 +0100
++++ linux-rpi-3.10.y/drivers/usb/host/dwc_otg/dwc_otg_attr.h 2013-07-06 15:25:50.000000000 +0100
+@@ -0,0 +1,89 @@
++/* ==========================================================================
++ * $File: //dwh/usb_iip/dev/software/otg/linux/drivers/dwc_otg_attr.h $
++ * $Revision: #13 $
++ * $Date: 2010/06/21 $
++ * $Change: 1532021 $
++ *
++ * Synopsys HS OTG Linux Software Driver and documentation (hereinafter,
++ * "Software") is an Unsupported proprietary work of Synopsys, Inc. unless
++ * otherwise expressly agreed to in writing between Synopsys and you.
++ *
++ * The Software IS NOT an item of Licensed Software or Licensed Product under
++ * any End User Software License Agreement or Agreement for Licensed Product
++ * with Synopsys or any supplement thereto. You are permitted to use and
++ * redistribute this Software in source and binary forms, with or without
++ * modification, provided that redistributions of source code must retain this
++ * notice. You may not view, use, disclose, copy or distribute this file or
++ * any information contained herein except pursuant to this license grant from
++ * Synopsys. If you do not agree with this notice, including the disclaimer
++ * below, then you are not authorized to use the Software.
++ *
++ * THIS SOFTWARE IS BEING DISTRIBUTED BY SYNOPSYS SOLELY ON AN "AS IS" BASIS
++ * AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
++ * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE
++ * ARE HEREBY DISCLAIMED. IN NO EVENT SHALL SYNOPSYS BE LIABLE FOR ANY DIRECT,
++ * INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES
++ * (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR
++ * SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER
++ * CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT
++ * LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY
++ * OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH
++ * DAMAGE.
++ * ========================================================================== */
++
++#if !defined(__DWC_OTG_ATTR_H__)
++#define __DWC_OTG_ATTR_H__
++
++/** @file
++ * This file contains the interface to the Linux device attributes.
++ */
++extern struct device_attribute dev_attr_regoffset;
++extern struct device_attribute dev_attr_regvalue;
++
++extern struct device_attribute dev_attr_mode;
++extern struct device_attribute dev_attr_hnpcapable;
++extern struct device_attribute dev_attr_srpcapable;
++extern struct device_attribute dev_attr_hnp;
++extern struct device_attribute dev_attr_srp;
++extern struct device_attribute dev_attr_buspower;
++extern struct device_attribute dev_attr_bussuspend;
++extern struct device_attribute dev_attr_mode_ch_tim_en;
++extern struct device_attribute dev_attr_fr_interval;
++extern struct device_attribute dev_attr_busconnected;
++extern struct device_attribute dev_attr_gotgctl;
++extern struct device_attribute dev_attr_gusbcfg;
++extern struct device_attribute dev_attr_grxfsiz;
++extern struct device_attribute dev_attr_gnptxfsiz;
++extern struct device_attribute dev_attr_gpvndctl;
++extern struct device_attribute dev_attr_ggpio;
++extern struct device_attribute dev_attr_guid;
++extern struct device_attribute dev_attr_gsnpsid;
++extern struct device_attribute dev_attr_devspeed;
++extern struct device_attribute dev_attr_enumspeed;
++extern struct device_attribute dev_attr_hptxfsiz;
++extern struct device_attribute dev_attr_hprt0;
++#ifdef CONFIG_USB_DWC_OTG_LPM
++extern struct device_attribute dev_attr_lpm_response;
++extern struct device_attribute devi_attr_sleep_status;
++#endif
++
++void dwc_otg_attr_create(
++#ifdef LM_INTERFACE
++ struct lm_device *dev
++#elif defined(PCI_INTERFACE)
++ struct pci_dev *dev
++#elif defined(PLATFORM_INTERFACE)
++ struct platform_device *dev
++#endif
++ );
++
++void dwc_otg_attr_remove(
++#ifdef LM_INTERFACE
++ struct lm_device *dev
++#elif defined(PCI_INTERFACE)
++ struct pci_dev *dev
++#elif defined(PLATFORM_INTERFACE)
++ struct platform_device *dev
++#endif
++ );
++#endif
+diff -urN linux-3.10/drivers/usb/host/dwc_otg/dwc_otg_cfi.c linux-rpi-3.10.y/drivers/usb/host/dwc_otg/dwc_otg_cfi.c
+--- linux-3.10/drivers/usb/host/dwc_otg/dwc_otg_cfi.c 1970-01-01 01:00:00.000000000 +0100
++++ linux-rpi-3.10.y/drivers/usb/host/dwc_otg/dwc_otg_cfi.c 2013-07-06 15:25:50.000000000 +0100
+@@ -0,0 +1,1876 @@
++/* ==========================================================================
++ * Synopsys HS OTG Linux Software Driver and documentation (hereinafter,
++ * "Software") is an Unsupported proprietary work of Synopsys, Inc. unless
++ * otherwise expressly agreed to in writing between Synopsys and you.
++ *
++ * The Software IS NOT an item of Licensed Software or Licensed Product under
++ * any End User Software License Agreement or Agreement for Licensed Product
++ * with Synopsys or any supplement thereto. You are permitted to use and
++ * redistribute this Software in source and binary forms, with or without
++ * modification, provided that redistributions of source code must retain this
++ * notice. You may not view, use, disclose, copy or distribute this file or
++ * any information contained herein except pursuant to this license grant from
++ * Synopsys. If you do not agree with this notice, including the disclaimer
++ * below, then you are not authorized to use the Software.
++ *
++ * THIS SOFTWARE IS BEING DISTRIBUTED BY SYNOPSYS SOLELY ON AN "AS IS" BASIS
++ * AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
++ * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE
++ * ARE HEREBY DISCLAIMED. IN NO EVENT SHALL SYNOPSYS BE LIABLE FOR ANY DIRECT,
++ * INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES
++ * (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR
++ * SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER
++ * CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT
++ * LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY
++ * OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH
++ * DAMAGE.
++ * ========================================================================== */
++
++/** @file
++ *
++ * This file contains the most of the CFI(Core Feature Interface)
++ * implementation for the OTG.
++ */
++
++#ifdef DWC_UTE_CFI
++
++#include "dwc_otg_pcd.h"
++#include "dwc_otg_cfi.h"
++
++/** This definition should actually migrate to the Portability Library */
++#define DWC_CONSTANT_CPU_TO_LE16(x) (x)
++
++extern dwc_otg_pcd_ep_t *get_ep_by_addr(dwc_otg_pcd_t * pcd, u16 wIndex);
++
++static int cfi_core_features_buf(uint8_t * buf, uint16_t buflen);
++static int cfi_get_feature_value(uint8_t * buf, uint16_t buflen,
++ struct dwc_otg_pcd *pcd,
++ struct cfi_usb_ctrlrequest *ctrl_req);
++static int cfi_set_feature_value(struct dwc_otg_pcd *pcd);
++static int cfi_ep_get_sg_val(uint8_t * buf, struct dwc_otg_pcd *pcd,
++ struct cfi_usb_ctrlrequest *req);
++static int cfi_ep_get_concat_val(uint8_t * buf, struct dwc_otg_pcd *pcd,
++ struct cfi_usb_ctrlrequest *req);
++static int cfi_ep_get_align_val(uint8_t * buf, struct dwc_otg_pcd *pcd,
++ struct cfi_usb_ctrlrequest *req);
++static int cfi_preproc_reset(struct dwc_otg_pcd *pcd,
++ struct cfi_usb_ctrlrequest *req);
++static void cfi_free_ep_bs_dyn_data(cfi_ep_t * cfiep);
++
++static uint16_t get_dfifo_size(dwc_otg_core_if_t * core_if);
++static int32_t get_rxfifo_size(dwc_otg_core_if_t * core_if, uint16_t wValue);
++static int32_t get_txfifo_size(struct dwc_otg_pcd *pcd, uint16_t wValue);
++
++static uint8_t resize_fifos(dwc_otg_core_if_t * core_if);
++
++/** This is the header of the all features descriptor */
++static cfi_all_features_header_t all_props_desc_header = {
++ .wVersion = DWC_CONSTANT_CPU_TO_LE16(0x100),
++ .wCoreID = DWC_CONSTANT_CPU_TO_LE16(CFI_CORE_ID_OTG),
++ .wNumFeatures = DWC_CONSTANT_CPU_TO_LE16(9),
++};
++
++/** This is an array of statically allocated feature descriptors */
++static cfi_feature_desc_header_t prop_descs[] = {
++
++ /* FT_ID_DMA_MODE */
++ {
++ .wFeatureID = DWC_CONSTANT_CPU_TO_LE16(FT_ID_DMA_MODE),
++ .bmAttributes = CFI_FEATURE_ATTR_RW,
++ .wDataLength = DWC_CONSTANT_CPU_TO_LE16(1),
++ },
++
++ /* FT_ID_DMA_BUFFER_SETUP */
++ {
++ .wFeatureID = DWC_CONSTANT_CPU_TO_LE16(FT_ID_DMA_BUFFER_SETUP),
++ .bmAttributes = CFI_FEATURE_ATTR_RW,
++ .wDataLength = DWC_CONSTANT_CPU_TO_LE16(6),
++ },
++
++ /* FT_ID_DMA_BUFF_ALIGN */
++ {
++ .wFeatureID = DWC_CONSTANT_CPU_TO_LE16(FT_ID_DMA_BUFF_ALIGN),
++ .bmAttributes = CFI_FEATURE_ATTR_RW,
++ .wDataLength = DWC_CONSTANT_CPU_TO_LE16(2),
++ },
++
++ /* FT_ID_DMA_CONCAT_SETUP */
++ {
++ .wFeatureID = DWC_CONSTANT_CPU_TO_LE16(FT_ID_DMA_CONCAT_SETUP),
++ .bmAttributes = CFI_FEATURE_ATTR_RW,
++ //.wDataLength = DWC_CONSTANT_CPU_TO_LE16(6),
++ },
++
++ /* FT_ID_DMA_CIRCULAR */
++ {
++ .wFeatureID = DWC_CONSTANT_CPU_TO_LE16(FT_ID_DMA_CIRCULAR),
++ .bmAttributes = CFI_FEATURE_ATTR_RW,
++ .wDataLength = DWC_CONSTANT_CPU_TO_LE16(6),
++ },
++
++ /* FT_ID_THRESHOLD_SETUP */
++ {
++ .wFeatureID = DWC_CONSTANT_CPU_TO_LE16(FT_ID_THRESHOLD_SETUP),
++ .bmAttributes = CFI_FEATURE_ATTR_RW,
++ .wDataLength = DWC_CONSTANT_CPU_TO_LE16(6),
++ },
++
++ /* FT_ID_DFIFO_DEPTH */
++ {
++ .wFeatureID = DWC_CONSTANT_CPU_TO_LE16(FT_ID_DFIFO_DEPTH),
++ .bmAttributes = CFI_FEATURE_ATTR_RO,
++ .wDataLength = DWC_CONSTANT_CPU_TO_LE16(2),
++ },
++
++ /* FT_ID_TX_FIFO_DEPTH */
++ {
++ .wFeatureID = DWC_CONSTANT_CPU_TO_LE16(FT_ID_TX_FIFO_DEPTH),
++ .bmAttributes = CFI_FEATURE_ATTR_RW,
++ .wDataLength = DWC_CONSTANT_CPU_TO_LE16(2),
++ },
++
++ /* FT_ID_RX_FIFO_DEPTH */
++ {
++ .wFeatureID = DWC_CONSTANT_CPU_TO_LE16(FT_ID_RX_FIFO_DEPTH),
++ .bmAttributes = CFI_FEATURE_ATTR_RW,
++ .wDataLength = DWC_CONSTANT_CPU_TO_LE16(2),
++ }
++};
++
++/** The table of feature names */
++cfi_string_t prop_name_table[] = {
++ {FT_ID_DMA_MODE, "dma_mode"},
++ {FT_ID_DMA_BUFFER_SETUP, "buffer_setup"},
++ {FT_ID_DMA_BUFF_ALIGN, "buffer_align"},
++ {FT_ID_DMA_CONCAT_SETUP, "concat_setup"},
++ {FT_ID_DMA_CIRCULAR, "buffer_circular"},
++ {FT_ID_THRESHOLD_SETUP, "threshold_setup"},
++ {FT_ID_DFIFO_DEPTH, "dfifo_depth"},
++ {FT_ID_TX_FIFO_DEPTH, "txfifo_depth"},
++ {FT_ID_RX_FIFO_DEPTH, "rxfifo_depth"},
++ {}
++};
++
++/************************************************************************/
++
++/**
++ * Returns the name of the feature by its ID
++ * or NULL if no featute ID matches.
++ *
++ */
++const uint8_t *get_prop_name(uint16_t prop_id, int *len)
++{
++ cfi_string_t *pstr;
++ *len = 0;
++
++ for (pstr = prop_name_table; pstr && pstr->s; pstr++) {
++ if (pstr->id == prop_id) {
++ *len = DWC_STRLEN(pstr->s);
++ return pstr->s;
++ }
++ }
++ return NULL;
++}
++
++/**
++ * This function handles all CFI specific control requests.
++ *
++ * Return a negative value to stall the DCE.
++ */
++int cfi_setup(struct dwc_otg_pcd *pcd, struct cfi_usb_ctrlrequest *ctrl)
++{
++ int retval = 0;
++ dwc_otg_pcd_ep_t *ep = NULL;
++ cfiobject_t *cfi = pcd->cfi;
++ struct dwc_otg_core_if *coreif = GET_CORE_IF(pcd);
++ uint16_t wLen = DWC_LE16_TO_CPU(&ctrl->wLength);
++ uint16_t wValue = DWC_LE16_TO_CPU(&ctrl->wValue);
++ uint16_t wIndex = DWC_LE16_TO_CPU(&ctrl->wIndex);
++ uint32_t regaddr = 0;
++ uint32_t regval = 0;
++
++ /* Save this Control Request in the CFI object.
++ * The data field will be assigned in the data stage completion CB function.
++ */
++ cfi->ctrl_req = *ctrl;
++ cfi->ctrl_req.data = NULL;
++
++ cfi->need_gadget_att = 0;
++ cfi->need_status_in_complete = 0;
++
++ switch (ctrl->bRequest) {
++ case VEN_CORE_GET_FEATURES:
++ retval = cfi_core_features_buf(cfi->buf_in.buf, CFI_IN_BUF_LEN);
++ if (retval >= 0) {
++ //dump_msg(cfi->buf_in.buf, retval);
++ ep = &pcd->ep0;
++
++ retval = min((uint16_t) retval, wLen);
++ /* Transfer this buffer to the host through the EP0-IN EP */
++ ep->dwc_ep.dma_addr = cfi->buf_in.addr;
++ ep->dwc_ep.start_xfer_buff = cfi->buf_in.buf;
++ ep->dwc_ep.xfer_buff = cfi->buf_in.buf;
++ ep->dwc_ep.xfer_len = retval;
++ ep->dwc_ep.xfer_count = 0;
++ ep->dwc_ep.sent_zlp = 0;
++ ep->dwc_ep.total_len = ep->dwc_ep.xfer_len;
++
++ pcd->ep0_pending = 1;
++ dwc_otg_ep0_start_transfer(coreif, &ep->dwc_ep);
++ }
++ retval = 0;
++ break;
++
++ case VEN_CORE_GET_FEATURE:
++ CFI_INFO("VEN_CORE_GET_FEATURE\n");
++ retval = cfi_get_feature_value(cfi->buf_in.buf, CFI_IN_BUF_LEN,
++ pcd, ctrl);
++ if (retval >= 0) {
++ ep = &pcd->ep0;
++
++ retval = min((uint16_t) retval, wLen);
++ /* Transfer this buffer to the host through the EP0-IN EP */
++ ep->dwc_ep.dma_addr = cfi->buf_in.addr;
++ ep->dwc_ep.start_xfer_buff = cfi->buf_in.buf;
++ ep->dwc_ep.xfer_buff = cfi->buf_in.buf;
++ ep->dwc_ep.xfer_len = retval;
++ ep->dwc_ep.xfer_count = 0;
++ ep->dwc_ep.sent_zlp = 0;
++ ep->dwc_ep.total_len = ep->dwc_ep.xfer_len;
++
++ pcd->ep0_pending = 1;
++ dwc_otg_ep0_start_transfer(coreif, &ep->dwc_ep);
++ }
++ CFI_INFO("VEN_CORE_GET_FEATURE=%d\n", retval);
++ dump_msg(cfi->buf_in.buf, retval);
++ break;
++
++ case VEN_CORE_SET_FEATURE:
++ CFI_INFO("VEN_CORE_SET_FEATURE\n");
++ /* Set up an XFER to get the data stage of the control request,
++ * which is the new value of the feature to be modified.
++ */
++ ep = &pcd->ep0;
++ ep->dwc_ep.is_in = 0;
++ ep->dwc_ep.dma_addr = cfi->buf_out.addr;
++ ep->dwc_ep.start_xfer_buff = cfi->buf_out.buf;
++ ep->dwc_ep.xfer_buff = cfi->buf_out.buf;
++ ep->dwc_ep.xfer_len = wLen;
++ ep->dwc_ep.xfer_count = 0;
++ ep->dwc_ep.sent_zlp = 0;
++ ep->dwc_ep.total_len = ep->dwc_ep.xfer_len;
++
++ pcd->ep0_pending = 1;
++ /* Read the control write's data stage */
++ dwc_otg_ep0_start_transfer(coreif, &ep->dwc_ep);
++ retval = 0;
++ break;
++
++ case VEN_CORE_RESET_FEATURES:
++ CFI_INFO("VEN_CORE_RESET_FEATURES\n");
++ cfi->need_gadget_att = 1;
++ cfi->need_status_in_complete = 1;
++ retval = cfi_preproc_reset(pcd, ctrl);
++ CFI_INFO("VEN_CORE_RESET_FEATURES = (%d)\n", retval);
++ break;
++
++ case VEN_CORE_ACTIVATE_FEATURES:
++ CFI_INFO("VEN_CORE_ACTIVATE_FEATURES\n");
++ break;
++
++ case VEN_CORE_READ_REGISTER:
++ CFI_INFO("VEN_CORE_READ_REGISTER\n");
++ /* wValue optionally contains the HI WORD of the register offset and
++ * wIndex contains the LOW WORD of the register offset
++ */
++ if (wValue == 0) {
++ /* @TODO - MAS - fix the access to the base field */
++ regaddr = 0;
++ //regaddr = (uint32_t) pcd->otg_dev->os_dep.base;
++ //GET_CORE_IF(pcd)->co
++ regaddr |= wIndex;
++ } else {
++ regaddr = (wValue << 16) | wIndex;
++ }
++
++ /* Read a 32-bit value of the memory at the regaddr */
++ regval = DWC_READ_REG32((uint32_t *) regaddr);
++
++ ep = &pcd->ep0;
++ dwc_memcpy(cfi->buf_in.buf, &regval, sizeof(uint32_t));
++ ep->dwc_ep.is_in = 1;
++ ep->dwc_ep.dma_addr = cfi->buf_in.addr;
++ ep->dwc_ep.start_xfer_buff = cfi->buf_in.buf;
++ ep->dwc_ep.xfer_buff = cfi->buf_in.buf;
++ ep->dwc_ep.xfer_len = wLen;
++ ep->dwc_ep.xfer_count = 0;
++ ep->dwc_ep.sent_zlp = 0;
++ ep->dwc_ep.total_len = ep->dwc_ep.xfer_len;
++
++ pcd->ep0_pending = 1;
++ dwc_otg_ep0_start_transfer(coreif, &ep->dwc_ep);
++ cfi->need_gadget_att = 0;
++ retval = 0;
++ break;
++
++ case VEN_CORE_WRITE_REGISTER:
++ CFI_INFO("VEN_CORE_WRITE_REGISTER\n");
++ /* Set up an XFER to get the data stage of the control request,
++ * which is the new value of the register to be modified.
++ */
++ ep = &pcd->ep0;
++ ep->dwc_ep.is_in = 0;
++ ep->dwc_ep.dma_addr = cfi->buf_out.addr;
++ ep->dwc_ep.start_xfer_buff = cfi->buf_out.buf;
++ ep->dwc_ep.xfer_buff = cfi->buf_out.buf;
++ ep->dwc_ep.xfer_len = wLen;
++ ep->dwc_ep.xfer_count = 0;
++ ep->dwc_ep.sent_zlp = 0;
++ ep->dwc_ep.total_len = ep->dwc_ep.xfer_len;
++
++ pcd->ep0_pending = 1;
++ /* Read the control write's data stage */
++ dwc_otg_ep0_start_transfer(coreif, &ep->dwc_ep);
++ retval = 0;
++ break;
++
++ default:
++ retval = -DWC_E_NOT_SUPPORTED;
++ break;
++ }
++
++ return retval;
++}
++
++/**
++ * This function prepares the core features descriptors and copies its
++ * raw representation into the buffer <buf>.
++ *
++ * The buffer structure is as follows:
++ * all_features_header (8 bytes)
++ * features_#1 (8 bytes + feature name string length)
++ * features_#2 (8 bytes + feature name string length)
++ * .....
++ * features_#n - where n=the total count of feature descriptors
++ */
++static int cfi_core_features_buf(uint8_t * buf, uint16_t buflen)
++{
++ cfi_feature_desc_header_t *prop_hdr = prop_descs;
++ cfi_feature_desc_header_t *prop;
++ cfi_all_features_header_t *all_props_hdr = &all_props_desc_header;
++ cfi_all_features_header_t *tmp;
++ uint8_t *tmpbuf = buf;
++ const uint8_t *pname = NULL;
++ int i, j, namelen = 0, totlen;
++
++ /* Prepare and copy the core features into the buffer */
++ CFI_INFO("%s:\n", __func__);
++
++ tmp = (cfi_all_features_header_t *) tmpbuf;
++ *tmp = *all_props_hdr;
++ tmpbuf += CFI_ALL_FEATURES_HDR_LEN;
++
++ j = sizeof(prop_descs) / sizeof(cfi_all_features_header_t);
++ for (i = 0; i < j; i++, prop_hdr++) {
++ pname = get_prop_name(prop_hdr->wFeatureID, &namelen);
++ prop = (cfi_feature_desc_header_t *) tmpbuf;
++ *prop = *prop_hdr;
++
++ prop->bNameLen = namelen;
++ prop->wLength =
++ DWC_CONSTANT_CPU_TO_LE16(CFI_FEATURE_DESC_HDR_LEN +
++ namelen);
++
++ tmpbuf += CFI_FEATURE_DESC_HDR_LEN;
++ dwc_memcpy(tmpbuf, pname, namelen);
++ tmpbuf += namelen;
++ }
++
++ totlen = tmpbuf - buf;
++
++ if (totlen > 0) {
++ tmp = (cfi_all_features_header_t *) buf;
++ tmp->wTotalLen = DWC_CONSTANT_CPU_TO_LE16(totlen);
++ }
++
++ return totlen;
++}
++
++/**
++ * This function releases all the dynamic memory in the CFI object.
++ */
++static void cfi_release(cfiobject_t * cfiobj)
++{
++ cfi_ep_t *cfiep;
++ dwc_list_link_t *tmp;
++
++ CFI_INFO("%s\n", __func__);
++
++ if (cfiobj->buf_in.buf) {
++ DWC_DMA_FREE(CFI_IN_BUF_LEN, cfiobj->buf_in.buf,
++ cfiobj->buf_in.addr);
++ cfiobj->buf_in.buf = NULL;
++ }
++
++ if (cfiobj->buf_out.buf) {
++ DWC_DMA_FREE(CFI_OUT_BUF_LEN, cfiobj->buf_out.buf,
++ cfiobj->buf_out.addr);
++ cfiobj->buf_out.buf = NULL;
++ }
++
++ /* Free the Buffer Setup values for each EP */
++ //list_for_each_entry(cfiep, &cfiobj->active_eps, lh) {
++ DWC_LIST_FOREACH(tmp, &cfiobj->active_eps) {
++ cfiep = DWC_LIST_ENTRY(tmp, struct cfi_ep, lh);
++ cfi_free_ep_bs_dyn_data(cfiep);
++ }
++}
++
++/**
++ * This function frees the dynamically allocated EP buffer setup data.
++ */
++static void cfi_free_ep_bs_dyn_data(cfi_ep_t * cfiep)
++{
++ if (cfiep->bm_sg) {
++ DWC_FREE(cfiep->bm_sg);
++ cfiep->bm_sg = NULL;
++ }
++
++ if (cfiep->bm_align) {
++ DWC_FREE(cfiep->bm_align);
++ cfiep->bm_align = NULL;
++ }
++
++ if (cfiep->bm_concat) {
++ if (NULL != cfiep->bm_concat->wTxBytes) {
++ DWC_FREE(cfiep->bm_concat->wTxBytes);
++ cfiep->bm_concat->wTxBytes = NULL;
++ }
++ DWC_FREE(cfiep->bm_concat);
++ cfiep->bm_concat = NULL;
++ }
++}
++
++/**
++ * This function initializes the default values of the features
++ * for a specific endpoint and should be called only once when
++ * the EP is enabled first time.
++ */
++static int cfi_ep_init_defaults(struct dwc_otg_pcd *pcd, cfi_ep_t * cfiep)
++{
++ int retval = 0;
++
++ cfiep->bm_sg = DWC_ALLOC(sizeof(ddma_sg_buffer_setup_t));
++ if (NULL == cfiep->bm_sg) {
++ CFI_INFO("Failed to allocate memory for SG feature value\n");
++ return -DWC_E_NO_MEMORY;
++ }
++ dwc_memset(cfiep->bm_sg, 0, sizeof(ddma_sg_buffer_setup_t));
++
++ /* For the Concatenation feature's default value we do not allocate
++ * memory for the wTxBytes field - it will be done in the set_feature_value
++ * request handler.
++ */
++ cfiep->bm_concat = DWC_ALLOC(sizeof(ddma_concat_buffer_setup_t));
++ if (NULL == cfiep->bm_concat) {
++ CFI_INFO
++ ("Failed to allocate memory for CONCATENATION feature value\n");
++ DWC_FREE(cfiep->bm_sg);
++ return -DWC_E_NO_MEMORY;
++ }
++ dwc_memset(cfiep->bm_concat, 0, sizeof(ddma_concat_buffer_setup_t));
++
++ cfiep->bm_align = DWC_ALLOC(sizeof(ddma_align_buffer_setup_t));
++ if (NULL == cfiep->bm_align) {
++ CFI_INFO
++ ("Failed to allocate memory for Alignment feature value\n");
++ DWC_FREE(cfiep->bm_sg);
++ DWC_FREE(cfiep->bm_concat);
++ return -DWC_E_NO_MEMORY;
++ }
++ dwc_memset(cfiep->bm_align, 0, sizeof(ddma_align_buffer_setup_t));
++
++ return retval;
++}
++
++/**
++ * The callback function that notifies the CFI on the activation of
++ * an endpoint in the PCD. The following steps are done in this function:
++ *
++ * Create a dynamically allocated cfi_ep_t object (a CFI wrapper to the PCD's
++ * active endpoint)
++ * Create MAX_DMA_DESCS_PER_EP count DMA Descriptors for the EP
++ * Set the Buffer Mode to standard
++ * Initialize the default values for all EP modes (SG, Circular, Concat, Align)
++ * Add the cfi_ep_t object to the list of active endpoints in the CFI object
++ */
++static int cfi_ep_enable(struct cfiobject *cfi, struct dwc_otg_pcd *pcd,
++ struct dwc_otg_pcd_ep *ep)
++{
++ cfi_ep_t *cfiep;
++ int retval = -DWC_E_NOT_SUPPORTED;
++
++ CFI_INFO("%s: epname=%s; epnum=0x%02x\n", __func__,
++ "EP_" /*ep->ep.name */ , ep->desc->bEndpointAddress);
++ /* MAS - Check whether this endpoint already is in the list */
++ cfiep = get_cfi_ep_by_pcd_ep(cfi, ep);
++
++ if (NULL == cfiep) {
++ /* Allocate a cfi_ep_t object */
++ cfiep = DWC_ALLOC(sizeof(cfi_ep_t));
++ if (NULL == cfiep) {
++ CFI_INFO
++ ("Unable to allocate memory for <cfiep> in function %s\n",
++ __func__);
++ return -DWC_E_NO_MEMORY;
++ }
++ dwc_memset(cfiep, 0, sizeof(cfi_ep_t));
++
++ /* Save the dwc_otg_pcd_ep pointer in the cfiep object */
++ cfiep->ep = ep;
++
++ /* Allocate the DMA Descriptors chain of MAX_DMA_DESCS_PER_EP count */
++ ep->dwc_ep.descs =
++ DWC_DMA_ALLOC(MAX_DMA_DESCS_PER_EP *
++ sizeof(dwc_otg_dma_desc_t),
++ &ep->dwc_ep.descs_dma_addr);
++
++ if (NULL == ep->dwc_ep.descs) {
++ DWC_FREE(cfiep);
++ return -DWC_E_NO_MEMORY;
++ }
++
++ DWC_LIST_INIT(&cfiep->lh);
++
++ /* Set the buffer mode to BM_STANDARD. It will be modified
++ * when building descriptors for a specific buffer mode */
++ ep->dwc_ep.buff_mode = BM_STANDARD;
++
++ /* Create and initialize the default values for this EP's Buffer modes */
++ if ((retval = cfi_ep_init_defaults(pcd, cfiep)) < 0)
++ return retval;
++
++ /* Add the cfi_ep_t object to the CFI object's list of active endpoints */
++ DWC_LIST_INSERT_TAIL(&cfi->active_eps, &cfiep->lh);
++ retval = 0;
++ } else { /* The sought EP already is in the list */
++ CFI_INFO("%s: The sought EP already is in the list\n",
++ __func__);
++ }
++
++ return retval;
++}
++
++/**
++ * This function is called when the data stage of a 3-stage Control Write request
++ * is complete.
++ *
++ */
++static int cfi_ctrl_write_complete(struct cfiobject *cfi,
++ struct dwc_otg_pcd *pcd)
++{
++ uint32_t addr, reg_value;
++ uint16_t wIndex, wValue;
++ uint8_t bRequest;
++ uint8_t *buf = cfi->buf_out.buf;
++ //struct usb_ctrlrequest *ctrl_req = &cfi->ctrl_req_saved;
++ struct cfi_usb_ctrlrequest *ctrl_req = &cfi->ctrl_req;
++ int retval = -DWC_E_NOT_SUPPORTED;
++
++ CFI_INFO("%s\n", __func__);
++
++ bRequest = ctrl_req->bRequest;
++ wIndex = DWC_CONSTANT_CPU_TO_LE16(ctrl_req->wIndex);
++ wValue = DWC_CONSTANT_CPU_TO_LE16(ctrl_req->wValue);
++
++ /*
++ * Save the pointer to the data stage in the ctrl_req's <data> field.
++ * The request should be already saved in the command stage by now.
++ */
++ ctrl_req->data = cfi->buf_out.buf;
++ cfi->need_status_in_complete = 0;
++ cfi->need_gadget_att = 0;
++
++ switch (bRequest) {
++ case VEN_CORE_WRITE_REGISTER:
++ /* The buffer contains raw data of the new value for the register */
++ reg_value = *((uint32_t *) buf);
++ if (wValue == 0) {
++ addr = 0;
++ //addr = (uint32_t) pcd->otg_dev->os_dep.base;
++ addr += wIndex;
++ } else {
++ addr = (wValue << 16) | wIndex;
++ }
++
++ //writel(reg_value, addr);
++
++ retval = 0;
++ cfi->need_status_in_complete = 1;
++ break;
++
++ case VEN_CORE_SET_FEATURE:
++ /* The buffer contains raw data of the new value of the feature */
++ retval = cfi_set_feature_value(pcd);
++ if (retval < 0)
++ return retval;
++
++ cfi->need_status_in_complete = 1;
++ break;
++
++ default:
++ break;
++ }
++
++ return retval;
++}
++
++/**
++ * This function builds the DMA descriptors for the SG buffer mode.
++ */
++static void cfi_build_sg_descs(struct cfiobject *cfi, cfi_ep_t * cfiep,
++ dwc_otg_pcd_request_t * req)
++{
++ struct dwc_otg_pcd_ep *ep = cfiep->ep;
++ ddma_sg_buffer_setup_t *sgval = cfiep->bm_sg;
++ struct dwc_otg_dma_desc *desc = cfiep->ep->dwc_ep.descs;
++ struct dwc_otg_dma_desc *desc_last = cfiep->ep->dwc_ep.descs;
++ dma_addr_t buff_addr = req->dma;
++ int i;
++ uint32_t txsize, off;
++
++ txsize = sgval->wSize;
++ off = sgval->bOffset;
++
++// CFI_INFO("%s: %s TXSIZE=0x%08x; OFFSET=0x%08x\n",
++// __func__, cfiep->ep->ep.name, txsize, off);
++
++ for (i = 0; i < sgval->bCount; i++) {
++ desc->status.b.bs = BS_HOST_BUSY;
++ desc->buf = buff_addr;
++ desc->status.b.l = 0;
++ desc->status.b.ioc = 0;
++ desc->status.b.sp = 0;
++ desc->status.b.bytes = txsize;
++ desc->status.b.bs = BS_HOST_READY;
++
++ /* Set the next address of the buffer */
++ buff_addr += txsize + off;
++ desc_last = desc;
++ desc++;
++ }
++
++ /* Set the last, ioc and sp bits on the Last DMA Descriptor */
++ desc_last->status.b.l = 1;
++ desc_last->status.b.ioc = 1;
++ desc_last->status.b.sp = ep->dwc_ep.sent_zlp;
++ /* Save the last DMA descriptor pointer */
++ cfiep->dma_desc_last = desc_last;
++ cfiep->desc_count = sgval->bCount;
++}
++
++/**
++ * This function builds the DMA descriptors for the Concatenation buffer mode.
++ */
++static void cfi_build_concat_descs(struct cfiobject *cfi, cfi_ep_t * cfiep,
++ dwc_otg_pcd_request_t * req)
++{
++ struct dwc_otg_pcd_ep *ep = cfiep->ep;
++ ddma_concat_buffer_setup_t *concatval = cfiep->bm_concat;
++ struct dwc_otg_dma_desc *desc = cfiep->ep->dwc_ep.descs;
++ struct dwc_otg_dma_desc *desc_last = cfiep->ep->dwc_ep.descs;
++ dma_addr_t buff_addr = req->dma;
++ int i;
++ uint16_t *txsize;
++
++ txsize = concatval->wTxBytes;
++
++ for (i = 0; i < concatval->hdr.bDescCount; i++) {
++ desc->buf = buff_addr;
++ desc->status.b.bs = BS_HOST_BUSY;
++ desc->status.b.l = 0;
++ desc->status.b.ioc = 0;
++ desc->status.b.sp = 0;
++ desc->status.b.bytes = *txsize;
++ desc->status.b.bs = BS_HOST_READY;
++
++ txsize++;
++ /* Set the next address of the buffer */
++ buff_addr += UGETW(ep->desc->wMaxPacketSize);
++ desc_last = desc;
++ desc++;
++ }
++
++ /* Set the last, ioc and sp bits on the Last DMA Descriptor */
++ desc_last->status.b.l = 1;
++ desc_last->status.b.ioc = 1;
++ desc_last->status.b.sp = ep->dwc_ep.sent_zlp;
++ cfiep->dma_desc_last = desc_last;
++ cfiep->desc_count = concatval->hdr.bDescCount;
++}
++
++/**
++ * This function builds the DMA descriptors for the Circular buffer mode
++ */
++static void cfi_build_circ_descs(struct cfiobject *cfi, cfi_ep_t * cfiep,
++ dwc_otg_pcd_request_t * req)
++{
++ /* @todo: MAS - add implementation when this feature needs to be tested */
++}
++
++/**
++ * This function builds the DMA descriptors for the Alignment buffer mode
++ */
++static void cfi_build_align_descs(struct cfiobject *cfi, cfi_ep_t * cfiep,
++ dwc_otg_pcd_request_t * req)
++{
++ struct dwc_otg_pcd_ep *ep = cfiep->ep;
++ ddma_align_buffer_setup_t *alignval = cfiep->bm_align;
++ struct dwc_otg_dma_desc *desc = cfiep->ep->dwc_ep.descs;
++ dma_addr_t buff_addr = req->dma;
++
++ desc->status.b.bs = BS_HOST_BUSY;
++ desc->status.b.l = 1;
++ desc->status.b.ioc = 1;
++ desc->status.b.sp = ep->dwc_ep.sent_zlp;
++ desc->status.b.bytes = req->length;
++ /* Adjust the buffer alignment */
++ desc->buf = (buff_addr + alignval->bAlign);
++ desc->status.b.bs = BS_HOST_READY;
++ cfiep->dma_desc_last = desc;
++ cfiep->desc_count = 1;
++}
++
++/**
++ * This function builds the DMA descriptors chain for different modes of the
++ * buffer setup of an endpoint.
++ */
++static void cfi_build_descriptors(struct cfiobject *cfi,
++ struct dwc_otg_pcd *pcd,
++ struct dwc_otg_pcd_ep *ep,
++ dwc_otg_pcd_request_t * req)
++{
++ cfi_ep_t *cfiep;
++
++ /* Get the cfiep by the dwc_otg_pcd_ep */
++ cfiep = get_cfi_ep_by_pcd_ep(cfi, ep);
++ if (NULL == cfiep) {
++ CFI_INFO("%s: Unable to find a matching active endpoint\n",
++ __func__);
++ return;
++ }
++
++ cfiep->xfer_len = req->length;
++
++ /* Iterate through all the DMA descriptors */
++ switch (cfiep->ep->dwc_ep.buff_mode) {
++ case BM_SG:
++ cfi_build_sg_descs(cfi, cfiep, req);
++ break;
++
++ case BM_CONCAT:
++ cfi_build_concat_descs(cfi, cfiep, req);
++ break;
++
++ case BM_CIRCULAR:
++ cfi_build_circ_descs(cfi, cfiep, req);
++ break;
++
++ case BM_ALIGN:
++ cfi_build_align_descs(cfi, cfiep, req);
++ break;
++
++ default:
++ break;
++ }
++}
++
++/**
++ * Allocate DMA buffer for different Buffer modes.
++ */
++static void *cfi_ep_alloc_buf(struct cfiobject *cfi, struct dwc_otg_pcd *pcd,
++ struct dwc_otg_pcd_ep *ep, dma_addr_t * dma,
++ unsigned size, gfp_t flags)
++{
++ return DWC_DMA_ALLOC(size, dma);
++}
++
++/**
++ * This function initializes the CFI object.
++ */
++int init_cfi(cfiobject_t * cfiobj)
++{
++ CFI_INFO("%s\n", __func__);
++
++ /* Allocate a buffer for IN XFERs */
++ cfiobj->buf_in.buf =
++ DWC_DMA_ALLOC(CFI_IN_BUF_LEN, &cfiobj->buf_in.addr);
++ if (NULL == cfiobj->buf_in.buf) {
++ CFI_INFO("Unable to allocate buffer for INs\n");
++ return -DWC_E_NO_MEMORY;
++ }
++
++ /* Allocate a buffer for OUT XFERs */
++ cfiobj->buf_out.buf =
++ DWC_DMA_ALLOC(CFI_OUT_BUF_LEN, &cfiobj->buf_out.addr);
++ if (NULL == cfiobj->buf_out.buf) {
++ CFI_INFO("Unable to allocate buffer for OUT\n");
++ return -DWC_E_NO_MEMORY;
++ }
++
++ /* Initialize the callback function pointers */
++ cfiobj->ops.release = cfi_release;
++ cfiobj->ops.ep_enable = cfi_ep_enable;
++ cfiobj->ops.ctrl_write_complete = cfi_ctrl_write_complete;
++ cfiobj->ops.build_descriptors = cfi_build_descriptors;
++ cfiobj->ops.ep_alloc_buf = cfi_ep_alloc_buf;
++
++ /* Initialize the list of active endpoints in the CFI object */
++ DWC_LIST_INIT(&cfiobj->active_eps);
++
++ return 0;
++}
++
++/**
++ * This function reads the required feature's current value into the buffer
++ *
++ * @retval: Returns negative as error, or the data length of the feature
++ */
++static int cfi_get_feature_value(uint8_t * buf, uint16_t buflen,
++ struct dwc_otg_pcd *pcd,
++ struct cfi_usb_ctrlrequest *ctrl_req)
++{
++ int retval = -DWC_E_NOT_SUPPORTED;
++ struct dwc_otg_core_if *coreif = GET_CORE_IF(pcd);
++ uint16_t dfifo, rxfifo, txfifo;
++
++ switch (ctrl_req->wIndex) {
++ /* Whether the DDMA is enabled or not */
++ case FT_ID_DMA_MODE:
++ *buf = (coreif->dma_enable && coreif->dma_desc_enable) ? 1 : 0;
++ retval = 1;
++ break;
++
++ case FT_ID_DMA_BUFFER_SETUP:
++ retval = cfi_ep_get_sg_val(buf, pcd, ctrl_req);
++ break;
++
++ case FT_ID_DMA_BUFF_ALIGN:
++ retval = cfi_ep_get_align_val(buf, pcd, ctrl_req);
++ break;
++
++ case FT_ID_DMA_CONCAT_SETUP:
++ retval = cfi_ep_get_concat_val(buf, pcd, ctrl_req);
++ break;
++
++ case FT_ID_DMA_CIRCULAR:
++ CFI_INFO("GetFeature value (FT_ID_DMA_CIRCULAR)\n");
++ break;
++
++ case FT_ID_THRESHOLD_SETUP:
++ CFI_INFO("GetFeature value (FT_ID_THRESHOLD_SETUP)\n");
++ break;
++
++ case FT_ID_DFIFO_DEPTH:
++ dfifo = get_dfifo_size(coreif);
++ *((uint16_t *) buf) = dfifo;
++ retval = sizeof(uint16_t);
++ break;
++
++ case FT_ID_TX_FIFO_DEPTH:
++ retval = get_txfifo_size(pcd, ctrl_req->wValue);
++ if (retval >= 0) {
++ txfifo = retval;
++ *((uint16_t *) buf) = txfifo;
++ retval = sizeof(uint16_t);
++ }
++ break;
++
++ case FT_ID_RX_FIFO_DEPTH:
++ retval = get_rxfifo_size(coreif, ctrl_req->wValue);
++ if (retval >= 0) {
++ rxfifo = retval;
++ *((uint16_t *) buf) = rxfifo;
++ retval = sizeof(uint16_t);
++ }
++ break;
++ }
++
++ return retval;
++}
++
++/**
++ * This function resets the SG for the specified EP to its default value
++ */
++static int cfi_reset_sg_val(cfi_ep_t * cfiep)
++{
++ dwc_memset(cfiep->bm_sg, 0, sizeof(ddma_sg_buffer_setup_t));
++ return 0;
++}
++
++/**
++ * This function resets the Alignment for the specified EP to its default value
++ */
++static int cfi_reset_align_val(cfi_ep_t * cfiep)
++{
++ dwc_memset(cfiep->bm_sg, 0, sizeof(ddma_sg_buffer_setup_t));
++ return 0;
++}
++
++/**
++ * This function resets the Concatenation for the specified EP to its default value
++ * This function will also set the value of the wTxBytes field to NULL after
++ * freeing the memory previously allocated for this field.
++ */
++static int cfi_reset_concat_val(cfi_ep_t * cfiep)
++{
++ /* First we need to free the wTxBytes field */
++ if (cfiep->bm_concat->wTxBytes) {
++ DWC_FREE(cfiep->bm_concat->wTxBytes);
++ cfiep->bm_concat->wTxBytes = NULL;
++ }
++
++ dwc_memset(cfiep->bm_concat, 0, sizeof(ddma_concat_buffer_setup_t));
++ return 0;
++}
++
++/**
++ * This function resets all the buffer setups of the specified endpoint
++ */
++static int cfi_ep_reset_all_setup_vals(cfi_ep_t * cfiep)
++{
++ cfi_reset_sg_val(cfiep);
++ cfi_reset_align_val(cfiep);
++ cfi_reset_concat_val(cfiep);
++ return 0;
++}
++
++static int cfi_handle_reset_fifo_val(struct dwc_otg_pcd *pcd, uint8_t ep_addr,
++ uint8_t rx_rst, uint8_t tx_rst)
++{
++ int retval = -DWC_E_INVALID;
++ uint16_t tx_siz[15];
++ uint16_t rx_siz = 0;
++ dwc_otg_pcd_ep_t *ep = NULL;
++ dwc_otg_core_if_t *core_if = GET_CORE_IF(pcd);
++ dwc_otg_core_params_t *params = GET_CORE_IF(pcd)->core_params;
++
++ if (rx_rst) {
++ rx_siz = params->dev_rx_fifo_size;
++ params->dev_rx_fifo_size = GET_CORE_IF(pcd)->init_rxfsiz;
++ }
++
++ if (tx_rst) {
++ if (ep_addr == 0) {
++ int i;
++
++ for (i = 0; i < core_if->hwcfg4.b.num_in_eps; i++) {
++ tx_siz[i] =
++ core_if->core_params->dev_tx_fifo_size[i];
++ core_if->core_params->dev_tx_fifo_size[i] =
++ core_if->init_txfsiz[i];
++ }
++ } else {
++
++ ep = get_ep_by_addr(pcd, ep_addr);
++
++ if (NULL == ep) {
++ CFI_INFO
++ ("%s: Unable to get the endpoint addr=0x%02x\n",
++ __func__, ep_addr);
++ return -DWC_E_INVALID;
++ }
++
++ tx_siz[0] =
++ params->dev_tx_fifo_size[ep->dwc_ep.tx_fifo_num -
++ 1];
++ params->dev_tx_fifo_size[ep->dwc_ep.tx_fifo_num - 1] =
++ GET_CORE_IF(pcd)->init_txfsiz[ep->
++ dwc_ep.tx_fifo_num -
++ 1];
++ }
++ }
++
++ if (resize_fifos(GET_CORE_IF(pcd))) {
++ retval = 0;
++ } else {
++ CFI_INFO
++ ("%s: Error resetting the feature Reset All(FIFO size)\n",
++ __func__);
++ if (rx_rst) {
++ params->dev_rx_fifo_size = rx_siz;
++ }
++
++ if (tx_rst) {
++ if (ep_addr == 0) {
++ int i;
++ for (i = 0; i < core_if->hwcfg4.b.num_in_eps;
++ i++) {
++ core_if->
++ core_params->dev_tx_fifo_size[i] =
++ tx_siz[i];
++ }
++ } else {
++ params->dev_tx_fifo_size[ep->
++ dwc_ep.tx_fifo_num -
++ 1] = tx_siz[0];
++ }
++ }
++ retval = -DWC_E_INVALID;
++ }
++ return retval;
++}
++
++static int cfi_handle_reset_all(struct dwc_otg_pcd *pcd, uint8_t addr)
++{
++ int retval = 0;
++ cfi_ep_t *cfiep;
++ cfiobject_t *cfi = pcd->cfi;
++ dwc_list_link_t *tmp;
++
++ retval = cfi_handle_reset_fifo_val(pcd, addr, 1, 1);
++ if (retval < 0) {
++ return retval;
++ }
++
++ /* If the EP address is known then reset the features for only that EP */
++ if (addr) {
++ cfiep = get_cfi_ep_by_addr(pcd->cfi, addr);
++ if (NULL == cfiep) {
++ CFI_INFO("%s: Error getting the EP address 0x%02x\n",
++ __func__, addr);
++ return -DWC_E_INVALID;
++ }
++ retval = cfi_ep_reset_all_setup_vals(cfiep);
++ cfiep->ep->dwc_ep.buff_mode = BM_STANDARD;
++ }
++ /* Otherwise (wValue == 0), reset all features of all EP's */
++ else {
++ /* Traverse all the active EP's and reset the feature(s) value(s) */
++ //list_for_each_entry(cfiep, &cfi->active_eps, lh) {
++ DWC_LIST_FOREACH(tmp, &cfi->active_eps) {
++ cfiep = DWC_LIST_ENTRY(tmp, struct cfi_ep, lh);
++ retval = cfi_ep_reset_all_setup_vals(cfiep);
++ cfiep->ep->dwc_ep.buff_mode = BM_STANDARD;
++ if (retval < 0) {
++ CFI_INFO
++ ("%s: Error resetting the feature Reset All\n",
++ __func__);
++ return retval;
++ }
++ }
++ }
++ return retval;
++}
++
++static int cfi_handle_reset_dma_buff_setup(struct dwc_otg_pcd *pcd,
++ uint8_t addr)
++{
++ int retval = 0;
++ cfi_ep_t *cfiep;
++ cfiobject_t *cfi = pcd->cfi;
++ dwc_list_link_t *tmp;
++
++ /* If the EP address is known then reset the features for only that EP */
++ if (addr) {
++ cfiep = get_cfi_ep_by_addr(pcd->cfi, addr);
++ if (NULL == cfiep) {
++ CFI_INFO("%s: Error getting the EP address 0x%02x\n",
++ __func__, addr);
++ return -DWC_E_INVALID;
++ }
++ retval = cfi_reset_sg_val(cfiep);
++ }
++ /* Otherwise (wValue == 0), reset all features of all EP's */
++ else {
++ /* Traverse all the active EP's and reset the feature(s) value(s) */
++ //list_for_each_entry(cfiep, &cfi->active_eps, lh) {
++ DWC_LIST_FOREACH(tmp, &cfi->active_eps) {
++ cfiep = DWC_LIST_ENTRY(tmp, struct cfi_ep, lh);
++ retval = cfi_reset_sg_val(cfiep);
++ if (retval < 0) {
++ CFI_INFO
++ ("%s: Error resetting the feature Buffer Setup\n",
++ __func__);
++ return retval;
++ }
++ }
++ }
++ return retval;
++}
++
++static int cfi_handle_reset_concat_val(struct dwc_otg_pcd *pcd, uint8_t addr)
++{
++ int retval = 0;
++ cfi_ep_t *cfiep;
++ cfiobject_t *cfi = pcd->cfi;
++ dwc_list_link_t *tmp;
++
++ /* If the EP address is known then reset the features for only that EP */
++ if (addr) {
++ cfiep = get_cfi_ep_by_addr(pcd->cfi, addr);
++ if (NULL == cfiep) {
++ CFI_INFO("%s: Error getting the EP address 0x%02x\n",
++ __func__, addr);
++ return -DWC_E_INVALID;
++ }
++ retval = cfi_reset_concat_val(cfiep);
++ }
++ /* Otherwise (wValue == 0), reset all features of all EP's */
++ else {
++ /* Traverse all the active EP's and reset the feature(s) value(s) */
++ //list_for_each_entry(cfiep, &cfi->active_eps, lh) {
++ DWC_LIST_FOREACH(tmp, &cfi->active_eps) {
++ cfiep = DWC_LIST_ENTRY(tmp, struct cfi_ep, lh);
++ retval = cfi_reset_concat_val(cfiep);
++ if (retval < 0) {
++ CFI_INFO
++ ("%s: Error resetting the feature Concatenation Value\n",
++ __func__);
++ return retval;
++ }
++ }
++ }
++ return retval;
++}
++
++static int cfi_handle_reset_align_val(struct dwc_otg_pcd *pcd, uint8_t addr)
++{
++ int retval = 0;
++ cfi_ep_t *cfiep;
++ cfiobject_t *cfi = pcd->cfi;
++ dwc_list_link_t *tmp;
++
++ /* If the EP address is known then reset the features for only that EP */
++ if (addr) {
++ cfiep = get_cfi_ep_by_addr(pcd->cfi, addr);
++ if (NULL == cfiep) {
++ CFI_INFO("%s: Error getting the EP address 0x%02x\n",
++ __func__, addr);
++ return -DWC_E_INVALID;
++ }
++ retval = cfi_reset_align_val(cfiep);
++ }
++ /* Otherwise (wValue == 0), reset all features of all EP's */
++ else {
++ /* Traverse all the active EP's and reset the feature(s) value(s) */
++ //list_for_each_entry(cfiep, &cfi->active_eps, lh) {
++ DWC_LIST_FOREACH(tmp, &cfi->active_eps) {
++ cfiep = DWC_LIST_ENTRY(tmp, struct cfi_ep, lh);
++ retval = cfi_reset_align_val(cfiep);
++ if (retval < 0) {
++ CFI_INFO
++ ("%s: Error resetting the feature Aliignment Value\n",
++ __func__);
++ return retval;
++ }
++ }
++ }
++ return retval;
++
++}
++
++static int cfi_preproc_reset(struct dwc_otg_pcd *pcd,
++ struct cfi_usb_ctrlrequest *req)
++{
++ int retval = 0;
++
++ switch (req->wIndex) {
++ case 0:
++ /* Reset all features */
++ retval = cfi_handle_reset_all(pcd, req->wValue & 0xff);
++ break;
++
++ case FT_ID_DMA_BUFFER_SETUP:
++ /* Reset the SG buffer setup */
++ retval =
++ cfi_handle_reset_dma_buff_setup(pcd, req->wValue & 0xff);
++ break;
++
++ case FT_ID_DMA_CONCAT_SETUP:
++ /* Reset the Concatenation buffer setup */
++ retval = cfi_handle_reset_concat_val(pcd, req->wValue & 0xff);
++ break;
++
++ case FT_ID_DMA_BUFF_ALIGN:
++ /* Reset the Alignment buffer setup */
++ retval = cfi_handle_reset_align_val(pcd, req->wValue & 0xff);
++ break;
++
++ case FT_ID_TX_FIFO_DEPTH:
++ retval =
++ cfi_handle_reset_fifo_val(pcd, req->wValue & 0xff, 0, 1);
++ pcd->cfi->need_gadget_att = 0;
++ break;
++
++ case FT_ID_RX_FIFO_DEPTH:
++ retval = cfi_handle_reset_fifo_val(pcd, 0, 1, 0);
++ pcd->cfi->need_gadget_att = 0;
++ break;
++ default:
++ break;
++ }
++ return retval;
++}
++
++/**
++ * This function sets a new value for the SG buffer setup.
++ */
++static int cfi_ep_set_sg_val(uint8_t * buf, struct dwc_otg_pcd *pcd)
++{
++ uint8_t inaddr, outaddr;
++ cfi_ep_t *epin, *epout;
++ ddma_sg_buffer_setup_t *psgval;
++ uint32_t desccount, size;
++
++ CFI_INFO("%s\n", __func__);
++
++ psgval = (ddma_sg_buffer_setup_t *) buf;
++ desccount = (uint32_t) psgval->bCount;
++ size = (uint32_t) psgval->wSize;
++
++ /* Check the DMA descriptor count */
++ if ((desccount > MAX_DMA_DESCS_PER_EP) || (desccount == 0)) {
++ CFI_INFO
++ ("%s: The count of DMA Descriptors should be between 1 and %d\n",
++ __func__, MAX_DMA_DESCS_PER_EP);
++ return -DWC_E_INVALID;
++ }
++
++ /* Check the DMA descriptor count */
++
++ if (size == 0) {
++
++ CFI_INFO("%s: The transfer size should be at least 1 byte\n",
++ __func__);
++
++ return -DWC_E_INVALID;
++
++ }
++
++ inaddr = psgval->bInEndpointAddress;
++ outaddr = psgval->bOutEndpointAddress;
++
++ epin = get_cfi_ep_by_addr(pcd->cfi, inaddr);
++ epout = get_cfi_ep_by_addr(pcd->cfi, outaddr);
++
++ if (NULL == epin || NULL == epout) {
++ CFI_INFO
++ ("%s: Unable to get the endpoints inaddr=0x%02x outaddr=0x%02x\n",
++ __func__, inaddr, outaddr);
++ return -DWC_E_INVALID;
++ }
++
++ epin->ep->dwc_ep.buff_mode = BM_SG;
++ dwc_memcpy(epin->bm_sg, psgval, sizeof(ddma_sg_buffer_setup_t));
++
++ epout->ep->dwc_ep.buff_mode = BM_SG;
++ dwc_memcpy(epout->bm_sg, psgval, sizeof(ddma_sg_buffer_setup_t));
++
++ return 0;
++}
++
++/**
++ * This function sets a new value for the buffer Alignment setup.
++ */
++static int cfi_ep_set_alignment_val(uint8_t * buf, struct dwc_otg_pcd *pcd)
++{
++ cfi_ep_t *ep;
++ uint8_t addr;
++ ddma_align_buffer_setup_t *palignval;
++
++ palignval = (ddma_align_buffer_setup_t *) buf;
++ addr = palignval->bEndpointAddress;
++
++ ep = get_cfi_ep_by_addr(pcd->cfi, addr);
++
++ if (NULL == ep) {
++ CFI_INFO("%s: Unable to get the endpoint addr=0x%02x\n",
++ __func__, addr);
++ return -DWC_E_INVALID;
++ }
++
++ ep->ep->dwc_ep.buff_mode = BM_ALIGN;
++ dwc_memcpy(ep->bm_align, palignval, sizeof(ddma_align_buffer_setup_t));
++
++ return 0;
++}
++
++/**
++ * This function sets a new value for the Concatenation buffer setup.
++ */
++static int cfi_ep_set_concat_val(uint8_t * buf, struct dwc_otg_pcd *pcd)
++{
++ uint8_t addr;
++ cfi_ep_t *ep;
++ struct _ddma_concat_buffer_setup_hdr *pConcatValHdr;
++ uint16_t *pVals;
++ uint32_t desccount;
++ int i;
++ uint16_t mps;
++
++ pConcatValHdr = (struct _ddma_concat_buffer_setup_hdr *)buf;
++ desccount = (uint32_t) pConcatValHdr->bDescCount;
++ pVals = (uint16_t *) (buf + BS_CONCAT_VAL_HDR_LEN);
++
++ /* Check the DMA descriptor count */
++ if (desccount > MAX_DMA_DESCS_PER_EP) {
++ CFI_INFO("%s: Maximum DMA Descriptor count should be %d\n",
++ __func__, MAX_DMA_DESCS_PER_EP);
++ return -DWC_E_INVALID;
++ }
++
++ addr = pConcatValHdr->bEndpointAddress;
++ ep = get_cfi_ep_by_addr(pcd->cfi, addr);
++ if (NULL == ep) {
++ CFI_INFO("%s: Unable to get the endpoint addr=0x%02x\n",
++ __func__, addr);
++ return -DWC_E_INVALID;
++ }
++
++ mps = UGETW(ep->ep->desc->wMaxPacketSize);
++
++#if 0
++ for (i = 0; i < desccount; i++) {
++ CFI_INFO("%s: wTxSize[%d]=0x%04x\n", __func__, i, pVals[i]);
++ }
++ CFI_INFO("%s: epname=%s; mps=%d\n", __func__, ep->ep->ep.name, mps);
++#endif
++
++ /* Check the wTxSizes to be less than or equal to the mps */
++ for (i = 0; i < desccount; i++) {
++ if (pVals[i] > mps) {
++ CFI_INFO
++ ("%s: ERROR - the wTxSize[%d] should be <= MPS (wTxSize=%d)\n",
++ __func__, i, pVals[i]);
++ return -DWC_E_INVALID;
++ }
++ }
++
++ ep->ep->dwc_ep.buff_mode = BM_CONCAT;
++ dwc_memcpy(ep->bm_concat, pConcatValHdr, BS_CONCAT_VAL_HDR_LEN);
++
++ /* Free the previously allocated storage for the wTxBytes */
++ if (ep->bm_concat->wTxBytes) {
++ DWC_FREE(ep->bm_concat->wTxBytes);
++ }
++
++ /* Allocate a new storage for the wTxBytes field */
++ ep->bm_concat->wTxBytes =
++ DWC_ALLOC(sizeof(uint16_t) * pConcatValHdr->bDescCount);
++ if (NULL == ep->bm_concat->wTxBytes) {
++ CFI_INFO("%s: Unable to allocate memory\n", __func__);
++ return -DWC_E_NO_MEMORY;
++ }
++
++ /* Copy the new values into the wTxBytes filed */
++ dwc_memcpy(ep->bm_concat->wTxBytes, buf + BS_CONCAT_VAL_HDR_LEN,
++ sizeof(uint16_t) * pConcatValHdr->bDescCount);
++
++ return 0;
++}
++
++/**
++ * This function calculates the total of all FIFO sizes
++ *
++ * @param core_if Programming view of DWC_otg controller
++ *
++ * @return The total of data FIFO sizes.
++ *
++ */
++static uint16_t get_dfifo_size(dwc_otg_core_if_t * core_if)
++{
++ dwc_otg_core_params_t *params = core_if->core_params;
++ uint16_t dfifo_total = 0;
++ int i;
++
++ /* The shared RxFIFO size */
++ dfifo_total =
++ params->dev_rx_fifo_size + params->dev_nperio_tx_fifo_size;
++
++ /* Add up each TxFIFO size to the total */
++ for (i = 0; i < core_if->hwcfg4.b.num_in_eps; i++) {
++ dfifo_total += params->dev_tx_fifo_size[i];
++ }
++
++ return dfifo_total;
++}
++
++/**
++ * This function returns Rx FIFO size
++ *
++ * @param core_if Programming view of DWC_otg controller
++ *
++ * @return The total of data FIFO sizes.
++ *
++ */
++static int32_t get_rxfifo_size(dwc_otg_core_if_t * core_if, uint16_t wValue)
++{
++ switch (wValue >> 8) {
++ case 0:
++ return (core_if->pwron_rxfsiz <
++ 32768) ? core_if->pwron_rxfsiz : 32768;
++ break;
++ case 1:
++ return core_if->core_params->dev_rx_fifo_size;
++ break;
++ default:
++ return -DWC_E_INVALID;
++ break;
++ }
++}
++
++/**
++ * This function returns Tx FIFO size for IN EP
++ *
++ * @param core_if Programming view of DWC_otg controller
++ *
++ * @return The total of data FIFO sizes.
++ *
++ */
++static int32_t get_txfifo_size(struct dwc_otg_pcd *pcd, uint16_t wValue)
++{
++ dwc_otg_pcd_ep_t *ep;
++
++ ep = get_ep_by_addr(pcd, wValue & 0xff);
++
++ if (NULL == ep) {
++ CFI_INFO("%s: Unable to get the endpoint addr=0x%02x\n",
++ __func__, wValue & 0xff);
++ return -DWC_E_INVALID;
++ }
++
++ if (!ep->dwc_ep.is_in) {
++ CFI_INFO
++ ("%s: No Tx FIFO assingned to the Out endpoint addr=0x%02x\n",
++ __func__, wValue & 0xff);
++ return -DWC_E_INVALID;
++ }
++
++ switch (wValue >> 8) {
++ case 0:
++ return (GET_CORE_IF(pcd)->pwron_txfsiz
++ [ep->dwc_ep.tx_fifo_num - 1] <
++ 768) ? GET_CORE_IF(pcd)->pwron_txfsiz[ep->
++ dwc_ep.tx_fifo_num
++ - 1] : 32768;
++ break;
++ case 1:
++ return GET_CORE_IF(pcd)->core_params->
++ dev_tx_fifo_size[ep->dwc_ep.num - 1];
++ break;
++ default:
++ return -DWC_E_INVALID;
++ break;
++ }
++}
++
++/**
++ * This function checks if the submitted combination of
++ * device mode FIFO sizes is possible or not.
++ *
++ * @param core_if Programming view of DWC_otg controller
++ *
++ * @return 1 if possible, 0 otherwise.
++ *
++ */
++static uint8_t check_fifo_sizes(dwc_otg_core_if_t * core_if)
++{
++ uint16_t dfifo_actual = 0;
++ dwc_otg_core_params_t *params = core_if->core_params;
++ uint16_t start_addr = 0;
++ int i;
++
++ dfifo_actual =
++ params->dev_rx_fifo_size + params->dev_nperio_tx_fifo_size;
++
++ for (i = 0; i < core_if->hwcfg4.b.num_in_eps; i++) {
++ dfifo_actual += params->dev_tx_fifo_size[i];
++ }
++
++ if (dfifo_actual > core_if->total_fifo_size) {
++ return 0;
++ }
++
++ if (params->dev_rx_fifo_size > 32768 || params->dev_rx_fifo_size < 16)
++ return 0;
++
++ if (params->dev_nperio_tx_fifo_size > 32768
++ || params->dev_nperio_tx_fifo_size < 16)
++ return 0;
++
++ for (i = 0; i < core_if->hwcfg4.b.num_in_eps; i++) {
++
++ if (params->dev_tx_fifo_size[i] > 768
++ || params->dev_tx_fifo_size[i] < 4)
++ return 0;
++ }
++
++ if (params->dev_rx_fifo_size > core_if->pwron_rxfsiz)
++ return 0;
++ start_addr = params->dev_rx_fifo_size;
++
++ if (params->dev_nperio_tx_fifo_size > core_if->pwron_gnptxfsiz)
++ return 0;
++ start_addr += params->dev_nperio_tx_fifo_size;
++
++ for (i = 0; i < core_if->hwcfg4.b.num_in_eps; i++) {
++
++ if (params->dev_tx_fifo_size[i] > core_if->pwron_txfsiz[i])
++ return 0;
++ start_addr += params->dev_tx_fifo_size[i];
++ }
++
++ return 1;
++}
++
++/**
++ * This function resizes Device mode FIFOs
++ *
++ * @param core_if Programming view of DWC_otg controller
++ *
++ * @return 1 if successful, 0 otherwise
++ *
++ */
++static uint8_t resize_fifos(dwc_otg_core_if_t * core_if)
++{
++ int i = 0;
++ dwc_otg_core_global_regs_t *global_regs = core_if->core_global_regs;
++ dwc_otg_core_params_t *params = core_if->core_params;
++ uint32_t rx_fifo_size;
++ fifosize_data_t nptxfifosize;
++ fifosize_data_t txfifosize[15];
++
++ uint32_t rx_fsz_bak;
++ uint32_t nptxfsz_bak;
++ uint32_t txfsz_bak[15];
++
++ uint16_t start_address;
++ uint8_t retval = 1;
++
++ if (!check_fifo_sizes(core_if)) {
++ return 0;
++ }
++
++ /* Configure data FIFO sizes */
++ if (core_if->hwcfg2.b.dynamic_fifo && params->enable_dynamic_fifo) {
++ rx_fsz_bak = DWC_READ_REG32(&global_regs->grxfsiz);
++ rx_fifo_size = params->dev_rx_fifo_size;
++ DWC_WRITE_REG32(&global_regs->grxfsiz, rx_fifo_size);
++
++ /*
++ * Tx FIFOs These FIFOs are numbered from 1 to 15.
++ * Indexes of the FIFO size module parameters in the
++ * dev_tx_fifo_size array and the FIFO size registers in
++ * the dtxfsiz array run from 0 to 14.
++ */
++
++ /* Non-periodic Tx FIFO */
++ nptxfsz_bak = DWC_READ_REG32(&global_regs->gnptxfsiz);
++ nptxfifosize.b.depth = params->dev_nperio_tx_fifo_size;
++ start_address = params->dev_rx_fifo_size;
++ nptxfifosize.b.startaddr = start_address;
++
++ DWC_WRITE_REG32(&global_regs->gnptxfsiz, nptxfifosize.d32);
++
++ start_address += nptxfifosize.b.depth;
++
++ for (i = 0; i < core_if->hwcfg4.b.num_in_eps; i++) {
++ txfsz_bak[i] = DWC_READ_REG32(&global_regs->dtxfsiz[i]);
++
++ txfifosize[i].b.depth = params->dev_tx_fifo_size[i];
++ txfifosize[i].b.startaddr = start_address;
++ DWC_WRITE_REG32(&global_regs->dtxfsiz[i],
++ txfifosize[i].d32);
++
++ start_address += txfifosize[i].b.depth;
++ }
++
++ /** Check if register values are set correctly */
++ if (rx_fifo_size != DWC_READ_REG32(&global_regs->grxfsiz)) {
++ retval = 0;
++ }
++
++ if (nptxfifosize.d32 != DWC_READ_REG32(&global_regs->gnptxfsiz)) {
++ retval = 0;
++ }
++
++ for (i = 0; i < core_if->hwcfg4.b.num_in_eps; i++) {
++ if (txfifosize[i].d32 !=
++ DWC_READ_REG32(&global_regs->dtxfsiz[i])) {
++ retval = 0;
++ }
++ }
++
++ /** If register values are not set correctly, reset old values */
++ if (retval == 0) {
++ DWC_WRITE_REG32(&global_regs->grxfsiz, rx_fsz_bak);
++
++ /* Non-periodic Tx FIFO */
++ DWC_WRITE_REG32(&global_regs->gnptxfsiz, nptxfsz_bak);
++
++ for (i = 0; i < core_if->hwcfg4.b.num_in_eps; i++) {
++ DWC_WRITE_REG32(&global_regs->dtxfsiz[i],
++ txfsz_bak[i]);
++ }
++ }
++ } else {
++ return 0;
++ }
++
++ /* Flush the FIFOs */
++ dwc_otg_flush_tx_fifo(core_if, 0x10); /* all Tx FIFOs */
++ dwc_otg_flush_rx_fifo(core_if);
++
++ return retval;
++}
++
++/**
++ * This function sets a new value for the buffer Alignment setup.
++ */
++static int cfi_ep_set_tx_fifo_val(uint8_t * buf, dwc_otg_pcd_t * pcd)
++{
++ int retval;
++ uint32_t fsiz;
++ uint16_t size;
++ uint16_t ep_addr;
++ dwc_otg_pcd_ep_t *ep;
++ dwc_otg_core_params_t *params = GET_CORE_IF(pcd)->core_params;
++ tx_fifo_size_setup_t *ptxfifoval;
++
++ ptxfifoval = (tx_fifo_size_setup_t *) buf;
++ ep_addr = ptxfifoval->bEndpointAddress;
++ size = ptxfifoval->wDepth;
++
++ ep = get_ep_by_addr(pcd, ep_addr);
++
++ CFI_INFO
++ ("%s: Set Tx FIFO size: endpoint addr=0x%02x, depth=%d, FIFO Num=%d\n",
++ __func__, ep_addr, size, ep->dwc_ep.tx_fifo_num);
++
++ if (NULL == ep) {
++ CFI_INFO("%s: Unable to get the endpoint addr=0x%02x\n",
++ __func__, ep_addr);
++ return -DWC_E_INVALID;
++ }
++
++ fsiz = params->dev_tx_fifo_size[ep->dwc_ep.tx_fifo_num - 1];
++ params->dev_tx_fifo_size[ep->dwc_ep.tx_fifo_num - 1] = size;
++
++ if (resize_fifos(GET_CORE_IF(pcd))) {
++ retval = 0;
++ } else {
++ CFI_INFO
++ ("%s: Error setting the feature Tx FIFO Size for EP%d\n",
++ __func__, ep_addr);
++ params->dev_tx_fifo_size[ep->dwc_ep.tx_fifo_num - 1] = fsiz;
++ retval = -DWC_E_INVALID;
++ }
++
++ return retval;
++}
++
++/**
++ * This function sets a new value for the buffer Alignment setup.
++ */
++static int cfi_set_rx_fifo_val(uint8_t * buf, dwc_otg_pcd_t * pcd)
++{
++ int retval;
++ uint32_t fsiz;
++ uint16_t size;
++ dwc_otg_core_params_t *params = GET_CORE_IF(pcd)->core_params;
++ rx_fifo_size_setup_t *prxfifoval;
++
++ prxfifoval = (rx_fifo_size_setup_t *) buf;
++ size = prxfifoval->wDepth;
++
++ fsiz = params->dev_rx_fifo_size;
++ params->dev_rx_fifo_size = size;
++
++ if (resize_fifos(GET_CORE_IF(pcd))) {
++ retval = 0;
++ } else {
++ CFI_INFO("%s: Error setting the feature Rx FIFO Size\n",
++ __func__);
++ params->dev_rx_fifo_size = fsiz;
++ retval = -DWC_E_INVALID;
++ }
++
++ return retval;
++}
++
++/**
++ * This function reads the SG of an EP's buffer setup into the buffer buf
++ */
++static int cfi_ep_get_sg_val(uint8_t * buf, struct dwc_otg_pcd *pcd,
++ struct cfi_usb_ctrlrequest *req)
++{
++ int retval = -DWC_E_INVALID;
++ uint8_t addr;
++ cfi_ep_t *ep;
++
++ /* The Low Byte of the wValue contains a non-zero address of the endpoint */
++ addr = req->wValue & 0xFF;
++ if (addr == 0) /* The address should be non-zero */
++ return retval;
++
++ ep = get_cfi_ep_by_addr(pcd->cfi, addr);
++ if (NULL == ep) {
++ CFI_INFO("%s: Unable to get the endpoint address(0x%02x)\n",
++ __func__, addr);
++ return retval;
++ }
++
++ dwc_memcpy(buf, ep->bm_sg, BS_SG_VAL_DESC_LEN);
++ retval = BS_SG_VAL_DESC_LEN;
++ return retval;
++}
++
++/**
++ * This function reads the Concatenation value of an EP's buffer mode into
++ * the buffer buf
++ */
++static int cfi_ep_get_concat_val(uint8_t * buf, struct dwc_otg_pcd *pcd,
++ struct cfi_usb_ctrlrequest *req)
++{
++ int retval = -DWC_E_INVALID;
++ uint8_t addr;
++ cfi_ep_t *ep;
++ uint8_t desc_count;
++
++ /* The Low Byte of the wValue contains a non-zero address of the endpoint */
++ addr = req->wValue & 0xFF;
++ if (addr == 0) /* The address should be non-zero */
++ return retval;
++
++ ep = get_cfi_ep_by_addr(pcd->cfi, addr);
++ if (NULL == ep) {
++ CFI_INFO("%s: Unable to get the endpoint address(0x%02x)\n",
++ __func__, addr);
++ return retval;
++ }
++
++ /* Copy the header to the buffer */
++ dwc_memcpy(buf, ep->bm_concat, BS_CONCAT_VAL_HDR_LEN);
++ /* Advance the buffer pointer by the header size */
++ buf += BS_CONCAT_VAL_HDR_LEN;
++
++ desc_count = ep->bm_concat->hdr.bDescCount;
++ /* Copy alll the wTxBytes to the buffer */
++ dwc_memcpy(buf, ep->bm_concat->wTxBytes, sizeof(uid16_t) * desc_count);
++
++ retval = BS_CONCAT_VAL_HDR_LEN + sizeof(uid16_t) * desc_count;
++ return retval;
++}
++
++/**
++ * This function reads the buffer Alignment value of an EP's buffer mode into
++ * the buffer buf
++ *
++ * @return The total number of bytes copied to the buffer or negative error code.
++ */
++static int cfi_ep_get_align_val(uint8_t * buf, struct dwc_otg_pcd *pcd,
++ struct cfi_usb_ctrlrequest *req)
++{
++ int retval = -DWC_E_INVALID;
++ uint8_t addr;
++ cfi_ep_t *ep;
++
++ /* The Low Byte of the wValue contains a non-zero address of the endpoint */
++ addr = req->wValue & 0xFF;
++ if (addr == 0) /* The address should be non-zero */
++ return retval;
++
++ ep = get_cfi_ep_by_addr(pcd->cfi, addr);
++ if (NULL == ep) {
++ CFI_INFO("%s: Unable to get the endpoint address(0x%02x)\n",
++ __func__, addr);
++ return retval;
++ }
++
++ dwc_memcpy(buf, ep->bm_align, BS_ALIGN_VAL_HDR_LEN);
++ retval = BS_ALIGN_VAL_HDR_LEN;
++
++ return retval;
++}
++
++/**
++ * This function sets a new value for the specified feature
++ *
++ * @param pcd A pointer to the PCD object
++ *
++ * @return 0 if successful, negative error code otherwise to stall the DCE.
++ */
++static int cfi_set_feature_value(struct dwc_otg_pcd *pcd)
++{
++ int retval = -DWC_E_NOT_SUPPORTED;
++ uint16_t wIndex, wValue;
++ uint8_t bRequest;
++ struct dwc_otg_core_if *coreif;
++ cfiobject_t *cfi = pcd->cfi;
++ struct cfi_usb_ctrlrequest *ctrl_req;
++ uint8_t *buf;
++ ctrl_req = &cfi->ctrl_req;
++
++ buf = pcd->cfi->ctrl_req.data;
++
++ coreif = GET_CORE_IF(pcd);
++ bRequest = ctrl_req->bRequest;
++ wIndex = DWC_CONSTANT_CPU_TO_LE16(ctrl_req->wIndex);
++ wValue = DWC_CONSTANT_CPU_TO_LE16(ctrl_req->wValue);
++
++ /* See which feature is to be modified */
++ switch (wIndex) {
++ case FT_ID_DMA_BUFFER_SETUP:
++ /* Modify the feature */
++ if ((retval = cfi_ep_set_sg_val(buf, pcd)) < 0)
++ return retval;
++
++ /* And send this request to the gadget */
++ cfi->need_gadget_att = 1;
++ break;
++
++ case FT_ID_DMA_BUFF_ALIGN:
++ if ((retval = cfi_ep_set_alignment_val(buf, pcd)) < 0)
++ return retval;
++ cfi->need_gadget_att = 1;
++ break;
++
++ case FT_ID_DMA_CONCAT_SETUP:
++ /* Modify the feature */
++ if ((retval = cfi_ep_set_concat_val(buf, pcd)) < 0)
++ return retval;
++ cfi->need_gadget_att = 1;
++ break;
++
++ case FT_ID_DMA_CIRCULAR:
++ CFI_INFO("FT_ID_DMA_CIRCULAR\n");
++ break;
++
++ case FT_ID_THRESHOLD_SETUP:
++ CFI_INFO("FT_ID_THRESHOLD_SETUP\n");
++ break;
++
++ case FT_ID_DFIFO_DEPTH:
++ CFI_INFO("FT_ID_DFIFO_DEPTH\n");
++ break;
++
++ case FT_ID_TX_FIFO_DEPTH:
++ CFI_INFO("FT_ID_TX_FIFO_DEPTH\n");
++ if ((retval = cfi_ep_set_tx_fifo_val(buf, pcd)) < 0)
++ return retval;
++ cfi->need_gadget_att = 0;
++ break;
++
++ case FT_ID_RX_FIFO_DEPTH:
++ CFI_INFO("FT_ID_RX_FIFO_DEPTH\n");
++ if ((retval = cfi_set_rx_fifo_val(buf, pcd)) < 0)
++ return retval;
++ cfi->need_gadget_att = 0;
++ break;
++ }
++
++ return retval;
++}
++
++#endif //DWC_UTE_CFI
+diff -urN linux-3.10/drivers/usb/host/dwc_otg/dwc_otg_cfi.h linux-rpi-3.10.y/drivers/usb/host/dwc_otg/dwc_otg_cfi.h
+--- linux-3.10/drivers/usb/host/dwc_otg/dwc_otg_cfi.h 1970-01-01 01:00:00.000000000 +0100
++++ linux-rpi-3.10.y/drivers/usb/host/dwc_otg/dwc_otg_cfi.h 2013-07-06 15:25:50.000000000 +0100
+@@ -0,0 +1,320 @@
++/* ==========================================================================
++ * Synopsys HS OTG Linux Software Driver and documentation (hereinafter,
++ * "Software") is an Unsupported proprietary work of Synopsys, Inc. unless
++ * otherwise expressly agreed to in writing between Synopsys and you.
++ *
++ * The Software IS NOT an item of Licensed Software or Licensed Product under
++ * any End User Software License Agreement or Agreement for Licensed Product
++ * with Synopsys or any supplement thereto. You are permitted to use and
++ * redistribute this Software in source and binary forms, with or without
++ * modification, provided that redistributions of source code must retain this
++ * notice. You may not view, use, disclose, copy or distribute this file or
++ * any information contained herein except pursuant to this license grant from
++ * Synopsys. If you do not agree with this notice, including the disclaimer
++ * below, then you are not authorized to use the Software.
++ *
++ * THIS SOFTWARE IS BEING DISTRIBUTED BY SYNOPSYS SOLELY ON AN "AS IS" BASIS
++ * AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
++ * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE
++ * ARE HEREBY DISCLAIMED. IN NO EVENT SHALL SYNOPSYS BE LIABLE FOR ANY DIRECT,
++ * INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES
++ * (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR
++ * SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER
++ * CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT
++ * LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY
++ * OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH
++ * DAMAGE.
++ * ========================================================================== */
++
++#if !defined(__DWC_OTG_CFI_H__)
++#define __DWC_OTG_CFI_H__
++
++#include "dwc_otg_pcd.h"
++#include "dwc_cfi_common.h"
++
++/**
++ * @file
++ * This file contains the CFI related OTG PCD specific common constants,
++ * interfaces(functions and macros) and data structures.The CFI Protocol is an
++ * optional interface for internal testing purposes that a DUT may implement to
++ * support testing of configurable features.
++ *
++ */
++
++struct dwc_otg_pcd;
++struct dwc_otg_pcd_ep;
++
++/** OTG CFI Features (properties) ID constants */
++/** This is a request for all Core Features */
++#define FT_ID_DMA_MODE 0x0001
++#define FT_ID_DMA_BUFFER_SETUP 0x0002
++#define FT_ID_DMA_BUFF_ALIGN 0x0003
++#define FT_ID_DMA_CONCAT_SETUP 0x0004
++#define FT_ID_DMA_CIRCULAR 0x0005
++#define FT_ID_THRESHOLD_SETUP 0x0006
++#define FT_ID_DFIFO_DEPTH 0x0007
++#define FT_ID_TX_FIFO_DEPTH 0x0008
++#define FT_ID_RX_FIFO_DEPTH 0x0009
++
++/**********************************************************/
++#define CFI_INFO_DEF
++
++#ifdef CFI_INFO_DEF
++#define CFI_INFO(fmt...) DWC_PRINTF("CFI: " fmt);
++#else
++#define CFI_INFO(fmt...)
++#endif
++
++#define min(x,y) ({ \
++ x < y ? x : y; })
++
++#define max(x,y) ({ \
++ x > y ? x : y; })
++
++/**
++ * Descriptor DMA SG Buffer setup structure (SG buffer). This structure is
++ * also used for setting up a buffer for Circular DDMA.
++ */
++struct _ddma_sg_buffer_setup {
++#define BS_SG_VAL_DESC_LEN 6
++ /* The OUT EP address */
++ uint8_t bOutEndpointAddress;
++ /* The IN EP address */
++ uint8_t bInEndpointAddress;
++ /* Number of bytes to put between transfer segments (must be DWORD boundaries) */
++ uint8_t bOffset;
++ /* The number of transfer segments (a DMA descriptors per each segment) */
++ uint8_t bCount;
++ /* Size (in byte) of each transfer segment */
++ uint16_t wSize;
++} __attribute__ ((packed));
++typedef struct _ddma_sg_buffer_setup ddma_sg_buffer_setup_t;
++
++/** Descriptor DMA Concatenation Buffer setup structure */
++struct _ddma_concat_buffer_setup_hdr {
++#define BS_CONCAT_VAL_HDR_LEN 4
++ /* The endpoint for which the buffer is to be set up */
++ uint8_t bEndpointAddress;
++ /* The count of descriptors to be used */
++ uint8_t bDescCount;
++ /* The total size of the transfer */
++ uint16_t wSize;
++} __attribute__ ((packed));
++typedef struct _ddma_concat_buffer_setup_hdr ddma_concat_buffer_setup_hdr_t;
++
++/** Descriptor DMA Concatenation Buffer setup structure */
++struct _ddma_concat_buffer_setup {
++ /* The SG header */
++ ddma_concat_buffer_setup_hdr_t hdr;
++
++ /* The XFER sizes pointer (allocated dynamically) */
++ uint16_t *wTxBytes;
++} __attribute__ ((packed));
++typedef struct _ddma_concat_buffer_setup ddma_concat_buffer_setup_t;
++
++/** Descriptor DMA Alignment Buffer setup structure */
++struct _ddma_align_buffer_setup {
++#define BS_ALIGN_VAL_HDR_LEN 2
++ uint8_t bEndpointAddress;
++ uint8_t bAlign;
++} __attribute__ ((packed));
++typedef struct _ddma_align_buffer_setup ddma_align_buffer_setup_t;
++
++/** Transmit FIFO Size setup structure */
++struct _tx_fifo_size_setup {
++ uint8_t bEndpointAddress;
++ uint16_t wDepth;
++} __attribute__ ((packed));
++typedef struct _tx_fifo_size_setup tx_fifo_size_setup_t;
++
++/** Transmit FIFO Size setup structure */
++struct _rx_fifo_size_setup {
++ uint16_t wDepth;
++} __attribute__ ((packed));
++typedef struct _rx_fifo_size_setup rx_fifo_size_setup_t;
++
++/**
++ * struct cfi_usb_ctrlrequest - the CFI implementation of the struct usb_ctrlrequest
++ * This structure encapsulates the standard usb_ctrlrequest and adds a pointer
++ * to the data returned in the data stage of a 3-stage Control Write requests.
++ */
++struct cfi_usb_ctrlrequest {
++ uint8_t bRequestType;
++ uint8_t bRequest;
++ uint16_t wValue;
++ uint16_t wIndex;
++ uint16_t wLength;
++ uint8_t *data;
++} UPACKED;
++
++/*---------------------------------------------------------------------------*/
++
++/**
++ * The CFI wrapper of the enabled and activated dwc_otg_pcd_ep structures.
++ * This structure is used to store the buffer setup data for any
++ * enabled endpoint in the PCD.
++ */
++struct cfi_ep {
++ /* Entry for the list container */
++ dwc_list_link_t lh;
++ /* Pointer to the active PCD endpoint structure */
++ struct dwc_otg_pcd_ep *ep;
++ /* The last descriptor in the chain of DMA descriptors of the endpoint */
++ struct dwc_otg_dma_desc *dma_desc_last;
++ /* The SG feature value */
++ ddma_sg_buffer_setup_t *bm_sg;
++ /* The Circular feature value */
++ ddma_sg_buffer_setup_t *bm_circ;
++ /* The Concatenation feature value */
++ ddma_concat_buffer_setup_t *bm_concat;
++ /* The Alignment feature value */
++ ddma_align_buffer_setup_t *bm_align;
++ /* XFER length */
++ uint32_t xfer_len;
++ /*
++ * Count of DMA descriptors currently used.
++ * The total should not exceed the MAX_DMA_DESCS_PER_EP value
++ * defined in the dwc_otg_cil.h
++ */
++ uint32_t desc_count;
++};
++typedef struct cfi_ep cfi_ep_t;
++
++typedef struct cfi_dma_buff {
++#define CFI_IN_BUF_LEN 1024
++#define CFI_OUT_BUF_LEN 1024
++ dma_addr_t addr;
++ uint8_t *buf;
++} cfi_dma_buff_t;
++
++struct cfiobject;
++
++/**
++ * This is the interface for the CFI operations.
++ *
++ * @param ep_enable Called when any endpoint is enabled and activated.
++ * @param release Called when the CFI object is released and it needs to correctly
++ * deallocate the dynamic memory
++ * @param ctrl_write_complete Called when the data stage of the request is complete
++ */
++typedef struct cfi_ops {
++ int (*ep_enable) (struct cfiobject * cfi, struct dwc_otg_pcd * pcd,
++ struct dwc_otg_pcd_ep * ep);
++ void *(*ep_alloc_buf) (struct cfiobject * cfi, struct dwc_otg_pcd * pcd,
++ struct dwc_otg_pcd_ep * ep, dma_addr_t * dma,
++ unsigned size, gfp_t flags);
++ void (*release) (struct cfiobject * cfi);
++ int (*ctrl_write_complete) (struct cfiobject * cfi,
++ struct dwc_otg_pcd * pcd);
++ void (*build_descriptors) (struct cfiobject * cfi,
++ struct dwc_otg_pcd * pcd,
++ struct dwc_otg_pcd_ep * ep,
++ dwc_otg_pcd_request_t * req);
++} cfi_ops_t;
++
++struct cfiobject {
++ cfi_ops_t ops;
++ struct dwc_otg_pcd *pcd;
++ struct usb_gadget *gadget;
++
++ /* Buffers used to send/receive CFI-related request data */
++ cfi_dma_buff_t buf_in;
++ cfi_dma_buff_t buf_out;
++
++ /* CFI specific Control request wrapper */
++ struct cfi_usb_ctrlrequest ctrl_req;
++
++ /* The list of active EP's in the PCD of type cfi_ep_t */
++ dwc_list_link_t active_eps;
++
++ /* This flag shall control the propagation of a specific request
++ * to the gadget's processing routines.
++ * 0 - no gadget handling
++ * 1 - the gadget needs to know about this request (w/o completing a status
++ * phase - just return a 0 to the _setup callback)
++ */
++ uint8_t need_gadget_att;
++
++ /* Flag indicating whether the status IN phase needs to be
++ * completed by the PCD
++ */
++ uint8_t need_status_in_complete;
++};
++typedef struct cfiobject cfiobject_t;
++
++#define DUMP_MSG
++
++#if defined(DUMP_MSG)
++static inline void dump_msg(const u8 * buf, unsigned int length)
++{
++ unsigned int start, num, i;
++ char line[52], *p;
++
++ if (length >= 512)
++ return;
++
++ start = 0;
++ while (length > 0) {
++ num = min(length, 16u);
++ p = line;
++ for (i = 0; i < num; ++i) {
++ if (i == 8)
++ *p++ = ' ';
++ DWC_SPRINTF(p, " %02x", buf[i]);
++ p += 3;
++ }
++ *p = 0;
++ DWC_DEBUG("%6x: %s\n", start, line);
++ buf += num;
++ start += num;
++ length -= num;
++ }
++}
++#else
++static inline void dump_msg(const u8 * buf, unsigned int length)
++{
++}
++#endif
++
++/**
++ * This function returns a pointer to cfi_ep_t object with the addr address.
++ */
++static inline struct cfi_ep *get_cfi_ep_by_addr(struct cfiobject *cfi,
++ uint8_t addr)
++{
++ struct cfi_ep *pcfiep;
++ dwc_list_link_t *tmp;
++
++ DWC_LIST_FOREACH(tmp, &cfi->active_eps) {
++ pcfiep = DWC_LIST_ENTRY(tmp, struct cfi_ep, lh);
++
++ if (pcfiep->ep->desc->bEndpointAddress == addr) {
++ return pcfiep;
++ }
++ }
++
++ return NULL;
++}
++
++/**
++ * This function returns a pointer to cfi_ep_t object that matches
++ * the dwc_otg_pcd_ep object.
++ */
++static inline struct cfi_ep *get_cfi_ep_by_pcd_ep(struct cfiobject *cfi,
++ struct dwc_otg_pcd_ep *ep)
++{
++ struct cfi_ep *pcfiep = NULL;
++ dwc_list_link_t *tmp;
++
++ DWC_LIST_FOREACH(tmp, &cfi->active_eps) {
++ pcfiep = DWC_LIST_ENTRY(tmp, struct cfi_ep, lh);
++ if (pcfiep->ep == ep) {
++ return pcfiep;
++ }
++ }
++ return NULL;
++}
++
++int cfi_setup(struct dwc_otg_pcd *pcd, struct cfi_usb_ctrlrequest *ctrl);
++
++#endif /* (__DWC_OTG_CFI_H__) */
+diff -urN linux-3.10/drivers/usb/host/dwc_otg/dwc_otg_cil.c linux-rpi-3.10.y/drivers/usb/host/dwc_otg/dwc_otg_cil.c
+--- linux-3.10/drivers/usb/host/dwc_otg/dwc_otg_cil.c 1970-01-01 01:00:00.000000000 +0100
++++ linux-rpi-3.10.y/drivers/usb/host/dwc_otg/dwc_otg_cil.c 2013-07-06 15:25:50.000000000 +0100
+@@ -0,0 +1,7151 @@
++/* ==========================================================================
++ * $File: //dwh/usb_iip/dev/software/otg/linux/drivers/dwc_otg_cil.c $
++ * $Revision: #191 $
++ * $Date: 2012/08/10 $
++ * $Change: 2047372 $
++ *
++ * Synopsys HS OTG Linux Software Driver and documentation (hereinafter,
++ * "Software") is an Unsupported proprietary work of Synopsys, Inc. unless
++ * otherwise expressly agreed to in writing between Synopsys and you.
++ *
++ * The Software IS NOT an item of Licensed Software or Licensed Product under
++ * any End User Software License Agreement or Agreement for Licensed Product
++ * with Synopsys or any supplement thereto. You are permitted to use and
++ * redistribute this Software in source and binary forms, with or without
++ * modification, provided that redistributions of source code must retain this
++ * notice. You may not view, use, disclose, copy or distribute this file or
++ * any information contained herein except pursuant to this license grant from
++ * Synopsys. If you do not agree with this notice, including the disclaimer
++ * below, then you are not authorized to use the Software.
++ *
++ * THIS SOFTWARE IS BEING DISTRIBUTED BY SYNOPSYS SOLELY ON AN "AS IS" BASIS
++ * AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
++ * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE
++ * ARE HEREBY DISCLAIMED. IN NO EVENT SHALL SYNOPSYS BE LIABLE FOR ANY DIRECT,
++ * INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES
++ * (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR
++ * SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER
++ * CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT
++ * LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY
++ * OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH
++ * DAMAGE.
++ * ========================================================================== */
++
++/** @file
++ *
++ * The Core Interface Layer provides basic services for accessing and
++ * managing the DWC_otg hardware. These services are used by both the
++ * Host Controller Driver and the Peripheral Controller Driver.
++ *
++ * The CIL manages the memory map for the core so that the HCD and PCD
++ * don't have to do this separately. It also handles basic tasks like
++ * reading/writing the registers and data FIFOs in the controller.
++ * Some of the data access functions provide encapsulation of several
++ * operations required to perform a task, such as writing multiple
++ * registers to start a transfer. Finally, the CIL performs basic
++ * services that are not specific to either the host or device modes
++ * of operation. These services include management of the OTG Host
++ * Negotiation Protocol (HNP) and Session Request Protocol (SRP). A
++ * Diagnostic API is also provided to allow testing of the controller
++ * hardware.
++ *
++ * The Core Interface Layer has the following requirements:
++ * - Provides basic controller operations.
++ * - Minimal use of OS services.
++ * - The OS services used will be abstracted by using inline functions
++ * or macros.
++ *
++ */
++
++#include "dwc_os.h"
++#include "dwc_otg_regs.h"
++#include "dwc_otg_cil.h"
++
++static int dwc_otg_setup_params(dwc_otg_core_if_t * core_if);
++
++/**
++ * This function is called to initialize the DWC_otg CSR data
++ * structures. The register addresses in the device and host
++ * structures are initialized from the base address supplied by the
++ * caller. The calling function must make the OS calls to get the
++ * base address of the DWC_otg controller registers. The core_params
++ * argument holds the parameters that specify how the core should be
++ * configured.
++ *
++ * @param reg_base_addr Base address of DWC_otg core registers
++ *
++ */
++dwc_otg_core_if_t *dwc_otg_cil_init(const uint32_t * reg_base_addr)
++{
++ dwc_otg_core_if_t *core_if = 0;
++ dwc_otg_dev_if_t *dev_if = 0;
++ dwc_otg_host_if_t *host_if = 0;
++ uint8_t *reg_base = (uint8_t *) reg_base_addr;
++ int i = 0;
++
++ DWC_DEBUGPL(DBG_CILV, "%s(%p)\n", __func__, reg_base_addr);
++
++ core_if = DWC_ALLOC(sizeof(dwc_otg_core_if_t));
++
++ if (core_if == NULL) {
++ DWC_DEBUGPL(DBG_CIL,
++ "Allocation of dwc_otg_core_if_t failed\n");
++ return 0;
++ }
++ core_if->core_global_regs = (dwc_otg_core_global_regs_t *) reg_base;
++
++ /*
++ * Allocate the Device Mode structures.
++ */
++ dev_if = DWC_ALLOC(sizeof(dwc_otg_dev_if_t));
++
++ if (dev_if == NULL) {
++ DWC_DEBUGPL(DBG_CIL, "Allocation of dwc_otg_dev_if_t failed\n");
++ DWC_FREE(core_if);
++ return 0;
++ }
++
++ dev_if->dev_global_regs =
++ (dwc_otg_device_global_regs_t *) (reg_base +
++ DWC_DEV_GLOBAL_REG_OFFSET);
++
++ for (i = 0; i < MAX_EPS_CHANNELS; i++) {
++ dev_if->in_ep_regs[i] = (dwc_otg_dev_in_ep_regs_t *)
++ (reg_base + DWC_DEV_IN_EP_REG_OFFSET +
++ (i * DWC_EP_REG_OFFSET));
++
++ dev_if->out_ep_regs[i] = (dwc_otg_dev_out_ep_regs_t *)
++ (reg_base + DWC_DEV_OUT_EP_REG_OFFSET +
++ (i * DWC_EP_REG_OFFSET));
++ DWC_DEBUGPL(DBG_CILV, "in_ep_regs[%d]->diepctl=%p\n",
++ i, &dev_if->in_ep_regs[i]->diepctl);
++ DWC_DEBUGPL(DBG_CILV, "out_ep_regs[%d]->doepctl=%p\n",
++ i, &dev_if->out_ep_regs[i]->doepctl);
++ }
++
++ dev_if->speed = 0; // unknown
++
++ core_if->dev_if = dev_if;
++
++ /*
++ * Allocate the Host Mode structures.
++ */
++ host_if = DWC_ALLOC(sizeof(dwc_otg_host_if_t));
++
++ if (host_if == NULL) {
++ DWC_DEBUGPL(DBG_CIL,
++ "Allocation of dwc_otg_host_if_t failed\n");
++ DWC_FREE(dev_if);
++ DWC_FREE(core_if);
++ return 0;
++ }
++
++ host_if->host_global_regs = (dwc_otg_host_global_regs_t *)
++ (reg_base + DWC_OTG_HOST_GLOBAL_REG_OFFSET);
++
++ host_if->hprt0 =
++ (uint32_t *) (reg_base + DWC_OTG_HOST_PORT_REGS_OFFSET);
++
++ for (i = 0; i < MAX_EPS_CHANNELS; i++) {
++ host_if->hc_regs[i] = (dwc_otg_hc_regs_t *)
++ (reg_base + DWC_OTG_HOST_CHAN_REGS_OFFSET +
++ (i * DWC_OTG_CHAN_REGS_OFFSET));
++ DWC_DEBUGPL(DBG_CILV, "hc_reg[%d]->hcchar=%p\n",
++ i, &host_if->hc_regs[i]->hcchar);
++ }
++
++ host_if->num_host_channels = MAX_EPS_CHANNELS;
++ core_if->host_if = host_if;
++
++ for (i = 0; i < MAX_EPS_CHANNELS; i++) {
++ core_if->data_fifo[i] =
++ (uint32_t *) (reg_base + DWC_OTG_DATA_FIFO_OFFSET +
++ (i * DWC_OTG_DATA_FIFO_SIZE));
++ DWC_DEBUGPL(DBG_CILV, "data_fifo[%d]=0x%08lx\n",
++ i, (unsigned long)core_if->data_fifo[i]);
++ }
++
++ core_if->pcgcctl = (uint32_t *) (reg_base + DWC_OTG_PCGCCTL_OFFSET);
++
++ /* Initiate lx_state to L3 disconnected state */
++ core_if->lx_state = DWC_OTG_L3;
++ /*
++ * Store the contents of the hardware configuration registers here for
++ * easy access later.
++ */
++ core_if->hwcfg1.d32 =
++ DWC_READ_REG32(&core_if->core_global_regs->ghwcfg1);
++ core_if->hwcfg2.d32 =
++ DWC_READ_REG32(&core_if->core_global_regs->ghwcfg2);
++ core_if->hwcfg3.d32 =
++ DWC_READ_REG32(&core_if->core_global_regs->ghwcfg3);
++ core_if->hwcfg4.d32 =
++ DWC_READ_REG32(&core_if->core_global_regs->ghwcfg4);
++
++ /* Force host mode to get HPTXFSIZ exact power on value */
++ {
++ gusbcfg_data_t gusbcfg = {.d32 = 0 };
++ gusbcfg.d32 = DWC_READ_REG32(&core_if->core_global_regs->gusbcfg);
++ gusbcfg.b.force_host_mode = 1;
++ DWC_WRITE_REG32(&core_if->core_global_regs->gusbcfg, gusbcfg.d32);
++ dwc_mdelay(100);
++ core_if->hptxfsiz.d32 =
++ DWC_READ_REG32(&core_if->core_global_regs->hptxfsiz);
++ gusbcfg.d32 = DWC_READ_REG32(&core_if->core_global_regs->gusbcfg);
++ gusbcfg.b.force_host_mode = 0;
++ DWC_WRITE_REG32(&core_if->core_global_regs->gusbcfg, gusbcfg.d32);
++ dwc_mdelay(100);
++ }
++
++ DWC_DEBUGPL(DBG_CILV, "hwcfg1=%08x\n", core_if->hwcfg1.d32);
++ DWC_DEBUGPL(DBG_CILV, "hwcfg2=%08x\n", core_if->hwcfg2.d32);
++ DWC_DEBUGPL(DBG_CILV, "hwcfg3=%08x\n", core_if->hwcfg3.d32);
++ DWC_DEBUGPL(DBG_CILV, "hwcfg4=%08x\n", core_if->hwcfg4.d32);
++
++ core_if->hcfg.d32 =
++ DWC_READ_REG32(&core_if->host_if->host_global_regs->hcfg);
++ core_if->dcfg.d32 =
++ DWC_READ_REG32(&core_if->dev_if->dev_global_regs->dcfg);
++
++ DWC_DEBUGPL(DBG_CILV, "hcfg=%08x\n", core_if->hcfg.d32);
++ DWC_DEBUGPL(DBG_CILV, "dcfg=%08x\n", core_if->dcfg.d32);
++
++ DWC_DEBUGPL(DBG_CILV, "op_mode=%0x\n", core_if->hwcfg2.b.op_mode);
++ DWC_DEBUGPL(DBG_CILV, "arch=%0x\n", core_if->hwcfg2.b.architecture);
++ DWC_DEBUGPL(DBG_CILV, "num_dev_ep=%d\n", core_if->hwcfg2.b.num_dev_ep);
++ DWC_DEBUGPL(DBG_CILV, "num_host_chan=%d\n",
++ core_if->hwcfg2.b.num_host_chan);
++ DWC_DEBUGPL(DBG_CILV, "nonperio_tx_q_depth=0x%0x\n",
++ core_if->hwcfg2.b.nonperio_tx_q_depth);
++ DWC_DEBUGPL(DBG_CILV, "host_perio_tx_q_depth=0x%0x\n",
++ core_if->hwcfg2.b.host_perio_tx_q_depth);
++ DWC_DEBUGPL(DBG_CILV, "dev_token_q_depth=0x%0x\n",
++ core_if->hwcfg2.b.dev_token_q_depth);
++
++ DWC_DEBUGPL(DBG_CILV, "Total FIFO SZ=%d\n",
++ core_if->hwcfg3.b.dfifo_depth);
++ DWC_DEBUGPL(DBG_CILV, "xfer_size_cntr_width=%0x\n",
++ core_if->hwcfg3.b.xfer_size_cntr_width);
++
++ /*
++ * Set the SRP sucess bit for FS-I2c
++ */
++ core_if->srp_success = 0;
++ core_if->srp_timer_started = 0;
++
++ /*
++ * Create new workqueue and init works
++ */
++ core_if->wq_otg = DWC_WORKQ_ALLOC("dwc_otg");
++ if (core_if->wq_otg == 0) {
++ DWC_WARN("DWC_WORKQ_ALLOC failed\n");
++ DWC_FREE(host_if);
++ DWC_FREE(dev_if);
++ DWC_FREE(core_if);
++ return 0;
++ }
++
++ core_if->snpsid = DWC_READ_REG32(&core_if->core_global_regs->gsnpsid);
++
++ DWC_PRINTF("Core Release: %x.%x%x%x\n",
++ (core_if->snpsid >> 12 & 0xF),
++ (core_if->snpsid >> 8 & 0xF),
++ (core_if->snpsid >> 4 & 0xF), (core_if->snpsid & 0xF));
++
++ core_if->wkp_timer = DWC_TIMER_ALLOC("Wake Up Timer",
++ w_wakeup_detected, core_if);
++ if (core_if->wkp_timer == 0) {
++ DWC_WARN("DWC_TIMER_ALLOC failed\n");
++ DWC_FREE(host_if);
++ DWC_FREE(dev_if);
++ DWC_WORKQ_FREE(core_if->wq_otg);
++ DWC_FREE(core_if);
++ return 0;
++ }
++
++ if (dwc_otg_setup_params(core_if)) {
++ DWC_WARN("Error while setting core params\n");
++ }
++
++ core_if->hibernation_suspend = 0;
++
++ /** ADP initialization */
++ dwc_otg_adp_init(core_if);
++
++ return core_if;
++}
++
++/**
++ * This function frees the structures allocated by dwc_otg_cil_init().
++ *
++ * @param core_if The core interface pointer returned from
++ * dwc_otg_cil_init().
++ *
++ */
++void dwc_otg_cil_remove(dwc_otg_core_if_t * core_if)
++{
++ dctl_data_t dctl = {.d32 = 0 };
++ DWC_DEBUGPL(DBG_CILV, "%s(%p)\n", __func__, core_if);
++
++ /* Disable all interrupts */
++ DWC_MODIFY_REG32(&core_if->core_global_regs->gahbcfg, 1, 0);
++ DWC_WRITE_REG32(&core_if->core_global_regs->gintmsk, 0);
++
++ dctl.b.sftdiscon = 1;
++ if (core_if->snpsid >= OTG_CORE_REV_3_00a) {
++ DWC_MODIFY_REG32(&core_if->dev_if->dev_global_regs->dctl, 0,
++ dctl.d32);
++ }
++
++ if (core_if->wq_otg) {
++ DWC_WORKQ_WAIT_WORK_DONE(core_if->wq_otg, 500);
++ DWC_WORKQ_FREE(core_if->wq_otg);
++ }
++ if (core_if->dev_if) {
++ DWC_FREE(core_if->dev_if);
++ }
++ if (core_if->host_if) {
++ DWC_FREE(core_if->host_if);
++ }
++
++ /** Remove ADP Stuff */
++ dwc_otg_adp_remove(core_if);
++ if (core_if->core_params) {
++ DWC_FREE(core_if->core_params);
++ }
++ if (core_if->wkp_timer) {
++ DWC_TIMER_FREE(core_if->wkp_timer);
++ }
++ if (core_if->srp_timer) {
++ DWC_TIMER_FREE(core_if->srp_timer);
++ }
++ DWC_FREE(core_if);
++}
++
++/**
++ * This function enables the controller's Global Interrupt in the AHB Config
++ * register.
++ *
++ * @param core_if Programming view of DWC_otg controller.
++ */
++void dwc_otg_enable_global_interrupts(dwc_otg_core_if_t * core_if)
++{
++ gahbcfg_data_t ahbcfg = {.d32 = 0 };
++ ahbcfg.b.glblintrmsk = 1; /* Enable interrupts */
++ DWC_MODIFY_REG32(&core_if->core_global_regs->gahbcfg, 0, ahbcfg.d32);
++}
++
++/**
++ * This function disables the controller's Global Interrupt in the AHB Config
++ * register.
++ *
++ * @param core_if Programming view of DWC_otg controller.
++ */
++void dwc_otg_disable_global_interrupts(dwc_otg_core_if_t * core_if)
++{
++ gahbcfg_data_t ahbcfg = {.d32 = 0 };
++ ahbcfg.b.glblintrmsk = 1; /* Disable interrupts */
++ DWC_MODIFY_REG32(&core_if->core_global_regs->gahbcfg, ahbcfg.d32, 0);
++}
++
++/**
++ * This function initializes the commmon interrupts, used in both
++ * device and host modes.
++ *
++ * @param core_if Programming view of the DWC_otg controller
++ *
++ */
++static void dwc_otg_enable_common_interrupts(dwc_otg_core_if_t * core_if)
++{
++ dwc_otg_core_global_regs_t *global_regs = core_if->core_global_regs;
++ gintmsk_data_t intr_mask = {.d32 = 0 };
++
++ /* Clear any pending OTG Interrupts */
++ DWC_WRITE_REG32(&global_regs->gotgint, 0xFFFFFFFF);
++
++ /* Clear any pending interrupts */
++ DWC_WRITE_REG32(&global_regs->gintsts, 0xFFFFFFFF);
++
++ /*
++ * Enable the interrupts in the GINTMSK.
++ */
++ intr_mask.b.modemismatch = 1;
++ intr_mask.b.otgintr = 1;
++
++ if (!core_if->dma_enable) {
++ intr_mask.b.rxstsqlvl = 1;
++ }
++
++ intr_mask.b.conidstschng = 1;
++ intr_mask.b.wkupintr = 1;
++ intr_mask.b.disconnect = 0;
++ intr_mask.b.usbsuspend = 1;
++ intr_mask.b.sessreqintr = 1;
++#ifdef CONFIG_USB_DWC_OTG_LPM
++ if (core_if->core_params->lpm_enable) {
++ intr_mask.b.lpmtranrcvd = 1;
++ }
++#endif
++ DWC_WRITE_REG32(&global_regs->gintmsk, intr_mask.d32);
++}
++
++/*
++ * The restore operation is modified to support Synopsys Emulated Powerdown and
++ * Hibernation. This function is for exiting from Device mode hibernation by
++ * Host Initiated Resume/Reset and Device Initiated Remote-Wakeup.
++ * @param core_if Programming view of DWC_otg controller.
++ * @param rem_wakeup - indicates whether resume is initiated by Device or Host.
++ * @param reset - indicates whether resume is initiated by Reset.
++ */
++int dwc_otg_device_hibernation_restore(dwc_otg_core_if_t * core_if,
++ int rem_wakeup, int reset)
++{
++ gpwrdn_data_t gpwrdn = {.d32 = 0 };
++ pcgcctl_data_t pcgcctl = {.d32 = 0 };
++ dctl_data_t dctl = {.d32 = 0 };
++
++ int timeout = 2000;
++
++ if (!core_if->hibernation_suspend) {
++ DWC_PRINTF("Already exited from Hibernation\n");
++ return 1;
++ }
++
++ DWC_DEBUGPL(DBG_PCD, "%s called\n", __FUNCTION__);
++ /* Switch-on voltage to the core */
++ gpwrdn.b.pwrdnswtch = 1;
++ DWC_MODIFY_REG32(&core_if->core_global_regs->gpwrdn, gpwrdn.d32, 0);
++ dwc_udelay(10);
++
++ /* Reset core */
++ gpwrdn.d32 = 0;
++ gpwrdn.b.pwrdnrstn = 1;
++ DWC_MODIFY_REG32(&core_if->core_global_regs->gpwrdn, gpwrdn.d32, 0);
++ dwc_udelay(10);
++
++ /* Assert Restore signal */
++ gpwrdn.d32 = 0;
++ gpwrdn.b.restore = 1;
++ DWC_MODIFY_REG32(&core_if->core_global_regs->gpwrdn, 0, gpwrdn.d32);
++ dwc_udelay(10);
++
++ /* Disable power clamps */
++ gpwrdn.d32 = 0;
++ gpwrdn.b.pwrdnclmp = 1;
++ DWC_MODIFY_REG32(&core_if->core_global_regs->gpwrdn, gpwrdn.d32, 0);
++
++ if (rem_wakeup) {
++ dwc_udelay(70);
++ }
++
++ /* Deassert Reset core */
++ gpwrdn.d32 = 0;
++ gpwrdn.b.pwrdnrstn = 1;
++ DWC_MODIFY_REG32(&core_if->core_global_regs->gpwrdn, 0, gpwrdn.d32);
++ dwc_udelay(10);
++
++ /* Disable PMU interrupt */
++ gpwrdn.d32 = 0;
++ gpwrdn.b.pmuintsel = 1;
++ DWC_MODIFY_REG32(&core_if->core_global_regs->gpwrdn, gpwrdn.d32, 0);
++
++ /* Mask interrupts from gpwrdn */
++ gpwrdn.d32 = 0;
++ gpwrdn.b.connect_det_msk = 1;
++ gpwrdn.b.srp_det_msk = 1;
++ gpwrdn.b.disconn_det_msk = 1;
++ gpwrdn.b.rst_det_msk = 1;
++ gpwrdn.b.lnstchng_msk = 1;
++ DWC_MODIFY_REG32(&core_if->core_global_regs->gpwrdn, gpwrdn.d32, 0);
++
++ /* Indicates that we are going out from hibernation */
++ core_if->hibernation_suspend = 0;
++
++ /*
++ * Set Restore Essential Regs bit in PCGCCTL register, restore_mode = 1
++ * indicates restore from remote_wakeup
++ */
++ restore_essential_regs(core_if, rem_wakeup, 0);
++
++ /*
++ * Wait a little for seeing new value of variable hibernation_suspend if
++ * Restore done interrupt received before polling
++ */
++ dwc_udelay(10);
++
++ if (core_if->hibernation_suspend == 0) {
++ /*
++ * Wait For Restore_done Interrupt. This mechanism of polling the
++ * interrupt is introduced to avoid any possible race conditions
++ */
++ do {
++ gintsts_data_t gintsts;
++ gintsts.d32 =
++ DWC_READ_REG32(&core_if->core_global_regs->gintsts);
++ if (gintsts.b.restoredone) {
++ gintsts.d32 = 0;
++ gintsts.b.restoredone = 1;
++ DWC_WRITE_REG32(&core_if->core_global_regs->
++ gintsts, gintsts.d32);
++ DWC_PRINTF("Restore Done Interrupt seen\n");
++ break;
++ }
++ dwc_udelay(10);
++ } while (--timeout);
++ if (!timeout) {
++ DWC_PRINTF("Restore Done interrupt wasn't generated here\n");
++ }
++ }
++ /* Clear all pending interupts */
++ DWC_WRITE_REG32(&core_if->core_global_regs->gintsts, 0xFFFFFFFF);
++
++ /* De-assert Restore */
++ gpwrdn.d32 = 0;
++ gpwrdn.b.restore = 1;
++ DWC_MODIFY_REG32(&core_if->core_global_regs->gpwrdn, gpwrdn.d32, 0);
++ dwc_udelay(10);
++
++ if (!rem_wakeup) {
++ pcgcctl.d32 = 0;
++ pcgcctl.b.rstpdwnmodule = 1;
++ DWC_MODIFY_REG32(core_if->pcgcctl, pcgcctl.d32, 0);
++ }
++
++ /* Restore GUSBCFG and DCFG */
++ DWC_WRITE_REG32(&core_if->core_global_regs->gusbcfg,
++ core_if->gr_backup->gusbcfg_local);
++ DWC_WRITE_REG32(&core_if->dev_if->dev_global_regs->dcfg,
++ core_if->dr_backup->dcfg);
++
++ /* De-assert Wakeup Logic */
++ gpwrdn.d32 = 0;
++ gpwrdn.b.pmuactv = 1;
++ DWC_MODIFY_REG32(&core_if->core_global_regs->gpwrdn, gpwrdn.d32, 0);
++ dwc_udelay(10);
++
++ if (!rem_wakeup) {
++ /* Set Device programming done bit */
++ dctl.b.pwronprgdone = 1;
++ DWC_MODIFY_REG32(&core_if->dev_if->dev_global_regs->dctl, 0, dctl.d32);
++ } else {
++ /* Start Remote Wakeup Signaling */
++ dctl.d32 = core_if->dr_backup->dctl;
++ dctl.b.rmtwkupsig = 1;
++ DWC_WRITE_REG32(&core_if->dev_if->dev_global_regs->dctl, dctl.d32);
++ }
++
++ dwc_mdelay(2);
++ /* Clear all pending interupts */
++ DWC_WRITE_REG32(&core_if->core_global_regs->gintsts, 0xFFFFFFFF);
++
++ /* Restore global registers */
++ dwc_otg_restore_global_regs(core_if);
++ /* Restore device global registers */
++ dwc_otg_restore_dev_regs(core_if, rem_wakeup);
++
++ if (rem_wakeup) {
++ dwc_mdelay(7);
++ dctl.d32 = 0;
++ dctl.b.rmtwkupsig = 1;
++ DWC_MODIFY_REG32(&core_if->dev_if->dev_global_regs->dctl, dctl.d32, 0);
++ }
++
++ core_if->hibernation_suspend = 0;
++ /* The core will be in ON STATE */
++ core_if->lx_state = DWC_OTG_L0;
++ DWC_PRINTF("Hibernation recovery completes here\n");
++
++ return 1;
++}
++
++/*
++ * The restore operation is modified to support Synopsys Emulated Powerdown and
++ * Hibernation. This function is for exiting from Host mode hibernation by
++ * Host Initiated Resume/Reset and Device Initiated Remote-Wakeup.
++ * @param core_if Programming view of DWC_otg controller.
++ * @param rem_wakeup - indicates whether resume is initiated by Device or Host.
++ * @param reset - indicates whether resume is initiated by Reset.
++ */
++int dwc_otg_host_hibernation_restore(dwc_otg_core_if_t * core_if,
++ int rem_wakeup, int reset)
++{
++ gpwrdn_data_t gpwrdn = {.d32 = 0 };
++ hprt0_data_t hprt0 = {.d32 = 0 };
++
++ int timeout = 2000;
++
++ DWC_DEBUGPL(DBG_HCD, "%s called\n", __FUNCTION__);
++ /* Switch-on voltage to the core */
++ gpwrdn.b.pwrdnswtch = 1;
++ DWC_MODIFY_REG32(&core_if->core_global_regs->gpwrdn, gpwrdn.d32, 0);
++ dwc_udelay(10);
++
++ /* Reset core */
++ gpwrdn.d32 = 0;
++ gpwrdn.b.pwrdnrstn = 1;
++ DWC_MODIFY_REG32(&core_if->core_global_regs->gpwrdn, gpwrdn.d32, 0);
++ dwc_udelay(10);
++
++ /* Assert Restore signal */
++ gpwrdn.d32 = 0;
++ gpwrdn.b.restore = 1;
++ DWC_MODIFY_REG32(&core_if->core_global_regs->gpwrdn, 0, gpwrdn.d32);
++ dwc_udelay(10);
++
++ /* Disable power clamps */
++ gpwrdn.d32 = 0;
++ gpwrdn.b.pwrdnclmp = 1;
++ DWC_MODIFY_REG32(&core_if->core_global_regs->gpwrdn, gpwrdn.d32, 0);
++
++ if (!rem_wakeup) {
++ dwc_udelay(50);
++ }
++
++ /* Deassert Reset core */
++ gpwrdn.d32 = 0;
++ gpwrdn.b.pwrdnrstn = 1;
++ DWC_MODIFY_REG32(&core_if->core_global_regs->gpwrdn, 0, gpwrdn.d32);
++ dwc_udelay(10);
++
++ /* Disable PMU interrupt */
++ gpwrdn.d32 = 0;
++ gpwrdn.b.pmuintsel = 1;
++ DWC_MODIFY_REG32(&core_if->core_global_regs->gpwrdn, gpwrdn.d32, 0);
++
++ gpwrdn.d32 = 0;
++ gpwrdn.b.connect_det_msk = 1;
++ gpwrdn.b.srp_det_msk = 1;
++ gpwrdn.b.disconn_det_msk = 1;
++ gpwrdn.b.rst_det_msk = 1;
++ gpwrdn.b.lnstchng_msk = 1;
++ DWC_MODIFY_REG32(&core_if->core_global_regs->gpwrdn, gpwrdn.d32, 0);
++
++ /* Indicates that we are going out from hibernation */
++ core_if->hibernation_suspend = 0;
++
++ /* Set Restore Essential Regs bit in PCGCCTL register */
++ restore_essential_regs(core_if, rem_wakeup, 1);
++
++ /* Wait a little for seeing new value of variable hibernation_suspend if
++ * Restore done interrupt received before polling */
++ dwc_udelay(10);
++
++ if (core_if->hibernation_suspend == 0) {
++ /* Wait For Restore_done Interrupt. This mechanism of polling the
++ * interrupt is introduced to avoid any possible race conditions
++ */
++ do {
++ gintsts_data_t gintsts;
++ gintsts.d32 = DWC_READ_REG32(&core_if->core_global_regs->gintsts);
++ if (gintsts.b.restoredone) {
++ gintsts.d32 = 0;
++ gintsts.b.restoredone = 1;
++ DWC_WRITE_REG32(&core_if->core_global_regs->gintsts, gintsts.d32);
++ DWC_DEBUGPL(DBG_HCD,"Restore Done Interrupt seen\n");
++ break;
++ }
++ dwc_udelay(10);
++ } while (--timeout);
++ if (!timeout) {
++ DWC_WARN("Restore Done interrupt wasn't generated\n");
++ }
++ }
++
++ /* Set the flag's value to 0 again after receiving restore done interrupt */
++ core_if->hibernation_suspend = 0;
++
++ /* This step is not described in functional spec but if not wait for this
++ * delay, mismatch interrupts occurred because just after restore core is
++ * in Device mode(gintsts.curmode == 0) */
++ dwc_mdelay(100);
++
++ /* Clear all pending interrupts */
++ DWC_WRITE_REG32(&core_if->core_global_regs->gintsts, 0xFFFFFFFF);
++
++ /* De-assert Restore */
++ gpwrdn.d32 = 0;
++ gpwrdn.b.restore = 1;
++ DWC_MODIFY_REG32(&core_if->core_global_regs->gpwrdn, gpwrdn.d32, 0);
++ dwc_udelay(10);
++
++ /* Restore GUSBCFG and HCFG */
++ DWC_WRITE_REG32(&core_if->core_global_regs->gusbcfg,
++ core_if->gr_backup->gusbcfg_local);
++ DWC_WRITE_REG32(&core_if->host_if->host_global_regs->hcfg,
++ core_if->hr_backup->hcfg_local);
++
++ /* De-assert Wakeup Logic */
++ gpwrdn.d32 = 0;
++ gpwrdn.b.pmuactv = 1;
++ DWC_MODIFY_REG32(&core_if->core_global_regs->gpwrdn, gpwrdn.d32, 0);
++ dwc_udelay(10);
++
++ /* Start the Resume operation by programming HPRT0 */
++ hprt0.d32 = core_if->hr_backup->hprt0_local;
++ hprt0.b.prtpwr = 1;
++ hprt0.b.prtena = 0;
++ hprt0.b.prtsusp = 0;
++ DWC_WRITE_REG32(core_if->host_if->hprt0, hprt0.d32);
++
++ DWC_PRINTF("Resume Starts Now\n");
++ if (!reset) { // Indicates it is Resume Operation
++ hprt0.d32 = core_if->hr_backup->hprt0_local;
++ hprt0.b.prtres = 1;
++ hprt0.b.prtpwr = 1;
++ hprt0.b.prtena = 0;
++ hprt0.b.prtsusp = 0;
++ DWC_WRITE_REG32(core_if->host_if->hprt0, hprt0.d32);
++
++ if (!rem_wakeup)
++ hprt0.b.prtres = 0;
++ /* Wait for Resume time and then program HPRT again */
++ dwc_mdelay(100);
++ DWC_WRITE_REG32(core_if->host_if->hprt0, hprt0.d32);
++
++ } else { // Indicates it is Reset Operation
++ hprt0.d32 = core_if->hr_backup->hprt0_local;
++ hprt0.b.prtrst = 1;
++ hprt0.b.prtpwr = 1;
++ hprt0.b.prtena = 0;
++ hprt0.b.prtsusp = 0;
++ DWC_WRITE_REG32(core_if->host_if->hprt0, hprt0.d32);
++ /* Wait for Reset time and then program HPRT again */
++ dwc_mdelay(60);
++ hprt0.b.prtrst = 0;
++ DWC_WRITE_REG32(core_if->host_if->hprt0, hprt0.d32);
++ }
++ /* Clear all interrupt status */
++ hprt0.d32 = dwc_otg_read_hprt0(core_if);
++ hprt0.b.prtconndet = 1;
++ hprt0.b.prtenchng = 1;
++ DWC_WRITE_REG32(core_if->host_if->hprt0, hprt0.d32);
++
++ /* Clear all pending interupts */
++ DWC_WRITE_REG32(&core_if->core_global_regs->gintsts, 0xFFFFFFFF);
++
++ /* Restore global registers */
++ dwc_otg_restore_global_regs(core_if);
++ /* Restore host global registers */
++ dwc_otg_restore_host_regs(core_if, reset);
++
++ /* The core will be in ON STATE */
++ core_if->lx_state = DWC_OTG_L0;
++ DWC_PRINTF("Hibernation recovery is complete here\n");
++ return 0;
++}
++
++/** Saves some register values into system memory. */
++int dwc_otg_save_global_regs(dwc_otg_core_if_t * core_if)
++{
++ struct dwc_otg_global_regs_backup *gr;
++ int i;
++
++ gr = core_if->gr_backup;
++ if (!gr) {
++ gr = DWC_ALLOC(sizeof(*gr));
++ if (!gr) {
++ return -DWC_E_NO_MEMORY;
++ }
++ core_if->gr_backup = gr;
++ }
++
++ gr->gotgctl_local = DWC_READ_REG32(&core_if->core_global_regs->gotgctl);
++ gr->gintmsk_local = DWC_READ_REG32(&core_if->core_global_regs->gintmsk);
++ gr->gahbcfg_local = DWC_READ_REG32(&core_if->core_global_regs->gahbcfg);
++ gr->gusbcfg_local = DWC_READ_REG32(&core_if->core_global_regs->gusbcfg);
++ gr->grxfsiz_local = DWC_READ_REG32(&core_if->core_global_regs->grxfsiz);
++ gr->gnptxfsiz_local = DWC_READ_REG32(&core_if->core_global_regs->gnptxfsiz);
++ gr->hptxfsiz_local = DWC_READ_REG32(&core_if->core_global_regs->hptxfsiz);
++#ifdef CONFIG_USB_DWC_OTG_LPM
++ gr->glpmcfg_local = DWC_READ_REG32(&core_if->core_global_regs->glpmcfg);
++#endif
++ gr->gi2cctl_local = DWC_READ_REG32(&core_if->core_global_regs->gi2cctl);
++ gr->pcgcctl_local = DWC_READ_REG32(core_if->pcgcctl);
++ gr->gdfifocfg_local =
++ DWC_READ_REG32(&core_if->core_global_regs->gdfifocfg);
++ for (i = 0; i < MAX_EPS_CHANNELS; i++) {
++ gr->dtxfsiz_local[i] =
++ DWC_READ_REG32(&(core_if->core_global_regs->dtxfsiz[i]));
++ }
++
++ DWC_DEBUGPL(DBG_ANY, "===========Backing Global registers==========\n");
++ DWC_DEBUGPL(DBG_ANY, "Backed up gotgctl = %08x\n", gr->gotgctl_local);
++ DWC_DEBUGPL(DBG_ANY, "Backed up gintmsk = %08x\n", gr->gintmsk_local);
++ DWC_DEBUGPL(DBG_ANY, "Backed up gahbcfg = %08x\n", gr->gahbcfg_local);
++ DWC_DEBUGPL(DBG_ANY, "Backed up gusbcfg = %08x\n", gr->gusbcfg_local);
++ DWC_DEBUGPL(DBG_ANY, "Backed up grxfsiz = %08x\n", gr->grxfsiz_local);
++ DWC_DEBUGPL(DBG_ANY, "Backed up gnptxfsiz = %08x\n",
++ gr->gnptxfsiz_local);
++ DWC_DEBUGPL(DBG_ANY, "Backed up hptxfsiz = %08x\n",
++ gr->hptxfsiz_local);
++#ifdef CONFIG_USB_DWC_OTG_LPM
++ DWC_DEBUGPL(DBG_ANY, "Backed up glpmcfg = %08x\n", gr->glpmcfg_local);
++#endif
++ DWC_DEBUGPL(DBG_ANY, "Backed up gi2cctl = %08x\n", gr->gi2cctl_local);
++ DWC_DEBUGPL(DBG_ANY, "Backed up pcgcctl = %08x\n", gr->pcgcctl_local);
++ DWC_DEBUGPL(DBG_ANY,"Backed up gdfifocfg = %08x\n",gr->gdfifocfg_local);
++
++ return 0;
++}
++
++/** Saves GINTMSK register before setting the msk bits. */
++int dwc_otg_save_gintmsk_reg(dwc_otg_core_if_t * core_if)
++{
++ struct dwc_otg_global_regs_backup *gr;
++
++ gr = core_if->gr_backup;
++ if (!gr) {
++ gr = DWC_ALLOC(sizeof(*gr));
++ if (!gr) {
++ return -DWC_E_NO_MEMORY;
++ }
++ core_if->gr_backup = gr;
++ }
++
++ gr->gintmsk_local = DWC_READ_REG32(&core_if->core_global_regs->gintmsk);
++
++ DWC_DEBUGPL(DBG_ANY,"=============Backing GINTMSK registers============\n");
++ DWC_DEBUGPL(DBG_ANY, "Backed up gintmsk = %08x\n", gr->gintmsk_local);
++
++ return 0;
++}
++
++int dwc_otg_save_dev_regs(dwc_otg_core_if_t * core_if)
++{
++ struct dwc_otg_dev_regs_backup *dr;
++ int i;
++
++ dr = core_if->dr_backup;
++ if (!dr) {
++ dr = DWC_ALLOC(sizeof(*dr));
++ if (!dr) {
++ return -DWC_E_NO_MEMORY;
++ }
++ core_if->dr_backup = dr;
++ }
++
++ dr->dcfg = DWC_READ_REG32(&core_if->dev_if->dev_global_regs->dcfg);
++ dr->dctl = DWC_READ_REG32(&core_if->dev_if->dev_global_regs->dctl);
++ dr->daintmsk =
++ DWC_READ_REG32(&core_if->dev_if->dev_global_regs->daintmsk);
++ dr->diepmsk =
++ DWC_READ_REG32(&core_if->dev_if->dev_global_regs->diepmsk);
++ dr->doepmsk =
++ DWC_READ_REG32(&core_if->dev_if->dev_global_regs->doepmsk);
++
++ for (i = 0; i < core_if->dev_if->num_in_eps; ++i) {
++ dr->diepctl[i] =
++ DWC_READ_REG32(&core_if->dev_if->in_ep_regs[i]->diepctl);
++ dr->dieptsiz[i] =
++ DWC_READ_REG32(&core_if->dev_if->in_ep_regs[i]->dieptsiz);
++ dr->diepdma[i] =
++ DWC_READ_REG32(&core_if->dev_if->in_ep_regs[i]->diepdma);
++ }
++
++ DWC_DEBUGPL(DBG_ANY,
++ "=============Backing Host registers==============\n");
++ DWC_DEBUGPL(DBG_ANY, "Backed up dcfg = %08x\n", dr->dcfg);
++ DWC_DEBUGPL(DBG_ANY, "Backed up dctl = %08x\n", dr->dctl);
++ DWC_DEBUGPL(DBG_ANY, "Backed up daintmsk = %08x\n",
++ dr->daintmsk);
++ DWC_DEBUGPL(DBG_ANY, "Backed up diepmsk = %08x\n", dr->diepmsk);
++ DWC_DEBUGPL(DBG_ANY, "Backed up doepmsk = %08x\n", dr->doepmsk);
++ for (i = 0; i < core_if->dev_if->num_in_eps; ++i) {
++ DWC_DEBUGPL(DBG_ANY, "Backed up diepctl[%d] = %08x\n", i,
++ dr->diepctl[i]);
++ DWC_DEBUGPL(DBG_ANY, "Backed up dieptsiz[%d] = %08x\n",
++ i, dr->dieptsiz[i]);
++ DWC_DEBUGPL(DBG_ANY, "Backed up diepdma[%d] = %08x\n", i,
++ dr->diepdma[i]);
++ }
++
++ return 0;
++}
++
++int dwc_otg_save_host_regs(dwc_otg_core_if_t * core_if)
++{
++ struct dwc_otg_host_regs_backup *hr;
++ int i;
++
++ hr = core_if->hr_backup;
++ if (!hr) {
++ hr = DWC_ALLOC(sizeof(*hr));
++ if (!hr) {
++ return -DWC_E_NO_MEMORY;
++ }
++ core_if->hr_backup = hr;
++ }
++
++ hr->hcfg_local =
++ DWC_READ_REG32(&core_if->host_if->host_global_regs->hcfg);
++ hr->haintmsk_local =
++ DWC_READ_REG32(&core_if->host_if->host_global_regs->haintmsk);
++ for (i = 0; i < dwc_otg_get_param_host_channels(core_if); ++i) {
++ hr->hcintmsk_local[i] =
++ DWC_READ_REG32(&core_if->host_if->hc_regs[i]->hcintmsk);
++ }
++ hr->hprt0_local = DWC_READ_REG32(core_if->host_if->hprt0);
++ hr->hfir_local =
++ DWC_READ_REG32(&core_if->host_if->host_global_regs->hfir);
++
++ DWC_DEBUGPL(DBG_ANY,
++ "=============Backing Host registers===============\n");
++ DWC_DEBUGPL(DBG_ANY, "Backed up hcfg = %08x\n",
++ hr->hcfg_local);
++ DWC_DEBUGPL(DBG_ANY, "Backed up haintmsk = %08x\n", hr->haintmsk_local);
++ for (i = 0; i < dwc_otg_get_param_host_channels(core_if); ++i) {
++ DWC_DEBUGPL(DBG_ANY, "Backed up hcintmsk[%02d]=%08x\n", i,
++ hr->hcintmsk_local[i]);
++ }
++ DWC_DEBUGPL(DBG_ANY, "Backed up hprt0 = %08x\n",
++ hr->hprt0_local);
++ DWC_DEBUGPL(DBG_ANY, "Backed up hfir = %08x\n",
++ hr->hfir_local);
++
++ return 0;
++}
++
++int dwc_otg_restore_global_regs(dwc_otg_core_if_t *core_if)
++{
++ struct dwc_otg_global_regs_backup *gr;
++ int i;
++
++ gr = core_if->gr_backup;
++ if (!gr) {
++ return -DWC_E_INVALID;
++ }
++
++ DWC_WRITE_REG32(&core_if->core_global_regs->gotgctl, gr->gotgctl_local);
++ DWC_WRITE_REG32(&core_if->core_global_regs->gintmsk, gr->gintmsk_local);
++ DWC_WRITE_REG32(&core_if->core_global_regs->gusbcfg, gr->gusbcfg_local);
++ DWC_WRITE_REG32(&core_if->core_global_regs->gahbcfg, gr->gahbcfg_local);
++ DWC_WRITE_REG32(&core_if->core_global_regs->grxfsiz, gr->grxfsiz_local);
++ DWC_WRITE_REG32(&core_if->core_global_regs->gnptxfsiz,
++ gr->gnptxfsiz_local);
++ DWC_WRITE_REG32(&core_if->core_global_regs->hptxfsiz,
++ gr->hptxfsiz_local);
++ DWC_WRITE_REG32(&core_if->core_global_regs->gdfifocfg,
++ gr->gdfifocfg_local);
++ for (i = 0; i < MAX_EPS_CHANNELS; i++) {
++ DWC_WRITE_REG32(&core_if->core_global_regs->dtxfsiz[i],
++ gr->dtxfsiz_local[i]);
++ }
++
++ DWC_WRITE_REG32(&core_if->core_global_regs->gintsts, 0xFFFFFFFF);
++ DWC_WRITE_REG32(core_if->host_if->hprt0, 0x0000100A);
++ DWC_WRITE_REG32(&core_if->core_global_regs->gahbcfg,
++ (gr->gahbcfg_local));
++ return 0;
++}
++
++int dwc_otg_restore_dev_regs(dwc_otg_core_if_t * core_if, int rem_wakeup)
++{
++ struct dwc_otg_dev_regs_backup *dr;
++ int i;
++
++ dr = core_if->dr_backup;
++
++ if (!dr) {
++ return -DWC_E_INVALID;
++ }
++
++ if (!rem_wakeup) {
++ DWC_WRITE_REG32(&core_if->dev_if->dev_global_regs->dctl,
++ dr->dctl);
++ }
++
++ DWC_WRITE_REG32(&core_if->dev_if->dev_global_regs->daintmsk, dr->daintmsk);
++ DWC_WRITE_REG32(&core_if->dev_if->dev_global_regs->diepmsk, dr->diepmsk);
++ DWC_WRITE_REG32(&core_if->dev_if->dev_global_regs->doepmsk, dr->doepmsk);
++
++ for (i = 0; i < core_if->dev_if->num_in_eps; ++i) {
++ DWC_WRITE_REG32(&core_if->dev_if->in_ep_regs[i]->dieptsiz, dr->dieptsiz[i]);
++ DWC_WRITE_REG32(&core_if->dev_if->in_ep_regs[i]->diepdma, dr->diepdma[i]);
++ DWC_WRITE_REG32(&core_if->dev_if->in_ep_regs[i]->diepctl, dr->diepctl[i]);
++ }
++
++ return 0;
++}
++
++int dwc_otg_restore_host_regs(dwc_otg_core_if_t * core_if, int reset)
++{
++ struct dwc_otg_host_regs_backup *hr;
++ int i;
++ hr = core_if->hr_backup;
++
++ if (!hr) {
++ return -DWC_E_INVALID;
++ }
++
++ DWC_WRITE_REG32(&core_if->host_if->host_global_regs->hcfg, hr->hcfg_local);
++ //if (!reset)
++ //{
++ // DWC_WRITE_REG32(&core_if->host_if->host_global_regs->hfir, hr->hfir_local);
++ //}
++
++ DWC_WRITE_REG32(&core_if->host_if->host_global_regs->haintmsk,
++ hr->haintmsk_local);
++ for (i = 0; i < dwc_otg_get_param_host_channels(core_if); ++i) {
++ DWC_WRITE_REG32(&core_if->host_if->hc_regs[i]->hcintmsk,
++ hr->hcintmsk_local[i]);
++ }
++
++ return 0;
++}
++
++int restore_lpm_i2c_regs(dwc_otg_core_if_t * core_if)
++{
++ struct dwc_otg_global_regs_backup *gr;
++
++ gr = core_if->gr_backup;
++
++ /* Restore values for LPM and I2C */
++#ifdef CONFIG_USB_DWC_OTG_LPM
++ DWC_WRITE_REG32(&core_if->core_global_regs->glpmcfg, gr->glpmcfg_local);
++#endif
++ DWC_WRITE_REG32(&core_if->core_global_regs->gi2cctl, gr->gi2cctl_local);
++
++ return 0;
++}
++
++int restore_essential_regs(dwc_otg_core_if_t * core_if, int rmode, int is_host)
++{
++ struct dwc_otg_global_regs_backup *gr;
++ pcgcctl_data_t pcgcctl = {.d32 = 0 };
++ gahbcfg_data_t gahbcfg = {.d32 = 0 };
++ gusbcfg_data_t gusbcfg = {.d32 = 0 };
++ gintmsk_data_t gintmsk = {.d32 = 0 };
++
++ /* Restore LPM and I2C registers */
++ restore_lpm_i2c_regs(core_if);
++
++ /* Set PCGCCTL to 0 */
++ DWC_WRITE_REG32(core_if->pcgcctl, 0x00000000);
++
++ gr = core_if->gr_backup;
++ /* Load restore values for [31:14] bits */
++ DWC_WRITE_REG32(core_if->pcgcctl,
++ ((gr->pcgcctl_local & 0xffffc000) | 0x00020000));
++
++ /* Umnask global Interrupt in GAHBCFG and restore it */
++ gahbcfg.d32 = gr->gahbcfg_local;
++ gahbcfg.b.glblintrmsk = 1;
++ DWC_WRITE_REG32(&core_if->core_global_regs->gahbcfg, gahbcfg.d32);
++
++ /* Clear all pending interupts */
++ DWC_WRITE_REG32(&core_if->core_global_regs->gintsts, 0xFFFFFFFF);
++
++ /* Unmask restore done interrupt */
++ gintmsk.b.restoredone = 1;
++ DWC_WRITE_REG32(&core_if->core_global_regs->gintmsk, gintmsk.d32);
++
++ /* Restore GUSBCFG and HCFG/DCFG */
++ gusbcfg.d32 = core_if->gr_backup->gusbcfg_local;
++ DWC_WRITE_REG32(&core_if->core_global_regs->gusbcfg, gusbcfg.d32);
++
++ if (is_host) {
++ hcfg_data_t hcfg = {.d32 = 0 };
++ hcfg.d32 = core_if->hr_backup->hcfg_local;
++ DWC_WRITE_REG32(&core_if->host_if->host_global_regs->hcfg,
++ hcfg.d32);
++
++ /* Load restore values for [31:14] bits */
++ pcgcctl.d32 = gr->pcgcctl_local & 0xffffc000;
++ pcgcctl.d32 = gr->pcgcctl_local | 0x00020000;
++
++ if (rmode)
++ pcgcctl.b.restoremode = 1;
++ DWC_WRITE_REG32(core_if->pcgcctl, pcgcctl.d32);
++ dwc_udelay(10);
++
++ /* Load restore values for [31:14] bits and set EssRegRestored bit */
++ pcgcctl.d32 = gr->pcgcctl_local | 0xffffc000;
++ pcgcctl.d32 = gr->pcgcctl_local & 0xffffc000;
++ pcgcctl.b.ess_reg_restored = 1;
++ if (rmode)
++ pcgcctl.b.restoremode = 1;
++ DWC_WRITE_REG32(core_if->pcgcctl, pcgcctl.d32);
++ } else {
++ dcfg_data_t dcfg = {.d32 = 0 };
++ dcfg.d32 = core_if->dr_backup->dcfg;
++ DWC_WRITE_REG32(&core_if->dev_if->dev_global_regs->dcfg, dcfg.d32);
++
++ /* Load restore values for [31:14] bits */
++ pcgcctl.d32 = gr->pcgcctl_local & 0xffffc000;
++ pcgcctl.d32 = gr->pcgcctl_local | 0x00020000;
++ if (!rmode) {
++ pcgcctl.d32 |= 0x208;
++ }
++ DWC_WRITE_REG32(core_if->pcgcctl, pcgcctl.d32);
++ dwc_udelay(10);
++
++ /* Load restore values for [31:14] bits */
++ pcgcctl.d32 = gr->pcgcctl_local & 0xffffc000;
++ pcgcctl.d32 = gr->pcgcctl_local | 0x00020000;
++ pcgcctl.b.ess_reg_restored = 1;
++ if (!rmode)
++ pcgcctl.d32 |= 0x208;
++ DWC_WRITE_REG32(core_if->pcgcctl, pcgcctl.d32);
++ }
++
++ return 0;
++}
++
++/**
++ * Initializes the FSLSPClkSel field of the HCFG register depending on the PHY
++ * type.
++ */
++static void init_fslspclksel(dwc_otg_core_if_t * core_if)
++{
++ uint32_t val;
++ hcfg_data_t hcfg;
++
++ if (((core_if->hwcfg2.b.hs_phy_type == 2) &&
++ (core_if->hwcfg2.b.fs_phy_type == 1) &&
++ (core_if->core_params->ulpi_fs_ls)) ||
++ (core_if->core_params->phy_type == DWC_PHY_TYPE_PARAM_FS)) {
++ /* Full speed PHY */
++ val = DWC_HCFG_48_MHZ;
++ } else {
++ /* High speed PHY running at full speed or high speed */
++ val = DWC_HCFG_30_60_MHZ;
++ }
++
++ DWC_DEBUGPL(DBG_CIL, "Initializing HCFG.FSLSPClkSel to 0x%1x\n", val);
++ hcfg.d32 = DWC_READ_REG32(&core_if->host_if->host_global_regs->hcfg);
++ hcfg.b.fslspclksel = val;
++ DWC_WRITE_REG32(&core_if->host_if->host_global_regs->hcfg, hcfg.d32);
++}
++
++/**
++ * Initializes the DevSpd field of the DCFG register depending on the PHY type
++ * and the enumeration speed of the device.
++ */
++static void init_devspd(dwc_otg_core_if_t * core_if)
++{
++ uint32_t val;
++ dcfg_data_t dcfg;
++
++ if (((core_if->hwcfg2.b.hs_phy_type == 2) &&
++ (core_if->hwcfg2.b.fs_phy_type == 1) &&
++ (core_if->core_params->ulpi_fs_ls)) ||
++ (core_if->core_params->phy_type == DWC_PHY_TYPE_PARAM_FS)) {
++ /* Full speed PHY */
++ val = 0x3;
++ } else if (core_if->core_params->speed == DWC_SPEED_PARAM_FULL) {
++ /* High speed PHY running at full speed */
++ val = 0x1;
++ } else {
++ /* High speed PHY running at high speed */
++ val = 0x0;
++ }
++
++ DWC_DEBUGPL(DBG_CIL, "Initializing DCFG.DevSpd to 0x%1x\n", val);
++
++ dcfg.d32 = DWC_READ_REG32(&core_if->dev_if->dev_global_regs->dcfg);
++ dcfg.b.devspd = val;
++ DWC_WRITE_REG32(&core_if->dev_if->dev_global_regs->dcfg, dcfg.d32);
++}
++
++/**
++ * This function calculates the number of IN EPS
++ * using GHWCFG1 and GHWCFG2 registers values
++ *
++ * @param core_if Programming view of the DWC_otg controller
++ */
++static uint32_t calc_num_in_eps(dwc_otg_core_if_t * core_if)
++{
++ uint32_t num_in_eps = 0;
++ uint32_t num_eps = core_if->hwcfg2.b.num_dev_ep;
++ uint32_t hwcfg1 = core_if->hwcfg1.d32 >> 3;
++ uint32_t num_tx_fifos = core_if->hwcfg4.b.num_in_eps;
++ int i;
++
++ for (i = 0; i < num_eps; ++i) {
++ if (!(hwcfg1 & 0x1))
++ num_in_eps++;
++
++ hwcfg1 >>= 2;
++ }
++
++ if (core_if->hwcfg4.b.ded_fifo_en) {
++ num_in_eps =
++ (num_in_eps > num_tx_fifos) ? num_tx_fifos : num_in_eps;
++ }
++
++ return num_in_eps;
++}
++
++/**
++ * This function calculates the number of OUT EPS
++ * using GHWCFG1 and GHWCFG2 registers values
++ *
++ * @param core_if Programming view of the DWC_otg controller
++ */
++static uint32_t calc_num_out_eps(dwc_otg_core_if_t * core_if)
++{
++ uint32_t num_out_eps = 0;
++ uint32_t num_eps = core_if->hwcfg2.b.num_dev_ep;
++ uint32_t hwcfg1 = core_if->hwcfg1.d32 >> 2;
++ int i;
++
++ for (i = 0; i < num_eps; ++i) {
++ if (!(hwcfg1 & 0x1))
++ num_out_eps++;
++
++ hwcfg1 >>= 2;
++ }
++ return num_out_eps;
++}
++
++/**
++ * This function initializes the DWC_otg controller registers and
++ * prepares the core for device mode or host mode operation.
++ *
++ * @param core_if Programming view of the DWC_otg controller
++ *
++ */
++void dwc_otg_core_init(dwc_otg_core_if_t * core_if)
++{
++ int i = 0;
++ dwc_otg_core_global_regs_t *global_regs = core_if->core_global_regs;
++ dwc_otg_dev_if_t *dev_if = core_if->dev_if;
++ gahbcfg_data_t ahbcfg = {.d32 = 0 };
++ gusbcfg_data_t usbcfg = {.d32 = 0 };
++ gi2cctl_data_t i2cctl = {.d32 = 0 };
++
++ DWC_DEBUGPL(DBG_CILV, "dwc_otg_core_init(%p) regs at %p\n",
++ core_if, global_regs);
++
++ /* Common Initialization */
++ usbcfg.d32 = DWC_READ_REG32(&global_regs->gusbcfg);
++
++ /* Program the ULPI External VBUS bit if needed */
++ usbcfg.b.ulpi_ext_vbus_drv =
++ (core_if->core_params->phy_ulpi_ext_vbus ==
++ DWC_PHY_ULPI_EXTERNAL_VBUS) ? 1 : 0;
++
++ /* Set external TS Dline pulsing */
++ usbcfg.b.term_sel_dl_pulse =
++ (core_if->core_params->ts_dline == 1) ? 1 : 0;
++ DWC_WRITE_REG32(&global_regs->gusbcfg, usbcfg.d32);
++
++ /* Reset the Controller */
++ dwc_otg_core_reset(core_if);
++
++ core_if->adp_enable = core_if->core_params->adp_supp_enable;
++ core_if->power_down = core_if->core_params->power_down;
++ core_if->otg_sts = 0;
++
++ /* Initialize parameters from Hardware configuration registers. */
++ dev_if->num_in_eps = calc_num_in_eps(core_if);
++ dev_if->num_out_eps = calc_num_out_eps(core_if);
++
++ DWC_DEBUGPL(DBG_CIL, "num_dev_perio_in_ep=%d\n",
++ core_if->hwcfg4.b.num_dev_perio_in_ep);
++
++ for (i = 0; i < core_if->hwcfg4.b.num_dev_perio_in_ep; i++) {
++ dev_if->perio_tx_fifo_size[i] =
++ DWC_READ_REG32(&global_regs->dtxfsiz[i]) >> 16;
++ DWC_DEBUGPL(DBG_CIL, "Periodic Tx FIFO SZ #%d=0x%0x\n",
++ i, dev_if->perio_tx_fifo_size[i]);
++ }
++
++ for (i = 0; i < core_if->hwcfg4.b.num_in_eps; i++) {
++ dev_if->tx_fifo_size[i] =
++ DWC_READ_REG32(&global_regs->dtxfsiz[i]) >> 16;
++ DWC_DEBUGPL(DBG_CIL, "Tx FIFO SZ #%d=0x%0x\n",
++ i, dev_if->tx_fifo_size[i]);
++ }
++
++ core_if->total_fifo_size = core_if->hwcfg3.b.dfifo_depth;
++ core_if->rx_fifo_size = DWC_READ_REG32(&global_regs->grxfsiz);
++ core_if->nperio_tx_fifo_size =
++ DWC_READ_REG32(&global_regs->gnptxfsiz) >> 16;
++
++ DWC_DEBUGPL(DBG_CIL, "Total FIFO SZ=%d\n", core_if->total_fifo_size);
++ DWC_DEBUGPL(DBG_CIL, "Rx FIFO SZ=%d\n", core_if->rx_fifo_size);
++ DWC_DEBUGPL(DBG_CIL, "NP Tx FIFO SZ=%d\n",
++ core_if->nperio_tx_fifo_size);
++
++ /* This programming sequence needs to happen in FS mode before any other
++ * programming occurs */
++ if ((core_if->core_params->speed == DWC_SPEED_PARAM_FULL) &&
++ (core_if->core_params->phy_type == DWC_PHY_TYPE_PARAM_FS)) {
++ /* If FS mode with FS PHY */
++
++ /* core_init() is now called on every switch so only call the
++ * following for the first time through. */
++ if (!core_if->phy_init_done) {
++ core_if->phy_init_done = 1;
++ DWC_DEBUGPL(DBG_CIL, "FS_PHY detected\n");
++ usbcfg.d32 = DWC_READ_REG32(&global_regs->gusbcfg);
++ usbcfg.b.physel = 1;
++ DWC_WRITE_REG32(&global_regs->gusbcfg, usbcfg.d32);
++
++ /* Reset after a PHY select */
++ dwc_otg_core_reset(core_if);
++ }
++
++ /* Program DCFG.DevSpd or HCFG.FSLSPclkSel to 48Mhz in FS. Also
++ * do this on HNP Dev/Host mode switches (done in dev_init and
++ * host_init). */
++ if (dwc_otg_is_host_mode(core_if)) {
++ init_fslspclksel(core_if);
++ } else {
++ init_devspd(core_if);
++ }
++
++ if (core_if->core_params->i2c_enable) {
++ DWC_DEBUGPL(DBG_CIL, "FS_PHY Enabling I2c\n");
++ /* Program GUSBCFG.OtgUtmifsSel to I2C */
++ usbcfg.d32 = DWC_READ_REG32(&global_regs->gusbcfg);
++ usbcfg.b.otgutmifssel = 1;
++ DWC_WRITE_REG32(&global_regs->gusbcfg, usbcfg.d32);
++
++ /* Program GI2CCTL.I2CEn */
++ i2cctl.d32 = DWC_READ_REG32(&global_regs->gi2cctl);
++ i2cctl.b.i2cdevaddr = 1;
++ i2cctl.b.i2cen = 0;
++ DWC_WRITE_REG32(&global_regs->gi2cctl, i2cctl.d32);
++ i2cctl.b.i2cen = 1;
++ DWC_WRITE_REG32(&global_regs->gi2cctl, i2cctl.d32);
++ }
++
++ } /* endif speed == DWC_SPEED_PARAM_FULL */
++ else {
++ /* High speed PHY. */
++ if (!core_if->phy_init_done) {
++ core_if->phy_init_done = 1;
++ /* HS PHY parameters. These parameters are preserved
++ * during soft reset so only program the first time. Do
++ * a soft reset immediately after setting phyif. */
++
++ if (core_if->core_params->phy_type == 2) {
++ /* ULPI interface */
++ usbcfg.b.ulpi_utmi_sel = 1;
++ usbcfg.b.phyif = 0;
++ usbcfg.b.ddrsel =
++ core_if->core_params->phy_ulpi_ddr;
++ } else if (core_if->core_params->phy_type == 1) {
++ /* UTMI+ interface */
++ usbcfg.b.ulpi_utmi_sel = 0;
++ if (core_if->core_params->phy_utmi_width == 16) {
++ usbcfg.b.phyif = 1;
++
++ } else {
++ usbcfg.b.phyif = 0;
++ }
++ } else {
++ DWC_ERROR("FS PHY TYPE\n");
++ }
++ DWC_WRITE_REG32(&global_regs->gusbcfg, usbcfg.d32);
++ /* Reset after setting the PHY parameters */
++ dwc_otg_core_reset(core_if);
++ }
++ }
++
++ if ((core_if->hwcfg2.b.hs_phy_type == 2) &&
++ (core_if->hwcfg2.b.fs_phy_type == 1) &&
++ (core_if->core_params->ulpi_fs_ls)) {
++ DWC_DEBUGPL(DBG_CIL, "Setting ULPI FSLS\n");
++ usbcfg.d32 = DWC_READ_REG32(&global_regs->gusbcfg);
++ usbcfg.b.ulpi_fsls = 1;
++ usbcfg.b.ulpi_clk_sus_m = 1;
++ DWC_WRITE_REG32(&global_regs->gusbcfg, usbcfg.d32);
++ } else {
++ usbcfg.d32 = DWC_READ_REG32(&global_regs->gusbcfg);
++ usbcfg.b.ulpi_fsls = 0;
++ usbcfg.b.ulpi_clk_sus_m = 0;
++ DWC_WRITE_REG32(&global_regs->gusbcfg, usbcfg.d32);
++ }
++
++ /* Program the GAHBCFG Register. */
++ switch (core_if->hwcfg2.b.architecture) {
++
++ case DWC_SLAVE_ONLY_ARCH:
++ DWC_DEBUGPL(DBG_CIL, "Slave Only Mode\n");
++ ahbcfg.b.nptxfemplvl_txfemplvl =
++ DWC_GAHBCFG_TXFEMPTYLVL_HALFEMPTY;
++ ahbcfg.b.ptxfemplvl = DWC_GAHBCFG_TXFEMPTYLVL_HALFEMPTY;
++ core_if->dma_enable = 0;
++ core_if->dma_desc_enable = 0;
++ break;
++
++ case DWC_EXT_DMA_ARCH:
++ DWC_DEBUGPL(DBG_CIL, "External DMA Mode\n");
++ {
++ uint8_t brst_sz = core_if->core_params->dma_burst_size;
++ ahbcfg.b.hburstlen = 0;
++ while (brst_sz > 1) {
++ ahbcfg.b.hburstlen++;
++ brst_sz >>= 1;
++ }
++ }
++ core_if->dma_enable = (core_if->core_params->dma_enable != 0);
++ core_if->dma_desc_enable =
++ (core_if->core_params->dma_desc_enable != 0);
++ break;
++
++ case DWC_INT_DMA_ARCH:
++ DWC_DEBUGPL(DBG_CIL, "Internal DMA Mode\n");
++ /* Old value was DWC_GAHBCFG_INT_DMA_BURST_INCR - done for
++ Host mode ISOC in issue fix - vahrama */
++ /* Broadcom had altered to (1<<3)|(0<<0) - WRESP=1, max 4 beats */
++ ahbcfg.b.hburstlen = (1<<3)|(0<<0);//DWC_GAHBCFG_INT_DMA_BURST_INCR4;
++ core_if->dma_enable = (core_if->core_params->dma_enable != 0);
++ core_if->dma_desc_enable =
++ (core_if->core_params->dma_desc_enable != 0);
++ break;
++
++ }
++ if (core_if->dma_enable) {
++ if (core_if->dma_desc_enable) {
++ DWC_PRINTF("Using Descriptor DMA mode\n");
++ } else {
++ DWC_PRINTF("Using Buffer DMA mode\n");
++
++ }
++ } else {
++ DWC_PRINTF("Using Slave mode\n");
++ core_if->dma_desc_enable = 0;
++ }
++
++ if (core_if->core_params->ahb_single) {
++ ahbcfg.b.ahbsingle = 1;
++ }
++
++ ahbcfg.b.dmaenable = core_if->dma_enable;
++ DWC_WRITE_REG32(&global_regs->gahbcfg, ahbcfg.d32);
++
++ core_if->en_multiple_tx_fifo = core_if->hwcfg4.b.ded_fifo_en;
++
++ core_if->pti_enh_enable = core_if->core_params->pti_enable != 0;
++ core_if->multiproc_int_enable = core_if->core_params->mpi_enable;
++ DWC_PRINTF("Periodic Transfer Interrupt Enhancement - %s\n",
++ ((core_if->pti_enh_enable) ? "enabled" : "disabled"));
++ DWC_PRINTF("Multiprocessor Interrupt Enhancement - %s\n",
++ ((core_if->multiproc_int_enable) ? "enabled" : "disabled"));
++
++ /*
++ * Program the GUSBCFG register.
++ */
++ usbcfg.d32 = DWC_READ_REG32(&global_regs->gusbcfg);
++
++ switch (core_if->hwcfg2.b.op_mode) {
++ case DWC_MODE_HNP_SRP_CAPABLE:
++ usbcfg.b.hnpcap = (core_if->core_params->otg_cap ==
++ DWC_OTG_CAP_PARAM_HNP_SRP_CAPABLE);
++ usbcfg.b.srpcap = (core_if->core_params->otg_cap !=
++ DWC_OTG_CAP_PARAM_NO_HNP_SRP_CAPABLE);
++ break;
++
++ case DWC_MODE_SRP_ONLY_CAPABLE:
++ usbcfg.b.hnpcap = 0;
++ usbcfg.b.srpcap = (core_if->core_params->otg_cap !=
++ DWC_OTG_CAP_PARAM_NO_HNP_SRP_CAPABLE);
++ break;
++
++ case DWC_MODE_NO_HNP_SRP_CAPABLE:
++ usbcfg.b.hnpcap = 0;
++ usbcfg.b.srpcap = 0;
++ break;
++
++ case DWC_MODE_SRP_CAPABLE_DEVICE:
++ usbcfg.b.hnpcap = 0;
++ usbcfg.b.srpcap = (core_if->core_params->otg_cap !=
++ DWC_OTG_CAP_PARAM_NO_HNP_SRP_CAPABLE);
++ break;
++
++ case DWC_MODE_NO_SRP_CAPABLE_DEVICE:
++ usbcfg.b.hnpcap = 0;
++ usbcfg.b.srpcap = 0;
++ break;
++
++ case DWC_MODE_SRP_CAPABLE_HOST:
++ usbcfg.b.hnpcap = 0;
++ usbcfg.b.srpcap = (core_if->core_params->otg_cap !=
++ DWC_OTG_CAP_PARAM_NO_HNP_SRP_CAPABLE);
++ break;
++
++ case DWC_MODE_NO_SRP_CAPABLE_HOST:
++ usbcfg.b.hnpcap = 0;
++ usbcfg.b.srpcap = 0;
++ break;
++ }
++
++ DWC_WRITE_REG32(&global_regs->gusbcfg, usbcfg.d32);
++
++#ifdef CONFIG_USB_DWC_OTG_LPM
++ if (core_if->core_params->lpm_enable) {
++ glpmcfg_data_t lpmcfg = {.d32 = 0 };
++
++ /* To enable LPM support set lpm_cap_en bit */
++ lpmcfg.b.lpm_cap_en = 1;
++
++ /* Make AppL1Res ACK */
++ lpmcfg.b.appl_resp = 1;
++
++ /* Retry 3 times */
++ lpmcfg.b.retry_count = 3;
++
++ DWC_MODIFY_REG32(&core_if->core_global_regs->glpmcfg,
++ 0, lpmcfg.d32);
++
++ }
++#endif
++ if (core_if->core_params->ic_usb_cap) {
++ gusbcfg_data_t gusbcfg = {.d32 = 0 };
++ gusbcfg.b.ic_usb_cap = 1;
++ DWC_MODIFY_REG32(&core_if->core_global_regs->gusbcfg,
++ 0, gusbcfg.d32);
++ }
++ {
++ gotgctl_data_t gotgctl = {.d32 = 0 };
++ gotgctl.b.otgver = core_if->core_params->otg_ver;
++ DWC_MODIFY_REG32(&core_if->core_global_regs->gotgctl, 0,
++ gotgctl.d32);
++ /* Set OTG version supported */
++ core_if->otg_ver = core_if->core_params->otg_ver;
++ DWC_PRINTF("OTG VER PARAM: %d, OTG VER FLAG: %d\n",
++ core_if->core_params->otg_ver, core_if->otg_ver);
++ }
++
++
++ /* Enable common interrupts */
++ dwc_otg_enable_common_interrupts(core_if);
++
++ /* Do device or host intialization based on mode during PCD
++ * and HCD initialization */
++ if (dwc_otg_is_host_mode(core_if)) {
++ DWC_DEBUGPL(DBG_ANY, "Host Mode\n");
++ core_if->op_state = A_HOST;
++ } else {
++ DWC_DEBUGPL(DBG_ANY, "Device Mode\n");
++ core_if->op_state = B_PERIPHERAL;
++#ifdef DWC_DEVICE_ONLY
++ dwc_otg_core_dev_init(core_if);
++#endif
++ }
++}
++
++/**
++ * This function enables the Device mode interrupts.
++ *
++ * @param core_if Programming view of DWC_otg controller
++ */
++void dwc_otg_enable_device_interrupts(dwc_otg_core_if_t * core_if)
++{
++ gintmsk_data_t intr_mask = {.d32 = 0 };
++ dwc_otg_core_global_regs_t *global_regs = core_if->core_global_regs;
++
++ DWC_DEBUGPL(DBG_CIL, "%s()\n", __func__);
++
++ /* Disable all interrupts. */
++ DWC_WRITE_REG32(&global_regs->gintmsk, 0);
++
++ /* Clear any pending interrupts */
++ DWC_WRITE_REG32(&global_regs->gintsts, 0xFFFFFFFF);
++
++ /* Enable the common interrupts */
++ dwc_otg_enable_common_interrupts(core_if);
++
++ /* Enable interrupts */
++ intr_mask.b.usbreset = 1;
++ intr_mask.b.enumdone = 1;
++ /* Disable Disconnect interrupt in Device mode */
++ intr_mask.b.disconnect = 0;
++
++ if (!core_if->multiproc_int_enable) {
++ intr_mask.b.inepintr = 1;
++ intr_mask.b.outepintr = 1;
++ }
++
++ intr_mask.b.erlysuspend = 1;
++
++ if (core_if->en_multiple_tx_fifo == 0) {
++ intr_mask.b.epmismatch = 1;
++ }
++
++ //intr_mask.b.incomplisoout = 1;
++ intr_mask.b.incomplisoin = 1;
++
++/* Enable the ignore frame number for ISOC xfers - MAS */
++/* Disable to support high bandwith ISOC transfers - manukz */
++#if 0
++#ifdef DWC_UTE_PER_IO
++ if (core_if->dma_enable) {
++ if (core_if->dma_desc_enable) {
++ dctl_data_t dctl1 = {.d32 = 0 };
++ dctl1.b.ifrmnum = 1;
++ DWC_MODIFY_REG32(&core_if->dev_if->dev_global_regs->
++ dctl, 0, dctl1.d32);
++ DWC_DEBUG("----Enabled Ignore frame number (0x%08x)",
++ DWC_READ_REG32(&core_if->dev_if->
++ dev_global_regs->dctl));
++ }
++ }
++#endif
++#endif
++#ifdef DWC_EN_ISOC
++ if (core_if->dma_enable) {
++ if (core_if->dma_desc_enable == 0) {
++ if (core_if->pti_enh_enable) {
++ dctl_data_t dctl = {.d32 = 0 };
++ dctl.b.ifrmnum = 1;
++ DWC_MODIFY_REG32(&core_if->
++ dev_if->dev_global_regs->dctl,
++ 0, dctl.d32);
++ } else {
++ intr_mask.b.incomplisoin = 1;
++ intr_mask.b.incomplisoout = 1;
++ }
++ }
++ } else {
++ intr_mask.b.incomplisoin = 1;
++ intr_mask.b.incomplisoout = 1;
++ }
++#endif /* DWC_EN_ISOC */
++
++ /** @todo NGS: Should this be a module parameter? */
++#ifdef USE_PERIODIC_EP
++ intr_mask.b.isooutdrop = 1;
++ intr_mask.b.eopframe = 1;
++ intr_mask.b.incomplisoin = 1;
++ intr_mask.b.incomplisoout = 1;
++#endif
++
++ DWC_MODIFY_REG32(&global_regs->gintmsk, intr_mask.d32, intr_mask.d32);
++
++ DWC_DEBUGPL(DBG_CIL, "%s() gintmsk=%0x\n", __func__,
++ DWC_READ_REG32(&global_regs->gintmsk));
++}
++
++/**
++ * This function initializes the DWC_otg controller registers for
++ * device mode.
++ *
++ * @param core_if Programming view of DWC_otg controller
++ *
++ */
++void dwc_otg_core_dev_init(dwc_otg_core_if_t * core_if)
++{
++ int i;
++ dwc_otg_core_global_regs_t *global_regs = core_if->core_global_regs;
++ dwc_otg_dev_if_t *dev_if = core_if->dev_if;
++ dwc_otg_core_params_t *params = core_if->core_params;
++ dcfg_data_t dcfg = {.d32 = 0 };
++ depctl_data_t diepctl = {.d32 = 0 };
++ grstctl_t resetctl = {.d32 = 0 };
++ uint32_t rx_fifo_size;
++ fifosize_data_t nptxfifosize;
++ fifosize_data_t txfifosize;
++ dthrctl_data_t dthrctl;
++ fifosize_data_t ptxfifosize;
++ uint16_t rxfsiz, nptxfsiz;
++ gdfifocfg_data_t gdfifocfg = {.d32 = 0 };
++ hwcfg3_data_t hwcfg3 = {.d32 = 0 };
++
++ /* Restart the Phy Clock */
++ DWC_WRITE_REG32(core_if->pcgcctl, 0);
++
++ /* Device configuration register */
++ init_devspd(core_if);
++ dcfg.d32 = DWC_READ_REG32(&dev_if->dev_global_regs->dcfg);
++ dcfg.b.descdma = (core_if->dma_desc_enable) ? 1 : 0;
++ dcfg.b.perfrint = DWC_DCFG_FRAME_INTERVAL_80;
++ /* Enable Device OUT NAK in case of DDMA mode*/
++ if (core_if->core_params->dev_out_nak) {
++ dcfg.b.endevoutnak = 1;
++ }
++
++ if (core_if->core_params->cont_on_bna) {
++ dctl_data_t dctl = {.d32 = 0 };
++ dctl.b.encontonbna = 1;
++ DWC_MODIFY_REG32(&dev_if->dev_global_regs->dctl, 0, dctl.d32);
++ }
++
++
++ DWC_WRITE_REG32(&dev_if->dev_global_regs->dcfg, dcfg.d32);
++
++ /* Configure data FIFO sizes */
++ if (core_if->hwcfg2.b.dynamic_fifo && params->enable_dynamic_fifo) {
++ DWC_DEBUGPL(DBG_CIL, "Total FIFO Size=%d\n",
++ core_if->total_fifo_size);
++ DWC_DEBUGPL(DBG_CIL, "Rx FIFO Size=%d\n",
++ params->dev_rx_fifo_size);
++ DWC_DEBUGPL(DBG_CIL, "NP Tx FIFO Size=%d\n",
++ params->dev_nperio_tx_fifo_size);
++
++ /* Rx FIFO */
++ DWC_DEBUGPL(DBG_CIL, "initial grxfsiz=%08x\n",
++ DWC_READ_REG32(&global_regs->grxfsiz));
++
++#ifdef DWC_UTE_CFI
++ core_if->pwron_rxfsiz = DWC_READ_REG32(&global_regs->grxfsiz);
++ core_if->init_rxfsiz = params->dev_rx_fifo_size;
++#endif
++ rx_fifo_size = params->dev_rx_fifo_size;
++ DWC_WRITE_REG32(&global_regs->grxfsiz, rx_fifo_size);
++
++ DWC_DEBUGPL(DBG_CIL, "new grxfsiz=%08x\n",
++ DWC_READ_REG32(&global_regs->grxfsiz));
++
++ /** Set Periodic Tx FIFO Mask all bits 0 */
++ core_if->p_tx_msk = 0;
++
++ /** Set Tx FIFO Mask all bits 0 */
++ core_if->tx_msk = 0;
++
++ if (core_if->en_multiple_tx_fifo == 0) {
++ /* Non-periodic Tx FIFO */
++ DWC_DEBUGPL(DBG_CIL, "initial gnptxfsiz=%08x\n",
++ DWC_READ_REG32(&global_regs->gnptxfsiz));
++
++ nptxfifosize.b.depth = params->dev_nperio_tx_fifo_size;
++ nptxfifosize.b.startaddr = params->dev_rx_fifo_size;
++
++ DWC_WRITE_REG32(&global_regs->gnptxfsiz,
++ nptxfifosize.d32);
++
++ DWC_DEBUGPL(DBG_CIL, "new gnptxfsiz=%08x\n",
++ DWC_READ_REG32(&global_regs->gnptxfsiz));
++
++ /**@todo NGS: Fix Periodic FIFO Sizing! */
++ /*
++ * Periodic Tx FIFOs These FIFOs are numbered from 1 to 15.
++ * Indexes of the FIFO size module parameters in the
++ * dev_perio_tx_fifo_size array and the FIFO size registers in
++ * the dptxfsiz array run from 0 to 14.
++ */
++ /** @todo Finish debug of this */
++ ptxfifosize.b.startaddr =
++ nptxfifosize.b.startaddr + nptxfifosize.b.depth;
++ for (i = 0; i < core_if->hwcfg4.b.num_dev_perio_in_ep; i++) {
++ ptxfifosize.b.depth =
++ params->dev_perio_tx_fifo_size[i];
++ DWC_DEBUGPL(DBG_CIL,
++ "initial dtxfsiz[%d]=%08x\n", i,
++ DWC_READ_REG32(&global_regs->dtxfsiz
++ [i]));
++ DWC_WRITE_REG32(&global_regs->dtxfsiz[i],
++ ptxfifosize.d32);
++ DWC_DEBUGPL(DBG_CIL, "new dtxfsiz[%d]=%08x\n",
++ i,
++ DWC_READ_REG32(&global_regs->dtxfsiz
++ [i]));
++ ptxfifosize.b.startaddr += ptxfifosize.b.depth;
++ }
++ } else {
++ /*
++ * Tx FIFOs These FIFOs are numbered from 1 to 15.
++ * Indexes of the FIFO size module parameters in the
++ * dev_tx_fifo_size array and the FIFO size registers in
++ * the dtxfsiz array run from 0 to 14.
++ */
++
++ /* Non-periodic Tx FIFO */
++ DWC_DEBUGPL(DBG_CIL, "initial gnptxfsiz=%08x\n",
++ DWC_READ_REG32(&global_regs->gnptxfsiz));
++
++#ifdef DWC_UTE_CFI
++ core_if->pwron_gnptxfsiz =
++ (DWC_READ_REG32(&global_regs->gnptxfsiz) >> 16);
++ core_if->init_gnptxfsiz =
++ params->dev_nperio_tx_fifo_size;
++#endif
++ nptxfifosize.b.depth = params->dev_nperio_tx_fifo_size;
++ nptxfifosize.b.startaddr = params->dev_rx_fifo_size;
++
++ DWC_WRITE_REG32(&global_regs->gnptxfsiz,
++ nptxfifosize.d32);
++
++ DWC_DEBUGPL(DBG_CIL, "new gnptxfsiz=%08x\n",
++ DWC_READ_REG32(&global_regs->gnptxfsiz));
++
++ txfifosize.b.startaddr =
++ nptxfifosize.b.startaddr + nptxfifosize.b.depth;
++
++ for (i = 0; i < core_if->hwcfg4.b.num_in_eps; i++) {
++
++ txfifosize.b.depth =
++ params->dev_tx_fifo_size[i];
++
++ DWC_DEBUGPL(DBG_CIL,
++ "initial dtxfsiz[%d]=%08x\n",
++ i,
++ DWC_READ_REG32(&global_regs->dtxfsiz
++ [i]));
++
++#ifdef DWC_UTE_CFI
++ core_if->pwron_txfsiz[i] =
++ (DWC_READ_REG32
++ (&global_regs->dtxfsiz[i]) >> 16);
++ core_if->init_txfsiz[i] =
++ params->dev_tx_fifo_size[i];
++#endif
++ DWC_WRITE_REG32(&global_regs->dtxfsiz[i],
++ txfifosize.d32);
++
++ DWC_DEBUGPL(DBG_CIL,
++ "new dtxfsiz[%d]=%08x\n",
++ i,
++ DWC_READ_REG32(&global_regs->dtxfsiz
++ [i]));
++
++ txfifosize.b.startaddr += txfifosize.b.depth;
++ }
++ if (core_if->snpsid <= OTG_CORE_REV_2_94a) {
++ /* Calculating DFIFOCFG for Device mode to include RxFIFO and NPTXFIFO */
++ gdfifocfg.d32 = DWC_READ_REG32(&global_regs->gdfifocfg);
++ hwcfg3.d32 = DWC_READ_REG32(&global_regs->ghwcfg3);
++ gdfifocfg.b.gdfifocfg = (DWC_READ_REG32(&global_regs->ghwcfg3) >> 16);
++ DWC_WRITE_REG32(&global_regs->gdfifocfg, gdfifocfg.d32);
++ rxfsiz = (DWC_READ_REG32(&global_regs->grxfsiz) & 0x0000ffff);
++ nptxfsiz = (DWC_READ_REG32(&global_regs->gnptxfsiz) >> 16);
++ gdfifocfg.b.epinfobase = rxfsiz + nptxfsiz;
++ DWC_WRITE_REG32(&global_regs->gdfifocfg, gdfifocfg.d32);
++ }
++ }
++
++ /* Flush the FIFOs */
++ dwc_otg_flush_tx_fifo(core_if, 0x10); /* all Tx FIFOs */
++ dwc_otg_flush_rx_fifo(core_if);
++
++ /* Flush the Learning Queue. */
++ resetctl.b.intknqflsh = 1;
++ DWC_WRITE_REG32(&core_if->core_global_regs->grstctl, resetctl.d32);
++
++ if (!core_if->core_params->en_multiple_tx_fifo && core_if->dma_enable) {
++ core_if->start_predict = 0;
++ for (i = 0; i<= core_if->dev_if->num_in_eps; ++i) {
++ core_if->nextep_seq[i] = 0xff; // 0xff - EP not active
++ }
++ core_if->nextep_seq[0] = 0;
++ core_if->first_in_nextep_seq = 0;
++ diepctl.d32 = DWC_READ_REG32(&dev_if->in_ep_regs[0]->diepctl);
++ diepctl.b.nextep = 0;
++ DWC_WRITE_REG32(&dev_if->in_ep_regs[0]->diepctl, diepctl.d32);
++
++ /* Update IN Endpoint Mismatch Count by active IN NP EP count + 1 */
++ dcfg.d32 = DWC_READ_REG32(&dev_if->dev_global_regs->dcfg);
++ dcfg.b.epmscnt = 2;
++ DWC_WRITE_REG32(&dev_if->dev_global_regs->dcfg, dcfg.d32);
++
++ DWC_DEBUGPL(DBG_CILV,"%s first_in_nextep_seq= %2d; nextep_seq[]:\n",
++ __func__, core_if->first_in_nextep_seq);
++ for (i=0; i <= core_if->dev_if->num_in_eps; i++) {
++ DWC_DEBUGPL(DBG_CILV, "%2d ", core_if->nextep_seq[i]);
++ }
++ DWC_DEBUGPL(DBG_CILV,"\n");
++ }
++
++ /* Clear all pending Device Interrupts */
++ /** @todo - if the condition needed to be checked
++ * or in any case all pending interrutps should be cleared?
++ */
++ if (core_if->multiproc_int_enable) {
++ for (i = 0; i < core_if->dev_if->num_in_eps; ++i) {
++ DWC_WRITE_REG32(&dev_if->
++ dev_global_regs->diepeachintmsk[i], 0);
++ }
++ }
++
++ for (i = 0; i < core_if->dev_if->num_out_eps; ++i) {
++ DWC_WRITE_REG32(&dev_if->
++ dev_global_regs->doepeachintmsk[i], 0);
++ }
++
++ DWC_WRITE_REG32(&dev_if->dev_global_regs->deachint, 0xFFFFFFFF);
++ DWC_WRITE_REG32(&dev_if->dev_global_regs->deachintmsk, 0);
++ } else {
++ DWC_WRITE_REG32(&dev_if->dev_global_regs->diepmsk, 0);
++ DWC_WRITE_REG32(&dev_if->dev_global_regs->doepmsk, 0);
++ DWC_WRITE_REG32(&dev_if->dev_global_regs->daint, 0xFFFFFFFF);
++ DWC_WRITE_REG32(&dev_if->dev_global_regs->daintmsk, 0);
++ }
++
++ for (i = 0; i <= dev_if->num_in_eps; i++) {
++ depctl_data_t depctl;
++ depctl.d32 = DWC_READ_REG32(&dev_if->in_ep_regs[i]->diepctl);
++ if (depctl.b.epena) {
++ depctl.d32 = 0;
++ depctl.b.epdis = 1;
++ depctl.b.snak = 1;
++ } else {
++ depctl.d32 = 0;
++ }
++
++ DWC_WRITE_REG32(&dev_if->in_ep_regs[i]->diepctl, depctl.d32);
++
++ DWC_WRITE_REG32(&dev_if->in_ep_regs[i]->dieptsiz, 0);
++ DWC_WRITE_REG32(&dev_if->in_ep_regs[i]->diepdma, 0);
++ DWC_WRITE_REG32(&dev_if->in_ep_regs[i]->diepint, 0xFF);
++ }
++
++ for (i = 0; i <= dev_if->num_out_eps; i++) {
++ depctl_data_t depctl;
++ depctl.d32 = DWC_READ_REG32(&dev_if->out_ep_regs[i]->doepctl);
++ if (depctl.b.epena) {
++ dctl_data_t dctl = {.d32 = 0 };
++ gintmsk_data_t gintsts = {.d32 = 0 };
++ doepint_data_t doepint = {.d32 = 0 };
++ dctl.b.sgoutnak = 1;
++ DWC_MODIFY_REG32(&core_if->dev_if->dev_global_regs->dctl, 0, dctl.d32);
++ do {
++ dwc_udelay(10);
++ gintsts.d32 = DWC_READ_REG32(&core_if->core_global_regs->gintsts);
++ } while (!gintsts.b.goutnakeff);
++ gintsts.d32 = 0;
++ gintsts.b.goutnakeff = 1;
++ DWC_WRITE_REG32(&core_if->core_global_regs->gintsts, gintsts.d32);
++
++ depctl.d32 = 0;
++ depctl.b.epdis = 1;
++ depctl.b.snak = 1;
++ DWC_WRITE_REG32(&core_if->dev_if->out_ep_regs[i]->doepctl, depctl.d32);
++ do {
++ dwc_udelay(10);
++ doepint.d32 = DWC_READ_REG32(&core_if->dev_if->
++ out_ep_regs[i]->doepint);
++ } while (!doepint.b.epdisabled);
++
++ doepint.b.epdisabled = 1;
++ DWC_WRITE_REG32(&core_if->dev_if->out_ep_regs[i]->doepint, doepint.d32);
++
++ dctl.d32 = 0;
++ dctl.b.cgoutnak = 1;
++ DWC_MODIFY_REG32(&core_if->dev_if->dev_global_regs->dctl, 0, dctl.d32);
++ } else {
++ depctl.d32 = 0;
++ }
++
++ DWC_WRITE_REG32(&dev_if->out_ep_regs[i]->doepctl, depctl.d32);
++
++ DWC_WRITE_REG32(&dev_if->out_ep_regs[i]->doeptsiz, 0);
++ DWC_WRITE_REG32(&dev_if->out_ep_regs[i]->doepdma, 0);
++ DWC_WRITE_REG32(&dev_if->out_ep_regs[i]->doepint, 0xFF);
++ }
++
++ if (core_if->en_multiple_tx_fifo && core_if->dma_enable) {
++ dev_if->non_iso_tx_thr_en = params->thr_ctl & 0x1;
++ dev_if->iso_tx_thr_en = (params->thr_ctl >> 1) & 0x1;
++ dev_if->rx_thr_en = (params->thr_ctl >> 2) & 0x1;
++
++ dev_if->rx_thr_length = params->rx_thr_length;
++ dev_if->tx_thr_length = params->tx_thr_length;
++
++ dev_if->setup_desc_index = 0;
++
++ dthrctl.d32 = 0;
++ dthrctl.b.non_iso_thr_en = dev_if->non_iso_tx_thr_en;
++ dthrctl.b.iso_thr_en = dev_if->iso_tx_thr_en;
++ dthrctl.b.tx_thr_len = dev_if->tx_thr_length;
++ dthrctl.b.rx_thr_en = dev_if->rx_thr_en;
++ dthrctl.b.rx_thr_len = dev_if->rx_thr_length;
++ dthrctl.b.ahb_thr_ratio = params->ahb_thr_ratio;
++
++ DWC_WRITE_REG32(&dev_if->dev_global_regs->dtknqr3_dthrctl,
++ dthrctl.d32);
++
++ DWC_DEBUGPL(DBG_CIL,
++ "Non ISO Tx Thr - %d\nISO Tx Thr - %d\nRx Thr - %d\nTx Thr Len - %d\nRx Thr Len - %d\n",
++ dthrctl.b.non_iso_thr_en, dthrctl.b.iso_thr_en,
++ dthrctl.b.rx_thr_en, dthrctl.b.tx_thr_len,
++ dthrctl.b.rx_thr_len);
++
++ }
++
++ dwc_otg_enable_device_interrupts(core_if);
++
++ {
++ diepmsk_data_t msk = {.d32 = 0 };
++ msk.b.txfifoundrn = 1;
++ if (core_if->multiproc_int_enable) {
++ DWC_MODIFY_REG32(&dev_if->dev_global_regs->
++ diepeachintmsk[0], msk.d32, msk.d32);
++ } else {
++ DWC_MODIFY_REG32(&dev_if->dev_global_regs->diepmsk,
++ msk.d32, msk.d32);
++ }
++ }
++
++ if (core_if->multiproc_int_enable) {
++ /* Set NAK on Babble */
++ dctl_data_t dctl = {.d32 = 0 };
++ dctl.b.nakonbble = 1;
++ DWC_MODIFY_REG32(&dev_if->dev_global_regs->dctl, 0, dctl.d32);
++ }
++
++ if (core_if->snpsid >= OTG_CORE_REV_2_94a) {
++ dctl_data_t dctl = {.d32 = 0 };
++ dctl.d32 = DWC_READ_REG32(&dev_if->dev_global_regs->dctl);
++ dctl.b.sftdiscon = 0;
++ DWC_WRITE_REG32(&dev_if->dev_global_regs->dctl, dctl.d32);
++ }
++}
++
++/**
++ * This function enables the Host mode interrupts.
++ *
++ * @param core_if Programming view of DWC_otg controller
++ */
++void dwc_otg_enable_host_interrupts(dwc_otg_core_if_t * core_if)
++{
++ dwc_otg_core_global_regs_t *global_regs = core_if->core_global_regs;
++ gintmsk_data_t intr_mask = {.d32 = 0 };
++
++ DWC_DEBUGPL(DBG_CIL, "%s(%p)\n", __func__, core_if);
++
++ /* Disable all interrupts. */
++ DWC_WRITE_REG32(&global_regs->gintmsk, 0);
++
++ /* Clear any pending interrupts. */
++ DWC_WRITE_REG32(&global_regs->gintsts, 0xFFFFFFFF);
++
++ /* Enable the common interrupts */
++ dwc_otg_enable_common_interrupts(core_if);
++
++ /*
++ * Enable host mode interrupts without disturbing common
++ * interrupts.
++ */
++
++ intr_mask.b.disconnect = 1;
++ intr_mask.b.portintr = 1;
++ intr_mask.b.hcintr = 1;
++
++ DWC_MODIFY_REG32(&global_regs->gintmsk, intr_mask.d32, intr_mask.d32);
++}
++
++/**
++ * This function disables the Host Mode interrupts.
++ *
++ * @param core_if Programming view of DWC_otg controller
++ */
++void dwc_otg_disable_host_interrupts(dwc_otg_core_if_t * core_if)
++{
++ dwc_otg_core_global_regs_t *global_regs = core_if->core_global_regs;
++ gintmsk_data_t intr_mask = {.d32 = 0 };
++
++ DWC_DEBUGPL(DBG_CILV, "%s()\n", __func__);
++
++ /*
++ * Disable host mode interrupts without disturbing common
++ * interrupts.
++ */
++ intr_mask.b.sofintr = 1;
++ intr_mask.b.portintr = 1;
++ intr_mask.b.hcintr = 1;
++ intr_mask.b.ptxfempty = 1;
++ intr_mask.b.nptxfempty = 1;
++
++ DWC_MODIFY_REG32(&global_regs->gintmsk, intr_mask.d32, 0);
++}
++
++/**
++ * This function initializes the DWC_otg controller registers for
++ * host mode.
++ *
++ * This function flushes the Tx and Rx FIFOs and it flushes any entries in the
++ * request queues. Host channels are reset to ensure that they are ready for
++ * performing transfers.
++ *
++ * @param core_if Programming view of DWC_otg controller
++ *
++ */
++void dwc_otg_core_host_init(dwc_otg_core_if_t * core_if)
++{
++ dwc_otg_core_global_regs_t *global_regs = core_if->core_global_regs;
++ dwc_otg_host_if_t *host_if = core_if->host_if;
++ dwc_otg_core_params_t *params = core_if->core_params;
++ hprt0_data_t hprt0 = {.d32 = 0 };
++ fifosize_data_t nptxfifosize;
++ fifosize_data_t ptxfifosize;
++ uint16_t rxfsiz, nptxfsiz, hptxfsiz;
++ gdfifocfg_data_t gdfifocfg = {.d32 = 0 };
++ int i;
++ hcchar_data_t hcchar;
++ hcfg_data_t hcfg;
++ hfir_data_t hfir;
++ dwc_otg_hc_regs_t *hc_regs;
++ int num_channels;
++ gotgctl_data_t gotgctl = {.d32 = 0 };
++
++ DWC_DEBUGPL(DBG_CILV, "%s(%p)\n", __func__, core_if);
++
++ /* Restart the Phy Clock */
++ DWC_WRITE_REG32(core_if->pcgcctl, 0);
++
++ /* Initialize Host Configuration Register */
++ init_fslspclksel(core_if);
++ if (core_if->core_params->speed == DWC_SPEED_PARAM_FULL) {
++ hcfg.d32 = DWC_READ_REG32(&host_if->host_global_regs->hcfg);
++ hcfg.b.fslssupp = 1;
++ DWC_WRITE_REG32(&host_if->host_global_regs->hcfg, hcfg.d32);
++
++ }
++
++ /* This bit allows dynamic reloading of the HFIR register
++ * during runtime. This bit needs to be programmed during
++ * initial configuration and its value must not be changed
++ * during runtime.*/
++ if (core_if->core_params->reload_ctl == 1) {
++ hfir.d32 = DWC_READ_REG32(&host_if->host_global_regs->hfir);
++ hfir.b.hfirrldctrl = 1;
++ DWC_WRITE_REG32(&host_if->host_global_regs->hfir, hfir.d32);
++ }
++
++ if (core_if->core_params->dma_desc_enable) {
++ uint8_t op_mode = core_if->hwcfg2.b.op_mode;
++ if (!
++ (core_if->hwcfg4.b.desc_dma
++ && (core_if->snpsid >= OTG_CORE_REV_2_90a)
++ && ((op_mode == DWC_HWCFG2_OP_MODE_HNP_SRP_CAPABLE_OTG)
++ || (op_mode == DWC_HWCFG2_OP_MODE_SRP_ONLY_CAPABLE_OTG)
++ || (op_mode ==
++ DWC_HWCFG2_OP_MODE_NO_HNP_SRP_CAPABLE_OTG)
++ || (op_mode == DWC_HWCFG2_OP_MODE_SRP_CAPABLE_HOST)
++ || (op_mode ==
++ DWC_HWCFG2_OP_MODE_NO_SRP_CAPABLE_HOST)))) {
++
++ DWC_ERROR("Host can't operate in Descriptor DMA mode.\n"
++ "Either core version is below 2.90a or "
++ "GHWCFG2, GHWCFG4 registers' values do not allow Descriptor DMA in host mode.\n"
++ "To run the driver in Buffer DMA host mode set dma_desc_enable "
++ "module parameter to 0.\n");
++ return;
++ }
++ hcfg.d32 = DWC_READ_REG32(&host_if->host_global_regs->hcfg);
++ hcfg.b.descdma = 1;
++ DWC_WRITE_REG32(&host_if->host_global_regs->hcfg, hcfg.d32);
++ }
++
++ /* Configure data FIFO sizes */
++ if (core_if->hwcfg2.b.dynamic_fifo && params->enable_dynamic_fifo) {
++ DWC_DEBUGPL(DBG_CIL, "Total FIFO Size=%d\n",
++ core_if->total_fifo_size);
++ DWC_DEBUGPL(DBG_CIL, "Rx FIFO Size=%d\n",
++ params->host_rx_fifo_size);
++ DWC_DEBUGPL(DBG_CIL, "NP Tx FIFO Size=%d\n",
++ params->host_nperio_tx_fifo_size);
++ DWC_DEBUGPL(DBG_CIL, "P Tx FIFO Size=%d\n",
++ params->host_perio_tx_fifo_size);
++
++ /* Rx FIFO */
++ DWC_DEBUGPL(DBG_CIL, "initial grxfsiz=%08x\n",
++ DWC_READ_REG32(&global_regs->grxfsiz));
++ DWC_WRITE_REG32(&global_regs->grxfsiz,
++ params->host_rx_fifo_size);
++ DWC_DEBUGPL(DBG_CIL, "new grxfsiz=%08x\n",
++ DWC_READ_REG32(&global_regs->grxfsiz));
++
++ /* Non-periodic Tx FIFO */
++ DWC_DEBUGPL(DBG_CIL, "initial gnptxfsiz=%08x\n",
++ DWC_READ_REG32(&global_regs->gnptxfsiz));
++ nptxfifosize.b.depth = params->host_nperio_tx_fifo_size;
++ nptxfifosize.b.startaddr = params->host_rx_fifo_size;
++ DWC_WRITE_REG32(&global_regs->gnptxfsiz, nptxfifosize.d32);
++ DWC_DEBUGPL(DBG_CIL, "new gnptxfsiz=%08x\n",
++ DWC_READ_REG32(&global_regs->gnptxfsiz));
++
++ /* Periodic Tx FIFO */
++ DWC_DEBUGPL(DBG_CIL, "initial hptxfsiz=%08x\n",
++ DWC_READ_REG32(&global_regs->hptxfsiz));
++ ptxfifosize.b.depth = params->host_perio_tx_fifo_size;
++ ptxfifosize.b.startaddr =
++ nptxfifosize.b.startaddr + nptxfifosize.b.depth;
++ DWC_WRITE_REG32(&global_regs->hptxfsiz, ptxfifosize.d32);
++ DWC_DEBUGPL(DBG_CIL, "new hptxfsiz=%08x\n",
++ DWC_READ_REG32(&global_regs->hptxfsiz));
++
++ if (core_if->en_multiple_tx_fifo
++ && core_if->snpsid <= OTG_CORE_REV_2_94a) {
++ /* Global DFIFOCFG calculation for Host mode - include RxFIFO, NPTXFIFO and HPTXFIFO */
++ gdfifocfg.d32 = DWC_READ_REG32(&global_regs->gdfifocfg);
++ rxfsiz = (DWC_READ_REG32(&global_regs->grxfsiz) & 0x0000ffff);
++ nptxfsiz = (DWC_READ_REG32(&global_regs->gnptxfsiz) >> 16);
++ hptxfsiz = (DWC_READ_REG32(&global_regs->hptxfsiz) >> 16);
++ gdfifocfg.b.epinfobase = rxfsiz + nptxfsiz + hptxfsiz;
++ DWC_WRITE_REG32(&global_regs->gdfifocfg, gdfifocfg.d32);
++ }
++ }
++
++ /* TODO - check this */
++ /* Clear Host Set HNP Enable in the OTG Control Register */
++ gotgctl.b.hstsethnpen = 1;
++ DWC_MODIFY_REG32(&global_regs->gotgctl, gotgctl.d32, 0);
++ /* Make sure the FIFOs are flushed. */
++ dwc_otg_flush_tx_fifo(core_if, 0x10 /* all TX FIFOs */ );
++ dwc_otg_flush_rx_fifo(core_if);
++
++ /* Clear Host Set HNP Enable in the OTG Control Register */
++ gotgctl.b.hstsethnpen = 1;
++ DWC_MODIFY_REG32(&global_regs->gotgctl, gotgctl.d32, 0);
++
++ if (!core_if->core_params->dma_desc_enable) {
++ /* Flush out any leftover queued requests. */
++ num_channels = core_if->core_params->host_channels;
++
++ for (i = 0; i < num_channels; i++) {
++ hc_regs = core_if->host_if->hc_regs[i];
++ hcchar.d32 = DWC_READ_REG32(&hc_regs->hcchar);
++ hcchar.b.chen = 0;
++ hcchar.b.chdis = 1;
++ hcchar.b.epdir = 0;
++ DWC_WRITE_REG32(&hc_regs->hcchar, hcchar.d32);
++ }
++
++ /* Halt all channels to put them into a known state. */
++ for (i = 0; i < num_channels; i++) {
++ int count = 0;
++ hc_regs = core_if->host_if->hc_regs[i];
++ hcchar.d32 = DWC_READ_REG32(&hc_regs->hcchar);
++ hcchar.b.chen = 1;
++ hcchar.b.chdis = 1;
++ hcchar.b.epdir = 0;
++ DWC_WRITE_REG32(&hc_regs->hcchar, hcchar.d32);
++ DWC_DEBUGPL(DBG_HCDV, "%s: Halt channel %d regs %p\n", __func__, i, hc_regs);
++ do {
++ hcchar.d32 = DWC_READ_REG32(&hc_regs->hcchar);
++ if (++count > 1000) {
++ DWC_ERROR
++ ("%s: Unable to clear halt on channel %d (timeout HCCHAR 0x%X @%p)\n",
++ __func__, i, hcchar.d32, &hc_regs->hcchar);
++ break;
++ }
++ dwc_udelay(1);
++ } while (hcchar.b.chen);
++ }
++ }
++
++ /* Turn on the vbus power. */
++ DWC_PRINTF("Init: Port Power? op_state=%d\n", core_if->op_state);
++ if (core_if->op_state == A_HOST) {
++ hprt0.d32 = dwc_otg_read_hprt0(core_if);
++ DWC_PRINTF("Init: Power Port (%d)\n", hprt0.b.prtpwr);
++ if (hprt0.b.prtpwr == 0) {
++ hprt0.b.prtpwr = 1;
++ DWC_WRITE_REG32(host_if->hprt0, hprt0.d32);
++ }
++ }
++
++ dwc_otg_enable_host_interrupts(core_if);
++}
++
++/**
++ * Prepares a host channel for transferring packets to/from a specific
++ * endpoint. The HCCHARn register is set up with the characteristics specified
++ * in _hc. Host channel interrupts that may need to be serviced while this
++ * transfer is in progress are enabled.
++ *
++ * @param core_if Programming view of DWC_otg controller
++ * @param hc Information needed to initialize the host channel
++ */
++void dwc_otg_hc_init(dwc_otg_core_if_t * core_if, dwc_hc_t * hc)
++{
++ uint32_t intr_enable;
++ hcintmsk_data_t hc_intr_mask;
++ gintmsk_data_t gintmsk = {.d32 = 0 };
++ hcchar_data_t hcchar;
++ hcsplt_data_t hcsplt;
++
++ uint8_t hc_num = hc->hc_num;
++ dwc_otg_host_if_t *host_if = core_if->host_if;
++ dwc_otg_hc_regs_t *hc_regs = host_if->hc_regs[hc_num];
++
++ /* Clear old interrupt conditions for this host channel. */
++ hc_intr_mask.d32 = 0xFFFFFFFF;
++ hc_intr_mask.b.reserved14_31 = 0;
++ DWC_WRITE_REG32(&hc_regs->hcint, hc_intr_mask.d32);
++
++ /* Enable channel interrupts required for this transfer. */
++ hc_intr_mask.d32 = 0;
++ hc_intr_mask.b.chhltd = 1;
++ if (core_if->dma_enable) {
++ /* For Descriptor DMA mode core halts the channel on AHB error. Interrupt is not required */
++ if (!core_if->dma_desc_enable)
++ hc_intr_mask.b.ahberr = 1;
++ else {
++ if (hc->ep_type == DWC_OTG_EP_TYPE_ISOC)
++ hc_intr_mask.b.xfercompl = 1;
++ }
++
++ if (hc->error_state && !hc->do_split &&
++ hc->ep_type != DWC_OTG_EP_TYPE_ISOC) {
++ hc_intr_mask.b.ack = 1;
++ if (hc->ep_is_in) {
++ hc_intr_mask.b.datatglerr = 1;
++ if (hc->ep_type != DWC_OTG_EP_TYPE_INTR) {
++ hc_intr_mask.b.nak = 1;
++ }
++ }
++ }
++ } else {
++ switch (hc->ep_type) {
++ case DWC_OTG_EP_TYPE_CONTROL:
++ case DWC_OTG_EP_TYPE_BULK:
++ hc_intr_mask.b.xfercompl = 1;
++ hc_intr_mask.b.stall = 1;
++ hc_intr_mask.b.xacterr = 1;
++ hc_intr_mask.b.datatglerr = 1;
++ if (hc->ep_is_in) {
++ hc_intr_mask.b.bblerr = 1;
++ } else {
++ hc_intr_mask.b.nak = 1;
++ hc_intr_mask.b.nyet = 1;
++ if (hc->do_ping) {
++ hc_intr_mask.b.ack = 1;
++ }
++ }
++
++ if (hc->do_split) {
++ hc_intr_mask.b.nak = 1;
++ if (hc->complete_split) {
++ hc_intr_mask.b.nyet = 1;
++ } else {
++ hc_intr_mask.b.ack = 1;
++ }
++ }
++
++ if (hc->error_state) {
++ hc_intr_mask.b.ack = 1;
++ }
++ break;
++ case DWC_OTG_EP_TYPE_INTR:
++ hc_intr_mask.b.xfercompl = 1;
++ hc_intr_mask.b.nak = 1;
++ hc_intr_mask.b.stall = 1;
++ hc_intr_mask.b.xacterr = 1;
++ hc_intr_mask.b.datatglerr = 1;
++ hc_intr_mask.b.frmovrun = 1;
++
++ if (hc->ep_is_in) {
++ hc_intr_mask.b.bblerr = 1;
++ }
++ if (hc->error_state) {
++ hc_intr_mask.b.ack = 1;
++ }
++ if (hc->do_split) {
++ if (hc->complete_split) {
++ hc_intr_mask.b.nyet = 1;
++ } else {
++ hc_intr_mask.b.ack = 1;
++ }
++ }
++ break;
++ case DWC_OTG_EP_TYPE_ISOC:
++ hc_intr_mask.b.xfercompl = 1;
++ hc_intr_mask.b.frmovrun = 1;
++ hc_intr_mask.b.ack = 1;
++
++ if (hc->ep_is_in) {
++ hc_intr_mask.b.xacterr = 1;
++ hc_intr_mask.b.bblerr = 1;
++ }
++ break;
++ }
++ }
++ DWC_WRITE_REG32(&hc_regs->hcintmsk, hc_intr_mask.d32);
++
++ /* Enable the top level host channel interrupt. */
++ intr_enable = (1 << hc_num);
++ DWC_MODIFY_REG32(&host_if->host_global_regs->haintmsk, 0, intr_enable);
++
++ /* Make sure host channel interrupts are enabled. */
++ gintmsk.b.hcintr = 1;
++ DWC_MODIFY_REG32(&core_if->core_global_regs->gintmsk, 0, gintmsk.d32);
++
++ /*
++ * Program the HCCHARn register with the endpoint characteristics for
++ * the current transfer.
++ */
++ hcchar.d32 = 0;
++ hcchar.b.devaddr = hc->dev_addr;
++ hcchar.b.epnum = hc->ep_num;
++ hcchar.b.epdir = hc->ep_is_in;
++ hcchar.b.lspddev = (hc->speed == DWC_OTG_EP_SPEED_LOW);
++ hcchar.b.eptype = hc->ep_type;
++ hcchar.b.mps = hc->max_packet;
++
++ DWC_WRITE_REG32(&host_if->hc_regs[hc_num]->hcchar, hcchar.d32);
++
++ DWC_DEBUGPL(DBG_HCDV, "%s: Channel %d, Dev Addr %d, EP #%d\n",
++ __func__, hc->hc_num, hcchar.b.devaddr, hcchar.b.epnum);
++ DWC_DEBUGPL(DBG_HCDV, " Is In %d, Is Low Speed %d, EP Type %d, "
++ "Max Pkt %d, Multi Cnt %d\n",
++ hcchar.b.epdir, hcchar.b.lspddev, hcchar.b.eptype,
++ hcchar.b.mps, hcchar.b.multicnt);
++
++ /*
++ * Program the HCSPLIT register for SPLITs
++ */
++ hcsplt.d32 = 0;
++ if (hc->do_split) {
++ DWC_DEBUGPL(DBG_HCDV, "Programming HC %d with split --> %s\n",
++ hc->hc_num,
++ hc->complete_split ? "CSPLIT" : "SSPLIT");
++ hcsplt.b.compsplt = hc->complete_split;
++ hcsplt.b.xactpos = hc->xact_pos;
++ hcsplt.b.hubaddr = hc->hub_addr;
++ hcsplt.b.prtaddr = hc->port_addr;
++ DWC_DEBUGPL(DBG_HCDV, "\t comp split %d\n", hc->complete_split);
++ DWC_DEBUGPL(DBG_HCDV, "\t xact pos %d\n", hc->xact_pos);
++ DWC_DEBUGPL(DBG_HCDV, "\t hub addr %d\n", hc->hub_addr);
++ DWC_DEBUGPL(DBG_HCDV, "\t port addr %d\n", hc->port_addr);
++ DWC_DEBUGPL(DBG_HCDV, "\t is_in %d\n", hc->ep_is_in);
++ DWC_DEBUGPL(DBG_HCDV, "\t Max Pkt: %d\n", hcchar.b.mps);
++ DWC_DEBUGPL(DBG_HCDV, "\t xferlen: %d\n", hc->xfer_len);
++ }
++ DWC_WRITE_REG32(&host_if->hc_regs[hc_num]->hcsplt, hcsplt.d32);
++
++}
++
++/**
++ * Attempts to halt a host channel. This function should only be called in
++ * Slave mode or to abort a transfer in either Slave mode or DMA mode. Under
++ * normal circumstances in DMA mode, the controller halts the channel when the
++ * transfer is complete or a condition occurs that requires application
++ * intervention.
++ *
++ * In slave mode, checks for a free request queue entry, then sets the Channel
++ * Enable and Channel Disable bits of the Host Channel Characteristics
++ * register of the specified channel to intiate the halt. If there is no free
++ * request queue entry, sets only the Channel Disable bit of the HCCHARn
++ * register to flush requests for this channel. In the latter case, sets a
++ * flag to indicate that the host channel needs to be halted when a request
++ * queue slot is open.
++ *
++ * In DMA mode, always sets the Channel Enable and Channel Disable bits of the
++ * HCCHARn register. The controller ensures there is space in the request
++ * queue before submitting the halt request.
++ *
++ * Some time may elapse before the core flushes any posted requests for this
++ * host channel and halts. The Channel Halted interrupt handler completes the
++ * deactivation of the host channel.
++ *
++ * @param core_if Controller register interface.
++ * @param hc Host channel to halt.
++ * @param halt_status Reason for halting the channel.
++ */
++void dwc_otg_hc_halt(dwc_otg_core_if_t * core_if,
++ dwc_hc_t * hc, dwc_otg_halt_status_e halt_status)
++{
++ gnptxsts_data_t nptxsts;
++ hptxsts_data_t hptxsts;
++ hcchar_data_t hcchar;
++ dwc_otg_hc_regs_t *hc_regs;
++ dwc_otg_core_global_regs_t *global_regs;
++ dwc_otg_host_global_regs_t *host_global_regs;
++
++ hc_regs = core_if->host_if->hc_regs[hc->hc_num];
++ global_regs = core_if->core_global_regs;
++ host_global_regs = core_if->host_if->host_global_regs;
++
++ DWC_ASSERT(!(halt_status == DWC_OTG_HC_XFER_NO_HALT_STATUS),
++ "halt_status = %d\n", halt_status);
++
++ if (halt_status == DWC_OTG_HC_XFER_URB_DEQUEUE ||
++ halt_status == DWC_OTG_HC_XFER_AHB_ERR) {
++ /*
++ * Disable all channel interrupts except Ch Halted. The QTD
++ * and QH state associated with this transfer has been cleared
++ * (in the case of URB_DEQUEUE), so the channel needs to be
++ * shut down carefully to prevent crashes.
++ */
++ hcintmsk_data_t hcintmsk;
++ hcintmsk.d32 = 0;
++ hcintmsk.b.chhltd = 1;
++ DWC_WRITE_REG32(&hc_regs->hcintmsk, hcintmsk.d32);
++
++ /*
++ * Make sure no other interrupts besides halt are currently
++ * pending. Handling another interrupt could cause a crash due
++ * to the QTD and QH state.
++ */
++ DWC_WRITE_REG32(&hc_regs->hcint, ~hcintmsk.d32);
++
++ /*
++ * Make sure the halt status is set to URB_DEQUEUE or AHB_ERR
++ * even if the channel was already halted for some other
++ * reason.
++ */
++ hc->halt_status = halt_status;
++
++ hcchar.d32 = DWC_READ_REG32(&hc_regs->hcchar);
++ if (hcchar.b.chen == 0) {
++ /*
++ * The channel is either already halted or it hasn't
++ * started yet. In DMA mode, the transfer may halt if
++ * it finishes normally or a condition occurs that
++ * requires driver intervention. Don't want to halt
++ * the channel again. In either Slave or DMA mode,
++ * it's possible that the transfer has been assigned
++ * to a channel, but not started yet when an URB is
++ * dequeued. Don't want to halt a channel that hasn't
++ * started yet.
++ */
++ return;
++ }
++ }
++ if (hc->halt_pending) {
++ /*
++ * A halt has already been issued for this channel. This might
++ * happen when a transfer is aborted by a higher level in
++ * the stack.
++ */
++#ifdef DEBUG
++ DWC_PRINTF
++ ("*** %s: Channel %d, _hc->halt_pending already set ***\n",
++ __func__, hc->hc_num);
++
++#endif
++ return;
++ }
++
++ hcchar.d32 = DWC_READ_REG32(&hc_regs->hcchar);
++
++ /* No need to set the bit in DDMA for disabling the channel */
++ //TODO check it everywhere channel is disabled
++ if (!core_if->core_params->dma_desc_enable)
++ hcchar.b.chen = 1;
++ hcchar.b.chdis = 1;
++
++ if (!core_if->dma_enable) {
++ /* Check for space in the request queue to issue the halt. */
++ if (hc->ep_type == DWC_OTG_EP_TYPE_CONTROL ||
++ hc->ep_type == DWC_OTG_EP_TYPE_BULK) {
++ nptxsts.d32 = DWC_READ_REG32(&global_regs->gnptxsts);
++ if (nptxsts.b.nptxqspcavail == 0) {
++ hcchar.b.chen = 0;
++ }
++ } else {
++ hptxsts.d32 =
++ DWC_READ_REG32(&host_global_regs->hptxsts);
++ if ((hptxsts.b.ptxqspcavail == 0)
++ || (core_if->queuing_high_bandwidth)) {
++ hcchar.b.chen = 0;
++ }
++ }
++ }
++ DWC_WRITE_REG32(&hc_regs->hcchar, hcchar.d32);
++
++ hc->halt_status = halt_status;
++
++ if (hcchar.b.chen) {
++ hc->halt_pending = 1;
++ hc->halt_on_queue = 0;
++ } else {
++ hc->halt_on_queue = 1;
++ }
++
++ DWC_DEBUGPL(DBG_HCDV, "%s: Channel %d\n", __func__, hc->hc_num);
++ DWC_DEBUGPL(DBG_HCDV, " hcchar: 0x%08x\n", hcchar.d32);
++ DWC_DEBUGPL(DBG_HCDV, " halt_pending: %d\n", hc->halt_pending);
++ DWC_DEBUGPL(DBG_HCDV, " halt_on_queue: %d\n", hc->halt_on_queue);
++ DWC_DEBUGPL(DBG_HCDV, " halt_status: %d\n", hc->halt_status);
++
++ return;
++}
++
++/**
++ * Clears the transfer state for a host channel. This function is normally
++ * called after a transfer is done and the host channel is being released.
++ *
++ * @param core_if Programming view of DWC_otg controller.
++ * @param hc Identifies the host channel to clean up.
++ */
++void dwc_otg_hc_cleanup(dwc_otg_core_if_t * core_if, dwc_hc_t * hc)
++{
++ dwc_otg_hc_regs_t *hc_regs;
++
++ hc->xfer_started = 0;
++
++ /*
++ * Clear channel interrupt enables and any unhandled channel interrupt
++ * conditions.
++ */
++ hc_regs = core_if->host_if->hc_regs[hc->hc_num];
++ DWC_WRITE_REG32(&hc_regs->hcintmsk, 0);
++ DWC_WRITE_REG32(&hc_regs->hcint, 0xFFFFFFFF);
++#ifdef DEBUG
++ DWC_TIMER_CANCEL(core_if->hc_xfer_timer[hc->hc_num]);
++#endif
++}
++
++/**
++ * Sets the channel property that indicates in which frame a periodic transfer
++ * should occur. This is always set to the _next_ frame. This function has no
++ * effect on non-periodic transfers.
++ *
++ * @param core_if Programming view of DWC_otg controller.
++ * @param hc Identifies the host channel to set up and its properties.
++ * @param hcchar Current value of the HCCHAR register for the specified host
++ * channel.
++ */
++static inline void hc_set_even_odd_frame(dwc_otg_core_if_t * core_if,
++ dwc_hc_t * hc, hcchar_data_t * hcchar)
++{
++ if (hc->ep_type == DWC_OTG_EP_TYPE_INTR ||
++ hc->ep_type == DWC_OTG_EP_TYPE_ISOC) {
++ hfnum_data_t hfnum;
++ hfnum.d32 =
++ DWC_READ_REG32(&core_if->host_if->host_global_regs->hfnum);
++
++ /* 1 if _next_ frame is odd, 0 if it's even */
++ hcchar->b.oddfrm = (hfnum.b.frnum & 0x1) ? 0 : 1;
++#ifdef DEBUG
++ if (hc->ep_type == DWC_OTG_EP_TYPE_INTR && hc->do_split
++ && !hc->complete_split) {
++ switch (hfnum.b.frnum & 0x7) {
++ case 7:
++ core_if->hfnum_7_samples++;
++ core_if->hfnum_7_frrem_accum += hfnum.b.frrem;
++ break;
++ case 0:
++ core_if->hfnum_0_samples++;
++ core_if->hfnum_0_frrem_accum += hfnum.b.frrem;
++ break;
++ default:
++ core_if->hfnum_other_samples++;
++ core_if->hfnum_other_frrem_accum +=
++ hfnum.b.frrem;
++ break;
++ }
++ }
++#endif
++ }
++}
++
++#ifdef DEBUG
++void hc_xfer_timeout(void *ptr)
++{
++ hc_xfer_info_t *xfer_info = NULL;
++ int hc_num = 0;
++
++ if (ptr)
++ xfer_info = (hc_xfer_info_t *) ptr;
++
++ if (!xfer_info->hc) {
++ DWC_ERROR("xfer_info->hc = %p\n", xfer_info->hc);
++ return;
++ }
++
++ hc_num = xfer_info->hc->hc_num;
++ DWC_WARN("%s: timeout on channel %d\n", __func__, hc_num);
++ DWC_WARN(" start_hcchar_val 0x%08x\n",
++ xfer_info->core_if->start_hcchar_val[hc_num]);
++}
++#endif
++
++void ep_xfer_timeout(void *ptr)
++{
++ ep_xfer_info_t *xfer_info = NULL;
++ int ep_num = 0;
++ dctl_data_t dctl = {.d32 = 0 };
++ gintsts_data_t gintsts = {.d32 = 0 };
++ gintmsk_data_t gintmsk = {.d32 = 0 };
++
++ if (ptr)
++ xfer_info = (ep_xfer_info_t *) ptr;
++
++ if (!xfer_info->ep) {
++ DWC_ERROR("xfer_info->ep = %p\n", xfer_info->ep);
++ return;
++ }
++
++ ep_num = xfer_info->ep->num;
++ DWC_WARN("%s: timeout on endpoit %d\n", __func__, ep_num);
++ /* Put the sate to 2 as it was time outed */
++ xfer_info->state = 2;
++
++ dctl.d32 =
++ DWC_READ_REG32(&xfer_info->core_if->dev_if->dev_global_regs->dctl);
++ gintsts.d32 =
++ DWC_READ_REG32(&xfer_info->core_if->core_global_regs->gintsts);
++ gintmsk.d32 =
++ DWC_READ_REG32(&xfer_info->core_if->core_global_regs->gintmsk);
++
++ if (!gintmsk.b.goutnakeff) {
++ /* Unmask it */
++ gintmsk.b.goutnakeff = 1;
++ DWC_WRITE_REG32(&xfer_info->core_if->core_global_regs->gintmsk,
++ gintmsk.d32);
++
++ }
++
++ if (!gintsts.b.goutnakeff) {
++ dctl.b.sgoutnak = 1;
++ }
++ DWC_WRITE_REG32(&xfer_info->core_if->dev_if->dev_global_regs->dctl,
++ dctl.d32);
++
++}
++
++void set_pid_isoc(dwc_hc_t * hc)
++{
++ /* Set up the initial PID for the transfer. */
++ if (hc->speed == DWC_OTG_EP_SPEED_HIGH) {
++ if (hc->ep_is_in) {
++ if (hc->multi_count == 1) {
++ hc->data_pid_start = DWC_OTG_HC_PID_DATA0;
++ } else if (hc->multi_count == 2) {
++ hc->data_pid_start = DWC_OTG_HC_PID_DATA1;
++ } else {
++ hc->data_pid_start = DWC_OTG_HC_PID_DATA2;
++ }
++ } else {
++ if (hc->multi_count == 1) {
++ hc->data_pid_start = DWC_OTG_HC_PID_DATA0;
++ } else {
++ hc->data_pid_start = DWC_OTG_HC_PID_MDATA;
++ }
++ }
++ } else {
++ hc->data_pid_start = DWC_OTG_HC_PID_DATA0;
++ }
++}
++
++/**
++ * This function does the setup for a data transfer for a host channel and
++ * starts the transfer. May be called in either Slave mode or DMA mode. In
++ * Slave mode, the caller must ensure that there is sufficient space in the
++ * request queue and Tx Data FIFO.
++ *
++ * For an OUT transfer in Slave mode, it loads a data packet into the
++ * appropriate FIFO. If necessary, additional data packets will be loaded in
++ * the Host ISR.
++ *
++ * For an IN transfer in Slave mode, a data packet is requested. The data
++ * packets are unloaded from the Rx FIFO in the Host ISR. If necessary,
++ * additional data packets are requested in the Host ISR.
++ *
++ * For a PING transfer in Slave mode, the Do Ping bit is set in the HCTSIZ
++ * register along with a packet count of 1 and the channel is enabled. This
++ * causes a single PING transaction to occur. Other fields in HCTSIZ are
++ * simply set to 0 since no data transfer occurs in this case.
++ *
++ * For a PING transfer in DMA mode, the HCTSIZ register is initialized with
++ * all the information required to perform the subsequent data transfer. In
++ * addition, the Do Ping bit is set in the HCTSIZ register. In this case, the
++ * controller performs the entire PING protocol, then starts the data
++ * transfer.
++ *
++ * @param core_if Programming view of DWC_otg controller.
++ * @param hc Information needed to initialize the host channel. The xfer_len
++ * value may be reduced to accommodate the max widths of the XferSize and
++ * PktCnt fields in the HCTSIZn register. The multi_count value may be changed
++ * to reflect the final xfer_len value.
++ */
++void dwc_otg_hc_start_transfer(dwc_otg_core_if_t * core_if, dwc_hc_t * hc)
++{
++ hcchar_data_t hcchar;
++ hctsiz_data_t hctsiz;
++ uint16_t num_packets;
++ uint32_t max_hc_xfer_size = core_if->core_params->max_transfer_size;
++ uint16_t max_hc_pkt_count = core_if->core_params->max_packet_count;
++ dwc_otg_hc_regs_t *hc_regs = core_if->host_if->hc_regs[hc->hc_num];
++
++ hctsiz.d32 = 0;
++
++ if (hc->do_ping) {
++ if (!core_if->dma_enable) {
++ dwc_otg_hc_do_ping(core_if, hc);
++ hc->xfer_started = 1;
++ return;
++ } else {
++ hctsiz.b.dopng = 1;
++ }
++ }
++
++ if (hc->do_split) {
++ num_packets = 1;
++
++ if (hc->complete_split && !hc->ep_is_in) {
++ /* For CSPLIT OUT Transfer, set the size to 0 so the
++ * core doesn't expect any data written to the FIFO */
++ hc->xfer_len = 0;
++ } else if (hc->ep_is_in || (hc->xfer_len > hc->max_packet)) {
++ hc->xfer_len = hc->max_packet;
++ } else if (!hc->ep_is_in && (hc->xfer_len > 188)) {
++ hc->xfer_len = 188;
++ }
++
++ hctsiz.b.xfersize = hc->xfer_len;
++ } else {
++ /*
++ * Ensure that the transfer length and packet count will fit
++ * in the widths allocated for them in the HCTSIZn register.
++ */
++ if (hc->ep_type == DWC_OTG_EP_TYPE_INTR ||
++ hc->ep_type == DWC_OTG_EP_TYPE_ISOC) {
++ /*
++ * Make sure the transfer size is no larger than one
++ * (micro)frame's worth of data. (A check was done
++ * when the periodic transfer was accepted to ensure
++ * that a (micro)frame's worth of data can be
++ * programmed into a channel.)
++ */
++ uint32_t max_periodic_len =
++ hc->multi_count * hc->max_packet;
++ if (hc->xfer_len > max_periodic_len) {
++ hc->xfer_len = max_periodic_len;
++ } else {
++ }
++ } else if (hc->xfer_len > max_hc_xfer_size) {
++ /* Make sure that xfer_len is a multiple of max packet size. */
++ hc->xfer_len = max_hc_xfer_size - hc->max_packet + 1;
++ }
++
++ if (hc->xfer_len > 0) {
++ num_packets =
++ (hc->xfer_len + hc->max_packet -
++ 1) / hc->max_packet;
++ if (num_packets > max_hc_pkt_count) {
++ num_packets = max_hc_pkt_count;
++ hc->xfer_len = num_packets * hc->max_packet;
++ }
++ } else {
++ /* Need 1 packet for transfer length of 0. */
++ num_packets = 1;
++ }
++
++ if (hc->ep_is_in) {
++ /* Always program an integral # of max packets for IN transfers. */
++ hc->xfer_len = num_packets * hc->max_packet;
++ }
++
++ if (hc->ep_type == DWC_OTG_EP_TYPE_INTR ||
++ hc->ep_type == DWC_OTG_EP_TYPE_ISOC) {
++ /*
++ * Make sure that the multi_count field matches the
++ * actual transfer length.
++ */
++ hc->multi_count = num_packets;
++ }
++
++ if (hc->ep_type == DWC_OTG_EP_TYPE_ISOC)
++ set_pid_isoc(hc);
++
++ hctsiz.b.xfersize = hc->xfer_len;
++ }
++
++ hc->start_pkt_count = num_packets;
++ hctsiz.b.pktcnt = num_packets;
++ hctsiz.b.pid = hc->data_pid_start;
++ DWC_WRITE_REG32(&hc_regs->hctsiz, hctsiz.d32);
++
++ DWC_DEBUGPL(DBG_HCDV, "%s: Channel %d\n", __func__, hc->hc_num);
++ DWC_DEBUGPL(DBG_HCDV, " Xfer Size: %d\n", hctsiz.b.xfersize);
++ DWC_DEBUGPL(DBG_HCDV, " Num Pkts: %d\n", hctsiz.b.pktcnt);
++ DWC_DEBUGPL(DBG_HCDV, " Start PID: %d\n", hctsiz.b.pid);
++
++ if (core_if->dma_enable) {
++ dwc_dma_t dma_addr;
++ if (hc->align_buff) {
++ dma_addr = hc->align_buff;
++ } else {
++ dma_addr = ((unsigned long)hc->xfer_buff & 0xffffffff);
++ }
++ DWC_WRITE_REG32(&hc_regs->hcdma, dma_addr);
++ }
++
++ /* Start the split */
++ if (hc->do_split) {
++ hcsplt_data_t hcsplt;
++ hcsplt.d32 = DWC_READ_REG32(&hc_regs->hcsplt);
++ hcsplt.b.spltena = 1;
++ DWC_WRITE_REG32(&hc_regs->hcsplt, hcsplt.d32);
++ }
++
++ hcchar.d32 = DWC_READ_REG32(&hc_regs->hcchar);
++ hcchar.b.multicnt = hc->multi_count;
++ hc_set_even_odd_frame(core_if, hc, &hcchar);
++#ifdef DEBUG
++ core_if->start_hcchar_val[hc->hc_num] = hcchar.d32;
++ if (hcchar.b.chdis) {
++ DWC_WARN("%s: chdis set, channel %d, hcchar 0x%08x\n",
++ __func__, hc->hc_num, hcchar.d32);
++ }
++#endif
++
++ /* Set host channel enable after all other setup is complete. */
++ hcchar.b.chen = 1;
++ hcchar.b.chdis = 0;
++ DWC_WRITE_REG32(&hc_regs->hcchar, hcchar.d32);
++
++ hc->xfer_started = 1;
++ hc->requests++;
++
++ if (!core_if->dma_enable && !hc->ep_is_in && hc->xfer_len > 0) {
++ /* Load OUT packet into the appropriate Tx FIFO. */
++ dwc_otg_hc_write_packet(core_if, hc);
++ }
++#ifdef DEBUG
++ if (hc->ep_type != DWC_OTG_EP_TYPE_INTR) {
++ DWC_DEBUGPL(DBG_HCDV, "transfer %d from core_if %p\n",
++ hc->hc_num, core_if);//GRAYG
++ core_if->hc_xfer_info[hc->hc_num].core_if = core_if;
++ core_if->hc_xfer_info[hc->hc_num].hc = hc;
++
++ /* Start a timer for this transfer. */
++ DWC_TIMER_SCHEDULE(core_if->hc_xfer_timer[hc->hc_num], 10000);
++ }
++#endif
++}
++
++/**
++ * This function does the setup for a data transfer for a host channel
++ * and starts the transfer in Descriptor DMA mode.
++ *
++ * Initializes HCTSIZ register. For a PING transfer the Do Ping bit is set.
++ * Sets PID and NTD values. For periodic transfers
++ * initializes SCHED_INFO field with micro-frame bitmap.
++ *
++ * Initializes HCDMA register with descriptor list address and CTD value
++ * then starts the transfer via enabling the channel.
++ *
++ * @param core_if Programming view of DWC_otg controller.
++ * @param hc Information needed to initialize the host channel.
++ */
++void dwc_otg_hc_start_transfer_ddma(dwc_otg_core_if_t * core_if, dwc_hc_t * hc)
++{
++ dwc_otg_hc_regs_t *hc_regs = core_if->host_if->hc_regs[hc->hc_num];
++ hcchar_data_t hcchar;
++ hctsiz_data_t hctsiz;
++ hcdma_data_t hcdma;
++
++ hctsiz.d32 = 0;
++
++ if (hc->do_ping)
++ hctsiz.b_ddma.dopng = 1;
++
++ if (hc->ep_type == DWC_OTG_EP_TYPE_ISOC)
++ set_pid_isoc(hc);
++
++ /* Packet Count and Xfer Size are not used in Descriptor DMA mode */
++ hctsiz.b_ddma.pid = hc->data_pid_start;
++ hctsiz.b_ddma.ntd = hc->ntd - 1; /* 0 - 1 descriptor, 1 - 2 descriptors, etc. */
++ hctsiz.b_ddma.schinfo = hc->schinfo; /* Non-zero only for high-speed interrupt endpoints */
++
++ DWC_DEBUGPL(DBG_HCDV, "%s: Channel %d\n", __func__, hc->hc_num);
++ DWC_DEBUGPL(DBG_HCDV, " Start PID: %d\n", hctsiz.b.pid);
++ DWC_DEBUGPL(DBG_HCDV, " NTD: %d\n", hctsiz.b_ddma.ntd);
++
++ DWC_WRITE_REG32(&hc_regs->hctsiz, hctsiz.d32);
++
++ hcdma.d32 = 0;
++ hcdma.b.dma_addr = ((uint32_t) hc->desc_list_addr) >> 11;
++
++ /* Always start from first descriptor. */
++ hcdma.b.ctd = 0;
++ DWC_WRITE_REG32(&hc_regs->hcdma, hcdma.d32);
++
++ hcchar.d32 = DWC_READ_REG32(&hc_regs->hcchar);
++ hcchar.b.multicnt = hc->multi_count;
++
++#ifdef DEBUG
++ core_if->start_hcchar_val[hc->hc_num] = hcchar.d32;
++ if (hcchar.b.chdis) {
++ DWC_WARN("%s: chdis set, channel %d, hcchar 0x%08x\n",
++ __func__, hc->hc_num, hcchar.d32);
++ }
++#endif
++
++ /* Set host channel enable after all other setup is complete. */
++ hcchar.b.chen = 1;
++ hcchar.b.chdis = 0;
++
++ DWC_WRITE_REG32(&hc_regs->hcchar, hcchar.d32);
++
++ hc->xfer_started = 1;
++ hc->requests++;
++
++#ifdef DEBUG
++ if ((hc->ep_type != DWC_OTG_EP_TYPE_INTR)
++ && (hc->ep_type != DWC_OTG_EP_TYPE_ISOC)) {
++ DWC_DEBUGPL(DBG_HCDV, "DMA transfer %d from core_if %p\n",
++ hc->hc_num, core_if);//GRAYG
++ core_if->hc_xfer_info[hc->hc_num].core_if = core_if;
++ core_if->hc_xfer_info[hc->hc_num].hc = hc;
++ /* Start a timer for this transfer. */
++ DWC_TIMER_SCHEDULE(core_if->hc_xfer_timer[hc->hc_num], 10000);
++ }
++#endif
++
++}
++
++/**
++ * This function continues a data transfer that was started by previous call
++ * to <code>dwc_otg_hc_start_transfer</code>. The caller must ensure there is
++ * sufficient space in the request queue and Tx Data FIFO. This function
++ * should only be called in Slave mode. In DMA mode, the controller acts
++ * autonomously to complete transfers programmed to a host channel.
++ *
++ * For an OUT transfer, a new data packet is loaded into the appropriate FIFO
++ * if there is any data remaining to be queued. For an IN transfer, another
++ * data packet is always requested. For the SETUP phase of a control transfer,
++ * this function does nothing.
++ *
++ * @return 1 if a new request is queued, 0 if no more requests are required
++ * for this transfer.
++ */
++int dwc_otg_hc_continue_transfer(dwc_otg_core_if_t * core_if, dwc_hc_t * hc)
++{
++ DWC_DEBUGPL(DBG_HCDV, "%s: Channel %d\n", __func__, hc->hc_num);
++
++ if (hc->do_split) {
++ /* SPLITs always queue just once per channel */
++ return 0;
++ } else if (hc->data_pid_start == DWC_OTG_HC_PID_SETUP) {
++ /* SETUPs are queued only once since they can't be NAKed. */
++ return 0;
++ } else if (hc->ep_is_in) {
++ /*
++ * Always queue another request for other IN transfers. If
++ * back-to-back INs are issued and NAKs are received for both,
++ * the driver may still be processing the first NAK when the
++ * second NAK is received. When the interrupt handler clears
++ * the NAK interrupt for the first NAK, the second NAK will
++ * not be seen. So we can't depend on the NAK interrupt
++ * handler to requeue a NAKed request. Instead, IN requests
++ * are issued each time this function is called. When the
++ * transfer completes, the extra requests for the channel will
++ * be flushed.
++ */
++ hcchar_data_t hcchar;
++ dwc_otg_hc_regs_t *hc_regs =
++ core_if->host_if->hc_regs[hc->hc_num];
++
++ hcchar.d32 = DWC_READ_REG32(&hc_regs->hcchar);
++ hc_set_even_odd_frame(core_if, hc, &hcchar);
++ hcchar.b.chen = 1;
++ hcchar.b.chdis = 0;
++ DWC_DEBUGPL(DBG_HCDV, " IN xfer: hcchar = 0x%08x\n",
++ hcchar.d32);
++ DWC_WRITE_REG32(&hc_regs->hcchar, hcchar.d32);
++ hc->requests++;
++ return 1;
++ } else {
++ /* OUT transfers. */
++ if (hc->xfer_count < hc->xfer_len) {
++ if (hc->ep_type == DWC_OTG_EP_TYPE_INTR ||
++ hc->ep_type == DWC_OTG_EP_TYPE_ISOC) {
++ hcchar_data_t hcchar;
++ dwc_otg_hc_regs_t *hc_regs;
++ hc_regs = core_if->host_if->hc_regs[hc->hc_num];
++ hcchar.d32 = DWC_READ_REG32(&hc_regs->hcchar);
++ hc_set_even_odd_frame(core_if, hc, &hcchar);
++ }
++
++ /* Load OUT packet into the appropriate Tx FIFO. */
++ dwc_otg_hc_write_packet(core_if, hc);
++ hc->requests++;
++ return 1;
++ } else {
++ return 0;
++ }
++ }
++}
++
++/**
++ * Starts a PING transfer. This function should only be called in Slave mode.
++ * The Do Ping bit is set in the HCTSIZ register, then the channel is enabled.
++ */
++void dwc_otg_hc_do_ping(dwc_otg_core_if_t * core_if, dwc_hc_t * hc)
++{
++ hcchar_data_t hcchar;
++ hctsiz_data_t hctsiz;
++ dwc_otg_hc_regs_t *hc_regs = core_if->host_if->hc_regs[hc->hc_num];
++
++ DWC_DEBUGPL(DBG_HCDV, "%s: Channel %d\n", __func__, hc->hc_num);
++
++ hctsiz.d32 = 0;
++ hctsiz.b.dopng = 1;
++ hctsiz.b.pktcnt = 1;
++ DWC_WRITE_REG32(&hc_regs->hctsiz, hctsiz.d32);
++
++ hcchar.d32 = DWC_READ_REG32(&hc_regs->hcchar);
++ hcchar.b.chen = 1;
++ hcchar.b.chdis = 0;
++ DWC_WRITE_REG32(&hc_regs->hcchar, hcchar.d32);
++}
++
++/*
++ * This function writes a packet into the Tx FIFO associated with the Host
++ * Channel. For a channel associated with a non-periodic EP, the non-periodic
++ * Tx FIFO is written. For a channel associated with a periodic EP, the
++ * periodic Tx FIFO is written. This function should only be called in Slave
++ * mode.
++ *
++ * Upon return the xfer_buff and xfer_count fields in _hc are incremented by
++ * then number of bytes written to the Tx FIFO.
++ */
++void dwc_otg_hc_write_packet(dwc_otg_core_if_t * core_if, dwc_hc_t * hc)
++{
++ uint32_t i;
++ uint32_t remaining_count;
++ uint32_t byte_count;
++ uint32_t dword_count;
++
++ uint32_t *data_buff = (uint32_t *) (hc->xfer_buff);
++ uint32_t *data_fifo = core_if->data_fifo[hc->hc_num];
++
++ remaining_count = hc->xfer_len - hc->xfer_count;
++ if (remaining_count > hc->max_packet) {
++ byte_count = hc->max_packet;
++ } else {
++ byte_count = remaining_count;
++ }
++
++ dword_count = (byte_count + 3) / 4;
++
++ if ((((unsigned long)data_buff) & 0x3) == 0) {
++ /* xfer_buff is DWORD aligned. */
++ for (i = 0; i < dword_count; i++, data_buff++) {
++ DWC_WRITE_REG32(data_fifo, *data_buff);
++ }
++ } else {
++ /* xfer_buff is not DWORD aligned. */
++ for (i = 0; i < dword_count; i++, data_buff++) {
++ uint32_t data;
++ data =
++ (data_buff[0] | data_buff[1] << 8 | data_buff[2] <<
++ 16 | data_buff[3] << 24);
++ DWC_WRITE_REG32(data_fifo, data);
++ }
++ }
++
++ hc->xfer_count += byte_count;
++ hc->xfer_buff += byte_count;
++}
++
++/**
++ * Gets the current USB frame number. This is the frame number from the last
++ * SOF packet.
++ */
++uint32_t dwc_otg_get_frame_number(dwc_otg_core_if_t * core_if)
++{
++ dsts_data_t dsts;
++ dsts.d32 = DWC_READ_REG32(&core_if->dev_if->dev_global_regs->dsts);
++
++ /* read current frame/microframe number from DSTS register */
++ return dsts.b.soffn;
++}
++
++/**
++ * Calculates and gets the frame Interval value of HFIR register according PHY
++ * type and speed.The application can modify a value of HFIR register only after
++ * the Port Enable bit of the Host Port Control and Status register
++ * (HPRT.PrtEnaPort) has been set.
++*/
++
++uint32_t calc_frame_interval(dwc_otg_core_if_t * core_if)
++{
++ gusbcfg_data_t usbcfg;
++ hwcfg2_data_t hwcfg2;
++ hprt0_data_t hprt0;
++ int clock = 60; // default value
++ usbcfg.d32 = DWC_READ_REG32(&core_if->core_global_regs->gusbcfg);
++ hwcfg2.d32 = DWC_READ_REG32(&core_if->core_global_regs->ghwcfg2);
++ hprt0.d32 = DWC_READ_REG32(core_if->host_if->hprt0);
++ if (!usbcfg.b.physel && usbcfg.b.ulpi_utmi_sel && !usbcfg.b.phyif)
++ clock = 60;
++ if (usbcfg.b.physel && hwcfg2.b.fs_phy_type == 3)
++ clock = 48;
++ if (!usbcfg.b.phylpwrclksel && !usbcfg.b.physel &&
++ !usbcfg.b.ulpi_utmi_sel && usbcfg.b.phyif)
++ clock = 30;
++ if (!usbcfg.b.phylpwrclksel && !usbcfg.b.physel &&
++ !usbcfg.b.ulpi_utmi_sel && !usbcfg.b.phyif)
++ clock = 60;
++ if (usbcfg.b.phylpwrclksel && !usbcfg.b.physel &&
++ !usbcfg.b.ulpi_utmi_sel && usbcfg.b.phyif)
++ clock = 48;
++ if (usbcfg.b.physel && !usbcfg.b.phyif && hwcfg2.b.fs_phy_type == 2)
++ clock = 48;
++ if (usbcfg.b.physel && hwcfg2.b.fs_phy_type == 1)
++ clock = 48;
++ if (hprt0.b.prtspd == 0)
++ /* High speed case */
++ return 125 * clock;
++ else
++ /* FS/LS case */
++ return 1000 * clock;
++}
++
++/**
++ * This function reads a setup packet from the Rx FIFO into the destination
++ * buffer. This function is called from the Rx Status Queue Level (RxStsQLvl)
++ * Interrupt routine when a SETUP packet has been received in Slave mode.
++ *
++ * @param core_if Programming view of DWC_otg controller.
++ * @param dest Destination buffer for packet data.
++ */
++void dwc_otg_read_setup_packet(dwc_otg_core_if_t * core_if, uint32_t * dest)
++{
++ device_grxsts_data_t status;
++ /* Get the 8 bytes of a setup transaction data */
++
++ /* Pop 2 DWORDS off the receive data FIFO into memory */
++ dest[0] = DWC_READ_REG32(core_if->data_fifo[0]);
++ dest[1] = DWC_READ_REG32(core_if->data_fifo[0]);
++ if (core_if->snpsid >= OTG_CORE_REV_3_00a) {
++ status.d32 =
++ DWC_READ_REG32(&core_if->core_global_regs->grxstsp);
++ DWC_DEBUGPL(DBG_ANY,
++ "EP:%d BCnt:%d " "pktsts:%x Frame:%d(0x%0x)\n",
++ status.b.epnum, status.b.bcnt, status.b.pktsts,
++ status.b.fn, status.b.fn);
++ }
++}
++
++/**
++ * This function enables EP0 OUT to receive SETUP packets and configures EP0
++ * IN for transmitting packets. It is normally called when the
++ * "Enumeration Done" interrupt occurs.
++ *
++ * @param core_if Programming view of DWC_otg controller.
++ * @param ep The EP0 data.
++ */
++void dwc_otg_ep0_activate(dwc_otg_core_if_t * core_if, dwc_ep_t * ep)
++{
++ dwc_otg_dev_if_t *dev_if = core_if->dev_if;
++ dsts_data_t dsts;
++ depctl_data_t diepctl;
++ depctl_data_t doepctl;
++ dctl_data_t dctl = {.d32 = 0 };
++
++ ep->stp_rollover = 0;
++ /* Read the Device Status and Endpoint 0 Control registers */
++ dsts.d32 = DWC_READ_REG32(&dev_if->dev_global_regs->dsts);
++ diepctl.d32 = DWC_READ_REG32(&dev_if->in_ep_regs[0]->diepctl);
++ doepctl.d32 = DWC_READ_REG32(&dev_if->out_ep_regs[0]->doepctl);
++
++ /* Set the MPS of the IN EP based on the enumeration speed */
++ switch (dsts.b.enumspd) {
++ case DWC_DSTS_ENUMSPD_HS_PHY_30MHZ_OR_60MHZ:
++ case DWC_DSTS_ENUMSPD_FS_PHY_30MHZ_OR_60MHZ:
++ case DWC_DSTS_ENUMSPD_FS_PHY_48MHZ:
++ diepctl.b.mps = DWC_DEP0CTL_MPS_64;
++ break;
++ case DWC_DSTS_ENUMSPD_LS_PHY_6MHZ:
++ diepctl.b.mps = DWC_DEP0CTL_MPS_8;
++ break;
++ }
++
++ DWC_WRITE_REG32(&dev_if->in_ep_regs[0]->diepctl, diepctl.d32);
++
++ /* Enable OUT EP for receive */
++ if (core_if->snpsid <= OTG_CORE_REV_2_94a) {
++ doepctl.b.epena = 1;
++ DWC_WRITE_REG32(&dev_if->out_ep_regs[0]->doepctl, doepctl.d32);
++ }
++#ifdef VERBOSE
++ DWC_DEBUGPL(DBG_PCDV, "doepctl0=%0x\n",
++ DWC_READ_REG32(&dev_if->out_ep_regs[0]->doepctl));
++ DWC_DEBUGPL(DBG_PCDV, "diepctl0=%0x\n",
++ DWC_READ_REG32(&dev_if->in_ep_regs[0]->diepctl));
++#endif
++ dctl.b.cgnpinnak = 1;
++
++ DWC_MODIFY_REG32(&dev_if->dev_global_regs->dctl, dctl.d32, dctl.d32);
++ DWC_DEBUGPL(DBG_PCDV, "dctl=%0x\n",
++ DWC_READ_REG32(&dev_if->dev_global_regs->dctl));
++
++}
++
++/**
++ * This function activates an EP. The Device EP control register for
++ * the EP is configured as defined in the ep structure. Note: This
++ * function is not used for EP0.
++ *
++ * @param core_if Programming view of DWC_otg controller.
++ * @param ep The EP to activate.
++ */
++void dwc_otg_ep_activate(dwc_otg_core_if_t * core_if, dwc_ep_t * ep)
++{
++ dwc_otg_dev_if_t *dev_if = core_if->dev_if;
++ depctl_data_t depctl;
++ volatile uint32_t *addr;
++ daint_data_t daintmsk = {.d32 = 0 };
++ dcfg_data_t dcfg;
++ uint8_t i;
++
++ DWC_DEBUGPL(DBG_PCDV, "%s() EP%d-%s\n", __func__, ep->num,
++ (ep->is_in ? "IN" : "OUT"));
++
++#ifdef DWC_UTE_PER_IO
++ ep->xiso_frame_num = 0xFFFFFFFF;
++ ep->xiso_active_xfers = 0;
++ ep->xiso_queued_xfers = 0;
++#endif
++ /* Read DEPCTLn register */
++ if (ep->is_in == 1) {
++ addr = &dev_if->in_ep_regs[ep->num]->diepctl;
++ daintmsk.ep.in = 1 << ep->num;
++ } else {
++ addr = &dev_if->out_ep_regs[ep->num]->doepctl;
++ daintmsk.ep.out = 1 << ep->num;
++ }
++
++ /* If the EP is already active don't change the EP Control
++ * register. */
++ depctl.d32 = DWC_READ_REG32(addr);
++ if (!depctl.b.usbactep) {
++ depctl.b.mps = ep->maxpacket;
++ depctl.b.eptype = ep->type;
++ depctl.b.txfnum = ep->tx_fifo_num;
++
++ if (ep->type == DWC_OTG_EP_TYPE_ISOC) {
++ depctl.b.setd0pid = 1; // ???
++ } else {
++ depctl.b.setd0pid = 1;
++ }
++ depctl.b.usbactep = 1;
++
++ /* Update nextep_seq array and EPMSCNT in DCFG*/
++ if (!(depctl.b.eptype & 1) && (ep->is_in == 1)) { // NP IN EP
++ for (i = 0; i <= core_if->dev_if->num_in_eps; i++) {
++ if (core_if->nextep_seq[i] == core_if->first_in_nextep_seq)
++ break;
++ }
++ core_if->nextep_seq[i] = ep->num;
++ core_if->nextep_seq[ep->num] = core_if->first_in_nextep_seq;
++ depctl.b.nextep = core_if->nextep_seq[ep->num];
++ dcfg.d32 = DWC_READ_REG32(&dev_if->dev_global_regs->dcfg);
++ dcfg.b.epmscnt++;
++ DWC_WRITE_REG32(&dev_if->dev_global_regs->dcfg, dcfg.d32);
++
++ DWC_DEBUGPL(DBG_PCDV,
++ "%s first_in_nextep_seq= %2d; nextep_seq[]:\n",
++ __func__, core_if->first_in_nextep_seq);
++ for (i=0; i <= core_if->dev_if->num_in_eps; i++) {
++ DWC_DEBUGPL(DBG_PCDV, "%2d\n",
++ core_if->nextep_seq[i]);
++ }
++
++ }
++
++
++ DWC_WRITE_REG32(addr, depctl.d32);
++ DWC_DEBUGPL(DBG_PCDV, "DEPCTL=%08x\n", DWC_READ_REG32(addr));
++ }
++
++ /* Enable the Interrupt for this EP */
++ if (core_if->multiproc_int_enable) {
++ if (ep->is_in == 1) {
++ diepmsk_data_t diepmsk = {.d32 = 0 };
++ diepmsk.b.xfercompl = 1;
++ diepmsk.b.timeout = 1;
++ diepmsk.b.epdisabled = 1;
++ diepmsk.b.ahberr = 1;
++ diepmsk.b.intknepmis = 1;
++ if (!core_if->en_multiple_tx_fifo && core_if->dma_enable)
++ diepmsk.b.intknepmis = 0;
++ diepmsk.b.txfifoundrn = 1; //?????
++ if (ep->type == DWC_OTG_EP_TYPE_ISOC) {
++ diepmsk.b.nak = 1;
++ }
++
++
++
++/*
++ if (core_if->dma_desc_enable) {
++ diepmsk.b.bna = 1;
++ }
++*/
++/*
++ if (core_if->dma_enable) {
++ doepmsk.b.nak = 1;
++ }
++*/
++ DWC_WRITE_REG32(&dev_if->dev_global_regs->
++ diepeachintmsk[ep->num], diepmsk.d32);
++
++ } else {
++ doepmsk_data_t doepmsk = {.d32 = 0 };
++ doepmsk.b.xfercompl = 1;
++ doepmsk.b.ahberr = 1;
++ doepmsk.b.epdisabled = 1;
++ if (ep->type == DWC_OTG_EP_TYPE_ISOC)
++ doepmsk.b.outtknepdis = 1;
++
++/*
++
++ if (core_if->dma_desc_enable) {
++ doepmsk.b.bna = 1;
++ }
++*/
++/*
++ doepmsk.b.babble = 1;
++ doepmsk.b.nyet = 1;
++ doepmsk.b.nak = 1;
++*/
++ DWC_WRITE_REG32(&dev_if->dev_global_regs->
++ doepeachintmsk[ep->num], doepmsk.d32);
++ }
++ DWC_MODIFY_REG32(&dev_if->dev_global_regs->deachintmsk,
++ 0, daintmsk.d32);
++ } else {
++ if (ep->type == DWC_OTG_EP_TYPE_ISOC) {
++ if (ep->is_in) {
++ diepmsk_data_t diepmsk = {.d32 = 0 };
++ diepmsk.b.nak = 1;
++ DWC_MODIFY_REG32(&dev_if->dev_global_regs->diepmsk, 0, diepmsk.d32);
++ } else {
++ doepmsk_data_t doepmsk = {.d32 = 0 };
++ doepmsk.b.outtknepdis = 1;
++ DWC_MODIFY_REG32(&dev_if->dev_global_regs->doepmsk, 0, doepmsk.d32);
++ }
++ }
++ DWC_MODIFY_REG32(&dev_if->dev_global_regs->daintmsk,
++ 0, daintmsk.d32);
++ }
++
++ DWC_DEBUGPL(DBG_PCDV, "DAINTMSK=%0x\n",
++ DWC_READ_REG32(&dev_if->dev_global_regs->daintmsk));
++
++ ep->stall_clear_flag = 0;
++
++ return;
++}
++
++/**
++ * This function deactivates an EP. This is done by clearing the USB Active
++ * EP bit in the Device EP control register. Note: This function is not used
++ * for EP0. EP0 cannot be deactivated.
++ *
++ * @param core_if Programming view of DWC_otg controller.
++ * @param ep The EP to deactivate.
++ */
++void dwc_otg_ep_deactivate(dwc_otg_core_if_t * core_if, dwc_ep_t * ep)
++{
++ depctl_data_t depctl = {.d32 = 0 };
++ volatile uint32_t *addr;
++ daint_data_t daintmsk = {.d32 = 0 };
++ dcfg_data_t dcfg;
++ uint8_t i = 0;
++
++#ifdef DWC_UTE_PER_IO
++ ep->xiso_frame_num = 0xFFFFFFFF;
++ ep->xiso_active_xfers = 0;
++ ep->xiso_queued_xfers = 0;
++#endif
++
++ /* Read DEPCTLn register */
++ if (ep->is_in == 1) {
++ addr = &core_if->dev_if->in_ep_regs[ep->num]->diepctl;
++ daintmsk.ep.in = 1 << ep->num;
++ } else {
++ addr = &core_if->dev_if->out_ep_regs[ep->num]->doepctl;
++ daintmsk.ep.out = 1 << ep->num;
++ }
++
++ depctl.d32 = DWC_READ_REG32(addr);
++
++ depctl.b.usbactep = 0;
++
++ /* Update nextep_seq array and EPMSCNT in DCFG*/
++ if (!(depctl.b.eptype & 1) && ep->is_in == 1) { // NP EP IN
++ for (i = 0; i <= core_if->dev_if->num_in_eps; i++) {
++ if (core_if->nextep_seq[i] == ep->num)
++ break;
++ }
++ core_if->nextep_seq[i] = core_if->nextep_seq[ep->num];
++ if (core_if->first_in_nextep_seq == ep->num)
++ core_if->first_in_nextep_seq = i;
++ core_if->nextep_seq[ep->num] = 0xff;
++ depctl.b.nextep = 0;
++ dcfg.d32 =
++ DWC_READ_REG32(&core_if->dev_if->dev_global_regs->dcfg);
++ dcfg.b.epmscnt--;
++ DWC_WRITE_REG32(&core_if->dev_if->dev_global_regs->dcfg,
++ dcfg.d32);
++
++ DWC_DEBUGPL(DBG_PCDV,
++ "%s first_in_nextep_seq= %2d; nextep_seq[]:\n",
++ __func__, core_if->first_in_nextep_seq);
++ for (i=0; i <= core_if->dev_if->num_in_eps; i++) {
++ DWC_DEBUGPL(DBG_PCDV, "%2d\n", core_if->nextep_seq[i]);
++ }
++ }
++
++ if (ep->is_in == 1)
++ depctl.b.txfnum = 0;
++
++ if (core_if->dma_desc_enable)
++ depctl.b.epdis = 1;
++
++ DWC_WRITE_REG32(addr, depctl.d32);
++ depctl.d32 = DWC_READ_REG32(addr);
++ if (core_if->dma_enable && ep->type == DWC_OTG_EP_TYPE_ISOC
++ && depctl.b.epena) {
++ depctl_data_t depctl = {.d32 = 0};
++ if (ep->is_in) {
++ diepint_data_t diepint = {.d32 = 0};
++
++ depctl.b.snak = 1;
++ DWC_WRITE_REG32(&core_if->dev_if->in_ep_regs[ep->num]->
++ diepctl, depctl.d32);
++ do {
++ dwc_udelay(10);
++ diepint.d32 =
++ DWC_READ_REG32(&core_if->
++ dev_if->in_ep_regs[ep->num]->
++ diepint);
++ } while (!diepint.b.inepnakeff);
++ diepint.b.inepnakeff = 1;
++ DWC_WRITE_REG32(&core_if->dev_if->in_ep_regs[ep->num]->
++ diepint, diepint.d32);
++ depctl.d32 = 0;
++ depctl.b.epdis = 1;
++ DWC_WRITE_REG32(&core_if->dev_if->in_ep_regs[ep->num]->
++ diepctl, depctl.d32);
++ do {
++ dwc_udelay(10);
++ diepint.d32 =
++ DWC_READ_REG32(&core_if->
++ dev_if->in_ep_regs[ep->num]->
++ diepint);
++ } while (!diepint.b.epdisabled);
++ diepint.b.epdisabled = 1;
++ DWC_WRITE_REG32(&core_if->dev_if->in_ep_regs[ep->num]->
++ diepint, diepint.d32);
++ } else {
++ dctl_data_t dctl = {.d32 = 0};
++ gintmsk_data_t gintsts = {.d32 = 0};
++ doepint_data_t doepint = {.d32 = 0};
++ dctl.b.sgoutnak = 1;
++ DWC_MODIFY_REG32(&core_if->dev_if->dev_global_regs->
++ dctl, 0, dctl.d32);
++ do {
++ dwc_udelay(10);
++ gintsts.d32 = DWC_READ_REG32(&core_if->core_global_regs->gintsts);
++ } while (!gintsts.b.goutnakeff);
++ gintsts.d32 = 0;
++ gintsts.b.goutnakeff = 1;
++ DWC_WRITE_REG32(&core_if->core_global_regs->gintsts, gintsts.d32);
++
++ depctl.d32 = 0;
++ depctl.b.epdis = 1;
++ depctl.b.snak = 1;
++ DWC_WRITE_REG32(&core_if->dev_if->out_ep_regs[ep->num]->doepctl, depctl.d32);
++ do
++ {
++ dwc_udelay(10);
++ doepint.d32 = DWC_READ_REG32(&core_if->dev_if->
++ out_ep_regs[ep->num]->doepint);
++ } while (!doepint.b.epdisabled);
++
++ doepint.b.epdisabled = 1;
++ DWC_WRITE_REG32(&core_if->dev_if->out_ep_regs[ep->num]->doepint, doepint.d32);
++
++ dctl.d32 = 0;
++ dctl.b.cgoutnak = 1;
++ DWC_MODIFY_REG32(&core_if->dev_if->dev_global_regs->dctl, 0, dctl.d32);
++ }
++ }
++
++ /* Disable the Interrupt for this EP */
++ if (core_if->multiproc_int_enable) {
++ DWC_MODIFY_REG32(&core_if->dev_if->dev_global_regs->deachintmsk,
++ daintmsk.d32, 0);
++
++ if (ep->is_in == 1) {
++ DWC_WRITE_REG32(&core_if->dev_if->dev_global_regs->
++ diepeachintmsk[ep->num], 0);
++ } else {
++ DWC_WRITE_REG32(&core_if->dev_if->dev_global_regs->
++ doepeachintmsk[ep->num], 0);
++ }
++ } else {
++ DWC_MODIFY_REG32(&core_if->dev_if->dev_global_regs->daintmsk,
++ daintmsk.d32, 0);
++ }
++
++}
++
++/**
++ * This function initializes dma descriptor chain.
++ *
++ * @param core_if Programming view of DWC_otg controller.
++ * @param ep The EP to start the transfer on.
++ */
++static void init_dma_desc_chain(dwc_otg_core_if_t * core_if, dwc_ep_t * ep)
++{
++ dwc_otg_dev_dma_desc_t *dma_desc;
++ uint32_t offset;
++ uint32_t xfer_est;
++ int i;
++ unsigned maxxfer_local, total_len;
++
++ if (!ep->is_in && ep->type == DWC_OTG_EP_TYPE_INTR &&
++ (ep->maxpacket%4)) {
++ maxxfer_local = ep->maxpacket;
++ total_len = ep->xfer_len;
++ } else {
++ maxxfer_local = ep->maxxfer;
++ total_len = ep->total_len;
++ }
++
++ ep->desc_cnt = (total_len / maxxfer_local) +
++ ((total_len % maxxfer_local) ? 1 : 0);
++
++ if (!ep->desc_cnt)
++ ep->desc_cnt = 1;
++
++ if (ep->desc_cnt > MAX_DMA_DESC_CNT)
++ ep->desc_cnt = MAX_DMA_DESC_CNT;
++
++ dma_desc = ep->desc_addr;
++ if (maxxfer_local == ep->maxpacket) {
++ if ((total_len % maxxfer_local) &&
++ (total_len/maxxfer_local < MAX_DMA_DESC_CNT)) {
++ xfer_est = (ep->desc_cnt - 1) * maxxfer_local +
++ (total_len % maxxfer_local);
++ } else
++ xfer_est = ep->desc_cnt * maxxfer_local;
++ } else
++ xfer_est = total_len;
++ offset = 0;
++ for (i = 0; i < ep->desc_cnt; ++i) {
++ /** DMA Descriptor Setup */
++ if (xfer_est > maxxfer_local) {
++ dma_desc->status.b.bs = BS_HOST_BUSY;
++ dma_desc->status.b.l = 0;
++ dma_desc->status.b.ioc = 0;
++ dma_desc->status.b.sp = 0;
++ dma_desc->status.b.bytes = maxxfer_local;
++ dma_desc->buf = ep->dma_addr + offset;
++ dma_desc->status.b.sts = 0;
++ dma_desc->status.b.bs = BS_HOST_READY;
++
++ xfer_est -= maxxfer_local;
++ offset += maxxfer_local;
++ } else {
++ dma_desc->status.b.bs = BS_HOST_BUSY;
++ dma_desc->status.b.l = 1;
++ dma_desc->status.b.ioc = 1;
++ if (ep->is_in) {
++ dma_desc->status.b.sp =
++ (xfer_est %
++ ep->maxpacket) ? 1 : ((ep->
++ sent_zlp) ? 1 : 0);
++ dma_desc->status.b.bytes = xfer_est;
++ } else {
++ if (maxxfer_local == ep->maxpacket)
++ dma_desc->status.b.bytes = xfer_est;
++ else
++ dma_desc->status.b.bytes =
++ xfer_est + ((4 - (xfer_est & 0x3)) & 0x3);
++ }
++
++ dma_desc->buf = ep->dma_addr + offset;
++ dma_desc->status.b.sts = 0;
++ dma_desc->status.b.bs = BS_HOST_READY;
++ }
++ dma_desc++;
++ }
++}
++/**
++ * This function is called when to write ISOC data into appropriate dedicated
++ * periodic FIFO.
++ */
++static int32_t write_isoc_tx_fifo(dwc_otg_core_if_t * core_if, dwc_ep_t * dwc_ep)
++{
++ dwc_otg_dev_if_t *dev_if = core_if->dev_if;
++ dwc_otg_dev_in_ep_regs_t *ep_regs;
++ dtxfsts_data_t txstatus = {.d32 = 0 };
++ uint32_t len = 0;
++ int epnum = dwc_ep->num;
++ int dwords;
++
++ DWC_DEBUGPL(DBG_PCD, "Dedicated TxFifo Empty: %d \n", epnum);
++
++ ep_regs = core_if->dev_if->in_ep_regs[epnum];
++
++ len = dwc_ep->xfer_len - dwc_ep->xfer_count;
++
++ if (len > dwc_ep->maxpacket) {
++ len = dwc_ep->maxpacket;
++ }
++
++ dwords = (len + 3) / 4;
++
++ /* While there is space in the queue and space in the FIFO and
++ * More data to tranfer, Write packets to the Tx FIFO */
++ txstatus.d32 = DWC_READ_REG32(&dev_if->in_ep_regs[epnum]->dtxfsts);
++ DWC_DEBUGPL(DBG_PCDV, "b4 dtxfsts[%d]=0x%08x\n", epnum, txstatus.d32);
++
++ while (txstatus.b.txfspcavail > dwords &&
++ dwc_ep->xfer_count < dwc_ep->xfer_len && dwc_ep->xfer_len != 0) {
++ /* Write the FIFO */
++ dwc_otg_ep_write_packet(core_if, dwc_ep, 0);
++
++ len = dwc_ep->xfer_len - dwc_ep->xfer_count;
++ if (len > dwc_ep->maxpacket) {
++ len = dwc_ep->maxpacket;
++ }
++
++ dwords = (len + 3) / 4;
++ txstatus.d32 =
++ DWC_READ_REG32(&dev_if->in_ep_regs[epnum]->dtxfsts);
++ DWC_DEBUGPL(DBG_PCDV, "dtxfsts[%d]=0x%08x\n", epnum,
++ txstatus.d32);
++ }
++
++ DWC_DEBUGPL(DBG_PCDV, "b4 dtxfsts[%d]=0x%08x\n", epnum,
++ DWC_READ_REG32(&dev_if->in_ep_regs[epnum]->dtxfsts));
++
++ return 1;
++}
++/**
++ * This function does the setup for a data transfer for an EP and
++ * starts the transfer. For an IN transfer, the packets will be
++ * loaded into the appropriate Tx FIFO in the ISR. For OUT transfers,
++ * the packets are unloaded from the Rx FIFO in the ISR. the ISR.
++ *
++ * @param core_if Programming view of DWC_otg controller.
++ * @param ep The EP to start the transfer on.
++ */
++
++void dwc_otg_ep_start_transfer(dwc_otg_core_if_t * core_if, dwc_ep_t * ep)
++{
++ depctl_data_t depctl;
++ deptsiz_data_t deptsiz;
++ gintmsk_data_t intr_mask = {.d32 = 0 };
++
++ DWC_DEBUGPL((DBG_PCDV | DBG_CILV), "%s()\n", __func__);
++ DWC_DEBUGPL(DBG_PCD, "ep%d-%s xfer_len=%d xfer_cnt=%d "
++ "xfer_buff=%p start_xfer_buff=%p, total_len = %d\n",
++ ep->num, (ep->is_in ? "IN" : "OUT"), ep->xfer_len,
++ ep->xfer_count, ep->xfer_buff, ep->start_xfer_buff,
++ ep->total_len);
++ /* IN endpoint */
++ if (ep->is_in == 1) {
++ dwc_otg_dev_in_ep_regs_t *in_regs =
++ core_if->dev_if->in_ep_regs[ep->num];
++
++ gnptxsts_data_t gtxstatus;
++
++ gtxstatus.d32 =
++ DWC_READ_REG32(&core_if->core_global_regs->gnptxsts);
++
++ if (core_if->en_multiple_tx_fifo == 0
++ && gtxstatus.b.nptxqspcavail == 0 && !core_if->dma_enable) {
++#ifdef DEBUG
++ DWC_PRINTF("TX Queue Full (0x%0x)\n", gtxstatus.d32);
++#endif
++ return;
++ }
++
++ depctl.d32 = DWC_READ_REG32(&(in_regs->diepctl));
++ deptsiz.d32 = DWC_READ_REG32(&(in_regs->dieptsiz));
++
++ if (ep->maxpacket > ep->maxxfer / MAX_PKT_CNT)
++ ep->xfer_len += (ep->maxxfer < (ep->total_len - ep->xfer_len)) ?
++ ep->maxxfer : (ep->total_len - ep->xfer_len);
++ else
++ ep->xfer_len += (MAX_PKT_CNT * ep->maxpacket < (ep->total_len - ep->xfer_len)) ?
++ MAX_PKT_CNT * ep->maxpacket : (ep->total_len - ep->xfer_len);
++
++
++ /* Zero Length Packet? */
++ if ((ep->xfer_len - ep->xfer_count) == 0) {
++ deptsiz.b.xfersize = 0;
++ deptsiz.b.pktcnt = 1;
++ } else {
++ /* Program the transfer size and packet count
++ * as follows: xfersize = N * maxpacket +
++ * short_packet pktcnt = N + (short_packet
++ * exist ? 1 : 0)
++ */
++ deptsiz.b.xfersize = ep->xfer_len - ep->xfer_count;
++ deptsiz.b.pktcnt =
++ (ep->xfer_len - ep->xfer_count - 1 +
++ ep->maxpacket) / ep->maxpacket;
++ if (deptsiz.b.pktcnt > MAX_PKT_CNT) {
++ deptsiz.b.pktcnt = MAX_PKT_CNT;
++ deptsiz.b.xfersize = deptsiz.b.pktcnt * ep->maxpacket;
++ }
++ if (ep->type == DWC_OTG_EP_TYPE_ISOC)
++ deptsiz.b.mc = deptsiz.b.pktcnt;
++ }
++
++ /* Write the DMA register */
++ if (core_if->dma_enable) {
++ if (core_if->dma_desc_enable == 0) {
++ if (ep->type != DWC_OTG_EP_TYPE_ISOC)
++ deptsiz.b.mc = 1;
++ DWC_WRITE_REG32(&in_regs->dieptsiz,
++ deptsiz.d32);
++ DWC_WRITE_REG32(&(in_regs->diepdma),
++ (uint32_t) ep->dma_addr);
++ } else {
++#ifdef DWC_UTE_CFI
++ /* The descriptor chain should be already initialized by now */
++ if (ep->buff_mode != BM_STANDARD) {
++ DWC_WRITE_REG32(&in_regs->diepdma,
++ ep->descs_dma_addr);
++ } else {
++#endif
++ init_dma_desc_chain(core_if, ep);
++ /** DIEPDMAn Register write */
++ DWC_WRITE_REG32(&in_regs->diepdma,
++ ep->dma_desc_addr);
++#ifdef DWC_UTE_CFI
++ }
++#endif
++ }
++ } else {
++ DWC_WRITE_REG32(&in_regs->dieptsiz, deptsiz.d32);
++ if (ep->type != DWC_OTG_EP_TYPE_ISOC) {
++ /**
++ * Enable the Non-Periodic Tx FIFO empty interrupt,
++ * or the Tx FIFO epmty interrupt in dedicated Tx FIFO mode,
++ * the data will be written into the fifo by the ISR.
++ */
++ if (core_if->en_multiple_tx_fifo == 0) {
++ intr_mask.b.nptxfempty = 1;
++ DWC_MODIFY_REG32
++ (&core_if->core_global_regs->gintmsk,
++ intr_mask.d32, intr_mask.d32);
++ } else {
++ /* Enable the Tx FIFO Empty Interrupt for this EP */
++ if (ep->xfer_len > 0) {
++ uint32_t fifoemptymsk = 0;
++ fifoemptymsk = 1 << ep->num;
++ DWC_MODIFY_REG32
++ (&core_if->dev_if->dev_global_regs->dtknqr4_fifoemptymsk,
++ 0, fifoemptymsk);
++
++ }
++ }
++ } else {
++ write_isoc_tx_fifo(core_if, ep);
++ }
++ }
++ if (!core_if->core_params->en_multiple_tx_fifo && core_if->dma_enable)
++ depctl.b.nextep = core_if->nextep_seq[ep->num];
++
++ if (ep->type == DWC_OTG_EP_TYPE_ISOC) {
++ dsts_data_t dsts = {.d32 = 0};
++ if (ep->bInterval == 1) {
++ dsts.d32 =
++ DWC_READ_REG32(&core_if->dev_if->
++ dev_global_regs->dsts);
++ ep->frame_num = dsts.b.soffn + ep->bInterval;
++ if (ep->frame_num > 0x3FFF) {
++ ep->frm_overrun = 1;
++ ep->frame_num &= 0x3FFF;
++ } else
++ ep->frm_overrun = 0;
++ if (ep->frame_num & 0x1) {
++ depctl.b.setd1pid = 1;
++ } else {
++ depctl.b.setd0pid = 1;
++ }
++ }
++ }
++ /* EP enable, IN data in FIFO */
++ depctl.b.cnak = 1;
++ depctl.b.epena = 1;
++ DWC_WRITE_REG32(&in_regs->diepctl, depctl.d32);
++
++ } else {
++ /* OUT endpoint */
++ dwc_otg_dev_out_ep_regs_t *out_regs =
++ core_if->dev_if->out_ep_regs[ep->num];
++
++ depctl.d32 = DWC_READ_REG32(&(out_regs->doepctl));
++ deptsiz.d32 = DWC_READ_REG32(&(out_regs->doeptsiz));
++
++ if (!core_if->dma_desc_enable) {
++ if (ep->maxpacket > ep->maxxfer / MAX_PKT_CNT)
++ ep->xfer_len += (ep->maxxfer < (ep->total_len - ep->xfer_len)) ?
++ ep->maxxfer : (ep->total_len - ep->xfer_len);
++ else
++ ep->xfer_len += (MAX_PKT_CNT * ep->maxpacket < (ep->total_len
++ - ep->xfer_len)) ? MAX_PKT_CNT * ep->maxpacket : (ep->total_len - ep->xfer_len);
++ }
++
++ /* Program the transfer size and packet count as follows:
++ *
++ * pktcnt = N
++ * xfersize = N * maxpacket
++ */
++ if ((ep->xfer_len - ep->xfer_count) == 0) {
++ /* Zero Length Packet */
++ deptsiz.b.xfersize = ep->maxpacket;
++ deptsiz.b.pktcnt = 1;
++ } else {
++ deptsiz.b.pktcnt =
++ (ep->xfer_len - ep->xfer_count +
++ (ep->maxpacket - 1)) / ep->maxpacket;
++ if (deptsiz.b.pktcnt > MAX_PKT_CNT) {
++ deptsiz.b.pktcnt = MAX_PKT_CNT;
++ }
++ if (!core_if->dma_desc_enable) {
++ ep->xfer_len =
++ deptsiz.b.pktcnt * ep->maxpacket + ep->xfer_count;
++ }
++ deptsiz.b.xfersize = ep->xfer_len - ep->xfer_count;
++ }
++
++ DWC_DEBUGPL(DBG_PCDV, "ep%d xfersize=%d pktcnt=%d\n",
++ ep->num, deptsiz.b.xfersize, deptsiz.b.pktcnt);
++
++ if (core_if->dma_enable) {
++ if (!core_if->dma_desc_enable) {
++ DWC_WRITE_REG32(&out_regs->doeptsiz,
++ deptsiz.d32);
++
++ DWC_WRITE_REG32(&(out_regs->doepdma),
++ (uint32_t) ep->dma_addr);
++ } else {
++#ifdef DWC_UTE_CFI
++ /* The descriptor chain should be already initialized by now */
++ if (ep->buff_mode != BM_STANDARD) {
++ DWC_WRITE_REG32(&out_regs->doepdma,
++ ep->descs_dma_addr);
++ } else {
++#endif
++ /** This is used for interrupt out transfers*/
++ if (!ep->xfer_len)
++ ep->xfer_len = ep->total_len;
++ init_dma_desc_chain(core_if, ep);
++
++ if (core_if->core_params->dev_out_nak) {
++ if (ep->type == DWC_OTG_EP_TYPE_BULK) {
++ deptsiz.b.pktcnt = (ep->total_len +
++ (ep->maxpacket - 1)) / ep->maxpacket;
++ deptsiz.b.xfersize = ep->total_len;
++ /* Remember initial value of doeptsiz */
++ core_if->start_doeptsiz_val[ep->num] = deptsiz.d32;
++ DWC_WRITE_REG32(&out_regs->doeptsiz,
++ deptsiz.d32);
++ }
++ }
++ /** DOEPDMAn Register write */
++ DWC_WRITE_REG32(&out_regs->doepdma,
++ ep->dma_desc_addr);
++#ifdef DWC_UTE_CFI
++ }
++#endif
++ }
++ } else {
++ DWC_WRITE_REG32(&out_regs->doeptsiz, deptsiz.d32);
++ }
++
++ if (ep->type == DWC_OTG_EP_TYPE_ISOC) {
++ dsts_data_t dsts = {.d32 = 0};
++ if (ep->bInterval == 1) {
++ dsts.d32 =
++ DWC_READ_REG32(&core_if->dev_if->
++ dev_global_regs->dsts);
++ ep->frame_num = dsts.b.soffn + ep->bInterval;
++ if (ep->frame_num > 0x3FFF) {
++ ep->frm_overrun = 1;
++ ep->frame_num &= 0x3FFF;
++ } else
++ ep->frm_overrun = 0;
++
++ if (ep->frame_num & 0x1) {
++ depctl.b.setd1pid = 1;
++ } else {
++ depctl.b.setd0pid = 1;
++ }
++ }
++ }
++
++ /* EP enable */
++ depctl.b.cnak = 1;
++ depctl.b.epena = 1;
++
++ DWC_WRITE_REG32(&out_regs->doepctl, depctl.d32);
++
++ DWC_DEBUGPL(DBG_PCD, "DOEPCTL=%08x DOEPTSIZ=%08x\n",
++ DWC_READ_REG32(&out_regs->doepctl),
++ DWC_READ_REG32(&out_regs->doeptsiz));
++ DWC_DEBUGPL(DBG_PCD, "DAINTMSK=%08x GINTMSK=%08x\n",
++ DWC_READ_REG32(&core_if->dev_if->dev_global_regs->
++ daintmsk),
++ DWC_READ_REG32(&core_if->core_global_regs->
++ gintmsk));
++
++ /* Timer is scheduling only for out bulk transfers for
++ * "Device DDMA OUT NAK Enhancement" feature to inform user
++ * about received data payload in case of timeout
++ */
++ if (core_if->core_params->dev_out_nak) {
++ if (ep->type == DWC_OTG_EP_TYPE_BULK) {
++ core_if->ep_xfer_info[ep->num].core_if = core_if;
++ core_if->ep_xfer_info[ep->num].ep = ep;
++ core_if->ep_xfer_info[ep->num].state = 1;
++
++ /* Start a timer for this transfer. */
++ DWC_TIMER_SCHEDULE(core_if->ep_xfer_timer[ep->num], 10000);
++ }
++ }
++ }
++}
++
++/**
++ * This function setup a zero length transfer in Buffer DMA and
++ * Slave modes for usb requests with zero field set
++ *
++ * @param core_if Programming view of DWC_otg controller.
++ * @param ep The EP to start the transfer on.
++ *
++ */
++void dwc_otg_ep_start_zl_transfer(dwc_otg_core_if_t * core_if, dwc_ep_t * ep)
++{
++
++ depctl_data_t depctl;
++ deptsiz_data_t deptsiz;
++ gintmsk_data_t intr_mask = {.d32 = 0 };
++
++ DWC_DEBUGPL((DBG_PCDV | DBG_CILV), "%s()\n", __func__);
++ DWC_PRINTF("zero length transfer is called\n");
++
++ /* IN endpoint */
++ if (ep->is_in == 1) {
++ dwc_otg_dev_in_ep_regs_t *in_regs =
++ core_if->dev_if->in_ep_regs[ep->num];
++
++ depctl.d32 = DWC_READ_REG32(&(in_regs->diepctl));
++ deptsiz.d32 = DWC_READ_REG32(&(in_regs->dieptsiz));
++
++ deptsiz.b.xfersize = 0;
++ deptsiz.b.pktcnt = 1;
++
++ /* Write the DMA register */
++ if (core_if->dma_enable) {
++ if (core_if->dma_desc_enable == 0) {
++ deptsiz.b.mc = 1;
++ DWC_WRITE_REG32(&in_regs->dieptsiz,
++ deptsiz.d32);
++ DWC_WRITE_REG32(&(in_regs->diepdma),
++ (uint32_t) ep->dma_addr);
++ }
++ } else {
++ DWC_WRITE_REG32(&in_regs->dieptsiz, deptsiz.d32);
++ /**
++ * Enable the Non-Periodic Tx FIFO empty interrupt,
++ * or the Tx FIFO epmty interrupt in dedicated Tx FIFO mode,
++ * the data will be written into the fifo by the ISR.
++ */
++ if (core_if->en_multiple_tx_fifo == 0) {
++ intr_mask.b.nptxfempty = 1;
++ DWC_MODIFY_REG32(&core_if->
++ core_global_regs->gintmsk,
++ intr_mask.d32, intr_mask.d32);
++ } else {
++ /* Enable the Tx FIFO Empty Interrupt for this EP */
++ if (ep->xfer_len > 0) {
++ uint32_t fifoemptymsk = 0;
++ fifoemptymsk = 1 << ep->num;
++ DWC_MODIFY_REG32(&core_if->
++ dev_if->dev_global_regs->dtknqr4_fifoemptymsk,
++ 0, fifoemptymsk);
++ }
++ }
++ }
++
++ if (!core_if->core_params->en_multiple_tx_fifo && core_if->dma_enable)
++ depctl.b.nextep = core_if->nextep_seq[ep->num];
++ /* EP enable, IN data in FIFO */
++ depctl.b.cnak = 1;
++ depctl.b.epena = 1;
++ DWC_WRITE_REG32(&in_regs->diepctl, depctl.d32);
++
++ } else {
++ /* OUT endpoint */
++ dwc_otg_dev_out_ep_regs_t *out_regs =
++ core_if->dev_if->out_ep_regs[ep->num];
++
++ depctl.d32 = DWC_READ_REG32(&(out_regs->doepctl));
++ deptsiz.d32 = DWC_READ_REG32(&(out_regs->doeptsiz));
++
++ /* Zero Length Packet */
++ deptsiz.b.xfersize = ep->maxpacket;
++ deptsiz.b.pktcnt = 1;
++
++ if (core_if->dma_enable) {
++ if (!core_if->dma_desc_enable) {
++ DWC_WRITE_REG32(&out_regs->doeptsiz,
++ deptsiz.d32);
++
++ DWC_WRITE_REG32(&(out_regs->doepdma),
++ (uint32_t) ep->dma_addr);
++ }
++ } else {
++ DWC_WRITE_REG32(&out_regs->doeptsiz, deptsiz.d32);
++ }
++
++ /* EP enable */
++ depctl.b.cnak = 1;
++ depctl.b.epena = 1;
++
++ DWC_WRITE_REG32(&out_regs->doepctl, depctl.d32);
++
++ }
++}
++
++/**
++ * This function does the setup for a data transfer for EP0 and starts
++ * the transfer. For an IN transfer, the packets will be loaded into
++ * the appropriate Tx FIFO in the ISR. For OUT transfers, the packets are
++ * unloaded from the Rx FIFO in the ISR.
++ *
++ * @param core_if Programming view of DWC_otg controller.
++ * @param ep The EP0 data.
++ */
++void dwc_otg_ep0_start_transfer(dwc_otg_core_if_t * core_if, dwc_ep_t * ep)
++{
++ depctl_data_t depctl;
++ deptsiz0_data_t deptsiz;
++ gintmsk_data_t intr_mask = {.d32 = 0 };
++ dwc_otg_dev_dma_desc_t *dma_desc;
++
++ DWC_DEBUGPL(DBG_PCD, "ep%d-%s xfer_len=%d xfer_cnt=%d "
++ "xfer_buff=%p start_xfer_buff=%p \n",
++ ep->num, (ep->is_in ? "IN" : "OUT"), ep->xfer_len,
++ ep->xfer_count, ep->xfer_buff, ep->start_xfer_buff);
++
++ ep->total_len = ep->xfer_len;
++
++ /* IN endpoint */
++ if (ep->is_in == 1) {
++ dwc_otg_dev_in_ep_regs_t *in_regs =
++ core_if->dev_if->in_ep_regs[0];
++
++ gnptxsts_data_t gtxstatus;
++
++ if (core_if->snpsid >= OTG_CORE_REV_3_00a) {
++ depctl.d32 = DWC_READ_REG32(&in_regs->diepctl);
++ if (depctl.b.epena)
++ return;
++ }
++
++ gtxstatus.d32 =
++ DWC_READ_REG32(&core_if->core_global_regs->gnptxsts);
++
++ /* If dedicated FIFO every time flush fifo before enable ep*/
++ if (core_if->en_multiple_tx_fifo && core_if->snpsid >= OTG_CORE_REV_3_00a)
++ dwc_otg_flush_tx_fifo(core_if, ep->tx_fifo_num);
++
++ if (core_if->en_multiple_tx_fifo == 0
++ && gtxstatus.b.nptxqspcavail == 0
++ && !core_if->dma_enable) {
++#ifdef DEBUG
++ deptsiz.d32 = DWC_READ_REG32(&in_regs->dieptsiz);
++ DWC_DEBUGPL(DBG_PCD, "DIEPCTL0=%0x\n",
++ DWC_READ_REG32(&in_regs->diepctl));
++ DWC_DEBUGPL(DBG_PCD, "DIEPTSIZ0=%0x (sz=%d, pcnt=%d)\n",
++ deptsiz.d32,
++ deptsiz.b.xfersize, deptsiz.b.pktcnt);
++ DWC_PRINTF("TX Queue or FIFO Full (0x%0x)\n",
++ gtxstatus.d32);
++#endif
++ return;
++ }
++
++ depctl.d32 = DWC_READ_REG32(&in_regs->diepctl);
++ deptsiz.d32 = DWC_READ_REG32(&in_regs->dieptsiz);
++
++ /* Zero Length Packet? */
++ if (ep->xfer_len == 0) {
++ deptsiz.b.xfersize = 0;
++ deptsiz.b.pktcnt = 1;
++ } else {
++ /* Program the transfer size and packet count
++ * as follows: xfersize = N * maxpacket +
++ * short_packet pktcnt = N + (short_packet
++ * exist ? 1 : 0)
++ */
++ if (ep->xfer_len > ep->maxpacket) {
++ ep->xfer_len = ep->maxpacket;
++ deptsiz.b.xfersize = ep->maxpacket;
++ } else {
++ deptsiz.b.xfersize = ep->xfer_len;
++ }
++ deptsiz.b.pktcnt = 1;
++
++ }
++ DWC_DEBUGPL(DBG_PCDV,
++ "IN len=%d xfersize=%d pktcnt=%d [%08x]\n",
++ ep->xfer_len, deptsiz.b.xfersize, deptsiz.b.pktcnt,
++ deptsiz.d32);
++
++ /* Write the DMA register */
++ if (core_if->dma_enable) {
++ if (core_if->dma_desc_enable == 0) {
++ DWC_WRITE_REG32(&in_regs->dieptsiz,
++ deptsiz.d32);
++
++ DWC_WRITE_REG32(&(in_regs->diepdma),
++ (uint32_t) ep->dma_addr);
++ } else {
++ dma_desc = core_if->dev_if->in_desc_addr;
++
++ /** DMA Descriptor Setup */
++ dma_desc->status.b.bs = BS_HOST_BUSY;
++ dma_desc->status.b.l = 1;
++ dma_desc->status.b.ioc = 1;
++ dma_desc->status.b.sp =
++ (ep->xfer_len == ep->maxpacket) ? 0 : 1;
++ dma_desc->status.b.bytes = ep->xfer_len;
++ dma_desc->buf = ep->dma_addr;
++ dma_desc->status.b.sts = 0;
++ dma_desc->status.b.bs = BS_HOST_READY;
++
++ /** DIEPDMA0 Register write */
++ DWC_WRITE_REG32(&in_regs->diepdma,
++ core_if->
++ dev_if->dma_in_desc_addr);
++ }
++ } else {
++ DWC_WRITE_REG32(&in_regs->dieptsiz, deptsiz.d32);
++ }
++
++ if (!core_if->core_params->en_multiple_tx_fifo && core_if->dma_enable)
++ depctl.b.nextep = core_if->nextep_seq[ep->num];
++ /* EP enable, IN data in FIFO */
++ depctl.b.cnak = 1;
++ depctl.b.epena = 1;
++ DWC_WRITE_REG32(&in_regs->diepctl, depctl.d32);
++
++ /**
++ * Enable the Non-Periodic Tx FIFO empty interrupt, the
++ * data will be written into the fifo by the ISR.
++ */
++ if (!core_if->dma_enable) {
++ if (core_if->en_multiple_tx_fifo == 0) {
++ intr_mask.b.nptxfempty = 1;
++ DWC_MODIFY_REG32(&core_if->
++ core_global_regs->gintmsk,
++ intr_mask.d32, intr_mask.d32);
++ } else {
++ /* Enable the Tx FIFO Empty Interrupt for this EP */
++ if (ep->xfer_len > 0) {
++ uint32_t fifoemptymsk = 0;
++ fifoemptymsk |= 1 << ep->num;
++ DWC_MODIFY_REG32(&core_if->
++ dev_if->dev_global_regs->dtknqr4_fifoemptymsk,
++ 0, fifoemptymsk);
++ }
++ }
++ }
++ } else {
++ /* OUT endpoint */
++ dwc_otg_dev_out_ep_regs_t *out_regs =
++ core_if->dev_if->out_ep_regs[0];
++
++ depctl.d32 = DWC_READ_REG32(&out_regs->doepctl);
++ deptsiz.d32 = DWC_READ_REG32(&out_regs->doeptsiz);
++
++ /* Program the transfer size and packet count as follows:
++ * xfersize = N * (maxpacket + 4 - (maxpacket % 4))
++ * pktcnt = N */
++ /* Zero Length Packet */
++ deptsiz.b.xfersize = ep->maxpacket;
++ deptsiz.b.pktcnt = 1;
++ if (core_if->snpsid >= OTG_CORE_REV_3_00a)
++ deptsiz.b.supcnt = 3;
++
++ DWC_DEBUGPL(DBG_PCDV, "len=%d xfersize=%d pktcnt=%d\n",
++ ep->xfer_len, deptsiz.b.xfersize, deptsiz.b.pktcnt);
++
++ if (core_if->dma_enable) {
++ if (!core_if->dma_desc_enable) {
++ DWC_WRITE_REG32(&out_regs->doeptsiz,
++ deptsiz.d32);
++
++ DWC_WRITE_REG32(&(out_regs->doepdma),
++ (uint32_t) ep->dma_addr);
++ } else {
++ dma_desc = core_if->dev_if->out_desc_addr;
++
++ /** DMA Descriptor Setup */
++ dma_desc->status.b.bs = BS_HOST_BUSY;
++ if (core_if->snpsid >= OTG_CORE_REV_3_00a) {
++ dma_desc->status.b.mtrf = 0;
++ dma_desc->status.b.sr = 0;
++ }
++ dma_desc->status.b.l = 1;
++ dma_desc->status.b.ioc = 1;
++ dma_desc->status.b.bytes = ep->maxpacket;
++ dma_desc->buf = ep->dma_addr;
++ dma_desc->status.b.sts = 0;
++ dma_desc->status.b.bs = BS_HOST_READY;
++
++ /** DOEPDMA0 Register write */
++ DWC_WRITE_REG32(&out_regs->doepdma,
++ core_if->dev_if->
++ dma_out_desc_addr);
++ }
++ } else {
++ DWC_WRITE_REG32(&out_regs->doeptsiz, deptsiz.d32);
++ }
++
++ /* EP enable */
++ depctl.b.cnak = 1;
++ depctl.b.epena = 1;
++ DWC_WRITE_REG32(&(out_regs->doepctl), depctl.d32);
++ }
++}
++
++/**
++ * This function continues control IN transfers started by
++ * dwc_otg_ep0_start_transfer, when the transfer does not fit in a
++ * single packet. NOTE: The DIEPCTL0/DOEPCTL0 registers only have one
++ * bit for the packet count.
++ *
++ * @param core_if Programming view of DWC_otg controller.
++ * @param ep The EP0 data.
++ */
++void dwc_otg_ep0_continue_transfer(dwc_otg_core_if_t * core_if, dwc_ep_t * ep)
++{
++ depctl_data_t depctl;
++ deptsiz0_data_t deptsiz;
++ gintmsk_data_t intr_mask = {.d32 = 0 };
++ dwc_otg_dev_dma_desc_t *dma_desc;
++
++ if (ep->is_in == 1) {
++ dwc_otg_dev_in_ep_regs_t *in_regs =
++ core_if->dev_if->in_ep_regs[0];
++ gnptxsts_data_t tx_status = {.d32 = 0 };
++
++ tx_status.d32 =
++ DWC_READ_REG32(&core_if->core_global_regs->gnptxsts);
++ /** @todo Should there be check for room in the Tx
++ * Status Queue. If not remove the code above this comment. */
++
++ depctl.d32 = DWC_READ_REG32(&in_regs->diepctl);
++ deptsiz.d32 = DWC_READ_REG32(&in_regs->dieptsiz);
++
++ /* Program the transfer size and packet count
++ * as follows: xfersize = N * maxpacket +
++ * short_packet pktcnt = N + (short_packet
++ * exist ? 1 : 0)
++ */
++
++ if (core_if->dma_desc_enable == 0) {
++ deptsiz.b.xfersize =
++ (ep->total_len - ep->xfer_count) >
++ ep->maxpacket ? ep->maxpacket : (ep->total_len -
++ ep->xfer_count);
++ deptsiz.b.pktcnt = 1;
++ if (core_if->dma_enable == 0) {
++ ep->xfer_len += deptsiz.b.xfersize;
++ } else {
++ ep->xfer_len = deptsiz.b.xfersize;
++ }
++ DWC_WRITE_REG32(&in_regs->dieptsiz, deptsiz.d32);
++ } else {
++ ep->xfer_len =
++ (ep->total_len - ep->xfer_count) >
++ ep->maxpacket ? ep->maxpacket : (ep->total_len -
++ ep->xfer_count);
++
++ dma_desc = core_if->dev_if->in_desc_addr;
++
++ /** DMA Descriptor Setup */
++ dma_desc->status.b.bs = BS_HOST_BUSY;
++ dma_desc->status.b.l = 1;
++ dma_desc->status.b.ioc = 1;
++ dma_desc->status.b.sp =
++ (ep->xfer_len == ep->maxpacket) ? 0 : 1;
++ dma_desc->status.b.bytes = ep->xfer_len;
++ dma_desc->buf = ep->dma_addr;
++ dma_desc->status.b.sts = 0;
++ dma_desc->status.b.bs = BS_HOST_READY;
++
++ /** DIEPDMA0 Register write */
++ DWC_WRITE_REG32(&in_regs->diepdma,
++ core_if->dev_if->dma_in_desc_addr);
++ }
++
++ DWC_DEBUGPL(DBG_PCDV,
++ "IN len=%d xfersize=%d pktcnt=%d [%08x]\n",
++ ep->xfer_len, deptsiz.b.xfersize, deptsiz.b.pktcnt,
++ deptsiz.d32);
++
++ /* Write the DMA register */
++ if (core_if->hwcfg2.b.architecture == DWC_INT_DMA_ARCH) {
++ if (core_if->dma_desc_enable == 0)
++ DWC_WRITE_REG32(&(in_regs->diepdma),
++ (uint32_t) ep->dma_addr);
++ }
++ if (!core_if->core_params->en_multiple_tx_fifo && core_if->dma_enable)
++ depctl.b.nextep = core_if->nextep_seq[ep->num];
++ /* EP enable, IN data in FIFO */
++ depctl.b.cnak = 1;
++ depctl.b.epena = 1;
++ DWC_WRITE_REG32(&in_regs->diepctl, depctl.d32);
++
++ /**
++ * Enable the Non-Periodic Tx FIFO empty interrupt, the
++ * data will be written into the fifo by the ISR.
++ */
++ if (!core_if->dma_enable) {
++ if (core_if->en_multiple_tx_fifo == 0) {
++ /* First clear it from GINTSTS */
++ intr_mask.b.nptxfempty = 1;
++ DWC_MODIFY_REG32(&core_if->
++ core_global_regs->gintmsk,
++ intr_mask.d32, intr_mask.d32);
++
++ } else {
++ /* Enable the Tx FIFO Empty Interrupt for this EP */
++ if (ep->xfer_len > 0) {
++ uint32_t fifoemptymsk = 0;
++ fifoemptymsk |= 1 << ep->num;
++ DWC_MODIFY_REG32(&core_if->
++ dev_if->dev_global_regs->dtknqr4_fifoemptymsk,
++ 0, fifoemptymsk);
++ }
++ }
++ }
++ } else {
++ dwc_otg_dev_out_ep_regs_t *out_regs =
++ core_if->dev_if->out_ep_regs[0];
++
++ depctl.d32 = DWC_READ_REG32(&out_regs->doepctl);
++ deptsiz.d32 = DWC_READ_REG32(&out_regs->doeptsiz);
++
++ /* Program the transfer size and packet count
++ * as follows: xfersize = N * maxpacket +
++ * short_packet pktcnt = N + (short_packet
++ * exist ? 1 : 0)
++ */
++ deptsiz.b.xfersize = ep->maxpacket;
++ deptsiz.b.pktcnt = 1;
++
++ if (core_if->dma_desc_enable == 0) {
++ DWC_WRITE_REG32(&out_regs->doeptsiz, deptsiz.d32);
++ } else {
++ dma_desc = core_if->dev_if->out_desc_addr;
++
++ /** DMA Descriptor Setup */
++ dma_desc->status.b.bs = BS_HOST_BUSY;
++ dma_desc->status.b.l = 1;
++ dma_desc->status.b.ioc = 1;
++ dma_desc->status.b.bytes = ep->maxpacket;
++ dma_desc->buf = ep->dma_addr;
++ dma_desc->status.b.sts = 0;
++ dma_desc->status.b.bs = BS_HOST_READY;
++
++ /** DOEPDMA0 Register write */
++ DWC_WRITE_REG32(&out_regs->doepdma,
++ core_if->dev_if->dma_out_desc_addr);
++ }
++
++ DWC_DEBUGPL(DBG_PCDV,
++ "IN len=%d xfersize=%d pktcnt=%d [%08x]\n",
++ ep->xfer_len, deptsiz.b.xfersize, deptsiz.b.pktcnt,
++ deptsiz.d32);
++
++ /* Write the DMA register */
++ if (core_if->hwcfg2.b.architecture == DWC_INT_DMA_ARCH) {
++ if (core_if->dma_desc_enable == 0)
++ DWC_WRITE_REG32(&(out_regs->doepdma),
++ (uint32_t) ep->dma_addr);
++
++ }
++
++ /* EP enable, IN data in FIFO */
++ depctl.b.cnak = 1;
++ depctl.b.epena = 1;
++ DWC_WRITE_REG32(&out_regs->doepctl, depctl.d32);
++
++ }
++}
++
++#ifdef DEBUG
++void dump_msg(const u8 * buf, unsigned int length)
++{
++ unsigned int start, num, i;
++ char line[52], *p;
++
++ if (length >= 512)
++ return;
++ start = 0;
++ while (length > 0) {
++ num = length < 16u ? length : 16u;
++ p = line;
++ for (i = 0; i < num; ++i) {
++ if (i == 8)
++ *p++ = ' ';
++ DWC_SPRINTF(p, " %02x", buf[i]);
++ p += 3;
++ }
++ *p = 0;
++ DWC_PRINTF("%6x: %s\n", start, line);
++ buf += num;
++ start += num;
++ length -= num;
++ }
++}
++#else
++static inline void dump_msg(const u8 * buf, unsigned int length)
++{
++}
++#endif
++
++/**
++ * This function writes a packet into the Tx FIFO associated with the
++ * EP. For non-periodic EPs the non-periodic Tx FIFO is written. For
++ * periodic EPs the periodic Tx FIFO associated with the EP is written
++ * with all packets for the next micro-frame.
++ *
++ * @param core_if Programming view of DWC_otg controller.
++ * @param ep The EP to write packet for.
++ * @param dma Indicates if DMA is being used.
++ */
++void dwc_otg_ep_write_packet(dwc_otg_core_if_t * core_if, dwc_ep_t * ep,
++ int dma)
++{
++ /**
++ * The buffer is padded to DWORD on a per packet basis in
++ * slave/dma mode if the MPS is not DWORD aligned. The last
++ * packet, if short, is also padded to a multiple of DWORD.
++ *
++ * ep->xfer_buff always starts DWORD aligned in memory and is a
++ * multiple of DWORD in length
++ *
++ * ep->xfer_len can be any number of bytes
++ *
++ * ep->xfer_count is a multiple of ep->maxpacket until the last
++ * packet
++ *
++ * FIFO access is DWORD */
++
++ uint32_t i;
++ uint32_t byte_count;
++ uint32_t dword_count;
++ uint32_t *fifo;
++ uint32_t *data_buff = (uint32_t *) ep->xfer_buff;
++
++ DWC_DEBUGPL((DBG_PCDV | DBG_CILV), "%s(%p,%p)\n", __func__, core_if,
++ ep);
++ if (ep->xfer_count >= ep->xfer_len) {
++ DWC_WARN("%s() No data for EP%d!!!\n", __func__, ep->num);
++ return;
++ }
++
++ /* Find the byte length of the packet either short packet or MPS */
++ if ((ep->xfer_len - ep->xfer_count) < ep->maxpacket) {
++ byte_count = ep->xfer_len - ep->xfer_count;
++ } else {
++ byte_count = ep->maxpacket;
++ }
++
++ /* Find the DWORD length, padded by extra bytes as neccessary if MPS
++ * is not a multiple of DWORD */
++ dword_count = (byte_count + 3) / 4;
++
++#ifdef VERBOSE
++ dump_msg(ep->xfer_buff, byte_count);
++#endif
++
++ /**@todo NGS Where are the Periodic Tx FIFO addresses
++ * intialized? What should this be? */
++
++ fifo = core_if->data_fifo[ep->num];
++
++ DWC_DEBUGPL((DBG_PCDV | DBG_CILV), "fifo=%p buff=%p *p=%08x bc=%d\n",
++ fifo, data_buff, *data_buff, byte_count);
++
++ if (!dma) {
++ for (i = 0; i < dword_count; i++, data_buff++) {
++ DWC_WRITE_REG32(fifo, *data_buff);
++ }
++ }
++
++ ep->xfer_count += byte_count;
++ ep->xfer_buff += byte_count;
++ ep->dma_addr += byte_count;
++}
++
++/**
++ * Set the EP STALL.
++ *
++ * @param core_if Programming view of DWC_otg controller.
++ * @param ep The EP to set the stall on.
++ */
++void dwc_otg_ep_set_stall(dwc_otg_core_if_t * core_if, dwc_ep_t * ep)
++{
++ depctl_data_t depctl;
++ volatile uint32_t *depctl_addr;
++
++ DWC_DEBUGPL(DBG_PCD, "%s ep%d-%s\n", __func__, ep->num,
++ (ep->is_in ? "IN" : "OUT"));
++
++ if (ep->is_in == 1) {
++ depctl_addr = &(core_if->dev_if->in_ep_regs[ep->num]->diepctl);
++ depctl.d32 = DWC_READ_REG32(depctl_addr);
++
++ /* set the disable and stall bits */
++ if (depctl.b.epena) {
++ depctl.b.epdis = 1;
++ }
++ depctl.b.stall = 1;
++ DWC_WRITE_REG32(depctl_addr, depctl.d32);
++ } else {
++ depctl_addr = &(core_if->dev_if->out_ep_regs[ep->num]->doepctl);
++ depctl.d32 = DWC_READ_REG32(depctl_addr);
++
++ /* set the stall bit */
++ depctl.b.stall = 1;
++ DWC_WRITE_REG32(depctl_addr, depctl.d32);
++ }
++
++ DWC_DEBUGPL(DBG_PCD, "DEPCTL=%0x\n", DWC_READ_REG32(depctl_addr));
++
++ return;
++}
++
++/**
++ * Clear the EP STALL.
++ *
++ * @param core_if Programming view of DWC_otg controller.
++ * @param ep The EP to clear stall from.
++ */
++void dwc_otg_ep_clear_stall(dwc_otg_core_if_t * core_if, dwc_ep_t * ep)
++{
++ depctl_data_t depctl;
++ volatile uint32_t *depctl_addr;
++
++ DWC_DEBUGPL(DBG_PCD, "%s ep%d-%s\n", __func__, ep->num,
++ (ep->is_in ? "IN" : "OUT"));
++
++ if (ep->is_in == 1) {
++ depctl_addr = &(core_if->dev_if->in_ep_regs[ep->num]->diepctl);
++ } else {
++ depctl_addr = &(core_if->dev_if->out_ep_regs[ep->num]->doepctl);
++ }
++
++ depctl.d32 = DWC_READ_REG32(depctl_addr);
++
++ /* clear the stall bits */
++ depctl.b.stall = 0;
++
++ /*
++ * USB Spec 9.4.5: For endpoints using data toggle, regardless
++ * of whether an endpoint has the Halt feature set, a
++ * ClearFeature(ENDPOINT_HALT) request always results in the
++ * data toggle being reinitialized to DATA0.
++ */
++ if (ep->type == DWC_OTG_EP_TYPE_INTR ||
++ ep->type == DWC_OTG_EP_TYPE_BULK) {
++ depctl.b.setd0pid = 1; /* DATA0 */
++ }
++
++ DWC_WRITE_REG32(depctl_addr, depctl.d32);
++ DWC_DEBUGPL(DBG_PCD, "DEPCTL=%0x\n", DWC_READ_REG32(depctl_addr));
++ return;
++}
++
++/**
++ * This function reads a packet from the Rx FIFO into the destination
++ * buffer. To read SETUP data use dwc_otg_read_setup_packet.
++ *
++ * @param core_if Programming view of DWC_otg controller.
++ * @param dest Destination buffer for the packet.
++ * @param bytes Number of bytes to copy to the destination.
++ */
++void dwc_otg_read_packet(dwc_otg_core_if_t * core_if,
++ uint8_t * dest, uint16_t bytes)
++{
++ int i;
++ int word_count = (bytes + 3) / 4;
++
++ volatile uint32_t *fifo = core_if->data_fifo[0];
++ uint32_t *data_buff = (uint32_t *) dest;
++
++ /**
++ * @todo Account for the case where _dest is not dword aligned. This
++ * requires reading data from the FIFO into a uint32_t temp buffer,
++ * then moving it into the data buffer.
++ */
++
++ DWC_DEBUGPL((DBG_PCDV | DBG_CILV), "%s(%p,%p,%d)\n", __func__,
++ core_if, dest, bytes);
++
++ for (i = 0; i < word_count; i++, data_buff++) {
++ *data_buff = DWC_READ_REG32(fifo);
++ }
++
++ return;
++}
++
++/**
++ * This functions reads the device registers and prints them
++ *
++ * @param core_if Programming view of DWC_otg controller.
++ */
++void dwc_otg_dump_dev_registers(dwc_otg_core_if_t * core_if)
++{
++ int i;
++ volatile uint32_t *addr;
++
++ DWC_PRINTF("Device Global Registers\n");
++ addr = &core_if->dev_if->dev_global_regs->dcfg;
++ DWC_PRINTF("DCFG @0x%08lX : 0x%08X\n",
++ (unsigned long)addr, DWC_READ_REG32(addr));
++ addr = &core_if->dev_if->dev_global_regs->dctl;
++ DWC_PRINTF("DCTL @0x%08lX : 0x%08X\n",
++ (unsigned long)addr, DWC_READ_REG32(addr));
++ addr = &core_if->dev_if->dev_global_regs->dsts;
++ DWC_PRINTF("DSTS @0x%08lX : 0x%08X\n",
++ (unsigned long)addr, DWC_READ_REG32(addr));
++ addr = &core_if->dev_if->dev_global_regs->diepmsk;
++ DWC_PRINTF("DIEPMSK @0x%08lX : 0x%08X\n", (unsigned long)addr,
++ DWC_READ_REG32(addr));
++ addr = &core_if->dev_if->dev_global_regs->doepmsk;
++ DWC_PRINTF("DOEPMSK @0x%08lX : 0x%08X\n", (unsigned long)addr,
++ DWC_READ_REG32(addr));
++ addr = &core_if->dev_if->dev_global_regs->daint;
++ DWC_PRINTF("DAINT @0x%08lX : 0x%08X\n", (unsigned long)addr,
++ DWC_READ_REG32(addr));
++ addr = &core_if->dev_if->dev_global_regs->daintmsk;
++ DWC_PRINTF("DAINTMSK @0x%08lX : 0x%08X\n", (unsigned long)addr,
++ DWC_READ_REG32(addr));
++ addr = &core_if->dev_if->dev_global_regs->dtknqr1;
++ DWC_PRINTF("DTKNQR1 @0x%08lX : 0x%08X\n", (unsigned long)addr,
++ DWC_READ_REG32(addr));
++ if (core_if->hwcfg2.b.dev_token_q_depth > 6) {
++ addr = &core_if->dev_if->dev_global_regs->dtknqr2;
++ DWC_PRINTF("DTKNQR2 @0x%08lX : 0x%08X\n",
++ (unsigned long)addr, DWC_READ_REG32(addr));
++ }
++
++ addr = &core_if->dev_if->dev_global_regs->dvbusdis;
++ DWC_PRINTF("DVBUSID @0x%08lX : 0x%08X\n", (unsigned long)addr,
++ DWC_READ_REG32(addr));
++
++ addr = &core_if->dev_if->dev_global_regs->dvbuspulse;
++ DWC_PRINTF("DVBUSPULSE @0x%08lX : 0x%08X\n",
++ (unsigned long)addr, DWC_READ_REG32(addr));
++
++ addr = &core_if->dev_if->dev_global_regs->dtknqr3_dthrctl;
++ DWC_PRINTF("DTKNQR3_DTHRCTL @0x%08lX : 0x%08X\n",
++ (unsigned long)addr, DWC_READ_REG32(addr));
++
++ if (core_if->hwcfg2.b.dev_token_q_depth > 22) {
++ addr = &core_if->dev_if->dev_global_regs->dtknqr4_fifoemptymsk;
++ DWC_PRINTF("DTKNQR4 @0x%08lX : 0x%08X\n",
++ (unsigned long)addr, DWC_READ_REG32(addr));
++ }
++
++ addr = &core_if->dev_if->dev_global_regs->dtknqr4_fifoemptymsk;
++ DWC_PRINTF("FIFOEMPMSK @0x%08lX : 0x%08X\n", (unsigned long)addr,
++ DWC_READ_REG32(addr));
++
++ if (core_if->hwcfg2.b.multi_proc_int) {
++
++ addr = &core_if->dev_if->dev_global_regs->deachint;
++ DWC_PRINTF("DEACHINT @0x%08lX : 0x%08X\n",
++ (unsigned long)addr, DWC_READ_REG32(addr));
++ addr = &core_if->dev_if->dev_global_regs->deachintmsk;
++ DWC_PRINTF("DEACHINTMSK @0x%08lX : 0x%08X\n",
++ (unsigned long)addr, DWC_READ_REG32(addr));
++
++ for (i = 0; i <= core_if->dev_if->num_in_eps; i++) {
++ addr =
++ &core_if->dev_if->
++ dev_global_regs->diepeachintmsk[i];
++ DWC_PRINTF("DIEPEACHINTMSK[%d] @0x%08lX : 0x%08X\n",
++ i, (unsigned long)addr,
++ DWC_READ_REG32(addr));
++ }
++
++ for (i = 0; i <= core_if->dev_if->num_out_eps; i++) {
++ addr =
++ &core_if->dev_if->
++ dev_global_regs->doepeachintmsk[i];
++ DWC_PRINTF("DOEPEACHINTMSK[%d] @0x%08lX : 0x%08X\n",
++ i, (unsigned long)addr,
++ DWC_READ_REG32(addr));
++ }
++ }
++
++ for (i = 0; i <= core_if->dev_if->num_in_eps; i++) {
++ DWC_PRINTF("Device IN EP %d Registers\n", i);
++ addr = &core_if->dev_if->in_ep_regs[i]->diepctl;
++ DWC_PRINTF("DIEPCTL @0x%08lX : 0x%08X\n",
++ (unsigned long)addr, DWC_READ_REG32(addr));
++ addr = &core_if->dev_if->in_ep_regs[i]->diepint;
++ DWC_PRINTF("DIEPINT @0x%08lX : 0x%08X\n",
++ (unsigned long)addr, DWC_READ_REG32(addr));
++ addr = &core_if->dev_if->in_ep_regs[i]->dieptsiz;
++ DWC_PRINTF("DIETSIZ @0x%08lX : 0x%08X\n",
++ (unsigned long)addr, DWC_READ_REG32(addr));
++ addr = &core_if->dev_if->in_ep_regs[i]->diepdma;
++ DWC_PRINTF("DIEPDMA @0x%08lX : 0x%08X\n",
++ (unsigned long)addr, DWC_READ_REG32(addr));
++ addr = &core_if->dev_if->in_ep_regs[i]->dtxfsts;
++ DWC_PRINTF("DTXFSTS @0x%08lX : 0x%08X\n",
++ (unsigned long)addr, DWC_READ_REG32(addr));
++ addr = &core_if->dev_if->in_ep_regs[i]->diepdmab;
++ DWC_PRINTF("DIEPDMAB @0x%08lX : 0x%08X\n",
++ (unsigned long)addr, 0 /*DWC_READ_REG32(addr) */ );
++ }
++
++ for (i = 0; i <= core_if->dev_if->num_out_eps; i++) {
++ DWC_PRINTF("Device OUT EP %d Registers\n", i);
++ addr = &core_if->dev_if->out_ep_regs[i]->doepctl;
++ DWC_PRINTF("DOEPCTL @0x%08lX : 0x%08X\n",
++ (unsigned long)addr, DWC_READ_REG32(addr));
++ addr = &core_if->dev_if->out_ep_regs[i]->doepint;
++ DWC_PRINTF("DOEPINT @0x%08lX : 0x%08X\n",
++ (unsigned long)addr, DWC_READ_REG32(addr));
++ addr = &core_if->dev_if->out_ep_regs[i]->doeptsiz;
++ DWC_PRINTF("DOETSIZ @0x%08lX : 0x%08X\n",
++ (unsigned long)addr, DWC_READ_REG32(addr));
++ addr = &core_if->dev_if->out_ep_regs[i]->doepdma;
++ DWC_PRINTF("DOEPDMA @0x%08lX : 0x%08X\n",
++ (unsigned long)addr, DWC_READ_REG32(addr));
++ if (core_if->dma_enable) { /* Don't access this register in SLAVE mode */
++ addr = &core_if->dev_if->out_ep_regs[i]->doepdmab;
++ DWC_PRINTF("DOEPDMAB @0x%08lX : 0x%08X\n",
++ (unsigned long)addr, DWC_READ_REG32(addr));
++ }
++
++ }
++}
++
++/**
++ * This functions reads the SPRAM and prints its content
++ *
++ * @param core_if Programming view of DWC_otg controller.
++ */
++void dwc_otg_dump_spram(dwc_otg_core_if_t * core_if)
++{
++ volatile uint8_t *addr, *start_addr, *end_addr;
++
++ DWC_PRINTF("SPRAM Data:\n");
++ start_addr = (void *)core_if->core_global_regs;
++ DWC_PRINTF("Base Address: 0x%8lX\n", (unsigned long)start_addr);
++ start_addr += 0x00028000;
++ end_addr = (void *)core_if->core_global_regs;
++ end_addr += 0x000280e0;
++
++ for (addr = start_addr; addr < end_addr; addr += 16) {
++ DWC_PRINTF
++ ("0x%8lX:\t%2X %2X %2X %2X %2X %2X %2X %2X %2X %2X %2X %2X %2X %2X %2X %2X\n",
++ (unsigned long)addr, addr[0], addr[1], addr[2], addr[3],
++ addr[4], addr[5], addr[6], addr[7], addr[8], addr[9],
++ addr[10], addr[11], addr[12], addr[13], addr[14], addr[15]
++ );
++ }
++
++ return;
++}
++
++/**
++ * This function reads the host registers and prints them
++ *
++ * @param core_if Programming view of DWC_otg controller.
++ */
++void dwc_otg_dump_host_registers(dwc_otg_core_if_t * core_if)
++{
++ int i;
++ volatile uint32_t *addr;
++
++ DWC_PRINTF("Host Global Registers\n");
++ addr = &core_if->host_if->host_global_regs->hcfg;
++ DWC_PRINTF("HCFG @0x%08lX : 0x%08X\n",
++ (unsigned long)addr, DWC_READ_REG32(addr));
++ addr = &core_if->host_if->host_global_regs->hfir;
++ DWC_PRINTF("HFIR @0x%08lX : 0x%08X\n",
++ (unsigned long)addr, DWC_READ_REG32(addr));
++ addr = &core_if->host_if->host_global_regs->hfnum;
++ DWC_PRINTF("HFNUM @0x%08lX : 0x%08X\n", (unsigned long)addr,
++ DWC_READ_REG32(addr));
++ addr = &core_if->host_if->host_global_regs->hptxsts;
++ DWC_PRINTF("HPTXSTS @0x%08lX : 0x%08X\n", (unsigned long)addr,
++ DWC_READ_REG32(addr));
++ addr = &core_if->host_if->host_global_regs->haint;
++ DWC_PRINTF("HAINT @0x%08lX : 0x%08X\n", (unsigned long)addr,
++ DWC_READ_REG32(addr));
++ addr = &core_if->host_if->host_global_regs->haintmsk;
++ DWC_PRINTF("HAINTMSK @0x%08lX : 0x%08X\n", (unsigned long)addr,
++ DWC_READ_REG32(addr));
++ if (core_if->dma_desc_enable) {
++ addr = &core_if->host_if->host_global_regs->hflbaddr;
++ DWC_PRINTF("HFLBADDR @0x%08lX : 0x%08X\n",
++ (unsigned long)addr, DWC_READ_REG32(addr));
++ }
++
++ addr = core_if->host_if->hprt0;
++ DWC_PRINTF("HPRT0 @0x%08lX : 0x%08X\n", (unsigned long)addr,
++ DWC_READ_REG32(addr));
++
++ for (i = 0; i < core_if->core_params->host_channels; i++) {
++ DWC_PRINTF("Host Channel %d Specific Registers\n", i);
++ addr = &core_if->host_if->hc_regs[i]->hcchar;
++ DWC_PRINTF("HCCHAR @0x%08lX : 0x%08X\n",
++ (unsigned long)addr, DWC_READ_REG32(addr));
++ addr = &core_if->host_if->hc_regs[i]->hcsplt;
++ DWC_PRINTF("HCSPLT @0x%08lX : 0x%08X\n",
++ (unsigned long)addr, DWC_READ_REG32(addr));
++ addr = &core_if->host_if->hc_regs[i]->hcint;
++ DWC_PRINTF("HCINT @0x%08lX : 0x%08X\n",
++ (unsigned long)addr, DWC_READ_REG32(addr));
++ addr = &core_if->host_if->hc_regs[i]->hcintmsk;
++ DWC_PRINTF("HCINTMSK @0x%08lX : 0x%08X\n",
++ (unsigned long)addr, DWC_READ_REG32(addr));
++ addr = &core_if->host_if->hc_regs[i]->hctsiz;
++ DWC_PRINTF("HCTSIZ @0x%08lX : 0x%08X\n",
++ (unsigned long)addr, DWC_READ_REG32(addr));
++ addr = &core_if->host_if->hc_regs[i]->hcdma;
++ DWC_PRINTF("HCDMA @0x%08lX : 0x%08X\n",
++ (unsigned long)addr, DWC_READ_REG32(addr));
++ if (core_if->dma_desc_enable) {
++ addr = &core_if->host_if->hc_regs[i]->hcdmab;
++ DWC_PRINTF("HCDMAB @0x%08lX : 0x%08X\n",
++ (unsigned long)addr, DWC_READ_REG32(addr));
++ }
++
++ }
++ return;
++}
++
++/**
++ * This function reads the core global registers and prints them
++ *
++ * @param core_if Programming view of DWC_otg controller.
++ */
++void dwc_otg_dump_global_registers(dwc_otg_core_if_t * core_if)
++{
++ int i, ep_num;
++ volatile uint32_t *addr;
++ char *txfsiz;
++
++ DWC_PRINTF("Core Global Registers\n");
++ addr = &core_if->core_global_regs->gotgctl;
++ DWC_PRINTF("GOTGCTL @0x%08lX : 0x%08X\n", (unsigned long)addr,
++ DWC_READ_REG32(addr));
++ addr = &core_if->core_global_regs->gotgint;
++ DWC_PRINTF("GOTGINT @0x%08lX : 0x%08X\n", (unsigned long)addr,
++ DWC_READ_REG32(addr));
++ addr = &core_if->core_global_regs->gahbcfg;
++ DWC_PRINTF("GAHBCFG @0x%08lX : 0x%08X\n", (unsigned long)addr,
++ DWC_READ_REG32(addr));
++ addr = &core_if->core_global_regs->gusbcfg;
++ DWC_PRINTF("GUSBCFG @0x%08lX : 0x%08X\n", (unsigned long)addr,
++ DWC_READ_REG32(addr));
++ addr = &core_if->core_global_regs->grstctl;
++ DWC_PRINTF("GRSTCTL @0x%08lX : 0x%08X\n", (unsigned long)addr,
++ DWC_READ_REG32(addr));
++ addr = &core_if->core_global_regs->gintsts;
++ DWC_PRINTF("GINTSTS @0x%08lX : 0x%08X\n", (unsigned long)addr,
++ DWC_READ_REG32(addr));
++ addr = &core_if->core_global_regs->gintmsk;
++ DWC_PRINTF("GINTMSK @0x%08lX : 0x%08X\n", (unsigned long)addr,
++ DWC_READ_REG32(addr));
++ addr = &core_if->core_global_regs->grxstsr;
++ DWC_PRINTF("GRXSTSR @0x%08lX : 0x%08X\n", (unsigned long)addr,
++ DWC_READ_REG32(addr));
++ addr = &core_if->core_global_regs->grxfsiz;
++ DWC_PRINTF("GRXFSIZ @0x%08lX : 0x%08X\n", (unsigned long)addr,
++ DWC_READ_REG32(addr));
++ addr = &core_if->core_global_regs->gnptxfsiz;
++ DWC_PRINTF("GNPTXFSIZ @0x%08lX : 0x%08X\n", (unsigned long)addr,
++ DWC_READ_REG32(addr));
++ addr = &core_if->core_global_regs->gnptxsts;
++ DWC_PRINTF("GNPTXSTS @0x%08lX : 0x%08X\n", (unsigned long)addr,
++ DWC_READ_REG32(addr));
++ addr = &core_if->core_global_regs->gi2cctl;
++ DWC_PRINTF("GI2CCTL @0x%08lX : 0x%08X\n", (unsigned long)addr,
++ DWC_READ_REG32(addr));
++ addr = &core_if->core_global_regs->gpvndctl;
++ DWC_PRINTF("GPVNDCTL @0x%08lX : 0x%08X\n", (unsigned long)addr,
++ DWC_READ_REG32(addr));
++ addr = &core_if->core_global_regs->ggpio;
++ DWC_PRINTF("GGPIO @0x%08lX : 0x%08X\n", (unsigned long)addr,
++ DWC_READ_REG32(addr));
++ addr = &core_if->core_global_regs->guid;
++ DWC_PRINTF("GUID @0x%08lX : 0x%08X\n",
++ (unsigned long)addr, DWC_READ_REG32(addr));
++ addr = &core_if->core_global_regs->gsnpsid;
++ DWC_PRINTF("GSNPSID @0x%08lX : 0x%08X\n", (unsigned long)addr,
++ DWC_READ_REG32(addr));
++ addr = &core_if->core_global_regs->ghwcfg1;
++ DWC_PRINTF("GHWCFG1 @0x%08lX : 0x%08X\n", (unsigned long)addr,
++ DWC_READ_REG32(addr));
++ addr = &core_if->core_global_regs->ghwcfg2;
++ DWC_PRINTF("GHWCFG2 @0x%08lX : 0x%08X\n", (unsigned long)addr,
++ DWC_READ_REG32(addr));
++ addr = &core_if->core_global_regs->ghwcfg3;
++ DWC_PRINTF("GHWCFG3 @0x%08lX : 0x%08X\n", (unsigned long)addr,
++ DWC_READ_REG32(addr));
++ addr = &core_if->core_global_regs->ghwcfg4;
++ DWC_PRINTF("GHWCFG4 @0x%08lX : 0x%08X\n", (unsigned long)addr,
++ DWC_READ_REG32(addr));
++ addr = &core_if->core_global_regs->glpmcfg;
++ DWC_PRINTF("GLPMCFG @0x%08lX : 0x%08X\n", (unsigned long)addr,
++ DWC_READ_REG32(addr));
++ addr = &core_if->core_global_regs->gpwrdn;
++ DWC_PRINTF("GPWRDN @0x%08lX : 0x%08X\n", (unsigned long)addr,
++ DWC_READ_REG32(addr));
++ addr = &core_if->core_global_regs->gdfifocfg;
++ DWC_PRINTF("GDFIFOCFG @0x%08lX : 0x%08X\n", (unsigned long)addr,
++ DWC_READ_REG32(addr));
++ addr = &core_if->core_global_regs->adpctl;
++ DWC_PRINTF("ADPCTL @0x%08lX : 0x%08X\n", (unsigned long)addr,
++ dwc_otg_adp_read_reg(core_if));
++ addr = &core_if->core_global_regs->hptxfsiz;
++ DWC_PRINTF("HPTXFSIZ @0x%08lX : 0x%08X\n", (unsigned long)addr,
++ DWC_READ_REG32(addr));
++
++ if (core_if->en_multiple_tx_fifo == 0) {
++ ep_num = core_if->hwcfg4.b.num_dev_perio_in_ep;
++ txfsiz = "DPTXFSIZ";
++ } else {
++ ep_num = core_if->hwcfg4.b.num_in_eps;
++ txfsiz = "DIENPTXF";
++ }
++ for (i = 0; i < ep_num; i++) {
++ addr = &core_if->core_global_regs->dtxfsiz[i];
++ DWC_PRINTF("%s[%d] @0x%08lX : 0x%08X\n", txfsiz, i + 1,
++ (unsigned long)addr, DWC_READ_REG32(addr));
++ }
++ addr = core_if->pcgcctl;
++ DWC_PRINTF("PCGCCTL @0x%08lX : 0x%08X\n", (unsigned long)addr,
++ DWC_READ_REG32(addr));
++}
++
++/**
++ * Flush a Tx FIFO.
++ *
++ * @param core_if Programming view of DWC_otg controller.
++ * @param num Tx FIFO to flush.
++ */
++void dwc_otg_flush_tx_fifo(dwc_otg_core_if_t * core_if, const int num)
++{
++ dwc_otg_core_global_regs_t *global_regs = core_if->core_global_regs;
++ volatile grstctl_t greset = {.d32 = 0 };
++ int count = 0;
++
++ DWC_DEBUGPL((DBG_CIL | DBG_PCDV), "Flush Tx FIFO %d\n", num);
++
++ greset.b.txfflsh = 1;
++ greset.b.txfnum = num;
++ DWC_WRITE_REG32(&global_regs->grstctl, greset.d32);
++
++ do {
++ greset.d32 = DWC_READ_REG32(&global_regs->grstctl);
++ if (++count > 10000) {
++ DWC_WARN("%s() HANG! GRSTCTL=%0x GNPTXSTS=0x%08x\n",
++ __func__, greset.d32,
++ DWC_READ_REG32(&global_regs->gnptxsts));
++ break;
++ }
++ dwc_udelay(1);
++ } while (greset.b.txfflsh == 1);
++
++ /* Wait for 3 PHY Clocks */
++ dwc_udelay(1);
++}
++
++/**
++ * Flush Rx FIFO.
++ *
++ * @param core_if Programming view of DWC_otg controller.
++ */
++void dwc_otg_flush_rx_fifo(dwc_otg_core_if_t * core_if)
++{
++ dwc_otg_core_global_regs_t *global_regs = core_if->core_global_regs;
++ volatile grstctl_t greset = {.d32 = 0 };
++ int count = 0;
++
++ DWC_DEBUGPL((DBG_CIL | DBG_PCDV), "%s\n", __func__);
++ /*
++ *
++ */
++ greset.b.rxfflsh = 1;
++ DWC_WRITE_REG32(&global_regs->grstctl, greset.d32);
++
++ do {
++ greset.d32 = DWC_READ_REG32(&global_regs->grstctl);
++ if (++count > 10000) {
++ DWC_WARN("%s() HANG! GRSTCTL=%0x\n", __func__,
++ greset.d32);
++ break;
++ }
++ dwc_udelay(1);
++ } while (greset.b.rxfflsh == 1);
++
++ /* Wait for 3 PHY Clocks */
++ dwc_udelay(1);
++}
++
++/**
++ * Do core a soft reset of the core. Be careful with this because it
++ * resets all the internal state machines of the core.
++ */
++void dwc_otg_core_reset(dwc_otg_core_if_t * core_if)
++{
++ dwc_otg_core_global_regs_t *global_regs = core_if->core_global_regs;
++ volatile grstctl_t greset = {.d32 = 0 };
++ int count = 0;
++
++ DWC_DEBUGPL(DBG_CILV, "%s\n", __func__);
++ /* Wait for AHB master IDLE state. */
++ do {
++ dwc_udelay(10);
++ greset.d32 = DWC_READ_REG32(&global_regs->grstctl);
++ if (++count > 100000) {
++ DWC_WARN("%s() HANG! AHB Idle GRSTCTL=%0x\n", __func__,
++ greset.d32);
++ return;
++ }
++ }
++ while (greset.b.ahbidle == 0);
++
++ /* Core Soft Reset */
++ count = 0;
++ greset.b.csftrst = 1;
++ DWC_WRITE_REG32(&global_regs->grstctl, greset.d32);
++ do {
++ greset.d32 = DWC_READ_REG32(&global_regs->grstctl);
++ if (++count > 10000) {
++ DWC_WARN("%s() HANG! Soft Reset GRSTCTL=%0x\n",
++ __func__, greset.d32);
++ break;
++ }
++ dwc_udelay(1);
++ }
++ while (greset.b.csftrst == 1);
++
++ /* Wait for 3 PHY Clocks */
++ dwc_mdelay(100);
++}
++
++uint8_t dwc_otg_is_device_mode(dwc_otg_core_if_t * _core_if)
++{
++ return (dwc_otg_mode(_core_if) != DWC_HOST_MODE);
++}
++
++uint8_t dwc_otg_is_host_mode(dwc_otg_core_if_t * _core_if)
++{
++ return (dwc_otg_mode(_core_if) == DWC_HOST_MODE);
++}
++
++/**
++ * Register HCD callbacks. The callbacks are used to start and stop
++ * the HCD for interrupt processing.
++ *
++ * @param core_if Programming view of DWC_otg controller.
++ * @param cb the HCD callback structure.
++ * @param p pointer to be passed to callback function (usb_hcd*).
++ */
++void dwc_otg_cil_register_hcd_callbacks(dwc_otg_core_if_t * core_if,
++ dwc_otg_cil_callbacks_t * cb, void *p)
++{
++ core_if->hcd_cb = cb;
++ cb->p = p;
++}
++
++/**
++ * Register PCD callbacks. The callbacks are used to start and stop
++ * the PCD for interrupt processing.
++ *
++ * @param core_if Programming view of DWC_otg controller.
++ * @param cb the PCD callback structure.
++ * @param p pointer to be passed to callback function (pcd*).
++ */
++void dwc_otg_cil_register_pcd_callbacks(dwc_otg_core_if_t * core_if,
++ dwc_otg_cil_callbacks_t * cb, void *p)
++{
++ core_if->pcd_cb = cb;
++ cb->p = p;
++}
++
++#ifdef DWC_EN_ISOC
++
++/**
++ * This function writes isoc data per 1 (micro)frame into tx fifo
++ *
++ * @param core_if Programming view of DWC_otg controller.
++ * @param ep The EP to start the transfer on.
++ *
++ */
++void write_isoc_frame_data(dwc_otg_core_if_t * core_if, dwc_ep_t * ep)
++{
++ dwc_otg_dev_in_ep_regs_t *ep_regs;
++ dtxfsts_data_t txstatus = {.d32 = 0 };
++ uint32_t len = 0;
++ uint32_t dwords;
++
++ ep->xfer_len = ep->data_per_frame;
++ ep->xfer_count = 0;
++
++ ep_regs = core_if->dev_if->in_ep_regs[ep->num];
++
++ len = ep->xfer_len - ep->xfer_count;
++
++ if (len > ep->maxpacket) {
++ len = ep->maxpacket;
++ }
++
++ dwords = (len + 3) / 4;
++
++ /* While there is space in the queue and space in the FIFO and
++ * More data to tranfer, Write packets to the Tx FIFO */
++ txstatus.d32 =
++ DWC_READ_REG32(&core_if->dev_if->in_ep_regs[ep->num]->dtxfsts);
++ DWC_DEBUGPL(DBG_PCDV, "b4 dtxfsts[%d]=0x%08x\n", ep->num, txstatus.d32);
++
++ while (txstatus.b.txfspcavail > dwords &&
++ ep->xfer_count < ep->xfer_len && ep->xfer_len != 0) {
++ /* Write the FIFO */
++ dwc_otg_ep_write_packet(core_if, ep, 0);
++
++ len = ep->xfer_len - ep->xfer_count;
++ if (len > ep->maxpacket) {
++ len = ep->maxpacket;
++ }
++
++ dwords = (len + 3) / 4;
++ txstatus.d32 =
++ DWC_READ_REG32(&core_if->dev_if->in_ep_regs[ep->num]->
++ dtxfsts);
++ DWC_DEBUGPL(DBG_PCDV, "dtxfsts[%d]=0x%08x\n", ep->num,
++ txstatus.d32);
++ }
++}
++
++/**
++ * This function initializes a descriptor chain for Isochronous transfer
++ *
++ * @param core_if Programming view of DWC_otg controller.
++ * @param ep The EP to start the transfer on.
++ *
++ */
++void dwc_otg_iso_ep_start_frm_transfer(dwc_otg_core_if_t * core_if,
++ dwc_ep_t * ep)
++{
++ deptsiz_data_t deptsiz = {.d32 = 0 };
++ depctl_data_t depctl = {.d32 = 0 };
++ dsts_data_t dsts = {.d32 = 0 };
++ volatile uint32_t *addr;
++
++ if (ep->is_in) {
++ addr = &core_if->dev_if->in_ep_regs[ep->num]->diepctl;
++ } else {
++ addr = &core_if->dev_if->out_ep_regs[ep->num]->doepctl;
++ }
++
++ ep->xfer_len = ep->data_per_frame;
++ ep->xfer_count = 0;
++ ep->xfer_buff = ep->cur_pkt_addr;
++ ep->dma_addr = ep->cur_pkt_dma_addr;
++
++ if (ep->is_in) {
++ /* Program the transfer size and packet count
++ * as follows: xfersize = N * maxpacket +
++ * short_packet pktcnt = N + (short_packet
++ * exist ? 1 : 0)
++ */
++ deptsiz.b.xfersize = ep->xfer_len;
++ deptsiz.b.pktcnt =
++ (ep->xfer_len - 1 + ep->maxpacket) / ep->maxpacket;
++ deptsiz.b.mc = deptsiz.b.pktcnt;
++ DWC_WRITE_REG32(&core_if->dev_if->in_ep_regs[ep->num]->dieptsiz,
++ deptsiz.d32);
++
++ /* Write the DMA register */
++ if (core_if->dma_enable) {
++ DWC_WRITE_REG32(&
++ (core_if->dev_if->in_ep_regs[ep->num]->
++ diepdma), (uint32_t) ep->dma_addr);
++ }
++ } else {
++ deptsiz.b.pktcnt =
++ (ep->xfer_len + (ep->maxpacket - 1)) / ep->maxpacket;
++ deptsiz.b.xfersize = deptsiz.b.pktcnt * ep->maxpacket;
++
++ DWC_WRITE_REG32(&core_if->dev_if->
++ out_ep_regs[ep->num]->doeptsiz, deptsiz.d32);
++
++ if (core_if->dma_enable) {
++ DWC_WRITE_REG32(&
++ (core_if->dev_if->
++ out_ep_regs[ep->num]->doepdma),
++ (uint32_t) ep->dma_addr);
++ }
++ }
++
++ /** Enable endpoint, clear nak */
++
++ depctl.d32 = 0;
++ if (ep->bInterval == 1) {
++ dsts.d32 =
++ DWC_READ_REG32(&core_if->dev_if->dev_global_regs->dsts);
++ ep->next_frame = dsts.b.soffn + ep->bInterval;
++
++ if (ep->next_frame & 0x1) {
++ depctl.b.setd1pid = 1;
++ } else {
++ depctl.b.setd0pid = 1;
++ }
++ } else {
++ ep->next_frame += ep->bInterval;
++
++ if (ep->next_frame & 0x1) {
++ depctl.b.setd1pid = 1;
++ } else {
++ depctl.b.setd0pid = 1;
++ }
++ }
++ depctl.b.epena = 1;
++ depctl.b.cnak = 1;
++
++ DWC_MODIFY_REG32(addr, 0, depctl.d32);
++ depctl.d32 = DWC_READ_REG32(addr);
++
++ if (ep->is_in && core_if->dma_enable == 0) {
++ write_isoc_frame_data(core_if, ep);
++ }
++
++}
++#endif /* DWC_EN_ISOC */
++
++static void dwc_otg_set_uninitialized(int32_t * p, int size)
++{
++ int i;
++ for (i = 0; i < size; i++) {
++ p[i] = -1;
++ }
++}
++
++static int dwc_otg_param_initialized(int32_t val)
++{
++ return val != -1;
++}
++
++static int dwc_otg_setup_params(dwc_otg_core_if_t * core_if)
++{
++ int i;
++ core_if->core_params = DWC_ALLOC(sizeof(*core_if->core_params));
++ if (!core_if->core_params) {
++ return -DWC_E_NO_MEMORY;
++ }
++ dwc_otg_set_uninitialized((int32_t *) core_if->core_params,
++ sizeof(*core_if->core_params) /
++ sizeof(int32_t));
++ DWC_PRINTF("Setting default values for core params\n");
++ dwc_otg_set_param_otg_cap(core_if, dwc_param_otg_cap_default);
++ dwc_otg_set_param_dma_enable(core_if, dwc_param_dma_enable_default);
++ dwc_otg_set_param_dma_desc_enable(core_if,
++ dwc_param_dma_desc_enable_default);
++ dwc_otg_set_param_opt(core_if, dwc_param_opt_default);
++ dwc_otg_set_param_dma_burst_size(core_if,
++ dwc_param_dma_burst_size_default);
++ dwc_otg_set_param_host_support_fs_ls_low_power(core_if,
++ dwc_param_host_support_fs_ls_low_power_default);
++ dwc_otg_set_param_enable_dynamic_fifo(core_if,
++ dwc_param_enable_dynamic_fifo_default);
++ dwc_otg_set_param_data_fifo_size(core_if,
++ dwc_param_data_fifo_size_default);
++ dwc_otg_set_param_dev_rx_fifo_size(core_if,
++ dwc_param_dev_rx_fifo_size_default);
++ dwc_otg_set_param_dev_nperio_tx_fifo_size(core_if,
++ dwc_param_dev_nperio_tx_fifo_size_default);
++ dwc_otg_set_param_host_rx_fifo_size(core_if,
++ dwc_param_host_rx_fifo_size_default);
++ dwc_otg_set_param_host_nperio_tx_fifo_size(core_if,
++ dwc_param_host_nperio_tx_fifo_size_default);
++ dwc_otg_set_param_host_perio_tx_fifo_size(core_if,
++ dwc_param_host_perio_tx_fifo_size_default);
++ dwc_otg_set_param_max_transfer_size(core_if,
++ dwc_param_max_transfer_size_default);
++ dwc_otg_set_param_max_packet_count(core_if,
++ dwc_param_max_packet_count_default);
++ dwc_otg_set_param_host_channels(core_if,
++ dwc_param_host_channels_default);
++ dwc_otg_set_param_dev_endpoints(core_if,
++ dwc_param_dev_endpoints_default);
++ dwc_otg_set_param_phy_type(core_if, dwc_param_phy_type_default);
++ dwc_otg_set_param_speed(core_if, dwc_param_speed_default);
++ dwc_otg_set_param_host_ls_low_power_phy_clk(core_if,
++ dwc_param_host_ls_low_power_phy_clk_default);
++ dwc_otg_set_param_phy_ulpi_ddr(core_if, dwc_param_phy_ulpi_ddr_default);
++ dwc_otg_set_param_phy_ulpi_ext_vbus(core_if,
++ dwc_param_phy_ulpi_ext_vbus_default);
++ dwc_otg_set_param_phy_utmi_width(core_if,
++ dwc_param_phy_utmi_width_default);
++ dwc_otg_set_param_ts_dline(core_if, dwc_param_ts_dline_default);
++ dwc_otg_set_param_i2c_enable(core_if, dwc_param_i2c_enable_default);
++ dwc_otg_set_param_ulpi_fs_ls(core_if, dwc_param_ulpi_fs_ls_default);
++ dwc_otg_set_param_en_multiple_tx_fifo(core_if,
++ dwc_param_en_multiple_tx_fifo_default);
++ for (i = 0; i < 15; i++) {
++ dwc_otg_set_param_dev_perio_tx_fifo_size(core_if,
++ dwc_param_dev_perio_tx_fifo_size_default,
++ i);
++ }
++
++ for (i = 0; i < 15; i++) {
++ dwc_otg_set_param_dev_tx_fifo_size(core_if,
++ dwc_param_dev_tx_fifo_size_default,
++ i);
++ }
++ dwc_otg_set_param_thr_ctl(core_if, dwc_param_thr_ctl_default);
++ dwc_otg_set_param_mpi_enable(core_if, dwc_param_mpi_enable_default);
++ dwc_otg_set_param_pti_enable(core_if, dwc_param_pti_enable_default);
++ dwc_otg_set_param_lpm_enable(core_if, dwc_param_lpm_enable_default);
++ dwc_otg_set_param_ic_usb_cap(core_if, dwc_param_ic_usb_cap_default);
++ dwc_otg_set_param_tx_thr_length(core_if,
++ dwc_param_tx_thr_length_default);
++ dwc_otg_set_param_rx_thr_length(core_if,
++ dwc_param_rx_thr_length_default);
++ dwc_otg_set_param_ahb_thr_ratio(core_if,
++ dwc_param_ahb_thr_ratio_default);
++ dwc_otg_set_param_power_down(core_if, dwc_param_power_down_default);
++ dwc_otg_set_param_reload_ctl(core_if, dwc_param_reload_ctl_default);
++ dwc_otg_set_param_dev_out_nak(core_if, dwc_param_dev_out_nak_default);
++ dwc_otg_set_param_cont_on_bna(core_if, dwc_param_cont_on_bna_default);
++ dwc_otg_set_param_ahb_single(core_if, dwc_param_ahb_single_default);
++ dwc_otg_set_param_otg_ver(core_if, dwc_param_otg_ver_default);
++ dwc_otg_set_param_adp_enable(core_if, dwc_param_adp_enable_default);
++ DWC_PRINTF("Finished setting default values for core params\n");
++
++ return 0;
++}
++
++uint8_t dwc_otg_is_dma_enable(dwc_otg_core_if_t * core_if)
++{
++ return core_if->dma_enable;
++}
++
++/* Checks if the parameter is outside of its valid range of values */
++#define DWC_OTG_PARAM_TEST(_param_, _low_, _high_) \
++ (((_param_) < (_low_)) || \
++ ((_param_) > (_high_)))
++
++/* Parameter access functions */
++int dwc_otg_set_param_otg_cap(dwc_otg_core_if_t * core_if, int32_t val)
++{
++ int valid;
++ int retval = 0;
++ if (DWC_OTG_PARAM_TEST(val, 0, 2)) {
++ DWC_WARN("Wrong value for otg_cap parameter\n");
++ DWC_WARN("otg_cap parameter must be 0,1 or 2\n");
++ retval = -DWC_E_INVALID;
++ goto out;
++ }
++
++ valid = 1;
++ switch (val) {
++ case DWC_OTG_CAP_PARAM_HNP_SRP_CAPABLE:
++ if (core_if->hwcfg2.b.op_mode !=
++ DWC_HWCFG2_OP_MODE_HNP_SRP_CAPABLE_OTG)
++ valid = 0;
++ break;
++ case DWC_OTG_CAP_PARAM_SRP_ONLY_CAPABLE:
++ if ((core_if->hwcfg2.b.op_mode !=
++ DWC_HWCFG2_OP_MODE_HNP_SRP_CAPABLE_OTG)
++ && (core_if->hwcfg2.b.op_mode !=
++ DWC_HWCFG2_OP_MODE_SRP_ONLY_CAPABLE_OTG)
++ && (core_if->hwcfg2.b.op_mode !=
++ DWC_HWCFG2_OP_MODE_SRP_CAPABLE_DEVICE)
++ && (core_if->hwcfg2.b.op_mode !=
++ DWC_HWCFG2_OP_MODE_SRP_CAPABLE_HOST)) {
++ valid = 0;
++ }
++ break;
++ case DWC_OTG_CAP_PARAM_NO_HNP_SRP_CAPABLE:
++ /* always valid */
++ break;
++ }
++ if (!valid) {
++ if (dwc_otg_param_initialized(core_if->core_params->otg_cap)) {
++ DWC_ERROR
++ ("%d invalid for otg_cap paremter. Check HW configuration.\n",
++ val);
++ }
++ val =
++ (((core_if->hwcfg2.b.op_mode ==
++ DWC_HWCFG2_OP_MODE_HNP_SRP_CAPABLE_OTG)
++ || (core_if->hwcfg2.b.op_mode ==
++ DWC_HWCFG2_OP_MODE_SRP_ONLY_CAPABLE_OTG)
++ || (core_if->hwcfg2.b.op_mode ==
++ DWC_HWCFG2_OP_MODE_SRP_CAPABLE_DEVICE)
++ || (core_if->hwcfg2.b.op_mode ==
++ DWC_HWCFG2_OP_MODE_SRP_CAPABLE_HOST)) ?
++ DWC_OTG_CAP_PARAM_SRP_ONLY_CAPABLE :
++ DWC_OTG_CAP_PARAM_NO_HNP_SRP_CAPABLE);
++ retval = -DWC_E_INVALID;
++ }
++
++ core_if->core_params->otg_cap = val;
++out:
++ return retval;
++}
++
++int32_t dwc_otg_get_param_otg_cap(dwc_otg_core_if_t * core_if)
++{
++ return core_if->core_params->otg_cap;
++}
++
++int dwc_otg_set_param_opt(dwc_otg_core_if_t * core_if, int32_t val)
++{
++ if (DWC_OTG_PARAM_TEST(val, 0, 1)) {
++ DWC_WARN("Wrong value for opt parameter\n");
++ return -DWC_E_INVALID;
++ }
++ core_if->core_params->opt = val;
++ return 0;
++}
++
++int32_t dwc_otg_get_param_opt(dwc_otg_core_if_t * core_if)
++{
++ return core_if->core_params->opt;
++}
++
++int dwc_otg_set_param_dma_enable(dwc_otg_core_if_t * core_if, int32_t val)
++{
++ int retval = 0;
++ if (DWC_OTG_PARAM_TEST(val, 0, 1)) {
++ DWC_WARN("Wrong value for dma enable\n");
++ return -DWC_E_INVALID;
++ }
++
++ if ((val == 1) && (core_if->hwcfg2.b.architecture == 0)) {
++ if (dwc_otg_param_initialized(core_if->core_params->dma_enable)) {
++ DWC_ERROR
++ ("%d invalid for dma_enable paremter. Check HW configuration.\n",
++ val);
++ }
++ val = 0;
++ retval = -DWC_E_INVALID;
++ }
++
++ core_if->core_params->dma_enable = val;
++ if (val == 0) {
++ dwc_otg_set_param_dma_desc_enable(core_if, 0);
++ }
++ return retval;
++}
++
++int32_t dwc_otg_get_param_dma_enable(dwc_otg_core_if_t * core_if)
++{
++ return core_if->core_params->dma_enable;
++}
++
++int dwc_otg_set_param_dma_desc_enable(dwc_otg_core_if_t * core_if, int32_t val)
++{
++ int retval = 0;
++ if (DWC_OTG_PARAM_TEST(val, 0, 1)) {
++ DWC_WARN("Wrong value for dma_enable\n");
++ DWC_WARN("dma_desc_enable must be 0 or 1\n");
++ return -DWC_E_INVALID;
++ }
++
++ if ((val == 1)
++ && ((dwc_otg_get_param_dma_enable(core_if) == 0)
++ || (core_if->hwcfg4.b.desc_dma == 0))) {
++ if (dwc_otg_param_initialized
++ (core_if->core_params->dma_desc_enable)) {
++ DWC_ERROR
++ ("%d invalid for dma_desc_enable paremter. Check HW configuration.\n",
++ val);
++ }
++ val = 0;
++ retval = -DWC_E_INVALID;
++ }
++ core_if->core_params->dma_desc_enable = val;
++ return retval;
++}
++
++int32_t dwc_otg_get_param_dma_desc_enable(dwc_otg_core_if_t * core_if)
++{
++ return core_if->core_params->dma_desc_enable;
++}
++
++int dwc_otg_set_param_host_support_fs_ls_low_power(dwc_otg_core_if_t * core_if,
++ int32_t val)
++{
++ if (DWC_OTG_PARAM_TEST(val, 0, 1)) {
++ DWC_WARN("Wrong value for host_support_fs_low_power\n");
++ DWC_WARN("host_support_fs_low_power must be 0 or 1\n");
++ return -DWC_E_INVALID;
++ }
++ core_if->core_params->host_support_fs_ls_low_power = val;
++ return 0;
++}
++
++int32_t dwc_otg_get_param_host_support_fs_ls_low_power(dwc_otg_core_if_t *
++ core_if)
++{
++ return core_if->core_params->host_support_fs_ls_low_power;
++}
++
++int dwc_otg_set_param_enable_dynamic_fifo(dwc_otg_core_if_t * core_if,
++ int32_t val)
++{
++ int retval = 0;
++ if (DWC_OTG_PARAM_TEST(val, 0, 1)) {
++ DWC_WARN("Wrong value for enable_dynamic_fifo\n");
++ DWC_WARN("enable_dynamic_fifo must be 0 or 1\n");
++ return -DWC_E_INVALID;
++ }
++
++ if ((val == 1) && (core_if->hwcfg2.b.dynamic_fifo == 0)) {
++ if (dwc_otg_param_initialized
++ (core_if->core_params->enable_dynamic_fifo)) {
++ DWC_ERROR
++ ("%d invalid for enable_dynamic_fifo paremter. Check HW configuration.\n",
++ val);
++ }
++ val = 0;
++ retval = -DWC_E_INVALID;
++ }
++ core_if->core_params->enable_dynamic_fifo = val;
++ return retval;
++}
++
++int32_t dwc_otg_get_param_enable_dynamic_fifo(dwc_otg_core_if_t * core_if)
++{
++ return core_if->core_params->enable_dynamic_fifo;
++}
++
++int dwc_otg_set_param_data_fifo_size(dwc_otg_core_if_t * core_if, int32_t val)
++{
++ int retval = 0;
++ if (DWC_OTG_PARAM_TEST(val, 32, 32768)) {
++ DWC_WARN("Wrong value for data_fifo_size\n");
++ DWC_WARN("data_fifo_size must be 32-32768\n");
++ return -DWC_E_INVALID;
++ }
++
++ if (val > core_if->hwcfg3.b.dfifo_depth) {
++ if (dwc_otg_param_initialized
++ (core_if->core_params->data_fifo_size)) {
++ DWC_ERROR
++ ("%d invalid for data_fifo_size parameter. Check HW configuration.\n",
++ val);
++ }
++ val = core_if->hwcfg3.b.dfifo_depth;
++ retval = -DWC_E_INVALID;
++ }
++
++ core_if->core_params->data_fifo_size = val;
++ return retval;
++}
++
++int32_t dwc_otg_get_param_data_fifo_size(dwc_otg_core_if_t * core_if)
++{
++ return core_if->core_params->data_fifo_size;
++}
++
++int dwc_otg_set_param_dev_rx_fifo_size(dwc_otg_core_if_t * core_if, int32_t val)
++{
++ int retval = 0;
++ if (DWC_OTG_PARAM_TEST(val, 16, 32768)) {
++ DWC_WARN("Wrong value for dev_rx_fifo_size\n");
++ DWC_WARN("dev_rx_fifo_size must be 16-32768\n");
++ return -DWC_E_INVALID;
++ }
++
++ if (val > DWC_READ_REG32(&core_if->core_global_regs->grxfsiz)) {
++ if (dwc_otg_param_initialized(core_if->core_params->dev_rx_fifo_size)) {
++ DWC_WARN("%d invalid for dev_rx_fifo_size parameter\n", val);
++ }
++ val = DWC_READ_REG32(&core_if->core_global_regs->grxfsiz);
++ retval = -DWC_E_INVALID;
++ }
++
++ core_if->core_params->dev_rx_fifo_size = val;
++ return retval;
++}
++
++int32_t dwc_otg_get_param_dev_rx_fifo_size(dwc_otg_core_if_t * core_if)
++{
++ return core_if->core_params->dev_rx_fifo_size;
++}
++
++int dwc_otg_set_param_dev_nperio_tx_fifo_size(dwc_otg_core_if_t * core_if,
++ int32_t val)
++{
++ int retval = 0;
++
++ if (DWC_OTG_PARAM_TEST(val, 16, 32768)) {
++ DWC_WARN("Wrong value for dev_nperio_tx_fifo\n");
++ DWC_WARN("dev_nperio_tx_fifo must be 16-32768\n");
++ return -DWC_E_INVALID;
++ }
++
++ if (val > (DWC_READ_REG32(&core_if->core_global_regs->gnptxfsiz) >> 16)) {
++ if (dwc_otg_param_initialized
++ (core_if->core_params->dev_nperio_tx_fifo_size)) {
++ DWC_ERROR
++ ("%d invalid for dev_nperio_tx_fifo_size. Check HW configuration.\n",
++ val);
++ }
++ val =
++ (DWC_READ_REG32(&core_if->core_global_regs->gnptxfsiz) >>
++ 16);
++ retval = -DWC_E_INVALID;
++ }
++
++ core_if->core_params->dev_nperio_tx_fifo_size = val;
++ return retval;
++}
++
++int32_t dwc_otg_get_param_dev_nperio_tx_fifo_size(dwc_otg_core_if_t * core_if)
++{
++ return core_if->core_params->dev_nperio_tx_fifo_size;
++}
++
++int dwc_otg_set_param_host_rx_fifo_size(dwc_otg_core_if_t * core_if,
++ int32_t val)
++{
++ int retval = 0;
++
++ if (DWC_OTG_PARAM_TEST(val, 16, 32768)) {
++ DWC_WARN("Wrong value for host_rx_fifo_size\n");
++ DWC_WARN("host_rx_fifo_size must be 16-32768\n");
++ return -DWC_E_INVALID;
++ }
++
++ if (val > DWC_READ_REG32(&core_if->core_global_regs->grxfsiz)) {
++ if (dwc_otg_param_initialized
++ (core_if->core_params->host_rx_fifo_size)) {
++ DWC_ERROR
++ ("%d invalid for host_rx_fifo_size. Check HW configuration.\n",
++ val);
++ }
++ val = DWC_READ_REG32(&core_if->core_global_regs->grxfsiz);
++ retval = -DWC_E_INVALID;
++ }
++
++ core_if->core_params->host_rx_fifo_size = val;
++ return retval;
++
++}
++
++int32_t dwc_otg_get_param_host_rx_fifo_size(dwc_otg_core_if_t * core_if)
++{
++ return core_if->core_params->host_rx_fifo_size;
++}
++
++int dwc_otg_set_param_host_nperio_tx_fifo_size(dwc_otg_core_if_t * core_if,
++ int32_t val)
++{
++ int retval = 0;
++
++ if (DWC_OTG_PARAM_TEST(val, 16, 32768)) {
++ DWC_WARN("Wrong value for host_nperio_tx_fifo_size\n");
++ DWC_WARN("host_nperio_tx_fifo_size must be 16-32768\n");
++ return -DWC_E_INVALID;
++ }
++
++ if (val > (DWC_READ_REG32(&core_if->core_global_regs->gnptxfsiz) >> 16)) {
++ if (dwc_otg_param_initialized
++ (core_if->core_params->host_nperio_tx_fifo_size)) {
++ DWC_ERROR
++ ("%d invalid for host_nperio_tx_fifo_size. Check HW configuration.\n",
++ val);
++ }
++ val =
++ (DWC_READ_REG32(&core_if->core_global_regs->gnptxfsiz) >>
++ 16);
++ retval = -DWC_E_INVALID;
++ }
++
++ core_if->core_params->host_nperio_tx_fifo_size = val;
++ return retval;
++}
++
++int32_t dwc_otg_get_param_host_nperio_tx_fifo_size(dwc_otg_core_if_t * core_if)
++{
++ return core_if->core_params->host_nperio_tx_fifo_size;
++}
++
++int dwc_otg_set_param_host_perio_tx_fifo_size(dwc_otg_core_if_t * core_if,
++ int32_t val)
++{
++ int retval = 0;
++ if (DWC_OTG_PARAM_TEST(val, 16, 32768)) {
++ DWC_WARN("Wrong value for host_perio_tx_fifo_size\n");
++ DWC_WARN("host_perio_tx_fifo_size must be 16-32768\n");
++ return -DWC_E_INVALID;
++ }
++
++ if (val > ((core_if->hptxfsiz.d32) >> 16)) {
++ if (dwc_otg_param_initialized
++ (core_if->core_params->host_perio_tx_fifo_size)) {
++ DWC_ERROR
++ ("%d invalid for host_perio_tx_fifo_size. Check HW configuration.\n",
++ val);
++ }
++ val = (core_if->hptxfsiz.d32) >> 16;
++ retval = -DWC_E_INVALID;
++ }
++
++ core_if->core_params->host_perio_tx_fifo_size = val;
++ return retval;
++}
++
++int32_t dwc_otg_get_param_host_perio_tx_fifo_size(dwc_otg_core_if_t * core_if)
++{
++ return core_if->core_params->host_perio_tx_fifo_size;
++}
++
++int dwc_otg_set_param_max_transfer_size(dwc_otg_core_if_t * core_if,
++ int32_t val)
++{
++ int retval = 0;
++
++ if (DWC_OTG_PARAM_TEST(val, 2047, 524288)) {
++ DWC_WARN("Wrong value for max_transfer_size\n");
++ DWC_WARN("max_transfer_size must be 2047-524288\n");
++ return -DWC_E_INVALID;
++ }
++
++ if (val >= (1 << (core_if->hwcfg3.b.xfer_size_cntr_width + 11))) {
++ if (dwc_otg_param_initialized
++ (core_if->core_params->max_transfer_size)) {
++ DWC_ERROR
++ ("%d invalid for max_transfer_size. Check HW configuration.\n",
++ val);
++ }
++ val =
++ ((1 << (core_if->hwcfg3.b.packet_size_cntr_width + 11)) -
++ 1);
++ retval = -DWC_E_INVALID;
++ }
++
++ core_if->core_params->max_transfer_size = val;
++ return retval;
++}
++
++int32_t dwc_otg_get_param_max_transfer_size(dwc_otg_core_if_t * core_if)
++{
++ return core_if->core_params->max_transfer_size;
++}
++
++int dwc_otg_set_param_max_packet_count(dwc_otg_core_if_t * core_if, int32_t val)
++{
++ int retval = 0;
++
++ if (DWC_OTG_PARAM_TEST(val, 15, 511)) {
++ DWC_WARN("Wrong value for max_packet_count\n");
++ DWC_WARN("max_packet_count must be 15-511\n");
++ return -DWC_E_INVALID;
++ }
++
++ if (val > (1 << (core_if->hwcfg3.b.packet_size_cntr_width + 4))) {
++ if (dwc_otg_param_initialized
++ (core_if->core_params->max_packet_count)) {
++ DWC_ERROR
++ ("%d invalid for max_packet_count. Check HW configuration.\n",
++ val);
++ }
++ val =
++ ((1 << (core_if->hwcfg3.b.packet_size_cntr_width + 4)) - 1);
++ retval = -DWC_E_INVALID;
++ }
++
++ core_if->core_params->max_packet_count = val;
++ return retval;
++}
++
++int32_t dwc_otg_get_param_max_packet_count(dwc_otg_core_if_t * core_if)
++{
++ return core_if->core_params->max_packet_count;
++}
++
++int dwc_otg_set_param_host_channels(dwc_otg_core_if_t * core_if, int32_t val)
++{
++ int retval = 0;
++
++ if (DWC_OTG_PARAM_TEST(val, 1, 16)) {
++ DWC_WARN("Wrong value for host_channels\n");
++ DWC_WARN("host_channels must be 1-16\n");
++ return -DWC_E_INVALID;
++ }
++
++ if (val > (core_if->hwcfg2.b.num_host_chan + 1)) {
++ if (dwc_otg_param_initialized
++ (core_if->core_params->host_channels)) {
++ DWC_ERROR
++ ("%d invalid for host_channels. Check HW configurations.\n",
++ val);
++ }
++ val = (core_if->hwcfg2.b.num_host_chan + 1);
++ retval = -DWC_E_INVALID;
++ }
++
++ core_if->core_params->host_channels = val;
++ return retval;
++}
++
++int32_t dwc_otg_get_param_host_channels(dwc_otg_core_if_t * core_if)
++{
++ return core_if->core_params->host_channels;
++}
++
++int dwc_otg_set_param_dev_endpoints(dwc_otg_core_if_t * core_if, int32_t val)
++{
++ int retval = 0;
++
++ if (DWC_OTG_PARAM_TEST(val, 1, 15)) {
++ DWC_WARN("Wrong value for dev_endpoints\n");
++ DWC_WARN("dev_endpoints must be 1-15\n");
++ return -DWC_E_INVALID;
++ }
++
++ if (val > (core_if->hwcfg2.b.num_dev_ep)) {
++ if (dwc_otg_param_initialized
++ (core_if->core_params->dev_endpoints)) {
++ DWC_ERROR
++ ("%d invalid for dev_endpoints. Check HW configurations.\n",
++ val);
++ }
++ val = core_if->hwcfg2.b.num_dev_ep;
++ retval = -DWC_E_INVALID;
++ }
++
++ core_if->core_params->dev_endpoints = val;
++ return retval;
++}
++
++int32_t dwc_otg_get_param_dev_endpoints(dwc_otg_core_if_t * core_if)
++{
++ return core_if->core_params->dev_endpoints;
++}
++
++int dwc_otg_set_param_phy_type(dwc_otg_core_if_t * core_if, int32_t val)
++{
++ int retval = 0;
++ int valid = 0;
++
++ if (DWC_OTG_PARAM_TEST(val, 0, 2)) {
++ DWC_WARN("Wrong value for phy_type\n");
++ DWC_WARN("phy_type must be 0,1 or 2\n");
++ return -DWC_E_INVALID;
++ }
++#ifndef NO_FS_PHY_HW_CHECKS
++ if ((val == DWC_PHY_TYPE_PARAM_UTMI) &&
++ ((core_if->hwcfg2.b.hs_phy_type == 1) ||
++ (core_if->hwcfg2.b.hs_phy_type == 3))) {
++ valid = 1;
++ } else if ((val == DWC_PHY_TYPE_PARAM_ULPI) &&
++ ((core_if->hwcfg2.b.hs_phy_type == 2) ||
++ (core_if->hwcfg2.b.hs_phy_type == 3))) {
++ valid = 1;
++ } else if ((val == DWC_PHY_TYPE_PARAM_FS) &&
++ (core_if->hwcfg2.b.fs_phy_type == 1)) {
++ valid = 1;
++ }
++ if (!valid) {
++ if (dwc_otg_param_initialized(core_if->core_params->phy_type)) {
++ DWC_ERROR
++ ("%d invalid for phy_type. Check HW configurations.\n",
++ val);
++ }
++ if (core_if->hwcfg2.b.hs_phy_type) {
++ if ((core_if->hwcfg2.b.hs_phy_type == 3) ||
++ (core_if->hwcfg2.b.hs_phy_type == 1)) {
++ val = DWC_PHY_TYPE_PARAM_UTMI;
++ } else {
++ val = DWC_PHY_TYPE_PARAM_ULPI;
++ }
++ }
++ retval = -DWC_E_INVALID;
++ }
++#endif
++ core_if->core_params->phy_type = val;
++ return retval;
++}
++
++int32_t dwc_otg_get_param_phy_type(dwc_otg_core_if_t * core_if)
++{
++ return core_if->core_params->phy_type;
++}
++
++int dwc_otg_set_param_speed(dwc_otg_core_if_t * core_if, int32_t val)
++{
++ int retval = 0;
++ if (DWC_OTG_PARAM_TEST(val, 0, 1)) {
++ DWC_WARN("Wrong value for speed parameter\n");
++ DWC_WARN("max_speed parameter must be 0 or 1\n");
++ return -DWC_E_INVALID;
++ }
++ if ((val == 0)
++ && dwc_otg_get_param_phy_type(core_if) == DWC_PHY_TYPE_PARAM_FS) {
++ if (dwc_otg_param_initialized(core_if->core_params->speed)) {
++ DWC_ERROR
++ ("%d invalid for speed paremter. Check HW configuration.\n",
++ val);
++ }
++ val =
++ (dwc_otg_get_param_phy_type(core_if) ==
++ DWC_PHY_TYPE_PARAM_FS ? 1 : 0);
++ retval = -DWC_E_INVALID;
++ }
++ core_if->core_params->speed = val;
++ return retval;
++}
++
++int32_t dwc_otg_get_param_speed(dwc_otg_core_if_t * core_if)
++{
++ return core_if->core_params->speed;
++}
++
++int dwc_otg_set_param_host_ls_low_power_phy_clk(dwc_otg_core_if_t * core_if,
++ int32_t val)
++{
++ int retval = 0;
++
++ if (DWC_OTG_PARAM_TEST(val, 0, 1)) {
++ DWC_WARN
++ ("Wrong value for host_ls_low_power_phy_clk parameter\n");
++ DWC_WARN("host_ls_low_power_phy_clk must be 0 or 1\n");
++ return -DWC_E_INVALID;
++ }
++
++ if ((val == DWC_HOST_LS_LOW_POWER_PHY_CLK_PARAM_48MHZ)
++ && (dwc_otg_get_param_phy_type(core_if) == DWC_PHY_TYPE_PARAM_FS)) {
++ if (dwc_otg_param_initialized
++ (core_if->core_params->host_ls_low_power_phy_clk)) {
++ DWC_ERROR
++ ("%d invalid for host_ls_low_power_phy_clk. Check HW configuration.\n",
++ val);
++ }
++ val =
++ (dwc_otg_get_param_phy_type(core_if) ==
++ DWC_PHY_TYPE_PARAM_FS) ?
++ DWC_HOST_LS_LOW_POWER_PHY_CLK_PARAM_6MHZ :
++ DWC_HOST_LS_LOW_POWER_PHY_CLK_PARAM_48MHZ;
++ retval = -DWC_E_INVALID;
++ }
++
++ core_if->core_params->host_ls_low_power_phy_clk = val;
++ return retval;
++}
++
++int32_t dwc_otg_get_param_host_ls_low_power_phy_clk(dwc_otg_core_if_t * core_if)
++{
++ return core_if->core_params->host_ls_low_power_phy_clk;
++}
++
++int dwc_otg_set_param_phy_ulpi_ddr(dwc_otg_core_if_t * core_if, int32_t val)
++{
++ if (DWC_OTG_PARAM_TEST(val, 0, 1)) {
++ DWC_WARN("Wrong value for phy_ulpi_ddr\n");
++ DWC_WARN("phy_upli_ddr must be 0 or 1\n");
++ return -DWC_E_INVALID;
++ }
++
++ core_if->core_params->phy_ulpi_ddr = val;
++ return 0;
++}
++
++int32_t dwc_otg_get_param_phy_ulpi_ddr(dwc_otg_core_if_t * core_if)
++{
++ return core_if->core_params->phy_ulpi_ddr;
++}
++
++int dwc_otg_set_param_phy_ulpi_ext_vbus(dwc_otg_core_if_t * core_if,
++ int32_t val)
++{
++ if (DWC_OTG_PARAM_TEST(val, 0, 1)) {
++ DWC_WARN("Wrong valaue for phy_ulpi_ext_vbus\n");
++ DWC_WARN("phy_ulpi_ext_vbus must be 0 or 1\n");
++ return -DWC_E_INVALID;
++ }
++
++ core_if->core_params->phy_ulpi_ext_vbus = val;
++ return 0;
++}
++
++int32_t dwc_otg_get_param_phy_ulpi_ext_vbus(dwc_otg_core_if_t * core_if)
++{
++ return core_if->core_params->phy_ulpi_ext_vbus;
++}
++
++int dwc_otg_set_param_phy_utmi_width(dwc_otg_core_if_t * core_if, int32_t val)
++{
++ if (DWC_OTG_PARAM_TEST(val, 8, 8) && DWC_OTG_PARAM_TEST(val, 16, 16)) {
++ DWC_WARN("Wrong valaue for phy_utmi_width\n");
++ DWC_WARN("phy_utmi_width must be 8 or 16\n");
++ return -DWC_E_INVALID;
++ }
++
++ core_if->core_params->phy_utmi_width = val;
++ return 0;
++}
++
++int32_t dwc_otg_get_param_phy_utmi_width(dwc_otg_core_if_t * core_if)
++{
++ return core_if->core_params->phy_utmi_width;
++}
++
++int dwc_otg_set_param_ulpi_fs_ls(dwc_otg_core_if_t * core_if, int32_t val)
++{
++ if (DWC_OTG_PARAM_TEST(val, 0, 1)) {
++ DWC_WARN("Wrong valaue for ulpi_fs_ls\n");
++ DWC_WARN("ulpi_fs_ls must be 0 or 1\n");
++ return -DWC_E_INVALID;
++ }
++
++ core_if->core_params->ulpi_fs_ls = val;
++ return 0;
++}
++
++int32_t dwc_otg_get_param_ulpi_fs_ls(dwc_otg_core_if_t * core_if)
++{
++ return core_if->core_params->ulpi_fs_ls;
++}
++
++int dwc_otg_set_param_ts_dline(dwc_otg_core_if_t * core_if, int32_t val)
++{
++ if (DWC_OTG_PARAM_TEST(val, 0, 1)) {
++ DWC_WARN("Wrong valaue for ts_dline\n");
++ DWC_WARN("ts_dline must be 0 or 1\n");
++ return -DWC_E_INVALID;
++ }
++
++ core_if->core_params->ts_dline = val;
++ return 0;
++}
++
++int32_t dwc_otg_get_param_ts_dline(dwc_otg_core_if_t * core_if)
++{
++ return core_if->core_params->ts_dline;
++}
++
++int dwc_otg_set_param_i2c_enable(dwc_otg_core_if_t * core_if, int32_t val)
++{
++ int retval = 0;
++ if (DWC_OTG_PARAM_TEST(val, 0, 1)) {
++ DWC_WARN("Wrong valaue for i2c_enable\n");
++ DWC_WARN("i2c_enable must be 0 or 1\n");
++ return -DWC_E_INVALID;
++ }
++#ifndef NO_FS_PHY_HW_CHECK
++ if (val == 1 && core_if->hwcfg3.b.i2c == 0) {
++ if (dwc_otg_param_initialized(core_if->core_params->i2c_enable)) {
++ DWC_ERROR
++ ("%d invalid for i2c_enable. Check HW configuration.\n",
++ val);
++ }
++ val = 0;
++ retval = -DWC_E_INVALID;
++ }
++#endif
++
++ core_if->core_params->i2c_enable = val;
++ return retval;
++}
++
++int32_t dwc_otg_get_param_i2c_enable(dwc_otg_core_if_t * core_if)
++{
++ return core_if->core_params->i2c_enable;
++}
++
++int dwc_otg_set_param_dev_perio_tx_fifo_size(dwc_otg_core_if_t * core_if,
++ int32_t val, int fifo_num)
++{
++ int retval = 0;
++
++ if (DWC_OTG_PARAM_TEST(val, 4, 768)) {
++ DWC_WARN("Wrong value for dev_perio_tx_fifo_size\n");
++ DWC_WARN("dev_perio_tx_fifo_size must be 4-768\n");
++ return -DWC_E_INVALID;
++ }
++
++ if (val >
++ (DWC_READ_REG32(&core_if->core_global_regs->dtxfsiz[fifo_num]))) {
++ if (dwc_otg_param_initialized
++ (core_if->core_params->dev_perio_tx_fifo_size[fifo_num])) {
++ DWC_ERROR
++ ("`%d' invalid for parameter `dev_perio_fifo_size_%d'. Check HW configuration.\n",
++ val, fifo_num);
++ }
++ val = (DWC_READ_REG32(&core_if->core_global_regs->dtxfsiz[fifo_num]));
++ retval = -DWC_E_INVALID;
++ }
++
++ core_if->core_params->dev_perio_tx_fifo_size[fifo_num] = val;
++ return retval;
++}
++
++int32_t dwc_otg_get_param_dev_perio_tx_fifo_size(dwc_otg_core_if_t * core_if,
++ int fifo_num)
++{
++ return core_if->core_params->dev_perio_tx_fifo_size[fifo_num];
++}
++
++int dwc_otg_set_param_en_multiple_tx_fifo(dwc_otg_core_if_t * core_if,
++ int32_t val)
++{
++ int retval = 0;
++ if (DWC_OTG_PARAM_TEST(val, 0, 1)) {
++ DWC_WARN("Wrong valaue for en_multiple_tx_fifo,\n");
++ DWC_WARN("en_multiple_tx_fifo must be 0 or 1\n");
++ return -DWC_E_INVALID;
++ }
++
++ if (val == 1 && core_if->hwcfg4.b.ded_fifo_en == 0) {
++ if (dwc_otg_param_initialized
++ (core_if->core_params->en_multiple_tx_fifo)) {
++ DWC_ERROR
++ ("%d invalid for parameter en_multiple_tx_fifo. Check HW configuration.\n",
++ val);
++ }
++ val = 0;
++ retval = -DWC_E_INVALID;
++ }
++
++ core_if->core_params->en_multiple_tx_fifo = val;
++ return retval;
++}
++
++int32_t dwc_otg_get_param_en_multiple_tx_fifo(dwc_otg_core_if_t * core_if)
++{
++ return core_if->core_params->en_multiple_tx_fifo;
++}
++
++int dwc_otg_set_param_dev_tx_fifo_size(dwc_otg_core_if_t * core_if, int32_t val,
++ int fifo_num)
++{
++ int retval = 0;
++
++ if (DWC_OTG_PARAM_TEST(val, 4, 768)) {
++ DWC_WARN("Wrong value for dev_tx_fifo_size\n");
++ DWC_WARN("dev_tx_fifo_size must be 4-768\n");
++ return -DWC_E_INVALID;
++ }
++
++ if (val >
++ (DWC_READ_REG32(&core_if->core_global_regs->dtxfsiz[fifo_num]))) {
++ if (dwc_otg_param_initialized
++ (core_if->core_params->dev_tx_fifo_size[fifo_num])) {
++ DWC_ERROR
++ ("`%d' invalid for parameter `dev_tx_fifo_size_%d'. Check HW configuration.\n",
++ val, fifo_num);
++ }
++ val = (DWC_READ_REG32(&core_if->core_global_regs->dtxfsiz[fifo_num]));
++ retval = -DWC_E_INVALID;
++ }
++
++ core_if->core_params->dev_tx_fifo_size[fifo_num] = val;
++ return retval;
++}
++
++int32_t dwc_otg_get_param_dev_tx_fifo_size(dwc_otg_core_if_t * core_if,
++ int fifo_num)
++{
++ return core_if->core_params->dev_tx_fifo_size[fifo_num];
++}
++
++int dwc_otg_set_param_thr_ctl(dwc_otg_core_if_t * core_if, int32_t val)
++{
++ int retval = 0;
++
++ if (DWC_OTG_PARAM_TEST(val, 0, 7)) {
++ DWC_WARN("Wrong value for thr_ctl\n");
++ DWC_WARN("thr_ctl must be 0-7\n");
++ return -DWC_E_INVALID;
++ }
++
++ if ((val != 0) &&
++ (!dwc_otg_get_param_dma_enable(core_if) ||
++ !core_if->hwcfg4.b.ded_fifo_en)) {
++ if (dwc_otg_param_initialized(core_if->core_params->thr_ctl)) {
++ DWC_ERROR
++ ("%d invalid for parameter thr_ctl. Check HW configuration.\n",
++ val);
++ }
++ val = 0;
++ retval = -DWC_E_INVALID;
++ }
++
++ core_if->core_params->thr_ctl = val;
++ return retval;
++}
++
++int32_t dwc_otg_get_param_thr_ctl(dwc_otg_core_if_t * core_if)
++{
++ return core_if->core_params->thr_ctl;
++}
++
++int dwc_otg_set_param_lpm_enable(dwc_otg_core_if_t * core_if, int32_t val)
++{
++ int retval = 0;
++
++ if (DWC_OTG_PARAM_TEST(val, 0, 1)) {
++ DWC_WARN("Wrong value for lpm_enable\n");
++ DWC_WARN("lpm_enable must be 0 or 1\n");
++ return -DWC_E_INVALID;
++ }
++
++ if (val && !core_if->hwcfg3.b.otg_lpm_en) {
++ if (dwc_otg_param_initialized(core_if->core_params->lpm_enable)) {
++ DWC_ERROR
++ ("%d invalid for parameter lpm_enable. Check HW configuration.\n",
++ val);
++ }
++ val = 0;
++ retval = -DWC_E_INVALID;
++ }
++
++ core_if->core_params->lpm_enable = val;
++ return retval;
++}
++
++int32_t dwc_otg_get_param_lpm_enable(dwc_otg_core_if_t * core_if)
++{
++ return core_if->core_params->lpm_enable;
++}
++
++int dwc_otg_set_param_tx_thr_length(dwc_otg_core_if_t * core_if, int32_t val)
++{
++ if (DWC_OTG_PARAM_TEST(val, 8, 128)) {
++ DWC_WARN("Wrong valaue for tx_thr_length\n");
++ DWC_WARN("tx_thr_length must be 8 - 128\n");
++ return -DWC_E_INVALID;
++ }
++
++ core_if->core_params->tx_thr_length = val;
++ return 0;
++}
++
++int32_t dwc_otg_get_param_tx_thr_length(dwc_otg_core_if_t * core_if)
++{
++ return core_if->core_params->tx_thr_length;
++}
++
++int dwc_otg_set_param_rx_thr_length(dwc_otg_core_if_t * core_if, int32_t val)
++{
++ if (DWC_OTG_PARAM_TEST(val, 8, 128)) {
++ DWC_WARN("Wrong valaue for rx_thr_length\n");
++ DWC_WARN("rx_thr_length must be 8 - 128\n");
++ return -DWC_E_INVALID;
++ }
++
++ core_if->core_params->rx_thr_length = val;
++ return 0;
++}
++
++int32_t dwc_otg_get_param_rx_thr_length(dwc_otg_core_if_t * core_if)
++{
++ return core_if->core_params->rx_thr_length;
++}
++
++int dwc_otg_set_param_dma_burst_size(dwc_otg_core_if_t * core_if, int32_t val)
++{
++ if (DWC_OTG_PARAM_TEST(val, 1, 1) &&
++ DWC_OTG_PARAM_TEST(val, 4, 4) &&
++ DWC_OTG_PARAM_TEST(val, 8, 8) &&
++ DWC_OTG_PARAM_TEST(val, 16, 16) &&
++ DWC_OTG_PARAM_TEST(val, 32, 32) &&
++ DWC_OTG_PARAM_TEST(val, 64, 64) &&
++ DWC_OTG_PARAM_TEST(val, 128, 128) &&
++ DWC_OTG_PARAM_TEST(val, 256, 256)) {
++ DWC_WARN("`%d' invalid for parameter `dma_burst_size'\n", val);
++ return -DWC_E_INVALID;
++ }
++ core_if->core_params->dma_burst_size = val;
++ return 0;
++}
++
++int32_t dwc_otg_get_param_dma_burst_size(dwc_otg_core_if_t * core_if)
++{
++ return core_if->core_params->dma_burst_size;
++}
++
++int dwc_otg_set_param_pti_enable(dwc_otg_core_if_t * core_if, int32_t val)
++{
++ int retval = 0;
++ if (DWC_OTG_PARAM_TEST(val, 0, 1)) {
++ DWC_WARN("`%d' invalid for parameter `pti_enable'\n", val);
++ return -DWC_E_INVALID;
++ }
++ if (val && (core_if->snpsid < OTG_CORE_REV_2_72a)) {
++ if (dwc_otg_param_initialized(core_if->core_params->pti_enable)) {
++ DWC_ERROR
++ ("%d invalid for parameter pti_enable. Check HW configuration.\n",
++ val);
++ }
++ retval = -DWC_E_INVALID;
++ val = 0;
++ }
++ core_if->core_params->pti_enable = val;
++ return retval;
++}
++
++int32_t dwc_otg_get_param_pti_enable(dwc_otg_core_if_t * core_if)
++{
++ return core_if->core_params->pti_enable;
++}
++
++int dwc_otg_set_param_mpi_enable(dwc_otg_core_if_t * core_if, int32_t val)
++{
++ int retval = 0;
++ if (DWC_OTG_PARAM_TEST(val, 0, 1)) {
++ DWC_WARN("`%d' invalid for parameter `mpi_enable'\n", val);
++ return -DWC_E_INVALID;
++ }
++ if (val && (core_if->hwcfg2.b.multi_proc_int == 0)) {
++ if (dwc_otg_param_initialized(core_if->core_params->mpi_enable)) {
++ DWC_ERROR
++ ("%d invalid for parameter mpi_enable. Check HW configuration.\n",
++ val);
++ }
++ retval = -DWC_E_INVALID;
++ val = 0;
++ }
++ core_if->core_params->mpi_enable = val;
++ return retval;
++}
++
++int32_t dwc_otg_get_param_mpi_enable(dwc_otg_core_if_t * core_if)
++{
++ return core_if->core_params->mpi_enable;
++}
++
++int dwc_otg_set_param_adp_enable(dwc_otg_core_if_t * core_if, int32_t val)
++{
++ int retval = 0;
++ if (DWC_OTG_PARAM_TEST(val, 0, 1)) {
++ DWC_WARN("`%d' invalid for parameter `adp_enable'\n", val);
++ return -DWC_E_INVALID;
++ }
++ if (val && (core_if->hwcfg3.b.adp_supp == 0)) {
++ if (dwc_otg_param_initialized
++ (core_if->core_params->adp_supp_enable)) {
++ DWC_ERROR
++ ("%d invalid for parameter adp_enable. Check HW configuration.\n",
++ val);
++ }
++ retval = -DWC_E_INVALID;
++ val = 0;
++ }
++ core_if->core_params->adp_supp_enable = val;
++ /*Set OTG version 2.0 in case of enabling ADP*/
++ if (val)
++ dwc_otg_set_param_otg_ver(core_if, 1);
++
++ return retval;
++}
++
++int32_t dwc_otg_get_param_adp_enable(dwc_otg_core_if_t * core_if)
++{
++ return core_if->core_params->adp_supp_enable;
++}
++
++int dwc_otg_set_param_ic_usb_cap(dwc_otg_core_if_t * core_if, int32_t val)
++{
++ int retval = 0;
++ if (DWC_OTG_PARAM_TEST(val, 0, 1)) {
++ DWC_WARN("`%d' invalid for parameter `ic_usb_cap'\n", val);
++ DWC_WARN("ic_usb_cap must be 0 or 1\n");
++ return -DWC_E_INVALID;
++ }
++
++ if (val && (core_if->hwcfg2.b.otg_enable_ic_usb == 0)) {
++ if (dwc_otg_param_initialized(core_if->core_params->ic_usb_cap)) {
++ DWC_ERROR
++ ("%d invalid for parameter ic_usb_cap. Check HW configuration.\n",
++ val);
++ }
++ retval = -DWC_E_INVALID;
++ val = 0;
++ }
++ core_if->core_params->ic_usb_cap = val;
++ return retval;
++}
++
++int32_t dwc_otg_get_param_ic_usb_cap(dwc_otg_core_if_t * core_if)
++{
++ return core_if->core_params->ic_usb_cap;
++}
++
++int dwc_otg_set_param_ahb_thr_ratio(dwc_otg_core_if_t * core_if, int32_t val)
++{
++ int retval = 0;
++ int valid = 1;
++
++ if (DWC_OTG_PARAM_TEST(val, 0, 3)) {
++ DWC_WARN("`%d' invalid for parameter `ahb_thr_ratio'\n", val);
++ DWC_WARN("ahb_thr_ratio must be 0 - 3\n");
++ return -DWC_E_INVALID;
++ }
++
++ if (val
++ && (core_if->snpsid < OTG_CORE_REV_2_81a
++ || !dwc_otg_get_param_thr_ctl(core_if))) {
++ valid = 0;
++ } else if (val
++ && ((dwc_otg_get_param_tx_thr_length(core_if) / (1 << val)) <
++ 4)) {
++ valid = 0;
++ }
++ if (valid == 0) {
++ if (dwc_otg_param_initialized
++ (core_if->core_params->ahb_thr_ratio)) {
++ DWC_ERROR
++ ("%d invalid for parameter ahb_thr_ratio. Check HW configuration.\n",
++ val);
++ }
++ retval = -DWC_E_INVALID;
++ val = 0;
++ }
++
++ core_if->core_params->ahb_thr_ratio = val;
++ return retval;
++}
++
++int32_t dwc_otg_get_param_ahb_thr_ratio(dwc_otg_core_if_t * core_if)
++{
++ return core_if->core_params->ahb_thr_ratio;
++}
++
++int dwc_otg_set_param_power_down(dwc_otg_core_if_t * core_if, int32_t val)
++{
++ int retval = 0;
++ int valid = 1;
++ hwcfg4_data_t hwcfg4 = {.d32 = 0 };
++ hwcfg4.d32 = DWC_READ_REG32(&core_if->core_global_regs->ghwcfg4);
++
++ if (DWC_OTG_PARAM_TEST(val, 0, 3)) {
++ DWC_WARN("`%d' invalid for parameter `power_down'\n", val);
++ DWC_WARN("power_down must be 0 - 2\n");
++ return -DWC_E_INVALID;
++ }
++
++ if ((val == 2) && (core_if->snpsid < OTG_CORE_REV_2_91a)) {
++ valid = 0;
++ }
++ if ((val == 3)
++ && ((core_if->snpsid < OTG_CORE_REV_3_00a)
++ || (hwcfg4.b.xhiber == 0))) {
++ valid = 0;
++ }
++ if (valid == 0) {
++ if (dwc_otg_param_initialized(core_if->core_params->power_down)) {
++ DWC_ERROR
++ ("%d invalid for parameter power_down. Check HW configuration.\n",
++ val);
++ }
++ retval = -DWC_E_INVALID;
++ val = 0;
++ }
++ core_if->core_params->power_down = val;
++ return retval;
++}
++
++int32_t dwc_otg_get_param_power_down(dwc_otg_core_if_t * core_if)
++{
++ return core_if->core_params->power_down;
++}
++
++int dwc_otg_set_param_reload_ctl(dwc_otg_core_if_t * core_if, int32_t val)
++{
++ int retval = 0;
++ int valid = 1;
++
++ if (DWC_OTG_PARAM_TEST(val, 0, 1)) {
++ DWC_WARN("`%d' invalid for parameter `reload_ctl'\n", val);
++ DWC_WARN("reload_ctl must be 0 or 1\n");
++ return -DWC_E_INVALID;
++ }
++
++ if ((val == 1) && (core_if->snpsid < OTG_CORE_REV_2_92a)) {
++ valid = 0;
++ }
++ if (valid == 0) {
++ if (dwc_otg_param_initialized(core_if->core_params->reload_ctl)) {
++ DWC_ERROR("%d invalid for parameter reload_ctl."
++ "Check HW configuration.\n", val);
++ }
++ retval = -DWC_E_INVALID;
++ val = 0;
++ }
++ core_if->core_params->reload_ctl = val;
++ return retval;
++}
++
++int32_t dwc_otg_get_param_reload_ctl(dwc_otg_core_if_t * core_if)
++{
++ return core_if->core_params->reload_ctl;
++}
++
++int dwc_otg_set_param_dev_out_nak(dwc_otg_core_if_t * core_if, int32_t val)
++{
++ int retval = 0;
++ int valid = 1;
++
++ if (DWC_OTG_PARAM_TEST(val, 0, 1)) {
++ DWC_WARN("`%d' invalid for parameter `dev_out_nak'\n", val);
++ DWC_WARN("dev_out_nak must be 0 or 1\n");
++ return -DWC_E_INVALID;
++ }
++
++ if ((val == 1) && ((core_if->snpsid < OTG_CORE_REV_2_93a) ||
++ !(core_if->core_params->dma_desc_enable))) {
++ valid = 0;
++ }
++ if (valid == 0) {
++ if (dwc_otg_param_initialized(core_if->core_params->dev_out_nak)) {
++ DWC_ERROR("%d invalid for parameter dev_out_nak."
++ "Check HW configuration.\n", val);
++ }
++ retval = -DWC_E_INVALID;
++ val = 0;
++ }
++ core_if->core_params->dev_out_nak = val;
++ return retval;
++}
++
++int32_t dwc_otg_get_param_dev_out_nak(dwc_otg_core_if_t * core_if)
++{
++ return core_if->core_params->dev_out_nak;
++}
++
++int dwc_otg_set_param_cont_on_bna(dwc_otg_core_if_t * core_if, int32_t val)
++{
++ int retval = 0;
++ int valid = 1;
++
++ if (DWC_OTG_PARAM_TEST(val, 0, 1)) {
++ DWC_WARN("`%d' invalid for parameter `cont_on_bna'\n", val);
++ DWC_WARN("cont_on_bna must be 0 or 1\n");
++ return -DWC_E_INVALID;
++ }
++
++ if ((val == 1) && ((core_if->snpsid < OTG_CORE_REV_2_94a) ||
++ !(core_if->core_params->dma_desc_enable))) {
++ valid = 0;
++ }
++ if (valid == 0) {
++ if (dwc_otg_param_initialized(core_if->core_params->cont_on_bna)) {
++ DWC_ERROR("%d invalid for parameter cont_on_bna."
++ "Check HW configuration.\n", val);
++ }
++ retval = -DWC_E_INVALID;
++ val = 0;
++ }
++ core_if->core_params->cont_on_bna = val;
++ return retval;
++}
++
++int32_t dwc_otg_get_param_cont_on_bna(dwc_otg_core_if_t * core_if)
++{
++ return core_if->core_params->cont_on_bna;
++}
++
++int dwc_otg_set_param_ahb_single(dwc_otg_core_if_t * core_if, int32_t val)
++{
++ int retval = 0;
++ int valid = 1;
++
++ if (DWC_OTG_PARAM_TEST(val, 0, 1)) {
++ DWC_WARN("`%d' invalid for parameter `ahb_single'\n", val);
++ DWC_WARN("ahb_single must be 0 or 1\n");
++ return -DWC_E_INVALID;
++ }
++
++ if ((val == 1) && (core_if->snpsid < OTG_CORE_REV_2_94a)) {
++ valid = 0;
++ }
++ if (valid == 0) {
++ if (dwc_otg_param_initialized(core_if->core_params->ahb_single)) {
++ DWC_ERROR("%d invalid for parameter ahb_single."
++ "Check HW configuration.\n", val);
++ }
++ retval = -DWC_E_INVALID;
++ val = 0;
++ }
++ core_if->core_params->ahb_single = val;
++ return retval;
++}
++
++int32_t dwc_otg_get_param_ahb_single(dwc_otg_core_if_t * core_if)
++{
++ return core_if->core_params->ahb_single;
++}
++
++int dwc_otg_set_param_otg_ver(dwc_otg_core_if_t * core_if, int32_t val)
++{
++ int retval = 0;
++
++ if (DWC_OTG_PARAM_TEST(val, 0, 1)) {
++ DWC_WARN("`%d' invalid for parameter `otg_ver'\n", val);
++ DWC_WARN
++ ("otg_ver must be 0(for OTG 1.3 support) or 1(for OTG 2.0 support)\n");
++ return -DWC_E_INVALID;
++ }
++
++ core_if->core_params->otg_ver = val;
++ return retval;
++}
++
++int32_t dwc_otg_get_param_otg_ver(dwc_otg_core_if_t * core_if)
++{
++ return core_if->core_params->otg_ver;
++}
++
++uint32_t dwc_otg_get_hnpstatus(dwc_otg_core_if_t * core_if)
++{
++ gotgctl_data_t otgctl;
++ otgctl.d32 = DWC_READ_REG32(&core_if->core_global_regs->gotgctl);
++ return otgctl.b.hstnegscs;
++}
++
++uint32_t dwc_otg_get_srpstatus(dwc_otg_core_if_t * core_if)
++{
++ gotgctl_data_t otgctl;
++ otgctl.d32 = DWC_READ_REG32(&core_if->core_global_regs->gotgctl);
++ return otgctl.b.sesreqscs;
++}
++
++void dwc_otg_set_hnpreq(dwc_otg_core_if_t * core_if, uint32_t val)
++{
++ if(core_if->otg_ver == 0) {
++ gotgctl_data_t otgctl;
++ otgctl.d32 = DWC_READ_REG32(&core_if->core_global_regs->gotgctl);
++ otgctl.b.hnpreq = val;
++ DWC_WRITE_REG32(&core_if->core_global_regs->gotgctl, otgctl.d32);
++ } else {
++ core_if->otg_sts = val;
++ }
++}
++
++uint32_t dwc_otg_get_gsnpsid(dwc_otg_core_if_t * core_if)
++{
++ return core_if->snpsid;
++}
++
++uint32_t dwc_otg_get_mode(dwc_otg_core_if_t * core_if)
++{
++ gintsts_data_t gintsts;
++ gintsts.d32 = DWC_READ_REG32(&core_if->core_global_regs->gintsts);
++ return gintsts.b.curmode;
++}
++
++uint32_t dwc_otg_get_hnpcapable(dwc_otg_core_if_t * core_if)
++{
++ gusbcfg_data_t usbcfg;
++ usbcfg.d32 = DWC_READ_REG32(&core_if->core_global_regs->gusbcfg);
++ return usbcfg.b.hnpcap;
++}
++
++void dwc_otg_set_hnpcapable(dwc_otg_core_if_t * core_if, uint32_t val)
++{
++ gusbcfg_data_t usbcfg;
++ usbcfg.d32 = DWC_READ_REG32(&core_if->core_global_regs->gusbcfg);
++ usbcfg.b.hnpcap = val;
++ DWC_WRITE_REG32(&core_if->core_global_regs->gusbcfg, usbcfg.d32);
++}
++
++uint32_t dwc_otg_get_srpcapable(dwc_otg_core_if_t * core_if)
++{
++ gusbcfg_data_t usbcfg;
++ usbcfg.d32 = DWC_READ_REG32(&core_if->core_global_regs->gusbcfg);
++ return usbcfg.b.srpcap;
++}
++
++void dwc_otg_set_srpcapable(dwc_otg_core_if_t * core_if, uint32_t val)
++{
++ gusbcfg_data_t usbcfg;
++ usbcfg.d32 = DWC_READ_REG32(&core_if->core_global_regs->gusbcfg);
++ usbcfg.b.srpcap = val;
++ DWC_WRITE_REG32(&core_if->core_global_regs->gusbcfg, usbcfg.d32);
++}
++
++uint32_t dwc_otg_get_devspeed(dwc_otg_core_if_t * core_if)
++{
++ dcfg_data_t dcfg;
++ /* originally: dcfg.d32 = DWC_READ_REG32(&core_if->dev_if->dev_global_regs->dcfg); */
++
++ dcfg.d32 = -1; //GRAYG
++ DWC_DEBUGPL(DBG_CILV, "%s - core_if(%p)\n", __func__, core_if);
++ if (NULL == core_if)
++ DWC_ERROR("reg request with NULL core_if\n");
++ DWC_DEBUGPL(DBG_CILV, "%s - core_if(%p)->dev_if(%p)\n", __func__,
++ core_if, core_if->dev_if);
++ if (NULL == core_if->dev_if)
++ DWC_ERROR("reg request with NULL dev_if\n");
++ DWC_DEBUGPL(DBG_CILV, "%s - core_if(%p)->dev_if(%p)->"
++ "dev_global_regs(%p)\n", __func__,
++ core_if, core_if->dev_if,
++ core_if->dev_if->dev_global_regs);
++ if (NULL == core_if->dev_if->dev_global_regs)
++ DWC_ERROR("reg request with NULL dev_global_regs\n");
++ else {
++ DWC_DEBUGPL(DBG_CILV, "%s - &core_if(%p)->dev_if(%p)->"
++ "dev_global_regs(%p)->dcfg = %p\n", __func__,
++ core_if, core_if->dev_if,
++ core_if->dev_if->dev_global_regs,
++ &core_if->dev_if->dev_global_regs->dcfg);
++ dcfg.d32 = DWC_READ_REG32(&core_if->dev_if->dev_global_regs->dcfg);
++ }
++ return dcfg.b.devspd;
++}
++
++void dwc_otg_set_devspeed(dwc_otg_core_if_t * core_if, uint32_t val)
++{
++ dcfg_data_t dcfg;
++ dcfg.d32 = DWC_READ_REG32(&core_if->dev_if->dev_global_regs->dcfg);
++ dcfg.b.devspd = val;
++ DWC_WRITE_REG32(&core_if->dev_if->dev_global_regs->dcfg, dcfg.d32);
++}
++
++uint32_t dwc_otg_get_busconnected(dwc_otg_core_if_t * core_if)
++{
++ hprt0_data_t hprt0;
++ hprt0.d32 = DWC_READ_REG32(core_if->host_if->hprt0);
++ return hprt0.b.prtconnsts;
++}
++
++uint32_t dwc_otg_get_enumspeed(dwc_otg_core_if_t * core_if)
++{
++ dsts_data_t dsts;
++ dsts.d32 = DWC_READ_REG32(&core_if->dev_if->dev_global_regs->dsts);
++ return dsts.b.enumspd;
++}
++
++uint32_t dwc_otg_get_prtpower(dwc_otg_core_if_t * core_if)
++{
++ hprt0_data_t hprt0;
++ hprt0.d32 = DWC_READ_REG32(core_if->host_if->hprt0);
++ return hprt0.b.prtpwr;
++
++}
++
++uint32_t dwc_otg_get_core_state(dwc_otg_core_if_t * core_if)
++{
++ return core_if->hibernation_suspend;
++}
++
++void dwc_otg_set_prtpower(dwc_otg_core_if_t * core_if, uint32_t val)
++{
++ hprt0_data_t hprt0;
++ hprt0.d32 = dwc_otg_read_hprt0(core_if);
++ hprt0.b.prtpwr = val;
++ DWC_WRITE_REG32(core_if->host_if->hprt0, hprt0.d32);
++}
++
++uint32_t dwc_otg_get_prtsuspend(dwc_otg_core_if_t * core_if)
++{
++ hprt0_data_t hprt0;
++ hprt0.d32 = DWC_READ_REG32(core_if->host_if->hprt0);
++ return hprt0.b.prtsusp;
++
++}
++
++void dwc_otg_set_prtsuspend(dwc_otg_core_if_t * core_if, uint32_t val)
++{
++ hprt0_data_t hprt0;
++ hprt0.d32 = dwc_otg_read_hprt0(core_if);
++ hprt0.b.prtsusp = val;
++ DWC_WRITE_REG32(core_if->host_if->hprt0, hprt0.d32);
++}
++
++uint32_t dwc_otg_get_fr_interval(dwc_otg_core_if_t * core_if)
++{
++ hfir_data_t hfir;
++ hfir.d32 = DWC_READ_REG32(&core_if->host_if->host_global_regs->hfir);
++ return hfir.b.frint;
++
++}
++
++void dwc_otg_set_fr_interval(dwc_otg_core_if_t * core_if, uint32_t val)
++{
++ hfir_data_t hfir;
++ uint32_t fram_int;
++ fram_int = calc_frame_interval(core_if);
++ hfir.d32 = DWC_READ_REG32(&core_if->host_if->host_global_regs->hfir);
++ if (!core_if->core_params->reload_ctl) {
++ DWC_WARN("\nCannot reload HFIR register.HFIR.HFIRRldCtrl bit is"
++ "not set to 1.\nShould load driver with reload_ctl=1"
++ " module parameter\n");
++ return;
++ }
++ switch (fram_int) {
++ case 3750:
++ if ((val < 3350) || (val > 4150)) {
++ DWC_WARN("HFIR interval for HS core and 30 MHz"
++ "clock freq should be from 3350 to 4150\n");
++ return;
++ }
++ break;
++ case 30000:
++ if ((val < 26820) || (val > 33180)) {
++ DWC_WARN("HFIR interval for FS/LS core and 30 MHz"
++ "clock freq should be from 26820 to 33180\n");
++ return;
++ }
++ break;
++ case 6000:
++ if ((val < 5360) || (val > 6640)) {
++ DWC_WARN("HFIR interval for HS core and 48 MHz"
++ "clock freq should be from 5360 to 6640\n");
++ return;
++ }
++ break;
++ case 48000:
++ if ((val < 42912) || (val > 53088)) {
++ DWC_WARN("HFIR interval for FS/LS core and 48 MHz"
++ "clock freq should be from 42912 to 53088\n");
++ return;
++ }
++ break;
++ case 7500:
++ if ((val < 6700) || (val > 8300)) {
++ DWC_WARN("HFIR interval for HS core and 60 MHz"
++ "clock freq should be from 6700 to 8300\n");
++ return;
++ }
++ break;
++ case 60000:
++ if ((val < 53640) || (val > 65536)) {
++ DWC_WARN("HFIR interval for FS/LS core and 60 MHz"
++ "clock freq should be from 53640 to 65536\n");
++ return;
++ }
++ break;
++ default:
++ DWC_WARN("Unknown frame interval\n");
++ return;
++ break;
++
++ }
++ hfir.b.frint = val;
++ DWC_WRITE_REG32(&core_if->host_if->host_global_regs->hfir, hfir.d32);
++}
++
++uint32_t dwc_otg_get_mode_ch_tim(dwc_otg_core_if_t * core_if)
++{
++ hcfg_data_t hcfg;
++ hcfg.d32 = DWC_READ_REG32(&core_if->host_if->host_global_regs->hcfg);
++ return hcfg.b.modechtimen;
++
++}
++
++void dwc_otg_set_mode_ch_tim(dwc_otg_core_if_t * core_if, uint32_t val)
++{
++ hcfg_data_t hcfg;
++ hcfg.d32 = DWC_READ_REG32(&core_if->host_if->host_global_regs->hcfg);
++ hcfg.b.modechtimen = val;
++ DWC_WRITE_REG32(&core_if->host_if->host_global_regs->hcfg, hcfg.d32);
++}
++
++void dwc_otg_set_prtresume(dwc_otg_core_if_t * core_if, uint32_t val)
++{
++ hprt0_data_t hprt0;
++ hprt0.d32 = dwc_otg_read_hprt0(core_if);
++ hprt0.b.prtres = val;
++ DWC_WRITE_REG32(core_if->host_if->hprt0, hprt0.d32);
++}
++
++uint32_t dwc_otg_get_remotewakesig(dwc_otg_core_if_t * core_if)
++{
++ dctl_data_t dctl;
++ dctl.d32 = DWC_READ_REG32(&core_if->dev_if->dev_global_regs->dctl);
++ return dctl.b.rmtwkupsig;
++}
++
++uint32_t dwc_otg_get_lpm_portsleepstatus(dwc_otg_core_if_t * core_if)
++{
++ glpmcfg_data_t lpmcfg;
++ lpmcfg.d32 = DWC_READ_REG32(&core_if->core_global_regs->glpmcfg);
++
++ DWC_ASSERT(!
++ ((core_if->lx_state == DWC_OTG_L1) ^ lpmcfg.b.prt_sleep_sts),
++ "lx_state = %d, lmpcfg.prt_sleep_sts = %d\n",
++ core_if->lx_state, lpmcfg.b.prt_sleep_sts);
++
++ return lpmcfg.b.prt_sleep_sts;
++}
++
++uint32_t dwc_otg_get_lpm_remotewakeenabled(dwc_otg_core_if_t * core_if)
++{
++ glpmcfg_data_t lpmcfg;
++ lpmcfg.d32 = DWC_READ_REG32(&core_if->core_global_regs->glpmcfg);
++ return lpmcfg.b.rem_wkup_en;
++}
++
++uint32_t dwc_otg_get_lpmresponse(dwc_otg_core_if_t * core_if)
++{
++ glpmcfg_data_t lpmcfg;
++ lpmcfg.d32 = DWC_READ_REG32(&core_if->core_global_regs->glpmcfg);
++ return lpmcfg.b.appl_resp;
++}
++
++void dwc_otg_set_lpmresponse(dwc_otg_core_if_t * core_if, uint32_t val)
++{
++ glpmcfg_data_t lpmcfg;
++ lpmcfg.d32 = DWC_READ_REG32(&core_if->core_global_regs->glpmcfg);
++ lpmcfg.b.appl_resp = val;
++ DWC_WRITE_REG32(&core_if->core_global_regs->glpmcfg, lpmcfg.d32);
++}
++
++uint32_t dwc_otg_get_hsic_connect(dwc_otg_core_if_t * core_if)
++{
++ glpmcfg_data_t lpmcfg;
++ lpmcfg.d32 = DWC_READ_REG32(&core_if->core_global_regs->glpmcfg);
++ return lpmcfg.b.hsic_connect;
++}
++
++void dwc_otg_set_hsic_connect(dwc_otg_core_if_t * core_if, uint32_t val)
++{
++ glpmcfg_data_t lpmcfg;
++ lpmcfg.d32 = DWC_READ_REG32(&core_if->core_global_regs->glpmcfg);
++ lpmcfg.b.hsic_connect = val;
++ DWC_WRITE_REG32(&core_if->core_global_regs->glpmcfg, lpmcfg.d32);
++}
++
++uint32_t dwc_otg_get_inv_sel_hsic(dwc_otg_core_if_t * core_if)
++{
++ glpmcfg_data_t lpmcfg;
++ lpmcfg.d32 = DWC_READ_REG32(&core_if->core_global_regs->glpmcfg);
++ return lpmcfg.b.inv_sel_hsic;
++
++}
++
++void dwc_otg_set_inv_sel_hsic(dwc_otg_core_if_t * core_if, uint32_t val)
++{
++ glpmcfg_data_t lpmcfg;
++ lpmcfg.d32 = DWC_READ_REG32(&core_if->core_global_regs->glpmcfg);
++ lpmcfg.b.inv_sel_hsic = val;
++ DWC_WRITE_REG32(&core_if->core_global_regs->glpmcfg, lpmcfg.d32);
++}
++
++uint32_t dwc_otg_get_gotgctl(dwc_otg_core_if_t * core_if)
++{
++ return DWC_READ_REG32(&core_if->core_global_regs->gotgctl);
++}
++
++void dwc_otg_set_gotgctl(dwc_otg_core_if_t * core_if, uint32_t val)
++{
++ DWC_WRITE_REG32(&core_if->core_global_regs->gotgctl, val);
++}
++
++uint32_t dwc_otg_get_gusbcfg(dwc_otg_core_if_t * core_if)
++{
++ return DWC_READ_REG32(&core_if->core_global_regs->gusbcfg);
++}
++
++void dwc_otg_set_gusbcfg(dwc_otg_core_if_t * core_if, uint32_t val)
++{
++ DWC_WRITE_REG32(&core_if->core_global_regs->gusbcfg, val);
++}
++
++uint32_t dwc_otg_get_grxfsiz(dwc_otg_core_if_t * core_if)
++{
++ return DWC_READ_REG32(&core_if->core_global_regs->grxfsiz);
++}
++
++void dwc_otg_set_grxfsiz(dwc_otg_core_if_t * core_if, uint32_t val)
++{
++ DWC_WRITE_REG32(&core_if->core_global_regs->grxfsiz, val);
++}
++
++uint32_t dwc_otg_get_gnptxfsiz(dwc_otg_core_if_t * core_if)
++{
++ return DWC_READ_REG32(&core_if->core_global_regs->gnptxfsiz);
++}
++
++void dwc_otg_set_gnptxfsiz(dwc_otg_core_if_t * core_if, uint32_t val)
++{
++ DWC_WRITE_REG32(&core_if->core_global_regs->gnptxfsiz, val);
++}
++
++uint32_t dwc_otg_get_gpvndctl(dwc_otg_core_if_t * core_if)
++{
++ return DWC_READ_REG32(&core_if->core_global_regs->gpvndctl);
++}
++
++void dwc_otg_set_gpvndctl(dwc_otg_core_if_t * core_if, uint32_t val)
++{
++ DWC_WRITE_REG32(&core_if->core_global_regs->gpvndctl, val);
++}
++
++uint32_t dwc_otg_get_ggpio(dwc_otg_core_if_t * core_if)
++{
++ return DWC_READ_REG32(&core_if->core_global_regs->ggpio);
++}
++
++void dwc_otg_set_ggpio(dwc_otg_core_if_t * core_if, uint32_t val)
++{
++ DWC_WRITE_REG32(&core_if->core_global_regs->ggpio, val);
++}
++
++uint32_t dwc_otg_get_hprt0(dwc_otg_core_if_t * core_if)
++{
++ return DWC_READ_REG32(core_if->host_if->hprt0);
++
++}
++
++void dwc_otg_set_hprt0(dwc_otg_core_if_t * core_if, uint32_t val)
++{
++ DWC_WRITE_REG32(core_if->host_if->hprt0, val);
++}
++
++uint32_t dwc_otg_get_guid(dwc_otg_core_if_t * core_if)
++{
++ return DWC_READ_REG32(&core_if->core_global_regs->guid);
++}
++
++void dwc_otg_set_guid(dwc_otg_core_if_t * core_if, uint32_t val)
++{
++ DWC_WRITE_REG32(&core_if->core_global_regs->guid, val);
++}
++
++uint32_t dwc_otg_get_hptxfsiz(dwc_otg_core_if_t * core_if)
++{
++ return DWC_READ_REG32(&core_if->core_global_regs->hptxfsiz);
++}
++
++uint16_t dwc_otg_get_otg_version(dwc_otg_core_if_t * core_if)
++{
++ return ((core_if->otg_ver == 1) ? (uint16_t)0x0200 : (uint16_t)0x0103);
++}
++
++/**
++ * Start the SRP timer to detect when the SRP does not complete within
++ * 6 seconds.
++ *
++ * @param core_if the pointer to core_if strucure.
++ */
++void dwc_otg_pcd_start_srp_timer(dwc_otg_core_if_t * core_if)
++{
++ core_if->srp_timer_started = 1;
++ DWC_TIMER_SCHEDULE(core_if->srp_timer, 6000 /* 6 secs */ );
++}
++
++void dwc_otg_initiate_srp(dwc_otg_core_if_t * core_if)
++{
++ uint32_t *addr = (uint32_t *) & (core_if->core_global_regs->gotgctl);
++ gotgctl_data_t mem;
++ gotgctl_data_t val;
++
++ val.d32 = DWC_READ_REG32(addr);
++ if (val.b.sesreq) {
++ DWC_ERROR("Session Request Already active!\n");
++ return;
++ }
++
++ DWC_INFO("Session Request Initated\n"); //NOTICE
++ mem.d32 = DWC_READ_REG32(addr);
++ mem.b.sesreq = 1;
++ DWC_WRITE_REG32(addr, mem.d32);
++
++ /* Start the SRP timer */
++ dwc_otg_pcd_start_srp_timer(core_if);
++ return;
++}
+diff -urN linux-3.10/drivers/usb/host/dwc_otg/dwc_otg_cil.h linux-rpi-3.10.y/drivers/usb/host/dwc_otg/dwc_otg_cil.h
+--- linux-3.10/drivers/usb/host/dwc_otg/dwc_otg_cil.h 1970-01-01 01:00:00.000000000 +0100
++++ linux-rpi-3.10.y/drivers/usb/host/dwc_otg/dwc_otg_cil.h 2013-07-06 15:25:50.000000000 +0100
+@@ -0,0 +1,1464 @@
++/* ==========================================================================
++ * $File: //dwh/usb_iip/dev/software/otg/linux/drivers/dwc_otg_cil.h $
++ * $Revision: #123 $
++ * $Date: 2012/08/10 $
++ * $Change: 2047372 $
++ *
++ * Synopsys HS OTG Linux Software Driver and documentation (hereinafter,
++ * "Software") is an Unsupported proprietary work of Synopsys, Inc. unless
++ * otherwise expressly agreed to in writing between Synopsys and you.
++ *
++ * The Software IS NOT an item of Licensed Software or Licensed Product under
++ * any End User Software License Agreement or Agreement for Licensed Product
++ * with Synopsys or any supplement thereto. You are permitted to use and
++ * redistribute this Software in source and binary forms, with or without
++ * modification, provided that redistributions of source code must retain this
++ * notice. You may not view, use, disclose, copy or distribute this file or
++ * any information contained herein except pursuant to this license grant from
++ * Synopsys. If you do not agree with this notice, including the disclaimer
++ * below, then you are not authorized to use the Software.
++ *
++ * THIS SOFTWARE IS BEING DISTRIBUTED BY SYNOPSYS SOLELY ON AN "AS IS" BASIS
++ * AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
++ * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE
++ * ARE HEREBY DISCLAIMED. IN NO EVENT SHALL SYNOPSYS BE LIABLE FOR ANY DIRECT,
++ * INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES
++ * (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR
++ * SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER
++ * CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT
++ * LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY
++ * OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH
++ * DAMAGE.
++ * ========================================================================== */
++
++#if !defined(__DWC_CIL_H__)
++#define __DWC_CIL_H__
++
++#include "dwc_list.h"
++#include "dwc_otg_dbg.h"
++#include "dwc_otg_regs.h"
++
++#include "dwc_otg_core_if.h"
++#include "dwc_otg_adp.h"
++
++/**
++ * @file
++ * This file contains the interface to the Core Interface Layer.
++ */
++
++#ifdef DWC_UTE_CFI
++
++#define MAX_DMA_DESCS_PER_EP 256
++
++/**
++ * Enumeration for the data buffer mode
++ */
++typedef enum _data_buffer_mode {
++ BM_STANDARD = 0, /* data buffer is in normal mode */
++ BM_SG = 1, /* data buffer uses the scatter/gather mode */
++ BM_CONCAT = 2, /* data buffer uses the concatenation mode */
++ BM_CIRCULAR = 3, /* data buffer uses the circular DMA mode */
++ BM_ALIGN = 4 /* data buffer is in buffer alignment mode */
++} data_buffer_mode_e;
++#endif //DWC_UTE_CFI
++
++/** Macros defined for DWC OTG HW Release version */
++
++#define OTG_CORE_REV_2_60a 0x4F54260A
++#define OTG_CORE_REV_2_71a 0x4F54271A
++#define OTG_CORE_REV_2_72a 0x4F54272A
++#define OTG_CORE_REV_2_80a 0x4F54280A
++#define OTG_CORE_REV_2_81a 0x4F54281A
++#define OTG_CORE_REV_2_90a 0x4F54290A
++#define OTG_CORE_REV_2_91a 0x4F54291A
++#define OTG_CORE_REV_2_92a 0x4F54292A
++#define OTG_CORE_REV_2_93a 0x4F54293A
++#define OTG_CORE_REV_2_94a 0x4F54294A
++#define OTG_CORE_REV_3_00a 0x4F54300A
++
++/**
++ * Information for each ISOC packet.
++ */
++typedef struct iso_pkt_info {
++ uint32_t offset;
++ uint32_t length;
++ int32_t status;
++} iso_pkt_info_t;
++
++/**
++ * The <code>dwc_ep</code> structure represents the state of a single
++ * endpoint when acting in device mode. It contains the data items
++ * needed for an endpoint to be activated and transfer packets.
++ */
++typedef struct dwc_ep {
++ /** EP number used for register address lookup */
++ uint8_t num;
++ /** EP direction 0 = OUT */
++ unsigned is_in:1;
++ /** EP active. */
++ unsigned active:1;
++
++ /**
++ * Periodic Tx FIFO # for IN EPs For INTR EP set to 0 to use non-periodic
++ * Tx FIFO. If dedicated Tx FIFOs are enabled Tx FIFO # FOR IN EPs*/
++ unsigned tx_fifo_num:4;
++ /** EP type: 0 - Control, 1 - ISOC, 2 - BULK, 3 - INTR */
++ unsigned type:2;
++#define DWC_OTG_EP_TYPE_CONTROL 0
++#define DWC_OTG_EP_TYPE_ISOC 1
++#define DWC_OTG_EP_TYPE_BULK 2
++#define DWC_OTG_EP_TYPE_INTR 3
++
++ /** DATA start PID for INTR and BULK EP */
++ unsigned data_pid_start:1;
++ /** Frame (even/odd) for ISOC EP */
++ unsigned even_odd_frame:1;
++ /** Max Packet bytes */
++ unsigned maxpacket:11;
++
++ /** Max Transfer size */
++ uint32_t maxxfer;
++
++ /** @name Transfer state */
++ /** @{ */
++
++ /**
++ * Pointer to the beginning of the transfer buffer -- do not modify
++ * during transfer.
++ */
++
++ dwc_dma_t dma_addr;
++
++ dwc_dma_t dma_desc_addr;
++ dwc_otg_dev_dma_desc_t *desc_addr;
++
++ uint8_t *start_xfer_buff;
++ /** pointer to the transfer buffer */
++ uint8_t *xfer_buff;
++ /** Number of bytes to transfer */
++ unsigned xfer_len:19;
++ /** Number of bytes transferred. */
++ unsigned xfer_count:19;
++ /** Sent ZLP */
++ unsigned sent_zlp:1;
++ /** Total len for control transfer */
++ unsigned total_len:19;
++
++ /** stall clear flag */
++ unsigned stall_clear_flag:1;
++
++ /** SETUP pkt cnt rollover flag for EP0 out*/
++ unsigned stp_rollover;
++
++#ifdef DWC_UTE_CFI
++ /* The buffer mode */
++ data_buffer_mode_e buff_mode;
++
++ /* The chain of DMA descriptors.
++ * MAX_DMA_DESCS_PER_EP will be allocated for each active EP.
++ */
++ dwc_otg_dma_desc_t *descs;
++
++ /* The DMA address of the descriptors chain start */
++ dma_addr_t descs_dma_addr;
++ /** This variable stores the length of the last enqueued request */
++ uint32_t cfi_req_len;
++#endif //DWC_UTE_CFI
++
++/** Max DMA Descriptor count for any EP */
++#define MAX_DMA_DESC_CNT 256
++ /** Allocated DMA Desc count */
++ uint32_t desc_cnt;
++
++ /** bInterval */
++ uint32_t bInterval;
++ /** Next frame num to setup next ISOC transfer */
++ uint32_t frame_num;
++ /** Indicates SOF number overrun in DSTS */
++ uint8_t frm_overrun;
++
++#ifdef DWC_UTE_PER_IO
++ /** Next frame num for which will be setup DMA Desc */
++ uint32_t xiso_frame_num;
++ /** bInterval */
++ uint32_t xiso_bInterval;
++ /** Count of currently active transfers - shall be either 0 or 1 */
++ int xiso_active_xfers;
++ int xiso_queued_xfers;
++#endif
++#ifdef DWC_EN_ISOC
++ /**
++ * Variables specific for ISOC EPs
++ *
++ */
++ /** DMA addresses of ISOC buffers */
++ dwc_dma_t dma_addr0;
++ dwc_dma_t dma_addr1;
++
++ dwc_dma_t iso_dma_desc_addr;
++ dwc_otg_dev_dma_desc_t *iso_desc_addr;
++
++ /** pointer to the transfer buffers */
++ uint8_t *xfer_buff0;
++ uint8_t *xfer_buff1;
++
++ /** number of ISOC Buffer is processing */
++ uint32_t proc_buf_num;
++ /** Interval of ISOC Buffer processing */
++ uint32_t buf_proc_intrvl;
++ /** Data size for regular frame */
++ uint32_t data_per_frame;
++
++ /* todo - pattern data support is to be implemented in the future */
++ /** Data size for pattern frame */
++ uint32_t data_pattern_frame;
++ /** Frame number of pattern data */
++ uint32_t sync_frame;
++
++ /** bInterval */
++ uint32_t bInterval;
++ /** ISO Packet number per frame */
++ uint32_t pkt_per_frm;
++ /** Next frame num for which will be setup DMA Desc */
++ uint32_t next_frame;
++ /** Number of packets per buffer processing */
++ uint32_t pkt_cnt;
++ /** Info for all isoc packets */
++ iso_pkt_info_t *pkt_info;
++ /** current pkt number */
++ uint32_t cur_pkt;
++ /** current pkt number */
++ uint8_t *cur_pkt_addr;
++ /** current pkt number */
++ uint32_t cur_pkt_dma_addr;
++#endif /* DWC_EN_ISOC */
++
++/** @} */
++} dwc_ep_t;
++
++/*
++ * Reasons for halting a host channel.
++ */
++typedef enum dwc_otg_halt_status {
++ DWC_OTG_HC_XFER_NO_HALT_STATUS,
++ DWC_OTG_HC_XFER_COMPLETE,
++ DWC_OTG_HC_XFER_URB_COMPLETE,
++ DWC_OTG_HC_XFER_ACK,
++ DWC_OTG_HC_XFER_NAK,
++ DWC_OTG_HC_XFER_NYET,
++ DWC_OTG_HC_XFER_STALL,
++ DWC_OTG_HC_XFER_XACT_ERR,
++ DWC_OTG_HC_XFER_FRAME_OVERRUN,
++ DWC_OTG_HC_XFER_BABBLE_ERR,
++ DWC_OTG_HC_XFER_DATA_TOGGLE_ERR,
++ DWC_OTG_HC_XFER_AHB_ERR,
++ DWC_OTG_HC_XFER_PERIODIC_INCOMPLETE,
++ DWC_OTG_HC_XFER_URB_DEQUEUE
++} dwc_otg_halt_status_e;
++
++/**
++ * Host channel descriptor. This structure represents the state of a single
++ * host channel when acting in host mode. It contains the data items needed to
++ * transfer packets to an endpoint via a host channel.
++ */
++typedef struct dwc_hc {
++ /** Host channel number used for register address lookup */
++ uint8_t hc_num;
++
++ /** Device to access */
++ unsigned dev_addr:7;
++
++ /** EP to access */
++ unsigned ep_num:4;
++
++ /** EP direction. 0: OUT, 1: IN */
++ unsigned ep_is_in:1;
++
++ /**
++ * EP speed.
++ * One of the following values:
++ * - DWC_OTG_EP_SPEED_LOW
++ * - DWC_OTG_EP_SPEED_FULL
++ * - DWC_OTG_EP_SPEED_HIGH
++ */
++ unsigned speed:2;
++#define DWC_OTG_EP_SPEED_LOW 0
++#define DWC_OTG_EP_SPEED_FULL 1
++#define DWC_OTG_EP_SPEED_HIGH 2
++
++ /**
++ * Endpoint type.
++ * One of the following values:
++ * - DWC_OTG_EP_TYPE_CONTROL: 0
++ * - DWC_OTG_EP_TYPE_ISOC: 1
++ * - DWC_OTG_EP_TYPE_BULK: 2
++ * - DWC_OTG_EP_TYPE_INTR: 3
++ */
++ unsigned ep_type:2;
++
++ /** Max packet size in bytes */
++ unsigned max_packet:11;
++
++ /**
++ * PID for initial transaction.
++ * 0: DATA0,<br>
++ * 1: DATA2,<br>
++ * 2: DATA1,<br>
++ * 3: MDATA (non-Control EP),
++ * SETUP (Control EP)
++ */
++ unsigned data_pid_start:2;
++#define DWC_OTG_HC_PID_DATA0 0
++#define DWC_OTG_HC_PID_DATA2 1
++#define DWC_OTG_HC_PID_DATA1 2
++#define DWC_OTG_HC_PID_MDATA 3
++#define DWC_OTG_HC_PID_SETUP 3
++
++ /** Number of periodic transactions per (micro)frame */
++ unsigned multi_count:2;
++
++ /** @name Transfer State */
++ /** @{ */
++
++ /** Pointer to the current transfer buffer position. */
++ uint8_t *xfer_buff;
++ /**
++ * In Buffer DMA mode this buffer will be used
++ * if xfer_buff is not DWORD aligned.
++ */
++ dwc_dma_t align_buff;
++ /** Total number of bytes to transfer. */
++ uint32_t xfer_len;
++ /** Number of bytes transferred so far. */
++ uint32_t xfer_count;
++ /** Packet count at start of transfer.*/
++ uint16_t start_pkt_count;
++
++ /**
++ * Flag to indicate whether the transfer has been started. Set to 1 if
++ * it has been started, 0 otherwise.
++ */
++ uint8_t xfer_started;
++
++ /**
++ * Set to 1 to indicate that a PING request should be issued on this
++ * channel. If 0, process normally.
++ */
++ uint8_t do_ping;
++
++ /**
++ * Set to 1 to indicate that the error count for this transaction is
++ * non-zero. Set to 0 if the error count is 0.
++ */
++ uint8_t error_state;
++
++ /**
++ * Set to 1 to indicate that this channel should be halted the next
++ * time a request is queued for the channel. This is necessary in
++ * slave mode if no request queue space is available when an attempt
++ * is made to halt the channel.
++ */
++ uint8_t halt_on_queue;
++
++ /**
++ * Set to 1 if the host channel has been halted, but the core is not
++ * finished flushing queued requests. Otherwise 0.
++ */
++ uint8_t halt_pending;
++
++ /**
++ * Reason for halting the host channel.
++ */
++ dwc_otg_halt_status_e halt_status;
++
++ /*
++ * Split settings for the host channel
++ */
++ uint8_t do_split; /**< Enable split for the channel */
++ uint8_t complete_split; /**< Enable complete split */
++ uint8_t hub_addr; /**< Address of high speed hub */
++
++ uint8_t port_addr; /**< Port of the low/full speed device */
++ /** Split transaction position
++ * One of the following values:
++ * - DWC_HCSPLIT_XACTPOS_MID
++ * - DWC_HCSPLIT_XACTPOS_BEGIN
++ * - DWC_HCSPLIT_XACTPOS_END
++ * - DWC_HCSPLIT_XACTPOS_ALL */
++ uint8_t xact_pos;
++
++ /** Set when the host channel does a short read. */
++ uint8_t short_read;
++
++ /**
++ * Number of requests issued for this channel since it was assigned to
++ * the current transfer (not counting PINGs).
++ */
++ uint8_t requests;
++
++ /**
++ * Queue Head for the transfer being processed by this channel.
++ */
++ struct dwc_otg_qh *qh;
++
++ /** @} */
++
++ /** Entry in list of host channels. */
++ DWC_CIRCLEQ_ENTRY(dwc_hc) hc_list_entry;
++
++ /** @name Descriptor DMA support */
++ /** @{ */
++
++ /** Number of Transfer Descriptors */
++ uint16_t ntd;
++
++ /** Descriptor List DMA address */
++ dwc_dma_t desc_list_addr;
++
++ /** Scheduling micro-frame bitmap. */
++ uint8_t schinfo;
++
++ /** @} */
++} dwc_hc_t;
++
++/**
++ * The following parameters may be specified when starting the module. These
++ * parameters define how the DWC_otg controller should be configured.
++ */
++typedef struct dwc_otg_core_params {
++ int32_t opt;
++
++ /**
++ * Specifies the OTG capabilities. The driver will automatically
++ * detect the value for this parameter if none is specified.
++ * 0 - HNP and SRP capable (default)
++ * 1 - SRP Only capable
++ * 2 - No HNP/SRP capable
++ */
++ int32_t otg_cap;
++
++ /**
++ * Specifies whether to use slave or DMA mode for accessing the data
++ * FIFOs. The driver will automatically detect the value for this
++ * parameter if none is specified.
++ * 0 - Slave
++ * 1 - DMA (default, if available)
++ */
++ int32_t dma_enable;
++
++ /**
++ * When DMA mode is enabled specifies whether to use address DMA or DMA
++ * Descriptor mode for accessing the data FIFOs in device mode. The driver
++ * will automatically detect the value for this if none is specified.
++ * 0 - address DMA
++ * 1 - DMA Descriptor(default, if available)
++ */
++ int32_t dma_desc_enable;
++ /** The DMA Burst size (applicable only for External DMA
++ * Mode). 1, 4, 8 16, 32, 64, 128, 256 (default 32)
++ */
++ int32_t dma_burst_size; /* Translate this to GAHBCFG values */
++
++ /**
++ * Specifies the maximum speed of operation in host and device mode.
++ * The actual speed depends on the speed of the attached device and
++ * the value of phy_type. The actual speed depends on the speed of the
++ * attached device.
++ * 0 - High Speed (default)
++ * 1 - Full Speed
++ */
++ int32_t speed;
++ /** Specifies whether low power mode is supported when attached
++ * to a Full Speed or Low Speed device in host mode.
++ * 0 - Don't support low power mode (default)
++ * 1 - Support low power mode
++ */
++ int32_t host_support_fs_ls_low_power;
++
++ /** Specifies the PHY clock rate in low power mode when connected to a
++ * Low Speed device in host mode. This parameter is applicable only if
++ * HOST_SUPPORT_FS_LS_LOW_POWER is enabled. If PHY_TYPE is set to FS
++ * then defaults to 6 MHZ otherwise 48 MHZ.
++ *
++ * 0 - 48 MHz
++ * 1 - 6 MHz
++ */
++ int32_t host_ls_low_power_phy_clk;
++
++ /**
++ * 0 - Use cC FIFO size parameters
++ * 1 - Allow dynamic FIFO sizing (default)
++ */
++ int32_t enable_dynamic_fifo;
++
++ /** Total number of 4-byte words in the data FIFO memory. This
++ * memory includes the Rx FIFO, non-periodic Tx FIFO, and periodic
++ * Tx FIFOs.
++ * 32 to 32768 (default 8192)
++ * Note: The total FIFO memory depth in the FPGA configuration is 8192.
++ */
++ int32_t data_fifo_size;
++
++ /** Number of 4-byte words in the Rx FIFO in device mode when dynamic
++ * FIFO sizing is enabled.
++ * 16 to 32768 (default 1064)
++ */
++ int32_t dev_rx_fifo_size;
++
++ /** Number of 4-byte words in the non-periodic Tx FIFO in device mode
++ * when dynamic FIFO sizing is enabled.
++ * 16 to 32768 (default 1024)
++ */
++ int32_t dev_nperio_tx_fifo_size;
++
++ /** Number of 4-byte words in each of the periodic Tx FIFOs in device
++ * mode when dynamic FIFO sizing is enabled.
++ * 4 to 768 (default 256)
++ */
++ uint32_t dev_perio_tx_fifo_size[MAX_PERIO_FIFOS];
++
++ /** Number of 4-byte words in the Rx FIFO in host mode when dynamic
++ * FIFO sizing is enabled.
++ * 16 to 32768 (default 1024)
++ */
++ int32_t host_rx_fifo_size;
++
++ /** Number of 4-byte words in the non-periodic Tx FIFO in host mode
++ * when Dynamic FIFO sizing is enabled in the core.
++ * 16 to 32768 (default 1024)
++ */
++ int32_t host_nperio_tx_fifo_size;
++
++ /** Number of 4-byte words in the host periodic Tx FIFO when dynamic
++ * FIFO sizing is enabled.
++ * 16 to 32768 (default 1024)
++ */
++ int32_t host_perio_tx_fifo_size;
++
++ /** The maximum transfer size supported in bytes.
++ * 2047 to 65,535 (default 65,535)
++ */
++ int32_t max_transfer_size;
++
++ /** The maximum number of packets in a transfer.
++ * 15 to 511 (default 511)
++ */
++ int32_t max_packet_count;
++
++ /** The number of host channel registers to use.
++ * 1 to 16 (default 12)
++ * Note: The FPGA configuration supports a maximum of 12 host channels.
++ */
++ int32_t host_channels;
++
++ /** The number of endpoints in addition to EP0 available for device
++ * mode operations.
++ * 1 to 15 (default 6 IN and OUT)
++ * Note: The FPGA configuration supports a maximum of 6 IN and OUT
++ * endpoints in addition to EP0.
++ */
++ int32_t dev_endpoints;
++
++ /**
++ * Specifies the type of PHY interface to use. By default, the driver
++ * will automatically detect the phy_type.
++ *
++ * 0 - Full Speed PHY
++ * 1 - UTMI+ (default)
++ * 2 - ULPI
++ */
++ int32_t phy_type;
++
++ /**
++ * Specifies the UTMI+ Data Width. This parameter is
++ * applicable for a PHY_TYPE of UTMI+ or ULPI. (For a ULPI
++ * PHY_TYPE, this parameter indicates the data width between
++ * the MAC and the ULPI Wrapper.) Also, this parameter is
++ * applicable only if the OTG_HSPHY_WIDTH cC parameter was set
++ * to "8 and 16 bits", meaning that the core has been
++ * configured to work at either data path width.
++ *
++ * 8 or 16 bits (default 16)
++ */
++ int32_t phy_utmi_width;
++
++ /**
++ * Specifies whether the ULPI operates at double or single
++ * data rate. This parameter is only applicable if PHY_TYPE is
++ * ULPI.
++ *
++ * 0 - single data rate ULPI interface with 8 bit wide data
++ * bus (default)
++ * 1 - double data rate ULPI interface with 4 bit wide data
++ * bus
++ */
++ int32_t phy_ulpi_ddr;
++
++ /**
++ * Specifies whether to use the internal or external supply to
++ * drive the vbus with a ULPI phy.
++ */
++ int32_t phy_ulpi_ext_vbus;
++
++ /**
++ * Specifies whether to use the I2Cinterface for full speed PHY. This
++ * parameter is only applicable if PHY_TYPE is FS.
++ * 0 - No (default)
++ * 1 - Yes
++ */
++ int32_t i2c_enable;
++
++ int32_t ulpi_fs_ls;
++
++ int32_t ts_dline;
++
++ /**
++ * Specifies whether dedicated transmit FIFOs are
++ * enabled for non periodic IN endpoints in device mode
++ * 0 - No
++ * 1 - Yes
++ */
++ int32_t en_multiple_tx_fifo;
++
++ /** Number of 4-byte words in each of the Tx FIFOs in device
++ * mode when dynamic FIFO sizing is enabled.
++ * 4 to 768 (default 256)
++ */
++ uint32_t dev_tx_fifo_size[MAX_TX_FIFOS];
++
++ /** Thresholding enable flag-
++ * bit 0 - enable non-ISO Tx thresholding
++ * bit 1 - enable ISO Tx thresholding
++ * bit 2 - enable Rx thresholding
++ */
++ uint32_t thr_ctl;
++
++ /** Thresholding length for Tx
++ * FIFOs in 32 bit DWORDs
++ */
++ uint32_t tx_thr_length;
++
++ /** Thresholding length for Rx
++ * FIFOs in 32 bit DWORDs
++ */
++ uint32_t rx_thr_length;
++
++ /**
++ * Specifies whether LPM (Link Power Management) support is enabled
++ */
++ int32_t lpm_enable;
++
++ /** Per Transfer Interrupt
++ * mode enable flag
++ * 1 - Enabled
++ * 0 - Disabled
++ */
++ int32_t pti_enable;
++
++ /** Multi Processor Interrupt
++ * mode enable flag
++ * 1 - Enabled
++ * 0 - Disabled
++ */
++ int32_t mpi_enable;
++
++ /** IS_USB Capability
++ * 1 - Enabled
++ * 0 - Disabled
++ */
++ int32_t ic_usb_cap;
++
++ /** AHB Threshold Ratio
++ * 2'b00 AHB Threshold = MAC Threshold
++ * 2'b01 AHB Threshold = 1/2 MAC Threshold
++ * 2'b10 AHB Threshold = 1/4 MAC Threshold
++ * 2'b11 AHB Threshold = 1/8 MAC Threshold
++ */
++ int32_t ahb_thr_ratio;
++
++ /** ADP Support
++ * 1 - Enabled
++ * 0 - Disabled
++ */
++ int32_t adp_supp_enable;
++
++ /** HFIR Reload Control
++ * 0 - The HFIR cannot be reloaded dynamically.
++ * 1 - Allow dynamic reloading of the HFIR register during runtime.
++ */
++ int32_t reload_ctl;
++
++ /** DCFG: Enable device Out NAK
++ * 0 - The core does not set NAK after Bulk Out transfer complete.
++ * 1 - The core sets NAK after Bulk OUT transfer complete.
++ */
++ int32_t dev_out_nak;
++
++ /** DCFG: Enable Continue on BNA
++ * After receiving BNA interrupt the core disables the endpoint,when the
++ * endpoint is re-enabled by the application the core starts processing
++ * 0 - from the DOEPDMA descriptor
++ * 1 - from the descriptor which received the BNA.
++ */
++ int32_t cont_on_bna;
++
++ /** GAHBCFG: AHB Single Support
++ * This bit when programmed supports SINGLE transfers for remainder
++ * data in a transfer for DMA mode of operation.
++ * 0 - in this case the remainder data will be sent using INCR burst size.
++ * 1 - in this case the remainder data will be sent using SINGLE burst size.
++ */
++ int32_t ahb_single;
++
++ /** Core Power down mode
++ * 0 - No Power Down is enabled
++ * 1 - Reserved
++ * 2 - Complete Power Down (Hibernation)
++ */
++ int32_t power_down;
++
++ /** OTG revision supported
++ * 0 - OTG 1.3 revision
++ * 1 - OTG 2.0 revision
++ */
++ int32_t otg_ver;
++
++} dwc_otg_core_params_t;
++
++#ifdef DEBUG
++struct dwc_otg_core_if;
++typedef struct hc_xfer_info {
++ struct dwc_otg_core_if *core_if;
++ dwc_hc_t *hc;
++} hc_xfer_info_t;
++#endif
++
++typedef struct ep_xfer_info {
++ struct dwc_otg_core_if *core_if;
++ dwc_ep_t *ep;
++ uint8_t state;
++} ep_xfer_info_t;
++/*
++ * Device States
++ */
++typedef enum dwc_otg_lx_state {
++ /** On state */
++ DWC_OTG_L0,
++ /** LPM sleep state*/
++ DWC_OTG_L1,
++ /** USB suspend state*/
++ DWC_OTG_L2,
++ /** Off state*/
++ DWC_OTG_L3
++} dwc_otg_lx_state_e;
++
++struct dwc_otg_global_regs_backup {
++ uint32_t gotgctl_local;
++ uint32_t gintmsk_local;
++ uint32_t gahbcfg_local;
++ uint32_t gusbcfg_local;
++ uint32_t grxfsiz_local;
++ uint32_t gnptxfsiz_local;
++#ifdef CONFIG_USB_DWC_OTG_LPM
++ uint32_t glpmcfg_local;
++#endif
++ uint32_t gi2cctl_local;
++ uint32_t hptxfsiz_local;
++ uint32_t pcgcctl_local;
++ uint32_t gdfifocfg_local;
++ uint32_t dtxfsiz_local[MAX_EPS_CHANNELS];
++ uint32_t gpwrdn_local;
++ uint32_t xhib_pcgcctl;
++ uint32_t xhib_gpwrdn;
++};
++
++struct dwc_otg_host_regs_backup {
++ uint32_t hcfg_local;
++ uint32_t haintmsk_local;
++ uint32_t hcintmsk_local[MAX_EPS_CHANNELS];
++ uint32_t hprt0_local;
++ uint32_t hfir_local;
++};
++
++struct dwc_otg_dev_regs_backup {
++ uint32_t dcfg;
++ uint32_t dctl;
++ uint32_t daintmsk;
++ uint32_t diepmsk;
++ uint32_t doepmsk;
++ uint32_t diepctl[MAX_EPS_CHANNELS];
++ uint32_t dieptsiz[MAX_EPS_CHANNELS];
++ uint32_t diepdma[MAX_EPS_CHANNELS];
++};
++/**
++ * The <code>dwc_otg_core_if</code> structure contains information needed to manage
++ * the DWC_otg controller acting in either host or device mode. It
++ * represents the programming view of the controller as a whole.
++ */
++struct dwc_otg_core_if {
++ /** Parameters that define how the core should be configured.*/
++ dwc_otg_core_params_t *core_params;
++
++ /** Core Global registers starting at offset 000h. */
++ dwc_otg_core_global_regs_t *core_global_regs;
++
++ /** Device-specific information */
++ dwc_otg_dev_if_t *dev_if;
++ /** Host-specific information */
++ dwc_otg_host_if_t *host_if;
++
++ /** Value from SNPSID register */
++ uint32_t snpsid;
++
++ /*
++ * Set to 1 if the core PHY interface bits in USBCFG have been
++ * initialized.
++ */
++ uint8_t phy_init_done;
++
++ /*
++ * SRP Success flag, set by srp success interrupt in FS I2C mode
++ */
++ uint8_t srp_success;
++ uint8_t srp_timer_started;
++ /** Timer for SRP. If it expires before SRP is successful
++ * clear the SRP. */
++ dwc_timer_t *srp_timer;
++
++#ifdef DWC_DEV_SRPCAP
++ /* This timer is needed to power on the hibernated host core if SRP is not
++ * initiated on connected SRP capable device for limited period of time
++ */
++ uint8_t pwron_timer_started;
++ dwc_timer_t *pwron_timer;
++#endif
++ /* Common configuration information */
++ /** Power and Clock Gating Control Register */
++ volatile uint32_t *pcgcctl;
++#define DWC_OTG_PCGCCTL_OFFSET 0xE00
++
++ /** Push/pop addresses for endpoints or host channels.*/
++ uint32_t *data_fifo[MAX_EPS_CHANNELS];
++#define DWC_OTG_DATA_FIFO_OFFSET 0x1000
++#define DWC_OTG_DATA_FIFO_SIZE 0x1000
++
++ /** Total RAM for FIFOs (Bytes) */
++ uint16_t total_fifo_size;
++ /** Size of Rx FIFO (Bytes) */
++ uint16_t rx_fifo_size;
++ /** Size of Non-periodic Tx FIFO (Bytes) */
++ uint16_t nperio_tx_fifo_size;
++
++ /** 1 if DMA is enabled, 0 otherwise. */
++ uint8_t dma_enable;
++
++ /** 1 if DMA descriptor is enabled, 0 otherwise. */
++ uint8_t dma_desc_enable;
++
++ /** 1 if PTI Enhancement mode is enabled, 0 otherwise. */
++ uint8_t pti_enh_enable;
++
++ /** 1 if MPI Enhancement mode is enabled, 0 otherwise. */
++ uint8_t multiproc_int_enable;
++
++ /** 1 if dedicated Tx FIFOs are enabled, 0 otherwise. */
++ uint8_t en_multiple_tx_fifo;
++
++ /** Set to 1 if multiple packets of a high-bandwidth transfer is in
++ * process of being queued */
++ uint8_t queuing_high_bandwidth;
++
++ /** Hardware Configuration -- stored here for convenience.*/
++ hwcfg1_data_t hwcfg1;
++ hwcfg2_data_t hwcfg2;
++ hwcfg3_data_t hwcfg3;
++ hwcfg4_data_t hwcfg4;
++ fifosize_data_t hptxfsiz;
++
++ /** Host and Device Configuration -- stored here for convenience.*/
++ hcfg_data_t hcfg;
++ dcfg_data_t dcfg;
++
++ /** The operational State, during transations
++ * (a_host>>a_peripherial and b_device=>b_host) this may not
++ * match the core but allows the software to determine
++ * transitions.
++ */
++ uint8_t op_state;
++
++ /**
++ * Set to 1 if the HCD needs to be restarted on a session request
++ * interrupt. This is required if no connector ID status change has
++ * occurred since the HCD was last disconnected.
++ */
++ uint8_t restart_hcd_on_session_req;
++
++ /** HCD callbacks */
++ /** A-Device is a_host */
++#define A_HOST (1)
++ /** A-Device is a_suspend */
++#define A_SUSPEND (2)
++ /** A-Device is a_peripherial */
++#define A_PERIPHERAL (3)
++ /** B-Device is operating as a Peripheral. */
++#define B_PERIPHERAL (4)
++ /** B-Device is operating as a Host. */
++#define B_HOST (5)
++
++ /** HCD callbacks */
++ struct dwc_otg_cil_callbacks *hcd_cb;
++ /** PCD callbacks */
++ struct dwc_otg_cil_callbacks *pcd_cb;
++
++ /** Device mode Periodic Tx FIFO Mask */
++ uint32_t p_tx_msk;
++ /** Device mode Periodic Tx FIFO Mask */
++ uint32_t tx_msk;
++
++ /** Workqueue object used for handling several interrupts */
++ dwc_workq_t *wq_otg;
++
++ /** Timer object used for handling "Wakeup Detected" Interrupt */
++ dwc_timer_t *wkp_timer;
++ /** This arrays used for debug purposes for DEV OUT NAK enhancement */
++ uint32_t start_doeptsiz_val[MAX_EPS_CHANNELS];
++ ep_xfer_info_t ep_xfer_info[MAX_EPS_CHANNELS];
++ dwc_timer_t *ep_xfer_timer[MAX_EPS_CHANNELS];
++#ifdef DEBUG
++ uint32_t start_hcchar_val[MAX_EPS_CHANNELS];
++
++ hc_xfer_info_t hc_xfer_info[MAX_EPS_CHANNELS];
++ dwc_timer_t *hc_xfer_timer[MAX_EPS_CHANNELS];
++
++ uint32_t hfnum_7_samples;
++ uint64_t hfnum_7_frrem_accum;
++ uint32_t hfnum_0_samples;
++ uint64_t hfnum_0_frrem_accum;
++ uint32_t hfnum_other_samples;
++ uint64_t hfnum_other_frrem_accum;
++#endif
++
++#ifdef DWC_UTE_CFI
++ uint16_t pwron_rxfsiz;
++ uint16_t pwron_gnptxfsiz;
++ uint16_t pwron_txfsiz[15];
++
++ uint16_t init_rxfsiz;
++ uint16_t init_gnptxfsiz;
++ uint16_t init_txfsiz[15];
++#endif
++
++ /** Lx state of device */
++ dwc_otg_lx_state_e lx_state;
++
++ /** Saved Core Global registers */
++ struct dwc_otg_global_regs_backup *gr_backup;
++ /** Saved Host registers */
++ struct dwc_otg_host_regs_backup *hr_backup;
++ /** Saved Device registers */
++ struct dwc_otg_dev_regs_backup *dr_backup;
++
++ /** Power Down Enable */
++ uint32_t power_down;
++
++ /** ADP support Enable */
++ uint32_t adp_enable;
++
++ /** ADP structure object */
++ dwc_otg_adp_t adp;
++
++ /** hibernation/suspend flag */
++ int hibernation_suspend;
++
++ /** Device mode extended hibernation flag */
++ int xhib;
++
++ /** OTG revision supported */
++ uint32_t otg_ver;
++
++ /** OTG status flag used for HNP polling */
++ uint8_t otg_sts;
++
++ /** Pointer to either hcd->lock or pcd->lock */
++ dwc_spinlock_t *lock;
++
++ /** Start predict NextEP based on Learning Queue if equal 1,
++ * also used as counter of disabled NP IN EP's */
++ uint8_t start_predict;
++
++ /** NextEp sequence, including EP0: nextep_seq[] = EP if non-periodic and
++ * active, 0xff otherwise */
++ uint8_t nextep_seq[MAX_EPS_CHANNELS];
++
++ /** Index of fisrt EP in nextep_seq array which should be re-enabled **/
++ uint8_t first_in_nextep_seq;
++
++ /** Frame number while entering to ISR - needed for ISOCs **/
++ uint32_t frame_num;
++
++};
++
++#ifdef DEBUG
++/*
++ * This function is called when transfer is timed out.
++ */
++extern void hc_xfer_timeout(void *ptr);
++#endif
++
++/*
++ * This function is called when transfer is timed out on endpoint.
++ */
++extern void ep_xfer_timeout(void *ptr);
++
++/*
++ * The following functions are functions for works
++ * using during handling some interrupts
++ */
++extern void w_conn_id_status_change(void *p);
++
++extern void w_wakeup_detected(void *p);
++
++/** Saves global register values into system memory. */
++extern int dwc_otg_save_global_regs(dwc_otg_core_if_t * core_if);
++/** Saves device register values into system memory. */
++extern int dwc_otg_save_dev_regs(dwc_otg_core_if_t * core_if);
++/** Saves host register values into system memory. */
++extern int dwc_otg_save_host_regs(dwc_otg_core_if_t * core_if);
++/** Restore global register values. */
++extern int dwc_otg_restore_global_regs(dwc_otg_core_if_t * core_if);
++/** Restore host register values. */
++extern int dwc_otg_restore_host_regs(dwc_otg_core_if_t * core_if, int reset);
++/** Restore device register values. */
++extern int dwc_otg_restore_dev_regs(dwc_otg_core_if_t * core_if,
++ int rem_wakeup);
++extern int restore_lpm_i2c_regs(dwc_otg_core_if_t * core_if);
++extern int restore_essential_regs(dwc_otg_core_if_t * core_if, int rmode,
++ int is_host);
++
++extern int dwc_otg_host_hibernation_restore(dwc_otg_core_if_t * core_if,
++ int restore_mode, int reset);
++extern int dwc_otg_device_hibernation_restore(dwc_otg_core_if_t * core_if,
++ int rem_wakeup, int reset);
++
++/*
++ * The following functions support initialization of the CIL driver component
++ * and the DWC_otg controller.
++ */
++extern void dwc_otg_core_host_init(dwc_otg_core_if_t * _core_if);
++extern void dwc_otg_core_dev_init(dwc_otg_core_if_t * _core_if);
++
++/** @name Device CIL Functions
++ * The following functions support managing the DWC_otg controller in device
++ * mode.
++ */
++/**@{*/
++extern void dwc_otg_wakeup(dwc_otg_core_if_t * _core_if);
++extern void dwc_otg_read_setup_packet(dwc_otg_core_if_t * _core_if,
++ uint32_t * _dest);
++extern uint32_t dwc_otg_get_frame_number(dwc_otg_core_if_t * _core_if);
++extern void dwc_otg_ep0_activate(dwc_otg_core_if_t * _core_if, dwc_ep_t * _ep);
++extern void dwc_otg_ep_activate(dwc_otg_core_if_t * _core_if, dwc_ep_t * _ep);
++extern void dwc_otg_ep_deactivate(dwc_otg_core_if_t * _core_if, dwc_ep_t * _ep);
++extern void dwc_otg_ep_start_transfer(dwc_otg_core_if_t * _core_if,
++ dwc_ep_t * _ep);
++extern void dwc_otg_ep_start_zl_transfer(dwc_otg_core_if_t * _core_if,
++ dwc_ep_t * _ep);
++extern void dwc_otg_ep0_start_transfer(dwc_otg_core_if_t * _core_if,
++ dwc_ep_t * _ep);
++extern void dwc_otg_ep0_continue_transfer(dwc_otg_core_if_t * _core_if,
++ dwc_ep_t * _ep);
++extern void dwc_otg_ep_write_packet(dwc_otg_core_if_t * _core_if,
++ dwc_ep_t * _ep, int _dma);
++extern void dwc_otg_ep_set_stall(dwc_otg_core_if_t * _core_if, dwc_ep_t * _ep);
++extern void dwc_otg_ep_clear_stall(dwc_otg_core_if_t * _core_if,
++ dwc_ep_t * _ep);
++extern void dwc_otg_enable_device_interrupts(dwc_otg_core_if_t * _core_if);
++
++#ifdef DWC_EN_ISOC
++extern void dwc_otg_iso_ep_start_frm_transfer(dwc_otg_core_if_t * core_if,
++ dwc_ep_t * ep);
++extern void dwc_otg_iso_ep_start_buf_transfer(dwc_otg_core_if_t * core_if,
++ dwc_ep_t * ep);
++#endif /* DWC_EN_ISOC */
++/**@}*/
++
++/** @name Host CIL Functions
++ * The following functions support managing the DWC_otg controller in host
++ * mode.
++ */
++/**@{*/
++extern void dwc_otg_hc_init(dwc_otg_core_if_t * _core_if, dwc_hc_t * _hc);
++extern void dwc_otg_hc_halt(dwc_otg_core_if_t * _core_if,
++ dwc_hc_t * _hc, dwc_otg_halt_status_e _halt_status);
++extern void dwc_otg_hc_cleanup(dwc_otg_core_if_t * _core_if, dwc_hc_t * _hc);
++extern void dwc_otg_hc_start_transfer(dwc_otg_core_if_t * _core_if,
++ dwc_hc_t * _hc);
++extern int dwc_otg_hc_continue_transfer(dwc_otg_core_if_t * _core_if,
++ dwc_hc_t * _hc);
++extern void dwc_otg_hc_do_ping(dwc_otg_core_if_t * _core_if, dwc_hc_t * _hc);
++extern void dwc_otg_hc_write_packet(dwc_otg_core_if_t * _core_if,
++ dwc_hc_t * _hc);
++extern void dwc_otg_enable_host_interrupts(dwc_otg_core_if_t * _core_if);
++extern void dwc_otg_disable_host_interrupts(dwc_otg_core_if_t * _core_if);
++
++extern void dwc_otg_hc_start_transfer_ddma(dwc_otg_core_if_t * core_if,
++ dwc_hc_t * hc);
++
++extern uint32_t calc_frame_interval(dwc_otg_core_if_t * core_if);
++
++/* Macro used to clear one channel interrupt */
++#define clear_hc_int(_hc_regs_, _intr_) \
++do { \
++ hcint_data_t hcint_clear = {.d32 = 0}; \
++ hcint_clear.b._intr_ = 1; \
++ DWC_WRITE_REG32(&(_hc_regs_)->hcint, hcint_clear.d32); \
++} while (0)
++
++/*
++ * Macro used to disable one channel interrupt. Channel interrupts are
++ * disabled when the channel is halted or released by the interrupt handler.
++ * There is no need to handle further interrupts of that type until the
++ * channel is re-assigned. In fact, subsequent handling may cause crashes
++ * because the channel structures are cleaned up when the channel is released.
++ */
++#define disable_hc_int(_hc_regs_, _intr_) \
++do { \
++ hcintmsk_data_t hcintmsk = {.d32 = 0}; \
++ hcintmsk.b._intr_ = 1; \
++ DWC_MODIFY_REG32(&(_hc_regs_)->hcintmsk, hcintmsk.d32, 0); \
++} while (0)
++
++/**
++ * This function Reads HPRT0 in preparation to modify. It keeps the
++ * WC bits 0 so that if they are read as 1, they won't clear when you
++ * write it back
++ */
++static inline uint32_t dwc_otg_read_hprt0(dwc_otg_core_if_t * _core_if)
++{
++ hprt0_data_t hprt0;
++ hprt0.d32 = DWC_READ_REG32(_core_if->host_if->hprt0);
++ hprt0.b.prtena = 0;
++ hprt0.b.prtconndet = 0;
++ hprt0.b.prtenchng = 0;
++ hprt0.b.prtovrcurrchng = 0;
++ return hprt0.d32;
++}
++
++/**@}*/
++
++/** @name Common CIL Functions
++ * The following functions support managing the DWC_otg controller in either
++ * device or host mode.
++ */
++/**@{*/
++
++extern void dwc_otg_read_packet(dwc_otg_core_if_t * core_if,
++ uint8_t * dest, uint16_t bytes);
++
++extern void dwc_otg_flush_tx_fifo(dwc_otg_core_if_t * _core_if, const int _num);
++extern void dwc_otg_flush_rx_fifo(dwc_otg_core_if_t * _core_if);
++extern void dwc_otg_core_reset(dwc_otg_core_if_t * _core_if);
++
++/**
++ * This function returns the Core Interrupt register.
++ */
++static inline uint32_t dwc_otg_read_core_intr(dwc_otg_core_if_t * core_if)
++{
++ return (DWC_READ_REG32(&core_if->core_global_regs->gintsts) &
++ DWC_READ_REG32(&core_if->core_global_regs->gintmsk));
++}
++
++/**
++ * This function returns the OTG Interrupt register.
++ */
++static inline uint32_t dwc_otg_read_otg_intr(dwc_otg_core_if_t * core_if)
++{
++ return (DWC_READ_REG32(&core_if->core_global_regs->gotgint));
++}
++
++/**
++ * This function reads the Device All Endpoints Interrupt register and
++ * returns the IN endpoint interrupt bits.
++ */
++static inline uint32_t dwc_otg_read_dev_all_in_ep_intr(dwc_otg_core_if_t *
++ core_if)
++{
++
++ uint32_t v;
++
++ if (core_if->multiproc_int_enable) {
++ v = DWC_READ_REG32(&core_if->dev_if->
++ dev_global_regs->deachint) &
++ DWC_READ_REG32(&core_if->
++ dev_if->dev_global_regs->deachintmsk);
++ } else {
++ v = DWC_READ_REG32(&core_if->dev_if->dev_global_regs->daint) &
++ DWC_READ_REG32(&core_if->dev_if->dev_global_regs->daintmsk);
++ }
++ return (v & 0xffff);
++}
++
++/**
++ * This function reads the Device All Endpoints Interrupt register and
++ * returns the OUT endpoint interrupt bits.
++ */
++static inline uint32_t dwc_otg_read_dev_all_out_ep_intr(dwc_otg_core_if_t *
++ core_if)
++{
++ uint32_t v;
++
++ if (core_if->multiproc_int_enable) {
++ v = DWC_READ_REG32(&core_if->dev_if->
++ dev_global_regs->deachint) &
++ DWC_READ_REG32(&core_if->
++ dev_if->dev_global_regs->deachintmsk);
++ } else {
++ v = DWC_READ_REG32(&core_if->dev_if->dev_global_regs->daint) &
++ DWC_READ_REG32(&core_if->dev_if->dev_global_regs->daintmsk);
++ }
++
++ return ((v & 0xffff0000) >> 16);
++}
++
++/**
++ * This function returns the Device IN EP Interrupt register
++ */
++static inline uint32_t dwc_otg_read_dev_in_ep_intr(dwc_otg_core_if_t * core_if,
++ dwc_ep_t * ep)
++{
++ dwc_otg_dev_if_t *dev_if = core_if->dev_if;
++ uint32_t v, msk, emp;
++
++ if (core_if->multiproc_int_enable) {
++ msk =
++ DWC_READ_REG32(&dev_if->
++ dev_global_regs->diepeachintmsk[ep->num]);
++ emp =
++ DWC_READ_REG32(&dev_if->
++ dev_global_regs->dtknqr4_fifoemptymsk);
++ msk |= ((emp >> ep->num) & 0x1) << 7;
++ v = DWC_READ_REG32(&dev_if->in_ep_regs[ep->num]->diepint) & msk;
++ } else {
++ msk = DWC_READ_REG32(&dev_if->dev_global_regs->diepmsk);
++ emp =
++ DWC_READ_REG32(&dev_if->
++ dev_global_regs->dtknqr4_fifoemptymsk);
++ msk |= ((emp >> ep->num) & 0x1) << 7;
++ v = DWC_READ_REG32(&dev_if->in_ep_regs[ep->num]->diepint) & msk;
++ }
++
++ return v;
++}
++
++/**
++ * This function returns the Device OUT EP Interrupt register
++ */
++static inline uint32_t dwc_otg_read_dev_out_ep_intr(dwc_otg_core_if_t *
++ _core_if, dwc_ep_t * _ep)
++{
++ dwc_otg_dev_if_t *dev_if = _core_if->dev_if;
++ uint32_t v;
++ doepmsk_data_t msk = {.d32 = 0 };
++
++ if (_core_if->multiproc_int_enable) {
++ msk.d32 =
++ DWC_READ_REG32(&dev_if->
++ dev_global_regs->doepeachintmsk[_ep->num]);
++ if (_core_if->pti_enh_enable) {
++ msk.b.pktdrpsts = 1;
++ }
++ v = DWC_READ_REG32(&dev_if->
++ out_ep_regs[_ep->num]->doepint) & msk.d32;
++ } else {
++ msk.d32 = DWC_READ_REG32(&dev_if->dev_global_regs->doepmsk);
++ if (_core_if->pti_enh_enable) {
++ msk.b.pktdrpsts = 1;
++ }
++ v = DWC_READ_REG32(&dev_if->
++ out_ep_regs[_ep->num]->doepint) & msk.d32;
++ }
++ return v;
++}
++
++/**
++ * This function returns the Host All Channel Interrupt register
++ */
++static inline uint32_t dwc_otg_read_host_all_channels_intr(dwc_otg_core_if_t *
++ _core_if)
++{
++ return (DWC_READ_REG32(&_core_if->host_if->host_global_regs->haint));
++}
++
++static inline uint32_t dwc_otg_read_host_channel_intr(dwc_otg_core_if_t *
++ _core_if, dwc_hc_t * _hc)
++{
++ return (DWC_READ_REG32
++ (&_core_if->host_if->hc_regs[_hc->hc_num]->hcint));
++}
++
++/**
++ * This function returns the mode of the operation, host or device.
++ *
++ * @return 0 - Device Mode, 1 - Host Mode
++ */
++static inline uint32_t dwc_otg_mode(dwc_otg_core_if_t * _core_if)
++{
++ return (DWC_READ_REG32(&_core_if->core_global_regs->gintsts) & 0x1);
++}
++
++/**@}*/
++
++/**
++ * DWC_otg CIL callback structure. This structure allows the HCD and
++ * PCD to register functions used for starting and stopping the PCD
++ * and HCD for role change on for a DRD.
++ */
++typedef struct dwc_otg_cil_callbacks {
++ /** Start function for role change */
++ int (*start) (void *_p);
++ /** Stop Function for role change */
++ int (*stop) (void *_p);
++ /** Disconnect Function for role change */
++ int (*disconnect) (void *_p);
++ /** Resume/Remote wakeup Function */
++ int (*resume_wakeup) (void *_p);
++ /** Suspend function */
++ int (*suspend) (void *_p);
++ /** Session Start (SRP) */
++ int (*session_start) (void *_p);
++#ifdef CONFIG_USB_DWC_OTG_LPM
++ /** Sleep (switch to L0 state) */
++ int (*sleep) (void *_p);
++#endif
++ /** Pointer passed to start() and stop() */
++ void *p;
++} dwc_otg_cil_callbacks_t;
++
++extern void dwc_otg_cil_register_pcd_callbacks(dwc_otg_core_if_t * _core_if,
++ dwc_otg_cil_callbacks_t * _cb,
++ void *_p);
++extern void dwc_otg_cil_register_hcd_callbacks(dwc_otg_core_if_t * _core_if,
++ dwc_otg_cil_callbacks_t * _cb,
++ void *_p);
++
++void dwc_otg_initiate_srp(dwc_otg_core_if_t * core_if);
++
++//////////////////////////////////////////////////////////////////////
++/** Start the HCD. Helper function for using the HCD callbacks.
++ *
++ * @param core_if Programming view of DWC_otg controller.
++ */
++static inline void cil_hcd_start(dwc_otg_core_if_t * core_if)
++{
++ if (core_if->hcd_cb && core_if->hcd_cb->start) {
++ core_if->hcd_cb->start(core_if->hcd_cb->p);
++ }
++}
++
++/** Stop the HCD. Helper function for using the HCD callbacks.
++ *
++ * @param core_if Programming view of DWC_otg controller.
++ */
++static inline void cil_hcd_stop(dwc_otg_core_if_t * core_if)
++{
++ if (core_if->hcd_cb && core_if->hcd_cb->stop) {
++ core_if->hcd_cb->stop(core_if->hcd_cb->p);
++ }
++}
++
++/** Disconnect the HCD. Helper function for using the HCD callbacks.
++ *
++ * @param core_if Programming view of DWC_otg controller.
++ */
++static inline void cil_hcd_disconnect(dwc_otg_core_if_t * core_if)
++{
++ if (core_if->hcd_cb && core_if->hcd_cb->disconnect) {
++ core_if->hcd_cb->disconnect(core_if->hcd_cb->p);
++ }
++}
++
++/** Inform the HCD the a New Session has begun. Helper function for
++ * using the HCD callbacks.
++ *
++ * @param core_if Programming view of DWC_otg controller.
++ */
++static inline void cil_hcd_session_start(dwc_otg_core_if_t * core_if)
++{
++ if (core_if->hcd_cb && core_if->hcd_cb->session_start) {
++ core_if->hcd_cb->session_start(core_if->hcd_cb->p);
++ }
++}
++
++#ifdef CONFIG_USB_DWC_OTG_LPM
++/**
++ * Inform the HCD about LPM sleep.
++ * Helper function for using the HCD callbacks.
++ *
++ * @param core_if Programming view of DWC_otg controller.
++ */
++static inline void cil_hcd_sleep(dwc_otg_core_if_t * core_if)
++{
++ if (core_if->hcd_cb && core_if->hcd_cb->sleep) {
++ core_if->hcd_cb->sleep(core_if->hcd_cb->p);
++ }
++}
++#endif
++
++/** Resume the HCD. Helper function for using the HCD callbacks.
++ *
++ * @param core_if Programming view of DWC_otg controller.
++ */
++static inline void cil_hcd_resume(dwc_otg_core_if_t * core_if)
++{
++ if (core_if->hcd_cb && core_if->hcd_cb->resume_wakeup) {
++ core_if->hcd_cb->resume_wakeup(core_if->hcd_cb->p);
++ }
++}
++
++/** Start the PCD. Helper function for using the PCD callbacks.
++ *
++ * @param core_if Programming view of DWC_otg controller.
++ */
++static inline void cil_pcd_start(dwc_otg_core_if_t * core_if)
++{
++ if (core_if->pcd_cb && core_if->pcd_cb->start) {
++ core_if->pcd_cb->start(core_if->pcd_cb->p);
++ }
++}
++
++/** Stop the PCD. Helper function for using the PCD callbacks.
++ *
++ * @param core_if Programming view of DWC_otg controller.
++ */
++static inline void cil_pcd_stop(dwc_otg_core_if_t * core_if)
++{
++ if (core_if->pcd_cb && core_if->pcd_cb->stop) {
++ core_if->pcd_cb->stop(core_if->pcd_cb->p);
++ }
++}
++
++/** Suspend the PCD. Helper function for using the PCD callbacks.
++ *
++ * @param core_if Programming view of DWC_otg controller.
++ */
++static inline void cil_pcd_suspend(dwc_otg_core_if_t * core_if)
++{
++ if (core_if->pcd_cb && core_if->pcd_cb->suspend) {
++ core_if->pcd_cb->suspend(core_if->pcd_cb->p);
++ }
++}
++
++/** Resume the PCD. Helper function for using the PCD callbacks.
++ *
++ * @param core_if Programming view of DWC_otg controller.
++ */
++static inline void cil_pcd_resume(dwc_otg_core_if_t * core_if)
++{
++ if (core_if->pcd_cb && core_if->pcd_cb->resume_wakeup) {
++ core_if->pcd_cb->resume_wakeup(core_if->pcd_cb->p);
++ }
++}
++
++//////////////////////////////////////////////////////////////////////
++
++#endif
+diff -urN linux-3.10/drivers/usb/host/dwc_otg/dwc_otg_cil_intr.c linux-rpi-3.10.y/drivers/usb/host/dwc_otg/dwc_otg_cil_intr.c
+--- linux-3.10/drivers/usb/host/dwc_otg/dwc_otg_cil_intr.c 1970-01-01 01:00:00.000000000 +0100
++++ linux-rpi-3.10.y/drivers/usb/host/dwc_otg/dwc_otg_cil_intr.c 2013-07-06 15:25:50.000000000 +0100
+@@ -0,0 +1,1571 @@
++/* ==========================================================================
++ * $File: //dwh/usb_iip/dev/software/otg/linux/drivers/dwc_otg_cil_intr.c $
++ * $Revision: #32 $
++ * $Date: 2012/08/10 $
++ * $Change: 2047372 $
++ *
++ * Synopsys HS OTG Linux Software Driver and documentation (hereinafter,
++ * "Software") is an Unsupported proprietary work of Synopsys, Inc. unless
++ * otherwise expressly agreed to in writing between Synopsys and you.
++ *
++ * The Software IS NOT an item of Licensed Software or Licensed Product under
++ * any End User Software License Agreement or Agreement for Licensed Product
++ * with Synopsys or any supplement thereto. You are permitted to use and
++ * redistribute this Software in source and binary forms, with or without
++ * modification, provided that redistributions of source code must retain this
++ * notice. You may not view, use, disclose, copy or distribute this file or
++ * any information contained herein except pursuant to this license grant from
++ * Synopsys. If you do not agree with this notice, including the disclaimer
++ * below, then you are not authorized to use the Software.
++ *
++ * THIS SOFTWARE IS BEING DISTRIBUTED BY SYNOPSYS SOLELY ON AN "AS IS" BASIS
++ * AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
++ * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE
++ * ARE HEREBY DISCLAIMED. IN NO EVENT SHALL SYNOPSYS BE LIABLE FOR ANY DIRECT,
++ * INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES
++ * (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR
++ * SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER
++ * CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT
++ * LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY
++ * OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH
++ * DAMAGE.
++ * ========================================================================== */
++
++/** @file
++ *
++ * The Core Interface Layer provides basic services for accessing and
++ * managing the DWC_otg hardware. These services are used by both the
++ * Host Controller Driver and the Peripheral Controller Driver.
++ *
++ * This file contains the Common Interrupt handlers.
++ */
++#include "dwc_os.h"
++#include "dwc_otg_regs.h"
++#include "dwc_otg_cil.h"
++#include "dwc_otg_driver.h"
++#include "dwc_otg_pcd.h"
++#include "dwc_otg_hcd.h"
++#include "dwc_otg_mphi_fix.h"
++
++extern bool fiq_fix_enable;
++
++#ifdef DEBUG
++inline const char *op_state_str(dwc_otg_core_if_t * core_if)
++{
++ return (core_if->op_state == A_HOST ? "a_host" :
++ (core_if->op_state == A_SUSPEND ? "a_suspend" :
++ (core_if->op_state == A_PERIPHERAL ? "a_peripheral" :
++ (core_if->op_state == B_PERIPHERAL ? "b_peripheral" :
++ (core_if->op_state == B_HOST ? "b_host" : "unknown")))));
++}
++#endif
++
++/** This function will log a debug message
++ *
++ * @param core_if Programming view of DWC_otg controller.
++ */
++int32_t dwc_otg_handle_mode_mismatch_intr(dwc_otg_core_if_t * core_if)
++{
++ gintsts_data_t gintsts;
++ DWC_WARN("Mode Mismatch Interrupt: currently in %s mode\n",
++ dwc_otg_mode(core_if) ? "Host" : "Device");
++
++ /* Clear interrupt */
++ gintsts.d32 = 0;
++ gintsts.b.modemismatch = 1;
++ DWC_WRITE_REG32(&core_if->core_global_regs->gintsts, gintsts.d32);
++ return 1;
++}
++
++/**
++ * This function handles the OTG Interrupts. It reads the OTG
++ * Interrupt Register (GOTGINT) to determine what interrupt has
++ * occurred.
++ *
++ * @param core_if Programming view of DWC_otg controller.
++ */
++int32_t dwc_otg_handle_otg_intr(dwc_otg_core_if_t * core_if)
++{
++ dwc_otg_core_global_regs_t *global_regs = core_if->core_global_regs;
++ gotgint_data_t gotgint;
++ gotgctl_data_t gotgctl;
++ gintmsk_data_t gintmsk;
++ gpwrdn_data_t gpwrdn;
++
++ gotgint.d32 = DWC_READ_REG32(&global_regs->gotgint);
++ gotgctl.d32 = DWC_READ_REG32(&global_regs->gotgctl);
++ DWC_DEBUGPL(DBG_CIL, "++OTG Interrupt gotgint=%0x [%s]\n", gotgint.d32,
++ op_state_str(core_if));
++
++ if (gotgint.b.sesenddet) {
++ DWC_DEBUGPL(DBG_ANY, " ++OTG Interrupt: "
++ "Session End Detected++ (%s)\n",
++ op_state_str(core_if));
++ gotgctl.d32 = DWC_READ_REG32(&global_regs->gotgctl);
++
++ if (core_if->op_state == B_HOST) {
++ cil_pcd_start(core_if);
++ core_if->op_state = B_PERIPHERAL;
++ } else {
++ /* If not B_HOST and Device HNP still set. HNP
++ * Did not succeed!*/
++ if (gotgctl.b.devhnpen) {
++ DWC_DEBUGPL(DBG_ANY, "Session End Detected\n");
++ __DWC_ERROR("Device Not Connected/Responding!\n");
++ }
++
++ /* If Session End Detected the B-Cable has
++ * been disconnected. */
++ /* Reset PCD and Gadget driver to a
++ * clean state. */
++ core_if->lx_state = DWC_OTG_L0;
++ DWC_SPINUNLOCK(core_if->lock);
++ cil_pcd_stop(core_if);
++ DWC_SPINLOCK(core_if->lock);
++
++ if (core_if->adp_enable) {
++ if (core_if->power_down == 2) {
++ gpwrdn.d32 = 0;
++ gpwrdn.b.pwrdnswtch = 1;
++ DWC_MODIFY_REG32(&core_if->
++ core_global_regs->
++ gpwrdn, gpwrdn.d32, 0);
++ }
++
++ gpwrdn.d32 = 0;
++ gpwrdn.b.pmuintsel = 1;
++ gpwrdn.b.pmuactv = 1;
++ DWC_MODIFY_REG32(&core_if->core_global_regs->
++ gpwrdn, 0, gpwrdn.d32);
++
++ dwc_otg_adp_sense_start(core_if);
++ }
++ }
++
++ gotgctl.d32 = 0;
++ gotgctl.b.devhnpen = 1;
++ DWC_MODIFY_REG32(&global_regs->gotgctl, gotgctl.d32, 0);
++ }
++ if (gotgint.b.sesreqsucstschng) {
++ DWC_DEBUGPL(DBG_ANY, " ++OTG Interrupt: "
++ "Session Reqeust Success Status Change++\n");
++ gotgctl.d32 = DWC_READ_REG32(&global_regs->gotgctl);
++ if (gotgctl.b.sesreqscs) {
++
++ if ((core_if->core_params->phy_type ==
++ DWC_PHY_TYPE_PARAM_FS) && (core_if->core_params->i2c_enable)) {
++ core_if->srp_success = 1;
++ } else {
++ DWC_SPINUNLOCK(core_if->lock);
++ cil_pcd_resume(core_if);
++ DWC_SPINLOCK(core_if->lock);
++ /* Clear Session Request */
++ gotgctl.d32 = 0;
++ gotgctl.b.sesreq = 1;
++ DWC_MODIFY_REG32(&global_regs->gotgctl,
++ gotgctl.d32, 0);
++ }
++ }
++ }
++ if (gotgint.b.hstnegsucstschng) {
++ /* Print statements during the HNP interrupt handling
++ * can cause it to fail.*/
++ gotgctl.d32 = DWC_READ_REG32(&global_regs->gotgctl);
++ /* WA for 3.00a- HW is not setting cur_mode, even sometimes
++ * this does not help*/
++ if (core_if->snpsid >= OTG_CORE_REV_3_00a)
++ dwc_udelay(100);
++ if (gotgctl.b.hstnegscs) {
++ if (dwc_otg_is_host_mode(core_if)) {
++ core_if->op_state = B_HOST;
++ /*
++ * Need to disable SOF interrupt immediately.
++ * When switching from device to host, the PCD
++ * interrupt handler won't handle the
++ * interrupt if host mode is already set. The
++ * HCD interrupt handler won't get called if
++ * the HCD state is HALT. This means that the
++ * interrupt does not get handled and Linux
++ * complains loudly.
++ */
++ gintmsk.d32 = 0;
++ gintmsk.b.sofintr = 1;
++ DWC_MODIFY_REG32(&global_regs->gintmsk,
++ gintmsk.d32, 0);
++ /* Call callback function with spin lock released */
++ DWC_SPINUNLOCK(core_if->lock);
++ cil_pcd_stop(core_if);
++ /*
++ * Initialize the Core for Host mode.
++ */
++ cil_hcd_start(core_if);
++ DWC_SPINLOCK(core_if->lock);
++ core_if->op_state = B_HOST;
++ }
++ } else {
++ gotgctl.d32 = 0;
++ gotgctl.b.hnpreq = 1;
++ gotgctl.b.devhnpen = 1;
++ DWC_MODIFY_REG32(&global_regs->gotgctl, gotgctl.d32, 0);
++ DWC_DEBUGPL(DBG_ANY, "HNP Failed\n");
++ __DWC_ERROR("Device Not Connected/Responding\n");
++ }
++ }
++ if (gotgint.b.hstnegdet) {
++ /* The disconnect interrupt is set at the same time as
++ * Host Negotiation Detected. During the mode
++ * switch all interrupts are cleared so the disconnect
++ * interrupt handler will not get executed.
++ */
++ DWC_DEBUGPL(DBG_ANY, " ++OTG Interrupt: "
++ "Host Negotiation Detected++ (%s)\n",
++ (dwc_otg_is_host_mode(core_if) ? "Host" :
++ "Device"));
++ if (dwc_otg_is_device_mode(core_if)) {
++ DWC_DEBUGPL(DBG_ANY, "a_suspend->a_peripheral (%d)\n",
++ core_if->op_state);
++ DWC_SPINUNLOCK(core_if->lock);
++ cil_hcd_disconnect(core_if);
++ cil_pcd_start(core_if);
++ DWC_SPINLOCK(core_if->lock);
++ core_if->op_state = A_PERIPHERAL;
++ } else {
++ /*
++ * Need to disable SOF interrupt immediately. When
++ * switching from device to host, the PCD interrupt
++ * handler won't handle the interrupt if host mode is
++ * already set. The HCD interrupt handler won't get
++ * called if the HCD state is HALT. This means that
++ * the interrupt does not get handled and Linux
++ * complains loudly.
++ */
++ gintmsk.d32 = 0;
++ gintmsk.b.sofintr = 1;
++ DWC_MODIFY_REG32(&global_regs->gintmsk, gintmsk.d32, 0);
++ DWC_SPINUNLOCK(core_if->lock);
++ cil_pcd_stop(core_if);
++ cil_hcd_start(core_if);
++ DWC_SPINLOCK(core_if->lock);
++ core_if->op_state = A_HOST;
++ }
++ }
++ if (gotgint.b.adevtoutchng) {
++ DWC_DEBUGPL(DBG_ANY, " ++OTG Interrupt: "
++ "A-Device Timeout Change++\n");
++ }
++ if (gotgint.b.debdone) {
++ DWC_DEBUGPL(DBG_ANY, " ++OTG Interrupt: " "Debounce Done++\n");
++ }
++
++ /* Clear GOTGINT */
++ DWC_WRITE_REG32(&core_if->core_global_regs->gotgint, gotgint.d32);
++
++ return 1;
++}
++
++void w_conn_id_status_change(void *p)
++{
++ dwc_otg_core_if_t *core_if = p;
++ uint32_t count = 0;
++ gotgctl_data_t gotgctl = {.d32 = 0 };
++
++ gotgctl.d32 = DWC_READ_REG32(&core_if->core_global_regs->gotgctl);
++ DWC_DEBUGPL(DBG_CIL, "gotgctl=%0x\n", gotgctl.d32);
++ DWC_DEBUGPL(DBG_CIL, "gotgctl.b.conidsts=%d\n", gotgctl.b.conidsts);
++
++ /* B-Device connector (Device Mode) */
++ if (gotgctl.b.conidsts) {
++ /* Wait for switch to device mode. */
++ while (!dwc_otg_is_device_mode(core_if)) {
++ DWC_PRINTF("Waiting for Peripheral Mode, Mode=%s\n",
++ (dwc_otg_is_host_mode(core_if) ? "Host" :
++ "Peripheral"));
++ dwc_mdelay(100);
++ if (++count > 10000)
++ break;
++ }
++ DWC_ASSERT(++count < 10000,
++ "Connection id status change timed out");
++ core_if->op_state = B_PERIPHERAL;
++ dwc_otg_core_init(core_if);
++ dwc_otg_enable_global_interrupts(core_if);
++ cil_pcd_start(core_if);
++ } else {
++ /* A-Device connector (Host Mode) */
++ while (!dwc_otg_is_host_mode(core_if)) {
++ DWC_PRINTF("Waiting for Host Mode, Mode=%s\n",
++ (dwc_otg_is_host_mode(core_if) ? "Host" :
++ "Peripheral"));
++ dwc_mdelay(100);
++ if (++count > 10000)
++ break;
++ }
++ DWC_ASSERT(++count < 10000,
++ "Connection id status change timed out");
++ core_if->op_state = A_HOST;
++ /*
++ * Initialize the Core for Host mode.
++ */
++ dwc_otg_core_init(core_if);
++ dwc_otg_enable_global_interrupts(core_if);
++ cil_hcd_start(core_if);
++ }
++}
++
++/**
++ * This function handles the Connector ID Status Change Interrupt. It
++ * reads the OTG Interrupt Register (GOTCTL) to determine whether this
++ * is a Device to Host Mode transition or a Host Mode to Device
++ * Transition.
++ *
++ * This only occurs when the cable is connected/removed from the PHY
++ * connector.
++ *
++ * @param core_if Programming view of DWC_otg controller.
++ */
++int32_t dwc_otg_handle_conn_id_status_change_intr(dwc_otg_core_if_t * core_if)
++{
++
++ /*
++ * Need to disable SOF interrupt immediately. If switching from device
++ * to host, the PCD interrupt handler won't handle the interrupt if
++ * host mode is already set. The HCD interrupt handler won't get
++ * called if the HCD state is HALT. This means that the interrupt does
++ * not get handled and Linux complains loudly.
++ */
++ gintmsk_data_t gintmsk = {.d32 = 0 };
++ gintsts_data_t gintsts = {.d32 = 0 };
++
++ gintmsk.b.sofintr = 1;
++ DWC_MODIFY_REG32(&core_if->core_global_regs->gintmsk, gintmsk.d32, 0);
++
++ DWC_DEBUGPL(DBG_CIL,
++ " ++Connector ID Status Change Interrupt++ (%s)\n",
++ (dwc_otg_is_host_mode(core_if) ? "Host" : "Device"));
++
++ DWC_SPINUNLOCK(core_if->lock);
++
++ /*
++ * Need to schedule a work, as there are possible DELAY function calls
++ * Release lock before scheduling workq as it holds spinlock during scheduling
++ */
++
++ DWC_WORKQ_SCHEDULE(core_if->wq_otg, w_conn_id_status_change,
++ core_if, "connection id status change");
++ DWC_SPINLOCK(core_if->lock);
++
++ /* Set flag and clear interrupt */
++ gintsts.b.conidstschng = 1;
++ DWC_WRITE_REG32(&core_if->core_global_regs->gintsts, gintsts.d32);
++
++ return 1;
++}
++
++/**
++ * This interrupt indicates that a device is initiating the Session
++ * Request Protocol to request the host to turn on bus power so a new
++ * session can begin. The handler responds by turning on bus power. If
++ * the DWC_otg controller is in low power mode, the handler brings the
++ * controller out of low power mode before turning on bus power.
++ *
++ * @param core_if Programming view of DWC_otg controller.
++ */
++int32_t dwc_otg_handle_session_req_intr(dwc_otg_core_if_t * core_if)
++{
++ gintsts_data_t gintsts;
++
++#ifndef DWC_HOST_ONLY
++ DWC_DEBUGPL(DBG_ANY, "++Session Request Interrupt++\n");
++
++ if (dwc_otg_is_device_mode(core_if)) {
++ DWC_PRINTF("SRP: Device mode\n");
++ } else {
++ hprt0_data_t hprt0;
++ DWC_PRINTF("SRP: Host mode\n");
++
++ /* Turn on the port power bit. */
++ hprt0.d32 = dwc_otg_read_hprt0(core_if);
++ hprt0.b.prtpwr = 1;
++ DWC_WRITE_REG32(core_if->host_if->hprt0, hprt0.d32);
++
++ /* Start the Connection timer. So a message can be displayed
++ * if connect does not occur within 10 seconds. */
++ cil_hcd_session_start(core_if);
++ }
++#endif
++
++ /* Clear interrupt */
++ gintsts.d32 = 0;
++ gintsts.b.sessreqintr = 1;
++ DWC_WRITE_REG32(&core_if->core_global_regs->gintsts, gintsts.d32);
++
++ return 1;
++}
++
++void w_wakeup_detected(void *p)
++{
++ dwc_otg_core_if_t *core_if = (dwc_otg_core_if_t *) p;
++ /*
++ * Clear the Resume after 70ms. (Need 20 ms minimum. Use 70 ms
++ * so that OPT tests pass with all PHYs).
++ */
++ hprt0_data_t hprt0 = {.d32 = 0 };
++#if 0
++ pcgcctl_data_t pcgcctl = {.d32 = 0 };
++ /* Restart the Phy Clock */
++ pcgcctl.b.stoppclk = 1;
++ DWC_MODIFY_REG32(core_if->pcgcctl, pcgcctl.d32, 0);
++ dwc_udelay(10);
++#endif //0
++ hprt0.d32 = dwc_otg_read_hprt0(core_if);
++ DWC_DEBUGPL(DBG_ANY, "Resume: HPRT0=%0x\n", hprt0.d32);
++// dwc_mdelay(70);
++ hprt0.b.prtres = 0; /* Resume */
++ DWC_WRITE_REG32(core_if->host_if->hprt0, hprt0.d32);
++ DWC_DEBUGPL(DBG_ANY, "Clear Resume: HPRT0=%0x\n",
++ DWC_READ_REG32(core_if->host_if->hprt0));
++
++ cil_hcd_resume(core_if);
++
++ /** Change to L0 state*/
++ core_if->lx_state = DWC_OTG_L0;
++}
++
++/**
++ * This interrupt indicates that the DWC_otg controller has detected a
++ * resume or remote wakeup sequence. If the DWC_otg controller is in
++ * low power mode, the handler must brings the controller out of low
++ * power mode. The controller automatically begins resume
++ * signaling. The handler schedules a time to stop resume signaling.
++ */
++int32_t dwc_otg_handle_wakeup_detected_intr(dwc_otg_core_if_t * core_if)
++{
++ gintsts_data_t gintsts;
++
++ DWC_DEBUGPL(DBG_ANY,
++ "++Resume and Remote Wakeup Detected Interrupt++\n");
++
++ DWC_PRINTF("%s lxstate = %d\n", __func__, core_if->lx_state);
++
++ if (dwc_otg_is_device_mode(core_if)) {
++ dctl_data_t dctl = {.d32 = 0 };
++ DWC_DEBUGPL(DBG_PCD, "DSTS=0x%0x\n",
++ DWC_READ_REG32(&core_if->dev_if->dev_global_regs->
++ dsts));
++ if (core_if->lx_state == DWC_OTG_L2) {
++#ifdef PARTIAL_POWER_DOWN
++ if (core_if->hwcfg4.b.power_optimiz) {
++ pcgcctl_data_t power = {.d32 = 0 };
++
++ power.d32 = DWC_READ_REG32(core_if->pcgcctl);
++ DWC_DEBUGPL(DBG_CIL, "PCGCCTL=%0x\n",
++ power.d32);
++
++ power.b.stoppclk = 0;
++ DWC_WRITE_REG32(core_if->pcgcctl, power.d32);
++
++ power.b.pwrclmp = 0;
++ DWC_WRITE_REG32(core_if->pcgcctl, power.d32);
++
++ power.b.rstpdwnmodule = 0;
++ DWC_WRITE_REG32(core_if->pcgcctl, power.d32);
++ }
++#endif
++ /* Clear the Remote Wakeup Signaling */
++ dctl.b.rmtwkupsig = 1;
++ DWC_MODIFY_REG32(&core_if->dev_if->dev_global_regs->
++ dctl, dctl.d32, 0);
++
++ DWC_SPINUNLOCK(core_if->lock);
++ if (core_if->pcd_cb && core_if->pcd_cb->resume_wakeup) {
++ core_if->pcd_cb->resume_wakeup(core_if->pcd_cb->p);
++ }
++ DWC_SPINLOCK(core_if->lock);
++ } else {
++ glpmcfg_data_t lpmcfg;
++ lpmcfg.d32 =
++ DWC_READ_REG32(&core_if->core_global_regs->glpmcfg);
++ lpmcfg.b.hird_thres &= (~(1 << 4));
++ DWC_WRITE_REG32(&core_if->core_global_regs->glpmcfg,
++ lpmcfg.d32);
++ }
++ /** Change to L0 state*/
++ core_if->lx_state = DWC_OTG_L0;
++ } else {
++ if (core_if->lx_state != DWC_OTG_L1) {
++ pcgcctl_data_t pcgcctl = {.d32 = 0 };
++
++ /* Restart the Phy Clock */
++ pcgcctl.b.stoppclk = 1;
++ DWC_MODIFY_REG32(core_if->pcgcctl, pcgcctl.d32, 0);
++ DWC_TIMER_SCHEDULE(core_if->wkp_timer, 71);
++ } else {
++ /** Change to L0 state*/
++ core_if->lx_state = DWC_OTG_L0;
++ }
++ }
++
++ /* Clear interrupt */
++ gintsts.d32 = 0;
++ gintsts.b.wkupintr = 1;
++ DWC_WRITE_REG32(&core_if->core_global_regs->gintsts, gintsts.d32);
++
++ return 1;
++}
++
++/**
++ * This interrupt indicates that the Wakeup Logic has detected a
++ * Device disconnect.
++ */
++static int32_t dwc_otg_handle_pwrdn_disconnect_intr(dwc_otg_core_if_t *core_if)
++{
++ gpwrdn_data_t gpwrdn = { .d32 = 0 };
++ gpwrdn_data_t gpwrdn_temp = { .d32 = 0 };
++ gpwrdn_temp.d32 = DWC_READ_REG32(&core_if->core_global_regs->gpwrdn);
++
++ DWC_PRINTF("%s called\n", __FUNCTION__);
++
++ if (!core_if->hibernation_suspend) {
++ DWC_PRINTF("Already exited from Hibernation\n");
++ return 1;
++ }
++
++ /* Switch on the voltage to the core */
++ gpwrdn.b.pwrdnswtch = 1;
++ DWC_MODIFY_REG32(&core_if->core_global_regs->gpwrdn, gpwrdn.d32, 0);
++ dwc_udelay(10);
++
++ /* Reset the core */
++ gpwrdn.d32 = 0;
++ gpwrdn.b.pwrdnrstn = 1;
++ DWC_MODIFY_REG32(&core_if->core_global_regs->gpwrdn, gpwrdn.d32, 0);
++ dwc_udelay(10);
++
++ /* Disable power clamps*/
++ gpwrdn.d32 = 0;
++ gpwrdn.b.pwrdnclmp = 1;
++ DWC_MODIFY_REG32(&core_if->core_global_regs->gpwrdn, gpwrdn.d32, 0);
++
++ /* Remove reset the core signal */
++ gpwrdn.d32 = 0;
++ gpwrdn.b.pwrdnrstn = 1;
++ DWC_MODIFY_REG32(&core_if->core_global_regs->gpwrdn, 0, gpwrdn.d32);
++ dwc_udelay(10);
++
++ /* Disable PMU interrupt */
++ gpwrdn.d32 = 0;
++ gpwrdn.b.pmuintsel = 1;
++ DWC_MODIFY_REG32(&core_if->core_global_regs->gpwrdn, gpwrdn.d32, 0);
++
++ core_if->hibernation_suspend = 0;
++
++ /* Disable PMU */
++ gpwrdn.d32 = 0;
++ gpwrdn.b.pmuactv = 1;
++ DWC_MODIFY_REG32(&core_if->core_global_regs->gpwrdn, gpwrdn.d32, 0);
++ dwc_udelay(10);
++
++ if (gpwrdn_temp.b.idsts) {
++ core_if->op_state = B_PERIPHERAL;
++ dwc_otg_core_init(core_if);
++ dwc_otg_enable_global_interrupts(core_if);
++ cil_pcd_start(core_if);
++ } else {
++ core_if->op_state = A_HOST;
++ dwc_otg_core_init(core_if);
++ dwc_otg_enable_global_interrupts(core_if);
++ cil_hcd_start(core_if);
++ }
++
++ return 1;
++}
++
++/**
++ * This interrupt indicates that the Wakeup Logic has detected a
++ * remote wakeup sequence.
++ */
++static int32_t dwc_otg_handle_pwrdn_wakeup_detected_intr(dwc_otg_core_if_t * core_if)
++{
++ gpwrdn_data_t gpwrdn = {.d32 = 0 };
++ DWC_DEBUGPL(DBG_ANY,
++ "++Powerdown Remote Wakeup Detected Interrupt++\n");
++
++ if (!core_if->hibernation_suspend) {
++ DWC_PRINTF("Already exited from Hibernation\n");
++ return 1;
++ }
++
++ gpwrdn.d32 = DWC_READ_REG32(&core_if->core_global_regs->gpwrdn);
++ if (gpwrdn.b.idsts) { // Device Mode
++ if ((core_if->power_down == 2)
++ && (core_if->hibernation_suspend == 1)) {
++ dwc_otg_device_hibernation_restore(core_if, 0, 0);
++ }
++ } else {
++ if ((core_if->power_down == 2)
++ && (core_if->hibernation_suspend == 1)) {
++ dwc_otg_host_hibernation_restore(core_if, 1, 0);
++ }
++ }
++ return 1;
++}
++
++static int32_t dwc_otg_handle_pwrdn_idsts_change(dwc_otg_device_t *otg_dev)
++{
++ gpwrdn_data_t gpwrdn = {.d32 = 0 };
++ gpwrdn_data_t gpwrdn_temp = {.d32 = 0 };
++ dwc_otg_core_if_t *core_if = otg_dev->core_if;
++
++ DWC_DEBUGPL(DBG_ANY, "%s called\n", __FUNCTION__);
++ gpwrdn_temp.d32 = DWC_READ_REG32(&core_if->core_global_regs->gpwrdn);
++ if (core_if->power_down == 2) {
++ if (!core_if->hibernation_suspend) {
++ DWC_PRINTF("Already exited from Hibernation\n");
++ return 1;
++ }
++ DWC_DEBUGPL(DBG_ANY, "Exit from hibernation on ID sts change\n");
++ /* Switch on the voltage to the core */
++ gpwrdn.b.pwrdnswtch = 1;
++ DWC_MODIFY_REG32(&core_if->core_global_regs->gpwrdn, gpwrdn.d32, 0);
++ dwc_udelay(10);
++
++ /* Reset the core */
++ gpwrdn.d32 = 0;
++ gpwrdn.b.pwrdnrstn = 1;
++ DWC_MODIFY_REG32(&core_if->core_global_regs->gpwrdn, gpwrdn.d32, 0);
++ dwc_udelay(10);
++
++ /* Disable power clamps */
++ gpwrdn.d32 = 0;
++ gpwrdn.b.pwrdnclmp = 1;
++ DWC_MODIFY_REG32(&core_if->core_global_regs->gpwrdn, gpwrdn.d32, 0);
++
++ /* Remove reset the core signal */
++ gpwrdn.d32 = 0;
++ gpwrdn.b.pwrdnrstn = 1;
++ DWC_MODIFY_REG32(&core_if->core_global_regs->gpwrdn, 0, gpwrdn.d32);
++ dwc_udelay(10);
++
++ /* Disable PMU interrupt */
++ gpwrdn.d32 = 0;
++ gpwrdn.b.pmuintsel = 1;
++ DWC_MODIFY_REG32(&core_if->core_global_regs->gpwrdn, gpwrdn.d32, 0);
++
++ /*Indicates that we are exiting from hibernation */
++ core_if->hibernation_suspend = 0;
++
++ /* Disable PMU */
++ gpwrdn.d32 = 0;
++ gpwrdn.b.pmuactv = 1;
++ DWC_MODIFY_REG32(&core_if->core_global_regs->gpwrdn, gpwrdn.d32, 0);
++ dwc_udelay(10);
++
++ gpwrdn.d32 = core_if->gr_backup->gpwrdn_local;
++ if (gpwrdn.b.dis_vbus == 1) {
++ gpwrdn.d32 = 0;
++ gpwrdn.b.dis_vbus = 1;
++ DWC_MODIFY_REG32(&core_if->core_global_regs->gpwrdn, gpwrdn.d32, 0);
++ }
++
++ if (gpwrdn_temp.b.idsts) {
++ core_if->op_state = B_PERIPHERAL;
++ dwc_otg_core_init(core_if);
++ dwc_otg_enable_global_interrupts(core_if);
++ cil_pcd_start(core_if);
++ } else {
++ core_if->op_state = A_HOST;
++ dwc_otg_core_init(core_if);
++ dwc_otg_enable_global_interrupts(core_if);
++ cil_hcd_start(core_if);
++ }
++ }
++
++ if (core_if->adp_enable) {
++ uint8_t is_host = 0;
++ DWC_SPINUNLOCK(core_if->lock);
++ /* Change the core_if's lock to hcd/pcd lock depend on mode? */
++#ifndef DWC_HOST_ONLY
++ if (gpwrdn_temp.b.idsts)
++ core_if->lock = otg_dev->pcd->lock;
++#endif
++#ifndef DWC_DEVICE_ONLY
++ if (!gpwrdn_temp.b.idsts) {
++ core_if->lock = otg_dev->hcd->lock;
++ is_host = 1;
++ }
++#endif
++ DWC_PRINTF("RESTART ADP\n");
++ if (core_if->adp.probe_enabled)
++ dwc_otg_adp_probe_stop(core_if);
++ if (core_if->adp.sense_enabled)
++ dwc_otg_adp_sense_stop(core_if);
++ if (core_if->adp.sense_timer_started)
++ DWC_TIMER_CANCEL(core_if->adp.sense_timer);
++ if (core_if->adp.vbuson_timer_started)
++ DWC_TIMER_CANCEL(core_if->adp.vbuson_timer);
++ core_if->adp.probe_timer_values[0] = -1;
++ core_if->adp.probe_timer_values[1] = -1;
++ core_if->adp.sense_timer_started = 0;
++ core_if->adp.vbuson_timer_started = 0;
++ core_if->adp.probe_counter = 0;
++ core_if->adp.gpwrdn = 0;
++
++ /* Disable PMU and restart ADP */
++ gpwrdn_temp.d32 = 0;
++ gpwrdn_temp.b.pmuactv = 1;
++ gpwrdn_temp.b.pmuintsel = 1;
++ DWC_MODIFY_REG32(&core_if->core_global_regs->gpwrdn, gpwrdn.d32, 0);
++ DWC_PRINTF("Check point 1\n");
++ dwc_mdelay(110);
++ dwc_otg_adp_start(core_if, is_host);
++ DWC_SPINLOCK(core_if->lock);
++ }
++
++
++ return 1;
++}
++
++static int32_t dwc_otg_handle_pwrdn_session_change(dwc_otg_core_if_t * core_if)
++{
++ gpwrdn_data_t gpwrdn = {.d32 = 0 };
++ int32_t otg_cap_param = core_if->core_params->otg_cap;
++ DWC_DEBUGPL(DBG_ANY, "%s called\n", __FUNCTION__);
++
++ gpwrdn.d32 = DWC_READ_REG32(&core_if->core_global_regs->gpwrdn);
++ if (core_if->power_down == 2) {
++ if (!core_if->hibernation_suspend) {
++ DWC_PRINTF("Already exited from Hibernation\n");
++ return 1;
++ }
++
++ if ((otg_cap_param != DWC_OTG_CAP_PARAM_HNP_SRP_CAPABLE ||
++ otg_cap_param != DWC_OTG_CAP_PARAM_SRP_ONLY_CAPABLE) &&
++ gpwrdn.b.bsessvld == 0) {
++ /* Save gpwrdn register for further usage if stschng interrupt */
++ core_if->gr_backup->gpwrdn_local =
++ DWC_READ_REG32(&core_if->core_global_regs->gpwrdn);
++ /*Exit from ISR and wait for stschng interrupt with bsessvld = 1 */
++ return 1;
++ }
++
++ /* Switch on the voltage to the core */
++ gpwrdn.d32 = 0;
++ gpwrdn.b.pwrdnswtch = 1;
++ DWC_MODIFY_REG32(&core_if->core_global_regs->gpwrdn, gpwrdn.d32, 0);
++ dwc_udelay(10);
++
++ /* Reset the core */
++ gpwrdn.d32 = 0;
++ gpwrdn.b.pwrdnrstn = 1;
++ DWC_MODIFY_REG32(&core_if->core_global_regs->gpwrdn, gpwrdn.d32, 0);
++ dwc_udelay(10);
++
++ /* Disable power clamps */
++ gpwrdn.d32 = 0;
++ gpwrdn.b.pwrdnclmp = 1;
++ DWC_MODIFY_REG32(&core_if->core_global_regs->gpwrdn, gpwrdn.d32, 0);
++
++ /* Remove reset the core signal */
++ gpwrdn.d32 = 0;
++ gpwrdn.b.pwrdnrstn = 1;
++ DWC_MODIFY_REG32(&core_if->core_global_regs->gpwrdn, 0, gpwrdn.d32);
++ dwc_udelay(10);
++
++ /* Disable PMU interrupt */
++ gpwrdn.d32 = 0;
++ gpwrdn.b.pmuintsel = 1;
++ DWC_MODIFY_REG32(&core_if->core_global_regs->gpwrdn, gpwrdn.d32, 0);
++ dwc_udelay(10);
++
++ /*Indicates that we are exiting from hibernation */
++ core_if->hibernation_suspend = 0;
++
++ /* Disable PMU */
++ gpwrdn.d32 = 0;
++ gpwrdn.b.pmuactv = 1;
++ DWC_MODIFY_REG32(&core_if->core_global_regs->gpwrdn, gpwrdn.d32, 0);
++ dwc_udelay(10);
++
++ core_if->op_state = B_PERIPHERAL;
++ dwc_otg_core_init(core_if);
++ dwc_otg_enable_global_interrupts(core_if);
++ cil_pcd_start(core_if);
++
++ if (otg_cap_param == DWC_OTG_CAP_PARAM_HNP_SRP_CAPABLE ||
++ otg_cap_param == DWC_OTG_CAP_PARAM_SRP_ONLY_CAPABLE) {
++ /*
++ * Initiate SRP after initial ADP probe.
++ */
++ dwc_otg_initiate_srp(core_if);
++ }
++ }
++
++ return 1;
++}
++/**
++ * This interrupt indicates that the Wakeup Logic has detected a
++ * status change either on IDDIG or BSessVld.
++ */
++static uint32_t dwc_otg_handle_pwrdn_stschng_intr(dwc_otg_device_t *otg_dev)
++{
++ int retval;
++ gpwrdn_data_t gpwrdn = {.d32 = 0 };
++ gpwrdn_data_t gpwrdn_temp = {.d32 = 0 };
++ dwc_otg_core_if_t *core_if = otg_dev->core_if;
++
++ DWC_PRINTF("%s called\n", __FUNCTION__);
++
++ if (core_if->power_down == 2) {
++ if (core_if->hibernation_suspend <= 0) {
++ DWC_PRINTF("Already exited from Hibernation\n");
++ return 1;
++ } else
++ gpwrdn_temp.d32 = core_if->gr_backup->gpwrdn_local;
++
++ } else {
++ gpwrdn_temp.d32 = core_if->adp.gpwrdn;
++ }
++
++ gpwrdn.d32 = DWC_READ_REG32(&core_if->core_global_regs->gpwrdn);
++
++ if (gpwrdn.b.idsts ^ gpwrdn_temp.b.idsts) {
++ retval = dwc_otg_handle_pwrdn_idsts_change(otg_dev);
++ } else if (gpwrdn.b.bsessvld ^ gpwrdn_temp.b.bsessvld) {
++ retval = dwc_otg_handle_pwrdn_session_change(core_if);
++ }
++
++ return retval;
++}
++
++/**
++ * This interrupt indicates that the Wakeup Logic has detected a
++ * SRP.
++ */
++static int32_t dwc_otg_handle_pwrdn_srp_intr(dwc_otg_core_if_t * core_if)
++{
++ gpwrdn_data_t gpwrdn = {.d32 = 0 };
++
++ DWC_PRINTF("%s called\n", __FUNCTION__);
++
++ if (!core_if->hibernation_suspend) {
++ DWC_PRINTF("Already exited from Hibernation\n");
++ return 1;
++ }
++#ifdef DWC_DEV_SRPCAP
++ if (core_if->pwron_timer_started) {
++ core_if->pwron_timer_started = 0;
++ DWC_TIMER_CANCEL(core_if->pwron_timer);
++ }
++#endif
++
++ /* Switch on the voltage to the core */
++ gpwrdn.b.pwrdnswtch = 1;
++ DWC_MODIFY_REG32(&core_if->core_global_regs->gpwrdn, gpwrdn.d32, 0);
++ dwc_udelay(10);
++
++ /* Reset the core */
++ gpwrdn.d32 = 0;
++ gpwrdn.b.pwrdnrstn = 1;
++ DWC_MODIFY_REG32(&core_if->core_global_regs->gpwrdn, gpwrdn.d32, 0);
++ dwc_udelay(10);
++
++ /* Disable power clamps */
++ gpwrdn.d32 = 0;
++ gpwrdn.b.pwrdnclmp = 1;
++ DWC_MODIFY_REG32(&core_if->core_global_regs->gpwrdn, gpwrdn.d32, 0);
++
++ /* Remove reset the core signal */
++ gpwrdn.d32 = 0;
++ gpwrdn.b.pwrdnrstn = 1;
++ DWC_MODIFY_REG32(&core_if->core_global_regs->gpwrdn, 0, gpwrdn.d32);
++ dwc_udelay(10);
++
++ /* Disable PMU interrupt */
++ gpwrdn.d32 = 0;
++ gpwrdn.b.pmuintsel = 1;
++ DWC_MODIFY_REG32(&core_if->core_global_regs->gpwrdn, gpwrdn.d32, 0);
++
++ /* Indicates that we are exiting from hibernation */
++ core_if->hibernation_suspend = 0;
++
++ /* Disable PMU */
++ gpwrdn.d32 = 0;
++ gpwrdn.b.pmuactv = 1;
++ DWC_MODIFY_REG32(&core_if->core_global_regs->gpwrdn, gpwrdn.d32, 0);
++ dwc_udelay(10);
++
++ /* Programm Disable VBUS to 0 */
++ gpwrdn.d32 = 0;
++ gpwrdn.b.dis_vbus = 1;
++ DWC_MODIFY_REG32(&core_if->core_global_regs->gpwrdn, gpwrdn.d32, 0);
++
++ /*Initialize the core as Host */
++ core_if->op_state = A_HOST;
++ dwc_otg_core_init(core_if);
++ dwc_otg_enable_global_interrupts(core_if);
++ cil_hcd_start(core_if);
++
++ return 1;
++}
++
++/** This interrupt indicates that restore command after Hibernation
++ * was completed by the core. */
++int32_t dwc_otg_handle_restore_done_intr(dwc_otg_core_if_t * core_if)
++{
++ pcgcctl_data_t pcgcctl;
++ DWC_DEBUGPL(DBG_ANY, "++Restore Done Interrupt++\n");
++
++ //TODO De-assert restore signal. 8.a
++ pcgcctl.d32 = DWC_READ_REG32(core_if->pcgcctl);
++ if (pcgcctl.b.restoremode == 1) {
++ gintmsk_data_t gintmsk = {.d32 = 0 };
++ /*
++ * If restore mode is Remote Wakeup,
++ * unmask Remote Wakeup interrupt.
++ */
++ gintmsk.b.wkupintr = 1;
++ DWC_MODIFY_REG32(&core_if->core_global_regs->gintmsk,
++ 0, gintmsk.d32);
++ }
++
++ return 1;
++}
++
++/**
++ * This interrupt indicates that a device has been disconnected from
++ * the root port.
++ */
++int32_t dwc_otg_handle_disconnect_intr(dwc_otg_core_if_t * core_if)
++{
++ gintsts_data_t gintsts;
++
++ DWC_DEBUGPL(DBG_ANY, "++Disconnect Detected Interrupt++ (%s) %s\n",
++ (dwc_otg_is_host_mode(core_if) ? "Host" : "Device"),
++ op_state_str(core_if));
++
++/** @todo Consolidate this if statement. */
++#ifndef DWC_HOST_ONLY
++ if (core_if->op_state == B_HOST) {
++ /* If in device mode Disconnect and stop the HCD, then
++ * start the PCD. */
++ DWC_SPINUNLOCK(core_if->lock);
++ cil_hcd_disconnect(core_if);
++ cil_pcd_start(core_if);
++ DWC_SPINLOCK(core_if->lock);
++ core_if->op_state = B_PERIPHERAL;
++ } else if (dwc_otg_is_device_mode(core_if)) {
++ gotgctl_data_t gotgctl = {.d32 = 0 };
++ gotgctl.d32 =
++ DWC_READ_REG32(&core_if->core_global_regs->gotgctl);
++ if (gotgctl.b.hstsethnpen == 1) {
++ /* Do nothing, if HNP in process the OTG
++ * interrupt "Host Negotiation Detected"
++ * interrupt will do the mode switch.
++ */
++ } else if (gotgctl.b.devhnpen == 0) {
++ /* If in device mode Disconnect and stop the HCD, then
++ * start the PCD. */
++ DWC_SPINUNLOCK(core_if->lock);
++ cil_hcd_disconnect(core_if);
++ cil_pcd_start(core_if);
++ DWC_SPINLOCK(core_if->lock);
++ core_if->op_state = B_PERIPHERAL;
++ } else {
++ DWC_DEBUGPL(DBG_ANY, "!a_peripheral && !devhnpen\n");
++ }
++ } else {
++ if (core_if->op_state == A_HOST) {
++ /* A-Cable still connected but device disconnected. */
++ cil_hcd_disconnect(core_if);
++ if (core_if->adp_enable) {
++ gpwrdn_data_t gpwrdn = { .d32 = 0 };
++ cil_hcd_stop(core_if);
++ /* Enable Power Down Logic */
++ gpwrdn.b.pmuintsel = 1;
++ gpwrdn.b.pmuactv = 1;
++ DWC_MODIFY_REG32(&core_if->core_global_regs->
++ gpwrdn, 0, gpwrdn.d32);
++ dwc_otg_adp_probe_start(core_if);
++
++ /* Power off the core */
++ if (core_if->power_down == 2) {
++ gpwrdn.d32 = 0;
++ gpwrdn.b.pwrdnswtch = 1;
++ DWC_MODIFY_REG32
++ (&core_if->core_global_regs->gpwrdn,
++ gpwrdn.d32, 0);
++ }
++ }
++ }
++ }
++#endif
++ /* Change to L3(OFF) state */
++ core_if->lx_state = DWC_OTG_L3;
++
++ gintsts.d32 = 0;
++ gintsts.b.disconnect = 1;
++ DWC_WRITE_REG32(&core_if->core_global_regs->gintsts, gintsts.d32);
++ return 1;
++}
++
++/**
++ * This interrupt indicates that SUSPEND state has been detected on
++ * the USB.
++ *
++ * For HNP the USB Suspend interrupt signals the change from
++ * "a_peripheral" to "a_host".
++ *
++ * When power management is enabled the core will be put in low power
++ * mode.
++ */
++int32_t dwc_otg_handle_usb_suspend_intr(dwc_otg_core_if_t * core_if)
++{
++ dsts_data_t dsts;
++ gintsts_data_t gintsts;
++ dcfg_data_t dcfg;
++
++ DWC_DEBUGPL(DBG_ANY, "USB SUSPEND\n");
++
++ if (dwc_otg_is_device_mode(core_if)) {
++ /* Check the Device status register to determine if the Suspend
++ * state is active. */
++ dsts.d32 =
++ DWC_READ_REG32(&core_if->dev_if->dev_global_regs->dsts);
++ DWC_DEBUGPL(DBG_PCD, "DSTS=0x%0x\n", dsts.d32);
++ DWC_DEBUGPL(DBG_PCD, "DSTS.Suspend Status=%d "
++ "HWCFG4.power Optimize=%d\n",
++ dsts.b.suspsts, core_if->hwcfg4.b.power_optimiz);
++
++#ifdef PARTIAL_POWER_DOWN
++/** @todo Add a module parameter for power management. */
++
++ if (dsts.b.suspsts && core_if->hwcfg4.b.power_optimiz) {
++ pcgcctl_data_t power = {.d32 = 0 };
++ DWC_DEBUGPL(DBG_CIL, "suspend\n");
++
++ power.b.pwrclmp = 1;
++ DWC_WRITE_REG32(core_if->pcgcctl, power.d32);
++
++ power.b.rstpdwnmodule = 1;
++ DWC_MODIFY_REG32(core_if->pcgcctl, 0, power.d32);
++
++ power.b.stoppclk = 1;
++ DWC_MODIFY_REG32(core_if->pcgcctl, 0, power.d32);
++
++ } else {
++ DWC_DEBUGPL(DBG_ANY, "disconnect?\n");
++ }
++#endif
++ /* PCD callback for suspend. Release the lock inside of callback function */
++ cil_pcd_suspend(core_if);
++ if (core_if->power_down == 2)
++ {
++ dcfg.d32 = DWC_READ_REG32(&core_if->dev_if->dev_global_regs->dcfg);
++ DWC_DEBUGPL(DBG_ANY,"lx_state = %08x\n",core_if->lx_state);
++ DWC_DEBUGPL(DBG_ANY," device address = %08d\n",dcfg.b.devaddr);
++
++ if (core_if->lx_state != DWC_OTG_L3 && dcfg.b.devaddr) {
++ pcgcctl_data_t pcgcctl = {.d32 = 0 };
++ gpwrdn_data_t gpwrdn = {.d32 = 0 };
++ gusbcfg_data_t gusbcfg = {.d32 = 0 };
++
++ /* Change to L2(suspend) state */
++ core_if->lx_state = DWC_OTG_L2;
++
++ /* Clear interrupt in gintsts */
++ gintsts.d32 = 0;
++ gintsts.b.usbsuspend = 1;
++ DWC_WRITE_REG32(&core_if->core_global_regs->
++ gintsts, gintsts.d32);
++ DWC_PRINTF("Start of hibernation completed\n");
++ dwc_otg_save_global_regs(core_if);
++ dwc_otg_save_dev_regs(core_if);
++
++ gusbcfg.d32 =
++ DWC_READ_REG32(&core_if->core_global_regs->
++ gusbcfg);
++ if (gusbcfg.b.ulpi_utmi_sel == 1) {
++ /* ULPI interface */
++ /* Suspend the Phy Clock */
++ pcgcctl.d32 = 0;
++ pcgcctl.b.stoppclk = 1;
++ DWC_MODIFY_REG32(core_if->pcgcctl, 0,
++ pcgcctl.d32);
++ dwc_udelay(10);
++ gpwrdn.b.pmuactv = 1;
++ DWC_MODIFY_REG32(&core_if->
++ core_global_regs->
++ gpwrdn, 0, gpwrdn.d32);
++ } else {
++ /* UTMI+ Interface */
++ gpwrdn.b.pmuactv = 1;
++ DWC_MODIFY_REG32(&core_if->
++ core_global_regs->
++ gpwrdn, 0, gpwrdn.d32);
++ dwc_udelay(10);
++ pcgcctl.b.stoppclk = 1;
++ DWC_MODIFY_REG32(core_if->pcgcctl, 0,
++ pcgcctl.d32);
++ dwc_udelay(10);
++ }
++
++ /* Set flag to indicate that we are in hibernation */
++ core_if->hibernation_suspend = 1;
++ /* Enable interrupts from wake up logic */
++ gpwrdn.d32 = 0;
++ gpwrdn.b.pmuintsel = 1;
++ DWC_MODIFY_REG32(&core_if->core_global_regs->
++ gpwrdn, 0, gpwrdn.d32);
++ dwc_udelay(10);
++
++ /* Unmask device mode interrupts in GPWRDN */
++ gpwrdn.d32 = 0;
++ gpwrdn.b.rst_det_msk = 1;
++ gpwrdn.b.lnstchng_msk = 1;
++ gpwrdn.b.sts_chngint_msk = 1;
++ DWC_MODIFY_REG32(&core_if->core_global_regs->
++ gpwrdn, 0, gpwrdn.d32);
++ dwc_udelay(10);
++
++ /* Enable Power Down Clamp */
++ gpwrdn.d32 = 0;
++ gpwrdn.b.pwrdnclmp = 1;
++ DWC_MODIFY_REG32(&core_if->core_global_regs->
++ gpwrdn, 0, gpwrdn.d32);
++ dwc_udelay(10);
++
++ /* Switch off VDD */
++ gpwrdn.d32 = 0;
++ gpwrdn.b.pwrdnswtch = 1;
++ DWC_MODIFY_REG32(&core_if->core_global_regs->
++ gpwrdn, 0, gpwrdn.d32);
++
++ /* Save gpwrdn register for further usage if stschng interrupt */
++ core_if->gr_backup->gpwrdn_local =
++ DWC_READ_REG32(&core_if->core_global_regs->gpwrdn);
++ DWC_PRINTF("Hibernation completed\n");
++
++ return 1;
++ }
++ } else if (core_if->power_down == 3) {
++ pcgcctl_data_t pcgcctl = {.d32 = 0 };
++ dcfg.d32 = DWC_READ_REG32(&core_if->dev_if->dev_global_regs->dcfg);
++ DWC_DEBUGPL(DBG_ANY, "lx_state = %08x\n",core_if->lx_state);
++ DWC_DEBUGPL(DBG_ANY, " device address = %08d\n",dcfg.b.devaddr);
++
++ if (core_if->lx_state != DWC_OTG_L3 && dcfg.b.devaddr) {
++ DWC_DEBUGPL(DBG_ANY, "Start entering to extended hibernation\n");
++ core_if->xhib = 1;
++
++ /* Clear interrupt in gintsts */
++ gintsts.d32 = 0;
++ gintsts.b.usbsuspend = 1;
++ DWC_WRITE_REG32(&core_if->core_global_regs->
++ gintsts, gintsts.d32);
++
++ dwc_otg_save_global_regs(core_if);
++ dwc_otg_save_dev_regs(core_if);
++
++ /* Wait for 10 PHY clocks */
++ dwc_udelay(10);
++
++ /* Program GPIO register while entering to xHib */
++ DWC_WRITE_REG32(&core_if->core_global_regs->ggpio, 0x1);
++
++ pcgcctl.b.enbl_extnd_hiber = 1;
++ DWC_MODIFY_REG32(core_if->pcgcctl, 0, pcgcctl.d32);
++ DWC_MODIFY_REG32(core_if->pcgcctl, 0, pcgcctl.d32);
++
++ pcgcctl.d32 = 0;
++ pcgcctl.b.extnd_hiber_pwrclmp = 1;
++ DWC_MODIFY_REG32(core_if->pcgcctl, 0, pcgcctl.d32);
++
++ pcgcctl.d32 = 0;
++ pcgcctl.b.extnd_hiber_switch = 1;
++ core_if->gr_backup->xhib_gpwrdn = DWC_READ_REG32(&core_if->core_global_regs->gpwrdn);
++ core_if->gr_backup->xhib_pcgcctl = DWC_READ_REG32(core_if->pcgcctl) | pcgcctl.d32;
++ DWC_MODIFY_REG32(core_if->pcgcctl, 0, pcgcctl.d32);
++
++ DWC_DEBUGPL(DBG_ANY, "Finished entering to extended hibernation\n");
++
++ return 1;
++ }
++ }
++ } else {
++ if (core_if->op_state == A_PERIPHERAL) {
++ DWC_DEBUGPL(DBG_ANY, "a_peripheral->a_host\n");
++ /* Clear the a_peripheral flag, back to a_host. */
++ DWC_SPINUNLOCK(core_if->lock);
++ cil_pcd_stop(core_if);
++ cil_hcd_start(core_if);
++ DWC_SPINLOCK(core_if->lock);
++ core_if->op_state = A_HOST;
++ }
++ }
++
++ /* Change to L2(suspend) state */
++ core_if->lx_state = DWC_OTG_L2;
++
++ /* Clear interrupt */
++ gintsts.d32 = 0;
++ gintsts.b.usbsuspend = 1;
++ DWC_WRITE_REG32(&core_if->core_global_regs->gintsts, gintsts.d32);
++
++ return 1;
++}
++
++static int32_t dwc_otg_handle_xhib_exit_intr(dwc_otg_core_if_t * core_if)
++{
++ gpwrdn_data_t gpwrdn = {.d32 = 0 };
++ pcgcctl_data_t pcgcctl = {.d32 = 0 };
++ gahbcfg_data_t gahbcfg = {.d32 = 0 };
++
++ dwc_udelay(10);
++
++ /* Program GPIO register while entering to xHib */
++ DWC_WRITE_REG32(&core_if->core_global_regs->ggpio, 0x0);
++
++ pcgcctl.d32 = core_if->gr_backup->xhib_pcgcctl;
++ pcgcctl.b.extnd_hiber_pwrclmp = 0;
++ DWC_WRITE_REG32(core_if->pcgcctl, pcgcctl.d32);
++ dwc_udelay(10);
++
++ gpwrdn.d32 = core_if->gr_backup->xhib_gpwrdn;
++ gpwrdn.b.restore = 1;
++ DWC_WRITE_REG32(&core_if->core_global_regs->gpwrdn, gpwrdn.d32);
++ dwc_udelay(10);
++
++ restore_lpm_i2c_regs(core_if);
++
++ pcgcctl.d32 = core_if->gr_backup->pcgcctl_local & (0x3FFFF << 14);
++ pcgcctl.b.max_xcvrselect = 1;
++ pcgcctl.b.ess_reg_restored = 0;
++ pcgcctl.b.extnd_hiber_switch = 0;
++ pcgcctl.b.extnd_hiber_pwrclmp = 0;
++ pcgcctl.b.enbl_extnd_hiber = 1;
++ DWC_WRITE_REG32(core_if->pcgcctl, pcgcctl.d32);
++
++ gahbcfg.d32 = core_if->gr_backup->gahbcfg_local;
++ gahbcfg.b.glblintrmsk = 1;
++ DWC_WRITE_REG32(&core_if->core_global_regs->gahbcfg, gahbcfg.d32);
++
++ DWC_WRITE_REG32(&core_if->core_global_regs->gintsts, 0xFFFFFFFF);
++ DWC_WRITE_REG32(&core_if->core_global_regs->gintmsk, 0x1 << 16);
++
++ DWC_WRITE_REG32(&core_if->core_global_regs->gusbcfg,
++ core_if->gr_backup->gusbcfg_local);
++ DWC_WRITE_REG32(&core_if->dev_if->dev_global_regs->dcfg,
++ core_if->dr_backup->dcfg);
++
++ pcgcctl.d32 = 0;
++ pcgcctl.d32 = core_if->gr_backup->pcgcctl_local & (0x3FFFF << 14);
++ pcgcctl.b.max_xcvrselect = 1;
++ pcgcctl.d32 |= 0x608;
++ DWC_WRITE_REG32(core_if->pcgcctl, pcgcctl.d32);
++ dwc_udelay(10);
++
++ pcgcctl.d32 = 0;
++ pcgcctl.d32 = core_if->gr_backup->pcgcctl_local & (0x3FFFF << 14);
++ pcgcctl.b.max_xcvrselect = 1;
++ pcgcctl.b.ess_reg_restored = 1;
++ pcgcctl.b.enbl_extnd_hiber = 1;
++ pcgcctl.b.rstpdwnmodule = 1;
++ pcgcctl.b.restoremode = 1;
++ DWC_WRITE_REG32(core_if->pcgcctl, pcgcctl.d32);
++
++ DWC_DEBUGPL(DBG_ANY, "%s called\n", __FUNCTION__);
++
++ return 1;
++}
++
++#ifdef CONFIG_USB_DWC_OTG_LPM
++/**
++ * This function hadles LPM transaction received interrupt.
++ */
++static int32_t dwc_otg_handle_lpm_intr(dwc_otg_core_if_t * core_if)
++{
++ glpmcfg_data_t lpmcfg;
++ gintsts_data_t gintsts;
++
++ if (!core_if->core_params->lpm_enable) {
++ DWC_PRINTF("Unexpected LPM interrupt\n");
++ }
++
++ lpmcfg.d32 = DWC_READ_REG32(&core_if->core_global_regs->glpmcfg);
++ DWC_PRINTF("LPM config register = 0x%08x\n", lpmcfg.d32);
++
++ if (dwc_otg_is_host_mode(core_if)) {
++ cil_hcd_sleep(core_if);
++ } else {
++ lpmcfg.b.hird_thres |= (1 << 4);
++ DWC_WRITE_REG32(&core_if->core_global_regs->glpmcfg,
++ lpmcfg.d32);
++ }
++
++ /* Examine prt_sleep_sts after TL1TokenTetry period max (10 us) */
++ dwc_udelay(10);
++ lpmcfg.d32 = DWC_READ_REG32(&core_if->core_global_regs->glpmcfg);
++ if (lpmcfg.b.prt_sleep_sts) {
++ /* Save the current state */
++ core_if->lx_state = DWC_OTG_L1;
++ }
++
++ /* Clear interrupt */
++ gintsts.d32 = 0;
++ gintsts.b.lpmtranrcvd = 1;
++ DWC_WRITE_REG32(&core_if->core_global_regs->gintsts, gintsts.d32);
++ return 1;
++}
++#endif /* CONFIG_USB_DWC_OTG_LPM */
++
++/**
++ * This function returns the Core Interrupt register.
++ */
++static inline uint32_t dwc_otg_read_common_intr(dwc_otg_core_if_t * core_if)
++{
++ gahbcfg_data_t gahbcfg = {.d32 = 0 };
++ gintsts_data_t gintsts;
++ gintmsk_data_t gintmsk;
++ gintmsk_data_t gintmsk_common = {.d32 = 0 };
++ gintmsk_common.b.wkupintr = 1;
++ gintmsk_common.b.sessreqintr = 1;
++ gintmsk_common.b.conidstschng = 1;
++ gintmsk_common.b.otgintr = 1;
++ gintmsk_common.b.modemismatch = 1;
++ gintmsk_common.b.disconnect = 1;
++ gintmsk_common.b.usbsuspend = 1;
++#ifdef CONFIG_USB_DWC_OTG_LPM
++ gintmsk_common.b.lpmtranrcvd = 1;
++#endif
++ gintmsk_common.b.restoredone = 1;
++ /** @todo: The port interrupt occurs while in device
++ * mode. Added code to CIL to clear the interrupt for now!
++ */
++ gintmsk_common.b.portintr = 1;
++
++ gintsts.d32 = DWC_READ_REG32(&core_if->core_global_regs->gintsts);
++ gintmsk.d32 = DWC_READ_REG32(&core_if->core_global_regs->gintmsk);
++ gahbcfg.d32 = DWC_READ_REG32(&core_if->core_global_regs->gahbcfg);
++
++#ifdef DEBUG
++ /* if any common interrupts set */
++ if (gintsts.d32 & gintmsk_common.d32) {
++ DWC_DEBUGPL(DBG_ANY, "gintsts=%08x gintmsk=%08x\n",
++ gintsts.d32, gintmsk.d32);
++ }
++#endif
++ if (!fiq_fix_enable){
++ if (gahbcfg.b.glblintrmsk)
++ return ((gintsts.d32 & gintmsk.d32) & gintmsk_common.d32);
++ else
++ return 0;
++ }
++ else {
++ return ((gintsts.d32 & gintmsk.d32) & gintmsk_common.d32);
++ }
++
++}
++
++/* MACRO for clearing interupt bits in GPWRDN register */
++#define CLEAR_GPWRDN_INTR(__core_if,__intr) \
++do { \
++ gpwrdn_data_t gpwrdn = {.d32=0}; \
++ gpwrdn.b.__intr = 1; \
++ DWC_MODIFY_REG32(&__core_if->core_global_regs->gpwrdn, \
++ 0, gpwrdn.d32); \
++} while (0)
++
++/**
++ * Common interrupt handler.
++ *
++ * The common interrupts are those that occur in both Host and Device mode.
++ * This handler handles the following interrupts:
++ * - Mode Mismatch Interrupt
++ * - Disconnect Interrupt
++ * - OTG Interrupt
++ * - Connector ID Status Change Interrupt
++ * - Session Request Interrupt.
++ * - Resume / Remote Wakeup Detected Interrupt.
++ * - LPM Transaction Received Interrupt
++ * - ADP Transaction Received Interrupt
++ *
++ */
++int32_t dwc_otg_handle_common_intr(void *dev)
++{
++ int retval = 0;
++ gintsts_data_t gintsts;
++ gpwrdn_data_t gpwrdn = {.d32 = 0 };
++ dwc_otg_device_t *otg_dev = dev;
++ dwc_otg_core_if_t *core_if = otg_dev->core_if;
++ gpwrdn.d32 = DWC_READ_REG32(&core_if->core_global_regs->gpwrdn);
++ if (dwc_otg_is_device_mode(core_if))
++ core_if->frame_num = dwc_otg_get_frame_number(core_if);
++
++ if (core_if->lock)
++ DWC_SPINLOCK(core_if->lock);
++
++ if (core_if->power_down == 3 && core_if->xhib == 1) {
++ DWC_DEBUGPL(DBG_ANY, "Exiting from xHIB state\n");
++ retval |= dwc_otg_handle_xhib_exit_intr(core_if);
++ core_if->xhib = 2;
++ if (core_if->lock)
++ DWC_SPINUNLOCK(core_if->lock);
++
++ return retval;
++ }
++
++ if (core_if->hibernation_suspend <= 0) {
++ gintsts.d32 = dwc_otg_read_common_intr(core_if);
++
++ if (gintsts.b.modemismatch) {
++ retval |= dwc_otg_handle_mode_mismatch_intr(core_if);
++ }
++ if (gintsts.b.otgintr) {
++ retval |= dwc_otg_handle_otg_intr(core_if);
++ }
++ if (gintsts.b.conidstschng) {
++ retval |=
++ dwc_otg_handle_conn_id_status_change_intr(core_if);
++ }
++ if (gintsts.b.disconnect) {
++ retval |= dwc_otg_handle_disconnect_intr(core_if);
++ }
++ if (gintsts.b.sessreqintr) {
++ retval |= dwc_otg_handle_session_req_intr(core_if);
++ }
++ if (gintsts.b.wkupintr) {
++ retval |= dwc_otg_handle_wakeup_detected_intr(core_if);
++ }
++ if (gintsts.b.usbsuspend) {
++ retval |= dwc_otg_handle_usb_suspend_intr(core_if);
++ }
++#ifdef CONFIG_USB_DWC_OTG_LPM
++ if (gintsts.b.lpmtranrcvd) {
++ retval |= dwc_otg_handle_lpm_intr(core_if);
++ }
++#endif
++ if (gintsts.b.restoredone) {
++ gintsts.d32 = 0;
++ if (core_if->power_down == 2)
++ core_if->hibernation_suspend = -1;
++ else if (core_if->power_down == 3 && core_if->xhib == 2) {
++ gpwrdn_data_t gpwrdn = {.d32 = 0 };
++ pcgcctl_data_t pcgcctl = {.d32 = 0 };
++ dctl_data_t dctl = {.d32 = 0 };
++
++ DWC_WRITE_REG32(&core_if->core_global_regs->
++ gintsts, 0xFFFFFFFF);
++
++ DWC_DEBUGPL(DBG_ANY,
++ "RESTORE DONE generated\n");
++
++ gpwrdn.b.restore = 1;
++ DWC_MODIFY_REG32(&core_if->core_global_regs->gpwrdn, gpwrdn.d32, 0);
++ dwc_udelay(10);
++
++ pcgcctl.b.rstpdwnmodule = 1;
++ DWC_MODIFY_REG32(core_if->pcgcctl, pcgcctl.d32, 0);
++
++ DWC_WRITE_REG32(&core_if->core_global_regs->gusbcfg, core_if->gr_backup->gusbcfg_local);
++ DWC_WRITE_REG32(&core_if->dev_if->dev_global_regs->dcfg, core_if->dr_backup->dcfg);
++ DWC_WRITE_REG32(&core_if->dev_if->dev_global_regs->dctl, core_if->dr_backup->dctl);
++ dwc_udelay(50);
++
++ dctl.b.pwronprgdone = 1;
++ DWC_MODIFY_REG32(&core_if->dev_if->dev_global_regs->dctl, 0, dctl.d32);
++ dwc_udelay(10);
++
++ dwc_otg_restore_global_regs(core_if);
++ dwc_otg_restore_dev_regs(core_if, 0);
++
++ dctl.d32 = 0;
++ dctl.b.pwronprgdone = 1;
++ DWC_MODIFY_REG32(&core_if->dev_if->dev_global_regs->dctl, dctl.d32, 0);
++ dwc_udelay(10);
++
++ pcgcctl.d32 = 0;
++ pcgcctl.b.enbl_extnd_hiber = 1;
++ DWC_MODIFY_REG32(core_if->pcgcctl, pcgcctl.d32, 0);
++
++ /* The core will be in ON STATE */
++ core_if->lx_state = DWC_OTG_L0;
++ core_if->xhib = 0;
++
++ DWC_SPINUNLOCK(core_if->lock);
++ if (core_if->pcd_cb && core_if->pcd_cb->resume_wakeup) {
++ core_if->pcd_cb->resume_wakeup(core_if->pcd_cb->p);
++ }
++ DWC_SPINLOCK(core_if->lock);
++
++ }
++
++ gintsts.b.restoredone = 1;
++ DWC_WRITE_REG32(&core_if->core_global_regs->gintsts,gintsts.d32);
++ DWC_PRINTF(" --Restore done interrupt received-- \n");
++ retval |= 1;
++ }
++ if (gintsts.b.portintr && dwc_otg_is_device_mode(core_if)) {
++ /* The port interrupt occurs while in device mode with HPRT0
++ * Port Enable/Disable.
++ */
++ gintsts.d32 = 0;
++ gintsts.b.portintr = 1;
++ DWC_WRITE_REG32(&core_if->core_global_regs->gintsts,gintsts.d32);
++ retval |= 1;
++
++ }
++ } else {
++ DWC_DEBUGPL(DBG_ANY, "gpwrdn=%08x\n", gpwrdn.d32);
++
++ if (gpwrdn.b.disconn_det && gpwrdn.b.disconn_det_msk) {
++ CLEAR_GPWRDN_INTR(core_if, disconn_det);
++ if (gpwrdn.b.linestate == 0) {
++ dwc_otg_handle_pwrdn_disconnect_intr(core_if);
++ } else {
++ DWC_PRINTF("Disconnect detected while linestate is not 0\n");
++ }
++
++ retval |= 1;
++ }
++ if (gpwrdn.b.lnstschng && gpwrdn.b.lnstchng_msk) {
++ CLEAR_GPWRDN_INTR(core_if, lnstschng);
++ /* remote wakeup from hibernation */
++ if (gpwrdn.b.linestate == 2 || gpwrdn.b.linestate == 1) {
++ dwc_otg_handle_pwrdn_wakeup_detected_intr(core_if);
++ } else {
++ DWC_PRINTF("gpwrdn.linestate = %d\n", gpwrdn.b.linestate);
++ }
++ retval |= 1;
++ }
++ if (gpwrdn.b.rst_det && gpwrdn.b.rst_det_msk) {
++ CLEAR_GPWRDN_INTR(core_if, rst_det);
++ if (gpwrdn.b.linestate == 0) {
++ DWC_PRINTF("Reset detected\n");
++ retval |= dwc_otg_device_hibernation_restore(core_if, 0, 1);
++ }
++ }
++ if (gpwrdn.b.srp_det && gpwrdn.b.srp_det_msk) {
++ CLEAR_GPWRDN_INTR(core_if, srp_det);
++ dwc_otg_handle_pwrdn_srp_intr(core_if);
++ retval |= 1;
++ }
++ }
++ /* Handle ADP interrupt here */
++ if (gpwrdn.b.adp_int) {
++ DWC_PRINTF("ADP interrupt\n");
++ CLEAR_GPWRDN_INTR(core_if, adp_int);
++ dwc_otg_adp_handle_intr(core_if);
++ retval |= 1;
++ }
++ if (gpwrdn.b.sts_chngint && gpwrdn.b.sts_chngint_msk) {
++ DWC_PRINTF("STS CHNG interrupt asserted\n");
++ CLEAR_GPWRDN_INTR(core_if, sts_chngint);
++ dwc_otg_handle_pwrdn_stschng_intr(otg_dev);
++
++ retval |= 1;
++ }
++ if (core_if->lock)
++ DWC_SPINUNLOCK(core_if->lock);
++
++ return retval;
++}
+diff -urN linux-3.10/drivers/usb/host/dwc_otg/dwc_otg_core_if.h linux-rpi-3.10.y/drivers/usb/host/dwc_otg/dwc_otg_core_if.h
+--- linux-3.10/drivers/usb/host/dwc_otg/dwc_otg_core_if.h 1970-01-01 01:00:00.000000000 +0100
++++ linux-rpi-3.10.y/drivers/usb/host/dwc_otg/dwc_otg_core_if.h 2013-07-06 15:25:50.000000000 +0100
+@@ -0,0 +1,705 @@
++/* ==========================================================================
++ * $File: //dwh/usb_iip/dev/software/otg/linux/drivers/dwc_otg_core_if.h $
++ * $Revision: #13 $
++ * $Date: 2012/08/10 $
++ * $Change: 2047372 $
++ *
++ * Synopsys HS OTG Linux Software Driver and documentation (hereinafter,
++ * "Software") is an Unsupported proprietary work of Synopsys, Inc. unless
++ * otherwise expressly agreed to in writing between Synopsys and you.
++ *
++ * The Software IS NOT an item of Licensed Software or Licensed Product under
++ * any End User Software License Agreement or Agreement for Licensed Product
++ * with Synopsys or any supplement thereto. You are permitted to use and
++ * redistribute this Software in source and binary forms, with or without
++ * modification, provided that redistributions of source code must retain this
++ * notice. You may not view, use, disclose, copy or distribute this file or
++ * any information contained herein except pursuant to this license grant from
++ * Synopsys. If you do not agree with this notice, including the disclaimer
++ * below, then you are not authorized to use the Software.
++ *
++ * THIS SOFTWARE IS BEING DISTRIBUTED BY SYNOPSYS SOLELY ON AN "AS IS" BASIS
++ * AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
++ * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE
++ * ARE HEREBY DISCLAIMED. IN NO EVENT SHALL SYNOPSYS BE LIABLE FOR ANY DIRECT,
++ * INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES
++ * (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR
++ * SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER
++ * CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT
++ * LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY
++ * OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH
++ * DAMAGE.
++ * ========================================================================== */
++#if !defined(__DWC_CORE_IF_H__)
++#define __DWC_CORE_IF_H__
++
++#include "dwc_os.h"
++
++/** @file
++ * This file defines DWC_OTG Core API
++ */
++
++struct dwc_otg_core_if;
++typedef struct dwc_otg_core_if dwc_otg_core_if_t;
++
++/** Maximum number of Periodic FIFOs */
++#define MAX_PERIO_FIFOS 15
++/** Maximum number of Periodic FIFOs */
++#define MAX_TX_FIFOS 15
++
++/** Maximum number of Endpoints/HostChannels */
++#define MAX_EPS_CHANNELS 16
++
++extern dwc_otg_core_if_t *dwc_otg_cil_init(const uint32_t * _reg_base_addr);
++extern void dwc_otg_core_init(dwc_otg_core_if_t * _core_if);
++extern void dwc_otg_cil_remove(dwc_otg_core_if_t * _core_if);
++
++extern void dwc_otg_enable_global_interrupts(dwc_otg_core_if_t * _core_if);
++extern void dwc_otg_disable_global_interrupts(dwc_otg_core_if_t * _core_if);
++
++extern uint8_t dwc_otg_is_device_mode(dwc_otg_core_if_t * _core_if);
++extern uint8_t dwc_otg_is_host_mode(dwc_otg_core_if_t * _core_if);
++
++extern uint8_t dwc_otg_is_dma_enable(dwc_otg_core_if_t * core_if);
++
++/** This function should be called on every hardware interrupt. */
++extern int32_t dwc_otg_handle_common_intr(void *otg_dev);
++
++/** @name OTG Core Parameters */
++/** @{ */
++
++/**
++ * Specifies the OTG capabilities. The driver will automatically
++ * detect the value for this parameter if none is specified.
++ * 0 - HNP and SRP capable (default)
++ * 1 - SRP Only capable
++ * 2 - No HNP/SRP capable
++ */
++extern int dwc_otg_set_param_otg_cap(dwc_otg_core_if_t * core_if, int32_t val);
++extern int32_t dwc_otg_get_param_otg_cap(dwc_otg_core_if_t * core_if);
++#define DWC_OTG_CAP_PARAM_HNP_SRP_CAPABLE 0
++#define DWC_OTG_CAP_PARAM_SRP_ONLY_CAPABLE 1
++#define DWC_OTG_CAP_PARAM_NO_HNP_SRP_CAPABLE 2
++#define dwc_param_otg_cap_default DWC_OTG_CAP_PARAM_HNP_SRP_CAPABLE
++
++extern int dwc_otg_set_param_opt(dwc_otg_core_if_t * core_if, int32_t val);
++extern int32_t dwc_otg_get_param_opt(dwc_otg_core_if_t * core_if);
++#define dwc_param_opt_default 1
++
++/**
++ * Specifies whether to use slave or DMA mode for accessing the data
++ * FIFOs. The driver will automatically detect the value for this
++ * parameter if none is specified.
++ * 0 - Slave
++ * 1 - DMA (default, if available)
++ */
++extern int dwc_otg_set_param_dma_enable(dwc_otg_core_if_t * core_if,
++ int32_t val);
++extern int32_t dwc_otg_get_param_dma_enable(dwc_otg_core_if_t * core_if);
++#define dwc_param_dma_enable_default 1
++
++/**
++ * When DMA mode is enabled specifies whether to use
++ * address DMA or DMA Descritor mode for accessing the data
++ * FIFOs in device mode. The driver will automatically detect
++ * the value for this parameter if none is specified.
++ * 0 - address DMA
++ * 1 - DMA Descriptor(default, if available)
++ */
++extern int dwc_otg_set_param_dma_desc_enable(dwc_otg_core_if_t * core_if,
++ int32_t val);
++extern int32_t dwc_otg_get_param_dma_desc_enable(dwc_otg_core_if_t * core_if);
++//#define dwc_param_dma_desc_enable_default 1
++#define dwc_param_dma_desc_enable_default 0 // Broadcom BCM2708
++
++/** The DMA Burst size (applicable only for External DMA
++ * Mode). 1, 4, 8 16, 32, 64, 128, 256 (default 32)
++ */
++extern int dwc_otg_set_param_dma_burst_size(dwc_otg_core_if_t * core_if,
++ int32_t val);
++extern int32_t dwc_otg_get_param_dma_burst_size(dwc_otg_core_if_t * core_if);
++#define dwc_param_dma_burst_size_default 32
++
++/**
++ * Specifies the maximum speed of operation in host and device mode.
++ * The actual speed depends on the speed of the attached device and
++ * the value of phy_type. The actual speed depends on the speed of the
++ * attached device.
++ * 0 - High Speed (default)
++ * 1 - Full Speed
++ */
++extern int dwc_otg_set_param_speed(dwc_otg_core_if_t * core_if, int32_t val);
++extern int32_t dwc_otg_get_param_speed(dwc_otg_core_if_t * core_if);
++#define dwc_param_speed_default 0
++#define DWC_SPEED_PARAM_HIGH 0
++#define DWC_SPEED_PARAM_FULL 1
++
++/** Specifies whether low power mode is supported when attached
++ * to a Full Speed or Low Speed device in host mode.
++ * 0 - Don't support low power mode (default)
++ * 1 - Support low power mode
++ */
++extern int dwc_otg_set_param_host_support_fs_ls_low_power(dwc_otg_core_if_t *
++ core_if, int32_t val);
++extern int32_t dwc_otg_get_param_host_support_fs_ls_low_power(dwc_otg_core_if_t
++ * core_if);
++#define dwc_param_host_support_fs_ls_low_power_default 0
++
++/** Specifies the PHY clock rate in low power mode when connected to a
++ * Low Speed device in host mode. This parameter is applicable only if
++ * HOST_SUPPORT_FS_LS_LOW_POWER is enabled. If PHY_TYPE is set to FS
++ * then defaults to 6 MHZ otherwise 48 MHZ.
++ *
++ * 0 - 48 MHz
++ * 1 - 6 MHz
++ */
++extern int dwc_otg_set_param_host_ls_low_power_phy_clk(dwc_otg_core_if_t *
++ core_if, int32_t val);
++extern int32_t dwc_otg_get_param_host_ls_low_power_phy_clk(dwc_otg_core_if_t *
++ core_if);
++#define dwc_param_host_ls_low_power_phy_clk_default 0
++#define DWC_HOST_LS_LOW_POWER_PHY_CLK_PARAM_48MHZ 0
++#define DWC_HOST_LS_LOW_POWER_PHY_CLK_PARAM_6MHZ 1
++
++/**
++ * 0 - Use cC FIFO size parameters
++ * 1 - Allow dynamic FIFO sizing (default)
++ */
++extern int dwc_otg_set_param_enable_dynamic_fifo(dwc_otg_core_if_t * core_if,
++ int32_t val);
++extern int32_t dwc_otg_get_param_enable_dynamic_fifo(dwc_otg_core_if_t *
++ core_if);
++#define dwc_param_enable_dynamic_fifo_default 1
++
++/** Total number of 4-byte words in the data FIFO memory. This
++ * memory includes the Rx FIFO, non-periodic Tx FIFO, and periodic
++ * Tx FIFOs.
++ * 32 to 32768 (default 8192)
++ * Note: The total FIFO memory depth in the FPGA configuration is 8192.
++ */
++extern int dwc_otg_set_param_data_fifo_size(dwc_otg_core_if_t * core_if,
++ int32_t val);
++extern int32_t dwc_otg_get_param_data_fifo_size(dwc_otg_core_if_t * core_if);
++//#define dwc_param_data_fifo_size_default 8192
++#define dwc_param_data_fifo_size_default 0xFF0 // Broadcom BCM2708
++
++/** Number of 4-byte words in the Rx FIFO in device mode when dynamic
++ * FIFO sizing is enabled.
++ * 16 to 32768 (default 1064)
++ */
++extern int dwc_otg_set_param_dev_rx_fifo_size(dwc_otg_core_if_t * core_if,
++ int32_t val);
++extern int32_t dwc_otg_get_param_dev_rx_fifo_size(dwc_otg_core_if_t * core_if);
++#define dwc_param_dev_rx_fifo_size_default 1064
++
++/** Number of 4-byte words in the non-periodic Tx FIFO in device mode
++ * when dynamic FIFO sizing is enabled.
++ * 16 to 32768 (default 1024)
++ */
++extern int dwc_otg_set_param_dev_nperio_tx_fifo_size(dwc_otg_core_if_t *
++ core_if, int32_t val);
++extern int32_t dwc_otg_get_param_dev_nperio_tx_fifo_size(dwc_otg_core_if_t *
++ core_if);
++#define dwc_param_dev_nperio_tx_fifo_size_default 1024
++
++/** Number of 4-byte words in each of the periodic Tx FIFOs in device
++ * mode when dynamic FIFO sizing is enabled.
++ * 4 to 768 (default 256)
++ */
++extern int dwc_otg_set_param_dev_perio_tx_fifo_size(dwc_otg_core_if_t * core_if,
++ int32_t val, int fifo_num);
++extern int32_t dwc_otg_get_param_dev_perio_tx_fifo_size(dwc_otg_core_if_t *
++ core_if, int fifo_num);
++#define dwc_param_dev_perio_tx_fifo_size_default 256
++
++/** Number of 4-byte words in the Rx FIFO in host mode when dynamic
++ * FIFO sizing is enabled.
++ * 16 to 32768 (default 1024)
++ */
++extern int dwc_otg_set_param_host_rx_fifo_size(dwc_otg_core_if_t * core_if,
++ int32_t val);
++extern int32_t dwc_otg_get_param_host_rx_fifo_size(dwc_otg_core_if_t * core_if);
++//#define dwc_param_host_rx_fifo_size_default 1024
++#define dwc_param_host_rx_fifo_size_default 774 // Broadcom BCM2708
++
++/** Number of 4-byte words in the non-periodic Tx FIFO in host mode
++ * when Dynamic FIFO sizing is enabled in the core.
++ * 16 to 32768 (default 1024)
++ */
++extern int dwc_otg_set_param_host_nperio_tx_fifo_size(dwc_otg_core_if_t *
++ core_if, int32_t val);
++extern int32_t dwc_otg_get_param_host_nperio_tx_fifo_size(dwc_otg_core_if_t *
++ core_if);
++//#define dwc_param_host_nperio_tx_fifo_size_default 1024
++#define dwc_param_host_nperio_tx_fifo_size_default 0x100 // Broadcom BCM2708
++
++/** Number of 4-byte words in the host periodic Tx FIFO when dynamic
++ * FIFO sizing is enabled.
++ * 16 to 32768 (default 1024)
++ */
++extern int dwc_otg_set_param_host_perio_tx_fifo_size(dwc_otg_core_if_t *
++ core_if, int32_t val);
++extern int32_t dwc_otg_get_param_host_perio_tx_fifo_size(dwc_otg_core_if_t *
++ core_if);
++//#define dwc_param_host_perio_tx_fifo_size_default 1024
++#define dwc_param_host_perio_tx_fifo_size_default 0x200 // Broadcom BCM2708
++
++/** The maximum transfer size supported in bytes.
++ * 2047 to 65,535 (default 65,535)
++ */
++extern int dwc_otg_set_param_max_transfer_size(dwc_otg_core_if_t * core_if,
++ int32_t val);
++extern int32_t dwc_otg_get_param_max_transfer_size(dwc_otg_core_if_t * core_if);
++#define dwc_param_max_transfer_size_default 65535
++
++/** The maximum number of packets in a transfer.
++ * 15 to 511 (default 511)
++ */
++extern int dwc_otg_set_param_max_packet_count(dwc_otg_core_if_t * core_if,
++ int32_t val);
++extern int32_t dwc_otg_get_param_max_packet_count(dwc_otg_core_if_t * core_if);
++#define dwc_param_max_packet_count_default 511
++
++/** The number of host channel registers to use.
++ * 1 to 16 (default 12)
++ * Note: The FPGA configuration supports a maximum of 12 host channels.
++ */
++extern int dwc_otg_set_param_host_channels(dwc_otg_core_if_t * core_if,
++ int32_t val);
++extern int32_t dwc_otg_get_param_host_channels(dwc_otg_core_if_t * core_if);
++//#define dwc_param_host_channels_default 12
++#define dwc_param_host_channels_default 8 // Broadcom BCM2708
++
++/** The number of endpoints in addition to EP0 available for device
++ * mode operations.
++ * 1 to 15 (default 6 IN and OUT)
++ * Note: The FPGA configuration supports a maximum of 6 IN and OUT
++ * endpoints in addition to EP0.
++ */
++extern int dwc_otg_set_param_dev_endpoints(dwc_otg_core_if_t * core_if,
++ int32_t val);
++extern int32_t dwc_otg_get_param_dev_endpoints(dwc_otg_core_if_t * core_if);
++#define dwc_param_dev_endpoints_default 6
++
++/**
++ * Specifies the type of PHY interface to use. By default, the driver
++ * will automatically detect the phy_type.
++ *
++ * 0 - Full Speed PHY
++ * 1 - UTMI+ (default)
++ * 2 - ULPI
++ */
++extern int dwc_otg_set_param_phy_type(dwc_otg_core_if_t * core_if, int32_t val);
++extern int32_t dwc_otg_get_param_phy_type(dwc_otg_core_if_t * core_if);
++#define DWC_PHY_TYPE_PARAM_FS 0
++#define DWC_PHY_TYPE_PARAM_UTMI 1
++#define DWC_PHY_TYPE_PARAM_ULPI 2
++#define dwc_param_phy_type_default DWC_PHY_TYPE_PARAM_UTMI
++
++/**
++ * Specifies the UTMI+ Data Width. This parameter is
++ * applicable for a PHY_TYPE of UTMI+ or ULPI. (For a ULPI
++ * PHY_TYPE, this parameter indicates the data width between
++ * the MAC and the ULPI Wrapper.) Also, this parameter is
++ * applicable only if the OTG_HSPHY_WIDTH cC parameter was set
++ * to "8 and 16 bits", meaning that the core has been
++ * configured to work at either data path width.
++ *
++ * 8 or 16 bits (default 16)
++ */
++extern int dwc_otg_set_param_phy_utmi_width(dwc_otg_core_if_t * core_if,
++ int32_t val);
++extern int32_t dwc_otg_get_param_phy_utmi_width(dwc_otg_core_if_t * core_if);
++//#define dwc_param_phy_utmi_width_default 16
++#define dwc_param_phy_utmi_width_default 8 // Broadcom BCM2708
++
++/**
++ * Specifies whether the ULPI operates at double or single
++ * data rate. This parameter is only applicable if PHY_TYPE is
++ * ULPI.
++ *
++ * 0 - single data rate ULPI interface with 8 bit wide data
++ * bus (default)
++ * 1 - double data rate ULPI interface with 4 bit wide data
++ * bus
++ */
++extern int dwc_otg_set_param_phy_ulpi_ddr(dwc_otg_core_if_t * core_if,
++ int32_t val);
++extern int32_t dwc_otg_get_param_phy_ulpi_ddr(dwc_otg_core_if_t * core_if);
++#define dwc_param_phy_ulpi_ddr_default 0
++
++/**
++ * Specifies whether to use the internal or external supply to
++ * drive the vbus with a ULPI phy.
++ */
++extern int dwc_otg_set_param_phy_ulpi_ext_vbus(dwc_otg_core_if_t * core_if,
++ int32_t val);
++extern int32_t dwc_otg_get_param_phy_ulpi_ext_vbus(dwc_otg_core_if_t * core_if);
++#define DWC_PHY_ULPI_INTERNAL_VBUS 0
++#define DWC_PHY_ULPI_EXTERNAL_VBUS 1
++#define dwc_param_phy_ulpi_ext_vbus_default DWC_PHY_ULPI_INTERNAL_VBUS
++
++/**
++ * Specifies whether to use the I2Cinterface for full speed PHY. This
++ * parameter is only applicable if PHY_TYPE is FS.
++ * 0 - No (default)
++ * 1 - Yes
++ */
++extern int dwc_otg_set_param_i2c_enable(dwc_otg_core_if_t * core_if,
++ int32_t val);
++extern int32_t dwc_otg_get_param_i2c_enable(dwc_otg_core_if_t * core_if);
++#define dwc_param_i2c_enable_default 0
++
++extern int dwc_otg_set_param_ulpi_fs_ls(dwc_otg_core_if_t * core_if,
++ int32_t val);
++extern int32_t dwc_otg_get_param_ulpi_fs_ls(dwc_otg_core_if_t * core_if);
++#define dwc_param_ulpi_fs_ls_default 0
++
++extern int dwc_otg_set_param_ts_dline(dwc_otg_core_if_t * core_if, int32_t val);
++extern int32_t dwc_otg_get_param_ts_dline(dwc_otg_core_if_t * core_if);
++#define dwc_param_ts_dline_default 0
++
++/**
++ * Specifies whether dedicated transmit FIFOs are
++ * enabled for non periodic IN endpoints in device mode
++ * 0 - No
++ * 1 - Yes
++ */
++extern int dwc_otg_set_param_en_multiple_tx_fifo(dwc_otg_core_if_t * core_if,
++ int32_t val);
++extern int32_t dwc_otg_get_param_en_multiple_tx_fifo(dwc_otg_core_if_t *
++ core_if);
++#define dwc_param_en_multiple_tx_fifo_default 1
++
++/** Number of 4-byte words in each of the Tx FIFOs in device
++ * mode when dynamic FIFO sizing is enabled.
++ * 4 to 768 (default 256)
++ */
++extern int dwc_otg_set_param_dev_tx_fifo_size(dwc_otg_core_if_t * core_if,
++ int fifo_num, int32_t val);
++extern int32_t dwc_otg_get_param_dev_tx_fifo_size(dwc_otg_core_if_t * core_if,
++ int fifo_num);
++#define dwc_param_dev_tx_fifo_size_default 768
++
++/** Thresholding enable flag-
++ * bit 0 - enable non-ISO Tx thresholding
++ * bit 1 - enable ISO Tx thresholding
++ * bit 2 - enable Rx thresholding
++ */
++extern int dwc_otg_set_param_thr_ctl(dwc_otg_core_if_t * core_if, int32_t val);
++extern int32_t dwc_otg_get_thr_ctl(dwc_otg_core_if_t * core_if, int fifo_num);
++#define dwc_param_thr_ctl_default 0
++
++/** Thresholding length for Tx
++ * FIFOs in 32 bit DWORDs
++ */
++extern int dwc_otg_set_param_tx_thr_length(dwc_otg_core_if_t * core_if,
++ int32_t val);
++extern int32_t dwc_otg_get_tx_thr_length(dwc_otg_core_if_t * core_if);
++#define dwc_param_tx_thr_length_default 64
++
++/** Thresholding length for Rx
++ * FIFOs in 32 bit DWORDs
++ */
++extern int dwc_otg_set_param_rx_thr_length(dwc_otg_core_if_t * core_if,
++ int32_t val);
++extern int32_t dwc_otg_get_rx_thr_length(dwc_otg_core_if_t * core_if);
++#define dwc_param_rx_thr_length_default 64
++
++/**
++ * Specifies whether LPM (Link Power Management) support is enabled
++ */
++extern int dwc_otg_set_param_lpm_enable(dwc_otg_core_if_t * core_if,
++ int32_t val);
++extern int32_t dwc_otg_get_param_lpm_enable(dwc_otg_core_if_t * core_if);
++#define dwc_param_lpm_enable_default 1
++
++/**
++ * Specifies whether PTI enhancement is enabled
++ */
++extern int dwc_otg_set_param_pti_enable(dwc_otg_core_if_t * core_if,
++ int32_t val);
++extern int32_t dwc_otg_get_param_pti_enable(dwc_otg_core_if_t * core_if);
++#define dwc_param_pti_enable_default 0
++
++/**
++ * Specifies whether MPI enhancement is enabled
++ */
++extern int dwc_otg_set_param_mpi_enable(dwc_otg_core_if_t * core_if,
++ int32_t val);
++extern int32_t dwc_otg_get_param_mpi_enable(dwc_otg_core_if_t * core_if);
++#define dwc_param_mpi_enable_default 0
++
++/**
++ * Specifies whether ADP capability is enabled
++ */
++extern int dwc_otg_set_param_adp_enable(dwc_otg_core_if_t * core_if,
++ int32_t val);
++extern int32_t dwc_otg_get_param_adp_enable(dwc_otg_core_if_t * core_if);
++#define dwc_param_adp_enable_default 0
++
++/**
++ * Specifies whether IC_USB capability is enabled
++ */
++
++extern int dwc_otg_set_param_ic_usb_cap(dwc_otg_core_if_t * core_if,
++ int32_t val);
++extern int32_t dwc_otg_get_param_ic_usb_cap(dwc_otg_core_if_t * core_if);
++#define dwc_param_ic_usb_cap_default 0
++
++extern int dwc_otg_set_param_ahb_thr_ratio(dwc_otg_core_if_t * core_if,
++ int32_t val);
++extern int32_t dwc_otg_get_param_ahb_thr_ratio(dwc_otg_core_if_t * core_if);
++#define dwc_param_ahb_thr_ratio_default 0
++
++extern int dwc_otg_set_param_power_down(dwc_otg_core_if_t * core_if,
++ int32_t val);
++extern int32_t dwc_otg_get_param_power_down(dwc_otg_core_if_t * core_if);
++#define dwc_param_power_down_default 0
++
++extern int dwc_otg_set_param_reload_ctl(dwc_otg_core_if_t * core_if,
++ int32_t val);
++extern int32_t dwc_otg_get_param_reload_ctl(dwc_otg_core_if_t * core_if);
++#define dwc_param_reload_ctl_default 0
++
++extern int dwc_otg_set_param_dev_out_nak(dwc_otg_core_if_t * core_if,
++ int32_t val);
++extern int32_t dwc_otg_get_param_dev_out_nak(dwc_otg_core_if_t * core_if);
++#define dwc_param_dev_out_nak_default 0
++
++extern int dwc_otg_set_param_cont_on_bna(dwc_otg_core_if_t * core_if,
++ int32_t val);
++extern int32_t dwc_otg_get_param_cont_on_bna(dwc_otg_core_if_t * core_if);
++#define dwc_param_cont_on_bna_default 0
++
++extern int dwc_otg_set_param_ahb_single(dwc_otg_core_if_t * core_if,
++ int32_t val);
++extern int32_t dwc_otg_get_param_ahb_single(dwc_otg_core_if_t * core_if);
++#define dwc_param_ahb_single_default 0
++
++extern int dwc_otg_set_param_otg_ver(dwc_otg_core_if_t * core_if, int32_t val);
++extern int32_t dwc_otg_get_param_otg_ver(dwc_otg_core_if_t * core_if);
++#define dwc_param_otg_ver_default 0
++
++/** @} */
++
++/** @name Access to registers and bit-fields */
++
++/**
++ * Dump core registers and SPRAM
++ */
++extern void dwc_otg_dump_dev_registers(dwc_otg_core_if_t * _core_if);
++extern void dwc_otg_dump_spram(dwc_otg_core_if_t * _core_if);
++extern void dwc_otg_dump_host_registers(dwc_otg_core_if_t * _core_if);
++extern void dwc_otg_dump_global_registers(dwc_otg_core_if_t * _core_if);
++
++/**
++ * Get host negotiation status.
++ */
++extern uint32_t dwc_otg_get_hnpstatus(dwc_otg_core_if_t * core_if);
++
++/**
++ * Get srp status
++ */
++extern uint32_t dwc_otg_get_srpstatus(dwc_otg_core_if_t * core_if);
++
++/**
++ * Set hnpreq bit in the GOTGCTL register.
++ */
++extern void dwc_otg_set_hnpreq(dwc_otg_core_if_t * core_if, uint32_t val);
++
++/**
++ * Get Content of SNPSID register.
++ */
++extern uint32_t dwc_otg_get_gsnpsid(dwc_otg_core_if_t * core_if);
++
++/**
++ * Get current mode.
++ * Returns 0 if in device mode, and 1 if in host mode.
++ */
++extern uint32_t dwc_otg_get_mode(dwc_otg_core_if_t * core_if);
++
++/**
++ * Get value of hnpcapable field in the GUSBCFG register
++ */
++extern uint32_t dwc_otg_get_hnpcapable(dwc_otg_core_if_t * core_if);
++/**
++ * Set value of hnpcapable field in the GUSBCFG register
++ */
++extern void dwc_otg_set_hnpcapable(dwc_otg_core_if_t * core_if, uint32_t val);
++
++/**
++ * Get value of srpcapable field in the GUSBCFG register
++ */
++extern uint32_t dwc_otg_get_srpcapable(dwc_otg_core_if_t * core_if);
++/**
++ * Set value of srpcapable field in the GUSBCFG register
++ */
++extern void dwc_otg_set_srpcapable(dwc_otg_core_if_t * core_if, uint32_t val);
++
++/**
++ * Get value of devspeed field in the DCFG register
++ */
++extern uint32_t dwc_otg_get_devspeed(dwc_otg_core_if_t * core_if);
++/**
++ * Set value of devspeed field in the DCFG register
++ */
++extern void dwc_otg_set_devspeed(dwc_otg_core_if_t * core_if, uint32_t val);
++
++/**
++ * Get the value of busconnected field from the HPRT0 register
++ */
++extern uint32_t dwc_otg_get_busconnected(dwc_otg_core_if_t * core_if);
++
++/**
++ * Gets the device enumeration Speed.
++ */
++extern uint32_t dwc_otg_get_enumspeed(dwc_otg_core_if_t * core_if);
++
++/**
++ * Get value of prtpwr field from the HPRT0 register
++ */
++extern uint32_t dwc_otg_get_prtpower(dwc_otg_core_if_t * core_if);
++
++/**
++ * Get value of flag indicating core state - hibernated or not
++ */
++extern uint32_t dwc_otg_get_core_state(dwc_otg_core_if_t * core_if);
++
++/**
++ * Set value of prtpwr field from the HPRT0 register
++ */
++extern void dwc_otg_set_prtpower(dwc_otg_core_if_t * core_if, uint32_t val);
++
++/**
++ * Get value of prtsusp field from the HPRT0 regsiter
++ */
++extern uint32_t dwc_otg_get_prtsuspend(dwc_otg_core_if_t * core_if);
++/**
++ * Set value of prtpwr field from the HPRT0 register
++ */
++extern void dwc_otg_set_prtsuspend(dwc_otg_core_if_t * core_if, uint32_t val);
++
++/**
++ * Get value of ModeChTimEn field from the HCFG regsiter
++ */
++extern uint32_t dwc_otg_get_mode_ch_tim(dwc_otg_core_if_t * core_if);
++/**
++ * Set value of ModeChTimEn field from the HCFG regsiter
++ */
++extern void dwc_otg_set_mode_ch_tim(dwc_otg_core_if_t * core_if, uint32_t val);
++
++/**
++ * Get value of Fram Interval field from the HFIR regsiter
++ */
++extern uint32_t dwc_otg_get_fr_interval(dwc_otg_core_if_t * core_if);
++/**
++ * Set value of Frame Interval field from the HFIR regsiter
++ */
++extern void dwc_otg_set_fr_interval(dwc_otg_core_if_t * core_if, uint32_t val);
++
++/**
++ * Set value of prtres field from the HPRT0 register
++ *FIXME Remove?
++ */
++extern void dwc_otg_set_prtresume(dwc_otg_core_if_t * core_if, uint32_t val);
++
++/**
++ * Get value of rmtwkupsig bit in DCTL register
++ */
++extern uint32_t dwc_otg_get_remotewakesig(dwc_otg_core_if_t * core_if);
++
++/**
++ * Get value of prt_sleep_sts field from the GLPMCFG register
++ */
++extern uint32_t dwc_otg_get_lpm_portsleepstatus(dwc_otg_core_if_t * core_if);
++
++/**
++ * Get value of rem_wkup_en field from the GLPMCFG register
++ */
++extern uint32_t dwc_otg_get_lpm_remotewakeenabled(dwc_otg_core_if_t * core_if);
++
++/**
++ * Get value of appl_resp field from the GLPMCFG register
++ */
++extern uint32_t dwc_otg_get_lpmresponse(dwc_otg_core_if_t * core_if);
++/**
++ * Set value of appl_resp field from the GLPMCFG register
++ */
++extern void dwc_otg_set_lpmresponse(dwc_otg_core_if_t * core_if, uint32_t val);
++
++/**
++ * Get value of hsic_connect field from the GLPMCFG register
++ */
++extern uint32_t dwc_otg_get_hsic_connect(dwc_otg_core_if_t * core_if);
++/**
++ * Set value of hsic_connect field from the GLPMCFG register
++ */
++extern void dwc_otg_set_hsic_connect(dwc_otg_core_if_t * core_if, uint32_t val);
++
++/**
++ * Get value of inv_sel_hsic field from the GLPMCFG register.
++ */
++extern uint32_t dwc_otg_get_inv_sel_hsic(dwc_otg_core_if_t * core_if);
++/**
++ * Set value of inv_sel_hsic field from the GLPMFG register.
++ */
++extern void dwc_otg_set_inv_sel_hsic(dwc_otg_core_if_t * core_if, uint32_t val);
++
++/*
++ * Some functions for accessing registers
++ */
++
++/**
++ * GOTGCTL register
++ */
++extern uint32_t dwc_otg_get_gotgctl(dwc_otg_core_if_t * core_if);
++extern void dwc_otg_set_gotgctl(dwc_otg_core_if_t * core_if, uint32_t val);
++
++/**
++ * GUSBCFG register
++ */
++extern uint32_t dwc_otg_get_gusbcfg(dwc_otg_core_if_t * core_if);
++extern void dwc_otg_set_gusbcfg(dwc_otg_core_if_t * core_if, uint32_t val);
++
++/**
++ * GRXFSIZ register
++ */
++extern uint32_t dwc_otg_get_grxfsiz(dwc_otg_core_if_t * core_if);
++extern void dwc_otg_set_grxfsiz(dwc_otg_core_if_t * core_if, uint32_t val);
++
++/**
++ * GNPTXFSIZ register
++ */
++extern uint32_t dwc_otg_get_gnptxfsiz(dwc_otg_core_if_t * core_if);
++extern void dwc_otg_set_gnptxfsiz(dwc_otg_core_if_t * core_if, uint32_t val);
++
++extern uint32_t dwc_otg_get_gpvndctl(dwc_otg_core_if_t * core_if);
++extern void dwc_otg_set_gpvndctl(dwc_otg_core_if_t * core_if, uint32_t val);
++
++/**
++ * GGPIO register
++ */
++extern uint32_t dwc_otg_get_ggpio(dwc_otg_core_if_t * core_if);
++extern void dwc_otg_set_ggpio(dwc_otg_core_if_t * core_if, uint32_t val);
++
++/**
++ * GUID register
++ */
++extern uint32_t dwc_otg_get_guid(dwc_otg_core_if_t * core_if);
++extern void dwc_otg_set_guid(dwc_otg_core_if_t * core_if, uint32_t val);
++
++/**
++ * HPRT0 register
++ */
++extern uint32_t dwc_otg_get_hprt0(dwc_otg_core_if_t * core_if);
++extern void dwc_otg_set_hprt0(dwc_otg_core_if_t * core_if, uint32_t val);
++
++/**
++ * GHPTXFSIZE
++ */
++extern uint32_t dwc_otg_get_hptxfsiz(dwc_otg_core_if_t * core_if);
++
++/** @} */
++
++#endif /* __DWC_CORE_IF_H__ */
+diff -urN linux-3.10/drivers/usb/host/dwc_otg/dwc_otg_dbg.h linux-rpi-3.10.y/drivers/usb/host/dwc_otg/dwc_otg_dbg.h
+--- linux-3.10/drivers/usb/host/dwc_otg/dwc_otg_dbg.h 1970-01-01 01:00:00.000000000 +0100
++++ linux-rpi-3.10.y/drivers/usb/host/dwc_otg/dwc_otg_dbg.h 2013-07-06 15:25:50.000000000 +0100
+@@ -0,0 +1,117 @@
++/* ==========================================================================
++ *
++ * Synopsys HS OTG Linux Software Driver and documentation (hereinafter,
++ * "Software") is an Unsupported proprietary work of Synopsys, Inc. unless
++ * otherwise expressly agreed to in writing between Synopsys and you.
++ *
++ * The Software IS NOT an item of Licensed Software or Licensed Product under
++ * any End User Software License Agreement or Agreement for Licensed Product
++ * with Synopsys or any supplement thereto. You are permitted to use and
++ * redistribute this Software in source and binary forms, with or without
++ * modification, provided that redistributions of source code must retain this
++ * notice. You may not view, use, disclose, copy or distribute this file or
++ * any information contained herein except pursuant to this license grant from
++ * Synopsys. If you do not agree with this notice, including the disclaimer
++ * below, then you are not authorized to use the Software.
++ *
++ * THIS SOFTWARE IS BEING DISTRIBUTED BY SYNOPSYS SOLELY ON AN "AS IS" BASIS
++ * AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
++ * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE
++ * ARE HEREBY DISCLAIMED. IN NO EVENT SHALL SYNOPSYS BE LIABLE FOR ANY DIRECT,
++ * INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES
++ * (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR
++ * SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER
++ * CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT
++ * LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY
++ * OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH
++ * DAMAGE.
++ * ========================================================================== */
++
++#ifndef __DWC_OTG_DBG_H__
++#define __DWC_OTG_DBG_H__
++
++/** @file
++ * This file defines debug levels.
++ * Debugging support vanishes in non-debug builds.
++ */
++
++/**
++ * The Debug Level bit-mask variable.
++ */
++extern uint32_t g_dbg_lvl;
++/**
++ * Set the Debug Level variable.
++ */
++static inline uint32_t SET_DEBUG_LEVEL(const uint32_t new)
++{
++ uint32_t old = g_dbg_lvl;
++ g_dbg_lvl = new;
++ return old;
++}
++
++#define DBG_USER (0x1)
++/** When debug level has the DBG_CIL bit set, display CIL Debug messages. */
++#define DBG_CIL (0x2)
++/** When debug level has the DBG_CILV bit set, display CIL Verbose debug
++ * messages */
++#define DBG_CILV (0x20)
++/** When debug level has the DBG_PCD bit set, display PCD (Device) debug
++ * messages */
++#define DBG_PCD (0x4)
++/** When debug level has the DBG_PCDV set, display PCD (Device) Verbose debug
++ * messages */
++#define DBG_PCDV (0x40)
++/** When debug level has the DBG_HCD bit set, display Host debug messages */
++#define DBG_HCD (0x8)
++/** When debug level has the DBG_HCDV bit set, display Verbose Host debug
++ * messages */
++#define DBG_HCDV (0x80)
++/** When debug level has the DBG_HCD_URB bit set, display enqueued URBs in host
++ * mode. */
++#define DBG_HCD_URB (0x800)
++/** When debug level has the DBG_HCDI bit set, display host interrupt
++ * messages. */
++#define DBG_HCDI (0x1000)
++
++/** When debug level has any bit set, display debug messages */
++#define DBG_ANY (0xFF)
++
++/** All debug messages off */
++#define DBG_OFF 0
++
++/** Prefix string for DWC_DEBUG print macros. */
++#define USB_DWC "DWC_otg: "
++
++/**
++ * Print a debug message when the Global debug level variable contains
++ * the bit defined in <code>lvl</code>.
++ *
++ * @param[in] lvl - Debug level, use one of the DBG_ constants above.
++ * @param[in] x - like printf
++ *
++ * Example:<p>
++ * <code>
++ * DWC_DEBUGPL( DBG_ANY, "%s(%p)\n", __func__, _reg_base_addr);
++ * </code>
++ * <br>
++ * results in:<br>
++ * <code>
++ * usb-DWC_otg: dwc_otg_cil_init(ca867000)
++ * </code>
++ */
++#ifdef DEBUG
++
++# define DWC_DEBUGPL(lvl, x...) do{ if ((lvl)&g_dbg_lvl)__DWC_DEBUG(USB_DWC x ); }while(0)
++# define DWC_DEBUGP(x...) DWC_DEBUGPL(DBG_ANY, x )
++
++# define CHK_DEBUG_LEVEL(level) ((level) & g_dbg_lvl)
++
++#else
++
++# define DWC_DEBUGPL(lvl, x...) do{}while(0)
++# define DWC_DEBUGP(x...)
++
++# define CHK_DEBUG_LEVEL(level) (0)
++
++#endif /*DEBUG*/
++#endif
+diff -urN linux-3.10/drivers/usb/host/dwc_otg/dwc_otg_driver.c linux-rpi-3.10.y/drivers/usb/host/dwc_otg/dwc_otg_driver.c
+--- linux-3.10/drivers/usb/host/dwc_otg/dwc_otg_driver.c 1970-01-01 01:00:00.000000000 +0100
++++ linux-rpi-3.10.y/drivers/usb/host/dwc_otg/dwc_otg_driver.c 2013-07-06 15:25:50.000000000 +0100
+@@ -0,0 +1,1732 @@
++/* ==========================================================================
++ * $File: //dwh/usb_iip/dev/software/otg/linux/drivers/dwc_otg_driver.c $
++ * $Revision: #92 $
++ * $Date: 2012/08/10 $
++ * $Change: 2047372 $
++ *
++ * Synopsys HS OTG Linux Software Driver and documentation (hereinafter,
++ * "Software") is an Unsupported proprietary work of Synopsys, Inc. unless
++ * otherwise expressly agreed to in writing between Synopsys and you.
++ *
++ * The Software IS NOT an item of Licensed Software or Licensed Product under
++ * any End User Software License Agreement or Agreement for Licensed Product
++ * with Synopsys or any supplement thereto. You are permitted to use and
++ * redistribute this Software in source and binary forms, with or without
++ * modification, provided that redistributions of source code must retain this
++ * notice. You may not view, use, disclose, copy or distribute this file or
++ * any information contained herein except pursuant to this license grant from
++ * Synopsys. If you do not agree with this notice, including the disclaimer
++ * below, then you are not authorized to use the Software.
++ *
++ * THIS SOFTWARE IS BEING DISTRIBUTED BY SYNOPSYS SOLELY ON AN "AS IS" BASIS
++ * AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
++ * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE
++ * ARE HEREBY DISCLAIMED. IN NO EVENT SHALL SYNOPSYS BE LIABLE FOR ANY DIRECT,
++ * INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES
++ * (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR
++ * SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER
++ * CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT
++ * LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY
++ * OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH
++ * DAMAGE.
++ * ========================================================================== */
++
++/** @file
++ * The dwc_otg_driver module provides the initialization and cleanup entry
++ * points for the DWC_otg driver. This module will be dynamically installed
++ * after Linux is booted using the insmod command. When the module is
++ * installed, the dwc_otg_driver_init function is called. When the module is
++ * removed (using rmmod), the dwc_otg_driver_cleanup function is called.
++ *
++ * This module also defines a data structure for the dwc_otg_driver, which is
++ * used in conjunction with the standard ARM lm_device structure. These
++ * structures allow the OTG driver to comply with the standard Linux driver
++ * model in which devices and drivers are registered with a bus driver. This
++ * has the benefit that Linux can expose attributes of the driver and device
++ * in its special sysfs file system. Users can then read or write files in
++ * this file system to perform diagnostics on the driver components or the
++ * device.
++ */
++
++#include "dwc_otg_os_dep.h"
++#include "dwc_os.h"
++#include "dwc_otg_dbg.h"
++#include "dwc_otg_driver.h"
++#include "dwc_otg_attr.h"
++#include "dwc_otg_core_if.h"
++#include "dwc_otg_pcd_if.h"
++#include "dwc_otg_hcd_if.h"
++
++#define DWC_DRIVER_VERSION "3.00a 10-AUG-2012"
++#define DWC_DRIVER_DESC "HS OTG USB Controller driver"
++
++bool microframe_schedule=true;
++
++static const char dwc_driver_name[] = "dwc_otg";
++
++extern void* dummy_send;
++
++extern int pcd_init(
++#ifdef LM_INTERFACE
++ struct lm_device *_dev
++#elif defined(PCI_INTERFACE)
++ struct pci_dev *_dev
++#elif defined(PLATFORM_INTERFACE)
++ struct platform_device *dev
++#endif
++ );
++extern int hcd_init(
++#ifdef LM_INTERFACE
++ struct lm_device *_dev
++#elif defined(PCI_INTERFACE)
++ struct pci_dev *_dev
++#elif defined(PLATFORM_INTERFACE)
++ struct platform_device *dev
++#endif
++ );
++
++extern int pcd_remove(
++#ifdef LM_INTERFACE
++ struct lm_device *_dev
++#elif defined(PCI_INTERFACE)
++ struct pci_dev *_dev
++#elif defined(PLATFORM_INTERFACE)
++ struct platform_device *_dev
++#endif
++ );
++
++extern void hcd_remove(
++#ifdef LM_INTERFACE
++ struct lm_device *_dev
++#elif defined(PCI_INTERFACE)
++ struct pci_dev *_dev
++#elif defined(PLATFORM_INTERFACE)
++ struct platform_device *_dev
++#endif
++ );
++
++extern void dwc_otg_adp_start(dwc_otg_core_if_t * core_if, uint8_t is_host);
++
++/*-------------------------------------------------------------------------*/
++/* Encapsulate the module parameter settings */
++
++struct dwc_otg_driver_module_params {
++ int32_t opt;
++ int32_t otg_cap;
++ int32_t dma_enable;
++ int32_t dma_desc_enable;
++ int32_t dma_burst_size;
++ int32_t speed;
++ int32_t host_support_fs_ls_low_power;
++ int32_t host_ls_low_power_phy_clk;
++ int32_t enable_dynamic_fifo;
++ int32_t data_fifo_size;
++ int32_t dev_rx_fifo_size;
++ int32_t dev_nperio_tx_fifo_size;
++ uint32_t dev_perio_tx_fifo_size[MAX_PERIO_FIFOS];
++ int32_t host_rx_fifo_size;
++ int32_t host_nperio_tx_fifo_size;
++ int32_t host_perio_tx_fifo_size;
++ int32_t max_transfer_size;
++ int32_t max_packet_count;
++ int32_t host_channels;
++ int32_t dev_endpoints;
++ int32_t phy_type;
++ int32_t phy_utmi_width;
++ int32_t phy_ulpi_ddr;
++ int32_t phy_ulpi_ext_vbus;
++ int32_t i2c_enable;
++ int32_t ulpi_fs_ls;
++ int32_t ts_dline;
++ int32_t en_multiple_tx_fifo;
++ uint32_t dev_tx_fifo_size[MAX_TX_FIFOS];
++ uint32_t thr_ctl;
++ uint32_t tx_thr_length;
++ uint32_t rx_thr_length;
++ int32_t pti_enable;
++ int32_t mpi_enable;
++ int32_t lpm_enable;
++ int32_t ic_usb_cap;
++ int32_t ahb_thr_ratio;
++ int32_t power_down;
++ int32_t reload_ctl;
++ int32_t dev_out_nak;
++ int32_t cont_on_bna;
++ int32_t ahb_single;
++ int32_t otg_ver;
++ int32_t adp_enable;
++};
++
++static struct dwc_otg_driver_module_params dwc_otg_module_params = {
++ .opt = -1,
++ .otg_cap = -1,
++ .dma_enable = -1,
++ .dma_desc_enable = -1,
++ .dma_burst_size = -1,
++ .speed = -1,
++ .host_support_fs_ls_low_power = -1,
++ .host_ls_low_power_phy_clk = -1,
++ .enable_dynamic_fifo = -1,
++ .data_fifo_size = -1,
++ .dev_rx_fifo_size = -1,
++ .dev_nperio_tx_fifo_size = -1,
++ .dev_perio_tx_fifo_size = {
++ /* dev_perio_tx_fifo_size_1 */
++ -1,
++ -1,
++ -1,
++ -1,
++ -1,
++ -1,
++ -1,
++ -1,
++ -1,
++ -1,
++ -1,
++ -1,
++ -1,
++ -1,
++ -1
++ /* 15 */
++ },
++ .host_rx_fifo_size = -1,
++ .host_nperio_tx_fifo_size = -1,
++ .host_perio_tx_fifo_size = -1,
++ .max_transfer_size = -1,
++ .max_packet_count = -1,
++ .host_channels = -1,
++ .dev_endpoints = -1,
++ .phy_type = -1,
++ .phy_utmi_width = -1,
++ .phy_ulpi_ddr = -1,
++ .phy_ulpi_ext_vbus = -1,
++ .i2c_enable = -1,
++ .ulpi_fs_ls = -1,
++ .ts_dline = -1,
++ .en_multiple_tx_fifo = -1,
++ .dev_tx_fifo_size = {
++ /* dev_tx_fifo_size */
++ -1,
++ -1,
++ -1,
++ -1,
++ -1,
++ -1,
++ -1,
++ -1,
++ -1,
++ -1,
++ -1,
++ -1,
++ -1,
++ -1,
++ -1
++ /* 15 */
++ },
++ .thr_ctl = -1,
++ .tx_thr_length = -1,
++ .rx_thr_length = -1,
++ .pti_enable = -1,
++ .mpi_enable = -1,
++ .lpm_enable = 0,
++ .ic_usb_cap = -1,
++ .ahb_thr_ratio = -1,
++ .power_down = -1,
++ .reload_ctl = -1,
++ .dev_out_nak = -1,
++ .cont_on_bna = -1,
++ .ahb_single = -1,
++ .otg_ver = -1,
++ .adp_enable = -1,
++};
++
++//Global variable to switch the fiq fix on or off (declared in bcm2708.c)
++extern bool fiq_fix_enable;
++
++//Global variable to switch the nak holdoff on or off
++bool nak_holdoff_enable = true;
++
++
++/**
++ * This function shows the Driver Version.
++ */
++static ssize_t version_show(struct device_driver *dev, char *buf)
++{
++ return snprintf(buf, sizeof(DWC_DRIVER_VERSION) + 2, "%s\n",
++ DWC_DRIVER_VERSION);
++}
++
++static DRIVER_ATTR(version, S_IRUGO, version_show, NULL);
++
++/**
++ * Global Debug Level Mask.
++ */
++uint32_t g_dbg_lvl = 0; /* OFF */
++
++/**
++ * This function shows the driver Debug Level.
++ */
++static ssize_t dbg_level_show(struct device_driver *drv, char *buf)
++{
++ return sprintf(buf, "0x%0x\n", g_dbg_lvl);
++}
++
++/**
++ * This function stores the driver Debug Level.
++ */
++static ssize_t dbg_level_store(struct device_driver *drv, const char *buf,
++ size_t count)
++{
++ g_dbg_lvl = simple_strtoul(buf, NULL, 16);
++ return count;
++}
++
++static DRIVER_ATTR(debuglevel, S_IRUGO | S_IWUSR, dbg_level_show,
++ dbg_level_store);
++
++/**
++ * This function is called during module intialization
++ * to pass module parameters to the DWC_OTG CORE.
++ */
++static int set_parameters(dwc_otg_core_if_t * core_if)
++{
++ int retval = 0;
++ int i;
++
++ if (dwc_otg_module_params.otg_cap != -1) {
++ retval +=
++ dwc_otg_set_param_otg_cap(core_if,
++ dwc_otg_module_params.otg_cap);
++ }
++ if (dwc_otg_module_params.dma_enable != -1) {
++ retval +=
++ dwc_otg_set_param_dma_enable(core_if,
++ dwc_otg_module_params.
++ dma_enable);
++ }
++ if (dwc_otg_module_params.dma_desc_enable != -1) {
++ retval +=
++ dwc_otg_set_param_dma_desc_enable(core_if,
++ dwc_otg_module_params.
++ dma_desc_enable);
++ }
++ if (dwc_otg_module_params.opt != -1) {
++ retval +=
++ dwc_otg_set_param_opt(core_if, dwc_otg_module_params.opt);
++ }
++ if (dwc_otg_module_params.dma_burst_size != -1) {
++ retval +=
++ dwc_otg_set_param_dma_burst_size(core_if,
++ dwc_otg_module_params.
++ dma_burst_size);
++ }
++ if (dwc_otg_module_params.host_support_fs_ls_low_power != -1) {
++ retval +=
++ dwc_otg_set_param_host_support_fs_ls_low_power(core_if,
++ dwc_otg_module_params.
++ host_support_fs_ls_low_power);
++ }
++ if (dwc_otg_module_params.enable_dynamic_fifo != -1) {
++ retval +=
++ dwc_otg_set_param_enable_dynamic_fifo(core_if,
++ dwc_otg_module_params.
++ enable_dynamic_fifo);
++ }
++ if (dwc_otg_module_params.data_fifo_size != -1) {
++ retval +=
++ dwc_otg_set_param_data_fifo_size(core_if,
++ dwc_otg_module_params.
++ data_fifo_size);
++ }
++ if (dwc_otg_module_params.dev_rx_fifo_size != -1) {
++ retval +=
++ dwc_otg_set_param_dev_rx_fifo_size(core_if,
++ dwc_otg_module_params.
++ dev_rx_fifo_size);
++ }
++ if (dwc_otg_module_params.dev_nperio_tx_fifo_size != -1) {
++ retval +=
++ dwc_otg_set_param_dev_nperio_tx_fifo_size(core_if,
++ dwc_otg_module_params.
++ dev_nperio_tx_fifo_size);
++ }
++ if (dwc_otg_module_params.host_rx_fifo_size != -1) {
++ retval +=
++ dwc_otg_set_param_host_rx_fifo_size(core_if,
++ dwc_otg_module_params.host_rx_fifo_size);
++ }
++ if (dwc_otg_module_params.host_nperio_tx_fifo_size != -1) {
++ retval +=
++ dwc_otg_set_param_host_nperio_tx_fifo_size(core_if,
++ dwc_otg_module_params.
++ host_nperio_tx_fifo_size);
++ }
++ if (dwc_otg_module_params.host_perio_tx_fifo_size != -1) {
++ retval +=
++ dwc_otg_set_param_host_perio_tx_fifo_size(core_if,
++ dwc_otg_module_params.
++ host_perio_tx_fifo_size);
++ }
++ if (dwc_otg_module_params.max_transfer_size != -1) {
++ retval +=
++ dwc_otg_set_param_max_transfer_size(core_if,
++ dwc_otg_module_params.
++ max_transfer_size);
++ }
++ if (dwc_otg_module_params.max_packet_count != -1) {
++ retval +=
++ dwc_otg_set_param_max_packet_count(core_if,
++ dwc_otg_module_params.
++ max_packet_count);
++ }
++ if (dwc_otg_module_params.host_channels != -1) {
++ retval +=
++ dwc_otg_set_param_host_channels(core_if,
++ dwc_otg_module_params.
++ host_channels);
++ }
++ if (dwc_otg_module_params.dev_endpoints != -1) {
++ retval +=
++ dwc_otg_set_param_dev_endpoints(core_if,
++ dwc_otg_module_params.
++ dev_endpoints);
++ }
++ if (dwc_otg_module_params.phy_type != -1) {
++ retval +=
++ dwc_otg_set_param_phy_type(core_if,
++ dwc_otg_module_params.phy_type);
++ }
++ if (dwc_otg_module_params.speed != -1) {
++ retval +=
++ dwc_otg_set_param_speed(core_if,
++ dwc_otg_module_params.speed);
++ }
++ if (dwc_otg_module_params.host_ls_low_power_phy_clk != -1) {
++ retval +=
++ dwc_otg_set_param_host_ls_low_power_phy_clk(core_if,
++ dwc_otg_module_params.
++ host_ls_low_power_phy_clk);
++ }
++ if (dwc_otg_module_params.phy_ulpi_ddr != -1) {
++ retval +=
++ dwc_otg_set_param_phy_ulpi_ddr(core_if,
++ dwc_otg_module_params.
++ phy_ulpi_ddr);
++ }
++ if (dwc_otg_module_params.phy_ulpi_ext_vbus != -1) {
++ retval +=
++ dwc_otg_set_param_phy_ulpi_ext_vbus(core_if,
++ dwc_otg_module_params.
++ phy_ulpi_ext_vbus);
++ }
++ if (dwc_otg_module_params.phy_utmi_width != -1) {
++ retval +=
++ dwc_otg_set_param_phy_utmi_width(core_if,
++ dwc_otg_module_params.
++ phy_utmi_width);
++ }
++ if (dwc_otg_module_params.ulpi_fs_ls != -1) {
++ retval +=
++ dwc_otg_set_param_ulpi_fs_ls(core_if,
++ dwc_otg_module_params.ulpi_fs_ls);
++ }
++ if (dwc_otg_module_params.ts_dline != -1) {
++ retval +=
++ dwc_otg_set_param_ts_dline(core_if,
++ dwc_otg_module_params.ts_dline);
++ }
++ if (dwc_otg_module_params.i2c_enable != -1) {
++ retval +=
++ dwc_otg_set_param_i2c_enable(core_if,
++ dwc_otg_module_params.
++ i2c_enable);
++ }
++ if (dwc_otg_module_params.en_multiple_tx_fifo != -1) {
++ retval +=
++ dwc_otg_set_param_en_multiple_tx_fifo(core_if,
++ dwc_otg_module_params.
++ en_multiple_tx_fifo);
++ }
++ for (i = 0; i < 15; i++) {
++ if (dwc_otg_module_params.dev_perio_tx_fifo_size[i] != -1) {
++ retval +=
++ dwc_otg_set_param_dev_perio_tx_fifo_size(core_if,
++ dwc_otg_module_params.
++ dev_perio_tx_fifo_size
++ [i], i);
++ }
++ }
++
++ for (i = 0; i < 15; i++) {
++ if (dwc_otg_module_params.dev_tx_fifo_size[i] != -1) {
++ retval += dwc_otg_set_param_dev_tx_fifo_size(core_if,
++ dwc_otg_module_params.
++ dev_tx_fifo_size
++ [i], i);
++ }
++ }
++ if (dwc_otg_module_params.thr_ctl != -1) {
++ retval +=
++ dwc_otg_set_param_thr_ctl(core_if,
++ dwc_otg_module_params.thr_ctl);
++ }
++ if (dwc_otg_module_params.mpi_enable != -1) {
++ retval +=
++ dwc_otg_set_param_mpi_enable(core_if,
++ dwc_otg_module_params.
++ mpi_enable);
++ }
++ if (dwc_otg_module_params.pti_enable != -1) {
++ retval +=
++ dwc_otg_set_param_pti_enable(core_if,
++ dwc_otg_module_params.
++ pti_enable);
++ }
++ if (dwc_otg_module_params.lpm_enable != -1) {
++ retval +=
++ dwc_otg_set_param_lpm_enable(core_if,
++ dwc_otg_module_params.
++ lpm_enable);
++ }
++ if (dwc_otg_module_params.ic_usb_cap != -1) {
++ retval +=
++ dwc_otg_set_param_ic_usb_cap(core_if,
++ dwc_otg_module_params.
++ ic_usb_cap);
++ }
++ if (dwc_otg_module_params.tx_thr_length != -1) {
++ retval +=
++ dwc_otg_set_param_tx_thr_length(core_if,
++ dwc_otg_module_params.tx_thr_length);
++ }
++ if (dwc_otg_module_params.rx_thr_length != -1) {
++ retval +=
++ dwc_otg_set_param_rx_thr_length(core_if,
++ dwc_otg_module_params.
++ rx_thr_length);
++ }
++ if (dwc_otg_module_params.ahb_thr_ratio != -1) {
++ retval +=
++ dwc_otg_set_param_ahb_thr_ratio(core_if,
++ dwc_otg_module_params.ahb_thr_ratio);
++ }
++ if (dwc_otg_module_params.power_down != -1) {
++ retval +=
++ dwc_otg_set_param_power_down(core_if,
++ dwc_otg_module_params.power_down);
++ }
++ if (dwc_otg_module_params.reload_ctl != -1) {
++ retval +=
++ dwc_otg_set_param_reload_ctl(core_if,
++ dwc_otg_module_params.reload_ctl);
++ }
++
++ if (dwc_otg_module_params.dev_out_nak != -1) {
++ retval +=
++ dwc_otg_set_param_dev_out_nak(core_if,
++ dwc_otg_module_params.dev_out_nak);
++ }
++
++ if (dwc_otg_module_params.cont_on_bna != -1) {
++ retval +=
++ dwc_otg_set_param_cont_on_bna(core_if,
++ dwc_otg_module_params.cont_on_bna);
++ }
++
++ if (dwc_otg_module_params.ahb_single != -1) {
++ retval +=
++ dwc_otg_set_param_ahb_single(core_if,
++ dwc_otg_module_params.ahb_single);
++ }
++
++ if (dwc_otg_module_params.otg_ver != -1) {
++ retval +=
++ dwc_otg_set_param_otg_ver(core_if,
++ dwc_otg_module_params.otg_ver);
++ }
++ if (dwc_otg_module_params.adp_enable != -1) {
++ retval +=
++ dwc_otg_set_param_adp_enable(core_if,
++ dwc_otg_module_params.
++ adp_enable);
++ }
++ return retval;
++}
++
++/**
++ * This function is the top level interrupt handler for the Common
++ * (Device and host modes) interrupts.
++ */
++static irqreturn_t dwc_otg_common_irq(int irq, void *dev)
++{
++ int32_t retval = IRQ_NONE;
++
++ retval = dwc_otg_handle_common_intr(dev);
++ if (retval != 0) {
++ S3C2410X_CLEAR_EINTPEND();
++ }
++ return IRQ_RETVAL(retval);
++}
++
++/**
++ * This function is called when a lm_device is unregistered with the
++ * dwc_otg_driver. This happens, for example, when the rmmod command is
++ * executed. The device may or may not be electrically present. If it is
++ * present, the driver stops device processing. Any resources used on behalf
++ * of this device are freed.
++ *
++ * @param _dev
++ */
++#ifdef LM_INTERFACE
++#define REM_RETVAL(n)
++static void dwc_otg_driver_remove( struct lm_device *_dev )
++{ dwc_otg_device_t *otg_dev = lm_get_drvdata(_dev);
++#elif defined(PCI_INTERFACE)
++#define REM_RETVAL(n)
++static void dwc_otg_driver_remove( struct pci_dev *_dev )
++{ dwc_otg_device_t *otg_dev = pci_get_drvdata(_dev);
++#elif defined(PLATFORM_INTERFACE)
++#define REM_RETVAL(n) n
++static int dwc_otg_driver_remove( struct platform_device *_dev )
++{ dwc_otg_device_t *otg_dev = platform_get_drvdata(_dev);
++#endif
++
++ DWC_DEBUGPL(DBG_ANY, "%s(%p) otg_dev %p\n", __func__, _dev, otg_dev);
++
++ if (!otg_dev) {
++ /* Memory allocation for the dwc_otg_device failed. */
++ DWC_DEBUGPL(DBG_ANY, "%s: otg_dev NULL!\n", __func__);
++ return REM_RETVAL(-ENOMEM);
++ }
++#ifndef DWC_DEVICE_ONLY
++ if (otg_dev->hcd) {
++ hcd_remove(_dev);
++ } else {
++ DWC_DEBUGPL(DBG_ANY, "%s: otg_dev->hcd NULL!\n", __func__);
++ return REM_RETVAL(-EINVAL);
++ }
++#endif
++
++#ifndef DWC_HOST_ONLY
++ if (otg_dev->pcd) {
++ pcd_remove(_dev);
++ } else {
++ DWC_DEBUGPL(DBG_ANY, "%s: otg_dev->pcd NULL!\n", __func__);
++ return REM_RETVAL(-EINVAL);
++ }
++#endif
++ /*
++ * Free the IRQ
++ */
++ if (otg_dev->common_irq_installed) {
++#ifdef PLATFORM_INTERFACE
++ free_irq(platform_get_irq(_dev, 0), otg_dev);
++#else
++ free_irq(_dev->irq, otg_dev);
++#endif
++ } else {
++ DWC_DEBUGPL(DBG_ANY, "%s: There is no installed irq!\n", __func__);
++ return REM_RETVAL(-ENXIO);
++ }
++
++ if (otg_dev->core_if) {
++ dwc_otg_cil_remove(otg_dev->core_if);
++ } else {
++ DWC_DEBUGPL(DBG_ANY, "%s: otg_dev->core_if NULL!\n", __func__);
++ return REM_RETVAL(-ENXIO);
++ }
++
++ /*
++ * Remove the device attributes
++ */
++ dwc_otg_attr_remove(_dev);
++
++ /*
++ * Return the memory.
++ */
++ if (otg_dev->os_dep.base) {
++ iounmap(otg_dev->os_dep.base);
++ }
++ DWC_FREE(otg_dev);
++
++ /*
++ * Clear the drvdata pointer.
++ */
++#ifdef LM_INTERFACE
++ lm_set_drvdata(_dev, 0);
++#elif defined(PCI_INTERFACE)
++ release_mem_region(otg_dev->os_dep.rsrc_start,
++ otg_dev->os_dep.rsrc_len);
++ pci_set_drvdata(_dev, 0);
++#elif defined(PLATFORM_INTERFACE)
++ platform_set_drvdata(_dev, 0);
++#endif
++ return REM_RETVAL(0);
++}
++
++/**
++ * This function is called when an lm_device is bound to a
++ * dwc_otg_driver. It creates the driver components required to
++ * control the device (CIL, HCD, and PCD) and it initializes the
++ * device. The driver components are stored in a dwc_otg_device
++ * structure. A reference to the dwc_otg_device is saved in the
++ * lm_device. This allows the driver to access the dwc_otg_device
++ * structure on subsequent calls to driver methods for this device.
++ *
++ * @param _dev Bus device
++ */
++static int dwc_otg_driver_probe(
++#ifdef LM_INTERFACE
++ struct lm_device *_dev
++#elif defined(PCI_INTERFACE)
++ struct pci_dev *_dev,
++ const struct pci_device_id *id
++#elif defined(PLATFORM_INTERFACE)
++ struct platform_device *_dev
++#endif
++ )
++{
++ int retval = 0;
++ dwc_otg_device_t *dwc_otg_device;
++ int devirq;
++
++ dev_dbg(&_dev->dev, "dwc_otg_driver_probe(%p)\n", _dev);
++#ifdef LM_INTERFACE
++ dev_dbg(&_dev->dev, "start=0x%08x\n", (unsigned)_dev->resource.start);
++#elif defined(PCI_INTERFACE)
++ if (!id) {
++ DWC_ERROR("Invalid pci_device_id %p", id);
++ return -EINVAL;
++ }
++
++ if (!_dev || (pci_enable_device(_dev) < 0)) {
++ DWC_ERROR("Invalid pci_device %p", _dev);
++ return -ENODEV;
++ }
++ dev_dbg(&_dev->dev, "start=0x%08x\n", (unsigned)pci_resource_start(_dev,0));
++ /* other stuff needed as well? */
++
++#elif defined(PLATFORM_INTERFACE)
++ dev_dbg(&_dev->dev, "start=0x%08x (len 0x%x)\n",
++ (unsigned)_dev->resource->start,
++ (unsigned)(_dev->resource->end - _dev->resource->start));
++#endif
++
++ dwc_otg_device = DWC_ALLOC(sizeof(dwc_otg_device_t));
++
++ if (!dwc_otg_device) {
++ dev_err(&_dev->dev, "kmalloc of dwc_otg_device failed\n");
++ return -ENOMEM;
++ }
++
++ memset(dwc_otg_device, 0, sizeof(*dwc_otg_device));
++ dwc_otg_device->os_dep.reg_offset = 0xFFFFFFFF;
++
++ /*
++ * Map the DWC_otg Core memory into virtual address space.
++ */
++#ifdef LM_INTERFACE
++ dwc_otg_device->os_dep.base = ioremap(_dev->resource.start, SZ_256K);
++
++ if (!dwc_otg_device->os_dep.base) {
++ dev_err(&_dev->dev, "ioremap() failed\n");
++ DWC_FREE(dwc_otg_device);
++ return -ENOMEM;
++ }
++ dev_dbg(&_dev->dev, "base=0x%08x\n",
++ (unsigned)dwc_otg_device->os_dep.base);
++#elif defined(PCI_INTERFACE)
++ _dev->current_state = PCI_D0;
++ _dev->dev.power.power_state = PMSG_ON;
++
++ if (!_dev->irq) {
++ DWC_ERROR("Found HC with no IRQ. Check BIOS/PCI %s setup!",
++ pci_name(_dev));
++ iounmap(dwc_otg_device->os_dep.base);
++ DWC_FREE(dwc_otg_device);
++ return -ENODEV;
++ }
++
++ dwc_otg_device->os_dep.rsrc_start = pci_resource_start(_dev, 0);
++ dwc_otg_device->os_dep.rsrc_len = pci_resource_len(_dev, 0);
++ DWC_DEBUGPL(DBG_ANY, "PCI resource: start=%08x, len=%08x\n",
++ (unsigned)dwc_otg_device->os_dep.rsrc_start,
++ (unsigned)dwc_otg_device->os_dep.rsrc_len);
++ if (!request_mem_region
++ (dwc_otg_device->os_dep.rsrc_start, dwc_otg_device->os_dep.rsrc_len,
++ "dwc_otg")) {
++ dev_dbg(&_dev->dev, "error requesting memory\n");
++ iounmap(dwc_otg_device->os_dep.base);
++ DWC_FREE(dwc_otg_device);
++ return -EFAULT;
++ }
++
++ dwc_otg_device->os_dep.base =
++ ioremap_nocache(dwc_otg_device->os_dep.rsrc_start,
++ dwc_otg_device->os_dep.rsrc_len);
++ if (dwc_otg_device->os_dep.base == NULL) {
++ dev_dbg(&_dev->dev, "error mapping memory\n");
++ release_mem_region(dwc_otg_device->os_dep.rsrc_start,
++ dwc_otg_device->os_dep.rsrc_len);
++ iounmap(dwc_otg_device->os_dep.base);
++ DWC_FREE(dwc_otg_device);
++ return -EFAULT;
++ }
++ dev_dbg(&_dev->dev, "base=0x%p (before adjust) \n",
++ dwc_otg_device->os_dep.base);
++ dwc_otg_device->os_dep.base = (char *)dwc_otg_device->os_dep.base;
++ dev_dbg(&_dev->dev, "base=0x%p (after adjust) \n",
++ dwc_otg_device->os_dep.base);
++ dev_dbg(&_dev->dev, "%s: mapped PA 0x%x to VA 0x%p\n", __func__,
++ (unsigned)dwc_otg_device->os_dep.rsrc_start,
++ dwc_otg_device->os_dep.base);
++
++ pci_set_master(_dev);
++ pci_set_drvdata(_dev, dwc_otg_device);
++#elif defined(PLATFORM_INTERFACE)
++ DWC_DEBUGPL(DBG_ANY,"Platform resource: start=%08x, len=%08x\n",
++ _dev->resource->start,
++ _dev->resource->end - _dev->resource->start + 1);
++#if 1
++ if (!request_mem_region(_dev->resource[0].start,
++ _dev->resource[0].end - _dev->resource[0].start + 1,
++ "dwc_otg")) {
++ dev_dbg(&_dev->dev, "error reserving mapped memory\n");
++ retval = -EFAULT;
++ goto fail;
++ }
++
++ dwc_otg_device->os_dep.base = ioremap_nocache(_dev->resource[0].start,
++ _dev->resource[0].end -
++ _dev->resource[0].start+1);
++ if (fiq_fix_enable)
++ {
++ if (!request_mem_region(_dev->resource[1].start,
++ _dev->resource[1].end - _dev->resource[1].start + 1,
++ "dwc_otg")) {
++ dev_dbg(&_dev->dev, "error reserving mapped memory\n");
++ retval = -EFAULT;
++ goto fail;
++ }
++
++ dwc_otg_device->os_dep.mphi_base = ioremap_nocache(_dev->resource[1].start,
++ _dev->resource[1].end -
++ _dev->resource[1].start + 1);
++ dummy_send = (void *) kmalloc(16, GFP_ATOMIC);
++ }
++
++#else
++ {
++ struct map_desc desc = {
++ .virtual = IO_ADDRESS((unsigned)_dev->resource->start),
++ .pfn = __phys_to_pfn((unsigned)_dev->resource->start),
++ .length = SZ_128K,
++ .type = MT_DEVICE
++ };
++ iotable_init(&desc, 1);
++ dwc_otg_device->os_dep.base = (void *)desc.virtual;
++ }
++#endif
++ if (!dwc_otg_device->os_dep.base) {
++ dev_err(&_dev->dev, "ioremap() failed\n");
++ retval = -ENOMEM;
++ goto fail;
++ }
++ dev_dbg(&_dev->dev, "base=0x%08x\n",
++ (unsigned)dwc_otg_device->os_dep.base);
++#endif
++
++ /*
++ * Initialize driver data to point to the global DWC_otg
++ * Device structure.
++ */
++#ifdef LM_INTERFACE
++ lm_set_drvdata(_dev, dwc_otg_device);
++#elif defined(PLATFORM_INTERFACE)
++ platform_set_drvdata(_dev, dwc_otg_device);
++#endif
++ dev_dbg(&_dev->dev, "dwc_otg_device=0x%p\n", dwc_otg_device);
++
++ dwc_otg_device->core_if = dwc_otg_cil_init(dwc_otg_device->os_dep.base);
++ DWC_DEBUGPL(DBG_HCDV, "probe of device %p given core_if %p\n",
++ dwc_otg_device, dwc_otg_device->core_if);//GRAYG
++
++ if (!dwc_otg_device->core_if) {
++ dev_err(&_dev->dev, "CIL initialization failed!\n");
++ retval = -ENOMEM;
++ goto fail;
++ }
++
++ dev_dbg(&_dev->dev, "Calling get_gsnpsid\n");
++ /*
++ * Attempt to ensure this device is really a DWC_otg Controller.
++ * Read and verify the SNPSID register contents. The value should be
++ * 0x45F42XXX or 0x45F42XXX, which corresponds to either "OT2" or "OTG3",
++ * as in "OTG version 2.XX" or "OTG version 3.XX".
++ */
++
++ if (((dwc_otg_get_gsnpsid(dwc_otg_device->core_if) & 0xFFFFF000) != 0x4F542000) &&
++ ((dwc_otg_get_gsnpsid(dwc_otg_device->core_if) & 0xFFFFF000) != 0x4F543000)) {
++ dev_err(&_dev->dev, "Bad value for SNPSID: 0x%08x\n",
++ dwc_otg_get_gsnpsid(dwc_otg_device->core_if));
++ retval = -EINVAL;
++ goto fail;
++ }
++
++ /*
++ * Validate parameter values.
++ */
++ dev_dbg(&_dev->dev, "Calling set_parameters\n");
++ if (set_parameters(dwc_otg_device->core_if)) {
++ retval = -EINVAL;
++ goto fail;
++ }
++
++ /*
++ * Create Device Attributes in sysfs
++ */
++ dev_dbg(&_dev->dev, "Calling attr_create\n");
++ dwc_otg_attr_create(_dev);
++
++ /*
++ * Disable the global interrupt until all the interrupt
++ * handlers are installed.
++ */
++ dev_dbg(&_dev->dev, "Calling disable_global_interrupts\n");
++ dwc_otg_disable_global_interrupts(dwc_otg_device->core_if);
++
++ /*
++ * Install the interrupt handler for the common interrupts before
++ * enabling common interrupts in core_init below.
++ */
++
++#if defined(PLATFORM_INTERFACE)
++ devirq = platform_get_irq(_dev, 0);
++#else
++ devirq = _dev->irq;
++#endif
++ DWC_DEBUGPL(DBG_CIL, "registering (common) handler for irq%d\n",
++ devirq);
++ dev_dbg(&_dev->dev, "Calling request_irq(%d)\n", devirq);
++ retval = request_irq(devirq, dwc_otg_common_irq,
++ IRQF_SHARED,
++ "dwc_otg", dwc_otg_device);
++ if (retval) {
++ DWC_ERROR("request of irq%d failed\n", devirq);
++ retval = -EBUSY;
++ goto fail;
++ } else {
++ dwc_otg_device->common_irq_installed = 1;
++ }
++
++#ifndef IRQF_TRIGGER_LOW
++#if defined(LM_INTERFACE) || defined(PLATFORM_INTERFACE)
++ dev_dbg(&_dev->dev, "Calling set_irq_type\n");
++ set_irq_type(devirq,
++#if (LINUX_VERSION_CODE < KERNEL_VERSION(2,6,30))
++ IRQT_LOW
++#else
++ IRQ_TYPE_LEVEL_LOW
++#endif
++ );
++#endif
++#endif /*IRQF_TRIGGER_LOW*/
++
++ /*
++ * Initialize the DWC_otg core.
++ */
++ dev_dbg(&_dev->dev, "Calling dwc_otg_core_init\n");
++ dwc_otg_core_init(dwc_otg_device->core_if);
++
++#ifndef DWC_HOST_ONLY
++ /*
++ * Initialize the PCD
++ */
++ dev_dbg(&_dev->dev, "Calling pcd_init\n");
++ retval = pcd_init(_dev);
++ if (retval != 0) {
++ DWC_ERROR("pcd_init failed\n");
++ dwc_otg_device->pcd = NULL;
++ goto fail;
++ }
++#endif
++#ifndef DWC_DEVICE_ONLY
++ /*
++ * Initialize the HCD
++ */
++ dev_dbg(&_dev->dev, "Calling hcd_init\n");
++ retval = hcd_init(_dev);
++ if (retval != 0) {
++ DWC_ERROR("hcd_init failed\n");
++ dwc_otg_device->hcd = NULL;
++ goto fail;
++ }
++#endif
++ /* Recover from drvdata having been overwritten by hcd_init() */
++#ifdef LM_INTERFACE
++ lm_set_drvdata(_dev, dwc_otg_device);
++#elif defined(PLATFORM_INTERFACE)
++ platform_set_drvdata(_dev, dwc_otg_device);
++#elif defined(PCI_INTERFACE)
++ pci_set_drvdata(_dev, dwc_otg_device);
++ dwc_otg_device->os_dep.pcidev = _dev;
++#endif
++
++ /*
++ * Enable the global interrupt after all the interrupt
++ * handlers are installed if there is no ADP support else
++ * perform initial actions required for Internal ADP logic.
++ */
++ if (!dwc_otg_get_param_adp_enable(dwc_otg_device->core_if)) {
++ dev_dbg(&_dev->dev, "Calling enable_global_interrupts\n");
++ dwc_otg_enable_global_interrupts(dwc_otg_device->core_if);
++ dev_dbg(&_dev->dev, "Done\n");
++ } else
++ dwc_otg_adp_start(dwc_otg_device->core_if,
++ dwc_otg_is_host_mode(dwc_otg_device->core_if));
++
++ return 0;
++
++fail:
++ dwc_otg_driver_remove(_dev);
++ return retval;
++}
++
++/**
++ * This structure defines the methods to be called by a bus driver
++ * during the lifecycle of a device on that bus. Both drivers and
++ * devices are registered with a bus driver. The bus driver matches
++ * devices to drivers based on information in the device and driver
++ * structures.
++ *
++ * The probe function is called when the bus driver matches a device
++ * to this driver. The remove function is called when a device is
++ * unregistered with the bus driver.
++ */
++#ifdef LM_INTERFACE
++static struct lm_driver dwc_otg_driver = {
++ .drv = {.name = (char *)dwc_driver_name,},
++ .probe = dwc_otg_driver_probe,
++ .remove = dwc_otg_driver_remove,
++ // 'suspend' and 'resume' absent
++};
++#elif defined(PCI_INTERFACE)
++static const struct pci_device_id pci_ids[] = { {
++ PCI_DEVICE(0x16c3, 0xabcd),
++ .driver_data =
++ (unsigned long)0xdeadbeef,
++ }, { /* end: all zeroes */ }
++};
++
++MODULE_DEVICE_TABLE(pci, pci_ids);
++
++/* pci driver glue; this is a "new style" PCI driver module */
++static struct pci_driver dwc_otg_driver = {
++ .name = "dwc_otg",
++ .id_table = pci_ids,
++
++ .probe = dwc_otg_driver_probe,
++ .remove = dwc_otg_driver_remove,
++
++ .driver = {
++ .name = (char *)dwc_driver_name,
++ },
++};
++#elif defined(PLATFORM_INTERFACE)
++static struct platform_device_id platform_ids[] = {
++ {
++ .name = "bcm2708_usb",
++ .driver_data = (kernel_ulong_t) 0xdeadbeef,
++ },
++ { /* end: all zeroes */ }
++};
++MODULE_DEVICE_TABLE(platform, platform_ids);
++
++static struct platform_driver dwc_otg_driver = {
++ .driver = {
++ .name = (char *)dwc_driver_name,
++ },
++ .id_table = platform_ids,
++
++ .probe = dwc_otg_driver_probe,
++ .remove = dwc_otg_driver_remove,
++ // no 'shutdown', 'suspend', 'resume', 'suspend_late' or 'resume_early'
++};
++#endif
++
++/**
++ * This function is called when the dwc_otg_driver is installed with the
++ * insmod command. It registers the dwc_otg_driver structure with the
++ * appropriate bus driver. This will cause the dwc_otg_driver_probe function
++ * to be called. In addition, the bus driver will automatically expose
++ * attributes defined for the device and driver in the special sysfs file
++ * system.
++ *
++ * @return
++ */
++static int __init dwc_otg_driver_init(void)
++{
++ int retval = 0;
++ int error;
++ struct device_driver *drv;
++ printk(KERN_INFO "%s: version %s (%s bus)\n", dwc_driver_name,
++ DWC_DRIVER_VERSION,
++#ifdef LM_INTERFACE
++ "logicmodule");
++ retval = lm_driver_register(&dwc_otg_driver);
++ drv = &dwc_otg_driver.drv;
++#elif defined(PCI_INTERFACE)
++ "pci");
++ retval = pci_register_driver(&dwc_otg_driver);
++ drv = &dwc_otg_driver.driver;
++#elif defined(PLATFORM_INTERFACE)
++ "platform");
++ retval = platform_driver_register(&dwc_otg_driver);
++ drv = &dwc_otg_driver.driver;
++#endif
++ if (retval < 0) {
++ printk(KERN_ERR "%s retval=%d\n", __func__, retval);
++ return retval;
++ }
++ printk(KERN_DEBUG "dwc_otg: FIQ %s\n", fiq_fix_enable ? "enabled":"disabled");
++ printk(KERN_DEBUG "dwc_otg: NAK holdoff %s\n", nak_holdoff_enable ? "enabled":"disabled");
++
++ error = driver_create_file(drv, &driver_attr_version);
++#ifdef DEBUG
++ error = driver_create_file(drv, &driver_attr_debuglevel);
++#endif
++ return retval;
++}
++
++module_init(dwc_otg_driver_init);
++
++/**
++ * This function is called when the driver is removed from the kernel
++ * with the rmmod command. The driver unregisters itself with its bus
++ * driver.
++ *
++ */
++static void __exit dwc_otg_driver_cleanup(void)
++{
++ printk(KERN_DEBUG "dwc_otg_driver_cleanup()\n");
++
++#ifdef LM_INTERFACE
++ driver_remove_file(&dwc_otg_driver.drv, &driver_attr_debuglevel);
++ driver_remove_file(&dwc_otg_driver.drv, &driver_attr_version);
++ lm_driver_unregister(&dwc_otg_driver);
++#elif defined(PCI_INTERFACE)
++ driver_remove_file(&dwc_otg_driver.driver, &driver_attr_debuglevel);
++ driver_remove_file(&dwc_otg_driver.driver, &driver_attr_version);
++ pci_unregister_driver(&dwc_otg_driver);
++#elif defined(PLATFORM_INTERFACE)
++ driver_remove_file(&dwc_otg_driver.driver, &driver_attr_debuglevel);
++ driver_remove_file(&dwc_otg_driver.driver, &driver_attr_version);
++ platform_driver_unregister(&dwc_otg_driver);
++#endif
++
++ printk(KERN_INFO "%s module removed\n", dwc_driver_name);
++}
++
++module_exit(dwc_otg_driver_cleanup);
++
++MODULE_DESCRIPTION(DWC_DRIVER_DESC);
++MODULE_AUTHOR("Synopsys Inc.");
++MODULE_LICENSE("GPL");
++
++module_param_named(otg_cap, dwc_otg_module_params.otg_cap, int, 0444);
++MODULE_PARM_DESC(otg_cap, "OTG Capabilities 0=HNP&SRP 1=SRP Only 2=None");
++module_param_named(opt, dwc_otg_module_params.opt, int, 0444);
++MODULE_PARM_DESC(opt, "OPT Mode");
++module_param_named(dma_enable, dwc_otg_module_params.dma_enable, int, 0444);
++MODULE_PARM_DESC(dma_enable, "DMA Mode 0=Slave 1=DMA enabled");
++
++module_param_named(dma_desc_enable, dwc_otg_module_params.dma_desc_enable, int,
++ 0444);
++MODULE_PARM_DESC(dma_desc_enable,
++ "DMA Desc Mode 0=Address DMA 1=DMA Descriptor enabled");
++
++module_param_named(dma_burst_size, dwc_otg_module_params.dma_burst_size, int,
++ 0444);
++MODULE_PARM_DESC(dma_burst_size,
++ "DMA Burst Size 1, 4, 8, 16, 32, 64, 128, 256");
++module_param_named(speed, dwc_otg_module_params.speed, int, 0444);
++MODULE_PARM_DESC(speed, "Speed 0=High Speed 1=Full Speed");
++module_param_named(host_support_fs_ls_low_power,
++ dwc_otg_module_params.host_support_fs_ls_low_power, int,
++ 0444);
++MODULE_PARM_DESC(host_support_fs_ls_low_power,
++ "Support Low Power w/FS or LS 0=Support 1=Don't Support");
++module_param_named(host_ls_low_power_phy_clk,
++ dwc_otg_module_params.host_ls_low_power_phy_clk, int, 0444);
++MODULE_PARM_DESC(host_ls_low_power_phy_clk,
++ "Low Speed Low Power Clock 0=48Mhz 1=6Mhz");
++module_param_named(enable_dynamic_fifo,
++ dwc_otg_module_params.enable_dynamic_fifo, int, 0444);
++MODULE_PARM_DESC(enable_dynamic_fifo, "0=cC Setting 1=Allow Dynamic Sizing");
++module_param_named(data_fifo_size, dwc_otg_module_params.data_fifo_size, int,
++ 0444);
++MODULE_PARM_DESC(data_fifo_size,
++ "Total number of words in the data FIFO memory 32-32768");
++module_param_named(dev_rx_fifo_size, dwc_otg_module_params.dev_rx_fifo_size,
++ int, 0444);
++MODULE_PARM_DESC(dev_rx_fifo_size, "Number of words in the Rx FIFO 16-32768");
++module_param_named(dev_nperio_tx_fifo_size,
++ dwc_otg_module_params.dev_nperio_tx_fifo_size, int, 0444);
++MODULE_PARM_DESC(dev_nperio_tx_fifo_size,
++ "Number of words in the non-periodic Tx FIFO 16-32768");
++module_param_named(dev_perio_tx_fifo_size_1,
++ dwc_otg_module_params.dev_perio_tx_fifo_size[0], int, 0444);
++MODULE_PARM_DESC(dev_perio_tx_fifo_size_1,
++ "Number of words in the periodic Tx FIFO 4-768");
++module_param_named(dev_perio_tx_fifo_size_2,
++ dwc_otg_module_params.dev_perio_tx_fifo_size[1], int, 0444);
++MODULE_PARM_DESC(dev_perio_tx_fifo_size_2,
++ "Number of words in the periodic Tx FIFO 4-768");
++module_param_named(dev_perio_tx_fifo_size_3,
++ dwc_otg_module_params.dev_perio_tx_fifo_size[2], int, 0444);
++MODULE_PARM_DESC(dev_perio_tx_fifo_size_3,
++ "Number of words in the periodic Tx FIFO 4-768");
++module_param_named(dev_perio_tx_fifo_size_4,
++ dwc_otg_module_params.dev_perio_tx_fifo_size[3], int, 0444);
++MODULE_PARM_DESC(dev_perio_tx_fifo_size_4,
++ "Number of words in the periodic Tx FIFO 4-768");
++module_param_named(dev_perio_tx_fifo_size_5,
++ dwc_otg_module_params.dev_perio_tx_fifo_size[4], int, 0444);
++MODULE_PARM_DESC(dev_perio_tx_fifo_size_5,
++ "Number of words in the periodic Tx FIFO 4-768");
++module_param_named(dev_perio_tx_fifo_size_6,
++ dwc_otg_module_params.dev_perio_tx_fifo_size[5], int, 0444);
++MODULE_PARM_DESC(dev_perio_tx_fifo_size_6,
++ "Number of words in the periodic Tx FIFO 4-768");
++module_param_named(dev_perio_tx_fifo_size_7,
++ dwc_otg_module_params.dev_perio_tx_fifo_size[6], int, 0444);
++MODULE_PARM_DESC(dev_perio_tx_fifo_size_7,
++ "Number of words in the periodic Tx FIFO 4-768");
++module_param_named(dev_perio_tx_fifo_size_8,
++ dwc_otg_module_params.dev_perio_tx_fifo_size[7], int, 0444);
++MODULE_PARM_DESC(dev_perio_tx_fifo_size_8,
++ "Number of words in the periodic Tx FIFO 4-768");
++module_param_named(dev_perio_tx_fifo_size_9,
++ dwc_otg_module_params.dev_perio_tx_fifo_size[8], int, 0444);
++MODULE_PARM_DESC(dev_perio_tx_fifo_size_9,
++ "Number of words in the periodic Tx FIFO 4-768");
++module_param_named(dev_perio_tx_fifo_size_10,
++ dwc_otg_module_params.dev_perio_tx_fifo_size[9], int, 0444);
++MODULE_PARM_DESC(dev_perio_tx_fifo_size_10,
++ "Number of words in the periodic Tx FIFO 4-768");
++module_param_named(dev_perio_tx_fifo_size_11,
++ dwc_otg_module_params.dev_perio_tx_fifo_size[10], int, 0444);
++MODULE_PARM_DESC(dev_perio_tx_fifo_size_11,
++ "Number of words in the periodic Tx FIFO 4-768");
++module_param_named(dev_perio_tx_fifo_size_12,
++ dwc_otg_module_params.dev_perio_tx_fifo_size[11], int, 0444);
++MODULE_PARM_DESC(dev_perio_tx_fifo_size_12,
++ "Number of words in the periodic Tx FIFO 4-768");
++module_param_named(dev_perio_tx_fifo_size_13,
++ dwc_otg_module_params.dev_perio_tx_fifo_size[12], int, 0444);
++MODULE_PARM_DESC(dev_perio_tx_fifo_size_13,
++ "Number of words in the periodic Tx FIFO 4-768");
++module_param_named(dev_perio_tx_fifo_size_14,
++ dwc_otg_module_params.dev_perio_tx_fifo_size[13], int, 0444);
++MODULE_PARM_DESC(dev_perio_tx_fifo_size_14,
++ "Number of words in the periodic Tx FIFO 4-768");
++module_param_named(dev_perio_tx_fifo_size_15,
++ dwc_otg_module_params.dev_perio_tx_fifo_size[14], int, 0444);
++MODULE_PARM_DESC(dev_perio_tx_fifo_size_15,
++ "Number of words in the periodic Tx FIFO 4-768");
++module_param_named(host_rx_fifo_size, dwc_otg_module_params.host_rx_fifo_size,
++ int, 0444);
++MODULE_PARM_DESC(host_rx_fifo_size, "Number of words in the Rx FIFO 16-32768");
++module_param_named(host_nperio_tx_fifo_size,
++ dwc_otg_module_params.host_nperio_tx_fifo_size, int, 0444);
++MODULE_PARM_DESC(host_nperio_tx_fifo_size,
++ "Number of words in the non-periodic Tx FIFO 16-32768");
++module_param_named(host_perio_tx_fifo_size,
++ dwc_otg_module_params.host_perio_tx_fifo_size, int, 0444);
++MODULE_PARM_DESC(host_perio_tx_fifo_size,
++ "Number of words in the host periodic Tx FIFO 16-32768");
++module_param_named(max_transfer_size, dwc_otg_module_params.max_transfer_size,
++ int, 0444);
++/** @todo Set the max to 512K, modify checks */
++MODULE_PARM_DESC(max_transfer_size,
++ "The maximum transfer size supported in bytes 2047-65535");
++module_param_named(max_packet_count, dwc_otg_module_params.max_packet_count,
++ int, 0444);
++MODULE_PARM_DESC(max_packet_count,
++ "The maximum number of packets in a transfer 15-511");
++module_param_named(host_channels, dwc_otg_module_params.host_channels, int,
++ 0444);
++MODULE_PARM_DESC(host_channels,
++ "The number of host channel registers to use 1-16");
++module_param_named(dev_endpoints, dwc_otg_module_params.dev_endpoints, int,
++ 0444);
++MODULE_PARM_DESC(dev_endpoints,
++ "The number of endpoints in addition to EP0 available for device mode 1-15");
++module_param_named(phy_type, dwc_otg_module_params.phy_type, int, 0444);
++MODULE_PARM_DESC(phy_type, "0=Reserved 1=UTMI+ 2=ULPI");
++module_param_named(phy_utmi_width, dwc_otg_module_params.phy_utmi_width, int,
++ 0444);
++MODULE_PARM_DESC(phy_utmi_width, "Specifies the UTMI+ Data Width 8 or 16 bits");
++module_param_named(phy_ulpi_ddr, dwc_otg_module_params.phy_ulpi_ddr, int, 0444);
++MODULE_PARM_DESC(phy_ulpi_ddr,
++ "ULPI at double or single data rate 0=Single 1=Double");
++module_param_named(phy_ulpi_ext_vbus, dwc_otg_module_params.phy_ulpi_ext_vbus,
++ int, 0444);
++MODULE_PARM_DESC(phy_ulpi_ext_vbus,
++ "ULPI PHY using internal or external vbus 0=Internal");
++module_param_named(i2c_enable, dwc_otg_module_params.i2c_enable, int, 0444);
++MODULE_PARM_DESC(i2c_enable, "FS PHY Interface");
++module_param_named(ulpi_fs_ls, dwc_otg_module_params.ulpi_fs_ls, int, 0444);
++MODULE_PARM_DESC(ulpi_fs_ls, "ULPI PHY FS/LS mode only");
++module_param_named(ts_dline, dwc_otg_module_params.ts_dline, int, 0444);
++MODULE_PARM_DESC(ts_dline, "Term select Dline pulsing for all PHYs");
++module_param_named(debug, g_dbg_lvl, int, 0444);
++MODULE_PARM_DESC(debug, "");
++
++module_param_named(en_multiple_tx_fifo,
++ dwc_otg_module_params.en_multiple_tx_fifo, int, 0444);
++MODULE_PARM_DESC(en_multiple_tx_fifo,
++ "Dedicated Non Periodic Tx FIFOs 0=disabled 1=enabled");
++module_param_named(dev_tx_fifo_size_1,
++ dwc_otg_module_params.dev_tx_fifo_size[0], int, 0444);
++MODULE_PARM_DESC(dev_tx_fifo_size_1, "Number of words in the Tx FIFO 4-768");
++module_param_named(dev_tx_fifo_size_2,
++ dwc_otg_module_params.dev_tx_fifo_size[1], int, 0444);
++MODULE_PARM_DESC(dev_tx_fifo_size_2, "Number of words in the Tx FIFO 4-768");
++module_param_named(dev_tx_fifo_size_3,
++ dwc_otg_module_params.dev_tx_fifo_size[2], int, 0444);
++MODULE_PARM_DESC(dev_tx_fifo_size_3, "Number of words in the Tx FIFO 4-768");
++module_param_named(dev_tx_fifo_size_4,
++ dwc_otg_module_params.dev_tx_fifo_size[3], int, 0444);
++MODULE_PARM_DESC(dev_tx_fifo_size_4, "Number of words in the Tx FIFO 4-768");
++module_param_named(dev_tx_fifo_size_5,
++ dwc_otg_module_params.dev_tx_fifo_size[4], int, 0444);
++MODULE_PARM_DESC(dev_tx_fifo_size_5, "Number of words in the Tx FIFO 4-768");
++module_param_named(dev_tx_fifo_size_6,
++ dwc_otg_module_params.dev_tx_fifo_size[5], int, 0444);
++MODULE_PARM_DESC(dev_tx_fifo_size_6, "Number of words in the Tx FIFO 4-768");
++module_param_named(dev_tx_fifo_size_7,
++ dwc_otg_module_params.dev_tx_fifo_size[6], int, 0444);
++MODULE_PARM_DESC(dev_tx_fifo_size_7, "Number of words in the Tx FIFO 4-768");
++module_param_named(dev_tx_fifo_size_8,
++ dwc_otg_module_params.dev_tx_fifo_size[7], int, 0444);
++MODULE_PARM_DESC(dev_tx_fifo_size_8, "Number of words in the Tx FIFO 4-768");
++module_param_named(dev_tx_fifo_size_9,
++ dwc_otg_module_params.dev_tx_fifo_size[8], int, 0444);
++MODULE_PARM_DESC(dev_tx_fifo_size_9, "Number of words in the Tx FIFO 4-768");
++module_param_named(dev_tx_fifo_size_10,
++ dwc_otg_module_params.dev_tx_fifo_size[9], int, 0444);
++MODULE_PARM_DESC(dev_tx_fifo_size_10, "Number of words in the Tx FIFO 4-768");
++module_param_named(dev_tx_fifo_size_11,
++ dwc_otg_module_params.dev_tx_fifo_size[10], int, 0444);
++MODULE_PARM_DESC(dev_tx_fifo_size_11, "Number of words in the Tx FIFO 4-768");
++module_param_named(dev_tx_fifo_size_12,
++ dwc_otg_module_params.dev_tx_fifo_size[11], int, 0444);
++MODULE_PARM_DESC(dev_tx_fifo_size_12, "Number of words in the Tx FIFO 4-768");
++module_param_named(dev_tx_fifo_size_13,
++ dwc_otg_module_params.dev_tx_fifo_size[12], int, 0444);
++MODULE_PARM_DESC(dev_tx_fifo_size_13, "Number of words in the Tx FIFO 4-768");
++module_param_named(dev_tx_fifo_size_14,
++ dwc_otg_module_params.dev_tx_fifo_size[13], int, 0444);
++MODULE_PARM_DESC(dev_tx_fifo_size_14, "Number of words in the Tx FIFO 4-768");
++module_param_named(dev_tx_fifo_size_15,
++ dwc_otg_module_params.dev_tx_fifo_size[14], int, 0444);
++MODULE_PARM_DESC(dev_tx_fifo_size_15, "Number of words in the Tx FIFO 4-768");
++
++module_param_named(thr_ctl, dwc_otg_module_params.thr_ctl, int, 0444);
++MODULE_PARM_DESC(thr_ctl,
++ "Thresholding enable flag bit 0 - non ISO Tx thr., 1 - ISO Tx thr., 2 - Rx thr.- bit 0=disabled 1=enabled");
++module_param_named(tx_thr_length, dwc_otg_module_params.tx_thr_length, int,
++ 0444);
++MODULE_PARM_DESC(tx_thr_length, "Tx Threshold length in 32 bit DWORDs");
++module_param_named(rx_thr_length, dwc_otg_module_params.rx_thr_length, int,
++ 0444);
++MODULE_PARM_DESC(rx_thr_length, "Rx Threshold length in 32 bit DWORDs");
++
++module_param_named(pti_enable, dwc_otg_module_params.pti_enable, int, 0444);
++module_param_named(mpi_enable, dwc_otg_module_params.mpi_enable, int, 0444);
++module_param_named(lpm_enable, dwc_otg_module_params.lpm_enable, int, 0444);
++MODULE_PARM_DESC(lpm_enable, "LPM Enable 0=LPM Disabled 1=LPM Enabled");
++module_param_named(ic_usb_cap, dwc_otg_module_params.ic_usb_cap, int, 0444);
++MODULE_PARM_DESC(ic_usb_cap,
++ "IC_USB Capability 0=IC_USB Disabled 1=IC_USB Enabled");
++module_param_named(ahb_thr_ratio, dwc_otg_module_params.ahb_thr_ratio, int,
++ 0444);
++MODULE_PARM_DESC(ahb_thr_ratio, "AHB Threshold Ratio");
++module_param_named(power_down, dwc_otg_module_params.power_down, int, 0444);
++MODULE_PARM_DESC(power_down, "Power Down Mode");
++module_param_named(reload_ctl, dwc_otg_module_params.reload_ctl, int, 0444);
++MODULE_PARM_DESC(reload_ctl, "HFIR Reload Control");
++module_param_named(dev_out_nak, dwc_otg_module_params.dev_out_nak, int, 0444);
++MODULE_PARM_DESC(dev_out_nak, "Enable Device OUT NAK");
++module_param_named(cont_on_bna, dwc_otg_module_params.cont_on_bna, int, 0444);
++MODULE_PARM_DESC(cont_on_bna, "Enable Enable Continue on BNA");
++module_param_named(ahb_single, dwc_otg_module_params.ahb_single, int, 0444);
++MODULE_PARM_DESC(ahb_single, "Enable AHB Single Support");
++module_param_named(adp_enable, dwc_otg_module_params.adp_enable, int, 0444);
++MODULE_PARM_DESC(adp_enable, "ADP Enable 0=ADP Disabled 1=ADP Enabled");
++module_param_named(otg_ver, dwc_otg_module_params.otg_ver, int, 0444);
++MODULE_PARM_DESC(otg_ver, "OTG revision supported 0=OTG 1.3 1=OTG 2.0");
++module_param(microframe_schedule, bool, 0444);
++MODULE_PARM_DESC(microframe_schedule, "Enable the microframe scheduler");
++
++module_param(fiq_fix_enable, bool, 0444);
++MODULE_PARM_DESC(fiq_fix_enable, "Enable the fiq fix");
++module_param(nak_holdoff_enable, bool, 0444);
++MODULE_PARM_DESC(nak_holdoff_enable, "Enable the NAK holdoff");
++
++/** @page "Module Parameters"
++ *
++ * The following parameters may be specified when starting the module.
++ * These parameters define how the DWC_otg controller should be
++ * configured. Parameter values are passed to the CIL initialization
++ * function dwc_otg_cil_init
++ *
++ * Example: <code>modprobe dwc_otg speed=1 otg_cap=1</code>
++ *
++
++ <table>
++ <tr><td>Parameter Name</td><td>Meaning</td></tr>
++
++ <tr>
++ <td>otg_cap</td>
++ <td>Specifies the OTG capabilities. The driver will automatically detect the
++ value for this parameter if none is specified.
++ - 0: HNP and SRP capable (default, if available)
++ - 1: SRP Only capable
++ - 2: No HNP/SRP capable
++ </td></tr>
++
++ <tr>
++ <td>dma_enable</td>
++ <td>Specifies whether to use slave or DMA mode for accessing the data FIFOs.
++ The driver will automatically detect the value for this parameter if none is
++ specified.
++ - 0: Slave
++ - 1: DMA (default, if available)
++ </td></tr>
++
++ <tr>
++ <td>dma_burst_size</td>
++ <td>The DMA Burst size (applicable only for External DMA Mode).
++ - Values: 1, 4, 8 16, 32, 64, 128, 256 (default 32)
++ </td></tr>
++
++ <tr>
++ <td>speed</td>
++ <td>Specifies the maximum speed of operation in host and device mode. The
++ actual speed depends on the speed of the attached device and the value of
++ phy_type.
++ - 0: High Speed (default)
++ - 1: Full Speed
++ </td></tr>
++
++ <tr>
++ <td>host_support_fs_ls_low_power</td>
++ <td>Specifies whether low power mode is supported when attached to a Full
++ Speed or Low Speed device in host mode.
++ - 0: Don't support low power mode (default)
++ - 1: Support low power mode
++ </td></tr>
++
++ <tr>
++ <td>host_ls_low_power_phy_clk</td>
++ <td>Specifies the PHY clock rate in low power mode when connected to a Low
++ Speed device in host mode. This parameter is applicable only if
++ HOST_SUPPORT_FS_LS_LOW_POWER is enabled.
++ - 0: 48 MHz (default)
++ - 1: 6 MHz
++ </td></tr>
++
++ <tr>
++ <td>enable_dynamic_fifo</td>
++ <td> Specifies whether FIFOs may be resized by the driver software.
++ - 0: Use cC FIFO size parameters
++ - 1: Allow dynamic FIFO sizing (default)
++ </td></tr>
++
++ <tr>
++ <td>data_fifo_size</td>
++ <td>Total number of 4-byte words in the data FIFO memory. This memory
++ includes the Rx FIFO, non-periodic Tx FIFO, and periodic Tx FIFOs.
++ - Values: 32 to 32768 (default 8192)
++
++ Note: The total FIFO memory depth in the FPGA configuration is 8192.
++ </td></tr>
++
++ <tr>
++ <td>dev_rx_fifo_size</td>
++ <td>Number of 4-byte words in the Rx FIFO in device mode when dynamic
++ FIFO sizing is enabled.
++ - Values: 16 to 32768 (default 1064)
++ </td></tr>
++
++ <tr>
++ <td>dev_nperio_tx_fifo_size</td>
++ <td>Number of 4-byte words in the non-periodic Tx FIFO in device mode when
++ dynamic FIFO sizing is enabled.
++ - Values: 16 to 32768 (default 1024)
++ </td></tr>
++
++ <tr>
++ <td>dev_perio_tx_fifo_size_n (n = 1 to 15)</td>
++ <td>Number of 4-byte words in each of the periodic Tx FIFOs in device mode
++ when dynamic FIFO sizing is enabled.
++ - Values: 4 to 768 (default 256)
++ </td></tr>
++
++ <tr>
++ <td>host_rx_fifo_size</td>
++ <td>Number of 4-byte words in the Rx FIFO in host mode when dynamic FIFO
++ sizing is enabled.
++ - Values: 16 to 32768 (default 1024)
++ </td></tr>
++
++ <tr>
++ <td>host_nperio_tx_fifo_size</td>
++ <td>Number of 4-byte words in the non-periodic Tx FIFO in host mode when
++ dynamic FIFO sizing is enabled in the core.
++ - Values: 16 to 32768 (default 1024)
++ </td></tr>
++
++ <tr>
++ <td>host_perio_tx_fifo_size</td>
++ <td>Number of 4-byte words in the host periodic Tx FIFO when dynamic FIFO
++ sizing is enabled.
++ - Values: 16 to 32768 (default 1024)
++ </td></tr>
++
++ <tr>
++ <td>max_transfer_size</td>
++ <td>The maximum transfer size supported in bytes.
++ - Values: 2047 to 65,535 (default 65,535)
++ </td></tr>
++
++ <tr>
++ <td>max_packet_count</td>
++ <td>The maximum number of packets in a transfer.
++ - Values: 15 to 511 (default 511)
++ </td></tr>
++
++ <tr>
++ <td>host_channels</td>
++ <td>The number of host channel registers to use.
++ - Values: 1 to 16 (default 12)
++
++ Note: The FPGA configuration supports a maximum of 12 host channels.
++ </td></tr>
++
++ <tr>
++ <td>dev_endpoints</td>
++ <td>The number of endpoints in addition to EP0 available for device mode
++ operations.
++ - Values: 1 to 15 (default 6 IN and OUT)
++
++ Note: The FPGA configuration supports a maximum of 6 IN and OUT endpoints in
++ addition to EP0.
++ </td></tr>
++
++ <tr>
++ <td>phy_type</td>
++ <td>Specifies the type of PHY interface to use. By default, the driver will
++ automatically detect the phy_type.
++ - 0: Full Speed
++ - 1: UTMI+ (default, if available)
++ - 2: ULPI
++ </td></tr>
++
++ <tr>
++ <td>phy_utmi_width</td>
++ <td>Specifies the UTMI+ Data Width. This parameter is applicable for a
++ phy_type of UTMI+. Also, this parameter is applicable only if the
++ OTG_HSPHY_WIDTH cC parameter was set to "8 and 16 bits", meaning that the
++ core has been configured to work at either data path width.
++ - Values: 8 or 16 bits (default 16)
++ </td></tr>
++
++ <tr>
++ <td>phy_ulpi_ddr</td>
++ <td>Specifies whether the ULPI operates at double or single data rate. This
++ parameter is only applicable if phy_type is ULPI.
++ - 0: single data rate ULPI interface with 8 bit wide data bus (default)
++ - 1: double data rate ULPI interface with 4 bit wide data bus
++ </td></tr>
++
++ <tr>
++ <td>i2c_enable</td>
++ <td>Specifies whether to use the I2C interface for full speed PHY. This
++ parameter is only applicable if PHY_TYPE is FS.
++ - 0: Disabled (default)
++ - 1: Enabled
++ </td></tr>
++
++ <tr>
++ <td>ulpi_fs_ls</td>
++ <td>Specifies whether to use ULPI FS/LS mode only.
++ - 0: Disabled (default)
++ - 1: Enabled
++ </td></tr>
++
++ <tr>
++ <td>ts_dline</td>
++ <td>Specifies whether term select D-Line pulsing for all PHYs is enabled.
++ - 0: Disabled (default)
++ - 1: Enabled
++ </td></tr>
++
++ <tr>
++ <td>en_multiple_tx_fifo</td>
++ <td>Specifies whether dedicatedto tx fifos are enabled for non periodic IN EPs.
++ The driver will automatically detect the value for this parameter if none is
++ specified.
++ - 0: Disabled
++ - 1: Enabled (default, if available)
++ </td></tr>
++
++ <tr>
++ <td>dev_tx_fifo_size_n (n = 1 to 15)</td>
++ <td>Number of 4-byte words in each of the Tx FIFOs in device mode
++ when dynamic FIFO sizing is enabled.
++ - Values: 4 to 768 (default 256)
++ </td></tr>
++
++ <tr>
++ <td>tx_thr_length</td>
++ <td>Transmit Threshold length in 32 bit double words
++ - Values: 8 to 128 (default 64)
++ </td></tr>
++
++ <tr>
++ <td>rx_thr_length</td>
++ <td>Receive Threshold length in 32 bit double words
++ - Values: 8 to 128 (default 64)
++ </td></tr>
++
++<tr>
++ <td>thr_ctl</td>
++ <td>Specifies whether to enable Thresholding for Device mode. Bits 0, 1, 2 of
++ this parmater specifies if thresholding is enabled for non-Iso Tx, Iso Tx and
++ Rx transfers accordingly.
++ The driver will automatically detect the value for this parameter if none is
++ specified.
++ - Values: 0 to 7 (default 0)
++ Bit values indicate:
++ - 0: Thresholding disabled
++ - 1: Thresholding enabled
++ </td></tr>
++
++<tr>
++ <td>dma_desc_enable</td>
++ <td>Specifies whether to enable Descriptor DMA mode.
++ The driver will automatically detect the value for this parameter if none is
++ specified.
++ - 0: Descriptor DMA disabled
++ - 1: Descriptor DMA (default, if available)
++ </td></tr>
++
++<tr>
++ <td>mpi_enable</td>
++ <td>Specifies whether to enable MPI enhancement mode.
++ The driver will automatically detect the value for this parameter if none is
++ specified.
++ - 0: MPI disabled (default)
++ - 1: MPI enable
++ </td></tr>
++
++<tr>
++ <td>pti_enable</td>
++ <td>Specifies whether to enable PTI enhancement support.
++ The driver will automatically detect the value for this parameter if none is
++ specified.
++ - 0: PTI disabled (default)
++ - 1: PTI enable
++ </td></tr>
++
++<tr>
++ <td>lpm_enable</td>
++ <td>Specifies whether to enable LPM support.
++ The driver will automatically detect the value for this parameter if none is
++ specified.
++ - 0: LPM disabled
++ - 1: LPM enable (default, if available)
++ </td></tr>
++
++<tr>
++ <td>ic_usb_cap</td>
++ <td>Specifies whether to enable IC_USB capability.
++ The driver will automatically detect the value for this parameter if none is
++ specified.
++ - 0: IC_USB disabled (default, if available)
++ - 1: IC_USB enable
++ </td></tr>
++
++<tr>
++ <td>ahb_thr_ratio</td>
++ <td>Specifies AHB Threshold ratio.
++ - Values: 0 to 3 (default 0)
++ </td></tr>
++
++<tr>
++ <td>power_down</td>
++ <td>Specifies Power Down(Hibernation) Mode.
++ The driver will automatically detect the value for this parameter if none is
++ specified.
++ - 0: Power Down disabled (default)
++ - 2: Power Down enabled
++ </td></tr>
++
++ <tr>
++ <td>reload_ctl</td>
++ <td>Specifies whether dynamic reloading of the HFIR register is allowed during
++ run time. The driver will automatically detect the value for this parameter if
++ none is specified. In case the HFIR value is reloaded when HFIR.RldCtrl == 1'b0
++ the core might misbehave.
++ - 0: Reload Control disabled (default)
++ - 1: Reload Control enabled
++ </td></tr>
++
++ <tr>
++ <td>dev_out_nak</td>
++ <td>Specifies whether Device OUT NAK enhancement enabled or no.
++ The driver will automatically detect the value for this parameter if
++ none is specified. This parameter is valid only when OTG_EN_DESC_DMA == 1b1.
++ - 0: The core does not set NAK after Bulk OUT transfer complete (default)
++ - 1: The core sets NAK after Bulk OUT transfer complete
++ </td></tr>
++
++ <tr>
++ <td>cont_on_bna</td>
++ <td>Specifies whether Enable Continue on BNA enabled or no.
++ After receiving BNA interrupt the core disables the endpoint,when the
++ endpoint is re-enabled by the application the
++ - 0: Core starts processing from the DOEPDMA descriptor (default)
++ - 1: Core starts processing from the descriptor which received the BNA.
++ This parameter is valid only when OTG_EN_DESC_DMA == 1b1.
++ </td></tr>
++
++ <tr>
++ <td>ahb_single</td>
++ <td>This bit when programmed supports SINGLE transfers for remainder data
++ in a transfer for DMA mode of operation.
++ - 0: The remainder data will be sent using INCR burst size (default)
++ - 1: The remainder data will be sent using SINGLE burst size.
++ </td></tr>
++
++<tr>
++ <td>adp_enable</td>
++ <td>Specifies whether ADP feature is enabled.
++ The driver will automatically detect the value for this parameter if none is
++ specified.
++ - 0: ADP feature disabled (default)
++ - 1: ADP feature enabled
++ </td></tr>
++
++ <tr>
++ <td>otg_ver</td>
++ <td>Specifies whether OTG is performing as USB OTG Revision 2.0 or Revision 1.3
++ USB OTG device.
++ - 0: OTG 2.0 support disabled (default)
++ - 1: OTG 2.0 support enabled
++ </td></tr>
++
++*/
+diff -urN linux-3.10/drivers/usb/host/dwc_otg/dwc_otg_driver.h linux-rpi-3.10.y/drivers/usb/host/dwc_otg/dwc_otg_driver.h
+--- linux-3.10/drivers/usb/host/dwc_otg/dwc_otg_driver.h 1970-01-01 01:00:00.000000000 +0100
++++ linux-rpi-3.10.y/drivers/usb/host/dwc_otg/dwc_otg_driver.h 2013-07-06 15:25:50.000000000 +0100
+@@ -0,0 +1,86 @@
++/* ==========================================================================
++ * $File: //dwh/usb_iip/dev/software/otg/linux/drivers/dwc_otg_driver.h $
++ * $Revision: #19 $
++ * $Date: 2010/11/15 $
++ * $Change: 1627671 $
++ *
++ * Synopsys HS OTG Linux Software Driver and documentation (hereinafter,
++ * "Software") is an Unsupported proprietary work of Synopsys, Inc. unless
++ * otherwise expressly agreed to in writing between Synopsys and you.
++ *
++ * The Software IS NOT an item of Licensed Software or Licensed Product under
++ * any End User Software License Agreement or Agreement for Licensed Product
++ * with Synopsys or any supplement thereto. You are permitted to use and
++ * redistribute this Software in source and binary forms, with or without
++ * modification, provided that redistributions of source code must retain this
++ * notice. You may not view, use, disclose, copy or distribute this file or
++ * any information contained herein except pursuant to this license grant from
++ * Synopsys. If you do not agree with this notice, including the disclaimer
++ * below, then you are not authorized to use the Software.
++ *
++ * THIS SOFTWARE IS BEING DISTRIBUTED BY SYNOPSYS SOLELY ON AN "AS IS" BASIS
++ * AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
++ * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE
++ * ARE HEREBY DISCLAIMED. IN NO EVENT SHALL SYNOPSYS BE LIABLE FOR ANY DIRECT,
++ * INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES
++ * (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR
++ * SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER
++ * CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT
++ * LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY
++ * OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH
++ * DAMAGE.
++ * ========================================================================== */
++
++#ifndef __DWC_OTG_DRIVER_H__
++#define __DWC_OTG_DRIVER_H__
++
++/** @file
++ * This file contains the interface to the Linux driver.
++ */
++#include "dwc_otg_os_dep.h"
++#include "dwc_otg_core_if.h"
++
++/* Type declarations */
++struct dwc_otg_pcd;
++struct dwc_otg_hcd;
++
++/**
++ * This structure is a wrapper that encapsulates the driver components used to
++ * manage a single DWC_otg controller.
++ */
++typedef struct dwc_otg_device {
++ /** Structure containing OS-dependent stuff. KEEP THIS STRUCT AT THE
++ * VERY BEGINNING OF THE DEVICE STRUCT. OSes such as FreeBSD and NetBSD
++ * require this. */
++ struct os_dependent os_dep;
++
++ /** Pointer to the core interface structure. */
++ dwc_otg_core_if_t *core_if;
++
++ /** Pointer to the PCD structure. */
++ struct dwc_otg_pcd *pcd;
++
++ /** Pointer to the HCD structure. */
++ struct dwc_otg_hcd *hcd;
++
++ /** Flag to indicate whether the common IRQ handler is installed. */
++ uint8_t common_irq_installed;
++
++} dwc_otg_device_t;
++
++/*We must clear S3C24XX_EINTPEND external interrupt register
++ * because after clearing in this register trigerred IRQ from
++ * H/W core in kernel interrupt can be occured again before OTG
++ * handlers clear all IRQ sources of Core registers because of
++ * timing latencies and Low Level IRQ Type.
++ */
++#ifdef CONFIG_MACH_IPMATE
++#define S3C2410X_CLEAR_EINTPEND() \
++do { \
++ __raw_writel(1UL << 11,S3C24XX_EINTPEND); \
++} while (0)
++#else
++#define S3C2410X_CLEAR_EINTPEND() do { } while (0)
++#endif
++
++#endif
+diff -urN linux-3.10/drivers/usb/host/dwc_otg/dwc_otg_hcd.c linux-rpi-3.10.y/drivers/usb/host/dwc_otg/dwc_otg_hcd.c
+--- linux-3.10/drivers/usb/host/dwc_otg/dwc_otg_hcd.c 1970-01-01 01:00:00.000000000 +0100
++++ linux-rpi-3.10.y/drivers/usb/host/dwc_otg/dwc_otg_hcd.c 2013-07-06 15:25:50.000000000 +0100
+@@ -0,0 +1,3533 @@
++
++/* ==========================================================================
++ * $File: //dwh/usb_iip/dev/software/otg/linux/drivers/dwc_otg_hcd.c $
++ * $Revision: #104 $
++ * $Date: 2011/10/24 $
++ * $Change: 1871159 $
++ *
++ * Synopsys HS OTG Linux Software Driver and documentation (hereinafter,
++ * "Software") is an Unsupported proprietary work of Synopsys, Inc. unless
++ * otherwise expressly agreed to in writing between Synopsys and you.
++ *
++ * The Software IS NOT an item of Licensed Software or Licensed Product under
++ * any End User Software License Agreement or Agreement for Licensed Product
++ * with Synopsys or any supplement thereto. You are permitted to use and
++ * redistribute this Software in source and binary forms, with or without
++ * modification, provided that redistributions of source code must retain this
++ * notice. You may not view, use, disclose, copy or distribute this file or
++ * any information contained herein except pursuant to this license grant from
++ * Synopsys. If you do not agree with this notice, including the disclaimer
++ * below, then you are not authorized to use the Software.
++ *
++ * THIS SOFTWARE IS BEING DISTRIBUTED BY SYNOPSYS SOLELY ON AN "AS IS" BASIS
++ * AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
++ * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE
++ * ARE HEREBY DISCLAIMED. IN NO EVENT SHALL SYNOPSYS BE LIABLE FOR ANY DIRECT,
++ * INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES
++ * (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR
++ * SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER
++ * CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT
++ * LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY
++ * OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH
++ * DAMAGE.
++ * ========================================================================== */
++#ifndef DWC_DEVICE_ONLY
++
++/** @file
++ * This file implements HCD Core. All code in this file is portable and doesn't
++ * use any OS specific functions.
++ * Interface provided by HCD Core is defined in <code><hcd_if.h></code>
++ * header file.
++ */
++
++#include <linux/usb.h>
++#include <linux/usb/hcd.h>
++
++#include "dwc_otg_hcd.h"
++#include "dwc_otg_regs.h"
++
++extern bool microframe_schedule, nak_holdoff_enable;
++
++//#define DEBUG_HOST_CHANNELS
++#ifdef DEBUG_HOST_CHANNELS
++static int last_sel_trans_num_per_scheduled = 0;
++static int last_sel_trans_num_nonper_scheduled = 0;
++static int last_sel_trans_num_avail_hc_at_start = 0;
++static int last_sel_trans_num_avail_hc_at_end = 0;
++#endif /* DEBUG_HOST_CHANNELS */
++
++extern int g_next_sched_frame, g_np_count, g_np_sent;
++
++dwc_otg_hcd_t *dwc_otg_hcd_alloc_hcd(void)
++{
++ return DWC_ALLOC(sizeof(dwc_otg_hcd_t));
++}
++
++/**
++ * Connection timeout function. An OTG host is required to display a
++ * message if the device does not connect within 10 seconds.
++ */
++void dwc_otg_hcd_connect_timeout(void *ptr)
++{
++ DWC_DEBUGPL(DBG_HCDV, "%s(%p)\n", __func__, ptr);
++ DWC_PRINTF("Connect Timeout\n");
++ __DWC_ERROR("Device Not Connected/Responding\n");
++}
++
++#if defined(DEBUG)
++static void dump_channel_info(dwc_otg_hcd_t * hcd, dwc_otg_qh_t * qh)
++{
++ if (qh->channel != NULL) {
++ dwc_hc_t *hc = qh->channel;
++ dwc_list_link_t *item;
++ dwc_otg_qh_t *qh_item;
++ int num_channels = hcd->core_if->core_params->host_channels;
++ int i;
++
++ dwc_otg_hc_regs_t *hc_regs;
++ hcchar_data_t hcchar;
++ hcsplt_data_t hcsplt;
++ hctsiz_data_t hctsiz;
++ uint32_t hcdma;
++
++ hc_regs = hcd->core_if->host_if->hc_regs[hc->hc_num];
++ hcchar.d32 = DWC_READ_REG32(&hc_regs->hcchar);
++ hcsplt.d32 = DWC_READ_REG32(&hc_regs->hcsplt);
++ hctsiz.d32 = DWC_READ_REG32(&hc_regs->hctsiz);
++ hcdma = DWC_READ_REG32(&hc_regs->hcdma);
++
++ DWC_PRINTF(" Assigned to channel %p:\n", hc);
++ DWC_PRINTF(" hcchar 0x%08x, hcsplt 0x%08x\n", hcchar.d32,
++ hcsplt.d32);
++ DWC_PRINTF(" hctsiz 0x%08x, hcdma 0x%08x\n", hctsiz.d32,
++ hcdma);
++ DWC_PRINTF(" dev_addr: %d, ep_num: %d, ep_is_in: %d\n",
++ hc->dev_addr, hc->ep_num, hc->ep_is_in);
++ DWC_PRINTF(" ep_type: %d\n", hc->ep_type);
++ DWC_PRINTF(" max_packet: %d\n", hc->max_packet);
++ DWC_PRINTF(" data_pid_start: %d\n", hc->data_pid_start);
++ DWC_PRINTF(" xfer_started: %d\n", hc->xfer_started);
++ DWC_PRINTF(" halt_status: %d\n", hc->halt_status);
++ DWC_PRINTF(" xfer_buff: %p\n", hc->xfer_buff);
++ DWC_PRINTF(" xfer_len: %d\n", hc->xfer_len);
++ DWC_PRINTF(" qh: %p\n", hc->qh);
++ DWC_PRINTF(" NP inactive sched:\n");
++ DWC_LIST_FOREACH(item, &hcd->non_periodic_sched_inactive) {
++ qh_item =
++ DWC_LIST_ENTRY(item, dwc_otg_qh_t, qh_list_entry);
++ DWC_PRINTF(" %p\n", qh_item);
++ }
++ DWC_PRINTF(" NP active sched:\n");
++ DWC_LIST_FOREACH(item, &hcd->non_periodic_sched_active) {
++ qh_item =
++ DWC_LIST_ENTRY(item, dwc_otg_qh_t, qh_list_entry);
++ DWC_PRINTF(" %p\n", qh_item);
++ }
++ DWC_PRINTF(" Channels: \n");
++ for (i = 0; i < num_channels; i++) {
++ dwc_hc_t *hc = hcd->hc_ptr_array[i];
++ DWC_PRINTF(" %2d: %p\n", i, hc);
++ }
++ }
++}
++#else
++#define dump_channel_info(hcd, qh)
++#endif /* DEBUG */
++
++/**
++ * Work queue function for starting the HCD when A-Cable is connected.
++ * The hcd_start() must be called in a process context.
++ */
++static void hcd_start_func(void *_vp)
++{
++ dwc_otg_hcd_t *hcd = (dwc_otg_hcd_t *) _vp;
++
++ DWC_DEBUGPL(DBG_HCDV, "%s() %p\n", __func__, hcd);
++ if (hcd) {
++ hcd->fops->start(hcd);
++ }
++}
++
++static void del_xfer_timers(dwc_otg_hcd_t * hcd)
++{
++#ifdef DEBUG
++ int i;
++ int num_channels = hcd->core_if->core_params->host_channels;
++ for (i = 0; i < num_channels; i++) {
++ DWC_TIMER_CANCEL(hcd->core_if->hc_xfer_timer[i]);
++ }
++#endif
++}
++
++static void del_timers(dwc_otg_hcd_t * hcd)
++{
++ del_xfer_timers(hcd);
++ DWC_TIMER_CANCEL(hcd->conn_timer);
++}
++
++/**
++ * Processes all the URBs in a single list of QHs. Completes them with
++ * -ETIMEDOUT and frees the QTD.
++ */
++static void kill_urbs_in_qh_list(dwc_otg_hcd_t * hcd, dwc_list_link_t * qh_list)
++{
++ dwc_list_link_t *qh_item;
++ dwc_otg_qh_t *qh;
++ dwc_otg_qtd_t *qtd, *qtd_tmp;
++
++ DWC_LIST_FOREACH(qh_item, qh_list) {
++ qh = DWC_LIST_ENTRY(qh_item, dwc_otg_qh_t, qh_list_entry);
++ DWC_CIRCLEQ_FOREACH_SAFE(qtd, qtd_tmp,
++ &qh->qtd_list, qtd_list_entry) {
++ qtd = DWC_CIRCLEQ_FIRST(&qh->qtd_list);
++ if (qtd->urb != NULL) {
++ hcd->fops->complete(hcd, qtd->urb->priv,
++ qtd->urb, -DWC_E_TIMEOUT);
++ dwc_otg_hcd_qtd_remove_and_free(hcd, qtd, qh);
++ }
++
++ }
++ }
++}
++
++/**
++ * Responds with an error status of ETIMEDOUT to all URBs in the non-periodic
++ * and periodic schedules. The QTD associated with each URB is removed from
++ * the schedule and freed. This function may be called when a disconnect is
++ * detected or when the HCD is being stopped.
++ */
++static void kill_all_urbs(dwc_otg_hcd_t * hcd)
++{
++ kill_urbs_in_qh_list(hcd, &hcd->non_periodic_sched_inactive);
++ kill_urbs_in_qh_list(hcd, &hcd->non_periodic_sched_active);
++ kill_urbs_in_qh_list(hcd, &hcd->periodic_sched_inactive);
++ kill_urbs_in_qh_list(hcd, &hcd->periodic_sched_ready);
++ kill_urbs_in_qh_list(hcd, &hcd->periodic_sched_assigned);
++ kill_urbs_in_qh_list(hcd, &hcd->periodic_sched_queued);
++}
++
++/**
++ * Start the connection timer. An OTG host is required to display a
++ * message if the device does not connect within 10 seconds. The
++ * timer is deleted if a port connect interrupt occurs before the
++ * timer expires.
++ */
++static void dwc_otg_hcd_start_connect_timer(dwc_otg_hcd_t * hcd)
++{
++ DWC_TIMER_SCHEDULE(hcd->conn_timer, 10000 /* 10 secs */ );
++}
++
++/**
++ * HCD Callback function for disconnect of the HCD.
++ *
++ * @param p void pointer to the <code>struct usb_hcd</code>
++ */
++static int32_t dwc_otg_hcd_session_start_cb(void *p)
++{
++ dwc_otg_hcd_t *dwc_otg_hcd;
++ DWC_DEBUGPL(DBG_HCDV, "%s(%p)\n", __func__, p);
++ dwc_otg_hcd = p;
++ dwc_otg_hcd_start_connect_timer(dwc_otg_hcd);
++ return 1;
++}
++
++/**
++ * HCD Callback function for starting the HCD when A-Cable is
++ * connected.
++ *
++ * @param p void pointer to the <code>struct usb_hcd</code>
++ */
++static int32_t dwc_otg_hcd_start_cb(void *p)
++{
++ dwc_otg_hcd_t *dwc_otg_hcd = p;
++ dwc_otg_core_if_t *core_if;
++ hprt0_data_t hprt0;
++
++ core_if = dwc_otg_hcd->core_if;
++
++ if (core_if->op_state == B_HOST) {
++ /*
++ * Reset the port. During a HNP mode switch the reset
++ * needs to occur within 1ms and have a duration of at
++ * least 50ms.
++ */
++ hprt0.d32 = dwc_otg_read_hprt0(core_if);
++ hprt0.b.prtrst = 1;
++ DWC_WRITE_REG32(core_if->host_if->hprt0, hprt0.d32);
++ }
++ DWC_WORKQ_SCHEDULE_DELAYED(core_if->wq_otg,
++ hcd_start_func, dwc_otg_hcd, 50,
++ "start hcd");
++
++ return 1;
++}
++
++/**
++ * HCD Callback function for disconnect of the HCD.
++ *
++ * @param p void pointer to the <code>struct usb_hcd</code>
++ */
++static int32_t dwc_otg_hcd_disconnect_cb(void *p)
++{
++ gintsts_data_t intr;
++ dwc_otg_hcd_t *dwc_otg_hcd = p;
++
++ /*
++ * Set status flags for the hub driver.
++ */
++ dwc_otg_hcd->flags.b.port_connect_status_change = 1;
++ dwc_otg_hcd->flags.b.port_connect_status = 0;
++
++ /*
++ * Shutdown any transfers in process by clearing the Tx FIFO Empty
++ * interrupt mask and status bits and disabling subsequent host
++ * channel interrupts.
++ */
++ intr.d32 = 0;
++ intr.b.nptxfempty = 1;
++ intr.b.ptxfempty = 1;
++ intr.b.hcintr = 1;
++ DWC_MODIFY_REG32(&dwc_otg_hcd->core_if->core_global_regs->gintmsk,
++ intr.d32, 0);
++ DWC_MODIFY_REG32(&dwc_otg_hcd->core_if->core_global_regs->gintsts,
++ intr.d32, 0);
++
++ del_timers(dwc_otg_hcd);
++
++ /*
++ * Turn off the vbus power only if the core has transitioned to device
++ * mode. If still in host mode, need to keep power on to detect a
++ * reconnection.
++ */
++ if (dwc_otg_is_device_mode(dwc_otg_hcd->core_if)) {
++ if (dwc_otg_hcd->core_if->op_state != A_SUSPEND) {
++ hprt0_data_t hprt0 = {.d32 = 0 };
++ DWC_PRINTF("Disconnect: PortPower off\n");
++ hprt0.b.prtpwr = 0;
++ DWC_WRITE_REG32(dwc_otg_hcd->core_if->host_if->hprt0,
++ hprt0.d32);
++ }
++
++ dwc_otg_disable_host_interrupts(dwc_otg_hcd->core_if);
++ }
++
++ /* Respond with an error status to all URBs in the schedule. */
++ kill_all_urbs(dwc_otg_hcd);
++
++ if (dwc_otg_is_host_mode(dwc_otg_hcd->core_if)) {
++ /* Clean up any host channels that were in use. */
++ int num_channels;
++ int i;
++ dwc_hc_t *channel;
++ dwc_otg_hc_regs_t *hc_regs;
++ hcchar_data_t hcchar;
++
++ num_channels = dwc_otg_hcd->core_if->core_params->host_channels;
++
++ if (!dwc_otg_hcd->core_if->dma_enable) {
++ /* Flush out any channel requests in slave mode. */
++ for (i = 0; i < num_channels; i++) {
++ channel = dwc_otg_hcd->hc_ptr_array[i];
++ if (DWC_CIRCLEQ_EMPTY_ENTRY
++ (channel, hc_list_entry)) {
++ hc_regs =
++ dwc_otg_hcd->core_if->
++ host_if->hc_regs[i];
++ hcchar.d32 =
++ DWC_READ_REG32(&hc_regs->hcchar);
++ if (hcchar.b.chen) {
++ hcchar.b.chen = 0;
++ hcchar.b.chdis = 1;
++ hcchar.b.epdir = 0;
++ DWC_WRITE_REG32
++ (&hc_regs->hcchar,
++ hcchar.d32);
++ }
++ }
++ }
++ }
++
++ for (i = 0; i < num_channels; i++) {
++ channel = dwc_otg_hcd->hc_ptr_array[i];
++ if (DWC_CIRCLEQ_EMPTY_ENTRY(channel, hc_list_entry)) {
++ hc_regs =
++ dwc_otg_hcd->core_if->host_if->hc_regs[i];
++ hcchar.d32 = DWC_READ_REG32(&hc_regs->hcchar);
++ if (hcchar.b.chen) {
++ /* Halt the channel. */
++ hcchar.b.chdis = 1;
++ DWC_WRITE_REG32(&hc_regs->hcchar,
++ hcchar.d32);
++ }
++
++ dwc_otg_hc_cleanup(dwc_otg_hcd->core_if,
++ channel);
++ DWC_CIRCLEQ_INSERT_TAIL
++ (&dwc_otg_hcd->free_hc_list, channel,
++ hc_list_entry);
++ /*
++ * Added for Descriptor DMA to prevent channel double cleanup
++ * in release_channel_ddma(). Which called from ep_disable
++ * when device disconnect.
++ */
++ channel->qh = NULL;
++ }
++ }
++ }
++
++ if (dwc_otg_hcd->fops->disconnect) {
++ dwc_otg_hcd->fops->disconnect(dwc_otg_hcd);
++ }
++
++ return 1;
++}
++
++/**
++ * HCD Callback function for stopping the HCD.
++ *
++ * @param p void pointer to the <code>struct usb_hcd</code>
++ */
++static int32_t dwc_otg_hcd_stop_cb(void *p)
++{
++ dwc_otg_hcd_t *dwc_otg_hcd = p;
++
++ DWC_DEBUGPL(DBG_HCDV, "%s(%p)\n", __func__, p);
++ dwc_otg_hcd_stop(dwc_otg_hcd);
++ return 1;
++}
++
++#ifdef CONFIG_USB_DWC_OTG_LPM
++/**
++ * HCD Callback function for sleep of HCD.
++ *
++ * @param p void pointer to the <code>struct usb_hcd</code>
++ */
++static int dwc_otg_hcd_sleep_cb(void *p)
++{
++ dwc_otg_hcd_t *hcd = p;
++
++ dwc_otg_hcd_free_hc_from_lpm(hcd);
++
++ return 0;
++}
++#endif
++
++
++/**
++ * HCD Callback function for Remote Wakeup.
++ *
++ * @param p void pointer to the <code>struct usb_hcd</code>
++ */
++static int dwc_otg_hcd_rem_wakeup_cb(void *p)
++{
++ dwc_otg_hcd_t *hcd = p;
++
++ if (hcd->core_if->lx_state == DWC_OTG_L2) {
++ hcd->flags.b.port_suspend_change = 1;
++ }
++#ifdef CONFIG_USB_DWC_OTG_LPM
++ else {
++ hcd->flags.b.port_l1_change = 1;
++ }
++#endif
++ return 0;
++}
++
++/**
++ * Halts the DWC_otg host mode operations in a clean manner. USB transfers are
++ * stopped.
++ */
++void dwc_otg_hcd_stop(dwc_otg_hcd_t * hcd)
++{
++ hprt0_data_t hprt0 = {.d32 = 0 };
++
++ DWC_DEBUGPL(DBG_HCD, "DWC OTG HCD STOP\n");
++
++ /*
++ * The root hub should be disconnected before this function is called.
++ * The disconnect will clear the QTD lists (via ..._hcd_urb_dequeue)
++ * and the QH lists (via ..._hcd_endpoint_disable).
++ */
++
++ /* Turn off all host-specific interrupts. */
++ dwc_otg_disable_host_interrupts(hcd->core_if);
++
++ /* Turn off the vbus power */
++ DWC_PRINTF("PortPower off\n");
++ hprt0.b.prtpwr = 0;
++ DWC_WRITE_REG32(hcd->core_if->host_if->hprt0, hprt0.d32);
++ dwc_mdelay(1);
++}
++
++int dwc_otg_hcd_urb_enqueue(dwc_otg_hcd_t * hcd,
++ dwc_otg_hcd_urb_t * dwc_otg_urb, void **ep_handle,
++ int atomic_alloc)
++{
++ dwc_irqflags_t flags;
++ int retval = 0;
++ uint8_t needs_scheduling = 0;
++ dwc_otg_transaction_type_e tr_type;
++ dwc_otg_qtd_t *qtd;
++ gintmsk_data_t intr_mask = {.d32 = 0 };
++
++#ifdef DEBUG /* integrity checks (Broadcom) */
++ if (NULL == hcd->core_if) {
++ DWC_ERROR("**** DWC OTG HCD URB Enqueue - HCD has NULL core_if\n");
++ /* No longer connected. */
++ return -DWC_E_INVALID;
++ }
++#endif
++ if (!hcd->flags.b.port_connect_status) {
++ /* No longer connected. */
++ DWC_ERROR("Not connected\n");
++ return -DWC_E_NO_DEVICE;
++ }
++
++ qtd = dwc_otg_hcd_qtd_create(dwc_otg_urb, atomic_alloc);
++ if (qtd == NULL) {
++ DWC_ERROR("DWC OTG HCD URB Enqueue failed creating QTD\n");
++ return -DWC_E_NO_MEMORY;
++ }
++#ifdef DEBUG /* integrity checks (Broadcom) */
++ if (qtd->urb == NULL) {
++ DWC_ERROR("**** DWC OTG HCD URB Enqueue created QTD with no URBs\n");
++ return -DWC_E_NO_MEMORY;
++ }
++ if (qtd->urb->priv == NULL) {
++ DWC_ERROR("**** DWC OTG HCD URB Enqueue created QTD URB with no URB handle\n");
++ return -DWC_E_NO_MEMORY;
++ }
++#endif
++ intr_mask.d32 = DWC_READ_REG32(&hcd->core_if->core_global_regs->gintmsk);
++ if(!intr_mask.b.sofintr) needs_scheduling = 1;
++ if((((dwc_otg_qh_t *)ep_handle)->ep_type == UE_BULK) && !(qtd->urb->flags & URB_GIVEBACK_ASAP))
++ /* Do not schedule SG transactions until qtd has URB_GIVEBACK_ASAP set */
++ needs_scheduling = 0;
++
++ retval = dwc_otg_hcd_qtd_add(qtd, hcd, (dwc_otg_qh_t **) ep_handle, atomic_alloc);
++ // creates a new queue in ep_handle if it doesn't exist already
++ if (retval < 0) {
++ DWC_ERROR("DWC OTG HCD URB Enqueue failed adding QTD. "
++ "Error status %d\n", retval);
++ dwc_otg_hcd_qtd_free(qtd);
++ return retval;
++ }
++
++ if(needs_scheduling) {
++ DWC_SPINLOCK_IRQSAVE(hcd->lock, &flags);
++ tr_type = dwc_otg_hcd_select_transactions(hcd);
++ if (tr_type != DWC_OTG_TRANSACTION_NONE) {
++ dwc_otg_hcd_queue_transactions(hcd, tr_type);
++ }
++ DWC_SPINUNLOCK_IRQRESTORE(hcd->lock, flags);
++ }
++ return retval;
++}
++
++int dwc_otg_hcd_urb_dequeue(dwc_otg_hcd_t * hcd,
++ dwc_otg_hcd_urb_t * dwc_otg_urb)
++{
++ dwc_otg_qh_t *qh;
++ dwc_otg_qtd_t *urb_qtd;
++ BUG_ON(!hcd);
++ BUG_ON(!dwc_otg_urb);
++
++#ifdef DEBUG /* integrity checks (Broadcom) */
++
++ if (hcd == NULL) {
++ DWC_ERROR("**** DWC OTG HCD URB Dequeue has NULL HCD\n");
++ return -DWC_E_INVALID;
++ }
++ if (dwc_otg_urb == NULL) {
++ DWC_ERROR("**** DWC OTG HCD URB Dequeue has NULL URB\n");
++ return -DWC_E_INVALID;
++ }
++ if (dwc_otg_urb->qtd == NULL) {
++ DWC_ERROR("**** DWC OTG HCD URB Dequeue with NULL QTD\n");
++ return -DWC_E_INVALID;
++ }
++ urb_qtd = dwc_otg_urb->qtd;
++ BUG_ON(!urb_qtd);
++ if (urb_qtd->qh == NULL) {
++ DWC_ERROR("**** DWC OTG HCD URB Dequeue with QTD with NULL Q handler\n");
++ return -DWC_E_INVALID;
++ }
++#else
++ urb_qtd = dwc_otg_urb->qtd;
++ BUG_ON(!urb_qtd);
++#endif
++ qh = urb_qtd->qh;
++ BUG_ON(!qh);
++ if (CHK_DEBUG_LEVEL(DBG_HCDV | DBG_HCD_URB)) {
++ if (urb_qtd->in_process) {
++ dump_channel_info(hcd, qh);
++ }
++ }
++#ifdef DEBUG /* integrity checks (Broadcom) */
++ if (hcd->core_if == NULL) {
++ DWC_ERROR("**** DWC OTG HCD URB Dequeue HCD has NULL core_if\n");
++ return -DWC_E_INVALID;
++ }
++#endif
++ if (urb_qtd->in_process && qh->channel) {
++ /* The QTD is in process (it has been assigned to a channel). */
++ if (hcd->flags.b.port_connect_status) {
++ /*
++ * If still connected (i.e. in host mode), halt the
++ * channel so it can be used for other transfers. If
++ * no longer connected, the host registers can't be
++ * written to halt the channel since the core is in
++ * device mode.
++ */
++ dwc_otg_hc_halt(hcd->core_if, qh->channel,
++ DWC_OTG_HC_XFER_URB_DEQUEUE);
++ }
++ }
++
++ /*
++ * Free the QTD and clean up the associated QH. Leave the QH in the
++ * schedule if it has any remaining QTDs.
++ */
++
++ DWC_DEBUGPL(DBG_HCD, "DWC OTG HCD URB Dequeue - "
++ "delete %sQueue handler\n",
++ hcd->core_if->dma_desc_enable?"DMA ":"");
++ if (!hcd->core_if->dma_desc_enable) {
++ uint8_t b = urb_qtd->in_process;
++ dwc_otg_hcd_qtd_remove_and_free(hcd, urb_qtd, qh);
++ if (b) {
++ dwc_otg_hcd_qh_deactivate(hcd, qh, 0);
++ qh->channel = NULL;
++ } else if (DWC_CIRCLEQ_EMPTY(&qh->qtd_list)) {
++ dwc_otg_hcd_qh_remove(hcd, qh);
++ }
++ } else {
++ dwc_otg_hcd_qtd_remove_and_free(hcd, urb_qtd, qh);
++ }
++ return 0;
++}
++
++int dwc_otg_hcd_endpoint_disable(dwc_otg_hcd_t * hcd, void *ep_handle,
++ int retry)
++{
++ dwc_otg_qh_t *qh = (dwc_otg_qh_t *) ep_handle;
++ int retval = 0;
++ dwc_irqflags_t flags;
++
++ if (retry < 0) {
++ retval = -DWC_E_INVALID;
++ goto done;
++ }
++
++ if (!qh) {
++ retval = -DWC_E_INVALID;
++ goto done;
++ }
++
++ DWC_SPINLOCK_IRQSAVE(hcd->lock, &flags);
++
++ while (!DWC_CIRCLEQ_EMPTY(&qh->qtd_list) && retry) {
++ DWC_SPINUNLOCK_IRQRESTORE(hcd->lock, flags);
++ retry--;
++ dwc_msleep(5);
++ DWC_SPINLOCK_IRQSAVE(hcd->lock, &flags);
++ }
++
++ dwc_otg_hcd_qh_remove(hcd, qh);
++
++ DWC_SPINUNLOCK_IRQRESTORE(hcd->lock, flags);
++ /*
++ * Split dwc_otg_hcd_qh_remove_and_free() into qh_remove
++ * and qh_free to prevent stack dump on DWC_DMA_FREE() with
++ * irq_disabled (spinlock_irqsave) in dwc_otg_hcd_desc_list_free()
++ * and dwc_otg_hcd_frame_list_alloc().
++ */
++ dwc_otg_hcd_qh_free(hcd, qh);
++
++done:
++ return retval;
++}
++
++#if LINUX_VERSION_CODE >= KERNEL_VERSION(2,6,30)
++int dwc_otg_hcd_endpoint_reset(dwc_otg_hcd_t * hcd, void *ep_handle)
++{
++ int retval = 0;
++ dwc_otg_qh_t *qh = (dwc_otg_qh_t *) ep_handle;
++ if (!qh)
++ return -DWC_E_INVALID;
++
++ qh->data_toggle = DWC_OTG_HC_PID_DATA0;
++ return retval;
++}
++#endif
++
++/**
++ * HCD Callback structure for handling mode switching.
++ */
++static dwc_otg_cil_callbacks_t hcd_cil_callbacks = {
++ .start = dwc_otg_hcd_start_cb,
++ .stop = dwc_otg_hcd_stop_cb,
++ .disconnect = dwc_otg_hcd_disconnect_cb,
++ .session_start = dwc_otg_hcd_session_start_cb,
++ .resume_wakeup = dwc_otg_hcd_rem_wakeup_cb,
++#ifdef CONFIG_USB_DWC_OTG_LPM
++ .sleep = dwc_otg_hcd_sleep_cb,
++#endif
++ .p = 0,
++};
++
++/**
++ * Reset tasklet function
++ */
++static void reset_tasklet_func(void *data)
++{
++ dwc_otg_hcd_t *dwc_otg_hcd = (dwc_otg_hcd_t *) data;
++ dwc_otg_core_if_t *core_if = dwc_otg_hcd->core_if;
++ hprt0_data_t hprt0;
++
++ DWC_DEBUGPL(DBG_HCDV, "USB RESET tasklet called\n");
++
++ hprt0.d32 = dwc_otg_read_hprt0(core_if);
++ hprt0.b.prtrst = 1;
++ DWC_WRITE_REG32(core_if->host_if->hprt0, hprt0.d32);
++ dwc_mdelay(60);
++
++ hprt0.b.prtrst = 0;
++ DWC_WRITE_REG32(core_if->host_if->hprt0, hprt0.d32);
++ dwc_otg_hcd->flags.b.port_reset_change = 1;
++}
++
++static void completion_tasklet_func(void *ptr)
++{
++ dwc_otg_hcd_t *hcd = (dwc_otg_hcd_t *) ptr;
++ struct urb *urb;
++ urb_tq_entry_t *item;
++ dwc_irqflags_t flags;
++
++ /* This could just be spin_lock_irq */
++ DWC_SPINLOCK_IRQSAVE(hcd->lock, &flags);
++ while (!DWC_TAILQ_EMPTY(&hcd->completed_urb_list)) {
++ item = DWC_TAILQ_FIRST(&hcd->completed_urb_list);
++ urb = item->urb;
++ DWC_TAILQ_REMOVE(&hcd->completed_urb_list, item,
++ urb_tq_entries);
++ DWC_SPINUNLOCK_IRQRESTORE(hcd->lock, flags);
++ DWC_FREE(item);
++
++ usb_hcd_giveback_urb(hcd->priv, urb, urb->status);
++
++ DWC_SPINLOCK_IRQSAVE(hcd->lock, &flags);
++ }
++ DWC_SPINUNLOCK_IRQRESTORE(hcd->lock, flags);
++ return;
++}
++
++static void qh_list_free(dwc_otg_hcd_t * hcd, dwc_list_link_t * qh_list)
++{
++ dwc_list_link_t *item;
++ dwc_otg_qh_t *qh;
++ dwc_irqflags_t flags;
++
++ if (!qh_list->next) {
++ /* The list hasn't been initialized yet. */
++ return;
++ }
++ /*
++ * Hold spinlock here. Not needed in that case if bellow
++ * function is being called from ISR
++ */
++ DWC_SPINLOCK_IRQSAVE(hcd->lock, &flags);
++ /* Ensure there are no QTDs or URBs left. */
++ kill_urbs_in_qh_list(hcd, qh_list);
++ DWC_SPINUNLOCK_IRQRESTORE(hcd->lock, flags);
++
++ DWC_LIST_FOREACH(item, qh_list) {
++ qh = DWC_LIST_ENTRY(item, dwc_otg_qh_t, qh_list_entry);
++ dwc_otg_hcd_qh_remove_and_free(hcd, qh);
++ }
++}
++
++/**
++ * Exit from Hibernation if Host did not detect SRP from connected SRP capable
++ * Device during SRP time by host power up.
++ */
++void dwc_otg_hcd_power_up(void *ptr)
++{
++ gpwrdn_data_t gpwrdn = {.d32 = 0 };
++ dwc_otg_core_if_t *core_if = (dwc_otg_core_if_t *) ptr;
++
++ DWC_PRINTF("%s called\n", __FUNCTION__);
++
++ if (!core_if->hibernation_suspend) {
++ DWC_PRINTF("Already exited from Hibernation\n");
++ return;
++ }
++
++ /* Switch on the voltage to the core */
++ gpwrdn.b.pwrdnswtch = 1;
++ DWC_MODIFY_REG32(&core_if->core_global_regs->gpwrdn, gpwrdn.d32, 0);
++ dwc_udelay(10);
++
++ /* Reset the core */
++ gpwrdn.d32 = 0;
++ gpwrdn.b.pwrdnrstn = 1;
++ DWC_MODIFY_REG32(&core_if->core_global_regs->gpwrdn, gpwrdn.d32, 0);
++ dwc_udelay(10);
++
++ /* Disable power clamps */
++ gpwrdn.d32 = 0;
++ gpwrdn.b.pwrdnclmp = 1;
++ DWC_MODIFY_REG32(&core_if->core_global_regs->gpwrdn, gpwrdn.d32, 0);
++
++ /* Remove reset the core signal */
++ gpwrdn.d32 = 0;
++ gpwrdn.b.pwrdnrstn = 1;
++ DWC_MODIFY_REG32(&core_if->core_global_regs->gpwrdn, 0, gpwrdn.d32);
++ dwc_udelay(10);
++
++ /* Disable PMU interrupt */
++ gpwrdn.d32 = 0;
++ gpwrdn.b.pmuintsel = 1;
++ DWC_MODIFY_REG32(&core_if->core_global_regs->gpwrdn, gpwrdn.d32, 0);
++
++ core_if->hibernation_suspend = 0;
++
++ /* Disable PMU */
++ gpwrdn.d32 = 0;
++ gpwrdn.b.pmuactv = 1;
++ DWC_MODIFY_REG32(&core_if->core_global_regs->gpwrdn, gpwrdn.d32, 0);
++ dwc_udelay(10);
++
++ /* Enable VBUS */
++ gpwrdn.d32 = 0;
++ gpwrdn.b.dis_vbus = 1;
++ DWC_MODIFY_REG32(&core_if->core_global_regs->gpwrdn, gpwrdn.d32, 0);
++
++ core_if->op_state = A_HOST;
++ dwc_otg_core_init(core_if);
++ dwc_otg_enable_global_interrupts(core_if);
++ cil_hcd_start(core_if);
++}
++
++/**
++ * Frees secondary storage associated with the dwc_otg_hcd structure contained
++ * in the struct usb_hcd field.
++ */
++static void dwc_otg_hcd_free(dwc_otg_hcd_t * dwc_otg_hcd)
++{
++ int i;
++
++ DWC_DEBUGPL(DBG_HCD, "DWC OTG HCD FREE\n");
++
++ del_timers(dwc_otg_hcd);
++
++ /* Free memory for QH/QTD lists */
++ qh_list_free(dwc_otg_hcd, &dwc_otg_hcd->non_periodic_sched_inactive);
++ qh_list_free(dwc_otg_hcd, &dwc_otg_hcd->non_periodic_sched_active);
++ qh_list_free(dwc_otg_hcd, &dwc_otg_hcd->periodic_sched_inactive);
++ qh_list_free(dwc_otg_hcd, &dwc_otg_hcd->periodic_sched_ready);
++ qh_list_free(dwc_otg_hcd, &dwc_otg_hcd->periodic_sched_assigned);
++ qh_list_free(dwc_otg_hcd, &dwc_otg_hcd->periodic_sched_queued);
++
++ /* Free memory for the host channels. */
++ for (i = 0; i < MAX_EPS_CHANNELS; i++) {
++ dwc_hc_t *hc = dwc_otg_hcd->hc_ptr_array[i];
++
++#ifdef DEBUG
++ if (dwc_otg_hcd->core_if->hc_xfer_timer[i]) {
++ DWC_TIMER_FREE(dwc_otg_hcd->core_if->hc_xfer_timer[i]);
++ }
++#endif
++ if (hc != NULL) {
++ DWC_DEBUGPL(DBG_HCDV, "HCD Free channel #%i, hc=%p\n",
++ i, hc);
++ DWC_FREE(hc);
++ }
++ }
++
++ if (dwc_otg_hcd->core_if->dma_enable) {
++ if (dwc_otg_hcd->status_buf_dma) {
++ DWC_DMA_FREE(DWC_OTG_HCD_STATUS_BUF_SIZE,
++ dwc_otg_hcd->status_buf,
++ dwc_otg_hcd->status_buf_dma);
++ }
++ } else if (dwc_otg_hcd->status_buf != NULL) {
++ DWC_FREE(dwc_otg_hcd->status_buf);
++ }
++ DWC_SPINLOCK_FREE(dwc_otg_hcd->channel_lock);
++ DWC_SPINLOCK_FREE(dwc_otg_hcd->lock);
++ /* Set core_if's lock pointer to NULL */
++ dwc_otg_hcd->core_if->lock = NULL;
++
++ DWC_TIMER_FREE(dwc_otg_hcd->conn_timer);
++ DWC_TASK_FREE(dwc_otg_hcd->reset_tasklet);
++ DWC_TASK_FREE(dwc_otg_hcd->completion_tasklet);
++
++#ifdef DWC_DEV_SRPCAP
++ if (dwc_otg_hcd->core_if->power_down == 2 &&
++ dwc_otg_hcd->core_if->pwron_timer) {
++ DWC_TIMER_FREE(dwc_otg_hcd->core_if->pwron_timer);
++ }
++#endif
++ DWC_FREE(dwc_otg_hcd);
++}
++
++int init_hcd_usecs(dwc_otg_hcd_t *_hcd);
++
++int dwc_otg_hcd_init(dwc_otg_hcd_t * hcd, dwc_otg_core_if_t * core_if)
++{
++ int retval = 0;
++ int num_channels;
++ int i;
++ dwc_hc_t *channel;
++
++ hcd->lock = DWC_SPINLOCK_ALLOC();
++ hcd->channel_lock = DWC_SPINLOCK_ALLOC();
++ DWC_DEBUGPL(DBG_HCDV, "init of HCD %p given core_if %p\n",
++ hcd, core_if);
++ if (!hcd->lock) {
++ DWC_ERROR("Could not allocate lock for pcd");
++ DWC_FREE(hcd);
++ retval = -DWC_E_NO_MEMORY;
++ goto out;
++ }
++ hcd->core_if = core_if;
++
++ /* Register the HCD CIL Callbacks */
++ dwc_otg_cil_register_hcd_callbacks(hcd->core_if,
++ &hcd_cil_callbacks, hcd);
++
++ /* Initialize the non-periodic schedule. */
++ DWC_LIST_INIT(&hcd->non_periodic_sched_inactive);
++ DWC_LIST_INIT(&hcd->non_periodic_sched_active);
++
++ /* Initialize the periodic schedule. */
++ DWC_LIST_INIT(&hcd->periodic_sched_inactive);
++ DWC_LIST_INIT(&hcd->periodic_sched_ready);
++ DWC_LIST_INIT(&hcd->periodic_sched_assigned);
++ DWC_LIST_INIT(&hcd->periodic_sched_queued);
++ DWC_TAILQ_INIT(&hcd->completed_urb_list);
++ /*
++ * Create a host channel descriptor for each host channel implemented
++ * in the controller. Initialize the channel descriptor array.
++ */
++ DWC_CIRCLEQ_INIT(&hcd->free_hc_list);
++ num_channels = hcd->core_if->core_params->host_channels;
++ DWC_MEMSET(hcd->hc_ptr_array, 0, sizeof(hcd->hc_ptr_array));
++ for (i = 0; i < num_channels; i++) {
++ channel = DWC_ALLOC(sizeof(dwc_hc_t));
++ if (channel == NULL) {
++ retval = -DWC_E_NO_MEMORY;
++ DWC_ERROR("%s: host channel allocation failed\n",
++ __func__);
++ dwc_otg_hcd_free(hcd);
++ goto out;
++ }
++ channel->hc_num = i;
++ hcd->hc_ptr_array[i] = channel;
++#ifdef DEBUG
++ hcd->core_if->hc_xfer_timer[i] =
++ DWC_TIMER_ALLOC("hc timer", hc_xfer_timeout,
++ &hcd->core_if->hc_xfer_info[i]);
++#endif
++ DWC_DEBUGPL(DBG_HCDV, "HCD Added channel #%d, hc=%p\n", i,
++ channel);
++ }
++
++ /* Initialize the Connection timeout timer. */
++ hcd->conn_timer = DWC_TIMER_ALLOC("Connection timer",
++ dwc_otg_hcd_connect_timeout, 0);
++
++ printk(KERN_DEBUG "dwc_otg: Microframe scheduler %s\n", microframe_schedule ? "enabled":"disabled");
++ if (microframe_schedule)
++ init_hcd_usecs(hcd);
++
++ /* Initialize reset tasklet. */
++ hcd->reset_tasklet = DWC_TASK_ALLOC("reset_tasklet", reset_tasklet_func, hcd);
++
++ hcd->completion_tasklet = DWC_TASK_ALLOC("completion_tasklet",
++ completion_tasklet_func, hcd);
++#ifdef DWC_DEV_SRPCAP
++ if (hcd->core_if->power_down == 2) {
++ /* Initialize Power on timer for Host power up in case hibernation */
++ hcd->core_if->pwron_timer = DWC_TIMER_ALLOC("PWRON TIMER",
++ dwc_otg_hcd_power_up, core_if);
++ }
++#endif
++
++ /*
++ * Allocate space for storing data on status transactions. Normally no
++ * data is sent, but this space acts as a bit bucket. This must be
++ * done after usb_add_hcd since that function allocates the DMA buffer
++ * pool.
++ */
++ if (hcd->core_if->dma_enable) {
++ hcd->status_buf =
++ DWC_DMA_ALLOC(DWC_OTG_HCD_STATUS_BUF_SIZE,
++ &hcd->status_buf_dma);
++ } else {
++ hcd->status_buf = DWC_ALLOC(DWC_OTG_HCD_STATUS_BUF_SIZE);
++ }
++ if (!hcd->status_buf) {
++ retval = -DWC_E_NO_MEMORY;
++ DWC_ERROR("%s: status_buf allocation failed\n", __func__);
++ dwc_otg_hcd_free(hcd);
++ goto out;
++ }
++
++ hcd->otg_port = 1;
++ hcd->frame_list = NULL;
++ hcd->frame_list_dma = 0;
++ hcd->periodic_qh_count = 0;
++out:
++ return retval;
++}
++
++void dwc_otg_hcd_remove(dwc_otg_hcd_t * hcd)
++{
++ /* Turn off all host-specific interrupts. */
++ dwc_otg_disable_host_interrupts(hcd->core_if);
++
++ dwc_otg_hcd_free(hcd);
++}
++
++/**
++ * Initializes dynamic portions of the DWC_otg HCD state.
++ */
++static void dwc_otg_hcd_reinit(dwc_otg_hcd_t * hcd)
++{
++ int num_channels;
++ int i;
++ dwc_hc_t *channel;
++ dwc_hc_t *channel_tmp;
++
++ hcd->flags.d32 = 0;
++
++ hcd->non_periodic_qh_ptr = &hcd->non_periodic_sched_active;
++ if (!microframe_schedule) {
++ hcd->non_periodic_channels = 0;
++ hcd->periodic_channels = 0;
++ } else {
++ hcd->available_host_channels = hcd->core_if->core_params->host_channels;
++ }
++ /*
++ * Put all channels in the free channel list and clean up channel
++ * states.
++ */
++ DWC_CIRCLEQ_FOREACH_SAFE(channel, channel_tmp,
++ &hcd->free_hc_list, hc_list_entry) {
++ DWC_CIRCLEQ_REMOVE(&hcd->free_hc_list, channel, hc_list_entry);
++ }
++
++ num_channels = hcd->core_if->core_params->host_channels;
++ for (i = 0; i < num_channels; i++) {
++ channel = hcd->hc_ptr_array[i];
++ DWC_CIRCLEQ_INSERT_TAIL(&hcd->free_hc_list, channel,
++ hc_list_entry);
++ dwc_otg_hc_cleanup(hcd->core_if, channel);
++ }
++
++ /* Initialize the DWC core for host mode operation. */
++ dwc_otg_core_host_init(hcd->core_if);
++
++ /* Set core_if's lock pointer to the hcd->lock */
++ hcd->core_if->lock = hcd->lock;
++}
++
++/**
++ * Assigns transactions from a QTD to a free host channel and initializes the
++ * host channel to perform the transactions. The host channel is removed from
++ * the free list.
++ *
++ * @param hcd The HCD state structure.
++ * @param qh Transactions from the first QTD for this QH are selected and
++ * assigned to a free host channel.
++ */
++static void assign_and_init_hc(dwc_otg_hcd_t * hcd, dwc_otg_qh_t * qh)
++{
++ dwc_hc_t *hc;
++ dwc_otg_qtd_t *qtd;
++ dwc_otg_hcd_urb_t *urb;
++ void* ptr = NULL;
++
++ qtd = DWC_CIRCLEQ_FIRST(&qh->qtd_list);
++
++ urb = qtd->urb;
++
++ DWC_DEBUGPL(DBG_HCDV, "%s(%p,%p) - urb %x, actual_length %d\n", __func__, hcd, qh, (unsigned int)urb, urb->actual_length);
++
++ if (((urb->actual_length < 0) || (urb->actual_length > urb->length)) && !dwc_otg_hcd_is_pipe_in(&urb->pipe_info))
++ urb->actual_length = urb->length;
++
++
++ hc = DWC_CIRCLEQ_FIRST(&hcd->free_hc_list);
++
++ /* Remove the host channel from the free list. */
++ DWC_CIRCLEQ_REMOVE_INIT(&hcd->free_hc_list, hc, hc_list_entry);
++
++ qh->channel = hc;
++
++ qtd->in_process = 1;
++
++ /*
++ * Use usb_pipedevice to determine device address. This address is
++ * 0 before the SET_ADDRESS command and the correct address afterward.
++ */
++ hc->dev_addr = dwc_otg_hcd_get_dev_addr(&urb->pipe_info);
++ hc->ep_num = dwc_otg_hcd_get_ep_num(&urb->pipe_info);
++ hc->speed = qh->dev_speed;
++ hc->max_packet = dwc_max_packet(qh->maxp);
++
++ hc->xfer_started = 0;
++ hc->halt_status = DWC_OTG_HC_XFER_NO_HALT_STATUS;
++ hc->error_state = (qtd->error_count > 0);
++ hc->halt_on_queue = 0;
++ hc->halt_pending = 0;
++ hc->requests = 0;
++
++ /*
++ * The following values may be modified in the transfer type section
++ * below. The xfer_len value may be reduced when the transfer is
++ * started to accommodate the max widths of the XferSize and PktCnt
++ * fields in the HCTSIZn register.
++ */
++
++ hc->ep_is_in = (dwc_otg_hcd_is_pipe_in(&urb->pipe_info) != 0);
++ if (hc->ep_is_in) {
++ hc->do_ping = 0;
++ } else {
++ hc->do_ping = qh->ping_state;
++ }
++
++ hc->data_pid_start = qh->data_toggle;
++ hc->multi_count = 1;
++
++ if (hcd->core_if->dma_enable) {
++ hc->xfer_buff = (uint8_t *) urb->dma + urb->actual_length;
++
++ /* For non-dword aligned case */
++ if (((unsigned long)hc->xfer_buff & 0x3)
++ && !hcd->core_if->dma_desc_enable) {
++ ptr = (uint8_t *) urb->buf + urb->actual_length;
++ }
++ } else {
++ hc->xfer_buff = (uint8_t *) urb->buf + urb->actual_length;
++ }
++ hc->xfer_len = urb->length - urb->actual_length;
++ hc->xfer_count = 0;
++
++ /*
++ * Set the split attributes
++ */
++ hc->do_split = 0;
++ if (qh->do_split) {
++ uint32_t hub_addr, port_addr;
++ hc->do_split = 1;
++ hc->xact_pos = qtd->isoc_split_pos;
++ hc->complete_split = qtd->complete_split;
++ hcd->fops->hub_info(hcd, urb->priv, &hub_addr, &port_addr);
++ hc->hub_addr = (uint8_t) hub_addr;
++ hc->port_addr = (uint8_t) port_addr;
++ }
++
++ switch (dwc_otg_hcd_get_pipe_type(&urb->pipe_info)) {
++ case UE_CONTROL:
++ hc->ep_type = DWC_OTG_EP_TYPE_CONTROL;
++ switch (qtd->control_phase) {
++ case DWC_OTG_CONTROL_SETUP:
++ DWC_DEBUGPL(DBG_HCDV, " Control setup transaction\n");
++ hc->do_ping = 0;
++ hc->ep_is_in = 0;
++ hc->data_pid_start = DWC_OTG_HC_PID_SETUP;
++ if (hcd->core_if->dma_enable) {
++ hc->xfer_buff = (uint8_t *) urb->setup_dma;
++ } else {
++ hc->xfer_buff = (uint8_t *) urb->setup_packet;
++ }
++ hc->xfer_len = 8;
++ ptr = NULL;
++ break;
++ case DWC_OTG_CONTROL_DATA:
++ DWC_DEBUGPL(DBG_HCDV, " Control data transaction\n");
++ hc->data_pid_start = qtd->data_toggle;
++ break;
++ case DWC_OTG_CONTROL_STATUS:
++ /*
++ * Direction is opposite of data direction or IN if no
++ * data.
++ */
++ DWC_DEBUGPL(DBG_HCDV, " Control status transaction\n");
++ if (urb->length == 0) {
++ hc->ep_is_in = 1;
++ } else {
++ hc->ep_is_in =
++ dwc_otg_hcd_is_pipe_out(&urb->pipe_info);
++ }
++ if (hc->ep_is_in) {
++ hc->do_ping = 0;
++ }
++
++ hc->data_pid_start = DWC_OTG_HC_PID_DATA1;
++
++ hc->xfer_len = 0;
++ if (hcd->core_if->dma_enable) {
++ hc->xfer_buff = (uint8_t *) hcd->status_buf_dma;
++ } else {
++ hc->xfer_buff = (uint8_t *) hcd->status_buf;
++ }
++ ptr = NULL;
++ break;
++ }
++ break;
++ case UE_BULK:
++ hc->ep_type = DWC_OTG_EP_TYPE_BULK;
++ break;
++ case UE_INTERRUPT:
++ hc->ep_type = DWC_OTG_EP_TYPE_INTR;
++ break;
++ case UE_ISOCHRONOUS:
++ {
++ struct dwc_otg_hcd_iso_packet_desc *frame_desc;
++
++ hc->ep_type = DWC_OTG_EP_TYPE_ISOC;
++
++ if (hcd->core_if->dma_desc_enable)
++ break;
++
++ frame_desc = &urb->iso_descs[qtd->isoc_frame_index];
++
++ frame_desc->status = 0;
++
++ if (hcd->core_if->dma_enable) {
++ hc->xfer_buff = (uint8_t *) urb->dma;
++ } else {
++ hc->xfer_buff = (uint8_t *) urb->buf;
++ }
++ hc->xfer_buff +=
++ frame_desc->offset + qtd->isoc_split_offset;
++ hc->xfer_len =
++ frame_desc->length - qtd->isoc_split_offset;
++
++ /* For non-dword aligned buffers */
++ if (((unsigned long)hc->xfer_buff & 0x3)
++ && hcd->core_if->dma_enable) {
++ ptr =
++ (uint8_t *) urb->buf + frame_desc->offset +
++ qtd->isoc_split_offset;
++ } else
++ ptr = NULL;
++
++ if (hc->xact_pos == DWC_HCSPLIT_XACTPOS_ALL) {
++ if (hc->xfer_len <= 188) {
++ hc->xact_pos = DWC_HCSPLIT_XACTPOS_ALL;
++ } else {
++ hc->xact_pos =
++ DWC_HCSPLIT_XACTPOS_BEGIN;
++ }
++ }
++ }
++ break;
++ }
++ /* non DWORD-aligned buffer case */
++ if (ptr) {
++ uint32_t buf_size;
++ if (hc->ep_type != DWC_OTG_EP_TYPE_ISOC) {
++ buf_size = hcd->core_if->core_params->max_transfer_size;
++ } else {
++ buf_size = 4096;
++ }
++ if (!qh->dw_align_buf) {
++ qh->dw_align_buf = DWC_DMA_ALLOC_ATOMIC(buf_size,
++ &qh->dw_align_buf_dma);
++ if (!qh->dw_align_buf) {
++ DWC_ERROR
++ ("%s: Failed to allocate memory to handle "
++ "non-dword aligned buffer case\n",
++ __func__);
++ return;
++ }
++ }
++ if (!hc->ep_is_in) {
++ dwc_memcpy(qh->dw_align_buf, ptr, hc->xfer_len);
++ }
++ hc->align_buff = qh->dw_align_buf_dma;
++ } else {
++ hc->align_buff = 0;
++ }
++
++ if (hc->ep_type == DWC_OTG_EP_TYPE_INTR ||
++ hc->ep_type == DWC_OTG_EP_TYPE_ISOC) {
++ /*
++ * This value may be modified when the transfer is started to
++ * reflect the actual transfer length.
++ */
++ hc->multi_count = dwc_hb_mult(qh->maxp);
++ }
++
++ if (hcd->core_if->dma_desc_enable)
++ hc->desc_list_addr = qh->desc_list_dma;
++
++ dwc_otg_hc_init(hcd->core_if, hc);
++ hc->qh = qh;
++}
++
++/**
++ * This function selects transactions from the HCD transfer schedule and
++ * assigns them to available host channels. It is called from HCD interrupt
++ * handler functions.
++ *
++ * @param hcd The HCD state structure.
++ *
++ * @return The types of new transactions that were assigned to host channels.
++ */
++dwc_otg_transaction_type_e dwc_otg_hcd_select_transactions(dwc_otg_hcd_t * hcd)
++{
++ dwc_list_link_t *qh_ptr;
++ dwc_otg_qh_t *qh;
++ int num_channels;
++ dwc_irqflags_t flags;
++ dwc_spinlock_t *channel_lock = hcd->channel_lock;
++ dwc_otg_transaction_type_e ret_val = DWC_OTG_TRANSACTION_NONE;
++
++#ifdef DEBUG_SOF
++ DWC_DEBUGPL(DBG_HCD, " Select Transactions\n");
++#endif
++
++#ifdef DEBUG_HOST_CHANNELS
++ last_sel_trans_num_per_scheduled = 0;
++ last_sel_trans_num_nonper_scheduled = 0;
++ last_sel_trans_num_avail_hc_at_start = hcd->available_host_channels;
++#endif /* DEBUG_HOST_CHANNELS */
++
++ /* Process entries in the periodic ready list. */
++ qh_ptr = DWC_LIST_FIRST(&hcd->periodic_sched_ready);
++
++ while (qh_ptr != &hcd->periodic_sched_ready &&
++ !DWC_CIRCLEQ_EMPTY(&hcd->free_hc_list)) {
++ if (microframe_schedule) {
++ // Make sure we leave one channel for non periodic transactions.
++ DWC_SPINLOCK_IRQSAVE(channel_lock, &flags);
++ if (hcd->available_host_channels <= 1) {
++ DWC_SPINUNLOCK_IRQRESTORE(channel_lock, flags);
++ break;
++ }
++ hcd->available_host_channels--;
++ DWC_SPINUNLOCK_IRQRESTORE(channel_lock, flags);
++#ifdef DEBUG_HOST_CHANNELS
++ last_sel_trans_num_per_scheduled++;
++#endif /* DEBUG_HOST_CHANNELS */
++ }
++ qh = DWC_LIST_ENTRY(qh_ptr, dwc_otg_qh_t, qh_list_entry);
++ assign_and_init_hc(hcd, qh);
++
++ /*
++ * Move the QH from the periodic ready schedule to the
++ * periodic assigned schedule.
++ */
++ qh_ptr = DWC_LIST_NEXT(qh_ptr);
++ DWC_SPINLOCK_IRQSAVE(channel_lock, &flags);
++ DWC_LIST_MOVE_HEAD(&hcd->periodic_sched_assigned,
++ &qh->qh_list_entry);
++ DWC_SPINUNLOCK_IRQRESTORE(channel_lock, flags);
++
++ ret_val = DWC_OTG_TRANSACTION_PERIODIC;
++ }
++
++ /*
++ * Process entries in the inactive portion of the non-periodic
++ * schedule. Some free host channels may not be used if they are
++ * reserved for periodic transfers.
++ */
++ qh_ptr = hcd->non_periodic_sched_inactive.next;
++ num_channels = hcd->core_if->core_params->host_channels;
++ while (qh_ptr != &hcd->non_periodic_sched_inactive &&
++ (microframe_schedule || hcd->non_periodic_channels <
++ num_channels - hcd->periodic_channels) &&
++ !DWC_CIRCLEQ_EMPTY(&hcd->free_hc_list)) {
++
++ qh = DWC_LIST_ENTRY(qh_ptr, dwc_otg_qh_t, qh_list_entry);
++
++ /*
++ * Check to see if this is a NAK'd retransmit, in which case ignore for retransmission
++ * we hold off on bulk retransmissions to reduce NAK interrupt overhead for full-speed
++ * cheeky devices that just hold off using NAKs
++ */
++ if (nak_holdoff_enable && qh->do_split) {
++ if (qh->nak_frame != 0xffff &&
++ dwc_full_frame_num(qh->nak_frame) ==
++ dwc_full_frame_num(dwc_otg_hcd_get_frame_number(hcd))) {
++ /*
++ * Revisit: Need to avoid trampling on periodic scheduling.
++ * Currently we are safe because g_np_count != g_np_sent whenever we hit this,
++ * but if this behaviour is changed then periodic endpoints will get a slower
++ * polling rate.
++ */
++ g_next_sched_frame = ((qh->nak_frame + 8) & ~7) & DWC_HFNUM_MAX_FRNUM;
++ qh_ptr = DWC_LIST_NEXT(qh_ptr);
++ continue;
++ } else {
++ qh->nak_frame = 0xffff;
++ }
++ }
++ if (microframe_schedule) {
++ DWC_SPINLOCK_IRQSAVE(channel_lock, &flags);
++ if (hcd->available_host_channels < 1) {
++ DWC_SPINUNLOCK_IRQRESTORE(channel_lock, flags);
++ break;
++ }
++ hcd->available_host_channels--;
++ DWC_SPINUNLOCK_IRQRESTORE(channel_lock, flags);
++#ifdef DEBUG_HOST_CHANNELS
++ last_sel_trans_num_nonper_scheduled++;
++#endif /* DEBUG_HOST_CHANNELS */
++ }
++
++ assign_and_init_hc(hcd, qh);
++
++ /*
++ * Move the QH from the non-periodic inactive schedule to the
++ * non-periodic active schedule.
++ */
++ qh_ptr = DWC_LIST_NEXT(qh_ptr);
++ DWC_SPINLOCK_IRQSAVE(channel_lock, &flags);
++ DWC_LIST_MOVE_HEAD(&hcd->non_periodic_sched_active,
++ &qh->qh_list_entry);
++ DWC_SPINUNLOCK_IRQRESTORE(channel_lock, flags);
++
++ g_np_sent++;
++
++ if (ret_val == DWC_OTG_TRANSACTION_NONE) {
++ ret_val = DWC_OTG_TRANSACTION_NON_PERIODIC;
++ } else {
++ ret_val = DWC_OTG_TRANSACTION_ALL;
++ }
++
++ if (!microframe_schedule)
++ hcd->non_periodic_channels++;
++ }
++
++#ifdef DEBUG_HOST_CHANNELS
++ last_sel_trans_num_avail_hc_at_end = hcd->available_host_channels;
++#endif /* DEBUG_HOST_CHANNELS */
++ return ret_val;
++}
++
++/**
++ * Attempts to queue a single transaction request for a host channel
++ * associated with either a periodic or non-periodic transfer. This function
++ * assumes that there is space available in the appropriate request queue. For
++ * an OUT transfer or SETUP transaction in Slave mode, it checks whether space
++ * is available in the appropriate Tx FIFO.
++ *
++ * @param hcd The HCD state structure.
++ * @param hc Host channel descriptor associated with either a periodic or
++ * non-periodic transfer.
++ * @param fifo_dwords_avail Number of DWORDs available in the periodic Tx
++ * FIFO for periodic transfers or the non-periodic Tx FIFO for non-periodic
++ * transfers.
++ *
++ * @return 1 if a request is queued and more requests may be needed to
++ * complete the transfer, 0 if no more requests are required for this
++ * transfer, -1 if there is insufficient space in the Tx FIFO.
++ */
++static int queue_transaction(dwc_otg_hcd_t * hcd,
++ dwc_hc_t * hc, uint16_t fifo_dwords_avail)
++{
++ int retval;
++
++ if (hcd->core_if->dma_enable) {
++ if (hcd->core_if->dma_desc_enable) {
++ if (!hc->xfer_started
++ || (hc->ep_type == DWC_OTG_EP_TYPE_ISOC)) {
++ dwc_otg_hcd_start_xfer_ddma(hcd, hc->qh);
++ hc->qh->ping_state = 0;
++ }
++ } else if (!hc->xfer_started) {
++ dwc_otg_hc_start_transfer(hcd->core_if, hc);
++ hc->qh->ping_state = 0;
++ }
++ retval = 0;
++ } else if (hc->halt_pending) {
++ /* Don't queue a request if the channel has been halted. */
++ retval = 0;
++ } else if (hc->halt_on_queue) {
++ dwc_otg_hc_halt(hcd->core_if, hc, hc->halt_status);
++ retval = 0;
++ } else if (hc->do_ping) {
++ if (!hc->xfer_started) {
++ dwc_otg_hc_start_transfer(hcd->core_if, hc);
++ }
++ retval = 0;
++ } else if (!hc->ep_is_in || hc->data_pid_start == DWC_OTG_HC_PID_SETUP) {
++ if ((fifo_dwords_avail * 4) >= hc->max_packet) {
++ if (!hc->xfer_started) {
++ dwc_otg_hc_start_transfer(hcd->core_if, hc);
++ retval = 1;
++ } else {
++ retval =
++ dwc_otg_hc_continue_transfer(hcd->core_if,
++ hc);
++ }
++ } else {
++ retval = -1;
++ }
++ } else {
++ if (!hc->xfer_started) {
++ dwc_otg_hc_start_transfer(hcd->core_if, hc);
++ retval = 1;
++ } else {
++ retval = dwc_otg_hc_continue_transfer(hcd->core_if, hc);
++ }
++ }
++
++ return retval;
++}
++
++/**
++ * Processes periodic channels for the next frame and queues transactions for
++ * these channels to the DWC_otg controller. After queueing transactions, the
++ * Periodic Tx FIFO Empty interrupt is enabled if there are more transactions
++ * to queue as Periodic Tx FIFO or request queue space becomes available.
++ * Otherwise, the Periodic Tx FIFO Empty interrupt is disabled.
++ */
++static void process_periodic_channels(dwc_otg_hcd_t * hcd)
++{
++ hptxsts_data_t tx_status;
++ dwc_list_link_t *qh_ptr;
++ dwc_otg_qh_t *qh;
++ int status;
++ int no_queue_space = 0;
++ int no_fifo_space = 0;
++
++ dwc_otg_host_global_regs_t *host_regs;
++ host_regs = hcd->core_if->host_if->host_global_regs;
++
++ DWC_DEBUGPL(DBG_HCDV, "Queue periodic transactions\n");
++#ifdef DEBUG
++ tx_status.d32 = DWC_READ_REG32(&host_regs->hptxsts);
++ DWC_DEBUGPL(DBG_HCDV,
++ " P Tx Req Queue Space Avail (before queue): %d\n",
++ tx_status.b.ptxqspcavail);
++ DWC_DEBUGPL(DBG_HCDV, " P Tx FIFO Space Avail (before queue): %d\n",
++ tx_status.b.ptxfspcavail);
++#endif
++
++ qh_ptr = hcd->periodic_sched_assigned.next;
++ while (qh_ptr != &hcd->periodic_sched_assigned) {
++ tx_status.d32 = DWC_READ_REG32(&host_regs->hptxsts);
++ if (tx_status.b.ptxqspcavail == 0) {
++ no_queue_space = 1;
++ break;
++ }
++
++ qh = DWC_LIST_ENTRY(qh_ptr, dwc_otg_qh_t, qh_list_entry);
++
++ /*
++ * Set a flag if we're queuing high-bandwidth in slave mode.
++ * The flag prevents any halts to get into the request queue in
++ * the middle of multiple high-bandwidth packets getting queued.
++ */
++ if (!hcd->core_if->dma_enable && qh->channel->multi_count > 1) {
++ hcd->core_if->queuing_high_bandwidth = 1;
++ }
++ status =
++ queue_transaction(hcd, qh->channel,
++ tx_status.b.ptxfspcavail);
++ if (status < 0) {
++ no_fifo_space = 1;
++ break;
++ }
++
++ /*
++ * In Slave mode, stay on the current transfer until there is
++ * nothing more to do or the high-bandwidth request count is
++ * reached. In DMA mode, only need to queue one request. The
++ * controller automatically handles multiple packets for
++ * high-bandwidth transfers.
++ */
++ if (hcd->core_if->dma_enable || status == 0 ||
++ qh->channel->requests == qh->channel->multi_count) {
++ qh_ptr = qh_ptr->next;
++ /*
++ * Move the QH from the periodic assigned schedule to
++ * the periodic queued schedule.
++ */
++ DWC_LIST_MOVE_HEAD(&hcd->periodic_sched_queued,
++ &qh->qh_list_entry);
++
++ /* done queuing high bandwidth */
++ hcd->core_if->queuing_high_bandwidth = 0;
++ }
++ }
++
++ if (!hcd->core_if->dma_enable) {
++ dwc_otg_core_global_regs_t *global_regs;
++ gintmsk_data_t intr_mask = {.d32 = 0 };
++
++ global_regs = hcd->core_if->core_global_regs;
++ intr_mask.b.ptxfempty = 1;
++#ifdef DEBUG
++ tx_status.d32 = DWC_READ_REG32(&host_regs->hptxsts);
++ DWC_DEBUGPL(DBG_HCDV,
++ " P Tx Req Queue Space Avail (after queue): %d\n",
++ tx_status.b.ptxqspcavail);
++ DWC_DEBUGPL(DBG_HCDV,
++ " P Tx FIFO Space Avail (after queue): %d\n",
++ tx_status.b.ptxfspcavail);
++#endif
++ if (!DWC_LIST_EMPTY(&hcd->periodic_sched_assigned) ||
++ no_queue_space || no_fifo_space) {
++ /*
++ * May need to queue more transactions as the request
++ * queue or Tx FIFO empties. Enable the periodic Tx
++ * FIFO empty interrupt. (Always use the half-empty
++ * level to ensure that new requests are loaded as
++ * soon as possible.)
++ */
++ DWC_MODIFY_REG32(&global_regs->gintmsk, 0,
++ intr_mask.d32);
++ } else {
++ /*
++ * Disable the Tx FIFO empty interrupt since there are
++ * no more transactions that need to be queued right
++ * now. This function is called from interrupt
++ * handlers to queue more transactions as transfer
++ * states change.
++ */
++ DWC_MODIFY_REG32(&global_regs->gintmsk, intr_mask.d32,
++ 0);
++ }
++ }
++}
++
++/**
++ * Processes active non-periodic channels and queues transactions for these
++ * channels to the DWC_otg controller. After queueing transactions, the NP Tx
++ * FIFO Empty interrupt is enabled if there are more transactions to queue as
++ * NP Tx FIFO or request queue space becomes available. Otherwise, the NP Tx
++ * FIFO Empty interrupt is disabled.
++ */
++static void process_non_periodic_channels(dwc_otg_hcd_t * hcd)
++{
++ gnptxsts_data_t tx_status;
++ dwc_list_link_t *orig_qh_ptr;
++ dwc_otg_qh_t *qh;
++ int status;
++ int no_queue_space = 0;
++ int no_fifo_space = 0;
++ int more_to_do = 0;
++
++ dwc_otg_core_global_regs_t *global_regs =
++ hcd->core_if->core_global_regs;
++
++ DWC_DEBUGPL(DBG_HCDV, "Queue non-periodic transactions\n");
++#ifdef DEBUG
++ tx_status.d32 = DWC_READ_REG32(&global_regs->gnptxsts);
++ DWC_DEBUGPL(DBG_HCDV,
++ " NP Tx Req Queue Space Avail (before queue): %d\n",
++ tx_status.b.nptxqspcavail);
++ DWC_DEBUGPL(DBG_HCDV, " NP Tx FIFO Space Avail (before queue): %d\n",
++ tx_status.b.nptxfspcavail);
++#endif
++ /*
++ * Keep track of the starting point. Skip over the start-of-list
++ * entry.
++ */
++ if (hcd->non_periodic_qh_ptr == &hcd->non_periodic_sched_active) {
++ hcd->non_periodic_qh_ptr = hcd->non_periodic_qh_ptr->next;
++ }
++ orig_qh_ptr = hcd->non_periodic_qh_ptr;
++
++ /*
++ * Process once through the active list or until no more space is
++ * available in the request queue or the Tx FIFO.
++ */
++ do {
++ tx_status.d32 = DWC_READ_REG32(&global_regs->gnptxsts);
++ if (!hcd->core_if->dma_enable && tx_status.b.nptxqspcavail == 0) {
++ no_queue_space = 1;
++ break;
++ }
++
++ qh = DWC_LIST_ENTRY(hcd->non_periodic_qh_ptr, dwc_otg_qh_t,
++ qh_list_entry);
++ status =
++ queue_transaction(hcd, qh->channel,
++ tx_status.b.nptxfspcavail);
++
++ if (status > 0) {
++ more_to_do = 1;
++ } else if (status < 0) {
++ no_fifo_space = 1;
++ break;
++ }
++
++ /* Advance to next QH, skipping start-of-list entry. */
++ hcd->non_periodic_qh_ptr = hcd->non_periodic_qh_ptr->next;
++ if (hcd->non_periodic_qh_ptr == &hcd->non_periodic_sched_active) {
++ hcd->non_periodic_qh_ptr =
++ hcd->non_periodic_qh_ptr->next;
++ }
++
++ } while (hcd->non_periodic_qh_ptr != orig_qh_ptr);
++
++ if (!hcd->core_if->dma_enable) {
++ gintmsk_data_t intr_mask = {.d32 = 0 };
++ intr_mask.b.nptxfempty = 1;
++
++#ifdef DEBUG
++ tx_status.d32 = DWC_READ_REG32(&global_regs->gnptxsts);
++ DWC_DEBUGPL(DBG_HCDV,
++ " NP Tx Req Queue Space Avail (after queue): %d\n",
++ tx_status.b.nptxqspcavail);
++ DWC_DEBUGPL(DBG_HCDV,
++ " NP Tx FIFO Space Avail (after queue): %d\n",
++ tx_status.b.nptxfspcavail);
++#endif
++ if (more_to_do || no_queue_space || no_fifo_space) {
++ /*
++ * May need to queue more transactions as the request
++ * queue or Tx FIFO empties. Enable the non-periodic
++ * Tx FIFO empty interrupt. (Always use the half-empty
++ * level to ensure that new requests are loaded as
++ * soon as possible.)
++ */
++ DWC_MODIFY_REG32(&global_regs->gintmsk, 0,
++ intr_mask.d32);
++ } else {
++ /*
++ * Disable the Tx FIFO empty interrupt since there are
++ * no more transactions that need to be queued right
++ * now. This function is called from interrupt
++ * handlers to queue more transactions as transfer
++ * states change.
++ */
++ DWC_MODIFY_REG32(&global_regs->gintmsk, intr_mask.d32,
++ 0);
++ }
++ }
++}
++
++/**
++ * This function processes the currently active host channels and queues
++ * transactions for these channels to the DWC_otg controller. It is called
++ * from HCD interrupt handler functions.
++ *
++ * @param hcd The HCD state structure.
++ * @param tr_type The type(s) of transactions to queue (non-periodic,
++ * periodic, or both).
++ */
++void dwc_otg_hcd_queue_transactions(dwc_otg_hcd_t * hcd,
++ dwc_otg_transaction_type_e tr_type)
++{
++#ifdef DEBUG_SOF
++ DWC_DEBUGPL(DBG_HCD, "Queue Transactions\n");
++#endif
++ /* Process host channels associated with periodic transfers. */
++ if ((tr_type == DWC_OTG_TRANSACTION_PERIODIC ||
++ tr_type == DWC_OTG_TRANSACTION_ALL) &&
++ !DWC_LIST_EMPTY(&hcd->periodic_sched_assigned)) {
++
++ process_periodic_channels(hcd);
++ }
++
++ /* Process host channels associated with non-periodic transfers. */
++ if (tr_type == DWC_OTG_TRANSACTION_NON_PERIODIC ||
++ tr_type == DWC_OTG_TRANSACTION_ALL) {
++ if (!DWC_LIST_EMPTY(&hcd->non_periodic_sched_active)) {
++ process_non_periodic_channels(hcd);
++ } else {
++ /*
++ * Ensure NP Tx FIFO empty interrupt is disabled when
++ * there are no non-periodic transfers to process.
++ */
++ gintmsk_data_t gintmsk = {.d32 = 0 };
++ gintmsk.b.nptxfempty = 1;
++ DWC_MODIFY_REG32(&hcd->core_if->
++ core_global_regs->gintmsk, gintmsk.d32,
++ 0);
++ }
++ }
++}
++
++#ifdef DWC_HS_ELECT_TST
++/*
++ * Quick and dirty hack to implement the HS Electrical Test
++ * SINGLE_STEP_GET_DEVICE_DESCRIPTOR feature.
++ *
++ * This code was copied from our userspace app "hset". It sends a
++ * Get Device Descriptor control sequence in two parts, first the
++ * Setup packet by itself, followed some time later by the In and
++ * Ack packets. Rather than trying to figure out how to add this
++ * functionality to the normal driver code, we just hijack the
++ * hardware, using these two function to drive the hardware
++ * directly.
++ */
++
++static dwc_otg_core_global_regs_t *global_regs;
++static dwc_otg_host_global_regs_t *hc_global_regs;
++static dwc_otg_hc_regs_t *hc_regs;
++static uint32_t *data_fifo;
++
++static void do_setup(void)
++{
++ gintsts_data_t gintsts;
++ hctsiz_data_t hctsiz;
++ hcchar_data_t hcchar;
++ haint_data_t haint;
++ hcint_data_t hcint;
++
++ /* Enable HAINTs */
++ DWC_WRITE_REG32(&hc_global_regs->haintmsk, 0x0001);
++
++ /* Enable HCINTs */
++ DWC_WRITE_REG32(&hc_regs->hcintmsk, 0x04a3);
++
++ /* Read GINTSTS */
++ gintsts.d32 = DWC_READ_REG32(&global_regs->gintsts);
++
++ /* Read HAINT */
++ haint.d32 = DWC_READ_REG32(&hc_global_regs->haint);
++
++ /* Read HCINT */
++ hcint.d32 = DWC_READ_REG32(&hc_regs->hcint);
++
++ /* Read HCCHAR */
++ hcchar.d32 = DWC_READ_REG32(&hc_regs->hcchar);
++
++ /* Clear HCINT */
++ DWC_WRITE_REG32(&hc_regs->hcint, hcint.d32);
++
++ /* Clear HAINT */
++ DWC_WRITE_REG32(&hc_global_regs->haint, haint.d32);
++
++ /* Clear GINTSTS */
++ DWC_WRITE_REG32(&global_regs->gintsts, gintsts.d32);
++
++ /* Read GINTSTS */
++ gintsts.d32 = DWC_READ_REG32(&global_regs->gintsts);
++
++ /*
++ * Send Setup packet (Get Device Descriptor)
++ */
++
++ /* Make sure channel is disabled */
++ hcchar.d32 = DWC_READ_REG32(&hc_regs->hcchar);
++ if (hcchar.b.chen) {
++ hcchar.b.chdis = 1;
++// hcchar.b.chen = 1;
++ DWC_WRITE_REG32(&hc_regs->hcchar, hcchar.d32);
++ //sleep(1);
++ dwc_mdelay(1000);
++
++ /* Read GINTSTS */
++ gintsts.d32 = DWC_READ_REG32(&global_regs->gintsts);
++
++ /* Read HAINT */
++ haint.d32 = DWC_READ_REG32(&hc_global_regs->haint);
++
++ /* Read HCINT */
++ hcint.d32 = DWC_READ_REG32(&hc_regs->hcint);
++
++ /* Read HCCHAR */
++ hcchar.d32 = DWC_READ_REG32(&hc_regs->hcchar);
++
++ /* Clear HCINT */
++ DWC_WRITE_REG32(&hc_regs->hcint, hcint.d32);
++
++ /* Clear HAINT */
++ DWC_WRITE_REG32(&hc_global_regs->haint, haint.d32);
++
++ /* Clear GINTSTS */
++ DWC_WRITE_REG32(&global_regs->gintsts, gintsts.d32);
++
++ hcchar.d32 = DWC_READ_REG32(&hc_regs->hcchar);
++ }
++
++ /* Set HCTSIZ */
++ hctsiz.d32 = 0;
++ hctsiz.b.xfersize = 8;
++ hctsiz.b.pktcnt = 1;
++ hctsiz.b.pid = DWC_OTG_HC_PID_SETUP;
++ DWC_WRITE_REG32(&hc_regs->hctsiz, hctsiz.d32);
++
++ /* Set HCCHAR */
++ hcchar.d32 = DWC_READ_REG32(&hc_regs->hcchar);
++ hcchar.b.eptype = DWC_OTG_EP_TYPE_CONTROL;
++ hcchar.b.epdir = 0;
++ hcchar.b.epnum = 0;
++ hcchar.b.mps = 8;
++ hcchar.b.chen = 1;
++ DWC_WRITE_REG32(&hc_regs->hcchar, hcchar.d32);
++
++ /* Fill FIFO with Setup data for Get Device Descriptor */
++ data_fifo = (uint32_t *) ((char *)global_regs + 0x1000);
++ DWC_WRITE_REG32(data_fifo++, 0x01000680);
++ DWC_WRITE_REG32(data_fifo++, 0x00080000);
++
++ gintsts.d32 = DWC_READ_REG32(&global_regs->gintsts);
++
++ /* Wait for host channel interrupt */
++ do {
++ gintsts.d32 = DWC_READ_REG32(&global_regs->gintsts);
++ } while (gintsts.b.hcintr == 0);
++
++ /* Disable HCINTs */
++ DWC_WRITE_REG32(&hc_regs->hcintmsk, 0x0000);
++
++ /* Disable HAINTs */
++ DWC_WRITE_REG32(&hc_global_regs->haintmsk, 0x0000);
++
++ /* Read HAINT */
++ haint.d32 = DWC_READ_REG32(&hc_global_regs->haint);
++
++ /* Read HCINT */
++ hcint.d32 = DWC_READ_REG32(&hc_regs->hcint);
++
++ /* Read HCCHAR */
++ hcchar.d32 = DWC_READ_REG32(&hc_regs->hcchar);
++
++ /* Clear HCINT */
++ DWC_WRITE_REG32(&hc_regs->hcint, hcint.d32);
++
++ /* Clear HAINT */
++ DWC_WRITE_REG32(&hc_global_regs->haint, haint.d32);
++
++ /* Clear GINTSTS */
++ DWC_WRITE_REG32(&global_regs->gintsts, gintsts.d32);
++
++ /* Read GINTSTS */
++ gintsts.d32 = DWC_READ_REG32(&global_regs->gintsts);
++}
++
++static void do_in_ack(void)
++{
++ gintsts_data_t gintsts;
++ hctsiz_data_t hctsiz;
++ hcchar_data_t hcchar;
++ haint_data_t haint;
++ hcint_data_t hcint;
++ host_grxsts_data_t grxsts;
++
++ /* Enable HAINTs */
++ DWC_WRITE_REG32(&hc_global_regs->haintmsk, 0x0001);
++
++ /* Enable HCINTs */
++ DWC_WRITE_REG32(&hc_regs->hcintmsk, 0x04a3);
++
++ /* Read GINTSTS */
++ gintsts.d32 = DWC_READ_REG32(&global_regs->gintsts);
++
++ /* Read HAINT */
++ haint.d32 = DWC_READ_REG32(&hc_global_regs->haint);
++
++ /* Read HCINT */
++ hcint.d32 = DWC_READ_REG32(&hc_regs->hcint);
++
++ /* Read HCCHAR */
++ hcchar.d32 = DWC_READ_REG32(&hc_regs->hcchar);
++
++ /* Clear HCINT */
++ DWC_WRITE_REG32(&hc_regs->hcint, hcint.d32);
++
++ /* Clear HAINT */
++ DWC_WRITE_REG32(&hc_global_regs->haint, haint.d32);
++
++ /* Clear GINTSTS */
++ DWC_WRITE_REG32(&global_regs->gintsts, gintsts.d32);
++
++ /* Read GINTSTS */
++ gintsts.d32 = DWC_READ_REG32(&global_regs->gintsts);
++
++ /*
++ * Receive Control In packet
++ */
++
++ /* Make sure channel is disabled */
++ hcchar.d32 = DWC_READ_REG32(&hc_regs->hcchar);
++ if (hcchar.b.chen) {
++ hcchar.b.chdis = 1;
++ hcchar.b.chen = 1;
++ DWC_WRITE_REG32(&hc_regs->hcchar, hcchar.d32);
++ //sleep(1);
++ dwc_mdelay(1000);
++
++ /* Read GINTSTS */
++ gintsts.d32 = DWC_READ_REG32(&global_regs->gintsts);
++
++ /* Read HAINT */
++ haint.d32 = DWC_READ_REG32(&hc_global_regs->haint);
++
++ /* Read HCINT */
++ hcint.d32 = DWC_READ_REG32(&hc_regs->hcint);
++
++ /* Read HCCHAR */
++ hcchar.d32 = DWC_READ_REG32(&hc_regs->hcchar);
++
++ /* Clear HCINT */
++ DWC_WRITE_REG32(&hc_regs->hcint, hcint.d32);
++
++ /* Clear HAINT */
++ DWC_WRITE_REG32(&hc_global_regs->haint, haint.d32);
++
++ /* Clear GINTSTS */
++ DWC_WRITE_REG32(&global_regs->gintsts, gintsts.d32);
++
++ hcchar.d32 = DWC_READ_REG32(&hc_regs->hcchar);
++ }
++
++ /* Set HCTSIZ */
++ hctsiz.d32 = 0;
++ hctsiz.b.xfersize = 8;
++ hctsiz.b.pktcnt = 1;
++ hctsiz.b.pid = DWC_OTG_HC_PID_DATA1;
++ DWC_WRITE_REG32(&hc_regs->hctsiz, hctsiz.d32);
++
++ /* Set HCCHAR */
++ hcchar.d32 = DWC_READ_REG32(&hc_regs->hcchar);
++ hcchar.b.eptype = DWC_OTG_EP_TYPE_CONTROL;
++ hcchar.b.epdir = 1;
++ hcchar.b.epnum = 0;
++ hcchar.b.mps = 8;
++ hcchar.b.chen = 1;
++ DWC_WRITE_REG32(&hc_regs->hcchar, hcchar.d32);
++
++ gintsts.d32 = DWC_READ_REG32(&global_regs->gintsts);
++
++ /* Wait for receive status queue interrupt */
++ do {
++ gintsts.d32 = DWC_READ_REG32(&global_regs->gintsts);
++ } while (gintsts.b.rxstsqlvl == 0);
++
++ /* Read RXSTS */
++ grxsts.d32 = DWC_READ_REG32(&global_regs->grxstsp);
++
++ /* Clear RXSTSQLVL in GINTSTS */
++ gintsts.d32 = 0;
++ gintsts.b.rxstsqlvl = 1;
++ DWC_WRITE_REG32(&global_regs->gintsts, gintsts.d32);
++
++ switch (grxsts.b.pktsts) {
++ case DWC_GRXSTS_PKTSTS_IN:
++ /* Read the data into the host buffer */
++ if (grxsts.b.bcnt > 0) {
++ int i;
++ int word_count = (grxsts.b.bcnt + 3) / 4;
++
++ data_fifo = (uint32_t *) ((char *)global_regs + 0x1000);
++
++ for (i = 0; i < word_count; i++) {
++ (void)DWC_READ_REG32(data_fifo++);
++ }
++ }
++ break;
++
++ default:
++ break;
++ }
++
++ gintsts.d32 = DWC_READ_REG32(&global_regs->gintsts);
++
++ /* Wait for receive status queue interrupt */
++ do {
++ gintsts.d32 = DWC_READ_REG32(&global_regs->gintsts);
++ } while (gintsts.b.rxstsqlvl == 0);
++
++ /* Read RXSTS */
++ grxsts.d32 = DWC_READ_REG32(&global_regs->grxstsp);
++
++ /* Clear RXSTSQLVL in GINTSTS */
++ gintsts.d32 = 0;
++ gintsts.b.rxstsqlvl = 1;
++ DWC_WRITE_REG32(&global_regs->gintsts, gintsts.d32);
++
++ switch (grxsts.b.pktsts) {
++ case DWC_GRXSTS_PKTSTS_IN_XFER_COMP:
++ break;
++
++ default:
++ break;
++ }
++
++ gintsts.d32 = DWC_READ_REG32(&global_regs->gintsts);
++
++ /* Wait for host channel interrupt */
++ do {
++ gintsts.d32 = DWC_READ_REG32(&global_regs->gintsts);
++ } while (gintsts.b.hcintr == 0);
++
++ /* Read HAINT */
++ haint.d32 = DWC_READ_REG32(&hc_global_regs->haint);
++
++ /* Read HCINT */
++ hcint.d32 = DWC_READ_REG32(&hc_regs->hcint);
++
++ /* Read HCCHAR */
++ hcchar.d32 = DWC_READ_REG32(&hc_regs->hcchar);
++
++ /* Clear HCINT */
++ DWC_WRITE_REG32(&hc_regs->hcint, hcint.d32);
++
++ /* Clear HAINT */
++ DWC_WRITE_REG32(&hc_global_regs->haint, haint.d32);
++
++ /* Clear GINTSTS */
++ DWC_WRITE_REG32(&global_regs->gintsts, gintsts.d32);
++
++ /* Read GINTSTS */
++ gintsts.d32 = DWC_READ_REG32(&global_regs->gintsts);
++
++// usleep(100000);
++// mdelay(100);
++ dwc_mdelay(1);
++
++ /*
++ * Send handshake packet
++ */
++
++ /* Read HAINT */
++ haint.d32 = DWC_READ_REG32(&hc_global_regs->haint);
++
++ /* Read HCINT */
++ hcint.d32 = DWC_READ_REG32(&hc_regs->hcint);
++
++ /* Read HCCHAR */
++ hcchar.d32 = DWC_READ_REG32(&hc_regs->hcchar);
++
++ /* Clear HCINT */
++ DWC_WRITE_REG32(&hc_regs->hcint, hcint.d32);
++
++ /* Clear HAINT */
++ DWC_WRITE_REG32(&hc_global_regs->haint, haint.d32);
++
++ /* Clear GINTSTS */
++ DWC_WRITE_REG32(&global_regs->gintsts, gintsts.d32);
++
++ /* Read GINTSTS */
++ gintsts.d32 = DWC_READ_REG32(&global_regs->gintsts);
++
++ /* Make sure channel is disabled */
++ hcchar.d32 = DWC_READ_REG32(&hc_regs->hcchar);
++ if (hcchar.b.chen) {
++ hcchar.b.chdis = 1;
++ hcchar.b.chen = 1;
++ DWC_WRITE_REG32(&hc_regs->hcchar, hcchar.d32);
++ //sleep(1);
++ dwc_mdelay(1000);
++
++ /* Read GINTSTS */
++ gintsts.d32 = DWC_READ_REG32(&global_regs->gintsts);
++
++ /* Read HAINT */
++ haint.d32 = DWC_READ_REG32(&hc_global_regs->haint);
++
++ /* Read HCINT */
++ hcint.d32 = DWC_READ_REG32(&hc_regs->hcint);
++
++ /* Read HCCHAR */
++ hcchar.d32 = DWC_READ_REG32(&hc_regs->hcchar);
++
++ /* Clear HCINT */
++ DWC_WRITE_REG32(&hc_regs->hcint, hcint.d32);
++
++ /* Clear HAINT */
++ DWC_WRITE_REG32(&hc_global_regs->haint, haint.d32);
++
++ /* Clear GINTSTS */
++ DWC_WRITE_REG32(&global_regs->gintsts, gintsts.d32);
++
++ hcchar.d32 = DWC_READ_REG32(&hc_regs->hcchar);
++ }
++
++ /* Set HCTSIZ */
++ hctsiz.d32 = 0;
++ hctsiz.b.xfersize = 0;
++ hctsiz.b.pktcnt = 1;
++ hctsiz.b.pid = DWC_OTG_HC_PID_DATA1;
++ DWC_WRITE_REG32(&hc_regs->hctsiz, hctsiz.d32);
++
++ /* Set HCCHAR */
++ hcchar.d32 = DWC_READ_REG32(&hc_regs->hcchar);
++ hcchar.b.eptype = DWC_OTG_EP_TYPE_CONTROL;
++ hcchar.b.epdir = 0;
++ hcchar.b.epnum = 0;
++ hcchar.b.mps = 8;
++ hcchar.b.chen = 1;
++ DWC_WRITE_REG32(&hc_regs->hcchar, hcchar.d32);
++
++ gintsts.d32 = DWC_READ_REG32(&global_regs->gintsts);
++
++ /* Wait for host channel interrupt */
++ do {
++ gintsts.d32 = DWC_READ_REG32(&global_regs->gintsts);
++ } while (gintsts.b.hcintr == 0);
++
++ /* Disable HCINTs */
++ DWC_WRITE_REG32(&hc_regs->hcintmsk, 0x0000);
++
++ /* Disable HAINTs */
++ DWC_WRITE_REG32(&hc_global_regs->haintmsk, 0x0000);
++
++ /* Read HAINT */
++ haint.d32 = DWC_READ_REG32(&hc_global_regs->haint);
++
++ /* Read HCINT */
++ hcint.d32 = DWC_READ_REG32(&hc_regs->hcint);
++
++ /* Read HCCHAR */
++ hcchar.d32 = DWC_READ_REG32(&hc_regs->hcchar);
++
++ /* Clear HCINT */
++ DWC_WRITE_REG32(&hc_regs->hcint, hcint.d32);
++
++ /* Clear HAINT */
++ DWC_WRITE_REG32(&hc_global_regs->haint, haint.d32);
++
++ /* Clear GINTSTS */
++ DWC_WRITE_REG32(&global_regs->gintsts, gintsts.d32);
++
++ /* Read GINTSTS */
++ gintsts.d32 = DWC_READ_REG32(&global_regs->gintsts);
++}
++#endif
++
++/** Handles hub class-specific requests. */
++int dwc_otg_hcd_hub_control(dwc_otg_hcd_t * dwc_otg_hcd,
++ uint16_t typeReq,
++ uint16_t wValue,
++ uint16_t wIndex, uint8_t * buf, uint16_t wLength)
++{
++ int retval = 0;
++
++ dwc_otg_core_if_t *core_if = dwc_otg_hcd->core_if;
++ usb_hub_descriptor_t *hub_desc;
++ hprt0_data_t hprt0 = {.d32 = 0 };
++
++ uint32_t port_status;
++
++ switch (typeReq) {
++ case UCR_CLEAR_HUB_FEATURE:
++ DWC_DEBUGPL(DBG_HCD, "DWC OTG HCD HUB CONTROL - "
++ "ClearHubFeature 0x%x\n", wValue);
++ switch (wValue) {
++ case UHF_C_HUB_LOCAL_POWER:
++ case UHF_C_HUB_OVER_CURRENT:
++ /* Nothing required here */
++ break;
++ default:
++ retval = -DWC_E_INVALID;
++ DWC_ERROR("DWC OTG HCD - "
++ "ClearHubFeature request %xh unknown\n",
++ wValue);
++ }
++ break;
++ case UCR_CLEAR_PORT_FEATURE:
++#ifdef CONFIG_USB_DWC_OTG_LPM
++ if (wValue != UHF_PORT_L1)
++#endif
++ if (!wIndex || wIndex > 1)
++ goto error;
++
++ switch (wValue) {
++ case UHF_PORT_ENABLE:
++ DWC_DEBUGPL(DBG_ANY, "DWC OTG HCD HUB CONTROL - "
++ "ClearPortFeature USB_PORT_FEAT_ENABLE\n");
++ hprt0.d32 = dwc_otg_read_hprt0(core_if);
++ hprt0.b.prtena = 1;
++ DWC_WRITE_REG32(core_if->host_if->hprt0, hprt0.d32);
++ break;
++ case UHF_PORT_SUSPEND:
++ DWC_DEBUGPL(DBG_HCD, "DWC OTG HCD HUB CONTROL - "
++ "ClearPortFeature USB_PORT_FEAT_SUSPEND\n");
++
++ if (core_if->power_down == 2) {
++ dwc_otg_host_hibernation_restore(core_if, 0, 0);
++ } else {
++ DWC_WRITE_REG32(core_if->pcgcctl, 0);
++ dwc_mdelay(5);
++
++ hprt0.d32 = dwc_otg_read_hprt0(core_if);
++ hprt0.b.prtres = 1;
++ DWC_WRITE_REG32(core_if->host_if->hprt0, hprt0.d32);
++ hprt0.b.prtsusp = 0;
++ /* Clear Resume bit */
++ dwc_mdelay(100);
++ hprt0.b.prtres = 0;
++ DWC_WRITE_REG32(core_if->host_if->hprt0, hprt0.d32);
++ }
++ break;
++#ifdef CONFIG_USB_DWC_OTG_LPM
++ case UHF_PORT_L1:
++ {
++ pcgcctl_data_t pcgcctl = {.d32 = 0 };
++ glpmcfg_data_t lpmcfg = {.d32 = 0 };
++
++ lpmcfg.d32 =
++ DWC_READ_REG32(&core_if->
++ core_global_regs->glpmcfg);
++ lpmcfg.b.en_utmi_sleep = 0;
++ lpmcfg.b.hird_thres &= (~(1 << 4));
++ lpmcfg.b.prt_sleep_sts = 1;
++ DWC_WRITE_REG32(&core_if->
++ core_global_regs->glpmcfg,
++ lpmcfg.d32);
++
++ /* Clear Enbl_L1Gating bit. */
++ pcgcctl.b.enbl_sleep_gating = 1;
++ DWC_MODIFY_REG32(core_if->pcgcctl, pcgcctl.d32,
++ 0);
++
++ dwc_mdelay(5);
++
++ hprt0.d32 = dwc_otg_read_hprt0(core_if);
++ hprt0.b.prtres = 1;
++ DWC_WRITE_REG32(core_if->host_if->hprt0,
++ hprt0.d32);
++ /* This bit will be cleared in wakeup interrupt handle */
++ break;
++ }
++#endif
++ case UHF_PORT_POWER:
++ DWC_DEBUGPL(DBG_HCD, "DWC OTG HCD HUB CONTROL - "
++ "ClearPortFeature USB_PORT_FEAT_POWER\n");
++ hprt0.d32 = dwc_otg_read_hprt0(core_if);
++ hprt0.b.prtpwr = 0;
++ DWC_WRITE_REG32(core_if->host_if->hprt0, hprt0.d32);
++ break;
++ case UHF_PORT_INDICATOR:
++ DWC_DEBUGPL(DBG_HCD, "DWC OTG HCD HUB CONTROL - "
++ "ClearPortFeature USB_PORT_FEAT_INDICATOR\n");
++ /* Port inidicator not supported */
++ break;
++ case UHF_C_PORT_CONNECTION:
++ /* Clears drivers internal connect status change
++ * flag */
++ DWC_DEBUGPL(DBG_HCD, "DWC OTG HCD HUB CONTROL - "
++ "ClearPortFeature USB_PORT_FEAT_C_CONNECTION\n");
++ dwc_otg_hcd->flags.b.port_connect_status_change = 0;
++ break;
++ case UHF_C_PORT_RESET:
++ /* Clears the driver's internal Port Reset Change
++ * flag */
++ DWC_DEBUGPL(DBG_HCD, "DWC OTG HCD HUB CONTROL - "
++ "ClearPortFeature USB_PORT_FEAT_C_RESET\n");
++ dwc_otg_hcd->flags.b.port_reset_change = 0;
++ break;
++ case UHF_C_PORT_ENABLE:
++ /* Clears the driver's internal Port
++ * Enable/Disable Change flag */
++ DWC_DEBUGPL(DBG_HCD, "DWC OTG HCD HUB CONTROL - "
++ "ClearPortFeature USB_PORT_FEAT_C_ENABLE\n");
++ dwc_otg_hcd->flags.b.port_enable_change = 0;
++ break;
++ case UHF_C_PORT_SUSPEND:
++ /* Clears the driver's internal Port Suspend
++ * Change flag, which is set when resume signaling on
++ * the host port is complete */
++ DWC_DEBUGPL(DBG_HCD, "DWC OTG HCD HUB CONTROL - "
++ "ClearPortFeature USB_PORT_FEAT_C_SUSPEND\n");
++ dwc_otg_hcd->flags.b.port_suspend_change = 0;
++ break;
++#ifdef CONFIG_USB_DWC_OTG_LPM
++ case UHF_C_PORT_L1:
++ dwc_otg_hcd->flags.b.port_l1_change = 0;
++ break;
++#endif
++ case UHF_C_PORT_OVER_CURRENT:
++ DWC_DEBUGPL(DBG_HCD, "DWC OTG HCD HUB CONTROL - "
++ "ClearPortFeature USB_PORT_FEAT_C_OVER_CURRENT\n");
++ dwc_otg_hcd->flags.b.port_over_current_change = 0;
++ break;
++ default:
++ retval = -DWC_E_INVALID;
++ DWC_ERROR("DWC OTG HCD - "
++ "ClearPortFeature request %xh "
++ "unknown or unsupported\n", wValue);
++ }
++ break;
++ case UCR_GET_HUB_DESCRIPTOR:
++ DWC_DEBUGPL(DBG_HCD, "DWC OTG HCD HUB CONTROL - "
++ "GetHubDescriptor\n");
++ hub_desc = (usb_hub_descriptor_t *) buf;
++ hub_desc->bDescLength = 9;
++ hub_desc->bDescriptorType = 0x29;
++ hub_desc->bNbrPorts = 1;
++ USETW(hub_desc->wHubCharacteristics, 0x08);
++ hub_desc->bPwrOn2PwrGood = 1;
++ hub_desc->bHubContrCurrent = 0;
++ hub_desc->DeviceRemovable[0] = 0;
++ hub_desc->DeviceRemovable[1] = 0xff;
++ break;
++ case UCR_GET_HUB_STATUS:
++ DWC_DEBUGPL(DBG_HCD, "DWC OTG HCD HUB CONTROL - "
++ "GetHubStatus\n");
++ DWC_MEMSET(buf, 0, 4);
++ break;
++ case UCR_GET_PORT_STATUS:
++ DWC_DEBUGPL(DBG_HCD, "DWC OTG HCD HUB CONTROL - "
++ "GetPortStatus wIndex = 0x%04x FLAGS=0x%08x\n",
++ wIndex, dwc_otg_hcd->flags.d32);
++ if (!wIndex || wIndex > 1)
++ goto error;
++
++ port_status = 0;
++
++ if (dwc_otg_hcd->flags.b.port_connect_status_change)
++ port_status |= (1 << UHF_C_PORT_CONNECTION);
++
++ if (dwc_otg_hcd->flags.b.port_enable_change)
++ port_status |= (1 << UHF_C_PORT_ENABLE);
++
++ if (dwc_otg_hcd->flags.b.port_suspend_change)
++ port_status |= (1 << UHF_C_PORT_SUSPEND);
++
++ if (dwc_otg_hcd->flags.b.port_l1_change)
++ port_status |= (1 << UHF_C_PORT_L1);
++
++ if (dwc_otg_hcd->flags.b.port_reset_change) {
++ port_status |= (1 << UHF_C_PORT_RESET);
++ }
++
++ if (dwc_otg_hcd->flags.b.port_over_current_change) {
++ DWC_WARN("Overcurrent change detected\n");
++ port_status |= (1 << UHF_C_PORT_OVER_CURRENT);
++ }
++
++ if (!dwc_otg_hcd->flags.b.port_connect_status) {
++ /*
++ * The port is disconnected, which means the core is
++ * either in device mode or it soon will be. Just
++ * return 0's for the remainder of the port status
++ * since the port register can't be read if the core
++ * is in device mode.
++ */
++ *((__le32 *) buf) = dwc_cpu_to_le32(&port_status);
++ break;
++ }
++
++ hprt0.d32 = DWC_READ_REG32(core_if->host_if->hprt0);
++ DWC_DEBUGPL(DBG_HCDV, " HPRT0: 0x%08x\n", hprt0.d32);
++
++ if (hprt0.b.prtconnsts)
++ port_status |= (1 << UHF_PORT_CONNECTION);
++
++ if (hprt0.b.prtena)
++ port_status |= (1 << UHF_PORT_ENABLE);
++
++ if (hprt0.b.prtsusp)
++ port_status |= (1 << UHF_PORT_SUSPEND);
++
++ if (hprt0.b.prtovrcurract)
++ port_status |= (1 << UHF_PORT_OVER_CURRENT);
++
++ if (hprt0.b.prtrst)
++ port_status |= (1 << UHF_PORT_RESET);
++
++ if (hprt0.b.prtpwr)
++ port_status |= (1 << UHF_PORT_POWER);
++
++ if (hprt0.b.prtspd == DWC_HPRT0_PRTSPD_HIGH_SPEED)
++ port_status |= (1 << UHF_PORT_HIGH_SPEED);
++ else if (hprt0.b.prtspd == DWC_HPRT0_PRTSPD_LOW_SPEED)
++ port_status |= (1 << UHF_PORT_LOW_SPEED);
++
++ if (hprt0.b.prttstctl)
++ port_status |= (1 << UHF_PORT_TEST);
++ if (dwc_otg_get_lpm_portsleepstatus(dwc_otg_hcd->core_if)) {
++ port_status |= (1 << UHF_PORT_L1);
++ }
++ /*
++ For Synopsys HW emulation of Power down wkup_control asserts the
++ hreset_n and prst_n on suspned. This causes the HPRT0 to be zero.
++ We intentionally tell the software that port is in L2Suspend state.
++ Only for STE.
++ */
++ if ((core_if->power_down == 2)
++ && (core_if->hibernation_suspend == 1)) {
++ port_status |= (1 << UHF_PORT_SUSPEND);
++ }
++ /* USB_PORT_FEAT_INDICATOR unsupported always 0 */
++
++ *((__le32 *) buf) = dwc_cpu_to_le32(&port_status);
++
++ break;
++ case UCR_SET_HUB_FEATURE:
++ DWC_DEBUGPL(DBG_HCD, "DWC OTG HCD HUB CONTROL - "
++ "SetHubFeature\n");
++ /* No HUB features supported */
++ break;
++ case UCR_SET_PORT_FEATURE:
++ if (wValue != UHF_PORT_TEST && (!wIndex || wIndex > 1))
++ goto error;
++
++ if (!dwc_otg_hcd->flags.b.port_connect_status) {
++ /*
++ * The port is disconnected, which means the core is
++ * either in device mode or it soon will be. Just
++ * return without doing anything since the port
++ * register can't be written if the core is in device
++ * mode.
++ */
++ break;
++ }
++
++ switch (wValue) {
++ case UHF_PORT_SUSPEND:
++ DWC_DEBUGPL(DBG_HCD, "DWC OTG HCD HUB CONTROL - "
++ "SetPortFeature - USB_PORT_FEAT_SUSPEND\n");
++ if (dwc_otg_hcd_otg_port(dwc_otg_hcd) != wIndex) {
++ goto error;
++ }
++ if (core_if->power_down == 2) {
++ int timeout = 300;
++ dwc_irqflags_t flags;
++ pcgcctl_data_t pcgcctl = {.d32 = 0 };
++ gpwrdn_data_t gpwrdn = {.d32 = 0 };
++ gusbcfg_data_t gusbcfg = {.d32 = 0 };
++#ifdef DWC_DEV_SRPCAP
++ int32_t otg_cap_param = core_if->core_params->otg_cap;
++#endif
++ DWC_PRINTF("Preparing for complete power-off\n");
++
++ /* Save registers before hibernation */
++ dwc_otg_save_global_regs(core_if);
++ dwc_otg_save_host_regs(core_if);
++
++ hprt0.d32 = dwc_otg_read_hprt0(core_if);
++ hprt0.b.prtsusp = 1;
++ hprt0.b.prtena = 0;
++ DWC_WRITE_REG32(core_if->host_if->hprt0, hprt0.d32);
++ /* Spin hprt0.b.prtsusp to became 1 */
++ do {
++ hprt0.d32 = dwc_otg_read_hprt0(core_if);
++ if (hprt0.b.prtsusp) {
++ break;
++ }
++ dwc_mdelay(1);
++ } while (--timeout);
++ if (!timeout) {
++ DWC_WARN("Suspend wasn't genereted\n");
++ }
++ dwc_udelay(10);
++
++ /*
++ * We need to disable interrupts to prevent servicing of any IRQ
++ * during going to hibernation
++ */
++ DWC_SPINLOCK_IRQSAVE(dwc_otg_hcd->lock, &flags);
++ core_if->lx_state = DWC_OTG_L2;
++#ifdef DWC_DEV_SRPCAP
++ hprt0.d32 = dwc_otg_read_hprt0(core_if);
++ hprt0.b.prtpwr = 0;
++ hprt0.b.prtena = 0;
++ DWC_WRITE_REG32(core_if->host_if->hprt0,
++ hprt0.d32);
++#endif
++ gusbcfg.d32 =
++ DWC_READ_REG32(&core_if->core_global_regs->
++ gusbcfg);
++ if (gusbcfg.b.ulpi_utmi_sel == 1) {
++ /* ULPI interface */
++ /* Suspend the Phy Clock */
++ pcgcctl.d32 = 0;
++ pcgcctl.b.stoppclk = 1;
++ DWC_MODIFY_REG32(core_if->pcgcctl, 0,
++ pcgcctl.d32);
++ dwc_udelay(10);
++ gpwrdn.b.pmuactv = 1;
++ DWC_MODIFY_REG32(&core_if->
++ core_global_regs->
++ gpwrdn, 0, gpwrdn.d32);
++ } else {
++ /* UTMI+ Interface */
++ gpwrdn.b.pmuactv = 1;
++ DWC_MODIFY_REG32(&core_if->
++ core_global_regs->
++ gpwrdn, 0, gpwrdn.d32);
++ dwc_udelay(10);
++ pcgcctl.b.stoppclk = 1;
++ DWC_MODIFY_REG32(core_if->pcgcctl, 0, pcgcctl.d32);
++ dwc_udelay(10);
++ }
++#ifdef DWC_DEV_SRPCAP
++ gpwrdn.d32 = 0;
++ gpwrdn.b.dis_vbus = 1;
++ DWC_MODIFY_REG32(&core_if->core_global_regs->
++ gpwrdn, 0, gpwrdn.d32);
++#endif
++ gpwrdn.d32 = 0;
++ gpwrdn.b.pmuintsel = 1;
++ DWC_MODIFY_REG32(&core_if->core_global_regs->
++ gpwrdn, 0, gpwrdn.d32);
++ dwc_udelay(10);
++
++ gpwrdn.d32 = 0;
++#ifdef DWC_DEV_SRPCAP
++ gpwrdn.b.srp_det_msk = 1;
++#endif
++ gpwrdn.b.disconn_det_msk = 1;
++ gpwrdn.b.lnstchng_msk = 1;
++ gpwrdn.b.sts_chngint_msk = 1;
++ DWC_MODIFY_REG32(&core_if->core_global_regs->
++ gpwrdn, 0, gpwrdn.d32);
++ dwc_udelay(10);
++
++ /* Enable Power Down Clamp and all interrupts in GPWRDN */
++ gpwrdn.d32 = 0;
++ gpwrdn.b.pwrdnclmp = 1;
++ DWC_MODIFY_REG32(&core_if->core_global_regs->
++ gpwrdn, 0, gpwrdn.d32);
++ dwc_udelay(10);
++
++ /* Switch off VDD */
++ gpwrdn.d32 = 0;
++ gpwrdn.b.pwrdnswtch = 1;
++ DWC_MODIFY_REG32(&core_if->core_global_regs->
++ gpwrdn, 0, gpwrdn.d32);
++
++#ifdef DWC_DEV_SRPCAP
++ if (otg_cap_param == DWC_OTG_CAP_PARAM_HNP_SRP_CAPABLE)
++ {
++ core_if->pwron_timer_started = 1;
++ DWC_TIMER_SCHEDULE(core_if->pwron_timer, 6000 /* 6 secs */ );
++ }
++#endif
++ /* Save gpwrdn register for further usage if stschng interrupt */
++ core_if->gr_backup->gpwrdn_local =
++ DWC_READ_REG32(&core_if->core_global_regs->gpwrdn);
++
++ /* Set flag to indicate that we are in hibernation */
++ core_if->hibernation_suspend = 1;
++ DWC_SPINUNLOCK_IRQRESTORE(dwc_otg_hcd->lock,flags);
++
++ DWC_PRINTF("Host hibernation completed\n");
++ // Exit from case statement
++ break;
++
++ }
++ if (dwc_otg_hcd_otg_port(dwc_otg_hcd) == wIndex &&
++ dwc_otg_hcd->fops->get_b_hnp_enable(dwc_otg_hcd)) {
++ gotgctl_data_t gotgctl = {.d32 = 0 };
++ gotgctl.b.hstsethnpen = 1;
++ DWC_MODIFY_REG32(&core_if->core_global_regs->
++ gotgctl, 0, gotgctl.d32);
++ core_if->op_state = A_SUSPEND;
++ }
++ hprt0.d32 = dwc_otg_read_hprt0(core_if);
++ hprt0.b.prtsusp = 1;
++ DWC_WRITE_REG32(core_if->host_if->hprt0, hprt0.d32);
++ {
++ dwc_irqflags_t flags;
++ /* Update lx_state */
++ DWC_SPINLOCK_IRQSAVE(dwc_otg_hcd->lock, &flags);
++ core_if->lx_state = DWC_OTG_L2;
++ DWC_SPINUNLOCK_IRQRESTORE(dwc_otg_hcd->lock, flags);
++ }
++ /* Suspend the Phy Clock */
++ {
++ pcgcctl_data_t pcgcctl = {.d32 = 0 };
++ pcgcctl.b.stoppclk = 1;
++ DWC_MODIFY_REG32(core_if->pcgcctl, 0,
++ pcgcctl.d32);
++ dwc_udelay(10);
++ }
++
++ /* For HNP the bus must be suspended for at least 200ms. */
++ if (dwc_otg_hcd->fops->get_b_hnp_enable(dwc_otg_hcd)) {
++ pcgcctl_data_t pcgcctl = {.d32 = 0 };
++ pcgcctl.b.stoppclk = 1;
++ DWC_MODIFY_REG32(core_if->pcgcctl, pcgcctl.d32, 0);
++ dwc_mdelay(200);
++ }
++
++ /** @todo - check how sw can wait for 1 sec to check asesvld??? */
++#if 0 //vahrama !!!!!!!!!!!!!!!!!!
++ if (core_if->adp_enable) {
++ gotgctl_data_t gotgctl = {.d32 = 0 };
++ gpwrdn_data_t gpwrdn;
++
++ while (gotgctl.b.asesvld == 1) {
++ gotgctl.d32 =
++ DWC_READ_REG32(&core_if->
++ core_global_regs->
++ gotgctl);
++ dwc_mdelay(100);
++ }
++
++ /* Enable Power Down Logic */
++ gpwrdn.d32 = 0;
++ gpwrdn.b.pmuactv = 1;
++ DWC_MODIFY_REG32(&core_if->core_global_regs->
++ gpwrdn, 0, gpwrdn.d32);
++
++ /* Unmask SRP detected interrupt from Power Down Logic */
++ gpwrdn.d32 = 0;
++ gpwrdn.b.srp_det_msk = 1;
++ DWC_MODIFY_REG32(&core_if->core_global_regs->
++ gpwrdn, 0, gpwrdn.d32);
++
++ dwc_otg_adp_probe_start(core_if);
++ }
++#endif
++ break;
++ case UHF_PORT_POWER:
++ DWC_DEBUGPL(DBG_HCD, "DWC OTG HCD HUB CONTROL - "
++ "SetPortFeature - USB_PORT_FEAT_POWER\n");
++ hprt0.d32 = dwc_otg_read_hprt0(core_if);
++ hprt0.b.prtpwr = 1;
++ DWC_WRITE_REG32(core_if->host_if->hprt0, hprt0.d32);
++ break;
++ case UHF_PORT_RESET:
++ if ((core_if->power_down == 2)
++ && (core_if->hibernation_suspend == 1)) {
++ /* If we are going to exit from Hibernated
++ * state via USB RESET.
++ */
++ dwc_otg_host_hibernation_restore(core_if, 0, 1);
++ } else {
++ hprt0.d32 = dwc_otg_read_hprt0(core_if);
++
++ DWC_DEBUGPL(DBG_HCD,
++ "DWC OTG HCD HUB CONTROL - "
++ "SetPortFeature - USB_PORT_FEAT_RESET\n");
++ {
++ pcgcctl_data_t pcgcctl = {.d32 = 0 };
++ pcgcctl.b.enbl_sleep_gating = 1;
++ pcgcctl.b.stoppclk = 1;
++ DWC_MODIFY_REG32(core_if->pcgcctl, pcgcctl.d32, 0);
++ DWC_WRITE_REG32(core_if->pcgcctl, 0);
++ }
++#ifdef CONFIG_USB_DWC_OTG_LPM
++ {
++ glpmcfg_data_t lpmcfg;
++ lpmcfg.d32 =
++ DWC_READ_REG32(&core_if->core_global_regs->glpmcfg);
++ if (lpmcfg.b.prt_sleep_sts) {
++ lpmcfg.b.en_utmi_sleep = 0;
++ lpmcfg.b.hird_thres &= (~(1 << 4));
++ DWC_WRITE_REG32
++ (&core_if->core_global_regs->glpmcfg,
++ lpmcfg.d32);
++ dwc_mdelay(1);
++ }
++ }
++#endif
++ hprt0.d32 = dwc_otg_read_hprt0(core_if);
++ /* Clear suspend bit if resetting from suspended state. */
++ hprt0.b.prtsusp = 0;
++ /* When B-Host the Port reset bit is set in
++ * the Start HCD Callback function, so that
++ * the reset is started within 1ms of the HNP
++ * success interrupt. */
++ if (!dwc_otg_hcd_is_b_host(dwc_otg_hcd)) {
++ hprt0.b.prtpwr = 1;
++ hprt0.b.prtrst = 1;
++ DWC_PRINTF("Indeed it is in host mode hprt0 = %08x\n",hprt0.d32);
++ DWC_WRITE_REG32(core_if->host_if->hprt0,
++ hprt0.d32);
++ }
++ /* Clear reset bit in 10ms (FS/LS) or 50ms (HS) */
++ dwc_mdelay(60);
++ hprt0.b.prtrst = 0;
++ DWC_WRITE_REG32(core_if->host_if->hprt0, hprt0.d32);
++ core_if->lx_state = DWC_OTG_L0; /* Now back to the on state */
++ }
++ break;
++#ifdef DWC_HS_ELECT_TST
++ case UHF_PORT_TEST:
++ {
++ uint32_t t;
++ gintmsk_data_t gintmsk;
++
++ t = (wIndex >> 8); /* MSB wIndex USB */
++ DWC_DEBUGPL(DBG_HCD,
++ "DWC OTG HCD HUB CONTROL - "
++ "SetPortFeature - USB_PORT_FEAT_TEST %d\n",
++ t);
++ DWC_WARN("USB_PORT_FEAT_TEST %d\n", t);
++ if (t < 6) {
++ hprt0.d32 = dwc_otg_read_hprt0(core_if);
++ hprt0.b.prttstctl = t;
++ DWC_WRITE_REG32(core_if->host_if->hprt0,
++ hprt0.d32);
++ } else {
++ /* Setup global vars with reg addresses (quick and
++ * dirty hack, should be cleaned up)
++ */
++ global_regs = core_if->core_global_regs;
++ hc_global_regs =
++ core_if->host_if->host_global_regs;
++ hc_regs =
++ (dwc_otg_hc_regs_t *) ((char *)
++ global_regs +
++ 0x500);
++ data_fifo =
++ (uint32_t *) ((char *)global_regs +
++ 0x1000);
++
++ if (t == 6) { /* HS_HOST_PORT_SUSPEND_RESUME */
++ /* Save current interrupt mask */
++ gintmsk.d32 =
++ DWC_READ_REG32
++ (&global_regs->gintmsk);
++
++ /* Disable all interrupts while we muck with
++ * the hardware directly
++ */
++ DWC_WRITE_REG32(&global_regs->gintmsk, 0);
++
++ /* 15 second delay per the test spec */
++ dwc_mdelay(15000);
++
++ /* Drive suspend on the root port */
++ hprt0.d32 =
++ dwc_otg_read_hprt0(core_if);
++ hprt0.b.prtsusp = 1;
++ hprt0.b.prtres = 0;
++ DWC_WRITE_REG32(core_if->host_if->hprt0, hprt0.d32);
++
++ /* 15 second delay per the test spec */
++ dwc_mdelay(15000);
++
++ /* Drive resume on the root port */
++ hprt0.d32 =
++ dwc_otg_read_hprt0(core_if);
++ hprt0.b.prtsusp = 0;
++ hprt0.b.prtres = 1;
++ DWC_WRITE_REG32(core_if->host_if->hprt0, hprt0.d32);
++ dwc_mdelay(100);
++
++ /* Clear the resume bit */
++ hprt0.b.prtres = 0;
++ DWC_WRITE_REG32(core_if->host_if->hprt0, hprt0.d32);
++
++ /* Restore interrupts */
++ DWC_WRITE_REG32(&global_regs->gintmsk, gintmsk.d32);
++ } else if (t == 7) { /* SINGLE_STEP_GET_DEVICE_DESCRIPTOR setup */
++ /* Save current interrupt mask */
++ gintmsk.d32 =
++ DWC_READ_REG32
++ (&global_regs->gintmsk);
++
++ /* Disable all interrupts while we muck with
++ * the hardware directly
++ */
++ DWC_WRITE_REG32(&global_regs->gintmsk, 0);
++
++ /* 15 second delay per the test spec */
++ dwc_mdelay(15000);
++
++ /* Send the Setup packet */
++ do_setup();
++
++ /* 15 second delay so nothing else happens for awhile */
++ dwc_mdelay(15000);
++
++ /* Restore interrupts */
++ DWC_WRITE_REG32(&global_regs->gintmsk, gintmsk.d32);
++ } else if (t == 8) { /* SINGLE_STEP_GET_DEVICE_DESCRIPTOR execute */
++ /* Save current interrupt mask */
++ gintmsk.d32 =
++ DWC_READ_REG32
++ (&global_regs->gintmsk);
++
++ /* Disable all interrupts while we muck with
++ * the hardware directly
++ */
++ DWC_WRITE_REG32(&global_regs->gintmsk, 0);
++
++ /* Send the Setup packet */
++ do_setup();
++
++ /* 15 second delay so nothing else happens for awhile */
++ dwc_mdelay(15000);
++
++ /* Send the In and Ack packets */
++ do_in_ack();
++
++ /* 15 second delay so nothing else happens for awhile */
++ dwc_mdelay(15000);
++
++ /* Restore interrupts */
++ DWC_WRITE_REG32(&global_regs->gintmsk, gintmsk.d32);
++ }
++ }
++ break;
++ }
++#endif /* DWC_HS_ELECT_TST */
++
++ case UHF_PORT_INDICATOR:
++ DWC_DEBUGPL(DBG_HCD, "DWC OTG HCD HUB CONTROL - "
++ "SetPortFeature - USB_PORT_FEAT_INDICATOR\n");
++ /* Not supported */
++ break;
++ default:
++ retval = -DWC_E_INVALID;
++ DWC_ERROR("DWC OTG HCD - "
++ "SetPortFeature request %xh "
++ "unknown or unsupported\n", wValue);
++ break;
++ }
++ break;
++#ifdef CONFIG_USB_DWC_OTG_LPM
++ case UCR_SET_AND_TEST_PORT_FEATURE:
++ if (wValue != UHF_PORT_L1) {
++ goto error;
++ }
++ {
++ int portnum, hird, devaddr, remwake;
++ glpmcfg_data_t lpmcfg;
++ uint32_t time_usecs;
++ gintsts_data_t gintsts;
++ gintmsk_data_t gintmsk;
++
++ if (!dwc_otg_get_param_lpm_enable(core_if)) {
++ goto error;
++ }
++ if (wValue != UHF_PORT_L1 || wLength != 1) {
++ goto error;
++ }
++ /* Check if the port currently is in SLEEP state */
++ lpmcfg.d32 =
++ DWC_READ_REG32(&core_if->core_global_regs->glpmcfg);
++ if (lpmcfg.b.prt_sleep_sts) {
++ DWC_INFO("Port is already in sleep mode\n");
++ buf[0] = 0; /* Return success */
++ break;
++ }
++
++ portnum = wIndex & 0xf;
++ hird = (wIndex >> 4) & 0xf;
++ devaddr = (wIndex >> 8) & 0x7f;
++ remwake = (wIndex >> 15);
++
++ if (portnum != 1) {
++ retval = -DWC_E_INVALID;
++ DWC_WARN
++ ("Wrong port number(%d) in SetandTestPortFeature request\n",
++ portnum);
++ break;
++ }
++
++ DWC_PRINTF
++ ("SetandTestPortFeature request: portnum = %d, hird = %d, devaddr = %d, rewake = %d\n",
++ portnum, hird, devaddr, remwake);
++ /* Disable LPM interrupt */
++ gintmsk.d32 = 0;
++ gintmsk.b.lpmtranrcvd = 1;
++ DWC_MODIFY_REG32(&core_if->core_global_regs->gintmsk,
++ gintmsk.d32, 0);
++
++ if (dwc_otg_hcd_send_lpm
++ (dwc_otg_hcd, devaddr, hird, remwake)) {
++ retval = -DWC_E_INVALID;
++ break;
++ }
++
++ time_usecs = 10 * (lpmcfg.b.retry_count + 1);
++ /* We will consider timeout if time_usecs microseconds pass,
++ * and we don't receive LPM transaction status.
++ * After receiving non-error responce(ACK/NYET/STALL) from device,
++ * core will set lpmtranrcvd bit.
++ */
++ do {
++ gintsts.d32 =
++ DWC_READ_REG32(&core_if->core_global_regs->gintsts);
++ if (gintsts.b.lpmtranrcvd) {
++ break;
++ }
++ dwc_udelay(1);
++ } while (--time_usecs);
++ /* lpm_int bit will be cleared in LPM interrupt handler */
++
++ /* Now fill status
++ * 0x00 - Success
++ * 0x10 - NYET
++ * 0x11 - Timeout
++ */
++ if (!gintsts.b.lpmtranrcvd) {
++ buf[0] = 0x3; /* Completion code is Timeout */
++ dwc_otg_hcd_free_hc_from_lpm(dwc_otg_hcd);
++ } else {
++ lpmcfg.d32 =
++ DWC_READ_REG32(&core_if->core_global_regs->glpmcfg);
++ if (lpmcfg.b.lpm_resp == 0x3) {
++ /* ACK responce from the device */
++ buf[0] = 0x00; /* Success */
++ } else if (lpmcfg.b.lpm_resp == 0x2) {
++ /* NYET responce from the device */
++ buf[0] = 0x2;
++ } else {
++ /* Otherwise responce with Timeout */
++ buf[0] = 0x3;
++ }
++ }
++ DWC_PRINTF("Device responce to LPM trans is %x\n",
++ lpmcfg.b.lpm_resp);
++ DWC_MODIFY_REG32(&core_if->core_global_regs->gintmsk, 0,
++ gintmsk.d32);
++
++ break;
++ }
++#endif /* CONFIG_USB_DWC_OTG_LPM */
++ default:
++error:
++ retval = -DWC_E_INVALID;
++ DWC_WARN("DWC OTG HCD - "
++ "Unknown hub control request type or invalid typeReq: %xh wIndex: %xh wValue: %xh\n",
++ typeReq, wIndex, wValue);
++ break;
++ }
++
++ return retval;
++}
++
++#ifdef CONFIG_USB_DWC_OTG_LPM
++/** Returns index of host channel to perform LPM transaction. */
++int dwc_otg_hcd_get_hc_for_lpm_tran(dwc_otg_hcd_t * hcd, uint8_t devaddr)
++{
++ dwc_otg_core_if_t *core_if = hcd->core_if;
++ dwc_hc_t *hc;
++ hcchar_data_t hcchar;
++ gintmsk_data_t gintmsk = {.d32 = 0 };
++
++ if (DWC_CIRCLEQ_EMPTY(&hcd->free_hc_list)) {
++ DWC_PRINTF("No free channel to select for LPM transaction\n");
++ return -1;
++ }
++
++ hc = DWC_CIRCLEQ_FIRST(&hcd->free_hc_list);
++
++ /* Mask host channel interrupts. */
++ gintmsk.b.hcintr = 1;
++ DWC_MODIFY_REG32(&core_if->core_global_regs->gintmsk, gintmsk.d32, 0);
++
++ /* Fill fields that core needs for LPM transaction */
++ hcchar.b.devaddr = devaddr;
++ hcchar.b.epnum = 0;
++ hcchar.b.eptype = DWC_OTG_EP_TYPE_CONTROL;
++ hcchar.b.mps = 64;
++ hcchar.b.lspddev = (hc->speed == DWC_OTG_EP_SPEED_LOW);
++ hcchar.b.epdir = 0; /* OUT */
++ DWC_WRITE_REG32(&core_if->host_if->hc_regs[hc->hc_num]->hcchar,
++ hcchar.d32);
++
++ /* Remove the host channel from the free list. */
++ DWC_CIRCLEQ_REMOVE_INIT(&hcd->free_hc_list, hc, hc_list_entry);
++
++ DWC_PRINTF("hcnum = %d devaddr = %d\n", hc->hc_num, devaddr);
++
++ return hc->hc_num;
++}
++
++/** Release hc after performing LPM transaction */
++void dwc_otg_hcd_free_hc_from_lpm(dwc_otg_hcd_t * hcd)
++{
++ dwc_hc_t *hc;
++ glpmcfg_data_t lpmcfg;
++ uint8_t hc_num;
++
++ lpmcfg.d32 = DWC_READ_REG32(&hcd->core_if->core_global_regs->glpmcfg);
++ hc_num = lpmcfg.b.lpm_chan_index;
++
++ hc = hcd->hc_ptr_array[hc_num];
++
++ DWC_PRINTF("Freeing channel %d after LPM\n", hc_num);
++ /* Return host channel to free list */
++ DWC_CIRCLEQ_INSERT_TAIL(&hcd->free_hc_list, hc, hc_list_entry);
++}
++
++int dwc_otg_hcd_send_lpm(dwc_otg_hcd_t * hcd, uint8_t devaddr, uint8_t hird,
++ uint8_t bRemoteWake)
++{
++ glpmcfg_data_t lpmcfg;
++ pcgcctl_data_t pcgcctl = {.d32 = 0 };
++ int channel;
++
++ channel = dwc_otg_hcd_get_hc_for_lpm_tran(hcd, devaddr);
++ if (channel < 0) {
++ return channel;
++ }
++
++ pcgcctl.b.enbl_sleep_gating = 1;
++ DWC_MODIFY_REG32(hcd->core_if->pcgcctl, 0, pcgcctl.d32);
++
++ /* Read LPM config register */
++ lpmcfg.d32 = DWC_READ_REG32(&hcd->core_if->core_global_regs->glpmcfg);
++
++ /* Program LPM transaction fields */
++ lpmcfg.b.rem_wkup_en = bRemoteWake;
++ lpmcfg.b.hird = hird;
++ lpmcfg.b.hird_thres = 0x1c;
++ lpmcfg.b.lpm_chan_index = channel;
++ lpmcfg.b.en_utmi_sleep = 1;
++ /* Program LPM config register */
++ DWC_WRITE_REG32(&hcd->core_if->core_global_regs->glpmcfg, lpmcfg.d32);
++
++ /* Send LPM transaction */
++ lpmcfg.b.send_lpm = 1;
++ DWC_WRITE_REG32(&hcd->core_if->core_global_regs->glpmcfg, lpmcfg.d32);
++
++ return 0;
++}
++
++#endif /* CONFIG_USB_DWC_OTG_LPM */
++
++int dwc_otg_hcd_is_status_changed(dwc_otg_hcd_t * hcd, int port)
++{
++ int retval;
++
++ if (port != 1) {
++ return -DWC_E_INVALID;
++ }
++
++ retval = (hcd->flags.b.port_connect_status_change ||
++ hcd->flags.b.port_reset_change ||
++ hcd->flags.b.port_enable_change ||
++ hcd->flags.b.port_suspend_change ||
++ hcd->flags.b.port_over_current_change);
++#ifdef DEBUG
++ if (retval) {
++ DWC_DEBUGPL(DBG_HCD, "DWC OTG HCD HUB STATUS DATA:"
++ " Root port status changed\n");
++ DWC_DEBUGPL(DBG_HCDV, " port_connect_status_change: %d\n",
++ hcd->flags.b.port_connect_status_change);
++ DWC_DEBUGPL(DBG_HCDV, " port_reset_change: %d\n",
++ hcd->flags.b.port_reset_change);
++ DWC_DEBUGPL(DBG_HCDV, " port_enable_change: %d\n",
++ hcd->flags.b.port_enable_change);
++ DWC_DEBUGPL(DBG_HCDV, " port_suspend_change: %d\n",
++ hcd->flags.b.port_suspend_change);
++ DWC_DEBUGPL(DBG_HCDV, " port_over_current_change: %d\n",
++ hcd->flags.b.port_over_current_change);
++ }
++#endif
++ return retval;
++}
++
++int dwc_otg_hcd_get_frame_number(dwc_otg_hcd_t * dwc_otg_hcd)
++{
++ hfnum_data_t hfnum;
++ hfnum.d32 =
++ DWC_READ_REG32(&dwc_otg_hcd->core_if->host_if->host_global_regs->
++ hfnum);
++
++#ifdef DEBUG_SOF
++ DWC_DEBUGPL(DBG_HCDV, "DWC OTG HCD GET FRAME NUMBER %d\n",
++ hfnum.b.frnum);
++#endif
++ return hfnum.b.frnum;
++}
++
++int dwc_otg_hcd_start(dwc_otg_hcd_t * hcd,
++ struct dwc_otg_hcd_function_ops *fops)
++{
++ int retval = 0;
++
++ hcd->fops = fops;
++ if (!dwc_otg_is_device_mode(hcd->core_if) &&
++ (!hcd->core_if->adp_enable || hcd->core_if->adp.adp_started)) {
++ dwc_otg_hcd_reinit(hcd);
++ } else {
++ retval = -DWC_E_NO_DEVICE;
++ }
++
++ return retval;
++}
++
++void *dwc_otg_hcd_get_priv_data(dwc_otg_hcd_t * hcd)
++{
++ return hcd->priv;
++}
++
++void dwc_otg_hcd_set_priv_data(dwc_otg_hcd_t * hcd, void *priv_data)
++{
++ hcd->priv = priv_data;
++}
++
++uint32_t dwc_otg_hcd_otg_port(dwc_otg_hcd_t * hcd)
++{
++ return hcd->otg_port;
++}
++
++uint32_t dwc_otg_hcd_is_b_host(dwc_otg_hcd_t * hcd)
++{
++ uint32_t is_b_host;
++ if (hcd->core_if->op_state == B_HOST) {
++ is_b_host = 1;
++ } else {
++ is_b_host = 0;
++ }
++
++ return is_b_host;
++}
++
++dwc_otg_hcd_urb_t *dwc_otg_hcd_urb_alloc(dwc_otg_hcd_t * hcd,
++ int iso_desc_count, int atomic_alloc)
++{
++ dwc_otg_hcd_urb_t *dwc_otg_urb;
++ uint32_t size;
++
++ size =
++ sizeof(*dwc_otg_urb) +
++ iso_desc_count * sizeof(struct dwc_otg_hcd_iso_packet_desc);
++ if (atomic_alloc)
++ dwc_otg_urb = DWC_ALLOC_ATOMIC(size);
++ else
++ dwc_otg_urb = DWC_ALLOC(size);
++
++ if (dwc_otg_urb)
++ dwc_otg_urb->packet_count = iso_desc_count;
++ else {
++ DWC_ERROR("**** DWC OTG HCD URB alloc - "
++ "%salloc of %db failed\n",
++ atomic_alloc?"atomic ":"", size);
++ }
++ return dwc_otg_urb;
++}
++
++void dwc_otg_hcd_urb_set_pipeinfo(dwc_otg_hcd_urb_t * dwc_otg_urb,
++ uint8_t dev_addr, uint8_t ep_num,
++ uint8_t ep_type, uint8_t ep_dir, uint16_t mps)
++{
++ dwc_otg_hcd_fill_pipe(&dwc_otg_urb->pipe_info, dev_addr, ep_num,
++ ep_type, ep_dir, mps);
++#if 0
++ DWC_PRINTF
++ ("addr = %d, ep_num = %d, ep_dir = 0x%x, ep_type = 0x%x, mps = %d\n",
++ dev_addr, ep_num, ep_dir, ep_type, mps);
++#endif
++}
++
++void dwc_otg_hcd_urb_set_params(dwc_otg_hcd_urb_t * dwc_otg_urb,
++ void *urb_handle, void *buf, dwc_dma_t dma,
++ uint32_t buflen, void *setup_packet,
++ dwc_dma_t setup_dma, uint32_t flags,
++ uint16_t interval)
++{
++ dwc_otg_urb->priv = urb_handle;
++ dwc_otg_urb->buf = buf;
++ dwc_otg_urb->dma = dma;
++ dwc_otg_urb->length = buflen;
++ dwc_otg_urb->setup_packet = setup_packet;
++ dwc_otg_urb->setup_dma = setup_dma;
++ dwc_otg_urb->flags = flags;
++ dwc_otg_urb->interval = interval;
++ dwc_otg_urb->status = -DWC_E_IN_PROGRESS;
++}
++
++uint32_t dwc_otg_hcd_urb_get_status(dwc_otg_hcd_urb_t * dwc_otg_urb)
++{
++ return dwc_otg_urb->status;
++}
++
++uint32_t dwc_otg_hcd_urb_get_actual_length(dwc_otg_hcd_urb_t * dwc_otg_urb)
++{
++ return dwc_otg_urb->actual_length;
++}
++
++uint32_t dwc_otg_hcd_urb_get_error_count(dwc_otg_hcd_urb_t * dwc_otg_urb)
++{
++ return dwc_otg_urb->error_count;
++}
++
++void dwc_otg_hcd_urb_set_iso_desc_params(dwc_otg_hcd_urb_t * dwc_otg_urb,
++ int desc_num, uint32_t offset,
++ uint32_t length)
++{
++ dwc_otg_urb->iso_descs[desc_num].offset = offset;
++ dwc_otg_urb->iso_descs[desc_num].length = length;
++}
++
++uint32_t dwc_otg_hcd_urb_get_iso_desc_status(dwc_otg_hcd_urb_t * dwc_otg_urb,
++ int desc_num)
++{
++ return dwc_otg_urb->iso_descs[desc_num].status;
++}
++
++uint32_t dwc_otg_hcd_urb_get_iso_desc_actual_length(dwc_otg_hcd_urb_t *
++ dwc_otg_urb, int desc_num)
++{
++ return dwc_otg_urb->iso_descs[desc_num].actual_length;
++}
++
++int dwc_otg_hcd_is_bandwidth_allocated(dwc_otg_hcd_t * hcd, void *ep_handle)
++{
++ int allocated = 0;
++ dwc_otg_qh_t *qh = (dwc_otg_qh_t *) ep_handle;
++
++ if (qh) {
++ if (!DWC_LIST_EMPTY(&qh->qh_list_entry)) {
++ allocated = 1;
++ }
++ }
++ return allocated;
++}
++
++int dwc_otg_hcd_is_bandwidth_freed(dwc_otg_hcd_t * hcd, void *ep_handle)
++{
++ dwc_otg_qh_t *qh = (dwc_otg_qh_t *) ep_handle;
++ int freed = 0;
++ DWC_ASSERT(qh, "qh is not allocated\n");
++
++ if (DWC_LIST_EMPTY(&qh->qh_list_entry)) {
++ freed = 1;
++ }
++
++ return freed;
++}
++
++uint8_t dwc_otg_hcd_get_ep_bandwidth(dwc_otg_hcd_t * hcd, void *ep_handle)
++{
++ dwc_otg_qh_t *qh = (dwc_otg_qh_t *) ep_handle;
++ DWC_ASSERT(qh, "qh is not allocated\n");
++ return qh->usecs;
++}
++
++void dwc_otg_hcd_dump_state(dwc_otg_hcd_t * hcd)
++{
++#ifdef DEBUG
++ int num_channels;
++ int i;
++ gnptxsts_data_t np_tx_status;
++ hptxsts_data_t p_tx_status;
++
++ num_channels = hcd->core_if->core_params->host_channels;
++ DWC_PRINTF("\n");
++ DWC_PRINTF
++ ("************************************************************\n");
++ DWC_PRINTF("HCD State:\n");
++ DWC_PRINTF(" Num channels: %d\n", num_channels);
++ for (i = 0; i < num_channels; i++) {
++ dwc_hc_t *hc = hcd->hc_ptr_array[i];
++ DWC_PRINTF(" Channel %d:\n", i);
++ DWC_PRINTF(" dev_addr: %d, ep_num: %d, ep_is_in: %d\n",
++ hc->dev_addr, hc->ep_num, hc->ep_is_in);
++ DWC_PRINTF(" speed: %d\n", hc->speed);
++ DWC_PRINTF(" ep_type: %d\n", hc->ep_type);
++ DWC_PRINTF(" max_packet: %d\n", hc->max_packet);
++ DWC_PRINTF(" data_pid_start: %d\n", hc->data_pid_start);
++ DWC_PRINTF(" multi_count: %d\n", hc->multi_count);
++ DWC_PRINTF(" xfer_started: %d\n", hc->xfer_started);
++ DWC_PRINTF(" xfer_buff: %p\n", hc->xfer_buff);
++ DWC_PRINTF(" xfer_len: %d\n", hc->xfer_len);
++ DWC_PRINTF(" xfer_count: %d\n", hc->xfer_count);
++ DWC_PRINTF(" halt_on_queue: %d\n", hc->halt_on_queue);
++ DWC_PRINTF(" halt_pending: %d\n", hc->halt_pending);
++ DWC_PRINTF(" halt_status: %d\n", hc->halt_status);
++ DWC_PRINTF(" do_split: %d\n", hc->do_split);
++ DWC_PRINTF(" complete_split: %d\n", hc->complete_split);
++ DWC_PRINTF(" hub_addr: %d\n", hc->hub_addr);
++ DWC_PRINTF(" port_addr: %d\n", hc->port_addr);
++ DWC_PRINTF(" xact_pos: %d\n", hc->xact_pos);
++ DWC_PRINTF(" requests: %d\n", hc->requests);
++ DWC_PRINTF(" qh: %p\n", hc->qh);
++ if (hc->xfer_started) {
++ hfnum_data_t hfnum;
++ hcchar_data_t hcchar;
++ hctsiz_data_t hctsiz;
++ hcint_data_t hcint;
++ hcintmsk_data_t hcintmsk;
++ hfnum.d32 =
++ DWC_READ_REG32(&hcd->core_if->
++ host_if->host_global_regs->hfnum);
++ hcchar.d32 =
++ DWC_READ_REG32(&hcd->core_if->host_if->
++ hc_regs[i]->hcchar);
++ hctsiz.d32 =
++ DWC_READ_REG32(&hcd->core_if->host_if->
++ hc_regs[i]->hctsiz);
++ hcint.d32 =
++ DWC_READ_REG32(&hcd->core_if->host_if->
++ hc_regs[i]->hcint);
++ hcintmsk.d32 =
++ DWC_READ_REG32(&hcd->core_if->host_if->
++ hc_regs[i]->hcintmsk);
++ DWC_PRINTF(" hfnum: 0x%08x\n", hfnum.d32);
++ DWC_PRINTF(" hcchar: 0x%08x\n", hcchar.d32);
++ DWC_PRINTF(" hctsiz: 0x%08x\n", hctsiz.d32);
++ DWC_PRINTF(" hcint: 0x%08x\n", hcint.d32);
++ DWC_PRINTF(" hcintmsk: 0x%08x\n", hcintmsk.d32);
++ }
++ if (hc->xfer_started && hc->qh) {
++ dwc_otg_qtd_t *qtd;
++ dwc_otg_hcd_urb_t *urb;
++
++ DWC_CIRCLEQ_FOREACH(qtd, &hc->qh->qtd_list, qtd_list_entry) {
++ if (!qtd->in_process)
++ break;
++
++ urb = qtd->urb;
++ DWC_PRINTF(" URB Info:\n");
++ DWC_PRINTF(" qtd: %p, urb: %p\n", qtd, urb);
++ if (urb) {
++ DWC_PRINTF(" Dev: %d, EP: %d %s\n",
++ dwc_otg_hcd_get_dev_addr(&urb->
++ pipe_info),
++ dwc_otg_hcd_get_ep_num(&urb->
++ pipe_info),
++ dwc_otg_hcd_is_pipe_in(&urb->
++ pipe_info) ?
++ "IN" : "OUT");
++ DWC_PRINTF(" Max packet size: %d\n",
++ dwc_otg_hcd_get_mps(&urb->
++ pipe_info));
++ DWC_PRINTF(" transfer_buffer: %p\n",
++ urb->buf);
++ DWC_PRINTF(" transfer_dma: %p\n",
++ (void *)urb->dma);
++ DWC_PRINTF(" transfer_buffer_length: %d\n",
++ urb->length);
++ DWC_PRINTF(" actual_length: %d\n",
++ urb->actual_length);
++ }
++ }
++ }
++ }
++ DWC_PRINTF(" non_periodic_channels: %d\n", hcd->non_periodic_channels);
++ DWC_PRINTF(" periodic_channels: %d\n", hcd->periodic_channels);
++ DWC_PRINTF(" periodic_usecs: %d\n", hcd->periodic_usecs);
++ np_tx_status.d32 =
++ DWC_READ_REG32(&hcd->core_if->core_global_regs->gnptxsts);
++ DWC_PRINTF(" NP Tx Req Queue Space Avail: %d\n",
++ np_tx_status.b.nptxqspcavail);
++ DWC_PRINTF(" NP Tx FIFO Space Avail: %d\n",
++ np_tx_status.b.nptxfspcavail);
++ p_tx_status.d32 =
++ DWC_READ_REG32(&hcd->core_if->host_if->host_global_regs->hptxsts);
++ DWC_PRINTF(" P Tx Req Queue Space Avail: %d\n",
++ p_tx_status.b.ptxqspcavail);
++ DWC_PRINTF(" P Tx FIFO Space Avail: %d\n", p_tx_status.b.ptxfspcavail);
++ dwc_otg_hcd_dump_frrem(hcd);
++ dwc_otg_dump_global_registers(hcd->core_if);
++ dwc_otg_dump_host_registers(hcd->core_if);
++ DWC_PRINTF
++ ("************************************************************\n");
++ DWC_PRINTF("\n");
++#endif
++}
++
++#ifdef DEBUG
++void dwc_print_setup_data(uint8_t * setup)
++{
++ int i;
++ if (CHK_DEBUG_LEVEL(DBG_HCD)) {
++ DWC_PRINTF("Setup Data = MSB ");
++ for (i = 7; i >= 0; i--)
++ DWC_PRINTF("%02x ", setup[i]);
++ DWC_PRINTF("\n");
++ DWC_PRINTF(" bmRequestType Tranfer = %s\n",
++ (setup[0] & 0x80) ? "Device-to-Host" :
++ "Host-to-Device");
++ DWC_PRINTF(" bmRequestType Type = ");
++ switch ((setup[0] & 0x60) >> 5) {
++ case 0:
++ DWC_PRINTF("Standard\n");
++ break;
++ case 1:
++ DWC_PRINTF("Class\n");
++ break;
++ case 2:
++ DWC_PRINTF("Vendor\n");
++ break;
++ case 3:
++ DWC_PRINTF("Reserved\n");
++ break;
++ }
++ DWC_PRINTF(" bmRequestType Recipient = ");
++ switch (setup[0] & 0x1f) {
++ case 0:
++ DWC_PRINTF("Device\n");
++ break;
++ case 1:
++ DWC_PRINTF("Interface\n");
++ break;
++ case 2:
++ DWC_PRINTF("Endpoint\n");
++ break;
++ case 3:
++ DWC_PRINTF("Other\n");
++ break;
++ default:
++ DWC_PRINTF("Reserved\n");
++ break;
++ }
++ DWC_PRINTF(" bRequest = 0x%0x\n", setup[1]);
++ DWC_PRINTF(" wValue = 0x%0x\n", *((uint16_t *) & setup[2]));
++ DWC_PRINTF(" wIndex = 0x%0x\n", *((uint16_t *) & setup[4]));
++ DWC_PRINTF(" wLength = 0x%0x\n\n", *((uint16_t *) & setup[6]));
++ }
++}
++#endif
++
++void dwc_otg_hcd_dump_frrem(dwc_otg_hcd_t * hcd)
++{
++#if 0
++ DWC_PRINTF("Frame remaining at SOF:\n");
++ DWC_PRINTF(" samples %u, accum %llu, avg %llu\n",
++ hcd->frrem_samples, hcd->frrem_accum,
++ (hcd->frrem_samples > 0) ?
++ hcd->frrem_accum / hcd->frrem_samples : 0);
++
++ DWC_PRINTF("\n");
++ DWC_PRINTF("Frame remaining at start_transfer (uframe 7):\n");
++ DWC_PRINTF(" samples %u, accum %llu, avg %llu\n",
++ hcd->core_if->hfnum_7_samples,
++ hcd->core_if->hfnum_7_frrem_accum,
++ (hcd->core_if->hfnum_7_samples >
++ 0) ? hcd->core_if->hfnum_7_frrem_accum /
++ hcd->core_if->hfnum_7_samples : 0);
++ DWC_PRINTF("Frame remaining at start_transfer (uframe 0):\n");
++ DWC_PRINTF(" samples %u, accum %llu, avg %llu\n",
++ hcd->core_if->hfnum_0_samples,
++ hcd->core_if->hfnum_0_frrem_accum,
++ (hcd->core_if->hfnum_0_samples >
++ 0) ? hcd->core_if->hfnum_0_frrem_accum /
++ hcd->core_if->hfnum_0_samples : 0);
++ DWC_PRINTF("Frame remaining at start_transfer (uframe 1-6):\n");
++ DWC_PRINTF(" samples %u, accum %llu, avg %llu\n",
++ hcd->core_if->hfnum_other_samples,
++ hcd->core_if->hfnum_other_frrem_accum,
++ (hcd->core_if->hfnum_other_samples >
++ 0) ? hcd->core_if->hfnum_other_frrem_accum /
++ hcd->core_if->hfnum_other_samples : 0);
++
++ DWC_PRINTF("\n");
++ DWC_PRINTF("Frame remaining at sample point A (uframe 7):\n");
++ DWC_PRINTF(" samples %u, accum %llu, avg %llu\n",
++ hcd->hfnum_7_samples_a, hcd->hfnum_7_frrem_accum_a,
++ (hcd->hfnum_7_samples_a > 0) ?
++ hcd->hfnum_7_frrem_accum_a / hcd->hfnum_7_samples_a : 0);
++ DWC_PRINTF("Frame remaining at sample point A (uframe 0):\n");
++ DWC_PRINTF(" samples %u, accum %llu, avg %llu\n",
++ hcd->hfnum_0_samples_a, hcd->hfnum_0_frrem_accum_a,
++ (hcd->hfnum_0_samples_a > 0) ?
++ hcd->hfnum_0_frrem_accum_a / hcd->hfnum_0_samples_a : 0);
++ DWC_PRINTF("Frame remaining at sample point A (uframe 1-6):\n");
++ DWC_PRINTF(" samples %u, accum %llu, avg %llu\n",
++ hcd->hfnum_other_samples_a, hcd->hfnum_other_frrem_accum_a,
++ (hcd->hfnum_other_samples_a > 0) ?
++ hcd->hfnum_other_frrem_accum_a /
++ hcd->hfnum_other_samples_a : 0);
++
++ DWC_PRINTF("\n");
++ DWC_PRINTF("Frame remaining at sample point B (uframe 7):\n");
++ DWC_PRINTF(" samples %u, accum %llu, avg %llu\n",
++ hcd->hfnum_7_samples_b, hcd->hfnum_7_frrem_accum_b,
++ (hcd->hfnum_7_samples_b > 0) ?
++ hcd->hfnum_7_frrem_accum_b / hcd->hfnum_7_samples_b : 0);
++ DWC_PRINTF("Frame remaining at sample point B (uframe 0):\n");
++ DWC_PRINTF(" samples %u, accum %llu, avg %llu\n",
++ hcd->hfnum_0_samples_b, hcd->hfnum_0_frrem_accum_b,
++ (hcd->hfnum_0_samples_b > 0) ?
++ hcd->hfnum_0_frrem_accum_b / hcd->hfnum_0_samples_b : 0);
++ DWC_PRINTF("Frame remaining at sample point B (uframe 1-6):\n");
++ DWC_PRINTF(" samples %u, accum %llu, avg %llu\n",
++ hcd->hfnum_other_samples_b, hcd->hfnum_other_frrem_accum_b,
++ (hcd->hfnum_other_samples_b > 0) ?
++ hcd->hfnum_other_frrem_accum_b /
++ hcd->hfnum_other_samples_b : 0);
++#endif
++}
++
++#endif /* DWC_DEVICE_ONLY */
+diff -urN linux-3.10/drivers/usb/host/dwc_otg/dwc_otg_hcd_ddma.c linux-rpi-3.10.y/drivers/usb/host/dwc_otg/dwc_otg_hcd_ddma.c
+--- linux-3.10/drivers/usb/host/dwc_otg/dwc_otg_hcd_ddma.c 1970-01-01 01:00:00.000000000 +0100
++++ linux-rpi-3.10.y/drivers/usb/host/dwc_otg/dwc_otg_hcd_ddma.c 2013-07-06 15:25:50.000000000 +0100
+@@ -0,0 +1,1132 @@
++/*==========================================================================
++ * $File: //dwh/usb_iip/dev/software/otg/linux/drivers/dwc_otg_hcd_ddma.c $
++ * $Revision: #10 $
++ * $Date: 2011/10/20 $
++ * $Change: 1869464 $
++ *
++ * Synopsys HS OTG Linux Software Driver and documentation (hereinafter,
++ * "Software") is an Unsupported proprietary work of Synopsys, Inc. unless
++ * otherwise expressly agreed to in writing between Synopsys and you.
++ *
++ * The Software IS NOT an item of Licensed Software or Licensed Product under
++ * any End User Software License Agreement or Agreement for Licensed Product
++ * with Synopsys or any supplement thereto. You are permitted to use and
++ * redistribute this Software in source and binary forms, with or without
++ * modification, provided that redistributions of source code must retain this
++ * notice. You may not view, use, disclose, copy or distribute this file or
++ * any information contained herein except pursuant to this license grant from
++ * Synopsys. If you do not agree with this notice, including the disclaimer
++ * below, then you are not authorized to use the Software.
++ *
++ * THIS SOFTWARE IS BEING DISTRIBUTED BY SYNOPSYS SOLELY ON AN "AS IS" BASIS
++ * AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
++ * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE
++ * ARE HEREBY DISCLAIMED. IN NO EVENT SHALL SYNOPSYS BE LIABLE FOR ANY DIRECT,
++ * INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES
++ * (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR
++ * SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER
++ * CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT
++ * LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY
++ * OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH
++ * DAMAGE.
++ * ========================================================================== */
++#ifndef DWC_DEVICE_ONLY
++
++/** @file
++ * This file contains Descriptor DMA support implementation for host mode.
++ */
++
++#include "dwc_otg_hcd.h"
++#include "dwc_otg_regs.h"
++
++extern bool microframe_schedule;
++
++static inline uint8_t frame_list_idx(uint16_t frame)
++{
++ return (frame & (MAX_FRLIST_EN_NUM - 1));
++}
++
++static inline uint16_t desclist_idx_inc(uint16_t idx, uint16_t inc, uint8_t speed)
++{
++ return (idx + inc) &
++ (((speed ==
++ DWC_OTG_EP_SPEED_HIGH) ? MAX_DMA_DESC_NUM_HS_ISOC :
++ MAX_DMA_DESC_NUM_GENERIC) - 1);
++}
++
++static inline uint16_t desclist_idx_dec(uint16_t idx, uint16_t inc, uint8_t speed)
++{
++ return (idx - inc) &
++ (((speed ==
++ DWC_OTG_EP_SPEED_HIGH) ? MAX_DMA_DESC_NUM_HS_ISOC :
++ MAX_DMA_DESC_NUM_GENERIC) - 1);
++}
++
++static inline uint16_t max_desc_num(dwc_otg_qh_t * qh)
++{
++ return (((qh->ep_type == UE_ISOCHRONOUS)
++ && (qh->dev_speed == DWC_OTG_EP_SPEED_HIGH))
++ ? MAX_DMA_DESC_NUM_HS_ISOC : MAX_DMA_DESC_NUM_GENERIC);
++}
++static inline uint16_t frame_incr_val(dwc_otg_qh_t * qh)
++{
++ return ((qh->dev_speed == DWC_OTG_EP_SPEED_HIGH)
++ ? ((qh->interval + 8 - 1) / 8)
++ : qh->interval);
++}
++
++static int desc_list_alloc(dwc_otg_qh_t * qh)
++{
++ int retval = 0;
++
++ qh->desc_list = (dwc_otg_host_dma_desc_t *)
++ DWC_DMA_ALLOC(sizeof(dwc_otg_host_dma_desc_t) * max_desc_num(qh),
++ &qh->desc_list_dma);
++
++ if (!qh->desc_list) {
++ retval = -DWC_E_NO_MEMORY;
++ DWC_ERROR("%s: DMA descriptor list allocation failed\n", __func__);
++
++ }
++
++ dwc_memset(qh->desc_list, 0x00,
++ sizeof(dwc_otg_host_dma_desc_t) * max_desc_num(qh));
++
++ qh->n_bytes =
++ (uint32_t *) DWC_ALLOC(sizeof(uint32_t) * max_desc_num(qh));
++
++ if (!qh->n_bytes) {
++ retval = -DWC_E_NO_MEMORY;
++ DWC_ERROR
++ ("%s: Failed to allocate array for descriptors' size actual values\n",
++ __func__);
++
++ }
++ return retval;
++
++}
++
++static void desc_list_free(dwc_otg_qh_t * qh)
++{
++ if (qh->desc_list) {
++ DWC_DMA_FREE(max_desc_num(qh), qh->desc_list,
++ qh->desc_list_dma);
++ qh->desc_list = NULL;
++ }
++
++ if (qh->n_bytes) {
++ DWC_FREE(qh->n_bytes);
++ qh->n_bytes = NULL;
++ }
++}
++
++static int frame_list_alloc(dwc_otg_hcd_t * hcd)
++{
++ int retval = 0;
++ if (hcd->frame_list)
++ return 0;
++
++ hcd->frame_list = DWC_DMA_ALLOC(4 * MAX_FRLIST_EN_NUM,
++ &hcd->frame_list_dma);
++ if (!hcd->frame_list) {
++ retval = -DWC_E_NO_MEMORY;
++ DWC_ERROR("%s: Frame List allocation failed\n", __func__);
++ }
++
++ dwc_memset(hcd->frame_list, 0x00, 4 * MAX_FRLIST_EN_NUM);
++
++ return retval;
++}
++
++static void frame_list_free(dwc_otg_hcd_t * hcd)
++{
++ if (!hcd->frame_list)
++ return;
++
++ DWC_DMA_FREE(4 * MAX_FRLIST_EN_NUM, hcd->frame_list, hcd->frame_list_dma);
++ hcd->frame_list = NULL;
++}
++
++static void per_sched_enable(dwc_otg_hcd_t * hcd, uint16_t fr_list_en)
++{
++
++ hcfg_data_t hcfg;
++
++ hcfg.d32 = DWC_READ_REG32(&hcd->core_if->host_if->host_global_regs->hcfg);
++
++ if (hcfg.b.perschedena) {
++ /* already enabled */
++ return;
++ }
++
++ DWC_WRITE_REG32(&hcd->core_if->host_if->host_global_regs->hflbaddr,
++ hcd->frame_list_dma);
++
++ switch (fr_list_en) {
++ case 64:
++ hcfg.b.frlisten = 3;
++ break;
++ case 32:
++ hcfg.b.frlisten = 2;
++ break;
++ case 16:
++ hcfg.b.frlisten = 1;
++ break;
++ case 8:
++ hcfg.b.frlisten = 0;
++ break;
++ default:
++ break;
++ }
++
++ hcfg.b.perschedena = 1;
++
++ DWC_DEBUGPL(DBG_HCD, "Enabling Periodic schedule\n");
++ DWC_WRITE_REG32(&hcd->core_if->host_if->host_global_regs->hcfg, hcfg.d32);
++
++}
++
++static void per_sched_disable(dwc_otg_hcd_t * hcd)
++{
++ hcfg_data_t hcfg;
++
++ hcfg.d32 = DWC_READ_REG32(&hcd->core_if->host_if->host_global_regs->hcfg);
++
++ if (!hcfg.b.perschedena) {
++ /* already disabled */
++ return;
++ }
++ hcfg.b.perschedena = 0;
++
++ DWC_DEBUGPL(DBG_HCD, "Disabling Periodic schedule\n");
++ DWC_WRITE_REG32(&hcd->core_if->host_if->host_global_regs->hcfg, hcfg.d32);
++}
++
++/*
++ * Activates/Deactivates FrameList entries for the channel
++ * based on endpoint servicing period.
++ */
++void update_frame_list(dwc_otg_hcd_t * hcd, dwc_otg_qh_t * qh, uint8_t enable)
++{
++ uint16_t i, j, inc;
++ dwc_hc_t *hc = NULL;
++
++ if (!qh->channel) {
++ DWC_ERROR("qh->channel = %p", qh->channel);
++ return;
++ }
++
++ if (!hcd) {
++ DWC_ERROR("------hcd = %p", hcd);
++ return;
++ }
++
++ if (!hcd->frame_list) {
++ DWC_ERROR("-------hcd->frame_list = %p", hcd->frame_list);
++ return;
++ }
++
++ hc = qh->channel;
++ inc = frame_incr_val(qh);
++ if (qh->ep_type == UE_ISOCHRONOUS)
++ i = frame_list_idx(qh->sched_frame);
++ else
++ i = 0;
++
++ j = i;
++ do {
++ if (enable)
++ hcd->frame_list[j] |= (1 << hc->hc_num);
++ else
++ hcd->frame_list[j] &= ~(1 << hc->hc_num);
++ j = (j + inc) & (MAX_FRLIST_EN_NUM - 1);
++ }
++ while (j != i);
++ if (!enable)
++ return;
++ hc->schinfo = 0;
++ if (qh->channel->speed == DWC_OTG_EP_SPEED_HIGH) {
++ j = 1;
++ /* TODO - check this */
++ inc = (8 + qh->interval - 1) / qh->interval;
++ for (i = 0; i < inc; i++) {
++ hc->schinfo |= j;
++ j = j << qh->interval;
++ }
++ } else {
++ hc->schinfo = 0xff;
++ }
++}
++
++#if 1
++void dump_frame_list(dwc_otg_hcd_t * hcd)
++{
++ int i = 0;
++ DWC_PRINTF("--FRAME LIST (hex) --\n");
++ for (i = 0; i < MAX_FRLIST_EN_NUM; i++) {
++ DWC_PRINTF("%x\t", hcd->frame_list[i]);
++ if (!(i % 8) && i)
++ DWC_PRINTF("\n");
++ }
++ DWC_PRINTF("\n----\n");
++
++}
++#endif
++
++static void release_channel_ddma(dwc_otg_hcd_t * hcd, dwc_otg_qh_t * qh)
++{
++ dwc_irqflags_t flags;
++ dwc_spinlock_t *channel_lock = hcd->channel_lock;
++
++ dwc_hc_t *hc = qh->channel;
++ if (dwc_qh_is_non_per(qh)) {
++ DWC_SPINLOCK_IRQSAVE(channel_lock, &flags);
++ if (!microframe_schedule)
++ hcd->non_periodic_channels--;
++ else
++ hcd->available_host_channels++;
++ DWC_SPINUNLOCK_IRQRESTORE(channel_lock, flags);
++ } else
++ update_frame_list(hcd, qh, 0);
++
++ /*
++ * The condition is added to prevent double cleanup try in case of device
++ * disconnect. See channel cleanup in dwc_otg_hcd_disconnect_cb().
++ */
++ if (hc->qh) {
++ dwc_otg_hc_cleanup(hcd->core_if, hc);
++ DWC_CIRCLEQ_INSERT_TAIL(&hcd->free_hc_list, hc, hc_list_entry);
++ hc->qh = NULL;
++ }
++
++ qh->channel = NULL;
++ qh->ntd = 0;
++
++ if (qh->desc_list) {
++ dwc_memset(qh->desc_list, 0x00,
++ sizeof(dwc_otg_host_dma_desc_t) * max_desc_num(qh));
++ }
++}
++
++/**
++ * Initializes a QH structure's Descriptor DMA related members.
++ * Allocates memory for descriptor list.
++ * On first periodic QH, allocates memory for FrameList
++ * and enables periodic scheduling.
++ *
++ * @param hcd The HCD state structure for the DWC OTG controller.
++ * @param qh The QH to init.
++ *
++ * @return 0 if successful, negative error code otherwise.
++ */
++int dwc_otg_hcd_qh_init_ddma(dwc_otg_hcd_t * hcd, dwc_otg_qh_t * qh)
++{
++ int retval = 0;
++
++ if (qh->do_split) {
++ DWC_ERROR("SPLIT Transfers are not supported in Descriptor DMA.\n");
++ return -1;
++ }
++
++ retval = desc_list_alloc(qh);
++
++ if ((retval == 0)
++ && (qh->ep_type == UE_ISOCHRONOUS || qh->ep_type == UE_INTERRUPT)) {
++ if (!hcd->frame_list) {
++ retval = frame_list_alloc(hcd);
++ /* Enable periodic schedule on first periodic QH */
++ if (retval == 0)
++ per_sched_enable(hcd, MAX_FRLIST_EN_NUM);
++ }
++ }
++
++ qh->ntd = 0;
++
++ return retval;
++}
++
++/**
++ * Frees descriptor list memory associated with the QH.
++ * If QH is periodic and the last, frees FrameList memory
++ * and disables periodic scheduling.
++ *
++ * @param hcd The HCD state structure for the DWC OTG controller.
++ * @param qh The QH to init.
++ */
++void dwc_otg_hcd_qh_free_ddma(dwc_otg_hcd_t * hcd, dwc_otg_qh_t * qh)
++{
++ desc_list_free(qh);
++
++ /*
++ * Channel still assigned due to some reasons.
++ * Seen on Isoc URB dequeue. Channel halted but no subsequent
++ * ChHalted interrupt to release the channel. Afterwards
++ * when it comes here from endpoint disable routine
++ * channel remains assigned.
++ */
++ if (qh->channel)
++ release_channel_ddma(hcd, qh);
++
++ if ((qh->ep_type == UE_ISOCHRONOUS || qh->ep_type == UE_INTERRUPT)
++ && (microframe_schedule || !hcd->periodic_channels) && hcd->frame_list) {
++
++ per_sched_disable(hcd);
++ frame_list_free(hcd);
++ }
++}
++
++static uint8_t frame_to_desc_idx(dwc_otg_qh_t * qh, uint16_t frame_idx)
++{
++ if (qh->dev_speed == DWC_OTG_EP_SPEED_HIGH) {
++ /*
++ * Descriptor set(8 descriptors) index
++ * which is 8-aligned.
++ */
++ return (frame_idx & ((MAX_DMA_DESC_NUM_HS_ISOC / 8) - 1)) * 8;
++ } else {
++ return (frame_idx & (MAX_DMA_DESC_NUM_GENERIC - 1));
++ }
++}
++
++/*
++ * Determine starting frame for Isochronous transfer.
++ * Few frames skipped to prevent race condition with HC.
++ */
++static uint8_t calc_starting_frame(dwc_otg_hcd_t * hcd, dwc_otg_qh_t * qh,
++ uint8_t * skip_frames)
++{
++ uint16_t frame = 0;
++ hcd->frame_number = dwc_otg_hcd_get_frame_number(hcd);
++
++ /* sched_frame is always frame number(not uFrame) both in FS and HS !! */
++
++ /*
++ * skip_frames is used to limit activated descriptors number
++ * to avoid the situation when HC services the last activated
++ * descriptor firstly.
++ * Example for FS:
++ * Current frame is 1, scheduled frame is 3. Since HC always fetches the descriptor
++ * corresponding to curr_frame+1, the descriptor corresponding to frame 2
++ * will be fetched. If the number of descriptors is max=64 (or greather) the
++ * list will be fully programmed with Active descriptors and it is possible
++ * case(rare) that the latest descriptor(considering rollback) corresponding
++ * to frame 2 will be serviced first. HS case is more probable because, in fact,
++ * up to 11 uframes(16 in the code) may be skipped.
++ */
++ if (qh->dev_speed == DWC_OTG_EP_SPEED_HIGH) {
++ /*
++ * Consider uframe counter also, to start xfer asap.
++ * If half of the frame elapsed skip 2 frames otherwise
++ * just 1 frame.
++ * Starting descriptor index must be 8-aligned, so
++ * if the current frame is near to complete the next one
++ * is skipped as well.
++ */
++
++ if (dwc_micro_frame_num(hcd->frame_number) >= 5) {
++ *skip_frames = 2 * 8;
++ frame = dwc_frame_num_inc(hcd->frame_number, *skip_frames);
++ } else {
++ *skip_frames = 1 * 8;
++ frame = dwc_frame_num_inc(hcd->frame_number, *skip_frames);
++ }
++
++ frame = dwc_full_frame_num(frame);
++ } else {
++ /*
++ * Two frames are skipped for FS - the current and the next.
++ * But for descriptor programming, 1 frame(descriptor) is enough,
++ * see example above.
++ */
++ *skip_frames = 1;
++ frame = dwc_frame_num_inc(hcd->frame_number, 2);
++ }
++
++ return frame;
++}
++
++/*
++ * Calculate initial descriptor index for isochronous transfer
++ * based on scheduled frame.
++ */
++static uint8_t recalc_initial_desc_idx(dwc_otg_hcd_t * hcd, dwc_otg_qh_t * qh)
++{
++ uint16_t frame = 0, fr_idx, fr_idx_tmp;
++ uint8_t skip_frames = 0;
++ /*
++ * With current ISOC processing algorithm the channel is being
++ * released when no more QTDs in the list(qh->ntd == 0).
++ * Thus this function is called only when qh->ntd == 0 and qh->channel == 0.
++ *
++ * So qh->channel != NULL branch is not used and just not removed from the
++ * source file. It is required for another possible approach which is,
++ * do not disable and release the channel when ISOC session completed,
++ * just move QH to inactive schedule until new QTD arrives.
++ * On new QTD, the QH moved back to 'ready' schedule,
++ * starting frame and therefore starting desc_index are recalculated.
++ * In this case channel is released only on ep_disable.
++ */
++
++ /* Calculate starting descriptor index. For INTERRUPT endpoint it is always 0. */
++ if (qh->channel) {
++ frame = calc_starting_frame(hcd, qh, &skip_frames);
++ /*
++ * Calculate initial descriptor index based on FrameList current bitmap
++ * and servicing period.
++ */
++ fr_idx_tmp = frame_list_idx(frame);
++ fr_idx =
++ (MAX_FRLIST_EN_NUM + frame_list_idx(qh->sched_frame) -
++ fr_idx_tmp)
++ % frame_incr_val(qh);
++ fr_idx = (fr_idx + fr_idx_tmp) % MAX_FRLIST_EN_NUM;
++ } else {
++ qh->sched_frame = calc_starting_frame(hcd, qh, &skip_frames);
++ fr_idx = frame_list_idx(qh->sched_frame);
++ }
++
++ qh->td_first = qh->td_last = frame_to_desc_idx(qh, fr_idx);
++
++ return skip_frames;
++}
++
++#define ISOC_URB_GIVEBACK_ASAP
++
++#define MAX_ISOC_XFER_SIZE_FS 1023
++#define MAX_ISOC_XFER_SIZE_HS 3072
++#define DESCNUM_THRESHOLD 4
++
++static void init_isoc_dma_desc(dwc_otg_hcd_t * hcd, dwc_otg_qh_t * qh,
++ uint8_t skip_frames)
++{
++ struct dwc_otg_hcd_iso_packet_desc *frame_desc;
++ dwc_otg_qtd_t *qtd;
++ dwc_otg_host_dma_desc_t *dma_desc;
++ uint16_t idx, inc, n_desc, ntd_max, max_xfer_size;
++
++ idx = qh->td_last;
++ inc = qh->interval;
++ n_desc = 0;
++
++ ntd_max = (max_desc_num(qh) + qh->interval - 1) / qh->interval;
++ if (skip_frames && !qh->channel)
++ ntd_max = ntd_max - skip_frames / qh->interval;
++
++ max_xfer_size =
++ (qh->dev_speed ==
++ DWC_OTG_EP_SPEED_HIGH) ? MAX_ISOC_XFER_SIZE_HS :
++ MAX_ISOC_XFER_SIZE_FS;
++
++ DWC_CIRCLEQ_FOREACH(qtd, &qh->qtd_list, qtd_list_entry) {
++ while ((qh->ntd < ntd_max)
++ && (qtd->isoc_frame_index_last <
++ qtd->urb->packet_count)) {
++
++ dma_desc = &qh->desc_list[idx];
++ dwc_memset(dma_desc, 0x00, sizeof(dwc_otg_host_dma_desc_t));
++
++ frame_desc = &qtd->urb->iso_descs[qtd->isoc_frame_index_last];
++
++ if (frame_desc->length > max_xfer_size)
++ qh->n_bytes[idx] = max_xfer_size;
++ else
++ qh->n_bytes[idx] = frame_desc->length;
++ dma_desc->status.b_isoc.n_bytes = qh->n_bytes[idx];
++ dma_desc->status.b_isoc.a = 1;
++ dma_desc->status.b_isoc.sts = 0;
++
++ dma_desc->buf = qtd->urb->dma + frame_desc->offset;
++
++ qh->ntd++;
++
++ qtd->isoc_frame_index_last++;
++
++#ifdef ISOC_URB_GIVEBACK_ASAP
++ /*
++ * Set IOC for each descriptor corresponding to the
++ * last frame of the URB.
++ */
++ if (qtd->isoc_frame_index_last ==
++ qtd->urb->packet_count)
++ dma_desc->status.b_isoc.ioc = 1;
++
++#endif
++ idx = desclist_idx_inc(idx, inc, qh->dev_speed);
++ n_desc++;
++
++ }
++ qtd->in_process = 1;
++ }
++
++ qh->td_last = idx;
++
++#ifdef ISOC_URB_GIVEBACK_ASAP
++ /* Set IOC for the last descriptor if descriptor list is full */
++ if (qh->ntd == ntd_max) {
++ idx = desclist_idx_dec(qh->td_last, inc, qh->dev_speed);
++ qh->desc_list[idx].status.b_isoc.ioc = 1;
++ }
++#else
++ /*
++ * Set IOC bit only for one descriptor.
++ * Always try to be ahead of HW processing,
++ * i.e. on IOC generation driver activates next descriptors but
++ * core continues to process descriptors followed the one with IOC set.
++ */
++
++ if (n_desc > DESCNUM_THRESHOLD) {
++ /*
++ * Move IOC "up". Required even if there is only one QTD
++ * in the list, cause QTDs migth continue to be queued,
++ * but during the activation it was only one queued.
++ * Actually more than one QTD might be in the list if this function called
++ * from XferCompletion - QTDs was queued during HW processing of the previous
++ * descriptor chunk.
++ */
++ idx = dwc_desclist_idx_dec(idx, inc * ((qh->ntd + 1) / 2), qh->dev_speed);
++ } else {
++ /*
++ * Set the IOC for the latest descriptor
++ * if either number of descriptor is not greather than threshold
++ * or no more new descriptors activated.
++ */
++ idx = dwc_desclist_idx_dec(qh->td_last, inc, qh->dev_speed);
++ }
++
++ qh->desc_list[idx].status.b_isoc.ioc = 1;
++#endif
++}
++
++static void init_non_isoc_dma_desc(dwc_otg_hcd_t * hcd, dwc_otg_qh_t * qh)
++{
++
++ dwc_hc_t *hc;
++ dwc_otg_host_dma_desc_t *dma_desc;
++ dwc_otg_qtd_t *qtd;
++ int num_packets, len, n_desc = 0;
++
++ hc = qh->channel;
++
++ /*
++ * Start with hc->xfer_buff initialized in
++ * assign_and_init_hc(), then if SG transfer consists of multiple URBs,
++ * this pointer re-assigned to the buffer of the currently processed QTD.
++ * For non-SG request there is always one QTD active.
++ */
++
++ DWC_CIRCLEQ_FOREACH(qtd, &qh->qtd_list, qtd_list_entry) {
++
++ if (n_desc) {
++ /* SG request - more than 1 QTDs */
++ hc->xfer_buff = (uint8_t *)qtd->urb->dma + qtd->urb->actual_length;
++ hc->xfer_len = qtd->urb->length - qtd->urb->actual_length;
++ }
++
++ qtd->n_desc = 0;
++
++ do {
++ dma_desc = &qh->desc_list[n_desc];
++ len = hc->xfer_len;
++
++ if (len > MAX_DMA_DESC_SIZE)
++ len = MAX_DMA_DESC_SIZE - hc->max_packet + 1;
++
++ if (hc->ep_is_in) {
++ if (len > 0) {
++ num_packets = (len + hc->max_packet - 1) / hc->max_packet;
++ } else {
++ /* Need 1 packet for transfer length of 0. */
++ num_packets = 1;
++ }
++ /* Always program an integral # of max packets for IN transfers. */
++ len = num_packets * hc->max_packet;
++ }
++
++ dma_desc->status.b.n_bytes = len;
++
++ qh->n_bytes[n_desc] = len;
++
++ if ((qh->ep_type == UE_CONTROL)
++ && (qtd->control_phase == DWC_OTG_CONTROL_SETUP))
++ dma_desc->status.b.sup = 1; /* Setup Packet */
++
++ dma_desc->status.b.a = 1; /* Active descriptor */
++ dma_desc->status.b.sts = 0;
++
++ dma_desc->buf =
++ ((unsigned long)hc->xfer_buff & 0xffffffff);
++
++ /*
++ * Last descriptor(or single) of IN transfer
++ * with actual size less than MaxPacket.
++ */
++ if (len > hc->xfer_len) {
++ hc->xfer_len = 0;
++ } else {
++ hc->xfer_buff += len;
++ hc->xfer_len -= len;
++ }
++
++ qtd->n_desc++;
++ n_desc++;
++ }
++ while ((hc->xfer_len > 0) && (n_desc != MAX_DMA_DESC_NUM_GENERIC));
++
++
++ qtd->in_process = 1;
++
++ if (qh->ep_type == UE_CONTROL)
++ break;
++
++ if (n_desc == MAX_DMA_DESC_NUM_GENERIC)
++ break;
++ }
++
++ if (n_desc) {
++ /* Request Transfer Complete interrupt for the last descriptor */
++ qh->desc_list[n_desc - 1].status.b.ioc = 1;
++ /* End of List indicator */
++ qh->desc_list[n_desc - 1].status.b.eol = 1;
++
++ hc->ntd = n_desc;
++ }
++}
++
++/**
++ * For Control and Bulk endpoints initializes descriptor list
++ * and starts the transfer.
++ *
++ * For Interrupt and Isochronous endpoints initializes descriptor list
++ * then updates FrameList, marking appropriate entries as active.
++ * In case of Isochronous, the starting descriptor index is calculated based
++ * on the scheduled frame, but only on the first transfer descriptor within a session.
++ * Then starts the transfer via enabling the channel.
++ * For Isochronous endpoint the channel is not halted on XferComplete
++ * interrupt so remains assigned to the endpoint(QH) until session is done.
++ *
++ * @param hcd The HCD state structure for the DWC OTG controller.
++ * @param qh The QH to init.
++ *
++ * @return 0 if successful, negative error code otherwise.
++ */
++void dwc_otg_hcd_start_xfer_ddma(dwc_otg_hcd_t * hcd, dwc_otg_qh_t * qh)
++{
++ /* Channel is already assigned */
++ dwc_hc_t *hc = qh->channel;
++ uint8_t skip_frames = 0;
++
++ switch (hc->ep_type) {
++ case DWC_OTG_EP_TYPE_CONTROL:
++ case DWC_OTG_EP_TYPE_BULK:
++ init_non_isoc_dma_desc(hcd, qh);
++
++ dwc_otg_hc_start_transfer_ddma(hcd->core_if, hc);
++ break;
++ case DWC_OTG_EP_TYPE_INTR:
++ init_non_isoc_dma_desc(hcd, qh);
++
++ update_frame_list(hcd, qh, 1);
++
++ dwc_otg_hc_start_transfer_ddma(hcd->core_if, hc);
++ break;
++ case DWC_OTG_EP_TYPE_ISOC:
++
++ if (!qh->ntd)
++ skip_frames = recalc_initial_desc_idx(hcd, qh);
++
++ init_isoc_dma_desc(hcd, qh, skip_frames);
++
++ if (!hc->xfer_started) {
++
++ update_frame_list(hcd, qh, 1);
++
++ /*
++ * Always set to max, instead of actual size.
++ * Otherwise ntd will be changed with
++ * channel being enabled. Not recommended.
++ *
++ */
++ hc->ntd = max_desc_num(qh);
++ /* Enable channel only once for ISOC */
++ dwc_otg_hc_start_transfer_ddma(hcd->core_if, hc);
++ }
++
++ break;
++ default:
++
++ break;
++ }
++}
++
++static void complete_isoc_xfer_ddma(dwc_otg_hcd_t * hcd,
++ dwc_hc_t * hc,
++ dwc_otg_hc_regs_t * hc_regs,
++ dwc_otg_halt_status_e halt_status)
++{
++ struct dwc_otg_hcd_iso_packet_desc *frame_desc;
++ dwc_otg_qtd_t *qtd, *qtd_tmp;
++ dwc_otg_qh_t *qh;
++ dwc_otg_host_dma_desc_t *dma_desc;
++ uint16_t idx, remain;
++ uint8_t urb_compl;
++
++ qh = hc->qh;
++ idx = qh->td_first;
++
++ if (hc->halt_status == DWC_OTG_HC_XFER_URB_DEQUEUE) {
++ DWC_CIRCLEQ_FOREACH_SAFE(qtd, qtd_tmp, &hc->qh->qtd_list, qtd_list_entry)
++ qtd->in_process = 0;
++ return;
++ } else if ((halt_status == DWC_OTG_HC_XFER_AHB_ERR) ||
++ (halt_status == DWC_OTG_HC_XFER_BABBLE_ERR)) {
++ /*
++ * Channel is halted in these error cases.
++ * Considered as serious issues.
++ * Complete all URBs marking all frames as failed,
++ * irrespective whether some of the descriptors(frames) succeeded or no.
++ * Pass error code to completion routine as well, to
++ * update urb->status, some of class drivers might use it to stop
++ * queing transfer requests.
++ */
++ int err = (halt_status == DWC_OTG_HC_XFER_AHB_ERR)
++ ? (-DWC_E_IO)
++ : (-DWC_E_OVERFLOW);
++
++ DWC_CIRCLEQ_FOREACH_SAFE(qtd, qtd_tmp, &hc->qh->qtd_list, qtd_list_entry) {
++ for (idx = 0; idx < qtd->urb->packet_count; idx++) {
++ frame_desc = &qtd->urb->iso_descs[idx];
++ frame_desc->status = err;
++ }
++ hcd->fops->complete(hcd, qtd->urb->priv, qtd->urb, err);
++ dwc_otg_hcd_qtd_remove_and_free(hcd, qtd, qh);
++ }
++ return;
++ }
++
++ DWC_CIRCLEQ_FOREACH_SAFE(qtd, qtd_tmp, &hc->qh->qtd_list, qtd_list_entry) {
++
++ if (!qtd->in_process)
++ break;
++
++ urb_compl = 0;
++
++ do {
++
++ dma_desc = &qh->desc_list[idx];
++
++ frame_desc = &qtd->urb->iso_descs[qtd->isoc_frame_index];
++ remain = hc->ep_is_in ? dma_desc->status.b_isoc.n_bytes : 0;
++
++ if (dma_desc->status.b_isoc.sts == DMA_DESC_STS_PKTERR) {
++ /*
++ * XactError or, unable to complete all the transactions
++ * in the scheduled micro-frame/frame,
++ * both indicated by DMA_DESC_STS_PKTERR.
++ */
++ qtd->urb->error_count++;
++ frame_desc->actual_length = qh->n_bytes[idx] - remain;
++ frame_desc->status = -DWC_E_PROTOCOL;
++ } else {
++ /* Success */
++
++ frame_desc->actual_length = qh->n_bytes[idx] - remain;
++ frame_desc->status = 0;
++ }
++
++ if (++qtd->isoc_frame_index == qtd->urb->packet_count) {
++ /*
++ * urb->status is not used for isoc transfers here.
++ * The individual frame_desc status are used instead.
++ */
++
++ hcd->fops->complete(hcd, qtd->urb->priv, qtd->urb, 0);
++ dwc_otg_hcd_qtd_remove_and_free(hcd, qtd, qh);
++
++ /*
++ * This check is necessary because urb_dequeue can be called
++ * from urb complete callback(sound driver example).
++ * All pending URBs are dequeued there, so no need for
++ * further processing.
++ */
++ if (hc->halt_status == DWC_OTG_HC_XFER_URB_DEQUEUE) {
++ return;
++ }
++
++ urb_compl = 1;
++
++ }
++
++ qh->ntd--;
++
++ /* Stop if IOC requested descriptor reached */
++ if (dma_desc->status.b_isoc.ioc) {
++ idx = desclist_idx_inc(idx, qh->interval, hc->speed);
++ goto stop_scan;
++ }
++
++ idx = desclist_idx_inc(idx, qh->interval, hc->speed);
++
++ if (urb_compl)
++ break;
++ }
++ while (idx != qh->td_first);
++ }
++stop_scan:
++ qh->td_first = idx;
++}
++
++uint8_t update_non_isoc_urb_state_ddma(dwc_otg_hcd_t * hcd,
++ dwc_hc_t * hc,
++ dwc_otg_qtd_t * qtd,
++ dwc_otg_host_dma_desc_t * dma_desc,
++ dwc_otg_halt_status_e halt_status,
++ uint32_t n_bytes, uint8_t * xfer_done)
++{
++
++ uint16_t remain = hc->ep_is_in ? dma_desc->status.b.n_bytes : 0;
++ dwc_otg_hcd_urb_t *urb = qtd->urb;
++
++ if (halt_status == DWC_OTG_HC_XFER_AHB_ERR) {
++ urb->status = -DWC_E_IO;
++ return 1;
++ }
++ if (dma_desc->status.b.sts == DMA_DESC_STS_PKTERR) {
++ switch (halt_status) {
++ case DWC_OTG_HC_XFER_STALL:
++ urb->status = -DWC_E_PIPE;
++ break;
++ case DWC_OTG_HC_XFER_BABBLE_ERR:
++ urb->status = -DWC_E_OVERFLOW;
++ break;
++ case DWC_OTG_HC_XFER_XACT_ERR:
++ urb->status = -DWC_E_PROTOCOL;
++ break;
++ default:
++ DWC_ERROR("%s: Unhandled descriptor error status (%d)\n", __func__,
++ halt_status);
++ break;
++ }
++ return 1;
++ }
++
++ if (dma_desc->status.b.a == 1) {
++ DWC_DEBUGPL(DBG_HCDV,
++ "Active descriptor encountered on channel %d\n",
++ hc->hc_num);
++ return 0;
++ }
++
++ if (hc->ep_type == DWC_OTG_EP_TYPE_CONTROL) {
++ if (qtd->control_phase == DWC_OTG_CONTROL_DATA) {
++ urb->actual_length += n_bytes - remain;
++ if (remain || urb->actual_length == urb->length) {
++ /*
++ * For Control Data stage do not set urb->status=0 to prevent
++ * URB callback. Set it when Status phase done. See below.
++ */
++ *xfer_done = 1;
++ }
++
++ } else if (qtd->control_phase == DWC_OTG_CONTROL_STATUS) {
++ urb->status = 0;
++ *xfer_done = 1;
++ }
++ /* No handling for SETUP stage */
++ } else {
++ /* BULK and INTR */
++ urb->actual_length += n_bytes - remain;
++ if (remain || urb->actual_length == urb->length) {
++ urb->status = 0;
++ *xfer_done = 1;
++ }
++ }
++
++ return 0;
++}
++
++static void complete_non_isoc_xfer_ddma(dwc_otg_hcd_t * hcd,
++ dwc_hc_t * hc,
++ dwc_otg_hc_regs_t * hc_regs,
++ dwc_otg_halt_status_e halt_status)
++{
++ dwc_otg_hcd_urb_t *urb = NULL;
++ dwc_otg_qtd_t *qtd, *qtd_tmp;
++ dwc_otg_qh_t *qh;
++ dwc_otg_host_dma_desc_t *dma_desc;
++ uint32_t n_bytes, n_desc, i;
++ uint8_t failed = 0, xfer_done;
++
++ n_desc = 0;
++
++ qh = hc->qh;
++
++ if (hc->halt_status == DWC_OTG_HC_XFER_URB_DEQUEUE) {
++ DWC_CIRCLEQ_FOREACH_SAFE(qtd, qtd_tmp, &hc->qh->qtd_list, qtd_list_entry) {
++ qtd->in_process = 0;
++ }
++ return;
++ }
++
++ DWC_CIRCLEQ_FOREACH_SAFE(qtd, qtd_tmp, &qh->qtd_list, qtd_list_entry) {
++
++ urb = qtd->urb;
++
++ n_bytes = 0;
++ xfer_done = 0;
++
++ for (i = 0; i < qtd->n_desc; i++) {
++ dma_desc = &qh->desc_list[n_desc];
++
++ n_bytes = qh->n_bytes[n_desc];
++
++ failed =
++ update_non_isoc_urb_state_ddma(hcd, hc, qtd,
++ dma_desc,
++ halt_status, n_bytes,
++ &xfer_done);
++
++ if (failed
++ || (xfer_done
++ && (urb->status != -DWC_E_IN_PROGRESS))) {
++
++ hcd->fops->complete(hcd, urb->priv, urb,
++ urb->status);
++ dwc_otg_hcd_qtd_remove_and_free(hcd, qtd, qh);
++
++ if (failed)
++ goto stop_scan;
++ } else if (qh->ep_type == UE_CONTROL) {
++ if (qtd->control_phase == DWC_OTG_CONTROL_SETUP) {
++ if (urb->length > 0) {
++ qtd->control_phase = DWC_OTG_CONTROL_DATA;
++ } else {
++ qtd->control_phase = DWC_OTG_CONTROL_STATUS;
++ }
++ DWC_DEBUGPL(DBG_HCDV, " Control setup transaction done\n");
++ } else if (qtd->control_phase == DWC_OTG_CONTROL_DATA) {
++ if (xfer_done) {
++ qtd->control_phase = DWC_OTG_CONTROL_STATUS;
++ DWC_DEBUGPL(DBG_HCDV, " Control data transfer done\n");
++ } else if (i + 1 == qtd->n_desc) {
++ /*
++ * Last descriptor for Control data stage which is
++ * not completed yet.
++ */
++ dwc_otg_hcd_save_data_toggle(hc, hc_regs, qtd);
++ }
++ }
++ }
++
++ n_desc++;
++ }
++
++ }
++
++stop_scan:
++
++ if (qh->ep_type != UE_CONTROL) {
++ /*
++ * Resetting the data toggle for bulk
++ * and interrupt endpoints in case of stall. See handle_hc_stall_intr()
++ */
++ if (halt_status == DWC_OTG_HC_XFER_STALL)
++ qh->data_toggle = DWC_OTG_HC_PID_DATA0;
++ else
++ dwc_otg_hcd_save_data_toggle(hc, hc_regs, qtd);
++ }
++
++ if (halt_status == DWC_OTG_HC_XFER_COMPLETE) {
++ hcint_data_t hcint;
++ hcint.d32 = DWC_READ_REG32(&hc_regs->hcint);
++ if (hcint.b.nyet) {
++ /*
++ * Got a NYET on the last transaction of the transfer. It
++ * means that the endpoint should be in the PING state at the
++ * beginning of the next transfer.
++ */
++ qh->ping_state = 1;
++ clear_hc_int(hc_regs, nyet);
++ }
++
++ }
++
++}
++
++/**
++ * This function is called from interrupt handlers.
++ * Scans the descriptor list, updates URB's status and
++ * calls completion routine for the URB if it's done.
++ * Releases the channel to be used by other transfers.
++ * In case of Isochronous endpoint the channel is not halted until
++ * the end of the session, i.e. QTD list is empty.
++ * If periodic channel released the FrameList is updated accordingly.
++ *
++ * Calls transaction selection routines to activate pending transfers.
++ *
++ * @param hcd The HCD state structure for the DWC OTG controller.
++ * @param hc Host channel, the transfer is completed on.
++ * @param hc_regs Host channel registers.
++ * @param halt_status Reason the channel is being halted,
++ * or just XferComplete for isochronous transfer
++ */
++void dwc_otg_hcd_complete_xfer_ddma(dwc_otg_hcd_t * hcd,
++ dwc_hc_t * hc,
++ dwc_otg_hc_regs_t * hc_regs,
++ dwc_otg_halt_status_e halt_status)
++{
++ uint8_t continue_isoc_xfer = 0;
++ dwc_otg_transaction_type_e tr_type;
++ dwc_otg_qh_t *qh = hc->qh;
++
++ if (hc->ep_type == DWC_OTG_EP_TYPE_ISOC) {
++
++ complete_isoc_xfer_ddma(hcd, hc, hc_regs, halt_status);
++
++ /* Release the channel if halted or session completed */
++ if (halt_status != DWC_OTG_HC_XFER_COMPLETE ||
++ DWC_CIRCLEQ_EMPTY(&qh->qtd_list)) {
++
++ /* Halt the channel if session completed */
++ if (halt_status == DWC_OTG_HC_XFER_COMPLETE) {
++ dwc_otg_hc_halt(hcd->core_if, hc, halt_status);
++ }
++
++ release_channel_ddma(hcd, qh);
++ dwc_otg_hcd_qh_remove(hcd, qh);
++ } else {
++ /* Keep in assigned schedule to continue transfer */
++ DWC_LIST_MOVE_HEAD(&hcd->periodic_sched_assigned,
++ &qh->qh_list_entry);
++ continue_isoc_xfer = 1;
++
++ }
++ /** @todo Consider the case when period exceeds FrameList size.
++ * Frame Rollover interrupt should be used.
++ */
++ } else {
++ /* Scan descriptor list to complete the URB(s), then release the channel */
++ complete_non_isoc_xfer_ddma(hcd, hc, hc_regs, halt_status);
++
++ release_channel_ddma(hcd, qh);
++ dwc_otg_hcd_qh_remove(hcd, qh);
++
++ if (!DWC_CIRCLEQ_EMPTY(&qh->qtd_list)) {
++ /* Add back to inactive non-periodic schedule on normal completion */
++ dwc_otg_hcd_qh_add(hcd, qh);
++ }
++
++ }
++ tr_type = dwc_otg_hcd_select_transactions(hcd);
++ if (tr_type != DWC_OTG_TRANSACTION_NONE || continue_isoc_xfer) {
++ if (continue_isoc_xfer) {
++ if (tr_type == DWC_OTG_TRANSACTION_NONE) {
++ tr_type = DWC_OTG_TRANSACTION_PERIODIC;
++ } else if (tr_type == DWC_OTG_TRANSACTION_NON_PERIODIC) {
++ tr_type = DWC_OTG_TRANSACTION_ALL;
++ }
++ }
++ dwc_otg_hcd_queue_transactions(hcd, tr_type);
++ }
++}
++
++#endif /* DWC_DEVICE_ONLY */
+diff -urN linux-3.10/drivers/usb/host/dwc_otg/dwc_otg_hcd.h linux-rpi-3.10.y/drivers/usb/host/dwc_otg/dwc_otg_hcd.h
+--- linux-3.10/drivers/usb/host/dwc_otg/dwc_otg_hcd.h 1970-01-01 01:00:00.000000000 +0100
++++ linux-rpi-3.10.y/drivers/usb/host/dwc_otg/dwc_otg_hcd.h 2013-07-06 15:25:50.000000000 +0100
+@@ -0,0 +1,839 @@
++/* ==========================================================================
++ * $File: //dwh/usb_iip/dev/software/otg/linux/drivers/dwc_otg_hcd.h $
++ * $Revision: #58 $
++ * $Date: 2011/09/15 $
++ * $Change: 1846647 $
++ *
++ * Synopsys HS OTG Linux Software Driver and documentation (hereinafter,
++ * "Software") is an Unsupported proprietary work of Synopsys, Inc. unless
++ * otherwise expressly agreed to in writing between Synopsys and you.
++ *
++ * The Software IS NOT an item of Licensed Software or Licensed Product under
++ * any End User Software License Agreement or Agreement for Licensed Product
++ * with Synopsys or any supplement thereto. You are permitted to use and
++ * redistribute this Software in source and binary forms, with or without
++ * modification, provided that redistributions of source code must retain this
++ * notice. You may not view, use, disclose, copy or distribute this file or
++ * any information contained herein except pursuant to this license grant from
++ * Synopsys. If you do not agree with this notice, including the disclaimer
++ * below, then you are not authorized to use the Software.
++ *
++ * THIS SOFTWARE IS BEING DISTRIBUTED BY SYNOPSYS SOLELY ON AN "AS IS" BASIS
++ * AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
++ * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE
++ * ARE HEREBY DISCLAIMED. IN NO EVENT SHALL SYNOPSYS BE LIABLE FOR ANY DIRECT,
++ * INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES
++ * (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR
++ * SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER
++ * CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT
++ * LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY
++ * OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH
++ * DAMAGE.
++ * ========================================================================== */
++#ifndef DWC_DEVICE_ONLY
++#ifndef __DWC_HCD_H__
++#define __DWC_HCD_H__
++
++#include "dwc_otg_os_dep.h"
++#include "usb.h"
++#include "dwc_otg_hcd_if.h"
++#include "dwc_otg_core_if.h"
++#include "dwc_list.h"
++#include "dwc_otg_cil.h"
++
++/**
++ * @file
++ *
++ * This file contains the structures, constants, and interfaces for
++ * the Host Contoller Driver (HCD).
++ *
++ * The Host Controller Driver (HCD) is responsible for translating requests
++ * from the USB Driver into the appropriate actions on the DWC_otg controller.
++ * It isolates the USBD from the specifics of the controller by providing an
++ * API to the USBD.
++ */
++
++struct dwc_otg_hcd_pipe_info {
++ uint8_t dev_addr;
++ uint8_t ep_num;
++ uint8_t pipe_type;
++ uint8_t pipe_dir;
++ uint16_t mps;
++};
++
++struct dwc_otg_hcd_iso_packet_desc {
++ uint32_t offset;
++ uint32_t length;
++ uint32_t actual_length;
++ uint32_t status;
++};
++
++struct dwc_otg_qtd;
++
++struct dwc_otg_hcd_urb {
++ void *priv;
++ struct dwc_otg_qtd *qtd;
++ void *buf;
++ dwc_dma_t dma;
++ void *setup_packet;
++ dwc_dma_t setup_dma;
++ uint32_t length;
++ uint32_t actual_length;
++ uint32_t status;
++ uint32_t error_count;
++ uint32_t packet_count;
++ uint32_t flags;
++ uint16_t interval;
++ struct dwc_otg_hcd_pipe_info pipe_info;
++ struct dwc_otg_hcd_iso_packet_desc iso_descs[0];
++};
++
++static inline uint8_t dwc_otg_hcd_get_ep_num(struct dwc_otg_hcd_pipe_info *pipe)
++{
++ return pipe->ep_num;
++}
++
++static inline uint8_t dwc_otg_hcd_get_pipe_type(struct dwc_otg_hcd_pipe_info
++ *pipe)
++{
++ return pipe->pipe_type;
++}
++
++static inline uint16_t dwc_otg_hcd_get_mps(struct dwc_otg_hcd_pipe_info *pipe)
++{
++ return pipe->mps;
++}
++
++static inline uint8_t dwc_otg_hcd_get_dev_addr(struct dwc_otg_hcd_pipe_info
++ *pipe)
++{
++ return pipe->dev_addr;
++}
++
++static inline uint8_t dwc_otg_hcd_is_pipe_isoc(struct dwc_otg_hcd_pipe_info
++ *pipe)
++{
++ return (pipe->pipe_type == UE_ISOCHRONOUS);
++}
++
++static inline uint8_t dwc_otg_hcd_is_pipe_int(struct dwc_otg_hcd_pipe_info
++ *pipe)
++{
++ return (pipe->pipe_type == UE_INTERRUPT);
++}
++
++static inline uint8_t dwc_otg_hcd_is_pipe_bulk(struct dwc_otg_hcd_pipe_info
++ *pipe)
++{
++ return (pipe->pipe_type == UE_BULK);
++}
++
++static inline uint8_t dwc_otg_hcd_is_pipe_control(struct dwc_otg_hcd_pipe_info
++ *pipe)
++{
++ return (pipe->pipe_type == UE_CONTROL);
++}
++
++static inline uint8_t dwc_otg_hcd_is_pipe_in(struct dwc_otg_hcd_pipe_info *pipe)
++{
++ return (pipe->pipe_dir == UE_DIR_IN);
++}
++
++static inline uint8_t dwc_otg_hcd_is_pipe_out(struct dwc_otg_hcd_pipe_info
++ *pipe)
++{
++ return (!dwc_otg_hcd_is_pipe_in(pipe));
++}
++
++static inline void dwc_otg_hcd_fill_pipe(struct dwc_otg_hcd_pipe_info *pipe,
++ uint8_t devaddr, uint8_t ep_num,
++ uint8_t pipe_type, uint8_t pipe_dir,
++ uint16_t mps)
++{
++ pipe->dev_addr = devaddr;
++ pipe->ep_num = ep_num;
++ pipe->pipe_type = pipe_type;
++ pipe->pipe_dir = pipe_dir;
++ pipe->mps = mps;
++}
++
++/**
++ * Phases for control transfers.
++ */
++typedef enum dwc_otg_control_phase {
++ DWC_OTG_CONTROL_SETUP,
++ DWC_OTG_CONTROL_DATA,
++ DWC_OTG_CONTROL_STATUS
++} dwc_otg_control_phase_e;
++
++/** Transaction types. */
++typedef enum dwc_otg_transaction_type {
++ DWC_OTG_TRANSACTION_NONE,
++ DWC_OTG_TRANSACTION_PERIODIC,
++ DWC_OTG_TRANSACTION_NON_PERIODIC,
++ DWC_OTG_TRANSACTION_ALL
++} dwc_otg_transaction_type_e;
++
++struct dwc_otg_qh;
++
++/**
++ * A Queue Transfer Descriptor (QTD) holds the state of a bulk, control,
++ * interrupt, or isochronous transfer. A single QTD is created for each URB
++ * (of one of these types) submitted to the HCD. The transfer associated with
++ * a QTD may require one or multiple transactions.
++ *
++ * A QTD is linked to a Queue Head, which is entered in either the
++ * non-periodic or periodic schedule for execution. When a QTD is chosen for
++ * execution, some or all of its transactions may be executed. After
++ * execution, the state of the QTD is updated. The QTD may be retired if all
++ * its transactions are complete or if an error occurred. Otherwise, it
++ * remains in the schedule so more transactions can be executed later.
++ */
++typedef struct dwc_otg_qtd {
++ /**
++ * Determines the PID of the next data packet for the data phase of
++ * control transfers. Ignored for other transfer types.<br>
++ * One of the following values:
++ * - DWC_OTG_HC_PID_DATA0
++ * - DWC_OTG_HC_PID_DATA1
++ */
++ uint8_t data_toggle;
++
++ /** Current phase for control transfers (Setup, Data, or Status). */
++ dwc_otg_control_phase_e control_phase;
++
++ /** Keep track of the current split type
++ * for FS/LS endpoints on a HS Hub */
++ uint8_t complete_split;
++
++ /** How many bytes transferred during SSPLIT OUT */
++ uint32_t ssplit_out_xfer_count;
++
++ /**
++ * Holds the number of bus errors that have occurred for a transaction
++ * within this transfer.
++ */
++ uint8_t error_count;
++
++ /**
++ * Index of the next frame descriptor for an isochronous transfer. A
++ * frame descriptor describes the buffer position and length of the
++ * data to be transferred in the next scheduled (micro)frame of an
++ * isochronous transfer. It also holds status for that transaction.
++ * The frame index starts at 0.
++ */
++ uint16_t isoc_frame_index;
++
++ /** Position of the ISOC split on full/low speed */
++ uint8_t isoc_split_pos;
++
++ /** Position of the ISOC split in the buffer for the current frame */
++ uint16_t isoc_split_offset;
++
++ /** URB for this transfer */
++ struct dwc_otg_hcd_urb *urb;
++
++ struct dwc_otg_qh *qh;
++
++ /** This list of QTDs */
++ DWC_CIRCLEQ_ENTRY(dwc_otg_qtd) qtd_list_entry;
++
++ /** Indicates if this QTD is currently processed by HW. */
++ uint8_t in_process;
++
++ /** Number of DMA descriptors for this QTD */
++ uint8_t n_desc;
++
++ /**
++ * Last activated frame(packet) index.
++ * Used in Descriptor DMA mode only.
++ */
++ uint16_t isoc_frame_index_last;
++
++} dwc_otg_qtd_t;
++
++DWC_CIRCLEQ_HEAD(dwc_otg_qtd_list, dwc_otg_qtd);
++
++/**
++ * A Queue Head (QH) holds the static characteristics of an endpoint and
++ * maintains a list of transfers (QTDs) for that endpoint. A QH structure may
++ * be entered in either the non-periodic or periodic schedule.
++ */
++typedef struct dwc_otg_qh {
++ /**
++ * Endpoint type.
++ * One of the following values:
++ * - UE_CONTROL
++ * - UE_BULK
++ * - UE_INTERRUPT
++ * - UE_ISOCHRONOUS
++ */
++ uint8_t ep_type;
++ uint8_t ep_is_in;
++
++ /** wMaxPacketSize Field of Endpoint Descriptor. */
++ uint16_t maxp;
++
++ /**
++ * Device speed.
++ * One of the following values:
++ * - DWC_OTG_EP_SPEED_LOW
++ * - DWC_OTG_EP_SPEED_FULL
++ * - DWC_OTG_EP_SPEED_HIGH
++ */
++ uint8_t dev_speed;
++
++ /**
++ * Determines the PID of the next data packet for non-control
++ * transfers. Ignored for control transfers.<br>
++ * One of the following values:
++ * - DWC_OTG_HC_PID_DATA0
++ * - DWC_OTG_HC_PID_DATA1
++ */
++ uint8_t data_toggle;
++
++ /** Ping state if 1. */
++ uint8_t ping_state;
++
++ /**
++ * List of QTDs for this QH.
++ */
++ struct dwc_otg_qtd_list qtd_list;
++
++ /** Host channel currently processing transfers for this QH. */
++ struct dwc_hc *channel;
++
++ /** Full/low speed endpoint on high-speed hub requires split. */
++ uint8_t do_split;
++
++ /** @name Periodic schedule information */
++ /** @{ */
++
++ /** Bandwidth in microseconds per (micro)frame. */
++ uint16_t usecs;
++
++ /** Interval between transfers in (micro)frames. */
++ uint16_t interval;
++
++ /**
++ * (micro)frame to initialize a periodic transfer. The transfer
++ * executes in the following (micro)frame.
++ */
++ uint16_t sched_frame;
++
++ /*
++ ** Frame a NAK was received on this queue head, used to minimise NAK retransmission
++ */
++ uint16_t nak_frame;
++
++ /** (micro)frame at which last start split was initialized. */
++ uint16_t start_split_frame;
++
++ /** @} */
++
++ /**
++ * Used instead of original buffer if
++ * it(physical address) is not dword-aligned.
++ */
++ uint8_t *dw_align_buf;
++ dwc_dma_t dw_align_buf_dma;
++
++ /** Entry for QH in either the periodic or non-periodic schedule. */
++ dwc_list_link_t qh_list_entry;
++
++ /** @name Descriptor DMA support */
++ /** @{ */
++
++ /** Descriptor List. */
++ dwc_otg_host_dma_desc_t *desc_list;
++
++ /** Descriptor List physical address. */
++ dwc_dma_t desc_list_dma;
++
++ /**
++ * Xfer Bytes array.
++ * Each element corresponds to a descriptor and indicates
++ * original XferSize size value for the descriptor.
++ */
++ uint32_t *n_bytes;
++
++ /** Actual number of transfer descriptors in a list. */
++ uint16_t ntd;
++
++ /** First activated isochronous transfer descriptor index. */
++ uint8_t td_first;
++ /** Last activated isochronous transfer descriptor index. */
++ uint8_t td_last;
++
++ /** @} */
++
++
++ uint16_t speed;
++ uint16_t frame_usecs[8];
++} dwc_otg_qh_t;
++
++DWC_CIRCLEQ_HEAD(hc_list, dwc_hc);
++
++typedef struct urb_tq_entry {
++ struct urb *urb;
++ DWC_TAILQ_ENTRY(urb_tq_entry) urb_tq_entries;
++} urb_tq_entry_t;
++
++DWC_TAILQ_HEAD(urb_list, urb_tq_entry);
++
++/**
++ * This structure holds the state of the HCD, including the non-periodic and
++ * periodic schedules.
++ */
++struct dwc_otg_hcd {
++ /** The DWC otg device pointer */
++ struct dwc_otg_device *otg_dev;
++ /** DWC OTG Core Interface Layer */
++ dwc_otg_core_if_t *core_if;
++
++ /** Function HCD driver callbacks */
++ struct dwc_otg_hcd_function_ops *fops;
++
++ /** Internal DWC HCD Flags */
++ volatile union dwc_otg_hcd_internal_flags {
++ uint32_t d32;
++ struct {
++ unsigned port_connect_status_change:1;
++ unsigned port_connect_status:1;
++ unsigned port_reset_change:1;
++ unsigned port_enable_change:1;
++ unsigned port_suspend_change:1;
++ unsigned port_over_current_change:1;
++ unsigned port_l1_change:1;
++ unsigned reserved:26;
++ } b;
++ } flags;
++
++ /**
++ * Inactive items in the non-periodic schedule. This is a list of
++ * Queue Heads. Transfers associated with these Queue Heads are not
++ * currently assigned to a host channel.
++ */
++ dwc_list_link_t non_periodic_sched_inactive;
++
++ /**
++ * Active items in the non-periodic schedule. This is a list of
++ * Queue Heads. Transfers associated with these Queue Heads are
++ * currently assigned to a host channel.
++ */
++ dwc_list_link_t non_periodic_sched_active;
++
++ /**
++ * Pointer to the next Queue Head to process in the active
++ * non-periodic schedule.
++ */
++ dwc_list_link_t *non_periodic_qh_ptr;
++
++ /**
++ * Inactive items in the periodic schedule. This is a list of QHs for
++ * periodic transfers that are _not_ scheduled for the next frame.
++ * Each QH in the list has an interval counter that determines when it
++ * needs to be scheduled for execution. This scheduling mechanism
++ * allows only a simple calculation for periodic bandwidth used (i.e.
++ * must assume that all periodic transfers may need to execute in the
++ * same frame). However, it greatly simplifies scheduling and should
++ * be sufficient for the vast majority of OTG hosts, which need to
++ * connect to a small number of peripherals at one time.
++ *
++ * Items move from this list to periodic_sched_ready when the QH
++ * interval counter is 0 at SOF.
++ */
++ dwc_list_link_t periodic_sched_inactive;
++
++ /**
++ * List of periodic QHs that are ready for execution in the next
++ * frame, but have not yet been assigned to host channels.
++ *
++ * Items move from this list to periodic_sched_assigned as host
++ * channels become available during the current frame.
++ */
++ dwc_list_link_t periodic_sched_ready;
++
++ /**
++ * List of periodic QHs to be executed in the next frame that are
++ * assigned to host channels.
++ *
++ * Items move from this list to periodic_sched_queued as the
++ * transactions for the QH are queued to the DWC_otg controller.
++ */
++ dwc_list_link_t periodic_sched_assigned;
++
++ /**
++ * List of periodic QHs that have been queued for execution.
++ *
++ * Items move from this list to either periodic_sched_inactive or
++ * periodic_sched_ready when the channel associated with the transfer
++ * is released. If the interval for the QH is 1, the item moves to
++ * periodic_sched_ready because it must be rescheduled for the next
++ * frame. Otherwise, the item moves to periodic_sched_inactive.
++ */
++ dwc_list_link_t periodic_sched_queued;
++
++ /**
++ * Total bandwidth claimed so far for periodic transfers. This value
++ * is in microseconds per (micro)frame. The assumption is that all
++ * periodic transfers may occur in the same (micro)frame.
++ */
++ uint16_t periodic_usecs;
++
++ /**
++ * Total bandwidth claimed so far for all periodic transfers
++ * in a frame.
++ * This will include a mixture of HS and FS transfers.
++ * Units are microseconds per (micro)frame.
++ * We have a budget per frame and have to schedule
++ * transactions accordingly.
++ * Watch out for the fact that things are actually scheduled for the
++ * "next frame".
++ */
++ uint16_t frame_usecs[8];
++
++
++ /**
++ * Frame number read from the core at SOF. The value ranges from 0 to
++ * DWC_HFNUM_MAX_FRNUM.
++ */
++ uint16_t frame_number;
++
++ /**
++ * Count of periodic QHs, if using several eps. For SOF enable/disable.
++ */
++ uint16_t periodic_qh_count;
++
++ /**
++ * Free host channels in the controller. This is a list of
++ * dwc_hc_t items.
++ */
++ struct hc_list free_hc_list;
++ /**
++ * Number of host channels assigned to periodic transfers. Currently
++ * assuming that there is a dedicated host channel for each periodic
++ * transaction and at least one host channel available for
++ * non-periodic transactions.
++ */
++ int periodic_channels; /* microframe_schedule==0 */
++
++ /**
++ * Number of host channels assigned to non-periodic transfers.
++ */
++ int non_periodic_channels; /* microframe_schedule==0 */
++
++ /**
++ * Number of host channels assigned to non-periodic transfers.
++ */
++ int available_host_channels;
++
++ /**
++ * Array of pointers to the host channel descriptors. Allows accessing
++ * a host channel descriptor given the host channel number. This is
++ * useful in interrupt handlers.
++ */
++ struct dwc_hc *hc_ptr_array[MAX_EPS_CHANNELS];
++
++ /**
++ * Buffer to use for any data received during the status phase of a
++ * control transfer. Normally no data is transferred during the status
++ * phase. This buffer is used as a bit bucket.
++ */
++ uint8_t *status_buf;
++
++ /**
++ * DMA address for status_buf.
++ */
++ dma_addr_t status_buf_dma;
++#define DWC_OTG_HCD_STATUS_BUF_SIZE 64
++
++ /**
++ * Connection timer. An OTG host must display a message if the device
++ * does not connect. Started when the VBus power is turned on via
++ * sysfs attribute "buspower".
++ */
++ dwc_timer_t *conn_timer;
++
++ /* Tasket to do a reset */
++ dwc_tasklet_t *reset_tasklet;
++
++ dwc_tasklet_t *completion_tasklet;
++ struct urb_list completed_urb_list;
++
++ /* */
++ dwc_spinlock_t *lock;
++ dwc_spinlock_t *channel_lock;
++ /**
++ * Private data that could be used by OS wrapper.
++ */
++ void *priv;
++
++ uint8_t otg_port;
++
++ /** Frame List */
++ uint32_t *frame_list;
++
++ /** Frame List DMA address */
++ dma_addr_t frame_list_dma;
++
++#ifdef DEBUG
++ uint32_t frrem_samples;
++ uint64_t frrem_accum;
++
++ uint32_t hfnum_7_samples_a;
++ uint64_t hfnum_7_frrem_accum_a;
++ uint32_t hfnum_0_samples_a;
++ uint64_t hfnum_0_frrem_accum_a;
++ uint32_t hfnum_other_samples_a;
++ uint64_t hfnum_other_frrem_accum_a;
++
++ uint32_t hfnum_7_samples_b;
++ uint64_t hfnum_7_frrem_accum_b;
++ uint32_t hfnum_0_samples_b;
++ uint64_t hfnum_0_frrem_accum_b;
++ uint32_t hfnum_other_samples_b;
++ uint64_t hfnum_other_frrem_accum_b;
++#endif
++};
++
++/** @name Transaction Execution Functions */
++/** @{ */
++extern dwc_otg_transaction_type_e dwc_otg_hcd_select_transactions(dwc_otg_hcd_t
++ * hcd);
++extern void dwc_otg_hcd_queue_transactions(dwc_otg_hcd_t * hcd,
++ dwc_otg_transaction_type_e tr_type);
++
++/** @} */
++
++/** @name Interrupt Handler Functions */
++/** @{ */
++extern int32_t dwc_otg_hcd_handle_intr(dwc_otg_hcd_t * dwc_otg_hcd);
++extern int32_t dwc_otg_hcd_handle_sof_intr(dwc_otg_hcd_t * dwc_otg_hcd, int32_t);
++extern int32_t dwc_otg_hcd_handle_rx_status_q_level_intr(dwc_otg_hcd_t *
++ dwc_otg_hcd);
++extern int32_t dwc_otg_hcd_handle_np_tx_fifo_empty_intr(dwc_otg_hcd_t *
++ dwc_otg_hcd);
++extern int32_t dwc_otg_hcd_handle_perio_tx_fifo_empty_intr(dwc_otg_hcd_t *
++ dwc_otg_hcd);
++extern int32_t dwc_otg_hcd_handle_incomplete_periodic_intr(dwc_otg_hcd_t *
++ dwc_otg_hcd);
++extern int32_t dwc_otg_hcd_handle_port_intr(dwc_otg_hcd_t * dwc_otg_hcd);
++extern int32_t dwc_otg_hcd_handle_conn_id_status_change_intr(dwc_otg_hcd_t *
++ dwc_otg_hcd);
++extern int32_t dwc_otg_hcd_handle_disconnect_intr(dwc_otg_hcd_t * dwc_otg_hcd);
++extern int32_t dwc_otg_hcd_handle_hc_intr(dwc_otg_hcd_t * dwc_otg_hcd);
++extern int32_t dwc_otg_hcd_handle_hc_n_intr(dwc_otg_hcd_t * dwc_otg_hcd,
++ uint32_t num);
++extern int32_t dwc_otg_hcd_handle_session_req_intr(dwc_otg_hcd_t * dwc_otg_hcd);
++extern int32_t dwc_otg_hcd_handle_wakeup_detected_intr(dwc_otg_hcd_t *
++ dwc_otg_hcd);
++/** @} */
++
++/** @name Schedule Queue Functions */
++/** @{ */
++
++/* Implemented in dwc_otg_hcd_queue.c */
++extern dwc_otg_qh_t *dwc_otg_hcd_qh_create(dwc_otg_hcd_t * hcd,
++ dwc_otg_hcd_urb_t * urb, int atomic_alloc);
++extern void dwc_otg_hcd_qh_free(dwc_otg_hcd_t * hcd, dwc_otg_qh_t * qh);
++extern int dwc_otg_hcd_qh_add(dwc_otg_hcd_t * hcd, dwc_otg_qh_t * qh);
++extern void dwc_otg_hcd_qh_remove(dwc_otg_hcd_t * hcd, dwc_otg_qh_t * qh);
++extern void dwc_otg_hcd_qh_deactivate(dwc_otg_hcd_t * hcd, dwc_otg_qh_t * qh,
++ int sched_csplit);
++
++/** Remove and free a QH */
++static inline void dwc_otg_hcd_qh_remove_and_free(dwc_otg_hcd_t * hcd,
++ dwc_otg_qh_t * qh)
++{
++ dwc_irqflags_t flags;
++ DWC_SPINLOCK_IRQSAVE(hcd->lock, &flags);
++ dwc_otg_hcd_qh_remove(hcd, qh);
++ DWC_SPINUNLOCK_IRQRESTORE(hcd->lock, flags);
++ dwc_otg_hcd_qh_free(hcd, qh);
++}
++
++/** Allocates memory for a QH structure.
++ * @return Returns the memory allocate or NULL on error. */
++static inline dwc_otg_qh_t *dwc_otg_hcd_qh_alloc(int atomic_alloc)
++{
++ if (atomic_alloc)
++ return (dwc_otg_qh_t *) DWC_ALLOC_ATOMIC(sizeof(dwc_otg_qh_t));
++ else
++ return (dwc_otg_qh_t *) DWC_ALLOC(sizeof(dwc_otg_qh_t));
++}
++
++extern dwc_otg_qtd_t *dwc_otg_hcd_qtd_create(dwc_otg_hcd_urb_t * urb,
++ int atomic_alloc);
++extern void dwc_otg_hcd_qtd_init(dwc_otg_qtd_t * qtd, dwc_otg_hcd_urb_t * urb);
++extern int dwc_otg_hcd_qtd_add(dwc_otg_qtd_t * qtd, dwc_otg_hcd_t * dwc_otg_hcd,
++ dwc_otg_qh_t ** qh, int atomic_alloc);
++
++/** Allocates memory for a QTD structure.
++ * @return Returns the memory allocate or NULL on error. */
++static inline dwc_otg_qtd_t *dwc_otg_hcd_qtd_alloc(int atomic_alloc)
++{
++ if (atomic_alloc)
++ return (dwc_otg_qtd_t *) DWC_ALLOC_ATOMIC(sizeof(dwc_otg_qtd_t));
++ else
++ return (dwc_otg_qtd_t *) DWC_ALLOC(sizeof(dwc_otg_qtd_t));
++}
++
++/** Frees the memory for a QTD structure. QTD should already be removed from
++ * list.
++ * @param qtd QTD to free.*/
++static inline void dwc_otg_hcd_qtd_free(dwc_otg_qtd_t * qtd)
++{
++ DWC_FREE(qtd);
++}
++
++/** Removes a QTD from list.
++ * @param hcd HCD instance.
++ * @param qtd QTD to remove from list.
++ * @param qh QTD belongs to.
++ */
++static inline void dwc_otg_hcd_qtd_remove(dwc_otg_hcd_t * hcd,
++ dwc_otg_qtd_t * qtd,
++ dwc_otg_qh_t * qh)
++{
++ DWC_CIRCLEQ_REMOVE(&qh->qtd_list, qtd, qtd_list_entry);
++}
++
++/** Remove and free a QTD
++ * Need to disable IRQ and hold hcd lock while calling this function out of
++ * interrupt servicing chain */
++static inline void dwc_otg_hcd_qtd_remove_and_free(dwc_otg_hcd_t * hcd,
++ dwc_otg_qtd_t * qtd,
++ dwc_otg_qh_t * qh)
++{
++ dwc_otg_hcd_qtd_remove(hcd, qtd, qh);
++ dwc_otg_hcd_qtd_free(qtd);
++}
++
++/** @} */
++
++/** @name Descriptor DMA Supporting Functions */
++/** @{ */
++
++extern void dwc_otg_hcd_start_xfer_ddma(dwc_otg_hcd_t * hcd, dwc_otg_qh_t * qh);
++extern void dwc_otg_hcd_complete_xfer_ddma(dwc_otg_hcd_t * hcd,
++ dwc_hc_t * hc,
++ dwc_otg_hc_regs_t * hc_regs,
++ dwc_otg_halt_status_e halt_status);
++
++extern int dwc_otg_hcd_qh_init_ddma(dwc_otg_hcd_t * hcd, dwc_otg_qh_t * qh);
++extern void dwc_otg_hcd_qh_free_ddma(dwc_otg_hcd_t * hcd, dwc_otg_qh_t * qh);
++
++/** @} */
++
++/** @name Internal Functions */
++/** @{ */
++dwc_otg_qh_t *dwc_urb_to_qh(dwc_otg_hcd_urb_t * urb);
++/** @} */
++
++#ifdef CONFIG_USB_DWC_OTG_LPM
++extern int dwc_otg_hcd_get_hc_for_lpm_tran(dwc_otg_hcd_t * hcd,
++ uint8_t devaddr);
++extern void dwc_otg_hcd_free_hc_from_lpm(dwc_otg_hcd_t * hcd);
++#endif
++
++/** Gets the QH that contains the list_head */
++#define dwc_list_to_qh(_list_head_ptr_) container_of(_list_head_ptr_, dwc_otg_qh_t, qh_list_entry)
++
++/** Gets the QTD that contains the list_head */
++#define dwc_list_to_qtd(_list_head_ptr_) container_of(_list_head_ptr_, dwc_otg_qtd_t, qtd_list_entry)
++
++/** Check if QH is non-periodic */
++#define dwc_qh_is_non_per(_qh_ptr_) ((_qh_ptr_->ep_type == UE_BULK) || \
++ (_qh_ptr_->ep_type == UE_CONTROL))
++
++/** High bandwidth multiplier as encoded in highspeed endpoint descriptors */
++#define dwc_hb_mult(wMaxPacketSize) (1 + (((wMaxPacketSize) >> 11) & 0x03))
++
++/** Packet size for any kind of endpoint descriptor */
++#define dwc_max_packet(wMaxPacketSize) ((wMaxPacketSize) & 0x07ff)
++
++/**
++ * Returns true if _frame1 is less than or equal to _frame2. The comparison is
++ * done modulo DWC_HFNUM_MAX_FRNUM. This accounts for the rollover of the
++ * frame number when the max frame number is reached.
++ */
++static inline int dwc_frame_num_le(uint16_t frame1, uint16_t frame2)
++{
++ return ((frame2 - frame1) & DWC_HFNUM_MAX_FRNUM) <=
++ (DWC_HFNUM_MAX_FRNUM >> 1);
++}
++
++/**
++ * Returns true if _frame1 is greater than _frame2. The comparison is done
++ * modulo DWC_HFNUM_MAX_FRNUM. This accounts for the rollover of the frame
++ * number when the max frame number is reached.
++ */
++static inline int dwc_frame_num_gt(uint16_t frame1, uint16_t frame2)
++{
++ return (frame1 != frame2) &&
++ (((frame1 - frame2) & DWC_HFNUM_MAX_FRNUM) <
++ (DWC_HFNUM_MAX_FRNUM >> 1));
++}
++
++/**
++ * Increments _frame by the amount specified by _inc. The addition is done
++ * modulo DWC_HFNUM_MAX_FRNUM. Returns the incremented value.
++ */
++static inline uint16_t dwc_frame_num_inc(uint16_t frame, uint16_t inc)
++{
++ return (frame + inc) & DWC_HFNUM_MAX_FRNUM;
++}
++
++static inline uint16_t dwc_full_frame_num(uint16_t frame)
++{
++ return (frame & DWC_HFNUM_MAX_FRNUM) >> 3;
++}
++
++static inline uint16_t dwc_micro_frame_num(uint16_t frame)
++{
++ return frame & 0x7;
++}
++
++void dwc_otg_hcd_save_data_toggle(dwc_hc_t * hc,
++ dwc_otg_hc_regs_t * hc_regs,
++ dwc_otg_qtd_t * qtd);
++
++#ifdef DEBUG
++/**
++ * Macro to sample the remaining PHY clocks left in the current frame. This
++ * may be used during debugging to determine the average time it takes to
++ * execute sections of code. There are two possible sample points, "a" and
++ * "b", so the _letter argument must be one of these values.
++ *
++ * To dump the average sample times, read the "hcd_frrem" sysfs attribute. For
++ * example, "cat /sys/devices/lm0/hcd_frrem".
++ */
++#define dwc_sample_frrem(_hcd, _qh, _letter) \
++{ \
++ hfnum_data_t hfnum; \
++ dwc_otg_qtd_t *qtd; \
++ qtd = list_entry(_qh->qtd_list.next, dwc_otg_qtd_t, qtd_list_entry); \
++ if (usb_pipeint(qtd->urb->pipe) && _qh->start_split_frame != 0 && !qtd->complete_split) { \
++ hfnum.d32 = DWC_READ_REG32(&_hcd->core_if->host_if->host_global_regs->hfnum); \
++ switch (hfnum.b.frnum & 0x7) { \
++ case 7: \
++ _hcd->hfnum_7_samples_##_letter++; \
++ _hcd->hfnum_7_frrem_accum_##_letter += hfnum.b.frrem; \
++ break; \
++ case 0: \
++ _hcd->hfnum_0_samples_##_letter++; \
++ _hcd->hfnum_0_frrem_accum_##_letter += hfnum.b.frrem; \
++ break; \
++ default: \
++ _hcd->hfnum_other_samples_##_letter++; \
++ _hcd->hfnum_other_frrem_accum_##_letter += hfnum.b.frrem; \
++ break; \
++ } \
++ } \
++}
++#else
++#define dwc_sample_frrem(_hcd, _qh, _letter)
++#endif
++#endif
++#endif /* DWC_DEVICE_ONLY */
+diff -urN linux-3.10/drivers/usb/host/dwc_otg/dwc_otg_hcd_if.h linux-rpi-3.10.y/drivers/usb/host/dwc_otg/dwc_otg_hcd_if.h
+--- linux-3.10/drivers/usb/host/dwc_otg/dwc_otg_hcd_if.h 1970-01-01 01:00:00.000000000 +0100
++++ linux-rpi-3.10.y/drivers/usb/host/dwc_otg/dwc_otg_hcd_if.h 2013-07-06 15:25:50.000000000 +0100
+@@ -0,0 +1,417 @@
++/* ==========================================================================
++ * $File: //dwh/usb_iip/dev/software/otg/linux/drivers/dwc_otg_hcd_if.h $
++ * $Revision: #12 $
++ * $Date: 2011/10/26 $
++ * $Change: 1873028 $
++ *
++ * Synopsys HS OTG Linux Software Driver and documentation (hereinafter,
++ * "Software") is an Unsupported proprietary work of Synopsys, Inc. unless
++ * otherwise expressly agreed to in writing between Synopsys and you.
++ *
++ * The Software IS NOT an item of Licensed Software or Licensed Product under
++ * any End User Software License Agreement or Agreement for Licensed Product
++ * with Synopsys or any supplement thereto. You are permitted to use and
++ * redistribute this Software in source and binary forms, with or without
++ * modification, provided that redistributions of source code must retain this
++ * notice. You may not view, use, disclose, copy or distribute this file or
++ * any information contained herein except pursuant to this license grant from
++ * Synopsys. If you do not agree with this notice, including the disclaimer
++ * below, then you are not authorized to use the Software.
++ *
++ * THIS SOFTWARE IS BEING DISTRIBUTED BY SYNOPSYS SOLELY ON AN "AS IS" BASIS
++ * AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
++ * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE
++ * ARE HEREBY DISCLAIMED. IN NO EVENT SHALL SYNOPSYS BE LIABLE FOR ANY DIRECT,
++ * INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES
++ * (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR
++ * SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER
++ * CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT
++ * LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY
++ * OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH
++ * DAMAGE.
++ * ========================================================================== */
++#ifndef DWC_DEVICE_ONLY
++#ifndef __DWC_HCD_IF_H__
++#define __DWC_HCD_IF_H__
++
++#include "dwc_otg_core_if.h"
++
++/** @file
++ * This file defines DWC_OTG HCD Core API.
++ */
++
++struct dwc_otg_hcd;
++typedef struct dwc_otg_hcd dwc_otg_hcd_t;
++
++struct dwc_otg_hcd_urb;
++typedef struct dwc_otg_hcd_urb dwc_otg_hcd_urb_t;
++
++/** @name HCD Function Driver Callbacks */
++/** @{ */
++
++/** This function is called whenever core switches to host mode. */
++typedef int (*dwc_otg_hcd_start_cb_t) (dwc_otg_hcd_t * hcd);
++
++/** This function is called when device has been disconnected */
++typedef int (*dwc_otg_hcd_disconnect_cb_t) (dwc_otg_hcd_t * hcd);
++
++/** Wrapper provides this function to HCD to core, so it can get hub information to which device is connected */
++typedef int (*dwc_otg_hcd_hub_info_from_urb_cb_t) (dwc_otg_hcd_t * hcd,
++ void *urb_handle,
++ uint32_t * hub_addr,
++ uint32_t * port_addr);
++/** Via this function HCD core gets device speed */
++typedef int (*dwc_otg_hcd_speed_from_urb_cb_t) (dwc_otg_hcd_t * hcd,
++ void *urb_handle);
++
++/** This function is called when urb is completed */
++typedef int (*dwc_otg_hcd_complete_urb_cb_t) (dwc_otg_hcd_t * hcd,
++ void *urb_handle,
++ dwc_otg_hcd_urb_t * dwc_otg_urb,
++ int32_t status);
++
++/** Via this function HCD core gets b_hnp_enable parameter */
++typedef int (*dwc_otg_hcd_get_b_hnp_enable) (dwc_otg_hcd_t * hcd);
++
++struct dwc_otg_hcd_function_ops {
++ dwc_otg_hcd_start_cb_t start;
++ dwc_otg_hcd_disconnect_cb_t disconnect;
++ dwc_otg_hcd_hub_info_from_urb_cb_t hub_info;
++ dwc_otg_hcd_speed_from_urb_cb_t speed;
++ dwc_otg_hcd_complete_urb_cb_t complete;
++ dwc_otg_hcd_get_b_hnp_enable get_b_hnp_enable;
++};
++/** @} */
++
++/** @name HCD Core API */
++/** @{ */
++/** This function allocates dwc_otg_hcd structure and returns pointer on it. */
++extern dwc_otg_hcd_t *dwc_otg_hcd_alloc_hcd(void);
++
++/** This function should be called to initiate HCD Core.
++ *
++ * @param hcd The HCD
++ * @param core_if The DWC_OTG Core
++ *
++ * Returns -DWC_E_NO_MEMORY if no enough memory.
++ * Returns 0 on success
++ */
++extern int dwc_otg_hcd_init(dwc_otg_hcd_t * hcd, dwc_otg_core_if_t * core_if);
++
++/** Frees HCD
++ *
++ * @param hcd The HCD
++ */
++extern void dwc_otg_hcd_remove(dwc_otg_hcd_t * hcd);
++
++/** This function should be called on every hardware interrupt.
++ *
++ * @param dwc_otg_hcd The HCD
++ *
++ * Returns non zero if interrupt is handled
++ * Return 0 if interrupt is not handled
++ */
++extern int32_t dwc_otg_hcd_handle_intr(dwc_otg_hcd_t * dwc_otg_hcd);
++
++/** This function is used to handle the fast interrupt
++ *
++ */
++extern void __attribute__ ((naked)) dwc_otg_hcd_handle_fiq(void);
++
++/**
++ * Returns private data set by
++ * dwc_otg_hcd_set_priv_data function.
++ *
++ * @param hcd The HCD
++ */
++extern void *dwc_otg_hcd_get_priv_data(dwc_otg_hcd_t * hcd);
++
++/**
++ * Set private data.
++ *
++ * @param hcd The HCD
++ * @param priv_data pointer to be stored in private data
++ */
++extern void dwc_otg_hcd_set_priv_data(dwc_otg_hcd_t * hcd, void *priv_data);
++
++/**
++ * This function initializes the HCD Core.
++ *
++ * @param hcd The HCD
++ * @param fops The Function Driver Operations data structure containing pointers to all callbacks.
++ *
++ * Returns -DWC_E_NO_DEVICE if Core is currently is in device mode.
++ * Returns 0 on success
++ */
++extern int dwc_otg_hcd_start(dwc_otg_hcd_t * hcd,
++ struct dwc_otg_hcd_function_ops *fops);
++
++/**
++ * Halts the DWC_otg host mode operations in a clean manner. USB transfers are
++ * stopped.
++ *
++ * @param hcd The HCD
++ */
++extern void dwc_otg_hcd_stop(dwc_otg_hcd_t * hcd);
++
++/**
++ * Handles hub class-specific requests.
++ *
++ * @param dwc_otg_hcd The HCD
++ * @param typeReq Request Type
++ * @param wValue wValue from control request
++ * @param wIndex wIndex from control request
++ * @param buf data buffer
++ * @param wLength data buffer length
++ *
++ * Returns -DWC_E_INVALID if invalid argument is passed
++ * Returns 0 on success
++ */
++extern int dwc_otg_hcd_hub_control(dwc_otg_hcd_t * dwc_otg_hcd,
++ uint16_t typeReq, uint16_t wValue,
++ uint16_t wIndex, uint8_t * buf,
++ uint16_t wLength);
++
++/**
++ * Returns otg port number.
++ *
++ * @param hcd The HCD
++ */
++extern uint32_t dwc_otg_hcd_otg_port(dwc_otg_hcd_t * hcd);
++
++/**
++ * Returns OTG version - either 1.3 or 2.0.
++ *
++ * @param core_if The core_if structure pointer
++ */
++extern uint16_t dwc_otg_get_otg_version(dwc_otg_core_if_t * core_if);
++
++/**
++ * Returns 1 if currently core is acting as B host, and 0 otherwise.
++ *
++ * @param hcd The HCD
++ */
++extern uint32_t dwc_otg_hcd_is_b_host(dwc_otg_hcd_t * hcd);
++
++/**
++ * Returns current frame number.
++ *
++ * @param hcd The HCD
++ */
++extern int dwc_otg_hcd_get_frame_number(dwc_otg_hcd_t * hcd);
++
++/**
++ * Dumps hcd state.
++ *
++ * @param hcd The HCD
++ */
++extern void dwc_otg_hcd_dump_state(dwc_otg_hcd_t * hcd);
++
++/**
++ * Dump the average frame remaining at SOF. This can be used to
++ * determine average interrupt latency. Frame remaining is also shown for
++ * start transfer and two additional sample points.
++ * Currently this function is not implemented.
++ *
++ * @param hcd The HCD
++ */
++extern void dwc_otg_hcd_dump_frrem(dwc_otg_hcd_t * hcd);
++
++/**
++ * Sends LPM transaction to the local device.
++ *
++ * @param hcd The HCD
++ * @param devaddr Device Address
++ * @param hird Host initiated resume duration
++ * @param bRemoteWake Value of bRemoteWake field in LPM transaction
++ *
++ * Returns negative value if sending LPM transaction was not succeeded.
++ * Returns 0 on success.
++ */
++extern int dwc_otg_hcd_send_lpm(dwc_otg_hcd_t * hcd, uint8_t devaddr,
++ uint8_t hird, uint8_t bRemoteWake);
++
++/* URB interface */
++
++/**
++ * Allocates memory for dwc_otg_hcd_urb structure.
++ * Allocated memory should be freed by call of DWC_FREE.
++ *
++ * @param hcd The HCD
++ * @param iso_desc_count Count of ISOC descriptors
++ * @param atomic_alloc Specefies whether to perform atomic allocation.
++ */
++extern dwc_otg_hcd_urb_t *dwc_otg_hcd_urb_alloc(dwc_otg_hcd_t * hcd,
++ int iso_desc_count,
++ int atomic_alloc);
++
++/**
++ * Set pipe information in URB.
++ *
++ * @param hcd_urb DWC_OTG URB
++ * @param devaddr Device Address
++ * @param ep_num Endpoint Number
++ * @param ep_type Endpoint Type
++ * @param ep_dir Endpoint Direction
++ * @param mps Max Packet Size
++ */
++extern void dwc_otg_hcd_urb_set_pipeinfo(dwc_otg_hcd_urb_t * hcd_urb,
++ uint8_t devaddr, uint8_t ep_num,
++ uint8_t ep_type, uint8_t ep_dir,
++ uint16_t mps);
++
++/* Transfer flags */
++#define URB_GIVEBACK_ASAP 0x1
++#define URB_SEND_ZERO_PACKET 0x2
++
++/**
++ * Sets dwc_otg_hcd_urb parameters.
++ *
++ * @param urb DWC_OTG URB allocated by dwc_otg_hcd_urb_alloc function.
++ * @param urb_handle Unique handle for request, this will be passed back
++ * to function driver in completion callback.
++ * @param buf The buffer for the data
++ * @param dma The DMA buffer for the data
++ * @param buflen Transfer length
++ * @param sp Buffer for setup data
++ * @param sp_dma DMA address of setup data buffer
++ * @param flags Transfer flags
++ * @param interval Polling interval for interrupt or isochronous transfers.
++ */
++extern void dwc_otg_hcd_urb_set_params(dwc_otg_hcd_urb_t * urb,
++ void *urb_handle, void *buf,
++ dwc_dma_t dma, uint32_t buflen, void *sp,
++ dwc_dma_t sp_dma, uint32_t flags,
++ uint16_t interval);
++
++/** Gets status from dwc_otg_hcd_urb
++ *
++ * @param dwc_otg_urb DWC_OTG URB
++ */
++extern uint32_t dwc_otg_hcd_urb_get_status(dwc_otg_hcd_urb_t * dwc_otg_urb);
++
++/** Gets actual length from dwc_otg_hcd_urb
++ *
++ * @param dwc_otg_urb DWC_OTG URB
++ */
++extern uint32_t dwc_otg_hcd_urb_get_actual_length(dwc_otg_hcd_urb_t *
++ dwc_otg_urb);
++
++/** Gets error count from dwc_otg_hcd_urb. Only for ISOC URBs
++ *
++ * @param dwc_otg_urb DWC_OTG URB
++ */
++extern uint32_t dwc_otg_hcd_urb_get_error_count(dwc_otg_hcd_urb_t *
++ dwc_otg_urb);
++
++/** Set ISOC descriptor offset and length
++ *
++ * @param dwc_otg_urb DWC_OTG URB
++ * @param desc_num ISOC descriptor number
++ * @param offset Offset from beginig of buffer.
++ * @param length Transaction length
++ */
++extern void dwc_otg_hcd_urb_set_iso_desc_params(dwc_otg_hcd_urb_t * dwc_otg_urb,
++ int desc_num, uint32_t offset,
++ uint32_t length);
++
++/** Get status of ISOC descriptor, specified by desc_num
++ *
++ * @param dwc_otg_urb DWC_OTG URB
++ * @param desc_num ISOC descriptor number
++ */
++extern uint32_t dwc_otg_hcd_urb_get_iso_desc_status(dwc_otg_hcd_urb_t *
++ dwc_otg_urb, int desc_num);
++
++/** Get actual length of ISOC descriptor, specified by desc_num
++ *
++ * @param dwc_otg_urb DWC_OTG URB
++ * @param desc_num ISOC descriptor number
++ */
++extern uint32_t dwc_otg_hcd_urb_get_iso_desc_actual_length(dwc_otg_hcd_urb_t *
++ dwc_otg_urb,
++ int desc_num);
++
++/** Queue URB. After transfer is completes, the complete callback will be called with the URB status
++ *
++ * @param dwc_otg_hcd The HCD
++ * @param dwc_otg_urb DWC_OTG URB
++ * @param ep_handle Out parameter for returning endpoint handle
++ * @param atomic_alloc Flag to do atomic allocation if needed
++ *
++ * Returns -DWC_E_NO_DEVICE if no device is connected.
++ * Returns -DWC_E_NO_MEMORY if there is no enough memory.
++ * Returns 0 on success.
++ */
++extern int dwc_otg_hcd_urb_enqueue(dwc_otg_hcd_t * dwc_otg_hcd,
++ dwc_otg_hcd_urb_t * dwc_otg_urb,
++ void **ep_handle, int atomic_alloc);
++
++/** De-queue the specified URB
++ *
++ * @param dwc_otg_hcd The HCD
++ * @param dwc_otg_urb DWC_OTG URB
++ */
++extern int dwc_otg_hcd_urb_dequeue(dwc_otg_hcd_t * dwc_otg_hcd,
++ dwc_otg_hcd_urb_t * dwc_otg_urb);
++
++/** Frees resources in the DWC_otg controller related to a given endpoint.
++ * Any URBs for the endpoint must already be dequeued.
++ *
++ * @param hcd The HCD
++ * @param ep_handle Endpoint handle, returned by dwc_otg_hcd_urb_enqueue function
++ * @param retry Number of retries if there are queued transfers.
++ *
++ * Returns -DWC_E_INVALID if invalid arguments are passed.
++ * Returns 0 on success
++ */
++extern int dwc_otg_hcd_endpoint_disable(dwc_otg_hcd_t * hcd, void *ep_handle,
++ int retry);
++
++/* Resets the data toggle in qh structure. This function can be called from
++ * usb_clear_halt routine.
++ *
++ * @param hcd The HCD
++ * @param ep_handle Endpoint handle, returned by dwc_otg_hcd_urb_enqueue function
++ *
++ * Returns -DWC_E_INVALID if invalid arguments are passed.
++ * Returns 0 on success
++ */
++extern int dwc_otg_hcd_endpoint_reset(dwc_otg_hcd_t * hcd, void *ep_handle);
++
++/** Returns 1 if status of specified port is changed and 0 otherwise.
++ *
++ * @param hcd The HCD
++ * @param port Port number
++ */
++extern int dwc_otg_hcd_is_status_changed(dwc_otg_hcd_t * hcd, int port);
++
++/** Call this function to check if bandwidth was allocated for specified endpoint.
++ * Only for ISOC and INTERRUPT endpoints.
++ *
++ * @param hcd The HCD
++ * @param ep_handle Endpoint handle
++ */
++extern int dwc_otg_hcd_is_bandwidth_allocated(dwc_otg_hcd_t * hcd,
++ void *ep_handle);
++
++/** Call this function to check if bandwidth was freed for specified endpoint.
++ *
++ * @param hcd The HCD
++ * @param ep_handle Endpoint handle
++ */
++extern int dwc_otg_hcd_is_bandwidth_freed(dwc_otg_hcd_t * hcd, void *ep_handle);
++
++/** Returns bandwidth allocated for specified endpoint in microseconds.
++ * Only for ISOC and INTERRUPT endpoints.
++ *
++ * @param hcd The HCD
++ * @param ep_handle Endpoint handle
++ */
++extern uint8_t dwc_otg_hcd_get_ep_bandwidth(dwc_otg_hcd_t * hcd,
++ void *ep_handle);
++
++/** @} */
++
++#endif /* __DWC_HCD_IF_H__ */
++#endif /* DWC_DEVICE_ONLY */
+diff -urN linux-3.10/drivers/usb/host/dwc_otg/dwc_otg_hcd_intr.c linux-rpi-3.10.y/drivers/usb/host/dwc_otg/dwc_otg_hcd_intr.c
+--- linux-3.10/drivers/usb/host/dwc_otg/dwc_otg_hcd_intr.c 1970-01-01 01:00:00.000000000 +0100
++++ linux-rpi-3.10.y/drivers/usb/host/dwc_otg/dwc_otg_hcd_intr.c 2013-07-06 15:25:50.000000000 +0100
+@@ -0,0 +1,2258 @@
++/* ==========================================================================
++ * $File: //dwh/usb_iip/dev/software/otg/linux/drivers/dwc_otg_hcd_intr.c $
++ * $Revision: #89 $
++ * $Date: 2011/10/20 $
++ * $Change: 1869487 $
++ *
++ * Synopsys HS OTG Linux Software Driver and documentation (hereinafter,
++ * "Software") is an Unsupported proprietary work of Synopsys, Inc. unless
++ * otherwise expressly agreed to in writing between Synopsys and you.
++ *
++ * The Software IS NOT an item of Licensed Software or Licensed Product under
++ * any End User Software License Agreement or Agreement for Licensed Product
++ * with Synopsys or any supplement thereto. You are permitted to use and
++ * redistribute this Software in source and binary forms, with or without
++ * modification, provided that redistributions of source code must retain this
++ * notice. You may not view, use, disclose, copy or distribute this file or
++ * any information contained herein except pursuant to this license grant from
++ * Synopsys. If you do not agree with this notice, including the disclaimer
++ * below, then you are not authorized to use the Software.
++ *
++ * THIS SOFTWARE IS BEING DISTRIBUTED BY SYNOPSYS SOLELY ON AN "AS IS" BASIS
++ * AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
++ * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE
++ * ARE HEREBY DISCLAIMED. IN NO EVENT SHALL SYNOPSYS BE LIABLE FOR ANY DIRECT,
++ * INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES
++ * (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR
++ * SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER
++ * CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT
++ * LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY
++ * OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH
++ * DAMAGE.
++ * ========================================================================== */
++#ifndef DWC_DEVICE_ONLY
++
++#include "dwc_otg_hcd.h"
++#include "dwc_otg_regs.h"
++#include "dwc_otg_mphi_fix.h"
++
++#include <linux/jiffies.h>
++#include <mach/hardware.h>
++
++
++extern bool microframe_schedule;
++
++/** @file
++ * This file contains the implementation of the HCD Interrupt handlers.
++ */
++
++/*
++ * Some globals to communicate between the FIQ and INTERRUPT
++ */
++
++void * dummy_send;
++mphi_regs_t c_mphi_regs;
++int fiq_done, int_done;
++int g_next_sched_frame, g_np_count, g_np_sent, g_work_expected;
++static int mphi_int_count = 0 ;
++
++extern bool fiq_fix_enable, nak_holdoff_enable;
++
++hcchar_data_t nak_hcchar;
++hctsiz_data_t nak_hctsiz;
++hcsplt_data_t nak_hcsplt;
++int nak_count;
++
++void __attribute__ ((naked)) dwc_otg_hcd_handle_fiq(void)
++{
++ gintsts_data_t gintsts;
++ hfnum_data_t hfnum;
++
++ /* entry takes care to store registers we will be treading on here */
++ asm __volatile__ (
++ "mov ip, sp ;"
++ /* stash FIQ and normal regs */
++ "stmdb sp!, {r0-r12, lr};"
++ /* !! THIS SETS THE FRAME, adjust to > sizeof locals */
++ "sub fp, ip, #256 ;"
++ );
++
++ fiq_done++;
++ gintsts.d32 = FIQ_READ_IO_ADDRESS(USB_BASE + 0x14) & FIQ_READ_IO_ADDRESS(USB_BASE + 0x18);
++ hfnum.d32 = FIQ_READ_IO_ADDRESS(USB_BASE + 0x408);
++
++ if(gintsts.d32)
++ {
++ if(gintsts.b.sofintr && g_np_count == g_np_sent && dwc_frame_num_gt(g_next_sched_frame, hfnum.b.frnum))
++ {
++ /*
++ * If np_count != np_sent that means we need to queue non-periodic (bulk) packets this packet
++ * g_next_sched_frame is the next frame we have periodic packets for
++ *
++ * if neither of these are required for this frame then just clear the interrupt
++ */
++ gintsts.d32 = 0;
++ gintsts.b.sofintr = 1;
++ FIQ_WRITE_IO_ADDRESS((USB_BASE + 0x14), gintsts.d32);
++
++ g_work_expected = 0;
++ }
++ else
++ {
++ g_work_expected = 1;
++ /* To enable the MPHI interrupt (INT 32)
++ */
++ FIQ_WRITE( c_mphi_regs.outdda, (int) dummy_send);
++ FIQ_WRITE( c_mphi_regs.outddb, (1 << 29));
++
++ mphi_int_count++;
++ /* Clear the USB global interrupt so we don't just sit in the FIQ */
++ FIQ_MODIFY_IO_ADDRESS((USB_BASE + 0x8),1,0);
++
++ }
++ }
++ mb();
++
++ /* exit back to normal mode restoring everything */
++ asm __volatile__ (
++ /* return FIQ regs back to pristine state
++ * and get normal regs back
++ */
++ "ldmia sp!, {r0-r12, lr};"
++
++ /* return */
++ "subs pc, lr, #4;"
++ );
++}
++
++/** This function handles interrupts for the HCD. */
++int32_t dwc_otg_hcd_handle_intr(dwc_otg_hcd_t * dwc_otg_hcd)
++{
++ int retval = 0;
++ static int last_time;
++
++ dwc_otg_core_if_t *core_if = dwc_otg_hcd->core_if;
++ gintsts_data_t gintsts;
++ hfnum_data_t hfnum;
++
++#ifdef DEBUG
++ dwc_otg_core_global_regs_t *global_regs = core_if->core_global_regs;
++
++#endif
++
++ /* Exit from ISR if core is hibernated */
++ if (core_if->hibernation_suspend == 1) {
++ goto exit_handler_routine;
++ }
++ DWC_SPINLOCK(dwc_otg_hcd->lock);
++ /* Check if HOST Mode */
++ if (dwc_otg_is_host_mode(core_if)) {
++ gintsts.d32 = dwc_otg_read_core_intr(core_if);
++ if (!gintsts.d32) {
++ goto exit_handler_routine;
++ }
++#ifdef DEBUG
++ /* Don't print debug message in the interrupt handler on SOF */
++#ifndef DEBUG_SOF
++ if (gintsts.d32 != DWC_SOF_INTR_MASK)
++#endif
++ DWC_DEBUGPL(DBG_HCDI, "\n");
++#endif
++
++#ifdef DEBUG
++#ifndef DEBUG_SOF
++ if (gintsts.d32 != DWC_SOF_INTR_MASK)
++#endif
++ DWC_DEBUGPL(DBG_HCDI,
++ "DWC OTG HCD Interrupt Detected gintsts&gintmsk=0x%08x core_if=%p\n",
++ gintsts.d32, core_if);
++#endif
++ hfnum.d32 = DWC_READ_REG32(&dwc_otg_hcd->core_if->host_if->host_global_regs->hfnum);
++ if (gintsts.b.sofintr && g_np_count == g_np_sent && dwc_frame_num_gt(g_next_sched_frame, hfnum.b.frnum))
++ {
++ /* Note, we should never get here if the FIQ is doing it's job properly*/
++ retval |= dwc_otg_hcd_handle_sof_intr(dwc_otg_hcd, g_work_expected);
++ }
++ else if (gintsts.b.sofintr) {
++ retval |= dwc_otg_hcd_handle_sof_intr(dwc_otg_hcd, g_work_expected);
++ }
++ if (gintsts.b.rxstsqlvl) {
++ retval |=
++ dwc_otg_hcd_handle_rx_status_q_level_intr
++ (dwc_otg_hcd);
++ }
++ if (gintsts.b.nptxfempty) {
++ retval |=
++ dwc_otg_hcd_handle_np_tx_fifo_empty_intr
++ (dwc_otg_hcd);
++ }
++ if (gintsts.b.i2cintr) {
++ /** @todo Implement i2cintr handler. */
++ }
++ if (gintsts.b.portintr) {
++ retval |= dwc_otg_hcd_handle_port_intr(dwc_otg_hcd);
++ }
++ if (gintsts.b.hcintr) {
++ retval |= dwc_otg_hcd_handle_hc_intr(dwc_otg_hcd);
++ }
++ if (gintsts.b.ptxfempty) {
++ retval |=
++ dwc_otg_hcd_handle_perio_tx_fifo_empty_intr
++ (dwc_otg_hcd);
++ }
++#ifdef DEBUG
++#ifndef DEBUG_SOF
++ if (gintsts.d32 != DWC_SOF_INTR_MASK)
++#endif
++ {
++ DWC_DEBUGPL(DBG_HCDI,
++ "DWC OTG HCD Finished Servicing Interrupts\n");
++ DWC_DEBUGPL(DBG_HCDV, "DWC OTG HCD gintsts=0x%08x\n",
++ DWC_READ_REG32(&global_regs->gintsts));
++ DWC_DEBUGPL(DBG_HCDV, "DWC OTG HCD gintmsk=0x%08x\n",
++ DWC_READ_REG32(&global_regs->gintmsk));
++ }
++#endif
++
++#ifdef DEBUG
++#ifndef DEBUG_SOF
++ if (gintsts.d32 != DWC_SOF_INTR_MASK)
++#endif
++ DWC_DEBUGPL(DBG_HCDI, "\n");
++#endif
++
++ }
++
++exit_handler_routine:
++
++ if (fiq_fix_enable)
++ {
++ /* Clear the MPHI interrupt */
++ DWC_WRITE_REG32(c_mphi_regs.intstat, (1<<16));
++ if (mphi_int_count >= 60)
++ {
++ DWC_WRITE_REG32(c_mphi_regs.ctrl, ((1<<31) + (1<<16)));
++ while(!(DWC_READ_REG32(c_mphi_regs.ctrl) & (1 << 17)))
++ ;
++ DWC_WRITE_REG32(c_mphi_regs.ctrl, (1<<31));
++ mphi_int_count = 0;
++ }
++ int_done++;
++ if((jiffies / HZ) > last_time)
++ {
++ /* Once a second output the fiq and irq numbers, useful for debug */
++ last_time = jiffies / HZ;
++ DWC_DEBUGPL(DBG_USER, "int_done = %d fiq_done = %d\n", int_done, fiq_done);
++ }
++
++ /* Re-Enable FIQ interrupt from USB peripheral */
++ DWC_MODIFY_REG32((uint32_t *)IO_ADDRESS(USB_BASE + 0x8), 0 , 1);
++ }
++
++ DWC_SPINUNLOCK(dwc_otg_hcd->lock);
++ return retval;
++}
++
++#ifdef DWC_TRACK_MISSED_SOFS
++
++#warning Compiling code to track missed SOFs
++#define FRAME_NUM_ARRAY_SIZE 1000
++/**
++ * This function is for debug only.
++ */
++static inline void track_missed_sofs(uint16_t curr_frame_number)
++{
++ static uint16_t frame_num_array[FRAME_NUM_ARRAY_SIZE];
++ static uint16_t last_frame_num_array[FRAME_NUM_ARRAY_SIZE];
++ static int frame_num_idx = 0;
++ static uint16_t last_frame_num = DWC_HFNUM_MAX_FRNUM;
++ static int dumped_frame_num_array = 0;
++
++ if (frame_num_idx < FRAME_NUM_ARRAY_SIZE) {
++ if (((last_frame_num + 1) & DWC_HFNUM_MAX_FRNUM) !=
++ curr_frame_number) {
++ frame_num_array[frame_num_idx] = curr_frame_number;
++ last_frame_num_array[frame_num_idx++] = last_frame_num;
++ }
++ } else if (!dumped_frame_num_array) {
++ int i;
++ DWC_PRINTF("Frame Last Frame\n");
++ DWC_PRINTF("----- ----------\n");
++ for (i = 0; i < FRAME_NUM_ARRAY_SIZE; i++) {
++ DWC_PRINTF("0x%04x 0x%04x\n",
++ frame_num_array[i], last_frame_num_array[i]);
++ }
++ dumped_frame_num_array = 1;
++ }
++ last_frame_num = curr_frame_number;
++}
++#endif
++
++/**
++ * Handles the start-of-frame interrupt in host mode. Non-periodic
++ * transactions may be queued to the DWC_otg controller for the current
++ * (micro)frame. Periodic transactions may be queued to the controller for the
++ * next (micro)frame.
++ */
++int32_t dwc_otg_hcd_handle_sof_intr(dwc_otg_hcd_t * hcd, int32_t work_expected)
++{
++ hfnum_data_t hfnum;
++ dwc_list_link_t *qh_entry;
++ dwc_otg_qh_t *qh;
++ dwc_otg_transaction_type_e tr_type;
++ gintsts_data_t gintsts = {.d32 = 0 };
++ int did_something = 0;
++ int32_t next_sched_frame = -1;
++
++ hfnum.d32 =
++ DWC_READ_REG32(&hcd->core_if->host_if->host_global_regs->hfnum);
++
++#ifdef DEBUG_SOF
++ DWC_DEBUGPL(DBG_HCD, "--Start of Frame Interrupt--\n");
++#endif
++ hcd->frame_number = hfnum.b.frnum;
++
++#ifdef DEBUG
++ hcd->frrem_accum += hfnum.b.frrem;
++ hcd->frrem_samples++;
++#endif
++
++#ifdef DWC_TRACK_MISSED_SOFS
++ track_missed_sofs(hcd->frame_number);
++#endif
++ /* Determine whether any periodic QHs should be executed. */
++ qh_entry = DWC_LIST_FIRST(&hcd->periodic_sched_inactive);
++ while (qh_entry != &hcd->periodic_sched_inactive) {
++ qh = DWC_LIST_ENTRY(qh_entry, dwc_otg_qh_t, qh_list_entry);
++ qh_entry = qh_entry->next;
++ if (dwc_frame_num_le(qh->sched_frame, hcd->frame_number)) {
++ /*
++ * Move QH to the ready list to be executed next
++ * (micro)frame.
++ */
++ DWC_LIST_MOVE_HEAD(&hcd->periodic_sched_ready,
++ &qh->qh_list_entry);
++
++ did_something = 1;
++ }
++ else
++ {
++ if(next_sched_frame < 0 || dwc_frame_num_le(qh->sched_frame, next_sched_frame))
++ {
++ next_sched_frame = qh->sched_frame;
++ }
++ }
++ }
++
++ g_next_sched_frame = next_sched_frame;
++
++ tr_type = dwc_otg_hcd_select_transactions(hcd);
++ if (tr_type != DWC_OTG_TRANSACTION_NONE) {
++ dwc_otg_hcd_queue_transactions(hcd, tr_type);
++ did_something = 1;
++ }
++ if(work_expected && !did_something)
++ DWC_DEBUGPL(DBG_USER, "Nothing to do !! frame = %x, g_next_sched_frame = %x\n", (int) hfnum.b.frnum, g_next_sched_frame);
++ if(!work_expected && did_something)
++ DWC_DEBUGPL(DBG_USER, "Unexpected work done !! frame = %x, g_next_sched_frame = %x\n", (int) hfnum.b.frnum, g_next_sched_frame);
++
++
++ /* Clear interrupt */
++ gintsts.b.sofintr = 1;
++ DWC_WRITE_REG32(&hcd->core_if->core_global_regs->gintsts, gintsts.d32);
++
++ return 1;
++}
++
++/** Handles the Rx Status Queue Level Interrupt, which indicates that there is at
++ * least one packet in the Rx FIFO. The packets are moved from the FIFO to
++ * memory if the DWC_otg controller is operating in Slave mode. */
++int32_t dwc_otg_hcd_handle_rx_status_q_level_intr(dwc_otg_hcd_t * dwc_otg_hcd)
++{
++ host_grxsts_data_t grxsts;
++ dwc_hc_t *hc = NULL;
++
++ DWC_DEBUGPL(DBG_HCD, "--RxStsQ Level Interrupt--\n");
++
++ grxsts.d32 =
++ DWC_READ_REG32(&dwc_otg_hcd->core_if->core_global_regs->grxstsp);
++
++ hc = dwc_otg_hcd->hc_ptr_array[grxsts.b.chnum];
++ if (!hc) {
++ DWC_ERROR("Unable to get corresponding channel\n");
++ return 0;
++ }
++
++ /* Packet Status */
++ DWC_DEBUGPL(DBG_HCDV, " Ch num = %d\n", grxsts.b.chnum);
++ DWC_DEBUGPL(DBG_HCDV, " Count = %d\n", grxsts.b.bcnt);
++ DWC_DEBUGPL(DBG_HCDV, " DPID = %d, hc.dpid = %d\n", grxsts.b.dpid,
++ hc->data_pid_start);
++ DWC_DEBUGPL(DBG_HCDV, " PStatus = %d\n", grxsts.b.pktsts);
++
++ switch (grxsts.b.pktsts) {
++ case DWC_GRXSTS_PKTSTS_IN:
++ /* Read the data into the host buffer. */
++ if (grxsts.b.bcnt > 0) {
++ dwc_otg_read_packet(dwc_otg_hcd->core_if,
++ hc->xfer_buff, grxsts.b.bcnt);
++
++ /* Update the HC fields for the next packet received. */
++ hc->xfer_count += grxsts.b.bcnt;
++ hc->xfer_buff += grxsts.b.bcnt;
++ }
++
++ case DWC_GRXSTS_PKTSTS_IN_XFER_COMP:
++ case DWC_GRXSTS_PKTSTS_DATA_TOGGLE_ERR:
++ case DWC_GRXSTS_PKTSTS_CH_HALTED:
++ /* Handled in interrupt, just ignore data */
++ break;
++ default:
++ DWC_ERROR("RX_STS_Q Interrupt: Unknown status %d\n",
++ grxsts.b.pktsts);
++ break;
++ }
++
++ return 1;
++}
++
++/** This interrupt occurs when the non-periodic Tx FIFO is half-empty. More
++ * data packets may be written to the FIFO for OUT transfers. More requests
++ * may be written to the non-periodic request queue for IN transfers. This
++ * interrupt is enabled only in Slave mode. */
++int32_t dwc_otg_hcd_handle_np_tx_fifo_empty_intr(dwc_otg_hcd_t * dwc_otg_hcd)
++{
++ DWC_DEBUGPL(DBG_HCD, "--Non-Periodic TxFIFO Empty Interrupt--\n");
++ dwc_otg_hcd_queue_transactions(dwc_otg_hcd,
++ DWC_OTG_TRANSACTION_NON_PERIODIC);
++ return 1;
++}
++
++/** This interrupt occurs when the periodic Tx FIFO is half-empty. More data
++ * packets may be written to the FIFO for OUT transfers. More requests may be
++ * written to the periodic request queue for IN transfers. This interrupt is
++ * enabled only in Slave mode. */
++int32_t dwc_otg_hcd_handle_perio_tx_fifo_empty_intr(dwc_otg_hcd_t * dwc_otg_hcd)
++{
++ DWC_DEBUGPL(DBG_HCD, "--Periodic TxFIFO Empty Interrupt--\n");
++ dwc_otg_hcd_queue_transactions(dwc_otg_hcd,
++ DWC_OTG_TRANSACTION_PERIODIC);
++ return 1;
++}
++
++/** There are multiple conditions that can cause a port interrupt. This function
++ * determines which interrupt conditions have occurred and handles them
++ * appropriately. */
++int32_t dwc_otg_hcd_handle_port_intr(dwc_otg_hcd_t * dwc_otg_hcd)
++{
++ int retval = 0;
++ hprt0_data_t hprt0;
++ hprt0_data_t hprt0_modify;
++
++ hprt0.d32 = DWC_READ_REG32(dwc_otg_hcd->core_if->host_if->hprt0);
++ hprt0_modify.d32 = DWC_READ_REG32(dwc_otg_hcd->core_if->host_if->hprt0);
++
++ /* Clear appropriate bits in HPRT0 to clear the interrupt bit in
++ * GINTSTS */
++
++ hprt0_modify.b.prtena = 0;
++ hprt0_modify.b.prtconndet = 0;
++ hprt0_modify.b.prtenchng = 0;
++ hprt0_modify.b.prtovrcurrchng = 0;
++
++ /* Port Connect Detected
++ * Set flag and clear if detected */
++ if (dwc_otg_hcd->core_if->hibernation_suspend == 1) {
++ // Dont modify port status if we are in hibernation state
++ hprt0_modify.b.prtconndet = 1;
++ hprt0_modify.b.prtenchng = 1;
++ DWC_WRITE_REG32(dwc_otg_hcd->core_if->host_if->hprt0, hprt0_modify.d32);
++ hprt0.d32 = DWC_READ_REG32(dwc_otg_hcd->core_if->host_if->hprt0);
++ return retval;
++ }
++
++ if (hprt0.b.prtconndet) {
++ /** @todo - check if steps performed in 'else' block should be perfromed regardles adp */
++ if (dwc_otg_hcd->core_if->adp_enable &&
++ dwc_otg_hcd->core_if->adp.vbuson_timer_started == 1) {
++ DWC_PRINTF("PORT CONNECT DETECTED ----------------\n");
++ DWC_TIMER_CANCEL(dwc_otg_hcd->core_if->adp.vbuson_timer);
++ dwc_otg_hcd->core_if->adp.vbuson_timer_started = 0;
++ /* TODO - check if this is required, as
++ * host initialization was already performed
++ * after initial ADP probing
++ */
++ /*dwc_otg_hcd->core_if->adp.vbuson_timer_started = 0;
++ dwc_otg_core_init(dwc_otg_hcd->core_if);
++ dwc_otg_enable_global_interrupts(dwc_otg_hcd->core_if);
++ cil_hcd_start(dwc_otg_hcd->core_if);*/
++ } else {
++
++ DWC_DEBUGPL(DBG_HCD, "--Port Interrupt HPRT0=0x%08x "
++ "Port Connect Detected--\n", hprt0.d32);
++ dwc_otg_hcd->flags.b.port_connect_status_change = 1;
++ dwc_otg_hcd->flags.b.port_connect_status = 1;
++ hprt0_modify.b.prtconndet = 1;
++
++ /* B-Device has connected, Delete the connection timer. */
++ DWC_TIMER_CANCEL(dwc_otg_hcd->conn_timer);
++ }
++ /* The Hub driver asserts a reset when it sees port connect
++ * status change flag */
++ retval |= 1;
++ }
++
++ /* Port Enable Changed
++ * Clear if detected - Set internal flag if disabled */
++ if (hprt0.b.prtenchng) {
++ DWC_DEBUGPL(DBG_HCD, " --Port Interrupt HPRT0=0x%08x "
++ "Port Enable Changed--\n", hprt0.d32);
++ hprt0_modify.b.prtenchng = 1;
++ if (hprt0.b.prtena == 1) {
++ hfir_data_t hfir;
++ int do_reset = 0;
++ dwc_otg_core_params_t *params =
++ dwc_otg_hcd->core_if->core_params;
++ dwc_otg_core_global_regs_t *global_regs =
++ dwc_otg_hcd->core_if->core_global_regs;
++ dwc_otg_host_if_t *host_if =
++ dwc_otg_hcd->core_if->host_if;
++
++ /* Every time when port enables calculate
++ * HFIR.FrInterval
++ */
++ hfir.d32 = DWC_READ_REG32(&host_if->host_global_regs->hfir);
++ hfir.b.frint = calc_frame_interval(dwc_otg_hcd->core_if);
++ DWC_WRITE_REG32(&host_if->host_global_regs->hfir, hfir.d32);
++
++ /* Check if we need to adjust the PHY clock speed for
++ * low power and adjust it */
++ if (params->host_support_fs_ls_low_power) {
++ gusbcfg_data_t usbcfg;
++
++ usbcfg.d32 =
++ DWC_READ_REG32(&global_regs->gusbcfg);
++
++ if (hprt0.b.prtspd == DWC_HPRT0_PRTSPD_LOW_SPEED
++ || hprt0.b.prtspd ==
++ DWC_HPRT0_PRTSPD_FULL_SPEED) {
++ /*
++ * Low power
++ */
++ hcfg_data_t hcfg;
++ if (usbcfg.b.phylpwrclksel == 0) {
++ /* Set PHY low power clock select for FS/LS devices */
++ usbcfg.b.phylpwrclksel = 1;
++ DWC_WRITE_REG32
++ (&global_regs->gusbcfg,
++ usbcfg.d32);
++ do_reset = 1;
++ }
++
++ hcfg.d32 =
++ DWC_READ_REG32
++ (&host_if->host_global_regs->hcfg);
++
++ if (hprt0.b.prtspd ==
++ DWC_HPRT0_PRTSPD_LOW_SPEED
++ && params->host_ls_low_power_phy_clk
++ ==
++ DWC_HOST_LS_LOW_POWER_PHY_CLK_PARAM_6MHZ)
++ {
++ /* 6 MHZ */
++ DWC_DEBUGPL(DBG_CIL,
++ "FS_PHY programming HCFG to 6 MHz (Low Power)\n");
++ if (hcfg.b.fslspclksel !=
++ DWC_HCFG_6_MHZ) {
++ hcfg.b.fslspclksel =
++ DWC_HCFG_6_MHZ;
++ DWC_WRITE_REG32
++ (&host_if->host_global_regs->hcfg,
++ hcfg.d32);
++ do_reset = 1;
++ }
++ } else {
++ /* 48 MHZ */
++ DWC_DEBUGPL(DBG_CIL,
++ "FS_PHY programming HCFG to 48 MHz ()\n");
++ if (hcfg.b.fslspclksel !=
++ DWC_HCFG_48_MHZ) {
++ hcfg.b.fslspclksel =
++ DWC_HCFG_48_MHZ;
++ DWC_WRITE_REG32
++ (&host_if->host_global_regs->hcfg,
++ hcfg.d32);
++ do_reset = 1;
++ }
++ }
++ } else {
++ /*
++ * Not low power
++ */
++ if (usbcfg.b.phylpwrclksel == 1) {
++ usbcfg.b.phylpwrclksel = 0;
++ DWC_WRITE_REG32
++ (&global_regs->gusbcfg,
++ usbcfg.d32);
++ do_reset = 1;
++ }
++ }
++
++ if (do_reset) {
++ DWC_TASK_SCHEDULE(dwc_otg_hcd->reset_tasklet);
++ }
++ }
++
++ if (!do_reset) {
++ /* Port has been enabled set the reset change flag */
++ dwc_otg_hcd->flags.b.port_reset_change = 1;
++ }
++ } else {
++ dwc_otg_hcd->flags.b.port_enable_change = 1;
++ }
++ retval |= 1;
++ }
++
++ /** Overcurrent Change Interrupt */
++ if (hprt0.b.prtovrcurrchng) {
++ DWC_DEBUGPL(DBG_HCD, " --Port Interrupt HPRT0=0x%08x "
++ "Port Overcurrent Changed--\n", hprt0.d32);
++ dwc_otg_hcd->flags.b.port_over_current_change = 1;
++ hprt0_modify.b.prtovrcurrchng = 1;
++ retval |= 1;
++ }
++
++ /* Clear Port Interrupts */
++ DWC_WRITE_REG32(dwc_otg_hcd->core_if->host_if->hprt0, hprt0_modify.d32);
++
++ return retval;
++}
++
++/** This interrupt indicates that one or more host channels has a pending
++ * interrupt. There are multiple conditions that can cause each host channel
++ * interrupt. This function determines which conditions have occurred for each
++ * host channel interrupt and handles them appropriately. */
++int32_t dwc_otg_hcd_handle_hc_intr(dwc_otg_hcd_t * dwc_otg_hcd)
++{
++ int i;
++ int retval = 0;
++ haint_data_t haint;
++
++ /* Clear appropriate bits in HCINTn to clear the interrupt bit in
++ * GINTSTS */
++
++ haint.d32 = dwc_otg_read_host_all_channels_intr(dwc_otg_hcd->core_if);
++
++ for (i = 0; i < dwc_otg_hcd->core_if->core_params->host_channels; i++) {
++ if (haint.b2.chint & (1 << i)) {
++ retval |= dwc_otg_hcd_handle_hc_n_intr(dwc_otg_hcd, i);
++ }
++ }
++
++ return retval;
++}
++
++/**
++ * Gets the actual length of a transfer after the transfer halts. _halt_status
++ * holds the reason for the halt.
++ *
++ * For IN transfers where halt_status is DWC_OTG_HC_XFER_COMPLETE,
++ * *short_read is set to 1 upon return if less than the requested
++ * number of bytes were transferred. Otherwise, *short_read is set to 0 upon
++ * return. short_read may also be NULL on entry, in which case it remains
++ * unchanged.
++ */
++static uint32_t get_actual_xfer_length(dwc_hc_t * hc,
++ dwc_otg_hc_regs_t * hc_regs,
++ dwc_otg_qtd_t * qtd,
++ dwc_otg_halt_status_e halt_status,
++ int *short_read)
++{
++ hctsiz_data_t hctsiz;
++ uint32_t length;
++
++ if (short_read != NULL) {
++ *short_read = 0;
++ }
++ hctsiz.d32 = DWC_READ_REG32(&hc_regs->hctsiz);
++
++ if (halt_status == DWC_OTG_HC_XFER_COMPLETE) {
++ if (hc->ep_is_in) {
++ length = hc->xfer_len - hctsiz.b.xfersize;
++ if (short_read != NULL) {
++ *short_read = (hctsiz.b.xfersize != 0);
++ }
++ } else if (hc->qh->do_split) {
++ length = qtd->ssplit_out_xfer_count;
++ } else {
++ length = hc->xfer_len;
++ }
++ } else {
++ /*
++ * Must use the hctsiz.pktcnt field to determine how much data
++ * has been transferred. This field reflects the number of
++ * packets that have been transferred via the USB. This is
++ * always an integral number of packets if the transfer was
++ * halted before its normal completion. (Can't use the
++ * hctsiz.xfersize field because that reflects the number of
++ * bytes transferred via the AHB, not the USB).
++ */
++ length =
++ (hc->start_pkt_count - hctsiz.b.pktcnt) * hc->max_packet;
++ }
++
++ return length;
++}
++
++/**
++ * Updates the state of the URB after a Transfer Complete interrupt on the
++ * host channel. Updates the actual_length field of the URB based on the
++ * number of bytes transferred via the host channel. Sets the URB status
++ * if the data transfer is finished.
++ *
++ * @return 1 if the data transfer specified by the URB is completely finished,
++ * 0 otherwise.
++ */
++static int update_urb_state_xfer_comp(dwc_hc_t * hc,
++ dwc_otg_hc_regs_t * hc_regs,
++ dwc_otg_hcd_urb_t * urb,
++ dwc_otg_qtd_t * qtd)
++{
++ int xfer_done = 0;
++ int short_read = 0;
++
++ int xfer_length;
++
++ xfer_length = get_actual_xfer_length(hc, hc_regs, qtd,
++ DWC_OTG_HC_XFER_COMPLETE,
++ &short_read);
++
++
++ /* non DWORD-aligned buffer case handling. */
++ if (hc->align_buff && xfer_length && hc->ep_is_in) {
++ dwc_memcpy(urb->buf + urb->actual_length, hc->qh->dw_align_buf,
++ xfer_length);
++ }
++
++ urb->actual_length += xfer_length;
++
++ if (xfer_length && (hc->ep_type == DWC_OTG_EP_TYPE_BULK) &&
++ (urb->flags & URB_SEND_ZERO_PACKET)
++ && (urb->actual_length == urb->length)
++ && !(urb->length % hc->max_packet)) {
++ xfer_done = 0;
++ } else if (short_read || urb->actual_length >= urb->length) {
++ xfer_done = 1;
++ urb->status = 0;
++ }
++
++#ifdef DEBUG
++ {
++ hctsiz_data_t hctsiz;
++ hctsiz.d32 = DWC_READ_REG32(&hc_regs->hctsiz);
++ DWC_DEBUGPL(DBG_HCDV, "DWC_otg: %s: %s, channel %d\n",
++ __func__, (hc->ep_is_in ? "IN" : "OUT"),
++ hc->hc_num);
++ DWC_DEBUGPL(DBG_HCDV, " hc->xfer_len %d\n", hc->xfer_len);
++ DWC_DEBUGPL(DBG_HCDV, " hctsiz.xfersize %d\n",
++ hctsiz.b.xfersize);
++ DWC_DEBUGPL(DBG_HCDV, " urb->transfer_buffer_length %d\n",
++ urb->length);
++ DWC_DEBUGPL(DBG_HCDV, " urb->actual_length %d\n",
++ urb->actual_length);
++ DWC_DEBUGPL(DBG_HCDV, " short_read %d, xfer_done %d\n",
++ short_read, xfer_done);
++ }
++#endif
++
++ return xfer_done;
++}
++
++/*
++ * Save the starting data toggle for the next transfer. The data toggle is
++ * saved in the QH for non-control transfers and it's saved in the QTD for
++ * control transfers.
++ */
++void dwc_otg_hcd_save_data_toggle(dwc_hc_t * hc,
++ dwc_otg_hc_regs_t * hc_regs, dwc_otg_qtd_t * qtd)
++{
++ hctsiz_data_t hctsiz;
++ hctsiz.d32 = DWC_READ_REG32(&hc_regs->hctsiz);
++
++ if (hc->ep_type != DWC_OTG_EP_TYPE_CONTROL) {
++ dwc_otg_qh_t *qh = hc->qh;
++ if (hctsiz.b.pid == DWC_HCTSIZ_DATA0) {
++ qh->data_toggle = DWC_OTG_HC_PID_DATA0;
++ } else {
++ qh->data_toggle = DWC_OTG_HC_PID_DATA1;
++ }
++ } else {
++ if (hctsiz.b.pid == DWC_HCTSIZ_DATA0) {
++ qtd->data_toggle = DWC_OTG_HC_PID_DATA0;
++ } else {
++ qtd->data_toggle = DWC_OTG_HC_PID_DATA1;
++ }
++ }
++}
++
++/**
++ * Updates the state of an Isochronous URB when the transfer is stopped for
++ * any reason. The fields of the current entry in the frame descriptor array
++ * are set based on the transfer state and the input _halt_status. Completes
++ * the Isochronous URB if all the URB frames have been completed.
++ *
++ * @return DWC_OTG_HC_XFER_COMPLETE if there are more frames remaining to be
++ * transferred in the URB. Otherwise return DWC_OTG_HC_XFER_URB_COMPLETE.
++ */
++static dwc_otg_halt_status_e
++update_isoc_urb_state(dwc_otg_hcd_t * hcd,
++ dwc_hc_t * hc,
++ dwc_otg_hc_regs_t * hc_regs,
++ dwc_otg_qtd_t * qtd, dwc_otg_halt_status_e halt_status)
++{
++ dwc_otg_hcd_urb_t *urb = qtd->urb;
++ dwc_otg_halt_status_e ret_val = halt_status;
++ struct dwc_otg_hcd_iso_packet_desc *frame_desc;
++
++ frame_desc = &urb->iso_descs[qtd->isoc_frame_index];
++ switch (halt_status) {
++ case DWC_OTG_HC_XFER_COMPLETE:
++ frame_desc->status = 0;
++ frame_desc->actual_length =
++ get_actual_xfer_length(hc, hc_regs, qtd, halt_status, NULL);
++
++ /* non DWORD-aligned buffer case handling. */
++ if (hc->align_buff && frame_desc->actual_length && hc->ep_is_in) {
++ dwc_memcpy(urb->buf + frame_desc->offset + qtd->isoc_split_offset,
++ hc->qh->dw_align_buf, frame_desc->actual_length);
++ }
++
++ break;
++ case DWC_OTG_HC_XFER_FRAME_OVERRUN:
++ urb->error_count++;
++ if (hc->ep_is_in) {
++ frame_desc->status = -DWC_E_NO_STREAM_RES;
++ } else {
++ frame_desc->status = -DWC_E_COMMUNICATION;
++ }
++ frame_desc->actual_length = 0;
++ break;
++ case DWC_OTG_HC_XFER_BABBLE_ERR:
++ urb->error_count++;
++ frame_desc->status = -DWC_E_OVERFLOW;
++ /* Don't need to update actual_length in this case. */
++ break;
++ case DWC_OTG_HC_XFER_XACT_ERR:
++ urb->error_count++;
++ frame_desc->status = -DWC_E_PROTOCOL;
++ frame_desc->actual_length =
++ get_actual_xfer_length(hc, hc_regs, qtd, halt_status, NULL);
++
++ /* non DWORD-aligned buffer case handling. */
++ if (hc->align_buff && frame_desc->actual_length && hc->ep_is_in) {
++ dwc_memcpy(urb->buf + frame_desc->offset + qtd->isoc_split_offset,
++ hc->qh->dw_align_buf, frame_desc->actual_length);
++ }
++ /* Skip whole frame */
++ if (hc->qh->do_split && (hc->ep_type == DWC_OTG_EP_TYPE_ISOC) &&
++ hc->ep_is_in && hcd->core_if->dma_enable) {
++ qtd->complete_split = 0;
++ qtd->isoc_split_offset = 0;
++ }
++
++ break;
++ default:
++ DWC_ASSERT(1, "Unhandled _halt_status (%d)\n", halt_status);
++ break;
++ }
++ if (++qtd->isoc_frame_index == urb->packet_count) {
++ /*
++ * urb->status is not used for isoc transfers.
++ * The individual frame_desc statuses are used instead.
++ */
++ hcd->fops->complete(hcd, urb->priv, urb, 0);
++ ret_val = DWC_OTG_HC_XFER_URB_COMPLETE;
++ } else {
++ ret_val = DWC_OTG_HC_XFER_COMPLETE;
++ }
++ return ret_val;
++}
++
++/**
++ * Frees the first QTD in the QH's list if free_qtd is 1. For non-periodic
++ * QHs, removes the QH from the active non-periodic schedule. If any QTDs are
++ * still linked to the QH, the QH is added to the end of the inactive
++ * non-periodic schedule. For periodic QHs, removes the QH from the periodic
++ * schedule if no more QTDs are linked to the QH.
++ */
++static void deactivate_qh(dwc_otg_hcd_t * hcd, dwc_otg_qh_t * qh, int free_qtd)
++{
++ int continue_split = 0;
++ dwc_otg_qtd_t *qtd;
++
++ DWC_DEBUGPL(DBG_HCDV, " %s(%p,%p,%d)\n", __func__, hcd, qh, free_qtd);
++
++ qtd = DWC_CIRCLEQ_FIRST(&qh->qtd_list);
++
++ if (qtd->complete_split) {
++ continue_split = 1;
++ } else if (qtd->isoc_split_pos == DWC_HCSPLIT_XACTPOS_MID ||
++ qtd->isoc_split_pos == DWC_HCSPLIT_XACTPOS_END) {
++ continue_split = 1;
++ }
++
++ if (free_qtd) {
++ dwc_otg_hcd_qtd_remove_and_free(hcd, qtd, qh);
++ continue_split = 0;
++ }
++
++ qh->channel = NULL;
++ dwc_otg_hcd_qh_deactivate(hcd, qh, continue_split);
++}
++
++/**
++ * Releases a host channel for use by other transfers. Attempts to select and
++ * queue more transactions since at least one host channel is available.
++ *
++ * @param hcd The HCD state structure.
++ * @param hc The host channel to release.
++ * @param qtd The QTD associated with the host channel. This QTD may be freed
++ * if the transfer is complete or an error has occurred.
++ * @param halt_status Reason the channel is being released. This status
++ * determines the actions taken by this function.
++ */
++static void release_channel(dwc_otg_hcd_t * hcd,
++ dwc_hc_t * hc,
++ dwc_otg_qtd_t * qtd,
++ dwc_otg_halt_status_e halt_status)
++{
++ dwc_otg_transaction_type_e tr_type;
++ int free_qtd;
++ dwc_irqflags_t flags;
++ dwc_spinlock_t *channel_lock = hcd->channel_lock;
++
++ DWC_DEBUGPL(DBG_HCDV, " %s: channel %d, halt_status %d, xfer_len %d\n",
++ __func__, hc->hc_num, halt_status, hc->xfer_len);
++
++ switch (halt_status) {
++ case DWC_OTG_HC_XFER_URB_COMPLETE:
++ free_qtd = 1;
++ break;
++ case DWC_OTG_HC_XFER_AHB_ERR:
++ case DWC_OTG_HC_XFER_STALL:
++ case DWC_OTG_HC_XFER_BABBLE_ERR:
++ free_qtd = 1;
++ break;
++ case DWC_OTG_HC_XFER_XACT_ERR:
++ if (qtd->error_count >= 3) {
++ DWC_DEBUGPL(DBG_HCDV,
++ " Complete URB with transaction error\n");
++ free_qtd = 1;
++ qtd->urb->status = -DWC_E_PROTOCOL;
++ hcd->fops->complete(hcd, qtd->urb->priv,
++ qtd->urb, -DWC_E_PROTOCOL);
++ } else {
++ free_qtd = 0;
++ }
++ break;
++ case DWC_OTG_HC_XFER_URB_DEQUEUE:
++ /*
++ * The QTD has already been removed and the QH has been
++ * deactivated. Don't want to do anything except release the
++ * host channel and try to queue more transfers.
++ */
++ goto cleanup;
++ case DWC_OTG_HC_XFER_NO_HALT_STATUS:
++ free_qtd = 0;
++ break;
++ case DWC_OTG_HC_XFER_PERIODIC_INCOMPLETE:
++ DWC_DEBUGPL(DBG_HCDV,
++ " Complete URB with I/O error\n");
++ free_qtd = 1;
++ qtd->urb->status = -DWC_E_IO;
++ hcd->fops->complete(hcd, qtd->urb->priv,
++ qtd->urb, -DWC_E_IO);
++ break;
++ default:
++ free_qtd = 0;
++ break;
++ }
++
++ deactivate_qh(hcd, hc->qh, free_qtd);
++
++cleanup:
++ /*
++ * Release the host channel for use by other transfers. The cleanup
++ * function clears the channel interrupt enables and conditions, so
++ * there's no need to clear the Channel Halted interrupt separately.
++ */
++ dwc_otg_hc_cleanup(hcd->core_if, hc);
++ DWC_CIRCLEQ_INSERT_TAIL(&hcd->free_hc_list, hc, hc_list_entry);
++
++ if (!microframe_schedule) {
++ switch (hc->ep_type) {
++ case DWC_OTG_EP_TYPE_CONTROL:
++ case DWC_OTG_EP_TYPE_BULK:
++ hcd->non_periodic_channels--;
++ break;
++
++ default:
++ /*
++ * Don't release reservations for periodic channels here.
++ * That's done when a periodic transfer is descheduled (i.e.
++ * when the QH is removed from the periodic schedule).
++ */
++ break;
++ }
++ } else {
++
++ DWC_SPINLOCK_IRQSAVE(channel_lock, &flags);
++ hcd->available_host_channels++;
++ DWC_SPINUNLOCK_IRQRESTORE(channel_lock, flags);
++ }
++
++ /* Try to queue more transfers now that there's a free channel. */
++ tr_type = dwc_otg_hcd_select_transactions(hcd);
++ if (tr_type != DWC_OTG_TRANSACTION_NONE) {
++ dwc_otg_hcd_queue_transactions(hcd, tr_type);
++ }
++}
++
++/**
++ * Halts a host channel. If the channel cannot be halted immediately because
++ * the request queue is full, this function ensures that the FIFO empty
++ * interrupt for the appropriate queue is enabled so that the halt request can
++ * be queued when there is space in the request queue.
++ *
++ * This function may also be called in DMA mode. In that case, the channel is
++ * simply released since the core always halts the channel automatically in
++ * DMA mode.
++ */
++static void halt_channel(dwc_otg_hcd_t * hcd,
++ dwc_hc_t * hc,
++ dwc_otg_qtd_t * qtd, dwc_otg_halt_status_e halt_status)
++{
++ if (hcd->core_if->dma_enable) {
++ release_channel(hcd, hc, qtd, halt_status);
++ return;
++ }
++
++ /* Slave mode processing... */
++ dwc_otg_hc_halt(hcd->core_if, hc, halt_status);
++
++ if (hc->halt_on_queue) {
++ gintmsk_data_t gintmsk = {.d32 = 0 };
++ dwc_otg_core_global_regs_t *global_regs;
++ global_regs = hcd->core_if->core_global_regs;
++
++ if (hc->ep_type == DWC_OTG_EP_TYPE_CONTROL ||
++ hc->ep_type == DWC_OTG_EP_TYPE_BULK) {
++ /*
++ * Make sure the Non-periodic Tx FIFO empty interrupt
++ * is enabled so that the non-periodic schedule will
++ * be processed.
++ */
++ gintmsk.b.nptxfempty = 1;
++ DWC_MODIFY_REG32(&global_regs->gintmsk, 0, gintmsk.d32);
++ } else {
++ /*
++ * Move the QH from the periodic queued schedule to
++ * the periodic assigned schedule. This allows the
++ * halt to be queued when the periodic schedule is
++ * processed.
++ */
++ DWC_LIST_MOVE_HEAD(&hcd->periodic_sched_assigned,
++ &hc->qh->qh_list_entry);
++
++ /*
++ * Make sure the Periodic Tx FIFO Empty interrupt is
++ * enabled so that the periodic schedule will be
++ * processed.
++ */
++ gintmsk.b.ptxfempty = 1;
++ DWC_MODIFY_REG32(&global_regs->gintmsk, 0, gintmsk.d32);
++ }
++ }
++}
++
++/**
++ * Performs common cleanup for non-periodic transfers after a Transfer
++ * Complete interrupt. This function should be called after any endpoint type
++ * specific handling is finished to release the host channel.
++ */
++static void complete_non_periodic_xfer(dwc_otg_hcd_t * hcd,
++ dwc_hc_t * hc,
++ dwc_otg_hc_regs_t * hc_regs,
++ dwc_otg_qtd_t * qtd,
++ dwc_otg_halt_status_e halt_status)
++{
++ hcint_data_t hcint;
++
++ qtd->error_count = 0;
++
++ hcint.d32 = DWC_READ_REG32(&hc_regs->hcint);
++ if (hcint.b.nyet) {
++ /*
++ * Got a NYET on the last transaction of the transfer. This
++ * means that the endpoint should be in the PING state at the
++ * beginning of the next transfer.
++ */
++ hc->qh->ping_state = 1;
++ clear_hc_int(hc_regs, nyet);
++ }
++
++ /*
++ * Always halt and release the host channel to make it available for
++ * more transfers. There may still be more phases for a control
++ * transfer or more data packets for a bulk transfer at this point,
++ * but the host channel is still halted. A channel will be reassigned
++ * to the transfer when the non-periodic schedule is processed after
++ * the channel is released. This allows transactions to be queued
++ * properly via dwc_otg_hcd_queue_transactions, which also enables the
++ * Tx FIFO Empty interrupt if necessary.
++ */
++ if (hc->ep_is_in) {
++ /*
++ * IN transfers in Slave mode require an explicit disable to
++ * halt the channel. (In DMA mode, this call simply releases
++ * the channel.)
++ */
++ halt_channel(hcd, hc, qtd, halt_status);
++ } else {
++ /*
++ * The channel is automatically disabled by the core for OUT
++ * transfers in Slave mode.
++ */
++ release_channel(hcd, hc, qtd, halt_status);
++ }
++}
++
++/**
++ * Performs common cleanup for periodic transfers after a Transfer Complete
++ * interrupt. This function should be called after any endpoint type specific
++ * handling is finished to release the host channel.
++ */
++static void complete_periodic_xfer(dwc_otg_hcd_t * hcd,
++ dwc_hc_t * hc,
++ dwc_otg_hc_regs_t * hc_regs,
++ dwc_otg_qtd_t * qtd,
++ dwc_otg_halt_status_e halt_status)
++{
++ hctsiz_data_t hctsiz;
++ qtd->error_count = 0;
++
++ hctsiz.d32 = DWC_READ_REG32(&hc_regs->hctsiz);
++ if (!hc->ep_is_in || hctsiz.b.pktcnt == 0) {
++ /* Core halts channel in these cases. */
++ release_channel(hcd, hc, qtd, halt_status);
++ } else {
++ /* Flush any outstanding requests from the Tx queue. */
++ halt_channel(hcd, hc, qtd, halt_status);
++ }
++}
++
++static int32_t handle_xfercomp_isoc_split_in(dwc_otg_hcd_t * hcd,
++ dwc_hc_t * hc,
++ dwc_otg_hc_regs_t * hc_regs,
++ dwc_otg_qtd_t * qtd)
++{
++ uint32_t len;
++ struct dwc_otg_hcd_iso_packet_desc *frame_desc;
++ frame_desc = &qtd->urb->iso_descs[qtd->isoc_frame_index];
++
++ len = get_actual_xfer_length(hc, hc_regs, qtd,
++ DWC_OTG_HC_XFER_COMPLETE, NULL);
++
++ if (!len) {
++ qtd->complete_split = 0;
++ qtd->isoc_split_offset = 0;
++ return 0;
++ }
++ frame_desc->actual_length += len;
++
++ if (hc->align_buff && len)
++ dwc_memcpy(qtd->urb->buf + frame_desc->offset +
++ qtd->isoc_split_offset, hc->qh->dw_align_buf, len);
++ qtd->isoc_split_offset += len;
++
++ if (frame_desc->length == frame_desc->actual_length) {
++ frame_desc->status = 0;
++ qtd->isoc_frame_index++;
++ qtd->complete_split = 0;
++ qtd->isoc_split_offset = 0;
++ }
++
++ if (qtd->isoc_frame_index == qtd->urb->packet_count) {
++ hcd->fops->complete(hcd, qtd->urb->priv, qtd->urb, 0);
++ release_channel(hcd, hc, qtd, DWC_OTG_HC_XFER_URB_COMPLETE);
++ } else {
++ release_channel(hcd, hc, qtd, DWC_OTG_HC_XFER_NO_HALT_STATUS);
++ }
++
++ return 1; /* Indicates that channel released */
++}
++
++/**
++ * Handles a host channel Transfer Complete interrupt. This handler may be
++ * called in either DMA mode or Slave mode.
++ */
++static int32_t handle_hc_xfercomp_intr(dwc_otg_hcd_t * hcd,
++ dwc_hc_t * hc,
++ dwc_otg_hc_regs_t * hc_regs,
++ dwc_otg_qtd_t * qtd)
++{
++ int urb_xfer_done;
++ dwc_otg_halt_status_e halt_status = DWC_OTG_HC_XFER_COMPLETE;
++ dwc_otg_hcd_urb_t *urb = qtd->urb;
++ int pipe_type = dwc_otg_hcd_get_pipe_type(&urb->pipe_info);
++
++ DWC_DEBUGPL(DBG_HCDI, "--Host Channel %d Interrupt: "
++ "Transfer Complete--\n", hc->hc_num);
++
++ if (hcd->core_if->dma_desc_enable) {
++ dwc_otg_hcd_complete_xfer_ddma(hcd, hc, hc_regs, halt_status);
++ if (pipe_type == UE_ISOCHRONOUS) {
++ /* Do not disable the interrupt, just clear it */
++ clear_hc_int(hc_regs, xfercomp);
++ return 1;
++ }
++ goto handle_xfercomp_done;
++ }
++
++ /*
++ * Handle xfer complete on CSPLIT.
++ */
++
++ if (hc->qh->do_split) {
++ if ((hc->ep_type == DWC_OTG_EP_TYPE_ISOC) && hc->ep_is_in
++ && hcd->core_if->dma_enable) {
++ if (qtd->complete_split
++ && handle_xfercomp_isoc_split_in(hcd, hc, hc_regs,
++ qtd))
++ goto handle_xfercomp_done;
++ } else {
++ qtd->complete_split = 0;
++ }
++ }
++
++ /* Update the QTD and URB states. */
++ switch (pipe_type) {
++ case UE_CONTROL:
++ switch (qtd->control_phase) {
++ case DWC_OTG_CONTROL_SETUP:
++ if (urb->length > 0) {
++ qtd->control_phase = DWC_OTG_CONTROL_DATA;
++ } else {
++ qtd->control_phase = DWC_OTG_CONTROL_STATUS;
++ }
++ DWC_DEBUGPL(DBG_HCDV,
++ " Control setup transaction done\n");
++ halt_status = DWC_OTG_HC_XFER_COMPLETE;
++ break;
++ case DWC_OTG_CONTROL_DATA:{
++ urb_xfer_done =
++ update_urb_state_xfer_comp(hc, hc_regs, urb,
++ qtd);
++ if (urb_xfer_done) {
++ qtd->control_phase =
++ DWC_OTG_CONTROL_STATUS;
++ DWC_DEBUGPL(DBG_HCDV,
++ " Control data transfer done\n");
++ } else {
++ dwc_otg_hcd_save_data_toggle(hc, hc_regs, qtd);
++ }
++ halt_status = DWC_OTG_HC_XFER_COMPLETE;
++ break;
++ }
++ case DWC_OTG_CONTROL_STATUS:
++ DWC_DEBUGPL(DBG_HCDV, " Control transfer complete\n");
++ if (urb->status == -DWC_E_IN_PROGRESS) {
++ urb->status = 0;
++ }
++ hcd->fops->complete(hcd, urb->priv, urb, urb->status);
++ halt_status = DWC_OTG_HC_XFER_URB_COMPLETE;
++ break;
++ }
++
++ complete_non_periodic_xfer(hcd, hc, hc_regs, qtd, halt_status);
++ break;
++ case UE_BULK:
++ DWC_DEBUGPL(DBG_HCDV, " Bulk transfer complete\n");
++ urb_xfer_done =
++ update_urb_state_xfer_comp(hc, hc_regs, urb, qtd);
++ if (urb_xfer_done) {
++ hcd->fops->complete(hcd, urb->priv, urb, urb->status);
++ halt_status = DWC_OTG_HC_XFER_URB_COMPLETE;
++ } else {
++ halt_status = DWC_OTG_HC_XFER_COMPLETE;
++ }
++
++ dwc_otg_hcd_save_data_toggle(hc, hc_regs, qtd);
++ complete_non_periodic_xfer(hcd, hc, hc_regs, qtd, halt_status);
++ break;
++ case UE_INTERRUPT:
++ DWC_DEBUGPL(DBG_HCDV, " Interrupt transfer complete\n");
++ urb_xfer_done =
++ update_urb_state_xfer_comp(hc, hc_regs, urb, qtd);
++
++ /*
++ * Interrupt URB is done on the first transfer complete
++ * interrupt.
++ */
++ if (urb_xfer_done) {
++ hcd->fops->complete(hcd, urb->priv, urb, urb->status);
++ halt_status = DWC_OTG_HC_XFER_URB_COMPLETE;
++ } else {
++ halt_status = DWC_OTG_HC_XFER_COMPLETE;
++ }
++
++ dwc_otg_hcd_save_data_toggle(hc, hc_regs, qtd);
++ complete_periodic_xfer(hcd, hc, hc_regs, qtd, halt_status);
++ break;
++ case UE_ISOCHRONOUS:
++ DWC_DEBUGPL(DBG_HCDV, " Isochronous transfer complete\n");
++ if (qtd->isoc_split_pos == DWC_HCSPLIT_XACTPOS_ALL) {
++ halt_status =
++ update_isoc_urb_state(hcd, hc, hc_regs, qtd,
++ DWC_OTG_HC_XFER_COMPLETE);
++ }
++ complete_periodic_xfer(hcd, hc, hc_regs, qtd, halt_status);
++ break;
++ }
++
++handle_xfercomp_done:
++ disable_hc_int(hc_regs, xfercompl);
++
++ return 1;
++}
++
++/**
++ * Handles a host channel STALL interrupt. This handler may be called in
++ * either DMA mode or Slave mode.
++ */
++static int32_t handle_hc_stall_intr(dwc_otg_hcd_t * hcd,
++ dwc_hc_t * hc,
++ dwc_otg_hc_regs_t * hc_regs,
++ dwc_otg_qtd_t * qtd)
++{
++ dwc_otg_hcd_urb_t *urb = qtd->urb;
++ int pipe_type = dwc_otg_hcd_get_pipe_type(&urb->pipe_info);
++
++ DWC_DEBUGPL(DBG_HCD, "--Host Channel %d Interrupt: "
++ "STALL Received--\n", hc->hc_num);
++
++ if (hcd->core_if->dma_desc_enable) {
++ dwc_otg_hcd_complete_xfer_ddma(hcd, hc, hc_regs, DWC_OTG_HC_XFER_STALL);
++ goto handle_stall_done;
++ }
++
++ if (pipe_type == UE_CONTROL) {
++ hcd->fops->complete(hcd, urb->priv, urb, -DWC_E_PIPE);
++ }
++
++ if (pipe_type == UE_BULK || pipe_type == UE_INTERRUPT) {
++ hcd->fops->complete(hcd, urb->priv, urb, -DWC_E_PIPE);
++ /*
++ * USB protocol requires resetting the data toggle for bulk
++ * and interrupt endpoints when a CLEAR_FEATURE(ENDPOINT_HALT)
++ * setup command is issued to the endpoint. Anticipate the
++ * CLEAR_FEATURE command since a STALL has occurred and reset
++ * the data toggle now.
++ */
++ hc->qh->data_toggle = 0;
++ }
++
++ halt_channel(hcd, hc, qtd, DWC_OTG_HC_XFER_STALL);
++
++handle_stall_done:
++ disable_hc_int(hc_regs, stall);
++
++ return 1;
++}
++
++/*
++ * Updates the state of the URB when a transfer has been stopped due to an
++ * abnormal condition before the transfer completes. Modifies the
++ * actual_length field of the URB to reflect the number of bytes that have
++ * actually been transferred via the host channel.
++ */
++static void update_urb_state_xfer_intr(dwc_hc_t * hc,
++ dwc_otg_hc_regs_t * hc_regs,
++ dwc_otg_hcd_urb_t * urb,
++ dwc_otg_qtd_t * qtd,
++ dwc_otg_halt_status_e halt_status)
++{
++ uint32_t bytes_transferred = get_actual_xfer_length(hc, hc_regs, qtd,
++ halt_status, NULL);
++ /* non DWORD-aligned buffer case handling. */
++ if (hc->align_buff && bytes_transferred && hc->ep_is_in) {
++ dwc_memcpy(urb->buf + urb->actual_length, hc->qh->dw_align_buf,
++ bytes_transferred);
++ }
++
++ urb->actual_length += bytes_transferred;
++
++#ifdef DEBUG
++ {
++ hctsiz_data_t hctsiz;
++ hctsiz.d32 = DWC_READ_REG32(&hc_regs->hctsiz);
++ DWC_DEBUGPL(DBG_HCDV, "DWC_otg: %s: %s, channel %d\n",
++ __func__, (hc->ep_is_in ? "IN" : "OUT"),
++ hc->hc_num);
++ DWC_DEBUGPL(DBG_HCDV, " hc->start_pkt_count %d\n",
++ hc->start_pkt_count);
++ DWC_DEBUGPL(DBG_HCDV, " hctsiz.pktcnt %d\n", hctsiz.b.pktcnt);
++ DWC_DEBUGPL(DBG_HCDV, " hc->max_packet %d\n", hc->max_packet);
++ DWC_DEBUGPL(DBG_HCDV, " bytes_transferred %d\n",
++ bytes_transferred);
++ DWC_DEBUGPL(DBG_HCDV, " urb->actual_length %d\n",
++ urb->actual_length);
++ DWC_DEBUGPL(DBG_HCDV, " urb->transfer_buffer_length %d\n",
++ urb->length);
++ }
++#endif
++}
++
++/**
++ * Handles a host channel NAK interrupt. This handler may be called in either
++ * DMA mode or Slave mode.
++ */
++static int32_t handle_hc_nak_intr(dwc_otg_hcd_t * hcd,
++ dwc_hc_t * hc,
++ dwc_otg_hc_regs_t * hc_regs,
++ dwc_otg_qtd_t * qtd)
++{
++ DWC_DEBUGPL(DBG_HCDI, "--Host Channel %d Interrupt: "
++ "NAK Received--\n", hc->hc_num);
++
++ /*
++ * When we get bulk NAKs then remember this so we holdoff on this qh until
++ * the beginning of the next frame
++ */
++ switch(dwc_otg_hcd_get_pipe_type(&qtd->urb->pipe_info)) {
++ case UE_BULK:
++ //case UE_INTERRUPT:
++ //case UE_CONTROL:
++ if (nak_holdoff_enable)
++ hc->qh->nak_frame = dwc_otg_hcd_get_frame_number(hcd);
++ }
++
++ /*
++ * Handle NAK for IN/OUT SSPLIT/CSPLIT transfers, bulk, control, and
++ * interrupt. Re-start the SSPLIT transfer.
++ */
++ if (hc->do_split) {
++ if (hc->complete_split) {
++ qtd->error_count = 0;
++ }
++ qtd->complete_split = 0;
++ halt_channel(hcd, hc, qtd, DWC_OTG_HC_XFER_NAK);
++ goto handle_nak_done;
++ }
++
++ switch (dwc_otg_hcd_get_pipe_type(&qtd->urb->pipe_info)) {
++ case UE_CONTROL:
++ case UE_BULK:
++ if (hcd->core_if->dma_enable && hc->ep_is_in) {
++ /*
++ * NAK interrupts are enabled on bulk/control IN
++ * transfers in DMA mode for the sole purpose of
++ * resetting the error count after a transaction error
++ * occurs. The core will continue transferring data.
++ */
++ qtd->error_count = 0;
++ goto handle_nak_done;
++ }
++
++ /*
++ * NAK interrupts normally occur during OUT transfers in DMA
++ * or Slave mode. For IN transfers, more requests will be
++ * queued as request queue space is available.
++ */
++ qtd->error_count = 0;
++
++ if (!hc->qh->ping_state) {
++ update_urb_state_xfer_intr(hc, hc_regs,
++ qtd->urb, qtd,
++ DWC_OTG_HC_XFER_NAK);
++ dwc_otg_hcd_save_data_toggle(hc, hc_regs, qtd);
++
++ if (hc->speed == DWC_OTG_EP_SPEED_HIGH)
++ hc->qh->ping_state = 1;
++ }
++
++ /*
++ * Halt the channel so the transfer can be re-started from
++ * the appropriate point or the PING protocol will
++ * start/continue.
++ */
++ halt_channel(hcd, hc, qtd, DWC_OTG_HC_XFER_NAK);
++ break;
++ case UE_INTERRUPT:
++ qtd->error_count = 0;
++ halt_channel(hcd, hc, qtd, DWC_OTG_HC_XFER_NAK);
++ break;
++ case UE_ISOCHRONOUS:
++ /* Should never get called for isochronous transfers. */
++ DWC_ASSERT(1, "NACK interrupt for ISOC transfer\n");
++ break;
++ }
++
++handle_nak_done:
++ disable_hc_int(hc_regs, nak);
++
++ return 1;
++}
++
++/**
++ * Handles a host channel ACK interrupt. This interrupt is enabled when
++ * performing the PING protocol in Slave mode, when errors occur during
++ * either Slave mode or DMA mode, and during Start Split transactions.
++ */
++static int32_t handle_hc_ack_intr(dwc_otg_hcd_t * hcd,
++ dwc_hc_t * hc,
++ dwc_otg_hc_regs_t * hc_regs,
++ dwc_otg_qtd_t * qtd)
++{
++ DWC_DEBUGPL(DBG_HCDI, "--Host Channel %d Interrupt: "
++ "ACK Received--\n", hc->hc_num);
++
++ if (hc->do_split) {
++ /*
++ * Handle ACK on SSPLIT.
++ * ACK should not occur in CSPLIT.
++ */
++ if (!hc->ep_is_in && hc->data_pid_start != DWC_OTG_HC_PID_SETUP) {
++ qtd->ssplit_out_xfer_count = hc->xfer_len;
++ }
++ if (!(hc->ep_type == DWC_OTG_EP_TYPE_ISOC && !hc->ep_is_in)) {
++ /* Don't need complete for isochronous out transfers. */
++ qtd->complete_split = 1;
++ }
++
++ /* ISOC OUT */
++ if (hc->ep_type == DWC_OTG_EP_TYPE_ISOC && !hc->ep_is_in) {
++ switch (hc->xact_pos) {
++ case DWC_HCSPLIT_XACTPOS_ALL:
++ break;
++ case DWC_HCSPLIT_XACTPOS_END:
++ qtd->isoc_split_pos = DWC_HCSPLIT_XACTPOS_ALL;
++ qtd->isoc_split_offset = 0;
++ break;
++ case DWC_HCSPLIT_XACTPOS_BEGIN:
++ case DWC_HCSPLIT_XACTPOS_MID:
++ /*
++ * For BEGIN or MID, calculate the length for
++ * the next microframe to determine the correct
++ * SSPLIT token, either MID or END.
++ */
++ {
++ struct dwc_otg_hcd_iso_packet_desc
++ *frame_desc;
++
++ frame_desc =
++ &qtd->urb->
++ iso_descs[qtd->isoc_frame_index];
++ qtd->isoc_split_offset += 188;
++
++ if ((frame_desc->length -
++ qtd->isoc_split_offset) <= 188) {
++ qtd->isoc_split_pos =
++ DWC_HCSPLIT_XACTPOS_END;
++ } else {
++ qtd->isoc_split_pos =
++ DWC_HCSPLIT_XACTPOS_MID;
++ }
++
++ }
++ break;
++ }
++ } else {
++ halt_channel(hcd, hc, qtd, DWC_OTG_HC_XFER_ACK);
++ }
++ } else {
++ qtd->error_count = 0;
++
++ if (hc->qh->ping_state) {
++ hc->qh->ping_state = 0;
++ /*
++ * Halt the channel so the transfer can be re-started
++ * from the appropriate point. This only happens in
++ * Slave mode. In DMA mode, the ping_state is cleared
++ * when the transfer is started because the core
++ * automatically executes the PING, then the transfer.
++ */
++ halt_channel(hcd, hc, qtd, DWC_OTG_HC_XFER_ACK);
++ }
++ }
++
++ /*
++ * If the ACK occurred when _not_ in the PING state, let the channel
++ * continue transferring data after clearing the error count.
++ */
++
++ disable_hc_int(hc_regs, ack);
++
++ return 1;
++}
++
++/**
++ * Handles a host channel NYET interrupt. This interrupt should only occur on
++ * Bulk and Control OUT endpoints and for complete split transactions. If a
++ * NYET occurs at the same time as a Transfer Complete interrupt, it is
++ * handled in the xfercomp interrupt handler, not here. This handler may be
++ * called in either DMA mode or Slave mode.
++ */
++static int32_t handle_hc_nyet_intr(dwc_otg_hcd_t * hcd,
++ dwc_hc_t * hc,
++ dwc_otg_hc_regs_t * hc_regs,
++ dwc_otg_qtd_t * qtd)
++{
++ DWC_DEBUGPL(DBG_HCDI, "--Host Channel %d Interrupt: "
++ "NYET Received--\n", hc->hc_num);
++
++ /*
++ * NYET on CSPLIT
++ * re-do the CSPLIT immediately on non-periodic
++ */
++ if (hc->do_split && hc->complete_split) {
++ if (hc->ep_is_in && (hc->ep_type == DWC_OTG_EP_TYPE_ISOC)
++ && hcd->core_if->dma_enable) {
++ qtd->complete_split = 0;
++ qtd->isoc_split_offset = 0;
++ if (++qtd->isoc_frame_index == qtd->urb->packet_count) {
++ hcd->fops->complete(hcd, qtd->urb->priv, qtd->urb, 0);
++ release_channel(hcd, hc, qtd, DWC_OTG_HC_XFER_URB_COMPLETE);
++ }
++ else
++ release_channel(hcd, hc, qtd, DWC_OTG_HC_XFER_NO_HALT_STATUS);
++ goto handle_nyet_done;
++ }
++
++ if (hc->ep_type == DWC_OTG_EP_TYPE_INTR ||
++ hc->ep_type == DWC_OTG_EP_TYPE_ISOC) {
++ int frnum = dwc_otg_hcd_get_frame_number(hcd);
++
++ if (dwc_full_frame_num(frnum) !=
++ dwc_full_frame_num(hc->qh->sched_frame)) {
++ /*
++ * No longer in the same full speed frame.
++ * Treat this as a transaction error.
++ */
++#if 0
++ /** @todo Fix system performance so this can
++ * be treated as an error. Right now complete
++ * splits cannot be scheduled precisely enough
++ * due to other system activity, so this error
++ * occurs regularly in Slave mode.
++ */
++ qtd->error_count++;
++#endif
++ qtd->complete_split = 0;
++ halt_channel(hcd, hc, qtd,
++ DWC_OTG_HC_XFER_XACT_ERR);
++ /** @todo add support for isoc release */
++ goto handle_nyet_done;
++ }
++ }
++
++ halt_channel(hcd, hc, qtd, DWC_OTG_HC_XFER_NYET);
++ goto handle_nyet_done;
++ }
++
++ hc->qh->ping_state = 1;
++ qtd->error_count = 0;
++
++ update_urb_state_xfer_intr(hc, hc_regs, qtd->urb, qtd,
++ DWC_OTG_HC_XFER_NYET);
++ dwc_otg_hcd_save_data_toggle(hc, hc_regs, qtd);
++
++ /*
++ * Halt the channel and re-start the transfer so the PING
++ * protocol will start.
++ */
++ halt_channel(hcd, hc, qtd, DWC_OTG_HC_XFER_NYET);
++
++handle_nyet_done:
++ disable_hc_int(hc_regs, nyet);
++ return 1;
++}
++
++/**
++ * Handles a host channel babble interrupt. This handler may be called in
++ * either DMA mode or Slave mode.
++ */
++static int32_t handle_hc_babble_intr(dwc_otg_hcd_t * hcd,
++ dwc_hc_t * hc,
++ dwc_otg_hc_regs_t * hc_regs,
++ dwc_otg_qtd_t * qtd)
++{
++ DWC_DEBUGPL(DBG_HCDI, "--Host Channel %d Interrupt: "
++ "Babble Error--\n", hc->hc_num);
++
++ if (hcd->core_if->dma_desc_enable) {
++ dwc_otg_hcd_complete_xfer_ddma(hcd, hc, hc_regs,
++ DWC_OTG_HC_XFER_BABBLE_ERR);
++ goto handle_babble_done;
++ }
++
++ if (hc->ep_type != DWC_OTG_EP_TYPE_ISOC) {
++ hcd->fops->complete(hcd, qtd->urb->priv,
++ qtd->urb, -DWC_E_OVERFLOW);
++ halt_channel(hcd, hc, qtd, DWC_OTG_HC_XFER_BABBLE_ERR);
++ } else {
++ dwc_otg_halt_status_e halt_status;
++ halt_status = update_isoc_urb_state(hcd, hc, hc_regs, qtd,
++ DWC_OTG_HC_XFER_BABBLE_ERR);
++ halt_channel(hcd, hc, qtd, halt_status);
++ }
++
++handle_babble_done:
++ disable_hc_int(hc_regs, bblerr);
++ return 1;
++}
++
++/**
++ * Handles a host channel AHB error interrupt. This handler is only called in
++ * DMA mode.
++ */
++static int32_t handle_hc_ahberr_intr(dwc_otg_hcd_t * hcd,
++ dwc_hc_t * hc,
++ dwc_otg_hc_regs_t * hc_regs,
++ dwc_otg_qtd_t * qtd)
++{
++ hcchar_data_t hcchar;
++ hcsplt_data_t hcsplt;
++ hctsiz_data_t hctsiz;
++ uint32_t hcdma;
++ char *pipetype, *speed;
++
++ dwc_otg_hcd_urb_t *urb = qtd->urb;
++
++ DWC_DEBUGPL(DBG_HCDI, "--Host Channel %d Interrupt: "
++ "AHB Error--\n", hc->hc_num);
++
++ hcchar.d32 = DWC_READ_REG32(&hc_regs->hcchar);
++ hcsplt.d32 = DWC_READ_REG32(&hc_regs->hcsplt);
++ hctsiz.d32 = DWC_READ_REG32(&hc_regs->hctsiz);
++ hcdma = DWC_READ_REG32(&hc_regs->hcdma);
++
++ DWC_ERROR("AHB ERROR, Channel %d\n", hc->hc_num);
++ DWC_ERROR(" hcchar 0x%08x, hcsplt 0x%08x\n", hcchar.d32, hcsplt.d32);
++ DWC_ERROR(" hctsiz 0x%08x, hcdma 0x%08x\n", hctsiz.d32, hcdma);
++ DWC_DEBUGPL(DBG_HCD, "DWC OTG HCD URB Enqueue\n");
++ DWC_ERROR(" Device address: %d\n",
++ dwc_otg_hcd_get_dev_addr(&urb->pipe_info));
++ DWC_ERROR(" Endpoint: %d, %s\n",
++ dwc_otg_hcd_get_ep_num(&urb->pipe_info),
++ (dwc_otg_hcd_is_pipe_in(&urb->pipe_info) ? "IN" : "OUT"));
++
++ switch (dwc_otg_hcd_get_pipe_type(&urb->pipe_info)) {
++ case UE_CONTROL:
++ pipetype = "CONTROL";
++ break;
++ case UE_BULK:
++ pipetype = "BULK";
++ break;
++ case UE_INTERRUPT:
++ pipetype = "INTERRUPT";
++ break;
++ case UE_ISOCHRONOUS:
++ pipetype = "ISOCHRONOUS";
++ break;
++ default:
++ pipetype = "UNKNOWN";
++ break;
++ }
++
++ DWC_ERROR(" Endpoint type: %s\n", pipetype);
++
++ switch (hc->speed) {
++ case DWC_OTG_EP_SPEED_HIGH:
++ speed = "HIGH";
++ break;
++ case DWC_OTG_EP_SPEED_FULL:
++ speed = "FULL";
++ break;
++ case DWC_OTG_EP_SPEED_LOW:
++ speed = "LOW";
++ break;
++ default:
++ speed = "UNKNOWN";
++ break;
++ };
++
++ DWC_ERROR(" Speed: %s\n", speed);
++
++ DWC_ERROR(" Max packet size: %d\n",
++ dwc_otg_hcd_get_mps(&urb->pipe_info));
++ DWC_ERROR(" Data buffer length: %d\n", urb->length);
++ DWC_ERROR(" Transfer buffer: %p, Transfer DMA: %p\n",
++ urb->buf, (void *)urb->dma);
++ DWC_ERROR(" Setup buffer: %p, Setup DMA: %p\n",
++ urb->setup_packet, (void *)urb->setup_dma);
++ DWC_ERROR(" Interval: %d\n", urb->interval);
++
++ /* Core haltes the channel for Descriptor DMA mode */
++ if (hcd->core_if->dma_desc_enable) {
++ dwc_otg_hcd_complete_xfer_ddma(hcd, hc, hc_regs,
++ DWC_OTG_HC_XFER_AHB_ERR);
++ goto handle_ahberr_done;
++ }
++
++ hcd->fops->complete(hcd, urb->priv, urb, -DWC_E_IO);
++
++ /*
++ * Force a channel halt. Don't call halt_channel because that won't
++ * write to the HCCHARn register in DMA mode to force the halt.
++ */
++ dwc_otg_hc_halt(hcd->core_if, hc, DWC_OTG_HC_XFER_AHB_ERR);
++handle_ahberr_done:
++ disable_hc_int(hc_regs, ahberr);
++ return 1;
++}
++
++/**
++ * Handles a host channel transaction error interrupt. This handler may be
++ * called in either DMA mode or Slave mode.
++ */
++static int32_t handle_hc_xacterr_intr(dwc_otg_hcd_t * hcd,
++ dwc_hc_t * hc,
++ dwc_otg_hc_regs_t * hc_regs,
++ dwc_otg_qtd_t * qtd)
++{
++ DWC_DEBUGPL(DBG_HCDI, "--Host Channel %d Interrupt: "
++ "Transaction Error--\n", hc->hc_num);
++
++ if (hcd->core_if->dma_desc_enable) {
++ dwc_otg_hcd_complete_xfer_ddma(hcd, hc, hc_regs,
++ DWC_OTG_HC_XFER_XACT_ERR);
++ goto handle_xacterr_done;
++ }
++
++ switch (dwc_otg_hcd_get_pipe_type(&qtd->urb->pipe_info)) {
++ case UE_CONTROL:
++ case UE_BULK:
++ qtd->error_count++;
++ if (!hc->qh->ping_state) {
++
++ update_urb_state_xfer_intr(hc, hc_regs,
++ qtd->urb, qtd,
++ DWC_OTG_HC_XFER_XACT_ERR);
++ dwc_otg_hcd_save_data_toggle(hc, hc_regs, qtd);
++ if (!hc->ep_is_in && hc->speed == DWC_OTG_EP_SPEED_HIGH) {
++ hc->qh->ping_state = 1;
++ }
++ }
++
++ /*
++ * Halt the channel so the transfer can be re-started from
++ * the appropriate point or the PING protocol will start.
++ */
++ halt_channel(hcd, hc, qtd, DWC_OTG_HC_XFER_XACT_ERR);
++ break;
++ case UE_INTERRUPT:
++ qtd->error_count++;
++ if (hc->do_split && hc->complete_split) {
++ qtd->complete_split = 0;
++ }
++ halt_channel(hcd, hc, qtd, DWC_OTG_HC_XFER_XACT_ERR);
++ break;
++ case UE_ISOCHRONOUS:
++ {
++ dwc_otg_halt_status_e halt_status;
++ halt_status =
++ update_isoc_urb_state(hcd, hc, hc_regs, qtd,
++ DWC_OTG_HC_XFER_XACT_ERR);
++
++ halt_channel(hcd, hc, qtd, halt_status);
++ }
++ break;
++ }
++handle_xacterr_done:
++ disable_hc_int(hc_regs, xacterr);
++
++ return 1;
++}
++
++/**
++ * Handles a host channel frame overrun interrupt. This handler may be called
++ * in either DMA mode or Slave mode.
++ */
++static int32_t handle_hc_frmovrun_intr(dwc_otg_hcd_t * hcd,
++ dwc_hc_t * hc,
++ dwc_otg_hc_regs_t * hc_regs,
++ dwc_otg_qtd_t * qtd)
++{
++ DWC_DEBUGPL(DBG_HCDI, "--Host Channel %d Interrupt: "
++ "Frame Overrun--\n", hc->hc_num);
++
++ switch (dwc_otg_hcd_get_pipe_type(&qtd->urb->pipe_info)) {
++ case UE_CONTROL:
++ case UE_BULK:
++ break;
++ case UE_INTERRUPT:
++ halt_channel(hcd, hc, qtd, DWC_OTG_HC_XFER_FRAME_OVERRUN);
++ break;
++ case UE_ISOCHRONOUS:
++ {
++ dwc_otg_halt_status_e halt_status;
++ halt_status =
++ update_isoc_urb_state(hcd, hc, hc_regs, qtd,
++ DWC_OTG_HC_XFER_FRAME_OVERRUN);
++
++ halt_channel(hcd, hc, qtd, halt_status);
++ }
++ break;
++ }
++
++ disable_hc_int(hc_regs, frmovrun);
++
++ return 1;
++}
++
++/**
++ * Handles a host channel data toggle error interrupt. This handler may be
++ * called in either DMA mode or Slave mode.
++ */
++static int32_t handle_hc_datatglerr_intr(dwc_otg_hcd_t * hcd,
++ dwc_hc_t * hc,
++ dwc_otg_hc_regs_t * hc_regs,
++ dwc_otg_qtd_t * qtd)
++{
++ DWC_DEBUGPL(DBG_HCDI, "--Host Channel %d Interrupt: "
++ "Data Toggle Error on %s transfer--\n",
++ hc->hc_num, (hc->ep_is_in ? "IN" : "OUT"));
++
++ /* Data toggles on split transactions cause the hc to halt.
++ * restart transfer */
++ if(hc->qh->do_split)
++ {
++ qtd->error_count++;
++ dwc_otg_hcd_save_data_toggle(hc, hc_regs, qtd);
++ update_urb_state_xfer_intr(hc, hc_regs,
++ qtd->urb, qtd, DWC_OTG_HC_XFER_XACT_ERR);
++ halt_channel(hcd, hc, qtd, DWC_OTG_HC_XFER_XACT_ERR);
++ } else if (hc->ep_is_in) {
++ qtd->error_count = 0;
++ }
++
++ disable_hc_int(hc_regs, datatglerr);
++
++ return 1;
++}
++
++#ifdef DEBUG
++/**
++ * This function is for debug only. It checks that a valid halt status is set
++ * and that HCCHARn.chdis is clear. If there's a problem, corrective action is
++ * taken and a warning is issued.
++ * @return 1 if halt status is ok, 0 otherwise.
++ */
++static inline int halt_status_ok(dwc_otg_hcd_t * hcd,
++ dwc_hc_t * hc,
++ dwc_otg_hc_regs_t * hc_regs,
++ dwc_otg_qtd_t * qtd)
++{
++ hcchar_data_t hcchar;
++ hctsiz_data_t hctsiz;
++ hcint_data_t hcint;
++ hcintmsk_data_t hcintmsk;
++ hcsplt_data_t hcsplt;
++
++ if (hc->halt_status == DWC_OTG_HC_XFER_NO_HALT_STATUS) {
++ /*
++ * This code is here only as a check. This condition should
++ * never happen. Ignore the halt if it does occur.
++ */
++ hcchar.d32 = DWC_READ_REG32(&hc_regs->hcchar);
++ hctsiz.d32 = DWC_READ_REG32(&hc_regs->hctsiz);
++ hcint.d32 = DWC_READ_REG32(&hc_regs->hcint);
++ hcintmsk.d32 = DWC_READ_REG32(&hc_regs->hcintmsk);
++ hcsplt.d32 = DWC_READ_REG32(&hc_regs->hcsplt);
++ DWC_WARN
++ ("%s: hc->halt_status == DWC_OTG_HC_XFER_NO_HALT_STATUS, "
++ "channel %d, hcchar 0x%08x, hctsiz 0x%08x, "
++ "hcint 0x%08x, hcintmsk 0x%08x, "
++ "hcsplt 0x%08x, qtd->complete_split %d\n", __func__,
++ hc->hc_num, hcchar.d32, hctsiz.d32, hcint.d32,
++ hcintmsk.d32, hcsplt.d32, qtd->complete_split);
++
++ DWC_WARN("%s: no halt status, channel %d, ignoring interrupt\n",
++ __func__, hc->hc_num);
++ DWC_WARN("\n");
++ clear_hc_int(hc_regs, chhltd);
++ return 0;
++ }
++
++ /*
++ * This code is here only as a check. hcchar.chdis should
++ * never be set when the halt interrupt occurs. Halt the
++ * channel again if it does occur.
++ */
++ hcchar.d32 = DWC_READ_REG32(&hc_regs->hcchar);
++ if (hcchar.b.chdis) {
++ DWC_WARN("%s: hcchar.chdis set unexpectedly, "
++ "hcchar 0x%08x, trying to halt again\n",
++ __func__, hcchar.d32);
++ clear_hc_int(hc_regs, chhltd);
++ hc->halt_pending = 0;
++ halt_channel(hcd, hc, qtd, hc->halt_status);
++ return 0;
++ }
++
++ return 1;
++}
++#endif
++
++/**
++ * Handles a host Channel Halted interrupt in DMA mode. This handler
++ * determines the reason the channel halted and proceeds accordingly.
++ */
++static void handle_hc_chhltd_intr_dma(dwc_otg_hcd_t * hcd,
++ dwc_hc_t * hc,
++ dwc_otg_hc_regs_t * hc_regs,
++ dwc_otg_qtd_t * qtd)
++{
++ hcint_data_t hcint;
++ hcintmsk_data_t hcintmsk;
++ int out_nak_enh = 0;
++
++ /* For core with OUT NAK enhancement, the flow for high-
++ * speed CONTROL/BULK OUT is handled a little differently.
++ */
++ if (hcd->core_if->snpsid >= OTG_CORE_REV_2_71a) {
++ if (hc->speed == DWC_OTG_EP_SPEED_HIGH && !hc->ep_is_in &&
++ (hc->ep_type == DWC_OTG_EP_TYPE_CONTROL ||
++ hc->ep_type == DWC_OTG_EP_TYPE_BULK)) {
++ out_nak_enh = 1;
++ }
++ }
++
++ if (hc->halt_status == DWC_OTG_HC_XFER_URB_DEQUEUE ||
++ (hc->halt_status == DWC_OTG_HC_XFER_AHB_ERR
++ && !hcd->core_if->dma_desc_enable)) {
++ /*
++ * Just release the channel. A dequeue can happen on a
++ * transfer timeout. In the case of an AHB Error, the channel
++ * was forced to halt because there's no way to gracefully
++ * recover.
++ */
++ if (hcd->core_if->dma_desc_enable)
++ dwc_otg_hcd_complete_xfer_ddma(hcd, hc, hc_regs,
++ hc->halt_status);
++ else
++ release_channel(hcd, hc, qtd, hc->halt_status);
++ return;
++ }
++
++ /* Read the HCINTn register to determine the cause for the halt. */
++ hcint.d32 = DWC_READ_REG32(&hc_regs->hcint);
++ hcintmsk.d32 = DWC_READ_REG32(&hc_regs->hcintmsk);
++
++ if (hcint.b.xfercomp) {
++ /** @todo This is here because of a possible hardware bug. Spec
++ * says that on SPLIT-ISOC OUT transfers in DMA mode that a HALT
++ * interrupt w/ACK bit set should occur, but I only see the
++ * XFERCOMP bit, even with it masked out. This is a workaround
++ * for that behavior. Should fix this when hardware is fixed.
++ */
++ if (hc->ep_type == DWC_OTG_EP_TYPE_ISOC && !hc->ep_is_in) {
++ handle_hc_ack_intr(hcd, hc, hc_regs, qtd);
++ }
++ handle_hc_xfercomp_intr(hcd, hc, hc_regs, qtd);
++ } else if (hcint.b.stall) {
++ handle_hc_stall_intr(hcd, hc, hc_regs, qtd);
++ } else if (hcint.b.xacterr && !hcd->core_if->dma_desc_enable) {
++ if (out_nak_enh) {
++ if (hcint.b.nyet || hcint.b.nak || hcint.b.ack) {
++ DWC_DEBUGPL(DBG_HCD, "XactErr with NYET/NAK/ACK\n");
++ qtd->error_count = 0;
++ } else {
++ DWC_DEBUGPL(DBG_HCD, "XactErr without NYET/NAK/ACK\n");
++ }
++ }
++
++ /*
++ * Must handle xacterr before nak or ack. Could get a xacterr
++ * at the same time as either of these on a BULK/CONTROL OUT
++ * that started with a PING. The xacterr takes precedence.
++ */
++ handle_hc_xacterr_intr(hcd, hc, hc_regs, qtd);
++ } else if (hcint.b.xcs_xact && hcd->core_if->dma_desc_enable) {
++ handle_hc_xacterr_intr(hcd, hc, hc_regs, qtd);
++ } else if (hcint.b.ahberr && hcd->core_if->dma_desc_enable) {
++ handle_hc_ahberr_intr(hcd, hc, hc_regs, qtd);
++ } else if (hcint.b.bblerr) {
++ handle_hc_babble_intr(hcd, hc, hc_regs, qtd);
++ } else if (hcint.b.frmovrun) {
++ handle_hc_frmovrun_intr(hcd, hc, hc_regs, qtd);
++ } else if (hcint.b.datatglerr) {
++ handle_hc_datatglerr_intr(hcd, hc, hc_regs, qtd);
++ } else if (!out_nak_enh) {
++ if (hcint.b.nyet) {
++ /*
++ * Must handle nyet before nak or ack. Could get a nyet at the
++ * same time as either of those on a BULK/CONTROL OUT that
++ * started with a PING. The nyet takes precedence.
++ */
++ handle_hc_nyet_intr(hcd, hc, hc_regs, qtd);
++ } else if (hcint.b.nak && !hcintmsk.b.nak) {
++ /*
++ * If nak is not masked, it's because a non-split IN transfer
++ * is in an error state. In that case, the nak is handled by
++ * the nak interrupt handler, not here. Handle nak here for
++ * BULK/CONTROL OUT transfers, which halt on a NAK to allow
++ * rewinding the buffer pointer.
++ */
++ handle_hc_nak_intr(hcd, hc, hc_regs, qtd);
++ } else if (hcint.b.ack && !hcintmsk.b.ack) {
++ /*
++ * If ack is not masked, it's because a non-split IN transfer
++ * is in an error state. In that case, the ack is handled by
++ * the ack interrupt handler, not here. Handle ack here for
++ * split transfers. Start splits halt on ACK.
++ */
++ handle_hc_ack_intr(hcd, hc, hc_regs, qtd);
++ } else {
++ if (hc->ep_type == DWC_OTG_EP_TYPE_INTR ||
++ hc->ep_type == DWC_OTG_EP_TYPE_ISOC) {
++ /*
++ * A periodic transfer halted with no other channel
++ * interrupts set. Assume it was halted by the core
++ * because it could not be completed in its scheduled
++ * (micro)frame.
++ */
++#ifdef DEBUG
++ DWC_PRINTF
++ ("%s: Halt channel %d (assume incomplete periodic transfer)\n",
++ __func__, hc->hc_num);
++#endif
++ halt_channel(hcd, hc, qtd,
++ DWC_OTG_HC_XFER_PERIODIC_INCOMPLETE);
++ } else {
++ DWC_ERROR
++ ("%s: Channel %d, DMA Mode -- ChHltd set, but reason "
++ "for halting is unknown, hcint 0x%08x, intsts 0x%08x\n",
++ __func__, hc->hc_num, hcint.d32,
++ DWC_READ_REG32(&hcd->
++ core_if->core_global_regs->
++ gintsts));
++ }
++
++ }
++ } else {
++ DWC_PRINTF("NYET/NAK/ACK/other in non-error case, 0x%08x\n",
++ hcint.d32);
++ }
++}
++
++/**
++ * Handles a host channel Channel Halted interrupt.
++ *
++ * In slave mode, this handler is called only when the driver specifically
++ * requests a halt. This occurs during handling other host channel interrupts
++ * (e.g. nak, xacterr, stall, nyet, etc.).
++ *
++ * In DMA mode, this is the interrupt that occurs when the core has finished
++ * processing a transfer on a channel. Other host channel interrupts (except
++ * ahberr) are disabled in DMA mode.
++ */
++static int32_t handle_hc_chhltd_intr(dwc_otg_hcd_t * hcd,
++ dwc_hc_t * hc,
++ dwc_otg_hc_regs_t * hc_regs,
++ dwc_otg_qtd_t * qtd)
++{
++ DWC_DEBUGPL(DBG_HCDI, "--Host Channel %d Interrupt: "
++ "Channel Halted--\n", hc->hc_num);
++
++ if (hcd->core_if->dma_enable) {
++ handle_hc_chhltd_intr_dma(hcd, hc, hc_regs, qtd);
++ } else {
++#ifdef DEBUG
++ if (!halt_status_ok(hcd, hc, hc_regs, qtd)) {
++ return 1;
++ }
++#endif
++ release_channel(hcd, hc, qtd, hc->halt_status);
++ }
++
++ return 1;
++}
++
++/** Handles interrupt for a specific Host Channel */
++int32_t dwc_otg_hcd_handle_hc_n_intr(dwc_otg_hcd_t * dwc_otg_hcd, uint32_t num)
++{
++ int retval = 0;
++ hcint_data_t hcint;
++ hcintmsk_data_t hcintmsk;
++ dwc_hc_t *hc;
++ dwc_otg_hc_regs_t *hc_regs;
++ dwc_otg_qtd_t *qtd;
++
++ DWC_DEBUGPL(DBG_HCDV, "--Host Channel Interrupt--, Channel %d\n", num);
++
++ hc = dwc_otg_hcd->hc_ptr_array[num];
++ hc_regs = dwc_otg_hcd->core_if->host_if->hc_regs[num];
++ qtd = DWC_CIRCLEQ_FIRST(&hc->qh->qtd_list);
++
++ hcint.d32 = DWC_READ_REG32(&hc_regs->hcint);
++ hcintmsk.d32 = DWC_READ_REG32(&hc_regs->hcintmsk);
++ DWC_DEBUGPL(DBG_HCDV,
++ " hcint 0x%08x, hcintmsk 0x%08x, hcint&hcintmsk 0x%08x\n",
++ hcint.d32, hcintmsk.d32, (hcint.d32 & hcintmsk.d32));
++ hcint.d32 = hcint.d32 & hcintmsk.d32;
++
++ if (!dwc_otg_hcd->core_if->dma_enable) {
++ if (hcint.b.chhltd && hcint.d32 != 0x2) {
++ hcint.b.chhltd = 0;
++ }
++ }
++
++ if (hcint.b.xfercomp) {
++ retval |=
++ handle_hc_xfercomp_intr(dwc_otg_hcd, hc, hc_regs, qtd);
++ /*
++ * If NYET occurred at same time as Xfer Complete, the NYET is
++ * handled by the Xfer Complete interrupt handler. Don't want
++ * to call the NYET interrupt handler in this case.
++ */
++ hcint.b.nyet = 0;
++ }
++ if (hcint.b.chhltd) {
++ retval |= handle_hc_chhltd_intr(dwc_otg_hcd, hc, hc_regs, qtd);
++ }
++ if (hcint.b.ahberr) {
++ retval |= handle_hc_ahberr_intr(dwc_otg_hcd, hc, hc_regs, qtd);
++ }
++ if (hcint.b.stall) {
++ retval |= handle_hc_stall_intr(dwc_otg_hcd, hc, hc_regs, qtd);
++ }
++ if (hcint.b.nak) {
++ retval |= handle_hc_nak_intr(dwc_otg_hcd, hc, hc_regs, qtd);
++ }
++ if (hcint.b.ack) {
++ if(!hcint.b.chhltd)
++ retval |= handle_hc_ack_intr(dwc_otg_hcd, hc, hc_regs, qtd);
++ }
++ if (hcint.b.nyet) {
++ retval |= handle_hc_nyet_intr(dwc_otg_hcd, hc, hc_regs, qtd);
++ }
++ if (hcint.b.xacterr) {
++ retval |= handle_hc_xacterr_intr(dwc_otg_hcd, hc, hc_regs, qtd);
++ }
++ if (hcint.b.bblerr) {
++ retval |= handle_hc_babble_intr(dwc_otg_hcd, hc, hc_regs, qtd);
++ }
++ if (hcint.b.frmovrun) {
++ retval |=
++ handle_hc_frmovrun_intr(dwc_otg_hcd, hc, hc_regs, qtd);
++ }
++ if (hcint.b.datatglerr) {
++ retval |=
++ handle_hc_datatglerr_intr(dwc_otg_hcd, hc, hc_regs, qtd);
++ }
++
++ return retval;
++}
++#endif /* DWC_DEVICE_ONLY */
+diff -urN linux-3.10/drivers/usb/host/dwc_otg/dwc_otg_hcd_linux.c linux-rpi-3.10.y/drivers/usb/host/dwc_otg/dwc_otg_hcd_linux.c
+--- linux-3.10/drivers/usb/host/dwc_otg/dwc_otg_hcd_linux.c 1970-01-01 01:00:00.000000000 +0100
++++ linux-rpi-3.10.y/drivers/usb/host/dwc_otg/dwc_otg_hcd_linux.c 2013-07-06 15:25:50.000000000 +0100
+@@ -0,0 +1,955 @@
++
++/* ==========================================================================
++ * $File: //dwh/usb_iip/dev/software/otg/linux/drivers/dwc_otg_hcd_linux.c $
++ * $Revision: #20 $
++ * $Date: 2011/10/26 $
++ * $Change: 1872981 $
++ *
++ * Synopsys HS OTG Linux Software Driver and documentation (hereinafter,
++ * "Software") is an Unsupported proprietary work of Synopsys, Inc. unless
++ * otherwise expressly agreed to in writing between Synopsys and you.
++ *
++ * The Software IS NOT an item of Licensed Software or Licensed Product under
++ * any End User Software License Agreement or Agreement for Licensed Product
++ * with Synopsys or any supplement thereto. You are permitted to use and
++ * redistribute this Software in source and binary forms, with or without
++ * modification, provided that redistributions of source code must retain this
++ * notice. You may not view, use, disclose, copy or distribute this file or
++ * any information contained herein except pursuant to this license grant from
++ * Synopsys. If you do not agree with this notice, including the disclaimer
++ * below, then you are not authorized to use the Software.
++ *
++ * THIS SOFTWARE IS BEING DISTRIBUTED BY SYNOPSYS SOLELY ON AN "AS IS" BASIS
++ * AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
++ * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE
++ * ARE HEREBY DISCLAIMED. IN NO EVENT SHALL SYNOPSYS BE LIABLE FOR ANY DIRECT,
++ * INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES
++ * (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR
++ * SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER
++ * CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT
++ * LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY
++ * OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH
++ * DAMAGE.
++ * ========================================================================== */
++#ifndef DWC_DEVICE_ONLY
++
++/**
++ * @file
++ *
++ * This file contains the implementation of the HCD. In Linux, the HCD
++ * implements the hc_driver API.
++ */
++#include <linux/kernel.h>
++#include <linux/module.h>
++#include <linux/moduleparam.h>
++#include <linux/init.h>
++#include <linux/device.h>
++#include <linux/errno.h>
++#include <linux/list.h>
++#include <linux/interrupt.h>
++#include <linux/string.h>
++#include <linux/dma-mapping.h>
++#include <linux/version.h>
++#include <asm/io.h>
++#include <asm/fiq.h>
++#include <linux/usb.h>
++#if LINUX_VERSION_CODE < KERNEL_VERSION(2,6,35)
++#include <../drivers/usb/core/hcd.h>
++#else
++#include <linux/usb/hcd.h>
++#endif
++
++#if (LINUX_VERSION_CODE >= KERNEL_VERSION(2,6,30))
++#define USB_URB_EP_LINKING 1
++#else
++#define USB_URB_EP_LINKING 0
++#endif
++
++#include "dwc_otg_hcd_if.h"
++#include "dwc_otg_dbg.h"
++#include "dwc_otg_driver.h"
++#include "dwc_otg_hcd.h"
++#include "dwc_otg_mphi_fix.h"
++
++/**
++ * Gets the endpoint number from a _bEndpointAddress argument. The endpoint is
++ * qualified with its direction (possible 32 endpoints per device).
++ */
++#define dwc_ep_addr_to_endpoint(_bEndpointAddress_) ((_bEndpointAddress_ & USB_ENDPOINT_NUMBER_MASK) | \
++ ((_bEndpointAddress_ & USB_DIR_IN) != 0) << 4)
++
++static const char dwc_otg_hcd_name[] = "dwc_otg_hcd";
++
++extern bool fiq_fix_enable;
++
++/** @name Linux HC Driver API Functions */
++/** @{ */
++/* manage i/o requests, device state */
++static int dwc_otg_urb_enqueue(struct usb_hcd *hcd,
++#if LINUX_VERSION_CODE < KERNEL_VERSION(2,6,28)
++ struct usb_host_endpoint *ep,
++#endif
++ struct urb *urb, gfp_t mem_flags);
++
++#if LINUX_VERSION_CODE < KERNEL_VERSION(2,6,30)
++#if LINUX_VERSION_CODE < KERNEL_VERSION(2,6,28)
++static int dwc_otg_urb_dequeue(struct usb_hcd *hcd, struct urb *urb);
++#endif
++#else /* kernels at or post 2.6.30 */
++static int dwc_otg_urb_dequeue(struct usb_hcd *hcd,
++ struct urb *urb, int status);
++#endif /* LINUX_VERSION_CODE < KERNEL_VERSION(2,6,30) */
++
++static void endpoint_disable(struct usb_hcd *hcd, struct usb_host_endpoint *ep);
++#if LINUX_VERSION_CODE >= KERNEL_VERSION(2,6,30)
++static void endpoint_reset(struct usb_hcd *hcd, struct usb_host_endpoint *ep);
++#endif
++static irqreturn_t dwc_otg_hcd_irq(struct usb_hcd *hcd);
++extern int hcd_start(struct usb_hcd *hcd);
++extern void hcd_stop(struct usb_hcd *hcd);
++static int get_frame_number(struct usb_hcd *hcd);
++extern int hub_status_data(struct usb_hcd *hcd, char *buf);
++extern int hub_control(struct usb_hcd *hcd,
++ u16 typeReq,
++ u16 wValue, u16 wIndex, char *buf, u16 wLength);
++
++struct wrapper_priv_data {
++ dwc_otg_hcd_t *dwc_otg_hcd;
++};
++
++/** @} */
++
++static struct hc_driver dwc_otg_hc_driver = {
++
++ .description = dwc_otg_hcd_name,
++ .product_desc = "DWC OTG Controller",
++ .hcd_priv_size = sizeof(struct wrapper_priv_data),
++
++ .irq = dwc_otg_hcd_irq,
++
++ .flags = HCD_MEMORY | HCD_USB2,
++
++ //.reset =
++ .start = hcd_start,
++ //.suspend =
++ //.resume =
++ .stop = hcd_stop,
++
++ .urb_enqueue = dwc_otg_urb_enqueue,
++ .urb_dequeue = dwc_otg_urb_dequeue,
++ .endpoint_disable = endpoint_disable,
++#if LINUX_VERSION_CODE >= KERNEL_VERSION(2,6,30)
++ .endpoint_reset = endpoint_reset,
++#endif
++ .get_frame_number = get_frame_number,
++
++ .hub_status_data = hub_status_data,
++ .hub_control = hub_control,
++ //.bus_suspend =
++ //.bus_resume =
++};
++
++/** Gets the dwc_otg_hcd from a struct usb_hcd */
++static inline dwc_otg_hcd_t *hcd_to_dwc_otg_hcd(struct usb_hcd *hcd)
++{
++ struct wrapper_priv_data *p;
++ p = (struct wrapper_priv_data *)(hcd->hcd_priv);
++ return p->dwc_otg_hcd;
++}
++
++/** Gets the struct usb_hcd that contains a dwc_otg_hcd_t. */
++static inline struct usb_hcd *dwc_otg_hcd_to_hcd(dwc_otg_hcd_t * dwc_otg_hcd)
++{
++ return dwc_otg_hcd_get_priv_data(dwc_otg_hcd);
++}
++
++/** Gets the usb_host_endpoint associated with an URB. */
++inline struct usb_host_endpoint *dwc_urb_to_endpoint(struct urb *urb)
++{
++ struct usb_device *dev = urb->dev;
++ int ep_num = usb_pipeendpoint(urb->pipe);
++
++ if (usb_pipein(urb->pipe))
++ return dev->ep_in[ep_num];
++ else
++ return dev->ep_out[ep_num];
++}
++
++static int _disconnect(dwc_otg_hcd_t * hcd)
++{
++ struct usb_hcd *usb_hcd = dwc_otg_hcd_to_hcd(hcd);
++
++ usb_hcd->self.is_b_host = 0;
++ return 0;
++}
++
++static int _start(dwc_otg_hcd_t * hcd)
++{
++ struct usb_hcd *usb_hcd = dwc_otg_hcd_to_hcd(hcd);
++
++ usb_hcd->self.is_b_host = dwc_otg_hcd_is_b_host(hcd);
++ hcd_start(usb_hcd);
++
++ return 0;
++}
++
++static int _hub_info(dwc_otg_hcd_t * hcd, void *urb_handle, uint32_t * hub_addr,
++ uint32_t * port_addr)
++{
++ struct urb *urb = (struct urb *)urb_handle;
++ struct usb_bus *bus;
++#if 1 //GRAYG - temporary
++ if (NULL == urb_handle)
++ DWC_ERROR("**** %s - NULL URB handle\n", __func__);//GRAYG
++ if (NULL == urb->dev)
++ DWC_ERROR("**** %s - URB has no device\n", __func__);//GRAYG
++ if (NULL == port_addr)
++ DWC_ERROR("**** %s - NULL port_address\n", __func__);//GRAYG
++#endif
++ if (urb->dev->tt) {
++ if (NULL == urb->dev->tt->hub) {
++ DWC_ERROR("**** %s - (URB's transactor has no TT - giving no hub)\n",
++ __func__); //GRAYG
++ //*hub_addr = (u8)usb_pipedevice(urb->pipe); //GRAYG
++ *hub_addr = 0; //GRAYG
++ // we probably shouldn't have a transaction translator if
++ // there's no associated hub?
++ } else {
++ bus = hcd_to_bus(dwc_otg_hcd_to_hcd(hcd));
++ if (urb->dev->tt->hub == bus->root_hub)
++ *hub_addr = 0;
++ else
++ *hub_addr = urb->dev->tt->hub->devnum;
++ }
++ *port_addr = urb->dev->tt->multi ? urb->dev->ttport : 1;
++ } else {
++ *hub_addr = 0;
++ *port_addr = urb->dev->ttport;
++ }
++ return 0;
++}
++
++static int _speed(dwc_otg_hcd_t * hcd, void *urb_handle)
++{
++ struct urb *urb = (struct urb *)urb_handle;
++ return urb->dev->speed;
++}
++
++static int _get_b_hnp_enable(dwc_otg_hcd_t * hcd)
++{
++ struct usb_hcd *usb_hcd = dwc_otg_hcd_to_hcd(hcd);
++ return usb_hcd->self.b_hnp_enable;
++}
++
++static void allocate_bus_bandwidth(struct usb_hcd *hcd, uint32_t bw,
++ struct urb *urb)
++{
++ hcd_to_bus(hcd)->bandwidth_allocated += bw / urb->interval;
++ if (usb_pipetype(urb->pipe) == PIPE_ISOCHRONOUS) {
++ hcd_to_bus(hcd)->bandwidth_isoc_reqs++;
++ } else {
++ hcd_to_bus(hcd)->bandwidth_int_reqs++;
++ }
++}
++
++static void free_bus_bandwidth(struct usb_hcd *hcd, uint32_t bw,
++ struct urb *urb)
++{
++ hcd_to_bus(hcd)->bandwidth_allocated -= bw / urb->interval;
++ if (usb_pipetype(urb->pipe) == PIPE_ISOCHRONOUS) {
++ hcd_to_bus(hcd)->bandwidth_isoc_reqs--;
++ } else {
++ hcd_to_bus(hcd)->bandwidth_int_reqs--;
++ }
++}
++
++/**
++ * Sets the final status of an URB and returns it to the device driver. Any
++ * required cleanup of the URB is performed. The HCD lock should be held on
++ * entry.
++ */
++static int _complete(dwc_otg_hcd_t * hcd, void *urb_handle,
++ dwc_otg_hcd_urb_t * dwc_otg_urb, int32_t status)
++{
++ struct urb *urb = (struct urb *)urb_handle;
++ urb_tq_entry_t *new_entry;
++ int rc = 0;
++ if (CHK_DEBUG_LEVEL(DBG_HCDV | DBG_HCD_URB)) {
++ DWC_PRINTF("%s: urb %p, device %d, ep %d %s, status=%d\n",
++ __func__, urb, usb_pipedevice(urb->pipe),
++ usb_pipeendpoint(urb->pipe),
++ usb_pipein(urb->pipe) ? "IN" : "OUT", status);
++ if (usb_pipetype(urb->pipe) == PIPE_ISOCHRONOUS) {
++ int i;
++ for (i = 0; i < urb->number_of_packets; i++) {
++ DWC_PRINTF(" ISO Desc %d status: %d\n",
++ i, urb->iso_frame_desc[i].status);
++ }
++ }
++ }
++ new_entry = DWC_ALLOC_ATOMIC(sizeof(urb_tq_entry_t));
++ urb->actual_length = dwc_otg_hcd_urb_get_actual_length(dwc_otg_urb);
++ /* Convert status value. */
++ switch (status) {
++ case -DWC_E_PROTOCOL:
++ status = -EPROTO;
++ break;
++ case -DWC_E_IN_PROGRESS:
++ status = -EINPROGRESS;
++ break;
++ case -DWC_E_PIPE:
++ status = -EPIPE;
++ break;
++ case -DWC_E_IO:
++ status = -EIO;
++ break;
++ case -DWC_E_TIMEOUT:
++ status = -ETIMEDOUT;
++ break;
++ case -DWC_E_OVERFLOW:
++ status = -EOVERFLOW;
++ break;
++ default:
++ if (status) {
++ DWC_PRINTF("Uknown urb status %d\n", status);
++
++ }
++ }
++
++ if (usb_pipetype(urb->pipe) == PIPE_ISOCHRONOUS) {
++ int i;
++
++ urb->error_count = dwc_otg_hcd_urb_get_error_count(dwc_otg_urb);
++ for (i = 0; i < urb->number_of_packets; ++i) {
++ urb->iso_frame_desc[i].actual_length =
++ dwc_otg_hcd_urb_get_iso_desc_actual_length
++ (dwc_otg_urb, i);
++ urb->iso_frame_desc[i].status =
++ dwc_otg_hcd_urb_get_iso_desc_status(dwc_otg_urb, i);
++ }
++ }
++
++ urb->status = status;
++ urb->hcpriv = NULL;
++ if (!status) {
++ if ((urb->transfer_flags & URB_SHORT_NOT_OK) &&
++ (urb->actual_length < urb->transfer_buffer_length)) {
++ urb->status = -EREMOTEIO;
++ }
++ }
++
++ if ((usb_pipetype(urb->pipe) == PIPE_ISOCHRONOUS) ||
++ (usb_pipetype(urb->pipe) == PIPE_INTERRUPT)) {
++ struct usb_host_endpoint *ep = dwc_urb_to_endpoint(urb);
++ if (ep) {
++ free_bus_bandwidth(dwc_otg_hcd_to_hcd(hcd),
++ dwc_otg_hcd_get_ep_bandwidth(hcd,
++ ep->hcpriv),
++ urb);
++ }
++ }
++
++ DWC_FREE(dwc_otg_urb);
++ if (!new_entry) {
++ DWC_ERROR("dwc_otg_hcd: complete: cannot allocate URB TQ entry\n");
++ urb->status = -EPROTO;
++ /* don't schedule the tasklet -
++ * directly return the packet here with error. */
++#if USB_URB_EP_LINKING
++ usb_hcd_unlink_urb_from_ep(dwc_otg_hcd_to_hcd(hcd), urb);
++#endif
++#if LINUX_VERSION_CODE < KERNEL_VERSION(2,6,28)
++ usb_hcd_giveback_urb(dwc_otg_hcd_to_hcd(hcd), urb);
++#else
++ usb_hcd_giveback_urb(dwc_otg_hcd_to_hcd(hcd), urb, urb->status);
++#endif
++ } else {
++ new_entry->urb = urb;
++#if USB_URB_EP_LINKING
++ rc = usb_hcd_check_unlink_urb(dwc_otg_hcd_to_hcd(hcd), urb, urb->status);
++ if(0 == rc) {
++ usb_hcd_unlink_urb_from_ep(dwc_otg_hcd_to_hcd(hcd), urb);
++ }
++#endif
++ if(0 == rc) {
++ DWC_TAILQ_INSERT_TAIL(&hcd->completed_urb_list, new_entry,
++ urb_tq_entries);
++ DWC_TASK_HI_SCHEDULE(hcd->completion_tasklet);
++ }
++ }
++ return 0;
++}
++
++static struct dwc_otg_hcd_function_ops hcd_fops = {
++ .start = _start,
++ .disconnect = _disconnect,
++ .hub_info = _hub_info,
++ .speed = _speed,
++ .complete = _complete,
++ .get_b_hnp_enable = _get_b_hnp_enable,
++};
++
++static struct fiq_handler fh = {
++ .name = "usb_fiq",
++};
++static uint8_t fiqStack[1024];
++
++extern mphi_regs_t c_mphi_regs;
++/**
++ * Initializes the HCD. This function allocates memory for and initializes the
++ * static parts of the usb_hcd and dwc_otg_hcd structures. It also registers the
++ * USB bus with the core and calls the hc_driver->start() function. It returns
++ * a negative error on failure.
++ */
++int hcd_init(dwc_bus_dev_t *_dev)
++{
++ struct usb_hcd *hcd = NULL;
++ dwc_otg_hcd_t *dwc_otg_hcd = NULL;
++ dwc_otg_device_t *otg_dev = DWC_OTG_BUSDRVDATA(_dev);
++ int retval = 0;
++ u64 dmamask;
++ struct pt_regs regs;
++
++ DWC_DEBUGPL(DBG_HCD, "DWC OTG HCD INIT otg_dev=%p\n", otg_dev);
++
++ /* Set device flags indicating whether the HCD supports DMA. */
++ if (dwc_otg_is_dma_enable(otg_dev->core_if))
++ dmamask = DMA_BIT_MASK(32);
++ else
++ dmamask = 0;
++
++#if defined(LM_INTERFACE) || defined(PLATFORM_INTERFACE)
++ dma_set_mask(&_dev->dev, dmamask);
++ dma_set_coherent_mask(&_dev->dev, dmamask);
++#elif defined(PCI_INTERFACE)
++ pci_set_dma_mask(_dev, dmamask);
++ pci_set_consistent_dma_mask(_dev, dmamask);
++#endif
++
++ if (fiq_fix_enable)
++ {
++ // Set up fiq
++ claim_fiq(&fh);
++ set_fiq_handler(__FIQ_Branch, 4);
++ memset(&regs,0,sizeof(regs));
++ regs.ARM_r8 = (long)dwc_otg_hcd_handle_fiq;
++ regs.ARM_r9 = (long)0;
++ regs.ARM_sp = (long)fiqStack + sizeof(fiqStack) - 4;
++ set_fiq_regs(&regs);
++ }
++
++ /*
++ * Allocate memory for the base HCD plus the DWC OTG HCD.
++ * Initialize the base HCD.
++ */
++#if LINUX_VERSION_CODE < KERNEL_VERSION(2,6,30)
++ hcd = usb_create_hcd(&dwc_otg_hc_driver, &_dev->dev, _dev->dev.bus_id);
++#else
++ hcd = usb_create_hcd(&dwc_otg_hc_driver, &_dev->dev, dev_name(&_dev->dev));
++ hcd->has_tt = 1;
++// hcd->uses_new_polling = 1;
++// hcd->poll_rh = 0;
++#endif
++ if (!hcd) {
++ retval = -ENOMEM;
++ goto error1;
++ }
++
++ hcd->regs = otg_dev->os_dep.base;
++
++ if (fiq_fix_enable)
++ {
++ //Set the mphi periph to the required registers
++ c_mphi_regs.base = otg_dev->os_dep.mphi_base;
++ c_mphi_regs.ctrl = otg_dev->os_dep.mphi_base + 0x4c;
++ c_mphi_regs.outdda = otg_dev->os_dep.mphi_base + 0x28;
++ c_mphi_regs.outddb = otg_dev->os_dep.mphi_base + 0x2c;
++ c_mphi_regs.intstat = otg_dev->os_dep.mphi_base + 0x50;
++
++ //Enable mphi peripheral
++ writel((1<<31),c_mphi_regs.ctrl);
++#ifdef DEBUG
++ if (readl(c_mphi_regs.ctrl) & 0x80000000)
++ DWC_DEBUGPL(DBG_USER, "MPHI periph has been enabled\n");
++ else
++ DWC_DEBUGPL(DBG_USER, "MPHI periph has NOT been enabled\n");
++#endif
++ // Enable FIQ interrupt from USB peripheral
++ enable_fiq(INTERRUPT_VC_USB);
++ }
++ /* Initialize the DWC OTG HCD. */
++ dwc_otg_hcd = dwc_otg_hcd_alloc_hcd();
++ if (!dwc_otg_hcd) {
++ goto error2;
++ }
++ ((struct wrapper_priv_data *)(hcd->hcd_priv))->dwc_otg_hcd =
++ dwc_otg_hcd;
++ otg_dev->hcd = dwc_otg_hcd;
++
++ if (dwc_otg_hcd_init(dwc_otg_hcd, otg_dev->core_if)) {
++ goto error2;
++ }
++
++ otg_dev->hcd->otg_dev = otg_dev;
++ hcd->self.otg_port = dwc_otg_hcd_otg_port(dwc_otg_hcd);
++#if LINUX_VERSION_CODE >= KERNEL_VERSION(2,6,33) //don't support for LM(with 2.6.20.1 kernel)
++#if LINUX_VERSION_CODE < KERNEL_VERSION(2,6,35) //version field absent later
++ hcd->self.otg_version = dwc_otg_get_otg_version(otg_dev->core_if);
++#endif
++ /* Don't support SG list at this point */
++ hcd->self.sg_tablesize = 0;
++#endif
++ /*
++ * Finish generic HCD initialization and start the HCD. This function
++ * allocates the DMA buffer pool, registers the USB bus, requests the
++ * IRQ line, and calls hcd_start method.
++ */
++#ifdef PLATFORM_INTERFACE
++ retval = usb_add_hcd(hcd, platform_get_irq(_dev, 0), IRQF_SHARED | IRQF_DISABLED);
++#else
++ retval = usb_add_hcd(hcd, _dev->irq, IRQF_SHARED | IRQF_DISABLED);
++#endif
++ if (retval < 0) {
++ goto error2;
++ }
++
++ dwc_otg_hcd_set_priv_data(dwc_otg_hcd, hcd);
++ return 0;
++
++error2:
++ usb_put_hcd(hcd);
++error1:
++ return retval;
++}
++
++/**
++ * Removes the HCD.
++ * Frees memory and resources associated with the HCD and deregisters the bus.
++ */
++void hcd_remove(dwc_bus_dev_t *_dev)
++{
++ dwc_otg_device_t *otg_dev = DWC_OTG_BUSDRVDATA(_dev);
++ dwc_otg_hcd_t *dwc_otg_hcd;
++ struct usb_hcd *hcd;
++
++ DWC_DEBUGPL(DBG_HCD, "DWC OTG HCD REMOVE otg_dev=%p\n", otg_dev);
++
++ if (!otg_dev) {
++ DWC_DEBUGPL(DBG_ANY, "%s: otg_dev NULL!\n", __func__);
++ return;
++ }
++
++ dwc_otg_hcd = otg_dev->hcd;
++
++ if (!dwc_otg_hcd) {
++ DWC_DEBUGPL(DBG_ANY, "%s: otg_dev->hcd NULL!\n", __func__);
++ return;
++ }
++
++ hcd = dwc_otg_hcd_to_hcd(dwc_otg_hcd);
++
++ if (!hcd) {
++ DWC_DEBUGPL(DBG_ANY,
++ "%s: dwc_otg_hcd_to_hcd(dwc_otg_hcd) NULL!\n",
++ __func__);
++ return;
++ }
++ usb_remove_hcd(hcd);
++ dwc_otg_hcd_set_priv_data(dwc_otg_hcd, NULL);
++ dwc_otg_hcd_remove(dwc_otg_hcd);
++ usb_put_hcd(hcd);
++}
++
++/* =========================================================================
++ * Linux HC Driver Functions
++ * ========================================================================= */
++
++/** Initializes the DWC_otg controller and its root hub and prepares it for host
++ * mode operation. Activates the root port. Returns 0 on success and a negative
++ * error code on failure. */
++int hcd_start(struct usb_hcd *hcd)
++{
++ dwc_otg_hcd_t *dwc_otg_hcd = hcd_to_dwc_otg_hcd(hcd);
++ struct usb_bus *bus;
++
++ DWC_DEBUGPL(DBG_HCD, "DWC OTG HCD START\n");
++ bus = hcd_to_bus(hcd);
++
++ hcd->state = HC_STATE_RUNNING;
++ if (dwc_otg_hcd_start(dwc_otg_hcd, &hcd_fops)) {
++ return 0;
++ }
++
++ /* Initialize and connect root hub if one is not already attached */
++ if (bus->root_hub) {
++ DWC_DEBUGPL(DBG_HCD, "DWC OTG HCD Has Root Hub\n");
++ /* Inform the HUB driver to resume. */
++ usb_hcd_resume_root_hub(hcd);
++ }
++
++ return 0;
++}
++
++/**
++ * Halts the DWC_otg host mode operations in a clean manner. USB transfers are
++ * stopped.
++ */
++void hcd_stop(struct usb_hcd *hcd)
++{
++ dwc_otg_hcd_t *dwc_otg_hcd = hcd_to_dwc_otg_hcd(hcd);
++
++ dwc_otg_hcd_stop(dwc_otg_hcd);
++}
++
++/** Returns the current frame number. */
++static int get_frame_number(struct usb_hcd *hcd)
++{
++ dwc_otg_hcd_t *dwc_otg_hcd = hcd_to_dwc_otg_hcd(hcd);
++
++ return dwc_otg_hcd_get_frame_number(dwc_otg_hcd);
++}
++
++#ifdef DEBUG
++static void dump_urb_info(struct urb *urb, char *fn_name)
++{
++ DWC_PRINTF("%s, urb %p\n", fn_name, urb);
++ DWC_PRINTF(" Device address: %d\n", usb_pipedevice(urb->pipe));
++ DWC_PRINTF(" Endpoint: %d, %s\n", usb_pipeendpoint(urb->pipe),
++ (usb_pipein(urb->pipe) ? "IN" : "OUT"));
++ DWC_PRINTF(" Endpoint type: %s\n", ( {
++ char *pipetype;
++ switch (usb_pipetype(urb->pipe)) {
++case PIPE_CONTROL:
++pipetype = "CONTROL"; break; case PIPE_BULK:
++pipetype = "BULK"; break; case PIPE_INTERRUPT:
++pipetype = "INTERRUPT"; break; case PIPE_ISOCHRONOUS:
++pipetype = "ISOCHRONOUS"; break; default:
++ pipetype = "UNKNOWN"; break;};
++ pipetype;}
++ )) ;
++ DWC_PRINTF(" Speed: %s\n", ( {
++ char *speed; switch (urb->dev->speed) {
++case USB_SPEED_HIGH:
++speed = "HIGH"; break; case USB_SPEED_FULL:
++speed = "FULL"; break; case USB_SPEED_LOW:
++speed = "LOW"; break; default:
++ speed = "UNKNOWN"; break;};
++ speed;}
++ )) ;
++ DWC_PRINTF(" Max packet size: %d\n",
++ usb_maxpacket(urb->dev, urb->pipe, usb_pipeout(urb->pipe)));
++ DWC_PRINTF(" Data buffer length: %d\n", urb->transfer_buffer_length);
++ DWC_PRINTF(" Transfer buffer: %p, Transfer DMA: %p\n",
++ urb->transfer_buffer, (void *)urb->transfer_dma);
++ DWC_PRINTF(" Setup buffer: %p, Setup DMA: %p\n",
++ urb->setup_packet, (void *)urb->setup_dma);
++ DWC_PRINTF(" Interval: %d\n", urb->interval);
++ if (usb_pipetype(urb->pipe) == PIPE_ISOCHRONOUS) {
++ int i;
++ for (i = 0; i < urb->number_of_packets; i++) {
++ DWC_PRINTF(" ISO Desc %d:\n", i);
++ DWC_PRINTF(" offset: %d, length %d\n",
++ urb->iso_frame_desc[i].offset,
++ urb->iso_frame_desc[i].length);
++ }
++ }
++}
++#endif
++
++/** Starts processing a USB transfer request specified by a USB Request Block
++ * (URB). mem_flags indicates the type of memory allocation to use while
++ * processing this URB. */
++static int dwc_otg_urb_enqueue(struct usb_hcd *hcd,
++#if LINUX_VERSION_CODE < KERNEL_VERSION(2,6,28)
++ struct usb_host_endpoint *ep,
++#endif
++ struct urb *urb, gfp_t mem_flags)
++{
++ int retval = 0;
++#if LINUX_VERSION_CODE >= KERNEL_VERSION(2,6,28)
++ struct usb_host_endpoint *ep = urb->ep;
++#endif
++#if USB_URB_EP_LINKING
++ dwc_irqflags_t irqflags;
++#endif
++ void **ref_ep_hcpriv = &ep->hcpriv;
++ dwc_otg_hcd_t *dwc_otg_hcd = hcd_to_dwc_otg_hcd(hcd);
++ dwc_otg_hcd_urb_t *dwc_otg_urb;
++ int i;
++ int alloc_bandwidth = 0;
++ uint8_t ep_type = 0;
++ uint32_t flags = 0;
++ void *buf;
++
++#ifdef DEBUG
++ if (CHK_DEBUG_LEVEL(DBG_HCDV | DBG_HCD_URB)) {
++ dump_urb_info(urb, "dwc_otg_urb_enqueue");
++ }
++#endif
++
++ if (!urb->transfer_buffer && urb->transfer_buffer_length)
++ return -EINVAL;
++
++ if ((usb_pipetype(urb->pipe) == PIPE_ISOCHRONOUS)
++ || (usb_pipetype(urb->pipe) == PIPE_INTERRUPT)) {
++ if (!dwc_otg_hcd_is_bandwidth_allocated
++ (dwc_otg_hcd, ref_ep_hcpriv)) {
++ alloc_bandwidth = 1;
++ }
++ }
++
++ switch (usb_pipetype(urb->pipe)) {
++ case PIPE_CONTROL:
++ ep_type = USB_ENDPOINT_XFER_CONTROL;
++ break;
++ case PIPE_ISOCHRONOUS:
++ ep_type = USB_ENDPOINT_XFER_ISOC;
++ break;
++ case PIPE_BULK:
++ ep_type = USB_ENDPOINT_XFER_BULK;
++ break;
++ case PIPE_INTERRUPT:
++ ep_type = USB_ENDPOINT_XFER_INT;
++ break;
++ default:
++ DWC_WARN("Wrong EP type - %d\n", usb_pipetype(urb->pipe));
++ }
++
++ /* # of packets is often 0 - do we really need to call this then? */
++ dwc_otg_urb = dwc_otg_hcd_urb_alloc(dwc_otg_hcd,
++ urb->number_of_packets,
++ mem_flags == GFP_ATOMIC ? 1 : 0);
++
++ if(dwc_otg_urb == NULL)
++ return -ENOMEM;
++
++ urb->hcpriv = dwc_otg_urb;
++ if (!dwc_otg_urb && urb->number_of_packets)
++ return -ENOMEM;
++
++ dwc_otg_hcd_urb_set_pipeinfo(dwc_otg_urb, usb_pipedevice(urb->pipe),
++ usb_pipeendpoint(urb->pipe), ep_type,
++ usb_pipein(urb->pipe),
++ usb_maxpacket(urb->dev, urb->pipe,
++ !(usb_pipein(urb->pipe))));
++
++ buf = urb->transfer_buffer;
++ if (hcd->self.uses_dma) {
++ /*
++ * Calculate virtual address from physical address,
++ * because some class driver may not fill transfer_buffer.
++ * In Buffer DMA mode virual address is used,
++ * when handling non DWORD aligned buffers.
++ */
++ //buf = phys_to_virt(urb->transfer_dma);
++ // DMA addresses are bus addresses not physical addresses!
++ buf = dma_to_virt(&urb->dev->dev, urb->transfer_dma);
++ }
++
++ if (!(urb->transfer_flags & URB_NO_INTERRUPT))
++ flags |= URB_GIVEBACK_ASAP;
++ if (urb->transfer_flags & URB_ZERO_PACKET)
++ flags |= URB_SEND_ZERO_PACKET;
++
++ dwc_otg_hcd_urb_set_params(dwc_otg_urb, urb, buf,
++ urb->transfer_dma,
++ urb->transfer_buffer_length,
++ urb->setup_packet,
++ urb->setup_dma, flags, urb->interval);
++
++ for (i = 0; i < urb->number_of_packets; ++i) {
++ dwc_otg_hcd_urb_set_iso_desc_params(dwc_otg_urb, i,
++ urb->
++ iso_frame_desc[i].offset,
++ urb->
++ iso_frame_desc[i].length);
++ }
++
++#if USB_URB_EP_LINKING
++ DWC_SPINLOCK_IRQSAVE(dwc_otg_hcd->lock, &irqflags);
++ retval = usb_hcd_link_urb_to_ep(hcd, urb);
++ DWC_SPINUNLOCK_IRQRESTORE(dwc_otg_hcd->lock, irqflags);
++ if (0 == retval)
++#endif
++ {
++ retval = dwc_otg_hcd_urb_enqueue(dwc_otg_hcd, dwc_otg_urb,
++ /*(dwc_otg_qh_t **)*/
++ ref_ep_hcpriv,
++ mem_flags == GFP_ATOMIC ? 1 : 0);
++ if (0 == retval) {
++ if (alloc_bandwidth) {
++ allocate_bus_bandwidth(hcd,
++ dwc_otg_hcd_get_ep_bandwidth(
++ dwc_otg_hcd, *ref_ep_hcpriv),
++ urb);
++ }
++ } else {
++#if USB_URB_EP_LINKING
++ dwc_irqflags_t irqflags;
++ DWC_DEBUGPL(DBG_HCD, "DWC OTG dwc_otg_hcd_urb_enqueue failed rc %d\n", retval);
++ DWC_SPINLOCK_IRQSAVE(dwc_otg_hcd->lock, &irqflags);
++ usb_hcd_unlink_urb_from_ep(hcd, urb);
++ DWC_SPINUNLOCK_IRQRESTORE(dwc_otg_hcd->lock, irqflags);
++#endif
++ if (retval == -DWC_E_NO_DEVICE) {
++ retval = -ENODEV;
++ }
++ }
++ }
++ return retval;
++}
++
++/** Aborts/cancels a USB transfer request. Always returns 0 to indicate
++ * success. */
++#if LINUX_VERSION_CODE < KERNEL_VERSION(2,6,28)
++static int dwc_otg_urb_dequeue(struct usb_hcd *hcd, struct urb *urb)
++#else
++static int dwc_otg_urb_dequeue(struct usb_hcd *hcd, struct urb *urb, int status)
++#endif
++{
++ dwc_irqflags_t flags;
++ dwc_otg_hcd_t *dwc_otg_hcd;
++ int rc;
++
++ DWC_DEBUGPL(DBG_HCD, "DWC OTG HCD URB Dequeue\n");
++
++ dwc_otg_hcd = hcd_to_dwc_otg_hcd(hcd);
++
++#ifdef DEBUG
++ if (CHK_DEBUG_LEVEL(DBG_HCDV | DBG_HCD_URB)) {
++ dump_urb_info(urb, "dwc_otg_urb_dequeue");
++ }
++#endif
++
++ DWC_SPINLOCK_IRQSAVE(dwc_otg_hcd->lock, &flags);
++ rc = usb_hcd_check_unlink_urb(hcd, urb, status);
++ if (0 == rc) {
++ if(urb->hcpriv != NULL) {
++ dwc_otg_hcd_urb_dequeue(dwc_otg_hcd,
++ (dwc_otg_hcd_urb_t *)urb->hcpriv);
++
++ DWC_FREE(urb->hcpriv);
++ urb->hcpriv = NULL;
++ }
++ }
++
++ if (0 == rc) {
++ /* Higher layer software sets URB status. */
++#if USB_URB_EP_LINKING
++ usb_hcd_unlink_urb_from_ep(hcd, urb);
++#endif
++ DWC_SPINUNLOCK_IRQRESTORE(dwc_otg_hcd->lock, flags);
++#if LINUX_VERSION_CODE < KERNEL_VERSION(2,6,28)
++ usb_hcd_giveback_urb(hcd, urb);
++#else
++ usb_hcd_giveback_urb(hcd, urb, status);
++#endif
++ if (CHK_DEBUG_LEVEL(DBG_HCDV | DBG_HCD_URB)) {
++ DWC_PRINTF("Called usb_hcd_giveback_urb() \n");
++ DWC_PRINTF(" 1urb->status = %d\n", urb->status);
++ }
++ DWC_DEBUGPL(DBG_HCD, "DWC OTG HCD URB Dequeue OK\n");
++ } else {
++ DWC_SPINUNLOCK_IRQRESTORE(dwc_otg_hcd->lock, flags);
++ DWC_DEBUGPL(DBG_HCD, "DWC OTG HCD URB Dequeue failed - rc %d\n",
++ rc);
++ }
++
++ return rc;
++}
++
++/* Frees resources in the DWC_otg controller related to a given endpoint. Also
++ * clears state in the HCD related to the endpoint. Any URBs for the endpoint
++ * must already be dequeued. */
++static void endpoint_disable(struct usb_hcd *hcd, struct usb_host_endpoint *ep)
++{
++ dwc_otg_hcd_t *dwc_otg_hcd = hcd_to_dwc_otg_hcd(hcd);
++
++ DWC_DEBUGPL(DBG_HCD,
++ "DWC OTG HCD EP DISABLE: _bEndpointAddress=0x%02x, "
++ "endpoint=%d\n", ep->desc.bEndpointAddress,
++ dwc_ep_addr_to_endpoint(ep->desc.bEndpointAddress));
++ dwc_otg_hcd_endpoint_disable(dwc_otg_hcd, ep->hcpriv, 250);
++ ep->hcpriv = NULL;
++}
++
++#if LINUX_VERSION_CODE >= KERNEL_VERSION(2,6,30)
++/* Resets endpoint specific parameter values, in current version used to reset
++ * the data toggle(as a WA). This function can be called from usb_clear_halt routine */
++static void endpoint_reset(struct usb_hcd *hcd, struct usb_host_endpoint *ep)
++{
++ dwc_irqflags_t flags;
++ struct usb_device *udev = NULL;
++ int epnum = usb_endpoint_num(&ep->desc);
++ int is_out = usb_endpoint_dir_out(&ep->desc);
++ int is_control = usb_endpoint_xfer_control(&ep->desc);
++ dwc_otg_hcd_t *dwc_otg_hcd = hcd_to_dwc_otg_hcd(hcd);
++ struct device *dev = DWC_OTG_OS_GETDEV(dwc_otg_hcd->otg_dev->os_dep);
++
++ if (dev)
++ udev = to_usb_device(dev);
++ else
++ return;
++
++ DWC_DEBUGPL(DBG_HCD, "DWC OTG HCD EP RESET: Endpoint Num=0x%02d\n", epnum);
++
++ DWC_SPINLOCK_IRQSAVE(dwc_otg_hcd->lock, &flags);
++ usb_settoggle(udev, epnum, is_out, 0);
++ if (is_control)
++ usb_settoggle(udev, epnum, !is_out, 0);
++
++ if (ep->hcpriv) {
++ dwc_otg_hcd_endpoint_reset(dwc_otg_hcd, ep->hcpriv);
++ }
++ DWC_SPINUNLOCK_IRQRESTORE(dwc_otg_hcd->lock, flags);
++}
++#endif
++
++/** Handles host mode interrupts for the DWC_otg controller. Returns IRQ_NONE if
++ * there was no interrupt to handle. Returns IRQ_HANDLED if there was a valid
++ * interrupt.
++ *
++ * This function is called by the USB core when an interrupt occurs */
++static irqreturn_t dwc_otg_hcd_irq(struct usb_hcd *hcd)
++{
++ dwc_otg_hcd_t *dwc_otg_hcd = hcd_to_dwc_otg_hcd(hcd);
++ int32_t retval = dwc_otg_hcd_handle_intr(dwc_otg_hcd);
++ if (retval != 0) {
++ S3C2410X_CLEAR_EINTPEND();
++ }
++ return IRQ_RETVAL(retval);
++}
++
++/** Creates Status Change bitmap for the root hub and root port. The bitmap is
++ * returned in buf. Bit 0 is the status change indicator for the root hub. Bit 1
++ * is the status change indicator for the single root port. Returns 1 if either
++ * change indicator is 1, otherwise returns 0. */
++int hub_status_data(struct usb_hcd *hcd, char *buf)
++{
++ dwc_otg_hcd_t *dwc_otg_hcd = hcd_to_dwc_otg_hcd(hcd);
++
++ buf[0] = 0;
++ buf[0] |= (dwc_otg_hcd_is_status_changed(dwc_otg_hcd, 1)) << 1;
++
++ return (buf[0] != 0);
++}
++
++/** Handles hub class-specific requests. */
++int hub_control(struct usb_hcd *hcd,
++ u16 typeReq, u16 wValue, u16 wIndex, char *buf, u16 wLength)
++{
++ int retval;
++
++ retval = dwc_otg_hcd_hub_control(hcd_to_dwc_otg_hcd(hcd),
++ typeReq, wValue, wIndex, buf, wLength);
++
++ switch (retval) {
++ case -DWC_E_INVALID:
++ retval = -EINVAL;
++ break;
++ }
++
++ return retval;
++}
++
++#endif /* DWC_DEVICE_ONLY */
+diff -urN linux-3.10/drivers/usb/host/dwc_otg/dwc_otg_hcd_queue.c linux-rpi-3.10.y/drivers/usb/host/dwc_otg/dwc_otg_hcd_queue.c
+--- linux-3.10/drivers/usb/host/dwc_otg/dwc_otg_hcd_queue.c 1970-01-01 01:00:00.000000000 +0100
++++ linux-rpi-3.10.y/drivers/usb/host/dwc_otg/dwc_otg_hcd_queue.c 2013-07-06 15:25:50.000000000 +0100
+@@ -0,0 +1,958 @@
++/* ==========================================================================
++ * $File: //dwh/usb_iip/dev/software/otg/linux/drivers/dwc_otg_hcd_queue.c $
++ * $Revision: #44 $
++ * $Date: 2011/10/26 $
++ * $Change: 1873028 $
++ *
++ * Synopsys HS OTG Linux Software Driver and documentation (hereinafter,
++ * "Software") is an Unsupported proprietary work of Synopsys, Inc. unless
++ * otherwise expressly agreed to in writing between Synopsys and you.
++ *
++ * The Software IS NOT an item of Licensed Software or Licensed Product under
++ * any End User Software License Agreement or Agreement for Licensed Product
++ * with Synopsys or any supplement thereto. You are permitted to use and
++ * redistribute this Software in source and binary forms, with or without
++ * modification, provided that redistributions of source code must retain this
++ * notice. You may not view, use, disclose, copy or distribute this file or
++ * any information contained herein except pursuant to this license grant from
++ * Synopsys. If you do not agree with this notice, including the disclaimer
++ * below, then you are not authorized to use the Software.
++ *
++ * THIS SOFTWARE IS BEING DISTRIBUTED BY SYNOPSYS SOLELY ON AN "AS IS" BASIS
++ * AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
++ * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE
++ * ARE HEREBY DISCLAIMED. IN NO EVENT SHALL SYNOPSYS BE LIABLE FOR ANY DIRECT,
++ * INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES
++ * (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR
++ * SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER
++ * CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT
++ * LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY
++ * OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH
++ * DAMAGE.
++ * ========================================================================== */
++#ifndef DWC_DEVICE_ONLY
++
++/**
++ * @file
++ *
++ * This file contains the functions to manage Queue Heads and Queue
++ * Transfer Descriptors.
++ */
++
++#include "dwc_otg_hcd.h"
++#include "dwc_otg_regs.h"
++
++extern bool microframe_schedule;
++
++/**
++ * Free each QTD in the QH's QTD-list then free the QH. QH should already be
++ * removed from a list. QTD list should already be empty if called from URB
++ * Dequeue.
++ *
++ * @param hcd HCD instance.
++ * @param qh The QH to free.
++ */
++void dwc_otg_hcd_qh_free(dwc_otg_hcd_t * hcd, dwc_otg_qh_t * qh)
++{
++ dwc_otg_qtd_t *qtd, *qtd_tmp;
++
++ /* Free each QTD in the QTD list */
++ DWC_SPINLOCK(hcd->lock);
++ DWC_CIRCLEQ_FOREACH_SAFE(qtd, qtd_tmp, &qh->qtd_list, qtd_list_entry) {
++ DWC_CIRCLEQ_REMOVE(&qh->qtd_list, qtd, qtd_list_entry);
++ dwc_otg_hcd_qtd_free(qtd);
++ }
++
++ if (hcd->core_if->dma_desc_enable) {
++ dwc_otg_hcd_qh_free_ddma(hcd, qh);
++ } else if (qh->dw_align_buf) {
++ uint32_t buf_size;
++ if (qh->ep_type == UE_ISOCHRONOUS) {
++ buf_size = 4096;
++ } else {
++ buf_size = hcd->core_if->core_params->max_transfer_size;
++ }
++ DWC_DMA_FREE(buf_size, qh->dw_align_buf, qh->dw_align_buf_dma);
++ }
++
++ DWC_FREE(qh);
++ DWC_SPINUNLOCK(hcd->lock);
++ return;
++}
++
++#define BitStuffTime(bytecount) ((8 * 7* bytecount) / 6)
++#define HS_HOST_DELAY 5 /* nanoseconds */
++#define FS_LS_HOST_DELAY 1000 /* nanoseconds */
++#define HUB_LS_SETUP 333 /* nanoseconds */
++#define NS_TO_US(ns) ((ns + 500) / 1000)
++ /* convert & round nanoseconds to microseconds */
++
++static uint32_t calc_bus_time(int speed, int is_in, int is_isoc, int bytecount)
++{
++ unsigned long retval;
++
++ switch (speed) {
++ case USB_SPEED_HIGH:
++ if (is_isoc) {
++ retval =
++ ((38 * 8 * 2083) +
++ (2083 * (3 + BitStuffTime(bytecount)))) / 1000 +
++ HS_HOST_DELAY;
++ } else {
++ retval =
++ ((55 * 8 * 2083) +
++ (2083 * (3 + BitStuffTime(bytecount)))) / 1000 +
++ HS_HOST_DELAY;
++ }
++ break;
++ case USB_SPEED_FULL:
++ if (is_isoc) {
++ retval =
++ (8354 * (31 + 10 * BitStuffTime(bytecount))) / 1000;
++ if (is_in) {
++ retval = 7268 + FS_LS_HOST_DELAY + retval;
++ } else {
++ retval = 6265 + FS_LS_HOST_DELAY + retval;
++ }
++ } else {
++ retval =
++ (8354 * (31 + 10 * BitStuffTime(bytecount))) / 1000;
++ retval = 9107 + FS_LS_HOST_DELAY + retval;
++ }
++ break;
++ case USB_SPEED_LOW:
++ if (is_in) {
++ retval =
++ (67667 * (31 + 10 * BitStuffTime(bytecount))) /
++ 1000;
++ retval =
++ 64060 + (2 * HUB_LS_SETUP) + FS_LS_HOST_DELAY +
++ retval;
++ } else {
++ retval =
++ (66700 * (31 + 10 * BitStuffTime(bytecount))) /
++ 1000;
++ retval =
++ 64107 + (2 * HUB_LS_SETUP) + FS_LS_HOST_DELAY +
++ retval;
++ }
++ break;
++ default:
++ DWC_WARN("Unknown device speed\n");
++ retval = -1;
++ }
++
++ return NS_TO_US(retval);
++}
++
++/**
++ * Initializes a QH structure.
++ *
++ * @param hcd The HCD state structure for the DWC OTG controller.
++ * @param qh The QH to init.
++ * @param urb Holds the information about the device/endpoint that we need
++ * to initialize the QH.
++ */
++#define SCHEDULE_SLOP 10
++void qh_init(dwc_otg_hcd_t * hcd, dwc_otg_qh_t * qh, dwc_otg_hcd_urb_t * urb)
++{
++ char *speed, *type;
++ int dev_speed;
++ uint32_t hub_addr, hub_port;
++
++ dwc_memset(qh, 0, sizeof(dwc_otg_qh_t));
++
++ /* Initialize QH */
++ qh->ep_type = dwc_otg_hcd_get_pipe_type(&urb->pipe_info);
++ qh->ep_is_in = dwc_otg_hcd_is_pipe_in(&urb->pipe_info) ? 1 : 0;
++
++ qh->data_toggle = DWC_OTG_HC_PID_DATA0;
++ qh->maxp = dwc_otg_hcd_get_mps(&urb->pipe_info);
++ DWC_CIRCLEQ_INIT(&qh->qtd_list);
++ DWC_LIST_INIT(&qh->qh_list_entry);
++ qh->channel = NULL;
++
++ /* FS/LS Enpoint on HS Hub
++ * NOT virtual root hub */
++ dev_speed = hcd->fops->speed(hcd, urb->priv);
++
++ hcd->fops->hub_info(hcd, urb->priv, &hub_addr, &hub_port);
++ qh->do_split = 0;
++ if (microframe_schedule)
++ qh->speed = dev_speed;
++
++ qh->nak_frame = 0xffff;
++
++ if (((dev_speed == USB_SPEED_LOW) ||
++ (dev_speed == USB_SPEED_FULL)) &&
++ (hub_addr != 0 && hub_addr != 1)) {
++ DWC_DEBUGPL(DBG_HCD,
++ "QH init: EP %d: TT found at hub addr %d, for port %d\n",
++ dwc_otg_hcd_get_ep_num(&urb->pipe_info), hub_addr,
++ hub_port);
++ qh->do_split = 1;
++ }
++
++ if (qh->ep_type == UE_INTERRUPT || qh->ep_type == UE_ISOCHRONOUS) {
++ /* Compute scheduling parameters once and save them. */
++ hprt0_data_t hprt;
++
++ /** @todo Account for split transfers in the bus time. */
++ int bytecount =
++ dwc_hb_mult(qh->maxp) * dwc_max_packet(qh->maxp);
++
++ qh->usecs =
++ calc_bus_time((qh->do_split ? USB_SPEED_HIGH : dev_speed),
++ qh->ep_is_in, (qh->ep_type == UE_ISOCHRONOUS),
++ bytecount);
++ /* Start in a slightly future (micro)frame. */
++ qh->sched_frame = dwc_frame_num_inc(hcd->frame_number,
++ SCHEDULE_SLOP);
++ qh->interval = urb->interval;
++
++#if 0
++ /* Increase interrupt polling rate for debugging. */
++ if (qh->ep_type == UE_INTERRUPT) {
++ qh->interval = 8;
++ }
++#endif
++ hprt.d32 = DWC_READ_REG32(hcd->core_if->host_if->hprt0);
++ if ((hprt.b.prtspd == DWC_HPRT0_PRTSPD_HIGH_SPEED) &&
++ ((dev_speed == USB_SPEED_LOW) ||
++ (dev_speed == USB_SPEED_FULL))) {
++ qh->interval *= 8;
++ qh->sched_frame |= 0x7;
++ qh->start_split_frame = qh->sched_frame;
++ }
++
++ }
++
++ DWC_DEBUGPL(DBG_HCD, "DWC OTG HCD QH Initialized\n");
++ DWC_DEBUGPL(DBG_HCDV, "DWC OTG HCD QH - qh = %p\n", qh);
++ DWC_DEBUGPL(DBG_HCDV, "DWC OTG HCD QH - Device Address = %d\n",
++ dwc_otg_hcd_get_dev_addr(&urb->pipe_info));
++ DWC_DEBUGPL(DBG_HCDV, "DWC OTG HCD QH - Endpoint %d, %s\n",
++ dwc_otg_hcd_get_ep_num(&urb->pipe_info),
++ dwc_otg_hcd_is_pipe_in(&urb->pipe_info) ? "IN" : "OUT");
++ switch (dev_speed) {
++ case USB_SPEED_LOW:
++ qh->dev_speed = DWC_OTG_EP_SPEED_LOW;
++ speed = "low";
++ break;
++ case USB_SPEED_FULL:
++ qh->dev_speed = DWC_OTG_EP_SPEED_FULL;
++ speed = "full";
++ break;
++ case USB_SPEED_HIGH:
++ qh->dev_speed = DWC_OTG_EP_SPEED_HIGH;
++ speed = "high";
++ break;
++ default:
++ speed = "?";
++ break;
++ }
++ DWC_DEBUGPL(DBG_HCDV, "DWC OTG HCD QH - Speed = %s\n", speed);
++
++ switch (qh->ep_type) {
++ case UE_ISOCHRONOUS:
++ type = "isochronous";
++ break;
++ case UE_INTERRUPT:
++ type = "interrupt";
++ break;
++ case UE_CONTROL:
++ type = "control";
++ break;
++ case UE_BULK:
++ type = "bulk";
++ break;
++ default:
++ type = "?";
++ break;
++ }
++
++ DWC_DEBUGPL(DBG_HCDV, "DWC OTG HCD QH - Type = %s\n", type);
++
++#ifdef DEBUG
++ if (qh->ep_type == UE_INTERRUPT) {
++ DWC_DEBUGPL(DBG_HCDV, "DWC OTG HCD QH - usecs = %d\n",
++ qh->usecs);
++ DWC_DEBUGPL(DBG_HCDV, "DWC OTG HCD QH - interval = %d\n",
++ qh->interval);
++ }
++#endif
++
++}
++
++/**
++ * This function allocates and initializes a QH.
++ *
++ * @param hcd The HCD state structure for the DWC OTG controller.
++ * @param urb Holds the information about the device/endpoint that we need
++ * to initialize the QH.
++ * @param atomic_alloc Flag to do atomic allocation if needed
++ *
++ * @return Returns pointer to the newly allocated QH, or NULL on error. */
++dwc_otg_qh_t *dwc_otg_hcd_qh_create(dwc_otg_hcd_t * hcd,
++ dwc_otg_hcd_urb_t * urb, int atomic_alloc)
++{
++ dwc_otg_qh_t *qh;
++
++ /* Allocate memory */
++ /** @todo add memflags argument */
++ qh = dwc_otg_hcd_qh_alloc(atomic_alloc);
++ if (qh == NULL) {
++ DWC_ERROR("qh allocation failed");
++ return NULL;
++ }
++
++ qh_init(hcd, qh, urb);
++
++ if (hcd->core_if->dma_desc_enable
++ && (dwc_otg_hcd_qh_init_ddma(hcd, qh) < 0)) {
++ dwc_otg_hcd_qh_free(hcd, qh);
++ return NULL;
++ }
++
++ return qh;
++}
++
++/* microframe_schedule=0 start */
++
++/**
++ * Checks that a channel is available for a periodic transfer.
++ *
++ * @return 0 if successful, negative error code otherise.
++ */
++static int periodic_channel_available(dwc_otg_hcd_t * hcd)
++{
++ /*
++ * Currently assuming that there is a dedicated host channnel for each
++ * periodic transaction plus at least one host channel for
++ * non-periodic transactions.
++ */
++ int status;
++ int num_channels;
++
++ num_channels = hcd->core_if->core_params->host_channels;
++ if ((hcd->periodic_channels + hcd->non_periodic_channels < num_channels)
++ && (hcd->periodic_channels < num_channels - 1)) {
++ status = 0;
++ } else {
++ DWC_INFO("%s: Total channels: %d, Periodic: %d, Non-periodic: %d\n",
++ __func__, num_channels, hcd->periodic_channels, hcd->non_periodic_channels); //NOTICE
++ status = -DWC_E_NO_SPACE;
++ }
++
++ return status;
++}
++
++/**
++ * Checks that there is sufficient bandwidth for the specified QH in the
++ * periodic schedule. For simplicity, this calculation assumes that all the
++ * transfers in the periodic schedule may occur in the same (micro)frame.
++ *
++ * @param hcd The HCD state structure for the DWC OTG controller.
++ * @param qh QH containing periodic bandwidth required.
++ *
++ * @return 0 if successful, negative error code otherwise.
++ */
++static int check_periodic_bandwidth(dwc_otg_hcd_t * hcd, dwc_otg_qh_t * qh)
++{
++ int status;
++ int16_t max_claimed_usecs;
++
++ status = 0;
++
++ if ((qh->dev_speed == DWC_OTG_EP_SPEED_HIGH) || qh->do_split) {
++ /*
++ * High speed mode.
++ * Max periodic usecs is 80% x 125 usec = 100 usec.
++ */
++
++ max_claimed_usecs = 100 - qh->usecs;
++ } else {
++ /*
++ * Full speed mode.
++ * Max periodic usecs is 90% x 1000 usec = 900 usec.
++ */
++ max_claimed_usecs = 900 - qh->usecs;
++ }
++
++ if (hcd->periodic_usecs > max_claimed_usecs) {
++ DWC_INFO("%s: already claimed usecs %d, required usecs %d\n", __func__, hcd->periodic_usecs, qh->usecs); //NOTICE
++ status = -DWC_E_NO_SPACE;
++ }
++
++ return status;
++}
++
++/* microframe_schedule=0 end */
++
++/**
++ * Microframe scheduler
++ * track the total use in hcd->frame_usecs
++ * keep each qh use in qh->frame_usecs
++ * when surrendering the qh then donate the time back
++ */
++const unsigned short max_uframe_usecs[]={ 100, 100, 100, 100, 100, 100, 30, 0 };
++
++/*
++ * called from dwc_otg_hcd.c:dwc_otg_hcd_init
++ */
++int init_hcd_usecs(dwc_otg_hcd_t *_hcd)
++{
++ int i;
++ for (i=0; i<8; i++) {
++ _hcd->frame_usecs[i] = max_uframe_usecs[i];
++ }
++ return 0;
++}
++
++static int find_single_uframe(dwc_otg_hcd_t * _hcd, dwc_otg_qh_t * _qh)
++{
++ int i;
++ unsigned short utime;
++ int t_left;
++ int ret;
++ int done;
++
++ ret = -1;
++ utime = _qh->usecs;
++ t_left = utime;
++ i = 0;
++ done = 0;
++ while (done == 0) {
++ /* At the start _hcd->frame_usecs[i] = max_uframe_usecs[i]; */
++ if (utime <= _hcd->frame_usecs[i]) {
++ _hcd->frame_usecs[i] -= utime;
++ _qh->frame_usecs[i] += utime;
++ t_left -= utime;
++ ret = i;
++ done = 1;
++ return ret;
++ } else {
++ i++;
++ if (i == 8) {
++ done = 1;
++ ret = -1;
++ }
++ }
++ }
++ return ret;
++ }
++
++/*
++ * use this for FS apps that can span multiple uframes
++ */
++static int find_multi_uframe(dwc_otg_hcd_t * _hcd, dwc_otg_qh_t * _qh)
++{
++ int i;
++ int j;
++ unsigned short utime;
++ int t_left;
++ int ret;
++ int done;
++ unsigned short xtime;
++
++ ret = -1;
++ utime = _qh->usecs;
++ t_left = utime;
++ i = 0;
++ done = 0;
++loop:
++ while (done == 0) {
++ if(_hcd->frame_usecs[i] <= 0) {
++ i++;
++ if (i == 8) {
++ done = 1;
++ ret = -1;
++ }
++ goto loop;
++ }
++
++ /*
++ * we need n consecutive slots
++ * so use j as a start slot j plus j+1 must be enough time (for now)
++ */
++ xtime= _hcd->frame_usecs[i];
++ for (j = i+1 ; j < 8 ; j++ ) {
++ /*
++ * if we add this frame remaining time to xtime we may
++ * be OK, if not we need to test j for a complete frame
++ */
++ if ((xtime+_hcd->frame_usecs[j]) < utime) {
++ if (_hcd->frame_usecs[j] < max_uframe_usecs[j]) {
++ j = 8;
++ ret = -1;
++ continue;
++ }
++ }
++ if (xtime >= utime) {
++ ret = i;
++ j = 8; /* stop loop with a good value ret */
++ continue;
++ }
++ /* add the frame time to x time */
++ xtime += _hcd->frame_usecs[j];
++ /* we must have a fully available next frame or break */
++ if ((xtime < utime)
++ && (_hcd->frame_usecs[j] == max_uframe_usecs[j])) {
++ ret = -1;
++ j = 8; /* stop loop with a bad value ret */
++ continue;
++ }
++ }
++ if (ret >= 0) {
++ t_left = utime;
++ for (j = i; (t_left>0) && (j < 8); j++ ) {
++ t_left -= _hcd->frame_usecs[j];
++ if ( t_left <= 0 ) {
++ _qh->frame_usecs[j] += _hcd->frame_usecs[j] + t_left;
++ _hcd->frame_usecs[j]= -t_left;
++ ret = i;
++ done = 1;
++ } else {
++ _qh->frame_usecs[j] += _hcd->frame_usecs[j];
++ _hcd->frame_usecs[j] = 0;
++ }
++ }
++ } else {
++ i++;
++ if (i == 8) {
++ done = 1;
++ ret = -1;
++ }
++ }
++ }
++ return ret;
++}
++
++static int find_uframe(dwc_otg_hcd_t * _hcd, dwc_otg_qh_t * _qh)
++{
++ int ret;
++ ret = -1;
++
++ if (_qh->speed == USB_SPEED_HIGH) {
++ /* if this is a hs transaction we need a full frame */
++ ret = find_single_uframe(_hcd, _qh);
++ } else {
++ /* if this is a fs transaction we may need a sequence of frames */
++ ret = find_multi_uframe(_hcd, _qh);
++ }
++ return ret;
++}
++
++/**
++ * Checks that the max transfer size allowed in a host channel is large enough
++ * to handle the maximum data transfer in a single (micro)frame for a periodic
++ * transfer.
++ *
++ * @param hcd The HCD state structure for the DWC OTG controller.
++ * @param qh QH for a periodic endpoint.
++ *
++ * @return 0 if successful, negative error code otherwise.
++ */
++static int check_max_xfer_size(dwc_otg_hcd_t * hcd, dwc_otg_qh_t * qh)
++{
++ int status;
++ uint32_t max_xfer_size;
++ uint32_t max_channel_xfer_size;
++
++ status = 0;
++
++ max_xfer_size = dwc_max_packet(qh->maxp) * dwc_hb_mult(qh->maxp);
++ max_channel_xfer_size = hcd->core_if->core_params->max_transfer_size;
++
++ if (max_xfer_size > max_channel_xfer_size) {
++ DWC_INFO("%s: Periodic xfer length %d > " "max xfer length for channel %d\n",
++ __func__, max_xfer_size, max_channel_xfer_size); //NOTICE
++ status = -DWC_E_NO_SPACE;
++ }
++
++ return status;
++}
++
++
++extern int g_next_sched_frame, g_np_count, g_np_sent;
++
++/**
++ * Schedules an interrupt or isochronous transfer in the periodic schedule.
++ *
++ * @param hcd The HCD state structure for the DWC OTG controller.
++ * @param qh QH for the periodic transfer. The QH should already contain the
++ * scheduling information.
++ *
++ * @return 0 if successful, negative error code otherwise.
++ */
++static int schedule_periodic(dwc_otg_hcd_t * hcd, dwc_otg_qh_t * qh)
++{
++ int status = 0;
++
++ if (microframe_schedule) {
++ int frame;
++ status = find_uframe(hcd, qh);
++ frame = -1;
++ if (status == 0) {
++ frame = 7;
++ } else {
++ if (status > 0 )
++ frame = status-1;
++ }
++
++ /* Set the new frame up */
++ if (frame > -1) {
++ qh->sched_frame &= ~0x7;
++ qh->sched_frame |= (frame & 7);
++ }
++
++ if (status != -1)
++ status = 0;
++ } else {
++ status = periodic_channel_available(hcd);
++ if (status) {
++ DWC_INFO("%s: No host channel available for periodic " "transfer.\n", __func__); //NOTICE
++ return status;
++ }
++
++ status = check_periodic_bandwidth(hcd, qh);
++ }
++ if (status) {
++ DWC_INFO("%s: Insufficient periodic bandwidth for "
++ "periodic transfer.\n", __func__);
++ return status;
++ }
++ status = check_max_xfer_size(hcd, qh);
++ if (status) {
++ DWC_INFO("%s: Channel max transfer size too small "
++ "for periodic transfer.\n", __func__);
++ return status;
++ }
++
++ if (hcd->core_if->dma_desc_enable) {
++ /* Don't rely on SOF and start in ready schedule */
++ DWC_LIST_INSERT_TAIL(&hcd->periodic_sched_ready, &qh->qh_list_entry);
++ }
++ else {
++ if(DWC_LIST_EMPTY(&hcd->periodic_sched_inactive) || dwc_frame_num_le(qh->sched_frame, g_next_sched_frame))
++ {
++ g_next_sched_frame = qh->sched_frame;
++
++ }
++ /* Always start in the inactive schedule. */
++ DWC_LIST_INSERT_TAIL(&hcd->periodic_sched_inactive, &qh->qh_list_entry);
++ }
++
++ if (!microframe_schedule) {
++ /* Reserve the periodic channel. */
++ hcd->periodic_channels++;
++ }
++
++ /* Update claimed usecs per (micro)frame. */
++ hcd->periodic_usecs += qh->usecs;
++
++ return status;
++}
++
++
++/**
++ * This function adds a QH to either the non periodic or periodic schedule if
++ * it is not already in the schedule. If the QH is already in the schedule, no
++ * action is taken.
++ *
++ * @return 0 if successful, negative error code otherwise.
++ */
++int dwc_otg_hcd_qh_add(dwc_otg_hcd_t * hcd, dwc_otg_qh_t * qh)
++{
++ int status = 0;
++ gintmsk_data_t intr_mask = {.d32 = 0 };
++
++ if (!DWC_LIST_EMPTY(&qh->qh_list_entry)) {
++ /* QH already in a schedule. */
++ return status;
++ }
++
++ /* Add the new QH to the appropriate schedule */
++ if (dwc_qh_is_non_per(qh)) {
++ /* Always start in the inactive schedule. */
++ DWC_LIST_INSERT_TAIL(&hcd->non_periodic_sched_inactive,
++ &qh->qh_list_entry);
++ g_np_count++;
++ } else {
++ status = schedule_periodic(hcd, qh);
++ if ( !hcd->periodic_qh_count ) {
++ intr_mask.b.sofintr = 1;
++ DWC_MODIFY_REG32(&hcd->core_if->core_global_regs->gintmsk,
++ intr_mask.d32, intr_mask.d32);
++ }
++ hcd->periodic_qh_count++;
++ }
++
++ return status;
++}
++
++/**
++ * Removes an interrupt or isochronous transfer from the periodic schedule.
++ *
++ * @param hcd The HCD state structure for the DWC OTG controller.
++ * @param qh QH for the periodic transfer.
++ */
++static void deschedule_periodic(dwc_otg_hcd_t * hcd, dwc_otg_qh_t * qh)
++{
++ int i;
++ DWC_LIST_REMOVE_INIT(&qh->qh_list_entry);
++
++ /* Update claimed usecs per (micro)frame. */
++ hcd->periodic_usecs -= qh->usecs;
++
++ if (!microframe_schedule) {
++ /* Release the periodic channel reservation. */
++ hcd->periodic_channels--;
++ } else {
++ for (i = 0; i < 8; i++) {
++ hcd->frame_usecs[i] += qh->frame_usecs[i];
++ qh->frame_usecs[i] = 0;
++ }
++ }
++}
++
++/**
++ * Removes a QH from either the non-periodic or periodic schedule. Memory is
++ * not freed.
++ *
++ * @param hcd The HCD state structure.
++ * @param qh QH to remove from schedule. */
++void dwc_otg_hcd_qh_remove(dwc_otg_hcd_t * hcd, dwc_otg_qh_t * qh)
++{
++ gintmsk_data_t intr_mask = {.d32 = 0 };
++
++ if (DWC_LIST_EMPTY(&qh->qh_list_entry)) {
++ /* QH is not in a schedule. */
++ return;
++ }
++
++ if (dwc_qh_is_non_per(qh)) {
++ if (hcd->non_periodic_qh_ptr == &qh->qh_list_entry) {
++ hcd->non_periodic_qh_ptr =
++ hcd->non_periodic_qh_ptr->next;
++ }
++ DWC_LIST_REMOVE_INIT(&qh->qh_list_entry);
++ } else {
++ deschedule_periodic(hcd, qh);
++ hcd->periodic_qh_count--;
++ if( !hcd->periodic_qh_count ) {
++ intr_mask.b.sofintr = 1;
++ DWC_MODIFY_REG32(&hcd->core_if->core_global_regs->gintmsk,
++ intr_mask.d32, 0);
++ }
++ }
++}
++
++/**
++ * Deactivates a QH. For non-periodic QHs, removes the QH from the active
++ * non-periodic schedule. The QH is added to the inactive non-periodic
++ * schedule if any QTDs are still attached to the QH.
++ *
++ * For periodic QHs, the QH is removed from the periodic queued schedule. If
++ * there are any QTDs still attached to the QH, the QH is added to either the
++ * periodic inactive schedule or the periodic ready schedule and its next
++ * scheduled frame is calculated. The QH is placed in the ready schedule if
++ * the scheduled frame has been reached already. Otherwise it's placed in the
++ * inactive schedule. If there are no QTDs attached to the QH, the QH is
++ * completely removed from the periodic schedule.
++ */
++void dwc_otg_hcd_qh_deactivate(dwc_otg_hcd_t * hcd, dwc_otg_qh_t * qh,
++ int sched_next_periodic_split)
++{
++ if (dwc_qh_is_non_per(qh)) {
++
++ dwc_otg_qh_t *qh_tmp;
++ dwc_list_link_t *qh_list;
++ DWC_LIST_FOREACH(qh_list, &hcd->non_periodic_sched_inactive)
++ {
++ qh_tmp = DWC_LIST_ENTRY(qh_list, struct dwc_otg_qh, qh_list_entry);
++ if(qh_tmp == qh)
++ {
++ /*
++ * FIQ is being disabled because this one nevers gets a np_count increment
++ * This is still not absolutely correct, but it should fix itself with
++ * just an unnecessary extra interrupt
++ */
++ g_np_sent = g_np_count;
++ }
++ }
++
++
++ dwc_otg_hcd_qh_remove(hcd, qh);
++ if (!DWC_CIRCLEQ_EMPTY(&qh->qtd_list)) {
++ /* Add back to inactive non-periodic schedule. */
++ dwc_otg_hcd_qh_add(hcd, qh);
++ }
++ } else {
++ uint16_t frame_number = dwc_otg_hcd_get_frame_number(hcd);
++
++ if (qh->do_split) {
++ /* Schedule the next continuing periodic split transfer */
++ if (sched_next_periodic_split) {
++
++ qh->sched_frame = frame_number;
++
++ if (dwc_frame_num_le(frame_number,
++ dwc_frame_num_inc
++ (qh->start_split_frame,
++ 1))) {
++ /*
++ * Allow one frame to elapse after start
++ * split microframe before scheduling
++ * complete split, but DONT if we are
++ * doing the next start split in the
++ * same frame for an ISOC out.
++ */
++ if ((qh->ep_type != UE_ISOCHRONOUS) ||
++ (qh->ep_is_in != 0)) {
++ qh->sched_frame =
++ dwc_frame_num_inc(qh->sched_frame, 1);
++ }
++ }
++ } else {
++ qh->sched_frame =
++ dwc_frame_num_inc(qh->start_split_frame,
++ qh->interval);
++ if (dwc_frame_num_le
++ (qh->sched_frame, frame_number)) {
++ qh->sched_frame = frame_number;
++ }
++ qh->sched_frame |= 0x7;
++ qh->start_split_frame = qh->sched_frame;
++ }
++ } else {
++ qh->sched_frame =
++ dwc_frame_num_inc(qh->sched_frame, qh->interval);
++ if (dwc_frame_num_le(qh->sched_frame, frame_number)) {
++ qh->sched_frame = frame_number;
++ }
++ }
++
++ if (DWC_CIRCLEQ_EMPTY(&qh->qtd_list)) {
++ dwc_otg_hcd_qh_remove(hcd, qh);
++ } else {
++ /*
++ * Remove from periodic_sched_queued and move to
++ * appropriate queue.
++ */
++ if ((microframe_schedule && dwc_frame_num_le(qh->sched_frame, frame_number)) ||
++ (!microframe_schedule && qh->sched_frame == frame_number)) {
++ DWC_LIST_MOVE_HEAD(&hcd->periodic_sched_ready,
++ &qh->qh_list_entry);
++ } else {
++ if(!dwc_frame_num_le(g_next_sched_frame, qh->sched_frame))
++ {
++ g_next_sched_frame = qh->sched_frame;
++ }
++
++ DWC_LIST_MOVE_HEAD
++ (&hcd->periodic_sched_inactive,
++ &qh->qh_list_entry);
++ }
++ }
++ }
++}
++
++/**
++ * This function allocates and initializes a QTD.
++ *
++ * @param urb The URB to create a QTD from. Each URB-QTD pair will end up
++ * pointing to each other so each pair should have a unique correlation.
++ * @param atomic_alloc Flag to do atomic alloc if needed
++ *
++ * @return Returns pointer to the newly allocated QTD, or NULL on error. */
++dwc_otg_qtd_t *dwc_otg_hcd_qtd_create(dwc_otg_hcd_urb_t * urb, int atomic_alloc)
++{
++ dwc_otg_qtd_t *qtd;
++
++ qtd = dwc_otg_hcd_qtd_alloc(atomic_alloc);
++ if (qtd == NULL) {
++ return NULL;
++ }
++
++ dwc_otg_hcd_qtd_init(qtd, urb);
++ return qtd;
++}
++
++/**
++ * Initializes a QTD structure.
++ *
++ * @param qtd The QTD to initialize.
++ * @param urb The URB to use for initialization. */
++void dwc_otg_hcd_qtd_init(dwc_otg_qtd_t * qtd, dwc_otg_hcd_urb_t * urb)
++{
++ dwc_memset(qtd, 0, sizeof(dwc_otg_qtd_t));
++ qtd->urb = urb;
++ if (dwc_otg_hcd_get_pipe_type(&urb->pipe_info) == UE_CONTROL) {
++ /*
++ * The only time the QTD data toggle is used is on the data
++ * phase of control transfers. This phase always starts with
++ * DATA1.
++ */
++ qtd->data_toggle = DWC_OTG_HC_PID_DATA1;
++ qtd->control_phase = DWC_OTG_CONTROL_SETUP;
++ }
++
++ /* start split */
++ qtd->complete_split = 0;
++ qtd->isoc_split_pos = DWC_HCSPLIT_XACTPOS_ALL;
++ qtd->isoc_split_offset = 0;
++ qtd->in_process = 0;
++
++ /* Store the qtd ptr in the urb to reference what QTD. */
++ urb->qtd = qtd;
++ return;
++}
++
++/**
++ * This function adds a QTD to the QTD-list of a QH. It will find the correct
++ * QH to place the QTD into. If it does not find a QH, then it will create a
++ * new QH. If the QH to which the QTD is added is not currently scheduled, it
++ * is placed into the proper schedule based on its EP type.
++ *
++ * @param[in] qtd The QTD to add
++ * @param[in] hcd The DWC HCD structure
++ * @param[out] qh out parameter to return queue head
++ * @param atomic_alloc Flag to do atomic alloc if needed
++ *
++ * @return 0 if successful, negative error code otherwise.
++ */
++int dwc_otg_hcd_qtd_add(dwc_otg_qtd_t * qtd,
++ dwc_otg_hcd_t * hcd, dwc_otg_qh_t ** qh, int atomic_alloc)
++{
++ int retval = 0;
++ dwc_irqflags_t flags;
++
++ dwc_otg_hcd_urb_t *urb = qtd->urb;
++
++ /*
++ * Get the QH which holds the QTD-list to insert to. Create QH if it
++ * doesn't exist.
++ */
++ if (*qh == NULL) {
++ *qh = dwc_otg_hcd_qh_create(hcd, urb, atomic_alloc);
++ if (*qh == NULL) {
++ retval = -DWC_E_NO_MEMORY;
++ goto done;
++ }
++ }
++ DWC_SPINLOCK_IRQSAVE(hcd->lock, &flags);
++ retval = dwc_otg_hcd_qh_add(hcd, *qh);
++ if (retval == 0) {
++ DWC_CIRCLEQ_INSERT_TAIL(&((*qh)->qtd_list), qtd,
++ qtd_list_entry);
++ qtd->qh = *qh;
++ }
++ DWC_SPINUNLOCK_IRQRESTORE(hcd->lock, flags);
++
++done:
++
++ return retval;
++}
++
++#endif /* DWC_DEVICE_ONLY */
+diff -urN linux-3.10/drivers/usb/host/dwc_otg/dwc_otg_mphi_fix.c linux-rpi-3.10.y/drivers/usb/host/dwc_otg/dwc_otg_mphi_fix.c
+--- linux-3.10/drivers/usb/host/dwc_otg/dwc_otg_mphi_fix.c 1970-01-01 01:00:00.000000000 +0100
++++ linux-rpi-3.10.y/drivers/usb/host/dwc_otg/dwc_otg_mphi_fix.c 2013-07-06 15:25:50.000000000 +0100
+@@ -0,0 +1,113 @@
++#include "dwc_otg_regs.h"
++#include "dwc_otg_dbg.h"
++
++void dwc_debug_print_core_int_reg(gintsts_data_t gintsts, const char* function_name)
++{
++ DWC_DEBUGPL(DBG_USER, "*** Debugging from within the %s function: ***\n"
++ "curmode: %1i Modemismatch: %1i otgintr: %1i sofintr: %1i\n"
++ "rxstsqlvl: %1i nptxfempty : %1i ginnakeff: %1i goutnakeff: %1i\n"
++ "ulpickint: %1i i2cintr: %1i erlysuspend:%1i usbsuspend: %1i\n"
++ "usbreset: %1i enumdone: %1i isooutdrop: %1i eopframe: %1i\n"
++ "restoredone: %1i epmismatch: %1i inepint: %1i outepintr: %1i\n"
++ "incomplisoin:%1i incomplisoout:%1i fetsusp: %1i resetdet: %1i\n"
++ "portintr: %1i hcintr: %1i ptxfempty: %1i lpmtranrcvd:%1i\n"
++ "conidstschng:%1i disconnect: %1i sessreqintr:%1i wkupintr: %1i\n",
++ function_name,
++ gintsts.b.curmode,
++ gintsts.b.modemismatch,
++ gintsts.b.otgintr,
++ gintsts.b.sofintr,
++ gintsts.b.rxstsqlvl,
++ gintsts.b.nptxfempty,
++ gintsts.b.ginnakeff,
++ gintsts.b.goutnakeff,
++ gintsts.b.ulpickint,
++ gintsts.b.i2cintr,
++ gintsts.b.erlysuspend,
++ gintsts.b.usbsuspend,
++ gintsts.b.usbreset,
++ gintsts.b.enumdone,
++ gintsts.b.isooutdrop,
++ gintsts.b.eopframe,
++ gintsts.b.restoredone,
++ gintsts.b.epmismatch,
++ gintsts.b.inepint,
++ gintsts.b.outepintr,
++ gintsts.b.incomplisoin,
++ gintsts.b.incomplisoout,
++ gintsts.b.fetsusp,
++ gintsts.b.resetdet,
++ gintsts.b.portintr,
++ gintsts.b.hcintr,
++ gintsts.b.ptxfempty,
++ gintsts.b.lpmtranrcvd,
++ gintsts.b.conidstschng,
++ gintsts.b.disconnect,
++ gintsts.b.sessreqintr,
++ gintsts.b.wkupintr);
++ return;
++}
++
++void dwc_debug_core_int_mask(gintmsk_data_t gintmsk, const char* function_name)
++{
++ DWC_DEBUGPL(DBG_USER, "Interrupt Mask status (called from %s) :\n"
++ "modemismatch: %1i otgintr: %1i sofintr: %1i rxstsqlvl: %1i\n"
++ "nptxfempty: %1i ginnakeff: %1i goutnakeff: %1i ulpickint: %1i\n"
++ "i2cintr: %1i erlysuspend:%1i usbsuspend: %1i usbreset: %1i\n"
++ "enumdone: %1i isooutdrop: %1i eopframe: %1i restoredone: %1i\n"
++ "epmismatch: %1i inepintr: %1i outepintr: %1i incomplisoin:%1i\n"
++ "incomplisoout:%1i fetsusp: %1i resetdet: %1i portintr: %1i\n"
++ "hcintr: %1i ptxfempty: %1i lpmtranrcvd:%1i conidstschng:%1i\n"
++ "disconnect: %1i sessreqintr:%1i wkupintr: %1i\n",
++ function_name,
++ gintmsk.b.modemismatch,
++ gintmsk.b.otgintr,
++ gintmsk.b.sofintr,
++ gintmsk.b.rxstsqlvl,
++ gintmsk.b.nptxfempty,
++ gintmsk.b.ginnakeff,
++ gintmsk.b.goutnakeff,
++ gintmsk.b.ulpickint,
++ gintmsk.b.i2cintr,
++ gintmsk.b.erlysuspend,
++ gintmsk.b.usbsuspend,
++ gintmsk.b.usbreset,
++ gintmsk.b.enumdone,
++ gintmsk.b.isooutdrop,
++ gintmsk.b.eopframe,
++ gintmsk.b.restoredone,
++ gintmsk.b.epmismatch,
++ gintmsk.b.inepintr,
++ gintmsk.b.outepintr,
++ gintmsk.b.incomplisoin,
++ gintmsk.b.incomplisoout,
++ gintmsk.b.fetsusp,
++ gintmsk.b.resetdet,
++ gintmsk.b.portintr,
++ gintmsk.b.hcintr,
++ gintmsk.b.ptxfempty,
++ gintmsk.b.lpmtranrcvd,
++ gintmsk.b.conidstschng,
++ gintmsk.b.disconnect,
++ gintmsk.b.sessreqintr,
++ gintmsk.b.wkupintr);
++ return;
++}
++
++void dwc_debug_otg_int(gotgint_data_t gotgint, const char* function_name)
++{
++ DWC_DEBUGPL(DBG_USER, "otg int register (from %s function):\n"
++ "sesenddet:%1i sesreqsucstschung:%2i hstnegsucstschng:%1i\n"
++ "hstnegdet:%1i adevtoutchng: %2i debdone: %1i\n"
++ "mvic: %1i\n",
++ function_name,
++ gotgint.b.sesenddet,
++ gotgint.b.sesreqsucstschng,
++ gotgint.b.hstnegsucstschng,
++ gotgint.b.hstnegdet,
++ gotgint.b.adevtoutchng,
++ gotgint.b.debdone,
++ gotgint.b.mvic);
++
++ return;
++}
+diff -urN linux-3.10/drivers/usb/host/dwc_otg/dwc_otg_mphi_fix.h linux-rpi-3.10.y/drivers/usb/host/dwc_otg/dwc_otg_mphi_fix.h
+--- linux-3.10/drivers/usb/host/dwc_otg/dwc_otg_mphi_fix.h 1970-01-01 01:00:00.000000000 +0100
++++ linux-rpi-3.10.y/drivers/usb/host/dwc_otg/dwc_otg_mphi_fix.h 2013-07-06 15:25:50.000000000 +0100
+@@ -0,0 +1,36 @@
++#ifndef __DWC_OTG_MPHI_FIX_H__
++#define __DWC_OTG_MPHI_FIX_H__
++
++#define FIQ_WRITE_IO_ADDRESS(_addr_,_data_) *(volatile uint32_t *) IO_ADDRESS(_addr_) = _data_
++#define FIQ_READ_IO_ADDRESS(_addr_) *(volatile uint32_t *) IO_ADDRESS(_addr_)
++#define FIQ_MODIFY_IO_ADDRESS(_addr_,_clear_,_set_) FIQ_WRITE_IO_ADDRESS(_addr_ , (FIQ_READ_IO_ADDRESS(_addr_)&~_clear_)|_set_)
++#define FIQ_WRITE(_addr_,_data_) *(volatile uint32_t *) _addr_ = _data_
++
++typedef struct {
++ volatile void* base;
++ volatile void* ctrl;
++ volatile void* outdda;
++ volatile void* outddb;
++ volatile void* intstat;
++} mphi_regs_t;
++
++void dwc_debug_print_core_int_reg(gintsts_data_t gintsts, const char* function_name);
++void dwc_debug_core_int_mask(gintsts_data_t gintmsk, const char* function_name);
++void dwc_debug_otg_int(gotgint_data_t gotgint, const char* function_name);
++
++
++
++#ifdef DEBUG
++#define DWC_DBG_PRINT_CORE_INT(_arg_) dwc_debug_print_core_int_reg(_arg_,__func__)
++#define DWC_DBG_PRINT_CORE_INT_MASK(_arg_) dwc_debug_core_int_mask(_arg_,__func__)
++#define DWC_DBG_PRINT_OTG_INT(_arg_) dwc_debug_otg_int(_arg_,__func__)
++
++#else
++#define DWC_DBG_PRINT_CORE_INT(_arg_)
++#define DWC_DBG_PRINT_CORE_INT_MASK(_arg_)
++#define DWC_DBG_PRINT_OTG_INT(_arg_)
++
++
++#endif
++
++#endif
+diff -urN linux-3.10/drivers/usb/host/dwc_otg/dwc_otg_os_dep.h linux-rpi-3.10.y/drivers/usb/host/dwc_otg/dwc_otg_os_dep.h
+--- linux-3.10/drivers/usb/host/dwc_otg/dwc_otg_os_dep.h 1970-01-01 01:00:00.000000000 +0100
++++ linux-rpi-3.10.y/drivers/usb/host/dwc_otg/dwc_otg_os_dep.h 2013-07-06 15:25:50.000000000 +0100
+@@ -0,0 +1,188 @@
++#ifndef _DWC_OS_DEP_H_
++#define _DWC_OS_DEP_H_
++
++/**
++ * @file
++ *
++ * This file contains OS dependent structures.
++ *
++ */
++
++#include <linux/kernel.h>
++#include <linux/module.h>
++#include <linux/moduleparam.h>
++#include <linux/init.h>
++#include <linux/device.h>
++#include <linux/errno.h>
++#include <linux/types.h>
++#include <linux/slab.h>
++#include <linux/list.h>
++#include <linux/interrupt.h>
++#include <linux/ctype.h>
++#include <linux/string.h>
++#include <linux/dma-mapping.h>
++#include <linux/jiffies.h>
++#include <linux/delay.h>
++#include <linux/timer.h>
++#include <linux/workqueue.h>
++#include <linux/stat.h>
++#include <linux/pci.h>
++
++#include <linux/version.h>
++
++#if LINUX_VERSION_CODE >= KERNEL_VERSION(2,6,20)
++# include <linux/irq.h>
++#endif
++
++#if LINUX_VERSION_CODE >= KERNEL_VERSION(2,6,21)
++# include <linux/usb/ch9.h>
++#else
++# include <linux/usb_ch9.h>
++#endif
++
++#if LINUX_VERSION_CODE >= KERNEL_VERSION(2,6,24)
++# include <linux/usb/gadget.h>
++#else
++# include <linux/usb_gadget.h>
++#endif
++
++#if LINUX_VERSION_CODE < KERNEL_VERSION(2,6,20)
++# include <asm/irq.h>
++#endif
++
++#ifdef PCI_INTERFACE
++# include <asm/io.h>
++#endif
++
++#ifdef LM_INTERFACE
++# include <asm/unaligned.h>
++# include <asm/sizes.h>
++# include <asm/param.h>
++# include <asm/io.h>
++# if (LINUX_VERSION_CODE < KERNEL_VERSION(2,6,30))
++# include <asm/arch/hardware.h>
++# include <asm/arch/lm.h>
++# include <asm/arch/irqs.h>
++# include <asm/arch/regs-irq.h>
++# else
++/* in 2.6.31, at least, we seem to have lost the generic LM infrastructure -
++ here we assume that the machine architecture provides definitions
++ in its own header
++*/
++# include <mach/lm.h>
++# include <mach/hardware.h>
++# endif
++#endif
++
++#ifdef PLATFORM_INTERFACE
++#include <linux/platform_device.h>
++#include <asm/mach/map.h>
++#endif
++
++/** The OS page size */
++#define DWC_OS_PAGE_SIZE PAGE_SIZE
++
++#if LINUX_VERSION_CODE < KERNEL_VERSION(2,6,14)
++typedef int gfp_t;
++#endif
++
++#if LINUX_VERSION_CODE < KERNEL_VERSION(2,6,18)
++# define IRQF_SHARED SA_SHIRQ
++#endif
++
++typedef struct os_dependent {
++ /** Base address returned from ioremap() */
++ void *base;
++
++ /** Register offset for Diagnostic API */
++ uint32_t reg_offset;
++
++ /** Base address for MPHI peripheral */
++ void *mphi_base;
++
++#ifdef LM_INTERFACE
++ struct lm_device *lmdev;
++#elif defined(PCI_INTERFACE)
++ struct pci_dev *pcidev;
++
++ /** Start address of a PCI region */
++ resource_size_t rsrc_start;
++
++ /** Length address of a PCI region */
++ resource_size_t rsrc_len;
++#elif defined(PLATFORM_INTERFACE)
++ struct platform_device *platformdev;
++#endif
++
++} os_dependent_t;
++
++#ifdef __cplusplus
++}
++#endif
++
++
++
++/* Type for the our device on the chosen bus */
++#if defined(LM_INTERFACE)
++typedef struct lm_device dwc_bus_dev_t;
++#elif defined(PCI_INTERFACE)
++typedef struct pci_dev dwc_bus_dev_t;
++#elif defined(PLATFORM_INTERFACE)
++typedef struct platform_device dwc_bus_dev_t;
++#endif
++
++/* Helper macro to retrieve drvdata from the device on the chosen bus */
++#if defined(LM_INTERFACE)
++#define DWC_OTG_BUSDRVDATA(_dev) lm_get_drvdata(_dev)
++#elif defined(PCI_INTERFACE)
++#define DWC_OTG_BUSDRVDATA(_dev) pci_get_drvdata(_dev)
++#elif defined(PLATFORM_INTERFACE)
++#define DWC_OTG_BUSDRVDATA(_dev) platform_get_drvdata(_dev)
++#endif
++
++/**
++ * Helper macro returning the otg_device structure of a given struct device
++ *
++ * c.f. static dwc_otg_device_t *dwc_otg_drvdev(struct device *_dev)
++ */
++#ifdef LM_INTERFACE
++#define DWC_OTG_GETDRVDEV(_var, _dev) do { \
++ struct lm_device *lm_dev = \
++ container_of(_dev, struct lm_device, dev); \
++ _var = lm_get_drvdata(lm_dev); \
++ } while (0)
++
++#elif defined(PCI_INTERFACE)
++#define DWC_OTG_GETDRVDEV(_var, _dev) do { \
++ _var = dev_get_drvdata(_dev); \
++ } while (0)
++
++#elif defined(PLATFORM_INTERFACE)
++#define DWC_OTG_GETDRVDEV(_var, _dev) do { \
++ struct platform_device *platform_dev = \
++ container_of(_dev, struct platform_device, dev); \
++ _var = platform_get_drvdata(platform_dev); \
++ } while (0)
++#endif
++
++
++/**
++ * Helper macro returning the struct dev of the given struct os_dependent
++ *
++ * c.f. static struct device *dwc_otg_getdev(struct os_dependent *osdep)
++ */
++#ifdef LM_INTERFACE
++#define DWC_OTG_OS_GETDEV(_osdep) \
++ ((_osdep).lmdev == NULL? NULL: &(_osdep).lmdev->dev)
++#elif defined(PCI_INTERFACE)
++#define DWC_OTG_OS_GETDEV(_osdep) \
++ ((_osdep).pci_dev == NULL? NULL: &(_osdep).pci_dev->dev)
++#elif defined(PLATFORM_INTERFACE)
++#define DWC_OTG_OS_GETDEV(_osdep) \
++ ((_osdep).platformdev == NULL? NULL: &(_osdep).platformdev->dev)
++#endif
++
++
++
++
++#endif /* _DWC_OS_DEP_H_ */
+diff -urN linux-3.10/drivers/usb/host/dwc_otg/dwc_otg_pcd.c linux-rpi-3.10.y/drivers/usb/host/dwc_otg/dwc_otg_pcd.c
+--- linux-3.10/drivers/usb/host/dwc_otg/dwc_otg_pcd.c 1970-01-01 01:00:00.000000000 +0100
++++ linux-rpi-3.10.y/drivers/usb/host/dwc_otg/dwc_otg_pcd.c 2013-07-06 15:25:50.000000000 +0100
+@@ -0,0 +1,2708 @@
++/* ==========================================================================
++ * $File: //dwh/usb_iip/dev/software/otg/linux/drivers/dwc_otg_pcd.c $
++ * $Revision: #101 $
++ * $Date: 2012/08/10 $
++ * $Change: 2047372 $
++ *
++ * Synopsys HS OTG Linux Software Driver and documentation (hereinafter,
++ * "Software") is an Unsupported proprietary work of Synopsys, Inc. unless
++ * otherwise expressly agreed to in writing between Synopsys and you.
++ *
++ * The Software IS NOT an item of Licensed Software or Licensed Product under
++ * any End User Software License Agreement or Agreement for Licensed Product
++ * with Synopsys or any supplement thereto. You are permitted to use and
++ * redistribute this Software in source and binary forms, with or without
++ * modification, provided that redistributions of source code must retain this
++ * notice. You may not view, use, disclose, copy or distribute this file or
++ * any information contained herein except pursuant to this license grant from
++ * Synopsys. If you do not agree with this notice, including the disclaimer
++ * below, then you are not authorized to use the Software.
++ *
++ * THIS SOFTWARE IS BEING DISTRIBUTED BY SYNOPSYS SOLELY ON AN "AS IS" BASIS
++ * AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
++ * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE
++ * ARE HEREBY DISCLAIMED. IN NO EVENT SHALL SYNOPSYS BE LIABLE FOR ANY DIRECT,
++ * INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES
++ * (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR
++ * SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER
++ * CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT
++ * LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY
++ * OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH
++ * DAMAGE.
++ * ========================================================================== */
++#ifndef DWC_HOST_ONLY
++
++/** @file
++ * This file implements PCD Core. All code in this file is portable and doesn't
++ * use any OS specific functions.
++ * PCD Core provides Interface, defined in <code><dwc_otg_pcd_if.h></code>
++ * header file, which can be used to implement OS specific PCD interface.
++ *
++ * An important function of the PCD is managing interrupts generated
++ * by the DWC_otg controller. The implementation of the DWC_otg device
++ * mode interrupt service routines is in dwc_otg_pcd_intr.c.
++ *
++ * @todo Add Device Mode test modes (Test J mode, Test K mode, etc).
++ * @todo Does it work when the request size is greater than DEPTSIZ
++ * transfer size
++ *
++ */
++
++#include "dwc_otg_pcd.h"
++
++#ifdef DWC_UTE_CFI
++#include "dwc_otg_cfi.h"
++
++extern int init_cfi(cfiobject_t * cfiobj);
++#endif
++
++/**
++ * Choose endpoint from ep arrays using usb_ep structure.
++ */
++static dwc_otg_pcd_ep_t *get_ep_from_handle(dwc_otg_pcd_t * pcd, void *handle)
++{
++ int i;
++ if (pcd->ep0.priv == handle) {
++ return &pcd->ep0;
++ }
++ for (i = 0; i < MAX_EPS_CHANNELS - 1; i++) {
++ if (pcd->in_ep[i].priv == handle)
++ return &pcd->in_ep[i];
++ if (pcd->out_ep[i].priv == handle)
++ return &pcd->out_ep[i];
++ }
++
++ return NULL;
++}
++
++/**
++ * This function completes a request. It call's the request call back.
++ */
++void dwc_otg_request_done(dwc_otg_pcd_ep_t * ep, dwc_otg_pcd_request_t * req,
++ int32_t status)
++{
++ unsigned stopped = ep->stopped;
++
++ DWC_DEBUGPL(DBG_PCDV, "%s(ep %p req %p)\n", __func__, ep, req);
++ DWC_CIRCLEQ_REMOVE_INIT(&ep->queue, req, queue_entry);
++
++ /* don't modify queue heads during completion callback */
++ ep->stopped = 1;
++ /* spin_unlock/spin_lock now done in fops->complete() */
++ ep->pcd->fops->complete(ep->pcd, ep->priv, req->priv, status,
++ req->actual);
++
++ if (ep->pcd->request_pending > 0) {
++ --ep->pcd->request_pending;
++ }
++
++ ep->stopped = stopped;
++ DWC_FREE(req);
++}
++
++/**
++ * This function terminates all the requsts in the EP request queue.
++ */
++void dwc_otg_request_nuke(dwc_otg_pcd_ep_t * ep)
++{
++ dwc_otg_pcd_request_t *req;
++
++ ep->stopped = 1;
++
++ /* called with irqs blocked?? */
++ while (!DWC_CIRCLEQ_EMPTY(&ep->queue)) {
++ req = DWC_CIRCLEQ_FIRST(&ep->queue);
++ dwc_otg_request_done(ep, req, -DWC_E_SHUTDOWN);
++ }
++}
++
++void dwc_otg_pcd_start(dwc_otg_pcd_t * pcd,
++ const struct dwc_otg_pcd_function_ops *fops)
++{
++ pcd->fops = fops;
++}
++
++/**
++ * PCD Callback function for initializing the PCD when switching to
++ * device mode.
++ *
++ * @param p void pointer to the <code>dwc_otg_pcd_t</code>
++ */
++static int32_t dwc_otg_pcd_start_cb(void *p)
++{
++ dwc_otg_pcd_t *pcd = (dwc_otg_pcd_t *) p;
++ dwc_otg_core_if_t *core_if = GET_CORE_IF(pcd);
++
++ /*
++ * Initialized the Core for Device mode.
++ */
++ if (dwc_otg_is_device_mode(core_if)) {
++ dwc_otg_core_dev_init(core_if);
++ /* Set core_if's lock pointer to the pcd->lock */
++ core_if->lock = pcd->lock;
++ }
++ return 1;
++}
++
++/** CFI-specific buffer allocation function for EP */
++#ifdef DWC_UTE_CFI
++uint8_t *cfiw_ep_alloc_buffer(dwc_otg_pcd_t * pcd, void *pep, dwc_dma_t * addr,
++ size_t buflen, int flags)
++{
++ dwc_otg_pcd_ep_t *ep;
++ ep = get_ep_from_handle(pcd, pep);
++ if (!ep) {
++ DWC_WARN("bad ep\n");
++ return -DWC_E_INVALID;
++ }
++
++ return pcd->cfi->ops.ep_alloc_buf(pcd->cfi, pcd, ep, addr, buflen,
++ flags);
++}
++#else
++uint8_t *cfiw_ep_alloc_buffer(dwc_otg_pcd_t * pcd, void *pep, dwc_dma_t * addr,
++ size_t buflen, int flags);
++#endif
++
++/**
++ * PCD Callback function for notifying the PCD when resuming from
++ * suspend.
++ *
++ * @param p void pointer to the <code>dwc_otg_pcd_t</code>
++ */
++static int32_t dwc_otg_pcd_resume_cb(void *p)
++{
++ dwc_otg_pcd_t *pcd = (dwc_otg_pcd_t *) p;
++
++ if (pcd->fops->resume) {
++ pcd->fops->resume(pcd);
++ }
++
++ /* Stop the SRP timeout timer. */
++ if ((GET_CORE_IF(pcd)->core_params->phy_type != DWC_PHY_TYPE_PARAM_FS)
++ || (!GET_CORE_IF(pcd)->core_params->i2c_enable)) {
++ if (GET_CORE_IF(pcd)->srp_timer_started) {
++ GET_CORE_IF(pcd)->srp_timer_started = 0;
++ DWC_TIMER_CANCEL(GET_CORE_IF(pcd)->srp_timer);
++ }
++ }
++ return 1;
++}
++
++/**
++ * PCD Callback function for notifying the PCD device is suspended.
++ *
++ * @param p void pointer to the <code>dwc_otg_pcd_t</code>
++ */
++static int32_t dwc_otg_pcd_suspend_cb(void *p)
++{
++ dwc_otg_pcd_t *pcd = (dwc_otg_pcd_t *) p;
++
++ if (pcd->fops->suspend) {
++ DWC_SPINUNLOCK(pcd->lock);
++ pcd->fops->suspend(pcd);
++ DWC_SPINLOCK(pcd->lock);
++ }
++
++ return 1;
++}
++
++/**
++ * PCD Callback function for stopping the PCD when switching to Host
++ * mode.
++ *
++ * @param p void pointer to the <code>dwc_otg_pcd_t</code>
++ */
++static int32_t dwc_otg_pcd_stop_cb(void *p)
++{
++ dwc_otg_pcd_t *pcd = (dwc_otg_pcd_t *) p;
++ extern void dwc_otg_pcd_stop(dwc_otg_pcd_t * _pcd);
++
++ dwc_otg_pcd_stop(pcd);
++ return 1;
++}
++
++/**
++ * PCD Callback structure for handling mode switching.
++ */
++static dwc_otg_cil_callbacks_t pcd_callbacks = {
++ .start = dwc_otg_pcd_start_cb,
++ .stop = dwc_otg_pcd_stop_cb,
++ .suspend = dwc_otg_pcd_suspend_cb,
++ .resume_wakeup = dwc_otg_pcd_resume_cb,
++ .p = 0, /* Set at registration */
++};
++
++/**
++ * This function allocates a DMA Descriptor chain for the Endpoint
++ * buffer to be used for a transfer to/from the specified endpoint.
++ */
++dwc_otg_dev_dma_desc_t *dwc_otg_ep_alloc_desc_chain(dwc_dma_t * dma_desc_addr,
++ uint32_t count)
++{
++ return DWC_DMA_ALLOC_ATOMIC(count * sizeof(dwc_otg_dev_dma_desc_t),
++ dma_desc_addr);
++}
++
++/**
++ * This function frees a DMA Descriptor chain that was allocated by ep_alloc_desc.
++ */
++void dwc_otg_ep_free_desc_chain(dwc_otg_dev_dma_desc_t * desc_addr,
++ uint32_t dma_desc_addr, uint32_t count)
++{
++ DWC_DMA_FREE(count * sizeof(dwc_otg_dev_dma_desc_t), desc_addr,
++ dma_desc_addr);
++}
++
++#ifdef DWC_EN_ISOC
++
++/**
++ * This function initializes a descriptor chain for Isochronous transfer
++ *
++ * @param core_if Programming view of DWC_otg controller.
++ * @param dwc_ep The EP to start the transfer on.
++ *
++ */
++void dwc_otg_iso_ep_start_ddma_transfer(dwc_otg_core_if_t * core_if,
++ dwc_ep_t * dwc_ep)
++{
++
++ dsts_data_t dsts = {.d32 = 0 };
++ depctl_data_t depctl = {.d32 = 0 };
++ volatile uint32_t *addr;
++ int i, j;
++ uint32_t len;
++
++ if (dwc_ep->is_in)
++ dwc_ep->desc_cnt = dwc_ep->buf_proc_intrvl / dwc_ep->bInterval;
++ else
++ dwc_ep->desc_cnt =
++ dwc_ep->buf_proc_intrvl * dwc_ep->pkt_per_frm /
++ dwc_ep->bInterval;
++
++ /** Allocate descriptors for double buffering */
++ dwc_ep->iso_desc_addr =
++ dwc_otg_ep_alloc_desc_chain(&dwc_ep->iso_dma_desc_addr,
++ dwc_ep->desc_cnt * 2);
++ if (dwc_ep->desc_addr) {
++ DWC_WARN("%s, can't allocate DMA descriptor chain\n", __func__);
++ return;
++ }
++
++ dsts.d32 = DWC_READ_REG32(&core_if->dev_if->dev_global_regs->dsts);
++
++ /** ISO OUT EP */
++ if (dwc_ep->is_in == 0) {
++ dev_dma_desc_sts_t sts = {.d32 = 0 };
++ dwc_otg_dev_dma_desc_t *dma_desc = dwc_ep->iso_desc_addr;
++ dma_addr_t dma_ad;
++ uint32_t data_per_desc;
++ dwc_otg_dev_out_ep_regs_t *out_regs =
++ core_if->dev_if->out_ep_regs[dwc_ep->num];
++ int offset;
++
++ addr = &core_if->dev_if->out_ep_regs[dwc_ep->num]->doepctl;
++ dma_ad = (dma_addr_t) DWC_READ_REG32(&(out_regs->doepdma));
++
++ /** Buffer 0 descriptors setup */
++ dma_ad = dwc_ep->dma_addr0;
++
++ sts.b_iso_out.bs = BS_HOST_READY;
++ sts.b_iso_out.rxsts = 0;
++ sts.b_iso_out.l = 0;
++ sts.b_iso_out.sp = 0;
++ sts.b_iso_out.ioc = 0;
++ sts.b_iso_out.pid = 0;
++ sts.b_iso_out.framenum = 0;
++
++ offset = 0;
++ for (i = 0; i < dwc_ep->desc_cnt - dwc_ep->pkt_per_frm;
++ i += dwc_ep->pkt_per_frm) {
++
++ for (j = 0; j < dwc_ep->pkt_per_frm; ++j) {
++ uint32_t len = (j + 1) * dwc_ep->maxpacket;
++ if (len > dwc_ep->data_per_frame)
++ data_per_desc =
++ dwc_ep->data_per_frame -
++ j * dwc_ep->maxpacket;
++ else
++ data_per_desc = dwc_ep->maxpacket;
++ len = data_per_desc % 4;
++ if (len)
++ data_per_desc += 4 - len;
++
++ sts.b_iso_out.rxbytes = data_per_desc;
++ dma_desc->buf = dma_ad;
++ dma_desc->status.d32 = sts.d32;
++
++ offset += data_per_desc;
++ dma_desc++;
++ dma_ad += data_per_desc;
++ }
++ }
++
++ for (j = 0; j < dwc_ep->pkt_per_frm - 1; ++j) {
++ uint32_t len = (j + 1) * dwc_ep->maxpacket;
++ if (len > dwc_ep->data_per_frame)
++ data_per_desc =
++ dwc_ep->data_per_frame -
++ j * dwc_ep->maxpacket;
++ else
++ data_per_desc = dwc_ep->maxpacket;
++ len = data_per_desc % 4;
++ if (len)
++ data_per_desc += 4 - len;
++ sts.b_iso_out.rxbytes = data_per_desc;
++ dma_desc->buf = dma_ad;
++ dma_desc->status.d32 = sts.d32;
++
++ offset += data_per_desc;
++ dma_desc++;
++ dma_ad += data_per_desc;
++ }
++
++ sts.b_iso_out.ioc = 1;
++ len = (j + 1) * dwc_ep->maxpacket;
++ if (len > dwc_ep->data_per_frame)
++ data_per_desc =
++ dwc_ep->data_per_frame - j * dwc_ep->maxpacket;
++ else
++ data_per_desc = dwc_ep->maxpacket;
++ len = data_per_desc % 4;
++ if (len)
++ data_per_desc += 4 - len;
++ sts.b_iso_out.rxbytes = data_per_desc;
++
++ dma_desc->buf = dma_ad;
++ dma_desc->status.d32 = sts.d32;
++ dma_desc++;
++
++ /** Buffer 1 descriptors setup */
++ sts.b_iso_out.ioc = 0;
++ dma_ad = dwc_ep->dma_addr1;
++
++ offset = 0;
++ for (i = 0; i < dwc_ep->desc_cnt - dwc_ep->pkt_per_frm;
++ i += dwc_ep->pkt_per_frm) {
++ for (j = 0; j < dwc_ep->pkt_per_frm; ++j) {
++ uint32_t len = (j + 1) * dwc_ep->maxpacket;
++ if (len > dwc_ep->data_per_frame)
++ data_per_desc =
++ dwc_ep->data_per_frame -
++ j * dwc_ep->maxpacket;
++ else
++ data_per_desc = dwc_ep->maxpacket;
++ len = data_per_desc % 4;
++ if (len)
++ data_per_desc += 4 - len;
++
++ data_per_desc =
++ sts.b_iso_out.rxbytes = data_per_desc;
++ dma_desc->buf = dma_ad;
++ dma_desc->status.d32 = sts.d32;
++
++ offset += data_per_desc;
++ dma_desc++;
++ dma_ad += data_per_desc;
++ }
++ }
++ for (j = 0; j < dwc_ep->pkt_per_frm - 1; ++j) {
++ data_per_desc =
++ ((j + 1) * dwc_ep->maxpacket >
++ dwc_ep->data_per_frame) ? dwc_ep->data_per_frame -
++ j * dwc_ep->maxpacket : dwc_ep->maxpacket;
++ data_per_desc +=
++ (data_per_desc % 4) ? (4 - data_per_desc % 4) : 0;
++ sts.b_iso_out.rxbytes = data_per_desc;
++ dma_desc->buf = dma_ad;
++ dma_desc->status.d32 = sts.d32;
++
++ offset += data_per_desc;
++ dma_desc++;
++ dma_ad += data_per_desc;
++ }
++
++ sts.b_iso_out.ioc = 1;
++ sts.b_iso_out.l = 1;
++ data_per_desc =
++ ((j + 1) * dwc_ep->maxpacket >
++ dwc_ep->data_per_frame) ? dwc_ep->data_per_frame -
++ j * dwc_ep->maxpacket : dwc_ep->maxpacket;
++ data_per_desc +=
++ (data_per_desc % 4) ? (4 - data_per_desc % 4) : 0;
++ sts.b_iso_out.rxbytes = data_per_desc;
++
++ dma_desc->buf = dma_ad;
++ dma_desc->status.d32 = sts.d32;
++
++ dwc_ep->next_frame = 0;
++
++ /** Write dma_ad into DOEPDMA register */
++ DWC_WRITE_REG32(&(out_regs->doepdma),
++ (uint32_t) dwc_ep->iso_dma_desc_addr);
++
++ }
++ /** ISO IN EP */
++ else {
++ dev_dma_desc_sts_t sts = {.d32 = 0 };
++ dwc_otg_dev_dma_desc_t *dma_desc = dwc_ep->iso_desc_addr;
++ dma_addr_t dma_ad;
++ dwc_otg_dev_in_ep_regs_t *in_regs =
++ core_if->dev_if->in_ep_regs[dwc_ep->num];
++ unsigned int frmnumber;
++ fifosize_data_t txfifosize, rxfifosize;
++
++ txfifosize.d32 =
++ DWC_READ_REG32(&core_if->dev_if->in_ep_regs[dwc_ep->num]->
++ dtxfsts);
++ rxfifosize.d32 =
++ DWC_READ_REG32(&core_if->core_global_regs->grxfsiz);
++
++ addr = &core_if->dev_if->in_ep_regs[dwc_ep->num]->diepctl;
++
++ dma_ad = dwc_ep->dma_addr0;
++
++ dsts.d32 =
++ DWC_READ_REG32(&core_if->dev_if->dev_global_regs->dsts);
++
++ sts.b_iso_in.bs = BS_HOST_READY;
++ sts.b_iso_in.txsts = 0;
++ sts.b_iso_in.sp =
++ (dwc_ep->data_per_frame % dwc_ep->maxpacket) ? 1 : 0;
++ sts.b_iso_in.ioc = 0;
++ sts.b_iso_in.pid = dwc_ep->pkt_per_frm;
++
++ frmnumber = dwc_ep->next_frame;
++
++ sts.b_iso_in.framenum = frmnumber;
++ sts.b_iso_in.txbytes = dwc_ep->data_per_frame;
++ sts.b_iso_in.l = 0;
++
++ /** Buffer 0 descriptors setup */
++ for (i = 0; i < dwc_ep->desc_cnt - 1; i++) {
++ dma_desc->buf = dma_ad;
++ dma_desc->status.d32 = sts.d32;
++ dma_desc++;
++
++ dma_ad += dwc_ep->data_per_frame;
++ sts.b_iso_in.framenum += dwc_ep->bInterval;
++ }
++
++ sts.b_iso_in.ioc = 1;
++ dma_desc->buf = dma_ad;
++ dma_desc->status.d32 = sts.d32;
++ ++dma_desc;
++
++ /** Buffer 1 descriptors setup */
++ sts.b_iso_in.ioc = 0;
++ dma_ad = dwc_ep->dma_addr1;
++
++ for (i = 0; i < dwc_ep->desc_cnt - dwc_ep->pkt_per_frm;
++ i += dwc_ep->pkt_per_frm) {
++ dma_desc->buf = dma_ad;
++ dma_desc->status.d32 = sts.d32;
++ dma_desc++;
++
++ dma_ad += dwc_ep->data_per_frame;
++ sts.b_iso_in.framenum += dwc_ep->bInterval;
++
++ sts.b_iso_in.ioc = 0;
++ }
++ sts.b_iso_in.ioc = 1;
++ sts.b_iso_in.l = 1;
++
++ dma_desc->buf = dma_ad;
++ dma_desc->status.d32 = sts.d32;
++
++ dwc_ep->next_frame = sts.b_iso_in.framenum + dwc_ep->bInterval;
++
++ /** Write dma_ad into diepdma register */
++ DWC_WRITE_REG32(&(in_regs->diepdma),
++ (uint32_t) dwc_ep->iso_dma_desc_addr);
++ }
++ /** Enable endpoint, clear nak */
++ depctl.d32 = 0;
++ depctl.b.epena = 1;
++ depctl.b.usbactep = 1;
++ depctl.b.cnak = 1;
++
++ DWC_MODIFY_REG32(addr, depctl.d32, depctl.d32);
++ depctl.d32 = DWC_READ_REG32(addr);
++}
++
++/**
++ * This function initializes a descriptor chain for Isochronous transfer
++ *
++ * @param core_if Programming view of DWC_otg controller.
++ * @param ep The EP to start the transfer on.
++ *
++ */
++void dwc_otg_iso_ep_start_buf_transfer(dwc_otg_core_if_t * core_if,
++ dwc_ep_t * ep)
++{
++ depctl_data_t depctl = {.d32 = 0 };
++ volatile uint32_t *addr;
++
++ if (ep->is_in) {
++ addr = &core_if->dev_if->in_ep_regs[ep->num]->diepctl;
++ } else {
++ addr = &core_if->dev_if->out_ep_regs[ep->num]->doepctl;
++ }
++
++ if (core_if->dma_enable == 0 || core_if->dma_desc_enable != 0) {
++ return;
++ } else {
++ deptsiz_data_t deptsiz = {.d32 = 0 };
++
++ ep->xfer_len =
++ ep->data_per_frame * ep->buf_proc_intrvl / ep->bInterval;
++ ep->pkt_cnt =
++ (ep->xfer_len - 1 + ep->maxpacket) / ep->maxpacket;
++ ep->xfer_count = 0;
++ ep->xfer_buff =
++ (ep->proc_buf_num) ? ep->xfer_buff1 : ep->xfer_buff0;
++ ep->dma_addr =
++ (ep->proc_buf_num) ? ep->dma_addr1 : ep->dma_addr0;
++
++ if (ep->is_in) {
++ /* Program the transfer size and packet count
++ * as follows: xfersize = N * maxpacket +
++ * short_packet pktcnt = N + (short_packet
++ * exist ? 1 : 0)
++ */
++ deptsiz.b.mc = ep->pkt_per_frm;
++ deptsiz.b.xfersize = ep->xfer_len;
++ deptsiz.b.pktcnt =
++ (ep->xfer_len - 1 + ep->maxpacket) / ep->maxpacket;
++ DWC_WRITE_REG32(&core_if->dev_if->in_ep_regs[ep->num]->
++ dieptsiz, deptsiz.d32);
++
++ /* Write the DMA register */
++ DWC_WRITE_REG32(&
++ (core_if->dev_if->in_ep_regs[ep->num]->
++ diepdma), (uint32_t) ep->dma_addr);
++
++ } else {
++ deptsiz.b.pktcnt =
++ (ep->xfer_len + (ep->maxpacket - 1)) /
++ ep->maxpacket;
++ deptsiz.b.xfersize = deptsiz.b.pktcnt * ep->maxpacket;
++
++ DWC_WRITE_REG32(&core_if->dev_if->out_ep_regs[ep->num]->
++ doeptsiz, deptsiz.d32);
++
++ /* Write the DMA register */
++ DWC_WRITE_REG32(&
++ (core_if->dev_if->out_ep_regs[ep->num]->
++ doepdma), (uint32_t) ep->dma_addr);
++
++ }
++ /** Enable endpoint, clear nak */
++ depctl.d32 = 0;
++ depctl.b.epena = 1;
++ depctl.b.cnak = 1;
++
++ DWC_MODIFY_REG32(addr, depctl.d32, depctl.d32);
++ }
++}
++
++/**
++ * This function does the setup for a data transfer for an EP and
++ * starts the transfer. For an IN transfer, the packets will be
++ * loaded into the appropriate Tx FIFO in the ISR. For OUT transfers,
++ * the packets are unloaded from the Rx FIFO in the ISR.
++ *
++ * @param core_if Programming view of DWC_otg controller.
++ * @param ep The EP to start the transfer on.
++ */
++
++static void dwc_otg_iso_ep_start_transfer(dwc_otg_core_if_t * core_if,
++ dwc_ep_t * ep)
++{
++ if (core_if->dma_enable) {
++ if (core_if->dma_desc_enable) {
++ if (ep->is_in) {
++ ep->desc_cnt = ep->pkt_cnt / ep->pkt_per_frm;
++ } else {
++ ep->desc_cnt = ep->pkt_cnt;
++ }
++ dwc_otg_iso_ep_start_ddma_transfer(core_if, ep);
++ } else {
++ if (core_if->pti_enh_enable) {
++ dwc_otg_iso_ep_start_buf_transfer(core_if, ep);
++ } else {
++ ep->cur_pkt_addr =
++ (ep->proc_buf_num) ? ep->xfer_buff1 : ep->
++ xfer_buff0;
++ ep->cur_pkt_dma_addr =
++ (ep->proc_buf_num) ? ep->dma_addr1 : ep->
++ dma_addr0;
++ dwc_otg_iso_ep_start_frm_transfer(core_if, ep);
++ }
++ }
++ } else {
++ ep->cur_pkt_addr =
++ (ep->proc_buf_num) ? ep->xfer_buff1 : ep->xfer_buff0;
++ ep->cur_pkt_dma_addr =
++ (ep->proc_buf_num) ? ep->dma_addr1 : ep->dma_addr0;
++ dwc_otg_iso_ep_start_frm_transfer(core_if, ep);
++ }
++}
++
++/**
++ * This function stops transfer for an EP and
++ * resets the ep's variables.
++ *
++ * @param core_if Programming view of DWC_otg controller.
++ * @param ep The EP to start the transfer on.
++ */
++
++void dwc_otg_iso_ep_stop_transfer(dwc_otg_core_if_t * core_if, dwc_ep_t * ep)
++{
++ depctl_data_t depctl = {.d32 = 0 };
++ volatile uint32_t *addr;
++
++ if (ep->is_in == 1) {
++ addr = &core_if->dev_if->in_ep_regs[ep->num]->diepctl;
++ } else {
++ addr = &core_if->dev_if->out_ep_regs[ep->num]->doepctl;
++ }
++
++ /* disable the ep */
++ depctl.d32 = DWC_READ_REG32(addr);
++
++ depctl.b.epdis = 1;
++ depctl.b.snak = 1;
++
++ DWC_WRITE_REG32(addr, depctl.d32);
++
++ if (core_if->dma_desc_enable &&
++ ep->iso_desc_addr && ep->iso_dma_desc_addr) {
++ dwc_otg_ep_free_desc_chain(ep->iso_desc_addr,
++ ep->iso_dma_desc_addr,
++ ep->desc_cnt * 2);
++ }
++
++ /* reset varibales */
++ ep->dma_addr0 = 0;
++ ep->dma_addr1 = 0;
++ ep->xfer_buff0 = 0;
++ ep->xfer_buff1 = 0;
++ ep->data_per_frame = 0;
++ ep->data_pattern_frame = 0;
++ ep->sync_frame = 0;
++ ep->buf_proc_intrvl = 0;
++ ep->bInterval = 0;
++ ep->proc_buf_num = 0;
++ ep->pkt_per_frm = 0;
++ ep->pkt_per_frm = 0;
++ ep->desc_cnt = 0;
++ ep->iso_desc_addr = 0;
++ ep->iso_dma_desc_addr = 0;
++}
++
++int dwc_otg_pcd_iso_ep_start(dwc_otg_pcd_t * pcd, void *ep_handle,
++ uint8_t * buf0, uint8_t * buf1, dwc_dma_t dma0,
++ dwc_dma_t dma1, int sync_frame, int dp_frame,
++ int data_per_frame, int start_frame,
++ int buf_proc_intrvl, void *req_handle,
++ int atomic_alloc)
++{
++ dwc_otg_pcd_ep_t *ep;
++ dwc_irqflags_t flags = 0;
++ dwc_ep_t *dwc_ep;
++ int32_t frm_data;
++ dsts_data_t dsts;
++ dwc_otg_core_if_t *core_if;
++
++ ep = get_ep_from_handle(pcd, ep_handle);
++
++ if (!ep || !ep->desc || ep->dwc_ep.num == 0) {
++ DWC_WARN("bad ep\n");
++ return -DWC_E_INVALID;
++ }
++
++ DWC_SPINLOCK_IRQSAVE(pcd->lock, &flags);
++ core_if = GET_CORE_IF(pcd);
++ dwc_ep = &ep->dwc_ep;
++
++ if (ep->iso_req_handle) {
++ DWC_WARN("ISO request in progress\n");
++ }
++
++ dwc_ep->dma_addr0 = dma0;
++ dwc_ep->dma_addr1 = dma1;
++
++ dwc_ep->xfer_buff0 = buf0;
++ dwc_ep->xfer_buff1 = buf1;
++
++ dwc_ep->data_per_frame = data_per_frame;
++
++ /** @todo - pattern data support is to be implemented in the future */
++ dwc_ep->data_pattern_frame = dp_frame;
++ dwc_ep->sync_frame = sync_frame;
++
++ dwc_ep->buf_proc_intrvl = buf_proc_intrvl;
++
++ dwc_ep->bInterval = 1 << (ep->desc->bInterval - 1);
++
++ dwc_ep->proc_buf_num = 0;
++
++ dwc_ep->pkt_per_frm = 0;
++ frm_data = ep->dwc_ep.data_per_frame;
++ while (frm_data > 0) {
++ dwc_ep->pkt_per_frm++;
++ frm_data -= ep->dwc_ep.maxpacket;
++ }
++
++ dsts.d32 = DWC_READ_REG32(&core_if->dev_if->dev_global_regs->dsts);
++
++ if (start_frame == -1) {
++ dwc_ep->next_frame = dsts.b.soffn + 1;
++ if (dwc_ep->bInterval != 1) {
++ dwc_ep->next_frame =
++ dwc_ep->next_frame + (dwc_ep->bInterval - 1 -
++ dwc_ep->next_frame %
++ dwc_ep->bInterval);
++ }
++ } else {
++ dwc_ep->next_frame = start_frame;
++ }
++
++ if (!core_if->pti_enh_enable) {
++ dwc_ep->pkt_cnt =
++ dwc_ep->buf_proc_intrvl * dwc_ep->pkt_per_frm /
++ dwc_ep->bInterval;
++ } else {
++ dwc_ep->pkt_cnt =
++ (dwc_ep->data_per_frame *
++ (dwc_ep->buf_proc_intrvl / dwc_ep->bInterval)
++ - 1 + dwc_ep->maxpacket) / dwc_ep->maxpacket;
++ }
++
++ if (core_if->dma_desc_enable) {
++ dwc_ep->desc_cnt =
++ dwc_ep->buf_proc_intrvl * dwc_ep->pkt_per_frm /
++ dwc_ep->bInterval;
++ }
++
++ if (atomic_alloc) {
++ dwc_ep->pkt_info =
++ DWC_ALLOC_ATOMIC(sizeof(iso_pkt_info_t) * dwc_ep->pkt_cnt);
++ } else {
++ dwc_ep->pkt_info =
++ DWC_ALLOC(sizeof(iso_pkt_info_t) * dwc_ep->pkt_cnt);
++ }
++ if (!dwc_ep->pkt_info) {
++ DWC_SPINUNLOCK_IRQRESTORE(pcd->lock, flags);
++ return -DWC_E_NO_MEMORY;
++ }
++ if (core_if->pti_enh_enable) {
++ dwc_memset(dwc_ep->pkt_info, 0,
++ sizeof(iso_pkt_info_t) * dwc_ep->pkt_cnt);
++ }
++
++ dwc_ep->cur_pkt = 0;
++ ep->iso_req_handle = req_handle;
++
++ DWC_SPINUNLOCK_IRQRESTORE(pcd->lock, flags);
++ dwc_otg_iso_ep_start_transfer(core_if, dwc_ep);
++ return 0;
++}
++
++int dwc_otg_pcd_iso_ep_stop(dwc_otg_pcd_t * pcd, void *ep_handle,
++ void *req_handle)
++{
++ dwc_irqflags_t flags = 0;
++ dwc_otg_pcd_ep_t *ep;
++ dwc_ep_t *dwc_ep;
++
++ ep = get_ep_from_handle(pcd, ep_handle);
++ if (!ep || !ep->desc || ep->dwc_ep.num == 0) {
++ DWC_WARN("bad ep\n");
++ return -DWC_E_INVALID;
++ }
++ dwc_ep = &ep->dwc_ep;
++
++ dwc_otg_iso_ep_stop_transfer(GET_CORE_IF(pcd), dwc_ep);
++
++ DWC_FREE(dwc_ep->pkt_info);
++ DWC_SPINLOCK_IRQSAVE(pcd->lock, &flags);
++ if (ep->iso_req_handle != req_handle) {
++ DWC_SPINUNLOCK_IRQRESTORE(pcd->lock, flags);
++ return -DWC_E_INVALID;
++ }
++
++ DWC_SPINUNLOCK_IRQRESTORE(pcd->lock, flags);
++
++ ep->iso_req_handle = 0;
++ return 0;
++}
++
++/**
++ * This function is used for perodical data exchnage between PCD and gadget drivers.
++ * for Isochronous EPs
++ *
++ * - Every time a sync period completes this function is called to
++ * perform data exchange between PCD and gadget
++ */
++void dwc_otg_iso_buffer_done(dwc_otg_pcd_t * pcd, dwc_otg_pcd_ep_t * ep,
++ void *req_handle)
++{
++ int i;
++ dwc_ep_t *dwc_ep;
++
++ dwc_ep = &ep->dwc_ep;
++
++ DWC_SPINUNLOCK(ep->pcd->lock);
++ pcd->fops->isoc_complete(pcd, ep->priv, ep->iso_req_handle,
++ dwc_ep->proc_buf_num ^ 0x1);
++ DWC_SPINLOCK(ep->pcd->lock);
++
++ for (i = 0; i < dwc_ep->pkt_cnt; ++i) {
++ dwc_ep->pkt_info[i].status = 0;
++ dwc_ep->pkt_info[i].offset = 0;
++ dwc_ep->pkt_info[i].length = 0;
++ }
++}
++
++int dwc_otg_pcd_get_iso_packet_count(dwc_otg_pcd_t * pcd, void *ep_handle,
++ void *iso_req_handle)
++{
++ dwc_otg_pcd_ep_t *ep;
++ dwc_ep_t *dwc_ep;
++
++ ep = get_ep_from_handle(pcd, ep_handle);
++ if (!ep->desc || ep->dwc_ep.num == 0) {
++ DWC_WARN("bad ep\n");
++ return -DWC_E_INVALID;
++ }
++ dwc_ep = &ep->dwc_ep;
++
++ return dwc_ep->pkt_cnt;
++}
++
++void dwc_otg_pcd_get_iso_packet_params(dwc_otg_pcd_t * pcd, void *ep_handle,
++ void *iso_req_handle, int packet,
++ int *status, int *actual, int *offset)
++{
++ dwc_otg_pcd_ep_t *ep;
++ dwc_ep_t *dwc_ep;
++
++ ep = get_ep_from_handle(pcd, ep_handle);
++ if (!ep)
++ DWC_WARN("bad ep\n");
++
++ dwc_ep = &ep->dwc_ep;
++
++ *status = dwc_ep->pkt_info[packet].status;
++ *actual = dwc_ep->pkt_info[packet].length;
++ *offset = dwc_ep->pkt_info[packet].offset;
++}
++
++#endif /* DWC_EN_ISOC */
++
++static void dwc_otg_pcd_init_ep(dwc_otg_pcd_t * pcd, dwc_otg_pcd_ep_t * pcd_ep,
++ uint32_t is_in, uint32_t ep_num)
++{
++ /* Init EP structure */
++ pcd_ep->desc = 0;
++ pcd_ep->pcd = pcd;
++ pcd_ep->stopped = 1;
++ pcd_ep->queue_sof = 0;
++
++ /* Init DWC ep structure */
++ pcd_ep->dwc_ep.is_in = is_in;
++ pcd_ep->dwc_ep.num = ep_num;
++ pcd_ep->dwc_ep.active = 0;
++ pcd_ep->dwc_ep.tx_fifo_num = 0;
++ /* Control until ep is actvated */
++ pcd_ep->dwc_ep.type = DWC_OTG_EP_TYPE_CONTROL;
++ pcd_ep->dwc_ep.maxpacket = MAX_PACKET_SIZE;
++ pcd_ep->dwc_ep.dma_addr = 0;
++ pcd_ep->dwc_ep.start_xfer_buff = 0;
++ pcd_ep->dwc_ep.xfer_buff = 0;
++ pcd_ep->dwc_ep.xfer_len = 0;
++ pcd_ep->dwc_ep.xfer_count = 0;
++ pcd_ep->dwc_ep.sent_zlp = 0;
++ pcd_ep->dwc_ep.total_len = 0;
++ pcd_ep->dwc_ep.desc_addr = 0;
++ pcd_ep->dwc_ep.dma_desc_addr = 0;
++ DWC_CIRCLEQ_INIT(&pcd_ep->queue);
++}
++
++/**
++ * Initialize ep's
++ */
++static void dwc_otg_pcd_reinit(dwc_otg_pcd_t * pcd)
++{
++ int i;
++ uint32_t hwcfg1;
++ dwc_otg_pcd_ep_t *ep;
++ int in_ep_cntr, out_ep_cntr;
++ uint32_t num_in_eps = (GET_CORE_IF(pcd))->dev_if->num_in_eps;
++ uint32_t num_out_eps = (GET_CORE_IF(pcd))->dev_if->num_out_eps;
++
++ /**
++ * Initialize the EP0 structure.
++ */
++ ep = &pcd->ep0;
++ dwc_otg_pcd_init_ep(pcd, ep, 0, 0);
++
++ in_ep_cntr = 0;
++ hwcfg1 = (GET_CORE_IF(pcd))->hwcfg1.d32 >> 3;
++ for (i = 1; in_ep_cntr < num_in_eps; i++) {
++ if ((hwcfg1 & 0x1) == 0) {
++ dwc_otg_pcd_ep_t *ep = &pcd->in_ep[in_ep_cntr];
++ in_ep_cntr++;
++ /**
++ * @todo NGS: Add direction to EP, based on contents
++ * of HWCFG1. Need a copy of HWCFG1 in pcd structure?
++ * sprintf(";r
++ */
++ dwc_otg_pcd_init_ep(pcd, ep, 1 /* IN */ , i);
++
++ DWC_CIRCLEQ_INIT(&ep->queue);
++ }
++ hwcfg1 >>= 2;
++ }
++
++ out_ep_cntr = 0;
++ hwcfg1 = (GET_CORE_IF(pcd))->hwcfg1.d32 >> 2;
++ for (i = 1; out_ep_cntr < num_out_eps; i++) {
++ if ((hwcfg1 & 0x1) == 0) {
++ dwc_otg_pcd_ep_t *ep = &pcd->out_ep[out_ep_cntr];
++ out_ep_cntr++;
++ /**
++ * @todo NGS: Add direction to EP, based on contents
++ * of HWCFG1. Need a copy of HWCFG1 in pcd structure?
++ * sprintf(";r
++ */
++ dwc_otg_pcd_init_ep(pcd, ep, 0 /* OUT */ , i);
++ DWC_CIRCLEQ_INIT(&ep->queue);
++ }
++ hwcfg1 >>= 2;
++ }
++
++ pcd->ep0state = EP0_DISCONNECT;
++ pcd->ep0.dwc_ep.maxpacket = MAX_EP0_SIZE;
++ pcd->ep0.dwc_ep.type = DWC_OTG_EP_TYPE_CONTROL;
++}
++
++/**
++ * This function is called when the SRP timer expires. The SRP should
++ * complete within 6 seconds.
++ */
++static void srp_timeout(void *ptr)
++{
++ gotgctl_data_t gotgctl;
++ dwc_otg_core_if_t *core_if = (dwc_otg_core_if_t *) ptr;
++ volatile uint32_t *addr = &core_if->core_global_regs->gotgctl;
++
++ gotgctl.d32 = DWC_READ_REG32(addr);
++
++ core_if->srp_timer_started = 0;
++
++ if (core_if->adp_enable) {
++ if (gotgctl.b.bsesvld == 0) {
++ gpwrdn_data_t gpwrdn = {.d32 = 0 };
++ DWC_PRINTF("SRP Timeout BSESSVLD = 0\n");
++ /* Power off the core */
++ if (core_if->power_down == 2) {
++ gpwrdn.b.pwrdnswtch = 1;
++ DWC_MODIFY_REG32(&core_if->
++ core_global_regs->gpwrdn,
++ gpwrdn.d32, 0);
++ }
++
++ gpwrdn.d32 = 0;
++ gpwrdn.b.pmuintsel = 1;
++ gpwrdn.b.pmuactv = 1;
++ DWC_MODIFY_REG32(&core_if->core_global_regs->gpwrdn, 0,
++ gpwrdn.d32);
++ dwc_otg_adp_probe_start(core_if);
++ } else {
++ DWC_PRINTF("SRP Timeout BSESSVLD = 1\n");
++ core_if->op_state = B_PERIPHERAL;
++ dwc_otg_core_init(core_if);
++ dwc_otg_enable_global_interrupts(core_if);
++ cil_pcd_start(core_if);
++ }
++ }
++
++ if ((core_if->core_params->phy_type == DWC_PHY_TYPE_PARAM_FS) &&
++ (core_if->core_params->i2c_enable)) {
++ DWC_PRINTF("SRP Timeout\n");
++
++ if ((core_if->srp_success) && (gotgctl.b.bsesvld)) {
++ if (core_if->pcd_cb && core_if->pcd_cb->resume_wakeup) {
++ core_if->pcd_cb->resume_wakeup(core_if->pcd_cb->p);
++ }
++
++ /* Clear Session Request */
++ gotgctl.d32 = 0;
++ gotgctl.b.sesreq = 1;
++ DWC_MODIFY_REG32(&core_if->core_global_regs->gotgctl,
++ gotgctl.d32, 0);
++
++ core_if->srp_success = 0;
++ } else {
++ __DWC_ERROR("Device not connected/responding\n");
++ gotgctl.b.sesreq = 0;
++ DWC_WRITE_REG32(addr, gotgctl.d32);
++ }
++ } else if (gotgctl.b.sesreq) {
++ DWC_PRINTF("SRP Timeout\n");
++
++ __DWC_ERROR("Device not connected/responding\n");
++ gotgctl.b.sesreq = 0;
++ DWC_WRITE_REG32(addr, gotgctl.d32);
++ } else {
++ DWC_PRINTF(" SRP GOTGCTL=%0x\n", gotgctl.d32);
++ }
++}
++
++/**
++ * Tasklet
++ *
++ */
++extern void start_next_request(dwc_otg_pcd_ep_t * ep);
++
++static void start_xfer_tasklet_func(void *data)
++{
++ dwc_otg_pcd_t *pcd = (dwc_otg_pcd_t *) data;
++ dwc_otg_core_if_t *core_if = GET_CORE_IF(pcd);
++
++ int i;
++ depctl_data_t diepctl;
++
++ DWC_DEBUGPL(DBG_PCDV, "Start xfer tasklet\n");
++
++ diepctl.d32 = DWC_READ_REG32(&core_if->dev_if->in_ep_regs[0]->diepctl);
++
++ if (pcd->ep0.queue_sof) {
++ pcd->ep0.queue_sof = 0;
++ start_next_request(&pcd->ep0);
++ // break;
++ }
++
++ for (i = 0; i < core_if->dev_if->num_in_eps; i++) {
++ depctl_data_t diepctl;
++ diepctl.d32 =
++ DWC_READ_REG32(&core_if->dev_if->in_ep_regs[i]->diepctl);
++
++ if (pcd->in_ep[i].queue_sof) {
++ pcd->in_ep[i].queue_sof = 0;
++ start_next_request(&pcd->in_ep[i]);
++ // break;
++ }
++ }
++
++ return;
++}
++
++/**
++ * This function initialized the PCD portion of the driver.
++ *
++ */
++dwc_otg_pcd_t *dwc_otg_pcd_init(dwc_otg_core_if_t * core_if)
++{
++ dwc_otg_pcd_t *pcd = NULL;
++ dwc_otg_dev_if_t *dev_if;
++ int i;
++
++ /*
++ * Allocate PCD structure
++ */
++ pcd = DWC_ALLOC(sizeof(dwc_otg_pcd_t));
++
++ if (pcd == NULL) {
++ return NULL;
++ }
++
++ pcd->lock = DWC_SPINLOCK_ALLOC();
++ DWC_DEBUGPL(DBG_HCDV, "Init of PCD %p given core_if %p\n",
++ pcd, core_if);//GRAYG
++ if (!pcd->lock) {
++ DWC_ERROR("Could not allocate lock for pcd");
++ DWC_FREE(pcd);
++ return NULL;
++ }
++ /* Set core_if's lock pointer to hcd->lock */
++ core_if->lock = pcd->lock;
++ pcd->core_if = core_if;
++
++ dev_if = core_if->dev_if;
++ dev_if->isoc_ep = NULL;
++
++ if (core_if->hwcfg4.b.ded_fifo_en) {
++ DWC_PRINTF("Dedicated Tx FIFOs mode\n");
++ } else {
++ DWC_PRINTF("Shared Tx FIFO mode\n");
++ }
++
++ /*
++ * Initialized the Core for Device mode here if there is nod ADP support.
++ * Otherwise it will be done later in dwc_otg_adp_start routine.
++ */
++ if (dwc_otg_is_device_mode(core_if) /*&& !core_if->adp_enable*/) {
++ dwc_otg_core_dev_init(core_if);
++ }
++
++ /*
++ * Register the PCD Callbacks.
++ */
++ dwc_otg_cil_register_pcd_callbacks(core_if, &pcd_callbacks, pcd);
++
++ /*
++ * Initialize the DMA buffer for SETUP packets
++ */
++ if (GET_CORE_IF(pcd)->dma_enable) {
++ pcd->setup_pkt =
++ DWC_DMA_ALLOC(sizeof(*pcd->setup_pkt) * 5,
++ &pcd->setup_pkt_dma_handle);
++ if (pcd->setup_pkt == NULL) {
++ DWC_FREE(pcd);
++ return NULL;
++ }
++
++ pcd->status_buf =
++ DWC_DMA_ALLOC(sizeof(uint16_t),
++ &pcd->status_buf_dma_handle);
++ if (pcd->status_buf == NULL) {
++ DWC_DMA_FREE(sizeof(*pcd->setup_pkt) * 5,
++ pcd->setup_pkt, pcd->setup_pkt_dma_handle);
++ DWC_FREE(pcd);
++ return NULL;
++ }
++
++ if (GET_CORE_IF(pcd)->dma_desc_enable) {
++ dev_if->setup_desc_addr[0] =
++ dwc_otg_ep_alloc_desc_chain
++ (&dev_if->dma_setup_desc_addr[0], 1);
++ dev_if->setup_desc_addr[1] =
++ dwc_otg_ep_alloc_desc_chain
++ (&dev_if->dma_setup_desc_addr[1], 1);
++ dev_if->in_desc_addr =
++ dwc_otg_ep_alloc_desc_chain
++ (&dev_if->dma_in_desc_addr, 1);
++ dev_if->out_desc_addr =
++ dwc_otg_ep_alloc_desc_chain
++ (&dev_if->dma_out_desc_addr, 1);
++ pcd->data_terminated = 0;
++
++ if (dev_if->setup_desc_addr[0] == 0
++ || dev_if->setup_desc_addr[1] == 0
++ || dev_if->in_desc_addr == 0
++ || dev_if->out_desc_addr == 0) {
++
++ if (dev_if->out_desc_addr)
++ dwc_otg_ep_free_desc_chain
++ (dev_if->out_desc_addr,
++ dev_if->dma_out_desc_addr, 1);
++ if (dev_if->in_desc_addr)
++ dwc_otg_ep_free_desc_chain
++ (dev_if->in_desc_addr,
++ dev_if->dma_in_desc_addr, 1);
++ if (dev_if->setup_desc_addr[1])
++ dwc_otg_ep_free_desc_chain
++ (dev_if->setup_desc_addr[1],
++ dev_if->dma_setup_desc_addr[1], 1);
++ if (dev_if->setup_desc_addr[0])
++ dwc_otg_ep_free_desc_chain
++ (dev_if->setup_desc_addr[0],
++ dev_if->dma_setup_desc_addr[0], 1);
++
++ DWC_DMA_FREE(sizeof(*pcd->setup_pkt) * 5,
++ pcd->setup_pkt,
++ pcd->setup_pkt_dma_handle);
++ DWC_DMA_FREE(sizeof(*pcd->status_buf),
++ pcd->status_buf,
++ pcd->status_buf_dma_handle);
++
++ DWC_FREE(pcd);
++
++ return NULL;
++ }
++ }
++ } else {
++ pcd->setup_pkt = DWC_ALLOC(sizeof(*pcd->setup_pkt) * 5);
++ if (pcd->setup_pkt == NULL) {
++ DWC_FREE(pcd);
++ return NULL;
++ }
++
++ pcd->status_buf = DWC_ALLOC(sizeof(uint16_t));
++ if (pcd->status_buf == NULL) {
++ DWC_FREE(pcd->setup_pkt);
++ DWC_FREE(pcd);
++ return NULL;
++ }
++ }
++
++ dwc_otg_pcd_reinit(pcd);
++
++ /* Allocate the cfi object for the PCD */
++#ifdef DWC_UTE_CFI
++ pcd->cfi = DWC_ALLOC(sizeof(cfiobject_t));
++ if (NULL == pcd->cfi)
++ goto fail;
++ if (init_cfi(pcd->cfi)) {
++ CFI_INFO("%s: Failed to init the CFI object\n", __func__);
++ goto fail;
++ }
++#endif
++
++ /* Initialize tasklets */
++ pcd->start_xfer_tasklet = DWC_TASK_ALLOC("xfer_tasklet",
++ start_xfer_tasklet_func, pcd);
++ pcd->test_mode_tasklet = DWC_TASK_ALLOC("test_mode_tasklet",
++ do_test_mode, pcd);
++
++ /* Initialize SRP timer */
++ core_if->srp_timer = DWC_TIMER_ALLOC("SRP TIMER", srp_timeout, core_if);
++
++ if (core_if->core_params->dev_out_nak) {
++ /**
++ * Initialize xfer timeout timer. Implemented for
++ * 2.93a feature "Device DDMA OUT NAK Enhancement"
++ */
++ for(i = 0; i < MAX_EPS_CHANNELS; i++) {
++ pcd->core_if->ep_xfer_timer[i] =
++ DWC_TIMER_ALLOC("ep timer", ep_xfer_timeout,
++ &pcd->core_if->ep_xfer_info[i]);
++ }
++ }
++
++ return pcd;
++#ifdef DWC_UTE_CFI
++fail:
++#endif
++ if (pcd->setup_pkt)
++ DWC_FREE(pcd->setup_pkt);
++ if (pcd->status_buf)
++ DWC_FREE(pcd->status_buf);
++#ifdef DWC_UTE_CFI
++ if (pcd->cfi)
++ DWC_FREE(pcd->cfi);
++#endif
++ if (pcd)
++ DWC_FREE(pcd);
++ return NULL;
++
++}
++
++/**
++ * Remove PCD specific data
++ */
++void dwc_otg_pcd_remove(dwc_otg_pcd_t * pcd)
++{
++ dwc_otg_dev_if_t *dev_if = GET_CORE_IF(pcd)->dev_if;
++ int i;
++ if (pcd->core_if->core_params->dev_out_nak) {
++ for (i = 0; i < MAX_EPS_CHANNELS; i++) {
++ DWC_TIMER_CANCEL(pcd->core_if->ep_xfer_timer[i]);
++ pcd->core_if->ep_xfer_info[i].state = 0;
++ }
++ }
++
++ if (GET_CORE_IF(pcd)->dma_enable) {
++ DWC_DMA_FREE(sizeof(*pcd->setup_pkt) * 5, pcd->setup_pkt,
++ pcd->setup_pkt_dma_handle);
++ DWC_DMA_FREE(sizeof(uint16_t), pcd->status_buf,
++ pcd->status_buf_dma_handle);
++ if (GET_CORE_IF(pcd)->dma_desc_enable) {
++ dwc_otg_ep_free_desc_chain(dev_if->setup_desc_addr[0],
++ dev_if->dma_setup_desc_addr
++ [0], 1);
++ dwc_otg_ep_free_desc_chain(dev_if->setup_desc_addr[1],
++ dev_if->dma_setup_desc_addr
++ [1], 1);
++ dwc_otg_ep_free_desc_chain(dev_if->in_desc_addr,
++ dev_if->dma_in_desc_addr, 1);
++ dwc_otg_ep_free_desc_chain(dev_if->out_desc_addr,
++ dev_if->dma_out_desc_addr,
++ 1);
++ }
++ } else {
++ DWC_FREE(pcd->setup_pkt);
++ DWC_FREE(pcd->status_buf);
++ }
++ DWC_SPINLOCK_FREE(pcd->lock);
++ /* Set core_if's lock pointer to NULL */
++ pcd->core_if->lock = NULL;
++
++ DWC_TASK_FREE(pcd->start_xfer_tasklet);
++ DWC_TASK_FREE(pcd->test_mode_tasklet);
++ if (pcd->core_if->core_params->dev_out_nak) {
++ for (i = 0; i < MAX_EPS_CHANNELS; i++) {
++ if (pcd->core_if->ep_xfer_timer[i]) {
++ DWC_TIMER_FREE(pcd->core_if->ep_xfer_timer[i]);
++ }
++ }
++ }
++
++/* Release the CFI object's dynamic memory */
++#ifdef DWC_UTE_CFI
++ if (pcd->cfi->ops.release) {
++ pcd->cfi->ops.release(pcd->cfi);
++ }
++#endif
++
++ DWC_FREE(pcd);
++}
++
++/**
++ * Returns whether registered pcd is dual speed or not
++ */
++uint32_t dwc_otg_pcd_is_dualspeed(dwc_otg_pcd_t * pcd)
++{
++ dwc_otg_core_if_t *core_if = GET_CORE_IF(pcd);
++
++ if ((core_if->core_params->speed == DWC_SPEED_PARAM_FULL) ||
++ ((core_if->hwcfg2.b.hs_phy_type == 2) &&
++ (core_if->hwcfg2.b.fs_phy_type == 1) &&
++ (core_if->core_params->ulpi_fs_ls))) {
++ return 0;
++ }
++
++ return 1;
++}
++
++/**
++ * Returns whether registered pcd is OTG capable or not
++ */
++uint32_t dwc_otg_pcd_is_otg(dwc_otg_pcd_t * pcd)
++{
++ dwc_otg_core_if_t *core_if = GET_CORE_IF(pcd);
++ gusbcfg_data_t usbcfg = {.d32 = 0 };
++
++ usbcfg.d32 = DWC_READ_REG32(&core_if->core_global_regs->gusbcfg);
++ if (!usbcfg.b.srpcap || !usbcfg.b.hnpcap) {
++ return 0;
++ }
++
++ return 1;
++}
++
++/**
++ * This function assigns periodic Tx FIFO to an periodic EP
++ * in shared Tx FIFO mode
++ */
++static uint32_t assign_tx_fifo(dwc_otg_core_if_t * core_if)
++{
++ uint32_t TxMsk = 1;
++ int i;
++
++ for (i = 0; i < core_if->hwcfg4.b.num_in_eps; ++i) {
++ if ((TxMsk & core_if->tx_msk) == 0) {
++ core_if->tx_msk |= TxMsk;
++ return i + 1;
++ }
++ TxMsk <<= 1;
++ }
++ return 0;
++}
++
++/**
++ * This function assigns periodic Tx FIFO to an periodic EP
++ * in shared Tx FIFO mode
++ */
++static uint32_t assign_perio_tx_fifo(dwc_otg_core_if_t * core_if)
++{
++ uint32_t PerTxMsk = 1;
++ int i;
++ for (i = 0; i < core_if->hwcfg4.b.num_dev_perio_in_ep; ++i) {
++ if ((PerTxMsk & core_if->p_tx_msk) == 0) {
++ core_if->p_tx_msk |= PerTxMsk;
++ return i + 1;
++ }
++ PerTxMsk <<= 1;
++ }
++ return 0;
++}
++
++/**
++ * This function releases periodic Tx FIFO
++ * in shared Tx FIFO mode
++ */
++static void release_perio_tx_fifo(dwc_otg_core_if_t * core_if,
++ uint32_t fifo_num)
++{
++ core_if->p_tx_msk =
++ (core_if->p_tx_msk & (1 << (fifo_num - 1))) ^ core_if->p_tx_msk;
++}
++
++/**
++ * This function releases periodic Tx FIFO
++ * in shared Tx FIFO mode
++ */
++static void release_tx_fifo(dwc_otg_core_if_t * core_if, uint32_t fifo_num)
++{
++ core_if->tx_msk =
++ (core_if->tx_msk & (1 << (fifo_num - 1))) ^ core_if->tx_msk;
++}
++
++/**
++ * This function is being called from gadget
++ * to enable PCD endpoint.
++ */
++int dwc_otg_pcd_ep_enable(dwc_otg_pcd_t * pcd,
++ const uint8_t * ep_desc, void *usb_ep)
++{
++ int num, dir;
++ dwc_otg_pcd_ep_t *ep = NULL;
++ const usb_endpoint_descriptor_t *desc;
++ dwc_irqflags_t flags;
++ fifosize_data_t dptxfsiz = {.d32 = 0 };
++ gdfifocfg_data_t gdfifocfg = {.d32 = 0 };
++ gdfifocfg_data_t gdfifocfgbase = {.d32 = 0 };
++ int retval = 0;
++ int i, epcount;
++
++ desc = (const usb_endpoint_descriptor_t *)ep_desc;
++
++ if (!desc) {
++ pcd->ep0.priv = usb_ep;
++ ep = &pcd->ep0;
++ retval = -DWC_E_INVALID;
++ goto out;
++ }
++
++ num = UE_GET_ADDR(desc->bEndpointAddress);
++ dir = UE_GET_DIR(desc->bEndpointAddress);
++
++ if (!desc->wMaxPacketSize) {
++ DWC_WARN("bad maxpacketsize\n");
++ retval = -DWC_E_INVALID;
++ goto out;
++ }
++
++ if (dir == UE_DIR_IN) {
++ epcount = pcd->core_if->dev_if->num_in_eps;
++ for (i = 0; i < epcount; i++) {
++ if (num == pcd->in_ep[i].dwc_ep.num) {
++ ep = &pcd->in_ep[i];
++ break;
++ }
++ }
++ } else {
++ epcount = pcd->core_if->dev_if->num_out_eps;
++ for (i = 0; i < epcount; i++) {
++ if (num == pcd->out_ep[i].dwc_ep.num) {
++ ep = &pcd->out_ep[i];
++ break;
++ }
++ }
++ }
++
++ if (!ep) {
++ DWC_WARN("bad address\n");
++ retval = -DWC_E_INVALID;
++ goto out;
++ }
++
++ DWC_SPINLOCK_IRQSAVE(pcd->lock, &flags);
++
++ ep->desc = desc;
++ ep->priv = usb_ep;
++
++ /*
++ * Activate the EP
++ */
++ ep->stopped = 0;
++
++ ep->dwc_ep.is_in = (dir == UE_DIR_IN);
++ ep->dwc_ep.maxpacket = UGETW(desc->wMaxPacketSize);
++
++ ep->dwc_ep.type = desc->bmAttributes & UE_XFERTYPE;
++
++ if (ep->dwc_ep.is_in) {
++ if (!GET_CORE_IF(pcd)->en_multiple_tx_fifo) {
++ ep->dwc_ep.tx_fifo_num = 0;
++
++ if (ep->dwc_ep.type == UE_ISOCHRONOUS) {
++ /*
++ * if ISOC EP then assign a Periodic Tx FIFO.
++ */
++ ep->dwc_ep.tx_fifo_num =
++ assign_perio_tx_fifo(GET_CORE_IF(pcd));
++ }
++ } else {
++ /*
++ * if Dedicated FIFOs mode is on then assign a Tx FIFO.
++ */
++ ep->dwc_ep.tx_fifo_num =
++ assign_tx_fifo(GET_CORE_IF(pcd));
++ }
++
++ /* Calculating EP info controller base address */
++ if (ep->dwc_ep.tx_fifo_num
++ && GET_CORE_IF(pcd)->en_multiple_tx_fifo) {
++ gdfifocfg.d32 =
++ DWC_READ_REG32(&GET_CORE_IF(pcd)->
++ core_global_regs->gdfifocfg);
++ gdfifocfgbase.d32 = gdfifocfg.d32 >> 16;
++ dptxfsiz.d32 =
++ (DWC_READ_REG32
++ (&GET_CORE_IF(pcd)->core_global_regs->
++ dtxfsiz[ep->dwc_ep.tx_fifo_num - 1]) >> 16);
++ gdfifocfg.b.epinfobase =
++ gdfifocfgbase.d32 + dptxfsiz.d32;
++ if (GET_CORE_IF(pcd)->snpsid <= OTG_CORE_REV_2_94a) {
++ DWC_WRITE_REG32(&GET_CORE_IF(pcd)->
++ core_global_regs->gdfifocfg,
++ gdfifocfg.d32);
++ }
++ }
++ }
++ /* Set initial data PID. */
++ if (ep->dwc_ep.type == UE_BULK) {
++ ep->dwc_ep.data_pid_start = 0;
++ }
++
++ /* Alloc DMA Descriptors */
++ if (GET_CORE_IF(pcd)->dma_desc_enable) {
++#ifndef DWC_UTE_PER_IO
++ if (ep->dwc_ep.type != UE_ISOCHRONOUS) {
++#endif
++ ep->dwc_ep.desc_addr =
++ dwc_otg_ep_alloc_desc_chain(&ep->
++ dwc_ep.dma_desc_addr,
++ MAX_DMA_DESC_CNT);
++ if (!ep->dwc_ep.desc_addr) {
++ DWC_WARN("%s, can't allocate DMA descriptor\n",
++ __func__);
++ retval = -DWC_E_SHUTDOWN;
++ DWC_SPINUNLOCK_IRQRESTORE(pcd->lock, flags);
++ goto out;
++ }
++#ifndef DWC_UTE_PER_IO
++ }
++#endif
++ }
++
++ DWC_DEBUGPL(DBG_PCD, "Activate %s: type=%d, mps=%d desc=%p\n",
++ (ep->dwc_ep.is_in ? "IN" : "OUT"),
++ ep->dwc_ep.type, ep->dwc_ep.maxpacket, ep->desc);
++#ifdef DWC_UTE_PER_IO
++ ep->dwc_ep.xiso_bInterval = 1 << (ep->desc->bInterval - 1);
++#endif
++ if (ep->dwc_ep.type == DWC_OTG_EP_TYPE_ISOC) {
++ ep->dwc_ep.bInterval = 1 << (ep->desc->bInterval - 1);
++ ep->dwc_ep.frame_num = 0xFFFFFFFF;
++ }
++
++ dwc_otg_ep_activate(GET_CORE_IF(pcd), &ep->dwc_ep);
++
++#ifdef DWC_UTE_CFI
++ if (pcd->cfi->ops.ep_enable) {
++ pcd->cfi->ops.ep_enable(pcd->cfi, pcd, ep);
++ }
++#endif
++
++ DWC_SPINUNLOCK_IRQRESTORE(pcd->lock, flags);
++
++out:
++ return retval;
++}
++
++/**
++ * This function is being called from gadget
++ * to disable PCD endpoint.
++ */
++int dwc_otg_pcd_ep_disable(dwc_otg_pcd_t * pcd, void *ep_handle)
++{
++ dwc_otg_pcd_ep_t *ep;
++ dwc_irqflags_t flags;
++ dwc_otg_dev_dma_desc_t *desc_addr;
++ dwc_dma_t dma_desc_addr;
++ gdfifocfg_data_t gdfifocfgbase = {.d32 = 0 };
++ gdfifocfg_data_t gdfifocfg = {.d32 = 0 };
++ fifosize_data_t dptxfsiz = {.d32 = 0 };
++
++ ep = get_ep_from_handle(pcd, ep_handle);
++
++ if (!ep || !ep->desc) {
++ DWC_DEBUGPL(DBG_PCD, "bad ep address\n");
++ return -DWC_E_INVALID;
++ }
++
++ DWC_SPINLOCK_IRQSAVE(pcd->lock, &flags);
++
++ dwc_otg_request_nuke(ep);
++
++ dwc_otg_ep_deactivate(GET_CORE_IF(pcd), &ep->dwc_ep);
++ if (pcd->core_if->core_params->dev_out_nak) {
++ DWC_TIMER_CANCEL(pcd->core_if->ep_xfer_timer[ep->dwc_ep.num]);
++ pcd->core_if->ep_xfer_info[ep->dwc_ep.num].state = 0;
++ }
++ ep->desc = NULL;
++ ep->stopped = 1;
++
++ gdfifocfg.d32 =
++ DWC_READ_REG32(&GET_CORE_IF(pcd)->core_global_regs->gdfifocfg);
++ gdfifocfgbase.d32 = gdfifocfg.d32 >> 16;
++
++ if (ep->dwc_ep.is_in) {
++ if (GET_CORE_IF(pcd)->en_multiple_tx_fifo) {
++ /* Flush the Tx FIFO */
++ dwc_otg_flush_tx_fifo(GET_CORE_IF(pcd),
++ ep->dwc_ep.tx_fifo_num);
++ }
++ release_perio_tx_fifo(GET_CORE_IF(pcd), ep->dwc_ep.tx_fifo_num);
++ release_tx_fifo(GET_CORE_IF(pcd), ep->dwc_ep.tx_fifo_num);
++ if (GET_CORE_IF(pcd)->en_multiple_tx_fifo) {
++ /* Decreasing EPinfo Base Addr */
++ dptxfsiz.d32 =
++ (DWC_READ_REG32
++ (&GET_CORE_IF(pcd)->
++ core_global_regs->dtxfsiz[ep->dwc_ep.tx_fifo_num-1]) >> 16);
++ gdfifocfg.b.epinfobase = gdfifocfgbase.d32 - dptxfsiz.d32;
++ if (GET_CORE_IF(pcd)->snpsid <= OTG_CORE_REV_2_94a) {
++ DWC_WRITE_REG32(&GET_CORE_IF(pcd)->core_global_regs->gdfifocfg,
++ gdfifocfg.d32);
++ }
++ }
++ }
++
++ /* Free DMA Descriptors */
++ if (GET_CORE_IF(pcd)->dma_desc_enable) {
++ if (ep->dwc_ep.type != UE_ISOCHRONOUS) {
++ desc_addr = ep->dwc_ep.desc_addr;
++ dma_desc_addr = ep->dwc_ep.dma_desc_addr;
++
++ /* Cannot call dma_free_coherent() with IRQs disabled */
++ DWC_SPINUNLOCK_IRQRESTORE(pcd->lock, flags);
++ dwc_otg_ep_free_desc_chain(desc_addr, dma_desc_addr,
++ MAX_DMA_DESC_CNT);
++
++ goto out_unlocked;
++ }
++ }
++ DWC_SPINUNLOCK_IRQRESTORE(pcd->lock, flags);
++
++out_unlocked:
++ DWC_DEBUGPL(DBG_PCD, "%d %s disabled\n", ep->dwc_ep.num,
++ ep->dwc_ep.is_in ? "IN" : "OUT");
++ return 0;
++
++}
++
++/******************************************************************************/
++#ifdef DWC_UTE_PER_IO
++
++/**
++ * Free the request and its extended parts
++ *
++ */
++void dwc_pcd_xiso_ereq_free(dwc_otg_pcd_ep_t * ep, dwc_otg_pcd_request_t * req)
++{
++ DWC_FREE(req->ext_req.per_io_frame_descs);
++ DWC_FREE(req);
++}
++
++/**
++ * Start the next request in the endpoint's queue.
++ *
++ */
++int dwc_otg_pcd_xiso_start_next_request(dwc_otg_pcd_t * pcd,
++ dwc_otg_pcd_ep_t * ep)
++{
++ int i;
++ dwc_otg_pcd_request_t *req = NULL;
++ dwc_ep_t *dwcep = NULL;
++ struct dwc_iso_xreq_port *ereq = NULL;
++ struct dwc_iso_pkt_desc_port *ddesc_iso;
++ uint16_t nat;
++ depctl_data_t diepctl;
++
++ dwcep = &ep->dwc_ep;
++
++ if (dwcep->xiso_active_xfers > 0) {
++#if 0 //Disable this to decrease s/w overhead that is crucial for Isoc transfers
++ DWC_WARN("There are currently active transfers for EP%d \
++ (active=%d; queued=%d)", dwcep->num, dwcep->xiso_active_xfers,
++ dwcep->xiso_queued_xfers);
++#endif
++ return 0;
++ }
++
++ nat = UGETW(ep->desc->wMaxPacketSize);
++ nat = (nat >> 11) & 0x03;
++
++ if (!DWC_CIRCLEQ_EMPTY(&ep->queue)) {
++ req = DWC_CIRCLEQ_FIRST(&ep->queue);
++ ereq = &req->ext_req;
++ ep->stopped = 0;
++
++ /* Get the frame number */
++ dwcep->xiso_frame_num =
++ dwc_otg_get_frame_number(GET_CORE_IF(pcd));
++ DWC_DEBUG("FRM_NUM=%d", dwcep->xiso_frame_num);
++
++ ddesc_iso = ereq->per_io_frame_descs;
++
++ if (dwcep->is_in) {
++ /* Setup DMA Descriptor chain for IN Isoc request */
++ for (i = 0; i < ereq->pio_pkt_count; i++) {
++ //if ((i % (nat + 1)) == 0)
++ if ( i > 0 )
++ dwcep->xiso_frame_num =
++ (dwcep->xiso_bInterval +
++ dwcep->xiso_frame_num) & 0x3FFF;
++ dwcep->desc_addr[i].buf =
++ req->dma + ddesc_iso[i].offset;
++ dwcep->desc_addr[i].status.b_iso_in.txbytes =
++ ddesc_iso[i].length;
++ dwcep->desc_addr[i].status.b_iso_in.framenum =
++ dwcep->xiso_frame_num;
++ dwcep->desc_addr[i].status.b_iso_in.bs =
++ BS_HOST_READY;
++ dwcep->desc_addr[i].status.b_iso_in.txsts = 0;
++ dwcep->desc_addr[i].status.b_iso_in.sp =
++ (ddesc_iso[i].length %
++ dwcep->maxpacket) ? 1 : 0;
++ dwcep->desc_addr[i].status.b_iso_in.ioc = 0;
++ dwcep->desc_addr[i].status.b_iso_in.pid = nat + 1;
++ dwcep->desc_addr[i].status.b_iso_in.l = 0;
++
++ /* Process the last descriptor */
++ if (i == ereq->pio_pkt_count - 1) {
++ dwcep->desc_addr[i].status.b_iso_in.ioc = 1;
++ dwcep->desc_addr[i].status.b_iso_in.l = 1;
++ }
++ }
++
++ /* Setup and start the transfer for this endpoint */
++ dwcep->xiso_active_xfers++;
++ DWC_WRITE_REG32(&GET_CORE_IF(pcd)->dev_if->
++ in_ep_regs[dwcep->num]->diepdma,
++ dwcep->dma_desc_addr);
++ diepctl.d32 = 0;
++ diepctl.b.epena = 1;
++ diepctl.b.cnak = 1;
++ DWC_MODIFY_REG32(&GET_CORE_IF(pcd)->dev_if->
++ in_ep_regs[dwcep->num]->diepctl, 0,
++ diepctl.d32);
++ } else {
++ /* Setup DMA Descriptor chain for OUT Isoc request */
++ for (i = 0; i < ereq->pio_pkt_count; i++) {
++ //if ((i % (nat + 1)) == 0)
++ dwcep->xiso_frame_num = (dwcep->xiso_bInterval +
++ dwcep->xiso_frame_num) & 0x3FFF;
++ dwcep->desc_addr[i].buf =
++ req->dma + ddesc_iso[i].offset;
++ dwcep->desc_addr[i].status.b_iso_out.rxbytes =
++ ddesc_iso[i].length;
++ dwcep->desc_addr[i].status.b_iso_out.framenum =
++ dwcep->xiso_frame_num;
++ dwcep->desc_addr[i].status.b_iso_out.bs =
++ BS_HOST_READY;
++ dwcep->desc_addr[i].status.b_iso_out.rxsts = 0;
++ dwcep->desc_addr[i].status.b_iso_out.sp =
++ (ddesc_iso[i].length %
++ dwcep->maxpacket) ? 1 : 0;
++ dwcep->desc_addr[i].status.b_iso_out.ioc = 0;
++ dwcep->desc_addr[i].status.b_iso_out.pid = nat + 1;
++ dwcep->desc_addr[i].status.b_iso_out.l = 0;
++
++ /* Process the last descriptor */
++ if (i == ereq->pio_pkt_count - 1) {
++ dwcep->desc_addr[i].status.b_iso_out.ioc = 1;
++ dwcep->desc_addr[i].status.b_iso_out.l = 1;
++ }
++ }
++
++ /* Setup and start the transfer for this endpoint */
++ dwcep->xiso_active_xfers++;
++ DWC_WRITE_REG32(&GET_CORE_IF(pcd)->
++ dev_if->out_ep_regs[dwcep->num]->
++ doepdma, dwcep->dma_desc_addr);
++ diepctl.d32 = 0;
++ diepctl.b.epena = 1;
++ diepctl.b.cnak = 1;
++ DWC_MODIFY_REG32(&GET_CORE_IF(pcd)->
++ dev_if->out_ep_regs[dwcep->num]->
++ doepctl, 0, diepctl.d32);
++ }
++
++ } else {
++ ep->stopped = 1;
++ }
++
++ return 0;
++}
++
++/**
++ * - Remove the request from the queue
++ */
++void complete_xiso_ep(dwc_otg_pcd_ep_t * ep)
++{
++ dwc_otg_pcd_request_t *req = NULL;
++ struct dwc_iso_xreq_port *ereq = NULL;
++ struct dwc_iso_pkt_desc_port *ddesc_iso = NULL;
++ dwc_ep_t *dwcep = NULL;
++ int i;
++
++ //DWC_DEBUG();
++ dwcep = &ep->dwc_ep;
++
++ /* Get the first pending request from the queue */
++ if (!DWC_CIRCLEQ_EMPTY(&ep->queue)) {
++ req = DWC_CIRCLEQ_FIRST(&ep->queue);
++ if (!req) {
++ DWC_PRINTF("complete_ep 0x%p, req = NULL!\n", ep);
++ return;
++ }
++ dwcep->xiso_active_xfers--;
++ dwcep->xiso_queued_xfers--;
++ /* Remove this request from the queue */
++ DWC_CIRCLEQ_REMOVE_INIT(&ep->queue, req, queue_entry);
++ } else {
++ DWC_PRINTF("complete_ep 0x%p, ep->queue empty!\n", ep);
++ return;
++ }
++
++ ep->stopped = 1;
++ ereq = &req->ext_req;
++ ddesc_iso = ereq->per_io_frame_descs;
++
++ if (dwcep->xiso_active_xfers < 0) {
++ DWC_WARN("EP#%d (xiso_active_xfers=%d)", dwcep->num,
++ dwcep->xiso_active_xfers);
++ }
++
++ /* Fill the Isoc descs of portable extended req from dma descriptors */
++ for (i = 0; i < ereq->pio_pkt_count; i++) {
++ if (dwcep->is_in) { /* IN endpoints */
++ ddesc_iso[i].actual_length = ddesc_iso[i].length -
++ dwcep->desc_addr[i].status.b_iso_in.txbytes;
++ ddesc_iso[i].status =
++ dwcep->desc_addr[i].status.b_iso_in.txsts;
++ } else { /* OUT endpoints */
++ ddesc_iso[i].actual_length = ddesc_iso[i].length -
++ dwcep->desc_addr[i].status.b_iso_out.rxbytes;
++ ddesc_iso[i].status =
++ dwcep->desc_addr[i].status.b_iso_out.rxsts;
++ }
++ }
++
++ DWC_SPINUNLOCK(ep->pcd->lock);
++
++ /* Call the completion function in the non-portable logic */
++ ep->pcd->fops->xisoc_complete(ep->pcd, ep->priv, req->priv, 0,
++ &req->ext_req);
++
++ DWC_SPINLOCK(ep->pcd->lock);
++
++ /* Free the request - specific freeing needed for extended request object */
++ dwc_pcd_xiso_ereq_free(ep, req);
++
++ /* Start the next request */
++ dwc_otg_pcd_xiso_start_next_request(ep->pcd, ep);
++
++ return;
++}
++
++/**
++ * Create and initialize the Isoc pkt descriptors of the extended request.
++ *
++ */
++static int dwc_otg_pcd_xiso_create_pkt_descs(dwc_otg_pcd_request_t * req,
++ void *ereq_nonport,
++ int atomic_alloc)
++{
++ struct dwc_iso_xreq_port *ereq = NULL;
++ struct dwc_iso_xreq_port *req_mapped = NULL;
++ struct dwc_iso_pkt_desc_port *ipds = NULL; /* To be created in this function */
++ uint32_t pkt_count;
++ int i;
++
++ ereq = &req->ext_req;
++ req_mapped = (struct dwc_iso_xreq_port *)ereq_nonport;
++ pkt_count = req_mapped->pio_pkt_count;
++
++ /* Create the isoc descs */
++ if (atomic_alloc) {
++ ipds = DWC_ALLOC_ATOMIC(sizeof(*ipds) * pkt_count);
++ } else {
++ ipds = DWC_ALLOC(sizeof(*ipds) * pkt_count);
++ }
++
++ if (!ipds) {
++ DWC_ERROR("Failed to allocate isoc descriptors");
++ return -DWC_E_NO_MEMORY;
++ }
++
++ /* Initialize the extended request fields */
++ ereq->per_io_frame_descs = ipds;
++ ereq->error_count = 0;
++ ereq->pio_alloc_pkt_count = pkt_count;
++ ereq->pio_pkt_count = pkt_count;
++ ereq->tr_sub_flags = req_mapped->tr_sub_flags;
++
++ /* Init the Isoc descriptors */
++ for (i = 0; i < pkt_count; i++) {
++ ipds[i].length = req_mapped->per_io_frame_descs[i].length;
++ ipds[i].offset = req_mapped->per_io_frame_descs[i].offset;
++ ipds[i].status = req_mapped->per_io_frame_descs[i].status; /* 0 */
++ ipds[i].actual_length =
++ req_mapped->per_io_frame_descs[i].actual_length;
++ }
++
++ return 0;
++}
++
++static void prn_ext_request(struct dwc_iso_xreq_port *ereq)
++{
++ struct dwc_iso_pkt_desc_port *xfd = NULL;
++ int i;
++
++ DWC_DEBUG("per_io_frame_descs=%p", ereq->per_io_frame_descs);
++ DWC_DEBUG("tr_sub_flags=%d", ereq->tr_sub_flags);
++ DWC_DEBUG("error_count=%d", ereq->error_count);
++ DWC_DEBUG("pio_alloc_pkt_count=%d", ereq->pio_alloc_pkt_count);
++ DWC_DEBUG("pio_pkt_count=%d", ereq->pio_pkt_count);
++ DWC_DEBUG("res=%d", ereq->res);
++
++ for (i = 0; i < ereq->pio_pkt_count; i++) {
++ xfd = &ereq->per_io_frame_descs[0];
++ DWC_DEBUG("FD #%d", i);
++
++ DWC_DEBUG("xfd->actual_length=%d", xfd->actual_length);
++ DWC_DEBUG("xfd->length=%d", xfd->length);
++ DWC_DEBUG("xfd->offset=%d", xfd->offset);
++ DWC_DEBUG("xfd->status=%d", xfd->status);
++ }
++}
++
++/**
++ *
++ */
++int dwc_otg_pcd_xiso_ep_queue(dwc_otg_pcd_t * pcd, void *ep_handle,
++ uint8_t * buf, dwc_dma_t dma_buf, uint32_t buflen,
++ int zero, void *req_handle, int atomic_alloc,
++ void *ereq_nonport)
++{
++ dwc_otg_pcd_request_t *req = NULL;
++ dwc_otg_pcd_ep_t *ep;
++ dwc_irqflags_t flags;
++ int res;
++
++ ep = get_ep_from_handle(pcd, ep_handle);
++ if (!ep) {
++ DWC_WARN("bad ep\n");
++ return -DWC_E_INVALID;
++ }
++
++ /* We support this extension only for DDMA mode */
++ if (ep->dwc_ep.type == DWC_OTG_EP_TYPE_ISOC)
++ if (!GET_CORE_IF(pcd)->dma_desc_enable)
++ return -DWC_E_INVALID;
++
++ /* Create a dwc_otg_pcd_request_t object */
++ if (atomic_alloc) {
++ req = DWC_ALLOC_ATOMIC(sizeof(*req));
++ } else {
++ req = DWC_ALLOC(sizeof(*req));
++ }
++
++ if (!req) {
++ return -DWC_E_NO_MEMORY;
++ }
++
++ /* Create the Isoc descs for this request which shall be the exact match
++ * of the structure sent to us from the non-portable logic */
++ res =
++ dwc_otg_pcd_xiso_create_pkt_descs(req, ereq_nonport, atomic_alloc);
++ if (res) {
++ DWC_WARN("Failed to init the Isoc descriptors");
++ DWC_FREE(req);
++ return res;
++ }
++
++ DWC_SPINLOCK_IRQSAVE(pcd->lock, &flags);
++
++ DWC_CIRCLEQ_INIT_ENTRY(req, queue_entry);
++ req->buf = buf;
++ req->dma = dma_buf;
++ req->length = buflen;
++ req->sent_zlp = zero;
++ req->priv = req_handle;
++
++ //DWC_SPINLOCK_IRQSAVE(pcd->lock, &flags);
++ ep->dwc_ep.dma_addr = dma_buf;
++ ep->dwc_ep.start_xfer_buff = buf;
++ ep->dwc_ep.xfer_buff = buf;
++ ep->dwc_ep.xfer_len = 0;
++ ep->dwc_ep.xfer_count = 0;
++ ep->dwc_ep.sent_zlp = 0;
++ ep->dwc_ep.total_len = buflen;
++
++ /* Add this request to the tail */
++ DWC_CIRCLEQ_INSERT_TAIL(&ep->queue, req, queue_entry);
++ ep->dwc_ep.xiso_queued_xfers++;
++
++//DWC_DEBUG("CP_0");
++//DWC_DEBUG("req->ext_req.tr_sub_flags=%d", req->ext_req.tr_sub_flags);
++//prn_ext_request((struct dwc_iso_xreq_port *) ereq_nonport);
++//prn_ext_request(&req->ext_req);
++
++ //DWC_SPINUNLOCK_IRQRESTORE(pcd->lock, flags);
++
++ /* If the req->status == ASAP then check if there is any active transfer
++ * for this endpoint. If no active transfers, then get the first entry
++ * from the queue and start that transfer
++ */
++ if (req->ext_req.tr_sub_flags == DWC_EREQ_TF_ASAP) {
++ res = dwc_otg_pcd_xiso_start_next_request(pcd, ep);
++ if (res) {
++ DWC_WARN("Failed to start the next Isoc transfer");
++ DWC_SPINUNLOCK_IRQRESTORE(pcd->lock, flags);
++ DWC_FREE(req);
++ return res;
++ }
++ }
++
++ DWC_SPINUNLOCK_IRQRESTORE(pcd->lock, flags);
++ return 0;
++}
++
++#endif
++/* END ifdef DWC_UTE_PER_IO ***************************************************/
++int dwc_otg_pcd_ep_queue(dwc_otg_pcd_t * pcd, void *ep_handle,
++ uint8_t * buf, dwc_dma_t dma_buf, uint32_t buflen,
++ int zero, void *req_handle, int atomic_alloc)
++{
++ dwc_irqflags_t flags;
++ dwc_otg_pcd_request_t *req;
++ dwc_otg_pcd_ep_t *ep;
++ uint32_t max_transfer;
++
++ ep = get_ep_from_handle(pcd, ep_handle);
++ if (!ep || (!ep->desc && ep->dwc_ep.num != 0)) {
++ DWC_WARN("bad ep\n");
++ return -DWC_E_INVALID;
++ }
++
++ if (atomic_alloc) {
++ req = DWC_ALLOC_ATOMIC(sizeof(*req));
++ } else {
++ req = DWC_ALLOC(sizeof(*req));
++ }
++
++ if (!req) {
++ return -DWC_E_NO_MEMORY;
++ }
++ DWC_CIRCLEQ_INIT_ENTRY(req, queue_entry);
++ if (!GET_CORE_IF(pcd)->core_params->opt) {
++ if (ep->dwc_ep.num != 0) {
++ DWC_ERROR("queue req %p, len %d buf %p\n",
++ req_handle, buflen, buf);
++ }
++ }
++
++ req->buf = buf;
++ req->dma = dma_buf;
++ req->length = buflen;
++ req->sent_zlp = zero;
++ req->priv = req_handle;
++ req->dw_align_buf = NULL;
++ if ((dma_buf & 0x3) && GET_CORE_IF(pcd)->dma_enable
++ && !GET_CORE_IF(pcd)->dma_desc_enable)
++ req->dw_align_buf = DWC_DMA_ALLOC(buflen,
++ &req->dw_align_buf_dma);
++ DWC_SPINLOCK_IRQSAVE(pcd->lock, &flags);
++
++ /*
++ * After adding request to the queue for IN ISOC wait for In Token Received
++ * when TX FIFO is empty interrupt and for OUT ISOC wait for OUT Token
++ * Received when EP is disabled interrupt to obtain starting microframe
++ * (odd/even) start transfer
++ */
++ if (ep->dwc_ep.type == DWC_OTG_EP_TYPE_ISOC) {
++ if (req != 0) {
++ depctl_data_t depctl = {.d32 =
++ DWC_READ_REG32(&pcd->core_if->dev_if->
++ in_ep_regs[ep->dwc_ep.num]->
++ diepctl) };
++ ++pcd->request_pending;
++
++ DWC_CIRCLEQ_INSERT_TAIL(&ep->queue, req, queue_entry);
++ if (ep->dwc_ep.is_in) {
++ depctl.b.cnak = 1;
++ DWC_WRITE_REG32(&pcd->core_if->dev_if->
++ in_ep_regs[ep->dwc_ep.num]->
++ diepctl, depctl.d32);
++ }
++
++ DWC_SPINUNLOCK_IRQRESTORE(pcd->lock, flags);
++ }
++ return 0;
++ }
++
++ /*
++ * For EP0 IN without premature status, zlp is required?
++ */
++ if (ep->dwc_ep.num == 0 && ep->dwc_ep.is_in) {
++ DWC_DEBUGPL(DBG_PCDV, "%d-OUT ZLP\n", ep->dwc_ep.num);
++ //_req->zero = 1;
++ }
++
++ /* Start the transfer */
++ if (DWC_CIRCLEQ_EMPTY(&ep->queue) && !ep->stopped) {
++ /* EP0 Transfer? */
++ if (ep->dwc_ep.num == 0) {
++ switch (pcd->ep0state) {
++ case EP0_IN_DATA_PHASE:
++ DWC_DEBUGPL(DBG_PCD,
++ "%s ep0: EP0_IN_DATA_PHASE\n",
++ __func__);
++ break;
++
++ case EP0_OUT_DATA_PHASE:
++ DWC_DEBUGPL(DBG_PCD,
++ "%s ep0: EP0_OUT_DATA_PHASE\n",
++ __func__);
++ if (pcd->request_config) {
++ /* Complete STATUS PHASE */
++ ep->dwc_ep.is_in = 1;
++ pcd->ep0state = EP0_IN_STATUS_PHASE;
++ }
++ break;
++
++ case EP0_IN_STATUS_PHASE:
++ DWC_DEBUGPL(DBG_PCD,
++ "%s ep0: EP0_IN_STATUS_PHASE\n",
++ __func__);
++ break;
++
++ default:
++ DWC_DEBUGPL(DBG_ANY, "ep0: odd state %d\n",
++ pcd->ep0state);
++ DWC_SPINUNLOCK_IRQRESTORE(pcd->lock, flags);
++ return -DWC_E_SHUTDOWN;
++ }
++
++ ep->dwc_ep.dma_addr = dma_buf;
++ ep->dwc_ep.start_xfer_buff = buf;
++ ep->dwc_ep.xfer_buff = buf;
++ ep->dwc_ep.xfer_len = buflen;
++ ep->dwc_ep.xfer_count = 0;
++ ep->dwc_ep.sent_zlp = 0;
++ ep->dwc_ep.total_len = ep->dwc_ep.xfer_len;
++
++ if (zero) {
++ if ((ep->dwc_ep.xfer_len %
++ ep->dwc_ep.maxpacket == 0)
++ && (ep->dwc_ep.xfer_len != 0)) {
++ ep->dwc_ep.sent_zlp = 1;
++ }
++
++ }
++
++ dwc_otg_ep0_start_transfer(GET_CORE_IF(pcd),
++ &ep->dwc_ep);
++ } // non-ep0 endpoints
++ else {
++#ifdef DWC_UTE_CFI
++ if (ep->dwc_ep.buff_mode != BM_STANDARD) {
++ /* store the request length */
++ ep->dwc_ep.cfi_req_len = buflen;
++ pcd->cfi->ops.build_descriptors(pcd->cfi, pcd,
++ ep, req);
++ } else {
++#endif
++ max_transfer =
++ GET_CORE_IF(ep->pcd)->core_params->
++ max_transfer_size;
++
++ /* Setup and start the Transfer */
++ if (req->dw_align_buf){
++ if (ep->dwc_ep.is_in)
++ dwc_memcpy(req->dw_align_buf,
++ buf, buflen);
++ ep->dwc_ep.dma_addr =
++ req->dw_align_buf_dma;
++ ep->dwc_ep.start_xfer_buff =
++ req->dw_align_buf;
++ ep->dwc_ep.xfer_buff =
++ req->dw_align_buf;
++ } else {
++ ep->dwc_ep.dma_addr = dma_buf;
++ ep->dwc_ep.start_xfer_buff = buf;
++ ep->dwc_ep.xfer_buff = buf;
++ }
++ ep->dwc_ep.xfer_len = 0;
++ ep->dwc_ep.xfer_count = 0;
++ ep->dwc_ep.sent_zlp = 0;
++ ep->dwc_ep.total_len = buflen;
++
++ ep->dwc_ep.maxxfer = max_transfer;
++ if (GET_CORE_IF(pcd)->dma_desc_enable) {
++ uint32_t out_max_xfer =
++ DDMA_MAX_TRANSFER_SIZE -
++ (DDMA_MAX_TRANSFER_SIZE % 4);
++ if (ep->dwc_ep.is_in) {
++ if (ep->dwc_ep.maxxfer >
++ DDMA_MAX_TRANSFER_SIZE) {
++ ep->dwc_ep.maxxfer =
++ DDMA_MAX_TRANSFER_SIZE;
++ }
++ } else {
++ if (ep->dwc_ep.maxxfer >
++ out_max_xfer) {
++ ep->dwc_ep.maxxfer =
++ out_max_xfer;
++ }
++ }
++ }
++ if (ep->dwc_ep.maxxfer < ep->dwc_ep.total_len) {
++ ep->dwc_ep.maxxfer -=
++ (ep->dwc_ep.maxxfer %
++ ep->dwc_ep.maxpacket);
++ }
++
++ if (zero) {
++ if ((ep->dwc_ep.total_len %
++ ep->dwc_ep.maxpacket == 0)
++ && (ep->dwc_ep.total_len != 0)) {
++ ep->dwc_ep.sent_zlp = 1;
++ }
++ }
++#ifdef DWC_UTE_CFI
++ }
++#endif
++ dwc_otg_ep_start_transfer(GET_CORE_IF(pcd),
++ &ep->dwc_ep);
++ }
++ }
++
++ if (req != 0) {
++ ++pcd->request_pending;
++ DWC_CIRCLEQ_INSERT_TAIL(&ep->queue, req, queue_entry);
++ if (ep->dwc_ep.is_in && ep->stopped
++ && !(GET_CORE_IF(pcd)->dma_enable)) {
++ /** @todo NGS Create a function for this. */
++ diepmsk_data_t diepmsk = {.d32 = 0 };
++ diepmsk.b.intktxfemp = 1;
++ if (GET_CORE_IF(pcd)->multiproc_int_enable) {
++ DWC_MODIFY_REG32(&GET_CORE_IF(pcd)->
++ dev_if->dev_global_regs->diepeachintmsk
++ [ep->dwc_ep.num], 0,
++ diepmsk.d32);
++ } else {
++ DWC_MODIFY_REG32(&GET_CORE_IF(pcd)->
++ dev_if->dev_global_regs->
++ diepmsk, 0, diepmsk.d32);
++ }
++
++ }
++ }
++ DWC_SPINUNLOCK_IRQRESTORE(pcd->lock, flags);
++
++ return 0;
++}
++
++int dwc_otg_pcd_ep_dequeue(dwc_otg_pcd_t * pcd, void *ep_handle,
++ void *req_handle)
++{
++ dwc_irqflags_t flags;
++ dwc_otg_pcd_request_t *req;
++ dwc_otg_pcd_ep_t *ep;
++
++ ep = get_ep_from_handle(pcd, ep_handle);
++ if (!ep || (!ep->desc && ep->dwc_ep.num != 0)) {
++ DWC_WARN("bad argument\n");
++ return -DWC_E_INVALID;
++ }
++
++ DWC_SPINLOCK_IRQSAVE(pcd->lock, &flags);
++
++ /* make sure it's actually queued on this endpoint */
++ DWC_CIRCLEQ_FOREACH(req, &ep->queue, queue_entry) {
++ if (req->priv == (void *)req_handle) {
++ break;
++ }
++ }
++
++ if (req->priv != (void *)req_handle) {
++ DWC_SPINUNLOCK_IRQRESTORE(pcd->lock, flags);
++ return -DWC_E_INVALID;
++ }
++
++ if (!DWC_CIRCLEQ_EMPTY_ENTRY(req, queue_entry)) {
++ dwc_otg_request_done(ep, req, -DWC_E_RESTART);
++ } else {
++ req = NULL;
++ }
++
++ DWC_SPINUNLOCK_IRQRESTORE(pcd->lock, flags);
++
++ return req ? 0 : -DWC_E_SHUTDOWN;
++
++}
++
++/**
++ * dwc_otg_pcd_ep_wedge - sets the halt feature and ignores clear requests
++ *
++ * Use this to stall an endpoint and ignore CLEAR_FEATURE(HALT_ENDPOINT)
++ * requests. If the gadget driver clears the halt status, it will
++ * automatically unwedge the endpoint.
++ *
++ * Returns zero on success, else negative DWC error code.
++ */
++int dwc_otg_pcd_ep_wedge(dwc_otg_pcd_t * pcd, void *ep_handle)
++{
++ dwc_otg_pcd_ep_t *ep;
++ dwc_irqflags_t flags;
++ int retval = 0;
++
++ ep = get_ep_from_handle(pcd, ep_handle);
++
++ if ((!ep->desc && ep != &pcd->ep0) ||
++ (ep->desc && (ep->desc->bmAttributes == UE_ISOCHRONOUS))) {
++ DWC_WARN("%s, bad ep\n", __func__);
++ return -DWC_E_INVALID;
++ }
++
++ DWC_SPINLOCK_IRQSAVE(pcd->lock, &flags);
++ if (!DWC_CIRCLEQ_EMPTY(&ep->queue)) {
++ DWC_WARN("%d %s XFer In process\n", ep->dwc_ep.num,
++ ep->dwc_ep.is_in ? "IN" : "OUT");
++ retval = -DWC_E_AGAIN;
++ } else {
++ /* This code needs to be reviewed */
++ if (ep->dwc_ep.is_in == 1 && GET_CORE_IF(pcd)->dma_desc_enable) {
++ dtxfsts_data_t txstatus;
++ fifosize_data_t txfifosize;
++
++ txfifosize.d32 =
++ DWC_READ_REG32(&GET_CORE_IF(pcd)->
++ core_global_regs->dtxfsiz[ep->dwc_ep.
++ tx_fifo_num]);
++ txstatus.d32 =
++ DWC_READ_REG32(&GET_CORE_IF(pcd)->
++ dev_if->in_ep_regs[ep->dwc_ep.num]->
++ dtxfsts);
++
++ if (txstatus.b.txfspcavail < txfifosize.b.depth) {
++ DWC_WARN("%s() Data In Tx Fifo\n", __func__);
++ retval = -DWC_E_AGAIN;
++ } else {
++ if (ep->dwc_ep.num == 0) {
++ pcd->ep0state = EP0_STALL;
++ }
++
++ ep->stopped = 1;
++ dwc_otg_ep_set_stall(GET_CORE_IF(pcd),
++ &ep->dwc_ep);
++ }
++ } else {
++ if (ep->dwc_ep.num == 0) {
++ pcd->ep0state = EP0_STALL;
++ }
++
++ ep->stopped = 1;
++ dwc_otg_ep_set_stall(GET_CORE_IF(pcd), &ep->dwc_ep);
++ }
++ }
++
++ DWC_SPINUNLOCK_IRQRESTORE(pcd->lock, flags);
++
++ return retval;
++}
++
++int dwc_otg_pcd_ep_halt(dwc_otg_pcd_t * pcd, void *ep_handle, int value)
++{
++ dwc_otg_pcd_ep_t *ep;
++ dwc_irqflags_t flags;
++ int retval = 0;
++
++ ep = get_ep_from_handle(pcd, ep_handle);
++
++ if (!ep || (!ep->desc && ep != &pcd->ep0) ||
++ (ep->desc && (ep->desc->bmAttributes == UE_ISOCHRONOUS))) {
++ DWC_WARN("%s, bad ep\n", __func__);
++ return -DWC_E_INVALID;
++ }
++
++ DWC_SPINLOCK_IRQSAVE(pcd->lock, &flags);
++ if (!DWC_CIRCLEQ_EMPTY(&ep->queue)) {
++ DWC_WARN("%d %s XFer In process\n", ep->dwc_ep.num,
++ ep->dwc_ep.is_in ? "IN" : "OUT");
++ retval = -DWC_E_AGAIN;
++ } else if (value == 0) {
++ dwc_otg_ep_clear_stall(GET_CORE_IF(pcd), &ep->dwc_ep);
++ } else if (value == 1) {
++ if (ep->dwc_ep.is_in == 1 && GET_CORE_IF(pcd)->dma_desc_enable) {
++ dtxfsts_data_t txstatus;
++ fifosize_data_t txfifosize;
++
++ txfifosize.d32 =
++ DWC_READ_REG32(&GET_CORE_IF(pcd)->core_global_regs->
++ dtxfsiz[ep->dwc_ep.tx_fifo_num]);
++ txstatus.d32 =
++ DWC_READ_REG32(&GET_CORE_IF(pcd)->dev_if->
++ in_ep_regs[ep->dwc_ep.num]->dtxfsts);
++
++ if (txstatus.b.txfspcavail < txfifosize.b.depth) {
++ DWC_WARN("%s() Data In Tx Fifo\n", __func__);
++ retval = -DWC_E_AGAIN;
++ } else {
++ if (ep->dwc_ep.num == 0) {
++ pcd->ep0state = EP0_STALL;
++ }
++
++ ep->stopped = 1;
++ dwc_otg_ep_set_stall(GET_CORE_IF(pcd),
++ &ep->dwc_ep);
++ }
++ } else {
++ if (ep->dwc_ep.num == 0) {
++ pcd->ep0state = EP0_STALL;
++ }
++
++ ep->stopped = 1;
++ dwc_otg_ep_set_stall(GET_CORE_IF(pcd), &ep->dwc_ep);
++ }
++ } else if (value == 2) {
++ ep->dwc_ep.stall_clear_flag = 0;
++ } else if (value == 3) {
++ ep->dwc_ep.stall_clear_flag = 1;
++ }
++
++ DWC_SPINUNLOCK_IRQRESTORE(pcd->lock, flags);
++
++ return retval;
++}
++
++/**
++ * This function initiates remote wakeup of the host from suspend state.
++ */
++void dwc_otg_pcd_rem_wkup_from_suspend(dwc_otg_pcd_t * pcd, int set)
++{
++ dctl_data_t dctl = { 0 };
++ dwc_otg_core_if_t *core_if = GET_CORE_IF(pcd);
++ dsts_data_t dsts;
++
++ dsts.d32 = DWC_READ_REG32(&core_if->dev_if->dev_global_regs->dsts);
++ if (!dsts.b.suspsts) {
++ DWC_WARN("Remote wakeup while is not in suspend state\n");
++ }
++ /* Check if DEVICE_REMOTE_WAKEUP feature enabled */
++ if (pcd->remote_wakeup_enable) {
++ if (set) {
++
++ if (core_if->adp_enable) {
++ gpwrdn_data_t gpwrdn;
++
++ dwc_otg_adp_probe_stop(core_if);
++
++ /* Mask SRP detected interrupt from Power Down Logic */
++ gpwrdn.d32 = 0;
++ gpwrdn.b.srp_det_msk = 1;
++ DWC_MODIFY_REG32(&core_if->
++ core_global_regs->gpwrdn,
++ gpwrdn.d32, 0);
++
++ /* Disable Power Down Logic */
++ gpwrdn.d32 = 0;
++ gpwrdn.b.pmuactv = 1;
++ DWC_MODIFY_REG32(&core_if->
++ core_global_regs->gpwrdn,
++ gpwrdn.d32, 0);
++
++ /*
++ * Initialize the Core for Device mode.
++ */
++ core_if->op_state = B_PERIPHERAL;
++ dwc_otg_core_init(core_if);
++ dwc_otg_enable_global_interrupts(core_if);
++ cil_pcd_start(core_if);
++
++ dwc_otg_initiate_srp(core_if);
++ }
++
++ dctl.b.rmtwkupsig = 1;
++ DWC_MODIFY_REG32(&core_if->dev_if->dev_global_regs->
++ dctl, 0, dctl.d32);
++ DWC_DEBUGPL(DBG_PCD, "Set Remote Wakeup\n");
++
++ dwc_mdelay(2);
++ DWC_MODIFY_REG32(&core_if->dev_if->dev_global_regs->
++ dctl, dctl.d32, 0);
++ DWC_DEBUGPL(DBG_PCD, "Clear Remote Wakeup\n");
++ }
++ } else {
++ DWC_DEBUGPL(DBG_PCD, "Remote Wakeup is disabled\n");
++ }
++}
++
++#ifdef CONFIG_USB_DWC_OTG_LPM
++/**
++ * This function initiates remote wakeup of the host from L1 sleep state.
++ */
++void dwc_otg_pcd_rem_wkup_from_sleep(dwc_otg_pcd_t * pcd, int set)
++{
++ glpmcfg_data_t lpmcfg;
++ dwc_otg_core_if_t *core_if = GET_CORE_IF(pcd);
++
++ lpmcfg.d32 = DWC_READ_REG32(&core_if->core_global_regs->glpmcfg);
++
++ /* Check if we are in L1 state */
++ if (!lpmcfg.b.prt_sleep_sts) {
++ DWC_DEBUGPL(DBG_PCD, "Device is not in sleep state\n");
++ return;
++ }
++
++ /* Check if host allows remote wakeup */
++ if (!lpmcfg.b.rem_wkup_en) {
++ DWC_DEBUGPL(DBG_PCD, "Host does not allow remote wakeup\n");
++ return;
++ }
++
++ /* Check if Resume OK */
++ if (!lpmcfg.b.sleep_state_resumeok) {
++ DWC_DEBUGPL(DBG_PCD, "Sleep state resume is not OK\n");
++ return;
++ }
++
++ lpmcfg.d32 = DWC_READ_REG32(&core_if->core_global_regs->glpmcfg);
++ lpmcfg.b.en_utmi_sleep = 0;
++ lpmcfg.b.hird_thres &= (~(1 << 4));
++ DWC_WRITE_REG32(&core_if->core_global_regs->glpmcfg, lpmcfg.d32);
++
++ if (set) {
++ dctl_data_t dctl = {.d32 = 0 };
++ dctl.b.rmtwkupsig = 1;
++ /* Set RmtWkUpSig bit to start remote wakup signaling.
++ * Hardware will automatically clear this bit.
++ */
++ DWC_MODIFY_REG32(&core_if->dev_if->dev_global_regs->dctl,
++ 0, dctl.d32);
++ DWC_DEBUGPL(DBG_PCD, "Set Remote Wakeup\n");
++ }
++
++}
++#endif
++
++/**
++ * Performs remote wakeup.
++ */
++void dwc_otg_pcd_remote_wakeup(dwc_otg_pcd_t * pcd, int set)
++{
++ dwc_otg_core_if_t *core_if = GET_CORE_IF(pcd);
++ dwc_irqflags_t flags;
++ if (dwc_otg_is_device_mode(core_if)) {
++ DWC_SPINLOCK_IRQSAVE(pcd->lock, &flags);
++#ifdef CONFIG_USB_DWC_OTG_LPM
++ if (core_if->lx_state == DWC_OTG_L1) {
++ dwc_otg_pcd_rem_wkup_from_sleep(pcd, set);
++ } else {
++#endif
++ dwc_otg_pcd_rem_wkup_from_suspend(pcd, set);
++#ifdef CONFIG_USB_DWC_OTG_LPM
++ }
++#endif
++ DWC_SPINUNLOCK_IRQRESTORE(pcd->lock, flags);
++ }
++ return;
++}
++
++void dwc_otg_pcd_disconnect_us(dwc_otg_pcd_t * pcd, int no_of_usecs)
++{
++ dwc_otg_core_if_t *core_if = GET_CORE_IF(pcd);
++ dctl_data_t dctl = { 0 };
++
++ if (dwc_otg_is_device_mode(core_if)) {
++ dctl.b.sftdiscon = 1;
++ DWC_PRINTF("Soft disconnect for %d useconds\n",no_of_usecs);
++ DWC_MODIFY_REG32(&core_if->dev_if->dev_global_regs->dctl, 0, dctl.d32);
++ dwc_udelay(no_of_usecs);
++ DWC_MODIFY_REG32(&core_if->dev_if->dev_global_regs->dctl, dctl.d32,0);
++
++ } else{
++ DWC_PRINTF("NOT SUPPORTED IN HOST MODE\n");
++ }
++ return;
++
++}
++
++int dwc_otg_pcd_wakeup(dwc_otg_pcd_t * pcd)
++{
++ dsts_data_t dsts;
++ gotgctl_data_t gotgctl;
++
++ /*
++ * This function starts the Protocol if no session is in progress. If
++ * a session is already in progress, but the device is suspended,
++ * remote wakeup signaling is started.
++ */
++
++ /* Check if valid session */
++ gotgctl.d32 =
++ DWC_READ_REG32(&(GET_CORE_IF(pcd)->core_global_regs->gotgctl));
++ if (gotgctl.b.bsesvld) {
++ /* Check if suspend state */
++ dsts.d32 =
++ DWC_READ_REG32(&
++ (GET_CORE_IF(pcd)->dev_if->
++ dev_global_regs->dsts));
++ if (dsts.b.suspsts) {
++ dwc_otg_pcd_remote_wakeup(pcd, 1);
++ }
++ } else {
++ dwc_otg_pcd_initiate_srp(pcd);
++ }
++
++ return 0;
++
++}
++
++/**
++ * Start the SRP timer to detect when the SRP does not complete within
++ * 6 seconds.
++ *
++ * @param pcd the pcd structure.
++ */
++void dwc_otg_pcd_initiate_srp(dwc_otg_pcd_t * pcd)
++{
++ dwc_irqflags_t flags;
++ DWC_SPINLOCK_IRQSAVE(pcd->lock, &flags);
++ dwc_otg_initiate_srp(GET_CORE_IF(pcd));
++ DWC_SPINUNLOCK_IRQRESTORE(pcd->lock, flags);
++}
++
++int dwc_otg_pcd_get_frame_number(dwc_otg_pcd_t * pcd)
++{
++ return dwc_otg_get_frame_number(GET_CORE_IF(pcd));
++}
++
++int dwc_otg_pcd_is_lpm_enabled(dwc_otg_pcd_t * pcd)
++{
++ return GET_CORE_IF(pcd)->core_params->lpm_enable;
++}
++
++uint32_t get_b_hnp_enable(dwc_otg_pcd_t * pcd)
++{
++ return pcd->b_hnp_enable;
++}
++
++uint32_t get_a_hnp_support(dwc_otg_pcd_t * pcd)
++{
++ return pcd->a_hnp_support;
++}
++
++uint32_t get_a_alt_hnp_support(dwc_otg_pcd_t * pcd)
++{
++ return pcd->a_alt_hnp_support;
++}
++
++int dwc_otg_pcd_get_rmwkup_enable(dwc_otg_pcd_t * pcd)
++{
++ return pcd->remote_wakeup_enable;
++}
++
++#endif /* DWC_HOST_ONLY */
+diff -urN linux-3.10/drivers/usb/host/dwc_otg/dwc_otg_pcd.h linux-rpi-3.10.y/drivers/usb/host/dwc_otg/dwc_otg_pcd.h
+--- linux-3.10/drivers/usb/host/dwc_otg/dwc_otg_pcd.h 1970-01-01 01:00:00.000000000 +0100
++++ linux-rpi-3.10.y/drivers/usb/host/dwc_otg/dwc_otg_pcd.h 2013-07-06 15:25:50.000000000 +0100
+@@ -0,0 +1,266 @@
++/* ==========================================================================
++ * $File: //dwh/usb_iip/dev/software/otg/linux/drivers/dwc_otg_pcd.h $
++ * $Revision: #48 $
++ * $Date: 2012/08/10 $
++ * $Change: 2047372 $
++ *
++ * Synopsys HS OTG Linux Software Driver and documentation (hereinafter,
++ * "Software") is an Unsupported proprietary work of Synopsys, Inc. unless
++ * otherwise expressly agreed to in writing between Synopsys and you.
++ *
++ * The Software IS NOT an item of Licensed Software or Licensed Product under
++ * any End User Software License Agreement or Agreement for Licensed Product
++ * with Synopsys or any supplement thereto. You are permitted to use and
++ * redistribute this Software in source and binary forms, with or without
++ * modification, provided that redistributions of source code must retain this
++ * notice. You may not view, use, disclose, copy or distribute this file or
++ * any information contained herein except pursuant to this license grant from
++ * Synopsys. If you do not agree with this notice, including the disclaimer
++ * below, then you are not authorized to use the Software.
++ *
++ * THIS SOFTWARE IS BEING DISTRIBUTED BY SYNOPSYS SOLELY ON AN "AS IS" BASIS
++ * AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
++ * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE
++ * ARE HEREBY DISCLAIMED. IN NO EVENT SHALL SYNOPSYS BE LIABLE FOR ANY DIRECT,
++ * INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES
++ * (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR
++ * SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER
++ * CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT
++ * LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY
++ * OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH
++ * DAMAGE.
++ * ========================================================================== */
++#ifndef DWC_HOST_ONLY
++#if !defined(__DWC_PCD_H__)
++#define __DWC_PCD_H__
++
++#include "dwc_otg_os_dep.h"
++#include "usb.h"
++#include "dwc_otg_cil.h"
++#include "dwc_otg_pcd_if.h"
++struct cfiobject;
++
++/**
++ * @file
++ *
++ * This file contains the structures, constants, and interfaces for
++ * the Perpherial Contoller Driver (PCD).
++ *
++ * The Peripheral Controller Driver (PCD) for Linux will implement the
++ * Gadget API, so that the existing Gadget drivers can be used. For
++ * the Mass Storage Function driver the File-backed USB Storage Gadget
++ * (FBS) driver will be used. The FBS driver supports the
++ * Control-Bulk (CB), Control-Bulk-Interrupt (CBI), and Bulk-Only
++ * transports.
++ *
++ */
++
++/** Invalid DMA Address */
++#define DWC_DMA_ADDR_INVALID (~(dwc_dma_t)0)
++
++/** Max Transfer size for any EP */
++#define DDMA_MAX_TRANSFER_SIZE 65535
++
++/**
++ * Get the pointer to the core_if from the pcd pointer.
++ */
++#define GET_CORE_IF( _pcd ) (_pcd->core_if)
++
++/**
++ * States of EP0.
++ */
++typedef enum ep0_state {
++ EP0_DISCONNECT, /* no host */
++ EP0_IDLE,
++ EP0_IN_DATA_PHASE,
++ EP0_OUT_DATA_PHASE,
++ EP0_IN_STATUS_PHASE,
++ EP0_OUT_STATUS_PHASE,
++ EP0_STALL,
++} ep0state_e;
++
++/** Fordward declaration.*/
++struct dwc_otg_pcd;
++
++/** DWC_otg iso request structure.
++ *
++ */
++typedef struct usb_iso_request dwc_otg_pcd_iso_request_t;
++
++#ifdef DWC_UTE_PER_IO
++
++/**
++ * This shall be the exact analogy of the same type structure defined in the
++ * usb_gadget.h. Each descriptor contains
++ */
++struct dwc_iso_pkt_desc_port {
++ uint32_t offset;
++ uint32_t length; /* expected length */
++ uint32_t actual_length;
++ uint32_t status;
++};
++
++struct dwc_iso_xreq_port {
++ /** transfer/submission flag */
++ uint32_t tr_sub_flags;
++ /** Start the request ASAP */
++#define DWC_EREQ_TF_ASAP 0x00000002
++ /** Just enqueue the request w/o initiating a transfer */
++#define DWC_EREQ_TF_ENQUEUE 0x00000004
++
++ /**
++ * count of ISO packets attached to this request - shall
++ * not exceed the pio_alloc_pkt_count
++ */
++ uint32_t pio_pkt_count;
++ /** count of ISO packets allocated for this request */
++ uint32_t pio_alloc_pkt_count;
++ /** number of ISO packet errors */
++ uint32_t error_count;
++ /** reserved for future extension */
++ uint32_t res;
++ /** Will be allocated and freed in the UTE gadget and based on the CFC value */
++ struct dwc_iso_pkt_desc_port *per_io_frame_descs;
++};
++#endif
++/** DWC_otg request structure.
++ * This structure is a list of requests.
++ */
++typedef struct dwc_otg_pcd_request {
++ void *priv;
++ void *buf;
++ dwc_dma_t dma;
++ uint32_t length;
++ uint32_t actual;
++ unsigned sent_zlp:1;
++ /**
++ * Used instead of original buffer if
++ * it(physical address) is not dword-aligned.
++ **/
++ uint8_t *dw_align_buf;
++ dwc_dma_t dw_align_buf_dma;
++
++ DWC_CIRCLEQ_ENTRY(dwc_otg_pcd_request) queue_entry;
++#ifdef DWC_UTE_PER_IO
++ struct dwc_iso_xreq_port ext_req;
++ //void *priv_ereq_nport; /* */
++#endif
++} dwc_otg_pcd_request_t;
++
++DWC_CIRCLEQ_HEAD(req_list, dwc_otg_pcd_request);
++
++/** PCD EP structure.
++ * This structure describes an EP, there is an array of EPs in the PCD
++ * structure.
++ */
++typedef struct dwc_otg_pcd_ep {
++ /** USB EP Descriptor */
++ const usb_endpoint_descriptor_t *desc;
++
++ /** queue of dwc_otg_pcd_requests. */
++ struct req_list queue;
++ unsigned stopped:1;
++ unsigned disabling:1;
++ unsigned dma:1;
++ unsigned queue_sof:1;
++
++#ifdef DWC_EN_ISOC
++ /** ISOC req handle passed */
++ void *iso_req_handle;
++#endif //_EN_ISOC_
++
++ /** DWC_otg ep data. */
++ dwc_ep_t dwc_ep;
++
++ /** Pointer to PCD */
++ struct dwc_otg_pcd *pcd;
++
++ void *priv;
++} dwc_otg_pcd_ep_t;
++
++/** DWC_otg PCD Structure.
++ * This structure encapsulates the data for the dwc_otg PCD.
++ */
++struct dwc_otg_pcd {
++ const struct dwc_otg_pcd_function_ops *fops;
++ /** The DWC otg device pointer */
++ struct dwc_otg_device *otg_dev;
++ /** Core Interface */
++ dwc_otg_core_if_t *core_if;
++ /** State of EP0 */
++ ep0state_e ep0state;
++ /** EP0 Request is pending */
++ unsigned ep0_pending:1;
++ /** Indicates when SET CONFIGURATION Request is in process */
++ unsigned request_config:1;
++ /** The state of the Remote Wakeup Enable. */
++ unsigned remote_wakeup_enable:1;
++ /** The state of the B-Device HNP Enable. */
++ unsigned b_hnp_enable:1;
++ /** The state of A-Device HNP Support. */
++ unsigned a_hnp_support:1;
++ /** The state of the A-Device Alt HNP support. */
++ unsigned a_alt_hnp_support:1;
++ /** Count of pending Requests */
++ unsigned request_pending;
++
++ /** SETUP packet for EP0
++ * This structure is allocated as a DMA buffer on PCD initialization
++ * with enough space for up to 3 setup packets.
++ */
++ union {
++ usb_device_request_t req;
++ uint32_t d32[2];
++ } *setup_pkt;
++
++ dwc_dma_t setup_pkt_dma_handle;
++
++ /* Additional buffer and flag for CTRL_WR premature case */
++ uint8_t *backup_buf;
++ unsigned data_terminated;
++
++ /** 2-byte dma buffer used to return status from GET_STATUS */
++ uint16_t *status_buf;
++ dwc_dma_t status_buf_dma_handle;
++
++ /** EP0 */
++ dwc_otg_pcd_ep_t ep0;
++
++ /** Array of IN EPs. */
++ dwc_otg_pcd_ep_t in_ep[MAX_EPS_CHANNELS - 1];
++ /** Array of OUT EPs. */
++ dwc_otg_pcd_ep_t out_ep[MAX_EPS_CHANNELS - 1];
++ /** number of valid EPs in the above array. */
++// unsigned num_eps : 4;
++ dwc_spinlock_t *lock;
++
++ /** Tasklet to defer starting of TEST mode transmissions until
++ * Status Phase has been completed.
++ */
++ dwc_tasklet_t *test_mode_tasklet;
++
++ /** Tasklet to delay starting of xfer in DMA mode */
++ dwc_tasklet_t *start_xfer_tasklet;
++
++ /** The test mode to enter when the tasklet is executed. */
++ unsigned test_mode;
++ /** The cfi_api structure that implements most of the CFI API
++ * and OTG specific core configuration functionality
++ */
++#ifdef DWC_UTE_CFI
++ struct cfiobject *cfi;
++#endif
++
++};
++
++//FIXME this functions should be static, and this prototypes should be removed
++extern void dwc_otg_request_nuke(dwc_otg_pcd_ep_t * ep);
++extern void dwc_otg_request_done(dwc_otg_pcd_ep_t * ep,
++ dwc_otg_pcd_request_t * req, int32_t status);
++
++void dwc_otg_iso_buffer_done(dwc_otg_pcd_t * pcd, dwc_otg_pcd_ep_t * ep,
++ void *req_handle);
++
++extern void do_test_mode(void *data);
++#endif
++#endif /* DWC_HOST_ONLY */
+diff -urN linux-3.10/drivers/usb/host/dwc_otg/dwc_otg_pcd_if.h linux-rpi-3.10.y/drivers/usb/host/dwc_otg/dwc_otg_pcd_if.h
+--- linux-3.10/drivers/usb/host/dwc_otg/dwc_otg_pcd_if.h 1970-01-01 01:00:00.000000000 +0100
++++ linux-rpi-3.10.y/drivers/usb/host/dwc_otg/dwc_otg_pcd_if.h 2013-07-06 15:25:50.000000000 +0100
+@@ -0,0 +1,360 @@
++/* ==========================================================================
++ * $File: //dwh/usb_iip/dev/software/otg/linux/drivers/dwc_otg_pcd_if.h $
++ * $Revision: #11 $
++ * $Date: 2011/10/26 $
++ * $Change: 1873028 $
++ *
++ * Synopsys HS OTG Linux Software Driver and documentation (hereinafter,
++ * "Software") is an Unsupported proprietary work of Synopsys, Inc. unless
++ * otherwise expressly agreed to in writing between Synopsys and you.
++ *
++ * The Software IS NOT an item of Licensed Software or Licensed Product under
++ * any End User Software License Agreement or Agreement for Licensed Product
++ * with Synopsys or any supplement thereto. You are permitted to use and
++ * redistribute this Software in source and binary forms, with or without
++ * modification, provided that redistributions of source code must retain this
++ * notice. You may not view, use, disclose, copy or distribute this file or
++ * any information contained herein except pursuant to this license grant from
++ * Synopsys. If you do not agree with this notice, including the disclaimer
++ * below, then you are not authorized to use the Software.
++ *
++ * THIS SOFTWARE IS BEING DISTRIBUTED BY SYNOPSYS SOLELY ON AN "AS IS" BASIS
++ * AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
++ * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE
++ * ARE HEREBY DISCLAIMED. IN NO EVENT SHALL SYNOPSYS BE LIABLE FOR ANY DIRECT,
++ * INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES
++ * (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR
++ * SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER
++ * CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT
++ * LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY
++ * OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH
++ * DAMAGE.
++ * ========================================================================== */
++#ifndef DWC_HOST_ONLY
++
++#if !defined(__DWC_PCD_IF_H__)
++#define __DWC_PCD_IF_H__
++
++//#include "dwc_os.h"
++#include "dwc_otg_core_if.h"
++
++/** @file
++ * This file defines DWC_OTG PCD Core API.
++ */
++
++struct dwc_otg_pcd;
++typedef struct dwc_otg_pcd dwc_otg_pcd_t;
++
++/** Maxpacket size for EP0 */
++#define MAX_EP0_SIZE 64
++/** Maxpacket size for any EP */
++#define MAX_PACKET_SIZE 1024
++
++/** @name Function Driver Callbacks */
++/** @{ */
++
++/** This function will be called whenever a previously queued request has
++ * completed. The status value will be set to -DWC_E_SHUTDOWN to indicated a
++ * failed or aborted transfer, or -DWC_E_RESTART to indicate the device was reset,
++ * or -DWC_E_TIMEOUT to indicate it timed out, or -DWC_E_INVALID to indicate invalid
++ * parameters. */
++typedef int (*dwc_completion_cb_t) (dwc_otg_pcd_t * pcd, void *ep_handle,
++ void *req_handle, int32_t status,
++ uint32_t actual);
++/**
++ * This function will be called whenever a previousle queued ISOC request has
++ * completed. Count of ISOC packets could be read using dwc_otg_pcd_get_iso_packet_count
++ * function.
++ * The status of each ISOC packet could be read using dwc_otg_pcd_get_iso_packet_*
++ * functions.
++ */
++typedef int (*dwc_isoc_completion_cb_t) (dwc_otg_pcd_t * pcd, void *ep_handle,
++ void *req_handle, int proc_buf_num);
++/** This function should handle any SETUP request that cannot be handled by the
++ * PCD Core. This includes most GET_DESCRIPTORs, SET_CONFIGS, Any
++ * class-specific requests, etc. The function must non-blocking.
++ *
++ * Returns 0 on success.
++ * Returns -DWC_E_NOT_SUPPORTED if the request is not supported.
++ * Returns -DWC_E_INVALID if the setup request had invalid parameters or bytes.
++ * Returns -DWC_E_SHUTDOWN on any other error. */
++typedef int (*dwc_setup_cb_t) (dwc_otg_pcd_t * pcd, uint8_t * bytes);
++/** This is called whenever the device has been disconnected. The function
++ * driver should take appropriate action to clean up all pending requests in the
++ * PCD Core, remove all endpoints (except ep0), and initialize back to reset
++ * state. */
++typedef int (*dwc_disconnect_cb_t) (dwc_otg_pcd_t * pcd);
++/** This function is called when device has been connected. */
++typedef int (*dwc_connect_cb_t) (dwc_otg_pcd_t * pcd, int speed);
++/** This function is called when device has been suspended */
++typedef int (*dwc_suspend_cb_t) (dwc_otg_pcd_t * pcd);
++/** This function is called when device has received LPM tokens, i.e.
++ * device has been sent to sleep state. */
++typedef int (*dwc_sleep_cb_t) (dwc_otg_pcd_t * pcd);
++/** This function is called when device has been resumed
++ * from suspend(L2) or L1 sleep state. */
++typedef int (*dwc_resume_cb_t) (dwc_otg_pcd_t * pcd);
++/** This function is called whenever hnp params has been changed.
++ * User can call get_b_hnp_enable, get_a_hnp_support, get_a_alt_hnp_support functions
++ * to get hnp parameters. */
++typedef int (*dwc_hnp_params_changed_cb_t) (dwc_otg_pcd_t * pcd);
++/** This function is called whenever USB RESET is detected. */
++typedef int (*dwc_reset_cb_t) (dwc_otg_pcd_t * pcd);
++
++typedef int (*cfi_setup_cb_t) (dwc_otg_pcd_t * pcd, void *ctrl_req_bytes);
++
++/**
++ *
++ * @param ep_handle Void pointer to the usb_ep structure
++ * @param ereq_port Pointer to the extended request structure created in the
++ * portable part.
++ */
++typedef int (*xiso_completion_cb_t) (dwc_otg_pcd_t * pcd, void *ep_handle,
++ void *req_handle, int32_t status,
++ void *ereq_port);
++/** Function Driver Ops Data Structure */
++struct dwc_otg_pcd_function_ops {
++ dwc_connect_cb_t connect;
++ dwc_disconnect_cb_t disconnect;
++ dwc_setup_cb_t setup;
++ dwc_completion_cb_t complete;
++ dwc_isoc_completion_cb_t isoc_complete;
++ dwc_suspend_cb_t suspend;
++ dwc_sleep_cb_t sleep;
++ dwc_resume_cb_t resume;
++ dwc_reset_cb_t reset;
++ dwc_hnp_params_changed_cb_t hnp_changed;
++ cfi_setup_cb_t cfi_setup;
++#ifdef DWC_UTE_PER_IO
++ xiso_completion_cb_t xisoc_complete;
++#endif
++};
++/** @} */
++
++/** @name Function Driver Functions */
++/** @{ */
++
++/** Call this function to get pointer on dwc_otg_pcd_t,
++ * this pointer will be used for all PCD API functions.
++ *
++ * @param core_if The DWC_OTG Core
++ */
++extern dwc_otg_pcd_t *dwc_otg_pcd_init(dwc_otg_core_if_t * core_if);
++
++/** Frees PCD allocated by dwc_otg_pcd_init
++ *
++ * @param pcd The PCD
++ */
++extern void dwc_otg_pcd_remove(dwc_otg_pcd_t * pcd);
++
++/** Call this to bind the function driver to the PCD Core.
++ *
++ * @param pcd Pointer on dwc_otg_pcd_t returned by dwc_otg_pcd_init function.
++ * @param fops The Function Driver Ops data structure containing pointers to all callbacks.
++ */
++extern void dwc_otg_pcd_start(dwc_otg_pcd_t * pcd,
++ const struct dwc_otg_pcd_function_ops *fops);
++
++/** Enables an endpoint for use. This function enables an endpoint in
++ * the PCD. The endpoint is described by the ep_desc which has the
++ * same format as a USB ep descriptor. The ep_handle parameter is used to refer
++ * to the endpoint from other API functions and in callbacks. Normally this
++ * should be called after a SET_CONFIGURATION/SET_INTERFACE to configure the
++ * core for that interface.
++ *
++ * Returns -DWC_E_INVALID if invalid parameters were passed.
++ * Returns -DWC_E_SHUTDOWN if any other error ocurred.
++ * Returns 0 on success.
++ *
++ * @param pcd The PCD
++ * @param ep_desc Endpoint descriptor
++ * @param usb_ep Handle on endpoint, that will be used to identify endpoint.
++ */
++extern int dwc_otg_pcd_ep_enable(dwc_otg_pcd_t * pcd,
++ const uint8_t * ep_desc, void *usb_ep);
++
++/** Disable the endpoint referenced by ep_handle.
++ *
++ * Returns -DWC_E_INVALID if invalid parameters were passed.
++ * Returns -DWC_E_SHUTDOWN if any other error occurred.
++ * Returns 0 on success. */
++extern int dwc_otg_pcd_ep_disable(dwc_otg_pcd_t * pcd, void *ep_handle);
++
++/** Queue a data transfer request on the endpoint referenced by ep_handle.
++ * After the transfer is completes, the complete callback will be called with
++ * the request status.
++ *
++ * @param pcd The PCD
++ * @param ep_handle The handle of the endpoint
++ * @param buf The buffer for the data
++ * @param dma_buf The DMA buffer for the data
++ * @param buflen The length of the data transfer
++ * @param zero Specifies whether to send zero length last packet.
++ * @param req_handle Set this handle to any value to use to reference this
++ * request in the ep_dequeue function or from the complete callback
++ * @param atomic_alloc If driver need to perform atomic allocations
++ * for internal data structures.
++ *
++ * Returns -DWC_E_INVALID if invalid parameters were passed.
++ * Returns -DWC_E_SHUTDOWN if any other error ocurred.
++ * Returns 0 on success. */
++extern int dwc_otg_pcd_ep_queue(dwc_otg_pcd_t * pcd, void *ep_handle,
++ uint8_t * buf, dwc_dma_t dma_buf,
++ uint32_t buflen, int zero, void *req_handle,
++ int atomic_alloc);
++#ifdef DWC_UTE_PER_IO
++/**
++ *
++ * @param ereq_nonport Pointer to the extended request part of the
++ * usb_request structure defined in usb_gadget.h file.
++ */
++extern int dwc_otg_pcd_xiso_ep_queue(dwc_otg_pcd_t * pcd, void *ep_handle,
++ uint8_t * buf, dwc_dma_t dma_buf,
++ uint32_t buflen, int zero,
++ void *req_handle, int atomic_alloc,
++ void *ereq_nonport);
++
++#endif
++
++/** De-queue the specified data transfer that has not yet completed.
++ *
++ * Returns -DWC_E_INVALID if invalid parameters were passed.
++ * Returns -DWC_E_SHUTDOWN if any other error ocurred.
++ * Returns 0 on success. */
++extern int dwc_otg_pcd_ep_dequeue(dwc_otg_pcd_t * pcd, void *ep_handle,
++ void *req_handle);
++
++/** Halt (STALL) an endpoint or clear it.
++ *
++ * Returns -DWC_E_INVALID if invalid parameters were passed.
++ * Returns -DWC_E_SHUTDOWN if any other error ocurred.
++ * Returns -DWC_E_AGAIN if the STALL cannot be sent and must be tried again later
++ * Returns 0 on success. */
++extern int dwc_otg_pcd_ep_halt(dwc_otg_pcd_t * pcd, void *ep_handle, int value);
++
++/** This function */
++extern int dwc_otg_pcd_ep_wedge(dwc_otg_pcd_t * pcd, void *ep_handle);
++
++/** This function should be called on every hardware interrupt */
++extern int32_t dwc_otg_pcd_handle_intr(dwc_otg_pcd_t * pcd);
++
++/** This function returns current frame number */
++extern int dwc_otg_pcd_get_frame_number(dwc_otg_pcd_t * pcd);
++
++/**
++ * Start isochronous transfers on the endpoint referenced by ep_handle.
++ * For isochronous transfers duble buffering is used.
++ * After processing each of buffers comlete callback will be called with
++ * status for each transaction.
++ *
++ * @param pcd The PCD
++ * @param ep_handle The handle of the endpoint
++ * @param buf0 The virtual address of first data buffer
++ * @param buf1 The virtual address of second data buffer
++ * @param dma0 The DMA address of first data buffer
++ * @param dma1 The DMA address of second data buffer
++ * @param sync_frame Data pattern frame number
++ * @param dp_frame Data size for pattern frame
++ * @param data_per_frame Data size for regular frame
++ * @param start_frame Frame number to start transfers, if -1 then start transfers ASAP.
++ * @param buf_proc_intrvl Interval of ISOC Buffer processing
++ * @param req_handle Handle of ISOC request
++ * @param atomic_alloc Specefies whether to perform atomic allocation for
++ * internal data structures.
++ *
++ * Returns -DWC_E_NO_MEMORY if there is no enough memory.
++ * Returns -DWC_E_INVALID if incorrect arguments are passed to the function.
++ * Returns -DW_E_SHUTDOWN for any other error.
++ * Returns 0 on success
++ */
++extern int dwc_otg_pcd_iso_ep_start(dwc_otg_pcd_t * pcd, void *ep_handle,
++ uint8_t * buf0, uint8_t * buf1,
++ dwc_dma_t dma0, dwc_dma_t dma1,
++ int sync_frame, int dp_frame,
++ int data_per_frame, int start_frame,
++ int buf_proc_intrvl, void *req_handle,
++ int atomic_alloc);
++
++/** Stop ISOC transfers on endpoint referenced by ep_handle.
++ *
++ * @param pcd The PCD
++ * @param ep_handle The handle of the endpoint
++ * @param req_handle Handle of ISOC request
++ *
++ * Returns -DWC_E_INVALID if incorrect arguments are passed to the function
++ * Returns 0 on success
++ */
++int dwc_otg_pcd_iso_ep_stop(dwc_otg_pcd_t * pcd, void *ep_handle,
++ void *req_handle);
++
++/** Get ISOC packet status.
++ *
++ * @param pcd The PCD
++ * @param ep_handle The handle of the endpoint
++ * @param iso_req_handle Isochronoush request handle
++ * @param packet Number of packet
++ * @param status Out parameter for returning status
++ * @param actual Out parameter for returning actual length
++ * @param offset Out parameter for returning offset
++ *
++ */
++extern void dwc_otg_pcd_get_iso_packet_params(dwc_otg_pcd_t * pcd,
++ void *ep_handle,
++ void *iso_req_handle, int packet,
++ int *status, int *actual,
++ int *offset);
++
++/** Get ISOC packet count.
++ *
++ * @param pcd The PCD
++ * @param ep_handle The handle of the endpoint
++ * @param iso_req_handle
++ */
++extern int dwc_otg_pcd_get_iso_packet_count(dwc_otg_pcd_t * pcd,
++ void *ep_handle,
++ void *iso_req_handle);
++
++/** This function starts the SRP Protocol if no session is in progress. If
++ * a session is already in progress, but the device is suspended,
++ * remote wakeup signaling is started.
++ */
++extern int dwc_otg_pcd_wakeup(dwc_otg_pcd_t * pcd);
++
++/** This function returns 1 if LPM support is enabled, and 0 otherwise. */
++extern int dwc_otg_pcd_is_lpm_enabled(dwc_otg_pcd_t * pcd);
++
++/** This function returns 1 if remote wakeup is allowed and 0, otherwise. */
++extern int dwc_otg_pcd_get_rmwkup_enable(dwc_otg_pcd_t * pcd);
++
++/** Initiate SRP */
++extern void dwc_otg_pcd_initiate_srp(dwc_otg_pcd_t * pcd);
++
++/** Starts remote wakeup signaling. */
++extern void dwc_otg_pcd_remote_wakeup(dwc_otg_pcd_t * pcd, int set);
++
++/** Starts micorsecond soft disconnect. */
++extern void dwc_otg_pcd_disconnect_us(dwc_otg_pcd_t * pcd, int no_of_usecs);
++/** This function returns whether device is dualspeed.*/
++extern uint32_t dwc_otg_pcd_is_dualspeed(dwc_otg_pcd_t * pcd);
++
++/** This function returns whether device is otg. */
++extern uint32_t dwc_otg_pcd_is_otg(dwc_otg_pcd_t * pcd);
++
++/** These functions allow to get hnp parameters */
++extern uint32_t get_b_hnp_enable(dwc_otg_pcd_t * pcd);
++extern uint32_t get_a_hnp_support(dwc_otg_pcd_t * pcd);
++extern uint32_t get_a_alt_hnp_support(dwc_otg_pcd_t * pcd);
++
++/** CFI specific Interface functions */
++/** Allocate a cfi buffer */
++extern uint8_t *cfiw_ep_alloc_buffer(dwc_otg_pcd_t * pcd, void *pep,
++ dwc_dma_t * addr, size_t buflen,
++ int flags);
++
++/******************************************************************************/
++
++/** @} */
++
++#endif /* __DWC_PCD_IF_H__ */
++
++#endif /* DWC_HOST_ONLY */
+diff -urN linux-3.10/drivers/usb/host/dwc_otg/dwc_otg_pcd_intr.c linux-rpi-3.10.y/drivers/usb/host/dwc_otg/dwc_otg_pcd_intr.c
+--- linux-3.10/drivers/usb/host/dwc_otg/dwc_otg_pcd_intr.c 1970-01-01 01:00:00.000000000 +0100
++++ linux-rpi-3.10.y/drivers/usb/host/dwc_otg/dwc_otg_pcd_intr.c 2013-07-06 15:25:50.000000000 +0100
+@@ -0,0 +1,5147 @@
++/* ==========================================================================
++ * $File: //dwh/usb_iip/dev/software/otg/linux/drivers/dwc_otg_pcd_intr.c $
++ * $Revision: #116 $
++ * $Date: 2012/08/10 $
++ * $Change: 2047372 $
++ *
++ * Synopsys HS OTG Linux Software Driver and documentation (hereinafter,
++ * "Software") is an Unsupported proprietary work of Synopsys, Inc. unless
++ * otherwise expressly agreed to in writing between Synopsys and you.
++ *
++ * The Software IS NOT an item of Licensed Software or Licensed Product under
++ * any End User Software License Agreement or Agreement for Licensed Product
++ * with Synopsys or any supplement thereto. You are permitted to use and
++ * redistribute this Software in source and binary forms, with or without
++ * modification, provided that redistributions of source code must retain this
++ * notice. You may not view, use, disclose, copy or distribute this file or
++ * any information contained herein except pursuant to this license grant from
++ * Synopsys. If you do not agree with this notice, including the disclaimer
++ * below, then you are not authorized to use the Software.
++ *
++ * THIS SOFTWARE IS BEING DISTRIBUTED BY SYNOPSYS SOLELY ON AN "AS IS" BASIS
++ * AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
++ * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE
++ * ARE HEREBY DISCLAIMED. IN NO EVENT SHALL SYNOPSYS BE LIABLE FOR ANY DIRECT,
++ * INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES
++ * (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR
++ * SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER
++ * CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT
++ * LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY
++ * OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH
++ * DAMAGE.
++ * ========================================================================== */
++#ifndef DWC_HOST_ONLY
++
++#include "dwc_otg_pcd.h"
++
++#ifdef DWC_UTE_CFI
++#include "dwc_otg_cfi.h"
++#endif
++
++#ifdef DWC_UTE_PER_IO
++extern void complete_xiso_ep(dwc_otg_pcd_ep_t * ep);
++#endif
++//#define PRINT_CFI_DMA_DESCS
++
++#define DEBUG_EP0
++
++/**
++ * This function updates OTG.
++ */
++static void dwc_otg_pcd_update_otg(dwc_otg_pcd_t * pcd, const unsigned reset)
++{
++
++ if (reset) {
++ pcd->b_hnp_enable = 0;
++ pcd->a_hnp_support = 0;
++ pcd->a_alt_hnp_support = 0;
++ }
++
++ if (pcd->fops->hnp_changed) {
++ pcd->fops->hnp_changed(pcd);
++ }
++}
++
++/** @file
++ * This file contains the implementation of the PCD Interrupt handlers.
++ *
++ * The PCD handles the device interrupts. Many conditions can cause a
++ * device interrupt. When an interrupt occurs, the device interrupt
++ * service routine determines the cause of the interrupt and
++ * dispatches handling to the appropriate function. These interrupt
++ * handling functions are described below.
++ * All interrupt registers are processed from LSB to MSB.
++ */
++
++/**
++ * This function prints the ep0 state for debug purposes.
++ */
++static inline void print_ep0_state(dwc_otg_pcd_t * pcd)
++{
++#ifdef DEBUG
++ char str[40];
++
++ switch (pcd->ep0state) {
++ case EP0_DISCONNECT:
++ dwc_strcpy(str, "EP0_DISCONNECT");
++ break;
++ case EP0_IDLE:
++ dwc_strcpy(str, "EP0_IDLE");
++ break;
++ case EP0_IN_DATA_PHASE:
++ dwc_strcpy(str, "EP0_IN_DATA_PHASE");
++ break;
++ case EP0_OUT_DATA_PHASE:
++ dwc_strcpy(str, "EP0_OUT_DATA_PHASE");
++ break;
++ case EP0_IN_STATUS_PHASE:
++ dwc_strcpy(str, "EP0_IN_STATUS_PHASE");
++ break;
++ case EP0_OUT_STATUS_PHASE:
++ dwc_strcpy(str, "EP0_OUT_STATUS_PHASE");
++ break;
++ case EP0_STALL:
++ dwc_strcpy(str, "EP0_STALL");
++ break;
++ default:
++ dwc_strcpy(str, "EP0_INVALID");
++ }
++
++ DWC_DEBUGPL(DBG_ANY, "%s(%d)\n", str, pcd->ep0state);
++#endif
++}
++
++/**
++ * This function calculate the size of the payload in the memory
++ * for out endpoints and prints size for debug purposes(used in
++ * 2.93a DevOutNak feature).
++ */
++static inline void print_memory_payload(dwc_otg_pcd_t * pcd, dwc_ep_t * ep)
++{
++#ifdef DEBUG
++ deptsiz_data_t deptsiz_init = {.d32 = 0 };
++ deptsiz_data_t deptsiz_updt = {.d32 = 0 };
++ int pack_num;
++ unsigned payload;
++
++ deptsiz_init.d32 = pcd->core_if->start_doeptsiz_val[ep->num];
++ deptsiz_updt.d32 =
++ DWC_READ_REG32(&pcd->core_if->dev_if->
++ out_ep_regs[ep->num]->doeptsiz);
++ /* Payload will be */
++ payload = deptsiz_init.b.xfersize - deptsiz_updt.b.xfersize;
++ /* Packet count is decremented every time a packet
++ * is written to the RxFIFO not in to the external memory
++ * So, if payload == 0, then it means no packet was sent to ext memory*/
++ pack_num = (!payload) ? 0 : (deptsiz_init.b.pktcnt - deptsiz_updt.b.pktcnt);
++ DWC_DEBUGPL(DBG_PCDV,
++ "Payload for EP%d-%s\n",
++ ep->num, (ep->is_in ? "IN" : "OUT"));
++ DWC_DEBUGPL(DBG_PCDV,
++ "Number of transfered bytes = 0x%08x\n", payload);
++ DWC_DEBUGPL(DBG_PCDV,
++ "Number of transfered packets = %d\n", pack_num);
++#endif
++}
++
++
++#ifdef DWC_UTE_CFI
++static inline void print_desc(struct dwc_otg_dma_desc *ddesc,
++ const uint8_t * epname, int descnum)
++{
++ CFI_INFO
++ ("%s DMA_DESC(%d) buf=0x%08x bytes=0x%04x; sp=0x%x; l=0x%x; sts=0x%02x; bs=0x%02x\n",
++ epname, descnum, ddesc->buf, ddesc->status.b.bytes,
++ ddesc->status.b.sp, ddesc->status.b.l, ddesc->status.b.sts,
++ ddesc->status.b.bs);
++}
++#endif
++
++/**
++ * This function returns pointer to in ep struct with number ep_num
++ */
++static inline dwc_otg_pcd_ep_t *get_in_ep(dwc_otg_pcd_t * pcd, uint32_t ep_num)
++{
++ int i;
++ int num_in_eps = GET_CORE_IF(pcd)->dev_if->num_in_eps;
++ if (ep_num == 0) {
++ return &pcd->ep0;
++ } else {
++ for (i = 0; i < num_in_eps; ++i) {
++ if (pcd->in_ep[i].dwc_ep.num == ep_num)
++ return &pcd->in_ep[i];
++ }
++ return 0;
++ }
++}
++
++/**
++ * This function returns pointer to out ep struct with number ep_num
++ */
++static inline dwc_otg_pcd_ep_t *get_out_ep(dwc_otg_pcd_t * pcd, uint32_t ep_num)
++{
++ int i;
++ int num_out_eps = GET_CORE_IF(pcd)->dev_if->num_out_eps;
++ if (ep_num == 0) {
++ return &pcd->ep0;
++ } else {
++ for (i = 0; i < num_out_eps; ++i) {
++ if (pcd->out_ep[i].dwc_ep.num == ep_num)
++ return &pcd->out_ep[i];
++ }
++ return 0;
++ }
++}
++
++/**
++ * This functions gets a pointer to an EP from the wIndex address
++ * value of the control request.
++ */
++dwc_otg_pcd_ep_t *get_ep_by_addr(dwc_otg_pcd_t * pcd, u16 wIndex)
++{
++ dwc_otg_pcd_ep_t *ep;
++ uint32_t ep_num = UE_GET_ADDR(wIndex);
++
++ if (ep_num == 0) {
++ ep = &pcd->ep0;
++ } else if (UE_GET_DIR(wIndex) == UE_DIR_IN) { /* in ep */
++ ep = &pcd->in_ep[ep_num - 1];
++ } else {
++ ep = &pcd->out_ep[ep_num - 1];
++ }
++
++ return ep;
++}
++
++/**
++ * This function checks the EP request queue, if the queue is not
++ * empty the next request is started.
++ */
++void start_next_request(dwc_otg_pcd_ep_t * ep)
++{
++ dwc_otg_pcd_request_t *req = 0;
++ uint32_t max_transfer =
++ GET_CORE_IF(ep->pcd)->core_params->max_transfer_size;
++
++#ifdef DWC_UTE_CFI
++ struct dwc_otg_pcd *pcd;
++ pcd = ep->pcd;
++#endif
++
++ if (!DWC_CIRCLEQ_EMPTY(&ep->queue)) {
++ req = DWC_CIRCLEQ_FIRST(&ep->queue);
++
++#ifdef DWC_UTE_CFI
++ if (ep->dwc_ep.buff_mode != BM_STANDARD) {
++ ep->dwc_ep.cfi_req_len = req->length;
++ pcd->cfi->ops.build_descriptors(pcd->cfi, pcd, ep, req);
++ } else {
++#endif
++ /* Setup and start the Transfer */
++ if (req->dw_align_buf) {
++ ep->dwc_ep.dma_addr = req->dw_align_buf_dma;
++ ep->dwc_ep.start_xfer_buff = req->dw_align_buf;
++ ep->dwc_ep.xfer_buff = req->dw_align_buf;
++ } else {
++ ep->dwc_ep.dma_addr = req->dma;
++ ep->dwc_ep.start_xfer_buff = req->buf;
++ ep->dwc_ep.xfer_buff = req->buf;
++ }
++ ep->dwc_ep.sent_zlp = 0;
++ ep->dwc_ep.total_len = req->length;
++ ep->dwc_ep.xfer_len = 0;
++ ep->dwc_ep.xfer_count = 0;
++
++ ep->dwc_ep.maxxfer = max_transfer;
++ if (GET_CORE_IF(ep->pcd)->dma_desc_enable) {
++ uint32_t out_max_xfer = DDMA_MAX_TRANSFER_SIZE
++ - (DDMA_MAX_TRANSFER_SIZE % 4);
++ if (ep->dwc_ep.is_in) {
++ if (ep->dwc_ep.maxxfer >
++ DDMA_MAX_TRANSFER_SIZE) {
++ ep->dwc_ep.maxxfer =
++ DDMA_MAX_TRANSFER_SIZE;
++ }
++ } else {
++ if (ep->dwc_ep.maxxfer > out_max_xfer) {
++ ep->dwc_ep.maxxfer =
++ out_max_xfer;
++ }
++ }
++ }
++ if (ep->dwc_ep.maxxfer < ep->dwc_ep.total_len) {
++ ep->dwc_ep.maxxfer -=
++ (ep->dwc_ep.maxxfer % ep->dwc_ep.maxpacket);
++ }
++ if (req->sent_zlp) {
++ if ((ep->dwc_ep.total_len %
++ ep->dwc_ep.maxpacket == 0)
++ && (ep->dwc_ep.total_len != 0)) {
++ ep->dwc_ep.sent_zlp = 1;
++ }
++
++ }
++#ifdef DWC_UTE_CFI
++ }
++#endif
++ dwc_otg_ep_start_transfer(GET_CORE_IF(ep->pcd), &ep->dwc_ep);
++ } else if (ep->dwc_ep.type == DWC_OTG_EP_TYPE_ISOC) {
++ DWC_PRINTF("There are no more ISOC requests \n");
++ ep->dwc_ep.frame_num = 0xFFFFFFFF;
++ }
++}
++
++/**
++ * This function handles the SOF Interrupts. At this time the SOF
++ * Interrupt is disabled.
++ */
++int32_t dwc_otg_pcd_handle_sof_intr(dwc_otg_pcd_t * pcd)
++{
++ dwc_otg_core_if_t *core_if = GET_CORE_IF(pcd);
++
++ gintsts_data_t gintsts;
++
++ DWC_DEBUGPL(DBG_PCD, "SOF\n");
++
++ /* Clear interrupt */
++ gintsts.d32 = 0;
++ gintsts.b.sofintr = 1;
++ DWC_WRITE_REG32(&core_if->core_global_regs->gintsts, gintsts.d32);
++
++ return 1;
++}
++
++/**
++ * This function handles the Rx Status Queue Level Interrupt, which
++ * indicates that there is a least one packet in the Rx FIFO. The
++ * packets are moved from the FIFO to memory, where they will be
++ * processed when the Endpoint Interrupt Register indicates Transfer
++ * Complete or SETUP Phase Done.
++ *
++ * Repeat the following until the Rx Status Queue is empty:
++ * -# Read the Receive Status Pop Register (GRXSTSP) to get Packet
++ * info
++ * -# If Receive FIFO is empty then skip to step Clear the interrupt
++ * and exit
++ * -# If SETUP Packet call dwc_otg_read_setup_packet to copy the
++ * SETUP data to the buffer
++ * -# If OUT Data Packet call dwc_otg_read_packet to copy the data
++ * to the destination buffer
++ */
++int32_t dwc_otg_pcd_handle_rx_status_q_level_intr(dwc_otg_pcd_t * pcd)
++{
++ dwc_otg_core_if_t *core_if = GET_CORE_IF(pcd);
++ dwc_otg_core_global_regs_t *global_regs = core_if->core_global_regs;
++ gintmsk_data_t gintmask = {.d32 = 0 };
++ device_grxsts_data_t status;
++ dwc_otg_pcd_ep_t *ep;
++ gintsts_data_t gintsts;
++#ifdef DEBUG
++ static char *dpid_str[] = { "D0", "D2", "D1", "MDATA" };
++#endif
++
++ //DWC_DEBUGPL(DBG_PCDV, "%s(%p)\n", __func__, _pcd);
++ /* Disable the Rx Status Queue Level interrupt */
++ gintmask.b.rxstsqlvl = 1;
++ DWC_MODIFY_REG32(&global_regs->gintmsk, gintmask.d32, 0);
++
++ /* Get the Status from the top of the FIFO */
++ status.d32 = DWC_READ_REG32(&global_regs->grxstsp);
++
++ DWC_DEBUGPL(DBG_PCD, "EP:%d BCnt:%d DPID:%s "
++ "pktsts:%x Frame:%d(0x%0x)\n",
++ status.b.epnum, status.b.bcnt,
++ dpid_str[status.b.dpid],
++ status.b.pktsts, status.b.fn, status.b.fn);
++ /* Get pointer to EP structure */
++ ep = get_out_ep(pcd, status.b.epnum);
++
++ switch (status.b.pktsts) {
++ case DWC_DSTS_GOUT_NAK:
++ DWC_DEBUGPL(DBG_PCDV, "Global OUT NAK\n");
++ break;
++ case DWC_STS_DATA_UPDT:
++ DWC_DEBUGPL(DBG_PCDV, "OUT Data Packet\n");
++ if (status.b.bcnt && ep->dwc_ep.xfer_buff) {
++ /** @todo NGS Check for buffer overflow? */
++ dwc_otg_read_packet(core_if,
++ ep->dwc_ep.xfer_buff,
++ status.b.bcnt);
++ ep->dwc_ep.xfer_count += status.b.bcnt;
++ ep->dwc_ep.xfer_buff += status.b.bcnt;
++ }
++ break;
++ case DWC_STS_XFER_COMP:
++ DWC_DEBUGPL(DBG_PCDV, "OUT Complete\n");
++ break;
++ case DWC_DSTS_SETUP_COMP:
++#ifdef DEBUG_EP0
++ DWC_DEBUGPL(DBG_PCDV, "Setup Complete\n");
++#endif
++ break;
++ case DWC_DSTS_SETUP_UPDT:
++ dwc_otg_read_setup_packet(core_if, pcd->setup_pkt->d32);
++#ifdef DEBUG_EP0
++ DWC_DEBUGPL(DBG_PCD,
++ "SETUP PKT: %02x.%02x v%04x i%04x l%04x\n",
++ pcd->setup_pkt->req.bmRequestType,
++ pcd->setup_pkt->req.bRequest,
++ UGETW(pcd->setup_pkt->req.wValue),
++ UGETW(pcd->setup_pkt->req.wIndex),
++ UGETW(pcd->setup_pkt->req.wLength));
++#endif
++ ep->dwc_ep.xfer_count += status.b.bcnt;
++ break;
++ default:
++ DWC_DEBUGPL(DBG_PCDV, "Invalid Packet Status (0x%0x)\n",
++ status.b.pktsts);
++ break;
++ }
++
++ /* Enable the Rx Status Queue Level interrupt */
++ DWC_MODIFY_REG32(&global_regs->gintmsk, 0, gintmask.d32);
++ /* Clear interrupt */
++ gintsts.d32 = 0;
++ gintsts.b.rxstsqlvl = 1;
++ DWC_WRITE_REG32(&global_regs->gintsts, gintsts.d32);
++
++ //DWC_DEBUGPL(DBG_PCDV, "EXIT: %s\n", __func__);
++ return 1;
++}
++
++/**
++ * This function examines the Device IN Token Learning Queue to
++ * determine the EP number of the last IN token received. This
++ * implementation is for the Mass Storage device where there are only
++ * 2 IN EPs (Control-IN and BULK-IN).
++ *
++ * The EP numbers for the first six IN Tokens are in DTKNQR1 and there
++ * are 8 EP Numbers in each of the other possible DTKNQ Registers.
++ *
++ * @param core_if Programming view of DWC_otg controller.
++ *
++ */
++static inline int get_ep_of_last_in_token(dwc_otg_core_if_t * core_if)
++{
++ dwc_otg_device_global_regs_t *dev_global_regs =
++ core_if->dev_if->dev_global_regs;
++ const uint32_t TOKEN_Q_DEPTH = core_if->hwcfg2.b.dev_token_q_depth;
++ /* Number of Token Queue Registers */
++ const int DTKNQ_REG_CNT = (TOKEN_Q_DEPTH + 7) / 8;
++ dtknq1_data_t dtknqr1;
++ uint32_t in_tkn_epnums[4];
++ int ndx = 0;
++ int i = 0;
++ volatile uint32_t *addr = &dev_global_regs->dtknqr1;
++ int epnum = 0;
++
++ //DWC_DEBUGPL(DBG_PCD,"dev_token_q_depth=%d\n",TOKEN_Q_DEPTH);
++
++ /* Read the DTKNQ Registers */
++ for (i = 0; i < DTKNQ_REG_CNT; i++) {
++ in_tkn_epnums[i] = DWC_READ_REG32(addr);
++ DWC_DEBUGPL(DBG_PCDV, "DTKNQR%d=0x%08x\n", i + 1,
++ in_tkn_epnums[i]);
++ if (addr == &dev_global_regs->dvbusdis) {
++ addr = &dev_global_regs->dtknqr3_dthrctl;
++ } else {
++ ++addr;
++ }
++
++ }
++
++ /* Copy the DTKNQR1 data to the bit field. */
++ dtknqr1.d32 = in_tkn_epnums[0];
++ /* Get the EP numbers */
++ in_tkn_epnums[0] = dtknqr1.b.epnums0_5;
++ ndx = dtknqr1.b.intknwptr - 1;
++
++ //DWC_DEBUGPL(DBG_PCDV,"ndx=%d\n",ndx);
++ if (ndx == -1) {
++ /** @todo Find a simpler way to calculate the max
++ * queue position.*/
++ int cnt = TOKEN_Q_DEPTH;
++ if (TOKEN_Q_DEPTH <= 6) {
++ cnt = TOKEN_Q_DEPTH - 1;
++ } else if (TOKEN_Q_DEPTH <= 14) {
++ cnt = TOKEN_Q_DEPTH - 7;
++ } else if (TOKEN_Q_DEPTH <= 22) {
++ cnt = TOKEN_Q_DEPTH - 15;
++ } else {
++ cnt = TOKEN_Q_DEPTH - 23;
++ }
++ epnum = (in_tkn_epnums[DTKNQ_REG_CNT - 1] >> (cnt * 4)) & 0xF;
++ } else {
++ if (ndx <= 5) {
++ epnum = (in_tkn_epnums[0] >> (ndx * 4)) & 0xF;
++ } else if (ndx <= 13) {
++ ndx -= 6;
++ epnum = (in_tkn_epnums[1] >> (ndx * 4)) & 0xF;
++ } else if (ndx <= 21) {
++ ndx -= 14;
++ epnum = (in_tkn_epnums[2] >> (ndx * 4)) & 0xF;
++ } else if (ndx <= 29) {
++ ndx -= 22;
++ epnum = (in_tkn_epnums[3] >> (ndx * 4)) & 0xF;
++ }
++ }
++ //DWC_DEBUGPL(DBG_PCD,"epnum=%d\n",epnum);
++ return epnum;
++}
++
++/**
++ * This interrupt occurs when the non-periodic Tx FIFO is half-empty.
++ * The active request is checked for the next packet to be loaded into
++ * the non-periodic Tx FIFO.
++ */
++int32_t dwc_otg_pcd_handle_np_tx_fifo_empty_intr(dwc_otg_pcd_t * pcd)
++{
++ dwc_otg_core_if_t *core_if = GET_CORE_IF(pcd);
++ dwc_otg_core_global_regs_t *global_regs = core_if->core_global_regs;
++ dwc_otg_dev_in_ep_regs_t *ep_regs;
++ gnptxsts_data_t txstatus = {.d32 = 0 };
++ gintsts_data_t gintsts;
++
++ int epnum = 0;
++ dwc_otg_pcd_ep_t *ep = 0;
++ uint32_t len = 0;
++ int dwords;
++
++ /* Get the epnum from the IN Token Learning Queue. */
++ epnum = get_ep_of_last_in_token(core_if);
++ ep = get_in_ep(pcd, epnum);
++
++ DWC_DEBUGPL(DBG_PCD, "NP TxFifo Empty: %d \n", epnum);
++
++ ep_regs = core_if->dev_if->in_ep_regs[epnum];
++
++ len = ep->dwc_ep.xfer_len - ep->dwc_ep.xfer_count;
++ if (len > ep->dwc_ep.maxpacket) {
++ len = ep->dwc_ep.maxpacket;
++ }
++ dwords = (len + 3) / 4;
++
++ /* While there is space in the queue and space in the FIFO and
++ * More data to tranfer, Write packets to the Tx FIFO */
++ txstatus.d32 = DWC_READ_REG32(&global_regs->gnptxsts);
++ DWC_DEBUGPL(DBG_PCDV, "b4 GNPTXSTS=0x%08x\n", txstatus.d32);
++
++ while (txstatus.b.nptxqspcavail > 0 &&
++ txstatus.b.nptxfspcavail > dwords &&
++ ep->dwc_ep.xfer_count < ep->dwc_ep.xfer_len) {
++ /* Write the FIFO */
++ dwc_otg_ep_write_packet(core_if, &ep->dwc_ep, 0);
++ len = ep->dwc_ep.xfer_len - ep->dwc_ep.xfer_count;
++
++ if (len > ep->dwc_ep.maxpacket) {
++ len = ep->dwc_ep.maxpacket;
++ }
++
++ dwords = (len + 3) / 4;
++ txstatus.d32 = DWC_READ_REG32(&global_regs->gnptxsts);
++ DWC_DEBUGPL(DBG_PCDV, "GNPTXSTS=0x%08x\n", txstatus.d32);
++ }
++
++ DWC_DEBUGPL(DBG_PCDV, "GNPTXSTS=0x%08x\n",
++ DWC_READ_REG32(&global_regs->gnptxsts));
++
++ /* Clear interrupt */
++ gintsts.d32 = 0;
++ gintsts.b.nptxfempty = 1;
++ DWC_WRITE_REG32(&global_regs->gintsts, gintsts.d32);
++
++ return 1;
++}
++
++/**
++ * This function is called when dedicated Tx FIFO Empty interrupt occurs.
++ * The active request is checked for the next packet to be loaded into
++ * apropriate Tx FIFO.
++ */
++static int32_t write_empty_tx_fifo(dwc_otg_pcd_t * pcd, uint32_t epnum)
++{
++ dwc_otg_core_if_t *core_if = GET_CORE_IF(pcd);
++ dwc_otg_dev_if_t *dev_if = core_if->dev_if;
++ dwc_otg_dev_in_ep_regs_t *ep_regs;
++ dtxfsts_data_t txstatus = {.d32 = 0 };
++ dwc_otg_pcd_ep_t *ep = 0;
++ uint32_t len = 0;
++ int dwords;
++
++ ep = get_in_ep(pcd, epnum);
++
++ DWC_DEBUGPL(DBG_PCD, "Dedicated TxFifo Empty: %d \n", epnum);
++
++ ep_regs = core_if->dev_if->in_ep_regs[epnum];
++
++ len = ep->dwc_ep.xfer_len - ep->dwc_ep.xfer_count;
++
++ if (len > ep->dwc_ep.maxpacket) {
++ len = ep->dwc_ep.maxpacket;
++ }
++
++ dwords = (len + 3) / 4;
++
++ /* While there is space in the queue and space in the FIFO and
++ * More data to tranfer, Write packets to the Tx FIFO */
++ txstatus.d32 = DWC_READ_REG32(&dev_if->in_ep_regs[epnum]->dtxfsts);
++ DWC_DEBUGPL(DBG_PCDV, "b4 dtxfsts[%d]=0x%08x\n", epnum, txstatus.d32);
++
++ while (txstatus.b.txfspcavail > dwords &&
++ ep->dwc_ep.xfer_count < ep->dwc_ep.xfer_len &&
++ ep->dwc_ep.xfer_len != 0) {
++ /* Write the FIFO */
++ dwc_otg_ep_write_packet(core_if, &ep->dwc_ep, 0);
++
++ len = ep->dwc_ep.xfer_len - ep->dwc_ep.xfer_count;
++ if (len > ep->dwc_ep.maxpacket) {
++ len = ep->dwc_ep.maxpacket;
++ }
++
++ dwords = (len + 3) / 4;
++ txstatus.d32 =
++ DWC_READ_REG32(&dev_if->in_ep_regs[epnum]->dtxfsts);
++ DWC_DEBUGPL(DBG_PCDV, "dtxfsts[%d]=0x%08x\n", epnum,
++ txstatus.d32);
++ }
++
++ DWC_DEBUGPL(DBG_PCDV, "b4 dtxfsts[%d]=0x%08x\n", epnum,
++ DWC_READ_REG32(&dev_if->in_ep_regs[epnum]->dtxfsts));
++
++ return 1;
++}
++
++/**
++ * This function is called when the Device is disconnected. It stops
++ * any active requests and informs the Gadget driver of the
++ * disconnect.
++ */
++void dwc_otg_pcd_stop(dwc_otg_pcd_t * pcd)
++{
++ int i, num_in_eps, num_out_eps;
++ dwc_otg_pcd_ep_t *ep;
++
++ gintmsk_data_t intr_mask = {.d32 = 0 };
++
++ DWC_SPINLOCK(pcd->lock);
++
++ num_in_eps = GET_CORE_IF(pcd)->dev_if->num_in_eps;
++ num_out_eps = GET_CORE_IF(pcd)->dev_if->num_out_eps;
++
++ DWC_DEBUGPL(DBG_PCDV, "%s() \n", __func__);
++ /* don't disconnect drivers more than once */
++ if (pcd->ep0state == EP0_DISCONNECT) {
++ DWC_DEBUGPL(DBG_ANY, "%s() Already Disconnected\n", __func__);
++ DWC_SPINUNLOCK(pcd->lock);
++ return;
++ }
++ pcd->ep0state = EP0_DISCONNECT;
++
++ /* Reset the OTG state. */
++ dwc_otg_pcd_update_otg(pcd, 1);
++
++ /* Disable the NP Tx Fifo Empty Interrupt. */
++ intr_mask.b.nptxfempty = 1;
++ DWC_MODIFY_REG32(&GET_CORE_IF(pcd)->core_global_regs->gintmsk,
++ intr_mask.d32, 0);
++
++ /* Flush the FIFOs */
++ /**@todo NGS Flush Periodic FIFOs */
++ dwc_otg_flush_tx_fifo(GET_CORE_IF(pcd), 0x10);
++ dwc_otg_flush_rx_fifo(GET_CORE_IF(pcd));
++
++ /* prevent new request submissions, kill any outstanding requests */
++ ep = &pcd->ep0;
++ dwc_otg_request_nuke(ep);
++ /* prevent new request submissions, kill any outstanding requests */
++ for (i = 0; i < num_in_eps; i++) {
++ dwc_otg_pcd_ep_t *ep = &pcd->in_ep[i];
++ dwc_otg_request_nuke(ep);
++ }
++ /* prevent new request submissions, kill any outstanding requests */
++ for (i = 0; i < num_out_eps; i++) {
++ dwc_otg_pcd_ep_t *ep = &pcd->out_ep[i];
++ dwc_otg_request_nuke(ep);
++ }
++
++ /* report disconnect; the driver is already quiesced */
++ if (pcd->fops->disconnect) {
++ DWC_SPINUNLOCK(pcd->lock);
++ pcd->fops->disconnect(pcd);
++ DWC_SPINLOCK(pcd->lock);
++ }
++ DWC_SPINUNLOCK(pcd->lock);
++}
++
++/**
++ * This interrupt indicates that ...
++ */
++int32_t dwc_otg_pcd_handle_i2c_intr(dwc_otg_pcd_t * pcd)
++{
++ gintmsk_data_t intr_mask = {.d32 = 0 };
++ gintsts_data_t gintsts;
++
++ DWC_PRINTF("INTERRUPT Handler not implemented for %s\n", "i2cintr");
++ intr_mask.b.i2cintr = 1;
++ DWC_MODIFY_REG32(&GET_CORE_IF(pcd)->core_global_regs->gintmsk,
++ intr_mask.d32, 0);
++
++ /* Clear interrupt */
++ gintsts.d32 = 0;
++ gintsts.b.i2cintr = 1;
++ DWC_WRITE_REG32(&GET_CORE_IF(pcd)->core_global_regs->gintsts,
++ gintsts.d32);
++ return 1;
++}
++
++/**
++ * This interrupt indicates that ...
++ */
++int32_t dwc_otg_pcd_handle_early_suspend_intr(dwc_otg_pcd_t * pcd)
++{
++ gintsts_data_t gintsts;
++#if defined(VERBOSE)
++ DWC_PRINTF("Early Suspend Detected\n");
++#endif
++
++ /* Clear interrupt */
++ gintsts.d32 = 0;
++ gintsts.b.erlysuspend = 1;
++ DWC_WRITE_REG32(&GET_CORE_IF(pcd)->core_global_regs->gintsts,
++ gintsts.d32);
++ return 1;
++}
++
++/**
++ * This function configures EPO to receive SETUP packets.
++ *
++ * @todo NGS: Update the comments from the HW FS.
++ *
++ * -# Program the following fields in the endpoint specific registers
++ * for Control OUT EP 0, in order to receive a setup packet
++ * - DOEPTSIZ0.Packet Count = 3 (To receive up to 3 back to back
++ * setup packets)
++ * - DOEPTSIZE0.Transfer Size = 24 Bytes (To receive up to 3 back
++ * to back setup packets)
++ * - In DMA mode, DOEPDMA0 Register with a memory address to
++ * store any setup packets received
++ *
++ * @param core_if Programming view of DWC_otg controller.
++ * @param pcd Programming view of the PCD.
++ */
++static inline void ep0_out_start(dwc_otg_core_if_t * core_if,
++ dwc_otg_pcd_t * pcd)
++{
++ dwc_otg_dev_if_t *dev_if = core_if->dev_if;
++ deptsiz0_data_t doeptsize0 = {.d32 = 0 };
++ dwc_otg_dev_dma_desc_t *dma_desc;
++ depctl_data_t doepctl = {.d32 = 0 };
++
++#ifdef VERBOSE
++ DWC_DEBUGPL(DBG_PCDV, "%s() doepctl0=%0x\n", __func__,
++ DWC_READ_REG32(&dev_if->out_ep_regs[0]->doepctl));
++#endif
++ if (core_if->snpsid >= OTG_CORE_REV_3_00a) {
++ doepctl.d32 = DWC_READ_REG32(&dev_if->out_ep_regs[0]->doepctl);
++ if (doepctl.b.epena) {
++ return;
++ }
++ }
++
++ doeptsize0.b.supcnt = 3;
++ doeptsize0.b.pktcnt = 1;
++ doeptsize0.b.xfersize = 8 * 3;
++
++ if (core_if->dma_enable) {
++ if (!core_if->dma_desc_enable) {
++ /** put here as for Hermes mode deptisz register should not be written */
++ DWC_WRITE_REG32(&dev_if->out_ep_regs[0]->doeptsiz,
++ doeptsize0.d32);
++
++ /** @todo dma needs to handle multiple setup packets (up to 3) */
++ DWC_WRITE_REG32(&dev_if->out_ep_regs[0]->doepdma,
++ pcd->setup_pkt_dma_handle);
++ } else {
++ dev_if->setup_desc_index =
++ (dev_if->setup_desc_index + 1) & 1;
++ dma_desc =
++ dev_if->setup_desc_addr[dev_if->setup_desc_index];
++
++ /** DMA Descriptor Setup */
++ dma_desc->status.b.bs = BS_HOST_BUSY;
++ if (core_if->snpsid >= OTG_CORE_REV_3_00a) {
++ dma_desc->status.b.sr = 0;
++ dma_desc->status.b.mtrf = 0;
++ }
++ dma_desc->status.b.l = 1;
++ dma_desc->status.b.ioc = 1;
++ dma_desc->status.b.bytes = pcd->ep0.dwc_ep.maxpacket;
++ dma_desc->buf = pcd->setup_pkt_dma_handle;
++ dma_desc->status.b.sts = 0;
++ dma_desc->status.b.bs = BS_HOST_READY;
++
++ /** DOEPDMA0 Register write */
++ DWC_WRITE_REG32(&dev_if->out_ep_regs[0]->doepdma,
++ dev_if->dma_setup_desc_addr
++ [dev_if->setup_desc_index]);
++ }
++
++ } else {
++ /** put here as for Hermes mode deptisz register should not be written */
++ DWC_WRITE_REG32(&dev_if->out_ep_regs[0]->doeptsiz,
++ doeptsize0.d32);
++ }
++
++ /** DOEPCTL0 Register write cnak will be set after setup interrupt */
++ doepctl.d32 = 0;
++ doepctl.b.epena = 1;
++ if (core_if->snpsid <= OTG_CORE_REV_2_94a) {
++ doepctl.b.cnak = 1;
++ DWC_WRITE_REG32(&dev_if->out_ep_regs[0]->doepctl, doepctl.d32);
++ } else {
++ DWC_MODIFY_REG32(&dev_if->out_ep_regs[0]->doepctl, 0, doepctl.d32);
++ }
++
++#ifdef VERBOSE
++ DWC_DEBUGPL(DBG_PCDV, "doepctl0=%0x\n",
++ DWC_READ_REG32(&dev_if->out_ep_regs[0]->doepctl));
++ DWC_DEBUGPL(DBG_PCDV, "diepctl0=%0x\n",
++ DWC_READ_REG32(&dev_if->in_ep_regs[0]->diepctl));
++#endif
++}
++
++/**
++ * This interrupt occurs when a USB Reset is detected. When the USB
++ * Reset Interrupt occurs the device state is set to DEFAULT and the
++ * EP0 state is set to IDLE.
++ * -# Set the NAK bit for all OUT endpoints (DOEPCTLn.SNAK = 1)
++ * -# Unmask the following interrupt bits
++ * - DAINTMSK.INEP0 = 1 (Control 0 IN endpoint)
++ * - DAINTMSK.OUTEP0 = 1 (Control 0 OUT endpoint)
++ * - DOEPMSK.SETUP = 1
++ * - DOEPMSK.XferCompl = 1
++ * - DIEPMSK.XferCompl = 1
++ * - DIEPMSK.TimeOut = 1
++ * -# Program the following fields in the endpoint specific registers
++ * for Control OUT EP 0, in order to receive a setup packet
++ * - DOEPTSIZ0.Packet Count = 3 (To receive up to 3 back to back
++ * setup packets)
++ * - DOEPTSIZE0.Transfer Size = 24 Bytes (To receive up to 3 back
++ * to back setup packets)
++ * - In DMA mode, DOEPDMA0 Register with a memory address to
++ * store any setup packets received
++ * At this point, all the required initialization, except for enabling
++ * the control 0 OUT endpoint is done, for receiving SETUP packets.
++ */
++int32_t dwc_otg_pcd_handle_usb_reset_intr(dwc_otg_pcd_t * pcd)
++{
++ dwc_otg_core_if_t *core_if = GET_CORE_IF(pcd);
++ dwc_otg_dev_if_t *dev_if = core_if->dev_if;
++ depctl_data_t doepctl = {.d32 = 0 };
++ depctl_data_t diepctl = {.d32 = 0 };
++ daint_data_t daintmsk = {.d32 = 0 };
++ doepmsk_data_t doepmsk = {.d32 = 0 };
++ diepmsk_data_t diepmsk = {.d32 = 0 };
++ dcfg_data_t dcfg = {.d32 = 0 };
++ grstctl_t resetctl = {.d32 = 0 };
++ dctl_data_t dctl = {.d32 = 0 };
++ int i = 0;
++ gintsts_data_t gintsts;
++ pcgcctl_data_t power = {.d32 = 0 };
++
++ power.d32 = DWC_READ_REG32(core_if->pcgcctl);
++ if (power.b.stoppclk) {
++ power.d32 = 0;
++ power.b.stoppclk = 1;
++ DWC_MODIFY_REG32(core_if->pcgcctl, power.d32, 0);
++
++ power.b.pwrclmp = 1;
++ DWC_MODIFY_REG32(core_if->pcgcctl, power.d32, 0);
++
++ power.b.rstpdwnmodule = 1;
++ DWC_MODIFY_REG32(core_if->pcgcctl, power.d32, 0);
++ }
++
++ core_if->lx_state = DWC_OTG_L0;
++
++ DWC_PRINTF("USB RESET\n");
++#ifdef DWC_EN_ISOC
++ for (i = 1; i < 16; ++i) {
++ dwc_otg_pcd_ep_t *ep;
++ dwc_ep_t *dwc_ep;
++ ep = get_in_ep(pcd, i);
++ if (ep != 0) {
++ dwc_ep = &ep->dwc_ep;
++ dwc_ep->next_frame = 0xffffffff;
++ }
++ }
++#endif /* DWC_EN_ISOC */
++
++ /* reset the HNP settings */
++ dwc_otg_pcd_update_otg(pcd, 1);
++
++ /* Clear the Remote Wakeup Signalling */
++ dctl.b.rmtwkupsig = 1;
++ DWC_MODIFY_REG32(&core_if->dev_if->dev_global_regs->dctl, dctl.d32, 0);
++
++ /* Set NAK for all OUT EPs */
++ doepctl.b.snak = 1;
++ for (i = 0; i <= dev_if->num_out_eps; i++) {
++ DWC_WRITE_REG32(&dev_if->out_ep_regs[i]->doepctl, doepctl.d32);
++ }
++
++ /* Flush the NP Tx FIFO */
++ dwc_otg_flush_tx_fifo(core_if, 0x10);
++ /* Flush the Learning Queue */
++ resetctl.b.intknqflsh = 1;
++ DWC_WRITE_REG32(&core_if->core_global_regs->grstctl, resetctl.d32);
++
++ if (!core_if->core_params->en_multiple_tx_fifo && core_if->dma_enable) {
++ core_if->start_predict = 0;
++ for (i = 0; i<= core_if->dev_if->num_in_eps; ++i) {
++ core_if->nextep_seq[i] = 0xff; // 0xff - EP not active
++ }
++ core_if->nextep_seq[0] = 0;
++ core_if->first_in_nextep_seq = 0;
++ diepctl.d32 = DWC_READ_REG32(&dev_if->in_ep_regs[0]->diepctl);
++ diepctl.b.nextep = 0;
++ DWC_WRITE_REG32(&dev_if->in_ep_regs[0]->diepctl, diepctl.d32);
++
++ /* Update IN Endpoint Mismatch Count by active IN NP EP count + 1 */
++ dcfg.d32 = DWC_READ_REG32(&dev_if->dev_global_regs->dcfg);
++ dcfg.b.epmscnt = 2;
++ DWC_WRITE_REG32(&dev_if->dev_global_regs->dcfg, dcfg.d32);
++
++ DWC_DEBUGPL(DBG_PCDV,
++ "%s first_in_nextep_seq= %2d; nextep_seq[]:\n",
++ __func__, core_if->first_in_nextep_seq);
++ for (i=0; i <= core_if->dev_if->num_in_eps; i++) {
++ DWC_DEBUGPL(DBG_PCDV, "%2d\n", core_if->nextep_seq[i]);
++ }
++ }
++
++ if (core_if->multiproc_int_enable) {
++ daintmsk.b.inep0 = 1;
++ daintmsk.b.outep0 = 1;
++ DWC_WRITE_REG32(&dev_if->dev_global_regs->deachintmsk,
++ daintmsk.d32);
++
++ doepmsk.b.setup = 1;
++ doepmsk.b.xfercompl = 1;
++ doepmsk.b.ahberr = 1;
++ doepmsk.b.epdisabled = 1;
++
++ if ((core_if->dma_desc_enable) ||
++ (core_if->dma_enable
++ && core_if->snpsid >= OTG_CORE_REV_3_00a)) {
++ doepmsk.b.stsphsercvd = 1;
++ }
++ if (core_if->dma_desc_enable)
++ doepmsk.b.bna = 1;
++/*
++ doepmsk.b.babble = 1;
++ doepmsk.b.nyet = 1;
++
++ if (core_if->dma_enable) {
++ doepmsk.b.nak = 1;
++ }
++*/
++ DWC_WRITE_REG32(&dev_if->dev_global_regs->doepeachintmsk[0],
++ doepmsk.d32);
++
++ diepmsk.b.xfercompl = 1;
++ diepmsk.b.timeout = 1;
++ diepmsk.b.epdisabled = 1;
++ diepmsk.b.ahberr = 1;
++ diepmsk.b.intknepmis = 1;
++ if (!core_if->en_multiple_tx_fifo && core_if->dma_enable)
++ diepmsk.b.intknepmis = 0;
++
++/* if (core_if->dma_desc_enable) {
++ diepmsk.b.bna = 1;
++ }
++*/
++/*
++ if (core_if->dma_enable) {
++ diepmsk.b.nak = 1;
++ }
++*/
++ DWC_WRITE_REG32(&dev_if->dev_global_regs->diepeachintmsk[0],
++ diepmsk.d32);
++ } else {
++ daintmsk.b.inep0 = 1;
++ daintmsk.b.outep0 = 1;
++ DWC_WRITE_REG32(&dev_if->dev_global_regs->daintmsk,
++ daintmsk.d32);
++
++ doepmsk.b.setup = 1;
++ doepmsk.b.xfercompl = 1;
++ doepmsk.b.ahberr = 1;
++ doepmsk.b.epdisabled = 1;
++
++ if ((core_if->dma_desc_enable) ||
++ (core_if->dma_enable
++ && core_if->snpsid >= OTG_CORE_REV_3_00a)) {
++ doepmsk.b.stsphsercvd = 1;
++ }
++ if (core_if->dma_desc_enable)
++ doepmsk.b.bna = 1;
++ DWC_WRITE_REG32(&dev_if->dev_global_regs->doepmsk, doepmsk.d32);
++
++ diepmsk.b.xfercompl = 1;
++ diepmsk.b.timeout = 1;
++ diepmsk.b.epdisabled = 1;
++ diepmsk.b.ahberr = 1;
++ if (!core_if->en_multiple_tx_fifo && core_if->dma_enable)
++ diepmsk.b.intknepmis = 0;
++/*
++ if (core_if->dma_desc_enable) {
++ diepmsk.b.bna = 1;
++ }
++*/
++
++ DWC_WRITE_REG32(&dev_if->dev_global_regs->diepmsk, diepmsk.d32);
++ }
++
++ /* Reset Device Address */
++ dcfg.d32 = DWC_READ_REG32(&dev_if->dev_global_regs->dcfg);
++ dcfg.b.devaddr = 0;
++ DWC_WRITE_REG32(&dev_if->dev_global_regs->dcfg, dcfg.d32);
++
++ /* setup EP0 to receive SETUP packets */
++ if (core_if->snpsid <= OTG_CORE_REV_2_94a)
++ ep0_out_start(core_if, pcd);
++
++ /* Clear interrupt */
++ gintsts.d32 = 0;
++ gintsts.b.usbreset = 1;
++ DWC_WRITE_REG32(&core_if->core_global_regs->gintsts, gintsts.d32);
++
++ return 1;
++}
++
++/**
++ * Get the device speed from the device status register and convert it
++ * to USB speed constant.
++ *
++ * @param core_if Programming view of DWC_otg controller.
++ */
++static int get_device_speed(dwc_otg_core_if_t * core_if)
++{
++ dsts_data_t dsts;
++ int speed = 0;
++ dsts.d32 = DWC_READ_REG32(&core_if->dev_if->dev_global_regs->dsts);
++
++ switch (dsts.b.enumspd) {
++ case DWC_DSTS_ENUMSPD_HS_PHY_30MHZ_OR_60MHZ:
++ speed = USB_SPEED_HIGH;
++ break;
++ case DWC_DSTS_ENUMSPD_FS_PHY_30MHZ_OR_60MHZ:
++ case DWC_DSTS_ENUMSPD_FS_PHY_48MHZ:
++ speed = USB_SPEED_FULL;
++ break;
++
++ case DWC_DSTS_ENUMSPD_LS_PHY_6MHZ:
++ speed = USB_SPEED_LOW;
++ break;
++ }
++
++ return speed;
++}
++
++/**
++ * Read the device status register and set the device speed in the
++ * data structure.
++ * Set up EP0 to receive SETUP packets by calling dwc_ep0_activate.
++ */
++int32_t dwc_otg_pcd_handle_enum_done_intr(dwc_otg_pcd_t * pcd)
++{
++ dwc_otg_pcd_ep_t *ep0 = &pcd->ep0;
++ gintsts_data_t gintsts;
++ gusbcfg_data_t gusbcfg;
++ dwc_otg_core_global_regs_t *global_regs =
++ GET_CORE_IF(pcd)->core_global_regs;
++ uint8_t utmi16b, utmi8b;
++ int speed;
++ DWC_DEBUGPL(DBG_PCD, "SPEED ENUM\n");
++
++ if (GET_CORE_IF(pcd)->snpsid >= OTG_CORE_REV_2_60a) {
++ utmi16b = 6; //vahrama old value was 6;
++ utmi8b = 9;
++ } else {
++ utmi16b = 4;
++ utmi8b = 8;
++ }
++ dwc_otg_ep0_activate(GET_CORE_IF(pcd), &ep0->dwc_ep);
++ if (GET_CORE_IF(pcd)->snpsid >= OTG_CORE_REV_3_00a) {
++ ep0_out_start(GET_CORE_IF(pcd), pcd);
++ }
++
++#ifdef DEBUG_EP0
++ print_ep0_state(pcd);
++#endif
++
++ if (pcd->ep0state == EP0_DISCONNECT) {
++ pcd->ep0state = EP0_IDLE;
++ } else if (pcd->ep0state == EP0_STALL) {
++ pcd->ep0state = EP0_IDLE;
++ }
++
++ pcd->ep0state = EP0_IDLE;
++
++ ep0->stopped = 0;
++
++ speed = get_device_speed(GET_CORE_IF(pcd));
++ pcd->fops->connect(pcd, speed);
++
++ /* Set USB turnaround time based on device speed and PHY interface. */
++ gusbcfg.d32 = DWC_READ_REG32(&global_regs->gusbcfg);
++ if (speed == USB_SPEED_HIGH) {
++ if (GET_CORE_IF(pcd)->hwcfg2.b.hs_phy_type ==
++ DWC_HWCFG2_HS_PHY_TYPE_ULPI) {
++ /* ULPI interface */
++ gusbcfg.b.usbtrdtim = 9;
++ }
++ if (GET_CORE_IF(pcd)->hwcfg2.b.hs_phy_type ==
++ DWC_HWCFG2_HS_PHY_TYPE_UTMI) {
++ /* UTMI+ interface */
++ if (GET_CORE_IF(pcd)->hwcfg4.b.utmi_phy_data_width == 0) {
++ gusbcfg.b.usbtrdtim = utmi8b;
++ } else if (GET_CORE_IF(pcd)->hwcfg4.
++ b.utmi_phy_data_width == 1) {
++ gusbcfg.b.usbtrdtim = utmi16b;
++ } else if (GET_CORE_IF(pcd)->
++ core_params->phy_utmi_width == 8) {
++ gusbcfg.b.usbtrdtim = utmi8b;
++ } else {
++ gusbcfg.b.usbtrdtim = utmi16b;
++ }
++ }
++ if (GET_CORE_IF(pcd)->hwcfg2.b.hs_phy_type ==
++ DWC_HWCFG2_HS_PHY_TYPE_UTMI_ULPI) {
++ /* UTMI+ OR ULPI interface */
++ if (gusbcfg.b.ulpi_utmi_sel == 1) {
++ /* ULPI interface */
++ gusbcfg.b.usbtrdtim = 9;
++ } else {
++ /* UTMI+ interface */
++ if (GET_CORE_IF(pcd)->
++ core_params->phy_utmi_width == 16) {
++ gusbcfg.b.usbtrdtim = utmi16b;
++ } else {
++ gusbcfg.b.usbtrdtim = utmi8b;
++ }
++ }
++ }
++ } else {
++ /* Full or low speed */
++ gusbcfg.b.usbtrdtim = 9;
++ }
++ DWC_WRITE_REG32(&global_regs->gusbcfg, gusbcfg.d32);
++
++ /* Clear interrupt */
++ gintsts.d32 = 0;
++ gintsts.b.enumdone = 1;
++ DWC_WRITE_REG32(&GET_CORE_IF(pcd)->core_global_regs->gintsts,
++ gintsts.d32);
++ return 1;
++}
++
++/**
++ * This interrupt indicates that the ISO OUT Packet was dropped due to
++ * Rx FIFO full or Rx Status Queue Full. If this interrupt occurs
++ * read all the data from the Rx FIFO.
++ */
++int32_t dwc_otg_pcd_handle_isoc_out_packet_dropped_intr(dwc_otg_pcd_t * pcd)
++{
++ gintmsk_data_t intr_mask = {.d32 = 0 };
++ gintsts_data_t gintsts;
++
++ DWC_WARN("INTERRUPT Handler not implemented for %s\n",
++ "ISOC Out Dropped");
++
++ intr_mask.b.isooutdrop = 1;
++ DWC_MODIFY_REG32(&GET_CORE_IF(pcd)->core_global_regs->gintmsk,
++ intr_mask.d32, 0);
++
++ /* Clear interrupt */
++ gintsts.d32 = 0;
++ gintsts.b.isooutdrop = 1;
++ DWC_WRITE_REG32(&GET_CORE_IF(pcd)->core_global_regs->gintsts,
++ gintsts.d32);
++
++ return 1;
++}
++
++/**
++ * This interrupt indicates the end of the portion of the micro-frame
++ * for periodic transactions. If there is a periodic transaction for
++ * the next frame, load the packets into the EP periodic Tx FIFO.
++ */
++int32_t dwc_otg_pcd_handle_end_periodic_frame_intr(dwc_otg_pcd_t * pcd)
++{
++ gintmsk_data_t intr_mask = {.d32 = 0 };
++ gintsts_data_t gintsts;
++ DWC_PRINTF("INTERRUPT Handler not implemented for %s\n", "EOP");
++
++ intr_mask.b.eopframe = 1;
++ DWC_MODIFY_REG32(&GET_CORE_IF(pcd)->core_global_regs->gintmsk,
++ intr_mask.d32, 0);
++
++ /* Clear interrupt */
++ gintsts.d32 = 0;
++ gintsts.b.eopframe = 1;
++ DWC_WRITE_REG32(&GET_CORE_IF(pcd)->core_global_regs->gintsts,
++ gintsts.d32);
++
++ return 1;
++}
++
++/**
++ * This interrupt indicates that EP of the packet on the top of the
++ * non-periodic Tx FIFO does not match EP of the IN Token received.
++ *
++ * The "Device IN Token Queue" Registers are read to determine the
++ * order the IN Tokens have been received. The non-periodic Tx FIFO
++ * is flushed, so it can be reloaded in the order seen in the IN Token
++ * Queue.
++ */
++int32_t dwc_otg_pcd_handle_ep_mismatch_intr(dwc_otg_pcd_t * pcd)
++{
++ gintsts_data_t gintsts;
++ dwc_otg_core_if_t *core_if = GET_CORE_IF(pcd);
++ dctl_data_t dctl;
++ gintmsk_data_t intr_mask = {.d32 = 0 };
++
++ if (!core_if->en_multiple_tx_fifo && core_if->dma_enable) {
++ core_if->start_predict = 1;
++
++ DWC_DEBUGPL(DBG_PCDV, "%s(%p)\n", __func__, core_if);
++
++ gintsts.d32 = DWC_READ_REG32(&core_if->core_global_regs->gintsts);
++ if (!gintsts.b.ginnakeff) {
++ /* Disable EP Mismatch interrupt */
++ intr_mask.d32 = 0;
++ intr_mask.b.epmismatch = 1;
++ DWC_MODIFY_REG32(&core_if->core_global_regs->gintmsk, intr_mask.d32, 0);
++ /* Enable the Global IN NAK Effective Interrupt */
++ intr_mask.d32 = 0;
++ intr_mask.b.ginnakeff = 1;
++ DWC_MODIFY_REG32(&core_if->core_global_regs->gintmsk, 0, intr_mask.d32);
++ /* Set the global non-periodic IN NAK handshake */
++ dctl.d32 = DWC_READ_REG32(&core_if->dev_if->dev_global_regs->dctl);
++ dctl.b.sgnpinnak = 1;
++ DWC_WRITE_REG32(&core_if->dev_if->dev_global_regs->dctl, dctl.d32);
++ } else {
++ DWC_PRINTF("gintsts.b.ginnakeff = 1! dctl.b.sgnpinnak not set\n");
++ }
++ /* Disabling of all EP's will be done in dwc_otg_pcd_handle_in_nak_effective()
++ * handler after Global IN NAK Effective interrupt will be asserted */
++ }
++ /* Clear interrupt */
++ gintsts.d32 = 0;
++ gintsts.b.epmismatch = 1;
++ DWC_WRITE_REG32(&core_if->core_global_regs->gintsts, gintsts.d32);
++
++ return 1;
++}
++
++/**
++ * This interrupt is valid only in DMA mode. This interrupt indicates that the
++ * core has stopped fetching data for IN endpoints due to the unavailability of
++ * TxFIFO space or Request Queue space. This interrupt is used by the
++ * application for an endpoint mismatch algorithm.
++ *
++ * @param pcd The PCD
++ */
++int32_t dwc_otg_pcd_handle_ep_fetsusp_intr(dwc_otg_pcd_t * pcd)
++{
++ gintsts_data_t gintsts;
++ gintmsk_data_t gintmsk_data;
++ dctl_data_t dctl;
++ dwc_otg_core_if_t *core_if = GET_CORE_IF(pcd);
++ DWC_DEBUGPL(DBG_PCDV, "%s(%p)\n", __func__, core_if);
++
++ /* Clear the global non-periodic IN NAK handshake */
++ dctl.d32 = 0;
++ dctl.b.cgnpinnak = 1;
++ DWC_MODIFY_REG32(&core_if->dev_if->dev_global_regs->dctl, dctl.d32, dctl.d32);
++
++ /* Mask GINTSTS.FETSUSP interrupt */
++ gintmsk_data.d32 = DWC_READ_REG32(&core_if->core_global_regs->gintmsk);
++ gintmsk_data.b.fetsusp = 0;
++ DWC_WRITE_REG32(&core_if->core_global_regs->gintmsk, gintmsk_data.d32);
++
++ /* Clear interrupt */
++ gintsts.d32 = 0;
++ gintsts.b.fetsusp = 1;
++ DWC_WRITE_REG32(&core_if->core_global_regs->gintsts, gintsts.d32);
++
++ return 1;
++}
++/**
++ * This funcion stalls EP0.
++ */
++static inline void ep0_do_stall(dwc_otg_pcd_t * pcd, const int err_val)
++{
++ dwc_otg_pcd_ep_t *ep0 = &pcd->ep0;
++ usb_device_request_t *ctrl = &pcd->setup_pkt->req;
++ DWC_WARN("req %02x.%02x protocol STALL; err %d\n",
++ ctrl->bmRequestType, ctrl->bRequest, err_val);
++
++ ep0->dwc_ep.is_in = 1;
++ dwc_otg_ep_set_stall(GET_CORE_IF(pcd), &ep0->dwc_ep);
++ pcd->ep0.stopped = 1;
++ pcd->ep0state = EP0_IDLE;
++ ep0_out_start(GET_CORE_IF(pcd), pcd);
++}
++
++/**
++ * This functions delegates the setup command to the gadget driver.
++ */
++static inline void do_gadget_setup(dwc_otg_pcd_t * pcd,
++ usb_device_request_t * ctrl)
++{
++ int ret = 0;
++ DWC_SPINUNLOCK(pcd->lock);
++ ret = pcd->fops->setup(pcd, (uint8_t *) ctrl);
++ DWC_SPINLOCK(pcd->lock);
++ if (ret < 0) {
++ ep0_do_stall(pcd, ret);
++ }
++
++ /** @todo This is a g_file_storage gadget driver specific
++ * workaround: a DELAYED_STATUS result from the fsg_setup
++ * routine will result in the gadget queueing a EP0 IN status
++ * phase for a two-stage control transfer. Exactly the same as
++ * a SET_CONFIGURATION/SET_INTERFACE except that this is a class
++ * specific request. Need a generic way to know when the gadget
++ * driver will queue the status phase. Can we assume when we
++ * call the gadget driver setup() function that it will always
++ * queue and require the following flag? Need to look into
++ * this.
++ */
++
++ if (ret == 256 + 999) {
++ pcd->request_config = 1;
++ }
++}
++
++#ifdef DWC_UTE_CFI
++/**
++ * This functions delegates the CFI setup commands to the gadget driver.
++ * This function will return a negative value to indicate a failure.
++ */
++static inline int cfi_gadget_setup(dwc_otg_pcd_t * pcd,
++ struct cfi_usb_ctrlrequest *ctrl_req)
++{
++ int ret = 0;
++
++ if (pcd->fops && pcd->fops->cfi_setup) {
++ DWC_SPINUNLOCK(pcd->lock);
++ ret = pcd->fops->cfi_setup(pcd, ctrl_req);
++ DWC_SPINLOCK(pcd->lock);
++ if (ret < 0) {
++ ep0_do_stall(pcd, ret);
++ return ret;
++ }
++ }
++
++ return ret;
++}
++#endif
++
++/**
++ * This function starts the Zero-Length Packet for the IN status phase
++ * of a 2 stage control transfer.
++ */
++static inline void do_setup_in_status_phase(dwc_otg_pcd_t * pcd)
++{
++ dwc_otg_pcd_ep_t *ep0 = &pcd->ep0;
++ if (pcd->ep0state == EP0_STALL) {
++ return;
++ }
++
++ pcd->ep0state = EP0_IN_STATUS_PHASE;
++
++ /* Prepare for more SETUP Packets */
++ DWC_DEBUGPL(DBG_PCD, "EP0 IN ZLP\n");
++ if ((GET_CORE_IF(pcd)->snpsid >= OTG_CORE_REV_3_00a)
++ && (pcd->core_if->dma_desc_enable)
++ && (ep0->dwc_ep.xfer_count < ep0->dwc_ep.total_len)) {
++ DWC_DEBUGPL(DBG_PCDV,
++ "Data terminated wait next packet in out_desc_addr\n");
++ pcd->backup_buf = phys_to_virt(ep0->dwc_ep.dma_addr);
++ pcd->data_terminated = 1;
++ }
++ ep0->dwc_ep.xfer_len = 0;
++ ep0->dwc_ep.xfer_count = 0;
++ ep0->dwc_ep.is_in = 1;
++ ep0->dwc_ep.dma_addr = pcd->setup_pkt_dma_handle;
++ dwc_otg_ep0_start_transfer(GET_CORE_IF(pcd), &ep0->dwc_ep);
++
++ /* Prepare for more SETUP Packets */
++ //ep0_out_start(GET_CORE_IF(pcd), pcd);
++}
++
++/**
++ * This function starts the Zero-Length Packet for the OUT status phase
++ * of a 2 stage control transfer.
++ */
++static inline void do_setup_out_status_phase(dwc_otg_pcd_t * pcd)
++{
++ dwc_otg_pcd_ep_t *ep0 = &pcd->ep0;
++ if (pcd->ep0state == EP0_STALL) {
++ DWC_DEBUGPL(DBG_PCD, "EP0 STALLED\n");
++ return;
++ }
++ pcd->ep0state = EP0_OUT_STATUS_PHASE;
++
++ DWC_DEBUGPL(DBG_PCD, "EP0 OUT ZLP\n");
++ ep0->dwc_ep.xfer_len = 0;
++ ep0->dwc_ep.xfer_count = 0;
++ ep0->dwc_ep.is_in = 0;
++ ep0->dwc_ep.dma_addr = pcd->setup_pkt_dma_handle;
++ dwc_otg_ep0_start_transfer(GET_CORE_IF(pcd), &ep0->dwc_ep);
++
++ /* Prepare for more SETUP Packets */
++ if (GET_CORE_IF(pcd)->dma_enable == 0) {
++ ep0_out_start(GET_CORE_IF(pcd), pcd);
++ }
++}
++
++/**
++ * Clear the EP halt (STALL) and if pending requests start the
++ * transfer.
++ */
++static inline void pcd_clear_halt(dwc_otg_pcd_t * pcd, dwc_otg_pcd_ep_t * ep)
++{
++ if (ep->dwc_ep.stall_clear_flag == 0)
++ dwc_otg_ep_clear_stall(GET_CORE_IF(pcd), &ep->dwc_ep);
++
++ /* Reactive the EP */
++ dwc_otg_ep_activate(GET_CORE_IF(pcd), &ep->dwc_ep);
++ if (ep->stopped) {
++ ep->stopped = 0;
++ /* If there is a request in the EP queue start it */
++
++ /** @todo FIXME: this causes an EP mismatch in DMA mode.
++ * epmismatch not yet implemented. */
++
++ /*
++ * Above fixme is solved by implmenting a tasklet to call the
++ * start_next_request(), outside of interrupt context at some
++ * time after the current time, after a clear-halt setup packet.
++ * Still need to implement ep mismatch in the future if a gadget
++ * ever uses more than one endpoint at once
++ */
++ ep->queue_sof = 1;
++ DWC_TASK_SCHEDULE(pcd->start_xfer_tasklet);
++ }
++ /* Start Control Status Phase */
++ do_setup_in_status_phase(pcd);
++}
++
++/**
++ * This function is called when the SET_FEATURE TEST_MODE Setup packet
++ * is sent from the host. The Device Control register is written with
++ * the Test Mode bits set to the specified Test Mode. This is done as
++ * a tasklet so that the "Status" phase of the control transfer
++ * completes before transmitting the TEST packets.
++ *
++ * @todo This has not been tested since the tasklet struct was put
++ * into the PCD struct!
++ *
++ */
++void do_test_mode(void *data)
++{
++ dctl_data_t dctl;
++ dwc_otg_pcd_t *pcd = (dwc_otg_pcd_t *) data;
++ dwc_otg_core_if_t *core_if = GET_CORE_IF(pcd);
++ int test_mode = pcd->test_mode;
++
++// DWC_WARN("%s() has not been tested since being rewritten!\n", __func__);
++
++ dctl.d32 = DWC_READ_REG32(&core_if->dev_if->dev_global_regs->dctl);
++ switch (test_mode) {
++ case 1: // TEST_J
++ dctl.b.tstctl = 1;
++ break;
++
++ case 2: // TEST_K
++ dctl.b.tstctl = 2;
++ break;
++
++ case 3: // TEST_SE0_NAK
++ dctl.b.tstctl = 3;
++ break;
++
++ case 4: // TEST_PACKET
++ dctl.b.tstctl = 4;
++ break;
++
++ case 5: // TEST_FORCE_ENABLE
++ dctl.b.tstctl = 5;
++ break;
++ }
++ DWC_WRITE_REG32(&core_if->dev_if->dev_global_regs->dctl, dctl.d32);
++}
++
++/**
++ * This function process the GET_STATUS Setup Commands.
++ */
++static inline void do_get_status(dwc_otg_pcd_t * pcd)
++{
++ usb_device_request_t ctrl = pcd->setup_pkt->req;
++ dwc_otg_pcd_ep_t *ep;
++ dwc_otg_pcd_ep_t *ep0 = &pcd->ep0;
++ uint16_t *status = pcd->status_buf;
++ dwc_otg_core_if_t *core_if = GET_CORE_IF(pcd);
++
++#ifdef DEBUG_EP0
++ DWC_DEBUGPL(DBG_PCD,
++ "GET_STATUS %02x.%02x v%04x i%04x l%04x\n",
++ ctrl.bmRequestType, ctrl.bRequest,
++ UGETW(ctrl.wValue), UGETW(ctrl.wIndex),
++ UGETW(ctrl.wLength));
++#endif
++
++ switch (UT_GET_RECIPIENT(ctrl.bmRequestType)) {
++ case UT_DEVICE:
++ if(UGETW(ctrl.wIndex) == 0xF000) { /* OTG Status selector */
++ DWC_PRINTF("wIndex - %d\n", UGETW(ctrl.wIndex));
++ DWC_PRINTF("OTG VERSION - %d\n", core_if->otg_ver);
++ DWC_PRINTF("OTG CAP - %d, %d\n",
++ core_if->core_params->otg_cap,
++ DWC_OTG_CAP_PARAM_HNP_SRP_CAPABLE);
++ if (core_if->otg_ver == 1
++ && core_if->core_params->otg_cap ==
++ DWC_OTG_CAP_PARAM_HNP_SRP_CAPABLE) {
++ uint8_t *otgsts = (uint8_t*)pcd->status_buf;
++ *otgsts = (core_if->otg_sts & 0x1);
++ pcd->ep0_pending = 1;
++ ep0->dwc_ep.start_xfer_buff =
++ (uint8_t *) otgsts;
++ ep0->dwc_ep.xfer_buff = (uint8_t *) otgsts;
++ ep0->dwc_ep.dma_addr =
++ pcd->status_buf_dma_handle;
++ ep0->dwc_ep.xfer_len = 1;
++ ep0->dwc_ep.xfer_count = 0;
++ ep0->dwc_ep.total_len = ep0->dwc_ep.xfer_len;
++ dwc_otg_ep0_start_transfer(GET_CORE_IF(pcd),
++ &ep0->dwc_ep);
++ return;
++ } else {
++ ep0_do_stall(pcd, -DWC_E_NOT_SUPPORTED);
++ return;
++ }
++ break;
++ } else {
++ *status = 0x1; /* Self powered */
++ *status |= pcd->remote_wakeup_enable << 1;
++ break;
++ }
++ case UT_INTERFACE:
++ *status = 0;
++ break;
++
++ case UT_ENDPOINT:
++ ep = get_ep_by_addr(pcd, UGETW(ctrl.wIndex));
++ if (ep == 0 || UGETW(ctrl.wLength) > 2) {
++ ep0_do_stall(pcd, -DWC_E_NOT_SUPPORTED);
++ return;
++ }
++ /** @todo check for EP stall */
++ *status = ep->stopped;
++ break;
++ }
++ pcd->ep0_pending = 1;
++ ep0->dwc_ep.start_xfer_buff = (uint8_t *) status;
++ ep0->dwc_ep.xfer_buff = (uint8_t *) status;
++ ep0->dwc_ep.dma_addr = pcd->status_buf_dma_handle;
++ ep0->dwc_ep.xfer_len = 2;
++ ep0->dwc_ep.xfer_count = 0;
++ ep0->dwc_ep.total_len = ep0->dwc_ep.xfer_len;
++ dwc_otg_ep0_start_transfer(GET_CORE_IF(pcd), &ep0->dwc_ep);
++}
++
++/**
++ * This function process the SET_FEATURE Setup Commands.
++ */
++static inline void do_set_feature(dwc_otg_pcd_t * pcd)
++{
++ dwc_otg_core_if_t *core_if = GET_CORE_IF(pcd);
++ dwc_otg_core_global_regs_t *global_regs = core_if->core_global_regs;
++ usb_device_request_t ctrl = pcd->setup_pkt->req;
++ dwc_otg_pcd_ep_t *ep = 0;
++ int32_t otg_cap_param = core_if->core_params->otg_cap;
++ gotgctl_data_t gotgctl = {.d32 = 0 };
++
++ DWC_DEBUGPL(DBG_PCD, "SET_FEATURE:%02x.%02x v%04x i%04x l%04x\n",
++ ctrl.bmRequestType, ctrl.bRequest,
++ UGETW(ctrl.wValue), UGETW(ctrl.wIndex),
++ UGETW(ctrl.wLength));
++ DWC_DEBUGPL(DBG_PCD, "otg_cap=%d\n", otg_cap_param);
++
++ switch (UT_GET_RECIPIENT(ctrl.bmRequestType)) {
++ case UT_DEVICE:
++ switch (UGETW(ctrl.wValue)) {
++ case UF_DEVICE_REMOTE_WAKEUP:
++ pcd->remote_wakeup_enable = 1;
++ break;
++
++ case UF_TEST_MODE:
++ /* Setup the Test Mode tasklet to do the Test
++ * Packet generation after the SETUP Status
++ * phase has completed. */
++
++ /** @todo This has not been tested since the
++ * tasklet struct was put into the PCD
++ * struct! */
++ pcd->test_mode = UGETW(ctrl.wIndex) >> 8;
++ DWC_TASK_SCHEDULE(pcd->test_mode_tasklet);
++ break;
++
++ case UF_DEVICE_B_HNP_ENABLE:
++ DWC_DEBUGPL(DBG_PCDV,
++ "SET_FEATURE: USB_DEVICE_B_HNP_ENABLE\n");
++
++ /* dev may initiate HNP */
++ if (otg_cap_param == DWC_OTG_CAP_PARAM_HNP_SRP_CAPABLE) {
++ pcd->b_hnp_enable = 1;
++ dwc_otg_pcd_update_otg(pcd, 0);
++ DWC_DEBUGPL(DBG_PCD, "Request B HNP\n");
++ /**@todo Is the gotgctl.devhnpen cleared
++ * by a USB Reset? */
++ gotgctl.b.devhnpen = 1;
++ gotgctl.b.hnpreq = 1;
++ DWC_WRITE_REG32(&global_regs->gotgctl,
++ gotgctl.d32);
++ } else {
++ ep0_do_stall(pcd, -DWC_E_NOT_SUPPORTED);
++ return;
++ }
++ break;
++
++ case UF_DEVICE_A_HNP_SUPPORT:
++ /* RH port supports HNP */
++ DWC_DEBUGPL(DBG_PCDV,
++ "SET_FEATURE: USB_DEVICE_A_HNP_SUPPORT\n");
++ if (otg_cap_param == DWC_OTG_CAP_PARAM_HNP_SRP_CAPABLE) {
++ pcd->a_hnp_support = 1;
++ dwc_otg_pcd_update_otg(pcd, 0);
++ } else {
++ ep0_do_stall(pcd, -DWC_E_NOT_SUPPORTED);
++ return;
++ }
++ break;
++
++ case UF_DEVICE_A_ALT_HNP_SUPPORT:
++ /* other RH port does */
++ DWC_DEBUGPL(DBG_PCDV,
++ "SET_FEATURE: USB_DEVICE_A_ALT_HNP_SUPPORT\n");
++ if (otg_cap_param == DWC_OTG_CAP_PARAM_HNP_SRP_CAPABLE) {
++ pcd->a_alt_hnp_support = 1;
++ dwc_otg_pcd_update_otg(pcd, 0);
++ } else {
++ ep0_do_stall(pcd, -DWC_E_NOT_SUPPORTED);
++ return;
++ }
++ break;
++
++ default:
++ ep0_do_stall(pcd, -DWC_E_NOT_SUPPORTED);
++ return;
++
++ }
++ do_setup_in_status_phase(pcd);
++ break;
++
++ case UT_INTERFACE:
++ do_gadget_setup(pcd, &ctrl);
++ break;
++
++ case UT_ENDPOINT:
++ if (UGETW(ctrl.wValue) == UF_ENDPOINT_HALT) {
++ ep = get_ep_by_addr(pcd, UGETW(ctrl.wIndex));
++ if (ep == 0) {
++ ep0_do_stall(pcd, -DWC_E_NOT_SUPPORTED);
++ return;
++ }
++ ep->stopped = 1;
++ dwc_otg_ep_set_stall(core_if, &ep->dwc_ep);
++ }
++ do_setup_in_status_phase(pcd);
++ break;
++ }
++}
++
++/**
++ * This function process the CLEAR_FEATURE Setup Commands.
++ */
++static inline void do_clear_feature(dwc_otg_pcd_t * pcd)
++{
++ usb_device_request_t ctrl = pcd->setup_pkt->req;
++ dwc_otg_pcd_ep_t *ep = 0;
++
++ DWC_DEBUGPL(DBG_PCD,
++ "CLEAR_FEATURE:%02x.%02x v%04x i%04x l%04x\n",
++ ctrl.bmRequestType, ctrl.bRequest,
++ UGETW(ctrl.wValue), UGETW(ctrl.wIndex),
++ UGETW(ctrl.wLength));
++
++ switch (UT_GET_RECIPIENT(ctrl.bmRequestType)) {
++ case UT_DEVICE:
++ switch (UGETW(ctrl.wValue)) {
++ case UF_DEVICE_REMOTE_WAKEUP:
++ pcd->remote_wakeup_enable = 0;
++ break;
++
++ case UF_TEST_MODE:
++ /** @todo Add CLEAR_FEATURE for TEST modes. */
++ break;
++
++ default:
++ ep0_do_stall(pcd, -DWC_E_NOT_SUPPORTED);
++ return;
++ }
++ do_setup_in_status_phase(pcd);
++ break;
++
++ case UT_ENDPOINT:
++ ep = get_ep_by_addr(pcd, UGETW(ctrl.wIndex));
++ if (ep == 0) {
++ ep0_do_stall(pcd, -DWC_E_NOT_SUPPORTED);
++ return;
++ }
++
++ pcd_clear_halt(pcd, ep);
++
++ break;
++ }
++}
++
++/**
++ * This function process the SET_ADDRESS Setup Commands.
++ */
++static inline void do_set_address(dwc_otg_pcd_t * pcd)
++{
++ dwc_otg_dev_if_t *dev_if = GET_CORE_IF(pcd)->dev_if;
++ usb_device_request_t ctrl = pcd->setup_pkt->req;
++
++ if (ctrl.bmRequestType == UT_DEVICE) {
++ dcfg_data_t dcfg = {.d32 = 0 };
++
++#ifdef DEBUG_EP0
++// DWC_DEBUGPL(DBG_PCDV, "SET_ADDRESS:%d\n", ctrl.wValue);
++#endif
++ dcfg.b.devaddr = UGETW(ctrl.wValue);
++ DWC_MODIFY_REG32(&dev_if->dev_global_regs->dcfg, 0, dcfg.d32);
++ do_setup_in_status_phase(pcd);
++ }
++}
++
++/**
++ * This function processes SETUP commands. In Linux, the USB Command
++ * processing is done in two places - the first being the PCD and the
++ * second in the Gadget Driver (for example, the File-Backed Storage
++ * Gadget Driver).
++ *
++ * <table>
++ * <tr><td>Command </td><td>Driver </td><td>Description</td></tr>
++ *
++ * <tr><td>GET_STATUS </td><td>PCD </td><td>Command is processed as
++ * defined in chapter 9 of the USB 2.0 Specification chapter 9
++ * </td></tr>
++ *
++ * <tr><td>CLEAR_FEATURE </td><td>PCD </td><td>The Device and Endpoint
++ * requests are the ENDPOINT_HALT feature is procesed, all others the
++ * interface requests are ignored.</td></tr>
++ *
++ * <tr><td>SET_FEATURE </td><td>PCD </td><td>The Device and Endpoint
++ * requests are processed by the PCD. Interface requests are passed
++ * to the Gadget Driver.</td></tr>
++ *
++ * <tr><td>SET_ADDRESS </td><td>PCD </td><td>Program the DCFG reg,
++ * with device address received </td></tr>
++ *
++ * <tr><td>GET_DESCRIPTOR </td><td>Gadget Driver </td><td>Return the
++ * requested descriptor</td></tr>
++ *
++ * <tr><td>SET_DESCRIPTOR </td><td>Gadget Driver </td><td>Optional -
++ * not implemented by any of the existing Gadget Drivers.</td></tr>
++ *
++ * <tr><td>SET_CONFIGURATION </td><td>Gadget Driver </td><td>Disable
++ * all EPs and enable EPs for new configuration.</td></tr>
++ *
++ * <tr><td>GET_CONFIGURATION </td><td>Gadget Driver </td><td>Return
++ * the current configuration</td></tr>
++ *
++ * <tr><td>SET_INTERFACE </td><td>Gadget Driver </td><td>Disable all
++ * EPs and enable EPs for new configuration.</td></tr>
++ *
++ * <tr><td>GET_INTERFACE </td><td>Gadget Driver </td><td>Return the
++ * current interface.</td></tr>
++ *
++ * <tr><td>SYNC_FRAME </td><td>PCD </td><td>Display debug
++ * message.</td></tr>
++ * </table>
++ *
++ * When the SETUP Phase Done interrupt occurs, the PCD SETUP commands are
++ * processed by pcd_setup. Calling the Function Driver's setup function from
++ * pcd_setup processes the gadget SETUP commands.
++ */
++static inline void pcd_setup(dwc_otg_pcd_t * pcd)
++{
++ dwc_otg_core_if_t *core_if = GET_CORE_IF(pcd);
++ dwc_otg_dev_if_t *dev_if = core_if->dev_if;
++ usb_device_request_t ctrl = pcd->setup_pkt->req;
++ dwc_otg_pcd_ep_t *ep0 = &pcd->ep0;
++
++ deptsiz0_data_t doeptsize0 = {.d32 = 0 };
++
++#ifdef DWC_UTE_CFI
++ int retval = 0;
++ struct cfi_usb_ctrlrequest cfi_req;
++#endif
++
++ doeptsize0.d32 = DWC_READ_REG32(&dev_if->out_ep_regs[0]->doeptsiz);
++
++ /** In BDMA more then 1 setup packet is not supported till 3.00a */
++ if (core_if->dma_enable && core_if->dma_desc_enable == 0
++ && (doeptsize0.b.supcnt < 2)
++ && (core_if->snpsid < OTG_CORE_REV_2_94a)) {
++ DWC_ERROR
++ ("\n\n----------- CANNOT handle > 1 setup packet in DMA mode\n\n");
++ }
++ if ((core_if->snpsid >= OTG_CORE_REV_3_00a)
++ && (core_if->dma_enable == 1) && (core_if->dma_desc_enable == 0)) {
++ ctrl =
++ (pcd->setup_pkt +
++ (3 - doeptsize0.b.supcnt - 1 +
++ ep0->dwc_ep.stp_rollover))->req;
++ }
++#ifdef DEBUG_EP0
++ DWC_DEBUGPL(DBG_PCD, "SETUP %02x.%02x v%04x i%04x l%04x\n",
++ ctrl.bmRequestType, ctrl.bRequest,
++ UGETW(ctrl.wValue), UGETW(ctrl.wIndex),
++ UGETW(ctrl.wLength));
++#endif
++
++ /* Clean up the request queue */
++ dwc_otg_request_nuke(ep0);
++ ep0->stopped = 0;
++
++ if (ctrl.bmRequestType & UE_DIR_IN) {
++ ep0->dwc_ep.is_in = 1;
++ pcd->ep0state = EP0_IN_DATA_PHASE;
++ } else {
++ ep0->dwc_ep.is_in = 0;
++ pcd->ep0state = EP0_OUT_DATA_PHASE;
++ }
++
++ if (UGETW(ctrl.wLength) == 0) {
++ ep0->dwc_ep.is_in = 1;
++ pcd->ep0state = EP0_IN_STATUS_PHASE;
++ }
++
++ if (UT_GET_TYPE(ctrl.bmRequestType) != UT_STANDARD) {
++
++#ifdef DWC_UTE_CFI
++ DWC_MEMCPY(&cfi_req, &ctrl, sizeof(usb_device_request_t));
++
++ //printk(KERN_ALERT "CFI: req_type=0x%02x; req=0x%02x\n",
++ ctrl.bRequestType, ctrl.bRequest);
++ if (UT_GET_TYPE(cfi_req.bRequestType) == UT_VENDOR) {
++ if (cfi_req.bRequest > 0xB0 && cfi_req.bRequest < 0xBF) {
++ retval = cfi_setup(pcd, &cfi_req);
++ if (retval < 0) {
++ ep0_do_stall(pcd, retval);
++ pcd->ep0_pending = 0;
++ return;
++ }
++
++ /* if need gadget setup then call it and check the retval */
++ if (pcd->cfi->need_gadget_att) {
++ retval =
++ cfi_gadget_setup(pcd,
++ &pcd->
++ cfi->ctrl_req);
++ if (retval < 0) {
++ pcd->ep0_pending = 0;
++ return;
++ }
++ }
++
++ if (pcd->cfi->need_status_in_complete) {
++ do_setup_in_status_phase(pcd);
++ }
++ return;
++ }
++ }
++#endif
++
++ /* handle non-standard (class/vendor) requests in the gadget driver */
++ do_gadget_setup(pcd, &ctrl);
++ return;
++ }
++
++ /** @todo NGS: Handle bad setup packet? */
++
++///////////////////////////////////////////
++//// --- Standard Request handling --- ////
++
++ switch (ctrl.bRequest) {
++ case UR_GET_STATUS:
++ do_get_status(pcd);
++ break;
++
++ case UR_CLEAR_FEATURE:
++ do_clear_feature(pcd);
++ break;
++
++ case UR_SET_FEATURE:
++ do_set_feature(pcd);
++ break;
++
++ case UR_SET_ADDRESS:
++ do_set_address(pcd);
++ break;
++
++ case UR_SET_INTERFACE:
++ case UR_SET_CONFIG:
++// _pcd->request_config = 1; /* Configuration changed */
++ do_gadget_setup(pcd, &ctrl);
++ break;
++
++ case UR_SYNCH_FRAME:
++ do_gadget_setup(pcd, &ctrl);
++ break;
++
++ default:
++ /* Call the Gadget Driver's setup functions */
++ do_gadget_setup(pcd, &ctrl);
++ break;
++ }
++}
++
++/**
++ * This function completes the ep0 control transfer.
++ */
++static int32_t ep0_complete_request(dwc_otg_pcd_ep_t * ep)
++{
++ dwc_otg_core_if_t *core_if = GET_CORE_IF(ep->pcd);
++ dwc_otg_dev_if_t *dev_if = core_if->dev_if;
++ dwc_otg_dev_in_ep_regs_t *in_ep_regs =
++ dev_if->in_ep_regs[ep->dwc_ep.num];
++#ifdef DEBUG_EP0
++ dwc_otg_dev_out_ep_regs_t *out_ep_regs =
++ dev_if->out_ep_regs[ep->dwc_ep.num];
++#endif
++ deptsiz0_data_t deptsiz;
++ dev_dma_desc_sts_t desc_sts;
++ dwc_otg_pcd_request_t *req;
++ int is_last = 0;
++ dwc_otg_pcd_t *pcd = ep->pcd;
++
++#ifdef DWC_UTE_CFI
++ struct cfi_usb_ctrlrequest *ctrlreq;
++ int retval = -DWC_E_NOT_SUPPORTED;
++#endif
++
++ desc_sts.b.bytes = 0;
++
++ if (pcd->ep0_pending && DWC_CIRCLEQ_EMPTY(&ep->queue)) {
++ if (ep->dwc_ep.is_in) {
++#ifdef DEBUG_EP0
++ DWC_DEBUGPL(DBG_PCDV, "Do setup OUT status phase\n");
++#endif
++ do_setup_out_status_phase(pcd);
++ } else {
++#ifdef DEBUG_EP0
++ DWC_DEBUGPL(DBG_PCDV, "Do setup IN status phase\n");
++#endif
++
++#ifdef DWC_UTE_CFI
++ ctrlreq = &pcd->cfi->ctrl_req;
++
++ if (UT_GET_TYPE(ctrlreq->bRequestType) == UT_VENDOR) {
++ if (ctrlreq->bRequest > 0xB0
++ && ctrlreq->bRequest < 0xBF) {
++
++ /* Return if the PCD failed to handle the request */
++ if ((retval =
++ pcd->cfi->ops.
++ ctrl_write_complete(pcd->cfi,
++ pcd)) < 0) {
++ CFI_INFO
++ ("ERROR setting a new value in the PCD(%d)\n",
++ retval);
++ ep0_do_stall(pcd, retval);
++ pcd->ep0_pending = 0;
++ return 0;
++ }
++
++ /* If the gadget needs to be notified on the request */
++ if (pcd->cfi->need_gadget_att == 1) {
++ //retval = do_gadget_setup(pcd, &pcd->cfi->ctrl_req);
++ retval =
++ cfi_gadget_setup(pcd,
++ &pcd->cfi->
++ ctrl_req);
++
++ /* Return from the function if the gadget failed to process
++ * the request properly - this should never happen !!!
++ */
++ if (retval < 0) {
++ CFI_INFO
++ ("ERROR setting a new value in the gadget(%d)\n",
++ retval);
++ pcd->ep0_pending = 0;
++ return 0;
++ }
++ }
++
++ CFI_INFO("%s: RETVAL=%d\n", __func__,
++ retval);
++ /* If we hit here then the PCD and the gadget has properly
++ * handled the request - so send the ZLP IN to the host.
++ */
++ /* @todo: MAS - decide whether we need to start the setup
++ * stage based on the need_setup value of the cfi object
++ */
++ do_setup_in_status_phase(pcd);
++ pcd->ep0_pending = 0;
++ return 1;
++ }
++ }
++#endif
++
++ do_setup_in_status_phase(pcd);
++ }
++ pcd->ep0_pending = 0;
++ return 1;
++ }
++
++ if (DWC_CIRCLEQ_EMPTY(&ep->queue)) {
++ return 0;
++ }
++ req = DWC_CIRCLEQ_FIRST(&ep->queue);
++
++ if (pcd->ep0state == EP0_OUT_STATUS_PHASE
++ || pcd->ep0state == EP0_IN_STATUS_PHASE) {
++ is_last = 1;
++ } else if (ep->dwc_ep.is_in) {
++ deptsiz.d32 = DWC_READ_REG32(&in_ep_regs->dieptsiz);
++ if (core_if->dma_desc_enable != 0)
++ desc_sts = dev_if->in_desc_addr->status;
++#ifdef DEBUG_EP0
++ DWC_DEBUGPL(DBG_PCDV, "%d len=%d xfersize=%d pktcnt=%d\n",
++ ep->dwc_ep.num, ep->dwc_ep.xfer_len,
++ deptsiz.b.xfersize, deptsiz.b.pktcnt);
++#endif
++
++ if (((core_if->dma_desc_enable == 0)
++ && (deptsiz.b.xfersize == 0))
++ || ((core_if->dma_desc_enable != 0)
++ && (desc_sts.b.bytes == 0))) {
++ req->actual = ep->dwc_ep.xfer_count;
++ /* Is a Zero Len Packet needed? */
++ if (req->sent_zlp) {
++#ifdef DEBUG_EP0
++ DWC_DEBUGPL(DBG_PCD, "Setup Rx ZLP\n");
++#endif
++ req->sent_zlp = 0;
++ }
++ do_setup_out_status_phase(pcd);
++ }
++ } else {
++ /* ep0-OUT */
++#ifdef DEBUG_EP0
++ deptsiz.d32 = DWC_READ_REG32(&out_ep_regs->doeptsiz);
++ DWC_DEBUGPL(DBG_PCDV, "%d len=%d xsize=%d pktcnt=%d\n",
++ ep->dwc_ep.num, ep->dwc_ep.xfer_len,
++ deptsiz.b.xfersize, deptsiz.b.pktcnt);
++#endif
++ req->actual = ep->dwc_ep.xfer_count;
++
++ /* Is a Zero Len Packet needed? */
++ if (req->sent_zlp) {
++#ifdef DEBUG_EP0
++ DWC_DEBUGPL(DBG_PCDV, "Setup Tx ZLP\n");
++#endif
++ req->sent_zlp = 0;
++ }
++ /* For older cores do setup in status phase in Slave/BDMA modes,
++ * starting from 3.00 do that only in slave, and for DMA modes
++ * just re-enable ep 0 OUT here*/
++ if (core_if->dma_enable == 0
++ || (core_if->dma_desc_enable == 0
++ && core_if->snpsid <= OTG_CORE_REV_2_94a)) {
++ do_setup_in_status_phase(pcd);
++ } else if (core_if->snpsid >= OTG_CORE_REV_3_00a) {
++ DWC_DEBUGPL(DBG_PCDV,
++ "Enable out ep before in status phase\n");
++ ep0_out_start(core_if, pcd);
++ }
++ }
++
++ /* Complete the request */
++ if (is_last) {
++ dwc_otg_request_done(ep, req, 0);
++ ep->dwc_ep.start_xfer_buff = 0;
++ ep->dwc_ep.xfer_buff = 0;
++ ep->dwc_ep.xfer_len = 0;
++ return 1;
++ }
++ return 0;
++}
++
++#ifdef DWC_UTE_CFI
++/**
++ * This function calculates traverses all the CFI DMA descriptors and
++ * and accumulates the bytes that are left to be transfered.
++ *
++ * @return The total bytes left to transfered, or a negative value as failure
++ */
++static inline int cfi_calc_desc_residue(dwc_otg_pcd_ep_t * ep)
++{
++ int32_t ret = 0;
++ int i;
++ struct dwc_otg_dma_desc *ddesc = NULL;
++ struct cfi_ep *cfiep;
++
++ /* See if the pcd_ep has its respective cfi_ep mapped */
++ cfiep = get_cfi_ep_by_pcd_ep(ep->pcd->cfi, ep);
++ if (!cfiep) {
++ CFI_INFO("%s: Failed to find ep\n", __func__);
++ return -1;
++ }
++
++ ddesc = ep->dwc_ep.descs;
++
++ for (i = 0; (i < cfiep->desc_count) && (i < MAX_DMA_DESCS_PER_EP); i++) {
++
++#if defined(PRINT_CFI_DMA_DESCS)
++ print_desc(ddesc, ep->ep.name, i);
++#endif
++ ret += ddesc->status.b.bytes;
++ ddesc++;
++ }
++
++ if (ret)
++ CFI_INFO("!!!!!!!!!! WARNING (%s) - residue=%d\n", __func__,
++ ret);
++
++ return ret;
++}
++#endif
++
++/**
++ * This function completes the request for the EP. If there are
++ * additional requests for the EP in the queue they will be started.
++ */
++static void complete_ep(dwc_otg_pcd_ep_t * ep)
++{
++ dwc_otg_core_if_t *core_if = GET_CORE_IF(ep->pcd);
++ dwc_otg_dev_if_t *dev_if = core_if->dev_if;
++ dwc_otg_dev_in_ep_regs_t *in_ep_regs =
++ dev_if->in_ep_regs[ep->dwc_ep.num];
++ deptsiz_data_t deptsiz;
++ dev_dma_desc_sts_t desc_sts;
++ dwc_otg_pcd_request_t *req = 0;
++ dwc_otg_dev_dma_desc_t *dma_desc;
++ uint32_t byte_count = 0;
++ int is_last = 0;
++ int i;
++
++ DWC_DEBUGPL(DBG_PCDV, "%s() %d-%s\n", __func__, ep->dwc_ep.num,
++ (ep->dwc_ep.is_in ? "IN" : "OUT"));
++
++ /* Get any pending requests */
++ if (!DWC_CIRCLEQ_EMPTY(&ep->queue)) {
++ req = DWC_CIRCLEQ_FIRST(&ep->queue);
++ if (!req) {
++ DWC_PRINTF("complete_ep 0x%p, req = NULL!\n", ep);
++ return;
++ }
++ } else {
++ DWC_PRINTF("complete_ep 0x%p, ep->queue empty!\n", ep);
++ return;
++ }
++
++ DWC_DEBUGPL(DBG_PCD, "Requests %d\n", ep->pcd->request_pending);
++
++ if (ep->dwc_ep.is_in) {
++ deptsiz.d32 = DWC_READ_REG32(&in_ep_regs->dieptsiz);
++
++ if (core_if->dma_enable) {
++ if (core_if->dma_desc_enable == 0) {
++ if (deptsiz.b.xfersize == 0
++ && deptsiz.b.pktcnt == 0) {
++ byte_count =
++ ep->dwc_ep.xfer_len -
++ ep->dwc_ep.xfer_count;
++
++ ep->dwc_ep.xfer_buff += byte_count;
++ ep->dwc_ep.dma_addr += byte_count;
++ ep->dwc_ep.xfer_count += byte_count;
++
++ DWC_DEBUGPL(DBG_PCDV,
++ "%d-%s len=%d xfersize=%d pktcnt=%d\n",
++ ep->dwc_ep.num,
++ (ep->dwc_ep.
++ is_in ? "IN" : "OUT"),
++ ep->dwc_ep.xfer_len,
++ deptsiz.b.xfersize,
++ deptsiz.b.pktcnt);
++
++ if (ep->dwc_ep.xfer_len <
++ ep->dwc_ep.total_len) {
++ dwc_otg_ep_start_transfer
++ (core_if, &ep->dwc_ep);
++ } else if (ep->dwc_ep.sent_zlp) {
++ /*
++ * This fragment of code should initiate 0
++ * length transfer in case if it is queued
++ * a transfer with size divisible to EPs max
++ * packet size and with usb_request zero field
++ * is set, which means that after data is transfered,
++ * it is also should be transfered
++ * a 0 length packet at the end. For Slave and
++ * Buffer DMA modes in this case SW has
++ * to initiate 2 transfers one with transfer size,
++ * and the second with 0 size. For Descriptor
++ * DMA mode SW is able to initiate a transfer,
++ * which will handle all the packets including
++ * the last 0 length.
++ */
++ ep->dwc_ep.sent_zlp = 0;
++ dwc_otg_ep_start_zl_transfer
++ (core_if, &ep->dwc_ep);
++ } else {
++ is_last = 1;
++ }
++ } else {
++ if (ep->dwc_ep.type ==
++ DWC_OTG_EP_TYPE_ISOC) {
++ req->actual = 0;
++ dwc_otg_request_done(ep, req, 0);
++
++ ep->dwc_ep.start_xfer_buff = 0;
++ ep->dwc_ep.xfer_buff = 0;
++ ep->dwc_ep.xfer_len = 0;
++
++ /* If there is a request in the queue start it. */
++ start_next_request(ep);
++ } else
++ DWC_WARN
++ ("Incomplete transfer (%d - %s [siz=%d pkt=%d])\n",
++ ep->dwc_ep.num,
++ (ep->dwc_ep.is_in ? "IN" : "OUT"),
++ deptsiz.b.xfersize,
++ deptsiz.b.pktcnt);
++ }
++ } else {
++ dma_desc = ep->dwc_ep.desc_addr;
++ byte_count = 0;
++ ep->dwc_ep.sent_zlp = 0;
++
++#ifdef DWC_UTE_CFI
++ CFI_INFO("%s: BUFFER_MODE=%d\n", __func__,
++ ep->dwc_ep.buff_mode);
++ if (ep->dwc_ep.buff_mode != BM_STANDARD) {
++ int residue;
++
++ residue = cfi_calc_desc_residue(ep);
++ if (residue < 0)
++ return;
++
++ byte_count = residue;
++ } else {
++#endif
++ for (i = 0; i < ep->dwc_ep.desc_cnt;
++ ++i) {
++ desc_sts = dma_desc->status;
++ byte_count += desc_sts.b.bytes;
++ dma_desc++;
++ }
++#ifdef DWC_UTE_CFI
++ }
++#endif
++ if (byte_count == 0) {
++ ep->dwc_ep.xfer_count =
++ ep->dwc_ep.total_len;
++ is_last = 1;
++ } else {
++ DWC_WARN("Incomplete transfer\n");
++ }
++ }
++ } else {
++ if (deptsiz.b.xfersize == 0 && deptsiz.b.pktcnt == 0) {
++ DWC_DEBUGPL(DBG_PCDV,
++ "%d-%s len=%d xfersize=%d pktcnt=%d\n",
++ ep->dwc_ep.num,
++ ep->dwc_ep.is_in ? "IN" : "OUT",
++ ep->dwc_ep.xfer_len,
++ deptsiz.b.xfersize,
++ deptsiz.b.pktcnt);
++
++ /* Check if the whole transfer was completed,
++ * if no, setup transfer for next portion of data
++ */
++ if (ep->dwc_ep.xfer_len < ep->dwc_ep.total_len) {
++ dwc_otg_ep_start_transfer(core_if,
++ &ep->dwc_ep);
++ } else if (ep->dwc_ep.sent_zlp) {
++ /*
++ * This fragment of code should initiate 0
++ * length trasfer in case if it is queued
++ * a trasfer with size divisible to EPs max
++ * packet size and with usb_request zero field
++ * is set, which means that after data is transfered,
++ * it is also should be transfered
++ * a 0 length packet at the end. For Slave and
++ * Buffer DMA modes in this case SW has
++ * to initiate 2 transfers one with transfer size,
++ * and the second with 0 size. For Desriptor
++ * DMA mode SW is able to initiate a transfer,
++ * which will handle all the packets including
++ * the last 0 legth.
++ */
++ ep->dwc_ep.sent_zlp = 0;
++ dwc_otg_ep_start_zl_transfer(core_if,
++ &ep->dwc_ep);
++ } else {
++ is_last = 1;
++ }
++ } else {
++ DWC_WARN
++ ("Incomplete transfer (%d-%s [siz=%d pkt=%d])\n",
++ ep->dwc_ep.num,
++ (ep->dwc_ep.is_in ? "IN" : "OUT"),
++ deptsiz.b.xfersize, deptsiz.b.pktcnt);
++ }
++ }
++ } else {
++ dwc_otg_dev_out_ep_regs_t *out_ep_regs =
++ dev_if->out_ep_regs[ep->dwc_ep.num];
++ desc_sts.d32 = 0;
++ if (core_if->dma_enable) {
++ if (core_if->dma_desc_enable) {
++ dma_desc = ep->dwc_ep.desc_addr;
++ byte_count = 0;
++ ep->dwc_ep.sent_zlp = 0;
++
++#ifdef DWC_UTE_CFI
++ CFI_INFO("%s: BUFFER_MODE=%d\n", __func__,
++ ep->dwc_ep.buff_mode);
++ if (ep->dwc_ep.buff_mode != BM_STANDARD) {
++ int residue;
++ residue = cfi_calc_desc_residue(ep);
++ if (residue < 0)
++ return;
++ byte_count = residue;
++ } else {
++#endif
++
++ for (i = 0; i < ep->dwc_ep.desc_cnt;
++ ++i) {
++ desc_sts = dma_desc->status;
++ byte_count += desc_sts.b.bytes;
++ dma_desc++;
++ }
++
++#ifdef DWC_UTE_CFI
++ }
++#endif
++ /* Checking for interrupt Out transfers with not
++ * dword aligned mps sizes
++ */
++ if (ep->dwc_ep.type == DWC_OTG_EP_TYPE_INTR &&
++ (ep->dwc_ep.maxpacket%4)) {
++ ep->dwc_ep.xfer_count =
++ ep->dwc_ep.total_len - byte_count;
++ if ((ep->dwc_ep.xfer_len %
++ ep->dwc_ep.maxpacket)
++ && (ep->dwc_ep.xfer_len /
++ ep->dwc_ep.maxpacket <
++ MAX_DMA_DESC_CNT))
++ ep->dwc_ep.xfer_len -=
++ (ep->dwc_ep.desc_cnt -
++ 1) * ep->dwc_ep.maxpacket +
++ ep->dwc_ep.xfer_len %
++ ep->dwc_ep.maxpacket;
++ else
++ ep->dwc_ep.xfer_len -=
++ ep->dwc_ep.desc_cnt *
++ ep->dwc_ep.maxpacket;
++ if (ep->dwc_ep.xfer_len > 0) {
++ dwc_otg_ep_start_transfer
++ (core_if, &ep->dwc_ep);
++ } else {
++ is_last = 1;
++ }
++ } else {
++ ep->dwc_ep.xfer_count =
++ ep->dwc_ep.total_len - byte_count +
++ ((4 -
++ (ep->dwc_ep.
++ total_len & 0x3)) & 0x3);
++ is_last = 1;
++ }
++ } else {
++ deptsiz.d32 = 0;
++ deptsiz.d32 =
++ DWC_READ_REG32(&out_ep_regs->doeptsiz);
++
++ byte_count = (ep->dwc_ep.xfer_len -
++ ep->dwc_ep.xfer_count -
++ deptsiz.b.xfersize);
++ ep->dwc_ep.xfer_buff += byte_count;
++ ep->dwc_ep.dma_addr += byte_count;
++ ep->dwc_ep.xfer_count += byte_count;
++
++ /* Check if the whole transfer was completed,
++ * if no, setup transfer for next portion of data
++ */
++ if (ep->dwc_ep.xfer_len < ep->dwc_ep.total_len) {
++ dwc_otg_ep_start_transfer(core_if,
++ &ep->dwc_ep);
++ } else if (ep->dwc_ep.sent_zlp) {
++ /*
++ * This fragment of code should initiate 0
++ * length trasfer in case if it is queued
++ * a trasfer with size divisible to EPs max
++ * packet size and with usb_request zero field
++ * is set, which means that after data is transfered,
++ * it is also should be transfered
++ * a 0 length packet at the end. For Slave and
++ * Buffer DMA modes in this case SW has
++ * to initiate 2 transfers one with transfer size,
++ * and the second with 0 size. For Desriptor
++ * DMA mode SW is able to initiate a transfer,
++ * which will handle all the packets including
++ * the last 0 legth.
++ */
++ ep->dwc_ep.sent_zlp = 0;
++ dwc_otg_ep_start_zl_transfer(core_if,
++ &ep->dwc_ep);
++ } else {
++ is_last = 1;
++ }
++ }
++ } else {
++ /* Check if the whole transfer was completed,
++ * if no, setup transfer for next portion of data
++ */
++ if (ep->dwc_ep.xfer_len < ep->dwc_ep.total_len) {
++ dwc_otg_ep_start_transfer(core_if, &ep->dwc_ep);
++ } else if (ep->dwc_ep.sent_zlp) {
++ /*
++ * This fragment of code should initiate 0
++ * length transfer in case if it is queued
++ * a transfer with size divisible to EPs max
++ * packet size and with usb_request zero field
++ * is set, which means that after data is transfered,
++ * it is also should be transfered
++ * a 0 length packet at the end. For Slave and
++ * Buffer DMA modes in this case SW has
++ * to initiate 2 transfers one with transfer size,
++ * and the second with 0 size. For Descriptor
++ * DMA mode SW is able to initiate a transfer,
++ * which will handle all the packets including
++ * the last 0 length.
++ */
++ ep->dwc_ep.sent_zlp = 0;
++ dwc_otg_ep_start_zl_transfer(core_if,
++ &ep->dwc_ep);
++ } else {
++ is_last = 1;
++ }
++ }
++
++ DWC_DEBUGPL(DBG_PCDV,
++ "addr %p, %d-%s len=%d cnt=%d xsize=%d pktcnt=%d\n",
++ &out_ep_regs->doeptsiz, ep->dwc_ep.num,
++ ep->dwc_ep.is_in ? "IN" : "OUT",
++ ep->dwc_ep.xfer_len, ep->dwc_ep.xfer_count,
++ deptsiz.b.xfersize, deptsiz.b.pktcnt);
++ }
++
++ /* Complete the request */
++ if (is_last) {
++#ifdef DWC_UTE_CFI
++ if (ep->dwc_ep.buff_mode != BM_STANDARD) {
++ req->actual = ep->dwc_ep.cfi_req_len - byte_count;
++ } else {
++#endif
++ req->actual = ep->dwc_ep.xfer_count;
++#ifdef DWC_UTE_CFI
++ }
++#endif
++ if (req->dw_align_buf) {
++ if (!ep->dwc_ep.is_in) {
++ dwc_memcpy(req->buf, req->dw_align_buf, req->length);
++ }
++ DWC_DMA_FREE(req->length, req->dw_align_buf,
++ req->dw_align_buf_dma);
++ }
++
++ dwc_otg_request_done(ep, req, 0);
++
++ ep->dwc_ep.start_xfer_buff = 0;
++ ep->dwc_ep.xfer_buff = 0;
++ ep->dwc_ep.xfer_len = 0;
++
++ /* If there is a request in the queue start it. */
++ start_next_request(ep);
++ }
++}
++
++#ifdef DWC_EN_ISOC
++
++/**
++ * This function BNA interrupt for Isochronous EPs
++ *
++ */
++static void dwc_otg_pcd_handle_iso_bna(dwc_otg_pcd_ep_t * ep)
++{
++ dwc_ep_t *dwc_ep = &ep->dwc_ep;
++ volatile uint32_t *addr;
++ depctl_data_t depctl = {.d32 = 0 };
++ dwc_otg_pcd_t *pcd = ep->pcd;
++ dwc_otg_dev_dma_desc_t *dma_desc;
++ int i;
++
++ dma_desc =
++ dwc_ep->iso_desc_addr + dwc_ep->desc_cnt * (dwc_ep->proc_buf_num);
++
++ if (dwc_ep->is_in) {
++ dev_dma_desc_sts_t sts = {.d32 = 0 };
++ for (i = 0; i < dwc_ep->desc_cnt; ++i, ++dma_desc) {
++ sts.d32 = dma_desc->status.d32;
++ sts.b_iso_in.bs = BS_HOST_READY;
++ dma_desc->status.d32 = sts.d32;
++ }
++ } else {
++ dev_dma_desc_sts_t sts = {.d32 = 0 };
++ for (i = 0; i < dwc_ep->desc_cnt; ++i, ++dma_desc) {
++ sts.d32 = dma_desc->status.d32;
++ sts.b_iso_out.bs = BS_HOST_READY;
++ dma_desc->status.d32 = sts.d32;
++ }
++ }
++
++ if (dwc_ep->is_in == 0) {
++ addr =
++ &GET_CORE_IF(pcd)->dev_if->out_ep_regs[dwc_ep->
++ num]->doepctl;
++ } else {
++ addr =
++ &GET_CORE_IF(pcd)->dev_if->in_ep_regs[dwc_ep->num]->diepctl;
++ }
++ depctl.b.epena = 1;
++ DWC_MODIFY_REG32(addr, depctl.d32, depctl.d32);
++}
++
++/**
++ * This function sets latest iso packet information(non-PTI mode)
++ *
++ * @param core_if Programming view of DWC_otg controller.
++ * @param ep The EP to start the transfer on.
++ *
++ */
++void set_current_pkt_info(dwc_otg_core_if_t * core_if, dwc_ep_t * ep)
++{
++ deptsiz_data_t deptsiz = {.d32 = 0 };
++ dma_addr_t dma_addr;
++ uint32_t offset;
++
++ if (ep->proc_buf_num)
++ dma_addr = ep->dma_addr1;
++ else
++ dma_addr = ep->dma_addr0;
++
++ if (ep->is_in) {
++ deptsiz.d32 =
++ DWC_READ_REG32(&core_if->dev_if->
++ in_ep_regs[ep->num]->dieptsiz);
++ offset = ep->data_per_frame;
++ } else {
++ deptsiz.d32 =
++ DWC_READ_REG32(&core_if->dev_if->
++ out_ep_regs[ep->num]->doeptsiz);
++ offset =
++ ep->data_per_frame +
++ (0x4 & (0x4 - (ep->data_per_frame & 0x3)));
++ }
++
++ if (!deptsiz.b.xfersize) {
++ ep->pkt_info[ep->cur_pkt].length = ep->data_per_frame;
++ ep->pkt_info[ep->cur_pkt].offset =
++ ep->cur_pkt_dma_addr - dma_addr;
++ ep->pkt_info[ep->cur_pkt].status = 0;
++ } else {
++ ep->pkt_info[ep->cur_pkt].length = ep->data_per_frame;
++ ep->pkt_info[ep->cur_pkt].offset =
++ ep->cur_pkt_dma_addr - dma_addr;
++ ep->pkt_info[ep->cur_pkt].status = -DWC_E_NO_DATA;
++ }
++ ep->cur_pkt_addr += offset;
++ ep->cur_pkt_dma_addr += offset;
++ ep->cur_pkt++;
++}
++
++/**
++ * This function sets latest iso packet information(DDMA mode)
++ *
++ * @param core_if Programming view of DWC_otg controller.
++ * @param dwc_ep The EP to start the transfer on.
++ *
++ */
++static void set_ddma_iso_pkts_info(dwc_otg_core_if_t * core_if,
++ dwc_ep_t * dwc_ep)
++{
++ dwc_otg_dev_dma_desc_t *dma_desc;
++ dev_dma_desc_sts_t sts = {.d32 = 0 };
++ iso_pkt_info_t *iso_packet;
++ uint32_t data_per_desc;
++ uint32_t offset;
++ int i, j;
++
++ iso_packet = dwc_ep->pkt_info;
++
++ /** Reinit closed DMA Descriptors*/
++ /** ISO OUT EP */
++ if (dwc_ep->is_in == 0) {
++ dma_desc =
++ dwc_ep->iso_desc_addr +
++ dwc_ep->desc_cnt * dwc_ep->proc_buf_num;
++ offset = 0;
++
++ for (i = 0; i < dwc_ep->desc_cnt - dwc_ep->pkt_per_frm;
++ i += dwc_ep->pkt_per_frm) {
++ for (j = 0; j < dwc_ep->pkt_per_frm; ++j) {
++ data_per_desc =
++ ((j + 1) * dwc_ep->maxpacket >
++ dwc_ep->
++ data_per_frame) ? dwc_ep->data_per_frame -
++ j * dwc_ep->maxpacket : dwc_ep->maxpacket;
++ data_per_desc +=
++ (data_per_desc % 4) ? (4 -
++ data_per_desc %
++ 4) : 0;
++
++ sts.d32 = dma_desc->status.d32;
++
++ /* Write status in iso_packet_decsriptor */
++ iso_packet->status =
++ sts.b_iso_out.rxsts +
++ (sts.b_iso_out.bs ^ BS_DMA_DONE);
++ if (iso_packet->status) {
++ iso_packet->status = -DWC_E_NO_DATA;
++ }
++
++ /* Received data length */
++ if (!sts.b_iso_out.rxbytes) {
++ iso_packet->length =
++ data_per_desc -
++ sts.b_iso_out.rxbytes;
++ } else {
++ iso_packet->length =
++ data_per_desc -
++ sts.b_iso_out.rxbytes + (4 -
++ dwc_ep->data_per_frame
++ % 4);
++ }
++
++ iso_packet->offset = offset;
++
++ offset += data_per_desc;
++ dma_desc++;
++ iso_packet++;
++ }
++ }
++
++ for (j = 0; j < dwc_ep->pkt_per_frm - 1; ++j) {
++ data_per_desc =
++ ((j + 1) * dwc_ep->maxpacket >
++ dwc_ep->data_per_frame) ? dwc_ep->data_per_frame -
++ j * dwc_ep->maxpacket : dwc_ep->maxpacket;
++ data_per_desc +=
++ (data_per_desc % 4) ? (4 - data_per_desc % 4) : 0;
++
++ sts.d32 = dma_desc->status.d32;
++
++ /* Write status in iso_packet_decsriptor */
++ iso_packet->status =
++ sts.b_iso_out.rxsts +
++ (sts.b_iso_out.bs ^ BS_DMA_DONE);
++ if (iso_packet->status) {
++ iso_packet->status = -DWC_E_NO_DATA;
++ }
++
++ /* Received data length */
++ iso_packet->length =
++ dwc_ep->data_per_frame - sts.b_iso_out.rxbytes;
++
++ iso_packet->offset = offset;
++
++ offset += data_per_desc;
++ iso_packet++;
++ dma_desc++;
++ }
++
++ sts.d32 = dma_desc->status.d32;
++
++ /* Write status in iso_packet_decsriptor */
++ iso_packet->status =
++ sts.b_iso_out.rxsts + (sts.b_iso_out.bs ^ BS_DMA_DONE);
++ if (iso_packet->status) {
++ iso_packet->status = -DWC_E_NO_DATA;
++ }
++ /* Received data length */
++ if (!sts.b_iso_out.rxbytes) {
++ iso_packet->length =
++ dwc_ep->data_per_frame - sts.b_iso_out.rxbytes;
++ } else {
++ iso_packet->length =
++ dwc_ep->data_per_frame - sts.b_iso_out.rxbytes +
++ (4 - dwc_ep->data_per_frame % 4);
++ }
++
++ iso_packet->offset = offset;
++ } else {
++/** ISO IN EP */
++
++ dma_desc =
++ dwc_ep->iso_desc_addr +
++ dwc_ep->desc_cnt * dwc_ep->proc_buf_num;
++
++ for (i = 0; i < dwc_ep->desc_cnt - 1; i++) {
++ sts.d32 = dma_desc->status.d32;
++
++ /* Write status in iso packet descriptor */
++ iso_packet->status =
++ sts.b_iso_in.txsts +
++ (sts.b_iso_in.bs ^ BS_DMA_DONE);
++ if (iso_packet->status != 0) {
++ iso_packet->status = -DWC_E_NO_DATA;
++
++ }
++ /* Bytes has been transfered */
++ iso_packet->length =
++ dwc_ep->data_per_frame - sts.b_iso_in.txbytes;
++
++ dma_desc++;
++ iso_packet++;
++ }
++
++ sts.d32 = dma_desc->status.d32;
++ while (sts.b_iso_in.bs == BS_DMA_BUSY) {
++ sts.d32 = dma_desc->status.d32;
++ }
++
++ /* Write status in iso packet descriptor ??? do be done with ERROR codes */
++ iso_packet->status =
++ sts.b_iso_in.txsts + (sts.b_iso_in.bs ^ BS_DMA_DONE);
++ if (iso_packet->status != 0) {
++ iso_packet->status = -DWC_E_NO_DATA;
++ }
++
++ /* Bytes has been transfered */
++ iso_packet->length =
++ dwc_ep->data_per_frame - sts.b_iso_in.txbytes;
++ }
++}
++
++/**
++ * This function reinitialize DMA Descriptors for Isochronous transfer
++ *
++ * @param core_if Programming view of DWC_otg controller.
++ * @param dwc_ep The EP to start the transfer on.
++ *
++ */
++static void reinit_ddma_iso_xfer(dwc_otg_core_if_t * core_if, dwc_ep_t * dwc_ep)
++{
++ int i, j;
++ dwc_otg_dev_dma_desc_t *dma_desc;
++ dma_addr_t dma_ad;
++ volatile uint32_t *addr;
++ dev_dma_desc_sts_t sts = {.d32 = 0 };
++ uint32_t data_per_desc;
++
++ if (dwc_ep->is_in == 0) {
++ addr = &core_if->dev_if->out_ep_regs[dwc_ep->num]->doepctl;
++ } else {
++ addr = &core_if->dev_if->in_ep_regs[dwc_ep->num]->diepctl;
++ }
++
++ if (dwc_ep->proc_buf_num == 0) {
++ /** Buffer 0 descriptors setup */
++ dma_ad = dwc_ep->dma_addr0;
++ } else {
++ /** Buffer 1 descriptors setup */
++ dma_ad = dwc_ep->dma_addr1;
++ }
++
++ /** Reinit closed DMA Descriptors*/
++ /** ISO OUT EP */
++ if (dwc_ep->is_in == 0) {
++ dma_desc =
++ dwc_ep->iso_desc_addr +
++ dwc_ep->desc_cnt * dwc_ep->proc_buf_num;
++
++ sts.b_iso_out.bs = BS_HOST_READY;
++ sts.b_iso_out.rxsts = 0;
++ sts.b_iso_out.l = 0;
++ sts.b_iso_out.sp = 0;
++ sts.b_iso_out.ioc = 0;
++ sts.b_iso_out.pid = 0;
++ sts.b_iso_out.framenum = 0;
++
++ for (i = 0; i < dwc_ep->desc_cnt - dwc_ep->pkt_per_frm;
++ i += dwc_ep->pkt_per_frm) {
++ for (j = 0; j < dwc_ep->pkt_per_frm; ++j) {
++ data_per_desc =
++ ((j + 1) * dwc_ep->maxpacket >
++ dwc_ep->
++ data_per_frame) ? dwc_ep->data_per_frame -
++ j * dwc_ep->maxpacket : dwc_ep->maxpacket;
++ data_per_desc +=
++ (data_per_desc % 4) ? (4 -
++ data_per_desc %
++ 4) : 0;
++ sts.b_iso_out.rxbytes = data_per_desc;
++ dma_desc->buf = dma_ad;
++ dma_desc->status.d32 = sts.d32;
++
++ dma_ad += data_per_desc;
++ dma_desc++;
++ }
++ }
++
++ for (j = 0; j < dwc_ep->pkt_per_frm - 1; ++j) {
++
++ data_per_desc =
++ ((j + 1) * dwc_ep->maxpacket >
++ dwc_ep->data_per_frame) ? dwc_ep->data_per_frame -
++ j * dwc_ep->maxpacket : dwc_ep->maxpacket;
++ data_per_desc +=
++ (data_per_desc % 4) ? (4 - data_per_desc % 4) : 0;
++ sts.b_iso_out.rxbytes = data_per_desc;
++
++ dma_desc->buf = dma_ad;
++ dma_desc->status.d32 = sts.d32;
++
++ dma_desc++;
++ dma_ad += data_per_desc;
++ }
++
++ sts.b_iso_out.ioc = 1;
++ sts.b_iso_out.l = dwc_ep->proc_buf_num;
++
++ data_per_desc =
++ ((j + 1) * dwc_ep->maxpacket >
++ dwc_ep->data_per_frame) ? dwc_ep->data_per_frame -
++ j * dwc_ep->maxpacket : dwc_ep->maxpacket;
++ data_per_desc +=
++ (data_per_desc % 4) ? (4 - data_per_desc % 4) : 0;
++ sts.b_iso_out.rxbytes = data_per_desc;
++
++ dma_desc->buf = dma_ad;
++ dma_desc->status.d32 = sts.d32;
++ } else {
++/** ISO IN EP */
++
++ dma_desc =
++ dwc_ep->iso_desc_addr +
++ dwc_ep->desc_cnt * dwc_ep->proc_buf_num;
++
++ sts.b_iso_in.bs = BS_HOST_READY;
++ sts.b_iso_in.txsts = 0;
++ sts.b_iso_in.sp = 0;
++ sts.b_iso_in.ioc = 0;
++ sts.b_iso_in.pid = dwc_ep->pkt_per_frm;
++ sts.b_iso_in.framenum = dwc_ep->next_frame;
++ sts.b_iso_in.txbytes = dwc_ep->data_per_frame;
++ sts.b_iso_in.l = 0;
++
++ for (i = 0; i < dwc_ep->desc_cnt - 1; i++) {
++ dma_desc->buf = dma_ad;
++ dma_desc->status.d32 = sts.d32;
++
++ sts.b_iso_in.framenum += dwc_ep->bInterval;
++ dma_ad += dwc_ep->data_per_frame;
++ dma_desc++;
++ }
++
++ sts.b_iso_in.ioc = 1;
++ sts.b_iso_in.l = dwc_ep->proc_buf_num;
++
++ dma_desc->buf = dma_ad;
++ dma_desc->status.d32 = sts.d32;
++
++ dwc_ep->next_frame =
++ sts.b_iso_in.framenum + dwc_ep->bInterval * 1;
++ }
++ dwc_ep->proc_buf_num = (dwc_ep->proc_buf_num ^ 1) & 0x1;
++}
++
++/**
++ * This function is to handle Iso EP transfer complete interrupt
++ * in case Iso out packet was dropped
++ *
++ * @param core_if Programming view of DWC_otg controller.
++ * @param dwc_ep The EP for wihich transfer complete was asserted
++ *
++ */
++static uint32_t handle_iso_out_pkt_dropped(dwc_otg_core_if_t * core_if,
++ dwc_ep_t * dwc_ep)
++{
++ uint32_t dma_addr;
++ uint32_t drp_pkt;
++ uint32_t drp_pkt_cnt;
++ deptsiz_data_t deptsiz = {.d32 = 0 };
++ depctl_data_t depctl = {.d32 = 0 };
++ int i;
++
++ deptsiz.d32 =
++ DWC_READ_REG32(&core_if->dev_if->
++ out_ep_regs[dwc_ep->num]->doeptsiz);
++
++ drp_pkt = dwc_ep->pkt_cnt - deptsiz.b.pktcnt;
++ drp_pkt_cnt = dwc_ep->pkt_per_frm - (drp_pkt % dwc_ep->pkt_per_frm);
++
++ /* Setting dropped packets status */
++ for (i = 0; i < drp_pkt_cnt; ++i) {
++ dwc_ep->pkt_info[drp_pkt].status = -DWC_E_NO_DATA;
++ drp_pkt++;
++ deptsiz.b.pktcnt--;
++ }
++
++ if (deptsiz.b.pktcnt > 0) {
++ deptsiz.b.xfersize =
++ dwc_ep->xfer_len - (dwc_ep->pkt_cnt -
++ deptsiz.b.pktcnt) * dwc_ep->maxpacket;
++ } else {
++ deptsiz.b.xfersize = 0;
++ deptsiz.b.pktcnt = 0;
++ }
++
++ DWC_WRITE_REG32(&core_if->dev_if->out_ep_regs[dwc_ep->num]->doeptsiz,
++ deptsiz.d32);
++
++ if (deptsiz.b.pktcnt > 0) {
++ if (dwc_ep->proc_buf_num) {
++ dma_addr =
++ dwc_ep->dma_addr1 + dwc_ep->xfer_len -
++ deptsiz.b.xfersize;
++ } else {
++ dma_addr =
++ dwc_ep->dma_addr0 + dwc_ep->xfer_len -
++ deptsiz.b.xfersize;;
++ }
++
++ DWC_WRITE_REG32(&core_if->dev_if->
++ out_ep_regs[dwc_ep->num]->doepdma, dma_addr);
++
++ /** Re-enable endpoint, clear nak */
++ depctl.d32 = 0;
++ depctl.b.epena = 1;
++ depctl.b.cnak = 1;
++
++ DWC_MODIFY_REG32(&core_if->dev_if->
++ out_ep_regs[dwc_ep->num]->doepctl, depctl.d32,
++ depctl.d32);
++ return 0;
++ } else {
++ return 1;
++ }
++}
++
++/**
++ * This function sets iso packets information(PTI mode)
++ *
++ * @param core_if Programming view of DWC_otg controller.
++ * @param ep The EP to start the transfer on.
++ *
++ */
++static uint32_t set_iso_pkts_info(dwc_otg_core_if_t * core_if, dwc_ep_t * ep)
++{
++ int i, j;
++ dma_addr_t dma_ad;
++ iso_pkt_info_t *packet_info = ep->pkt_info;
++ uint32_t offset;
++ uint32_t frame_data;
++ deptsiz_data_t deptsiz;
++
++ if (ep->proc_buf_num == 0) {
++ /** Buffer 0 descriptors setup */
++ dma_ad = ep->dma_addr0;
++ } else {
++ /** Buffer 1 descriptors setup */
++ dma_ad = ep->dma_addr1;
++ }
++
++ if (ep->is_in) {
++ deptsiz.d32 =
++ DWC_READ_REG32(&core_if->dev_if->in_ep_regs[ep->num]->
++ dieptsiz);
++ } else {
++ deptsiz.d32 =
++ DWC_READ_REG32(&core_if->dev_if->out_ep_regs[ep->num]->
++ doeptsiz);
++ }
++
++ if (!deptsiz.b.xfersize) {
++ offset = 0;
++ for (i = 0; i < ep->pkt_cnt; i += ep->pkt_per_frm) {
++ frame_data = ep->data_per_frame;
++ for (j = 0; j < ep->pkt_per_frm; ++j) {
++
++ /* Packet status - is not set as initially
++ * it is set to 0 and if packet was sent
++ successfully, status field will remain 0*/
++
++ /* Bytes has been transfered */
++ packet_info->length =
++ (ep->maxpacket <
++ frame_data) ? ep->maxpacket : frame_data;
++
++ /* Received packet offset */
++ packet_info->offset = offset;
++ offset += packet_info->length;
++ frame_data -= packet_info->length;
++
++ packet_info++;
++ }
++ }
++ return 1;
++ } else {
++ /* This is a workaround for in case of Transfer Complete with
++ * PktDrpSts interrupts merging - in this case Transfer complete
++ * interrupt for Isoc Out Endpoint is asserted without PktDrpSts
++ * set and with DOEPTSIZ register non zero. Investigations showed,
++ * that this happens when Out packet is dropped, but because of
++ * interrupts merging during first interrupt handling PktDrpSts
++ * bit is cleared and for next merged interrupts it is not reset.
++ * In this case SW hadles the interrupt as if PktDrpSts bit is set.
++ */
++ if (ep->is_in) {
++ return 1;
++ } else {
++ return handle_iso_out_pkt_dropped(core_if, ep);
++ }
++ }
++}
++
++/**
++ * This function is to handle Iso EP transfer complete interrupt
++ *
++ * @param pcd The PCD
++ * @param ep The EP for which transfer complete was asserted
++ *
++ */
++static void complete_iso_ep(dwc_otg_pcd_t * pcd, dwc_otg_pcd_ep_t * ep)
++{
++ dwc_otg_core_if_t *core_if = GET_CORE_IF(ep->pcd);
++ dwc_ep_t *dwc_ep = &ep->dwc_ep;
++ uint8_t is_last = 0;
++
++ if (ep->dwc_ep.next_frame == 0xffffffff) {
++ DWC_WARN("Next frame is not set!\n");
++ return;
++ }
++
++ if (core_if->dma_enable) {
++ if (core_if->dma_desc_enable) {
++ set_ddma_iso_pkts_info(core_if, dwc_ep);
++ reinit_ddma_iso_xfer(core_if, dwc_ep);
++ is_last = 1;
++ } else {
++ if (core_if->pti_enh_enable) {
++ if (set_iso_pkts_info(core_if, dwc_ep)) {
++ dwc_ep->proc_buf_num =
++ (dwc_ep->proc_buf_num ^ 1) & 0x1;
++ dwc_otg_iso_ep_start_buf_transfer
++ (core_if, dwc_ep);
++ is_last = 1;
++ }
++ } else {
++ set_current_pkt_info(core_if, dwc_ep);
++ if (dwc_ep->cur_pkt >= dwc_ep->pkt_cnt) {
++ is_last = 1;
++ dwc_ep->cur_pkt = 0;
++ dwc_ep->proc_buf_num =
++ (dwc_ep->proc_buf_num ^ 1) & 0x1;
++ if (dwc_ep->proc_buf_num) {
++ dwc_ep->cur_pkt_addr =
++ dwc_ep->xfer_buff1;
++ dwc_ep->cur_pkt_dma_addr =
++ dwc_ep->dma_addr1;
++ } else {
++ dwc_ep->cur_pkt_addr =
++ dwc_ep->xfer_buff0;
++ dwc_ep->cur_pkt_dma_addr =
++ dwc_ep->dma_addr0;
++ }
++
++ }
++ dwc_otg_iso_ep_start_frm_transfer(core_if,
++ dwc_ep);
++ }
++ }
++ } else {
++ set_current_pkt_info(core_if, dwc_ep);
++ if (dwc_ep->cur_pkt >= dwc_ep->pkt_cnt) {
++ is_last = 1;
++ dwc_ep->cur_pkt = 0;
++ dwc_ep->proc_buf_num = (dwc_ep->proc_buf_num ^ 1) & 0x1;
++ if (dwc_ep->proc_buf_num) {
++ dwc_ep->cur_pkt_addr = dwc_ep->xfer_buff1;
++ dwc_ep->cur_pkt_dma_addr = dwc_ep->dma_addr1;
++ } else {
++ dwc_ep->cur_pkt_addr = dwc_ep->xfer_buff0;
++ dwc_ep->cur_pkt_dma_addr = dwc_ep->dma_addr0;
++ }
++
++ }
++ dwc_otg_iso_ep_start_frm_transfer(core_if, dwc_ep);
++ }
++ if (is_last)
++ dwc_otg_iso_buffer_done(pcd, ep, ep->iso_req_handle);
++}
++#endif /* DWC_EN_ISOC */
++
++/**
++ * This function handle BNA interrupt for Non Isochronous EPs
++ *
++ */
++static void dwc_otg_pcd_handle_noniso_bna(dwc_otg_pcd_ep_t * ep)
++{
++ dwc_ep_t *dwc_ep = &ep->dwc_ep;
++ volatile uint32_t *addr;
++ depctl_data_t depctl = {.d32 = 0 };
++ dwc_otg_pcd_t *pcd = ep->pcd;
++ dwc_otg_dev_dma_desc_t *dma_desc;
++ dev_dma_desc_sts_t sts = {.d32 = 0 };
++ dwc_otg_core_if_t *core_if = ep->pcd->core_if;
++ int i, start;
++
++ if (!dwc_ep->desc_cnt)
++ DWC_WARN("Ep%d %s Descriptor count = %d \n", dwc_ep->num,
++ (dwc_ep->is_in ? "IN" : "OUT"), dwc_ep->desc_cnt);
++
++ if (core_if->core_params->cont_on_bna && !dwc_ep->is_in
++ && dwc_ep->type != DWC_OTG_EP_TYPE_CONTROL) {
++ uint32_t doepdma;
++ dwc_otg_dev_out_ep_regs_t *out_regs =
++ core_if->dev_if->out_ep_regs[dwc_ep->num];
++ doepdma = DWC_READ_REG32(&(out_regs->doepdma));
++ start = (doepdma - dwc_ep->dma_desc_addr)/sizeof(dwc_otg_dev_dma_desc_t);
++ dma_desc = &(dwc_ep->desc_addr[start]);
++ } else {
++ start = 0;
++ dma_desc = dwc_ep->desc_addr;
++ }
++
++
++ for (i = start; i < dwc_ep->desc_cnt; ++i, ++dma_desc) {
++ sts.d32 = dma_desc->status.d32;
++ sts.b.bs = BS_HOST_READY;
++ dma_desc->status.d32 = sts.d32;
++ }
++
++ if (dwc_ep->is_in == 0) {
++ addr =
++ &GET_CORE_IF(pcd)->dev_if->out_ep_regs[dwc_ep->num]->
++ doepctl;
++ } else {
++ addr =
++ &GET_CORE_IF(pcd)->dev_if->in_ep_regs[dwc_ep->num]->diepctl;
++ }
++ depctl.b.epena = 1;
++ depctl.b.cnak = 1;
++ DWC_MODIFY_REG32(addr, 0, depctl.d32);
++}
++
++/**
++ * This function handles EP0 Control transfers.
++ *
++ * The state of the control transfers are tracked in
++ * <code>ep0state</code>.
++ */
++static void handle_ep0(dwc_otg_pcd_t * pcd)
++{
++ dwc_otg_core_if_t *core_if = GET_CORE_IF(pcd);
++ dwc_otg_pcd_ep_t *ep0 = &pcd->ep0;
++ dev_dma_desc_sts_t desc_sts;
++ deptsiz0_data_t deptsiz;
++ uint32_t byte_count;
++
++#ifdef DEBUG_EP0
++ DWC_DEBUGPL(DBG_PCDV, "%s()\n", __func__);
++ print_ep0_state(pcd);
++#endif
++
++// DWC_PRINTF("HANDLE EP0\n");
++
++ switch (pcd->ep0state) {
++ case EP0_DISCONNECT:
++ break;
++
++ case EP0_IDLE:
++ pcd->request_config = 0;
++
++ pcd_setup(pcd);
++ break;
++
++ case EP0_IN_DATA_PHASE:
++#ifdef DEBUG_EP0
++ DWC_DEBUGPL(DBG_PCD, "DATA_IN EP%d-%s: type=%d, mps=%d\n",
++ ep0->dwc_ep.num, (ep0->dwc_ep.is_in ? "IN" : "OUT"),
++ ep0->dwc_ep.type, ep0->dwc_ep.maxpacket);
++#endif
++
++ if (core_if->dma_enable != 0) {
++ /*
++ * For EP0 we can only program 1 packet at a time so we
++ * need to do the make calculations after each complete.
++ * Call write_packet to make the calculations, as in
++ * slave mode, and use those values to determine if we
++ * can complete.
++ */
++ if (core_if->dma_desc_enable == 0) {
++ deptsiz.d32 =
++ DWC_READ_REG32(&core_if->
++ dev_if->in_ep_regs[0]->
++ dieptsiz);
++ byte_count =
++ ep0->dwc_ep.xfer_len - deptsiz.b.xfersize;
++ } else {
++ desc_sts =
++ core_if->dev_if->in_desc_addr->status;
++ byte_count =
++ ep0->dwc_ep.xfer_len - desc_sts.b.bytes;
++ }
++ ep0->dwc_ep.xfer_count += byte_count;
++ ep0->dwc_ep.xfer_buff += byte_count;
++ ep0->dwc_ep.dma_addr += byte_count;
++ }
++ if (ep0->dwc_ep.xfer_count < ep0->dwc_ep.total_len) {
++ dwc_otg_ep0_continue_transfer(GET_CORE_IF(pcd),
++ &ep0->dwc_ep);
++ DWC_DEBUGPL(DBG_PCD, "CONTINUE TRANSFER\n");
++ } else if (ep0->dwc_ep.sent_zlp) {
++ dwc_otg_ep0_continue_transfer(GET_CORE_IF(pcd),
++ &ep0->dwc_ep);
++ ep0->dwc_ep.sent_zlp = 0;
++ DWC_DEBUGPL(DBG_PCD, "CONTINUE TRANSFER sent zlp\n");
++ } else {
++ ep0_complete_request(ep0);
++ DWC_DEBUGPL(DBG_PCD, "COMPLETE TRANSFER\n");
++ }
++ break;
++ case EP0_OUT_DATA_PHASE:
++#ifdef DEBUG_EP0
++ DWC_DEBUGPL(DBG_PCD, "DATA_OUT EP%d-%s: type=%d, mps=%d\n",
++ ep0->dwc_ep.num, (ep0->dwc_ep.is_in ? "IN" : "OUT"),
++ ep0->dwc_ep.type, ep0->dwc_ep.maxpacket);
++#endif
++ if (core_if->dma_enable != 0) {
++ if (core_if->dma_desc_enable == 0) {
++ deptsiz.d32 =
++ DWC_READ_REG32(&core_if->
++ dev_if->out_ep_regs[0]->
++ doeptsiz);
++ byte_count =
++ ep0->dwc_ep.maxpacket - deptsiz.b.xfersize;
++ } else {
++ desc_sts =
++ core_if->dev_if->out_desc_addr->status;
++ byte_count =
++ ep0->dwc_ep.maxpacket - desc_sts.b.bytes;
++ }
++ ep0->dwc_ep.xfer_count += byte_count;
++ ep0->dwc_ep.xfer_buff += byte_count;
++ ep0->dwc_ep.dma_addr += byte_count;
++ }
++ if (ep0->dwc_ep.xfer_count < ep0->dwc_ep.total_len) {
++ dwc_otg_ep0_continue_transfer(GET_CORE_IF(pcd),
++ &ep0->dwc_ep);
++ DWC_DEBUGPL(DBG_PCD, "CONTINUE TRANSFER\n");
++ } else if (ep0->dwc_ep.sent_zlp) {
++ dwc_otg_ep0_continue_transfer(GET_CORE_IF(pcd),
++ &ep0->dwc_ep);
++ ep0->dwc_ep.sent_zlp = 0;
++ DWC_DEBUGPL(DBG_PCD, "CONTINUE TRANSFER sent zlp\n");
++ } else {
++ ep0_complete_request(ep0);
++ DWC_DEBUGPL(DBG_PCD, "COMPLETE TRANSFER\n");
++ }
++ break;
++
++ case EP0_IN_STATUS_PHASE:
++ case EP0_OUT_STATUS_PHASE:
++ DWC_DEBUGPL(DBG_PCD, "CASE: EP0_STATUS\n");
++ ep0_complete_request(ep0);
++ pcd->ep0state = EP0_IDLE;
++ ep0->stopped = 1;
++ ep0->dwc_ep.is_in = 0; /* OUT for next SETUP */
++
++ /* Prepare for more SETUP Packets */
++ if (core_if->dma_enable) {
++ ep0_out_start(core_if, pcd);
++ }
++ break;
++
++ case EP0_STALL:
++ DWC_ERROR("EP0 STALLed, should not get here pcd_setup()\n");
++ break;
++ }
++#ifdef DEBUG_EP0
++ print_ep0_state(pcd);
++#endif
++}
++
++/**
++ * Restart transfer
++ */
++static void restart_transfer(dwc_otg_pcd_t * pcd, const uint32_t epnum)
++{
++ dwc_otg_core_if_t *core_if;
++ dwc_otg_dev_if_t *dev_if;
++ deptsiz_data_t dieptsiz = {.d32 = 0 };
++ dwc_otg_pcd_ep_t *ep;
++
++ ep = get_in_ep(pcd, epnum);
++
++#ifdef DWC_EN_ISOC
++ if (ep->dwc_ep.type == DWC_OTG_EP_TYPE_ISOC) {
++ return;
++ }
++#endif /* DWC_EN_ISOC */
++
++ core_if = GET_CORE_IF(pcd);
++ dev_if = core_if->dev_if;
++
++ dieptsiz.d32 = DWC_READ_REG32(&dev_if->in_ep_regs[epnum]->dieptsiz);
++
++ DWC_DEBUGPL(DBG_PCD, "xfer_buff=%p xfer_count=%0x xfer_len=%0x"
++ " stopped=%d\n", ep->dwc_ep.xfer_buff,
++ ep->dwc_ep.xfer_count, ep->dwc_ep.xfer_len, ep->stopped);
++ /*
++ * If xfersize is 0 and pktcnt in not 0, resend the last packet.
++ */
++ if (dieptsiz.b.pktcnt && dieptsiz.b.xfersize == 0 &&
++ ep->dwc_ep.start_xfer_buff != 0) {
++ if (ep->dwc_ep.total_len <= ep->dwc_ep.maxpacket) {
++ ep->dwc_ep.xfer_count = 0;
++ ep->dwc_ep.xfer_buff = ep->dwc_ep.start_xfer_buff;
++ ep->dwc_ep.xfer_len = ep->dwc_ep.xfer_count;
++ } else {
++ ep->dwc_ep.xfer_count -= ep->dwc_ep.maxpacket;
++ /* convert packet size to dwords. */
++ ep->dwc_ep.xfer_buff -= ep->dwc_ep.maxpacket;
++ ep->dwc_ep.xfer_len = ep->dwc_ep.xfer_count;
++ }
++ ep->stopped = 0;
++ DWC_DEBUGPL(DBG_PCD, "xfer_buff=%p xfer_count=%0x "
++ "xfer_len=%0x stopped=%d\n",
++ ep->dwc_ep.xfer_buff,
++ ep->dwc_ep.xfer_count, ep->dwc_ep.xfer_len,
++ ep->stopped);
++ if (epnum == 0) {
++ dwc_otg_ep0_start_transfer(core_if, &ep->dwc_ep);
++ } else {
++ dwc_otg_ep_start_transfer(core_if, &ep->dwc_ep);
++ }
++ }
++}
++
++/*
++ * This function create new nextep sequnce based on Learn Queue.
++ *
++ * @param core_if Programming view of DWC_otg controller
++ */
++void predict_nextep_seq( dwc_otg_core_if_t * core_if)
++{
++ dwc_otg_device_global_regs_t *dev_global_regs =
++ core_if->dev_if->dev_global_regs;
++ const uint32_t TOKEN_Q_DEPTH = core_if->hwcfg2.b.dev_token_q_depth;
++ /* Number of Token Queue Registers */
++ const int DTKNQ_REG_CNT = (TOKEN_Q_DEPTH + 7) / 8;
++ dtknq1_data_t dtknqr1;
++ uint32_t in_tkn_epnums[4];
++ uint8_t seqnum[MAX_EPS_CHANNELS];
++ uint8_t intkn_seq[TOKEN_Q_DEPTH];
++ grstctl_t resetctl = {.d32 = 0 };
++ uint8_t temp;
++ int ndx = 0;
++ int start = 0;
++ int end = 0;
++ int sort_done = 0;
++ int i = 0;
++ volatile uint32_t *addr = &dev_global_regs->dtknqr1;
++
++
++ DWC_DEBUGPL(DBG_PCD,"dev_token_q_depth=%d\n",TOKEN_Q_DEPTH);
++
++ /* Read the DTKNQ Registers */
++ for (i = 0; i < DTKNQ_REG_CNT; i++) {
++ in_tkn_epnums[i] = DWC_READ_REG32(addr);
++ DWC_DEBUGPL(DBG_PCDV, "DTKNQR%d=0x%08x\n", i + 1,
++ in_tkn_epnums[i]);
++ if (addr == &dev_global_regs->dvbusdis) {
++ addr = &dev_global_regs->dtknqr3_dthrctl;
++ } else {
++ ++addr;
++ }
++
++ }
++
++ /* Copy the DTKNQR1 data to the bit field. */
++ dtknqr1.d32 = in_tkn_epnums[0];
++ if (dtknqr1.b.wrap_bit) {
++ ndx = dtknqr1.b.intknwptr;
++ end = ndx -1;
++ if (end < 0)
++ end = TOKEN_Q_DEPTH -1;
++ } else {
++ ndx = 0;
++ end = dtknqr1.b.intknwptr -1;
++ if (end < 0)
++ end = 0;
++ }
++ start = ndx;
++
++ /* Fill seqnum[] by initial values: EP number + 31 */
++ for (i=0; i <= core_if->dev_if->num_in_eps; i++) {
++ seqnum[i] = i +31;
++ }
++
++ /* Fill intkn_seq[] from in_tkn_epnums[0] */
++ for (i=0; i < 6; i++)
++ intkn_seq[i] = (in_tkn_epnums[0] >> ((7-i) * 4)) & 0xf;
++
++ if (TOKEN_Q_DEPTH > 6) {
++ /* Fill intkn_seq[] from in_tkn_epnums[1] */
++ for (i=6; i < 14; i++)
++ intkn_seq[i] =
++ (in_tkn_epnums[1] >> ((7 - (i - 6)) * 4)) & 0xf;
++ }
++
++ if (TOKEN_Q_DEPTH > 14) {
++ /* Fill intkn_seq[] from in_tkn_epnums[1] */
++ for (i=14; i < 22; i++)
++ intkn_seq[i] =
++ (in_tkn_epnums[2] >> ((7 - (i - 14)) * 4)) & 0xf;
++ }
++
++ if (TOKEN_Q_DEPTH > 22) {
++ /* Fill intkn_seq[] from in_tkn_epnums[1] */
++ for (i=22; i < 30; i++)
++ intkn_seq[i] =
++ (in_tkn_epnums[3] >> ((7 - (i - 22)) * 4)) & 0xf;
++ }
++
++ DWC_DEBUGPL(DBG_PCDV, "%s start=%d end=%d intkn_seq[]:\n", __func__,
++ start, end);
++ for (i=0; i<TOKEN_Q_DEPTH; i++)
++ DWC_DEBUGPL(DBG_PCDV,"%d\n", intkn_seq[i]);
++
++ /* Update seqnum based on intkn_seq[] */
++ i = 0;
++ do {
++ seqnum[intkn_seq[ndx]] = i;
++ ndx++;
++ i++;
++ if (ndx == TOKEN_Q_DEPTH)
++ ndx = 0;
++ } while ( i < TOKEN_Q_DEPTH );
++
++ /* Mark non active EP's in seqnum[] by 0xff */
++ for (i=0; i<=core_if->dev_if->num_in_eps; i++) {
++ if (core_if->nextep_seq[i] == 0xff )
++ seqnum[i] = 0xff;
++ }
++
++ /* Sort seqnum[] */
++ sort_done = 0;
++ while (!sort_done) {
++ sort_done = 1;
++ for (i=0; i<core_if->dev_if->num_in_eps; i++) {
++ if (seqnum[i] > seqnum[i+1]) {
++ temp = seqnum[i];
++ seqnum[i] = seqnum[i+1];
++ seqnum[i+1] = temp;
++ sort_done = 0;
++ }
++ }
++ }
++
++ ndx = start + seqnum[0];
++ if (ndx >= TOKEN_Q_DEPTH)
++ ndx = ndx % TOKEN_Q_DEPTH;
++ core_if->first_in_nextep_seq = intkn_seq[ndx];
++
++ /* Update seqnum[] by EP numbers */
++ for (i=0; i<=core_if->dev_if->num_in_eps; i++) {
++ ndx = start + i;
++ if (seqnum[i] < 31) {
++ ndx = start + seqnum[i];
++ if (ndx >= TOKEN_Q_DEPTH)
++ ndx = ndx % TOKEN_Q_DEPTH;
++ seqnum[i] = intkn_seq[ndx];
++ } else {
++ if (seqnum[i] < 0xff) {
++ seqnum[i] = seqnum[i] - 31;
++ } else {
++ break;
++ }
++ }
++ }
++
++ /* Update nextep_seq[] based on seqnum[] */
++ for (i=0; i<core_if->dev_if->num_in_eps; i++) {
++ if (seqnum[i] != 0xff) {
++ if (seqnum[i+1] != 0xff) {
++ core_if->nextep_seq[seqnum[i]] = seqnum[i+1];
++ } else {
++ core_if->nextep_seq[seqnum[i]] = core_if->first_in_nextep_seq;
++ break;
++ }
++ } else {
++ break;
++ }
++ }
++
++ DWC_DEBUGPL(DBG_PCDV, "%s first_in_nextep_seq= %2d; nextep_seq[]:\n",
++ __func__, core_if->first_in_nextep_seq);
++ for (i=0; i <= core_if->dev_if->num_in_eps; i++) {
++ DWC_DEBUGPL(DBG_PCDV,"%2d\n", core_if->nextep_seq[i]);
++ }
++
++ /* Flush the Learning Queue */
++ resetctl.d32 = DWC_READ_REG32(&core_if->core_global_regs->grstctl);
++ resetctl.b.intknqflsh = 1;
++ DWC_WRITE_REG32(&core_if->core_global_regs->grstctl, resetctl.d32);
++
++
++}
++
++/**
++ * handle the IN EP disable interrupt.
++ */
++static inline void handle_in_ep_disable_intr(dwc_otg_pcd_t * pcd,
++ const uint32_t epnum)
++{
++ dwc_otg_core_if_t *core_if = GET_CORE_IF(pcd);
++ dwc_otg_dev_if_t *dev_if = core_if->dev_if;
++ deptsiz_data_t dieptsiz = {.d32 = 0 };
++ dctl_data_t dctl = {.d32 = 0 };
++ dwc_otg_pcd_ep_t *ep;
++ dwc_ep_t *dwc_ep;
++ gintmsk_data_t gintmsk_data;
++ depctl_data_t depctl;
++ uint32_t diepdma;
++ uint32_t remain_to_transfer = 0;
++ uint8_t i;
++ uint32_t xfer_size;
++
++ ep = get_in_ep(pcd, epnum);
++ dwc_ep = &ep->dwc_ep;
++
++ if (dwc_ep->type == DWC_OTG_EP_TYPE_ISOC) {
++ dwc_otg_flush_tx_fifo(core_if, dwc_ep->tx_fifo_num);
++ complete_ep(ep);
++ return;
++ }
++
++ DWC_DEBUGPL(DBG_PCD, "diepctl%d=%0x\n", epnum,
++ DWC_READ_REG32(&dev_if->in_ep_regs[epnum]->diepctl));
++ dieptsiz.d32 = DWC_READ_REG32(&dev_if->in_ep_regs[epnum]->dieptsiz);
++ depctl.d32 = DWC_READ_REG32(&dev_if->in_ep_regs[epnum]->diepctl);
++
++ DWC_DEBUGPL(DBG_ANY, "pktcnt=%d size=%d\n",
++ dieptsiz.b.pktcnt, dieptsiz.b.xfersize);
++
++ if ((core_if->start_predict == 0) || (depctl.b.eptype & 1)) {
++ if (ep->stopped) {
++ if (core_if->en_multiple_tx_fifo)
++ /* Flush the Tx FIFO */
++ dwc_otg_flush_tx_fifo(core_if, dwc_ep->tx_fifo_num);
++ /* Clear the Global IN NP NAK */
++ dctl.d32 = 0;
++ dctl.b.cgnpinnak = 1;
++ DWC_MODIFY_REG32(&dev_if->dev_global_regs->dctl, dctl.d32, dctl.d32);
++ /* Restart the transaction */
++ if (dieptsiz.b.pktcnt != 0 || dieptsiz.b.xfersize != 0) {
++ restart_transfer(pcd, epnum);
++ }
++ } else {
++ /* Restart the transaction */
++ if (dieptsiz.b.pktcnt != 0 || dieptsiz.b.xfersize != 0) {
++ restart_transfer(pcd, epnum);
++ }
++ DWC_DEBUGPL(DBG_ANY, "STOPPED!!!\n");
++ }
++ return;
++ }
++
++ if (core_if->start_predict > 2) { // NP IN EP
++ core_if->start_predict--;
++ return;
++ }
++
++ core_if->start_predict--;
++
++ if (core_if->start_predict == 1) { // All NP IN Ep's disabled now
++
++ predict_nextep_seq(core_if);
++
++ /* Update all active IN EP's NextEP field based of nextep_seq[] */
++ for ( i = 0; i <= core_if->dev_if->num_in_eps; i++) {
++ depctl.d32 =
++ DWC_READ_REG32(&dev_if->in_ep_regs[i]->diepctl);
++ if (core_if->nextep_seq[i] != 0xff) { // Active NP IN EP
++ depctl.b.nextep = core_if->nextep_seq[i];
++ DWC_WRITE_REG32(&dev_if->in_ep_regs[i]->diepctl, depctl.d32);
++ }
++ }
++ /* Flush Shared NP TxFIFO */
++ dwc_otg_flush_tx_fifo(core_if, 0);
++ /* Rewind buffers */
++ if (!core_if->dma_desc_enable) {
++ i = core_if->first_in_nextep_seq;
++ do {
++ ep = get_in_ep(pcd, i);
++ dieptsiz.d32 = DWC_READ_REG32(&dev_if->in_ep_regs[i]->dieptsiz);
++ xfer_size = ep->dwc_ep.total_len - ep->dwc_ep.xfer_count;
++ if (xfer_size > ep->dwc_ep.maxxfer)
++ xfer_size = ep->dwc_ep.maxxfer;
++ depctl.d32 = DWC_READ_REG32(&dev_if->in_ep_regs[i]->diepctl);
++ if (dieptsiz.b.pktcnt != 0) {
++ if (xfer_size == 0) {
++ remain_to_transfer = 0;
++ } else {
++ if ((xfer_size % ep->dwc_ep.maxpacket) == 0) {
++ remain_to_transfer =
++ dieptsiz.b.pktcnt * ep->dwc_ep.maxpacket;
++ } else {
++ remain_to_transfer = ((dieptsiz.b.pktcnt -1) * ep->dwc_ep.maxpacket)
++ + (xfer_size % ep->dwc_ep.maxpacket);
++ }
++ }
++ diepdma = DWC_READ_REG32(&dev_if->in_ep_regs[i]->diepdma);
++ dieptsiz.b.xfersize = remain_to_transfer;
++ DWC_WRITE_REG32(&dev_if->in_ep_regs[i]->dieptsiz, dieptsiz.d32);
++ diepdma = ep->dwc_ep.dma_addr + (xfer_size - remain_to_transfer);
++ DWC_WRITE_REG32(&dev_if->in_ep_regs[i]->diepdma, diepdma);
++ }
++ i = core_if->nextep_seq[i];
++ } while (i != core_if->first_in_nextep_seq);
++ } else { // dma_desc_enable
++ DWC_PRINTF("%s Learning Queue not supported in DDMA\n", __func__);
++ }
++
++ /* Restart transfers in predicted sequences */
++ i = core_if->first_in_nextep_seq;
++ do {
++ dieptsiz.d32 = DWC_READ_REG32(&dev_if->in_ep_regs[i]->dieptsiz);
++ depctl.d32 = DWC_READ_REG32(&dev_if->in_ep_regs[i]->diepctl);
++ if (dieptsiz.b.pktcnt != 0) {
++ depctl.d32 = DWC_READ_REG32(&dev_if->in_ep_regs[i]->diepctl);
++ depctl.b.epena = 1;
++ depctl.b.cnak = 1;
++ DWC_WRITE_REG32(&dev_if->in_ep_regs[i]->diepctl, depctl.d32);
++ }
++ i = core_if->nextep_seq[i];
++ } while (i != core_if->first_in_nextep_seq);
++
++ /* Clear the global non-periodic IN NAK handshake */
++ dctl.d32 = 0;
++ dctl.b.cgnpinnak = 1;
++ DWC_MODIFY_REG32(&dev_if->dev_global_regs->dctl, dctl.d32, dctl.d32);
++
++ /* Unmask EP Mismatch interrupt */
++ gintmsk_data.d32 = 0;
++ gintmsk_data.b.epmismatch = 1;
++ DWC_MODIFY_REG32(&core_if->core_global_regs->gintmsk, 0, gintmsk_data.d32);
++
++ core_if->start_predict = 0;
++
++ }
++}
++
++/**
++ * Handler for the IN EP timeout handshake interrupt.
++ */
++static inline void handle_in_ep_timeout_intr(dwc_otg_pcd_t * pcd,
++ const uint32_t epnum)
++{
++ dwc_otg_core_if_t *core_if = GET_CORE_IF(pcd);
++ dwc_otg_dev_if_t *dev_if = core_if->dev_if;
++
++#ifdef DEBUG
++ deptsiz_data_t dieptsiz = {.d32 = 0 };
++ uint32_t num = 0;
++#endif
++ dctl_data_t dctl = {.d32 = 0 };
++ dwc_otg_pcd_ep_t *ep;
++
++ gintmsk_data_t intr_mask = {.d32 = 0 };
++
++ ep = get_in_ep(pcd, epnum);
++
++ /* Disable the NP Tx Fifo Empty Interrrupt */
++ if (!core_if->dma_enable) {
++ intr_mask.b.nptxfempty = 1;
++ DWC_MODIFY_REG32(&core_if->core_global_regs->gintmsk,
++ intr_mask.d32, 0);
++ }
++ /** @todo NGS Check EP type.
++ * Implement for Periodic EPs */
++ /*
++ * Non-periodic EP
++ */
++ /* Enable the Global IN NAK Effective Interrupt */
++ intr_mask.b.ginnakeff = 1;
++ DWC_MODIFY_REG32(&core_if->core_global_regs->gintmsk, 0, intr_mask.d32);
++
++ /* Set Global IN NAK */
++ dctl.b.sgnpinnak = 1;
++ DWC_MODIFY_REG32(&dev_if->dev_global_regs->dctl, dctl.d32, dctl.d32);
++
++ ep->stopped = 1;
++
++#ifdef DEBUG
++ dieptsiz.d32 = DWC_READ_REG32(&dev_if->in_ep_regs[num]->dieptsiz);
++ DWC_DEBUGPL(DBG_ANY, "pktcnt=%d size=%d\n",
++ dieptsiz.b.pktcnt, dieptsiz.b.xfersize);
++#endif
++
++#ifdef DISABLE_PERIODIC_EP
++ /*
++ * Set the NAK bit for this EP to
++ * start the disable process.
++ */
++ diepctl.d32 = 0;
++ diepctl.b.snak = 1;
++ DWC_MODIFY_REG32(&dev_if->in_ep_regs[num]->diepctl, diepctl.d32,
++ diepctl.d32);
++ ep->disabling = 1;
++ ep->stopped = 1;
++#endif
++}
++
++/**
++ * Handler for the IN EP NAK interrupt.
++ */
++static inline int32_t handle_in_ep_nak_intr(dwc_otg_pcd_t * pcd,
++ const uint32_t epnum)
++{
++ /** @todo implement ISR */
++ dwc_otg_core_if_t *core_if;
++ diepmsk_data_t intr_mask = {.d32 = 0 };
++
++ DWC_PRINTF("INTERRUPT Handler not implemented for %s\n", "IN EP NAK");
++ core_if = GET_CORE_IF(pcd);
++ intr_mask.b.nak = 1;
++
++ if (core_if->multiproc_int_enable) {
++ DWC_MODIFY_REG32(&core_if->dev_if->dev_global_regs->
++ diepeachintmsk[epnum], intr_mask.d32, 0);
++ } else {
++ DWC_MODIFY_REG32(&core_if->dev_if->dev_global_regs->diepmsk,
++ intr_mask.d32, 0);
++ }
++
++ return 1;
++}
++
++/**
++ * Handler for the OUT EP Babble interrupt.
++ */
++static inline int32_t handle_out_ep_babble_intr(dwc_otg_pcd_t * pcd,
++ const uint32_t epnum)
++{
++ /** @todo implement ISR */
++ dwc_otg_core_if_t *core_if;
++ doepmsk_data_t intr_mask = {.d32 = 0 };
++
++ DWC_PRINTF("INTERRUPT Handler not implemented for %s\n",
++ "OUT EP Babble");
++ core_if = GET_CORE_IF(pcd);
++ intr_mask.b.babble = 1;
++
++ if (core_if->multiproc_int_enable) {
++ DWC_MODIFY_REG32(&core_if->dev_if->dev_global_regs->
++ doepeachintmsk[epnum], intr_mask.d32, 0);
++ } else {
++ DWC_MODIFY_REG32(&core_if->dev_if->dev_global_regs->doepmsk,
++ intr_mask.d32, 0);
++ }
++
++ return 1;
++}
++
++/**
++ * Handler for the OUT EP NAK interrupt.
++ */
++static inline int32_t handle_out_ep_nak_intr(dwc_otg_pcd_t * pcd,
++ const uint32_t epnum)
++{
++ /** @todo implement ISR */
++ dwc_otg_core_if_t *core_if;
++ doepmsk_data_t intr_mask = {.d32 = 0 };
++
++ DWC_DEBUGPL(DBG_ANY, "INTERRUPT Handler not implemented for %s\n", "OUT EP NAK");
++ core_if = GET_CORE_IF(pcd);
++ intr_mask.b.nak = 1;
++
++ if (core_if->multiproc_int_enable) {
++ DWC_MODIFY_REG32(&core_if->dev_if->dev_global_regs->
++ doepeachintmsk[epnum], intr_mask.d32, 0);
++ } else {
++ DWC_MODIFY_REG32(&core_if->dev_if->dev_global_regs->doepmsk,
++ intr_mask.d32, 0);
++ }
++
++ return 1;
++}
++
++/**
++ * Handler for the OUT EP NYET interrupt.
++ */
++static inline int32_t handle_out_ep_nyet_intr(dwc_otg_pcd_t * pcd,
++ const uint32_t epnum)
++{
++ /** @todo implement ISR */
++ dwc_otg_core_if_t *core_if;
++ doepmsk_data_t intr_mask = {.d32 = 0 };
++
++ DWC_PRINTF("INTERRUPT Handler not implemented for %s\n", "OUT EP NYET");
++ core_if = GET_CORE_IF(pcd);
++ intr_mask.b.nyet = 1;
++
++ if (core_if->multiproc_int_enable) {
++ DWC_MODIFY_REG32(&core_if->dev_if->dev_global_regs->
++ doepeachintmsk[epnum], intr_mask.d32, 0);
++ } else {
++ DWC_MODIFY_REG32(&core_if->dev_if->dev_global_regs->doepmsk,
++ intr_mask.d32, 0);
++ }
++
++ return 1;
++}
++
++/**
++ * This interrupt indicates that an IN EP has a pending Interrupt.
++ * The sequence for handling the IN EP interrupt is shown below:
++ * -# Read the Device All Endpoint Interrupt register
++ * -# Repeat the following for each IN EP interrupt bit set (from
++ * LSB to MSB).
++ * -# Read the Device Endpoint Interrupt (DIEPINTn) register
++ * -# If "Transfer Complete" call the request complete function
++ * -# If "Endpoint Disabled" complete the EP disable procedure.
++ * -# If "AHB Error Interrupt" log error
++ * -# If "Time-out Handshake" log error
++ * -# If "IN Token Received when TxFIFO Empty" write packet to Tx
++ * FIFO.
++ * -# If "IN Token EP Mismatch" (disable, this is handled by EP
++ * Mismatch Interrupt)
++ */
++static int32_t dwc_otg_pcd_handle_in_ep_intr(dwc_otg_pcd_t * pcd)
++{
++#define CLEAR_IN_EP_INTR(__core_if,__epnum,__intr) \
++do { \
++ diepint_data_t diepint = {.d32=0}; \
++ diepint.b.__intr = 1; \
++ DWC_WRITE_REG32(&__core_if->dev_if->in_ep_regs[__epnum]->diepint, \
++ diepint.d32); \
++} while (0)
++
++ dwc_otg_core_if_t *core_if = GET_CORE_IF(pcd);
++ dwc_otg_dev_if_t *dev_if = core_if->dev_if;
++ diepint_data_t diepint = {.d32 = 0 };
++ depctl_data_t depctl = {.d32 = 0 };
++ uint32_t ep_intr;
++ uint32_t epnum = 0;
++ dwc_otg_pcd_ep_t *ep;
++ dwc_ep_t *dwc_ep;
++ gintmsk_data_t intr_mask = {.d32 = 0 };
++
++ DWC_DEBUGPL(DBG_PCDV, "%s(%p)\n", __func__, pcd);
++
++ /* Read in the device interrupt bits */
++ ep_intr = dwc_otg_read_dev_all_in_ep_intr(core_if);
++
++ /* Service the Device IN interrupts for each endpoint */
++ while (ep_intr) {
++ if (ep_intr & 0x1) {
++ uint32_t empty_msk;
++ /* Get EP pointer */
++ ep = get_in_ep(pcd, epnum);
++ dwc_ep = &ep->dwc_ep;
++
++ depctl.d32 =
++ DWC_READ_REG32(&dev_if->in_ep_regs[epnum]->diepctl);
++ empty_msk =
++ DWC_READ_REG32(&dev_if->
++ dev_global_regs->dtknqr4_fifoemptymsk);
++
++ DWC_DEBUGPL(DBG_PCDV,
++ "IN EP INTERRUPT - %d\nepmty_msk - %8x diepctl - %8x\n",
++ epnum, empty_msk, depctl.d32);
++
++ DWC_DEBUGPL(DBG_PCD,
++ "EP%d-%s: type=%d, mps=%d\n",
++ dwc_ep->num, (dwc_ep->is_in ? "IN" : "OUT"),
++ dwc_ep->type, dwc_ep->maxpacket);
++
++ diepint.d32 =
++ dwc_otg_read_dev_in_ep_intr(core_if, dwc_ep);
++
++ DWC_DEBUGPL(DBG_PCDV,
++ "EP %d Interrupt Register - 0x%x\n", epnum,
++ diepint.d32);
++ /* Transfer complete */
++ if (diepint.b.xfercompl) {
++ /* Disable the NP Tx FIFO Empty
++ * Interrupt */
++ if (core_if->en_multiple_tx_fifo == 0) {
++ intr_mask.b.nptxfempty = 1;
++ DWC_MODIFY_REG32
++ (&core_if->core_global_regs->gintmsk,
++ intr_mask.d32, 0);
++ } else {
++ /* Disable the Tx FIFO Empty Interrupt for this EP */
++ uint32_t fifoemptymsk =
++ 0x1 << dwc_ep->num;
++ DWC_MODIFY_REG32(&core_if->
++ dev_if->dev_global_regs->dtknqr4_fifoemptymsk,
++ fifoemptymsk, 0);
++ }
++ /* Clear the bit in DIEPINTn for this interrupt */
++ CLEAR_IN_EP_INTR(core_if, epnum, xfercompl);
++
++ /* Complete the transfer */
++ if (epnum == 0) {
++ handle_ep0(pcd);
++ }
++#ifdef DWC_EN_ISOC
++ else if (dwc_ep->type == DWC_OTG_EP_TYPE_ISOC) {
++ if (!ep->stopped)
++ complete_iso_ep(pcd, ep);
++ }
++#endif /* DWC_EN_ISOC */
++#ifdef DWC_UTE_PER_IO
++ else if (dwc_ep->type == DWC_OTG_EP_TYPE_ISOC) {
++ if (!ep->stopped)
++ complete_xiso_ep(ep);
++ }
++#endif /* DWC_UTE_PER_IO */
++ else {
++ if (dwc_ep->type == DWC_OTG_EP_TYPE_ISOC &&
++ dwc_ep->bInterval > 1) {
++ dwc_ep->frame_num += dwc_ep->bInterval;
++ if (dwc_ep->frame_num > 0x3FFF)
++ {
++ dwc_ep->frm_overrun = 1;
++ dwc_ep->frame_num &= 0x3FFF;
++ } else
++ dwc_ep->frm_overrun = 0;
++ }
++ complete_ep(ep);
++ if(diepint.b.nak)
++ CLEAR_IN_EP_INTR(core_if, epnum, nak);
++ }
++ }
++ /* Endpoint disable */
++ if (diepint.b.epdisabled) {
++ DWC_DEBUGPL(DBG_ANY, "EP%d IN disabled\n",
++ epnum);
++ handle_in_ep_disable_intr(pcd, epnum);
++
++ /* Clear the bit in DIEPINTn for this interrupt */
++ CLEAR_IN_EP_INTR(core_if, epnum, epdisabled);
++ }
++ /* AHB Error */
++ if (diepint.b.ahberr) {
++ DWC_ERROR("EP%d IN AHB Error\n", epnum);
++ /* Clear the bit in DIEPINTn for this interrupt */
++ CLEAR_IN_EP_INTR(core_if, epnum, ahberr);
++ }
++ /* TimeOUT Handshake (non-ISOC IN EPs) */
++ if (diepint.b.timeout) {
++ DWC_ERROR("EP%d IN Time-out\n", epnum);
++ handle_in_ep_timeout_intr(pcd, epnum);
++
++ CLEAR_IN_EP_INTR(core_if, epnum, timeout);
++ }
++ /** IN Token received with TxF Empty */
++ if (diepint.b.intktxfemp) {
++ DWC_DEBUGPL(DBG_ANY,
++ "EP%d IN TKN TxFifo Empty\n",
++ epnum);
++ if (!ep->stopped && epnum != 0) {
++
++ diepmsk_data_t diepmsk = {.d32 = 0 };
++ diepmsk.b.intktxfemp = 1;
++
++ if (core_if->multiproc_int_enable) {
++ DWC_MODIFY_REG32
++ (&dev_if->dev_global_regs->diepeachintmsk
++ [epnum], diepmsk.d32, 0);
++ } else {
++ DWC_MODIFY_REG32
++ (&dev_if->dev_global_regs->diepmsk,
++ diepmsk.d32, 0);
++ }
++ } else if (core_if->dma_desc_enable
++ && epnum == 0
++ && pcd->ep0state ==
++ EP0_OUT_STATUS_PHASE) {
++ // EP0 IN set STALL
++ depctl.d32 =
++ DWC_READ_REG32(&dev_if->in_ep_regs
++ [epnum]->diepctl);
++
++ /* set the disable and stall bits */
++ if (depctl.b.epena) {
++ depctl.b.epdis = 1;
++ }
++ depctl.b.stall = 1;
++ DWC_WRITE_REG32(&dev_if->in_ep_regs
++ [epnum]->diepctl,
++ depctl.d32);
++ }
++ CLEAR_IN_EP_INTR(core_if, epnum, intktxfemp);
++ }
++ /** IN Token Received with EP mismatch */
++ if (diepint.b.intknepmis) {
++ DWC_DEBUGPL(DBG_ANY,
++ "EP%d IN TKN EP Mismatch\n", epnum);
++ CLEAR_IN_EP_INTR(core_if, epnum, intknepmis);
++ }
++ /** IN Endpoint NAK Effective */
++ if (diepint.b.inepnakeff) {
++ DWC_DEBUGPL(DBG_ANY,
++ "EP%d IN EP NAK Effective\n",
++ epnum);
++ /* Periodic EP */
++ if (ep->disabling) {
++ depctl.d32 = 0;
++ depctl.b.snak = 1;
++ depctl.b.epdis = 1;
++ DWC_MODIFY_REG32(&dev_if->in_ep_regs
++ [epnum]->diepctl,
++ depctl.d32,
++ depctl.d32);
++ }
++ CLEAR_IN_EP_INTR(core_if, epnum, inepnakeff);
++
++ }
++
++ /** IN EP Tx FIFO Empty Intr */
++ if (diepint.b.emptyintr) {
++ DWC_DEBUGPL(DBG_ANY,
++ "EP%d Tx FIFO Empty Intr \n",
++ epnum);
++ write_empty_tx_fifo(pcd, epnum);
++
++ CLEAR_IN_EP_INTR(core_if, epnum, emptyintr);
++
++ }
++
++ /** IN EP BNA Intr */
++ if (diepint.b.bna) {
++ CLEAR_IN_EP_INTR(core_if, epnum, bna);
++ if (core_if->dma_desc_enable) {
++#ifdef DWC_EN_ISOC
++ if (dwc_ep->type ==
++ DWC_OTG_EP_TYPE_ISOC) {
++ /*
++ * This checking is performed to prevent first "false" BNA
++ * handling occuring right after reconnect
++ */
++ if (dwc_ep->next_frame !=
++ 0xffffffff)
++ dwc_otg_pcd_handle_iso_bna(ep);
++ } else
++#endif /* DWC_EN_ISOC */
++ {
++ dwc_otg_pcd_handle_noniso_bna(ep);
++ }
++ }
++ }
++ /* NAK Interrutp */
++ if (diepint.b.nak) {
++ DWC_DEBUGPL(DBG_ANY, "EP%d IN NAK Interrupt\n",
++ epnum);
++ if (ep->dwc_ep.type == DWC_OTG_EP_TYPE_ISOC) {
++ depctl_data_t depctl;
++ if (ep->dwc_ep.frame_num == 0xFFFFFFFF) {
++ ep->dwc_ep.frame_num = core_if->frame_num;
++ if (ep->dwc_ep.bInterval > 1) {
++ depctl.d32 = 0;
++ depctl.d32 = DWC_READ_REG32(&dev_if->in_ep_regs[epnum]->diepctl);
++ if (ep->dwc_ep.frame_num & 0x1) {
++ depctl.b.setd1pid = 1;
++ depctl.b.setd0pid = 0;
++ } else {
++ depctl.b.setd0pid = 1;
++ depctl.b.setd1pid = 0;
++ }
++ DWC_WRITE_REG32(&dev_if->in_ep_regs[epnum]->diepctl, depctl.d32);
++ }
++ start_next_request(ep);
++ }
++ ep->dwc_ep.frame_num += ep->dwc_ep.bInterval;
++ if (dwc_ep->frame_num > 0x3FFF) {
++ dwc_ep->frm_overrun = 1;
++ dwc_ep->frame_num &= 0x3FFF;
++ } else
++ dwc_ep->frm_overrun = 0;
++ }
++
++ CLEAR_IN_EP_INTR(core_if, epnum, nak);
++ }
++ }
++ epnum++;
++ ep_intr >>= 1;
++ }
++
++ return 1;
++#undef CLEAR_IN_EP_INTR
++}
++
++/**
++ * This interrupt indicates that an OUT EP has a pending Interrupt.
++ * The sequence for handling the OUT EP interrupt is shown below:
++ * -# Read the Device All Endpoint Interrupt register
++ * -# Repeat the following for each OUT EP interrupt bit set (from
++ * LSB to MSB).
++ * -# Read the Device Endpoint Interrupt (DOEPINTn) register
++ * -# If "Transfer Complete" call the request complete function
++ * -# If "Endpoint Disabled" complete the EP disable procedure.
++ * -# If "AHB Error Interrupt" log error
++ * -# If "Setup Phase Done" process Setup Packet (See Standard USB
++ * Command Processing)
++ */
++static int32_t dwc_otg_pcd_handle_out_ep_intr(dwc_otg_pcd_t * pcd)
++{
++#define CLEAR_OUT_EP_INTR(__core_if,__epnum,__intr) \
++do { \
++ doepint_data_t doepint = {.d32=0}; \
++ doepint.b.__intr = 1; \
++ DWC_WRITE_REG32(&__core_if->dev_if->out_ep_regs[__epnum]->doepint, \
++ doepint.d32); \
++} while (0)
++
++ dwc_otg_core_if_t *core_if = GET_CORE_IF(pcd);
++ uint32_t ep_intr;
++ doepint_data_t doepint = {.d32 = 0 };
++ uint32_t epnum = 0;
++ dwc_otg_pcd_ep_t *ep;
++ dwc_ep_t *dwc_ep;
++ dctl_data_t dctl = {.d32 = 0 };
++ gintmsk_data_t gintmsk = {.d32 = 0 };
++
++
++ DWC_DEBUGPL(DBG_PCDV, "%s()\n", __func__);
++
++ /* Read in the device interrupt bits */
++ ep_intr = dwc_otg_read_dev_all_out_ep_intr(core_if);
++
++ while (ep_intr) {
++ if (ep_intr & 0x1) {
++ /* Get EP pointer */
++ ep = get_out_ep(pcd, epnum);
++ dwc_ep = &ep->dwc_ep;
++
++#ifdef VERBOSE
++ DWC_DEBUGPL(DBG_PCDV,
++ "EP%d-%s: type=%d, mps=%d\n",
++ dwc_ep->num, (dwc_ep->is_in ? "IN" : "OUT"),
++ dwc_ep->type, dwc_ep->maxpacket);
++#endif
++ doepint.d32 =
++ dwc_otg_read_dev_out_ep_intr(core_if, dwc_ep);
++ /* Moved this interrupt upper due to core deffect of asserting
++ * OUT EP 0 xfercompl along with stsphsrcvd in BDMA */
++ if (doepint.b.stsphsercvd) {
++ deptsiz0_data_t deptsiz;
++ CLEAR_OUT_EP_INTR(core_if, epnum, stsphsercvd);
++ deptsiz.d32 =
++ DWC_READ_REG32(&core_if->dev_if->
++ out_ep_regs[0]->doeptsiz);
++ if (core_if->snpsid >= OTG_CORE_REV_3_00a
++ && core_if->dma_enable
++ && core_if->dma_desc_enable == 0
++ && doepint.b.xfercompl
++ && deptsiz.b.xfersize == 24) {
++ CLEAR_OUT_EP_INTR(core_if, epnum,
++ xfercompl);
++ doepint.b.xfercompl = 0;
++ ep0_out_start(core_if, pcd);
++ }
++ if ((core_if->dma_desc_enable) ||
++ (core_if->dma_enable
++ && core_if->snpsid >=
++ OTG_CORE_REV_3_00a)) {
++ do_setup_in_status_phase(pcd);
++ }
++ }
++ /* Transfer complete */
++ if (doepint.b.xfercompl) {
++
++ if (epnum == 0) {
++ /* Clear the bit in DOEPINTn for this interrupt */
++ CLEAR_OUT_EP_INTR(core_if, epnum, xfercompl);
++ if (core_if->snpsid >= OTG_CORE_REV_3_00a) {
++ DWC_DEBUGPL(DBG_PCDV, "DOEPINT=%x doepint=%x\n",
++ DWC_READ_REG32(&core_if->dev_if->out_ep_regs[0]->doepint),
++ doepint.d32);
++ DWC_DEBUGPL(DBG_PCDV, "DOEPCTL=%x \n",
++ DWC_READ_REG32(&core_if->dev_if->out_ep_regs[0]->doepctl));
++
++ if (core_if->snpsid >= OTG_CORE_REV_3_00a
++ && core_if->dma_enable == 0) {
++ doepint_data_t doepint;
++ doepint.d32 = DWC_READ_REG32(&core_if->dev_if->
++ out_ep_regs[0]->doepint);
++ if (pcd->ep0state == EP0_IDLE && doepint.b.sr) {
++ CLEAR_OUT_EP_INTR(core_if, epnum, sr);
++ goto exit_xfercompl;
++ }
++ }
++ /* In case of DDMA look at SR bit to go to the Data Stage */
++ if (core_if->dma_desc_enable) {
++ dev_dma_desc_sts_t status = {.d32 = 0};
++ if (pcd->ep0state == EP0_IDLE) {
++ status.d32 = core_if->dev_if->setup_desc_addr[core_if->
++ dev_if->setup_desc_index]->status.d32;
++ if(pcd->data_terminated) {
++ pcd->data_terminated = 0;
++ status.d32 = core_if->dev_if->out_desc_addr->status.d32;
++ dwc_memcpy(&pcd->setup_pkt->req, pcd->backup_buf, 8);
++ }
++ if (status.b.sr) {
++ if (doepint.b.setup) {
++ DWC_DEBUGPL(DBG_PCDV, "DMA DESC EP0_IDLE SR=1 setup=1\n");
++ /* Already started data stage, clear setup */
++ CLEAR_OUT_EP_INTR(core_if, epnum, setup);
++ doepint.b.setup = 0;
++ handle_ep0(pcd);
++ /* Prepare for more setup packets */
++ if (pcd->ep0state == EP0_IN_STATUS_PHASE ||
++ pcd->ep0state == EP0_IN_DATA_PHASE) {
++ ep0_out_start(core_if, pcd);
++ }
++
++ goto exit_xfercompl;
++ } else {
++ /* Prepare for more setup packets */
++ DWC_DEBUGPL(DBG_PCDV,
++ "EP0_IDLE SR=1 setup=0 new setup comes\n");
++ ep0_out_start(core_if, pcd);
++ }
++ }
++ } else {
++ dwc_otg_pcd_request_t *req;
++ dev_dma_desc_sts_t status = {.d32 = 0};
++ diepint_data_t diepint0;
++ diepint0.d32 = DWC_READ_REG32(&core_if->dev_if->
++ in_ep_regs[0]->diepint);
++
++ if (pcd->ep0state == EP0_STALL || pcd->ep0state == EP0_DISCONNECT) {
++ DWC_ERROR("EP0 is stalled/disconnected\n");
++ }
++
++ /* Clear IN xfercompl if set */
++ if (diepint0.b.xfercompl && (pcd->ep0state == EP0_IN_STATUS_PHASE
++ || pcd->ep0state == EP0_IN_DATA_PHASE)) {
++ DWC_WRITE_REG32(&core_if->dev_if->
++ in_ep_regs[0]->diepint, diepint0.d32);
++ }
++
++ status.d32 = core_if->dev_if->setup_desc_addr[core_if->
++ dev_if->setup_desc_index]->status.d32;
++
++ if (ep->dwc_ep.xfer_count != ep->dwc_ep.total_len
++ && (pcd->ep0state == EP0_OUT_DATA_PHASE))
++ status.d32 = core_if->dev_if->out_desc_addr->status.d32;
++ if (pcd->ep0state == EP0_OUT_STATUS_PHASE)
++ status.d32 = status.d32 = core_if->dev_if->
++ out_desc_addr->status.d32;
++
++ if (status.b.sr) {
++ if (DWC_CIRCLEQ_EMPTY(&ep->queue)) {
++ DWC_DEBUGPL(DBG_PCDV, "Request queue empty!!\n");
++ } else {
++ DWC_DEBUGPL(DBG_PCDV, "complete req!!\n");
++ req = DWC_CIRCLEQ_FIRST(&ep->queue);
++ if (ep->dwc_ep.xfer_count != ep->dwc_ep.total_len &&
++ pcd->ep0state == EP0_OUT_DATA_PHASE) {
++ /* Read arrived setup packet from req->buf */
++ dwc_memcpy(&pcd->setup_pkt->req,
++ req->buf + ep->dwc_ep.xfer_count, 8);
++ }
++ req->actual = ep->dwc_ep.xfer_count;
++ dwc_otg_request_done(ep, req, -ECONNRESET);
++ ep->dwc_ep.start_xfer_buff = 0;
++ ep->dwc_ep.xfer_buff = 0;
++ ep->dwc_ep.xfer_len = 0;
++ }
++ pcd->ep0state = EP0_IDLE;
++ if (doepint.b.setup) {
++ DWC_DEBUGPL(DBG_PCDV, "EP0_IDLE SR=1 setup=1\n");
++ /* Data stage started, clear setup */
++ CLEAR_OUT_EP_INTR(core_if, epnum, setup);
++ doepint.b.setup = 0;
++ handle_ep0(pcd);
++ /* Prepare for setup packets if ep0in was enabled*/
++ if (pcd->ep0state == EP0_IN_STATUS_PHASE) {
++ ep0_out_start(core_if, pcd);
++ }
++
++ goto exit_xfercompl;
++ } else {
++ /* Prepare for more setup packets */
++ DWC_DEBUGPL(DBG_PCDV,
++ "EP0_IDLE SR=1 setup=0 new setup comes 2\n");
++ ep0_out_start(core_if, pcd);
++ }
++ }
++ }
++ }
++ if (core_if->snpsid >= OTG_CORE_REV_2_94a && core_if->dma_enable
++ && core_if->dma_desc_enable == 0) {
++ doepint_data_t doepint_temp = {.d32 = 0};
++ deptsiz0_data_t doeptsize0 = {.d32 = 0 };
++ doepint_temp.d32 = DWC_READ_REG32(&core_if->dev_if->
++ out_ep_regs[ep->dwc_ep.num]->doepint);
++ doeptsize0.d32 = DWC_READ_REG32(&core_if->dev_if->
++ out_ep_regs[ep->dwc_ep.num]->doeptsiz);
++ if (pcd->ep0state == EP0_IDLE) {
++ if (doepint_temp.b.sr) {
++ CLEAR_OUT_EP_INTR(core_if, epnum, sr);
++ }
++ doepint.d32 = DWC_READ_REG32(&core_if->dev_if->
++ out_ep_regs[0]->doepint);
++ if (doeptsize0.b.supcnt == 3) {
++ DWC_DEBUGPL(DBG_ANY, "Rolling over!!!!!!!\n");
++ ep->dwc_ep.stp_rollover = 1;
++ }
++ if (doepint.b.setup) {
++retry:
++ /* Already started data stage, clear setup */
++ CLEAR_OUT_EP_INTR(core_if, epnum, setup);
++ doepint.b.setup = 0;
++ handle_ep0(pcd);
++ ep->dwc_ep.stp_rollover = 0;
++ /* Prepare for more setup packets */
++ if (pcd->ep0state == EP0_IN_STATUS_PHASE ||
++ pcd->ep0state == EP0_IN_DATA_PHASE) {
++ ep0_out_start(core_if, pcd);
++ }
++ goto exit_xfercompl;
++ } else {
++ /* Prepare for more setup packets */
++ DWC_DEBUGPL(DBG_ANY,
++ "EP0_IDLE SR=1 setup=0 new setup comes\n");
++ doepint.d32 = DWC_READ_REG32(&core_if->dev_if->
++ out_ep_regs[0]->doepint);
++ if(doepint.b.setup)
++ goto retry;
++ ep0_out_start(core_if, pcd);
++ }
++ } else {
++ dwc_otg_pcd_request_t *req;
++ diepint_data_t diepint0 = {.d32 = 0};
++ doepint_data_t doepint_temp = {.d32 = 0};
++ depctl_data_t diepctl0;
++ diepint0.d32 = DWC_READ_REG32(&core_if->dev_if->
++ in_ep_regs[0]->diepint);
++ diepctl0.d32 = DWC_READ_REG32(&core_if->dev_if->
++ in_ep_regs[0]->diepctl);
++
++ if (pcd->ep0state == EP0_IN_DATA_PHASE
++ || pcd->ep0state == EP0_IN_STATUS_PHASE) {
++ if (diepint0.b.xfercompl) {
++ DWC_WRITE_REG32(&core_if->dev_if->
++ in_ep_regs[0]->diepint, diepint0.d32);
++ }
++ if (diepctl0.b.epena) {
++ diepint_data_t diepint = {.d32 = 0};
++ diepctl0.b.snak = 1;
++ DWC_WRITE_REG32(&core_if->dev_if->
++ in_ep_regs[0]->diepctl, diepctl0.d32);
++ do {
++ dwc_udelay(10);
++ diepint.d32 = DWC_READ_REG32(&core_if->dev_if->
++ in_ep_regs[0]->diepint);
++ } while (!diepint.b.inepnakeff);
++ diepint.b.inepnakeff = 1;
++ DWC_WRITE_REG32(&core_if->dev_if->
++ in_ep_regs[0]->diepint, diepint.d32);
++ diepctl0.d32 = 0;
++ diepctl0.b.epdis = 1;
++ DWC_WRITE_REG32(&core_if->dev_if->in_ep_regs[0]->diepctl,
++ diepctl0.d32);
++ do {
++ dwc_udelay(10);
++ diepint.d32 = DWC_READ_REG32(&core_if->dev_if->
++ in_ep_regs[0]->diepint);
++ } while (!diepint.b.epdisabled);
++ diepint.b.epdisabled = 1;
++ DWC_WRITE_REG32(&core_if->dev_if->in_ep_regs[0]->diepint,
++ diepint.d32);
++ }
++ }
++ doepint_temp.d32 = DWC_READ_REG32(&core_if->dev_if->
++ out_ep_regs[ep->dwc_ep.num]->doepint);
++ if (doepint_temp.b.sr) {
++ CLEAR_OUT_EP_INTR(core_if, epnum, sr);
++ if (DWC_CIRCLEQ_EMPTY(&ep->queue)) {
++ DWC_DEBUGPL(DBG_PCDV, "Request queue empty!!\n");
++ } else {
++ DWC_DEBUGPL(DBG_PCDV, "complete req!!\n");
++ req = DWC_CIRCLEQ_FIRST(&ep->queue);
++ if (ep->dwc_ep.xfer_count != ep->dwc_ep.total_len &&
++ pcd->ep0state == EP0_OUT_DATA_PHASE) {
++ /* Read arrived setup packet from req->buf */
++ dwc_memcpy(&pcd->setup_pkt->req,
++ req->buf + ep->dwc_ep.xfer_count, 8);
++ }
++ req->actual = ep->dwc_ep.xfer_count;
++ dwc_otg_request_done(ep, req, -ECONNRESET);
++ ep->dwc_ep.start_xfer_buff = 0;
++ ep->dwc_ep.xfer_buff = 0;
++ ep->dwc_ep.xfer_len = 0;
++ }
++ pcd->ep0state = EP0_IDLE;
++ if (doepint.b.setup) {
++ DWC_DEBUGPL(DBG_PCDV, "EP0_IDLE SR=1 setup=1\n");
++ /* Data stage started, clear setup */
++ CLEAR_OUT_EP_INTR(core_if, epnum, setup);
++ doepint.b.setup = 0;
++ handle_ep0(pcd);
++ /* Prepare for setup packets if ep0in was enabled*/
++ if (pcd->ep0state == EP0_IN_STATUS_PHASE) {
++ ep0_out_start(core_if, pcd);
++ }
++ goto exit_xfercompl;
++ } else {
++ /* Prepare for more setup packets */
++ DWC_DEBUGPL(DBG_PCDV,
++ "EP0_IDLE SR=1 setup=0 new setup comes 2\n");
++ ep0_out_start(core_if, pcd);
++ }
++ }
++ }
++ }
++ if (core_if->dma_enable == 0 || pcd->ep0state != EP0_IDLE)
++ handle_ep0(pcd);
++exit_xfercompl:
++ DWC_DEBUGPL(DBG_PCDV, "DOEPINT=%x doepint=%x\n",
++ dwc_otg_read_dev_out_ep_intr(core_if, dwc_ep), doepint.d32);
++ } else {
++ if (core_if->dma_desc_enable == 0
++ || pcd->ep0state != EP0_IDLE)
++ handle_ep0(pcd);
++ }
++#ifdef DWC_EN_ISOC
++ } else if (dwc_ep->type == DWC_OTG_EP_TYPE_ISOC) {
++ if (doepint.b.pktdrpsts == 0) {
++ /* Clear the bit in DOEPINTn for this interrupt */
++ CLEAR_OUT_EP_INTR(core_if,
++ epnum,
++ xfercompl);
++ complete_iso_ep(pcd, ep);
++ } else {
++
++ doepint_data_t doepint = {.d32 = 0 };
++ doepint.b.xfercompl = 1;
++ doepint.b.pktdrpsts = 1;
++ DWC_WRITE_REG32
++ (&core_if->dev_if->out_ep_regs
++ [epnum]->doepint,
++ doepint.d32);
++ if (handle_iso_out_pkt_dropped
++ (core_if, dwc_ep)) {
++ complete_iso_ep(pcd,
++ ep);
++ }
++ }
++#endif /* DWC_EN_ISOC */
++#ifdef DWC_UTE_PER_IO
++ } else if (dwc_ep->type == DWC_OTG_EP_TYPE_ISOC) {
++ CLEAR_OUT_EP_INTR(core_if, epnum, xfercompl);
++ if (!ep->stopped)
++ complete_xiso_ep(ep);
++#endif /* DWC_UTE_PER_IO */
++ } else {
++ /* Clear the bit in DOEPINTn for this interrupt */
++ CLEAR_OUT_EP_INTR(core_if, epnum,
++ xfercompl);
++
++ if (core_if->core_params->dev_out_nak) {
++ DWC_TIMER_CANCEL(pcd->core_if->ep_xfer_timer[epnum]);
++ pcd->core_if->ep_xfer_info[epnum].state = 0;
++#ifdef DEBUG
++ print_memory_payload(pcd, dwc_ep);
++#endif
++ }
++ complete_ep(ep);
++ }
++
++ }
++
++ /* Endpoint disable */
++ if (doepint.b.epdisabled) {
++
++ /* Clear the bit in DOEPINTn for this interrupt */
++ CLEAR_OUT_EP_INTR(core_if, epnum, epdisabled);
++ if (core_if->core_params->dev_out_nak) {
++#ifdef DEBUG
++ print_memory_payload(pcd, dwc_ep);
++#endif
++ /* In case of timeout condition */
++ if (core_if->ep_xfer_info[epnum].state == 2) {
++ dctl.d32 = DWC_READ_REG32(&core_if->dev_if->
++ dev_global_regs->dctl);
++ dctl.b.cgoutnak = 1;
++ DWC_WRITE_REG32(&core_if->dev_if->dev_global_regs->dctl,
++ dctl.d32);
++ /* Unmask goutnakeff interrupt which was masked
++ * during handle nak out interrupt */
++ gintmsk.b.goutnakeff = 1;
++ DWC_MODIFY_REG32(&core_if->core_global_regs->gintmsk,
++ 0, gintmsk.d32);
++
++ complete_ep(ep);
++ }
++ }
++ if (ep->dwc_ep.type == DWC_OTG_EP_TYPE_ISOC)
++ {
++ dctl_data_t dctl;
++ gintmsk_data_t intr_mask = {.d32 = 0};
++ dwc_otg_pcd_request_t *req = 0;
++
++ dctl.d32 = DWC_READ_REG32(&core_if->dev_if->
++ dev_global_regs->dctl);
++ dctl.b.cgoutnak = 1;
++ DWC_WRITE_REG32(&core_if->dev_if->dev_global_regs->dctl,
++ dctl.d32);
++
++ intr_mask.d32 = 0;
++ intr_mask.b.incomplisoout = 1;
++
++ /* Get any pending requests */
++ if (!DWC_CIRCLEQ_EMPTY(&ep->queue)) {
++ req = DWC_CIRCLEQ_FIRST(&ep->queue);
++ if (!req) {
++ DWC_PRINTF("complete_ep 0x%p, req = NULL!\n", ep);
++ } else {
++ dwc_otg_request_done(ep, req, 0);
++ start_next_request(ep);
++ }
++ } else {
++ DWC_PRINTF("complete_ep 0x%p, ep->queue empty!\n", ep);
++ }
++ }
++ }
++ /* AHB Error */
++ if (doepint.b.ahberr) {
++ DWC_ERROR("EP%d OUT AHB Error\n", epnum);
++ DWC_ERROR("EP%d DEPDMA=0x%08x \n",
++ epnum, core_if->dev_if->out_ep_regs[epnum]->doepdma);
++ CLEAR_OUT_EP_INTR(core_if, epnum, ahberr);
++ }
++ /* Setup Phase Done (contorl EPs) */
++ if (doepint.b.setup) {
++#ifdef DEBUG_EP0
++ DWC_DEBUGPL(DBG_PCD, "EP%d SETUP Done\n", epnum);
++#endif
++ CLEAR_OUT_EP_INTR(core_if, epnum, setup);
++
++ handle_ep0(pcd);
++ }
++
++ /** OUT EP BNA Intr */
++ if (doepint.b.bna) {
++ CLEAR_OUT_EP_INTR(core_if, epnum, bna);
++ if (core_if->dma_desc_enable) {
++#ifdef DWC_EN_ISOC
++ if (dwc_ep->type ==
++ DWC_OTG_EP_TYPE_ISOC) {
++ /*
++ * This checking is performed to prevent first "false" BNA
++ * handling occuring right after reconnect
++ */
++ if (dwc_ep->next_frame !=
++ 0xffffffff)
++ dwc_otg_pcd_handle_iso_bna(ep);
++ } else
++#endif /* DWC_EN_ISOC */
++ {
++ dwc_otg_pcd_handle_noniso_bna(ep);
++ }
++ }
++ }
++ /* Babble Interrupt */
++ if (doepint.b.babble) {
++ DWC_DEBUGPL(DBG_ANY, "EP%d OUT Babble\n",
++ epnum);
++ handle_out_ep_babble_intr(pcd, epnum);
++
++ CLEAR_OUT_EP_INTR(core_if, epnum, babble);
++ }
++ if (doepint.b.outtknepdis) {
++ DWC_DEBUGPL(DBG_ANY, "EP%d OUT Token received when EP is \
++ disabled\n",epnum);
++ if (ep->dwc_ep.type == DWC_OTG_EP_TYPE_ISOC) {
++ doepmsk_data_t doepmsk = {.d32 = 0};
++ ep->dwc_ep.frame_num = core_if->frame_num;
++ if (ep->dwc_ep.bInterval > 1) {
++ depctl_data_t depctl;
++ depctl.d32 = DWC_READ_REG32(&core_if->dev_if->
++ out_ep_regs[epnum]->doepctl);
++ if (ep->dwc_ep.frame_num & 0x1) {
++ depctl.b.setd1pid = 1;
++ depctl.b.setd0pid = 0;
++ } else {
++ depctl.b.setd0pid = 1;
++ depctl.b.setd1pid = 0;
++ }
++ DWC_WRITE_REG32(&core_if->dev_if->
++ out_ep_regs[epnum]->doepctl, depctl.d32);
++ }
++ start_next_request(ep);
++ doepmsk.b.outtknepdis = 1;
++ DWC_MODIFY_REG32(&core_if->dev_if->dev_global_regs->doepmsk,
++ doepmsk.d32, 0);
++ }
++ CLEAR_OUT_EP_INTR(core_if, epnum, outtknepdis);
++ }
++
++ /* NAK Interrutp */
++ if (doepint.b.nak) {
++ DWC_DEBUGPL(DBG_ANY, "EP%d OUT NAK\n", epnum);
++ handle_out_ep_nak_intr(pcd, epnum);
++
++ CLEAR_OUT_EP_INTR(core_if, epnum, nak);
++ }
++ /* NYET Interrutp */
++ if (doepint.b.nyet) {
++ DWC_DEBUGPL(DBG_ANY, "EP%d OUT NYET\n", epnum);
++ handle_out_ep_nyet_intr(pcd, epnum);
++
++ CLEAR_OUT_EP_INTR(core_if, epnum, nyet);
++ }
++ }
++
++ epnum++;
++ ep_intr >>= 1;
++ }
++
++ return 1;
++
++#undef CLEAR_OUT_EP_INTR
++}
++static int drop_transfer(uint32_t trgt_fr, uint32_t curr_fr, uint8_t frm_overrun)
++{
++ int retval = 0;
++ if(!frm_overrun && curr_fr >= trgt_fr)
++ retval = 1;
++ else if (frm_overrun
++ && (curr_fr >= trgt_fr && ((curr_fr - trgt_fr) < 0x3FFF / 2)))
++ retval = 1;
++ return retval;
++}
++/**
++ * Incomplete ISO IN Transfer Interrupt.
++ * This interrupt indicates one of the following conditions occurred
++ * while transmitting an ISOC transaction.
++ * - Corrupted IN Token for ISOC EP.
++ * - Packet not complete in FIFO.
++ * The follow actions will be taken:
++ * -# Determine the EP
++ * -# Set incomplete flag in dwc_ep structure
++ * -# Disable EP; when "Endpoint Disabled" interrupt is received
++ * Flush FIFO
++ */
++int32_t dwc_otg_pcd_handle_incomplete_isoc_in_intr(dwc_otg_pcd_t * pcd)
++{
++ gintsts_data_t gintsts;
++
++#ifdef DWC_EN_ISOC
++ dwc_otg_dev_if_t *dev_if;
++ deptsiz_data_t deptsiz = {.d32 = 0 };
++ depctl_data_t depctl = {.d32 = 0 };
++ dsts_data_t dsts = {.d32 = 0 };
++ dwc_ep_t *dwc_ep;
++ int i;
++
++ dev_if = GET_CORE_IF(pcd)->dev_if;
++
++ for (i = 1; i <= dev_if->num_in_eps; ++i) {
++ dwc_ep = &pcd->in_ep[i].dwc_ep;
++ if (dwc_ep->active && dwc_ep->type == DWC_OTG_EP_TYPE_ISOC) {
++ deptsiz.d32 =
++ DWC_READ_REG32(&dev_if->in_ep_regs[i]->dieptsiz);
++ depctl.d32 =
++ DWC_READ_REG32(&dev_if->in_ep_regs[i]->diepctl);
++
++ if (depctl.b.epdis && deptsiz.d32) {
++ set_current_pkt_info(GET_CORE_IF(pcd), dwc_ep);
++ if (dwc_ep->cur_pkt >= dwc_ep->pkt_cnt) {
++ dwc_ep->cur_pkt = 0;
++ dwc_ep->proc_buf_num =
++ (dwc_ep->proc_buf_num ^ 1) & 0x1;
++
++ if (dwc_ep->proc_buf_num) {
++ dwc_ep->cur_pkt_addr =
++ dwc_ep->xfer_buff1;
++ dwc_ep->cur_pkt_dma_addr =
++ dwc_ep->dma_addr1;
++ } else {
++ dwc_ep->cur_pkt_addr =
++ dwc_ep->xfer_buff0;
++ dwc_ep->cur_pkt_dma_addr =
++ dwc_ep->dma_addr0;
++ }
++
++ }
++
++ dsts.d32 =
++ DWC_READ_REG32(&GET_CORE_IF(pcd)->dev_if->
++ dev_global_regs->dsts);
++ dwc_ep->next_frame = dsts.b.soffn;
++
++ dwc_otg_iso_ep_start_frm_transfer(GET_CORE_IF
++ (pcd),
++ dwc_ep);
++ }
++ }
++ }
++
++#else
++ depctl_data_t depctl = {.d32 = 0 };
++ dwc_ep_t *dwc_ep;
++ dwc_otg_dev_if_t *dev_if;
++ int i;
++ dev_if = GET_CORE_IF(pcd)->dev_if;
++
++ DWC_DEBUGPL(DBG_PCD,"Incomplete ISO IN \n");
++
++ for (i = 1; i <= dev_if->num_in_eps; ++i) {
++ dwc_ep = &pcd->in_ep[i-1].dwc_ep;
++ depctl.d32 =
++ DWC_READ_REG32(&dev_if->in_ep_regs[i]->diepctl);
++ if (depctl.b.epena && dwc_ep->type == DWC_OTG_EP_TYPE_ISOC) {
++ if (drop_transfer(dwc_ep->frame_num, GET_CORE_IF(pcd)->frame_num,
++ dwc_ep->frm_overrun))
++ {
++ depctl.d32 =
++ DWC_READ_REG32(&dev_if->in_ep_regs[i]->diepctl);
++ depctl.b.snak = 1;
++ depctl.b.epdis = 1;
++ DWC_MODIFY_REG32(&dev_if->in_ep_regs[i]->diepctl, depctl.d32, depctl.d32);
++ }
++ }
++ }
++
++ /*intr_mask.b.incomplisoin = 1;
++ DWC_MODIFY_REG32(&GET_CORE_IF(pcd)->core_global_regs->gintmsk,
++ intr_mask.d32, 0); */
++#endif //DWC_EN_ISOC
++
++ /* Clear interrupt */
++ gintsts.d32 = 0;
++ gintsts.b.incomplisoin = 1;
++ DWC_WRITE_REG32(&GET_CORE_IF(pcd)->core_global_regs->gintsts,
++ gintsts.d32);
++
++ return 1;
++}
++
++/**
++ * Incomplete ISO OUT Transfer Interrupt.
++ *
++ * This interrupt indicates that the core has dropped an ISO OUT
++ * packet. The following conditions can be the cause:
++ * - FIFO Full, the entire packet would not fit in the FIFO.
++ * - CRC Error
++ * - Corrupted Token
++ * The follow actions will be taken:
++ * -# Determine the EP
++ * -# Set incomplete flag in dwc_ep structure
++ * -# Read any data from the FIFO
++ * -# Disable EP. When "Endpoint Disabled" interrupt is received
++ * re-enable EP.
++ */
++int32_t dwc_otg_pcd_handle_incomplete_isoc_out_intr(dwc_otg_pcd_t * pcd)
++{
++
++ gintsts_data_t gintsts;
++
++#ifdef DWC_EN_ISOC
++ dwc_otg_dev_if_t *dev_if;
++ deptsiz_data_t deptsiz = {.d32 = 0 };
++ depctl_data_t depctl = {.d32 = 0 };
++ dsts_data_t dsts = {.d32 = 0 };
++ dwc_ep_t *dwc_ep;
++ int i;
++
++ dev_if = GET_CORE_IF(pcd)->dev_if;
++
++ for (i = 1; i <= dev_if->num_out_eps; ++i) {
++ dwc_ep = &pcd->in_ep[i].dwc_ep;
++ if (pcd->out_ep[i].dwc_ep.active &&
++ pcd->out_ep[i].dwc_ep.type == DWC_OTG_EP_TYPE_ISOC) {
++ deptsiz.d32 =
++ DWC_READ_REG32(&dev_if->out_ep_regs[i]->doeptsiz);
++ depctl.d32 =
++ DWC_READ_REG32(&dev_if->out_ep_regs[i]->doepctl);
++
++ if (depctl.b.epdis && deptsiz.d32) {
++ set_current_pkt_info(GET_CORE_IF(pcd),
++ &pcd->out_ep[i].dwc_ep);
++ if (dwc_ep->cur_pkt >= dwc_ep->pkt_cnt) {
++ dwc_ep->cur_pkt = 0;
++ dwc_ep->proc_buf_num =
++ (dwc_ep->proc_buf_num ^ 1) & 0x1;
++
++ if (dwc_ep->proc_buf_num) {
++ dwc_ep->cur_pkt_addr =
++ dwc_ep->xfer_buff1;
++ dwc_ep->cur_pkt_dma_addr =
++ dwc_ep->dma_addr1;
++ } else {
++ dwc_ep->cur_pkt_addr =
++ dwc_ep->xfer_buff0;
++ dwc_ep->cur_pkt_dma_addr =
++ dwc_ep->dma_addr0;
++ }
++
++ }
++
++ dsts.d32 =
++ DWC_READ_REG32(&GET_CORE_IF(pcd)->dev_if->
++ dev_global_regs->dsts);
++ dwc_ep->next_frame = dsts.b.soffn;
++
++ dwc_otg_iso_ep_start_frm_transfer(GET_CORE_IF
++ (pcd),
++ dwc_ep);
++ }
++ }
++ }
++#else
++ /** @todo implement ISR */
++ gintmsk_data_t intr_mask = {.d32 = 0 };
++ dwc_otg_core_if_t *core_if;
++ deptsiz_data_t deptsiz = {.d32 = 0 };
++ depctl_data_t depctl = {.d32 = 0 };
++ dctl_data_t dctl = {.d32 = 0 };
++ dwc_ep_t *dwc_ep = NULL;
++ int i;
++ core_if = GET_CORE_IF(pcd);
++
++ for (i = 0; i < core_if->dev_if->num_out_eps; ++i) {
++ dwc_ep = &pcd->out_ep[i].dwc_ep;
++ depctl.d32 =
++ DWC_READ_REG32(&core_if->dev_if->out_ep_regs[dwc_ep->num]->doepctl);
++ if (depctl.b.epena && depctl.b.dpid == (core_if->frame_num & 0x1)) {
++ core_if->dev_if->isoc_ep = dwc_ep;
++ deptsiz.d32 =
++ DWC_READ_REG32(&core_if->dev_if->out_ep_regs[dwc_ep->num]->doeptsiz);
++ break;
++ }
++ }
++ dctl.d32 = DWC_READ_REG32(&core_if->dev_if->dev_global_regs->dctl);
++ gintsts.d32 = DWC_READ_REG32(&core_if->core_global_regs->gintsts);
++ intr_mask.d32 = DWC_READ_REG32(&core_if->core_global_regs->gintmsk);
++
++ if (!intr_mask.b.goutnakeff) {
++ /* Unmask it */
++ intr_mask.b.goutnakeff = 1;
++ DWC_WRITE_REG32(&core_if->core_global_regs->gintmsk, intr_mask.d32);
++ }
++ if (!gintsts.b.goutnakeff) {
++ dctl.b.sgoutnak = 1;
++ }
++ DWC_WRITE_REG32(&core_if->dev_if->dev_global_regs->dctl, dctl.d32);
++
++ depctl.d32 = DWC_READ_REG32(&core_if->dev_if->out_ep_regs[dwc_ep->num]->doepctl);
++ if (depctl.b.epena) {
++ depctl.b.epdis = 1;
++ depctl.b.snak = 1;
++ }
++ DWC_WRITE_REG32(&core_if->dev_if->out_ep_regs[dwc_ep->num]->doepctl, depctl.d32);
++
++ intr_mask.d32 = 0;
++ intr_mask.b.incomplisoout = 1;
++
++#endif /* DWC_EN_ISOC */
++
++ /* Clear interrupt */
++ gintsts.d32 = 0;
++ gintsts.b.incomplisoout = 1;
++ DWC_WRITE_REG32(&GET_CORE_IF(pcd)->core_global_regs->gintsts,
++ gintsts.d32);
++
++ return 1;
++}
++
++/**
++ * This function handles the Global IN NAK Effective interrupt.
++ *
++ */
++int32_t dwc_otg_pcd_handle_in_nak_effective(dwc_otg_pcd_t * pcd)
++{
++ dwc_otg_dev_if_t *dev_if = GET_CORE_IF(pcd)->dev_if;
++ depctl_data_t diepctl = {.d32 = 0 };
++ gintmsk_data_t intr_mask = {.d32 = 0 };
++ gintsts_data_t gintsts;
++ dwc_otg_core_if_t *core_if = GET_CORE_IF(pcd);
++ int i;
++
++ DWC_DEBUGPL(DBG_PCD, "Global IN NAK Effective\n");
++
++ /* Disable all active IN EPs */
++ for (i = 0; i <= dev_if->num_in_eps; i++) {
++ diepctl.d32 = DWC_READ_REG32(&dev_if->in_ep_regs[i]->diepctl);
++ if (!(diepctl.b.eptype & 1) && diepctl.b.epena) {
++ if (core_if->start_predict > 0)
++ core_if->start_predict++;
++ diepctl.b.epdis = 1;
++ diepctl.b.snak = 1;
++ DWC_WRITE_REG32(&dev_if->in_ep_regs[i]->diepctl, diepctl.d32);
++ }
++ }
++
++
++ /* Disable the Global IN NAK Effective Interrupt */
++ intr_mask.b.ginnakeff = 1;
++ DWC_MODIFY_REG32(&GET_CORE_IF(pcd)->core_global_regs->gintmsk,
++ intr_mask.d32, 0);
++
++ /* Clear interrupt */
++ gintsts.d32 = 0;
++ gintsts.b.ginnakeff = 1;
++ DWC_WRITE_REG32(&GET_CORE_IF(pcd)->core_global_regs->gintsts,
++ gintsts.d32);
++
++ return 1;
++}
++
++/**
++ * OUT NAK Effective.
++ *
++ */
++int32_t dwc_otg_pcd_handle_out_nak_effective(dwc_otg_pcd_t * pcd)
++{
++ dwc_otg_dev_if_t *dev_if = GET_CORE_IF(pcd)->dev_if;
++ gintmsk_data_t intr_mask = {.d32 = 0 };
++ gintsts_data_t gintsts;
++ depctl_data_t doepctl;
++ int i;
++
++ /* Disable the Global OUT NAK Effective Interrupt */
++ intr_mask.b.goutnakeff = 1;
++ DWC_MODIFY_REG32(&GET_CORE_IF(pcd)->core_global_regs->gintmsk,
++ intr_mask.d32, 0);
++
++ /* If DEV OUT NAK enabled*/
++ if (pcd->core_if->core_params->dev_out_nak) {
++ /* Run over all out endpoints to determine the ep number on
++ * which the timeout has happened
++ */
++ for (i = 0; i <= dev_if->num_out_eps; i++) {
++ if ( pcd->core_if->ep_xfer_info[i].state == 2 )
++ break;
++ }
++ if (i > dev_if->num_out_eps) {
++ dctl_data_t dctl;
++ dctl.d32 =
++ DWC_READ_REG32(&dev_if->dev_global_regs->dctl);
++ dctl.b.cgoutnak = 1;
++ DWC_WRITE_REG32(&dev_if->dev_global_regs->dctl,
++ dctl.d32);
++ goto out;
++ }
++
++ /* Disable the endpoint */
++ doepctl.d32 = DWC_READ_REG32(&dev_if->out_ep_regs[i]->doepctl);
++ if (doepctl.b.epena) {
++ doepctl.b.epdis = 1;
++ doepctl.b.snak = 1;
++ }
++ DWC_WRITE_REG32(&dev_if->out_ep_regs[i]->doepctl, doepctl.d32);
++ return 1;
++ }
++ /* We come here from Incomplete ISO OUT handler */
++ if (dev_if->isoc_ep) {
++ dwc_ep_t *dwc_ep = (dwc_ep_t *)dev_if->isoc_ep;
++ uint32_t epnum = dwc_ep->num;
++ doepint_data_t doepint;
++ doepint.d32 =
++ DWC_READ_REG32(&dev_if->out_ep_regs[dwc_ep->num]->doepint);
++ dev_if->isoc_ep = NULL;
++ doepctl.d32 =
++ DWC_READ_REG32(&dev_if->out_ep_regs[epnum]->doepctl);
++ DWC_PRINTF("Before disable DOEPCTL = %08x\n", doepctl.d32);
++ if (doepctl.b.epena) {
++ doepctl.b.epdis = 1;
++ doepctl.b.snak = 1;
++ }
++ DWC_WRITE_REG32(&dev_if->out_ep_regs[epnum]->doepctl,
++ doepctl.d32);
++ return 1;
++ } else
++ DWC_PRINTF("INTERRUPT Handler not implemented for %s\n",
++ "Global OUT NAK Effective\n");
++
++out:
++ /* Clear interrupt */
++ gintsts.d32 = 0;
++ gintsts.b.goutnakeff = 1;
++ DWC_WRITE_REG32(&GET_CORE_IF(pcd)->core_global_regs->gintsts,
++ gintsts.d32);
++
++ return 1;
++}
++
++/**
++ * PCD interrupt handler.
++ *
++ * The PCD handles the device interrupts. Many conditions can cause a
++ * device interrupt. When an interrupt occurs, the device interrupt
++ * service routine determines the cause of the interrupt and
++ * dispatches handling to the appropriate function. These interrupt
++ * handling functions are described below.
++ *
++ * All interrupt registers are processed from LSB to MSB.
++ *
++ */
++int32_t dwc_otg_pcd_handle_intr(dwc_otg_pcd_t * pcd)
++{
++ dwc_otg_core_if_t *core_if = GET_CORE_IF(pcd);
++#ifdef VERBOSE
++ dwc_otg_core_global_regs_t *global_regs = core_if->core_global_regs;
++#endif
++ gintsts_data_t gintr_status;
++ int32_t retval = 0;
++
++ /* Exit from ISR if core is hibernated */
++ if (core_if->hibernation_suspend == 1) {
++ return retval;
++ }
++#ifdef VERBOSE
++ DWC_DEBUGPL(DBG_ANY, "%s() gintsts=%08x gintmsk=%08x\n",
++ __func__,
++ DWC_READ_REG32(&global_regs->gintsts),
++ DWC_READ_REG32(&global_regs->gintmsk));
++#endif
++
++ if (dwc_otg_is_device_mode(core_if)) {
++ DWC_SPINLOCK(pcd->lock);
++#ifdef VERBOSE
++ DWC_DEBUGPL(DBG_PCDV, "%s() gintsts=%08x gintmsk=%08x\n",
++ __func__,
++ DWC_READ_REG32(&global_regs->gintsts),
++ DWC_READ_REG32(&global_regs->gintmsk));
++#endif
++
++ gintr_status.d32 = dwc_otg_read_core_intr(core_if);
++
++ DWC_DEBUGPL(DBG_PCDV, "%s: gintsts&gintmsk=%08x\n",
++ __func__, gintr_status.d32);
++
++ if (gintr_status.b.sofintr) {
++ retval |= dwc_otg_pcd_handle_sof_intr(pcd);
++ }
++ if (gintr_status.b.rxstsqlvl) {
++ retval |=
++ dwc_otg_pcd_handle_rx_status_q_level_intr(pcd);
++ }
++ if (gintr_status.b.nptxfempty) {
++ retval |= dwc_otg_pcd_handle_np_tx_fifo_empty_intr(pcd);
++ }
++ if (gintr_status.b.goutnakeff) {
++ retval |= dwc_otg_pcd_handle_out_nak_effective(pcd);
++ }
++ if (gintr_status.b.i2cintr) {
++ retval |= dwc_otg_pcd_handle_i2c_intr(pcd);
++ }
++ if (gintr_status.b.erlysuspend) {
++ retval |= dwc_otg_pcd_handle_early_suspend_intr(pcd);
++ }
++ if (gintr_status.b.usbreset) {
++ retval |= dwc_otg_pcd_handle_usb_reset_intr(pcd);
++ }
++ if (gintr_status.b.enumdone) {
++ retval |= dwc_otg_pcd_handle_enum_done_intr(pcd);
++ }
++ if (gintr_status.b.isooutdrop) {
++ retval |=
++ dwc_otg_pcd_handle_isoc_out_packet_dropped_intr
++ (pcd);
++ }
++ if (gintr_status.b.eopframe) {
++ retval |=
++ dwc_otg_pcd_handle_end_periodic_frame_intr(pcd);
++ }
++ if (gintr_status.b.inepint) {
++ if (!core_if->multiproc_int_enable) {
++ retval |= dwc_otg_pcd_handle_in_ep_intr(pcd);
++ }
++ }
++ if (gintr_status.b.outepintr) {
++ if (!core_if->multiproc_int_enable) {
++ retval |= dwc_otg_pcd_handle_out_ep_intr(pcd);
++ }
++ }
++ if (gintr_status.b.epmismatch) {
++ retval |= dwc_otg_pcd_handle_ep_mismatch_intr(pcd);
++ }
++ if (gintr_status.b.fetsusp) {
++ retval |= dwc_otg_pcd_handle_ep_fetsusp_intr(pcd);
++ }
++ if (gintr_status.b.ginnakeff) {
++ retval |= dwc_otg_pcd_handle_in_nak_effective(pcd);
++ }
++ if (gintr_status.b.incomplisoin) {
++ retval |=
++ dwc_otg_pcd_handle_incomplete_isoc_in_intr(pcd);
++ }
++ if (gintr_status.b.incomplisoout) {
++ retval |=
++ dwc_otg_pcd_handle_incomplete_isoc_out_intr(pcd);
++ }
++
++ /* In MPI mode Device Endpoints interrupts are asserted
++ * without setting outepintr and inepint bits set, so these
++ * Interrupt handlers are called without checking these bit-fields
++ */
++ if (core_if->multiproc_int_enable) {
++ retval |= dwc_otg_pcd_handle_in_ep_intr(pcd);
++ retval |= dwc_otg_pcd_handle_out_ep_intr(pcd);
++ }
++#ifdef VERBOSE
++ DWC_DEBUGPL(DBG_PCDV, "%s() gintsts=%0x\n", __func__,
++ DWC_READ_REG32(&global_regs->gintsts));
++#endif
++ DWC_SPINUNLOCK(pcd->lock);
++ }
++ return retval;
++}
++
++#endif /* DWC_HOST_ONLY */
+diff -urN linux-3.10/drivers/usb/host/dwc_otg/dwc_otg_pcd_linux.c linux-rpi-3.10.y/drivers/usb/host/dwc_otg/dwc_otg_pcd_linux.c
+--- linux-3.10/drivers/usb/host/dwc_otg/dwc_otg_pcd_linux.c 1970-01-01 01:00:00.000000000 +0100
++++ linux-rpi-3.10.y/drivers/usb/host/dwc_otg/dwc_otg_pcd_linux.c 2013-07-06 15:25:50.000000000 +0100
+@@ -0,0 +1,1358 @@
++ /* ==========================================================================
++ * $File: //dwh/usb_iip/dev/software/otg/linux/drivers/dwc_otg_pcd_linux.c $
++ * $Revision: #21 $
++ * $Date: 2012/08/10 $
++ * $Change: 2047372 $
++ *
++ * Synopsys HS OTG Linux Software Driver and documentation (hereinafter,
++ * "Software") is an Unsupported proprietary work of Synopsys, Inc. unless
++ * otherwise expressly agreed to in writing between Synopsys and you.
++ *
++ * The Software IS NOT an item of Licensed Software or Licensed Product under
++ * any End User Software License Agreement or Agreement for Licensed Product
++ * with Synopsys or any supplement thereto. You are permitted to use and
++ * redistribute this Software in source and binary forms, with or without
++ * modification, provided that redistributions of source code must retain this
++ * notice. You may not view, use, disclose, copy or distribute this file or
++ * any information contained herein except pursuant to this license grant from
++ * Synopsys. If you do not agree with this notice, including the disclaimer
++ * below, then you are not authorized to use the Software.
++ *
++ * THIS SOFTWARE IS BEING DISTRIBUTED BY SYNOPSYS SOLELY ON AN "AS IS" BASIS
++ * AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
++ * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE
++ * ARE HEREBY DISCLAIMED. IN NO EVENT SHALL SYNOPSYS BE LIABLE FOR ANY DIRECT,
++ * INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES
++ * (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR
++ * SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER
++ * CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT
++ * LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY
++ * OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH
++ * DAMAGE.
++ * ========================================================================== */
++#ifndef DWC_HOST_ONLY
++
++/** @file
++ * This file implements the Peripheral Controller Driver.
++ *
++ * The Peripheral Controller Driver (PCD) is responsible for
++ * translating requests from the Function Driver into the appropriate
++ * actions on the DWC_otg controller. It isolates the Function Driver
++ * from the specifics of the controller by providing an API to the
++ * Function Driver.
++ *
++ * The Peripheral Controller Driver for Linux will implement the
++ * Gadget API, so that the existing Gadget drivers can be used.
++ * (Gadget Driver is the Linux terminology for a Function Driver.)
++ *
++ * The Linux Gadget API is defined in the header file
++ * <code><linux/usb_gadget.h></code>. The USB EP operations API is
++ * defined in the structure <code>usb_ep_ops</code> and the USB
++ * Controller API is defined in the structure
++ * <code>usb_gadget_ops</code>.
++ *
++ */
++
++#include "dwc_otg_os_dep.h"
++#include "dwc_otg_pcd_if.h"
++#include "dwc_otg_pcd.h"
++#include "dwc_otg_driver.h"
++#include "dwc_otg_dbg.h"
++
++static struct gadget_wrapper {
++ dwc_otg_pcd_t *pcd;
++
++ struct usb_gadget gadget;
++ struct usb_gadget_driver *driver;
++
++ struct usb_ep ep0;
++ struct usb_ep in_ep[16];
++ struct usb_ep out_ep[16];
++
++} *gadget_wrapper;
++
++/* Display the contents of the buffer */
++extern void dump_msg(const u8 * buf, unsigned int length);
++/**
++ * Get the dwc_otg_pcd_ep_t* from usb_ep* pointer - NULL in case
++ * if the endpoint is not found
++ */
++static struct dwc_otg_pcd_ep *ep_from_handle(dwc_otg_pcd_t * pcd, void *handle)
++{
++ int i;
++ if (pcd->ep0.priv == handle) {
++ return &pcd->ep0;
++ }
++
++ for (i = 0; i < MAX_EPS_CHANNELS - 1; i++) {
++ if (pcd->in_ep[i].priv == handle)
++ return &pcd->in_ep[i];
++ if (pcd->out_ep[i].priv == handle)
++ return &pcd->out_ep[i];
++ }
++
++ return NULL;
++}
++
++/* USB Endpoint Operations */
++/*
++ * The following sections briefly describe the behavior of the Gadget
++ * API endpoint operations implemented in the DWC_otg driver
++ * software. Detailed descriptions of the generic behavior of each of
++ * these functions can be found in the Linux header file
++ * include/linux/usb_gadget.h.
++ *
++ * The Gadget API provides wrapper functions for each of the function
++ * pointers defined in usb_ep_ops. The Gadget Driver calls the wrapper
++ * function, which then calls the underlying PCD function. The
++ * following sections are named according to the wrapper
++ * functions. Within each section, the corresponding DWC_otg PCD
++ * function name is specified.
++ *
++ */
++
++/**
++ * This function is called by the Gadget Driver for each EP to be
++ * configured for the current configuration (SET_CONFIGURATION).
++ *
++ * This function initializes the dwc_otg_ep_t data structure, and then
++ * calls dwc_otg_ep_activate.
++ */
++static int ep_enable(struct usb_ep *usb_ep,
++ const struct usb_endpoint_descriptor *ep_desc)
++{
++ int retval;
++
++ DWC_DEBUGPL(DBG_PCDV, "%s(%p,%p)\n", __func__, usb_ep, ep_desc);
++
++ if (!usb_ep || !ep_desc || ep_desc->bDescriptorType != USB_DT_ENDPOINT) {
++ DWC_WARN("%s, bad ep or descriptor\n", __func__);
++ return -EINVAL;
++ }
++ if (usb_ep == &gadget_wrapper->ep0) {
++ DWC_WARN("%s, bad ep(0)\n", __func__);
++ return -EINVAL;
++ }
++
++ /* Check FIFO size? */
++ if (!ep_desc->wMaxPacketSize) {
++ DWC_WARN("%s, bad %s maxpacket\n", __func__, usb_ep->name);
++ return -ERANGE;
++ }
++
++ if (!gadget_wrapper->driver ||
++ gadget_wrapper->gadget.speed == USB_SPEED_UNKNOWN) {
++ DWC_WARN("%s, bogus device state\n", __func__);
++ return -ESHUTDOWN;
++ }
++
++ /* Delete after check - MAS */
++#if 0
++ nat = (uint32_t) ep_desc->wMaxPacketSize;
++ printk(KERN_ALERT "%s: nat (before) =%d\n", __func__, nat);
++ nat = (nat >> 11) & 0x03;
++ printk(KERN_ALERT "%s: nat (after) =%d\n", __func__, nat);
++#endif
++ retval = dwc_otg_pcd_ep_enable(gadget_wrapper->pcd,
++ (const uint8_t *)ep_desc,
++ (void *)usb_ep);
++ if (retval) {
++ DWC_WARN("dwc_otg_pcd_ep_enable failed\n");
++ return -EINVAL;
++ }
++
++ usb_ep->maxpacket = le16_to_cpu(ep_desc->wMaxPacketSize);
++
++ return 0;
++}
++
++/**
++ * This function is called when an EP is disabled due to disconnect or
++ * change in configuration. Any pending requests will terminate with a
++ * status of -ESHUTDOWN.
++ *
++ * This function modifies the dwc_otg_ep_t data structure for this EP,
++ * and then calls dwc_otg_ep_deactivate.
++ */
++static int ep_disable(struct usb_ep *usb_ep)
++{
++ int retval;
++
++ DWC_DEBUGPL(DBG_PCDV, "%s(%p)\n", __func__, usb_ep);
++ if (!usb_ep) {
++ DWC_DEBUGPL(DBG_PCD, "%s, %s not enabled\n", __func__,
++ usb_ep ? usb_ep->name : NULL);
++ return -EINVAL;
++ }
++
++ retval = dwc_otg_pcd_ep_disable(gadget_wrapper->pcd, usb_ep);
++ if (retval) {
++ retval = -EINVAL;
++ }
++
++ return retval;
++}
++
++/**
++ * This function allocates a request object to use with the specified
++ * endpoint.
++ *
++ * @param ep The endpoint to be used with with the request
++ * @param gfp_flags the GFP_* flags to use.
++ */
++static struct usb_request *dwc_otg_pcd_alloc_request(struct usb_ep *ep,
++ gfp_t gfp_flags)
++{
++ struct usb_request *usb_req;
++
++ DWC_DEBUGPL(DBG_PCDV, "%s(%p,%d)\n", __func__, ep, gfp_flags);
++ if (0 == ep) {
++ DWC_WARN("%s() %s\n", __func__, "Invalid EP!\n");
++ return 0;
++ }
++ usb_req = kmalloc(sizeof(*usb_req), gfp_flags);
++ if (0 == usb_req) {
++ DWC_WARN("%s() %s\n", __func__, "request allocation failed!\n");
++ return 0;
++ }
++ memset(usb_req, 0, sizeof(*usb_req));
++ usb_req->dma = DWC_DMA_ADDR_INVALID;
++
++ return usb_req;
++}
++
++/**
++ * This function frees a request object.
++ *
++ * @param ep The endpoint associated with the request
++ * @param req The request being freed
++ */
++static void dwc_otg_pcd_free_request(struct usb_ep *ep, struct usb_request *req)
++{
++ DWC_DEBUGPL(DBG_PCDV, "%s(%p,%p)\n", __func__, ep, req);
++
++ if (0 == ep || 0 == req) {
++ DWC_WARN("%s() %s\n", __func__,
++ "Invalid ep or req argument!\n");
++ return;
++ }
++
++ kfree(req);
++}
++
++#if LINUX_VERSION_CODE < KERNEL_VERSION(2,6,28)
++/**
++ * This function allocates an I/O buffer to be used for a transfer
++ * to/from the specified endpoint.
++ *
++ * @param usb_ep The endpoint to be used with with the request
++ * @param bytes The desired number of bytes for the buffer
++ * @param dma Pointer to the buffer's DMA address; must be valid
++ * @param gfp_flags the GFP_* flags to use.
++ * @return address of a new buffer or null is buffer could not be allocated.
++ */
++static void *dwc_otg_pcd_alloc_buffer(struct usb_ep *usb_ep, unsigned bytes,
++ dma_addr_t * dma, gfp_t gfp_flags)
++{
++ void *buf;
++ dwc_otg_pcd_t *pcd = 0;
++
++ pcd = gadget_wrapper->pcd;
++
++ DWC_DEBUGPL(DBG_PCDV, "%s(%p,%d,%p,%0x)\n", __func__, usb_ep, bytes,
++ dma, gfp_flags);
++
++ /* Check dword alignment */
++ if ((bytes & 0x3UL) != 0) {
++ DWC_WARN("%s() Buffer size is not a multiple of"
++ "DWORD size (%d)", __func__, bytes);
++ }
++
++ buf = dma_alloc_coherent(NULL, bytes, dma, gfp_flags);
++
++ /* Check dword alignment */
++ if (((int)buf & 0x3UL) != 0) {
++ DWC_WARN("%s() Buffer is not DWORD aligned (%p)",
++ __func__, buf);
++ }
++
++ return buf;
++}
++
++/**
++ * This function frees an I/O buffer that was allocated by alloc_buffer.
++ *
++ * @param usb_ep the endpoint associated with the buffer
++ * @param buf address of the buffer
++ * @param dma The buffer's DMA address
++ * @param bytes The number of bytes of the buffer
++ */
++static void dwc_otg_pcd_free_buffer(struct usb_ep *usb_ep, void *buf,
++ dma_addr_t dma, unsigned bytes)
++{
++ dwc_otg_pcd_t *pcd = 0;
++
++ pcd = gadget_wrapper->pcd;
++
++ DWC_DEBUGPL(DBG_PCDV, "%s(%p,%0x,%d)\n", __func__, buf, dma, bytes);
++
++ dma_free_coherent(NULL, bytes, buf, dma);
++}
++#endif
++
++/**
++ * This function is used to submit an I/O Request to an EP.
++ *
++ * - When the request completes the request's completion callback
++ * is called to return the request to the driver.
++ * - An EP, except control EPs, may have multiple requests
++ * pending.
++ * - Once submitted the request cannot be examined or modified.
++ * - Each request is turned into one or more packets.
++ * - A BULK EP can queue any amount of data; the transfer is
++ * packetized.
++ * - Zero length Packets are specified with the request 'zero'
++ * flag.
++ */
++static int ep_queue(struct usb_ep *usb_ep, struct usb_request *usb_req,
++ gfp_t gfp_flags)
++{
++ dwc_otg_pcd_t *pcd;
++ struct dwc_otg_pcd_ep *ep = NULL;
++ int retval = 0, is_isoc_ep = 0;
++ dma_addr_t dma_addr = DWC_DMA_ADDR_INVALID;
++
++ DWC_DEBUGPL(DBG_PCDV, "%s(%p,%p,%d)\n",
++ __func__, usb_ep, usb_req, gfp_flags);
++
++ if (!usb_req || !usb_req->complete || !usb_req->buf) {
++ DWC_WARN("bad params\n");
++ return -EINVAL;
++ }
++
++ if (!usb_ep) {
++ DWC_WARN("bad ep\n");
++ return -EINVAL;
++ }
++
++ pcd = gadget_wrapper->pcd;
++ if (!gadget_wrapper->driver ||
++ gadget_wrapper->gadget.speed == USB_SPEED_UNKNOWN) {
++ DWC_DEBUGPL(DBG_PCDV, "gadget.speed=%d\n",
++ gadget_wrapper->gadget.speed);
++ DWC_WARN("bogus device state\n");
++ return -ESHUTDOWN;
++ }
++
++ DWC_DEBUGPL(DBG_PCD, "%s queue req %p, len %d buf %p\n",
++ usb_ep->name, usb_req, usb_req->length, usb_req->buf);
++
++ usb_req->status = -EINPROGRESS;
++ usb_req->actual = 0;
++
++ ep = ep_from_handle(pcd, usb_ep);
++ if (ep == NULL)
++ is_isoc_ep = 0;
++ else
++ is_isoc_ep = (ep->dwc_ep.type == DWC_OTG_EP_TYPE_ISOC) ? 1 : 0;
++#if LINUX_VERSION_CODE < KERNEL_VERSION(2,6,28)
++ dma_addr = usb_req->dma;
++#else
++ if (GET_CORE_IF(pcd)->dma_enable) {
++ dwc_otg_device_t *otg_dev = gadget_wrapper->pcd->otg_dev;
++ struct device *dev = NULL;
++
++ if (otg_dev != NULL)
++ dev = DWC_OTG_OS_GETDEV(otg_dev->os_dep);
++
++ if (usb_req->length != 0 &&
++ usb_req->dma == DWC_DMA_ADDR_INVALID) {
++ dma_addr = dma_map_single(dev, usb_req->buf,
++ usb_req->length,
++ ep->dwc_ep.is_in ?
++ DMA_TO_DEVICE:
++ DMA_FROM_DEVICE);
++ }
++ }
++#endif
++
++#ifdef DWC_UTE_PER_IO
++ if (is_isoc_ep == 1) {
++ retval = dwc_otg_pcd_xiso_ep_queue(pcd, usb_ep, usb_req->buf, dma_addr,
++ usb_req->length, usb_req->zero, usb_req,
++ gfp_flags == GFP_ATOMIC ? 1 : 0, &usb_req->ext_req);
++ if (retval)
++ return -EINVAL;
++
++ return 0;
++ }
++#endif
++ retval = dwc_otg_pcd_ep_queue(pcd, usb_ep, usb_req->buf, dma_addr,
++ usb_req->length, usb_req->zero, usb_req,
++ gfp_flags == GFP_ATOMIC ? 1 : 0);
++ if (retval) {
++ return -EINVAL;
++ }
++
++ return 0;
++}
++
++/**
++ * This function cancels an I/O request from an EP.
++ */
++static int ep_dequeue(struct usb_ep *usb_ep, struct usb_request *usb_req)
++{
++ DWC_DEBUGPL(DBG_PCDV, "%s(%p,%p)\n", __func__, usb_ep, usb_req);
++
++ if (!usb_ep || !usb_req) {
++ DWC_WARN("bad argument\n");
++ return -EINVAL;
++ }
++ if (!gadget_wrapper->driver ||
++ gadget_wrapper->gadget.speed == USB_SPEED_UNKNOWN) {
++ DWC_WARN("bogus device state\n");
++ return -ESHUTDOWN;
++ }
++ if (dwc_otg_pcd_ep_dequeue(gadget_wrapper->pcd, usb_ep, usb_req)) {
++ return -EINVAL;
++ }
++
++ return 0;
++}
++
++/**
++ * usb_ep_set_halt stalls an endpoint.
++ *
++ * usb_ep_clear_halt clears an endpoint halt and resets its data
++ * toggle.
++ *
++ * Both of these functions are implemented with the same underlying
++ * function. The behavior depends on the value argument.
++ *
++ * @param[in] usb_ep the Endpoint to halt or clear halt.
++ * @param[in] value
++ * - 0 means clear_halt.
++ * - 1 means set_halt,
++ * - 2 means clear stall lock flag.
++ * - 3 means set stall lock flag.
++ */
++static int ep_halt(struct usb_ep *usb_ep, int value)
++{
++ int retval = 0;
++
++ DWC_DEBUGPL(DBG_PCD, "HALT %s %d\n", usb_ep->name, value);
++
++ if (!usb_ep) {
++ DWC_WARN("bad ep\n");
++ return -EINVAL;
++ }
++
++ retval = dwc_otg_pcd_ep_halt(gadget_wrapper->pcd, usb_ep, value);
++ if (retval == -DWC_E_AGAIN) {
++ return -EAGAIN;
++ } else if (retval) {
++ retval = -EINVAL;
++ }
++
++ return retval;
++}
++
++//#if (LINUX_VERSION_CODE >= KERNEL_VERSION(2,6,30))
++#if 0
++/**
++ * ep_wedge: sets the halt feature and ignores clear requests
++ *
++ * @usb_ep: the endpoint being wedged
++ *
++ * Use this to stall an endpoint and ignore CLEAR_FEATURE(HALT_ENDPOINT)
++ * requests. If the gadget driver clears the halt status, it will
++ * automatically unwedge the endpoint.
++ *
++ * Returns zero on success, else negative errno. *
++ * Check usb_ep_set_wedge() at "usb_gadget.h" for details
++ */
++static int ep_wedge(struct usb_ep *usb_ep)
++{
++ int retval = 0;
++
++ DWC_DEBUGPL(DBG_PCD, "WEDGE %s\n", usb_ep->name);
++
++ if (!usb_ep) {
++ DWC_WARN("bad ep\n");
++ return -EINVAL;
++ }
++
++ retval = dwc_otg_pcd_ep_wedge(gadget_wrapper->pcd, usb_ep);
++ if (retval == -DWC_E_AGAIN) {
++ retval = -EAGAIN;
++ } else if (retval) {
++ retval = -EINVAL;
++ }
++
++ return retval;
++}
++#endif
++
++#ifdef DWC_EN_ISOC
++/**
++ * This function is used to submit an ISOC Transfer Request to an EP.
++ *
++ * - Every time a sync period completes the request's completion callback
++ * is called to provide data to the gadget driver.
++ * - Once submitted the request cannot be modified.
++ * - Each request is turned into periodic data packets untill ISO
++ * Transfer is stopped..
++ */
++static int iso_ep_start(struct usb_ep *usb_ep, struct usb_iso_request *req,
++ gfp_t gfp_flags)
++{
++ int retval = 0;
++
++ if (!req || !req->process_buffer || !req->buf0 || !req->buf1) {
++ DWC_WARN("bad params\n");
++ return -EINVAL;
++ }
++
++ if (!usb_ep) {
++ DWC_PRINTF("bad params\n");
++ return -EINVAL;
++ }
++
++ req->status = -EINPROGRESS;
++
++ retval =
++ dwc_otg_pcd_iso_ep_start(gadget_wrapper->pcd, usb_ep, req->buf0,
++ req->buf1, req->dma0, req->dma1,
++ req->sync_frame, req->data_pattern_frame,
++ req->data_per_frame,
++ req->
++ flags & USB_REQ_ISO_ASAP ? -1 :
++ req->start_frame, req->buf_proc_intrvl,
++ req, gfp_flags == GFP_ATOMIC ? 1 : 0);
++
++ if (retval) {
++ return -EINVAL;
++ }
++
++ return retval;
++}
++
++/**
++ * This function stops ISO EP Periodic Data Transfer.
++ */
++static int iso_ep_stop(struct usb_ep *usb_ep, struct usb_iso_request *req)
++{
++ int retval = 0;
++ if (!usb_ep) {
++ DWC_WARN("bad ep\n");
++ }
++
++ if (!gadget_wrapper->driver ||
++ gadget_wrapper->gadget.speed == USB_SPEED_UNKNOWN) {
++ DWC_DEBUGPL(DBG_PCDV, "gadget.speed=%d\n",
++ gadget_wrapper->gadget.speed);
++ DWC_WARN("bogus device state\n");
++ }
++
++ dwc_otg_pcd_iso_ep_stop(gadget_wrapper->pcd, usb_ep, req);
++ if (retval) {
++ retval = -EINVAL;
++ }
++
++ return retval;
++}
++
++static struct usb_iso_request *alloc_iso_request(struct usb_ep *ep,
++ int packets, gfp_t gfp_flags)
++{
++ struct usb_iso_request *pReq = NULL;
++ uint32_t req_size;
++
++ req_size = sizeof(struct usb_iso_request);
++ req_size +=
++ (2 * packets * (sizeof(struct usb_gadget_iso_packet_descriptor)));
++
++ pReq = kmalloc(req_size, gfp_flags);
++ if (!pReq) {
++ DWC_WARN("Can't allocate Iso Request\n");
++ return 0;
++ }
++ pReq->iso_packet_desc0 = (void *)(pReq + 1);
++
++ pReq->iso_packet_desc1 = pReq->iso_packet_desc0 + packets;
++
++ return pReq;
++}
++
++static void free_iso_request(struct usb_ep *ep, struct usb_iso_request *req)
++{
++ kfree(req);
++}
++
++static struct usb_isoc_ep_ops dwc_otg_pcd_ep_ops = {
++ .ep_ops = {
++ .enable = ep_enable,
++ .disable = ep_disable,
++
++ .alloc_request = dwc_otg_pcd_alloc_request,
++ .free_request = dwc_otg_pcd_free_request,
++
++#if LINUX_VERSION_CODE < KERNEL_VERSION(2,6,28)
++ .alloc_buffer = dwc_otg_pcd_alloc_buffer,
++ .free_buffer = dwc_otg_pcd_free_buffer,
++#endif
++
++ .queue = ep_queue,
++ .dequeue = ep_dequeue,
++
++ .set_halt = ep_halt,
++ .fifo_status = 0,
++ .fifo_flush = 0,
++ },
++ .iso_ep_start = iso_ep_start,
++ .iso_ep_stop = iso_ep_stop,
++ .alloc_iso_request = alloc_iso_request,
++ .free_iso_request = free_iso_request,
++};
++
++#else
++
++ int (*enable) (struct usb_ep *ep,
++ const struct usb_endpoint_descriptor *desc);
++ int (*disable) (struct usb_ep *ep);
++
++ struct usb_request *(*alloc_request) (struct usb_ep *ep,
++ gfp_t gfp_flags);
++ void (*free_request) (struct usb_ep *ep, struct usb_request *req);
++
++ int (*queue) (struct usb_ep *ep, struct usb_request *req,
++ gfp_t gfp_flags);
++ int (*dequeue) (struct usb_ep *ep, struct usb_request *req);
++
++ int (*set_halt) (struct usb_ep *ep, int value);
++ int (*set_wedge) (struct usb_ep *ep);
++
++ int (*fifo_status) (struct usb_ep *ep);
++ void (*fifo_flush) (struct usb_ep *ep);
++static struct usb_ep_ops dwc_otg_pcd_ep_ops = {
++ .enable = ep_enable,
++ .disable = ep_disable,
++
++ .alloc_request = dwc_otg_pcd_alloc_request,
++ .free_request = dwc_otg_pcd_free_request,
++
++#if LINUX_VERSION_CODE < KERNEL_VERSION(2,6,28)
++ .alloc_buffer = dwc_otg_pcd_alloc_buffer,
++ .free_buffer = dwc_otg_pcd_free_buffer,
++#else
++ /* .set_wedge = ep_wedge, */
++ .set_wedge = NULL, /* uses set_halt instead */
++#endif
++
++ .queue = ep_queue,
++ .dequeue = ep_dequeue,
++
++ .set_halt = ep_halt,
++ .fifo_status = 0,
++ .fifo_flush = 0,
++
++};
++
++#endif /* _EN_ISOC_ */
++/* Gadget Operations */
++/**
++ * The following gadget operations will be implemented in the DWC_otg
++ * PCD. Functions in the API that are not described below are not
++ * implemented.
++ *
++ * The Gadget API provides wrapper functions for each of the function
++ * pointers defined in usb_gadget_ops. The Gadget Driver calls the
++ * wrapper function, which then calls the underlying PCD function. The
++ * following sections are named according to the wrapper functions
++ * (except for ioctl, which doesn't have a wrapper function). Within
++ * each section, the corresponding DWC_otg PCD function name is
++ * specified.
++ *
++ */
++
++/**
++ *Gets the USB Frame number of the last SOF.
++ */
++static int get_frame_number(struct usb_gadget *gadget)
++{
++ struct gadget_wrapper *d;
++
++ DWC_DEBUGPL(DBG_PCDV, "%s(%p)\n", __func__, gadget);
++
++ if (gadget == 0) {
++ return -ENODEV;
++ }
++
++ d = container_of(gadget, struct gadget_wrapper, gadget);
++ return dwc_otg_pcd_get_frame_number(d->pcd);
++}
++
++#ifdef CONFIG_USB_DWC_OTG_LPM
++static int test_lpm_enabled(struct usb_gadget *gadget)
++{
++ struct gadget_wrapper *d;
++
++ d = container_of(gadget, struct gadget_wrapper, gadget);
++
++ return dwc_otg_pcd_is_lpm_enabled(d->pcd);
++}
++#endif
++
++/**
++ * Initiates Session Request Protocol (SRP) to wakeup the host if no
++ * session is in progress. If a session is already in progress, but
++ * the device is suspended, remote wakeup signaling is started.
++ *
++ */
++static int wakeup(struct usb_gadget *gadget)
++{
++ struct gadget_wrapper *d;
++
++ DWC_DEBUGPL(DBG_PCDV, "%s(%p)\n", __func__, gadget);
++
++ if (gadget == 0) {
++ return -ENODEV;
++ } else {
++ d = container_of(gadget, struct gadget_wrapper, gadget);
++ }
++ dwc_otg_pcd_wakeup(d->pcd);
++ return 0;
++}
++
++static const struct usb_gadget_ops dwc_otg_pcd_ops = {
++ .get_frame = get_frame_number,
++ .wakeup = wakeup,
++#ifdef CONFIG_USB_DWC_OTG_LPM
++ .lpm_support = test_lpm_enabled,
++#endif
++ // current versions must always be self-powered
++};
++
++static int _setup(dwc_otg_pcd_t * pcd, uint8_t * bytes)
++{
++ int retval = -DWC_E_NOT_SUPPORTED;
++ if (gadget_wrapper->driver && gadget_wrapper->driver->setup) {
++ retval = gadget_wrapper->driver->setup(&gadget_wrapper->gadget,
++ (struct usb_ctrlrequest
++ *)bytes);
++ }
++
++ if (retval == -ENOTSUPP) {
++ retval = -DWC_E_NOT_SUPPORTED;
++ } else if (retval < 0) {
++ retval = -DWC_E_INVALID;
++ }
++
++ return retval;
++}
++
++#ifdef DWC_EN_ISOC
++static int _isoc_complete(dwc_otg_pcd_t * pcd, void *ep_handle,
++ void *req_handle, int proc_buf_num)
++{
++ int i, packet_count;
++ struct usb_gadget_iso_packet_descriptor *iso_packet = 0;
++ struct usb_iso_request *iso_req = req_handle;
++
++ if (proc_buf_num) {
++ iso_packet = iso_req->iso_packet_desc1;
++ } else {
++ iso_packet = iso_req->iso_packet_desc0;
++ }
++ packet_count =
++ dwc_otg_pcd_get_iso_packet_count(pcd, ep_handle, req_handle);
++ for (i = 0; i < packet_count; ++i) {
++ int status;
++ int actual;
++ int offset;
++ dwc_otg_pcd_get_iso_packet_params(pcd, ep_handle, req_handle,
++ i, &status, &actual, &offset);
++ switch (status) {
++ case -DWC_E_NO_DATA:
++ status = -ENODATA;
++ break;
++ default:
++ if (status) {
++ DWC_PRINTF("unknown status in isoc packet\n");
++ }
++
++ }
++ iso_packet[i].status = status;
++ iso_packet[i].offset = offset;
++ iso_packet[i].actual_length = actual;
++ }
++
++ iso_req->status = 0;
++ iso_req->process_buffer(ep_handle, iso_req);
++
++ return 0;
++}
++#endif /* DWC_EN_ISOC */
++
++#ifdef DWC_UTE_PER_IO
++/**
++ * Copy the contents of the extended request to the Linux usb_request's
++ * extended part and call the gadget's completion.
++ *
++ * @param pcd Pointer to the pcd structure
++ * @param ep_handle Void pointer to the usb_ep structure
++ * @param req_handle Void pointer to the usb_request structure
++ * @param status Request status returned from the portable logic
++ * @param ereq_port Void pointer to the extended request structure
++ * created in the the portable part that contains the
++ * results of the processed iso packets.
++ */
++static int _xisoc_complete(dwc_otg_pcd_t * pcd, void *ep_handle,
++ void *req_handle, int32_t status, void *ereq_port)
++{
++ struct dwc_ute_iso_req_ext *ereqorg = NULL;
++ struct dwc_iso_xreq_port *ereqport = NULL;
++ struct dwc_ute_iso_packet_descriptor *desc_org = NULL;
++ int i;
++ struct usb_request *req;
++ //struct dwc_ute_iso_packet_descriptor *
++ //int status = 0;
++
++ req = (struct usb_request *)req_handle;
++ ereqorg = &req->ext_req;
++ ereqport = (struct dwc_iso_xreq_port *)ereq_port;
++ desc_org = ereqorg->per_io_frame_descs;
++
++ if (req && req->complete) {
++ /* Copy the request data from the portable logic to our request */
++ for (i = 0; i < ereqport->pio_pkt_count; i++) {
++ desc_org[i].actual_length =
++ ereqport->per_io_frame_descs[i].actual_length;
++ desc_org[i].status =
++ ereqport->per_io_frame_descs[i].status;
++ }
++
++ switch (status) {
++ case -DWC_E_SHUTDOWN:
++ req->status = -ESHUTDOWN;
++ break;
++ case -DWC_E_RESTART:
++ req->status = -ECONNRESET;
++ break;
++ case -DWC_E_INVALID:
++ req->status = -EINVAL;
++ break;
++ case -DWC_E_TIMEOUT:
++ req->status = -ETIMEDOUT;
++ break;
++ default:
++ req->status = status;
++ }
++
++ /* And call the gadget's completion */
++ req->complete(ep_handle, req);
++ }
++
++ return 0;
++}
++#endif /* DWC_UTE_PER_IO */
++
++static int _complete(dwc_otg_pcd_t * pcd, void *ep_handle,
++ void *req_handle, int32_t status, uint32_t actual)
++{
++ struct usb_request *req = (struct usb_request *)req_handle;
++#if LINUX_VERSION_CODE > KERNEL_VERSION(2,6,27)
++ struct dwc_otg_pcd_ep *ep = NULL;
++#endif
++
++ if (req && req->complete) {
++ switch (status) {
++ case -DWC_E_SHUTDOWN:
++ req->status = -ESHUTDOWN;
++ break;
++ case -DWC_E_RESTART:
++ req->status = -ECONNRESET;
++ break;
++ case -DWC_E_INVALID:
++ req->status = -EINVAL;
++ break;
++ case -DWC_E_TIMEOUT:
++ req->status = -ETIMEDOUT;
++ break;
++ default:
++ req->status = status;
++
++ }
++
++ req->actual = actual;
++ DWC_SPINUNLOCK(pcd->lock);
++ req->complete(ep_handle, req);
++ DWC_SPINLOCK(pcd->lock);
++ }
++#if LINUX_VERSION_CODE > KERNEL_VERSION(2,6,27)
++ ep = ep_from_handle(pcd, ep_handle);
++ if (GET_CORE_IF(pcd)->dma_enable) {
++ if (req->length != 0) {
++ dwc_otg_device_t *otg_dev = gadget_wrapper->pcd->otg_dev;
++ struct device *dev = NULL;
++
++ if (otg_dev != NULL)
++ dev = DWC_OTG_OS_GETDEV(otg_dev->os_dep);
++
++ dma_unmap_single(dev, req->dma, req->length,
++ ep->dwc_ep.is_in ?
++ DMA_TO_DEVICE: DMA_FROM_DEVICE);
++ }
++ }
++#endif
++
++ return 0;
++}
++
++static int _connect(dwc_otg_pcd_t * pcd, int speed)
++{
++ gadget_wrapper->gadget.speed = speed;
++ return 0;
++}
++
++static int _disconnect(dwc_otg_pcd_t * pcd)
++{
++ if (gadget_wrapper->driver && gadget_wrapper->driver->disconnect) {
++ gadget_wrapper->driver->disconnect(&gadget_wrapper->gadget);
++ }
++ return 0;
++}
++
++static int _resume(dwc_otg_pcd_t * pcd)
++{
++ if (gadget_wrapper->driver && gadget_wrapper->driver->resume) {
++ gadget_wrapper->driver->resume(&gadget_wrapper->gadget);
++ }
++
++ return 0;
++}
++
++static int _suspend(dwc_otg_pcd_t * pcd)
++{
++ if (gadget_wrapper->driver && gadget_wrapper->driver->suspend) {
++ gadget_wrapper->driver->suspend(&gadget_wrapper->gadget);
++ }
++ return 0;
++}
++
++/**
++ * This function updates the otg values in the gadget structure.
++ */
++static int _hnp_changed(dwc_otg_pcd_t * pcd)
++{
++
++ if (!gadget_wrapper->gadget.is_otg)
++ return 0;
++
++ gadget_wrapper->gadget.b_hnp_enable = get_b_hnp_enable(pcd);
++ gadget_wrapper->gadget.a_hnp_support = get_a_hnp_support(pcd);
++ gadget_wrapper->gadget.a_alt_hnp_support = get_a_alt_hnp_support(pcd);
++ return 0;
++}
++
++static int _reset(dwc_otg_pcd_t * pcd)
++{
++ return 0;
++}
++
++#ifdef DWC_UTE_CFI
++static int _cfi_setup(dwc_otg_pcd_t * pcd, void *cfi_req)
++{
++ int retval = -DWC_E_INVALID;
++ if (gadget_wrapper->driver->cfi_feature_setup) {
++ retval =
++ gadget_wrapper->driver->
++ cfi_feature_setup(&gadget_wrapper->gadget,
++ (struct cfi_usb_ctrlrequest *)cfi_req);
++ }
++
++ return retval;
++}
++#endif
++
++static const struct dwc_otg_pcd_function_ops fops = {
++ .complete = _complete,
++#ifdef DWC_EN_ISOC
++ .isoc_complete = _isoc_complete,
++#endif
++ .setup = _setup,
++ .disconnect = _disconnect,
++ .connect = _connect,
++ .resume = _resume,
++ .suspend = _suspend,
++ .hnp_changed = _hnp_changed,
++ .reset = _reset,
++#ifdef DWC_UTE_CFI
++ .cfi_setup = _cfi_setup,
++#endif
++#ifdef DWC_UTE_PER_IO
++ .xisoc_complete = _xisoc_complete,
++#endif
++};
++
++/**
++ * This function is the top level PCD interrupt handler.
++ */
++static irqreturn_t dwc_otg_pcd_irq(int irq, void *dev)
++{
++ dwc_otg_pcd_t *pcd = dev;
++ int32_t retval = IRQ_NONE;
++
++ retval = dwc_otg_pcd_handle_intr(pcd);
++ if (retval != 0) {
++ S3C2410X_CLEAR_EINTPEND();
++ }
++ return IRQ_RETVAL(retval);
++}
++
++/**
++ * This function initialized the usb_ep structures to there default
++ * state.
++ *
++ * @param d Pointer on gadget_wrapper.
++ */
++void gadget_add_eps(struct gadget_wrapper *d)
++{
++ static const char *names[] = {
++
++ "ep0",
++ "ep1in",
++ "ep2in",
++ "ep3in",
++ "ep4in",
++ "ep5in",
++ "ep6in",
++ "ep7in",
++ "ep8in",
++ "ep9in",
++ "ep10in",
++ "ep11in",
++ "ep12in",
++ "ep13in",
++ "ep14in",
++ "ep15in",
++ "ep1out",
++ "ep2out",
++ "ep3out",
++ "ep4out",
++ "ep5out",
++ "ep6out",
++ "ep7out",
++ "ep8out",
++ "ep9out",
++ "ep10out",
++ "ep11out",
++ "ep12out",
++ "ep13out",
++ "ep14out",
++ "ep15out"
++ };
++
++ int i;
++ struct usb_ep *ep;
++ int8_t dev_endpoints;
++
++ DWC_DEBUGPL(DBG_PCDV, "%s\n", __func__);
++
++ INIT_LIST_HEAD(&d->gadget.ep_list);
++ d->gadget.ep0 = &d->ep0;
++ d->gadget.speed = USB_SPEED_UNKNOWN;
++
++ INIT_LIST_HEAD(&d->gadget.ep0->ep_list);
++
++ /**
++ * Initialize the EP0 structure.
++ */
++ ep = &d->ep0;
++
++ /* Init the usb_ep structure. */
++ ep->name = names[0];
++ ep->ops = (struct usb_ep_ops *)&dwc_otg_pcd_ep_ops;
++
++ /**
++ * @todo NGS: What should the max packet size be set to
++ * here? Before EP type is set?
++ */
++ ep->maxpacket = MAX_PACKET_SIZE;
++ dwc_otg_pcd_ep_enable(d->pcd, NULL, ep);
++
++ list_add_tail(&ep->ep_list, &d->gadget.ep_list);
++
++ /**
++ * Initialize the EP structures.
++ */
++ dev_endpoints = d->pcd->core_if->dev_if->num_in_eps;
++
++ for (i = 0; i < dev_endpoints; i++) {
++ ep = &d->in_ep[i];
++
++ /* Init the usb_ep structure. */
++ ep->name = names[d->pcd->in_ep[i].dwc_ep.num];
++ ep->ops = (struct usb_ep_ops *)&dwc_otg_pcd_ep_ops;
++
++ /**
++ * @todo NGS: What should the max packet size be set to
++ * here? Before EP type is set?
++ */
++ ep->maxpacket = MAX_PACKET_SIZE;
++ list_add_tail(&ep->ep_list, &d->gadget.ep_list);
++ }
++
++ dev_endpoints = d->pcd->core_if->dev_if->num_out_eps;
++
++ for (i = 0; i < dev_endpoints; i++) {
++ ep = &d->out_ep[i];
++
++ /* Init the usb_ep structure. */
++ ep->name = names[15 + d->pcd->out_ep[i].dwc_ep.num];
++ ep->ops = (struct usb_ep_ops *)&dwc_otg_pcd_ep_ops;
++
++ /**
++ * @todo NGS: What should the max packet size be set to
++ * here? Before EP type is set?
++ */
++ ep->maxpacket = MAX_PACKET_SIZE;
++
++ list_add_tail(&ep->ep_list, &d->gadget.ep_list);
++ }
++
++ /* remove ep0 from the list. There is a ep0 pointer. */
++ list_del_init(&d->ep0.ep_list);
++
++ d->ep0.maxpacket = MAX_EP0_SIZE;
++}
++
++/**
++ * This function releases the Gadget device.
++ * required by device_unregister().
++ *
++ * @todo Should this do something? Should it free the PCD?
++ */
++static void dwc_otg_pcd_gadget_release(struct device *dev)
++{
++ DWC_DEBUGPL(DBG_PCDV, "%s(%p)\n", __func__, dev);
++}
++
++static struct gadget_wrapper *alloc_wrapper(dwc_bus_dev_t *_dev)
++{
++ static char pcd_name[] = "dwc_otg_pcd";
++ dwc_otg_device_t *otg_dev = DWC_OTG_BUSDRVDATA(_dev);
++ struct gadget_wrapper *d;
++ int retval;
++
++ d = DWC_ALLOC(sizeof(*d));
++ if (d == NULL) {
++ return NULL;
++ }
++
++ memset(d, 0, sizeof(*d));
++
++ d->gadget.name = pcd_name;
++ d->pcd = otg_dev->pcd;
++
++#if LINUX_VERSION_CODE < KERNEL_VERSION(2,6,30)
++ strcpy(d->gadget.dev.bus_id, "gadget");
++#else
++ dev_set_name(&d->gadget.dev, "%s", "gadget");
++#endif
++
++ d->gadget.dev.parent = &_dev->dev;
++ d->gadget.dev.release = dwc_otg_pcd_gadget_release;
++ d->gadget.ops = &dwc_otg_pcd_ops;
++ d->gadget.max_speed = dwc_otg_pcd_is_dualspeed(otg_dev->pcd) ? USB_SPEED_HIGH:USB_SPEED_FULL;
++ d->gadget.is_otg = dwc_otg_pcd_is_otg(otg_dev->pcd);
++
++ d->driver = 0;
++ /* Register the gadget device */
++ retval = device_register(&d->gadget.dev);
++ if (retval != 0) {
++ DWC_ERROR("device_register failed\n");
++ DWC_FREE(d);
++ return NULL;
++ }
++
++ return d;
++}
++
++static void free_wrapper(struct gadget_wrapper *d)
++{
++ if (d->driver) {
++ /* should have been done already by driver model core */
++ DWC_WARN("driver '%s' is still registered\n",
++ d->driver->driver.name);
++ usb_gadget_unregister_driver(d->driver);
++ }
++
++ device_unregister(&d->gadget.dev);
++ DWC_FREE(d);
++}
++
++/**
++ * This function initialized the PCD portion of the driver.
++ *
++ */
++int pcd_init(dwc_bus_dev_t *_dev)
++{
++ dwc_otg_device_t *otg_dev = DWC_OTG_BUSDRVDATA(_dev);
++ int retval = 0;
++
++ DWC_DEBUGPL(DBG_PCDV, "%s(%p) otg_dev=%p\n", __func__, _dev, otg_dev);
++
++ otg_dev->pcd = dwc_otg_pcd_init(otg_dev->core_if);
++
++ if (!otg_dev->pcd) {
++ DWC_ERROR("dwc_otg_pcd_init failed\n");
++ return -ENOMEM;
++ }
++
++ otg_dev->pcd->otg_dev = otg_dev;
++ gadget_wrapper = alloc_wrapper(_dev);
++
++ /*
++ * Initialize EP structures
++ */
++ gadget_add_eps(gadget_wrapper);
++ /*
++ * Setup interupt handler
++ */
++#ifdef PLATFORM_INTERFACE
++ DWC_DEBUGPL(DBG_ANY, "registering handler for irq%d\n",
++ platform_get_irq(_dev, 0));
++ retval = request_irq(platform_get_irq(_dev, 0), dwc_otg_pcd_irq,
++ IRQF_SHARED, gadget_wrapper->gadget.name,
++ otg_dev->pcd);
++ if (retval != 0) {
++ DWC_ERROR("request of irq%d failed\n",
++ platform_get_irq(_dev, 0));
++ free_wrapper(gadget_wrapper);
++ return -EBUSY;
++ }
++#else
++ DWC_DEBUGPL(DBG_ANY, "registering handler for irq%d\n",
++ _dev->irq);
++ retval = request_irq(_dev->irq, dwc_otg_pcd_irq,
++ IRQF_SHARED | IRQF_DISABLED,
++ gadget_wrapper->gadget.name, otg_dev->pcd);
++ if (retval != 0) {
++ DWC_ERROR("request of irq%d failed\n", _dev->irq);
++ free_wrapper(gadget_wrapper);
++ return -EBUSY;
++ }
++#endif
++
++ dwc_otg_pcd_start(gadget_wrapper->pcd, &fops);
++
++ return retval;
++}
++
++/**
++ * Cleanup the PCD.
++ */
++void pcd_remove(dwc_bus_dev_t *_dev)
++{
++ dwc_otg_device_t *otg_dev = DWC_OTG_BUSDRVDATA(_dev);
++ dwc_otg_pcd_t *pcd = otg_dev->pcd;
++
++ DWC_DEBUGPL(DBG_PCDV, "%s(%p) otg_dev %p\n", __func__, _dev, otg_dev);
++
++ /*
++ * Free the IRQ
++ */
++#ifdef PLATFORM_INTERFACE
++ free_irq(platform_get_irq(_dev, 0), pcd);
++#else
++ free_irq(_dev->irq, pcd);
++#endif
++ dwc_otg_pcd_remove(otg_dev->pcd);
++ free_wrapper(gadget_wrapper);
++ otg_dev->pcd = 0;
++}
++
++/**
++ * This function registers a gadget driver with the PCD.
++ *
++ * When a driver is successfully registered, it will receive control
++ * requests including set_configuration(), which enables non-control
++ * requests. then usb traffic follows until a disconnect is reported.
++ * then a host may connect again, or the driver might get unbound.
++ *
++ * @param driver The driver being registered
++ * @param bind The bind function of gadget driver
++ */
++
++int usb_gadget_probe_driver(struct usb_gadget_driver *driver)
++{
++ int retval;
++
++ DWC_DEBUGPL(DBG_PCD, "registering gadget driver '%s'\n",
++ driver->driver.name);
++
++ if (!driver || driver->max_speed == USB_SPEED_UNKNOWN ||
++ !driver->bind ||
++ !driver->unbind || !driver->disconnect || !driver->setup) {
++ DWC_DEBUGPL(DBG_PCDV, "EINVAL\n");
++ return -EINVAL;
++ }
++ if (gadget_wrapper == 0) {
++ DWC_DEBUGPL(DBG_PCDV, "ENODEV\n");
++ return -ENODEV;
++ }
++ if (gadget_wrapper->driver != 0) {
++ DWC_DEBUGPL(DBG_PCDV, "EBUSY (%p)\n", gadget_wrapper->driver);
++ return -EBUSY;
++ }
++
++ /* hook up the driver */
++ gadget_wrapper->driver = driver;
++ gadget_wrapper->gadget.dev.driver = &driver->driver;
++
++ DWC_DEBUGPL(DBG_PCD, "bind to driver %s\n", driver->driver.name);
++ retval = driver->bind(&gadget_wrapper->gadget, gadget_wrapper->driver);
++ if (retval) {
++ DWC_ERROR("bind to driver %s --> error %d\n",
++ driver->driver.name, retval);
++ gadget_wrapper->driver = 0;
++ gadget_wrapper->gadget.dev.driver = 0;
++ return retval;
++ }
++ DWC_DEBUGPL(DBG_ANY, "registered gadget driver '%s'\n",
++ driver->driver.name);
++ return 0;
++}
++EXPORT_SYMBOL(usb_gadget_probe_driver);
++
++/**
++ * This function unregisters a gadget driver
++ *
++ * @param driver The driver being unregistered
++ */
++int usb_gadget_unregister_driver(struct usb_gadget_driver *driver)
++{
++ //DWC_DEBUGPL(DBG_PCDV,"%s(%p)\n", __func__, _driver);
++
++ if (gadget_wrapper == 0) {
++ DWC_DEBUGPL(DBG_ANY, "%s Return(%d): s_pcd==0\n", __func__,
++ -ENODEV);
++ return -ENODEV;
++ }
++ if (driver == 0 || driver != gadget_wrapper->driver) {
++ DWC_DEBUGPL(DBG_ANY, "%s Return(%d): driver?\n", __func__,
++ -EINVAL);
++ return -EINVAL;
++ }
++
++ driver->unbind(&gadget_wrapper->gadget);
++ gadget_wrapper->driver = 0;
++
++ DWC_DEBUGPL(DBG_ANY, "unregistered driver '%s'\n", driver->driver.name);
++ return 0;
++}
++
++EXPORT_SYMBOL(usb_gadget_unregister_driver);
++
++#endif /* DWC_HOST_ONLY */
+diff -urN linux-3.10/drivers/usb/host/dwc_otg/dwc_otg_regs.h linux-rpi-3.10.y/drivers/usb/host/dwc_otg/dwc_otg_regs.h
+--- linux-3.10/drivers/usb/host/dwc_otg/dwc_otg_regs.h 1970-01-01 01:00:00.000000000 +0100
++++ linux-rpi-3.10.y/drivers/usb/host/dwc_otg/dwc_otg_regs.h 2013-07-06 15:25:50.000000000 +0100
+@@ -0,0 +1,2550 @@
++/* ==========================================================================
++ * $File: //dwh/usb_iip/dev/software/otg/linux/drivers/dwc_otg_regs.h $
++ * $Revision: #98 $
++ * $Date: 2012/08/10 $
++ * $Change: 2047372 $
++ *
++ * Synopsys HS OTG Linux Software Driver and documentation (hereinafter,
++ * "Software") is an Unsupported proprietary work of Synopsys, Inc. unless
++ * otherwise expressly agreed to in writing between Synopsys and you.
++ *
++ * The Software IS NOT an item of Licensed Software or Licensed Product under
++ * any End User Software License Agreement or Agreement for Licensed Product
++ * with Synopsys or any supplement thereto. You are permitted to use and
++ * redistribute this Software in source and binary forms, with or without
++ * modification, provided that redistributions of source code must retain this
++ * notice. You may not view, use, disclose, copy or distribute this file or
++ * any information contained herein except pursuant to this license grant from
++ * Synopsys. If you do not agree with this notice, including the disclaimer
++ * below, then you are not authorized to use the Software.
++ *
++ * THIS SOFTWARE IS BEING DISTRIBUTED BY SYNOPSYS SOLELY ON AN "AS IS" BASIS
++ * AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
++ * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE
++ * ARE HEREBY DISCLAIMED. IN NO EVENT SHALL SYNOPSYS BE LIABLE FOR ANY DIRECT,
++ * INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES
++ * (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR
++ * SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER
++ * CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT
++ * LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY
++ * OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH
++ * DAMAGE.
++ * ========================================================================== */
++
++#ifndef __DWC_OTG_REGS_H__
++#define __DWC_OTG_REGS_H__
++
++#include "dwc_otg_core_if.h"
++
++/**
++ * @file
++ *
++ * This file contains the data structures for accessing the DWC_otg core registers.
++ *
++ * The application interfaces with the HS OTG core by reading from and
++ * writing to the Control and Status Register (CSR) space through the
++ * AHB Slave interface. These registers are 32 bits wide, and the
++ * addresses are 32-bit-block aligned.
++ * CSRs are classified as follows:
++ * - Core Global Registers
++ * - Device Mode Registers
++ * - Device Global Registers
++ * - Device Endpoint Specific Registers
++ * - Host Mode Registers
++ * - Host Global Registers
++ * - Host Port CSRs
++ * - Host Channel Specific Registers
++ *
++ * Only the Core Global registers can be accessed in both Device and
++ * Host modes. When the HS OTG core is operating in one mode, either
++ * Device or Host, the application must not access registers from the
++ * other mode. When the core switches from one mode to another, the
++ * registers in the new mode of operation must be reprogrammed as they
++ * would be after a power-on reset.
++ */
++
++/****************************************************************************/
++/** DWC_otg Core registers .
++ * The dwc_otg_core_global_regs structure defines the size
++ * and relative field offsets for the Core Global registers.
++ */
++typedef struct dwc_otg_core_global_regs {
++ /** OTG Control and Status Register. <i>Offset: 000h</i> */
++ volatile uint32_t gotgctl;
++ /** OTG Interrupt Register. <i>Offset: 004h</i> */
++ volatile uint32_t gotgint;
++ /**Core AHB Configuration Register. <i>Offset: 008h</i> */
++ volatile uint32_t gahbcfg;
++
++#define DWC_GLBINTRMASK 0x0001
++#define DWC_DMAENABLE 0x0020
++#define DWC_NPTXEMPTYLVL_EMPTY 0x0080
++#define DWC_NPTXEMPTYLVL_HALFEMPTY 0x0000
++#define DWC_PTXEMPTYLVL_EMPTY 0x0100
++#define DWC_PTXEMPTYLVL_HALFEMPTY 0x0000
++
++ /**Core USB Configuration Register. <i>Offset: 00Ch</i> */
++ volatile uint32_t gusbcfg;
++ /**Core Reset Register. <i>Offset: 010h</i> */
++ volatile uint32_t grstctl;
++ /**Core Interrupt Register. <i>Offset: 014h</i> */
++ volatile uint32_t gintsts;
++ /**Core Interrupt Mask Register. <i>Offset: 018h</i> */
++ volatile uint32_t gintmsk;
++ /**Receive Status Queue Read Register (Read Only). <i>Offset: 01Ch</i> */
++ volatile uint32_t grxstsr;
++ /**Receive Status Queue Read & POP Register (Read Only). <i>Offset: 020h</i>*/
++ volatile uint32_t grxstsp;
++ /**Receive FIFO Size Register. <i>Offset: 024h</i> */
++ volatile uint32_t grxfsiz;
++ /**Non Periodic Transmit FIFO Size Register. <i>Offset: 028h</i> */
++ volatile uint32_t gnptxfsiz;
++ /**Non Periodic Transmit FIFO/Queue Status Register (Read
++ * Only). <i>Offset: 02Ch</i> */
++ volatile uint32_t gnptxsts;
++ /**I2C Access Register. <i>Offset: 030h</i> */
++ volatile uint32_t gi2cctl;
++ /**PHY Vendor Control Register. <i>Offset: 034h</i> */
++ volatile uint32_t gpvndctl;
++ /**General Purpose Input/Output Register. <i>Offset: 038h</i> */
++ volatile uint32_t ggpio;
++ /**User ID Register. <i>Offset: 03Ch</i> */
++ volatile uint32_t guid;
++ /**Synopsys ID Register (Read Only). <i>Offset: 040h</i> */
++ volatile uint32_t gsnpsid;
++ /**User HW Config1 Register (Read Only). <i>Offset: 044h</i> */
++ volatile uint32_t ghwcfg1;
++ /**User HW Config2 Register (Read Only). <i>Offset: 048h</i> */
++ volatile uint32_t ghwcfg2;
++#define DWC_SLAVE_ONLY_ARCH 0
++#define DWC_EXT_DMA_ARCH 1
++#define DWC_INT_DMA_ARCH 2
++
++#define DWC_MODE_HNP_SRP_CAPABLE 0
++#define DWC_MODE_SRP_ONLY_CAPABLE 1
++#define DWC_MODE_NO_HNP_SRP_CAPABLE 2
++#define DWC_MODE_SRP_CAPABLE_DEVICE 3
++#define DWC_MODE_NO_SRP_CAPABLE_DEVICE 4
++#define DWC_MODE_SRP_CAPABLE_HOST 5
++#define DWC_MODE_NO_SRP_CAPABLE_HOST 6
++
++ /**User HW Config3 Register (Read Only). <i>Offset: 04Ch</i> */
++ volatile uint32_t ghwcfg3;
++ /**User HW Config4 Register (Read Only). <i>Offset: 050h</i>*/
++ volatile uint32_t ghwcfg4;
++ /** Core LPM Configuration register <i>Offset: 054h</i>*/
++ volatile uint32_t glpmcfg;
++ /** Global PowerDn Register <i>Offset: 058h</i> */
++ volatile uint32_t gpwrdn;
++ /** Global DFIFO SW Config Register <i>Offset: 05Ch</i> */
++ volatile uint32_t gdfifocfg;
++ /** ADP Control Register <i>Offset: 060h</i> */
++ volatile uint32_t adpctl;
++ /** Reserved <i>Offset: 064h-0FFh</i> */
++ volatile uint32_t reserved39[39];
++ /** Host Periodic Transmit FIFO Size Register. <i>Offset: 100h</i> */
++ volatile uint32_t hptxfsiz;
++ /** Device Periodic Transmit FIFO#n Register if dedicated fifos are disabled,
++ otherwise Device Transmit FIFO#n Register.
++ * <i>Offset: 104h + (FIFO_Number-1)*04h, 1 <= FIFO Number <= 15 (1<=n<=15).</i> */
++ volatile uint32_t dtxfsiz[15];
++} dwc_otg_core_global_regs_t;
++
++/**
++ * This union represents the bit fields of the Core OTG Control
++ * and Status Register (GOTGCTL). Set the bits using the bit
++ * fields then write the <i>d32</i> value to the register.
++ */
++typedef union gotgctl_data {
++ /** raw register data */
++ uint32_t d32;
++ /** register bits */
++ struct {
++ unsigned sesreqscs:1;
++ unsigned sesreq:1;
++ unsigned vbvalidoven:1;
++ unsigned vbvalidovval:1;
++ unsigned avalidoven:1;
++ unsigned avalidovval:1;
++ unsigned bvalidoven:1;
++ unsigned bvalidovval:1;
++ unsigned hstnegscs:1;
++ unsigned hnpreq:1;
++ unsigned hstsethnpen:1;
++ unsigned devhnpen:1;
++ unsigned reserved12_15:4;
++ unsigned conidsts:1;
++ unsigned dbnctime:1;
++ unsigned asesvld:1;
++ unsigned bsesvld:1;
++ unsigned otgver:1;
++ unsigned reserved1:1;
++ unsigned multvalidbc:5;
++ unsigned chirpen:1;
++ unsigned reserved28_31:4;
++ } b;
++} gotgctl_data_t;
++
++/**
++ * This union represents the bit fields of the Core OTG Interrupt Register
++ * (GOTGINT). Set/clear the bits using the bit fields then write the <i>d32</i>
++ * value to the register.
++ */
++typedef union gotgint_data {
++ /** raw register data */
++ uint32_t d32;
++ /** register bits */
++ struct {
++ /** Current Mode */
++ unsigned reserved0_1:2;
++
++ /** Session End Detected */
++ unsigned sesenddet:1;
++
++ unsigned reserved3_7:5;
++
++ /** Session Request Success Status Change */
++ unsigned sesreqsucstschng:1;
++ /** Host Negotiation Success Status Change */
++ unsigned hstnegsucstschng:1;
++
++ unsigned reserved10_16:7;
++
++ /** Host Negotiation Detected */
++ unsigned hstnegdet:1;
++ /** A-Device Timeout Change */
++ unsigned adevtoutchng:1;
++ /** Debounce Done */
++ unsigned debdone:1;
++ /** Multi-Valued input changed */
++ unsigned mvic:1;
++
++ unsigned reserved31_21:11;
++
++ } b;
++} gotgint_data_t;
++
++/**
++ * This union represents the bit fields of the Core AHB Configuration
++ * Register (GAHBCFG). Set/clear the bits using the bit fields then
++ * write the <i>d32</i> value to the register.
++ */
++typedef union gahbcfg_data {
++ /** raw register data */
++ uint32_t d32;
++ /** register bits */
++ struct {
++ unsigned glblintrmsk:1;
++#define DWC_GAHBCFG_GLBINT_ENABLE 1
++
++ unsigned hburstlen:4;
++#define DWC_GAHBCFG_INT_DMA_BURST_SINGLE 0
++#define DWC_GAHBCFG_INT_DMA_BURST_INCR 1
++#define DWC_GAHBCFG_INT_DMA_BURST_INCR4 3
++#define DWC_GAHBCFG_INT_DMA_BURST_INCR8 5
++#define DWC_GAHBCFG_INT_DMA_BURST_INCR16 7
++
++ unsigned dmaenable:1;
++#define DWC_GAHBCFG_DMAENABLE 1
++ unsigned reserved:1;
++ unsigned nptxfemplvl_txfemplvl:1;
++ unsigned ptxfemplvl:1;
++#define DWC_GAHBCFG_TXFEMPTYLVL_EMPTY 1
++#define DWC_GAHBCFG_TXFEMPTYLVL_HALFEMPTY 0
++ unsigned reserved9_20:12;
++ unsigned remmemsupp:1;
++ unsigned notialldmawrit:1;
++ unsigned ahbsingle:1;
++ unsigned reserved24_31:8;
++ } b;
++} gahbcfg_data_t;
++
++/**
++ * This union represents the bit fields of the Core USB Configuration
++ * Register (GUSBCFG). Set the bits using the bit fields then write
++ * the <i>d32</i> value to the register.
++ */
++typedef union gusbcfg_data {
++ /** raw register data */
++ uint32_t d32;
++ /** register bits */
++ struct {
++ unsigned toutcal:3;
++ unsigned phyif:1;
++ unsigned ulpi_utmi_sel:1;
++ unsigned fsintf:1;
++ unsigned physel:1;
++ unsigned ddrsel:1;
++ unsigned srpcap:1;
++ unsigned hnpcap:1;
++ unsigned usbtrdtim:4;
++ unsigned reserved1:1;
++ unsigned phylpwrclksel:1;
++ unsigned otgutmifssel:1;
++ unsigned ulpi_fsls:1;
++ unsigned ulpi_auto_res:1;
++ unsigned ulpi_clk_sus_m:1;
++ unsigned ulpi_ext_vbus_drv:1;
++ unsigned ulpi_int_vbus_indicator:1;
++ unsigned term_sel_dl_pulse:1;
++ unsigned indicator_complement:1;
++ unsigned indicator_pass_through:1;
++ unsigned ulpi_int_prot_dis:1;
++ unsigned ic_usb_cap:1;
++ unsigned ic_traffic_pull_remove:1;
++ unsigned tx_end_delay:1;
++ unsigned force_host_mode:1;
++ unsigned force_dev_mode:1;
++ unsigned reserved31:1;
++ } b;
++} gusbcfg_data_t;
++
++/**
++ * This union represents the bit fields of the Core Reset Register
++ * (GRSTCTL). Set/clear the bits using the bit fields then write the
++ * <i>d32</i> value to the register.
++ */
++typedef union grstctl_data {
++ /** raw register data */
++ uint32_t d32;
++ /** register bits */
++ struct {
++ /** Core Soft Reset (CSftRst) (Device and Host)
++ *
++ * The application can flush the control logic in the
++ * entire core using this bit. This bit resets the
++ * pipelines in the AHB Clock domain as well as the
++ * PHY Clock domain.
++ *
++ * The state machines are reset to an IDLE state, the
++ * control bits in the CSRs are cleared, all the
++ * transmit FIFOs and the receive FIFO are flushed.
++ *
++ * The status mask bits that control the generation of
++ * the interrupt, are cleared, to clear the
++ * interrupt. The interrupt status bits are not
++ * cleared, so the application can get the status of
++ * any events that occurred in the core after it has
++ * set this bit.
++ *
++ * Any transactions on the AHB are terminated as soon
++ * as possible following the protocol. Any
++ * transactions on the USB are terminated immediately.
++ *
++ * The configuration settings in the CSRs are
++ * unchanged, so the software doesn't have to
++ * reprogram these registers (Device
++ * Configuration/Host Configuration/Core System
++ * Configuration/Core PHY Configuration).
++ *
++ * The application can write to this bit, any time it
++ * wants to reset the core. This is a self clearing
++ * bit and the core clears this bit after all the
++ * necessary logic is reset in the core, which may
++ * take several clocks, depending on the current state
++ * of the core.
++ */
++ unsigned csftrst:1;
++ /** Hclk Soft Reset
++ *
++ * The application uses this bit to reset the control logic in
++ * the AHB clock domain. Only AHB clock domain pipelines are
++ * reset.
++ */
++ unsigned hsftrst:1;
++ /** Host Frame Counter Reset (Host Only)<br>
++ *
++ * The application can reset the (micro)frame number
++ * counter inside the core, using this bit. When the
++ * (micro)frame counter is reset, the subsequent SOF
++ * sent out by the core, will have a (micro)frame
++ * number of 0.
++ */
++ unsigned hstfrm:1;
++ /** In Token Sequence Learning Queue Flush
++ * (INTknQFlsh) (Device Only)
++ */
++ unsigned intknqflsh:1;
++ /** RxFIFO Flush (RxFFlsh) (Device and Host)
++ *
++ * The application can flush the entire Receive FIFO
++ * using this bit. The application must first
++ * ensure that the core is not in the middle of a
++ * transaction. The application should write into
++ * this bit, only after making sure that neither the
++ * DMA engine is reading from the RxFIFO nor the MAC
++ * is writing the data in to the FIFO. The
++ * application should wait until the bit is cleared
++ * before performing any other operations. This bit
++ * will takes 8 clocks (slowest of PHY or AHB clock)
++ * to clear.
++ */
++ unsigned rxfflsh:1;
++ /** TxFIFO Flush (TxFFlsh) (Device and Host).
++ *
++ * This bit is used to selectively flush a single or
++ * all transmit FIFOs. The application must first
++ * ensure that the core is not in the middle of a
++ * transaction. The application should write into
++ * this bit, only after making sure that neither the
++ * DMA engine is writing into the TxFIFO nor the MAC
++ * is reading the data out of the FIFO. The
++ * application should wait until the core clears this
++ * bit, before performing any operations. This bit
++ * will takes 8 clocks (slowest of PHY or AHB clock)
++ * to clear.
++ */
++ unsigned txfflsh:1;
++
++ /** TxFIFO Number (TxFNum) (Device and Host).
++ *
++ * This is the FIFO number which needs to be flushed,
++ * using the TxFIFO Flush bit. This field should not
++ * be changed until the TxFIFO Flush bit is cleared by
++ * the core.
++ * - 0x0 : Non Periodic TxFIFO Flush
++ * - 0x1 : Periodic TxFIFO #1 Flush in device mode
++ * or Periodic TxFIFO in host mode
++ * - 0x2 : Periodic TxFIFO #2 Flush in device mode.
++ * - ...
++ * - 0xF : Periodic TxFIFO #15 Flush in device mode
++ * - 0x10: Flush all the Transmit NonPeriodic and
++ * Transmit Periodic FIFOs in the core
++ */
++ unsigned txfnum:5;
++ /** Reserved */
++ unsigned reserved11_29:19;
++ /** DMA Request Signal. Indicated DMA request is in
++ * probress. Used for debug purpose. */
++ unsigned dmareq:1;
++ /** AHB Master Idle. Indicates the AHB Master State
++ * Machine is in IDLE condition. */
++ unsigned ahbidle:1;
++ } b;
++} grstctl_t;
++
++/**
++ * This union represents the bit fields of the Core Interrupt Mask
++ * Register (GINTMSK). Set/clear the bits using the bit fields then
++ * write the <i>d32</i> value to the register.
++ */
++typedef union gintmsk_data {
++ /** raw register data */
++ uint32_t d32;
++ /** register bits */
++ struct {
++ unsigned reserved0:1;
++ unsigned modemismatch:1;
++ unsigned otgintr:1;
++ unsigned sofintr:1;
++ unsigned rxstsqlvl:1;
++ unsigned nptxfempty:1;
++ unsigned ginnakeff:1;
++ unsigned goutnakeff:1;
++ unsigned ulpickint:1;
++ unsigned i2cintr:1;
++ unsigned erlysuspend:1;
++ unsigned usbsuspend:1;
++ unsigned usbreset:1;
++ unsigned enumdone:1;
++ unsigned isooutdrop:1;
++ unsigned eopframe:1;
++ unsigned restoredone:1;
++ unsigned epmismatch:1;
++ unsigned inepintr:1;
++ unsigned outepintr:1;
++ unsigned incomplisoin:1;
++ unsigned incomplisoout:1;
++ unsigned fetsusp:1;
++ unsigned resetdet:1;
++ unsigned portintr:1;
++ unsigned hcintr:1;
++ unsigned ptxfempty:1;
++ unsigned lpmtranrcvd:1;
++ unsigned conidstschng:1;
++ unsigned disconnect:1;
++ unsigned sessreqintr:1;
++ unsigned wkupintr:1;
++ } b;
++} gintmsk_data_t;
++/**
++ * This union represents the bit fields of the Core Interrupt Register
++ * (GINTSTS). Set/clear the bits using the bit fields then write the
++ * <i>d32</i> value to the register.
++ */
++typedef union gintsts_data {
++ /** raw register data */
++ uint32_t d32;
++#define DWC_SOF_INTR_MASK 0x0008
++ /** register bits */
++ struct {
++#define DWC_HOST_MODE 1
++ unsigned curmode:1;
++ unsigned modemismatch:1;
++ unsigned otgintr:1;
++ unsigned sofintr:1;
++ unsigned rxstsqlvl:1;
++ unsigned nptxfempty:1;
++ unsigned ginnakeff:1;
++ unsigned goutnakeff:1;
++ unsigned ulpickint:1;
++ unsigned i2cintr:1;
++ unsigned erlysuspend:1;
++ unsigned usbsuspend:1;
++ unsigned usbreset:1;
++ unsigned enumdone:1;
++ unsigned isooutdrop:1;
++ unsigned eopframe:1;
++ unsigned restoredone:1;
++ unsigned epmismatch:1;
++ unsigned inepint:1;
++ unsigned outepintr:1;
++ unsigned incomplisoin:1;
++ unsigned incomplisoout:1;
++ unsigned fetsusp:1;
++ unsigned resetdet:1;
++ unsigned portintr:1;
++ unsigned hcintr:1;
++ unsigned ptxfempty:1;
++ unsigned lpmtranrcvd:1;
++ unsigned conidstschng:1;
++ unsigned disconnect:1;
++ unsigned sessreqintr:1;
++ unsigned wkupintr:1;
++ } b;
++} gintsts_data_t;
++
++/**
++ * This union represents the bit fields in the Device Receive Status Read and
++ * Pop Registers (GRXSTSR, GRXSTSP) Read the register into the <i>d32</i>
++ * element then read out the bits using the <i>b</i>it elements.
++ */
++typedef union device_grxsts_data {
++ /** raw register data */
++ uint32_t d32;
++ /** register bits */
++ struct {
++ unsigned epnum:4;
++ unsigned bcnt:11;
++ unsigned dpid:2;
++
++#define DWC_STS_DATA_UPDT 0x2 // OUT Data Packet
++#define DWC_STS_XFER_COMP 0x3 // OUT Data Transfer Complete
++
++#define DWC_DSTS_GOUT_NAK 0x1 // Global OUT NAK
++#define DWC_DSTS_SETUP_COMP 0x4 // Setup Phase Complete
++#define DWC_DSTS_SETUP_UPDT 0x6 // SETUP Packet
++ unsigned pktsts:4;
++ unsigned fn:4;
++ unsigned reserved25_31:7;
++ } b;
++} device_grxsts_data_t;
++
++/**
++ * This union represents the bit fields in the Host Receive Status Read and
++ * Pop Registers (GRXSTSR, GRXSTSP) Read the register into the <i>d32</i>
++ * element then read out the bits using the <i>b</i>it elements.
++ */
++typedef union host_grxsts_data {
++ /** raw register data */
++ uint32_t d32;
++ /** register bits */
++ struct {
++ unsigned chnum:4;
++ unsigned bcnt:11;
++ unsigned dpid:2;
++
++ unsigned pktsts:4;
++#define DWC_GRXSTS_PKTSTS_IN 0x2
++#define DWC_GRXSTS_PKTSTS_IN_XFER_COMP 0x3
++#define DWC_GRXSTS_PKTSTS_DATA_TOGGLE_ERR 0x5
++#define DWC_GRXSTS_PKTSTS_CH_HALTED 0x7
++
++ unsigned reserved21_31:11;
++ } b;
++} host_grxsts_data_t;
++
++/**
++ * This union represents the bit fields in the FIFO Size Registers (HPTXFSIZ,
++ * GNPTXFSIZ, DPTXFSIZn, DIEPTXFn). Read the register into the <i>d32</i> element
++ * then read out the bits using the <i>b</i>it elements.
++ */
++typedef union fifosize_data {
++ /** raw register data */
++ uint32_t d32;
++ /** register bits */
++ struct {
++ unsigned startaddr:16;
++ unsigned depth:16;
++ } b;
++} fifosize_data_t;
++
++/**
++ * This union represents the bit fields in the Non-Periodic Transmit
++ * FIFO/Queue Status Register (GNPTXSTS). Read the register into the
++ * <i>d32</i> element then read out the bits using the <i>b</i>it
++ * elements.
++ */
++typedef union gnptxsts_data {
++ /** raw register data */
++ uint32_t d32;
++ /** register bits */
++ struct {
++ unsigned nptxfspcavail:16;
++ unsigned nptxqspcavail:8;
++ /** Top of the Non-Periodic Transmit Request Queue
++ * - bit 24 - Terminate (Last entry for the selected
++ * channel/EP)
++ * - bits 26:25 - Token Type
++ * - 2'b00 - IN/OUT
++ * - 2'b01 - Zero Length OUT
++ * - 2'b10 - PING/Complete Split
++ * - 2'b11 - Channel Halt
++ * - bits 30:27 - Channel/EP Number
++ */
++ unsigned nptxqtop_terminate:1;
++ unsigned nptxqtop_token:2;
++ unsigned nptxqtop_chnep:4;
++ unsigned reserved:1;
++ } b;
++} gnptxsts_data_t;
++
++/**
++ * This union represents the bit fields in the Transmit
++ * FIFO Status Register (DTXFSTS). Read the register into the
++ * <i>d32</i> element then read out the bits using the <i>b</i>it
++ * elements.
++ */
++typedef union dtxfsts_data {
++ /** raw register data */
++ uint32_t d32;
++ /** register bits */
++ struct {
++ unsigned txfspcavail:16;
++ unsigned reserved:16;
++ } b;
++} dtxfsts_data_t;
++
++/**
++ * This union represents the bit fields in the I2C Control Register
++ * (I2CCTL). Read the register into the <i>d32</i> element then read out the
++ * bits using the <i>b</i>it elements.
++ */
++typedef union gi2cctl_data {
++ /** raw register data */
++ uint32_t d32;
++ /** register bits */
++ struct {
++ unsigned rwdata:8;
++ unsigned regaddr:8;
++ unsigned addr:7;
++ unsigned i2cen:1;
++ unsigned ack:1;
++ unsigned i2csuspctl:1;
++ unsigned i2cdevaddr:2;
++ unsigned i2cdatse0:1;
++ unsigned reserved:1;
++ unsigned rw:1;
++ unsigned bsydne:1;
++ } b;
++} gi2cctl_data_t;
++
++/**
++ * This union represents the bit fields in the PHY Vendor Control Register
++ * (GPVNDCTL). Read the register into the <i>d32</i> element then read out the
++ * bits using the <i>b</i>it elements.
++ */
++typedef union gpvndctl_data {
++ /** raw register data */
++ uint32_t d32;
++ /** register bits */
++ struct {
++ unsigned regdata:8;
++ unsigned vctrl:8;
++ unsigned regaddr16_21:6;
++ unsigned regwr:1;
++ unsigned reserved23_24:2;
++ unsigned newregreq:1;
++ unsigned vstsbsy:1;
++ unsigned vstsdone:1;
++ unsigned reserved28_30:3;
++ unsigned disulpidrvr:1;
++ } b;
++} gpvndctl_data_t;
++
++/**
++ * This union represents the bit fields in the General Purpose
++ * Input/Output Register (GGPIO).
++ * Read the register into the <i>d32</i> element then read out the
++ * bits using the <i>b</i>it elements.
++ */
++typedef union ggpio_data {
++ /** raw register data */
++ uint32_t d32;
++ /** register bits */
++ struct {
++ unsigned gpi:16;
++ unsigned gpo:16;
++ } b;
++} ggpio_data_t;
++
++/**
++ * This union represents the bit fields in the User ID Register
++ * (GUID). Read the register into the <i>d32</i> element then read out the
++ * bits using the <i>b</i>it elements.
++ */
++typedef union guid_data {
++ /** raw register data */
++ uint32_t d32;
++ /** register bits */
++ struct {
++ unsigned rwdata:32;
++ } b;
++} guid_data_t;
++
++/**
++ * This union represents the bit fields in the Synopsys ID Register
++ * (GSNPSID). Read the register into the <i>d32</i> element then read out the
++ * bits using the <i>b</i>it elements.
++ */
++typedef union gsnpsid_data {
++ /** raw register data */
++ uint32_t d32;
++ /** register bits */
++ struct {
++ unsigned rwdata:32;
++ } b;
++} gsnpsid_data_t;
++
++/**
++ * This union represents the bit fields in the User HW Config1
++ * Register. Read the register into the <i>d32</i> element then read
++ * out the bits using the <i>b</i>it elements.
++ */
++typedef union hwcfg1_data {
++ /** raw register data */
++ uint32_t d32;
++ /** register bits */
++ struct {
++ unsigned ep_dir0:2;
++ unsigned ep_dir1:2;
++ unsigned ep_dir2:2;
++ unsigned ep_dir3:2;
++ unsigned ep_dir4:2;
++ unsigned ep_dir5:2;
++ unsigned ep_dir6:2;
++ unsigned ep_dir7:2;
++ unsigned ep_dir8:2;
++ unsigned ep_dir9:2;
++ unsigned ep_dir10:2;
++ unsigned ep_dir11:2;
++ unsigned ep_dir12:2;
++ unsigned ep_dir13:2;
++ unsigned ep_dir14:2;
++ unsigned ep_dir15:2;
++ } b;
++} hwcfg1_data_t;
++
++/**
++ * This union represents the bit fields in the User HW Config2
++ * Register. Read the register into the <i>d32</i> element then read
++ * out the bits using the <i>b</i>it elements.
++ */
++typedef union hwcfg2_data {
++ /** raw register data */
++ uint32_t d32;
++ /** register bits */
++ struct {
++ /* GHWCFG2 */
++ unsigned op_mode:3;
++#define DWC_HWCFG2_OP_MODE_HNP_SRP_CAPABLE_OTG 0
++#define DWC_HWCFG2_OP_MODE_SRP_ONLY_CAPABLE_OTG 1
++#define DWC_HWCFG2_OP_MODE_NO_HNP_SRP_CAPABLE_OTG 2
++#define DWC_HWCFG2_OP_MODE_SRP_CAPABLE_DEVICE 3
++#define DWC_HWCFG2_OP_MODE_NO_SRP_CAPABLE_DEVICE 4
++#define DWC_HWCFG2_OP_MODE_SRP_CAPABLE_HOST 5
++#define DWC_HWCFG2_OP_MODE_NO_SRP_CAPABLE_HOST 6
++
++ unsigned architecture:2;
++ unsigned point2point:1;
++ unsigned hs_phy_type:2;
++#define DWC_HWCFG2_HS_PHY_TYPE_NOT_SUPPORTED 0
++#define DWC_HWCFG2_HS_PHY_TYPE_UTMI 1
++#define DWC_HWCFG2_HS_PHY_TYPE_ULPI 2
++#define DWC_HWCFG2_HS_PHY_TYPE_UTMI_ULPI 3
++
++ unsigned fs_phy_type:2;
++ unsigned num_dev_ep:4;
++ unsigned num_host_chan:4;
++ unsigned perio_ep_supported:1;
++ unsigned dynamic_fifo:1;
++ unsigned multi_proc_int:1;
++ unsigned reserved21:1;
++ unsigned nonperio_tx_q_depth:2;
++ unsigned host_perio_tx_q_depth:2;
++ unsigned dev_token_q_depth:5;
++ unsigned otg_enable_ic_usb:1;
++ } b;
++} hwcfg2_data_t;
++
++/**
++ * This union represents the bit fields in the User HW Config3
++ * Register. Read the register into the <i>d32</i> element then read
++ * out the bits using the <i>b</i>it elements.
++ */
++typedef union hwcfg3_data {
++ /** raw register data */
++ uint32_t d32;
++ /** register bits */
++ struct {
++ /* GHWCFG3 */
++ unsigned xfer_size_cntr_width:4;
++ unsigned packet_size_cntr_width:3;
++ unsigned otg_func:1;
++ unsigned i2c:1;
++ unsigned vendor_ctrl_if:1;
++ unsigned optional_features:1;
++ unsigned synch_reset_type:1;
++ unsigned adp_supp:1;
++ unsigned otg_enable_hsic:1;
++ unsigned bc_support:1;
++ unsigned otg_lpm_en:1;
++ unsigned dfifo_depth:16;
++ } b;
++} hwcfg3_data_t;
++
++/**
++ * This union represents the bit fields in the User HW Config4
++ * Register. Read the register into the <i>d32</i> element then read
++ * out the bits using the <i>b</i>it elements.
++ */
++typedef union hwcfg4_data {
++ /** raw register data */
++ uint32_t d32;
++ /** register bits */
++ struct {
++ unsigned num_dev_perio_in_ep:4;
++ unsigned power_optimiz:1;
++ unsigned min_ahb_freq:1;
++ unsigned hiber:1;
++ unsigned xhiber:1;
++ unsigned reserved:6;
++ unsigned utmi_phy_data_width:2;
++ unsigned num_dev_mode_ctrl_ep:4;
++ unsigned iddig_filt_en:1;
++ unsigned vbus_valid_filt_en:1;
++ unsigned a_valid_filt_en:1;
++ unsigned b_valid_filt_en:1;
++ unsigned session_end_filt_en:1;
++ unsigned ded_fifo_en:1;
++ unsigned num_in_eps:4;
++ unsigned desc_dma:1;
++ unsigned desc_dma_dyn:1;
++ } b;
++} hwcfg4_data_t;
++
++/**
++ * This union represents the bit fields of the Core LPM Configuration
++ * Register (GLPMCFG). Set the bits using bit fields then write
++ * the <i>d32</i> value to the register.
++ */
++typedef union glpmctl_data {
++ /** raw register data */
++ uint32_t d32;
++ /** register bits */
++ struct {
++ /** LPM-Capable (LPMCap) (Device and Host)
++ * The application uses this bit to control
++ * the DWC_otg core LPM capabilities.
++ */
++ unsigned lpm_cap_en:1;
++ /** LPM response programmed by application (AppL1Res) (Device)
++ * Handshake response to LPM token pre-programmed
++ * by device application software.
++ */
++ unsigned appl_resp:1;
++ /** Host Initiated Resume Duration (HIRD) (Device and Host)
++ * In Host mode this field indicates the value of HIRD
++ * to be sent in an LPM transaction.
++ * In Device mode this field is updated with the
++ * Received LPM Token HIRD bmAttribute
++ * when an ACK/NYET/STALL response is sent
++ * to an LPM transaction.
++ */
++ unsigned hird:4;
++ /** RemoteWakeEnable (bRemoteWake) (Device and Host)
++ * In Host mode this bit indicates the value of remote
++ * wake up to be sent in wIndex field of LPM transaction.
++ * In Device mode this field is updated with the
++ * Received LPM Token bRemoteWake bmAttribute
++ * when an ACK/NYET/STALL response is sent
++ * to an LPM transaction.
++ */
++ unsigned rem_wkup_en:1;
++ /** Enable utmi_sleep_n (EnblSlpM) (Device and Host)
++ * The application uses this bit to control
++ * the utmi_sleep_n assertion to the PHY when in L1 state.
++ */
++ unsigned en_utmi_sleep:1;
++ /** HIRD Threshold (HIRD_Thres) (Device and Host)
++ */
++ unsigned hird_thres:5;
++ /** LPM Response (CoreL1Res) (Device and Host)
++ * In Host mode this bit contains handsake response to
++ * LPM transaction.
++ * In Device mode the response of the core to
++ * LPM transaction received is reflected in these two bits.
++ - 0x0 : ERROR (No handshake response)
++ - 0x1 : STALL
++ - 0x2 : NYET
++ - 0x3 : ACK
++ */
++ unsigned lpm_resp:2;
++ /** Port Sleep Status (SlpSts) (Device and Host)
++ * This bit is set as long as a Sleep condition
++ * is present on the USB bus.
++ */
++ unsigned prt_sleep_sts:1;
++ /** Sleep State Resume OK (L1ResumeOK) (Device and Host)
++ * Indicates that the application or host
++ * can start resume from Sleep state.
++ */
++ unsigned sleep_state_resumeok:1;
++ /** LPM channel Index (LPM_Chnl_Indx) (Host)
++ * The channel number on which the LPM transaction
++ * has to be applied while sending
++ * an LPM transaction to the local device.
++ */
++ unsigned lpm_chan_index:4;
++ /** LPM Retry Count (LPM_Retry_Cnt) (Host)
++ * Number host retries that would be performed
++ * if the device response was not valid response.
++ */
++ unsigned retry_count:3;
++ /** Send LPM Transaction (SndLPM) (Host)
++ * When set by application software,
++ * an LPM transaction containing two tokens
++ * is sent.
++ */
++ unsigned send_lpm:1;
++ /** LPM Retry status (LPM_RetryCnt_Sts) (Host)
++ * Number of LPM Host Retries still remaining
++ * to be transmitted for the current LPM sequence
++ */
++ unsigned retry_count_sts:3;
++ unsigned reserved28_29:2;
++ /** In host mode once this bit is set, the host
++ * configures to drive the HSIC Idle state on the bus.
++ * It then waits for the device to initiate the Connect sequence.
++ * In device mode once this bit is set, the device waits for
++ * the HSIC Idle line state on the bus. Upon receving the Idle
++ * line state, it initiates the HSIC Connect sequence.
++ */
++ unsigned hsic_connect:1;
++ /** This bit overrides and functionally inverts
++ * the if_select_hsic input port signal.
++ */
++ unsigned inv_sel_hsic:1;
++ } b;
++} glpmcfg_data_t;
++
++/**
++ * This union represents the bit fields of the Core ADP Timer, Control and
++ * Status Register (ADPTIMCTLSTS). Set the bits using bit fields then write
++ * the <i>d32</i> value to the register.
++ */
++typedef union adpctl_data {
++ /** raw register data */
++ uint32_t d32;
++ /** register bits */
++ struct {
++ /** Probe Discharge (PRB_DSCHG)
++ * These bits set the times for TADP_DSCHG.
++ * These bits are defined as follows:
++ * 2'b00 - 4 msec
++ * 2'b01 - 8 msec
++ * 2'b10 - 16 msec
++ * 2'b11 - 32 msec
++ */
++ unsigned prb_dschg:2;
++ /** Probe Delta (PRB_DELTA)
++ * These bits set the resolution for RTIM value.
++ * The bits are defined in units of 32 kHz clock cycles as follows:
++ * 2'b00 - 1 cycles
++ * 2'b01 - 2 cycles
++ * 2'b10 - 3 cycles
++ * 2'b11 - 4 cycles
++ * For example if this value is chosen to 2'b01, it means that RTIM
++ * increments for every 3(three) 32Khz clock cycles.
++ */
++ unsigned prb_delta:2;
++ /** Probe Period (PRB_PER)
++ * These bits sets the TADP_PRD as shown in Figure 4 as follows:
++ * 2'b00 - 0.625 to 0.925 sec (typical 0.775 sec)
++ * 2'b01 - 1.25 to 1.85 sec (typical 1.55 sec)
++ * 2'b10 - 1.9 to 2.6 sec (typical 2.275 sec)
++ * 2'b11 - Reserved
++ */
++ unsigned prb_per:2;
++ /** These bits capture the latest time it took for VBUS to ramp from
++ * VADP_SINK to VADP_PRB.
++ * 0x000 - 1 cycles
++ * 0x001 - 2 cycles
++ * 0x002 - 3 cycles
++ * etc
++ * 0x7FF - 2048 cycles
++ * A time of 1024 cycles at 32 kHz corresponds to a time of 32 msec.
++ */
++ unsigned rtim:11;
++ /** Enable Probe (EnaPrb)
++ * When programmed to 1'b1, the core performs a probe operation.
++ * This bit is valid only if OTG_Ver = 1'b1.
++ */
++ unsigned enaprb:1;
++ /** Enable Sense (EnaSns)
++ * When programmed to 1'b1, the core performs a Sense operation.
++ * This bit is valid only if OTG_Ver = 1'b1.
++ */
++ unsigned enasns:1;
++ /** ADP Reset (ADPRes)
++ * When set, ADP controller is reset.
++ * This bit is valid only if OTG_Ver = 1'b1.
++ */
++ unsigned adpres:1;
++ /** ADP Enable (ADPEn)
++ * When set, the core performs either ADP probing or sensing
++ * based on EnaPrb or EnaSns.
++ * This bit is valid only if OTG_Ver = 1'b1.
++ */
++ unsigned adpen:1;
++ /** ADP Probe Interrupt (ADP_PRB_INT)
++ * When this bit is set, it means that the VBUS
++ * voltage is greater than VADP_PRB or VADP_PRB is reached.
++ * This bit is valid only if OTG_Ver = 1'b1.
++ */
++ unsigned adp_prb_int:1;
++ /**
++ * ADP Sense Interrupt (ADP_SNS_INT)
++ * When this bit is set, it means that the VBUS voltage is greater than
++ * VADP_SNS value or VADP_SNS is reached.
++ * This bit is valid only if OTG_Ver = 1'b1.
++ */
++ unsigned adp_sns_int:1;
++ /** ADP Tomeout Interrupt (ADP_TMOUT_INT)
++ * This bit is relevant only for an ADP probe.
++ * When this bit is set, it means that the ramp time has
++ * completed ie ADPCTL.RTIM has reached its terminal value
++ * of 0x7FF. This is a debug feature that allows software
++ * to read the ramp time after each cycle.
++ * This bit is valid only if OTG_Ver = 1'b1.
++ */
++ unsigned adp_tmout_int:1;
++ /** ADP Probe Interrupt Mask (ADP_PRB_INT_MSK)
++ * When this bit is set, it unmasks the interrupt due to ADP_PRB_INT.
++ * This bit is valid only if OTG_Ver = 1'b1.
++ */
++ unsigned adp_prb_int_msk:1;
++ /** ADP Sense Interrupt Mask (ADP_SNS_INT_MSK)
++ * When this bit is set, it unmasks the interrupt due to ADP_SNS_INT.
++ * This bit is valid only if OTG_Ver = 1'b1.
++ */
++ unsigned adp_sns_int_msk:1;
++ /** ADP Timoeout Interrupt Mask (ADP_TMOUT_MSK)
++ * When this bit is set, it unmasks the interrupt due to ADP_TMOUT_INT.
++ * This bit is valid only if OTG_Ver = 1'b1.
++ */
++ unsigned adp_tmout_int_msk:1;
++ /** Access Request
++ * 2'b00 - Read/Write Valid (updated by the core)
++ * 2'b01 - Read
++ * 2'b00 - Write
++ * 2'b00 - Reserved
++ */
++ unsigned ar:2;
++ /** Reserved */
++ unsigned reserved29_31:3;
++ } b;
++} adpctl_data_t;
++
++////////////////////////////////////////////
++// Device Registers
++/**
++ * Device Global Registers. <i>Offsets 800h-BFFh</i>
++ *
++ * The following structures define the size and relative field offsets
++ * for the Device Mode Registers.
++ *
++ * <i>These registers are visible only in Device mode and must not be
++ * accessed in Host mode, as the results are unknown.</i>
++ */
++typedef struct dwc_otg_dev_global_regs {
++ /** Device Configuration Register. <i>Offset 800h</i> */
++ volatile uint32_t dcfg;
++ /** Device Control Register. <i>Offset: 804h</i> */
++ volatile uint32_t dctl;
++ /** Device Status Register (Read Only). <i>Offset: 808h</i> */
++ volatile uint32_t dsts;
++ /** Reserved. <i>Offset: 80Ch</i> */
++ uint32_t unused;
++ /** Device IN Endpoint Common Interrupt Mask
++ * Register. <i>Offset: 810h</i> */
++ volatile uint32_t diepmsk;
++ /** Device OUT Endpoint Common Interrupt Mask
++ * Register. <i>Offset: 814h</i> */
++ volatile uint32_t doepmsk;
++ /** Device All Endpoints Interrupt Register. <i>Offset: 818h</i> */
++ volatile uint32_t daint;
++ /** Device All Endpoints Interrupt Mask Register. <i>Offset:
++ * 81Ch</i> */
++ volatile uint32_t daintmsk;
++ /** Device IN Token Queue Read Register-1 (Read Only).
++ * <i>Offset: 820h</i> */
++ volatile uint32_t dtknqr1;
++ /** Device IN Token Queue Read Register-2 (Read Only).
++ * <i>Offset: 824h</i> */
++ volatile uint32_t dtknqr2;
++ /** Device VBUS discharge Register. <i>Offset: 828h</i> */
++ volatile uint32_t dvbusdis;
++ /** Device VBUS Pulse Register. <i>Offset: 82Ch</i> */
++ volatile uint32_t dvbuspulse;
++ /** Device IN Token Queue Read Register-3 (Read Only). /
++ * Device Thresholding control register (Read/Write)
++ * <i>Offset: 830h</i> */
++ volatile uint32_t dtknqr3_dthrctl;
++ /** Device IN Token Queue Read Register-4 (Read Only). /
++ * Device IN EPs empty Inr. Mask Register (Read/Write)
++ * <i>Offset: 834h</i> */
++ volatile uint32_t dtknqr4_fifoemptymsk;
++ /** Device Each Endpoint Interrupt Register (Read Only). /
++ * <i>Offset: 838h</i> */
++ volatile uint32_t deachint;
++ /** Device Each Endpoint Interrupt mask Register (Read/Write). /
++ * <i>Offset: 83Ch</i> */
++ volatile uint32_t deachintmsk;
++ /** Device Each In Endpoint Interrupt mask Register (Read/Write). /
++ * <i>Offset: 840h</i> */
++ volatile uint32_t diepeachintmsk[MAX_EPS_CHANNELS];
++ /** Device Each Out Endpoint Interrupt mask Register (Read/Write). /
++ * <i>Offset: 880h</i> */
++ volatile uint32_t doepeachintmsk[MAX_EPS_CHANNELS];
++} dwc_otg_device_global_regs_t;
++
++/**
++ * This union represents the bit fields in the Device Configuration
++ * Register. Read the register into the <i>d32</i> member then
++ * set/clear the bits using the <i>b</i>it elements. Write the
++ * <i>d32</i> member to the dcfg register.
++ */
++typedef union dcfg_data {
++ /** raw register data */
++ uint32_t d32;
++ /** register bits */
++ struct {
++ /** Device Speed */
++ unsigned devspd:2;
++ /** Non Zero Length Status OUT Handshake */
++ unsigned nzstsouthshk:1;
++#define DWC_DCFG_SEND_STALL 1
++
++ unsigned ena32khzs:1;
++ /** Device Addresses */
++ unsigned devaddr:7;
++ /** Periodic Frame Interval */
++ unsigned perfrint:2;
++#define DWC_DCFG_FRAME_INTERVAL_80 0
++#define DWC_DCFG_FRAME_INTERVAL_85 1
++#define DWC_DCFG_FRAME_INTERVAL_90 2
++#define DWC_DCFG_FRAME_INTERVAL_95 3
++
++ /** Enable Device OUT NAK for bulk in DDMA mode */
++ unsigned endevoutnak:1;
++
++ unsigned reserved14_17:4;
++ /** In Endpoint Mis-match count */
++ unsigned epmscnt:5;
++ /** Enable Descriptor DMA in Device mode */
++ unsigned descdma:1;
++ unsigned perschintvl:2;
++ unsigned resvalid:6;
++ } b;
++} dcfg_data_t;
++
++/**
++ * This union represents the bit fields in the Device Control
++ * Register. Read the register into the <i>d32</i> member then
++ * set/clear the bits using the <i>b</i>it elements.
++ */
++typedef union dctl_data {
++ /** raw register data */
++ uint32_t d32;
++ /** register bits */
++ struct {
++ /** Remote Wakeup */
++ unsigned rmtwkupsig:1;
++ /** Soft Disconnect */
++ unsigned sftdiscon:1;
++ /** Global Non-Periodic IN NAK Status */
++ unsigned gnpinnaksts:1;
++ /** Global OUT NAK Status */
++ unsigned goutnaksts:1;
++ /** Test Control */
++ unsigned tstctl:3;
++ /** Set Global Non-Periodic IN NAK */
++ unsigned sgnpinnak:1;
++ /** Clear Global Non-Periodic IN NAK */
++ unsigned cgnpinnak:1;
++ /** Set Global OUT NAK */
++ unsigned sgoutnak:1;
++ /** Clear Global OUT NAK */
++ unsigned cgoutnak:1;
++ /** Power-On Programming Done */
++ unsigned pwronprgdone:1;
++ /** Reserved */
++ unsigned reserved:1;
++ /** Global Multi Count */
++ unsigned gmc:2;
++ /** Ignore Frame Number for ISOC EPs */
++ unsigned ifrmnum:1;
++ /** NAK on Babble */
++ unsigned nakonbble:1;
++ /** Enable Continue on BNA */
++ unsigned encontonbna:1;
++
++ unsigned reserved18_31:14;
++ } b;
++} dctl_data_t;
++
++/**
++ * This union represents the bit fields in the Device Status
++ * Register. Read the register into the <i>d32</i> member then
++ * set/clear the bits using the <i>b</i>it elements.
++ */
++typedef union dsts_data {
++ /** raw register data */
++ uint32_t d32;
++ /** register bits */
++ struct {
++ /** Suspend Status */
++ unsigned suspsts:1;
++ /** Enumerated Speed */
++ unsigned enumspd:2;
++#define DWC_DSTS_ENUMSPD_HS_PHY_30MHZ_OR_60MHZ 0
++#define DWC_DSTS_ENUMSPD_FS_PHY_30MHZ_OR_60MHZ 1
++#define DWC_DSTS_ENUMSPD_LS_PHY_6MHZ 2
++#define DWC_DSTS_ENUMSPD_FS_PHY_48MHZ 3
++ /** Erratic Error */
++ unsigned errticerr:1;
++ unsigned reserved4_7:4;
++ /** Frame or Microframe Number of the received SOF */
++ unsigned soffn:14;
++ unsigned reserved22_31:10;
++ } b;
++} dsts_data_t;
++
++/**
++ * This union represents the bit fields in the Device IN EP Interrupt
++ * Register and the Device IN EP Common Mask Register.
++ *
++ * - Read the register into the <i>d32</i> member then set/clear the
++ * bits using the <i>b</i>it elements.
++ */
++typedef union diepint_data {
++ /** raw register data */
++ uint32_t d32;
++ /** register bits */
++ struct {
++ /** Transfer complete mask */
++ unsigned xfercompl:1;
++ /** Endpoint disable mask */
++ unsigned epdisabled:1;
++ /** AHB Error mask */
++ unsigned ahberr:1;
++ /** TimeOUT Handshake mask (non-ISOC EPs) */
++ unsigned timeout:1;
++ /** IN Token received with TxF Empty mask */
++ unsigned intktxfemp:1;
++ /** IN Token Received with EP mismatch mask */
++ unsigned intknepmis:1;
++ /** IN Endpoint NAK Effective mask */
++ unsigned inepnakeff:1;
++ /** Reserved */
++ unsigned emptyintr:1;
++
++ unsigned txfifoundrn:1;
++
++ /** BNA Interrupt mask */
++ unsigned bna:1;
++
++ unsigned reserved10_12:3;
++ /** BNA Interrupt mask */
++ unsigned nak:1;
++
++ unsigned reserved14_31:18;
++ } b;
++} diepint_data_t;
++
++/**
++ * This union represents the bit fields in the Device IN EP
++ * Common/Dedicated Interrupt Mask Register.
++ */
++typedef union diepint_data diepmsk_data_t;
++
++/**
++ * This union represents the bit fields in the Device OUT EP Interrupt
++ * Registerand Device OUT EP Common Interrupt Mask Register.
++ *
++ * - Read the register into the <i>d32</i> member then set/clear the
++ * bits using the <i>b</i>it elements.
++ */
++typedef union doepint_data {
++ /** raw register data */
++ uint32_t d32;
++ /** register bits */
++ struct {
++ /** Transfer complete */
++ unsigned xfercompl:1;
++ /** Endpoint disable */
++ unsigned epdisabled:1;
++ /** AHB Error */
++ unsigned ahberr:1;
++ /** Setup Phase Done (contorl EPs) */
++ unsigned setup:1;
++ /** OUT Token Received when Endpoint Disabled */
++ unsigned outtknepdis:1;
++
++ unsigned stsphsercvd:1;
++ /** Back-to-Back SETUP Packets Received */
++ unsigned back2backsetup:1;
++
++ unsigned reserved7:1;
++ /** OUT packet Error */
++ unsigned outpkterr:1;
++ /** BNA Interrupt */
++ unsigned bna:1;
++
++ unsigned reserved10:1;
++ /** Packet Drop Status */
++ unsigned pktdrpsts:1;
++ /** Babble Interrupt */
++ unsigned babble:1;
++ /** NAK Interrupt */
++ unsigned nak:1;
++ /** NYET Interrupt */
++ unsigned nyet:1;
++ /** Bit indicating setup packet received */
++ unsigned sr:1;
++
++ unsigned reserved16_31:16;
++ } b;
++} doepint_data_t;
++
++/**
++ * This union represents the bit fields in the Device OUT EP
++ * Common/Dedicated Interrupt Mask Register.
++ */
++typedef union doepint_data doepmsk_data_t;
++
++/**
++ * This union represents the bit fields in the Device All EP Interrupt
++ * and Mask Registers.
++ * - Read the register into the <i>d32</i> member then set/clear the
++ * bits using the <i>b</i>it elements.
++ */
++typedef union daint_data {
++ /** raw register data */
++ uint32_t d32;
++ /** register bits */
++ struct {
++ /** IN Endpoint bits */
++ unsigned in:16;
++ /** OUT Endpoint bits */
++ unsigned out:16;
++ } ep;
++ struct {
++ /** IN Endpoint bits */
++ unsigned inep0:1;
++ unsigned inep1:1;
++ unsigned inep2:1;
++ unsigned inep3:1;
++ unsigned inep4:1;
++ unsigned inep5:1;
++ unsigned inep6:1;
++ unsigned inep7:1;
++ unsigned inep8:1;
++ unsigned inep9:1;
++ unsigned inep10:1;
++ unsigned inep11:1;
++ unsigned inep12:1;
++ unsigned inep13:1;
++ unsigned inep14:1;
++ unsigned inep15:1;
++ /** OUT Endpoint bits */
++ unsigned outep0:1;
++ unsigned outep1:1;
++ unsigned outep2:1;
++ unsigned outep3:1;
++ unsigned outep4:1;
++ unsigned outep5:1;
++ unsigned outep6:1;
++ unsigned outep7:1;
++ unsigned outep8:1;
++ unsigned outep9:1;
++ unsigned outep10:1;
++ unsigned outep11:1;
++ unsigned outep12:1;
++ unsigned outep13:1;
++ unsigned outep14:1;
++ unsigned outep15:1;
++ } b;
++} daint_data_t;
++
++/**
++ * This union represents the bit fields in the Device IN Token Queue
++ * Read Registers.
++ * - Read the register into the <i>d32</i> member.
++ * - READ-ONLY Register
++ */
++typedef union dtknq1_data {
++ /** raw register data */
++ uint32_t d32;
++ /** register bits */
++ struct {
++ /** In Token Queue Write Pointer */
++ unsigned intknwptr:5;
++ /** Reserved */
++ unsigned reserved05_06:2;
++ /** write pointer has wrapped. */
++ unsigned wrap_bit:1;
++ /** EP Numbers of IN Tokens 0 ... 4 */
++ unsigned epnums0_5:24;
++ } b;
++} dtknq1_data_t;
++
++/**
++ * This union represents Threshold control Register
++ * - Read and write the register into the <i>d32</i> member.
++ * - READ-WRITABLE Register
++ */
++typedef union dthrctl_data {
++ /** raw register data */
++ uint32_t d32;
++ /** register bits */
++ struct {
++ /** non ISO Tx Thr. Enable */
++ unsigned non_iso_thr_en:1;
++ /** ISO Tx Thr. Enable */
++ unsigned iso_thr_en:1;
++ /** Tx Thr. Length */
++ unsigned tx_thr_len:9;
++ /** AHB Threshold ratio */
++ unsigned ahb_thr_ratio:2;
++ /** Reserved */
++ unsigned reserved13_15:3;
++ /** Rx Thr. Enable */
++ unsigned rx_thr_en:1;
++ /** Rx Thr. Length */
++ unsigned rx_thr_len:9;
++ unsigned reserved26:1;
++ /** Arbiter Parking Enable*/
++ unsigned arbprken:1;
++ /** Reserved */
++ unsigned reserved28_31:4;
++ } b;
++} dthrctl_data_t;
++
++/**
++ * Device Logical IN Endpoint-Specific Registers. <i>Offsets
++ * 900h-AFCh</i>
++ *
++ * There will be one set of endpoint registers per logical endpoint
++ * implemented.
++ *
++ * <i>These registers are visible only in Device mode and must not be
++ * accessed in Host mode, as the results are unknown.</i>
++ */
++typedef struct dwc_otg_dev_in_ep_regs {
++ /** Device IN Endpoint Control Register. <i>Offset:900h +
++ * (ep_num * 20h) + 00h</i> */
++ volatile uint32_t diepctl;
++ /** Reserved. <i>Offset:900h + (ep_num * 20h) + 04h</i> */
++ uint32_t reserved04;
++ /** Device IN Endpoint Interrupt Register. <i>Offset:900h +
++ * (ep_num * 20h) + 08h</i> */
++ volatile uint32_t diepint;
++ /** Reserved. <i>Offset:900h + (ep_num * 20h) + 0Ch</i> */
++ uint32_t reserved0C;
++ /** Device IN Endpoint Transfer Size
++ * Register. <i>Offset:900h + (ep_num * 20h) + 10h</i> */
++ volatile uint32_t dieptsiz;
++ /** Device IN Endpoint DMA Address Register. <i>Offset:900h +
++ * (ep_num * 20h) + 14h</i> */
++ volatile uint32_t diepdma;
++ /** Device IN Endpoint Transmit FIFO Status Register. <i>Offset:900h +
++ * (ep_num * 20h) + 18h</i> */
++ volatile uint32_t dtxfsts;
++ /** Device IN Endpoint DMA Buffer Register. <i>Offset:900h +
++ * (ep_num * 20h) + 1Ch</i> */
++ volatile uint32_t diepdmab;
++} dwc_otg_dev_in_ep_regs_t;
++
++/**
++ * Device Logical OUT Endpoint-Specific Registers. <i>Offsets:
++ * B00h-CFCh</i>
++ *
++ * There will be one set of endpoint registers per logical endpoint
++ * implemented.
++ *
++ * <i>These registers are visible only in Device mode and must not be
++ * accessed in Host mode, as the results are unknown.</i>
++ */
++typedef struct dwc_otg_dev_out_ep_regs {
++ /** Device OUT Endpoint Control Register. <i>Offset:B00h +
++ * (ep_num * 20h) + 00h</i> */
++ volatile uint32_t doepctl;
++ /** Reserved. <i>Offset:B00h + (ep_num * 20h) + 04h</i> */
++ uint32_t reserved04;
++ /** Device OUT Endpoint Interrupt Register. <i>Offset:B00h +
++ * (ep_num * 20h) + 08h</i> */
++ volatile uint32_t doepint;
++ /** Reserved. <i>Offset:B00h + (ep_num * 20h) + 0Ch</i> */
++ uint32_t reserved0C;
++ /** Device OUT Endpoint Transfer Size Register. <i>Offset:
++ * B00h + (ep_num * 20h) + 10h</i> */
++ volatile uint32_t doeptsiz;
++ /** Device OUT Endpoint DMA Address Register. <i>Offset:B00h
++ * + (ep_num * 20h) + 14h</i> */
++ volatile uint32_t doepdma;
++ /** Reserved. <i>Offset:B00h + * (ep_num * 20h) + 18h</i> */
++ uint32_t unused;
++ /** Device OUT Endpoint DMA Buffer Register. <i>Offset:B00h
++ * + (ep_num * 20h) + 1Ch</i> */
++ uint32_t doepdmab;
++} dwc_otg_dev_out_ep_regs_t;
++
++/**
++ * This union represents the bit fields in the Device EP Control
++ * Register. Read the register into the <i>d32</i> member then
++ * set/clear the bits using the <i>b</i>it elements.
++ */
++typedef union depctl_data {
++ /** raw register data */
++ uint32_t d32;
++ /** register bits */
++ struct {
++ /** Maximum Packet Size
++ * IN/OUT EPn
++ * IN/OUT EP0 - 2 bits
++ * 2'b00: 64 Bytes
++ * 2'b01: 32
++ * 2'b10: 16
++ * 2'b11: 8 */
++ unsigned mps:11;
++#define DWC_DEP0CTL_MPS_64 0
++#define DWC_DEP0CTL_MPS_32 1
++#define DWC_DEP0CTL_MPS_16 2
++#define DWC_DEP0CTL_MPS_8 3
++
++ /** Next Endpoint
++ * IN EPn/IN EP0
++ * OUT EPn/OUT EP0 - reserved */
++ unsigned nextep:4;
++
++ /** USB Active Endpoint */
++ unsigned usbactep:1;
++
++ /** Endpoint DPID (INTR/Bulk IN and OUT endpoints)
++ * This field contains the PID of the packet going to
++ * be received or transmitted on this endpoint. The
++ * application should program the PID of the first
++ * packet going to be received or transmitted on this
++ * endpoint , after the endpoint is
++ * activated. Application use the SetD1PID and
++ * SetD0PID fields of this register to program either
++ * D0 or D1 PID.
++ *
++ * The encoding for this field is
++ * - 0: D0
++ * - 1: D1
++ */
++ unsigned dpid:1;
++
++ /** NAK Status */
++ unsigned naksts:1;
++
++ /** Endpoint Type
++ * 2'b00: Control
++ * 2'b01: Isochronous
++ * 2'b10: Bulk
++ * 2'b11: Interrupt */
++ unsigned eptype:2;
++
++ /** Snoop Mode
++ * OUT EPn/OUT EP0
++ * IN EPn/IN EP0 - reserved */
++ unsigned snp:1;
++
++ /** Stall Handshake */
++ unsigned stall:1;
++
++ /** Tx Fifo Number
++ * IN EPn/IN EP0
++ * OUT EPn/OUT EP0 - reserved */
++ unsigned txfnum:4;
++
++ /** Clear NAK */
++ unsigned cnak:1;
++ /** Set NAK */
++ unsigned snak:1;
++ /** Set DATA0 PID (INTR/Bulk IN and OUT endpoints)
++ * Writing to this field sets the Endpoint DPID (DPID)
++ * field in this register to DATA0. Set Even
++ * (micro)frame (SetEvenFr) (ISO IN and OUT Endpoints)
++ * Writing to this field sets the Even/Odd
++ * (micro)frame (EO_FrNum) field to even (micro)
++ * frame.
++ */
++ unsigned setd0pid:1;
++ /** Set DATA1 PID (INTR/Bulk IN and OUT endpoints)
++ * Writing to this field sets the Endpoint DPID (DPID)
++ * field in this register to DATA1 Set Odd
++ * (micro)frame (SetOddFr) (ISO IN and OUT Endpoints)
++ * Writing to this field sets the Even/Odd
++ * (micro)frame (EO_FrNum) field to odd (micro) frame.
++ */
++ unsigned setd1pid:1;
++
++ /** Endpoint Disable */
++ unsigned epdis:1;
++ /** Endpoint Enable */
++ unsigned epena:1;
++ } b;
++} depctl_data_t;
++
++/**
++ * This union represents the bit fields in the Device EP Transfer
++ * Size Register. Read the register into the <i>d32</i> member then
++ * set/clear the bits using the <i>b</i>it elements.
++ */
++typedef union deptsiz_data {
++ /** raw register data */
++ uint32_t d32;
++ /** register bits */
++ struct {
++ /** Transfer size */
++ unsigned xfersize:19;
++/** Max packet count for EP (pow(2,10)-1) */
++#define MAX_PKT_CNT 1023
++ /** Packet Count */
++ unsigned pktcnt:10;
++ /** Multi Count - Periodic IN endpoints */
++ unsigned mc:2;
++ unsigned reserved:1;
++ } b;
++} deptsiz_data_t;
++
++/**
++ * This union represents the bit fields in the Device EP 0 Transfer
++ * Size Register. Read the register into the <i>d32</i> member then
++ * set/clear the bits using the <i>b</i>it elements.
++ */
++typedef union deptsiz0_data {
++ /** raw register data */
++ uint32_t d32;
++ /** register bits */
++ struct {
++ /** Transfer size */
++ unsigned xfersize:7;
++ /** Reserved */
++ unsigned reserved7_18:12;
++ /** Packet Count */
++ unsigned pktcnt:2;
++ /** Reserved */
++ unsigned reserved21_28:8;
++ /**Setup Packet Count (DOEPTSIZ0 Only) */
++ unsigned supcnt:2;
++ unsigned reserved31;
++ } b;
++} deptsiz0_data_t;
++
++/////////////////////////////////////////////////
++// DMA Descriptor Specific Structures
++//
++
++/** Buffer status definitions */
++
++#define BS_HOST_READY 0x0
++#define BS_DMA_BUSY 0x1
++#define BS_DMA_DONE 0x2
++#define BS_HOST_BUSY 0x3
++
++/** Receive/Transmit status definitions */
++
++#define RTS_SUCCESS 0x0
++#define RTS_BUFFLUSH 0x1
++#define RTS_RESERVED 0x2
++#define RTS_BUFERR 0x3
++
++/**
++ * This union represents the bit fields in the DMA Descriptor
++ * status quadlet. Read the quadlet into the <i>d32</i> member then
++ * set/clear the bits using the <i>b</i>it, <i>b_iso_out</i> and
++ * <i>b_iso_in</i> elements.
++ */
++typedef union dev_dma_desc_sts {
++ /** raw register data */
++ uint32_t d32;
++ /** quadlet bits */
++ struct {
++ /** Received number of bytes */
++ unsigned bytes:16;
++ /** NAK bit - only for OUT EPs */
++ unsigned nak:1;
++ unsigned reserved17_22:6;
++ /** Multiple Transfer - only for OUT EPs */
++ unsigned mtrf:1;
++ /** Setup Packet received - only for OUT EPs */
++ unsigned sr:1;
++ /** Interrupt On Complete */
++ unsigned ioc:1;
++ /** Short Packet */
++ unsigned sp:1;
++ /** Last */
++ unsigned l:1;
++ /** Receive Status */
++ unsigned sts:2;
++ /** Buffer Status */
++ unsigned bs:2;
++ } b;
++
++//#ifdef DWC_EN_ISOC
++ /** iso out quadlet bits */
++ struct {
++ /** Received number of bytes */
++ unsigned rxbytes:11;
++
++ unsigned reserved11:1;
++ /** Frame Number */
++ unsigned framenum:11;
++ /** Received ISO Data PID */
++ unsigned pid:2;
++ /** Interrupt On Complete */
++ unsigned ioc:1;
++ /** Short Packet */
++ unsigned sp:1;
++ /** Last */
++ unsigned l:1;
++ /** Receive Status */
++ unsigned rxsts:2;
++ /** Buffer Status */
++ unsigned bs:2;
++ } b_iso_out;
++
++ /** iso in quadlet bits */
++ struct {
++ /** Transmited number of bytes */
++ unsigned txbytes:12;
++ /** Frame Number */
++ unsigned framenum:11;
++ /** Transmited ISO Data PID */
++ unsigned pid:2;
++ /** Interrupt On Complete */
++ unsigned ioc:1;
++ /** Short Packet */
++ unsigned sp:1;
++ /** Last */
++ unsigned l:1;
++ /** Transmit Status */
++ unsigned txsts:2;
++ /** Buffer Status */
++ unsigned bs:2;
++ } b_iso_in;
++//#endif /* DWC_EN_ISOC */
++} dev_dma_desc_sts_t;
++
++/**
++ * DMA Descriptor structure
++ *
++ * DMA Descriptor structure contains two quadlets:
++ * Status quadlet and Data buffer pointer.
++ */
++typedef struct dwc_otg_dev_dma_desc {
++ /** DMA Descriptor status quadlet */
++ dev_dma_desc_sts_t status;
++ /** DMA Descriptor data buffer pointer */
++ uint32_t buf;
++} dwc_otg_dev_dma_desc_t;
++
++/**
++ * The dwc_otg_dev_if structure contains information needed to manage
++ * the DWC_otg controller acting in device mode. It represents the
++ * programming view of the device-specific aspects of the controller.
++ */
++typedef struct dwc_otg_dev_if {
++ /** Pointer to device Global registers.
++ * Device Global Registers starting at offset 800h
++ */
++ dwc_otg_device_global_regs_t *dev_global_regs;
++#define DWC_DEV_GLOBAL_REG_OFFSET 0x800
++
++ /**
++ * Device Logical IN Endpoint-Specific Registers 900h-AFCh
++ */
++ dwc_otg_dev_in_ep_regs_t *in_ep_regs[MAX_EPS_CHANNELS];
++#define DWC_DEV_IN_EP_REG_OFFSET 0x900
++#define DWC_EP_REG_OFFSET 0x20
++
++ /** Device Logical OUT Endpoint-Specific Registers B00h-CFCh */
++ dwc_otg_dev_out_ep_regs_t *out_ep_regs[MAX_EPS_CHANNELS];
++#define DWC_DEV_OUT_EP_REG_OFFSET 0xB00
++
++ /* Device configuration information */
++ uint8_t speed; /**< Device Speed 0: Unknown, 1: LS, 2:FS, 3: HS */
++ uint8_t num_in_eps; /**< Number # of Tx EP range: 0-15 exept ep0 */
++ uint8_t num_out_eps; /**< Number # of Rx EP range: 0-15 exept ep 0*/
++
++ /** Size of periodic FIFOs (Bytes) */
++ uint16_t perio_tx_fifo_size[MAX_PERIO_FIFOS];
++
++ /** Size of Tx FIFOs (Bytes) */
++ uint16_t tx_fifo_size[MAX_TX_FIFOS];
++
++ /** Thresholding enable flags and length varaiables **/
++ uint16_t rx_thr_en;
++ uint16_t iso_tx_thr_en;
++ uint16_t non_iso_tx_thr_en;
++
++ uint16_t rx_thr_length;
++ uint16_t tx_thr_length;
++
++ /**
++ * Pointers to the DMA Descriptors for EP0 Control
++ * transfers (virtual and physical)
++ */
++
++ /** 2 descriptors for SETUP packets */
++ dwc_dma_t dma_setup_desc_addr[2];
++ dwc_otg_dev_dma_desc_t *setup_desc_addr[2];
++
++ /** Pointer to Descriptor with latest SETUP packet */
++ dwc_otg_dev_dma_desc_t *psetup;
++
++ /** Index of current SETUP handler descriptor */
++ uint32_t setup_desc_index;
++
++ /** Descriptor for Data In or Status In phases */
++ dwc_dma_t dma_in_desc_addr;
++ dwc_otg_dev_dma_desc_t *in_desc_addr;
++
++ /** Descriptor for Data Out or Status Out phases */
++ dwc_dma_t dma_out_desc_addr;
++ dwc_otg_dev_dma_desc_t *out_desc_addr;
++
++ /** Setup Packet Detected - if set clear NAK when queueing */
++ uint32_t spd;
++ /** Isoc ep pointer on which incomplete happens */
++ void *isoc_ep;
++
++} dwc_otg_dev_if_t;
++
++/////////////////////////////////////////////////
++// Host Mode Register Structures
++//
++/**
++ * The Host Global Registers structure defines the size and relative
++ * field offsets for the Host Mode Global Registers. Host Global
++ * Registers offsets 400h-7FFh.
++*/
++typedef struct dwc_otg_host_global_regs {
++ /** Host Configuration Register. <i>Offset: 400h</i> */
++ volatile uint32_t hcfg;
++ /** Host Frame Interval Register. <i>Offset: 404h</i> */
++ volatile uint32_t hfir;
++ /** Host Frame Number / Frame Remaining Register. <i>Offset: 408h</i> */
++ volatile uint32_t hfnum;
++ /** Reserved. <i>Offset: 40Ch</i> */
++ uint32_t reserved40C;
++ /** Host Periodic Transmit FIFO/ Queue Status Register. <i>Offset: 410h</i> */
++ volatile uint32_t hptxsts;
++ /** Host All Channels Interrupt Register. <i>Offset: 414h</i> */
++ volatile uint32_t haint;
++ /** Host All Channels Interrupt Mask Register. <i>Offset: 418h</i> */
++ volatile uint32_t haintmsk;
++ /** Host Frame List Base Address Register . <i>Offset: 41Ch</i> */
++ volatile uint32_t hflbaddr;
++} dwc_otg_host_global_regs_t;
++
++/**
++ * This union represents the bit fields in the Host Configuration Register.
++ * Read the register into the <i>d32</i> member then set/clear the bits using
++ * the <i>b</i>it elements. Write the <i>d32</i> member to the hcfg register.
++ */
++typedef union hcfg_data {
++ /** raw register data */
++ uint32_t d32;
++
++ /** register bits */
++ struct {
++ /** FS/LS Phy Clock Select */
++ unsigned fslspclksel:2;
++#define DWC_HCFG_30_60_MHZ 0
++#define DWC_HCFG_48_MHZ 1
++#define DWC_HCFG_6_MHZ 2
++
++ /** FS/LS Only Support */
++ unsigned fslssupp:1;
++ unsigned reserved3_6:4;
++ /** Enable 32-KHz Suspend Mode */
++ unsigned ena32khzs:1;
++ /** Resume Validation Periiod */
++ unsigned resvalid:8;
++ unsigned reserved16_22:7;
++ /** Enable Scatter/gather DMA in Host mode */
++ unsigned descdma:1;
++ /** Frame List Entries */
++ unsigned frlisten:2;
++ /** Enable Periodic Scheduling */
++ unsigned perschedena:1;
++ unsigned reserved27_30:4;
++ unsigned modechtimen:1;
++ } b;
++} hcfg_data_t;
++
++/**
++ * This union represents the bit fields in the Host Frame Remaing/Number
++ * Register.
++ */
++typedef union hfir_data {
++ /** raw register data */
++ uint32_t d32;
++
++ /** register bits */
++ struct {
++ unsigned frint:16;
++ unsigned hfirrldctrl:1;
++ unsigned reserved:15;
++ } b;
++} hfir_data_t;
++
++/**
++ * This union represents the bit fields in the Host Frame Remaing/Number
++ * Register.
++ */
++typedef union hfnum_data {
++ /** raw register data */
++ uint32_t d32;
++
++ /** register bits */
++ struct {
++ unsigned frnum:16;
++#define DWC_HFNUM_MAX_FRNUM 0x3FFF
++ unsigned frrem:16;
++ } b;
++} hfnum_data_t;
++
++typedef union hptxsts_data {
++ /** raw register data */
++ uint32_t d32;
++
++ /** register bits */
++ struct {
++ unsigned ptxfspcavail:16;
++ unsigned ptxqspcavail:8;
++ /** Top of the Periodic Transmit Request Queue
++ * - bit 24 - Terminate (last entry for the selected channel)
++ * - bits 26:25 - Token Type
++ * - 2'b00 - Zero length
++ * - 2'b01 - Ping
++ * - 2'b10 - Disable
++ * - bits 30:27 - Channel Number
++ * - bit 31 - Odd/even microframe
++ */
++ unsigned ptxqtop_terminate:1;
++ unsigned ptxqtop_token:2;
++ unsigned ptxqtop_chnum:4;
++ unsigned ptxqtop_odd:1;
++ } b;
++} hptxsts_data_t;
++
++/**
++ * This union represents the bit fields in the Host Port Control and Status
++ * Register. Read the register into the <i>d32</i> member then set/clear the
++ * bits using the <i>b</i>it elements. Write the <i>d32</i> member to the
++ * hprt0 register.
++ */
++typedef union hprt0_data {
++ /** raw register data */
++ uint32_t d32;
++ /** register bits */
++ struct {
++ unsigned prtconnsts:1;
++ unsigned prtconndet:1;
++ unsigned prtena:1;
++ unsigned prtenchng:1;
++ unsigned prtovrcurract:1;
++ unsigned prtovrcurrchng:1;
++ unsigned prtres:1;
++ unsigned prtsusp:1;
++ unsigned prtrst:1;
++ unsigned reserved9:1;
++ unsigned prtlnsts:2;
++ unsigned prtpwr:1;
++ unsigned prttstctl:4;
++ unsigned prtspd:2;
++#define DWC_HPRT0_PRTSPD_HIGH_SPEED 0
++#define DWC_HPRT0_PRTSPD_FULL_SPEED 1
++#define DWC_HPRT0_PRTSPD_LOW_SPEED 2
++ unsigned reserved19_31:13;
++ } b;
++} hprt0_data_t;
++
++/**
++ * This union represents the bit fields in the Host All Interrupt
++ * Register.
++ */
++typedef union haint_data {
++ /** raw register data */
++ uint32_t d32;
++ /** register bits */
++ struct {
++ unsigned ch0:1;
++ unsigned ch1:1;
++ unsigned ch2:1;
++ unsigned ch3:1;
++ unsigned ch4:1;
++ unsigned ch5:1;
++ unsigned ch6:1;
++ unsigned ch7:1;
++ unsigned ch8:1;
++ unsigned ch9:1;
++ unsigned ch10:1;
++ unsigned ch11:1;
++ unsigned ch12:1;
++ unsigned ch13:1;
++ unsigned ch14:1;
++ unsigned ch15:1;
++ unsigned reserved:16;
++ } b;
++
++ struct {
++ unsigned chint:16;
++ unsigned reserved:16;
++ } b2;
++} haint_data_t;
++
++/**
++ * This union represents the bit fields in the Host All Interrupt
++ * Register.
++ */
++typedef union haintmsk_data {
++ /** raw register data */
++ uint32_t d32;
++ /** register bits */
++ struct {
++ unsigned ch0:1;
++ unsigned ch1:1;
++ unsigned ch2:1;
++ unsigned ch3:1;
++ unsigned ch4:1;
++ unsigned ch5:1;
++ unsigned ch6:1;
++ unsigned ch7:1;
++ unsigned ch8:1;
++ unsigned ch9:1;
++ unsigned ch10:1;
++ unsigned ch11:1;
++ unsigned ch12:1;
++ unsigned ch13:1;
++ unsigned ch14:1;
++ unsigned ch15:1;
++ unsigned reserved:16;
++ } b;
++
++ struct {
++ unsigned chint:16;
++ unsigned reserved:16;
++ } b2;
++} haintmsk_data_t;
++
++/**
++ * Host Channel Specific Registers. <i>500h-5FCh</i>
++ */
++typedef struct dwc_otg_hc_regs {
++ /** Host Channel 0 Characteristic Register. <i>Offset: 500h + (chan_num * 20h) + 00h</i> */
++ volatile uint32_t hcchar;
++ /** Host Channel 0 Split Control Register. <i>Offset: 500h + (chan_num * 20h) + 04h</i> */
++ volatile uint32_t hcsplt;
++ /** Host Channel 0 Interrupt Register. <i>Offset: 500h + (chan_num * 20h) + 08h</i> */
++ volatile uint32_t hcint;
++ /** Host Channel 0 Interrupt Mask Register. <i>Offset: 500h + (chan_num * 20h) + 0Ch</i> */
++ volatile uint32_t hcintmsk;
++ /** Host Channel 0 Transfer Size Register. <i>Offset: 500h + (chan_num * 20h) + 10h</i> */
++ volatile uint32_t hctsiz;
++ /** Host Channel 0 DMA Address Register. <i>Offset: 500h + (chan_num * 20h) + 14h</i> */
++ volatile uint32_t hcdma;
++ volatile uint32_t reserved;
++ /** Host Channel 0 DMA Buffer Address Register. <i>Offset: 500h + (chan_num * 20h) + 1Ch</i> */
++ volatile uint32_t hcdmab;
++} dwc_otg_hc_regs_t;
++
++/**
++ * This union represents the bit fields in the Host Channel Characteristics
++ * Register. Read the register into the <i>d32</i> member then set/clear the
++ * bits using the <i>b</i>it elements. Write the <i>d32</i> member to the
++ * hcchar register.
++ */
++typedef union hcchar_data {
++ /** raw register data */
++ uint32_t d32;
++
++ /** register bits */
++ struct {
++ /** Maximum packet size in bytes */
++ unsigned mps:11;
++
++ /** Endpoint number */
++ unsigned epnum:4;
++
++ /** 0: OUT, 1: IN */
++ unsigned epdir:1;
++
++ unsigned reserved:1;
++
++ /** 0: Full/high speed device, 1: Low speed device */
++ unsigned lspddev:1;
++
++ /** 0: Control, 1: Isoc, 2: Bulk, 3: Intr */
++ unsigned eptype:2;
++
++ /** Packets per frame for periodic transfers. 0 is reserved. */
++ unsigned multicnt:2;
++
++ /** Device address */
++ unsigned devaddr:7;
++
++ /**
++ * Frame to transmit periodic transaction.
++ * 0: even, 1: odd
++ */
++ unsigned oddfrm:1;
++
++ /** Channel disable */
++ unsigned chdis:1;
++
++ /** Channel enable */
++ unsigned chen:1;
++ } b;
++} hcchar_data_t;
++
++typedef union hcsplt_data {
++ /** raw register data */
++ uint32_t d32;
++
++ /** register bits */
++ struct {
++ /** Port Address */
++ unsigned prtaddr:7;
++
++ /** Hub Address */
++ unsigned hubaddr:7;
++
++ /** Transaction Position */
++ unsigned xactpos:2;
++#define DWC_HCSPLIT_XACTPOS_MID 0
++#define DWC_HCSPLIT_XACTPOS_END 1
++#define DWC_HCSPLIT_XACTPOS_BEGIN 2
++#define DWC_HCSPLIT_XACTPOS_ALL 3
++
++ /** Do Complete Split */
++ unsigned compsplt:1;
++
++ /** Reserved */
++ unsigned reserved:14;
++
++ /** Split Enble */
++ unsigned spltena:1;
++ } b;
++} hcsplt_data_t;
++
++/**
++ * This union represents the bit fields in the Host All Interrupt
++ * Register.
++ */
++typedef union hcint_data {
++ /** raw register data */
++ uint32_t d32;
++ /** register bits */
++ struct {
++ /** Transfer Complete */
++ unsigned xfercomp:1;
++ /** Channel Halted */
++ unsigned chhltd:1;
++ /** AHB Error */
++ unsigned ahberr:1;
++ /** STALL Response Received */
++ unsigned stall:1;
++ /** NAK Response Received */
++ unsigned nak:1;
++ /** ACK Response Received */
++ unsigned ack:1;
++ /** NYET Response Received */
++ unsigned nyet:1;
++ /** Transaction Err */
++ unsigned xacterr:1;
++ /** Babble Error */
++ unsigned bblerr:1;
++ /** Frame Overrun */
++ unsigned frmovrun:1;
++ /** Data Toggle Error */
++ unsigned datatglerr:1;
++ /** Buffer Not Available (only for DDMA mode) */
++ unsigned bna:1;
++ /** Exessive transaction error (only for DDMA mode) */
++ unsigned xcs_xact:1;
++ /** Frame List Rollover interrupt */
++ unsigned frm_list_roll:1;
++ /** Reserved */
++ unsigned reserved14_31:18;
++ } b;
++} hcint_data_t;
++
++/**
++ * This union represents the bit fields in the Host Channel Interrupt Mask
++ * Register. Read the register into the <i>d32</i> member then set/clear the
++ * bits using the <i>b</i>it elements. Write the <i>d32</i> member to the
++ * hcintmsk register.
++ */
++typedef union hcintmsk_data {
++ /** raw register data */
++ uint32_t d32;
++
++ /** register bits */
++ struct {
++ unsigned xfercompl:1;
++ unsigned chhltd:1;
++ unsigned ahberr:1;
++ unsigned stall:1;
++ unsigned nak:1;
++ unsigned ack:1;
++ unsigned nyet:1;
++ unsigned xacterr:1;
++ unsigned bblerr:1;
++ unsigned frmovrun:1;
++ unsigned datatglerr:1;
++ unsigned bna:1;
++ unsigned xcs_xact:1;
++ unsigned frm_list_roll:1;
++ unsigned reserved14_31:18;
++ } b;
++} hcintmsk_data_t;
++
++/**
++ * This union represents the bit fields in the Host Channel Transfer Size
++ * Register. Read the register into the <i>d32</i> member then set/clear the
++ * bits using the <i>b</i>it elements. Write the <i>d32</i> member to the
++ * hcchar register.
++ */
++
++typedef union hctsiz_data {
++ /** raw register data */
++ uint32_t d32;
++
++ /** register bits */
++ struct {
++ /** Total transfer size in bytes */
++ unsigned xfersize:19;
++
++ /** Data packets to transfer */
++ unsigned pktcnt:10;
++
++ /**
++ * Packet ID for next data packet
++ * 0: DATA0
++ * 1: DATA2
++ * 2: DATA1
++ * 3: MDATA (non-Control), SETUP (Control)
++ */
++ unsigned pid:2;
++#define DWC_HCTSIZ_DATA0 0
++#define DWC_HCTSIZ_DATA1 2
++#define DWC_HCTSIZ_DATA2 1
++#define DWC_HCTSIZ_MDATA 3
++#define DWC_HCTSIZ_SETUP 3
++
++ /** Do PING protocol when 1 */
++ unsigned dopng:1;
++ } b;
++
++ /** register bits */
++ struct {
++ /** Scheduling information */
++ unsigned schinfo:8;
++
++ /** Number of transfer descriptors.
++ * Max value:
++ * 64 in general,
++ * 256 only for HS isochronous endpoint.
++ */
++ unsigned ntd:8;
++
++ /** Data packets to transfer */
++ unsigned reserved16_28:13;
++
++ /**
++ * Packet ID for next data packet
++ * 0: DATA0
++ * 1: DATA2
++ * 2: DATA1
++ * 3: MDATA (non-Control)
++ */
++ unsigned pid:2;
++
++ /** Do PING protocol when 1 */
++ unsigned dopng:1;
++ } b_ddma;
++} hctsiz_data_t;
++
++/**
++ * This union represents the bit fields in the Host DMA Address
++ * Register used in Descriptor DMA mode.
++ */
++typedef union hcdma_data {
++ /** raw register data */
++ uint32_t d32;
++ /** register bits */
++ struct {
++ unsigned reserved0_2:3;
++ /** Current Transfer Descriptor. Not used for ISOC */
++ unsigned ctd:8;
++ /** Start Address of Descriptor List */
++ unsigned dma_addr:21;
++ } b;
++} hcdma_data_t;
++
++/**
++ * This union represents the bit fields in the DMA Descriptor
++ * status quadlet for host mode. Read the quadlet into the <i>d32</i> member then
++ * set/clear the bits using the <i>b</i>it elements.
++ */
++typedef union host_dma_desc_sts {
++ /** raw register data */
++ uint32_t d32;
++ /** quadlet bits */
++
++ /* for non-isochronous */
++ struct {
++ /** Number of bytes */
++ unsigned n_bytes:17;
++ /** QTD offset to jump when Short Packet received - only for IN EPs */
++ unsigned qtd_offset:6;
++ /**
++ * Set to request the core to jump to alternate QTD if
++ * Short Packet received - only for IN EPs
++ */
++ unsigned a_qtd:1;
++ /**
++ * Setup Packet bit. When set indicates that buffer contains
++ * setup packet.
++ */
++ unsigned sup:1;
++ /** Interrupt On Complete */
++ unsigned ioc:1;
++ /** End of List */
++ unsigned eol:1;
++ unsigned reserved27:1;
++ /** Rx/Tx Status */
++ unsigned sts:2;
++#define DMA_DESC_STS_PKTERR 1
++ unsigned reserved30:1;
++ /** Active Bit */
++ unsigned a:1;
++ } b;
++ /* for isochronous */
++ struct {
++ /** Number of bytes */
++ unsigned n_bytes:12;
++ unsigned reserved12_24:13;
++ /** Interrupt On Complete */
++ unsigned ioc:1;
++ unsigned reserved26_27:2;
++ /** Rx/Tx Status */
++ unsigned sts:2;
++ unsigned reserved30:1;
++ /** Active Bit */
++ unsigned a:1;
++ } b_isoc;
++} host_dma_desc_sts_t;
++
++#define MAX_DMA_DESC_SIZE 131071
++#define MAX_DMA_DESC_NUM_GENERIC 64
++#define MAX_DMA_DESC_NUM_HS_ISOC 256
++#define MAX_FRLIST_EN_NUM 64
++/**
++ * Host-mode DMA Descriptor structure
++ *
++ * DMA Descriptor structure contains two quadlets:
++ * Status quadlet and Data buffer pointer.
++ */
++typedef struct dwc_otg_host_dma_desc {
++ /** DMA Descriptor status quadlet */
++ host_dma_desc_sts_t status;
++ /** DMA Descriptor data buffer pointer */
++ uint32_t buf;
++} dwc_otg_host_dma_desc_t;
++
++/** OTG Host Interface Structure.
++ *
++ * The OTG Host Interface Structure structure contains information
++ * needed to manage the DWC_otg controller acting in host mode. It
++ * represents the programming view of the host-specific aspects of the
++ * controller.
++ */
++typedef struct dwc_otg_host_if {
++ /** Host Global Registers starting at offset 400h.*/
++ dwc_otg_host_global_regs_t *host_global_regs;
++#define DWC_OTG_HOST_GLOBAL_REG_OFFSET 0x400
++
++ /** Host Port 0 Control and Status Register */
++ volatile uint32_t *hprt0;
++#define DWC_OTG_HOST_PORT_REGS_OFFSET 0x440
++
++ /** Host Channel Specific Registers at offsets 500h-5FCh. */
++ dwc_otg_hc_regs_t *hc_regs[MAX_EPS_CHANNELS];
++#define DWC_OTG_HOST_CHAN_REGS_OFFSET 0x500
++#define DWC_OTG_CHAN_REGS_OFFSET 0x20
++
++ /* Host configuration information */
++ /** Number of Host Channels (range: 1-16) */
++ uint8_t num_host_channels;
++ /** Periodic EPs supported (0: no, 1: yes) */
++ uint8_t perio_eps_supported;
++ /** Periodic Tx FIFO Size (Only 1 host periodic Tx FIFO) */
++ uint16_t perio_tx_fifo_size;
++
++} dwc_otg_host_if_t;
++
++/**
++ * This union represents the bit fields in the Power and Clock Gating Control
++ * Register. Read the register into the <i>d32</i> member then set/clear the
++ * bits using the <i>b</i>it elements.
++ */
++typedef union pcgcctl_data {
++ /** raw register data */
++ uint32_t d32;
++
++ /** register bits */
++ struct {
++ /** Stop Pclk */
++ unsigned stoppclk:1;
++ /** Gate Hclk */
++ unsigned gatehclk:1;
++ /** Power Clamp */
++ unsigned pwrclmp:1;
++ /** Reset Power Down Modules */
++ unsigned rstpdwnmodule:1;
++ /** Reserved */
++ unsigned reserved:1;
++ /** Enable Sleep Clock Gating (Enbl_L1Gating) */
++ unsigned enbl_sleep_gating:1;
++ /** PHY In Sleep (PhySleep) */
++ unsigned phy_in_sleep:1;
++ /** Deep Sleep*/
++ unsigned deep_sleep:1;
++ unsigned resetaftsusp:1;
++ unsigned restoremode:1;
++ unsigned enbl_extnd_hiber:1;
++ unsigned extnd_hiber_pwrclmp:1;
++ unsigned extnd_hiber_switch:1;
++ unsigned ess_reg_restored:1;
++ unsigned prt_clk_sel:2;
++ unsigned port_power:1;
++ unsigned max_xcvrselect:2;
++ unsigned max_termsel:1;
++ unsigned mac_dev_addr:7;
++ unsigned p2hd_dev_enum_spd:2;
++ unsigned p2hd_prt_spd:2;
++ unsigned if_dev_mode:1;
++ } b;
++} pcgcctl_data_t;
++
++/**
++ * This union represents the bit fields in the Global Data FIFO Software
++ * Configuration Register. Read the register into the <i>d32</i> member then
++ * set/clear the bits using the <i>b</i>it elements.
++ */
++typedef union gdfifocfg_data {
++ /* raw register data */
++ uint32_t d32;
++ /** register bits */
++ struct {
++ /** OTG Data FIFO depth */
++ unsigned gdfifocfg:16;
++ /** Start address of EP info controller */
++ unsigned epinfobase:16;
++ } b;
++} gdfifocfg_data_t;
++
++/**
++ * This union represents the bit fields in the Global Power Down Register
++ * Register. Read the register into the <i>d32</i> member then set/clear the
++ * bits using the <i>b</i>it elements.
++ */
++typedef union gpwrdn_data {
++ /* raw register data */
++ uint32_t d32;
++
++ /** register bits */
++ struct {
++ /** PMU Interrupt Select */
++ unsigned pmuintsel:1;
++ /** PMU Active */
++ unsigned pmuactv:1;
++ /** Restore */
++ unsigned restore:1;
++ /** Power Down Clamp */
++ unsigned pwrdnclmp:1;
++ /** Power Down Reset */
++ unsigned pwrdnrstn:1;
++ /** Power Down Switch */
++ unsigned pwrdnswtch:1;
++ /** Disable VBUS */
++ unsigned dis_vbus:1;
++ /** Line State Change */
++ unsigned lnstschng:1;
++ /** Line state change mask */
++ unsigned lnstchng_msk:1;
++ /** Reset Detected */
++ unsigned rst_det:1;
++ /** Reset Detect mask */
++ unsigned rst_det_msk:1;
++ /** Disconnect Detected */
++ unsigned disconn_det:1;
++ /** Disconnect Detect mask */
++ unsigned disconn_det_msk:1;
++ /** Connect Detected*/
++ unsigned connect_det:1;
++ /** Connect Detected Mask*/
++ unsigned connect_det_msk:1;
++ /** SRP Detected */
++ unsigned srp_det:1;
++ /** SRP Detect mask */
++ unsigned srp_det_msk:1;
++ /** Status Change Interrupt */
++ unsigned sts_chngint:1;
++ /** Status Change Interrupt Mask */
++ unsigned sts_chngint_msk:1;
++ /** Line State */
++ unsigned linestate:2;
++ /** Indicates current mode(status of IDDIG signal) */
++ unsigned idsts:1;
++ /** B Session Valid signal status*/
++ unsigned bsessvld:1;
++ /** ADP Event Detected */
++ unsigned adp_int:1;
++ /** Multi Valued ID pin */
++ unsigned mult_val_id_bc:5;
++ /** Reserved 24_31 */
++ unsigned reserved29_31:3;
++ } b;
++} gpwrdn_data_t;
++
++#endif
+diff -urN linux-3.10/drivers/usb/host/dwc_otg/Makefile linux-rpi-3.10.y/drivers/usb/host/dwc_otg/Makefile
+--- linux-3.10/drivers/usb/host/dwc_otg/Makefile 1970-01-01 01:00:00.000000000 +0100
++++ linux-rpi-3.10.y/drivers/usb/host/dwc_otg/Makefile 2013-07-06 15:25:50.000000000 +0100
+@@ -0,0 +1,81 @@
++#
++# Makefile for DWC_otg Highspeed USB controller driver
++#
++
++ifneq ($(KERNELRELEASE),)
++
++# Use the BUS_INTERFACE variable to compile the software for either
++# PCI(PCI_INTERFACE) or LM(LM_INTERFACE) bus.
++ifeq ($(BUS_INTERFACE),)
++# BUS_INTERFACE = -DPCI_INTERFACE
++# BUS_INTERFACE = -DLM_INTERFACE
++ BUS_INTERFACE = -DPLATFORM_INTERFACE
++endif
++
++#EXTRA_CFLAGS += -DDEBUG
++#EXTRA_CFLAGS += -DDWC_OTG_DEBUGLEV=1 # reduce common debug msgs
++
++# Use one of the following flags to compile the software in host-only or
++# device-only mode.
++#EXTRA_CFLAGS += -DDWC_HOST_ONLY
++#EXTRA_CFLAGS += -DDWC_DEVICE_ONLY
++
++EXTRA_CFLAGS += -Dlinux -DDWC_HS_ELECT_TST
++#EXTRA_CFLAGS += -DDWC_EN_ISOC
++EXTRA_CFLAGS += -I$(obj)/../dwc_common_port
++#EXTRA_CFLAGS += -I$(PORTLIB)
++EXTRA_CFLAGS += -DDWC_LINUX
++EXTRA_CFLAGS += $(CFI)
++EXTRA_CFLAGS += $(BUS_INTERFACE)
++#EXTRA_CFLAGS += -DDWC_DEV_SRPCAP
++
++obj-$(CONFIG_USB_DWCOTG) += dwc_otg.o
++
++dwc_otg-objs := dwc_otg_driver.o dwc_otg_attr.o
++dwc_otg-objs += dwc_otg_cil.o dwc_otg_cil_intr.o
++dwc_otg-objs += dwc_otg_pcd_linux.o dwc_otg_pcd.o dwc_otg_pcd_intr.o
++dwc_otg-objs += dwc_otg_hcd.o dwc_otg_hcd_linux.o dwc_otg_hcd_intr.o dwc_otg_hcd_queue.o dwc_otg_hcd_ddma.o
++dwc_otg-objs += dwc_otg_adp.o
++dwc_otg-objs += dwc_otg_mphi_fix.o
++ifneq ($(CFI),)
++dwc_otg-objs += dwc_otg_cfi.o
++endif
++
++kernrelwd := $(subst ., ,$(KERNELRELEASE))
++kernrel3 := $(word 1,$(kernrelwd)).$(word 2,$(kernrelwd)).$(word 3,$(kernrelwd))
++
++ifneq ($(kernrel3),2.6.20)
++EXTRA_CFLAGS += $(CPPFLAGS)
++endif
++
++else
++
++PWD := $(shell pwd)
++PORTLIB := $(PWD)/../dwc_common_port
++
++# Command paths
++CTAGS := $(CTAGS)
++DOXYGEN := $(DOXYGEN)
++
++default: portlib
++ $(MAKE) -C$(KDIR) M=$(PWD) ARCH=$(ARCH) CROSS_COMPILE=$(CROSS_COMPILE) modules
++
++install: default
++ $(MAKE) -C$(KDIR) M=$(PORTLIB) modules_install
++ $(MAKE) -C$(KDIR) M=$(PWD) modules_install
++
++portlib:
++ $(MAKE) -C$(KDIR) M=$(PORTLIB) ARCH=$(ARCH) CROSS_COMPILE=$(CROSS_COMPILE) modules
++ cp $(PORTLIB)/Module.symvers $(PWD)/
++
++docs: $(wildcard *.[hc]) doc/doxygen.cfg
++ $(DOXYGEN) doc/doxygen.cfg
++
++tags: $(wildcard *.[hc])
++ $(CTAGS) -e $(wildcard *.[hc]) $(wildcard linux/*.[hc]) $(wildcard $(KDIR)/include/linux/usb*.h)
++
++
++clean:
++ rm -rf *.o *.ko .*cmd *.mod.c .tmp_versions Module.symvers
++
++endif
+diff -urN linux-3.10/drivers/usb/host/dwc_otg/test/dwc_otg_test.pm linux-rpi-3.10.y/drivers/usb/host/dwc_otg/test/dwc_otg_test.pm
+--- linux-3.10/drivers/usb/host/dwc_otg/test/dwc_otg_test.pm 1970-01-01 01:00:00.000000000 +0100
++++ linux-rpi-3.10.y/drivers/usb/host/dwc_otg/test/dwc_otg_test.pm 2013-07-06 15:25:50.000000000 +0100
+@@ -0,0 +1,337 @@
++package dwc_otg_test;
++
++use strict;
++use Exporter ();
++
++use vars qw(@ISA @EXPORT
++$sysfsdir $paramdir $errors $params
++);
++
++@ISA = qw(Exporter);
++
++#
++# Globals
++#
++$sysfsdir = "/sys/devices/lm0";
++$paramdir = "/sys/module/dwc_otg";
++$errors = 0;
++
++$params = [
++ {
++ NAME => "otg_cap",
++ DEFAULT => 0,
++ ENUM => [],
++ LOW => 0,
++ HIGH => 2
++ },
++ {
++ NAME => "dma_enable",
++ DEFAULT => 0,
++ ENUM => [],
++ LOW => 0,
++ HIGH => 1
++ },
++ {
++ NAME => "dma_burst_size",
++ DEFAULT => 32,
++ ENUM => [1, 4, 8, 16, 32, 64, 128, 256],
++ LOW => 1,
++ HIGH => 256
++ },
++ {
++ NAME => "host_speed",
++ DEFAULT => 0,
++ ENUM => [],
++ LOW => 0,
++ HIGH => 1
++ },
++ {
++ NAME => "host_support_fs_ls_low_power",
++ DEFAULT => 0,
++ ENUM => [],
++ LOW => 0,
++ HIGH => 1
++ },
++ {
++ NAME => "host_ls_low_power_phy_clk",
++ DEFAULT => 0,
++ ENUM => [],
++ LOW => 0,
++ HIGH => 1
++ },
++ {
++ NAME => "dev_speed",
++ DEFAULT => 0,
++ ENUM => [],
++ LOW => 0,
++ HIGH => 1
++ },
++ {
++ NAME => "enable_dynamic_fifo",
++ DEFAULT => 1,
++ ENUM => [],
++ LOW => 0,
++ HIGH => 1
++ },
++ {
++ NAME => "data_fifo_size",
++ DEFAULT => 8192,
++ ENUM => [],
++ LOW => 32,
++ HIGH => 32768
++ },
++ {
++ NAME => "dev_rx_fifo_size",
++ DEFAULT => 1064,
++ ENUM => [],
++ LOW => 16,
++ HIGH => 32768
++ },
++ {
++ NAME => "dev_nperio_tx_fifo_size",
++ DEFAULT => 1024,
++ ENUM => [],
++ LOW => 16,
++ HIGH => 32768
++ },
++ {
++ NAME => "dev_perio_tx_fifo_size_1",
++ DEFAULT => 256,
++ ENUM => [],
++ LOW => 4,
++ HIGH => 768
++ },
++ {
++ NAME => "dev_perio_tx_fifo_size_2",
++ DEFAULT => 256,
++ ENUM => [],
++ LOW => 4,
++ HIGH => 768
++ },
++ {
++ NAME => "dev_perio_tx_fifo_size_3",
++ DEFAULT => 256,
++ ENUM => [],
++ LOW => 4,
++ HIGH => 768
++ },
++ {
++ NAME => "dev_perio_tx_fifo_size_4",
++ DEFAULT => 256,
++ ENUM => [],
++ LOW => 4,
++ HIGH => 768
++ },
++ {
++ NAME => "dev_perio_tx_fifo_size_5",
++ DEFAULT => 256,
++ ENUM => [],
++ LOW => 4,
++ HIGH => 768
++ },
++ {
++ NAME => "dev_perio_tx_fifo_size_6",
++ DEFAULT => 256,
++ ENUM => [],
++ LOW => 4,
++ HIGH => 768
++ },
++ {
++ NAME => "dev_perio_tx_fifo_size_7",
++ DEFAULT => 256,
++ ENUM => [],
++ LOW => 4,
++ HIGH => 768
++ },
++ {
++ NAME => "dev_perio_tx_fifo_size_8",
++ DEFAULT => 256,
++ ENUM => [],
++ LOW => 4,
++ HIGH => 768
++ },
++ {
++ NAME => "dev_perio_tx_fifo_size_9",
++ DEFAULT => 256,
++ ENUM => [],
++ LOW => 4,
++ HIGH => 768
++ },
++ {
++ NAME => "dev_perio_tx_fifo_size_10",
++ DEFAULT => 256,
++ ENUM => [],
++ LOW => 4,
++ HIGH => 768
++ },
++ {
++ NAME => "dev_perio_tx_fifo_size_11",
++ DEFAULT => 256,
++ ENUM => [],
++ LOW => 4,
++ HIGH => 768
++ },
++ {
++ NAME => "dev_perio_tx_fifo_size_12",
++ DEFAULT => 256,
++ ENUM => [],
++ LOW => 4,
++ HIGH => 768
++ },
++ {
++ NAME => "dev_perio_tx_fifo_size_13",
++ DEFAULT => 256,
++ ENUM => [],
++ LOW => 4,
++ HIGH => 768
++ },
++ {
++ NAME => "dev_perio_tx_fifo_size_14",
++ DEFAULT => 256,
++ ENUM => [],
++ LOW => 4,
++ HIGH => 768
++ },
++ {
++ NAME => "dev_perio_tx_fifo_size_15",
++ DEFAULT => 256,
++ ENUM => [],
++ LOW => 4,
++ HIGH => 768
++ },
++ {
++ NAME => "host_rx_fifo_size",
++ DEFAULT => 1024,
++ ENUM => [],
++ LOW => 16,
++ HIGH => 32768
++ },
++ {
++ NAME => "host_nperio_tx_fifo_size",
++ DEFAULT => 1024,
++ ENUM => [],
++ LOW => 16,
++ HIGH => 32768
++ },
++ {
++ NAME => "host_perio_tx_fifo_size",
++ DEFAULT => 1024,
++ ENUM => [],
++ LOW => 16,
++ HIGH => 32768
++ },
++ {
++ NAME => "max_transfer_size",
++ DEFAULT => 65535,
++ ENUM => [],
++ LOW => 2047,
++ HIGH => 65535
++ },
++ {
++ NAME => "max_packet_count",
++ DEFAULT => 511,
++ ENUM => [],
++ LOW => 15,
++ HIGH => 511
++ },
++ {
++ NAME => "host_channels",
++ DEFAULT => 12,
++ ENUM => [],
++ LOW => 1,
++ HIGH => 16
++ },
++ {
++ NAME => "dev_endpoints",
++ DEFAULT => 6,
++ ENUM => [],
++ LOW => 1,
++ HIGH => 15
++ },
++ {
++ NAME => "phy_type",
++ DEFAULT => 1,
++ ENUM => [],
++ LOW => 0,
++ HIGH => 2
++ },
++ {
++ NAME => "phy_utmi_width",
++ DEFAULT => 16,
++ ENUM => [8, 16],
++ LOW => 8,
++ HIGH => 16
++ },
++ {
++ NAME => "phy_ulpi_ddr",
++ DEFAULT => 0,
++ ENUM => [],
++ LOW => 0,
++ HIGH => 1
++ },
++ ];
++
++
++#
++#
++sub check_arch {
++ $_ = `uname -m`;
++ chomp;
++ unless (m/armv4tl/) {
++ warn "# \n# Can't execute on $_. Run on integrator platform.\n# \n";
++ return 0;
++ }
++ return 1;
++}
++
++#
++#
++sub load_module {
++ my $params = shift;
++ print "\nRemoving Module\n";
++ system "rmmod dwc_otg";
++ print "Loading Module\n";
++ if ($params ne "") {
++ print "Module Parameters: $params\n";
++ }
++ if (system("modprobe dwc_otg $params")) {
++ warn "Unable to load module\n";
++ return 0;
++ }
++ return 1;
++}
++
++#
++#
++sub test_status {
++ my $arg = shift;
++
++ print "\n";
++
++ if (defined $arg) {
++ warn "WARNING: $arg\n";
++ }
++
++ if ($errors > 0) {
++ warn "TEST FAILED with $errors errors\n";
++ return 0;
++ } else {
++ print "TEST PASSED\n";
++ return 0 if (defined $arg);
++ }
++ return 1;
++}
++
++#
++#
++@EXPORT = qw(
++$sysfsdir
++$paramdir
++$params
++$errors
++check_arch
++load_module
++test_status
++);
++
++1;
+diff -urN linux-3.10/drivers/usb/host/dwc_otg/test/Makefile linux-rpi-3.10.y/drivers/usb/host/dwc_otg/test/Makefile
+--- linux-3.10/drivers/usb/host/dwc_otg/test/Makefile 1970-01-01 01:00:00.000000000 +0100
++++ linux-rpi-3.10.y/drivers/usb/host/dwc_otg/test/Makefile 2013-07-06 15:25:50.000000000 +0100
+@@ -0,0 +1,16 @@
++
++PERL=/usr/bin/perl
++PL_TESTS=test_sysfs.pl test_mod_param.pl
++
++.PHONY : test
++test : perl_tests
++
++perl_tests :
++ @echo
++ @echo Running perl tests
++ @for test in $(PL_TESTS); do \
++ if $(PERL) ./$$test ; then \
++ echo "=======> $$test, PASSED" ; \
++ else echo "=======> $$test, FAILED" ; \
++ fi \
++ done
+diff -urN linux-3.10/drivers/usb/host/dwc_otg/test/test_mod_param.pl linux-rpi-3.10.y/drivers/usb/host/dwc_otg/test/test_mod_param.pl
+--- linux-3.10/drivers/usb/host/dwc_otg/test/test_mod_param.pl 1970-01-01 01:00:00.000000000 +0100
++++ linux-rpi-3.10.y/drivers/usb/host/dwc_otg/test/test_mod_param.pl 2013-07-06 15:25:50.000000000 +0100
+@@ -0,0 +1,133 @@
++#!/usr/bin/perl -w
++#
++# Run this program on the integrator.
++#
++# - Tests module parameter default values.
++# - Tests setting of valid module parameter values via modprobe.
++# - Tests invalid module parameter values.
++# -----------------------------------------------------------------------------
++use strict;
++use dwc_otg_test;
++
++check_arch() or die;
++
++#
++#
++sub test {
++ my ($param,$expected) = @_;
++ my $value = get($param);
++
++ if ($value == $expected) {
++ print "$param = $value, okay\n";
++ }
++
++ else {
++ warn "ERROR: value of $param != $expected, $value\n";
++ $errors ++;
++ }
++}
++
++#
++#
++sub get {
++ my $param = shift;
++ my $tmp = `cat $paramdir/$param`;
++ chomp $tmp;
++ return $tmp;
++}
++
++#
++#
++sub test_main {
++
++ print "\nTesting Module Parameters\n";
++
++ load_module("") or die;
++
++ # Test initial values
++ print "\nTesting Default Values\n";
++ foreach (@{$params}) {
++ test ($_->{NAME}, $_->{DEFAULT});
++ }
++
++ # Test low value
++ print "\nTesting Low Value\n";
++ my $cmd_params = "";
++ foreach (@{$params}) {
++ $cmd_params = $cmd_params . "$_->{NAME}=$_->{LOW} ";
++ }
++ load_module($cmd_params) or die;
++
++ foreach (@{$params}) {
++ test ($_->{NAME}, $_->{LOW});
++ }
++
++ # Test high value
++ print "\nTesting High Value\n";
++ $cmd_params = "";
++ foreach (@{$params}) {
++ $cmd_params = $cmd_params . "$_->{NAME}=$_->{HIGH} ";
++ }
++ load_module($cmd_params) or die;
++
++ foreach (@{$params}) {
++ test ($_->{NAME}, $_->{HIGH});
++ }
++
++ # Test Enum
++ print "\nTesting Enumerated\n";
++ foreach (@{$params}) {
++ if (defined $_->{ENUM}) {
++ my $value;
++ foreach $value (@{$_->{ENUM}}) {
++ $cmd_params = "$_->{NAME}=$value";
++ load_module($cmd_params) or die;
++ test ($_->{NAME}, $value);
++ }
++ }
++ }
++
++ # Test Invalid Values
++ print "\nTesting Invalid Values\n";
++ $cmd_params = "";
++ foreach (@{$params}) {
++ $cmd_params = $cmd_params . sprintf "$_->{NAME}=%d ", $_->{LOW}-1;
++ }
++ load_module($cmd_params) or die;
++
++ foreach (@{$params}) {
++ test ($_->{NAME}, $_->{DEFAULT});
++ }
++
++ $cmd_params = "";
++ foreach (@{$params}) {
++ $cmd_params = $cmd_params . sprintf "$_->{NAME}=%d ", $_->{HIGH}+1;
++ }
++ load_module($cmd_params) or die;
++
++ foreach (@{$params}) {
++ test ($_->{NAME}, $_->{DEFAULT});
++ }
++
++ print "\nTesting Enumerated\n";
++ foreach (@{$params}) {
++ if (defined $_->{ENUM}) {
++ my $value;
++ foreach $value (@{$_->{ENUM}}) {
++ $value = $value + 1;
++ $cmd_params = "$_->{NAME}=$value";
++ load_module($cmd_params) or die;
++ test ($_->{NAME}, $_->{DEFAULT});
++ $value = $value - 2;
++ $cmd_params = "$_->{NAME}=$value";
++ load_module($cmd_params) or die;
++ test ($_->{NAME}, $_->{DEFAULT});
++ }
++ }
++ }
++
++ test_status() or die;
++}
++
++test_main();
++0;
+diff -urN linux-3.10/drivers/usb/host/dwc_otg/test/test_sysfs.pl linux-rpi-3.10.y/drivers/usb/host/dwc_otg/test/test_sysfs.pl
+--- linux-3.10/drivers/usb/host/dwc_otg/test/test_sysfs.pl 1970-01-01 01:00:00.000000000 +0100
++++ linux-rpi-3.10.y/drivers/usb/host/dwc_otg/test/test_sysfs.pl 2013-07-06 15:25:50.000000000 +0100
+@@ -0,0 +1,193 @@
++#!/usr/bin/perl -w
++#
++# Run this program on the integrator
++# - Tests select sysfs attributes.
++# - Todo ... test more attributes, hnp/srp, buspower/bussuspend, etc.
++# -----------------------------------------------------------------------------
++use strict;
++use dwc_otg_test;
++
++check_arch() or die;
++
++#
++#
++sub test {
++ my ($attr,$expected) = @_;
++ my $string = get($attr);
++
++ if ($string eq $expected) {
++ printf("$attr = $string, okay\n");
++ }
++ else {
++ warn "ERROR: value of $attr != $expected, $string\n";
++ $errors ++;
++ }
++}
++
++#
++#
++sub set {
++ my ($reg, $value) = @_;
++ system "echo $value > $sysfsdir/$reg";
++}
++
++#
++#
++sub get {
++ my $attr = shift;
++ my $string = `cat $sysfsdir/$attr`;
++ chomp $string;
++ if ($string =~ m/\s\=\s/) {
++ my $tmp;
++ ($tmp, $string) = split /\s=\s/, $string;
++ }
++ return $string;
++}
++
++#
++#
++sub test_main {
++ print("\nTesting Sysfs Attributes\n");
++
++ load_module("") or die;
++
++ # Test initial values of regoffset/regvalue/guid/gsnpsid
++ print("\nTesting Default Values\n");
++
++ test("regoffset", "0xffffffff");
++ test("regvalue", "invalid offset");
++ test("guid", "0x12345678"); # this will fail if it has been changed
++ test("gsnpsid", "0x4f54200a");
++
++ # Test operation of regoffset/regvalue
++ print("\nTesting regoffset\n");
++ set('regoffset', '5a5a5a5a');
++ test("regoffset", "0xffffffff");
++
++ set('regoffset', '0');
++ test("regoffset", "0x00000000");
++
++ set('regoffset', '40000');
++ test("regoffset", "0x00000000");
++
++ set('regoffset', '3ffff');
++ test("regoffset", "0x0003ffff");
++
++ set('regoffset', '1');
++ test("regoffset", "0x00000001");
++
++ print("\nTesting regvalue\n");
++ set('regoffset', '3c');
++ test("regvalue", "0x12345678");
++ set('regvalue', '5a5a5a5a');
++ test("regvalue", "0x5a5a5a5a");
++ set('regvalue','a5a5a5a5');
++ test("regvalue", "0xa5a5a5a5");
++ set('guid','12345678');
++
++ # Test HNP Capable
++ print("\nTesting HNP Capable bit\n");
++ set('hnpcapable', '1');
++ test("hnpcapable", "0x1");
++ set('hnpcapable','0');
++ test("hnpcapable", "0x0");
++
++ set('regoffset','0c');
++
++ my $old = get('gusbcfg');
++ print("setting hnpcapable\n");
++ set('hnpcapable', '1');
++ test("hnpcapable", "0x1");
++ test('gusbcfg', sprintf "0x%08x", (oct ($old) | (1<<9)));
++ test('regvalue', sprintf "0x%08x", (oct ($old) | (1<<9)));
++
++ $old = get('gusbcfg');
++ print("clearing hnpcapable\n");
++ set('hnpcapable', '0');
++ test("hnpcapable", "0x0");
++ test ('gusbcfg', sprintf "0x%08x", oct ($old) & (~(1<<9)));
++ test ('regvalue', sprintf "0x%08x", oct ($old) & (~(1<<9)));
++
++ # Test SRP Capable
++ print("\nTesting SRP Capable bit\n");
++ set('srpcapable', '1');
++ test("srpcapable", "0x1");
++ set('srpcapable','0');
++ test("srpcapable", "0x0");
++
++ set('regoffset','0c');
++
++ $old = get('gusbcfg');
++ print("setting srpcapable\n");
++ set('srpcapable', '1');
++ test("srpcapable", "0x1");
++ test('gusbcfg', sprintf "0x%08x", (oct ($old) | (1<<8)));
++ test('regvalue', sprintf "0x%08x", (oct ($old) | (1<<8)));
++
++ $old = get('gusbcfg');
++ print("clearing srpcapable\n");
++ set('srpcapable', '0');
++ test("srpcapable", "0x0");
++ test('gusbcfg', sprintf "0x%08x", oct ($old) & (~(1<<8)));
++ test('regvalue', sprintf "0x%08x", oct ($old) & (~(1<<8)));
++
++ # Test GGPIO
++ print("\nTesting GGPIO\n");
++ set('ggpio','5a5a5a5a');
++ test('ggpio','0x5a5a0000');
++ set('ggpio','a5a5a5a5');
++ test('ggpio','0xa5a50000');
++ set('ggpio','11110000');
++ test('ggpio','0x11110000');
++ set('ggpio','00001111');
++ test('ggpio','0x00000000');
++
++ # Test DEVSPEED
++ print("\nTesting DEVSPEED\n");
++ set('regoffset','800');
++ $old = get('regvalue');
++ set('devspeed','0');
++ test('devspeed','0x0');
++ test('regvalue',sprintf("0x%08x", oct($old) & ~(0x3)));
++ set('devspeed','1');
++ test('devspeed','0x1');
++ test('regvalue',sprintf("0x%08x", oct($old) & ~(0x3) | 1));
++ set('devspeed','2');
++ test('devspeed','0x2');
++ test('regvalue',sprintf("0x%08x", oct($old) & ~(0x3) | 2));
++ set('devspeed','3');
++ test('devspeed','0x3');
++ test('regvalue',sprintf("0x%08x", oct($old) & ~(0x3) | 3));
++ set('devspeed','4');
++ test('devspeed','0x0');
++ test('regvalue',sprintf("0x%08x", oct($old) & ~(0x3)));
++ set('devspeed','5');
++ test('devspeed','0x1');
++ test('regvalue',sprintf("0x%08x", oct($old) & ~(0x3) | 1));
++
++
++ # mode Returns the current mode:0 for device mode1 for host mode Read
++ # hnp Initiate the Host Negotiation Protocol. Read returns the status. Read/Write
++ # srp Initiate the Session Request Protocol. Read returns the status. Read/Write
++ # buspower Get or Set the Power State of the bus (0 - Off or 1 - On) Read/Write
++ # bussuspend Suspend the USB bus. Read/Write
++ # busconnected Get the connection status of the bus Read
++
++ # gotgctl Get or set the Core Control Status Register. Read/Write
++ ## gusbcfg Get or set the Core USB Configuration Register Read/Write
++ # grxfsiz Get or set the Receive FIFO Size Register Read/Write
++ # gnptxfsiz Get or set the non-periodic Transmit Size Register Read/Write
++ # gpvndctl Get or set the PHY Vendor Control Register Read/Write
++ ## ggpio Get the value in the lower 16-bits of the General Purpose IO Register or Set the upper 16 bits. Read/Write
++ ## guid Get or set the value of the User ID Register Read/Write
++ ## gsnpsid Get the value of the Synopsys ID Regester Read
++ ## devspeed Get or set the device speed setting in the DCFG register Read/Write
++ # enumspeed Gets the device enumeration Speed. Read
++ # hptxfsiz Get the value of the Host Periodic Transmit FIFO Read
++ # hprt0 Get or Set the value in the Host Port Control and Status Register Read/Write
++
++ test_status("TEST NYI") or die;
++}
++
++test_main();
++0;
+diff -urN linux-3.10/drivers/usb/host/Kconfig linux-rpi-3.10.y/drivers/usb/host/Kconfig
+--- linux-3.10/drivers/usb/host/Kconfig 2013-06-30 23:13:29.000000000 +0100
++++ linux-rpi-3.10.y/drivers/usb/host/Kconfig 2013-07-06 15:25:50.000000000 +0100
+@@ -663,6 +663,19 @@
+ To compile this driver a module, choose M here: the module
+ will be called "hwa-hc".
+
++config USB_DWCOTG
++ tristate "Synopsis DWC host support"
++ depends on USB
++ help
++ The Synopsis DWC controller is a dual-role
++ host/peripheral/OTG ("On The Go") USB controllers.
++
++ Enable this option to support this IP in host controller mode.
++ If unsure, say N.
++
++ To compile this driver as a module, choose M here: the
++ modules built will be called dwc_otg and dwc_common_port.
++
+ config USB_IMX21_HCD
+ tristate "i.MX21 HCD support"
+ depends on ARM && ARCH_MXC
+diff -urN linux-3.10/drivers/usb/host/Makefile linux-rpi-3.10.y/drivers/usb/host/Makefile
+--- linux-3.10/drivers/usb/host/Makefile 2013-06-30 23:13:29.000000000 +0100
++++ linux-rpi-3.10.y/drivers/usb/host/Makefile 2013-07-06 15:25:50.000000000 +0100
+@@ -47,6 +47,8 @@
+ obj-$(CONFIG_USB_R8A66597_HCD) += r8a66597-hcd.o
+ obj-$(CONFIG_USB_ISP1760_HCD) += isp1760.o
+ obj-$(CONFIG_USB_HWA_HCD) += hwa-hc.o
++
++obj-$(CONFIG_USB_DWCOTG) += dwc_otg/ dwc_common_port/
+ obj-$(CONFIG_USB_IMX21_HCD) += imx21-hcd.o
+ obj-$(CONFIG_USB_FSL_MPH_DR_OF) += fsl-mph-dr-of.o
+ obj-$(CONFIG_USB_OCTEON2_COMMON) += octeon2-common.o
+diff -urN linux-3.10/drivers/usb/Makefile linux-rpi-3.10.y/drivers/usb/Makefile
+--- linux-3.10/drivers/usb/Makefile 2013-06-30 23:13:29.000000000 +0100
++++ linux-rpi-3.10.y/drivers/usb/Makefile 2013-07-06 15:25:50.000000000 +0100
+@@ -23,6 +23,7 @@
+ obj-$(CONFIG_USB_R8A66597_HCD) += host/
+ obj-$(CONFIG_USB_HWA_HCD) += host/
+ obj-$(CONFIG_USB_ISP1760_HCD) += host/
++obj-$(CONFIG_USB_DWCOTG) += host/
+ obj-$(CONFIG_USB_IMX21_HCD) += host/
+ obj-$(CONFIG_USB_FSL_MPH_DR_OF) += host/
+
diff --git a/target/linux/brcm2708/patches-3.10/002-Main-bcm2708-linux-port.patch b/target/linux/brcm2708/patches-3.10/002-Main-bcm2708-linux-port.patch
new file mode 100644
index 0000000000..81d899b1ec
--- /dev/null
+++ b/target/linux/brcm2708/patches-3.10/002-Main-bcm2708-linux-port.patch
@@ -0,0 +1,8404 @@
+diff -urN linux-3.10/arch/arm/configs/bcmrpi_cutdown_defconfig linux-rpi-3.10.y/arch/arm/configs/bcmrpi_cutdown_defconfig
+--- linux-3.10/arch/arm/configs/bcmrpi_cutdown_defconfig 1970-01-01 01:00:00.000000000 +0100
++++ linux-rpi-3.10.y/arch/arm/configs/bcmrpi_cutdown_defconfig 2013-07-06 15:25:50.000000000 +0100
+@@ -0,0 +1,504 @@
++CONFIG_EXPERIMENTAL=y
++# CONFIG_LOCALVERSION_AUTO is not set
++CONFIG_SYSVIPC=y
++CONFIG_POSIX_MQUEUE=y
++CONFIG_IKCONFIG=y
++CONFIG_IKCONFIG_PROC=y
++# CONFIG_UID16 is not set
++# CONFIG_KALLSYMS is not set
++CONFIG_EMBEDDED=y
++# CONFIG_VM_EVENT_COUNTERS is not set
++# CONFIG_COMPAT_BRK is not set
++CONFIG_SLAB=y
++CONFIG_MODULES=y
++CONFIG_MODULE_UNLOAD=y
++CONFIG_MODVERSIONS=y
++CONFIG_MODULE_SRCVERSION_ALL=y
++# CONFIG_BLK_DEV_BSG is not set
++CONFIG_ARCH_BCM2708=y
++CONFIG_NO_HZ=y
++CONFIG_HIGH_RES_TIMERS=y
++CONFIG_AEABI=y
++CONFIG_ZBOOT_ROM_TEXT=0x0
++CONFIG_ZBOOT_ROM_BSS=0x0
++CONFIG_CMDLINE="dwc_otg.lpm_enable=0 console=ttyAMA0,115200 kgdboc=ttyAMA0,115200 root=/dev/mmcblk0p2 rootfstype=ext3 rootwait"
++CONFIG_CPU_IDLE=y
++CONFIG_VFP=y
++CONFIG_BINFMT_MISC=m
++CONFIG_NET=y
++CONFIG_PACKET=y
++CONFIG_UNIX=y
++CONFIG_XFRM_USER=y
++CONFIG_NET_KEY=m
++CONFIG_INET=y
++CONFIG_IP_MULTICAST=y
++CONFIG_IP_PNP=y
++CONFIG_IP_PNP_DHCP=y
++CONFIG_IP_PNP_RARP=y
++CONFIG_SYN_COOKIES=y
++# CONFIG_INET_XFRM_MODE_TRANSPORT is not set
++# CONFIG_INET_XFRM_MODE_TUNNEL is not set
++# CONFIG_INET_XFRM_MODE_BEET is not set
++# CONFIG_INET_LRO is not set
++# CONFIG_INET_DIAG is not set
++# CONFIG_IPV6 is not set
++CONFIG_NET_PKTGEN=m
++CONFIG_IRDA=m
++CONFIG_IRLAN=m
++CONFIG_IRCOMM=m
++CONFIG_IRDA_ULTRA=y
++CONFIG_IRDA_CACHE_LAST_LSAP=y
++CONFIG_IRDA_FAST_RR=y
++CONFIG_IRTTY_SIR=m
++CONFIG_KINGSUN_DONGLE=m
++CONFIG_KSDAZZLE_DONGLE=m
++CONFIG_KS959_DONGLE=m
++CONFIG_USB_IRDA=m
++CONFIG_SIGMATEL_FIR=m
++CONFIG_MCS_FIR=m
++CONFIG_BT=m
++CONFIG_BT_L2CAP=y
++CONFIG_BT_SCO=y
++CONFIG_BT_RFCOMM=m
++CONFIG_BT_RFCOMM_TTY=y
++CONFIG_BT_BNEP=m
++CONFIG_BT_BNEP_MC_FILTER=y
++CONFIG_BT_BNEP_PROTO_FILTER=y
++CONFIG_BT_HIDP=m
++CONFIG_BT_HCIBTUSB=m
++CONFIG_BT_HCIBCM203X=m
++CONFIG_BT_HCIBPA10X=m
++CONFIG_BT_HCIBFUSB=m
++CONFIG_BT_HCIVHCI=m
++CONFIG_BT_MRVL=m
++CONFIG_BT_MRVL_SDIO=m
++CONFIG_BT_ATH3K=m
++CONFIG_CFG80211=m
++CONFIG_MAC80211=m
++CONFIG_MAC80211_RC_PID=y
++CONFIG_MAC80211_MESH=y
++CONFIG_WIMAX=m
++CONFIG_NET_9P=m
++CONFIG_NFC=m
++CONFIG_NFC_PN533=m
++CONFIG_DEVTMPFS=y
++CONFIG_BLK_DEV_LOOP=y
++CONFIG_BLK_DEV_CRYPTOLOOP=m
++CONFIG_BLK_DEV_NBD=m
++CONFIG_BLK_DEV_RAM=y
++CONFIG_CDROM_PKTCDVD=m
++CONFIG_MISC_DEVICES=y
++CONFIG_SCSI=y
++# CONFIG_SCSI_PROC_FS is not set
++CONFIG_BLK_DEV_SD=m
++CONFIG_BLK_DEV_SR=m
++CONFIG_SCSI_MULTI_LUN=y
++# CONFIG_SCSI_LOWLEVEL is not set
++CONFIG_NETDEVICES=y
++CONFIG_TUN=m
++CONFIG_PHYLIB=m
++CONFIG_MDIO_BITBANG=m
++CONFIG_NET_ETHERNET=y
++# CONFIG_NETDEV_1000 is not set
++# CONFIG_NETDEV_10000 is not set
++CONFIG_LIBERTAS_THINFIRM=m
++CONFIG_LIBERTAS_THINFIRM_USB=m
++CONFIG_AT76C50X_USB=m
++CONFIG_USB_ZD1201=m
++CONFIG_USB_NET_RNDIS_WLAN=m
++CONFIG_RTL8187=m
++CONFIG_MAC80211_HWSIM=m
++CONFIG_ATH_COMMON=m
++CONFIG_ATH9K=m
++CONFIG_ATH9K_HTC=m
++CONFIG_CARL9170=m
++CONFIG_B43=m
++CONFIG_B43LEGACY=m
++CONFIG_HOSTAP=m
++CONFIG_IWM=m
++CONFIG_LIBERTAS=m
++CONFIG_LIBERTAS_USB=m
++CONFIG_LIBERTAS_SDIO=m
++CONFIG_P54_COMMON=m
++CONFIG_P54_USB=m
++CONFIG_RT2X00=m
++CONFIG_RT2500USB=m
++CONFIG_RT73USB=m
++CONFIG_RT2800USB=m
++CONFIG_RT2800USB_RT53XX=y
++CONFIG_RTL8192CU=m
++CONFIG_WL1251=m
++CONFIG_WL12XX_MENU=m
++CONFIG_ZD1211RW=m
++CONFIG_MWIFIEX=m
++CONFIG_MWIFIEX_SDIO=m
++CONFIG_WIMAX_I2400M_USB=m
++CONFIG_USB_CATC=m
++CONFIG_USB_KAWETH=m
++CONFIG_USB_PEGASUS=m
++CONFIG_USB_RTL8150=m
++CONFIG_USB_USBNET=y
++CONFIG_USB_NET_AX8817X=m
++CONFIG_USB_NET_CDCETHER=m
++CONFIG_USB_NET_CDC_EEM=m
++CONFIG_USB_NET_DM9601=m
++CONFIG_USB_NET_SMSC75XX=m
++CONFIG_USB_NET_SMSC95XX=y
++CONFIG_USB_NET_GL620A=m
++CONFIG_USB_NET_NET1080=m
++CONFIG_USB_NET_PLUSB=m
++CONFIG_USB_NET_MCS7830=m
++CONFIG_USB_NET_CDC_SUBSET=m
++CONFIG_USB_ALI_M5632=y
++CONFIG_USB_AN2720=y
++CONFIG_USB_KC2190=y
++# CONFIG_USB_NET_ZAURUS is not set
++CONFIG_USB_NET_CX82310_ETH=m
++CONFIG_USB_NET_KALMIA=m
++CONFIG_USB_NET_INT51X1=m
++CONFIG_USB_IPHETH=m
++CONFIG_USB_SIERRA_NET=m
++CONFIG_USB_VL600=m
++CONFIG_PPP=m
++CONFIG_PPP_ASYNC=m
++CONFIG_PPP_SYNC_TTY=m
++CONFIG_PPP_DEFLATE=m
++CONFIG_PPP_BSDCOMP=m
++CONFIG_SLIP=m
++CONFIG_SLIP_COMPRESSED=y
++CONFIG_NETCONSOLE=m
++CONFIG_INPUT_POLLDEV=m
++# CONFIG_INPUT_MOUSEDEV_PSAUX is not set
++CONFIG_INPUT_JOYDEV=m
++CONFIG_INPUT_EVDEV=m
++# CONFIG_INPUT_KEYBOARD is not set
++# CONFIG_INPUT_MOUSE is not set
++CONFIG_INPUT_MISC=y
++CONFIG_INPUT_AD714X=m
++CONFIG_INPUT_ATI_REMOTE=m
++CONFIG_INPUT_ATI_REMOTE2=m
++CONFIG_INPUT_KEYSPAN_REMOTE=m
++CONFIG_INPUT_POWERMATE=m
++CONFIG_INPUT_YEALINK=m
++CONFIG_INPUT_CM109=m
++CONFIG_INPUT_UINPUT=m
++CONFIG_INPUT_GPIO_ROTARY_ENCODER=m
++CONFIG_INPUT_ADXL34X=m
++CONFIG_INPUT_CMA3000=m
++CONFIG_SERIO=m
++CONFIG_SERIO_RAW=m
++CONFIG_GAMEPORT=m
++CONFIG_GAMEPORT_NS558=m
++CONFIG_GAMEPORT_L4=m
++CONFIG_VT_HW_CONSOLE_BINDING=y
++# CONFIG_LEGACY_PTYS is not set
++# CONFIG_DEVKMEM is not set
++CONFIG_SERIAL_AMBA_PL011=y
++CONFIG_SERIAL_AMBA_PL011_CONSOLE=y
++# CONFIG_HW_RANDOM is not set
++CONFIG_RAW_DRIVER=y
++CONFIG_GPIO_SYSFS=y
++# CONFIG_HWMON is not set
++CONFIG_WATCHDOG=y
++CONFIG_BCM2708_WDT=m
++# CONFIG_MFD_SUPPORT is not set
++CONFIG_FB=y
++CONFIG_FB_BCM2708=y
++CONFIG_FRAMEBUFFER_CONSOLE=y
++CONFIG_LOGO=y
++# CONFIG_LOGO_LINUX_MONO is not set
++# CONFIG_LOGO_LINUX_VGA16 is not set
++CONFIG_SOUND=y
++CONFIG_SND=m
++CONFIG_SND_SEQUENCER=m
++CONFIG_SND_SEQ_DUMMY=m
++CONFIG_SND_MIXER_OSS=m
++CONFIG_SND_PCM_OSS=m
++CONFIG_SND_SEQUENCER_OSS=y
++CONFIG_SND_HRTIMER=m
++CONFIG_SND_DUMMY=m
++CONFIG_SND_ALOOP=m
++CONFIG_SND_VIRMIDI=m
++CONFIG_SND_MTPAV=m
++CONFIG_SND_SERIAL_U16550=m
++CONFIG_SND_MPU401=m
++CONFIG_SND_BCM2835=m
++CONFIG_SND_USB_AUDIO=m
++CONFIG_SND_USB_UA101=m
++CONFIG_SND_USB_CAIAQ=m
++CONFIG_SND_USB_6FIRE=m
++CONFIG_SOUND_PRIME=m
++CONFIG_HID_PID=y
++CONFIG_USB_HIDDEV=y
++CONFIG_HID_A4TECH=m
++CONFIG_HID_ACRUX=m
++CONFIG_HID_APPLE=m
++CONFIG_HID_BELKIN=m
++CONFIG_HID_CHERRY=m
++CONFIG_HID_CHICONY=m
++CONFIG_HID_CYPRESS=m
++CONFIG_HID_DRAGONRISE=m
++CONFIG_HID_EMS_FF=m
++CONFIG_HID_ELECOM=m
++CONFIG_HID_EZKEY=m
++CONFIG_HID_HOLTEK=m
++CONFIG_HID_KEYTOUCH=m
++CONFIG_HID_KYE=m
++CONFIG_HID_UCLOGIC=m
++CONFIG_HID_WALTOP=m
++CONFIG_HID_GYRATION=m
++CONFIG_HID_TWINHAN=m
++CONFIG_HID_KENSINGTON=m
++CONFIG_HID_LCPOWER=m
++CONFIG_HID_LOGITECH=m
++CONFIG_HID_MAGICMOUSE=m
++CONFIG_HID_MICROSOFT=m
++CONFIG_HID_MONTEREY=m
++CONFIG_HID_MULTITOUCH=m
++CONFIG_HID_NTRIG=m
++CONFIG_HID_ORTEK=m
++CONFIG_HID_PANTHERLORD=m
++CONFIG_HID_PETALYNX=m
++CONFIG_HID_PICOLCD=m
++CONFIG_HID_QUANTA=m
++CONFIG_HID_ROCCAT=m
++CONFIG_HID_SAMSUNG=m
++CONFIG_HID_SONY=m
++CONFIG_HID_SPEEDLINK=m
++CONFIG_HID_SUNPLUS=m
++CONFIG_HID_GREENASIA=m
++CONFIG_HID_SMARTJOYPLUS=m
++CONFIG_HID_TOPSEED=m
++CONFIG_HID_THRUSTMASTER=m
++CONFIG_HID_WACOM=m
++CONFIG_HID_WIIMOTE=m
++CONFIG_HID_ZEROPLUS=m
++CONFIG_HID_ZYDACRON=m
++CONFIG_USB=y
++CONFIG_USB_ANNOUNCE_NEW_DEVICES=y
++CONFIG_USB_MON=m
++CONFIG_USB_DWCOTG=y
++CONFIG_USB_STORAGE=y
++CONFIG_USB_STORAGE_REALTEK=m
++CONFIG_USB_STORAGE_DATAFAB=m
++CONFIG_USB_STORAGE_FREECOM=m
++CONFIG_USB_STORAGE_ISD200=m
++CONFIG_USB_STORAGE_USBAT=m
++CONFIG_USB_STORAGE_SDDR09=m
++CONFIG_USB_STORAGE_SDDR55=m
++CONFIG_USB_STORAGE_JUMPSHOT=m
++CONFIG_USB_STORAGE_ALAUDA=m
++CONFIG_USB_STORAGE_ONETOUCH=m
++CONFIG_USB_STORAGE_KARMA=m
++CONFIG_USB_STORAGE_CYPRESS_ATACB=m
++CONFIG_USB_STORAGE_ENE_UB6250=m
++CONFIG_USB_UAS=m
++CONFIG_USB_LIBUSUAL=y
++CONFIG_USB_MDC800=m
++CONFIG_USB_MICROTEK=m
++CONFIG_USB_SERIAL=m
++CONFIG_USB_SERIAL_GENERIC=y
++CONFIG_USB_SERIAL_AIRCABLE=m
++CONFIG_USB_SERIAL_ARK3116=m
++CONFIG_USB_SERIAL_BELKIN=m
++CONFIG_USB_SERIAL_CH341=m
++CONFIG_USB_SERIAL_WHITEHEAT=m
++CONFIG_USB_SERIAL_DIGI_ACCELEPORT=m
++CONFIG_USB_SERIAL_CP210X=m
++CONFIG_USB_SERIAL_CYPRESS_M8=m
++CONFIG_USB_SERIAL_EMPEG=m
++CONFIG_USB_SERIAL_FTDI_SIO=m
++CONFIG_USB_SERIAL_FUNSOFT=m
++CONFIG_USB_SERIAL_VISOR=m
++CONFIG_USB_SERIAL_IPAQ=m
++CONFIG_USB_SERIAL_IR=m
++CONFIG_USB_SERIAL_EDGEPORT=m
++CONFIG_USB_SERIAL_EDGEPORT_TI=m
++CONFIG_USB_SERIAL_GARMIN=m
++CONFIG_USB_SERIAL_IPW=m
++CONFIG_USB_SERIAL_IUU=m
++CONFIG_USB_SERIAL_KEYSPAN_PDA=m
++CONFIG_USB_SERIAL_KEYSPAN=m
++CONFIG_USB_SERIAL_KLSI=m
++CONFIG_USB_SERIAL_KOBIL_SCT=m
++CONFIG_USB_SERIAL_MCT_U232=m
++CONFIG_USB_SERIAL_MOS7720=m
++CONFIG_USB_SERIAL_MOS7840=m
++CONFIG_USB_SERIAL_MOTOROLA=m
++CONFIG_USB_SERIAL_NAVMAN=m
++CONFIG_USB_SERIAL_PL2303=m
++CONFIG_USB_SERIAL_OTI6858=m
++CONFIG_USB_SERIAL_QCAUX=m
++CONFIG_USB_SERIAL_QUALCOMM=m
++CONFIG_USB_SERIAL_SPCP8X5=m
++CONFIG_USB_SERIAL_HP4X=m
++CONFIG_USB_SERIAL_SAFE=m
++CONFIG_USB_SERIAL_SIEMENS_MPI=m
++CONFIG_USB_SERIAL_SIERRAWIRELESS=m
++CONFIG_USB_SERIAL_SYMBOL=m
++CONFIG_USB_SERIAL_TI=m
++CONFIG_USB_SERIAL_CYBERJACK=m
++CONFIG_USB_SERIAL_XIRCOM=m
++CONFIG_USB_SERIAL_OPTION=m
++CONFIG_USB_SERIAL_OMNINET=m
++CONFIG_USB_SERIAL_OPTICON=m
++CONFIG_USB_SERIAL_VIVOPAY_SERIAL=m
++CONFIG_USB_SERIAL_ZIO=m
++CONFIG_USB_SERIAL_SSU100=m
++CONFIG_USB_SERIAL_DEBUG=m
++CONFIG_USB_EMI62=m
++CONFIG_USB_EMI26=m
++CONFIG_USB_ADUTUX=m
++CONFIG_USB_SEVSEG=m
++CONFIG_USB_RIO500=m
++CONFIG_USB_LEGOTOWER=m
++CONFIG_USB_LCD=m
++CONFIG_USB_LED=m
++CONFIG_USB_CYPRESS_CY7C63=m
++CONFIG_USB_CYTHERM=m
++CONFIG_USB_IDMOUSE=m
++CONFIG_USB_FTDI_ELAN=m
++CONFIG_USB_APPLEDISPLAY=m
++CONFIG_USB_LD=m
++CONFIG_USB_TRANCEVIBRATOR=m
++CONFIG_USB_IOWARRIOR=m
++CONFIG_USB_TEST=m
++CONFIG_USB_ISIGHTFW=m
++CONFIG_USB_YUREX=m
++CONFIG_MMC=y
++CONFIG_MMC_SDHCI=y
++CONFIG_MMC_SDHCI_PLTFM=y
++CONFIG_MMC_SDHCI_BCM2708=y
++CONFIG_MMC_SDHCI_BCM2708_DMA=y
++CONFIG_LEDS_GPIO=y
++CONFIG_LEDS_TRIGGER_TIMER=m
++CONFIG_LEDS_TRIGGER_HEARTBEAT=m
++CONFIG_LEDS_TRIGGER_DEFAULT_ON=m
++CONFIG_UIO=m
++CONFIG_UIO_PDRV=m
++CONFIG_UIO_PDRV_GENIRQ=m
++# CONFIG_IOMMU_SUPPORT is not set
++CONFIG_EXT4_FS=y
++CONFIG_EXT4_FS_POSIX_ACL=y
++CONFIG_EXT4_FS_SECURITY=y
++CONFIG_REISERFS_FS=m
++CONFIG_REISERFS_FS_XATTR=y
++CONFIG_REISERFS_FS_POSIX_ACL=y
++CONFIG_REISERFS_FS_SECURITY=y
++CONFIG_JFS_FS=m
++CONFIG_JFS_POSIX_ACL=y
++CONFIG_JFS_SECURITY=y
++CONFIG_XFS_FS=m
++CONFIG_XFS_QUOTA=y
++CONFIG_XFS_POSIX_ACL=y
++CONFIG_XFS_RT=y
++CONFIG_GFS2_FS=m
++CONFIG_OCFS2_FS=m
++CONFIG_BTRFS_FS=m
++CONFIG_BTRFS_FS_POSIX_ACL=y
++CONFIG_NILFS2_FS=m
++CONFIG_AUTOFS4_FS=y
++CONFIG_FUSE_FS=m
++CONFIG_CUSE=m
++CONFIG_FSCACHE=y
++CONFIG_CACHEFILES=y
++CONFIG_ISO9660_FS=m
++CONFIG_JOLIET=y
++CONFIG_ZISOFS=y
++CONFIG_UDF_FS=m
++CONFIG_MSDOS_FS=y
++CONFIG_VFAT_FS=y
++CONFIG_FAT_DEFAULT_IOCHARSET="ascii"
++CONFIG_NTFS_FS=m
++CONFIG_TMPFS=y
++CONFIG_TMPFS_POSIX_ACL=y
++CONFIG_CONFIGFS_FS=y
++CONFIG_SQUASHFS=m
++CONFIG_SQUASHFS_XATTR=y
++CONFIG_SQUASHFS_LZO=y
++CONFIG_SQUASHFS_XZ=y
++CONFIG_NFS_FS=y
++CONFIG_NFS_V3=y
++CONFIG_NFS_V3_ACL=y
++CONFIG_NFS_V4=y
++CONFIG_ROOT_NFS=y
++CONFIG_NFS_FSCACHE=y
++CONFIG_CIFS=m
++CONFIG_CIFS_WEAK_PW_HASH=y
++CONFIG_CIFS_XATTR=y
++CONFIG_CIFS_POSIX=y
++CONFIG_9P_FS=m
++CONFIG_PARTITION_ADVANCED=y
++CONFIG_MAC_PARTITION=y
++CONFIG_EFI_PARTITION=y
++CONFIG_NLS_DEFAULT="utf8"
++CONFIG_NLS_CODEPAGE_437=y
++CONFIG_NLS_CODEPAGE_737=m
++CONFIG_NLS_CODEPAGE_775=m
++CONFIG_NLS_CODEPAGE_850=m
++CONFIG_NLS_CODEPAGE_852=m
++CONFIG_NLS_CODEPAGE_855=m
++CONFIG_NLS_CODEPAGE_857=m
++CONFIG_NLS_CODEPAGE_860=m
++CONFIG_NLS_CODEPAGE_861=m
++CONFIG_NLS_CODEPAGE_862=m
++CONFIG_NLS_CODEPAGE_863=m
++CONFIG_NLS_CODEPAGE_864=m
++CONFIG_NLS_CODEPAGE_865=m
++CONFIG_NLS_CODEPAGE_866=m
++CONFIG_NLS_CODEPAGE_869=m
++CONFIG_NLS_CODEPAGE_936=m
++CONFIG_NLS_CODEPAGE_950=m
++CONFIG_NLS_CODEPAGE_932=m
++CONFIG_NLS_CODEPAGE_949=m
++CONFIG_NLS_CODEPAGE_874=m
++CONFIG_NLS_ISO8859_8=m
++CONFIG_NLS_CODEPAGE_1250=m
++CONFIG_NLS_CODEPAGE_1251=m
++CONFIG_NLS_ASCII=y
++CONFIG_NLS_ISO8859_1=m
++CONFIG_NLS_ISO8859_2=m
++CONFIG_NLS_ISO8859_3=m
++CONFIG_NLS_ISO8859_4=m
++CONFIG_NLS_ISO8859_5=m
++CONFIG_NLS_ISO8859_6=m
++CONFIG_NLS_ISO8859_7=m
++CONFIG_NLS_ISO8859_9=m
++CONFIG_NLS_ISO8859_13=m
++CONFIG_NLS_ISO8859_14=m
++CONFIG_NLS_ISO8859_15=m
++CONFIG_NLS_KOI8_R=m
++CONFIG_NLS_KOI8_U=m
++CONFIG_NLS_UTF8=m
++# CONFIG_SCHED_DEBUG is not set
++# CONFIG_DEBUG_BUGVERBOSE is not set
++# CONFIG_FTRACE is not set
++# CONFIG_ARM_UNWIND is not set
++CONFIG_CRYPTO_AUTHENC=m
++CONFIG_CRYPTO_SEQIV=m
++CONFIG_CRYPTO_CBC=y
++CONFIG_CRYPTO_HMAC=y
++CONFIG_CRYPTO_XCBC=m
++CONFIG_CRYPTO_MD5=y
++CONFIG_CRYPTO_SHA1=y
++CONFIG_CRYPTO_SHA256=m
++CONFIG_CRYPTO_SHA512=m
++CONFIG_CRYPTO_TGR192=m
++CONFIG_CRYPTO_WP512=m
++CONFIG_CRYPTO_CAST5=m
++CONFIG_CRYPTO_DES=y
++CONFIG_CRYPTO_DEFLATE=m
++# CONFIG_CRYPTO_ANSI_CPRNG is not set
++# CONFIG_CRYPTO_HW is not set
++CONFIG_CRC_ITU_T=y
++CONFIG_LIBCRC32C=y
++CONFIG_I2C=y
++CONFIG_I2C_BOARDINFO=y
++CONFIG_I2C_COMPAT=y
++CONFIG_I2C_CHARDEV=m
++CONFIG_I2C_HELPER_AUTO=y
++CONFIG_I2C_BCM2708=m
++CONFIG_SPI=y
++CONFIG_SPI_MASTER=y
++CONFIG_SPI_BCM2708=m
++
+diff -urN linux-3.10/arch/arm/configs/bcmrpi_defconfig linux-rpi-3.10.y/arch/arm/configs/bcmrpi_defconfig
+--- linux-3.10/arch/arm/configs/bcmrpi_defconfig 1970-01-01 01:00:00.000000000 +0100
++++ linux-rpi-3.10.y/arch/arm/configs/bcmrpi_defconfig 2013-07-06 15:25:50.000000000 +0100
+@@ -0,0 +1,743 @@
++# CONFIG_ARM_PATCH_PHYS_VIRT is not set
++# CONFIG_LOCALVERSION_AUTO is not set
++CONFIG_SYSVIPC=y
++CONFIG_POSIX_MQUEUE=y
++CONFIG_FHANDLE=y
++CONFIG_AUDIT=y
++CONFIG_NO_HZ=y
++CONFIG_HIGH_RES_TIMERS=y
++CONFIG_BSD_PROCESS_ACCT=y
++CONFIG_BSD_PROCESS_ACCT_V3=y
++CONFIG_IKCONFIG=y
++CONFIG_IKCONFIG_PROC=y
++CONFIG_CGROUP_FREEZER=y
++CONFIG_CGROUP_DEVICE=y
++CONFIG_CGROUP_CPUACCT=y
++CONFIG_RESOURCE_COUNTERS=y
++CONFIG_BLK_CGROUP=y
++CONFIG_NAMESPACES=y
++CONFIG_SCHED_AUTOGROUP=y
++CONFIG_EMBEDDED=y
++# CONFIG_COMPAT_BRK is not set
++CONFIG_SLAB=y
++CONFIG_PROFILING=y
++CONFIG_OPROFILE=m
++CONFIG_KPROBES=y
++CONFIG_MODULES=y
++CONFIG_MODULE_UNLOAD=y
++CONFIG_MODVERSIONS=y
++CONFIG_MODULE_SRCVERSION_ALL=y
++# CONFIG_BLK_DEV_BSG is not set
++CONFIG_BLK_DEV_THROTTLING=y
++CONFIG_PARTITION_ADVANCED=y
++CONFIG_MAC_PARTITION=y
++CONFIG_CFQ_GROUP_IOSCHED=y
++CONFIG_ARCH_BCM2708=y
++CONFIG_AEABI=y
++CONFIG_SECCOMP=y
++CONFIG_CC_STACKPROTECTOR=y
++CONFIG_ZBOOT_ROM_TEXT=0x0
++CONFIG_ZBOOT_ROM_BSS=0x0
++CONFIG_CMDLINE="dwc_otg.lpm_enable=0 console=ttyAMA0,115200 kgdboc=ttyAMA0,115200 root=/dev/mmcblk0p2 rootfstype=ext3 rootwait"
++CONFIG_KEXEC=y
++CONFIG_CPU_FREQ=y
++CONFIG_CPU_FREQ_STAT=m
++CONFIG_CPU_FREQ_DEFAULT_GOV_POWERSAVE=y
++CONFIG_CPU_FREQ_GOV_PERFORMANCE=y
++CONFIG_CPU_FREQ_GOV_USERSPACE=y
++CONFIG_CPU_FREQ_GOV_ONDEMAND=y
++CONFIG_CPU_FREQ_GOV_CONSERVATIVE=y
++CONFIG_CPU_IDLE=y
++CONFIG_VFP=y
++CONFIG_BINFMT_MISC=m
++CONFIG_NET=y
++CONFIG_PACKET=y
++CONFIG_UNIX=y
++CONFIG_XFRM_USER=y
++CONFIG_NET_KEY=m
++CONFIG_INET=y
++CONFIG_IP_MULTICAST=y
++CONFIG_IP_PNP=y
++CONFIG_IP_PNP_DHCP=y
++CONFIG_IP_PNP_RARP=y
++CONFIG_SYN_COOKIES=y
++CONFIG_INET_AH=m
++CONFIG_INET_ESP=m
++CONFIG_INET_IPCOMP=m
++CONFIG_INET_XFRM_MODE_TRANSPORT=m
++CONFIG_INET_XFRM_MODE_TUNNEL=m
++CONFIG_INET_XFRM_MODE_BEET=m
++CONFIG_INET_LRO=m
++CONFIG_INET_DIAG=m
++CONFIG_IPV6_PRIVACY=y
++CONFIG_INET6_AH=m
++CONFIG_INET6_ESP=m
++CONFIG_INET6_IPCOMP=m
++CONFIG_IPV6_MULTIPLE_TABLES=y
++CONFIG_NETFILTER=y
++CONFIG_NF_CONNTRACK=m
++CONFIG_NF_CONNTRACK_ZONES=y
++CONFIG_NF_CONNTRACK_EVENTS=y
++CONFIG_NF_CONNTRACK_TIMESTAMP=y
++CONFIG_NF_CT_PROTO_DCCP=m
++CONFIG_NF_CT_PROTO_SCTP=m
++CONFIG_NF_CT_PROTO_UDPLITE=m
++CONFIG_NF_CONNTRACK_AMANDA=m
++CONFIG_NF_CONNTRACK_FTP=m
++CONFIG_NF_CONNTRACK_H323=m
++CONFIG_NF_CONNTRACK_IRC=m
++CONFIG_NF_CONNTRACK_NETBIOS_NS=m
++CONFIG_NF_CONNTRACK_SNMP=m
++CONFIG_NF_CONNTRACK_PPTP=m
++CONFIG_NF_CONNTRACK_SANE=m
++CONFIG_NF_CONNTRACK_SIP=m
++CONFIG_NF_CONNTRACK_TFTP=m
++CONFIG_NF_CT_NETLINK=m
++CONFIG_NETFILTER_TPROXY=m
++CONFIG_NETFILTER_XT_SET=m
++CONFIG_NETFILTER_XT_TARGET_AUDIT=m
++CONFIG_NETFILTER_XT_TARGET_CHECKSUM=m
++CONFIG_NETFILTER_XT_TARGET_CLASSIFY=m
++CONFIG_NETFILTER_XT_TARGET_CONNMARK=m
++CONFIG_NETFILTER_XT_TARGET_DSCP=m
++CONFIG_NETFILTER_XT_TARGET_IDLETIMER=m
++CONFIG_NETFILTER_XT_TARGET_MARK=m
++CONFIG_NETFILTER_XT_TARGET_NFLOG=m
++CONFIG_NETFILTER_XT_TARGET_NFQUEUE=m
++CONFIG_NETFILTER_XT_TARGET_NOTRACK=m
++CONFIG_NETFILTER_XT_TARGET_TEE=m
++CONFIG_NETFILTER_XT_TARGET_TPROXY=m
++CONFIG_NETFILTER_XT_TARGET_TRACE=m
++CONFIG_NETFILTER_XT_TARGET_TCPMSS=m
++CONFIG_NETFILTER_XT_TARGET_TCPOPTSTRIP=m
++CONFIG_NETFILTER_XT_MATCH_ADDRTYPE=m
++CONFIG_NETFILTER_XT_MATCH_CLUSTER=m
++CONFIG_NETFILTER_XT_MATCH_COMMENT=m
++CONFIG_NETFILTER_XT_MATCH_CONNBYTES=m
++CONFIG_NETFILTER_XT_MATCH_CONNLIMIT=m
++CONFIG_NETFILTER_XT_MATCH_CONNMARK=m
++CONFIG_NETFILTER_XT_MATCH_CONNTRACK=m
++CONFIG_NETFILTER_XT_MATCH_CPU=m
++CONFIG_NETFILTER_XT_MATCH_DCCP=m
++CONFIG_NETFILTER_XT_MATCH_DEVGROUP=m
++CONFIG_NETFILTER_XT_MATCH_DSCP=m
++CONFIG_NETFILTER_XT_MATCH_ESP=m
++CONFIG_NETFILTER_XT_MATCH_HASHLIMIT=m
++CONFIG_NETFILTER_XT_MATCH_HELPER=m
++CONFIG_NETFILTER_XT_MATCH_IPRANGE=m
++CONFIG_NETFILTER_XT_MATCH_LENGTH=m
++CONFIG_NETFILTER_XT_MATCH_LIMIT=m
++CONFIG_NETFILTER_XT_MATCH_MAC=m
++CONFIG_NETFILTER_XT_MATCH_MARK=m
++CONFIG_NETFILTER_XT_MATCH_MULTIPORT=m
++CONFIG_NETFILTER_XT_MATCH_OSF=m
++CONFIG_NETFILTER_XT_MATCH_OWNER=m
++CONFIG_NETFILTER_XT_MATCH_POLICY=m
++CONFIG_NETFILTER_XT_MATCH_PHYSDEV=m
++CONFIG_NETFILTER_XT_MATCH_PKTTYPE=m
++CONFIG_NETFILTER_XT_MATCH_QUOTA=m
++CONFIG_NETFILTER_XT_MATCH_RATEEST=m
++CONFIG_NETFILTER_XT_MATCH_REALM=m
++CONFIG_NETFILTER_XT_MATCH_RECENT=m
++CONFIG_NETFILTER_XT_MATCH_SCTP=m
++CONFIG_NETFILTER_XT_MATCH_SOCKET=m
++CONFIG_NETFILTER_XT_MATCH_STATE=m
++CONFIG_NETFILTER_XT_MATCH_STATISTIC=m
++CONFIG_NETFILTER_XT_MATCH_STRING=m
++CONFIG_NETFILTER_XT_MATCH_TCPMSS=m
++CONFIG_NETFILTER_XT_MATCH_TIME=m
++CONFIG_NETFILTER_XT_MATCH_U32=m
++CONFIG_IP_SET=m
++CONFIG_IP_SET_BITMAP_IP=m
++CONFIG_IP_SET_BITMAP_IPMAC=m
++CONFIG_IP_SET_BITMAP_PORT=m
++CONFIG_IP_SET_HASH_IP=m
++CONFIG_IP_SET_HASH_IPPORT=m
++CONFIG_IP_SET_HASH_IPPORTIP=m
++CONFIG_IP_SET_HASH_IPPORTNET=m
++CONFIG_IP_SET_HASH_NET=m
++CONFIG_IP_SET_HASH_NETPORT=m
++CONFIG_IP_SET_HASH_NETIFACE=m
++CONFIG_IP_SET_LIST_SET=m
++CONFIG_NF_CONNTRACK_IPV4=m
++CONFIG_IP_NF_IPTABLES=m
++CONFIG_IP_NF_MATCH_AH=m
++CONFIG_IP_NF_MATCH_ECN=m
++CONFIG_IP_NF_MATCH_TTL=m
++CONFIG_IP_NF_FILTER=m
++CONFIG_IP_NF_TARGET_REJECT=m
++CONFIG_IP_NF_TARGET_ULOG=m
++CONFIG_IP_NF_MANGLE=m
++CONFIG_IP_NF_TARGET_ECN=m
++CONFIG_IP_NF_TARGET_TTL=m
++CONFIG_IP_NF_RAW=m
++CONFIG_IP_NF_ARPTABLES=m
++CONFIG_IP_NF_ARPFILTER=m
++CONFIG_IP_NF_ARP_MANGLE=m
++CONFIG_NF_CONNTRACK_IPV6=m
++CONFIG_IP6_NF_IPTABLES=m
++CONFIG_IP6_NF_MATCH_AH=m
++CONFIG_IP6_NF_MATCH_EUI64=m
++CONFIG_IP6_NF_MATCH_FRAG=m
++CONFIG_IP6_NF_MATCH_OPTS=m
++CONFIG_IP6_NF_MATCH_HL=m
++CONFIG_IP6_NF_MATCH_IPV6HEADER=m
++CONFIG_IP6_NF_MATCH_MH=m
++CONFIG_IP6_NF_MATCH_RT=m
++CONFIG_IP6_NF_TARGET_HL=m
++CONFIG_IP6_NF_FILTER=m
++CONFIG_IP6_NF_TARGET_REJECT=m
++CONFIG_IP6_NF_MANGLE=m
++CONFIG_IP6_NF_RAW=m
++CONFIG_BRIDGE_NF_EBTABLES=m
++CONFIG_BRIDGE_EBT_BROUTE=m
++CONFIG_BRIDGE_EBT_T_FILTER=m
++CONFIG_BRIDGE_EBT_T_NAT=m
++CONFIG_BRIDGE_EBT_802_3=m
++CONFIG_BRIDGE_EBT_AMONG=m
++CONFIG_BRIDGE_EBT_ARP=m
++CONFIG_BRIDGE_EBT_IP=m
++CONFIG_BRIDGE_EBT_IP6=m
++CONFIG_BRIDGE_EBT_LIMIT=m
++CONFIG_BRIDGE_EBT_MARK=m
++CONFIG_BRIDGE_EBT_PKTTYPE=m
++CONFIG_BRIDGE_EBT_STP=m
++CONFIG_BRIDGE_EBT_VLAN=m
++CONFIG_BRIDGE_EBT_ARPREPLY=m
++CONFIG_BRIDGE_EBT_DNAT=m
++CONFIG_BRIDGE_EBT_MARK_T=m
++CONFIG_BRIDGE_EBT_REDIRECT=m
++CONFIG_BRIDGE_EBT_SNAT=m
++CONFIG_BRIDGE_EBT_LOG=m
++CONFIG_BRIDGE_EBT_ULOG=m
++CONFIG_BRIDGE_EBT_NFLOG=m
++CONFIG_L2TP=m
++CONFIG_BRIDGE=m
++CONFIG_VLAN_8021Q=m
++CONFIG_VLAN_8021Q_GVRP=y
++CONFIG_NET_SCHED=y
++CONFIG_NET_SCH_CBQ=m
++CONFIG_NET_SCH_HTB=m
++CONFIG_NET_SCH_HFSC=m
++CONFIG_NET_SCH_PRIO=m
++CONFIG_NET_SCH_MULTIQ=m
++CONFIG_NET_SCH_RED=m
++CONFIG_NET_SCH_SFB=m
++CONFIG_NET_SCH_SFQ=m
++CONFIG_NET_SCH_TEQL=m
++CONFIG_NET_SCH_TBF=m
++CONFIG_NET_SCH_GRED=m
++CONFIG_NET_SCH_DSMARK=m
++CONFIG_NET_SCH_NETEM=m
++CONFIG_NET_SCH_DRR=m
++CONFIG_NET_SCH_MQPRIO=m
++CONFIG_NET_SCH_CHOKE=m
++CONFIG_NET_SCH_QFQ=m
++CONFIG_NET_CLS_BASIC=m
++CONFIG_NET_CLS_TCINDEX=m
++CONFIG_NET_CLS_ROUTE4=m
++CONFIG_NET_CLS_FW=m
++CONFIG_NET_CLS_U32=m
++CONFIG_CLS_U32_MARK=y
++CONFIG_NET_CLS_RSVP=m
++CONFIG_NET_CLS_RSVP6=m
++CONFIG_NET_CLS_FLOW=m
++CONFIG_NET_CLS_CGROUP=m
++CONFIG_NET_EMATCH=y
++CONFIG_NET_EMATCH_CMP=m
++CONFIG_NET_EMATCH_NBYTE=m
++CONFIG_NET_EMATCH_U32=m
++CONFIG_NET_EMATCH_META=m
++CONFIG_NET_EMATCH_TEXT=m
++CONFIG_NET_CLS_ACT=y
++CONFIG_NET_ACT_POLICE=m
++CONFIG_NET_ACT_GACT=m
++CONFIG_GACT_PROB=y
++CONFIG_NET_ACT_MIRRED=m
++CONFIG_NET_ACT_IPT=m
++CONFIG_NET_ACT_NAT=m
++CONFIG_NET_ACT_PEDIT=m
++CONFIG_NET_ACT_SIMP=m
++CONFIG_NET_ACT_SKBEDIT=m
++CONFIG_NET_ACT_CSUM=m
++CONFIG_NET_PKTGEN=m
++CONFIG_IRDA=m
++CONFIG_IRLAN=m
++CONFIG_IRCOMM=m
++CONFIG_IRDA_ULTRA=y
++CONFIG_IRDA_CACHE_LAST_LSAP=y
++CONFIG_IRDA_FAST_RR=y
++CONFIG_IRTTY_SIR=m
++CONFIG_KINGSUN_DONGLE=m
++CONFIG_KSDAZZLE_DONGLE=m
++CONFIG_KS959_DONGLE=m
++CONFIG_USB_IRDA=m
++CONFIG_SIGMATEL_FIR=m
++CONFIG_MCS_FIR=m
++CONFIG_BT=m
++CONFIG_BT_RFCOMM=m
++CONFIG_BT_RFCOMM_TTY=y
++CONFIG_BT_BNEP=m
++CONFIG_BT_BNEP_MC_FILTER=y
++CONFIG_BT_BNEP_PROTO_FILTER=y
++CONFIG_BT_HIDP=m
++CONFIG_BT_HCIBTUSB=m
++CONFIG_BT_HCIBCM203X=m
++CONFIG_BT_HCIBPA10X=m
++CONFIG_BT_HCIBFUSB=m
++CONFIG_BT_HCIVHCI=m
++CONFIG_BT_MRVL=m
++CONFIG_BT_MRVL_SDIO=m
++CONFIG_BT_ATH3K=m
++CONFIG_CFG80211=m
++CONFIG_MAC80211=m
++CONFIG_MAC80211_RC_PID=y
++CONFIG_MAC80211_MESH=y
++CONFIG_WIMAX=m
++CONFIG_NET_9P=m
++CONFIG_NFC=m
++CONFIG_NFC_PN533=m
++CONFIG_UEVENT_HELPER_PATH="/sbin/hotplug"
++CONFIG_DEVTMPFS=y
++CONFIG_DEVTMPFS_MOUNT=y
++CONFIG_BLK_DEV_LOOP=y
++CONFIG_BLK_DEV_CRYPTOLOOP=m
++CONFIG_BLK_DEV_DRBD=m
++CONFIG_BLK_DEV_NBD=m
++CONFIG_BLK_DEV_RAM=y
++CONFIG_CDROM_PKTCDVD=m
++CONFIG_SCSI=y
++# CONFIG_SCSI_PROC_FS is not set
++CONFIG_BLK_DEV_SD=m
++CONFIG_BLK_DEV_SR=m
++CONFIG_SCSI_MULTI_LUN=y
++# CONFIG_SCSI_LOWLEVEL is not set
++CONFIG_MD=y
++CONFIG_NETDEVICES=y
++CONFIG_NETCONSOLE=m
++CONFIG_TUN=m
++CONFIG_MDIO_BITBANG=m
++CONFIG_PPP=m
++CONFIG_PPP_BSDCOMP=m
++CONFIG_PPP_DEFLATE=m
++CONFIG_PPP_ASYNC=m
++CONFIG_PPP_SYNC_TTY=m
++CONFIG_SLIP=m
++CONFIG_SLIP_COMPRESSED=y
++CONFIG_USB_CATC=m
++CONFIG_USB_KAWETH=m
++CONFIG_USB_PEGASUS=m
++CONFIG_USB_RTL8150=m
++CONFIG_USB_USBNET=y
++CONFIG_USB_NET_AX8817X=m
++CONFIG_USB_NET_CDCETHER=m
++CONFIG_USB_NET_CDC_EEM=m
++CONFIG_USB_NET_DM9601=m
++CONFIG_USB_NET_SMSC75XX=m
++CONFIG_USB_NET_SMSC95XX=y
++CONFIG_USB_NET_GL620A=m
++CONFIG_USB_NET_NET1080=m
++CONFIG_USB_NET_PLUSB=m
++CONFIG_USB_NET_MCS7830=m
++CONFIG_USB_NET_CDC_SUBSET=m
++CONFIG_USB_ALI_M5632=y
++CONFIG_USB_AN2720=y
++CONFIG_USB_KC2190=y
++# CONFIG_USB_NET_ZAURUS is not set
++CONFIG_USB_NET_CX82310_ETH=m
++CONFIG_USB_NET_KALMIA=m
++CONFIG_USB_NET_INT51X1=m
++CONFIG_USB_IPHETH=m
++CONFIG_USB_SIERRA_NET=m
++CONFIG_USB_VL600=m
++CONFIG_LIBERTAS_THINFIRM=m
++CONFIG_LIBERTAS_THINFIRM_USB=m
++CONFIG_AT76C50X_USB=m
++CONFIG_USB_ZD1201=m
++CONFIG_USB_NET_RNDIS_WLAN=m
++CONFIG_RTL8187=m
++CONFIG_MAC80211_HWSIM=m
++CONFIG_B43=m
++CONFIG_B43LEGACY=m
++CONFIG_HOSTAP=m
++CONFIG_LIBERTAS=m
++CONFIG_LIBERTAS_USB=m
++CONFIG_LIBERTAS_SDIO=m
++CONFIG_P54_COMMON=m
++CONFIG_P54_USB=m
++CONFIG_RT2X00=m
++CONFIG_RT2500USB=m
++CONFIG_RT73USB=m
++CONFIG_RT2800USB=m
++CONFIG_RT2800USB_RT53XX=y
++CONFIG_RT2800USB_UNKNOWN=y
++CONFIG_ZD1211RW=m
++CONFIG_MWIFIEX=m
++CONFIG_MWIFIEX_SDIO=m
++CONFIG_WIMAX_I2400M_USB=m
++CONFIG_INPUT_POLLDEV=m
++# CONFIG_INPUT_MOUSEDEV_PSAUX is not set
++CONFIG_INPUT_JOYDEV=m
++CONFIG_INPUT_EVDEV=m
++# CONFIG_INPUT_KEYBOARD is not set
++# CONFIG_INPUT_MOUSE is not set
++CONFIG_INPUT_MISC=y
++CONFIG_INPUT_AD714X=m
++CONFIG_INPUT_ATI_REMOTE2=m
++CONFIG_INPUT_KEYSPAN_REMOTE=m
++CONFIG_INPUT_POWERMATE=m
++CONFIG_INPUT_YEALINK=m
++CONFIG_INPUT_CM109=m
++CONFIG_INPUT_UINPUT=m
++CONFIG_INPUT_GPIO_ROTARY_ENCODER=m
++CONFIG_INPUT_ADXL34X=m
++CONFIG_INPUT_CMA3000=m
++CONFIG_SERIO=m
++CONFIG_SERIO_RAW=m
++CONFIG_GAMEPORT=m
++CONFIG_GAMEPORT_NS558=m
++CONFIG_GAMEPORT_L4=m
++CONFIG_VT_HW_CONSOLE_BINDING=y
++# CONFIG_LEGACY_PTYS is not set
++# CONFIG_DEVKMEM is not set
++CONFIG_SERIAL_AMBA_PL011=y
++CONFIG_SERIAL_AMBA_PL011_CONSOLE=y
++# CONFIG_HW_RANDOM is not set
++CONFIG_RAW_DRIVER=y
++CONFIG_I2C=y
++CONFIG_I2C_CHARDEV=m
++CONFIG_I2C_BCM2708=m
++CONFIG_SPI=y
++CONFIG_SPI_BCM2708=m
++CONFIG_SPI_SPIDEV=m
++CONFIG_GPIO_SYSFS=y
++# CONFIG_HWMON is not set
++CONFIG_THERMAL=y
++CONFIG_THERMAL_BCM2835=y
++CONFIG_WATCHDOG=y
++CONFIG_BCM2708_WDT=m
++CONFIG_MEDIA_SUPPORT=m
++CONFIG_FB=y
++CONFIG_FB_BCM2708=y
++CONFIG_FRAMEBUFFER_CONSOLE=y
++CONFIG_LOGO=y
++# CONFIG_LOGO_LINUX_MONO is not set
++# CONFIG_LOGO_LINUX_VGA16 is not set
++CONFIG_SOUND=y
++CONFIG_SND=m
++CONFIG_SND_SEQUENCER=m
++CONFIG_SND_SEQ_DUMMY=m
++CONFIG_SND_MIXER_OSS=m
++CONFIG_SND_PCM_OSS=m
++CONFIG_SND_SEQUENCER_OSS=y
++CONFIG_SND_HRTIMER=m
++CONFIG_SND_DUMMY=m
++CONFIG_SND_ALOOP=m
++CONFIG_SND_VIRMIDI=m
++CONFIG_SND_MTPAV=m
++CONFIG_SND_SERIAL_U16550=m
++CONFIG_SND_MPU401=m
++CONFIG_SND_BCM2835=m
++CONFIG_SND_USB_AUDIO=m
++CONFIG_SND_USB_UA101=m
++CONFIG_SND_USB_CAIAQ=m
++CONFIG_SND_USB_6FIRE=m
++CONFIG_SOUND_PRIME=m
++CONFIG_HID_A4TECH=m
++CONFIG_HID_ACRUX=m
++CONFIG_HID_APPLE=m
++CONFIG_HID_BELKIN=m
++CONFIG_HID_CHERRY=m
++CONFIG_HID_CHICONY=m
++CONFIG_HID_CYPRESS=m
++CONFIG_HID_DRAGONRISE=m
++CONFIG_HID_EMS_FF=m
++CONFIG_HID_ELECOM=m
++CONFIG_HID_EZKEY=m
++CONFIG_HID_HOLTEK=m
++CONFIG_HID_KEYTOUCH=m
++CONFIG_HID_KYE=m
++CONFIG_HID_UCLOGIC=m
++CONFIG_HID_WALTOP=m
++CONFIG_HID_GYRATION=m
++CONFIG_HID_TWINHAN=m
++CONFIG_HID_KENSINGTON=m
++CONFIG_HID_LCPOWER=m
++CONFIG_HID_LOGITECH=m
++CONFIG_HID_MAGICMOUSE=m
++CONFIG_HID_MICROSOFT=m
++CONFIG_HID_MONTEREY=m
++CONFIG_HID_MULTITOUCH=m
++CONFIG_HID_NTRIG=m
++CONFIG_HID_ORTEK=m
++CONFIG_HID_PANTHERLORD=m
++CONFIG_HID_PETALYNX=m
++CONFIG_HID_PICOLCD=m
++CONFIG_HID_ROCCAT=m
++CONFIG_HID_SAMSUNG=m
++CONFIG_HID_SONY=m
++CONFIG_HID_SPEEDLINK=m
++CONFIG_HID_SUNPLUS=m
++CONFIG_HID_GREENASIA=m
++CONFIG_HID_SMARTJOYPLUS=m
++CONFIG_HID_TOPSEED=m
++CONFIG_HID_THRUSTMASTER=m
++CONFIG_HID_ZEROPLUS=m
++CONFIG_HID_ZYDACRON=m
++CONFIG_HID_PID=y
++CONFIG_USB_HIDDEV=y
++CONFIG_USB=y
++CONFIG_USB_ANNOUNCE_NEW_DEVICES=y
++CONFIG_USB_MON=m
++CONFIG_USB_DWCOTG=y
++CONFIG_USB_STORAGE=y
++CONFIG_USB_STORAGE_REALTEK=m
++CONFIG_USB_STORAGE_DATAFAB=m
++CONFIG_USB_STORAGE_FREECOM=m
++CONFIG_USB_STORAGE_ISD200=m
++CONFIG_USB_STORAGE_USBAT=m
++CONFIG_USB_STORAGE_SDDR09=m
++CONFIG_USB_STORAGE_SDDR55=m
++CONFIG_USB_STORAGE_JUMPSHOT=m
++CONFIG_USB_STORAGE_ALAUDA=m
++CONFIG_USB_STORAGE_ONETOUCH=m
++CONFIG_USB_STORAGE_KARMA=m
++CONFIG_USB_STORAGE_CYPRESS_ATACB=m
++CONFIG_USB_STORAGE_ENE_UB6250=m
++CONFIG_USB_MDC800=m
++CONFIG_USB_MICROTEK=m
++CONFIG_USB_SERIAL=m
++CONFIG_USB_SERIAL_GENERIC=y
++CONFIG_USB_SERIAL_AIRCABLE=m
++CONFIG_USB_SERIAL_ARK3116=m
++CONFIG_USB_SERIAL_BELKIN=m
++CONFIG_USB_SERIAL_CH341=m
++CONFIG_USB_SERIAL_WHITEHEAT=m
++CONFIG_USB_SERIAL_DIGI_ACCELEPORT=m
++CONFIG_USB_SERIAL_CP210X=m
++CONFIG_USB_SERIAL_CYPRESS_M8=m
++CONFIG_USB_SERIAL_EMPEG=m
++CONFIG_USB_SERIAL_FTDI_SIO=m
++CONFIG_USB_SERIAL_FUNSOFT=m
++CONFIG_USB_SERIAL_VISOR=m
++CONFIG_USB_SERIAL_IPAQ=m
++CONFIG_USB_SERIAL_IR=m
++CONFIG_USB_SERIAL_EDGEPORT=m
++CONFIG_USB_SERIAL_EDGEPORT_TI=m
++CONFIG_USB_SERIAL_GARMIN=m
++CONFIG_USB_SERIAL_IPW=m
++CONFIG_USB_SERIAL_IUU=m
++CONFIG_USB_SERIAL_KEYSPAN_PDA=m
++CONFIG_USB_SERIAL_KEYSPAN=m
++CONFIG_USB_SERIAL_KLSI=m
++CONFIG_USB_SERIAL_KOBIL_SCT=m
++CONFIG_USB_SERIAL_MCT_U232=m
++CONFIG_USB_SERIAL_MOS7720=m
++CONFIG_USB_SERIAL_MOS7840=m
++CONFIG_USB_SERIAL_MOTOROLA=m
++CONFIG_USB_SERIAL_NAVMAN=m
++CONFIG_USB_SERIAL_PL2303=m
++CONFIG_USB_SERIAL_OTI6858=m
++CONFIG_USB_SERIAL_QCAUX=m
++CONFIG_USB_SERIAL_QUALCOMM=m
++CONFIG_USB_SERIAL_SPCP8X5=m
++CONFIG_USB_SERIAL_HP4X=m
++CONFIG_USB_SERIAL_SAFE=m
++CONFIG_USB_SERIAL_SIEMENS_MPI=m
++CONFIG_USB_SERIAL_SIERRAWIRELESS=m
++CONFIG_USB_SERIAL_SYMBOL=m
++CONFIG_USB_SERIAL_TI=m
++CONFIG_USB_SERIAL_CYBERJACK=m
++CONFIG_USB_SERIAL_XIRCOM=m
++CONFIG_USB_SERIAL_OPTION=m
++CONFIG_USB_SERIAL_OMNINET=m
++CONFIG_USB_SERIAL_OPTICON=m
++CONFIG_USB_SERIAL_VIVOPAY_SERIAL=m
++CONFIG_USB_SERIAL_ZIO=m
++CONFIG_USB_SERIAL_SSU100=m
++CONFIG_USB_SERIAL_DEBUG=m
++CONFIG_USB_EMI62=m
++CONFIG_USB_EMI26=m
++CONFIG_USB_ADUTUX=m
++CONFIG_USB_SEVSEG=m
++CONFIG_USB_RIO500=m
++CONFIG_USB_LEGOTOWER=m
++CONFIG_USB_LCD=m
++CONFIG_USB_LED=m
++CONFIG_USB_CYPRESS_CY7C63=m
++CONFIG_USB_CYTHERM=m
++CONFIG_USB_IDMOUSE=m
++CONFIG_USB_FTDI_ELAN=m
++CONFIG_USB_APPLEDISPLAY=m
++CONFIG_USB_LD=m
++CONFIG_USB_TRANCEVIBRATOR=m
++CONFIG_USB_IOWARRIOR=m
++CONFIG_USB_TEST=m
++CONFIG_USB_ISIGHTFW=m
++CONFIG_USB_YUREX=m
++CONFIG_MMC=y
++CONFIG_MMC_SDHCI=y
++CONFIG_MMC_SDHCI_PLTFM=y
++CONFIG_MMC_SDHCI_BCM2708=y
++CONFIG_MMC_SDHCI_BCM2708_DMA=y
++CONFIG_RTC_CLASS=y
++CONFIG_RTC_DRV_DS1307=m
++CONFIG_RTC_DRV_DS1374=m
++CONFIG_RTC_DRV_DS1672=m
++CONFIG_RTC_DRV_DS3232=m
++CONFIG_RTC_DRV_MAX6900=m
++CONFIG_RTC_DRV_RS5C372=m
++CONFIG_RTC_DRV_ISL1208=m
++CONFIG_RTC_DRV_ISL12022=m
++CONFIG_RTC_DRV_X1205=m
++CONFIG_RTC_DRV_PCF8563=m
++CONFIG_RTC_DRV_PCF8583=m
++CONFIG_RTC_DRV_M41T80=m
++CONFIG_RTC_DRV_BQ32K=m
++CONFIG_RTC_DRV_S35390A=m
++CONFIG_RTC_DRV_FM3130=m
++CONFIG_RTC_DRV_RX8581=m
++CONFIG_RTC_DRV_RX8025=m
++CONFIG_RTC_DRV_EM3027=m
++CONFIG_RTC_DRV_RV3029C2=m
++CONFIG_RTC_DRV_M41T93=m
++CONFIG_RTC_DRV_M41T94=m
++CONFIG_RTC_DRV_DS1305=m
++CONFIG_RTC_DRV_DS1390=m
++CONFIG_RTC_DRV_MAX6902=m
++CONFIG_RTC_DRV_R9701=m
++CONFIG_RTC_DRV_RS5C348=m
++CONFIG_RTC_DRV_DS3234=m
++CONFIG_RTC_DRV_PCF2123=m
++CONFIG_UIO=m
++CONFIG_UIO_PDRV=m
++CONFIG_UIO_PDRV_GENIRQ=m
++# CONFIG_IOMMU_SUPPORT is not set
++CONFIG_EXT4_FS=y
++CONFIG_EXT4_FS_POSIX_ACL=y
++CONFIG_EXT4_FS_SECURITY=y
++CONFIG_REISERFS_FS=m
++CONFIG_REISERFS_FS_XATTR=y
++CONFIG_REISERFS_FS_POSIX_ACL=y
++CONFIG_REISERFS_FS_SECURITY=y
++CONFIG_JFS_FS=m
++CONFIG_JFS_POSIX_ACL=y
++CONFIG_JFS_SECURITY=y
++CONFIG_JFS_STATISTICS=y
++CONFIG_XFS_FS=m
++CONFIG_XFS_QUOTA=y
++CONFIG_XFS_POSIX_ACL=y
++CONFIG_XFS_RT=y
++CONFIG_GFS2_FS=m
++CONFIG_OCFS2_FS=m
++CONFIG_BTRFS_FS=m
++CONFIG_BTRFS_FS_POSIX_ACL=y
++CONFIG_NILFS2_FS=m
++CONFIG_FANOTIFY=y
++CONFIG_AUTOFS4_FS=y
++CONFIG_FUSE_FS=m
++CONFIG_CUSE=m
++CONFIG_FSCACHE=y
++CONFIG_FSCACHE_STATS=y
++CONFIG_FSCACHE_HISTOGRAM=y
++CONFIG_CACHEFILES=y
++CONFIG_ISO9660_FS=m
++CONFIG_JOLIET=y
++CONFIG_ZISOFS=y
++CONFIG_UDF_FS=m
++CONFIG_MSDOS_FS=y
++CONFIG_VFAT_FS=y
++CONFIG_FAT_DEFAULT_IOCHARSET="ascii"
++CONFIG_NTFS_FS=m
++CONFIG_TMPFS=y
++CONFIG_TMPFS_POSIX_ACL=y
++CONFIG_CONFIGFS_FS=y
++CONFIG_SQUASHFS=m
++CONFIG_SQUASHFS_XATTR=y
++CONFIG_SQUASHFS_LZO=y
++CONFIG_SQUASHFS_XZ=y
++CONFIG_NFS_FS=y
++CONFIG_NFS_V3_ACL=y
++CONFIG_NFS_V4=y
++CONFIG_ROOT_NFS=y
++CONFIG_NFS_FSCACHE=y
++CONFIG_NFSD=m
++CONFIG_NFSD_V3_ACL=y
++CONFIG_NFSD_V4=y
++CONFIG_CIFS=m
++CONFIG_CIFS_WEAK_PW_HASH=y
++CONFIG_CIFS_XATTR=y
++CONFIG_CIFS_POSIX=y
++CONFIG_9P_FS=m
++CONFIG_9P_FS_POSIX_ACL=y
++CONFIG_NLS_DEFAULT="utf8"
++CONFIG_NLS_CODEPAGE_437=y
++CONFIG_NLS_CODEPAGE_737=m
++CONFIG_NLS_CODEPAGE_775=m
++CONFIG_NLS_CODEPAGE_850=m
++CONFIG_NLS_CODEPAGE_852=m
++CONFIG_NLS_CODEPAGE_855=m
++CONFIG_NLS_CODEPAGE_857=m
++CONFIG_NLS_CODEPAGE_860=m
++CONFIG_NLS_CODEPAGE_861=m
++CONFIG_NLS_CODEPAGE_862=m
++CONFIG_NLS_CODEPAGE_863=m
++CONFIG_NLS_CODEPAGE_864=m
++CONFIG_NLS_CODEPAGE_865=m
++CONFIG_NLS_CODEPAGE_866=m
++CONFIG_NLS_CODEPAGE_869=m
++CONFIG_NLS_CODEPAGE_936=m
++CONFIG_NLS_CODEPAGE_950=m
++CONFIG_NLS_CODEPAGE_932=m
++CONFIG_NLS_CODEPAGE_949=m
++CONFIG_NLS_CODEPAGE_874=m
++CONFIG_NLS_ISO8859_8=m
++CONFIG_NLS_CODEPAGE_1250=m
++CONFIG_NLS_CODEPAGE_1251=m
++CONFIG_NLS_ASCII=y
++CONFIG_NLS_ISO8859_1=m
++CONFIG_NLS_ISO8859_2=m
++CONFIG_NLS_ISO8859_3=m
++CONFIG_NLS_ISO8859_4=m
++CONFIG_NLS_ISO8859_5=m
++CONFIG_NLS_ISO8859_6=m
++CONFIG_NLS_ISO8859_7=m
++CONFIG_NLS_ISO8859_9=m
++CONFIG_NLS_ISO8859_13=m
++CONFIG_NLS_ISO8859_14=m
++CONFIG_NLS_ISO8859_15=m
++CONFIG_NLS_KOI8_R=m
++CONFIG_NLS_KOI8_U=m
++CONFIG_NLS_UTF8=m
++CONFIG_PRINTK_TIME=y
++CONFIG_DETECT_HUNG_TASK=y
++CONFIG_TIMER_STATS=y
++CONFIG_DEBUG_STACK_USAGE=y
++CONFIG_DEBUG_INFO=y
++CONFIG_DEBUG_MEMORY_INIT=y
++CONFIG_BOOT_PRINTK_DELAY=y
++CONFIG_LATENCYTOP=y
++CONFIG_IRQSOFF_TRACER=y
++CONFIG_SCHED_TRACER=y
++CONFIG_STACK_TRACER=y
++CONFIG_BLK_DEV_IO_TRACE=y
++CONFIG_FUNCTION_PROFILER=y
++CONFIG_KGDB=y
++CONFIG_KGDB_KDB=y
++CONFIG_KDB_KEYBOARD=y
++CONFIG_STRICT_DEVMEM=y
++CONFIG_CRYPTO_SEQIV=m
++CONFIG_CRYPTO_CBC=y
++CONFIG_CRYPTO_HMAC=y
++CONFIG_CRYPTO_XCBC=m
++CONFIG_CRYPTO_MD5=y
++CONFIG_CRYPTO_SHA1=y
++CONFIG_CRYPTO_SHA512=m
++CONFIG_CRYPTO_TGR192=m
++CONFIG_CRYPTO_WP512=m
++CONFIG_CRYPTO_CAST5=m
++CONFIG_CRYPTO_DES=y
++# CONFIG_CRYPTO_ANSI_CPRNG is not set
++# CONFIG_CRYPTO_HW is not set
++CONFIG_CRC_ITU_T=y
++CONFIG_LIBCRC32C=y
+diff -urN linux-3.10/arch/arm/configs/bcmrpi_emergency_defconfig linux-rpi-3.10.y/arch/arm/configs/bcmrpi_emergency_defconfig
+--- linux-3.10/arch/arm/configs/bcmrpi_emergency_defconfig 1970-01-01 01:00:00.000000000 +0100
++++ linux-rpi-3.10.y/arch/arm/configs/bcmrpi_emergency_defconfig 2013-07-06 15:25:50.000000000 +0100
+@@ -0,0 +1,532 @@
++CONFIG_EXPERIMENTAL=y
++# CONFIG_LOCALVERSION_AUTO is not set
++CONFIG_SYSVIPC=y
++CONFIG_POSIX_MQUEUE=y
++CONFIG_BSD_PROCESS_ACCT=y
++CONFIG_BSD_PROCESS_ACCT_V3=y
++CONFIG_FHANDLE=y
++CONFIG_AUDIT=y
++CONFIG_IKCONFIG=y
++CONFIG_IKCONFIG_PROC=y
++CONFIG_BLK_DEV_INITRD=y
++CONFIG_INITRAMFS_SOURCE="../target_fs"
++CONFIG_CGROUP_FREEZER=y
++CONFIG_CGROUP_DEVICE=y
++CONFIG_CGROUP_CPUACCT=y
++CONFIG_RESOURCE_COUNTERS=y
++CONFIG_BLK_CGROUP=y
++CONFIG_NAMESPACES=y
++CONFIG_SCHED_AUTOGROUP=y
++CONFIG_EMBEDDED=y
++# CONFIG_COMPAT_BRK is not set
++CONFIG_SLAB=y
++CONFIG_PROFILING=y
++CONFIG_OPROFILE=m
++CONFIG_KPROBES=y
++CONFIG_MODULES=y
++CONFIG_MODULE_UNLOAD=y
++CONFIG_MODVERSIONS=y
++CONFIG_MODULE_SRCVERSION_ALL=y
++# CONFIG_BLK_DEV_BSG is not set
++CONFIG_BLK_DEV_THROTTLING=y
++CONFIG_CFQ_GROUP_IOSCHED=y
++CONFIG_ARCH_BCM2708=y
++CONFIG_NO_HZ=y
++CONFIG_HIGH_RES_TIMERS=y
++CONFIG_AEABI=y
++CONFIG_SECCOMP=y
++CONFIG_CC_STACKPROTECTOR=y
++CONFIG_ZBOOT_ROM_TEXT=0x0
++CONFIG_ZBOOT_ROM_BSS=0x0
++CONFIG_CMDLINE="dwc_otg.lpm_enable=0 console=ttyAMA0,115200 kgdboc=ttyAMA0,115200 root=/dev/mmcblk0p2 rootfstype=ext3 rootwait"
++CONFIG_KEXEC=y
++CONFIG_CPU_IDLE=y
++CONFIG_VFP=y
++CONFIG_BINFMT_MISC=m
++CONFIG_NET=y
++CONFIG_PACKET=y
++CONFIG_UNIX=y
++CONFIG_XFRM_USER=y
++CONFIG_NET_KEY=m
++CONFIG_INET=y
++CONFIG_IP_MULTICAST=y
++CONFIG_IP_PNP=y
++CONFIG_IP_PNP_DHCP=y
++CONFIG_IP_PNP_RARP=y
++CONFIG_SYN_COOKIES=y
++# CONFIG_INET_XFRM_MODE_TRANSPORT is not set
++# CONFIG_INET_XFRM_MODE_TUNNEL is not set
++# CONFIG_INET_XFRM_MODE_BEET is not set
++# CONFIG_INET_LRO is not set
++# CONFIG_INET_DIAG is not set
++# CONFIG_IPV6 is not set
++CONFIG_NET_PKTGEN=m
++CONFIG_IRDA=m
++CONFIG_IRLAN=m
++CONFIG_IRCOMM=m
++CONFIG_IRDA_ULTRA=y
++CONFIG_IRDA_CACHE_LAST_LSAP=y
++CONFIG_IRDA_FAST_RR=y
++CONFIG_IRTTY_SIR=m
++CONFIG_KINGSUN_DONGLE=m
++CONFIG_KSDAZZLE_DONGLE=m
++CONFIG_KS959_DONGLE=m
++CONFIG_USB_IRDA=m
++CONFIG_SIGMATEL_FIR=m
++CONFIG_MCS_FIR=m
++CONFIG_BT=m
++CONFIG_BT_L2CAP=y
++CONFIG_BT_SCO=y
++CONFIG_BT_RFCOMM=m
++CONFIG_BT_RFCOMM_TTY=y
++CONFIG_BT_BNEP=m
++CONFIG_BT_BNEP_MC_FILTER=y
++CONFIG_BT_BNEP_PROTO_FILTER=y
++CONFIG_BT_HIDP=m
++CONFIG_BT_HCIBTUSB=m
++CONFIG_BT_HCIBCM203X=m
++CONFIG_BT_HCIBPA10X=m
++CONFIG_BT_HCIBFUSB=m
++CONFIG_BT_HCIVHCI=m
++CONFIG_BT_MRVL=m
++CONFIG_BT_MRVL_SDIO=m
++CONFIG_BT_ATH3K=m
++CONFIG_CFG80211=m
++CONFIG_MAC80211=m
++CONFIG_MAC80211_RC_PID=y
++CONFIG_MAC80211_MESH=y
++CONFIG_WIMAX=m
++CONFIG_NET_9P=m
++CONFIG_NFC=m
++CONFIG_NFC_PN533=m
++CONFIG_UEVENT_HELPER_PATH="/sbin/hotplug"
++CONFIG_BLK_DEV_LOOP=y
++CONFIG_BLK_DEV_CRYPTOLOOP=m
++CONFIG_BLK_DEV_NBD=m
++CONFIG_BLK_DEV_RAM=y
++CONFIG_CDROM_PKTCDVD=m
++CONFIG_MISC_DEVICES=y
++CONFIG_SCSI=y
++# CONFIG_SCSI_PROC_FS is not set
++CONFIG_BLK_DEV_SD=y
++CONFIG_BLK_DEV_SR=m
++CONFIG_SCSI_MULTI_LUN=y
++# CONFIG_SCSI_LOWLEVEL is not set
++CONFIG_MD=y
++CONFIG_NETDEVICES=y
++CONFIG_TUN=m
++CONFIG_PHYLIB=m
++CONFIG_MDIO_BITBANG=m
++CONFIG_NET_ETHERNET=y
++# CONFIG_NETDEV_1000 is not set
++# CONFIG_NETDEV_10000 is not set
++CONFIG_LIBERTAS_THINFIRM=m
++CONFIG_LIBERTAS_THINFIRM_USB=m
++CONFIG_AT76C50X_USB=m
++CONFIG_USB_ZD1201=m
++CONFIG_USB_NET_RNDIS_WLAN=m
++CONFIG_RTL8187=m
++CONFIG_MAC80211_HWSIM=m
++CONFIG_ATH_COMMON=m
++CONFIG_ATH9K=m
++CONFIG_ATH9K_HTC=m
++CONFIG_CARL9170=m
++CONFIG_B43=m
++CONFIG_B43LEGACY=m
++CONFIG_HOSTAP=m
++CONFIG_IWM=m
++CONFIG_LIBERTAS=m
++CONFIG_LIBERTAS_USB=m
++CONFIG_LIBERTAS_SDIO=m
++CONFIG_P54_COMMON=m
++CONFIG_P54_USB=m
++CONFIG_RT2X00=m
++CONFIG_RT2500USB=m
++CONFIG_RT73USB=m
++CONFIG_RT2800USB=m
++CONFIG_RT2800USB_RT53XX=y
++CONFIG_RTL8192CU=m
++CONFIG_WL1251=m
++CONFIG_WL12XX_MENU=m
++CONFIG_ZD1211RW=m
++CONFIG_MWIFIEX=m
++CONFIG_MWIFIEX_SDIO=m
++CONFIG_WIMAX_I2400M_USB=m
++CONFIG_USB_CATC=m
++CONFIG_USB_KAWETH=m
++CONFIG_USB_PEGASUS=m
++CONFIG_USB_RTL8150=m
++CONFIG_USB_USBNET=y
++CONFIG_USB_NET_AX8817X=m
++CONFIG_USB_NET_CDCETHER=m
++CONFIG_USB_NET_CDC_EEM=m
++CONFIG_USB_NET_DM9601=m
++CONFIG_USB_NET_SMSC75XX=m
++CONFIG_USB_NET_SMSC95XX=y
++CONFIG_USB_NET_GL620A=m
++CONFIG_USB_NET_NET1080=m
++CONFIG_USB_NET_PLUSB=m
++CONFIG_USB_NET_MCS7830=m
++CONFIG_USB_NET_CDC_SUBSET=m
++CONFIG_USB_ALI_M5632=y
++CONFIG_USB_AN2720=y
++CONFIG_USB_KC2190=y
++# CONFIG_USB_NET_ZAURUS is not set
++CONFIG_USB_NET_CX82310_ETH=m
++CONFIG_USB_NET_KALMIA=m
++CONFIG_USB_NET_INT51X1=m
++CONFIG_USB_IPHETH=m
++CONFIG_USB_SIERRA_NET=m
++CONFIG_USB_VL600=m
++CONFIG_PPP=m
++CONFIG_PPP_ASYNC=m
++CONFIG_PPP_SYNC_TTY=m
++CONFIG_PPP_DEFLATE=m
++CONFIG_PPP_BSDCOMP=m
++CONFIG_SLIP=m
++CONFIG_SLIP_COMPRESSED=y
++CONFIG_NETCONSOLE=m
++CONFIG_INPUT_POLLDEV=m
++# CONFIG_INPUT_MOUSEDEV_PSAUX is not set
++CONFIG_INPUT_JOYDEV=m
++CONFIG_INPUT_EVDEV=m
++# CONFIG_INPUT_KEYBOARD is not set
++# CONFIG_INPUT_MOUSE is not set
++CONFIG_INPUT_MISC=y
++CONFIG_INPUT_AD714X=m
++CONFIG_INPUT_ATI_REMOTE=m
++CONFIG_INPUT_ATI_REMOTE2=m
++CONFIG_INPUT_KEYSPAN_REMOTE=m
++CONFIG_INPUT_POWERMATE=m
++CONFIG_INPUT_YEALINK=m
++CONFIG_INPUT_CM109=m
++CONFIG_INPUT_UINPUT=m
++CONFIG_INPUT_GPIO_ROTARY_ENCODER=m
++CONFIG_INPUT_ADXL34X=m
++CONFIG_INPUT_CMA3000=m
++CONFIG_SERIO=m
++CONFIG_SERIO_RAW=m
++CONFIG_GAMEPORT=m
++CONFIG_GAMEPORT_NS558=m
++CONFIG_GAMEPORT_L4=m
++CONFIG_VT_HW_CONSOLE_BINDING=y
++# CONFIG_LEGACY_PTYS is not set
++# CONFIG_DEVKMEM is not set
++CONFIG_SERIAL_AMBA_PL011=y
++CONFIG_SERIAL_AMBA_PL011_CONSOLE=y
++# CONFIG_HW_RANDOM is not set
++CONFIG_RAW_DRIVER=y
++CONFIG_GPIO_SYSFS=y
++# CONFIG_HWMON is not set
++CONFIG_WATCHDOG=y
++CONFIG_BCM2708_WDT=m
++# CONFIG_MFD_SUPPORT is not set
++CONFIG_FB=y
++CONFIG_FB_BCM2708=y
++CONFIG_FRAMEBUFFER_CONSOLE=y
++CONFIG_LOGO=y
++# CONFIG_LOGO_LINUX_MONO is not set
++# CONFIG_LOGO_LINUX_VGA16 is not set
++CONFIG_SOUND=y
++CONFIG_SND=m
++CONFIG_SND_SEQUENCER=m
++CONFIG_SND_SEQ_DUMMY=m
++CONFIG_SND_MIXER_OSS=m
++CONFIG_SND_PCM_OSS=m
++CONFIG_SND_SEQUENCER_OSS=y
++CONFIG_SND_HRTIMER=m
++CONFIG_SND_DUMMY=m
++CONFIG_SND_ALOOP=m
++CONFIG_SND_VIRMIDI=m
++CONFIG_SND_MTPAV=m
++CONFIG_SND_SERIAL_U16550=m
++CONFIG_SND_MPU401=m
++CONFIG_SND_BCM2835=m
++CONFIG_SND_USB_AUDIO=m
++CONFIG_SND_USB_UA101=m
++CONFIG_SND_USB_CAIAQ=m
++CONFIG_SND_USB_6FIRE=m
++CONFIG_SOUND_PRIME=m
++CONFIG_HID_PID=y
++CONFIG_USB_HIDDEV=y
++CONFIG_HID_A4TECH=m
++CONFIG_HID_ACRUX=m
++CONFIG_HID_APPLE=m
++CONFIG_HID_BELKIN=m
++CONFIG_HID_CHERRY=m
++CONFIG_HID_CHICONY=m
++CONFIG_HID_CYPRESS=m
++CONFIG_HID_DRAGONRISE=m
++CONFIG_HID_EMS_FF=m
++CONFIG_HID_ELECOM=m
++CONFIG_HID_EZKEY=m
++CONFIG_HID_HOLTEK=m
++CONFIG_HID_KEYTOUCH=m
++CONFIG_HID_KYE=m
++CONFIG_HID_UCLOGIC=m
++CONFIG_HID_WALTOP=m
++CONFIG_HID_GYRATION=m
++CONFIG_HID_TWINHAN=m
++CONFIG_HID_KENSINGTON=m
++CONFIG_HID_LCPOWER=m
++CONFIG_HID_LOGITECH=m
++CONFIG_HID_MAGICMOUSE=m
++CONFIG_HID_MICROSOFT=m
++CONFIG_HID_MONTEREY=m
++CONFIG_HID_MULTITOUCH=m
++CONFIG_HID_NTRIG=m
++CONFIG_HID_ORTEK=m
++CONFIG_HID_PANTHERLORD=m
++CONFIG_HID_PETALYNX=m
++CONFIG_HID_PICOLCD=m
++CONFIG_HID_QUANTA=m
++CONFIG_HID_ROCCAT=m
++CONFIG_HID_SAMSUNG=m
++CONFIG_HID_SONY=m
++CONFIG_HID_SPEEDLINK=m
++CONFIG_HID_SUNPLUS=m
++CONFIG_HID_GREENASIA=m
++CONFIG_HID_SMARTJOYPLUS=m
++CONFIG_HID_TOPSEED=m
++CONFIG_HID_THRUSTMASTER=m
++CONFIG_HID_WACOM=m
++CONFIG_HID_WIIMOTE=m
++CONFIG_HID_ZEROPLUS=m
++CONFIG_HID_ZYDACRON=m
++CONFIG_USB=y
++CONFIG_USB_ANNOUNCE_NEW_DEVICES=y
++CONFIG_USB_MON=m
++CONFIG_USB_DWCOTG=y
++CONFIG_USB_STORAGE=y
++CONFIG_USB_STORAGE_REALTEK=m
++CONFIG_USB_STORAGE_DATAFAB=m
++CONFIG_USB_STORAGE_FREECOM=m
++CONFIG_USB_STORAGE_ISD200=m
++CONFIG_USB_STORAGE_USBAT=m
++CONFIG_USB_STORAGE_SDDR09=m
++CONFIG_USB_STORAGE_SDDR55=m
++CONFIG_USB_STORAGE_JUMPSHOT=m
++CONFIG_USB_STORAGE_ALAUDA=m
++CONFIG_USB_STORAGE_ONETOUCH=m
++CONFIG_USB_STORAGE_KARMA=m
++CONFIG_USB_STORAGE_CYPRESS_ATACB=m
++CONFIG_USB_STORAGE_ENE_UB6250=m
++CONFIG_USB_UAS=y
++CONFIG_USB_LIBUSUAL=y
++CONFIG_USB_MDC800=m
++CONFIG_USB_MICROTEK=m
++CONFIG_USB_SERIAL=m
++CONFIG_USB_SERIAL_GENERIC=y
++CONFIG_USB_SERIAL_AIRCABLE=m
++CONFIG_USB_SERIAL_ARK3116=m
++CONFIG_USB_SERIAL_BELKIN=m
++CONFIG_USB_SERIAL_CH341=m
++CONFIG_USB_SERIAL_WHITEHEAT=m
++CONFIG_USB_SERIAL_DIGI_ACCELEPORT=m
++CONFIG_USB_SERIAL_CP210X=m
++CONFIG_USB_SERIAL_CYPRESS_M8=m
++CONFIG_USB_SERIAL_EMPEG=m
++CONFIG_USB_SERIAL_FTDI_SIO=m
++CONFIG_USB_SERIAL_FUNSOFT=m
++CONFIG_USB_SERIAL_VISOR=m
++CONFIG_USB_SERIAL_IPAQ=m
++CONFIG_USB_SERIAL_IR=m
++CONFIG_USB_SERIAL_EDGEPORT=m
++CONFIG_USB_SERIAL_EDGEPORT_TI=m
++CONFIG_USB_SERIAL_GARMIN=m
++CONFIG_USB_SERIAL_IPW=m
++CONFIG_USB_SERIAL_IUU=m
++CONFIG_USB_SERIAL_KEYSPAN_PDA=m
++CONFIG_USB_SERIAL_KEYSPAN=m
++CONFIG_USB_SERIAL_KLSI=m
++CONFIG_USB_SERIAL_KOBIL_SCT=m
++CONFIG_USB_SERIAL_MCT_U232=m
++CONFIG_USB_SERIAL_MOS7720=m
++CONFIG_USB_SERIAL_MOS7840=m
++CONFIG_USB_SERIAL_MOTOROLA=m
++CONFIG_USB_SERIAL_NAVMAN=m
++CONFIG_USB_SERIAL_PL2303=m
++CONFIG_USB_SERIAL_OTI6858=m
++CONFIG_USB_SERIAL_QCAUX=m
++CONFIG_USB_SERIAL_QUALCOMM=m
++CONFIG_USB_SERIAL_SPCP8X5=m
++CONFIG_USB_SERIAL_HP4X=m
++CONFIG_USB_SERIAL_SAFE=m
++CONFIG_USB_SERIAL_SIEMENS_MPI=m
++CONFIG_USB_SERIAL_SIERRAWIRELESS=m
++CONFIG_USB_SERIAL_SYMBOL=m
++CONFIG_USB_SERIAL_TI=m
++CONFIG_USB_SERIAL_CYBERJACK=m
++CONFIG_USB_SERIAL_XIRCOM=m
++CONFIG_USB_SERIAL_OPTION=m
++CONFIG_USB_SERIAL_OMNINET=m
++CONFIG_USB_SERIAL_OPTICON=m
++CONFIG_USB_SERIAL_VIVOPAY_SERIAL=m
++CONFIG_USB_SERIAL_ZIO=m
++CONFIG_USB_SERIAL_SSU100=m
++CONFIG_USB_SERIAL_DEBUG=m
++CONFIG_USB_EMI62=m
++CONFIG_USB_EMI26=m
++CONFIG_USB_ADUTUX=m
++CONFIG_USB_SEVSEG=m
++CONFIG_USB_RIO500=m
++CONFIG_USB_LEGOTOWER=m
++CONFIG_USB_LCD=m
++CONFIG_USB_LED=m
++CONFIG_USB_CYPRESS_CY7C63=m
++CONFIG_USB_CYTHERM=m
++CONFIG_USB_IDMOUSE=m
++CONFIG_USB_FTDI_ELAN=m
++CONFIG_USB_APPLEDISPLAY=m
++CONFIG_USB_LD=m
++CONFIG_USB_TRANCEVIBRATOR=m
++CONFIG_USB_IOWARRIOR=m
++CONFIG_USB_TEST=m
++CONFIG_USB_ISIGHTFW=m
++CONFIG_USB_YUREX=m
++CONFIG_MMC=y
++CONFIG_MMC_SDHCI=y
++CONFIG_MMC_SDHCI_PLTFM=y
++CONFIG_MMC_SDHCI_BCM2708=y
++CONFIG_MMC_SDHCI_BCM2708_DMA=y
++CONFIG_LEDS_GPIO=y
++CONFIG_LEDS_TRIGGER_TIMER=m
++CONFIG_LEDS_TRIGGER_HEARTBEAT=m
++CONFIG_LEDS_TRIGGER_DEFAULT_ON=m
++CONFIG_UIO=m
++CONFIG_UIO_PDRV=m
++CONFIG_UIO_PDRV_GENIRQ=m
++# CONFIG_IOMMU_SUPPORT is not set
++CONFIG_EXT4_FS=y
++CONFIG_EXT4_FS_POSIX_ACL=y
++CONFIG_EXT4_FS_SECURITY=y
++CONFIG_REISERFS_FS=m
++CONFIG_REISERFS_FS_XATTR=y
++CONFIG_REISERFS_FS_POSIX_ACL=y
++CONFIG_REISERFS_FS_SECURITY=y
++CONFIG_JFS_FS=m
++CONFIG_JFS_POSIX_ACL=y
++CONFIG_JFS_SECURITY=y
++CONFIG_JFS_STATISTICS=y
++CONFIG_XFS_FS=m
++CONFIG_XFS_QUOTA=y
++CONFIG_XFS_POSIX_ACL=y
++CONFIG_XFS_RT=y
++CONFIG_GFS2_FS=m
++CONFIG_OCFS2_FS=m
++CONFIG_BTRFS_FS=m
++CONFIG_BTRFS_FS_POSIX_ACL=y
++CONFIG_NILFS2_FS=m
++CONFIG_FANOTIFY=y
++CONFIG_AUTOFS4_FS=y
++CONFIG_FUSE_FS=m
++CONFIG_CUSE=m
++CONFIG_FSCACHE=y
++CONFIG_FSCACHE_STATS=y
++CONFIG_FSCACHE_HISTOGRAM=y
++CONFIG_CACHEFILES=y
++CONFIG_ISO9660_FS=m
++CONFIG_JOLIET=y
++CONFIG_ZISOFS=y
++CONFIG_UDF_FS=m
++CONFIG_MSDOS_FS=y
++CONFIG_VFAT_FS=y
++CONFIG_FAT_DEFAULT_IOCHARSET="ascii"
++CONFIG_NTFS_FS=m
++CONFIG_TMPFS=y
++CONFIG_TMPFS_POSIX_ACL=y
++CONFIG_CONFIGFS_FS=y
++CONFIG_SQUASHFS=m
++CONFIG_SQUASHFS_XATTR=y
++CONFIG_SQUASHFS_LZO=y
++CONFIG_SQUASHFS_XZ=y
++CONFIG_NFS_FS=y
++CONFIG_NFS_V3=y
++CONFIG_NFS_V3_ACL=y
++CONFIG_NFS_V4=y
++CONFIG_ROOT_NFS=y
++CONFIG_NFS_FSCACHE=y
++CONFIG_CIFS=m
++CONFIG_CIFS_WEAK_PW_HASH=y
++CONFIG_CIFS_XATTR=y
++CONFIG_CIFS_POSIX=y
++CONFIG_9P_FS=m
++CONFIG_9P_FS_POSIX_ACL=y
++CONFIG_PARTITION_ADVANCED=y
++CONFIG_MAC_PARTITION=y
++CONFIG_EFI_PARTITION=y
++CONFIG_NLS_DEFAULT="utf8"
++CONFIG_NLS_CODEPAGE_437=y
++CONFIG_NLS_CODEPAGE_737=m
++CONFIG_NLS_CODEPAGE_775=m
++CONFIG_NLS_CODEPAGE_850=m
++CONFIG_NLS_CODEPAGE_852=m
++CONFIG_NLS_CODEPAGE_855=m
++CONFIG_NLS_CODEPAGE_857=m
++CONFIG_NLS_CODEPAGE_860=m
++CONFIG_NLS_CODEPAGE_861=m
++CONFIG_NLS_CODEPAGE_862=m
++CONFIG_NLS_CODEPAGE_863=m
++CONFIG_NLS_CODEPAGE_864=m
++CONFIG_NLS_CODEPAGE_865=m
++CONFIG_NLS_CODEPAGE_866=m
++CONFIG_NLS_CODEPAGE_869=m
++CONFIG_NLS_CODEPAGE_936=m
++CONFIG_NLS_CODEPAGE_950=m
++CONFIG_NLS_CODEPAGE_932=m
++CONFIG_NLS_CODEPAGE_949=m
++CONFIG_NLS_CODEPAGE_874=m
++CONFIG_NLS_ISO8859_8=m
++CONFIG_NLS_CODEPAGE_1250=m
++CONFIG_NLS_CODEPAGE_1251=m
++CONFIG_NLS_ASCII=y
++CONFIG_NLS_ISO8859_1=m
++CONFIG_NLS_ISO8859_2=m
++CONFIG_NLS_ISO8859_3=m
++CONFIG_NLS_ISO8859_4=m
++CONFIG_NLS_ISO8859_5=m
++CONFIG_NLS_ISO8859_6=m
++CONFIG_NLS_ISO8859_7=m
++CONFIG_NLS_ISO8859_9=m
++CONFIG_NLS_ISO8859_13=m
++CONFIG_NLS_ISO8859_14=m
++CONFIG_NLS_ISO8859_15=m
++CONFIG_NLS_KOI8_R=m
++CONFIG_NLS_KOI8_U=m
++CONFIG_NLS_UTF8=m
++CONFIG_PRINTK_TIME=y
++CONFIG_DETECT_HUNG_TASK=y
++CONFIG_TIMER_STATS=y
++CONFIG_DEBUG_STACK_USAGE=y
++CONFIG_DEBUG_INFO=y
++CONFIG_DEBUG_MEMORY_INIT=y
++CONFIG_BOOT_PRINTK_DELAY=y
++CONFIG_LATENCYTOP=y
++CONFIG_SYSCTL_SYSCALL_CHECK=y
++CONFIG_IRQSOFF_TRACER=y
++CONFIG_SCHED_TRACER=y
++CONFIG_STACK_TRACER=y
++CONFIG_BLK_DEV_IO_TRACE=y
++CONFIG_FUNCTION_PROFILER=y
++CONFIG_KGDB=y
++CONFIG_KGDB_KDB=y
++CONFIG_KDB_KEYBOARD=y
++CONFIG_STRICT_DEVMEM=y
++CONFIG_CRYPTO_AUTHENC=m
++CONFIG_CRYPTO_SEQIV=m
++CONFIG_CRYPTO_CBC=y
++CONFIG_CRYPTO_HMAC=y
++CONFIG_CRYPTO_XCBC=m
++CONFIG_CRYPTO_MD5=y
++CONFIG_CRYPTO_SHA1=y
++CONFIG_CRYPTO_SHA256=m
++CONFIG_CRYPTO_SHA512=m
++CONFIG_CRYPTO_TGR192=m
++CONFIG_CRYPTO_WP512=m
++CONFIG_CRYPTO_CAST5=m
++CONFIG_CRYPTO_DES=y
++CONFIG_CRYPTO_DEFLATE=m
++# CONFIG_CRYPTO_ANSI_CPRNG is not set
++# CONFIG_CRYPTO_HW is not set
++CONFIG_CRC_ITU_T=y
++CONFIG_LIBCRC32C=y
+diff -urN linux-3.10/arch/arm/configs/bcmrpi_quick_defconfig linux-rpi-3.10.y/arch/arm/configs/bcmrpi_quick_defconfig
+--- linux-3.10/arch/arm/configs/bcmrpi_quick_defconfig 1970-01-01 01:00:00.000000000 +0100
++++ linux-rpi-3.10.y/arch/arm/configs/bcmrpi_quick_defconfig 2013-07-06 15:25:50.000000000 +0100
+@@ -0,0 +1,197 @@
++# CONFIG_ARM_PATCH_PHYS_VIRT is not set
++CONFIG_LOCALVERSION="-quick"
++# CONFIG_LOCALVERSION_AUTO is not set
++# CONFIG_SWAP is not set
++CONFIG_SYSVIPC=y
++CONFIG_POSIX_MQUEUE=y
++CONFIG_NO_HZ=y
++CONFIG_HIGH_RES_TIMERS=y
++CONFIG_IKCONFIG=y
++CONFIG_IKCONFIG_PROC=y
++CONFIG_KALLSYMS_ALL=y
++CONFIG_EMBEDDED=y
++CONFIG_PERF_EVENTS=y
++# CONFIG_COMPAT_BRK is not set
++CONFIG_SLAB=y
++CONFIG_MODULES=y
++CONFIG_MODULE_UNLOAD=y
++CONFIG_MODVERSIONS=y
++CONFIG_MODULE_SRCVERSION_ALL=y
++# CONFIG_BLK_DEV_BSG is not set
++CONFIG_ARCH_BCM2708=y
++CONFIG_PREEMPT=y
++CONFIG_AEABI=y
++CONFIG_UACCESS_WITH_MEMCPY=y
++CONFIG_ZBOOT_ROM_TEXT=0x0
++CONFIG_ZBOOT_ROM_BSS=0x0
++CONFIG_CMDLINE="dwc_otg.lpm_enable=0 console=ttyAMA0,115200 kgdboc=ttyAMA0,115200 root=/dev/mmcblk0p2 rootfstype=ext4 rootwait"
++CONFIG_CPU_FREQ=y
++CONFIG_CPU_FREQ_DEFAULT_GOV_POWERSAVE=y
++CONFIG_CPU_FREQ_GOV_PERFORMANCE=y
++CONFIG_CPU_FREQ_GOV_USERSPACE=y
++CONFIG_CPU_FREQ_GOV_ONDEMAND=y
++CONFIG_CPU_FREQ_GOV_CONSERVATIVE=y
++CONFIG_CPU_IDLE=y
++CONFIG_VFP=y
++CONFIG_BINFMT_MISC=y
++CONFIG_NET=y
++CONFIG_PACKET=y
++CONFIG_UNIX=y
++CONFIG_INET=y
++CONFIG_IP_MULTICAST=y
++CONFIG_IP_PNP=y
++CONFIG_IP_PNP_DHCP=y
++CONFIG_IP_PNP_RARP=y
++CONFIG_SYN_COOKIES=y
++# CONFIG_INET_XFRM_MODE_TRANSPORT is not set
++# CONFIG_INET_XFRM_MODE_TUNNEL is not set
++# CONFIG_INET_XFRM_MODE_BEET is not set
++# CONFIG_INET_LRO is not set
++# CONFIG_INET_DIAG is not set
++# CONFIG_IPV6 is not set
++# CONFIG_WIRELESS is not set
++CONFIG_DEVTMPFS=y
++CONFIG_DEVTMPFS_MOUNT=y
++CONFIG_BLK_DEV_LOOP=y
++CONFIG_BLK_DEV_RAM=y
++CONFIG_SCSI=y
++# CONFIG_SCSI_PROC_FS is not set
++# CONFIG_SCSI_LOWLEVEL is not set
++CONFIG_NETDEVICES=y
++# CONFIG_NET_VENDOR_BROADCOM is not set
++# CONFIG_NET_VENDOR_CIRRUS is not set
++# CONFIG_NET_VENDOR_FARADAY is not set
++# CONFIG_NET_VENDOR_INTEL is not set
++# CONFIG_NET_VENDOR_MARVELL is not set
++# CONFIG_NET_VENDOR_MICREL is not set
++# CONFIG_NET_VENDOR_NATSEMI is not set
++# CONFIG_NET_VENDOR_SEEQ is not set
++# CONFIG_NET_VENDOR_STMICRO is not set
++# CONFIG_NET_VENDOR_WIZNET is not set
++CONFIG_USB_USBNET=y
++# CONFIG_USB_NET_AX8817X is not set
++# CONFIG_USB_NET_CDCETHER is not set
++# CONFIG_USB_NET_CDC_NCM is not set
++CONFIG_USB_NET_SMSC95XX=y
++# CONFIG_USB_NET_NET1080 is not set
++# CONFIG_USB_NET_CDC_SUBSET is not set
++# CONFIG_USB_NET_ZAURUS is not set
++# CONFIG_WLAN is not set
++# CONFIG_INPUT_MOUSEDEV is not set
++CONFIG_INPUT_EVDEV=y
++# CONFIG_INPUT_KEYBOARD is not set
++# CONFIG_INPUT_MOUSE is not set
++# CONFIG_SERIO is not set
++CONFIG_VT_HW_CONSOLE_BINDING=y
++# CONFIG_LEGACY_PTYS is not set
++# CONFIG_DEVKMEM is not set
++CONFIG_SERIAL_AMBA_PL011=y
++CONFIG_SERIAL_AMBA_PL011_CONSOLE=y
++CONFIG_TTY_PRINTK=y
++CONFIG_HW_RANDOM=y
++CONFIG_HW_RANDOM_BCM2708=y
++CONFIG_RAW_DRIVER=y
++CONFIG_THERMAL=y
++CONFIG_THERMAL_BCM2835=y
++CONFIG_WATCHDOG=y
++CONFIG_BCM2708_WDT=y
++CONFIG_REGULATOR=y
++CONFIG_REGULATOR_DEBUG=y
++CONFIG_REGULATOR_FIXED_VOLTAGE=y
++CONFIG_REGULATOR_VIRTUAL_CONSUMER=y
++CONFIG_REGULATOR_USERSPACE_CONSUMER=y
++CONFIG_FB=y
++CONFIG_FB_BCM2708=y
++CONFIG_FRAMEBUFFER_CONSOLE=y
++CONFIG_LOGO=y
++# CONFIG_LOGO_LINUX_MONO is not set
++# CONFIG_LOGO_LINUX_VGA16 is not set
++CONFIG_SOUND=y
++CONFIG_SND=y
++CONFIG_SND_BCM2835=y
++# CONFIG_SND_USB is not set
++CONFIG_USB=y
++CONFIG_USB_ANNOUNCE_NEW_DEVICES=y
++CONFIG_USB_DWCOTG=y
++CONFIG_MMC=y
++CONFIG_MMC_SDHCI=y
++CONFIG_MMC_SDHCI_PLTFM=y
++CONFIG_MMC_SDHCI_BCM2708=y
++CONFIG_MMC_SDHCI_BCM2708_DMA=y
++CONFIG_NEW_LEDS=y
++CONFIG_LEDS_CLASS=y
++CONFIG_LEDS_TRIGGERS=y
++# CONFIG_IOMMU_SUPPORT is not set
++CONFIG_EXT4_FS=y
++CONFIG_EXT4_FS_POSIX_ACL=y
++CONFIG_EXT4_FS_SECURITY=y
++CONFIG_AUTOFS4_FS=y
++CONFIG_FSCACHE=y
++CONFIG_CACHEFILES=y
++CONFIG_MSDOS_FS=y
++CONFIG_VFAT_FS=y
++CONFIG_FAT_DEFAULT_IOCHARSET="ascii"
++CONFIG_TMPFS=y
++CONFIG_TMPFS_POSIX_ACL=y
++CONFIG_CONFIGFS_FS=y
++# CONFIG_MISC_FILESYSTEMS is not set
++CONFIG_NFS_FS=y
++CONFIG_NFS_V3_ACL=y
++CONFIG_NFS_V4=y
++CONFIG_ROOT_NFS=y
++CONFIG_NFS_FSCACHE=y
++CONFIG_NLS_DEFAULT="utf8"
++CONFIG_NLS_CODEPAGE_437=y
++CONFIG_NLS_CODEPAGE_737=y
++CONFIG_NLS_CODEPAGE_775=y
++CONFIG_NLS_CODEPAGE_850=y
++CONFIG_NLS_CODEPAGE_852=y
++CONFIG_NLS_CODEPAGE_855=y
++CONFIG_NLS_CODEPAGE_857=y
++CONFIG_NLS_CODEPAGE_860=y
++CONFIG_NLS_CODEPAGE_861=y
++CONFIG_NLS_CODEPAGE_862=y
++CONFIG_NLS_CODEPAGE_863=y
++CONFIG_NLS_CODEPAGE_864=y
++CONFIG_NLS_CODEPAGE_865=y
++CONFIG_NLS_CODEPAGE_866=y
++CONFIG_NLS_CODEPAGE_869=y
++CONFIG_NLS_CODEPAGE_936=y
++CONFIG_NLS_CODEPAGE_950=y
++CONFIG_NLS_CODEPAGE_932=y
++CONFIG_NLS_CODEPAGE_949=y
++CONFIG_NLS_CODEPAGE_874=y
++CONFIG_NLS_ISO8859_8=y
++CONFIG_NLS_CODEPAGE_1250=y
++CONFIG_NLS_CODEPAGE_1251=y
++CONFIG_NLS_ASCII=y
++CONFIG_NLS_ISO8859_1=y
++CONFIG_NLS_ISO8859_2=y
++CONFIG_NLS_ISO8859_3=y
++CONFIG_NLS_ISO8859_4=y
++CONFIG_NLS_ISO8859_5=y
++CONFIG_NLS_ISO8859_6=y
++CONFIG_NLS_ISO8859_7=y
++CONFIG_NLS_ISO8859_9=y
++CONFIG_NLS_ISO8859_13=y
++CONFIG_NLS_ISO8859_14=y
++CONFIG_NLS_ISO8859_15=y
++CONFIG_NLS_UTF8=y
++CONFIG_PRINTK_TIME=y
++CONFIG_DEBUG_FS=y
++CONFIG_DETECT_HUNG_TASK=y
++# CONFIG_DEBUG_PREEMPT is not set
++# CONFIG_DEBUG_BUGVERBOSE is not set
++# CONFIG_FTRACE is not set
++CONFIG_KGDB=y
++CONFIG_KGDB_KDB=y
++# CONFIG_ARM_UNWIND is not set
++CONFIG_CRYPTO_CBC=y
++CONFIG_CRYPTO_HMAC=y
++CONFIG_CRYPTO_MD5=y
++CONFIG_CRYPTO_SHA1=y
++CONFIG_CRYPTO_DES=y
++# CONFIG_CRYPTO_ANSI_CPRNG is not set
++# CONFIG_CRYPTO_HW is not set
++CONFIG_CRC_ITU_T=y
++CONFIG_LIBCRC32C=y
+diff -urN linux-3.10/arch/arm/include/asm/fiq.h linux-rpi-3.10.y/arch/arm/include/asm/fiq.h
+--- linux-3.10/arch/arm/include/asm/fiq.h 2013-06-30 23:13:29.000000000 +0100
++++ linux-rpi-3.10.y/arch/arm/include/asm/fiq.h 2013-07-06 15:25:50.000000000 +0100
+@@ -42,6 +42,7 @@
+ /* helpers defined in fiqasm.S: */
+ extern void __set_fiq_regs(unsigned long const *regs);
+ extern void __get_fiq_regs(unsigned long *regs);
++extern void __FIQ_Branch(unsigned long *regs);
+
+ static inline void set_fiq_regs(struct pt_regs const *regs)
+ {
+diff -urN linux-3.10/arch/arm/Kconfig linux-rpi-3.10.y/arch/arm/Kconfig
+--- linux-3.10/arch/arm/Kconfig 2013-06-30 23:13:29.000000000 +0100
++++ linux-rpi-3.10.y/arch/arm/Kconfig 2013-07-06 15:25:50.000000000 +0100
+@@ -361,6 +361,23 @@
+ This enables support for systems based on Atmel
+ AT91RM9200 and AT91SAM9* processors.
+
++config ARCH_BCM2708
++ bool "Broadcom BCM2708 family"
++ select CPU_V6
++ select ARM_AMBA
++ select HAVE_CLK
++ select HAVE_SCHED_CLOCK
++ select NEED_MACH_MEMORY_H
++ select CLKDEV_LOOKUP
++ select ARCH_HAS_CPUFREQ
++ select GENERIC_CLOCKEVENTS
++ select ARM_ERRATA_411920
++ select MACH_BCM2708
++ select VC4
++ select FIQ
++ help
++ This enables support for Broadcom BCM2708 boards.
++
+ config ARCH_CLPS711X
+ bool "Cirrus Logic CLPS711x/EP721x/EP731x-based"
+ select ARCH_REQUIRE_GPIOLIB
+@@ -1025,6 +1042,7 @@
+ source "arch/arm/mach-vt8500/Kconfig"
+
+ source "arch/arm/mach-w90x900/Kconfig"
++source "arch/arm/mach-bcm2708/Kconfig"
+
+ source "arch/arm/mach-zynq/Kconfig"
+
+diff -urN linux-3.10/arch/arm/Kconfig.debug linux-rpi-3.10.y/arch/arm/Kconfig.debug
+--- linux-3.10/arch/arm/Kconfig.debug 2013-06-30 23:13:29.000000000 +0100
++++ linux-rpi-3.10.y/arch/arm/Kconfig.debug 2013-07-06 15:25:50.000000000 +0100
+@@ -519,6 +519,14 @@
+ For more details about semihosting, please see
+ chapter 8 of DUI0203I_rvct_developer_guide.pdf from ARM Ltd.
+
++ config DEBUG_BCM2708_UART0
++ bool "Broadcom BCM2708 UART0 (PL011)"
++ depends on MACH_BCM2708
++ help
++ Say Y here if you want the debug print routines to direct
++ their output to UART 0. The port must have been initialised
++ by the boot-loader before use.
++
+ endchoice
+
+ config DEBUG_EXYNOS_UART
+diff -urN linux-3.10/arch/arm/kernel/armksyms.c linux-rpi-3.10.y/arch/arm/kernel/armksyms.c
+--- linux-3.10/arch/arm/kernel/armksyms.c 2013-06-30 23:13:29.000000000 +0100
++++ linux-rpi-3.10.y/arch/arm/kernel/armksyms.c 2013-07-06 15:25:50.000000000 +0100
+@@ -156,3 +156,7 @@
+ #ifdef CONFIG_ARM_PATCH_PHYS_VIRT
+ EXPORT_SYMBOL(__pv_phys_offset);
+ #endif
++
++extern void v6wbi_flush_kern_tlb_range(void);
++EXPORT_SYMBOL(v6wbi_flush_kern_tlb_range);
++
+diff -urN linux-3.10/arch/arm/kernel/fiqasm.S linux-rpi-3.10.y/arch/arm/kernel/fiqasm.S
+--- linux-3.10/arch/arm/kernel/fiqasm.S 2013-06-30 23:13:29.000000000 +0100
++++ linux-rpi-3.10.y/arch/arm/kernel/fiqasm.S 2013-07-06 15:25:50.000000000 +0100
+@@ -25,6 +25,9 @@
+ ENTRY(__set_fiq_regs)
+ mov r2, #PSR_I_BIT | PSR_F_BIT | FIQ_MODE
+ mrs r1, cpsr
++@@@@@@@@@@@@@@@ hack: enable the fiq here to keep usb driver happy
++ and r1, #~PSR_F_BIT
++@@@@@@@@@@@@@@@ endhack: (need to find better place for this to happen)
+ msr cpsr_c, r2 @ select FIQ mode
+ mov r0, r0 @ avoid hazard prior to ARMv4
+ ldmia r0!, {r8 - r12}
+@@ -47,3 +50,7 @@
+ mov r0, r0 @ avoid hazard prior to ARMv4
+ mov pc, lr
+ ENDPROC(__get_fiq_regs)
++
++ENTRY(__FIQ_Branch)
++ mov pc, r8
++ENDPROC(__FIQ_Branch)
+diff -urN linux-3.10/arch/arm/kernel/fiq.c linux-rpi-3.10.y/arch/arm/kernel/fiq.c
+--- linux-3.10/arch/arm/kernel/fiq.c 2013-06-30 23:13:29.000000000 +0100
++++ linux-rpi-3.10.y/arch/arm/kernel/fiq.c 2013-07-06 15:25:50.000000000 +0100
+@@ -137,6 +137,7 @@
+ EXPORT_SYMBOL(set_fiq_handler);
+ EXPORT_SYMBOL(__set_fiq_regs); /* defined in fiqasm.S */
+ EXPORT_SYMBOL(__get_fiq_regs); /* defined in fiqasm.S */
++EXPORT_SYMBOL(__FIQ_Branch); /* defined in fiqasm.S */
+ EXPORT_SYMBOL(claim_fiq);
+ EXPORT_SYMBOL(release_fiq);
+ EXPORT_SYMBOL(enable_fiq);
+diff -urN linux-3.10/arch/arm/mach-bcm2708/armctrl.c linux-rpi-3.10.y/arch/arm/mach-bcm2708/armctrl.c
+--- linux-3.10/arch/arm/mach-bcm2708/armctrl.c 1970-01-01 01:00:00.000000000 +0100
++++ linux-rpi-3.10.y/arch/arm/mach-bcm2708/armctrl.c 2013-07-06 15:25:50.000000000 +0100
+@@ -0,0 +1,219 @@
++/*
++ * linux/arch/arm/mach-bcm2708/armctrl.c
++ *
++ * Copyright (C) 2010 Broadcom
++ *
++ * This program is free software; you can redistribute it and/or modify
++ * it under the terms of the GNU General Public License as published by
++ * the Free Software Foundation; either version 2 of the License, or
++ * (at your option) any later version.
++ *
++ * This program is distributed in the hope that it will be useful,
++ * but WITHOUT ANY WARRANTY; without even the implied warranty of
++ * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
++ * GNU General Public License for more details.
++ *
++ * You should have received a copy of the GNU General Public License
++ * along with this program; if not, write to the Free Software
++ * Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA
++ */
++#include <linux/init.h>
++#include <linux/list.h>
++#include <linux/io.h>
++#include <linux/version.h>
++#include <linux/syscore_ops.h>
++#include <linux/interrupt.h>
++
++#include <asm/mach/irq.h>
++#include <mach/hardware.h>
++#include "armctrl.h"
++
++/* For support of kernels >= 3.0 assume only one VIC for now*/
++static unsigned int remap_irqs[(INTERRUPT_ARASANSDIO + 1) - INTERRUPT_JPEG] = {
++ INTERRUPT_VC_JPEG,
++ INTERRUPT_VC_USB,
++ INTERRUPT_VC_3D,
++ INTERRUPT_VC_DMA2,
++ INTERRUPT_VC_DMA3,
++ INTERRUPT_VC_I2C,
++ INTERRUPT_VC_SPI,
++ INTERRUPT_VC_I2SPCM,
++ INTERRUPT_VC_SDIO,
++ INTERRUPT_VC_UART,
++ INTERRUPT_VC_ARASANSDIO
++};
++
++static void armctrl_mask_irq(struct irq_data *d)
++{
++ static const unsigned int disables[4] = {
++ ARM_IRQ_DIBL1,
++ ARM_IRQ_DIBL2,
++ ARM_IRQ_DIBL3,
++ 0
++ };
++
++ if (d->irq >= FIQ_START) {
++ writel(0, __io_address(ARM_IRQ_FAST));
++ } else {
++ unsigned int data = (unsigned int)irq_get_chip_data(d->irq);
++ writel(1 << (data & 0x1f), __io_address(disables[(data >> 5) & 0x3]));
++ }
++}
++
++static void armctrl_unmask_irq(struct irq_data *d)
++{
++ static const unsigned int enables[4] = {
++ ARM_IRQ_ENBL1,
++ ARM_IRQ_ENBL2,
++ ARM_IRQ_ENBL3,
++ 0
++ };
++
++ if (d->irq >= FIQ_START) {
++ unsigned int data =
++ (unsigned int)irq_get_chip_data(d->irq) - FIQ_START;
++ writel(0x80 | data, __io_address(ARM_IRQ_FAST));
++ } else {
++ unsigned int data = (unsigned int)irq_get_chip_data(d->irq);
++ writel(1 << (data & 0x1f), __io_address(enables[(data >> 5) & 0x3]));
++ }
++}
++
++#if defined(CONFIG_PM)
++
++/* for kernels 3.xx use the new syscore_ops apis but for older kernels use the sys dev class */
++
++/* Static defines
++ * struct armctrl_device - VIC PM device (< 3.xx)
++ * @sysdev: The system device which is registered. (< 3.xx)
++ * @irq: The IRQ number for the base of the VIC.
++ * @base: The register base for the VIC.
++ * @resume_sources: A bitmask of interrupts for resume.
++ * @resume_irqs: The IRQs enabled for resume.
++ * @int_select: Save for VIC_INT_SELECT.
++ * @int_enable: Save for VIC_INT_ENABLE.
++ * @soft_int: Save for VIC_INT_SOFT.
++ * @protect: Save for VIC_PROTECT.
++ */
++struct armctrl_info {
++ void __iomem *base;
++ int irq;
++ u32 resume_sources;
++ u32 resume_irqs;
++ u32 int_select;
++ u32 int_enable;
++ u32 soft_int;
++ u32 protect;
++} armctrl;
++
++static int armctrl_suspend(void)
++{
++ return 0;
++}
++
++static void armctrl_resume(void)
++{
++ return;
++}
++
++/**
++ * armctrl_pm_register - Register a VIC for later power management control
++ * @base: The base address of the VIC.
++ * @irq: The base IRQ for the VIC.
++ * @resume_sources: bitmask of interrupts allowed for resume sources.
++ *
++ * For older kernels (< 3.xx) do -
++ * Register the VIC with the system device tree so that it can be notified
++ * of suspend and resume requests and ensure that the correct actions are
++ * taken to re-instate the settings on resume.
++ */
++static void __init armctrl_pm_register(void __iomem * base, unsigned int irq,
++ u32 resume_sources)
++{
++ armctrl.base = base;
++ armctrl.resume_sources = resume_sources;
++ armctrl.irq = irq;
++}
++
++static int armctrl_set_wake(struct irq_data *d, unsigned int on)
++{
++ unsigned int off = d->irq & 31;
++ u32 bit = 1 << off;
++
++ if (!(bit & armctrl.resume_sources))
++ return -EINVAL;
++
++ if (on)
++ armctrl.resume_irqs |= bit;
++ else
++ armctrl.resume_irqs &= ~bit;
++
++ return 0;
++}
++
++#else
++static inline void armctrl_pm_register(void __iomem * base, unsigned int irq,
++ u32 arg1)
++{
++}
++
++#define armctrl_suspend NULL
++#define armctrl_resume NULL
++#define armctrl_set_wake NULL
++#endif /* CONFIG_PM */
++
++static struct syscore_ops armctrl_syscore_ops = {
++ .suspend = armctrl_suspend,
++ .resume = armctrl_resume,
++};
++
++/**
++ * armctrl_syscore_init - initicall to register VIC pm functions
++ *
++ * This is called via late_initcall() to register
++ * the resources for the VICs due to the early
++ * nature of the VIC's registration.
++*/
++static int __init armctrl_syscore_init(void)
++{
++ register_syscore_ops(&armctrl_syscore_ops);
++ return 0;
++}
++
++late_initcall(armctrl_syscore_init);
++
++static struct irq_chip armctrl_chip = {
++ .name = "ARMCTRL",
++ .irq_ack = armctrl_mask_irq,
++ .irq_mask = armctrl_mask_irq,
++ .irq_unmask = armctrl_unmask_irq,
++ .irq_set_wake = armctrl_set_wake,
++};
++
++/**
++ * armctrl_init - initialise a vectored interrupt controller
++ * @base: iomem base address
++ * @irq_start: starting interrupt number, must be muliple of 32
++ * @armctrl_sources: bitmask of interrupt sources to allow
++ * @resume_sources: bitmask of interrupt sources to allow for resume
++ */
++int __init armctrl_init(void __iomem * base, unsigned int irq_start,
++ u32 armctrl_sources, u32 resume_sources)
++{
++ unsigned int irq;
++
++ for (irq = 0; irq < NR_IRQS; irq++) {
++ unsigned int data = irq;
++ if (irq >= INTERRUPT_JPEG && irq <= INTERRUPT_ARASANSDIO)
++ data = remap_irqs[irq - INTERRUPT_JPEG];
++
++ irq_set_chip(irq, &armctrl_chip);
++ irq_set_chip_data(irq, (void *)data);
++ irq_set_handler(irq, handle_level_irq);
++ set_irq_flags(irq, IRQF_VALID | IRQF_PROBE | IRQF_DISABLED);
++ }
++
++ armctrl_pm_register(base, irq_start, resume_sources);
++ init_FIQ(FIQ_START);
++ return 0;
++}
+diff -urN linux-3.10/arch/arm/mach-bcm2708/armctrl.h linux-rpi-3.10.y/arch/arm/mach-bcm2708/armctrl.h
+--- linux-3.10/arch/arm/mach-bcm2708/armctrl.h 1970-01-01 01:00:00.000000000 +0100
++++ linux-rpi-3.10.y/arch/arm/mach-bcm2708/armctrl.h 2013-07-06 15:25:50.000000000 +0100
+@@ -0,0 +1,27 @@
++/*
++ * linux/arch/arm/mach-bcm2708/armctrl.h
++ *
++ * Copyright (C) 2010 Broadcom
++ *
++ * This program is free software; you can redistribute it and/or modify
++ * it under the terms of the GNU General Public License as published by
++ * the Free Software Foundation; either version 2 of the License, or
++ * (at your option) any later version.
++ *
++ * This program is distributed in the hope that it will be useful,
++ * but WITHOUT ANY WARRANTY; without even the implied warranty of
++ * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
++ * GNU General Public License for more details.
++ *
++ * You should have received a copy of the GNU General Public License
++ * along with this program; if not, write to the Free Software
++ * Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA
++ */
++
++#ifndef __BCM2708_ARMCTRL_H
++#define __BCM2708_ARMCTRL_H
++
++extern int __init armctrl_init(void __iomem * base, unsigned int irq_start,
++ u32 armctrl_sources, u32 resume_sources);
++
++#endif
+diff -urN linux-3.10/arch/arm/mach-bcm2708/bcm2708.c linux-rpi-3.10.y/arch/arm/mach-bcm2708/bcm2708.c
+--- linux-3.10/arch/arm/mach-bcm2708/bcm2708.c 1970-01-01 01:00:00.000000000 +0100
++++ linux-rpi-3.10.y/arch/arm/mach-bcm2708/bcm2708.c 2013-07-06 15:25:50.000000000 +0100
+@@ -0,0 +1,885 @@
++/*
++ * linux/arch/arm/mach-bcm2708/bcm2708.c
++ *
++ * Copyright (C) 2010 Broadcom
++ *
++ * This program is free software; you can redistribute it and/or modify
++ * it under the terms of the GNU General Public License as published by
++ * the Free Software Foundation; either version 2 of the License, or
++ * (at your option) any later version.
++ *
++ * This program is distributed in the hope that it will be useful,
++ * but WITHOUT ANY WARRANTY; without even the implied warranty of
++ * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
++ * GNU General Public License for more details.
++ *
++ * You should have received a copy of the GNU General Public License
++ * along with this program; if not, write to the Free Software
++ * Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA
++ */
++
++#include <linux/init.h>
++#include <linux/device.h>
++#include <linux/dma-mapping.h>
++#include <linux/serial_8250.h>
++#include <linux/platform_device.h>
++#include <linux/syscore_ops.h>
++#include <linux/interrupt.h>
++#include <linux/amba/bus.h>
++#include <linux/amba/clcd.h>
++#include <linux/clockchips.h>
++#include <linux/cnt32_to_63.h>
++#include <linux/io.h>
++#include <linux/module.h>
++#include <linux/spi/spi.h>
++#include <linux/w1-gpio.h>
++
++#include <linux/version.h>
++#include <linux/clkdev.h>
++#include <asm/system.h>
++#include <mach/hardware.h>
++#include <asm/irq.h>
++#include <linux/leds.h>
++#include <asm/mach-types.h>
++#include <asm/sched_clock.h>
++
++#include <asm/mach/arch.h>
++#include <asm/mach/flash.h>
++#include <asm/mach/irq.h>
++#include <asm/mach/time.h>
++#include <asm/mach/map.h>
++
++#include <mach/timex.h>
++#include <mach/dma.h>
++#include <mach/vcio.h>
++#include <mach/system.h>
++
++#include <linux/delay.h>
++
++#include "bcm2708.h"
++#include "armctrl.h"
++#include "clock.h"
++
++#ifdef CONFIG_BCM_VC_CMA
++#include <linux/broadcom/vc_cma.h>
++#endif
++
++
++/* Effectively we have an IOMMU (ARM<->VideoCore map) that is set up to
++ * give us IO access only to 64Mbytes of physical memory (26 bits). We could
++ * represent this window by setting our dmamasks to 26 bits but, in fact
++ * we're not going to use addresses outside this range (they're not in real
++ * memory) so we don't bother.
++ *
++ * In the future we might include code to use this IOMMU to remap other
++ * physical addresses onto VideoCore memory then the use of 32-bits would be
++ * more legitimate.
++ */
++#define DMA_MASK_BITS_COMMON 32
++
++// use GPIO 4 for the one-wire GPIO pin, if enabled
++#define W1_GPIO 4
++
++/* command line parameters */
++static unsigned boardrev, serial;
++static unsigned uart_clock;
++
++static void __init bcm2708_init_led(void);
++
++void __init bcm2708_init_irq(void)
++{
++ armctrl_init(__io_address(ARMCTRL_IC_BASE), 0, 0, 0);
++}
++
++static struct map_desc bcm2708_io_desc[] __initdata = {
++ {
++ .virtual = IO_ADDRESS(ARMCTRL_BASE),
++ .pfn = __phys_to_pfn(ARMCTRL_BASE),
++ .length = SZ_4K,
++ .type = MT_DEVICE},
++ {
++ .virtual = IO_ADDRESS(UART0_BASE),
++ .pfn = __phys_to_pfn(UART0_BASE),
++ .length = SZ_4K,
++ .type = MT_DEVICE},
++ {
++ .virtual = IO_ADDRESS(UART1_BASE),
++ .pfn = __phys_to_pfn(UART1_BASE),
++ .length = SZ_4K,
++ .type = MT_DEVICE},
++ {
++ .virtual = IO_ADDRESS(DMA_BASE),
++ .pfn = __phys_to_pfn(DMA_BASE),
++ .length = SZ_4K,
++ .type = MT_DEVICE},
++ {
++ .virtual = IO_ADDRESS(MCORE_BASE),
++ .pfn = __phys_to_pfn(MCORE_BASE),
++ .length = SZ_4K,
++ .type = MT_DEVICE},
++ {
++ .virtual = IO_ADDRESS(ST_BASE),
++ .pfn = __phys_to_pfn(ST_BASE),
++ .length = SZ_4K,
++ .type = MT_DEVICE},
++ {
++ .virtual = IO_ADDRESS(USB_BASE),
++ .pfn = __phys_to_pfn(USB_BASE),
++ .length = SZ_128K,
++ .type = MT_DEVICE},
++ {
++ .virtual = IO_ADDRESS(PM_BASE),
++ .pfn = __phys_to_pfn(PM_BASE),
++ .length = SZ_4K,
++ .type = MT_DEVICE},
++ {
++ .virtual = IO_ADDRESS(GPIO_BASE),
++ .pfn = __phys_to_pfn(GPIO_BASE),
++ .length = SZ_4K,
++ .type = MT_DEVICE}
++};
++
++void __init bcm2708_map_io(void)
++{
++ iotable_init(bcm2708_io_desc, ARRAY_SIZE(bcm2708_io_desc));
++}
++
++/* The STC is a free running counter that increments at the rate of 1MHz */
++#define STC_FREQ_HZ 1000000
++
++static inline uint32_t timer_read(void)
++{
++ /* STC: a free running counter that increments at the rate of 1MHz */
++ return readl(__io_address(ST_BASE + 0x04));
++}
++
++static unsigned long bcm2708_read_current_timer(void)
++{
++ return timer_read();
++}
++
++static u32 notrace bcm2708_read_sched_clock(void)
++{
++ return timer_read();
++}
++
++static cycle_t clksrc_read(struct clocksource *cs)
++{
++ return timer_read();
++}
++
++static struct clocksource clocksource_stc = {
++ .name = "stc",
++ .rating = 300,
++ .read = clksrc_read,
++ .mask = CLOCKSOURCE_MASK(32),
++ .flags = CLOCK_SOURCE_IS_CONTINUOUS,
++};
++
++unsigned long frc_clock_ticks32(void)
++{
++ return timer_read();
++}
++
++static void __init bcm2708_clocksource_init(void)
++{
++ if (clocksource_register_hz(&clocksource_stc, STC_FREQ_HZ)) {
++ printk(KERN_ERR "timer: failed to initialize clock "
++ "source %s\n", clocksource_stc.name);
++ }
++}
++
++
++/*
++ * These are fixed clocks.
++ */
++static struct clk ref24_clk = {
++ .rate = UART0_CLOCK, /* The UART is clocked at 3MHz via APB_CLK */
++};
++
++static struct clk osc_clk = {
++#ifdef CONFIG_ARCH_BCM2708_CHIPIT
++ .rate = 27000000,
++#else
++ .rate = 500000000, /* ARM clock is set from the VideoCore booter */
++#endif
++};
++
++/* warning - the USB needs a clock > 34MHz */
++
++static struct clk sdhost_clk = {
++#ifdef CONFIG_ARCH_BCM2708_CHIPIT
++ .rate = 4000000, /* 4MHz */
++#else
++ .rate = 250000000, /* 250MHz */
++#endif
++};
++
++static struct clk_lookup lookups[] = {
++ { /* UART0 */
++ .dev_id = "dev:f1",
++ .clk = &ref24_clk,
++ },
++ { /* USB */
++ .dev_id = "bcm2708_usb",
++ .clk = &osc_clk,
++ }, { /* SPI */
++ .dev_id = "bcm2708_spi.0",
++ .clk = &sdhost_clk,
++ }, { /* BSC0 */
++ .dev_id = "bcm2708_i2c.0",
++ .clk = &sdhost_clk,
++ }, { /* BSC1 */
++ .dev_id = "bcm2708_i2c.1",
++ .clk = &sdhost_clk,
++ }
++};
++
++#define UART0_IRQ { IRQ_UART, 0 /*NO_IRQ*/ }
++#define UART0_DMA { 15, 14 }
++
++AMBA_DEVICE(uart0, "dev:f1", UART0, NULL);
++
++static struct amba_device *amba_devs[] __initdata = {
++ &uart0_device,
++};
++
++static struct resource bcm2708_dmaman_resources[] = {
++ {
++ .start = DMA_BASE,
++ .end = DMA_BASE + SZ_4K - 1,
++ .flags = IORESOURCE_MEM,
++ }
++};
++
++static struct platform_device bcm2708_dmaman_device = {
++ .name = BCM_DMAMAN_DRIVER_NAME,
++ .id = 0, /* first bcm2708_dma */
++ .resource = bcm2708_dmaman_resources,
++ .num_resources = ARRAY_SIZE(bcm2708_dmaman_resources),
++};
++
++#if defined(CONFIG_W1_MASTER_GPIO) || defined(CONFIG_W1_MASTER_GPIO_MODULE)
++static struct w1_gpio_platform_data w1_gpio_pdata = {
++ .pin = W1_GPIO,
++ .is_open_drain = 0,
++};
++
++static struct platform_device w1_device = {
++ .name = "w1-gpio",
++ .id = -1,
++ .dev.platform_data = &w1_gpio_pdata,
++};
++#endif
++
++static u64 fb_dmamask = DMA_BIT_MASK(DMA_MASK_BITS_COMMON);
++
++static struct platform_device bcm2708_fb_device = {
++ .name = "bcm2708_fb",
++ .id = -1, /* only one bcm2708_fb */
++ .resource = NULL,
++ .num_resources = 0,
++ .dev = {
++ .dma_mask = &fb_dmamask,
++ .coherent_dma_mask = DMA_BIT_MASK(DMA_MASK_BITS_COMMON),
++ },
++};
++
++static struct plat_serial8250_port bcm2708_uart1_platform_data[] = {
++ {
++ .mapbase = UART1_BASE + 0x40,
++ .irq = IRQ_AUX,
++ .uartclk = 125000000,
++ .regshift = 2,
++ .iotype = UPIO_MEM,
++ .flags = UPF_FIXED_TYPE | UPF_IOREMAP | UPF_SKIP_TEST,
++ .type = PORT_8250,
++ },
++ {},
++};
++
++static struct platform_device bcm2708_uart1_device = {
++ .name = "serial8250",
++ .id = PLAT8250_DEV_PLATFORM,
++ .dev = {
++ .platform_data = bcm2708_uart1_platform_data,
++ },
++};
++
++static struct resource bcm2708_usb_resources[] = {
++ [0] = {
++ .start = USB_BASE,
++ .end = USB_BASE + SZ_128K - 1,
++ .flags = IORESOURCE_MEM,
++ },
++ [1] = {
++ .start = MPHI_BASE,
++ .end = MPHI_BASE + SZ_4K - 1,
++ .flags = IORESOURCE_MEM,
++ },
++ [2] = {
++ .start = IRQ_HOSTPORT,
++ .end = IRQ_HOSTPORT,
++ .flags = IORESOURCE_IRQ,
++ },
++};
++
++bool fiq_fix_enable = true;
++
++static struct resource bcm2708_usb_resources_no_fiq_fix[] = {
++ [0] = {
++ .start = USB_BASE,
++ .end = USB_BASE + SZ_128K - 1,
++ .flags = IORESOURCE_MEM,
++ },
++ [1] = {
++ .start = IRQ_USB,
++ .end = IRQ_USB,
++ .flags = IORESOURCE_IRQ,
++ },
++};
++
++static u64 usb_dmamask = DMA_BIT_MASK(DMA_MASK_BITS_COMMON);
++
++static struct platform_device bcm2708_usb_device = {
++ .name = "bcm2708_usb",
++ .id = -1, /* only one bcm2708_usb */
++ .resource = bcm2708_usb_resources,
++ .num_resources = ARRAY_SIZE(bcm2708_usb_resources),
++ .dev = {
++ .dma_mask = &usb_dmamask,
++ .coherent_dma_mask = DMA_BIT_MASK(DMA_MASK_BITS_COMMON),
++ },
++};
++
++static struct resource bcm2708_vcio_resources[] = {
++ [0] = { /* mailbox/semaphore/doorbell access */
++ .start = MCORE_BASE,
++ .end = MCORE_BASE + SZ_4K - 1,
++ .flags = IORESOURCE_MEM,
++ },
++};
++
++static u64 vcio_dmamask = DMA_BIT_MASK(DMA_MASK_BITS_COMMON);
++
++static struct platform_device bcm2708_vcio_device = {
++ .name = BCM_VCIO_DRIVER_NAME,
++ .id = -1, /* only one VideoCore I/O area */
++ .resource = bcm2708_vcio_resources,
++ .num_resources = ARRAY_SIZE(bcm2708_vcio_resources),
++ .dev = {
++ .dma_mask = &vcio_dmamask,
++ .coherent_dma_mask = DMA_BIT_MASK(DMA_MASK_BITS_COMMON),
++ },
++};
++
++#ifdef CONFIG_BCM2708_GPIO
++#define BCM_GPIO_DRIVER_NAME "bcm2708_gpio"
++
++static struct resource bcm2708_gpio_resources[] = {
++ [0] = { /* general purpose I/O */
++ .start = GPIO_BASE,
++ .end = GPIO_BASE + SZ_4K - 1,
++ .flags = IORESOURCE_MEM,
++ },
++};
++
++static u64 gpio_dmamask = DMA_BIT_MASK(DMA_MASK_BITS_COMMON);
++
++static struct platform_device bcm2708_gpio_device = {
++ .name = BCM_GPIO_DRIVER_NAME,
++ .id = -1, /* only one VideoCore I/O area */
++ .resource = bcm2708_gpio_resources,
++ .num_resources = ARRAY_SIZE(bcm2708_gpio_resources),
++ .dev = {
++ .dma_mask = &gpio_dmamask,
++ .coherent_dma_mask = DMA_BIT_MASK(DMA_MASK_BITS_COMMON),
++ },
++};
++#endif
++
++static struct resource bcm2708_systemtimer_resources[] = {
++ [0] = { /* system timer access */
++ .start = ST_BASE,
++ .end = ST_BASE + SZ_4K - 1,
++ .flags = IORESOURCE_MEM,
++ },
++ {
++ .start = IRQ_TIMER3,
++ .end = IRQ_TIMER3,
++ .flags = IORESOURCE_IRQ,
++ }
++
++};
++
++static u64 systemtimer_dmamask = DMA_BIT_MASK(DMA_MASK_BITS_COMMON);
++
++static struct platform_device bcm2708_systemtimer_device = {
++ .name = "bcm2708_systemtimer",
++ .id = -1, /* only one VideoCore I/O area */
++ .resource = bcm2708_systemtimer_resources,
++ .num_resources = ARRAY_SIZE(bcm2708_systemtimer_resources),
++ .dev = {
++ .dma_mask = &systemtimer_dmamask,
++ .coherent_dma_mask = DMA_BIT_MASK(DMA_MASK_BITS_COMMON),
++ },
++};
++
++#ifdef CONFIG_MMC_SDHCI_BCM2708 /* Arasan emmc SD */
++static struct resource bcm2708_emmc_resources[] = {
++ [0] = {
++ .start = EMMC_BASE,
++ .end = EMMC_BASE + SZ_256 - 1, /* we only need this area */
++ /* the memory map actually makes SZ_4K available */
++ .flags = IORESOURCE_MEM,
++ },
++ [1] = {
++ .start = IRQ_ARASANSDIO,
++ .end = IRQ_ARASANSDIO,
++ .flags = IORESOURCE_IRQ,
++ },
++};
++
++static u64 bcm2708_emmc_dmamask = 0xffffffffUL;
++
++struct platform_device bcm2708_emmc_device = {
++ .name = "bcm2708_sdhci",
++ .id = 0,
++ .num_resources = ARRAY_SIZE(bcm2708_emmc_resources),
++ .resource = bcm2708_emmc_resources,
++ .dev = {
++ .dma_mask = &bcm2708_emmc_dmamask,
++ .coherent_dma_mask = 0xffffffffUL},
++};
++#endif /* CONFIG_MMC_SDHCI_BCM2708 */
++
++static struct resource bcm2708_powerman_resources[] = {
++ [0] = {
++ .start = PM_BASE,
++ .end = PM_BASE + SZ_256 - 1,
++ .flags = IORESOURCE_MEM,
++ },
++};
++
++static u64 powerman_dmamask = DMA_BIT_MASK(DMA_MASK_BITS_COMMON);
++
++struct platform_device bcm2708_powerman_device = {
++ .name = "bcm2708_powerman",
++ .id = 0,
++ .num_resources = ARRAY_SIZE(bcm2708_powerman_resources),
++ .resource = bcm2708_powerman_resources,
++ .dev = {
++ .dma_mask = &powerman_dmamask,
++ .coherent_dma_mask = 0xffffffffUL},
++};
++
++
++static struct platform_device bcm2708_alsa_devices[] = {
++ [0] = {
++ .name = "bcm2835_AUD0",
++ .id = 0, /* first audio device */
++ .resource = 0,
++ .num_resources = 0,
++ },
++ [1] = {
++ .name = "bcm2835_AUD1",
++ .id = 1, /* second audio device */
++ .resource = 0,
++ .num_resources = 0,
++ },
++ [2] = {
++ .name = "bcm2835_AUD2",
++ .id = 2, /* third audio device */
++ .resource = 0,
++ .num_resources = 0,
++ },
++ [3] = {
++ .name = "bcm2835_AUD3",
++ .id = 3, /* forth audio device */
++ .resource = 0,
++ .num_resources = 0,
++ },
++ [4] = {
++ .name = "bcm2835_AUD4",
++ .id = 4, /* fifth audio device */
++ .resource = 0,
++ .num_resources = 0,
++ },
++ [5] = {
++ .name = "bcm2835_AUD5",
++ .id = 5, /* sixth audio device */
++ .resource = 0,
++ .num_resources = 0,
++ },
++ [6] = {
++ .name = "bcm2835_AUD6",
++ .id = 6, /* seventh audio device */
++ .resource = 0,
++ .num_resources = 0,
++ },
++ [7] = {
++ .name = "bcm2835_AUD7",
++ .id = 7, /* eighth audio device */
++ .resource = 0,
++ .num_resources = 0,
++ },
++};
++
++static struct resource bcm2708_spi_resources[] = {
++ {
++ .start = SPI0_BASE,
++ .end = SPI0_BASE + SZ_256 - 1,
++ .flags = IORESOURCE_MEM,
++ }, {
++ .start = IRQ_SPI,
++ .end = IRQ_SPI,
++ .flags = IORESOURCE_IRQ,
++ }
++};
++
++
++static struct platform_device bcm2708_spi_device = {
++ .name = "bcm2708_spi",
++ .id = 0,
++ .num_resources = ARRAY_SIZE(bcm2708_spi_resources),
++ .resource = bcm2708_spi_resources,
++};
++
++#ifdef CONFIG_BCM2708_SPIDEV
++static struct spi_board_info bcm2708_spi_devices[] = {
++#ifdef CONFIG_SPI_SPIDEV
++ {
++ .modalias = "spidev",
++ .max_speed_hz = 500000,
++ .bus_num = 0,
++ .chip_select = 0,
++ .mode = SPI_MODE_0,
++ }, {
++ .modalias = "spidev",
++ .max_speed_hz = 500000,
++ .bus_num = 0,
++ .chip_select = 1,
++ .mode = SPI_MODE_0,
++ }
++#endif
++};
++#endif
++
++static struct resource bcm2708_bsc0_resources[] = {
++ {
++ .start = BSC0_BASE,
++ .end = BSC0_BASE + SZ_256 - 1,
++ .flags = IORESOURCE_MEM,
++ }, {
++ .start = INTERRUPT_I2C,
++ .end = INTERRUPT_I2C,
++ .flags = IORESOURCE_IRQ,
++ }
++};
++
++static struct platform_device bcm2708_bsc0_device = {
++ .name = "bcm2708_i2c",
++ .id = 0,
++ .num_resources = ARRAY_SIZE(bcm2708_bsc0_resources),
++ .resource = bcm2708_bsc0_resources,
++};
++
++
++static struct resource bcm2708_bsc1_resources[] = {
++ {
++ .start = BSC1_BASE,
++ .end = BSC1_BASE + SZ_256 - 1,
++ .flags = IORESOURCE_MEM,
++ }, {
++ .start = INTERRUPT_I2C,
++ .end = INTERRUPT_I2C,
++ .flags = IORESOURCE_IRQ,
++ }
++};
++
++static struct platform_device bcm2708_bsc1_device = {
++ .name = "bcm2708_i2c",
++ .id = 1,
++ .num_resources = ARRAY_SIZE(bcm2708_bsc1_resources),
++ .resource = bcm2708_bsc1_resources,
++};
++
++static struct platform_device bcm2835_hwmon_device = {
++ .name = "bcm2835_hwmon",
++};
++
++static struct platform_device bcm2835_thermal_device = {
++ .name = "bcm2835_thermal",
++};
++
++int __init bcm_register_device(struct platform_device *pdev)
++{
++ int ret;
++
++ ret = platform_device_register(pdev);
++ if (ret)
++ pr_debug("Unable to register platform device '%s': %d\n",
++ pdev->name, ret);
++
++ return ret;
++}
++
++static void bcm2708_restart(char mode, const char *cmd)
++{
++ uint32_t pm_rstc, pm_wdog;
++ uint32_t timeout = 10;
++
++ /* For quick reset notification add reboot=q to cmdline
++ */
++ if(mode == 'q')
++ {
++ uint32_t pm_rsts = readl(__io_address(PM_RSTS));
++ pm_rsts = PM_PASSWORD | pm_rsts | PM_RSTS_HADWRQ_SET;
++ writel(pm_rsts, __io_address(PM_RSTS));
++ }
++
++ /* Setup watchdog for reset */
++ pm_rstc = readl(__io_address(PM_RSTC));
++
++ pm_wdog = PM_PASSWORD | (timeout & PM_WDOG_TIME_SET); // watchdog timer = timer clock / 16; need password (31:16) + value (11:0)
++ pm_rstc = PM_PASSWORD | (pm_rstc & PM_RSTC_WRCFG_CLR) | PM_RSTC_WRCFG_FULL_RESET;
++
++ writel(pm_wdog, __io_address(PM_WDOG));
++ writel(pm_rstc, __io_address(PM_RSTC));
++}
++
++/* We can't really power off, but if we do the normal reset scheme, and indicate to bootcode.bin not to reboot, then most of the chip will be powered off */
++static void bcm2708_power_off(void)
++{
++ /* we set the watchdog hard reset bit here to distinguish this reset from the normal (full) reset. bootcode.bin will not reboot after a hard reset */
++ uint32_t pm_rsts = readl(__io_address(PM_RSTS));
++ pm_rsts = PM_PASSWORD | (pm_rsts & PM_RSTC_WRCFG_CLR) | PM_RSTS_HADWRH_SET;
++ writel(pm_rsts, __io_address(PM_RSTS));
++ /* continue with normal reset mechanism */
++ bcm2708_restart(0, "");
++}
++
++void __init bcm2708_init(void)
++{
++ int i;
++
++#if defined(CONFIG_BCM_VC_CMA)
++ vc_cma_early_init();
++#endif
++ printk("bcm2708.uart_clock = %d\n", uart_clock);
++ pm_power_off = bcm2708_power_off;
++
++ if (uart_clock)
++ lookups[0].clk->rate = uart_clock;
++
++ for (i = 0; i < ARRAY_SIZE(lookups); i++)
++ clkdev_add(&lookups[i]);
++
++ bcm_register_device(&bcm2708_dmaman_device);
++ bcm_register_device(&bcm2708_vcio_device);
++#ifdef CONFIG_BCM2708_GPIO
++ bcm_register_device(&bcm2708_gpio_device);
++#endif
++#if defined(CONFIG_W1_MASTER_GPIO) || defined(CONFIG_W1_MASTER_GPIO_MODULE)
++ platform_device_register(&w1_device);
++#endif
++ bcm_register_device(&bcm2708_systemtimer_device);
++ bcm_register_device(&bcm2708_fb_device);
++ if (!fiq_fix_enable)
++ {
++ bcm2708_usb_device.resource = bcm2708_usb_resources_no_fiq_fix;
++ bcm2708_usb_device.num_resources = ARRAY_SIZE(bcm2708_usb_resources_no_fiq_fix);
++ }
++ bcm_register_device(&bcm2708_usb_device);
++ bcm_register_device(&bcm2708_uart1_device);
++ bcm_register_device(&bcm2708_powerman_device);
++
++#ifdef CONFIG_MMC_SDHCI_BCM2708
++ bcm_register_device(&bcm2708_emmc_device);
++#endif
++ bcm2708_init_led();
++ for (i = 0; i < ARRAY_SIZE(bcm2708_alsa_devices); i++)
++ bcm_register_device(&bcm2708_alsa_devices[i]);
++
++ bcm_register_device(&bcm2708_spi_device);
++ bcm_register_device(&bcm2708_bsc0_device);
++ bcm_register_device(&bcm2708_bsc1_device);
++
++ bcm_register_device(&bcm2835_hwmon_device);
++ bcm_register_device(&bcm2835_thermal_device);
++
++ for (i = 0; i < ARRAY_SIZE(amba_devs); i++) {
++ struct amba_device *d = amba_devs[i];
++ amba_device_register(d, &iomem_resource);
++ }
++ system_rev = boardrev;
++ system_serial_low = serial;
++
++#ifdef CONFIG_BCM2708_SPIDEV
++ spi_register_board_info(bcm2708_spi_devices,
++ ARRAY_SIZE(bcm2708_spi_devices));
++#endif
++}
++
++static void timer_set_mode(enum clock_event_mode mode,
++ struct clock_event_device *clk)
++{
++ switch (mode) {
++ case CLOCK_EVT_MODE_ONESHOT: /* Leave the timer disabled, .set_next_event will enable it */
++ case CLOCK_EVT_MODE_SHUTDOWN:
++ break;
++ case CLOCK_EVT_MODE_PERIODIC:
++
++ case CLOCK_EVT_MODE_UNUSED:
++ case CLOCK_EVT_MODE_RESUME:
++
++ default:
++ printk(KERN_ERR "timer_set_mode: unhandled mode:%d\n",
++ (int)mode);
++ break;
++ }
++
++}
++
++static int timer_set_next_event(unsigned long cycles,
++ struct clock_event_device *unused)
++{
++ unsigned long stc;
++
++ stc = readl(__io_address(ST_BASE + 0x04));
++ writel(stc + cycles, __io_address(ST_BASE + 0x18)); /* stc3 */
++ return 0;
++}
++
++static struct clock_event_device timer0_clockevent = {
++ .name = "timer0",
++ .shift = 32,
++ .features = CLOCK_EVT_FEAT_ONESHOT,
++ .set_mode = timer_set_mode,
++ .set_next_event = timer_set_next_event,
++};
++
++/*
++ * IRQ handler for the timer
++ */
++static irqreturn_t bcm2708_timer_interrupt(int irq, void *dev_id)
++{
++ struct clock_event_device *evt = &timer0_clockevent;
++
++ writel(1 << 3, __io_address(ST_BASE + 0x00)); /* stcs clear timer int */
++
++ evt->event_handler(evt);
++
++ return IRQ_HANDLED;
++}
++
++static struct irqaction bcm2708_timer_irq = {
++ .name = "BCM2708 Timer Tick",
++ .flags = IRQF_DISABLED | IRQF_TIMER | IRQF_IRQPOLL,
++ .handler = bcm2708_timer_interrupt,
++};
++
++/*
++ * Set up timer interrupt, and return the current time in seconds.
++ */
++
++static struct delay_timer bcm2708_delay_timer = {
++ .read_current_timer = bcm2708_read_current_timer,
++ .freq = STC_FREQ_HZ,
++};
++
++static void __init bcm2708_timer_init(void)
++{
++ /* init high res timer */
++ bcm2708_clocksource_init();
++
++ /*
++ * Initialise to a known state (all timers off)
++ */
++ writel(0, __io_address(ARM_T_CONTROL));
++ /*
++ * Make irqs happen for the system timer
++ */
++ setup_irq(IRQ_TIMER3, &bcm2708_timer_irq);
++
++ setup_sched_clock(bcm2708_read_sched_clock, 32, STC_FREQ_HZ);
++
++ timer0_clockevent.mult =
++ div_sc(STC_FREQ_HZ, NSEC_PER_SEC, timer0_clockevent.shift);
++ timer0_clockevent.max_delta_ns =
++ clockevent_delta2ns(0xffffffff, &timer0_clockevent);
++ timer0_clockevent.min_delta_ns =
++ clockevent_delta2ns(0xf, &timer0_clockevent);
++
++ timer0_clockevent.cpumask = cpumask_of(0);
++ clockevents_register_device(&timer0_clockevent);
++
++ register_current_timer_delay(&bcm2708_delay_timer);
++}
++
++#if defined(CONFIG_LEDS_GPIO) || defined(CONFIG_LEDS_GPIO_MODULE)
++#include <linux/leds.h>
++
++static struct gpio_led bcm2708_leds[] = {
++ [0] = {
++ .gpio = 16,
++ .name = "led0",
++ .default_trigger = "mmc0",
++ .active_low = 1,
++ },
++};
++
++static struct gpio_led_platform_data bcm2708_led_pdata = {
++ .num_leds = ARRAY_SIZE(bcm2708_leds),
++ .leds = bcm2708_leds,
++};
++
++static struct platform_device bcm2708_led_device = {
++ .name = "leds-gpio",
++ .id = -1,
++ .dev = {
++ .platform_data = &bcm2708_led_pdata,
++ },
++};
++
++static void __init bcm2708_init_led(void)
++{
++ platform_device_register(&bcm2708_led_device);
++}
++#else
++static inline void bcm2708_init_led(void)
++{
++}
++#endif
++
++void __init bcm2708_init_early(void)
++{
++ /*
++ * Some devices allocate their coherent buffers from atomic
++ * context. Increase size of atomic coherent pool to make sure such
++ * the allocations won't fail.
++ */
++ init_dma_coherent_pool_size(SZ_4M);
++}
++
++static void __init board_reserve(void)
++{
++#if defined(CONFIG_BCM_VC_CMA)
++ vc_cma_reserve();
++#endif
++}
++
++MACHINE_START(BCM2708, "BCM2708")
++ /* Maintainer: Broadcom Europe Ltd. */
++ .map_io = bcm2708_map_io,
++ .init_irq = bcm2708_init_irq,
++ .init_time = bcm2708_timer_init,
++ .init_machine = bcm2708_init,
++ .init_early = bcm2708_init_early,
++ .reserve = board_reserve,
++ .restart = bcm2708_restart,
++MACHINE_END
++
++module_param(boardrev, uint, 0644);
++module_param(serial, uint, 0644);
++module_param(uart_clock, uint, 0644);
+diff -urN linux-3.10/arch/arm/mach-bcm2708/bcm2708_gpio.c linux-rpi-3.10.y/arch/arm/mach-bcm2708/bcm2708_gpio.c
+--- linux-3.10/arch/arm/mach-bcm2708/bcm2708_gpio.c 1970-01-01 01:00:00.000000000 +0100
++++ linux-rpi-3.10.y/arch/arm/mach-bcm2708/bcm2708_gpio.c 2013-07-06 15:25:50.000000000 +0100
+@@ -0,0 +1,339 @@
++/*
++ * linux/arch/arm/mach-bcm2708/bcm2708_gpio.c
++ *
++ * Copyright (C) 2010 Broadcom
++ *
++ * This program is free software; you can redistribute it and/or modify
++ * it under the terms of the GNU General Public License version 2 as
++ * published by the Free Software Foundation.
++ *
++ */
++
++#include <linux/spinlock.h>
++#include <linux/module.h>
++#include <linux/list.h>
++#include <linux/io.h>
++#include <linux/irq.h>
++#include <linux/interrupt.h>
++#include <linux/slab.h>
++#include <mach/gpio.h>
++#include <linux/gpio.h>
++#include <linux/platform_device.h>
++#include <mach/platform.h>
++
++#define BCM_GPIO_DRIVER_NAME "bcm2708_gpio"
++#define DRIVER_NAME BCM_GPIO_DRIVER_NAME
++#define BCM_GPIO_USE_IRQ 1
++
++#define GPIOFSEL(x) (0x00+(x)*4)
++#define GPIOSET(x) (0x1c+(x)*4)
++#define GPIOCLR(x) (0x28+(x)*4)
++#define GPIOLEV(x) (0x34+(x)*4)
++#define GPIOEDS(x) (0x40+(x)*4)
++#define GPIOREN(x) (0x4c+(x)*4)
++#define GPIOFEN(x) (0x58+(x)*4)
++#define GPIOHEN(x) (0x64+(x)*4)
++#define GPIOLEN(x) (0x70+(x)*4)
++#define GPIOAREN(x) (0x7c+(x)*4)
++#define GPIOAFEN(x) (0x88+(x)*4)
++#define GPIOUD(x) (0x94+(x)*4)
++#define GPIOUDCLK(x) (0x98+(x)*4)
++
++enum { GPIO_FSEL_INPUT, GPIO_FSEL_OUTPUT,
++ GPIO_FSEL_ALT5, GPIO_FSEL_ALT_4,
++ GPIO_FSEL_ALT0, GPIO_FSEL_ALT1,
++ GPIO_FSEL_ALT2, GPIO_FSEL_ALT3,
++};
++
++ /* Each of the two spinlocks protects a different set of hardware
++ * regiters and data structurs. This decouples the code of the IRQ from
++ * the GPIO code. This also makes the case of a GPIO routine call from
++ * the IRQ code simpler.
++ */
++static DEFINE_SPINLOCK(lock); /* GPIO registers */
++
++struct bcm2708_gpio {
++ struct list_head list;
++ void __iomem *base;
++ struct gpio_chip gc;
++ unsigned long rising;
++ unsigned long falling;
++};
++
++static int bcm2708_set_function(struct gpio_chip *gc, unsigned offset,
++ int function)
++{
++ struct bcm2708_gpio *gpio = container_of(gc, struct bcm2708_gpio, gc);
++ unsigned long flags;
++ unsigned gpiodir;
++ unsigned gpio_bank = offset / 10;
++ unsigned gpio_field_offset = (offset - 10 * gpio_bank) * 3;
++
++//printk(KERN_ERR DRIVER_NAME ": bcm2708_gpio_set_function %p (%d,%d)\n", gc, offset, function);
++ if (offset >= ARCH_NR_GPIOS)
++ return -EINVAL;
++
++ spin_lock_irqsave(&lock, flags);
++
++ gpiodir = readl(gpio->base + GPIOFSEL(gpio_bank));
++ gpiodir &= ~(7 << gpio_field_offset);
++ gpiodir |= function << gpio_field_offset;
++ writel(gpiodir, gpio->base + GPIOFSEL(gpio_bank));
++ spin_unlock_irqrestore(&lock, flags);
++ gpiodir = readl(gpio->base + GPIOFSEL(gpio_bank));
++
++ return 0;
++}
++
++static int bcm2708_gpio_dir_in(struct gpio_chip *gc, unsigned offset)
++{
++ return bcm2708_set_function(gc, offset, GPIO_FSEL_INPUT);
++}
++
++static void bcm2708_gpio_set(struct gpio_chip *gc, unsigned offset, int value);
++static int bcm2708_gpio_dir_out(struct gpio_chip *gc, unsigned offset,
++ int value)
++{
++ int ret;
++ ret = bcm2708_set_function(gc, offset, GPIO_FSEL_OUTPUT);
++ if (ret >= 0)
++ bcm2708_gpio_set(gc, offset, value);
++ return ret;
++}
++
++static int bcm2708_gpio_get(struct gpio_chip *gc, unsigned offset)
++{
++ struct bcm2708_gpio *gpio = container_of(gc, struct bcm2708_gpio, gc);
++ unsigned gpio_bank = offset / 32;
++ unsigned gpio_field_offset = (offset - 32 * gpio_bank);
++ unsigned lev;
++
++ if (offset >= ARCH_NR_GPIOS)
++ return 0;
++ lev = readl(gpio->base + GPIOLEV(gpio_bank));
++//printk(KERN_ERR DRIVER_NAME ": bcm2708_gpio_get %p (%d)=%d\n", gc, offset, 0x1 & (lev>>gpio_field_offset));
++ return 0x1 & (lev >> gpio_field_offset);
++}
++
++static void bcm2708_gpio_set(struct gpio_chip *gc, unsigned offset, int value)
++{
++ struct bcm2708_gpio *gpio = container_of(gc, struct bcm2708_gpio, gc);
++ unsigned gpio_bank = offset / 32;
++ unsigned gpio_field_offset = (offset - 32 * gpio_bank);
++//printk(KERN_ERR DRIVER_NAME ": bcm2708_gpio_set %p (%d=%d)\n", gc, offset, value);
++ if (offset >= ARCH_NR_GPIOS)
++ return;
++ if (value)
++ writel(1 << gpio_field_offset, gpio->base + GPIOSET(gpio_bank));
++ else
++ writel(1 << gpio_field_offset, gpio->base + GPIOCLR(gpio_bank));
++}
++
++/*************************************************************************************************************************
++ * bcm2708 GPIO IRQ
++ */
++
++#if BCM_GPIO_USE_IRQ
++
++static int bcm2708_gpio_to_irq(struct gpio_chip *chip, unsigned gpio)
++{
++ return gpio_to_irq(gpio);
++}
++
++static int bcm2708_gpio_irq_set_type(struct irq_data *d, unsigned type)
++{
++ unsigned irq = d->irq;
++ struct bcm2708_gpio *gpio = irq_get_chip_data(irq);
++
++ if (type & ~(IRQ_TYPE_EDGE_FALLING | IRQ_TYPE_EDGE_RISING))
++ return -EINVAL;
++
++ if (type & IRQ_TYPE_EDGE_RISING) {
++ gpio->rising |= (1 << irq_to_gpio(irq));
++ } else {
++ gpio->rising &= ~(1 << irq_to_gpio(irq));
++ }
++
++ if (type & IRQ_TYPE_EDGE_FALLING) {
++ gpio->falling |= (1 << irq_to_gpio(irq));
++ } else {
++ gpio->falling &= ~(1 << irq_to_gpio(irq));
++ }
++ return 0;
++}
++
++static void bcm2708_gpio_irq_mask(struct irq_data *d)
++{
++ unsigned irq = d->irq;
++ struct bcm2708_gpio *gpio = irq_get_chip_data(irq);
++ unsigned gn = irq_to_gpio(irq);
++ unsigned gb = gn / 32;
++ unsigned long rising = readl(gpio->base + GPIOREN(gb));
++ unsigned long falling = readl(gpio->base + GPIOFEN(gb));
++
++ gn = gn % 32;
++
++ writel(rising & ~(1 << gn), gpio->base + GPIOREN(gb));
++ writel(falling & ~(1 << gn), gpio->base + GPIOFEN(gb));
++}
++
++static void bcm2708_gpio_irq_unmask(struct irq_data *d)
++{
++ unsigned irq = d->irq;
++ struct bcm2708_gpio *gpio = irq_get_chip_data(irq);
++ unsigned gn = irq_to_gpio(irq);
++ unsigned gb = gn / 32;
++ unsigned long rising = readl(gpio->base + GPIOREN(gb));
++ unsigned long falling = readl(gpio->base + GPIOFEN(gb));
++
++ gn = gn % 32;
++
++ writel(1 << gn, gpio->base + GPIOEDS(gb));
++
++ if (gpio->rising & (1 << gn)) {
++ writel(rising | (1 << gn), gpio->base + GPIOREN(gb));
++ } else {
++ writel(rising & ~(1 << gn), gpio->base + GPIOREN(gb));
++ }
++
++ if (gpio->falling & (1 << gn)) {
++ writel(falling | (1 << gn), gpio->base + GPIOFEN(gb));
++ } else {
++ writel(falling & ~(1 << gn), gpio->base + GPIOFEN(gb));
++ }
++}
++
++static struct irq_chip bcm2708_irqchip = {
++ .name = "GPIO",
++ .irq_enable = bcm2708_gpio_irq_unmask,
++ .irq_disable = bcm2708_gpio_irq_mask,
++ .irq_unmask = bcm2708_gpio_irq_unmask,
++ .irq_mask = bcm2708_gpio_irq_mask,
++ .irq_set_type = bcm2708_gpio_irq_set_type,
++};
++
++static irqreturn_t bcm2708_gpio_interrupt(int irq, void *dev_id)
++{
++ unsigned long edsr;
++ unsigned bank;
++ int i;
++ unsigned gpio;
++ for (bank = 0; bank <= 1; bank++) {
++ edsr = readl(__io_address(GPIO_BASE) + GPIOEDS(bank));
++ for_each_set_bit(i, &edsr, 32) {
++ gpio = i + bank * 32;
++ generic_handle_irq(gpio_to_irq(gpio));
++ }
++ writel(0xffffffff, __io_address(GPIO_BASE) + GPIOEDS(bank));
++ }
++ return IRQ_HANDLED;
++}
++
++static struct irqaction bcm2708_gpio_irq = {
++ .name = "BCM2708 GPIO catchall handler",
++ .flags = IRQF_DISABLED | IRQF_TIMER | IRQF_IRQPOLL,
++ .handler = bcm2708_gpio_interrupt,
++};
++
++static void bcm2708_gpio_irq_init(struct bcm2708_gpio *ucb)
++{
++ unsigned irq;
++
++ ucb->gc.to_irq = bcm2708_gpio_to_irq;
++
++ for (irq = GPIO_IRQ_START; irq < (GPIO_IRQ_START + GPIO_IRQS); irq++) {
++ irq_set_chip_data(irq, ucb);
++ irq_set_chip(irq, &bcm2708_irqchip);
++ set_irq_flags(irq, IRQF_VALID);
++ }
++ setup_irq(IRQ_GPIO3, &bcm2708_gpio_irq);
++}
++
++#else
++
++static void bcm2708_gpio_irq_init(struct bcm2708_gpio *ucb)
++{
++}
++
++#endif /* #if BCM_GPIO_USE_IRQ ***************************************************************************************************************** */
++
++static int bcm2708_gpio_probe(struct platform_device *dev)
++{
++ struct bcm2708_gpio *ucb;
++ struct resource *res;
++ int err = 0;
++
++ printk(KERN_INFO DRIVER_NAME ": bcm2708_gpio_probe %p\n", dev);
++
++ ucb = kzalloc(sizeof(*ucb), GFP_KERNEL);
++ if (NULL == ucb) {
++ printk(KERN_ERR DRIVER_NAME ": failed to allocate "
++ "mailbox memory\n");
++ err = -ENOMEM;
++ goto err;
++ }
++
++ res = platform_get_resource(dev, IORESOURCE_MEM, 0);
++
++ platform_set_drvdata(dev, ucb);
++ ucb->base = __io_address(GPIO_BASE);
++
++ ucb->gc.label = "bcm2708_gpio";
++ ucb->gc.base = 0;
++ ucb->gc.ngpio = ARCH_NR_GPIOS;
++ ucb->gc.owner = THIS_MODULE;
++
++ ucb->gc.direction_input = bcm2708_gpio_dir_in;
++ ucb->gc.direction_output = bcm2708_gpio_dir_out;
++ ucb->gc.get = bcm2708_gpio_get;
++ ucb->gc.set = bcm2708_gpio_set;
++ ucb->gc.can_sleep = 0;
++
++ bcm2708_gpio_irq_init(ucb);
++
++ err = gpiochip_add(&ucb->gc);
++ if (err)
++ goto err;
++
++err:
++ return err;
++
++}
++
++static int bcm2708_gpio_remove(struct platform_device *dev)
++{
++ int err = 0;
++ struct bcm2708_gpio *ucb = platform_get_drvdata(dev);
++
++ printk(KERN_ERR DRIVER_NAME ": bcm2708_gpio_remove %p\n", dev);
++
++ err = gpiochip_remove(&ucb->gc);
++
++ platform_set_drvdata(dev, NULL);
++ kfree(ucb);
++
++ return err;
++}
++
++static struct platform_driver bcm2708_gpio_driver = {
++ .probe = bcm2708_gpio_probe,
++ .remove = bcm2708_gpio_remove,
++ .driver = {
++ .name = "bcm2708_gpio"},
++};
++
++static int __init bcm2708_gpio_init(void)
++{
++ return platform_driver_register(&bcm2708_gpio_driver);
++}
++
++static void __exit bcm2708_gpio_exit(void)
++{
++ platform_driver_unregister(&bcm2708_gpio_driver);
++}
++
++module_init(bcm2708_gpio_init);
++module_exit(bcm2708_gpio_exit);
++
++MODULE_DESCRIPTION("Broadcom BCM2708 GPIO driver");
++MODULE_LICENSE("GPL");
+diff -urN linux-3.10/arch/arm/mach-bcm2708/bcm2708.h linux-rpi-3.10.y/arch/arm/mach-bcm2708/bcm2708.h
+--- linux-3.10/arch/arm/mach-bcm2708/bcm2708.h 1970-01-01 01:00:00.000000000 +0100
++++ linux-rpi-3.10.y/arch/arm/mach-bcm2708/bcm2708.h 2013-07-06 15:25:50.000000000 +0100
+@@ -0,0 +1,51 @@
++/*
++ * linux/arch/arm/mach-bcm2708/bcm2708.h
++ *
++ * BCM2708 machine support header
++ *
++ * Copyright (C) 2010 Broadcom
++ *
++ * This program is free software; you can redistribute it and/or modify
++ * it under the terms of the GNU General Public License as published by
++ * the Free Software Foundation; either version 2 of the License, or
++ * (at your option) any later version.
++ *
++ * This program is distributed in the hope that it will be useful,
++ * but WITHOUT ANY WARRANTY; without even the implied warranty of
++ * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
++ * GNU General Public License for more details.
++ *
++ * You should have received a copy of the GNU General Public License
++ * along with this program; if not, write to the Free Software
++ * Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA
++ */
++
++#ifndef __BCM2708_BCM2708_H
++#define __BCM2708_BCM2708_H
++
++#include <linux/amba/bus.h>
++
++extern void __init bcm2708_init(void);
++extern void __init bcm2708_init_irq(void);
++extern void __init bcm2708_map_io(void);
++extern struct sys_timer bcm2708_timer;
++extern unsigned int mmc_status(struct device *dev);
++
++#define AMBA_DEVICE(name, busid, base, plat) \
++static struct amba_device name##_device = { \
++ .dev = { \
++ .coherent_dma_mask = ~0, \
++ .init_name = busid, \
++ .platform_data = plat, \
++ }, \
++ .res = { \
++ .start = base##_BASE, \
++ .end = (base##_BASE) + SZ_4K - 1,\
++ .flags = IORESOURCE_MEM, \
++ }, \
++ .dma_mask = ~0, \
++ .irq = base##_IRQ, \
++ /* .dma = base##_DMA,*/ \
++}
++
++#endif
+diff -urN linux-3.10/arch/arm/mach-bcm2708/clock.c linux-rpi-3.10.y/arch/arm/mach-bcm2708/clock.c
+--- linux-3.10/arch/arm/mach-bcm2708/clock.c 1970-01-01 01:00:00.000000000 +0100
++++ linux-rpi-3.10.y/arch/arm/mach-bcm2708/clock.c 2013-07-06 15:25:50.000000000 +0100
+@@ -0,0 +1,61 @@
++/*
++ * linux/arch/arm/mach-bcm2708/clock.c
++ *
++ * Copyright (C) 2010 Broadcom
++ *
++ * This program is free software; you can redistribute it and/or modify
++ * it under the terms of the GNU General Public License as published by
++ * the Free Software Foundation; either version 2 of the License, or
++ * (at your option) any later version.
++ *
++ * This program is distributed in the hope that it will be useful,
++ * but WITHOUT ANY WARRANTY; without even the implied warranty of
++ * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
++ * GNU General Public License for more details.
++ *
++ * You should have received a copy of the GNU General Public License
++ * along with this program; if not, write to the Free Software
++ * Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA
++ */
++#include <linux/module.h>
++#include <linux/kernel.h>
++#include <linux/device.h>
++#include <linux/list.h>
++#include <linux/errno.h>
++#include <linux/err.h>
++#include <linux/string.h>
++#include <linux/clk.h>
++#include <linux/mutex.h>
++
++#include <asm/clkdev.h>
++
++#include "clock.h"
++
++int clk_enable(struct clk *clk)
++{
++ return 0;
++}
++EXPORT_SYMBOL(clk_enable);
++
++void clk_disable(struct clk *clk)
++{
++}
++EXPORT_SYMBOL(clk_disable);
++
++unsigned long clk_get_rate(struct clk *clk)
++{
++ return clk->rate;
++}
++EXPORT_SYMBOL(clk_get_rate);
++
++long clk_round_rate(struct clk *clk, unsigned long rate)
++{
++ return clk->rate;
++}
++EXPORT_SYMBOL(clk_round_rate);
++
++int clk_set_rate(struct clk *clk, unsigned long rate)
++{
++ return -EIO;
++}
++EXPORT_SYMBOL(clk_set_rate);
+diff -urN linux-3.10/arch/arm/mach-bcm2708/clock.h linux-rpi-3.10.y/arch/arm/mach-bcm2708/clock.h
+--- linux-3.10/arch/arm/mach-bcm2708/clock.h 1970-01-01 01:00:00.000000000 +0100
++++ linux-rpi-3.10.y/arch/arm/mach-bcm2708/clock.h 2013-07-06 15:25:50.000000000 +0100
+@@ -0,0 +1,24 @@
++/*
++ * linux/arch/arm/mach-bcm2708/clock.h
++ *
++ * Copyright (C) 2010 Broadcom
++ *
++ * This program is free software; you can redistribute it and/or modify
++ * it under the terms of the GNU General Public License as published by
++ * the Free Software Foundation; either version 2 of the License, or
++ * (at your option) any later version.
++ *
++ * This program is distributed in the hope that it will be useful,
++ * but WITHOUT ANY WARRANTY; without even the implied warranty of
++ * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
++ * GNU General Public License for more details.
++ *
++ * You should have received a copy of the GNU General Public License
++ * along with this program; if not, write to the Free Software
++ * Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA
++ */
++struct module;
++
++struct clk {
++ unsigned long rate;
++};
+diff -urN linux-3.10/arch/arm/mach-bcm2708/dma.c linux-rpi-3.10.y/arch/arm/mach-bcm2708/dma.c
+--- linux-3.10/arch/arm/mach-bcm2708/dma.c 1970-01-01 01:00:00.000000000 +0100
++++ linux-rpi-3.10.y/arch/arm/mach-bcm2708/dma.c 2013-07-06 15:25:50.000000000 +0100
+@@ -0,0 +1,399 @@
++/*
++ * linux/arch/arm/mach-bcm2708/dma.c
++ *
++ * Copyright (C) 2010 Broadcom
++ *
++ * This program is free software; you can redistribute it and/or modify
++ * it under the terms of the GNU General Public License version 2 as
++ * published by the Free Software Foundation.
++ */
++
++#include <linux/slab.h>
++#include <linux/device.h>
++#include <linux/platform_device.h>
++#include <linux/module.h>
++#include <linux/scatterlist.h>
++
++#include <mach/dma.h>
++#include <mach/irqs.h>
++
++/*****************************************************************************\
++ * *
++ * Configuration *
++ * *
++\*****************************************************************************/
++
++#define CACHE_LINE_MASK 31
++#define DRIVER_NAME BCM_DMAMAN_DRIVER_NAME
++#define DEFAULT_DMACHAN_BITMAP 0x10 /* channel 4 only */
++
++/* valid only for channels 0 - 14, 15 has its own base address */
++#define BCM2708_DMA_CHAN(n) ((n)<<8) /* base address */
++#define BCM2708_DMA_CHANIO(dma_base, n) \
++ ((void __iomem *)((char *)(dma_base)+BCM2708_DMA_CHAN(n)))
++
++
++/*****************************************************************************\
++ * *
++ * DMA Auxilliary Functions *
++ * *
++\*****************************************************************************/
++
++/* A DMA buffer on an arbitrary boundary may separate a cache line into a
++ section inside the DMA buffer and another section outside it.
++ Even if we flush DMA buffers from the cache there is always the chance that
++ during a DMA someone will access the part of a cache line that is outside
++ the DMA buffer - which will then bring in unwelcome data.
++ Without being able to dictate our own buffer pools we must insist that
++ DMA buffers consist of a whole number of cache lines.
++*/
++
++extern int
++bcm_sg_suitable_for_dma(struct scatterlist *sg_ptr, int sg_len)
++{
++ int i;
++
++ for (i = 0; i < sg_len; i++) {
++ if (sg_ptr[i].offset & CACHE_LINE_MASK ||
++ sg_ptr[i].length & CACHE_LINE_MASK)
++ return 0;
++ }
++
++ return 1;
++}
++EXPORT_SYMBOL_GPL(bcm_sg_suitable_for_dma);
++
++extern void
++bcm_dma_start(void __iomem *dma_chan_base, dma_addr_t control_block)
++{
++ dsb(); /* ARM data synchronization (push) operation */
++
++ writel(control_block, dma_chan_base + BCM2708_DMA_ADDR);
++ writel(BCM2708_DMA_ACTIVE, dma_chan_base + BCM2708_DMA_CS);
++}
++
++extern void bcm_dma_wait_idle(void __iomem *dma_chan_base)
++{
++ dsb();
++
++ /* ugly busy wait only option for now */
++ while (readl(dma_chan_base + BCM2708_DMA_CS) & BCM2708_DMA_ACTIVE)
++ cpu_relax();
++}
++
++EXPORT_SYMBOL_GPL(bcm_dma_start);
++
++/* Complete an ongoing DMA (assuming its results are to be ignored)
++ Does nothing if there is no DMA in progress.
++ This routine waits for the current AXI transfer to complete before
++ terminating the current DMA. If the current transfer is hung on a DREQ used
++ by an uncooperative peripheral the AXI transfer may never complete. In this
++ case the routine times out and return a non-zero error code.
++ Use of this routine doesn't guarantee that the ongoing or aborted DMA
++ does not produce an interrupt.
++*/
++extern int
++bcm_dma_abort(void __iomem *dma_chan_base)
++{
++ unsigned long int cs;
++ int rc = 0;
++
++ cs = readl(dma_chan_base + BCM2708_DMA_CS);
++
++ if (BCM2708_DMA_ACTIVE & cs) {
++ long int timeout = 10000;
++
++ /* write 0 to the active bit - pause the DMA */
++ writel(0, dma_chan_base + BCM2708_DMA_CS);
++
++ /* wait for any current AXI transfer to complete */
++ while (0 != (cs & BCM2708_DMA_ISPAUSED) && --timeout >= 0)
++ cs = readl(dma_chan_base + BCM2708_DMA_CS);
++
++ if (0 != (cs & BCM2708_DMA_ISPAUSED)) {
++ /* we'll un-pause when we set of our next DMA */
++ rc = -ETIMEDOUT;
++
++ } else if (BCM2708_DMA_ACTIVE & cs) {
++ /* terminate the control block chain */
++ writel(0, dma_chan_base + BCM2708_DMA_NEXTCB);
++
++ /* abort the whole DMA */
++ writel(BCM2708_DMA_ABORT | BCM2708_DMA_ACTIVE,
++ dma_chan_base + BCM2708_DMA_CS);
++ }
++ }
++
++ return rc;
++}
++EXPORT_SYMBOL_GPL(bcm_dma_abort);
++
++
++/***************************************************************************** \
++ * *
++ * DMA Manager Device Methods *
++ * *
++\*****************************************************************************/
++
++struct vc_dmaman {
++ void __iomem *dma_base;
++ u32 chan_available; /* bitmap of available channels */
++ u32 has_feature[BCM_DMA_FEATURE_COUNT]; /* bitmap of feature presence */
++};
++
++static void vc_dmaman_init(struct vc_dmaman *dmaman, void __iomem *dma_base,
++ u32 chans_available)
++{
++ dmaman->dma_base = dma_base;
++ dmaman->chan_available = chans_available;
++ dmaman->has_feature[BCM_DMA_FEATURE_FAST_ORD] = 0x0c; /* chans 2 & 3 */
++ dmaman->has_feature[BCM_DMA_FEATURE_BULK_ORD] = 0x01; /* chan 0 */
++}
++
++static int vc_dmaman_chan_alloc(struct vc_dmaman *dmaman,
++ unsigned preferred_feature_set)
++{
++ u32 chans;
++ int feature;
++
++ chans = dmaman->chan_available;
++ for (feature = 0; feature < BCM_DMA_FEATURE_COUNT; feature++)
++ /* select the subset of available channels with the desired
++ feature so long as some of the candidate channels have that
++ feature */
++ if ((preferred_feature_set & (1 << feature)) &&
++ (chans & dmaman->has_feature[feature]))
++ chans &= dmaman->has_feature[feature];
++
++ if (chans) {
++ int chan = 0;
++ /* return the ordinal of the first channel in the bitmap */
++ while (chans != 0 && (chans & 1) == 0) {
++ chans >>= 1;
++ chan++;
++ }
++ /* claim the channel */
++ dmaman->chan_available &= ~(1 << chan);
++ return chan;
++ } else
++ return -ENOMEM;
++}
++
++static int vc_dmaman_chan_free(struct vc_dmaman *dmaman, int chan)
++{
++ if (chan < 0)
++ return -EINVAL;
++ else if ((1 << chan) & dmaman->chan_available)
++ return -EIDRM;
++ else {
++ dmaman->chan_available |= (1 << chan);
++ return 0;
++ }
++}
++
++/*****************************************************************************\
++ * *
++ * DMA IRQs *
++ * *
++\*****************************************************************************/
++
++static unsigned char bcm_dma_irqs[] = {
++ IRQ_DMA0,
++ IRQ_DMA1,
++ IRQ_DMA2,
++ IRQ_DMA3,
++ IRQ_DMA4,
++ IRQ_DMA5,
++ IRQ_DMA6,
++ IRQ_DMA7,
++ IRQ_DMA8,
++ IRQ_DMA9,
++ IRQ_DMA10,
++ IRQ_DMA11,
++ IRQ_DMA12
++};
++
++
++/***************************************************************************** \
++ * *
++ * DMA Manager Monitor *
++ * *
++\*****************************************************************************/
++
++static struct device *dmaman_dev; /* we assume there's only one! */
++
++extern int bcm_dma_chan_alloc(unsigned preferred_feature_set,
++ void __iomem **out_dma_base, int *out_dma_irq)
++{
++ if (!dmaman_dev)
++ return -ENODEV;
++ else {
++ struct vc_dmaman *dmaman = dev_get_drvdata(dmaman_dev);
++ int rc;
++
++ device_lock(dmaman_dev);
++ rc = vc_dmaman_chan_alloc(dmaman, preferred_feature_set);
++ if (rc >= 0) {
++ *out_dma_base = BCM2708_DMA_CHANIO(dmaman->dma_base,
++ rc);
++ *out_dma_irq = bcm_dma_irqs[rc];
++ }
++ device_unlock(dmaman_dev);
++
++ return rc;
++ }
++}
++EXPORT_SYMBOL_GPL(bcm_dma_chan_alloc);
++
++extern int bcm_dma_chan_free(int channel)
++{
++ if (dmaman_dev) {
++ struct vc_dmaman *dmaman = dev_get_drvdata(dmaman_dev);
++ int rc;
++
++ device_lock(dmaman_dev);
++ rc = vc_dmaman_chan_free(dmaman, channel);
++ device_unlock(dmaman_dev);
++
++ return rc;
++ } else
++ return -ENODEV;
++}
++EXPORT_SYMBOL_GPL(bcm_dma_chan_free);
++
++static int dev_dmaman_register(const char *dev_name, struct device *dev)
++{
++ int rc = dmaman_dev ? -EINVAL : 0;
++ dmaman_dev = dev;
++ return rc;
++}
++
++static void dev_dmaman_deregister(const char *dev_name, struct device *dev)
++{
++ dmaman_dev = NULL;
++}
++
++/*****************************************************************************\
++ * *
++ * DMA Device *
++ * *
++\*****************************************************************************/
++
++static int dmachans = -1; /* module parameter */
++
++static int bcm_dmaman_probe(struct platform_device *pdev)
++{
++ int ret = 0;
++ struct vc_dmaman *dmaman;
++ struct resource *dma_res = NULL;
++ void __iomem *dma_base = NULL;
++ int have_dma_region = 0;
++
++ dmaman = kzalloc(sizeof(*dmaman), GFP_KERNEL);
++ if (NULL == dmaman) {
++ printk(KERN_ERR DRIVER_NAME ": failed to allocate "
++ "DMA management memory\n");
++ ret = -ENOMEM;
++ } else {
++
++ dma_res = platform_get_resource(pdev, IORESOURCE_MEM, 0);
++ if (dma_res == NULL) {
++ printk(KERN_ERR DRIVER_NAME ": failed to obtain memory "
++ "resource\n");
++ ret = -ENODEV;
++ } else if (!request_mem_region(dma_res->start,
++ resource_size(dma_res),
++ DRIVER_NAME)) {
++ dev_err(&pdev->dev, "cannot obtain DMA region\n");
++ ret = -EBUSY;
++ } else {
++ have_dma_region = 1;
++ dma_base = ioremap(dma_res->start,
++ resource_size(dma_res));
++ if (!dma_base) {
++ dev_err(&pdev->dev, "cannot map DMA region\n");
++ ret = -ENOMEM;
++ } else {
++ /* use module parameter if one was provided */
++ if (dmachans > 0)
++ vc_dmaman_init(dmaman, dma_base,
++ dmachans);
++ else
++ vc_dmaman_init(dmaman, dma_base,
++ DEFAULT_DMACHAN_BITMAP);
++
++ platform_set_drvdata(pdev, dmaman);
++ dev_dmaman_register(DRIVER_NAME, &pdev->dev);
++
++ printk(KERN_INFO DRIVER_NAME ": DMA manager "
++ "at %p\n", dma_base);
++ }
++ }
++ }
++ if (ret != 0) {
++ if (dma_base)
++ iounmap(dma_base);
++ if (dma_res && have_dma_region)
++ release_mem_region(dma_res->start,
++ resource_size(dma_res));
++ if (dmaman)
++ kfree(dmaman);
++ }
++ return ret;
++}
++
++static int bcm_dmaman_remove(struct platform_device *pdev)
++{
++ struct vc_dmaman *dmaman = platform_get_drvdata(pdev);
++
++ platform_set_drvdata(pdev, NULL);
++ dev_dmaman_deregister(DRIVER_NAME, &pdev->dev);
++ kfree(dmaman);
++
++ return 0;
++}
++
++static struct platform_driver bcm_dmaman_driver = {
++ .probe = bcm_dmaman_probe,
++ .remove = bcm_dmaman_remove,
++
++ .driver = {
++ .name = DRIVER_NAME,
++ .owner = THIS_MODULE,
++ },
++};
++
++/*****************************************************************************\
++ * *
++ * Driver init/exit *
++ * *
++\*****************************************************************************/
++
++static int __init bcm_dmaman_drv_init(void)
++{
++ int ret;
++
++ ret = platform_driver_register(&bcm_dmaman_driver);
++ if (ret != 0) {
++ printk(KERN_ERR DRIVER_NAME ": failed to register "
++ "on platform\n");
++ }
++
++ return ret;
++}
++
++static void __exit bcm_dmaman_drv_exit(void)
++{
++ platform_driver_unregister(&bcm_dmaman_driver);
++}
++
++module_init(bcm_dmaman_drv_init);
++module_exit(bcm_dmaman_drv_exit);
++
++module_param(dmachans, int, 0644);
++
++MODULE_AUTHOR("Gray Girling <grayg@broadcom.com>");
++MODULE_DESCRIPTION("DMA channel manager driver");
++MODULE_LICENSE("GPL");
++
++MODULE_PARM_DESC(dmachans, "Bitmap of DMA channels available to the ARM");
+diff -urN linux-3.10/arch/arm/mach-bcm2708/dmaer.c linux-rpi-3.10.y/arch/arm/mach-bcm2708/dmaer.c
+--- linux-3.10/arch/arm/mach-bcm2708/dmaer.c 1970-01-01 01:00:00.000000000 +0100
++++ linux-rpi-3.10.y/arch/arm/mach-bcm2708/dmaer.c 2013-07-06 15:25:50.000000000 +0100
+@@ -0,0 +1,887 @@
++#include <linux/init.h>
++#include <linux/sched.h>
++#include <linux/module.h>
++#include <linux/types.h>
++#include <linux/kdev_t.h>
++#include <linux/fs.h>
++#include <linux/cdev.h>
++#include <linux/mm.h>
++#include <linux/slab.h>
++#include <linux/pagemap.h>
++#include <linux/device.h>
++#include <linux/jiffies.h>
++#include <linux/timex.h>
++#include <linux/dma-mapping.h>
++
++#include <asm/uaccess.h>
++#include <asm/atomic.h>
++#include <asm/cacheflush.h>
++#include <asm/io.h>
++
++#include <mach/dma.h>
++#include <mach/vc_support.h>
++
++#ifdef ECLIPSE_IGNORE
++
++#define __user
++#define __init
++#define __exit
++#define __iomem
++#define KERN_DEBUG
++#define KERN_ERR
++#define KERN_WARNING
++#define KERN_INFO
++#define _IOWR(a, b, c) b
++#define _IOW(a, b, c) b
++#define _IO(a, b) b
++
++#endif
++
++//#define inline
++
++#define PRINTK(args...) printk(args)
++//#define PRINTK_VERBOSE(args...) printk(args)
++//#define PRINTK(args...)
++#define PRINTK_VERBOSE(args...)
++
++/***** TYPES ****/
++#define PAGES_PER_LIST 500
++struct PageList
++{
++ struct page *m_pPages[PAGES_PER_LIST];
++ unsigned int m_used;
++ struct PageList *m_pNext;
++};
++
++struct VmaPageList
++{
++ //each vma has a linked list of pages associated with it
++ struct PageList *m_pPageHead;
++ struct PageList *m_pPageTail;
++ unsigned int m_refCount;
++};
++
++struct DmaControlBlock
++{
++ unsigned int m_transferInfo;
++ void __user *m_pSourceAddr;
++ void __user *m_pDestAddr;
++ unsigned int m_xferLen;
++ unsigned int m_tdStride;
++ struct DmaControlBlock *m_pNext;
++ unsigned int m_blank1, m_blank2;
++};
++
++/***** DEFINES ******/
++//magic number defining the module
++#define DMA_MAGIC 0xdd
++
++//do user virtual to physical translation of the CB chain
++#define DMA_PREPARE _IOWR(DMA_MAGIC, 0, struct DmaControlBlock *)
++
++//kick the pre-prepared CB chain
++#define DMA_KICK _IOW(DMA_MAGIC, 1, struct DmaControlBlock *)
++
++//prepare it, kick it, wait for it
++#define DMA_PREPARE_KICK_WAIT _IOWR(DMA_MAGIC, 2, struct DmaControlBlock *)
++
++//prepare it, kick it, don't wait for it
++#define DMA_PREPARE_KICK _IOWR(DMA_MAGIC, 3, struct DmaControlBlock *)
++
++//not currently implemented
++#define DMA_WAIT_ONE _IO(DMA_MAGIC, 4, struct DmaControlBlock *)
++
++//wait on all kicked CB chains
++#define DMA_WAIT_ALL _IO(DMA_MAGIC, 5)
++
++//in order to discover the largest AXI burst that should be programmed into the transfer params
++#define DMA_MAX_BURST _IO(DMA_MAGIC, 6)
++
++//set the address range through which the user address is assumed to already by a physical address
++#define DMA_SET_MIN_PHYS _IOW(DMA_MAGIC, 7, unsigned long)
++#define DMA_SET_MAX_PHYS _IOW(DMA_MAGIC, 8, unsigned long)
++#define DMA_SET_PHYS_OFFSET _IOW(DMA_MAGIC, 9, unsigned long)
++
++//used to define the size for the CMA-based allocation *in pages*, can only be done once once the file is opened
++#define DMA_CMA_SET_SIZE _IOW(DMA_MAGIC, 10, unsigned long)
++
++//used to get the version of the module, to test for a capability
++#define DMA_GET_VERSION _IO(DMA_MAGIC, 99)
++
++#define VERSION_NUMBER 1
++
++#define VIRT_TO_BUS_CACHE_SIZE 8
++
++/***** FILE OPS *****/
++static int Open(struct inode *pInode, struct file *pFile);
++static int Release(struct inode *pInode, struct file *pFile);
++static long Ioctl(struct file *pFile, unsigned int cmd, unsigned long arg);
++static ssize_t Read(struct file *pFile, char __user *pUser, size_t count, loff_t *offp);
++static int Mmap(struct file *pFile, struct vm_area_struct *pVma);
++
++/***** VMA OPS ****/
++static void VmaOpen4k(struct vm_area_struct *pVma);
++static void VmaClose4k(struct vm_area_struct *pVma);
++static int VmaFault4k(struct vm_area_struct *pVma, struct vm_fault *pVmf);
++
++/**** DMA PROTOTYPES */
++static struct DmaControlBlock __user *DmaPrepare(struct DmaControlBlock __user *pUserCB, int *pError);
++static int DmaKick(struct DmaControlBlock __user *pUserCB);
++static void DmaWaitAll(void);
++
++/**** GENERIC ****/
++static int __init dmaer_init(void);
++static void __exit dmaer_exit(void);
++
++/*** OPS ***/
++static struct vm_operations_struct g_vmOps4k = {
++ .open = VmaOpen4k,
++ .close = VmaClose4k,
++ .fault = VmaFault4k,
++};
++
++static struct file_operations g_fOps = {
++ .owner = THIS_MODULE,
++ .llseek = 0,
++ .read = Read,
++ .write = 0,
++ .unlocked_ioctl = Ioctl,
++ .open = Open,
++ .release = Release,
++ .mmap = Mmap,
++};
++
++/***** GLOBALS ******/
++static dev_t g_majorMinor;
++
++//tracking usage of the two files
++static atomic_t g_oneLock4k = ATOMIC_INIT(1);
++
++//device operations
++static struct cdev g_cDev;
++static int g_trackedPages = 0;
++
++//dma control
++static unsigned int *g_pDmaChanBase;
++static int g_dmaIrq;
++static int g_dmaChan;
++
++//cma allocation
++static int g_cmaHandle;
++
++//user virtual to bus address translation acceleration
++static unsigned long g_virtAddr[VIRT_TO_BUS_CACHE_SIZE];
++static unsigned long g_busAddr[VIRT_TO_BUS_CACHE_SIZE];
++static unsigned long g_cbVirtAddr;
++static unsigned long g_cbBusAddr;
++static int g_cacheInsertAt;
++static int g_cacheHit, g_cacheMiss;
++
++//off by default
++static void __user *g_pMinPhys;
++static void __user *g_pMaxPhys;
++static unsigned long g_physOffset;
++
++/****** CACHE OPERATIONS ********/
++static inline void FlushAddrCache(void)
++{
++ int count = 0;
++ for (count = 0; count < VIRT_TO_BUS_CACHE_SIZE; count++)
++ g_virtAddr[count] = 0xffffffff; //never going to match as we always chop the bottom bits anyway
++
++ g_cbVirtAddr = 0xffffffff;
++
++ g_cacheInsertAt = 0;
++}
++
++//translate from a user virtual address to a bus address by mapping the page
++//NB this won't lock a page in memory, so to avoid potential paging issues using kernel logical addresses
++static inline void __iomem *UserVirtualToBus(void __user *pUser)
++{
++ int mapped;
++ struct page *pPage;
++ void *phys;
++
++ //map it (requiring that the pointer points to something that does not hang off the page boundary)
++ mapped = get_user_pages(current, current->mm,
++ (unsigned long)pUser, 1,
++ 1, 0,
++ &pPage,
++ 0);
++
++ if (mapped <= 0) //error
++ return 0;
++
++ PRINTK_VERBOSE(KERN_DEBUG "user virtual %p arm phys %p bus %p\n",
++ pUser, page_address(pPage), (void __iomem *)__virt_to_bus(page_address(pPage)));
++
++ //get the arm physical address
++ phys = page_address(pPage) + offset_in_page(pUser);
++ page_cache_release(pPage);
++
++ //and now the bus address
++ return (void __iomem *)__virt_to_bus(phys);
++}
++
++static inline void __iomem *UserVirtualToBusViaCbCache(void __user *pUser)
++{
++ unsigned long virtual_page = (unsigned long)pUser & ~4095;
++ unsigned long page_offset = (unsigned long)pUser & 4095;
++ unsigned long bus_addr;
++
++ if (g_cbVirtAddr == virtual_page)
++ {
++ bus_addr = g_cbBusAddr + page_offset;
++ g_cacheHit++;
++ return (void __iomem *)bus_addr;
++ }
++ else
++ {
++ bus_addr = (unsigned long)UserVirtualToBus(pUser);
++
++ if (!bus_addr)
++ return 0;
++
++ g_cbVirtAddr = virtual_page;
++ g_cbBusAddr = bus_addr & ~4095;
++ g_cacheMiss++;
++
++ return (void __iomem *)bus_addr;
++ }
++}
++
++//do the same as above, by query our virt->bus cache
++static inline void __iomem *UserVirtualToBusViaCache(void __user *pUser)
++{
++ int count;
++ //get the page and its offset
++ unsigned long virtual_page = (unsigned long)pUser & ~4095;
++ unsigned long page_offset = (unsigned long)pUser & 4095;
++ unsigned long bus_addr;
++
++ if (pUser >= g_pMinPhys && pUser < g_pMaxPhys)
++ {
++ PRINTK_VERBOSE(KERN_DEBUG "user->phys passthrough on %p\n", pUser);
++ return (void __iomem *)((unsigned long)pUser + g_physOffset);
++ }
++
++ //check the cache for our entry
++ for (count = 0; count < VIRT_TO_BUS_CACHE_SIZE; count++)
++ if (g_virtAddr[count] == virtual_page)
++ {
++ bus_addr = g_busAddr[count] + page_offset;
++ g_cacheHit++;
++ return (void __iomem *)bus_addr;
++ }
++
++ //not found, look up manually and then insert its page address
++ bus_addr = (unsigned long)UserVirtualToBus(pUser);
++
++ if (!bus_addr)
++ return 0;
++
++ g_virtAddr[g_cacheInsertAt] = virtual_page;
++ g_busAddr[g_cacheInsertAt] = bus_addr & ~4095;
++
++ //round robin
++ g_cacheInsertAt++;
++ if (g_cacheInsertAt == VIRT_TO_BUS_CACHE_SIZE)
++ g_cacheInsertAt = 0;
++
++ g_cacheMiss++;
++
++ return (void __iomem *)bus_addr;
++}
++
++/***** FILE OPERATIONS ****/
++static int Open(struct inode *pInode, struct file *pFile)
++{
++ PRINTK(KERN_DEBUG "file opening: %d/%d\n", imajor(pInode), iminor(pInode));
++
++ //check which device we are
++ if (iminor(pInode) == 0) //4k
++ {
++ //only one at a time
++ if (!atomic_dec_and_test(&g_oneLock4k))
++ {
++ atomic_inc(&g_oneLock4k);
++ return -EBUSY;
++ }
++ }
++ else
++ return -EINVAL;
++
++ //todo there will be trouble if two different processes open the files
++
++ //reset after any file is opened
++ g_pMinPhys = (void __user *)-1;
++ g_pMaxPhys = (void __user *)0;
++ g_physOffset = 0;
++ g_cmaHandle = 0;
++
++ return 0;
++}
++
++static int Release(struct inode *pInode, struct file *pFile)
++{
++ PRINTK(KERN_DEBUG "file closing, %d pages tracked\n", g_trackedPages);
++ if (g_trackedPages)
++ PRINTK(KERN_ERR "we\'re leaking memory!\n");
++
++ //wait for any dmas to finish
++ DmaWaitAll();
++
++ //free this memory on the application closing the file or it crashing (implicitly closing the file)
++ if (g_cmaHandle)
++ {
++ PRINTK(KERN_DEBUG "unlocking vc memory\n");
++ if (UnlockVcMemory(g_cmaHandle))
++ PRINTK(KERN_ERR "uh-oh, unable to unlock vc memory!\n");
++ PRINTK(KERN_DEBUG "releasing vc memory\n");
++ if (ReleaseVcMemory(g_cmaHandle))
++ PRINTK(KERN_ERR "uh-oh, unable to release vc memory!\n");
++ }
++
++ if (iminor(pInode) == 0)
++ atomic_inc(&g_oneLock4k);
++ else
++ return -EINVAL;
++
++ return 0;
++}
++
++static struct DmaControlBlock __user *DmaPrepare(struct DmaControlBlock __user *pUserCB, int *pError)
++{
++ struct DmaControlBlock kernCB;
++ struct DmaControlBlock __user *pUNext;
++ void __iomem *pSourceBus, __iomem *pDestBus;
++
++ //get the control block into kernel memory so we can work on it
++ if (copy_from_user(&kernCB, pUserCB, sizeof(struct DmaControlBlock)) != 0)
++ {
++ PRINTK(KERN_ERR "copy_from_user failed for user cb %p\n", pUserCB);
++ *pError = 1;
++ return 0;
++ }
++
++ if (kernCB.m_pSourceAddr == 0 || kernCB.m_pDestAddr == 0)
++ {
++ PRINTK(KERN_ERR "faulty source (%p) dest (%p) addresses for user cb %p\n",
++ kernCB.m_pSourceAddr, kernCB.m_pDestAddr, pUserCB);
++ *pError = 1;
++ return 0;
++ }
++
++ pSourceBus = UserVirtualToBusViaCache(kernCB.m_pSourceAddr);
++ pDestBus = UserVirtualToBusViaCache(kernCB.m_pDestAddr);
++
++ if (!pSourceBus || !pDestBus)
++ {
++ PRINTK(KERN_ERR "virtual to bus translation failure for source/dest %p/%p->%p/%p\n",
++ kernCB.m_pSourceAddr, kernCB.m_pDestAddr,
++ pSourceBus, pDestBus);
++ *pError = 1;
++ return 0;
++ }
++
++ //update the user structure with the new bus addresses
++ kernCB.m_pSourceAddr = pSourceBus;
++ kernCB.m_pDestAddr = pDestBus;
++
++ PRINTK_VERBOSE(KERN_DEBUG "final source %p dest %p\n", kernCB.m_pSourceAddr, kernCB.m_pDestAddr);
++
++ //sort out the bus address for the next block
++ pUNext = kernCB.m_pNext;
++
++ if (kernCB.m_pNext)
++ {
++ void __iomem *pNextBus;
++ pNextBus = UserVirtualToBusViaCbCache(kernCB.m_pNext);
++
++ if (!pNextBus)
++ {
++ PRINTK(KERN_ERR "virtual to bus translation failure for m_pNext\n");
++ *pError = 1;
++ return 0;
++ }
++
++ //update the pointer with the bus address
++ kernCB.m_pNext = pNextBus;
++ }
++
++ //write it back to user space
++ if (copy_to_user(pUserCB, &kernCB, sizeof(struct DmaControlBlock)) != 0)
++ {
++ PRINTK(KERN_ERR "copy_to_user failed for cb %p\n", pUserCB);
++ *pError = 1;
++ return 0;
++ }
++
++ __cpuc_flush_dcache_area(pUserCB, 32);
++
++ *pError = 0;
++ return pUNext;
++}
++
++static int DmaKick(struct DmaControlBlock __user *pUserCB)
++{
++ void __iomem *pBusCB;
++
++ pBusCB = UserVirtualToBusViaCbCache(pUserCB);
++ if (!pBusCB)
++ {
++ PRINTK(KERN_ERR "virtual to bus translation failure for cb\n");
++ return 1;
++ }
++
++ //flush_cache_all();
++
++ bcm_dma_start(g_pDmaChanBase, (dma_addr_t)pBusCB);
++
++ return 0;
++}
++
++static void DmaWaitAll(void)
++{
++ int counter = 0;
++ volatile int inner_count;
++ volatile unsigned int cs;
++ unsigned long time_before, time_after;
++
++ time_before = jiffies;
++ //bcm_dma_wait_idle(g_pDmaChanBase);
++ dsb();
++
++ cs = readl(g_pDmaChanBase);
++
++ while ((cs & 1) == 1)
++ {
++ cs = readl(g_pDmaChanBase);
++ counter++;
++
++ for (inner_count = 0; inner_count < 32; inner_count++);
++
++ asm volatile ("MCR p15,0,r0,c7,c0,4 \n");
++ //cpu_do_idle();
++ if (counter >= 1000000)
++ {
++ PRINTK(KERN_WARNING "DMA failed to finish in a timely fashion\n");
++ break;
++ }
++ }
++ time_after = jiffies;
++ PRINTK_VERBOSE(KERN_DEBUG "done, counter %d, cs %08x", counter, cs);
++ PRINTK_VERBOSE(KERN_DEBUG "took %ld jiffies, %d HZ\n", time_after - time_before, HZ);
++}
++
++static long Ioctl(struct file *pFile, unsigned int cmd, unsigned long arg)
++{
++ int error = 0;
++ PRINTK_VERBOSE(KERN_DEBUG "ioctl cmd %x arg %lx\n", cmd, arg);
++
++ switch (cmd)
++ {
++ case DMA_PREPARE:
++ case DMA_PREPARE_KICK:
++ case DMA_PREPARE_KICK_WAIT:
++ {
++ struct DmaControlBlock __user *pUCB = (struct DmaControlBlock *)arg;
++ int steps = 0;
++ unsigned long start_time = jiffies;
++ (void)start_time;
++
++ //flush our address cache
++ FlushAddrCache();
++
++ PRINTK_VERBOSE(KERN_DEBUG "dma prepare\n");
++
++ //do virtual to bus translation for each entry
++ do
++ {
++ pUCB = DmaPrepare(pUCB, &error);
++ } while (error == 0 && ++steps && pUCB);
++ PRINTK_VERBOSE(KERN_DEBUG "prepare done in %d steps, %ld\n", steps, jiffies - start_time);
++
++ //carry straight on if we want to kick too
++ if (cmd == DMA_PREPARE || error)
++ {
++ PRINTK_VERBOSE(KERN_DEBUG "falling out\n");
++ return error ? -EINVAL : 0;
++ }
++ }
++ case DMA_KICK:
++ PRINTK_VERBOSE(KERN_DEBUG "dma begin\n");
++
++ if (cmd == DMA_KICK)
++ FlushAddrCache();
++
++ DmaKick((struct DmaControlBlock __user *)arg);
++
++ if (cmd != DMA_PREPARE_KICK_WAIT)
++ break;
++/* case DMA_WAIT_ONE:
++ //PRINTK(KERN_DEBUG "dma wait one\n");
++ break;*/
++ case DMA_WAIT_ALL:
++ //PRINTK(KERN_DEBUG "dma wait all\n");
++ DmaWaitAll();
++ break;
++ case DMA_MAX_BURST:
++ if (g_dmaChan == 0)
++ return 10;
++ else
++ return 5;
++ case DMA_SET_MIN_PHYS:
++ g_pMinPhys = (void __user *)arg;
++ PRINTK(KERN_DEBUG "min/max user/phys bypass set to %p %p\n", g_pMinPhys, g_pMaxPhys);
++ break;
++ case DMA_SET_MAX_PHYS:
++ g_pMaxPhys = (void __user *)arg;
++ PRINTK(KERN_DEBUG "min/max user/phys bypass set to %p %p\n", g_pMinPhys, g_pMaxPhys);
++ break;
++ case DMA_SET_PHYS_OFFSET:
++ g_physOffset = arg;
++ PRINTK(KERN_DEBUG "user/phys bypass offset set to %ld\n", g_physOffset);
++ break;
++ case DMA_CMA_SET_SIZE:
++ {
++ unsigned int pBusAddr;
++
++ if (g_cmaHandle)
++ {
++ PRINTK(KERN_ERR "memory has already been allocated (handle %d)\n", g_cmaHandle);
++ return -EINVAL;
++ }
++
++ PRINTK(KERN_INFO "allocating %ld bytes of VC memory\n", arg * 4096);
++
++ //get the memory
++ if (AllocateVcMemory(&g_cmaHandle, arg * 4096, 4096, MEM_FLAG_L1_NONALLOCATING | MEM_FLAG_NO_INIT | MEM_FLAG_HINT_PERMALOCK))
++ {
++ PRINTK(KERN_ERR "failed to allocate %ld bytes of VC memory\n", arg * 4096);
++ g_cmaHandle = 0;
++ return -EINVAL;
++ }
++
++ //get an address for it
++ PRINTK(KERN_INFO "trying to map VC memory\n");
++
++ if (LockVcMemory(&pBusAddr, g_cmaHandle))
++ {
++ PRINTK(KERN_ERR "failed to map CMA handle %d, releasing memory\n", g_cmaHandle);
++ ReleaseVcMemory(g_cmaHandle);
++ g_cmaHandle = 0;
++ }
++
++ PRINTK(KERN_INFO "bus address for CMA memory is %x\n", pBusAddr);
++ return pBusAddr;
++ }
++ case DMA_GET_VERSION:
++ PRINTK(KERN_DEBUG "returning version number, %d\n", VERSION_NUMBER);
++ return VERSION_NUMBER;
++ default:
++ PRINTK(KERN_DEBUG "unknown ioctl: %d\n", cmd);
++ return -EINVAL;
++ }
++
++ return 0;
++}
++
++static ssize_t Read(struct file *pFile, char __user *pUser, size_t count, loff_t *offp)
++{
++ return -EIO;
++}
++
++static int Mmap(struct file *pFile, struct vm_area_struct *pVma)
++{
++ struct PageList *pPages;
++ struct VmaPageList *pVmaList;
++
++ PRINTK_VERBOSE(KERN_DEBUG "MMAP vma %p, length %ld (%s %d)\n",
++ pVma, pVma->vm_end - pVma->vm_start,
++ current->comm, current->pid);
++ PRINTK_VERBOSE(KERN_DEBUG "MMAP %p %d (tracked %d)\n", pVma, current->pid, g_trackedPages);
++
++ //make a new page list
++ pPages = (struct PageList *)kmalloc(sizeof(struct PageList), GFP_KERNEL);
++ if (!pPages)
++ {
++ PRINTK(KERN_ERR "couldn\'t allocate a new page list (%s %d)\n",
++ current->comm, current->pid);
++ return -ENOMEM;
++ }
++
++ //clear the page list
++ pPages->m_used = 0;
++ pPages->m_pNext = 0;
++
++ //insert our vma and new page list somewhere
++ if (!pVma->vm_private_data)
++ {
++ struct VmaPageList *pList;
++
++ PRINTK_VERBOSE(KERN_DEBUG "new vma list, making new one (%s %d)\n",
++ current->comm, current->pid);
++
++ //make a new vma list
++ pList = (struct VmaPageList *)kmalloc(sizeof(struct VmaPageList), GFP_KERNEL);
++ if (!pList)
++ {
++ PRINTK(KERN_ERR "couldn\'t allocate vma page list (%s %d)\n",
++ current->comm, current->pid);
++ kfree(pPages);
++ return -ENOMEM;
++ }
++
++ //clear this list
++ pVma->vm_private_data = (void *)pList;
++ pList->m_refCount = 0;
++ }
++
++ pVmaList = (struct VmaPageList *)pVma->vm_private_data;
++
++ //add it to the vma list
++ pVmaList->m_pPageHead = pPages;
++ pVmaList->m_pPageTail = pPages;
++
++ pVma->vm_ops = &g_vmOps4k;
++ pVma->vm_flags |= VM_IO;
++
++ VmaOpen4k(pVma);
++
++ return 0;
++}
++
++/****** VMA OPERATIONS ******/
++
++static void VmaOpen4k(struct vm_area_struct *pVma)
++{
++ struct VmaPageList *pVmaList;
++
++ PRINTK_VERBOSE(KERN_DEBUG "vma open %p private %p (%s %d), %d live pages\n", pVma, pVma->vm_private_data, current->comm, current->pid, g_trackedPages);
++ PRINTK_VERBOSE(KERN_DEBUG "OPEN %p %d %ld pages (tracked pages %d)\n",
++ pVma, current->pid, (pVma->vm_end - pVma->vm_start) >> 12,
++ g_trackedPages);
++
++ pVmaList = (struct VmaPageList *)pVma->vm_private_data;
++
++ if (pVmaList)
++ {
++ pVmaList->m_refCount++;
++ PRINTK_VERBOSE(KERN_DEBUG "ref count is now %d\n", pVmaList->m_refCount);
++ }
++ else
++ {
++ PRINTK_VERBOSE(KERN_DEBUG "err, open but no vma page list\n");
++ }
++}
++
++static void VmaClose4k(struct vm_area_struct *pVma)
++{
++ struct VmaPageList *pVmaList;
++ int freed = 0;
++
++ PRINTK_VERBOSE(KERN_DEBUG "vma close %p private %p (%s %d)\n", pVma, pVma->vm_private_data, current->comm, current->pid);
++
++ //wait for any dmas to finish
++ DmaWaitAll();
++
++ //find our vma in the list
++ pVmaList = (struct VmaPageList *)pVma->vm_private_data;
++
++ //may be a fork
++ if (pVmaList)
++ {
++ struct PageList *pPages;
++
++ pVmaList->m_refCount--;
++
++ if (pVmaList->m_refCount == 0)
++ {
++ PRINTK_VERBOSE(KERN_DEBUG "found vma, freeing pages (%s %d)\n",
++ current->comm, current->pid);
++
++ pPages = pVmaList->m_pPageHead;
++
++ if (!pPages)
++ {
++ PRINTK(KERN_ERR "no page list (%s %d)!\n",
++ current->comm, current->pid);
++ return;
++ }
++
++ while (pPages)
++ {
++ struct PageList *next;
++ int count;
++
++ PRINTK_VERBOSE(KERN_DEBUG "page list (%s %d)\n",
++ current->comm, current->pid);
++
++ next = pPages->m_pNext;
++ for (count = 0; count < pPages->m_used; count++)
++ {
++ PRINTK_VERBOSE(KERN_DEBUG "freeing page %p (%s %d)\n",
++ pPages->m_pPages[count],
++ current->comm, current->pid);
++ __free_pages(pPages->m_pPages[count], 0);
++ g_trackedPages--;
++ freed++;
++ }
++
++ PRINTK_VERBOSE(KERN_DEBUG "freeing page list (%s %d)\n",
++ current->comm, current->pid);
++ kfree(pPages);
++ pPages = next;
++ }
++
++ //remove our vma from the list
++ kfree(pVmaList);
++ pVma->vm_private_data = 0;
++ }
++ else
++ {
++ PRINTK_VERBOSE(KERN_DEBUG "ref count is %d, not closing\n", pVmaList->m_refCount);
++ }
++ }
++ else
++ {
++ PRINTK_VERBOSE(KERN_ERR "uh-oh, vma %p not found (%s %d)!\n", pVma, current->comm, current->pid);
++ PRINTK_VERBOSE(KERN_ERR "CLOSE ERR\n");
++ }
++
++ PRINTK_VERBOSE(KERN_DEBUG "CLOSE %p %d %d pages (tracked pages %d)",
++ pVma, current->pid, freed, g_trackedPages);
++
++ PRINTK_VERBOSE(KERN_DEBUG "%d pages open\n", g_trackedPages);
++}
++
++static int VmaFault4k(struct vm_area_struct *pVma, struct vm_fault *pVmf)
++{
++ PRINTK_VERBOSE(KERN_DEBUG "vma fault for vma %p private %p at offset %ld (%s %d)\n", pVma, pVma->vm_private_data, pVmf->pgoff,
++ current->comm, current->pid);
++ PRINTK_VERBOSE(KERN_DEBUG "FAULT\n");
++ pVmf->page = alloc_page(GFP_KERNEL);
++
++ if (pVmf->page)
++ {
++ PRINTK_VERBOSE(KERN_DEBUG "alloc page virtual %p\n", page_address(pVmf->page));
++ }
++
++ if (!pVmf->page)
++ {
++ PRINTK(KERN_ERR "vma fault oom (%s %d)\n", current->comm, current->pid);
++ return VM_FAULT_OOM;
++ }
++ else
++ {
++ struct VmaPageList *pVmaList;
++
++ get_page(pVmf->page);
++ g_trackedPages++;
++
++ //find our vma in the list
++ pVmaList = (struct VmaPageList *)pVma->vm_private_data;
++
++ if (pVmaList)
++ {
++ PRINTK_VERBOSE(KERN_DEBUG "vma found (%s %d)\n", current->comm, current->pid);
++
++ if (pVmaList->m_pPageTail->m_used == PAGES_PER_LIST)
++ {
++ PRINTK_VERBOSE(KERN_DEBUG "making new page list (%s %d)\n", current->comm, current->pid);
++ //making a new page list
++ pVmaList->m_pPageTail->m_pNext = (struct PageList *)kmalloc(sizeof(struct PageList), GFP_KERNEL);
++ if (!pVmaList->m_pPageTail->m_pNext)
++ return -ENOMEM;
++
++ //update the tail pointer
++ pVmaList->m_pPageTail = pVmaList->m_pPageTail->m_pNext;
++ pVmaList->m_pPageTail->m_used = 0;
++ pVmaList->m_pPageTail->m_pNext = 0;
++ }
++
++ PRINTK_VERBOSE(KERN_DEBUG "adding page to list (%s %d)\n", current->comm, current->pid);
++
++ pVmaList->m_pPageTail->m_pPages[pVmaList->m_pPageTail->m_used] = pVmf->page;
++ pVmaList->m_pPageTail->m_used++;
++ }
++ else
++ PRINTK(KERN_ERR "returned page for vma we don\'t know %p (%s %d)\n", pVma, current->comm, current->pid);
++
++ return 0;
++ }
++}
++
++/****** GENERIC FUNCTIONS ******/
++static int __init dmaer_init(void)
++{
++ int result = alloc_chrdev_region(&g_majorMinor, 0, 1, "dmaer");
++ if (result < 0)
++ {
++ PRINTK(KERN_ERR "unable to get major device number\n");
++ return result;
++ }
++ else
++ PRINTK(KERN_DEBUG "major device number %d\n", MAJOR(g_majorMinor));
++
++ PRINTK(KERN_DEBUG "vma list size %d, page list size %d, page size %ld\n",
++ sizeof(struct VmaPageList), sizeof(struct PageList), PAGE_SIZE);
++
++ //get a dma channel to work with
++ result = bcm_dma_chan_alloc(BCM_DMA_FEATURE_FAST, (void **)&g_pDmaChanBase, &g_dmaIrq);
++
++ //uncomment to force to channel 0
++ //result = 0;
++ //g_pDmaChanBase = 0xce808000;
++
++ if (result < 0)
++ {
++ PRINTK(KERN_ERR "failed to allocate dma channel\n");
++ cdev_del(&g_cDev);
++ unregister_chrdev_region(g_majorMinor, 1);
++ }
++
++ //reset the channel
++ PRINTK(KERN_DEBUG "allocated dma channel %d (%p), initial state %08x\n", result, g_pDmaChanBase, *g_pDmaChanBase);
++ *g_pDmaChanBase = 1 << 31;
++ PRINTK(KERN_DEBUG "post-reset %08x\n", *g_pDmaChanBase);
++
++ g_dmaChan = result;
++
++ //clear the cache stats
++ g_cacheHit = 0;
++ g_cacheMiss = 0;
++
++ //register our device - after this we are go go go
++ cdev_init(&g_cDev, &g_fOps);
++ g_cDev.owner = THIS_MODULE;
++ g_cDev.ops = &g_fOps;
++
++ result = cdev_add(&g_cDev, g_majorMinor, 1);
++ if (result < 0)
++ {
++ PRINTK(KERN_ERR "failed to add character device\n");
++ unregister_chrdev_region(g_majorMinor, 1);
++ bcm_dma_chan_free(g_dmaChan);
++ return result;
++ }
++
++ return 0;
++}
++
++static void __exit dmaer_exit(void)
++{
++ PRINTK(KERN_INFO "closing dmaer device, cache stats: %d hits %d misses\n", g_cacheHit, g_cacheMiss);
++ //unregister the device
++ cdev_del(&g_cDev);
++ unregister_chrdev_region(g_majorMinor, 1);
++ //free the dma channel
++ bcm_dma_chan_free(g_dmaChan);
++}
++
++MODULE_LICENSE("Dual BSD/GPL");
++MODULE_AUTHOR("Simon Hall");
++module_init(dmaer_init);
++module_exit(dmaer_exit);
++
+diff -urN linux-3.10/arch/arm/mach-bcm2708/include/mach/arm_control.h linux-rpi-3.10.y/arch/arm/mach-bcm2708/include/mach/arm_control.h
+--- linux-3.10/arch/arm/mach-bcm2708/include/mach/arm_control.h 1970-01-01 01:00:00.000000000 +0100
++++ linux-rpi-3.10.y/arch/arm/mach-bcm2708/include/mach/arm_control.h 2013-07-06 15:25:50.000000000 +0100
+@@ -0,0 +1,419 @@
++/*
++ * linux/arch/arm/mach-bcm2708/arm_control.h
++ *
++ * Copyright (C) 2010 Broadcom
++ *
++ * This program is free software; you can redistribute it and/or modify
++ * it under the terms of the GNU General Public License as published by
++ * the Free Software Foundation; either version 2 of the License, or
++ * (at your option) any later version.
++ *
++ * This program is distributed in the hope that it will be useful,
++ * but WITHOUT ANY WARRANTY; without even the implied warranty of
++ * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
++ * GNU General Public License for more details.
++ *
++ * You should have received a copy of the GNU General Public License
++ * along with this program; if not, write to the Free Software
++ * Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA
++ */
++
++#ifndef __BCM2708_ARM_CONTROL_H
++#define __BCM2708_ARM_CONTROL_H
++
++/*
++ * Definitions and addresses for the ARM CONTROL logic
++ * This file is manually generated.
++ */
++
++#define ARM_BASE 0x7E00B000
++
++/* Basic configuration */
++#define ARM_CONTROL0 HW_REGISTER_RW(ARM_BASE+0x000)
++#define ARM_C0_SIZ128M 0x00000000
++#define ARM_C0_SIZ256M 0x00000001
++#define ARM_C0_SIZ512M 0x00000002
++#define ARM_C0_SIZ1G 0x00000003
++#define ARM_C0_BRESP0 0x00000000
++#define ARM_C0_BRESP1 0x00000004
++#define ARM_C0_BRESP2 0x00000008
++#define ARM_C0_BOOTHI 0x00000010
++#define ARM_C0_UNUSED05 0x00000020 /* free */
++#define ARM_C0_FULLPERI 0x00000040
++#define ARM_C0_UNUSED78 0x00000180 /* free */
++#define ARM_C0_JTAGMASK 0x00000E00
++#define ARM_C0_JTAGOFF 0x00000000
++#define ARM_C0_JTAGBASH 0x00000800 /* Debug on GPIO off */
++#define ARM_C0_JTAGGPIO 0x00000C00 /* Debug on GPIO on */
++#define ARM_C0_APROTMSK 0x0000F000
++#define ARM_C0_DBG0SYNC 0x00010000 /* VPU0 halt sync */
++#define ARM_C0_DBG1SYNC 0x00020000 /* VPU1 halt sync */
++#define ARM_C0_SWDBGREQ 0x00040000 /* HW debug request */
++#define ARM_C0_PASSHALT 0x00080000 /* ARM halt passed to debugger */
++#define ARM_C0_PRIO_PER 0x00F00000 /* per priority mask */
++#define ARM_C0_PRIO_L2 0x0F000000
++#define ARM_C0_PRIO_UC 0xF0000000
++
++#define ARM_C0_APROTPASS 0x0000A000 /* Translate 1:1 */
++#define ARM_C0_APROTUSER 0x00000000 /* Only user mode */
++#define ARM_C0_APROTSYST 0x0000F000 /* Only system mode */
++
++
++#define ARM_CONTROL1 HW_REGISTER_RW(ARM_BASE+0x440)
++#define ARM_C1_TIMER 0x00000001 /* re-route timer IRQ to VC */
++#define ARM_C1_MAIL 0x00000002 /* re-route Mail IRQ to VC */
++#define ARM_C1_BELL0 0x00000004 /* re-route Doorbell 0 to VC */
++#define ARM_C1_BELL1 0x00000008 /* re-route Doorbell 1 to VC */
++#define ARM_C1_PERSON 0x00000100 /* peripherals on */
++#define ARM_C1_REQSTOP 0x00000200 /* ASYNC bridge request stop */
++
++#define ARM_STATUS HW_REGISTER_RW(ARM_BASE+0x444)
++#define ARM_S_ACKSTOP 0x80000000 /* Bridge stopped */
++#define ARM_S_READPEND 0x000003FF /* pending reads counter */
++#define ARM_S_WRITPEND 0x000FFC00 /* pending writes counter */
++
++#define ARM_ERRHALT HW_REGISTER_RW(ARM_BASE+0x448)
++#define ARM_EH_PERIBURST 0x00000001 /* Burst write seen on peri bus */
++#define ARM_EH_ILLADDRS1 0x00000002 /* Address bits 25-27 error */
++#define ARM_EH_ILLADDRS2 0x00000004 /* Address bits 31-28 error */
++#define ARM_EH_VPU0HALT 0x00000008 /* VPU0 halted & in debug mode */
++#define ARM_EH_VPU1HALT 0x00000010 /* VPU1 halted & in debug mode */
++#define ARM_EH_ARMHALT 0x00000020 /* ARM in halted debug mode */
++
++#define ARM_ID_SECURE HW_REGISTER_RW(ARM_BASE+0x00C)
++#define ARM_ID HW_REGISTER_RW(ARM_BASE+0x44C)
++#define ARM_IDVAL 0x364D5241
++
++/* Translation memory */
++#define ARM_TRANSLATE HW_REGISTER_RW(ARM_BASE+0x100)
++/* 32 locations: 0x100.. 0x17F */
++/* 32 spare means we CAN go to 64 pages.... */
++
++
++/* Interrupts */
++#define ARM_IRQ_PEND0 HW_REGISTER_RW(ARM_BASE+0x200) /* Top IRQ bits */
++#define ARM_I0_TIMER 0x00000001 /* timer IRQ */
++#define ARM_I0_MAIL 0x00000002 /* Mail IRQ */
++#define ARM_I0_BELL0 0x00000004 /* Doorbell 0 */
++#define ARM_I0_BELL1 0x00000008 /* Doorbell 1 */
++#define ARM_I0_BANK1 0x00000100 /* Bank1 IRQ */
++#define ARM_I0_BANK2 0x00000200 /* Bank2 IRQ */
++
++#define ARM_IRQ_PEND1 HW_REGISTER_RW(ARM_BASE+0x204) /* All bank1 IRQ bits */
++/* todo: all I1_interrupt sources */
++#define ARM_IRQ_PEND2 HW_REGISTER_RW(ARM_BASE+0x208) /* All bank2 IRQ bits */
++/* todo: all I2_interrupt sources */
++
++#define ARM_IRQ_FAST HW_REGISTER_RW(ARM_BASE+0x20C) /* FIQ control */
++#define ARM_IF_INDEX 0x0000007F /* FIQ select */
++#define ARM_IF_ENABLE 0x00000080 /* FIQ enable */
++#define ARM_IF_VCMASK 0x0000003F /* FIQ = (index from VC source) */
++#define ARM_IF_TIMER 0x00000040 /* FIQ = ARM timer */
++#define ARM_IF_MAIL 0x00000041 /* FIQ = ARM Mail */
++#define ARM_IF_BELL0 0x00000042 /* FIQ = ARM Doorbell 0 */
++#define ARM_IF_BELL1 0x00000043 /* FIQ = ARM Doorbell 1 */
++#define ARM_IF_VP0HALT 0x00000044 /* FIQ = VPU0 Halt seen */
++#define ARM_IF_VP1HALT 0x00000045 /* FIQ = VPU1 Halt seen */
++#define ARM_IF_ILLEGAL 0x00000046 /* FIQ = Illegal access seen */
++
++#define ARM_IRQ_ENBL1 HW_REGISTER_RW(ARM_BASE+0x210) /* Bank1 enable bits */
++#define ARM_IRQ_ENBL2 HW_REGISTER_RW(ARM_BASE+0x214) /* Bank2 enable bits */
++#define ARM_IRQ_ENBL3 HW_REGISTER_RW(ARM_BASE+0x218) /* ARM irqs enable bits */
++#define ARM_IRQ_DIBL1 HW_REGISTER_RW(ARM_BASE+0x21C) /* Bank1 disable bits */
++#define ARM_IRQ_DIBL2 HW_REGISTER_RW(ARM_BASE+0x220) /* Bank2 disable bits */
++#define ARM_IRQ_DIBL3 HW_REGISTER_RW(ARM_BASE+0x224) /* ARM irqs disable bits */
++#define ARM_IE_TIMER 0x00000001 /* Timer IRQ */
++#define ARM_IE_MAIL 0x00000002 /* Mail IRQ */
++#define ARM_IE_BELL0 0x00000004 /* Doorbell 0 */
++#define ARM_IE_BELL1 0x00000008 /* Doorbell 1 */
++#define ARM_IE_VP0HALT 0x00000010 /* VPU0 Halt */
++#define ARM_IE_VP1HALT 0x00000020 /* VPU1 Halt */
++#define ARM_IE_ILLEGAL 0x00000040 /* Illegal access seen */
++
++/* Timer */
++/* For reg. fields see sp804 spec. */
++#define ARM_T_LOAD HW_REGISTER_RW(ARM_BASE+0x400)
++#define ARM_T_VALUE HW_REGISTER_RW(ARM_BASE+0x404)
++#define ARM_T_CONTROL HW_REGISTER_RW(ARM_BASE+0x408)
++#define ARM_T_IRQCNTL HW_REGISTER_RW(ARM_BASE+0x40C)
++#define ARM_T_RAWIRQ HW_REGISTER_RW(ARM_BASE+0x410)
++#define ARM_T_MSKIRQ HW_REGISTER_RW(ARM_BASE+0x414)
++#define ARM_T_RELOAD HW_REGISTER_RW(ARM_BASE+0x418)
++#define ARM_T_PREDIV HW_REGISTER_RW(ARM_BASE+0x41c)
++#define ARM_T_FREECNT HW_REGISTER_RW(ARM_BASE+0x420)
++
++#define TIMER_CTRL_ONESHOT (1 << 0)
++#define TIMER_CTRL_32BIT (1 << 1)
++#define TIMER_CTRL_DIV1 (0 << 2)
++#define TIMER_CTRL_DIV16 (1 << 2)
++#define TIMER_CTRL_DIV256 (2 << 2)
++#define TIMER_CTRL_IE (1 << 5)
++#define TIMER_CTRL_PERIODIC (1 << 6)
++#define TIMER_CTRL_ENABLE (1 << 7)
++#define TIMER_CTRL_DBGHALT (1 << 8)
++#define TIMER_CTRL_ENAFREE (1 << 9)
++#define TIMER_CTRL_FREEDIV_SHIFT 16)
++#define TIMER_CTRL_FREEDIV_MASK 0xff
++
++/* Semaphores, Doorbells, Mailboxes */
++#define ARM_SBM_OWN0 (ARM_BASE+0x800)
++#define ARM_SBM_OWN1 (ARM_BASE+0x900)
++#define ARM_SBM_OWN2 (ARM_BASE+0xA00)
++#define ARM_SBM_OWN3 (ARM_BASE+0xB00)
++
++/* MAILBOXES
++ * Register flags are common across all
++ * owner registers. See end of this section
++ *
++ * Semaphores, Doorbells, Mailboxes Owner 0
++ *
++ */
++
++#define ARM_0_SEMS HW_REGISTER_RW(ARM_SBM_OWN0+0x00)
++#define ARM_0_SEM0 HW_REGISTER_RW(ARM_SBM_OWN0+0x00)
++#define ARM_0_SEM1 HW_REGISTER_RW(ARM_SBM_OWN0+0x04)
++#define ARM_0_SEM2 HW_REGISTER_RW(ARM_SBM_OWN0+0x08)
++#define ARM_0_SEM3 HW_REGISTER_RW(ARM_SBM_OWN0+0x0C)
++#define ARM_0_SEM4 HW_REGISTER_RW(ARM_SBM_OWN0+0x10)
++#define ARM_0_SEM5 HW_REGISTER_RW(ARM_SBM_OWN0+0x14)
++#define ARM_0_SEM6 HW_REGISTER_RW(ARM_SBM_OWN0+0x18)
++#define ARM_0_SEM7 HW_REGISTER_RW(ARM_SBM_OWN0+0x1C)
++#define ARM_0_BELL0 HW_REGISTER_RW(ARM_SBM_OWN0+0x40)
++#define ARM_0_BELL1 HW_REGISTER_RW(ARM_SBM_OWN0+0x44)
++#define ARM_0_BELL2 HW_REGISTER_RW(ARM_SBM_OWN0+0x48)
++#define ARM_0_BELL3 HW_REGISTER_RW(ARM_SBM_OWN0+0x4C)
++/* MAILBOX 0 access in Owner 0 area */
++/* Some addresses should ONLY be used by owner 0 */
++#define ARM_0_MAIL0_WRT HW_REGISTER_RW(ARM_SBM_OWN0+0x80) /* .. 0x8C (4 locations) */
++#define ARM_0_MAIL0_RD HW_REGISTER_RW(ARM_SBM_OWN0+0x80) /* .. 0x8C (4 locations) Normal read */
++#define ARM_0_MAIL0_POL HW_REGISTER_RW(ARM_SBM_OWN0+0x90) /* none-pop read */
++#define ARM_0_MAIL0_SND HW_REGISTER_RW(ARM_SBM_OWN0+0x94) /* Sender read (only LS 2 bits) */
++#define ARM_0_MAIL0_STA HW_REGISTER_RW(ARM_SBM_OWN0+0x98) /* Status read */
++#define ARM_0_MAIL0_CNF HW_REGISTER_RW(ARM_SBM_OWN0+0x9C) /* Config read/write */
++/* MAILBOX 1 access in Owner 0 area */
++/* Owner 0 should only WRITE to this mailbox */
++#define ARM_0_MAIL1_WRT HW_REGISTER_RW(ARM_SBM_OWN0+0xA0) /* .. 0xAC (4 locations) */
++/*#define ARM_0_MAIL1_RD HW_REGISTER_RW(ARM_SBM_OWN0+0xA0) */ /* DO NOT USE THIS !!!!! */
++/*#define ARM_0_MAIL1_POL HW_REGISTER_RW(ARM_SBM_OWN0+0xB0) */ /* DO NOT USE THIS !!!!! */
++/*#define ARM_0_MAIL1_SND HW_REGISTER_RW(ARM_SBM_OWN0+0xB4) */ /* DO NOT USE THIS !!!!! */
++#define ARM_0_MAIL1_STA HW_REGISTER_RW(ARM_SBM_OWN0+0xB8) /* Status read */
++/*#define ARM_0_MAIL1_CNF HW_REGISTER_RW(ARM_SBM_OWN0+0xBC) */ /* DO NOT USE THIS !!!!! */
++/* General SEM, BELL, MAIL config/status */
++#define ARM_0_SEMCLRDBG HW_REGISTER_RW(ARM_SBM_OWN0+0xE0) /* semaphore clear/debug register */
++#define ARM_0_BELLCLRDBG HW_REGISTER_RW(ARM_SBM_OWN0+0xE4) /* Doorbells clear/debug register */
++#define ARM_0_ALL_IRQS HW_REGISTER_RW(ARM_SBM_OWN0+0xF8) /* ALL interrupts */
++#define ARM_0_MY_IRQS HW_REGISTER_RW(ARM_SBM_OWN0+0xFC) /* IRQS pending for owner 0 */
++
++/* Semaphores, Doorbells, Mailboxes Owner 1 */
++#define ARM_1_SEMS HW_REGISTER_RW(ARM_SBM_OWN1+0x00)
++#define ARM_1_SEM0 HW_REGISTER_RW(ARM_SBM_OWN1+0x00)
++#define ARM_1_SEM1 HW_REGISTER_RW(ARM_SBM_OWN1+0x04)
++#define ARM_1_SEM2 HW_REGISTER_RW(ARM_SBM_OWN1+0x08)
++#define ARM_1_SEM3 HW_REGISTER_RW(ARM_SBM_OWN1+0x0C)
++#define ARM_1_SEM4 HW_REGISTER_RW(ARM_SBM_OWN1+0x10)
++#define ARM_1_SEM5 HW_REGISTER_RW(ARM_SBM_OWN1+0x14)
++#define ARM_1_SEM6 HW_REGISTER_RW(ARM_SBM_OWN1+0x18)
++#define ARM_1_SEM7 HW_REGISTER_RW(ARM_SBM_OWN1+0x1C)
++#define ARM_1_BELL0 HW_REGISTER_RW(ARM_SBM_OWN1+0x40)
++#define ARM_1_BELL1 HW_REGISTER_RW(ARM_SBM_OWN1+0x44)
++#define ARM_1_BELL2 HW_REGISTER_RW(ARM_SBM_OWN1+0x48)
++#define ARM_1_BELL3 HW_REGISTER_RW(ARM_SBM_OWN1+0x4C)
++/* MAILBOX 0 access in Owner 0 area */
++/* Owner 1 should only WRITE to this mailbox */
++#define ARM_1_MAIL0_WRT HW_REGISTER_RW(ARM_SBM_OWN1+0x80) /* .. 0x8C (4 locations) */
++/*#define ARM_1_MAIL0_RD HW_REGISTER_RW(ARM_SBM_OWN1+0x80) */ /* DO NOT USE THIS !!!!! */
++/*#define ARM_1_MAIL0_POL HW_REGISTER_RW(ARM_SBM_OWN1+0x90) */ /* DO NOT USE THIS !!!!! */
++/*#define ARM_1_MAIL0_SND HW_REGISTER_RW(ARM_SBM_OWN1+0x94) */ /* DO NOT USE THIS !!!!! */
++#define ARM_1_MAIL0_STA HW_REGISTER_RW(ARM_SBM_OWN1+0x98) /* Status read */
++/*#define ARM_1_MAIL0_CNF HW_REGISTER_RW(ARM_SBM_OWN1+0x9C) */ /* DO NOT USE THIS !!!!! */
++/* MAILBOX 1 access in Owner 0 area */
++#define ARM_1_MAIL1_WRT HW_REGISTER_RW(ARM_SBM_OWN1+0xA0) /* .. 0xAC (4 locations) */
++#define ARM_1_MAIL1_RD HW_REGISTER_RW(ARM_SBM_OWN1+0xA0) /* .. 0xAC (4 locations) Normal read */
++#define ARM_1_MAIL1_POL HW_REGISTER_RW(ARM_SBM_OWN1+0xB0) /* none-pop read */
++#define ARM_1_MAIL1_SND HW_REGISTER_RW(ARM_SBM_OWN1+0xB4) /* Sender read (only LS 2 bits) */
++#define ARM_1_MAIL1_STA HW_REGISTER_RW(ARM_SBM_OWN1+0xB8) /* Status read */
++#define ARM_1_MAIL1_CNF HW_REGISTER_RW(ARM_SBM_OWN1+0xBC)
++/* General SEM, BELL, MAIL config/status */
++#define ARM_1_SEMCLRDBG HW_REGISTER_RW(ARM_SBM_OWN1+0xE0) /* semaphore clear/debug register */
++#define ARM_1_BELLCLRDBG HW_REGISTER_RW(ARM_SBM_OWN1+0xE4) /* Doorbells clear/debug register */
++#define ARM_1_MY_IRQS HW_REGISTER_RW(ARM_SBM_OWN1+0xFC) /* IRQS pending for owner 1 */
++#define ARM_1_ALL_IRQS HW_REGISTER_RW(ARM_SBM_OWN1+0xF8) /* ALL interrupts */
++
++/* Semaphores, Doorbells, Mailboxes Owner 2 */
++#define ARM_2_SEMS HW_REGISTER_RW(ARM_SBM_OWN2+0x00)
++#define ARM_2_SEM0 HW_REGISTER_RW(ARM_SBM_OWN2+0x00)
++#define ARM_2_SEM1 HW_REGISTER_RW(ARM_SBM_OWN2+0x04)
++#define ARM_2_SEM2 HW_REGISTER_RW(ARM_SBM_OWN2+0x08)
++#define ARM_2_SEM3 HW_REGISTER_RW(ARM_SBM_OWN2+0x0C)
++#define ARM_2_SEM4 HW_REGISTER_RW(ARM_SBM_OWN2+0x10)
++#define ARM_2_SEM5 HW_REGISTER_RW(ARM_SBM_OWN2+0x14)
++#define ARM_2_SEM6 HW_REGISTER_RW(ARM_SBM_OWN2+0x18)
++#define ARM_2_SEM7 HW_REGISTER_RW(ARM_SBM_OWN2+0x1C)
++#define ARM_2_BELL0 HW_REGISTER_RW(ARM_SBM_OWN2+0x40)
++#define ARM_2_BELL1 HW_REGISTER_RW(ARM_SBM_OWN2+0x44)
++#define ARM_2_BELL2 HW_REGISTER_RW(ARM_SBM_OWN2+0x48)
++#define ARM_2_BELL3 HW_REGISTER_RW(ARM_SBM_OWN2+0x4C)
++/* MAILBOX 0 access in Owner 2 area */
++/* Owner 2 should only WRITE to this mailbox */
++#define ARM_2_MAIL0_WRT HW_REGISTER_RW(ARM_SBM_OWN2+0x80) /* .. 0x8C (4 locations) */
++/*#define ARM_2_MAIL0_RD HW_REGISTER_RW(ARM_SBM_OWN2+0x80) */ /* DO NOT USE THIS !!!!! */
++/*#define ARM_2_MAIL0_POL HW_REGISTER_RW(ARM_SBM_OWN2+0x90) */ /* DO NOT USE THIS !!!!! */
++/*#define ARM_2_MAIL0_SND HW_REGISTER_RW(ARM_SBM_OWN2+0x94) */ /* DO NOT USE THIS !!!!! */
++#define ARM_2_MAIL0_STA HW_REGISTER_RW(ARM_SBM_OWN2+0x98) /* Status read */
++/*#define ARM_2_MAIL0_CNF HW_REGISTER_RW(ARM_SBM_OWN2+0x9C) */ /* DO NOT USE THIS !!!!! */
++/* MAILBOX 1 access in Owner 2 area */
++/* Owner 2 should only WRITE to this mailbox */
++#define ARM_2_MAIL1_WRT HW_REGISTER_RW(ARM_SBM_OWN2+0xA0) /* .. 0xAC (4 locations) */
++/*#define ARM_2_MAIL1_RD HW_REGISTER_RW(ARM_SBM_OWN2+0xA0) */ /* DO NOT USE THIS !!!!! */
++/*#define ARM_2_MAIL1_POL HW_REGISTER_RW(ARM_SBM_OWN2+0xB0) */ /* DO NOT USE THIS !!!!! */
++/*#define ARM_2_MAIL1_SND HW_REGISTER_RW(ARM_SBM_OWN2+0xB4) */ /* DO NOT USE THIS !!!!! */
++#define ARM_2_MAIL1_STA HW_REGISTER_RW(ARM_SBM_OWN2+0xB8) /* Status read */
++/*#define ARM_2_MAIL1_CNF HW_REGISTER_RW(ARM_SBM_OWN2+0xBC) */ /* DO NOT USE THIS !!!!! */
++/* General SEM, BELL, MAIL config/status */
++#define ARM_2_SEMCLRDBG HW_REGISTER_RW(ARM_SBM_OWN2+0xE0) /* semaphore clear/debug register */
++#define ARM_2_BELLCLRDBG HW_REGISTER_RW(ARM_SBM_OWN2+0xE4) /* Doorbells clear/debug register */
++#define ARM_2_MY_IRQS HW_REGISTER_RW(ARM_SBM_OWN2+0xFC) /* IRQS pending for owner 2 */
++#define ARM_2_ALL_IRQS HW_REGISTER_RW(ARM_SBM_OWN2+0xF8) /* ALL interrupts */
++
++/* Semaphores, Doorbells, Mailboxes Owner 3 */
++#define ARM_3_SEMS HW_REGISTER_RW(ARM_SBM_OWN3+0x00)
++#define ARM_3_SEM0 HW_REGISTER_RW(ARM_SBM_OWN3+0x00)
++#define ARM_3_SEM1 HW_REGISTER_RW(ARM_SBM_OWN3+0x04)
++#define ARM_3_SEM2 HW_REGISTER_RW(ARM_SBM_OWN3+0x08)
++#define ARM_3_SEM3 HW_REGISTER_RW(ARM_SBM_OWN3+0x0C)
++#define ARM_3_SEM4 HW_REGISTER_RW(ARM_SBM_OWN3+0x10)
++#define ARM_3_SEM5 HW_REGISTER_RW(ARM_SBM_OWN3+0x14)
++#define ARM_3_SEM6 HW_REGISTER_RW(ARM_SBM_OWN3+0x18)
++#define ARM_3_SEM7 HW_REGISTER_RW(ARM_SBM_OWN3+0x1C)
++#define ARM_3_BELL0 HW_REGISTER_RW(ARM_SBM_OWN3+0x40)
++#define ARM_3_BELL1 HW_REGISTER_RW(ARM_SBM_OWN3+0x44)
++#define ARM_3_BELL2 HW_REGISTER_RW(ARM_SBM_OWN3+0x48)
++#define ARM_3_BELL3 HW_REGISTER_RW(ARM_SBM_OWN3+0x4C)
++/* MAILBOX 0 access in Owner 3 area */
++/* Owner 3 should only WRITE to this mailbox */
++#define ARM_3_MAIL0_WRT HW_REGISTER_RW(ARM_SBM_OWN3+0x80) /* .. 0x8C (4 locations) */
++/*#define ARM_3_MAIL0_RD HW_REGISTER_RW(ARM_SBM_OWN3+0x80) */ /* DO NOT USE THIS !!!!! */
++/*#define ARM_3_MAIL0_POL HW_REGISTER_RW(ARM_SBM_OWN3+0x90) */ /* DO NOT USE THIS !!!!! */
++/*#define ARM_3_MAIL0_SND HW_REGISTER_RW(ARM_SBM_OWN3+0x94) */ /* DO NOT USE THIS !!!!! */
++#define ARM_3_MAIL0_STA HW_REGISTER_RW(ARM_SBM_OWN3+0x98) /* Status read */
++/*#define ARM_3_MAIL0_CNF HW_REGISTER_RW(ARM_SBM_OWN3+0x9C) */ /* DO NOT USE THIS !!!!! */
++/* MAILBOX 1 access in Owner 3 area */
++/* Owner 3 should only WRITE to this mailbox */
++#define ARM_3_MAIL1_WRT HW_REGISTER_RW(ARM_SBM_OWN3+0xA0) /* .. 0xAC (4 locations) */
++/*#define ARM_3_MAIL1_RD HW_REGISTER_RW(ARM_SBM_OWN3+0xA0) */ /* DO NOT USE THIS !!!!! */
++/*#define ARM_3_MAIL1_POL HW_REGISTER_RW(ARM_SBM_OWN3+0xB0) */ /* DO NOT USE THIS !!!!! */
++/*#define ARM_3_MAIL1_SND HW_REGISTER_RW(ARM_SBM_OWN3+0xB4) */ /* DO NOT USE THIS !!!!! */
++#define ARM_3_MAIL1_STA HW_REGISTER_RW(ARM_SBM_OWN3+0xB8) /* Status read */
++/*#define ARM_3_MAIL1_CNF HW_REGISTER_RW(ARM_SBM_OWN3+0xBC) */ /* DO NOT USE THIS !!!!! */
++/* General SEM, BELL, MAIL config/status */
++#define ARM_3_SEMCLRDBG HW_REGISTER_RW(ARM_SBM_OWN3+0xE0) /* semaphore clear/debug register */
++#define ARM_3_BELLCLRDBG HW_REGISTER_RW(ARM_SBM_OWN3+0xE4) /* Doorbells clear/debug register */
++#define ARM_3_MY_IRQS HW_REGISTER_RW(ARM_SBM_OWN3+0xFC) /* IRQS pending for owner 3 */
++#define ARM_3_ALL_IRQS HW_REGISTER_RW(ARM_SBM_OWN3+0xF8) /* ALL interrupts */
++
++
++
++/* Mailbox flags. Valid for all owners */
++
++/* Mailbox status register (...0x98) */
++#define ARM_MS_FULL 0x80000000
++#define ARM_MS_EMPTY 0x40000000
++#define ARM_MS_LEVEL 0x400000FF /* Max. value depdnds on mailbox depth parameter */
++
++/* MAILBOX config/status register (...0x9C) */
++/* ANY write to this register clears the error bits! */
++#define ARM_MC_IHAVEDATAIRQEN 0x00000001 /* mailbox irq enable: has data */
++#define ARM_MC_IHAVESPACEIRQEN 0x00000002 /* mailbox irq enable: has space */
++#define ARM_MC_OPPISEMPTYIRQEN 0x00000004 /* mailbox irq enable: Opp. is empty */
++#define ARM_MC_MAIL_CLEAR 0x00000008 /* mailbox clear write 1, then 0 */
++#define ARM_MC_IHAVEDATAIRQPEND 0x00000010 /* mailbox irq pending: has space */
++#define ARM_MC_IHAVESPACEIRQPEND 0x00000020 /* mailbox irq pending: Opp. is empty */
++#define ARM_MC_OPPISEMPTYIRQPEND 0x00000040 /* mailbox irq pending */
++/* Bit 7 is unused */
++#define ARM_MC_ERRNOOWN 0x00000100 /* error : none owner read from mailbox */
++#define ARM_MC_ERROVERFLW 0x00000200 /* error : write to fill mailbox */
++#define ARM_MC_ERRUNDRFLW 0x00000400 /* error : read from empty mailbox */
++
++/* Semaphore clear/debug register (...0xE0) */
++#define ARM_SD_OWN0 0x00000003 /* Owner of sem 0 */
++#define ARM_SD_OWN1 0x0000000C /* Owner of sem 1 */
++#define ARM_SD_OWN2 0x00000030 /* Owner of sem 2 */
++#define ARM_SD_OWN3 0x000000C0 /* Owner of sem 3 */
++#define ARM_SD_OWN4 0x00000300 /* Owner of sem 4 */
++#define ARM_SD_OWN5 0x00000C00 /* Owner of sem 5 */
++#define ARM_SD_OWN6 0x00003000 /* Owner of sem 6 */
++#define ARM_SD_OWN7 0x0000C000 /* Owner of sem 7 */
++#define ARM_SD_SEM0 0x00010000 /* Status of sem 0 */
++#define ARM_SD_SEM1 0x00020000 /* Status of sem 1 */
++#define ARM_SD_SEM2 0x00040000 /* Status of sem 2 */
++#define ARM_SD_SEM3 0x00080000 /* Status of sem 3 */
++#define ARM_SD_SEM4 0x00100000 /* Status of sem 4 */
++#define ARM_SD_SEM5 0x00200000 /* Status of sem 5 */
++#define ARM_SD_SEM6 0x00400000 /* Status of sem 6 */
++#define ARM_SD_SEM7 0x00800000 /* Status of sem 7 */
++
++/* Doorbells clear/debug register (...0xE4) */
++#define ARM_BD_OWN0 0x00000003 /* Owner of doorbell 0 */
++#define ARM_BD_OWN1 0x0000000C /* Owner of doorbell 1 */
++#define ARM_BD_OWN2 0x00000030 /* Owner of doorbell 2 */
++#define ARM_BD_OWN3 0x000000C0 /* Owner of doorbell 3 */
++#define ARM_BD_BELL0 0x00000100 /* Status of doorbell 0 */
++#define ARM_BD_BELL1 0x00000200 /* Status of doorbell 1 */
++#define ARM_BD_BELL2 0x00000400 /* Status of doorbell 2 */
++#define ARM_BD_BELL3 0x00000800 /* Status of doorbell 3 */
++
++/* MY IRQS register (...0xF8) */
++#define ARM_MYIRQ_BELL 0x00000001 /* This owner has a doorbell IRQ */
++#define ARM_MYIRQ_MAIL 0x00000002 /* This owner has a mailbox IRQ */
++
++/* ALL IRQS register (...0xF8) */
++#define ARM_AIS_BELL0 0x00000001 /* Doorbell 0 IRQ pending */
++#define ARM_AIS_BELL1 0x00000002 /* Doorbell 1 IRQ pending */
++#define ARM_AIS_BELL2 0x00000004 /* Doorbell 2 IRQ pending */
++#define ARM_AIS_BELL3 0x00000008 /* Doorbell 3 IRQ pending */
++#define ARM_AIS0_HAVEDATA 0x00000010 /* MAIL 0 has data IRQ pending */
++#define ARM_AIS0_HAVESPAC 0x00000020 /* MAIL 0 has space IRQ pending */
++#define ARM_AIS0_OPPEMPTY 0x00000040 /* MAIL 0 opposite is empty IRQ */
++#define ARM_AIS1_HAVEDATA 0x00000080 /* MAIL 1 has data IRQ pending */
++#define ARM_AIS1_HAVESPAC 0x00000100 /* MAIL 1 has space IRQ pending */
++#define ARM_AIS1_OPPEMPTY 0x00000200 /* MAIL 1 opposite is empty IRQ */
++/* Note that bell-0, bell-1 and MAIL0 IRQ go only to the ARM */
++/* Whilst that bell-2, bell-3 and MAIL1 IRQ go only to the VC */
++/* */
++/* ARM JTAG BASH */
++/* */
++#define AJB_BASE 0x7e2000c0
++
++#define AJBCONF HW_REGISTER_RW(AJB_BASE+0x00)
++#define AJB_BITS0 0x000000
++#define AJB_BITS4 0x000004
++#define AJB_BITS8 0x000008
++#define AJB_BITS12 0x00000C
++#define AJB_BITS16 0x000010
++#define AJB_BITS20 0x000014
++#define AJB_BITS24 0x000018
++#define AJB_BITS28 0x00001C
++#define AJB_BITS32 0x000020
++#define AJB_BITS34 0x000022
++#define AJB_OUT_MS 0x000040
++#define AJB_OUT_LS 0x000000
++#define AJB_INV_CLK 0x000080
++#define AJB_D0_RISE 0x000100
++#define AJB_D0_FALL 0x000000
++#define AJB_D1_RISE 0x000200
++#define AJB_D1_FALL 0x000000
++#define AJB_IN_RISE 0x000400
++#define AJB_IN_FALL 0x000000
++#define AJB_ENABLE 0x000800
++#define AJB_HOLD0 0x000000
++#define AJB_HOLD1 0x001000
++#define AJB_HOLD2 0x002000
++#define AJB_HOLD3 0x003000
++#define AJB_RESETN 0x004000
++#define AJB_CLKSHFT 16
++#define AJB_BUSY 0x80000000
++#define AJBTMS HW_REGISTER_RW(AJB_BASE+0x04)
++#define AJBTDI HW_REGISTER_RW(AJB_BASE+0x08)
++#define AJBTDO HW_REGISTER_RW(AJB_BASE+0x0c)
++
++#endif
+diff -urN linux-3.10/arch/arm/mach-bcm2708/include/mach/arm_power.h linux-rpi-3.10.y/arch/arm/mach-bcm2708/include/mach/arm_power.h
+--- linux-3.10/arch/arm/mach-bcm2708/include/mach/arm_power.h 1970-01-01 01:00:00.000000000 +0100
++++ linux-rpi-3.10.y/arch/arm/mach-bcm2708/include/mach/arm_power.h 2013-07-06 15:25:50.000000000 +0100
+@@ -0,0 +1,60 @@
++/*
++ * linux/arch/arm/mach-bcm2708/include/mach/arm_power.h
++ *
++ * Copyright (C) 2010 Broadcom
++ *
++ * This program is free software; you can redistribute it and/or modify
++ * it under the terms of the GNU General Public License as published by
++ * the Free Software Foundation; either version 2 of the License, or
++ * (at your option) any later version.
++ *
++ * This program is distributed in the hope that it will be useful,
++ * but WITHOUT ANY WARRANTY; without even the implied warranty of
++ * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
++ * GNU General Public License for more details.
++ *
++ * You should have received a copy of the GNU General Public License
++ * along with this program; if not, write to the Free Software
++ * Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA
++ */
++
++#ifndef _ARM_POWER_H
++#define _ARM_POWER_H
++
++/* Use meaningful names on each side */
++#ifdef __VIDEOCORE__
++#define PREFIX(x) ARM_##x
++#else
++#define PREFIX(x) BCM_##x
++#endif
++
++enum {
++ PREFIX(POWER_SDCARD_BIT),
++ PREFIX(POWER_UART_BIT),
++ PREFIX(POWER_MINIUART_BIT),
++ PREFIX(POWER_USB_BIT),
++ PREFIX(POWER_I2C0_BIT),
++ PREFIX(POWER_I2C1_BIT),
++ PREFIX(POWER_I2C2_BIT),
++ PREFIX(POWER_SPI_BIT),
++ PREFIX(POWER_CCP2TX_BIT),
++
++ PREFIX(POWER_MAX)
++};
++
++enum {
++ PREFIX(POWER_SDCARD) = (1 << PREFIX(POWER_SDCARD_BIT)),
++ PREFIX(POWER_UART) = (1 << PREFIX(POWER_UART_BIT)),
++ PREFIX(POWER_MINIUART) = (1 << PREFIX(POWER_MINIUART_BIT)),
++ PREFIX(POWER_USB) = (1 << PREFIX(POWER_USB_BIT)),
++ PREFIX(POWER_I2C0) = (1 << PREFIX(POWER_I2C0_BIT)),
++ PREFIX(POWER_I2C1_MASK) = (1 << PREFIX(POWER_I2C1_BIT)),
++ PREFIX(POWER_I2C2_MASK) = (1 << PREFIX(POWER_I2C2_BIT)),
++ PREFIX(POWER_SPI_MASK) = (1 << PREFIX(POWER_SPI_BIT)),
++ PREFIX(POWER_CCP2TX_MASK) = (1 << PREFIX(POWER_CCP2TX_BIT)),
++
++ PREFIX(POWER_MASK) = (1 << PREFIX(POWER_MAX)) - 1,
++ PREFIX(POWER_NONE) = 0
++};
++
++#endif
+diff -urN linux-3.10/arch/arm/mach-bcm2708/include/mach/clkdev.h linux-rpi-3.10.y/arch/arm/mach-bcm2708/include/mach/clkdev.h
+--- linux-3.10/arch/arm/mach-bcm2708/include/mach/clkdev.h 1970-01-01 01:00:00.000000000 +0100
++++ linux-rpi-3.10.y/arch/arm/mach-bcm2708/include/mach/clkdev.h 2013-07-06 15:25:50.000000000 +0100
+@@ -0,0 +1,7 @@
++#ifndef __ASM_MACH_CLKDEV_H
++#define __ASM_MACH_CLKDEV_H
++
++#define __clk_get(clk) ({ 1; })
++#define __clk_put(clk) do { } while (0)
++
++#endif
+diff -urN linux-3.10/arch/arm/mach-bcm2708/include/mach/debug-macro.S linux-rpi-3.10.y/arch/arm/mach-bcm2708/include/mach/debug-macro.S
+--- linux-3.10/arch/arm/mach-bcm2708/include/mach/debug-macro.S 1970-01-01 01:00:00.000000000 +0100
++++ linux-rpi-3.10.y/arch/arm/mach-bcm2708/include/mach/debug-macro.S 2013-07-06 15:25:50.000000000 +0100
+@@ -0,0 +1,22 @@
++/* arch/arm/mach-bcm2708/include/mach/debug-macro.S
++ *
++ * Debugging macro include header
++ *
++ * Copyright (C) 2010 Broadcom
++ * Copyright (C) 1994-1999 Russell King
++ * Moved from linux/arch/arm/kernel/debug.S by Ben Dooks
++ *
++ * This program is free software; you can redistribute it and/or modify
++ * it under the terms of the GNU General Public License version 2 as
++ * published by the Free Software Foundation.
++ *
++*/
++
++#include <mach/platform.h>
++
++ .macro addruart, rp, rv, tmp
++ ldr \rp, =UART0_BASE
++ ldr \rv, =IO_ADDRESS(UART0_BASE)
++ .endm
++
++#include <asm/hardware/debug-pl01x.S>
+diff -urN linux-3.10/arch/arm/mach-bcm2708/include/mach/dma.h linux-rpi-3.10.y/arch/arm/mach-bcm2708/include/mach/dma.h
+--- linux-3.10/arch/arm/mach-bcm2708/include/mach/dma.h 1970-01-01 01:00:00.000000000 +0100
++++ linux-rpi-3.10.y/arch/arm/mach-bcm2708/include/mach/dma.h 2013-07-06 15:25:50.000000000 +0100
+@@ -0,0 +1,86 @@
++/*
++ * linux/arch/arm/mach-bcm2708/include/mach/dma.h
++ *
++ * Copyright (C) 2010 Broadcom
++ *
++ * This program is free software; you can redistribute it and/or modify
++ * it under the terms of the GNU General Public License version 2 as
++ * published by the Free Software Foundation.
++ */
++
++
++#ifndef _MACH_BCM2708_DMA_H
++#define _MACH_BCM2708_DMA_H
++
++#define BCM_DMAMAN_DRIVER_NAME "bcm2708_dma"
++
++/* DMA CS Control and Status bits */
++#define BCM2708_DMA_ACTIVE (1 << 0)
++#define BCM2708_DMA_INT (1 << 2)
++#define BCM2708_DMA_ISPAUSED (1 << 4) /* Pause requested or not active */
++#define BCM2708_DMA_ISHELD (1 << 5) /* Is held by DREQ flow control */
++#define BCM2708_DMA_ERR (1 << 8)
++#define BCM2708_DMA_ABORT (1 << 30) /* stop current CB, go to next, WO */
++#define BCM2708_DMA_RESET (1 << 31) /* WO, self clearing */
++
++/* DMA control block "info" field bits */
++#define BCM2708_DMA_INT_EN (1 << 0)
++#define BCM2708_DMA_TDMODE (1 << 1)
++#define BCM2708_DMA_WAIT_RESP (1 << 3)
++#define BCM2708_DMA_D_INC (1 << 4)
++#define BCM2708_DMA_D_WIDTH (1 << 5)
++#define BCM2708_DMA_D_DREQ (1 << 6)
++#define BCM2708_DMA_S_INC (1 << 8)
++#define BCM2708_DMA_S_WIDTH (1 << 9)
++#define BCM2708_DMA_S_DREQ (1 << 10)
++
++#define BCM2708_DMA_BURST(x) (((x)&0xf) << 12)
++#define BCM2708_DMA_PER_MAP(x) ((x) << 16)
++#define BCM2708_DMA_WAITS(x) (((x)&0x1f) << 21)
++
++#define BCM2708_DMA_DREQ_EMMC 11
++#define BCM2708_DMA_DREQ_SDHOST 13
++
++#define BCM2708_DMA_CS 0x00 /* Control and Status */
++#define BCM2708_DMA_ADDR 0x04
++/* the current control block appears in the following registers - read only */
++#define BCM2708_DMA_INFO 0x08
++#define BCM2708_DMA_NEXTCB 0x1C
++#define BCM2708_DMA_DEBUG 0x20
++
++#define BCM2708_DMA4_CS (BCM2708_DMA_CHAN(4)+BCM2708_DMA_CS)
++#define BCM2708_DMA4_ADDR (BCM2708_DMA_CHAN(4)+BCM2708_DMA_ADDR)
++
++#define BCM2708_DMA_TDMODE_LEN(w, h) ((h) << 16 | (w))
++
++struct bcm2708_dma_cb {
++ unsigned long info;
++ unsigned long src;
++ unsigned long dst;
++ unsigned long length;
++ unsigned long stride;
++ unsigned long next;
++ unsigned long pad[2];
++};
++
++extern int bcm_sg_suitable_for_dma(struct scatterlist *sg_ptr, int sg_len);
++extern void bcm_dma_start(void __iomem *dma_chan_base,
++ dma_addr_t control_block);
++extern void bcm_dma_wait_idle(void __iomem *dma_chan_base);
++extern int /*rc*/ bcm_dma_abort(void __iomem *dma_chan_base);
++
++/* When listing features we can ask for when allocating DMA channels give
++ those with higher priority smaller ordinal numbers */
++#define BCM_DMA_FEATURE_FAST_ORD 0
++#define BCM_DMA_FEATURE_BULK_ORD 1
++#define BCM_DMA_FEATURE_FAST (1<<BCM_DMA_FEATURE_FAST_ORD)
++#define BCM_DMA_FEATURE_BULK (1<<BCM_DMA_FEATURE_BULK_ORD)
++#define BCM_DMA_FEATURE_COUNT 2
++
++/* return channel no or -ve error */
++extern int bcm_dma_chan_alloc(unsigned preferred_feature_set,
++ void __iomem **out_dma_base, int *out_dma_irq);
++extern int bcm_dma_chan_free(int channel);
++
++
++#endif /* _MACH_BCM2708_DMA_H */
+diff -urN linux-3.10/arch/arm/mach-bcm2708/include/mach/entry-macro.S linux-rpi-3.10.y/arch/arm/mach-bcm2708/include/mach/entry-macro.S
+--- linux-3.10/arch/arm/mach-bcm2708/include/mach/entry-macro.S 1970-01-01 01:00:00.000000000 +0100
++++ linux-rpi-3.10.y/arch/arm/mach-bcm2708/include/mach/entry-macro.S 2013-07-06 15:25:50.000000000 +0100
+@@ -0,0 +1,69 @@
++/*
++ * arch/arm/mach-bcm2708/include/mach/entry-macro.S
++ *
++ * Low-level IRQ helper macros for BCM2708 platforms
++ *
++ * Copyright (C) 2010 Broadcom
++ *
++ * This program is free software; you can redistribute it and/or modify
++ * it under the terms of the GNU General Public License as published by
++ * the Free Software Foundation; either version 2 of the License, or
++ * (at your option) any later version.
++ *
++ * This program is distributed in the hope that it will be useful,
++ * but WITHOUT ANY WARRANTY; without even the implied warranty of
++ * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
++ * GNU General Public License for more details.
++ *
++ * You should have received a copy of the GNU General Public License
++ * along with this program; if not, write to the Free Software
++ * Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA
++ */
++#include <mach/hardware.h>
++
++ .macro disable_fiq
++ .endm
++
++ .macro get_irqnr_preamble, base, tmp
++ ldr \base, =IO_ADDRESS(ARMCTRL_IC_BASE)
++ .endm
++
++ .macro arch_ret_to_user, tmp1, tmp2
++ .endm
++
++ .macro get_irqnr_and_base, irqnr, irqstat, base, tmp
++ /* get masked status */
++ ldr \irqstat, [\base, #(ARM_IRQ_PEND0 - ARMCTRL_IC_BASE)]
++ mov \irqnr, #(ARM_IRQ0_BASE + 31)
++ and \tmp, \irqstat, #0x300 @ save bits 8 and 9
++ /* clear bits 8 and 9, and test */
++ bics \irqstat, \irqstat, #0x300
++ bne 1010f
++
++ tst \tmp, #0x100
++ ldrne \irqstat, [\base, #(ARM_IRQ_PEND1 - ARMCTRL_IC_BASE)]
++ movne \irqnr, #(ARM_IRQ1_BASE + 31)
++ @ Mask out the interrupts also present in PEND0 - see SW-5809
++ bicne \irqstat, #((1<<7) | (1<<9) | (1<<10))
++ bicne \irqstat, #((1<<18) | (1<<19))
++ bne 1010f
++
++ tst \tmp, #0x200
++ ldrne \irqstat, [\base, #(ARM_IRQ_PEND2 - ARMCTRL_IC_BASE)]
++ movne \irqnr, #(ARM_IRQ2_BASE + 31)
++ @ Mask out the interrupts also present in PEND0 - see SW-5809
++ bicne \irqstat, #((1<<21) | (1<<22) | (1<<23) | (1<<24) | (1<<25))
++ bicne \irqstat, #((1<<30))
++ beq 1020f
++
++1010:
++ @ For non-zero x, LSB(x) = 31 - CLZ(x^(x-1))
++ @ N.B. CLZ is an ARM5 instruction.
++ sub \tmp, \irqstat, #1
++ eor \irqstat, \irqstat, \tmp
++ clz \tmp, \irqstat
++ sub \irqnr, \tmp
++
++1020: @ EQ will be set if no irqs pending
++
++ .endm
+diff -urN linux-3.10/arch/arm/mach-bcm2708/include/mach/frc.h linux-rpi-3.10.y/arch/arm/mach-bcm2708/include/mach/frc.h
+--- linux-3.10/arch/arm/mach-bcm2708/include/mach/frc.h 1970-01-01 01:00:00.000000000 +0100
++++ linux-rpi-3.10.y/arch/arm/mach-bcm2708/include/mach/frc.h 2013-07-06 15:25:50.000000000 +0100
+@@ -0,0 +1,38 @@
++/*
++ * arch/arm/mach-bcm2708/include/mach/timex.h
++ *
++ * BCM2708 free running counter (timer)
++ *
++ * Copyright (C) 2010 Broadcom
++ *
++ * This program is free software; you can redistribute it and/or modify
++ * it under the terms of the GNU General Public License as published by
++ * the Free Software Foundation; either version 2 of the License, or
++ * (at your option) any later version.
++ *
++ * This program is distributed in the hope that it will be useful,
++ * but WITHOUT ANY WARRANTY; without even the implied warranty of
++ * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
++ * GNU General Public License for more details.
++ *
++ * You should have received a copy of the GNU General Public License
++ * along with this program; if not, write to the Free Software
++ * Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA
++ */
++
++#ifndef _MACH_FRC_H
++#define _MACH_FRC_H
++
++#define FRC_TICK_RATE (1000000)
++
++/*! Free running counter incrementing at the CLOCK_TICK_RATE
++ (slightly faster than frc_clock_ticks63()
++ */
++extern unsigned long frc_clock_ticks32(void);
++
++/*! Free running counter incrementing at the CLOCK_TICK_RATE
++ * Note - top bit should be ignored (see cnt32_to_63)
++ */
++extern unsigned long long frc_clock_ticks63(void);
++
++#endif
+diff -urN linux-3.10/arch/arm/mach-bcm2708/include/mach/gpio.h linux-rpi-3.10.y/arch/arm/mach-bcm2708/include/mach/gpio.h
+--- linux-3.10/arch/arm/mach-bcm2708/include/mach/gpio.h 1970-01-01 01:00:00.000000000 +0100
++++ linux-rpi-3.10.y/arch/arm/mach-bcm2708/include/mach/gpio.h 2013-07-06 15:25:50.000000000 +0100
+@@ -0,0 +1,18 @@
++/*
++ * arch/arm/mach-bcm2708/include/mach/gpio.h
++ *
++ * This file is licensed under the terms of the GNU General Public
++ * License version 2. This program is licensed "as is" without any
++ * warranty of any kind, whether express or implied.
++ */
++
++#ifndef __ASM_ARCH_GPIO_H
++#define __ASM_ARCH_GPIO_H
++
++#define ARCH_NR_GPIOS 54 // number of gpio lines
++
++#define gpio_to_irq(x) ((x) + GPIO_IRQ_START)
++#define irq_to_gpio(x) ((x) - GPIO_IRQ_START)
++
++#endif
++
+diff -urN linux-3.10/arch/arm/mach-bcm2708/include/mach/hardware.h linux-rpi-3.10.y/arch/arm/mach-bcm2708/include/mach/hardware.h
+--- linux-3.10/arch/arm/mach-bcm2708/include/mach/hardware.h 1970-01-01 01:00:00.000000000 +0100
++++ linux-rpi-3.10.y/arch/arm/mach-bcm2708/include/mach/hardware.h 2013-07-06 15:25:50.000000000 +0100
+@@ -0,0 +1,28 @@
++/*
++ * arch/arm/mach-bcm2708/include/mach/hardware.h
++ *
++ * This file contains the hardware definitions of the BCM2708 devices.
++ *
++ * Copyright (C) 2010 Broadcom
++ *
++ * This program is free software; you can redistribute it and/or modify
++ * it under the terms of the GNU General Public License as published by
++ * the Free Software Foundation; either version 2 of the License, or
++ * (at your option) any later version.
++ *
++ * This program is distributed in the hope that it will be useful,
++ * but WITHOUT ANY WARRANTY; without even the implied warranty of
++ * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
++ * GNU General Public License for more details.
++ *
++ * You should have received a copy of the GNU General Public License
++ * along with this program; if not, write to the Free Software
++ * Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA
++ */
++#ifndef __ASM_ARCH_HARDWARE_H
++#define __ASM_ARCH_HARDWARE_H
++
++#include <asm/sizes.h>
++#include <mach/platform.h>
++
++#endif
+diff -urN linux-3.10/arch/arm/mach-bcm2708/include/mach/io.h linux-rpi-3.10.y/arch/arm/mach-bcm2708/include/mach/io.h
+--- linux-3.10/arch/arm/mach-bcm2708/include/mach/io.h 1970-01-01 01:00:00.000000000 +0100
++++ linux-rpi-3.10.y/arch/arm/mach-bcm2708/include/mach/io.h 2013-07-06 15:25:50.000000000 +0100
+@@ -0,0 +1,27 @@
++/*
++ * arch/arm/mach-bcm2708/include/mach/io.h
++ *
++ * Copyright (C) 2003 ARM Limited
++ *
++ * This program is free software; you can redistribute it and/or modify
++ * it under the terms of the GNU General Public License as published by
++ * the Free Software Foundation; either version 2 of the License, or
++ * (at your option) any later version.
++ *
++ * This program is distributed in the hope that it will be useful,
++ * but WITHOUT ANY WARRANTY; without even the implied warranty of
++ * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
++ * GNU General Public License for more details.
++ *
++ * You should have received a copy of the GNU General Public License
++ * along with this program; if not, write to the Free Software
++ * Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA
++ */
++#ifndef __ASM_ARM_ARCH_IO_H
++#define __ASM_ARM_ARCH_IO_H
++
++#define IO_SPACE_LIMIT 0xffffffff
++
++#define __io(a) __typesafe_io(a)
++
++#endif
+diff -urN linux-3.10/arch/arm/mach-bcm2708/include/mach/irqs.h linux-rpi-3.10.y/arch/arm/mach-bcm2708/include/mach/irqs.h
+--- linux-3.10/arch/arm/mach-bcm2708/include/mach/irqs.h 1970-01-01 01:00:00.000000000 +0100
++++ linux-rpi-3.10.y/arch/arm/mach-bcm2708/include/mach/irqs.h 2013-07-06 15:25:50.000000000 +0100
+@@ -0,0 +1,199 @@
++/*
++ * arch/arm/mach-bcm2708/include/mach/irqs.h
++ *
++ * Copyright (C) 2010 Broadcom
++ * Copyright (C) 2003 ARM Limited
++ * Copyright (C) 2000 Deep Blue Solutions Ltd.
++ *
++ * This program is free software; you can redistribute it and/or modify
++ * it under the terms of the GNU General Public License as published by
++ * the Free Software Foundation; either version 2 of the License, or
++ * (at your option) any later version.
++ *
++ * This program is distributed in the hope that it will be useful,
++ * but WITHOUT ANY WARRANTY; without even the implied warranty of
++ * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
++ * GNU General Public License for more details.
++ *
++ * You should have received a copy of the GNU General Public License
++ * along with this program; if not, write to the Free Software
++ * Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA
++ */
++
++#ifndef _BCM2708_IRQS_H_
++#define _BCM2708_IRQS_H_
++
++#include <mach/platform.h>
++
++/*
++ * IRQ interrupts definitions are the same as the INT definitions
++ * held within platform.h
++ */
++#define IRQ_ARMCTRL_START 0
++#define IRQ_TIMER0 (IRQ_ARMCTRL_START + INTERRUPT_TIMER0)
++#define IRQ_TIMER1 (IRQ_ARMCTRL_START + INTERRUPT_TIMER1)
++#define IRQ_TIMER2 (IRQ_ARMCTRL_START + INTERRUPT_TIMER2)
++#define IRQ_TIMER3 (IRQ_ARMCTRL_START + INTERRUPT_TIMER3)
++#define IRQ_CODEC0 (IRQ_ARMCTRL_START + INTERRUPT_CODEC0)
++#define IRQ_CODEC1 (IRQ_ARMCTRL_START + INTERRUPT_CODEC1)
++#define IRQ_CODEC2 (IRQ_ARMCTRL_START + INTERRUPT_CODEC2)
++#define IRQ_JPEG (IRQ_ARMCTRL_START + INTERRUPT_JPEG)
++#define IRQ_ISP (IRQ_ARMCTRL_START + INTERRUPT_ISP)
++#define IRQ_USB (IRQ_ARMCTRL_START + INTERRUPT_USB)
++#define IRQ_3D (IRQ_ARMCTRL_START + INTERRUPT_3D)
++#define IRQ_TRANSPOSER (IRQ_ARMCTRL_START + INTERRUPT_TRANSPOSER)
++#define IRQ_MULTICORESYNC0 (IRQ_ARMCTRL_START + INTERRUPT_MULTICORESYNC0)
++#define IRQ_MULTICORESYNC1 (IRQ_ARMCTRL_START + INTERRUPT_MULTICORESYNC1)
++#define IRQ_MULTICORESYNC2 (IRQ_ARMCTRL_START + INTERRUPT_MULTICORESYNC2)
++#define IRQ_MULTICORESYNC3 (IRQ_ARMCTRL_START + INTERRUPT_MULTICORESYNC3)
++#define IRQ_DMA0 (IRQ_ARMCTRL_START + INTERRUPT_DMA0)
++#define IRQ_DMA1 (IRQ_ARMCTRL_START + INTERRUPT_DMA1)
++#define IRQ_DMA2 (IRQ_ARMCTRL_START + INTERRUPT_DMA2)
++#define IRQ_DMA3 (IRQ_ARMCTRL_START + INTERRUPT_DMA3)
++#define IRQ_DMA4 (IRQ_ARMCTRL_START + INTERRUPT_DMA4)
++#define IRQ_DMA5 (IRQ_ARMCTRL_START + INTERRUPT_DMA5)
++#define IRQ_DMA6 (IRQ_ARMCTRL_START + INTERRUPT_DMA6)
++#define IRQ_DMA7 (IRQ_ARMCTRL_START + INTERRUPT_DMA7)
++#define IRQ_DMA8 (IRQ_ARMCTRL_START + INTERRUPT_DMA8)
++#define IRQ_DMA9 (IRQ_ARMCTRL_START + INTERRUPT_DMA9)
++#define IRQ_DMA10 (IRQ_ARMCTRL_START + INTERRUPT_DMA10)
++#define IRQ_DMA11 (IRQ_ARMCTRL_START + INTERRUPT_DMA11)
++#define IRQ_DMA12 (IRQ_ARMCTRL_START + INTERRUPT_DMA12)
++#define IRQ_AUX (IRQ_ARMCTRL_START + INTERRUPT_AUX)
++#define IRQ_ARM (IRQ_ARMCTRL_START + INTERRUPT_ARM)
++#define IRQ_VPUDMA (IRQ_ARMCTRL_START + INTERRUPT_VPUDMA)
++#define IRQ_HOSTPORT (IRQ_ARMCTRL_START + INTERRUPT_HOSTPORT)
++#define IRQ_VIDEOSCALER (IRQ_ARMCTRL_START + INTERRUPT_VIDEOSCALER)
++#define IRQ_CCP2TX (IRQ_ARMCTRL_START + INTERRUPT_CCP2TX)
++#define IRQ_SDC (IRQ_ARMCTRL_START + INTERRUPT_SDC)
++#define IRQ_DSI0 (IRQ_ARMCTRL_START + INTERRUPT_DSI0)
++#define IRQ_AVE (IRQ_ARMCTRL_START + INTERRUPT_AVE)
++#define IRQ_CAM0 (IRQ_ARMCTRL_START + INTERRUPT_CAM0)
++#define IRQ_CAM1 (IRQ_ARMCTRL_START + INTERRUPT_CAM1)
++#define IRQ_HDMI0 (IRQ_ARMCTRL_START + INTERRUPT_HDMI0)
++#define IRQ_HDMI1 (IRQ_ARMCTRL_START + INTERRUPT_HDMI1)
++#define IRQ_PIXELVALVE1 (IRQ_ARMCTRL_START + INTERRUPT_PIXELVALVE1)
++#define IRQ_I2CSPISLV (IRQ_ARMCTRL_START + INTERRUPT_I2CSPISLV)
++#define IRQ_DSI1 (IRQ_ARMCTRL_START + INTERRUPT_DSI1)
++#define IRQ_PWA0 (IRQ_ARMCTRL_START + INTERRUPT_PWA0)
++#define IRQ_PWA1 (IRQ_ARMCTRL_START + INTERRUPT_PWA1)
++#define IRQ_CPR (IRQ_ARMCTRL_START + INTERRUPT_CPR)
++#define IRQ_SMI (IRQ_ARMCTRL_START + INTERRUPT_SMI)
++#define IRQ_GPIO0 (IRQ_ARMCTRL_START + INTERRUPT_GPIO0)
++#define IRQ_GPIO1 (IRQ_ARMCTRL_START + INTERRUPT_GPIO1)
++#define IRQ_GPIO2 (IRQ_ARMCTRL_START + INTERRUPT_GPIO2)
++#define IRQ_GPIO3 (IRQ_ARMCTRL_START + INTERRUPT_GPIO3)
++#define IRQ_I2C (IRQ_ARMCTRL_START + INTERRUPT_I2C)
++#define IRQ_SPI (IRQ_ARMCTRL_START + INTERRUPT_SPI)
++#define IRQ_I2SPCM (IRQ_ARMCTRL_START + INTERRUPT_I2SPCM)
++#define IRQ_SDIO (IRQ_ARMCTRL_START + INTERRUPT_SDIO)
++#define IRQ_UART (IRQ_ARMCTRL_START + INTERRUPT_UART)
++#define IRQ_SLIMBUS (IRQ_ARMCTRL_START + INTERRUPT_SLIMBUS)
++#define IRQ_VEC (IRQ_ARMCTRL_START + INTERRUPT_VEC)
++#define IRQ_CPG (IRQ_ARMCTRL_START + INTERRUPT_CPG)
++#define IRQ_RNG (IRQ_ARMCTRL_START + INTERRUPT_RNG)
++#define IRQ_ARASANSDIO (IRQ_ARMCTRL_START + INTERRUPT_ARASANSDIO)
++#define IRQ_AVSPMON (IRQ_ARMCTRL_START + INTERRUPT_AVSPMON)
++
++#define IRQ_ARM_TIMER (IRQ_ARMCTRL_START + INTERRUPT_ARM_TIMER)
++#define IRQ_ARM_MAILBOX (IRQ_ARMCTRL_START + INTERRUPT_ARM_MAILBOX)
++#define IRQ_ARM_DOORBELL_0 (IRQ_ARMCTRL_START + INTERRUPT_ARM_DOORBELL_0)
++#define IRQ_ARM_DOORBELL_1 (IRQ_ARMCTRL_START + INTERRUPT_ARM_DOORBELL_1)
++#define IRQ_VPU0_HALTED (IRQ_ARMCTRL_START + INTERRUPT_VPU0_HALTED)
++#define IRQ_VPU1_HALTED (IRQ_ARMCTRL_START + INTERRUPT_VPU1_HALTED)
++#define IRQ_ILLEGAL_TYPE0 (IRQ_ARMCTRL_START + INTERRUPT_ILLEGAL_TYPE0)
++#define IRQ_ILLEGAL_TYPE1 (IRQ_ARMCTRL_START + INTERRUPT_ILLEGAL_TYPE1)
++#define IRQ_PENDING1 (IRQ_ARMCTRL_START + INTERRUPT_PENDING1)
++#define IRQ_PENDING2 (IRQ_ARMCTRL_START + INTERRUPT_PENDING2)
++
++#define FIQ_START HARD_IRQS
++
++/*
++ * FIQ interrupts definitions are the same as the INT definitions.
++ */
++#define FIQ_TIMER0 (FIQ_START+INTERRUPT_TIMER0)
++#define FIQ_TIMER1 (FIQ_START+INTERRUPT_TIMER1)
++#define FIQ_TIMER2 (FIQ_START+INTERRUPT_TIMER2)
++#define FIQ_TIMER3 (FIQ_START+INTERRUPT_TIMER3)
++#define FIQ_CODEC0 (FIQ_START+INTERRUPT_CODEC0)
++#define FIQ_CODEC1 (FIQ_START+INTERRUPT_CODEC1)
++#define FIQ_CODEC2 (FIQ_START+INTERRUPT_CODEC2)
++#define FIQ_JPEG (FIQ_START+INTERRUPT_JPEG)
++#define FIQ_ISP (FIQ_START+INTERRUPT_ISP)
++#define FIQ_USB (FIQ_START+INTERRUPT_USB)
++#define FIQ_3D (FIQ_START+INTERRUPT_3D)
++#define FIQ_TRANSPOSER (FIQ_START+INTERRUPT_TRANSPOSER)
++#define FIQ_MULTICORESYNC0 (FIQ_START+INTERRUPT_MULTICORESYNC0)
++#define FIQ_MULTICORESYNC1 (FIQ_START+INTERRUPT_MULTICORESYNC1)
++#define FIQ_MULTICORESYNC2 (FIQ_START+INTERRUPT_MULTICORESYNC2)
++#define FIQ_MULTICORESYNC3 (FIQ_START+INTERRUPT_MULTICORESYNC3)
++#define FIQ_DMA0 (FIQ_START+INTERRUPT_DMA0)
++#define FIQ_DMA1 (FIQ_START+INTERRUPT_DMA1)
++#define FIQ_DMA2 (FIQ_START+INTERRUPT_DMA2)
++#define FIQ_DMA3 (FIQ_START+INTERRUPT_DMA3)
++#define FIQ_DMA4 (FIQ_START+INTERRUPT_DMA4)
++#define FIQ_DMA5 (FIQ_START+INTERRUPT_DMA5)
++#define FIQ_DMA6 (FIQ_START+INTERRUPT_DMA6)
++#define FIQ_DMA7 (FIQ_START+INTERRUPT_DMA7)
++#define FIQ_DMA8 (FIQ_START+INTERRUPT_DMA8)
++#define FIQ_DMA9 (FIQ_START+INTERRUPT_DMA9)
++#define FIQ_DMA10 (FIQ_START+INTERRUPT_DMA10)
++#define FIQ_DMA11 (FIQ_START+INTERRUPT_DMA11)
++#define FIQ_DMA12 (FIQ_START+INTERRUPT_DMA12)
++#define FIQ_AUX (FIQ_START+INTERRUPT_AUX)
++#define FIQ_ARM (FIQ_START+INTERRUPT_ARM)
++#define FIQ_VPUDMA (FIQ_START+INTERRUPT_VPUDMA)
++#define FIQ_HOSTPORT (FIQ_START+INTERRUPT_HOSTPORT)
++#define FIQ_VIDEOSCALER (FIQ_START+INTERRUPT_VIDEOSCALER)
++#define FIQ_CCP2TX (FIQ_START+INTERRUPT_CCP2TX)
++#define FIQ_SDC (FIQ_START+INTERRUPT_SDC)
++#define FIQ_DSI0 (FIQ_START+INTERRUPT_DSI0)
++#define FIQ_AVE (FIQ_START+INTERRUPT_AVE)
++#define FIQ_CAM0 (FIQ_START+INTERRUPT_CAM0)
++#define FIQ_CAM1 (FIQ_START+INTERRUPT_CAM1)
++#define FIQ_HDMI0 (FIQ_START+INTERRUPT_HDMI0)
++#define FIQ_HDMI1 (FIQ_START+INTERRUPT_HDMI1)
++#define FIQ_PIXELVALVE1 (FIQ_START+INTERRUPT_PIXELVALVE1)
++#define FIQ_I2CSPISLV (FIQ_START+INTERRUPT_I2CSPISLV)
++#define FIQ_DSI1 (FIQ_START+INTERRUPT_DSI1)
++#define FIQ_PWA0 (FIQ_START+INTERRUPT_PWA0)
++#define FIQ_PWA1 (FIQ_START+INTERRUPT_PWA1)
++#define FIQ_CPR (FIQ_START+INTERRUPT_CPR)
++#define FIQ_SMI (FIQ_START+INTERRUPT_SMI)
++#define FIQ_GPIO0 (FIQ_START+INTERRUPT_GPIO0)
++#define FIQ_GPIO1 (FIQ_START+INTERRUPT_GPIO1)
++#define FIQ_GPIO2 (FIQ_START+INTERRUPT_GPIO2)
++#define FIQ_GPIO3 (FIQ_START+INTERRUPT_GPIO3)
++#define FIQ_I2C (FIQ_START+INTERRUPT_I2C)
++#define FIQ_SPI (FIQ_START+INTERRUPT_SPI)
++#define FIQ_I2SPCM (FIQ_START+INTERRUPT_I2SPCM)
++#define FIQ_SDIO (FIQ_START+INTERRUPT_SDIO)
++#define FIQ_UART (FIQ_START+INTERRUPT_UART)
++#define FIQ_SLIMBUS (FIQ_START+INTERRUPT_SLIMBUS)
++#define FIQ_VEC (FIQ_START+INTERRUPT_VEC)
++#define FIQ_CPG (FIQ_START+INTERRUPT_CPG)
++#define FIQ_RNG (FIQ_START+INTERRUPT_RNG)
++#define FIQ_ARASANSDIO (FIQ_START+INTERRUPT_ARASANSDIO)
++#define FIQ_AVSPMON (FIQ_START+INTERRUPT_AVSPMON)
++
++#define FIQ_ARM_TIMER (FIQ_START+INTERRUPT_ARM_TIMER)
++#define FIQ_ARM_MAILBOX (FIQ_START+INTERRUPT_ARM_MAILBOX)
++#define FIQ_ARM_DOORBELL_0 (FIQ_START+INTERRUPT_ARM_DOORBELL_0)
++#define FIQ_ARM_DOORBELL_1 (FIQ_START+INTERRUPT_ARM_DOORBELL_1)
++#define FIQ_VPU0_HALTED (FIQ_START+INTERRUPT_VPU0_HALTED)
++#define FIQ_VPU1_HALTED (FIQ_START+INTERRUPT_VPU1_HALTED)
++#define FIQ_ILLEGAL_TYPE0 (FIQ_START+INTERRUPT_ILLEGAL_TYPE0)
++#define FIQ_ILLEGAL_TYPE1 (FIQ_START+INTERRUPT_ILLEGAL_TYPE1)
++#define FIQ_PENDING1 (FIQ_START+INTERRUPT_PENDING1)
++#define FIQ_PENDING2 (FIQ_START+INTERRUPT_PENDING2)
++
++#define GPIO_IRQ_START (HARD_IRQS + FIQ_IRQS)
++
++#define HARD_IRQS (64 + 21)
++#define FIQ_IRQS (64 + 21)
++#define GPIO_IRQS (32*5)
++
++#define NR_IRQS HARD_IRQS+FIQ_IRQS+GPIO_IRQS
++
++
++#endif /* _BCM2708_IRQS_H_ */
+diff -urN linux-3.10/arch/arm/mach-bcm2708/include/mach/memory.h linux-rpi-3.10.y/arch/arm/mach-bcm2708/include/mach/memory.h
+--- linux-3.10/arch/arm/mach-bcm2708/include/mach/memory.h 1970-01-01 01:00:00.000000000 +0100
++++ linux-rpi-3.10.y/arch/arm/mach-bcm2708/include/mach/memory.h 2013-07-06 15:25:50.000000000 +0100
+@@ -0,0 +1,57 @@
++/*
++ * arch/arm/mach-bcm2708/include/mach/memory.h
++ *
++ * Copyright (C) 2010 Broadcom
++ *
++ * This program is free software; you can redistribute it and/or modify
++ * it under the terms of the GNU General Public License as published by
++ * the Free Software Foundation; either version 2 of the License, or
++ * (at your option) any later version.
++ *
++ * This program is distributed in the hope that it will be useful,
++ * but WITHOUT ANY WARRANTY; without even the implied warranty of
++ * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
++ * GNU General Public License for more details.
++ *
++ * You should have received a copy of the GNU General Public License
++ * along with this program; if not, write to the Free Software
++ * Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA
++ */
++#ifndef __ASM_ARCH_MEMORY_H
++#define __ASM_ARCH_MEMORY_H
++
++/* Memory overview:
++
++ [ARMcore] <--virtual addr-->
++ [ARMmmu] <--physical addr-->
++ [GERTmap] <--bus add-->
++ [VCperiph]
++
++*/
++
++/*
++ * Physical DRAM offset.
++ */
++#define PLAT_PHYS_OFFSET UL(0x00000000)
++#define VC_ARMMEM_OFFSET UL(0x00000000) /* offset in VC of ARM memory */
++
++#ifdef CONFIG_BCM2708_NOL2CACHE
++ #define _REAL_BUS_OFFSET UL(0xC0000000) /* don't use L1 or L2 caches */
++#else
++ #define _REAL_BUS_OFFSET UL(0x40000000) /* use L2 cache */
++#endif
++
++/* We're using the memory at 64M in the VideoCore for Linux - this adjustment
++ * will provide the offset into this area as well as setting the bits that
++ * stop the L1 and L2 cache from being used
++ *
++ * WARNING: this only works because the ARM is given memory at a fixed location
++ * (ARMMEM_OFFSET)
++ */
++#define BUS_OFFSET (VC_ARMMEM_OFFSET + _REAL_BUS_OFFSET)
++#define __virt_to_bus(x) ((x) + (BUS_OFFSET - PAGE_OFFSET))
++#define __bus_to_virt(x) ((x) - (BUS_OFFSET - PAGE_OFFSET))
++#define __pfn_to_bus(x) (__pfn_to_phys(x) + (BUS_OFFSET - PLAT_PHYS_OFFSET))
++#define __bus_to_pfn(x) __phys_to_pfn((x) - (BUS_OFFSET - PLAT_PHYS_OFFSET))
++
++#endif
+diff -urN linux-3.10/arch/arm/mach-bcm2708/include/mach/platform.h linux-rpi-3.10.y/arch/arm/mach-bcm2708/include/mach/platform.h
+--- linux-3.10/arch/arm/mach-bcm2708/include/mach/platform.h 1970-01-01 01:00:00.000000000 +0100
++++ linux-rpi-3.10.y/arch/arm/mach-bcm2708/include/mach/platform.h 2013-07-06 15:25:50.000000000 +0100
+@@ -0,0 +1,226 @@
++/*
++ * arch/arm/mach-bcm2708/include/mach/platform.h
++ *
++ * Copyright (C) 2010 Broadcom
++ *
++ * This program is free software; you can redistribute it and/or modify
++ * it under the terms of the GNU General Public License as published by
++ * the Free Software Foundation; either version 2 of the License, or
++ * (at your option) any later version.
++ *
++ * This program is distributed in the hope that it will be useful,
++ * but WITHOUT ANY WARRANTY; without even the implied warranty of
++ * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
++ * GNU General Public License for more details.
++ *
++ * You should have received a copy of the GNU General Public License
++ * along with this program; if not, write to the Free Software
++ * Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA
++ */
++
++#ifndef _BCM2708_PLATFORM_H
++#define _BCM2708_PLATFORM_H
++
++
++/* macros to get at IO space when running virtually */
++#define IO_ADDRESS(x) (((x) & 0x0fffffff) + (((x) >> 4) & 0x0f000000) + 0xf0000000)
++
++#define __io_address(n) IOMEM(IO_ADDRESS(n))
++
++
++/*
++ * SDRAM
++ */
++#define BCM2708_SDRAM_BASE 0x00000000
++
++/*
++ * Logic expansion modules
++ *
++ */
++
++
++/* ------------------------------------------------------------------------
++ * BCM2708 ARMCTRL Registers
++ * ------------------------------------------------------------------------
++ */
++
++#define HW_REGISTER_RW(addr) (addr)
++#define HW_REGISTER_RO(addr) (addr)
++
++#include "arm_control.h"
++#undef ARM_BASE
++
++/*
++ * Definitions and addresses for the ARM CONTROL logic
++ * This file is manually generated.
++ */
++
++#define BCM2708_PERI_BASE 0x20000000
++#define IC0_BASE (BCM2708_PERI_BASE + 0x2000)
++#define ST_BASE (BCM2708_PERI_BASE + 0x3000) /* System Timer */
++#define MPHI_BASE (BCM2708_PERI_BASE + 0x6000) /* Message -based Parallel Host Interface */
++#define DMA_BASE (BCM2708_PERI_BASE + 0x7000) /* DMA controller */
++#define ARM_BASE (BCM2708_PERI_BASE + 0xB000) /* BCM2708 ARM control block */
++#define PM_BASE (BCM2708_PERI_BASE + 0x100000) /* Power Management, Reset controller and Watchdog registers */
++#define RNG_BASE (BCM2708_PERI_BASE + 0x104000) /* Hardware RNG */
++#define GPIO_BASE (BCM2708_PERI_BASE + 0x200000) /* GPIO */
++#define UART0_BASE (BCM2708_PERI_BASE + 0x201000) /* Uart 0 */
++#define MMCI0_BASE (BCM2708_PERI_BASE + 0x202000) /* MMC interface */
++#define SPI0_BASE (BCM2708_PERI_BASE + 0x204000) /* SPI0 */
++#define BSC0_BASE (BCM2708_PERI_BASE + 0x205000) /* BSC0 I2C/TWI */
++#define UART1_BASE (BCM2708_PERI_BASE + 0x215000) /* Uart 1 */
++#define EMMC_BASE (BCM2708_PERI_BASE + 0x300000) /* eMMC interface */
++#define SMI_BASE (BCM2708_PERI_BASE + 0x600000) /* SMI */
++#define BSC1_BASE (BCM2708_PERI_BASE + 0x804000) /* BSC1 I2C/TWI */
++#define USB_BASE (BCM2708_PERI_BASE + 0x980000) /* DTC_OTG USB controller */
++#define MCORE_BASE (BCM2708_PERI_BASE + 0x0000) /* Fake frame buffer device (actually the multicore sync block*/
++
++#define ARMCTRL_BASE (ARM_BASE + 0x000)
++#define ARMCTRL_IC_BASE (ARM_BASE + 0x200) /* ARM interrupt controller */
++#define ARMCTRL_TIMER0_1_BASE (ARM_BASE + 0x400) /* Timer 0 and 1 */
++#define ARMCTRL_0_SBM_BASE (ARM_BASE + 0x800) /* User 0 (ARM)'s Semaphores Doorbells and Mailboxes */
++
++
++/*
++ * Interrupt assignments
++ */
++
++#define ARM_IRQ1_BASE 0
++#define INTERRUPT_TIMER0 (ARM_IRQ1_BASE + 0)
++#define INTERRUPT_TIMER1 (ARM_IRQ1_BASE + 1)
++#define INTERRUPT_TIMER2 (ARM_IRQ1_BASE + 2)
++#define INTERRUPT_TIMER3 (ARM_IRQ1_BASE + 3)
++#define INTERRUPT_CODEC0 (ARM_IRQ1_BASE + 4)
++#define INTERRUPT_CODEC1 (ARM_IRQ1_BASE + 5)
++#define INTERRUPT_CODEC2 (ARM_IRQ1_BASE + 6)
++#define INTERRUPT_VC_JPEG (ARM_IRQ1_BASE + 7)
++#define INTERRUPT_ISP (ARM_IRQ1_BASE + 8)
++#define INTERRUPT_VC_USB (ARM_IRQ1_BASE + 9)
++#define INTERRUPT_VC_3D (ARM_IRQ1_BASE + 10)
++#define INTERRUPT_TRANSPOSER (ARM_IRQ1_BASE + 11)
++#define INTERRUPT_MULTICORESYNC0 (ARM_IRQ1_BASE + 12)
++#define INTERRUPT_MULTICORESYNC1 (ARM_IRQ1_BASE + 13)
++#define INTERRUPT_MULTICORESYNC2 (ARM_IRQ1_BASE + 14)
++#define INTERRUPT_MULTICORESYNC3 (ARM_IRQ1_BASE + 15)
++#define INTERRUPT_DMA0 (ARM_IRQ1_BASE + 16)
++#define INTERRUPT_DMA1 (ARM_IRQ1_BASE + 17)
++#define INTERRUPT_VC_DMA2 (ARM_IRQ1_BASE + 18)
++#define INTERRUPT_VC_DMA3 (ARM_IRQ1_BASE + 19)
++#define INTERRUPT_DMA4 (ARM_IRQ1_BASE + 20)
++#define INTERRUPT_DMA5 (ARM_IRQ1_BASE + 21)
++#define INTERRUPT_DMA6 (ARM_IRQ1_BASE + 22)
++#define INTERRUPT_DMA7 (ARM_IRQ1_BASE + 23)
++#define INTERRUPT_DMA8 (ARM_IRQ1_BASE + 24)
++#define INTERRUPT_DMA9 (ARM_IRQ1_BASE + 25)
++#define INTERRUPT_DMA10 (ARM_IRQ1_BASE + 26)
++#define INTERRUPT_DMA11 (ARM_IRQ1_BASE + 27)
++#define INTERRUPT_DMA12 (ARM_IRQ1_BASE + 28)
++#define INTERRUPT_AUX (ARM_IRQ1_BASE + 29)
++#define INTERRUPT_ARM (ARM_IRQ1_BASE + 30)
++#define INTERRUPT_VPUDMA (ARM_IRQ1_BASE + 31)
++
++#define ARM_IRQ2_BASE 32
++#define INTERRUPT_HOSTPORT (ARM_IRQ2_BASE + 0)
++#define INTERRUPT_VIDEOSCALER (ARM_IRQ2_BASE + 1)
++#define INTERRUPT_CCP2TX (ARM_IRQ2_BASE + 2)
++#define INTERRUPT_SDC (ARM_IRQ2_BASE + 3)
++#define INTERRUPT_DSI0 (ARM_IRQ2_BASE + 4)
++#define INTERRUPT_AVE (ARM_IRQ2_BASE + 5)
++#define INTERRUPT_CAM0 (ARM_IRQ2_BASE + 6)
++#define INTERRUPT_CAM1 (ARM_IRQ2_BASE + 7)
++#define INTERRUPT_HDMI0 (ARM_IRQ2_BASE + 8)
++#define INTERRUPT_HDMI1 (ARM_IRQ2_BASE + 9)
++#define INTERRUPT_PIXELVALVE1 (ARM_IRQ2_BASE + 10)
++#define INTERRUPT_I2CSPISLV (ARM_IRQ2_BASE + 11)
++#define INTERRUPT_DSI1 (ARM_IRQ2_BASE + 12)
++#define INTERRUPT_PWA0 (ARM_IRQ2_BASE + 13)
++#define INTERRUPT_PWA1 (ARM_IRQ2_BASE + 14)
++#define INTERRUPT_CPR (ARM_IRQ2_BASE + 15)
++#define INTERRUPT_SMI (ARM_IRQ2_BASE + 16)
++#define INTERRUPT_GPIO0 (ARM_IRQ2_BASE + 17)
++#define INTERRUPT_GPIO1 (ARM_IRQ2_BASE + 18)
++#define INTERRUPT_GPIO2 (ARM_IRQ2_BASE + 19)
++#define INTERRUPT_GPIO3 (ARM_IRQ2_BASE + 20)
++#define INTERRUPT_VC_I2C (ARM_IRQ2_BASE + 21)
++#define INTERRUPT_VC_SPI (ARM_IRQ2_BASE + 22)
++#define INTERRUPT_VC_I2SPCM (ARM_IRQ2_BASE + 23)
++#define INTERRUPT_VC_SDIO (ARM_IRQ2_BASE + 24)
++#define INTERRUPT_VC_UART (ARM_IRQ2_BASE + 25)
++#define INTERRUPT_SLIMBUS (ARM_IRQ2_BASE + 26)
++#define INTERRUPT_VEC (ARM_IRQ2_BASE + 27)
++#define INTERRUPT_CPG (ARM_IRQ2_BASE + 28)
++#define INTERRUPT_RNG (ARM_IRQ2_BASE + 29)
++#define INTERRUPT_VC_ARASANSDIO (ARM_IRQ2_BASE + 30)
++#define INTERRUPT_AVSPMON (ARM_IRQ2_BASE + 31)
++
++#define ARM_IRQ0_BASE 64
++#define INTERRUPT_ARM_TIMER (ARM_IRQ0_BASE + 0)
++#define INTERRUPT_ARM_MAILBOX (ARM_IRQ0_BASE + 1)
++#define INTERRUPT_ARM_DOORBELL_0 (ARM_IRQ0_BASE + 2)
++#define INTERRUPT_ARM_DOORBELL_1 (ARM_IRQ0_BASE + 3)
++#define INTERRUPT_VPU0_HALTED (ARM_IRQ0_BASE + 4)
++#define INTERRUPT_VPU1_HALTED (ARM_IRQ0_BASE + 5)
++#define INTERRUPT_ILLEGAL_TYPE0 (ARM_IRQ0_BASE + 6)
++#define INTERRUPT_ILLEGAL_TYPE1 (ARM_IRQ0_BASE + 7)
++#define INTERRUPT_PENDING1 (ARM_IRQ0_BASE + 8)
++#define INTERRUPT_PENDING2 (ARM_IRQ0_BASE + 9)
++#define INTERRUPT_JPEG (ARM_IRQ0_BASE + 10)
++#define INTERRUPT_USB (ARM_IRQ0_BASE + 11)
++#define INTERRUPT_3D (ARM_IRQ0_BASE + 12)
++#define INTERRUPT_DMA2 (ARM_IRQ0_BASE + 13)
++#define INTERRUPT_DMA3 (ARM_IRQ0_BASE + 14)
++#define INTERRUPT_I2C (ARM_IRQ0_BASE + 15)
++#define INTERRUPT_SPI (ARM_IRQ0_BASE + 16)
++#define INTERRUPT_I2SPCM (ARM_IRQ0_BASE + 17)
++#define INTERRUPT_SDIO (ARM_IRQ0_BASE + 18)
++#define INTERRUPT_UART (ARM_IRQ0_BASE + 19)
++#define INTERRUPT_ARASANSDIO (ARM_IRQ0_BASE + 20)
++
++#define MAXIRQNUM (32 + 32 + 20)
++#define MAXFIQNUM (32 + 32 + 20)
++
++#define MAX_TIMER 2
++#define MAX_PERIOD 699050
++#define TICKS_PER_uSEC 1
++
++/*
++ * These are useconds NOT ticks.
++ *
++ */
++#define mSEC_1 1000
++#define mSEC_5 (mSEC_1 * 5)
++#define mSEC_10 (mSEC_1 * 10)
++#define mSEC_25 (mSEC_1 * 25)
++#define SEC_1 (mSEC_1 * 1000)
++
++/*
++ * Watchdog
++ */
++#define PM_RSTC (PM_BASE+0x1c)
++#define PM_RSTS (PM_BASE+0x20)
++#define PM_WDOG (PM_BASE+0x24)
++
++#define PM_WDOG_RESET 0000000000
++#define PM_PASSWORD 0x5a000000
++#define PM_WDOG_TIME_SET 0x000fffff
++#define PM_RSTC_WRCFG_CLR 0xffffffcf
++#define PM_RSTC_WRCFG_SET 0x00000030
++#define PM_RSTC_WRCFG_FULL_RESET 0x00000020
++#define PM_RSTC_RESET 0x00000102
++
++#define PM_RSTS_HADPOR_SET 0x00001000
++#define PM_RSTS_HADSRH_SET 0x00000400
++#define PM_RSTS_HADSRF_SET 0x00000200
++#define PM_RSTS_HADSRQ_SET 0x00000100
++#define PM_RSTS_HADWRH_SET 0x00000040
++#define PM_RSTS_HADWRF_SET 0x00000020
++#define PM_RSTS_HADWRQ_SET 0x00000010
++#define PM_RSTS_HADDRH_SET 0x00000004
++#define PM_RSTS_HADDRF_SET 0x00000002
++#define PM_RSTS_HADDRQ_SET 0x00000001
++
++#define UART0_CLOCK 3000000
++
++#endif
++
++/* END */
+diff -urN linux-3.10/arch/arm/mach-bcm2708/include/mach/power.h linux-rpi-3.10.y/arch/arm/mach-bcm2708/include/mach/power.h
+--- linux-3.10/arch/arm/mach-bcm2708/include/mach/power.h 1970-01-01 01:00:00.000000000 +0100
++++ linux-rpi-3.10.y/arch/arm/mach-bcm2708/include/mach/power.h 2013-07-06 15:25:50.000000000 +0100
+@@ -0,0 +1,26 @@
++/*
++ * linux/arch/arm/mach-bcm2708/power.h
++ *
++ * Copyright (C) 2010 Broadcom
++ *
++ * This program is free software; you can redistribute it and/or modify
++ * it under the terms of the GNU General Public License version 2 as
++ * published by the Free Software Foundation.
++ *
++ * This device provides a shared mechanism for controlling the power to
++ * VideoCore subsystems.
++ */
++
++#ifndef _MACH_BCM2708_POWER_H
++#define _MACH_BCM2708_POWER_H
++
++#include <linux/types.h>
++#include <mach/arm_power.h>
++
++typedef unsigned int BCM_POWER_HANDLE_T;
++
++extern int bcm_power_open(BCM_POWER_HANDLE_T *handle);
++extern int bcm_power_request(BCM_POWER_HANDLE_T handle, uint32_t request);
++extern int bcm_power_close(BCM_POWER_HANDLE_T handle);
++
++#endif
+diff -urN linux-3.10/arch/arm/mach-bcm2708/include/mach/system.h linux-rpi-3.10.y/arch/arm/mach-bcm2708/include/mach/system.h
+--- linux-3.10/arch/arm/mach-bcm2708/include/mach/system.h 1970-01-01 01:00:00.000000000 +0100
++++ linux-rpi-3.10.y/arch/arm/mach-bcm2708/include/mach/system.h 2013-07-06 15:25:50.000000000 +0100
+@@ -0,0 +1,38 @@
++/*
++ * arch/arm/mach-bcm2708/include/mach/system.h
++ *
++ * Copyright (C) 2010 Broadcom
++ * Copyright (C) 2003 ARM Limited
++ * Copyright (C) 2000 Deep Blue Solutions Ltd
++ *
++ * This program is free software; you can redistribute it and/or modify
++ * it under the terms of the GNU General Public License as published by
++ * the Free Software Foundation; either version 2 of the License, or
++ * (at your option) any later version.
++ *
++ * This program is distributed in the hope that it will be useful,
++ * but WITHOUT ANY WARRANTY; without even the implied warranty of
++ * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
++ * GNU General Public License for more details.
++ *
++ * You should have received a copy of the GNU General Public License
++ * along with this program; if not, write to the Free Software
++ * Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA
++ */
++#ifndef __ASM_ARCH_SYSTEM_H
++#define __ASM_ARCH_SYSTEM_H
++
++#include <linux/io.h>
++#include <mach/hardware.h>
++#include <mach/platform.h>
++
++static inline void arch_idle(void)
++{
++ /*
++ * This should do all the clock switching
++ * and wait for interrupt tricks
++ */
++ cpu_do_idle();
++}
++
++#endif
+diff -urN linux-3.10/arch/arm/mach-bcm2708/include/mach/timex.h linux-rpi-3.10.y/arch/arm/mach-bcm2708/include/mach/timex.h
+--- linux-3.10/arch/arm/mach-bcm2708/include/mach/timex.h 1970-01-01 01:00:00.000000000 +0100
++++ linux-rpi-3.10.y/arch/arm/mach-bcm2708/include/mach/timex.h 2013-07-06 15:25:50.000000000 +0100
+@@ -0,0 +1,23 @@
++/*
++ * arch/arm/mach-bcm2708/include/mach/timex.h
++ *
++ * BCM2708 sysem clock frequency
++ *
++ * Copyright (C) 2010 Broadcom
++ *
++ * This program is free software; you can redistribute it and/or modify
++ * it under the terms of the GNU General Public License as published by
++ * the Free Software Foundation; either version 2 of the License, or
++ * (at your option) any later version.
++ *
++ * This program is distributed in the hope that it will be useful,
++ * but WITHOUT ANY WARRANTY; without even the implied warranty of
++ * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
++ * GNU General Public License for more details.
++ *
++ * You should have received a copy of the GNU General Public License
++ * along with this program; if not, write to the Free Software
++ * Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA
++ */
++
++#define CLOCK_TICK_RATE (1000000)
+diff -urN linux-3.10/arch/arm/mach-bcm2708/include/mach/uncompress.h linux-rpi-3.10.y/arch/arm/mach-bcm2708/include/mach/uncompress.h
+--- linux-3.10/arch/arm/mach-bcm2708/include/mach/uncompress.h 1970-01-01 01:00:00.000000000 +0100
++++ linux-rpi-3.10.y/arch/arm/mach-bcm2708/include/mach/uncompress.h 2013-07-06 15:25:50.000000000 +0100
+@@ -0,0 +1,85 @@
++/*
++ * arch/arm/mach-bcn2708/include/mach/uncompress.h
++ *
++ * Copyright (C) 2010 Broadcom
++ * Copyright (C) 2003 ARM Limited
++ *
++ * This program is free software; you can redistribute it and/or modify
++ * it under the terms of the GNU General Public License as published by
++ * the Free Software Foundation; either version 2 of the License, or
++ * (at your option) any later version.
++ *
++ * This program is distributed in the hope that it will be useful,
++ * but WITHOUT ANY WARRANTY; without even the implied warranty of
++ * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
++ * GNU General Public License for more details.
++ *
++ * You should have received a copy of the GNU General Public License
++ * along with this program; if not, write to the Free Software
++ * Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA
++ */
++
++#include <linux/io.h>
++#include <linux/amba/serial.h>
++#include <mach/hardware.h>
++
++#define UART_BAUD 115200
++
++#define BCM2708_UART_DR __io(UART0_BASE + UART01x_DR)
++#define BCM2708_UART_FR __io(UART0_BASE + UART01x_FR)
++#define BCM2708_UART_IBRD __io(UART0_BASE + UART011_IBRD)
++#define BCM2708_UART_FBRD __io(UART0_BASE + UART011_FBRD)
++#define BCM2708_UART_LCRH __io(UART0_BASE + UART011_LCRH)
++#define BCM2708_UART_CR __io(UART0_BASE + UART011_CR)
++
++/*
++ * This does not append a newline
++ */
++static inline void putc(int c)
++{
++ while (__raw_readl(BCM2708_UART_FR) & UART01x_FR_TXFF)
++ barrier();
++
++ __raw_writel(c, BCM2708_UART_DR);
++}
++
++static inline void flush(void)
++{
++ int fr;
++
++ do {
++ fr = __raw_readl(BCM2708_UART_FR);
++ barrier();
++ } while ((fr & (UART011_FR_TXFE | UART01x_FR_BUSY)) != UART011_FR_TXFE);
++}
++
++static inline void arch_decomp_setup(void)
++{
++ int temp, div, rem, frac;
++
++ temp = 16 * UART_BAUD;
++ div = UART0_CLOCK / temp;
++ rem = UART0_CLOCK % temp;
++ temp = (8 * rem) / UART_BAUD;
++ frac = (temp >> 1) + (temp & 1);
++
++ /* Make sure the UART is disabled before we start */
++ __raw_writel(0, BCM2708_UART_CR);
++
++ /* Set the baud rate */
++ __raw_writel(div, BCM2708_UART_IBRD);
++ __raw_writel(frac, BCM2708_UART_FBRD);
++
++ /* Set the UART to 8n1, FIFO enabled */
++ __raw_writel(UART01x_LCRH_WLEN_8 | UART01x_LCRH_FEN, BCM2708_UART_LCRH);
++
++ /* Enable the UART */
++ __raw_writel(UART01x_CR_UARTEN | UART011_CR_TXE | UART011_CR_RXE,
++ BCM2708_UART_CR);
++}
++
++/*
++ * nothing to do
++ */
++#define arch_decomp_wdog()
++
+diff -urN linux-3.10/arch/arm/mach-bcm2708/include/mach/vcio.h linux-rpi-3.10.y/arch/arm/mach-bcm2708/include/mach/vcio.h
+--- linux-3.10/arch/arm/mach-bcm2708/include/mach/vcio.h 1970-01-01 01:00:00.000000000 +0100
++++ linux-rpi-3.10.y/arch/arm/mach-bcm2708/include/mach/vcio.h 2013-07-06 15:25:50.000000000 +0100
+@@ -0,0 +1,141 @@
++/*
++ * arch/arm/mach-bcm2708/include/mach/vcio.h
++ *
++ * Copyright (C) 2010 Broadcom
++ *
++ * This program is free software; you can redistribute it and/or modify
++ * it under the terms of the GNU General Public License as published by
++ * the Free Software Foundation; either version 2 of the License, or
++ * (at your option) any later version.
++ *
++ * This program is distributed in the hope that it will be useful,
++ * but WITHOUT ANY WARRANTY; without even the implied warranty of
++ * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
++ * GNU General Public License for more details.
++ *
++ * You should have received a copy of the GNU General Public License
++ * along with this program; if not, write to the Free Software
++ * Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA
++ */
++#ifndef _MACH_BCM2708_VCIO_H
++#define _MACH_BCM2708_VCIO_H
++
++/* Routines to handle I/O via the VideoCore "ARM control" registers
++ * (semaphores, doorbells, mailboxes)
++ */
++
++#define BCM_VCIO_DRIVER_NAME "bcm2708_vcio"
++
++/* Constants shared with the ARM identifying separate mailbox channels */
++#define MBOX_CHAN_POWER 0 /* for use by the power management interface */
++#define MBOX_CHAN_FB 1 /* for use by the frame buffer */
++#define MBOX_CHAN_VCHIQ 3 /* for use by the VCHIQ interface */
++#define MBOX_CHAN_PROPERTY 8 /* for use by the property channel */
++#define MBOX_CHAN_COUNT 9
++
++/* Mailbox property tags */
++enum {
++ VCMSG_PROPERTY_END = 0x00000000,
++ VCMSG_GET_FIRMWARE_REVISION = 0x00000001,
++ VCMSG_GET_BOARD_MODEL = 0x00010001,
++ VCMSG_GET_BOARD_REVISION = 0x00020002,
++ VCMSG_GET_BOARD_MAC_ADDRESS = 0x00020003,
++ VCMSG_GET_BOARD_SERIAL = 0x00020004,
++ VCMSG_GET_ARM_MEMORY = 0x00020005,
++ VCMSG_GET_VC_MEMORY = 0x00020006,
++ VCMSG_GET_CLOCKS = 0x00020007,
++ VCMSG_GET_COMMAND_LINE = 0x00050001,
++ VCMSG_GET_DMA_CHANNELS = 0x00060001,
++ VCMSG_GET_POWER_STATE = 0x00020001,
++ VCMSG_GET_TIMING = 0x00020002,
++ VCMSG_SET_POWER_STATE = 0x00028001,
++ VCMSG_GET_CLOCK_STATE = 0x00030001,
++ VCMSG_SET_CLOCK_STATE = 0x00038001,
++ VCMSG_GET_CLOCK_RATE = 0x00030002,
++ VCMSG_SET_CLOCK_RATE = 0x00038002,
++ VCMSG_GET_VOLTAGE = 0x00030003,
++ VCMSG_SET_VOLTAGE = 0x00038003,
++ VCMSG_GET_MAX_CLOCK = 0x00030004,
++ VCMSG_GET_MAX_VOLTAGE = 0x00030005,
++ VCMSG_GET_TEMPERATURE = 0x00030006,
++ VCMSG_GET_MIN_CLOCK = 0x00030007,
++ VCMSG_GET_MIN_VOLTAGE = 0x00030008,
++ VCMSG_GET_TURBO = 0x00030009,
++ VCMSG_SET_TURBO = 0x00038009,
++ VCMSG_SET_ALLOCATE_BUFFER = 0x00040001,
++ VCMSG_SET_RELEASE_BUFFER = 0x00048001,
++ VCMSG_SET_BLANK_SCREEN = 0x00040002,
++ VCMSG_TST_BLANK_SCREEN = 0x00044002,
++ VCMSG_GET_PHYSICAL_WIDTH_HEIGHT = 0x00040003,
++ VCMSG_TST_PHYSICAL_WIDTH_HEIGHT = 0x00044003,
++ VCMSG_SET_PHYSICAL_WIDTH_HEIGHT = 0x00048003,
++ VCMSG_GET_VIRTUAL_WIDTH_HEIGHT = 0x00040004,
++ VCMSG_TST_VIRTUAL_WIDTH_HEIGHT = 0x00044004,
++ VCMSG_SET_VIRTUAL_WIDTH_HEIGHT = 0x00048004,
++ VCMSG_GET_DEPTH = 0x00040005,
++ VCMSG_TST_DEPTH = 0x00044005,
++ VCMSG_SET_DEPTH = 0x00048005,
++ VCMSG_GET_PIXEL_ORDER = 0x00040006,
++ VCMSG_TST_PIXEL_ORDER = 0x00044006,
++ VCMSG_SET_PIXEL_ORDER = 0x00048006,
++ VCMSG_GET_ALPHA_MODE = 0x00040007,
++ VCMSG_TST_ALPHA_MODE = 0x00044007,
++ VCMSG_SET_ALPHA_MODE = 0x00048007,
++ VCMSG_GET_PITCH = 0x00040008,
++ VCMSG_TST_PITCH = 0x00044008,
++ VCMSG_SET_PITCH = 0x00048008,
++ VCMSG_GET_VIRTUAL_OFFSET = 0x00040009,
++ VCMSG_TST_VIRTUAL_OFFSET = 0x00044009,
++ VCMSG_SET_VIRTUAL_OFFSET = 0x00048009,
++ VCMSG_GET_OVERSCAN = 0x0004000a,
++ VCMSG_TST_OVERSCAN = 0x0004400a,
++ VCMSG_SET_OVERSCAN = 0x0004800a,
++ VCMSG_GET_PALETTE = 0x0004000b,
++ VCMSG_TST_PALETTE = 0x0004400b,
++ VCMSG_SET_PALETTE = 0x0004800b,
++ VCMSG_GET_LAYER = 0x0004000c,
++ VCMSG_TST_LAYER = 0x0004400c,
++ VCMSG_SET_LAYER = 0x0004800c,
++ VCMSG_GET_TRANSFORM = 0x0004000d,
++ VCMSG_TST_TRANSFORM = 0x0004400d,
++ VCMSG_SET_TRANSFORM = 0x0004800d,
++};
++
++extern int /*rc*/ bcm_mailbox_read(unsigned chan, uint32_t *data28);
++extern int /*rc*/ bcm_mailbox_write(unsigned chan, uint32_t data28);
++extern int /*rc*/ bcm_mailbox_property(void *data, int size);
++
++#include <linux/ioctl.h>
++
++/*
++ * The major device number. We can't rely on dynamic
++ * registration any more, because ioctls need to know
++ * it.
++ */
++#define MAJOR_NUM 100
++
++/*
++ * Set the message of the device driver
++ */
++#define IOCTL_MBOX_PROPERTY _IOWR(MAJOR_NUM, 0, char *)
++/*
++ * _IOWR means that we're creating an ioctl command
++ * number for passing information from a user process
++ * to the kernel module and from the kernel module to user process
++ *
++ * The first arguments, MAJOR_NUM, is the major device
++ * number we're using.
++ *
++ * The second argument is the number of the command
++ * (there could be several with different meanings).
++ *
++ * The third argument is the type we want to get from
++ * the process to the kernel.
++ */
++
++/*
++ * The name of the device file
++ */
++#define DEVICE_FILE_NAME "char_dev"
++
++#endif
+diff -urN linux-3.10/arch/arm/mach-bcm2708/include/mach/vc_mem.h linux-rpi-3.10.y/arch/arm/mach-bcm2708/include/mach/vc_mem.h
+--- linux-3.10/arch/arm/mach-bcm2708/include/mach/vc_mem.h 1970-01-01 01:00:00.000000000 +0100
++++ linux-rpi-3.10.y/arch/arm/mach-bcm2708/include/mach/vc_mem.h 2013-07-06 15:25:50.000000000 +0100
+@@ -0,0 +1,36 @@
++/*****************************************************************************
++* Copyright 2010 - 2011 Broadcom Corporation. All rights reserved.
++*
++* Unless you and Broadcom execute a separate written software license
++* agreement governing use of this software, this software is licensed to you
++* under the terms of the GNU General Public License version 2, available at
++* http://www.broadcom.com/licenses/GPLv2.php (the "GPL").
++*
++* Notwithstanding the above, under no circumstances may you combine this
++* software in any way with any other Broadcom software provided under a
++* license other than the GPL, without Broadcom's express prior written
++* consent.
++*****************************************************************************/
++
++#if !defined( VC_MEM_H )
++#define VC_MEM_H
++
++#include <linux/ioctl.h>
++
++#define VC_MEM_IOC_MAGIC 'v'
++
++#define VC_MEM_IOC_MEM_PHYS_ADDR _IOR( VC_MEM_IOC_MAGIC, 0, unsigned long )
++#define VC_MEM_IOC_MEM_SIZE _IOR( VC_MEM_IOC_MAGIC, 1, unsigned int )
++#define VC_MEM_IOC_MEM_BASE _IOR( VC_MEM_IOC_MAGIC, 2, unsigned int )
++#define VC_MEM_IOC_MEM_LOAD _IOR( VC_MEM_IOC_MAGIC, 3, unsigned int )
++
++#if defined( __KERNEL__ )
++#define VC_MEM_TO_ARM_ADDR_MASK 0x3FFFFFFF
++
++extern unsigned long mm_vc_mem_phys_addr;
++extern unsigned int mm_vc_mem_size;
++extern int vc_mem_get_current_size( void );
++#endif
++
++#endif /* VC_MEM_H */
++
+diff -urN linux-3.10/arch/arm/mach-bcm2708/include/mach/vc_support.h linux-rpi-3.10.y/arch/arm/mach-bcm2708/include/mach/vc_support.h
+--- linux-3.10/arch/arm/mach-bcm2708/include/mach/vc_support.h 1970-01-01 01:00:00.000000000 +0100
++++ linux-rpi-3.10.y/arch/arm/mach-bcm2708/include/mach/vc_support.h 2013-07-06 15:25:50.000000000 +0100
+@@ -0,0 +1,69 @@
++#ifndef _VC_SUPPORT_H_
++#define _VC_SUPPORT_H_
++
++/*
++ * vc_support.h
++ *
++ * Created on: 25 Nov 2012
++ * Author: Simon
++ */
++
++enum {
++/*
++ If a MEM_HANDLE_T is discardable, the memory manager may resize it to size
++ 0 at any time when it is not locked or retained.
++ */
++ MEM_FLAG_DISCARDABLE = 1 << 0,
++
++ /*
++ If a MEM_HANDLE_T is allocating (or normal), its block of memory will be
++ accessed in an allocating fashion through the cache.
++ */
++ MEM_FLAG_NORMAL = 0 << 2,
++ MEM_FLAG_ALLOCATING = MEM_FLAG_NORMAL,
++
++ /*
++ If a MEM_HANDLE_T is direct, its block of memory will be accessed
++ directly, bypassing the cache.
++ */
++ MEM_FLAG_DIRECT = 1 << 2,
++
++ /*
++ If a MEM_HANDLE_T is coherent, its block of memory will be accessed in a
++ non-allocating fashion through the cache.
++ */
++ MEM_FLAG_COHERENT = 2 << 2,
++
++ /*
++ If a MEM_HANDLE_T is L1-nonallocating, its block of memory will be accessed by
++ the VPU in a fashion which is allocating in L2, but only coherent in L1.
++ */
++ MEM_FLAG_L1_NONALLOCATING = (MEM_FLAG_DIRECT | MEM_FLAG_COHERENT),
++
++ /*
++ If a MEM_HANDLE_T is zero'd, its contents are set to 0 rather than
++ MEM_HANDLE_INVALID on allocation and resize up.
++ */
++ MEM_FLAG_ZERO = 1 << 4,
++
++ /*
++ If a MEM_HANDLE_T is uninitialised, it will not be reset to a defined value
++ (either zero, or all 1's) on allocation.
++ */
++ MEM_FLAG_NO_INIT = 1 << 5,
++
++ /*
++ Hints.
++ */
++ MEM_FLAG_HINT_PERMALOCK = 1 << 6, /* Likely to be locked for long periods of time. */
++};
++
++unsigned int AllocateVcMemory(unsigned int *pHandle, unsigned int size, unsigned int alignment, unsigned int flags);
++unsigned int ReleaseVcMemory(unsigned int handle);
++unsigned int LockVcMemory(unsigned int *pBusAddress, unsigned int handle);
++unsigned int UnlockVcMemory(unsigned int handle);
++
++unsigned int ExecuteVcCode(unsigned int code,
++ unsigned int r0, unsigned int r1, unsigned int r2, unsigned int r3, unsigned int r4, unsigned int r5);
++
++#endif
+diff -urN linux-3.10/arch/arm/mach-bcm2708/include/mach/vmalloc.h linux-rpi-3.10.y/arch/arm/mach-bcm2708/include/mach/vmalloc.h
+--- linux-3.10/arch/arm/mach-bcm2708/include/mach/vmalloc.h 1970-01-01 01:00:00.000000000 +0100
++++ linux-rpi-3.10.y/arch/arm/mach-bcm2708/include/mach/vmalloc.h 2013-07-06 15:25:50.000000000 +0100
+@@ -0,0 +1,20 @@
++/*
++ * arch/arm/mach-bcm2708/include/mach/vmalloc.h
++ *
++ * Copyright (C) 2010 Broadcom
++ *
++ * This program is free software; you can redistribute it and/or modify
++ * it under the terms of the GNU General Public License as published by
++ * the Free Software Foundation; either version 2 of the License, or
++ * (at your option) any later version.
++ *
++ * This program is distributed in the hope that it will be useful,
++ * but WITHOUT ANY WARRANTY; without even the implied warranty of
++ * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
++ * GNU General Public License for more details.
++ *
++ * You should have received a copy of the GNU General Public License
++ * along with this program; if not, write to the Free Software
++ * Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA
++ */
++#define VMALLOC_END (0xe8000000)
+diff -urN linux-3.10/arch/arm/mach-bcm2708/Kconfig linux-rpi-3.10.y/arch/arm/mach-bcm2708/Kconfig
+--- linux-3.10/arch/arm/mach-bcm2708/Kconfig 1970-01-01 01:00:00.000000000 +0100
++++ linux-rpi-3.10.y/arch/arm/mach-bcm2708/Kconfig 2013-07-06 15:25:50.000000000 +0100
+@@ -0,0 +1,48 @@
++menu "Broadcom BCM2708 Implementations"
++ depends on ARCH_BCM2708
++
++config MACH_BCM2708
++ bool "Broadcom BCM2708 Development Platform"
++ select NEED_MACH_MEMORY_H
++ select NEED_MACH_IO_H
++ select CPU_V6
++ help
++ Include support for the Broadcom(R) BCM2708 platform.
++
++config BCM2708_GPIO
++ bool "BCM2708 gpio support"
++ depends on MACH_BCM2708
++ select ARCH_REQUIRE_GPIOLIB
++ default y
++ help
++ Include support for the Broadcom(R) BCM2708 gpio.
++
++config BCM2708_VCMEM
++ bool "Videocore Memory"
++ depends on MACH_BCM2708
++ default y
++ help
++ Helper for videocore memory access and total size allocation.
++
++config BCM2708_NOL2CACHE
++ bool "Videocore L2 cache disable"
++ depends on MACH_BCM2708
++ default n
++ help
++ Do not allow ARM to use GPU's L2 cache. Requires disable_l2cache in config.txt.
++
++config BCM2708_DMAER
++ tristate "BCM2708 DMA helper"
++ depends on MACH_BCM2708
++ default n
++ help
++ Enable DMA helper for accelerating X composition
++
++config BCM2708_SPIDEV
++ bool "Bind spidev to SPI0 master"
++ depends on MACH_BCM2708
++ depends on SPI
++ default y
++ help
++ Binds spidev driver to the SPI0 master
++endmenu
+diff -urN linux-3.10/arch/arm/mach-bcm2708/Makefile linux-rpi-3.10.y/arch/arm/mach-bcm2708/Makefile
+--- linux-3.10/arch/arm/mach-bcm2708/Makefile 1970-01-01 01:00:00.000000000 +0100
++++ linux-rpi-3.10.y/arch/arm/mach-bcm2708/Makefile 2013-07-06 15:25:50.000000000 +0100
+@@ -0,0 +1,11 @@
++#
++# Makefile for the linux kernel.
++#
++
++obj-$(CONFIG_MACH_BCM2708) += clock.o bcm2708.o armctrl.o vcio.o power.o dma.o
++obj-$(CONFIG_BCM2708_GPIO) += bcm2708_gpio.o
++obj-$(CONFIG_BCM2708_VCMEM) += vc_mem.o
++
++obj-$(CONFIG_BCM2708_DMAER) += dmaer_master.o
++dmaer_master-objs := dmaer.o vc_support.o
++
+diff -urN linux-3.10/arch/arm/mach-bcm2708/Makefile.boot linux-rpi-3.10.y/arch/arm/mach-bcm2708/Makefile.boot
+--- linux-3.10/arch/arm/mach-bcm2708/Makefile.boot 1970-01-01 01:00:00.000000000 +0100
++++ linux-rpi-3.10.y/arch/arm/mach-bcm2708/Makefile.boot 2013-07-06 15:25:50.000000000 +0100
+@@ -0,0 +1,3 @@
++ zreladdr-y := 0x00008000
++params_phys-y := 0x00000100
++initrd_phys-y := 0x00800000
+diff -urN linux-3.10/arch/arm/mach-bcm2708/power.c linux-rpi-3.10.y/arch/arm/mach-bcm2708/power.c
+--- linux-3.10/arch/arm/mach-bcm2708/power.c 1970-01-01 01:00:00.000000000 +0100
++++ linux-rpi-3.10.y/arch/arm/mach-bcm2708/power.c 2013-07-06 15:25:50.000000000 +0100
+@@ -0,0 +1,194 @@
++/*
++ * linux/arch/arm/mach-bcm2708/power.c
++ *
++ * Copyright (C) 2010 Broadcom
++ *
++ * This program is free software; you can redistribute it and/or modify
++ * it under the terms of the GNU General Public License version 2 as
++ * published by the Free Software Foundation.
++ *
++ * This device provides a shared mechanism for controlling the power to
++ * VideoCore subsystems.
++ */
++
++#include <linux/module.h>
++#include <linux/semaphore.h>
++#include <linux/bug.h>
++#include <mach/power.h>
++#include <mach/vcio.h>
++#include <mach/arm_power.h>
++
++#define DRIVER_NAME "bcm2708_power"
++
++#define BCM_POWER_MAXCLIENTS 4
++#define BCM_POWER_NOCLIENT (1<<31)
++
++/* Some drivers expect there devices to be permanently powered */
++#define BCM_POWER_ALWAYS_ON (BCM_POWER_USB)
++
++#if 1
++#define DPRINTK printk
++#else
++#define DPRINTK if (0) printk
++#endif
++
++struct state_struct {
++ uint32_t global_request;
++ uint32_t client_request[BCM_POWER_MAXCLIENTS];
++ struct semaphore client_mutex;
++ struct semaphore mutex;
++} g_state;
++
++int bcm_power_open(BCM_POWER_HANDLE_T *handle)
++{
++ BCM_POWER_HANDLE_T i;
++ int ret = -EBUSY;
++
++ down(&g_state.client_mutex);
++
++ for (i = 0; i < BCM_POWER_MAXCLIENTS; i++) {
++ if (g_state.client_request[i] == BCM_POWER_NOCLIENT) {
++ g_state.client_request[i] = BCM_POWER_NONE;
++ *handle = i;
++ ret = 0;
++ break;
++ }
++ }
++
++ up(&g_state.client_mutex);
++
++ DPRINTK("bcm_power_open() -> %d\n", *handle);
++
++ return ret;
++}
++EXPORT_SYMBOL_GPL(bcm_power_open);
++
++int bcm_power_request(BCM_POWER_HANDLE_T handle, uint32_t request)
++{
++ int rc = 0;
++
++ DPRINTK("bcm_power_request(%d, %x)\n", handle, request);
++
++ if ((handle < BCM_POWER_MAXCLIENTS) &&
++ (g_state.client_request[handle] != BCM_POWER_NOCLIENT)) {
++ if (down_interruptible(&g_state.mutex) != 0) {
++ DPRINTK("bcm_power_request -> interrupted\n");
++ return -EINTR;
++ }
++
++ if (request != g_state.client_request[handle]) {
++ uint32_t others_request = 0;
++ uint32_t global_request;
++ BCM_POWER_HANDLE_T i;
++
++ for (i = 0; i < BCM_POWER_MAXCLIENTS; i++) {
++ if (i != handle)
++ others_request |=
++ g_state.client_request[i];
++ }
++ others_request &= ~BCM_POWER_NOCLIENT;
++
++ global_request = request | others_request;
++ if (global_request != g_state.global_request) {
++ uint32_t actual;
++
++ /* Send a request to VideoCore */
++ bcm_mailbox_write(MBOX_CHAN_POWER,
++ global_request << 4);
++
++ /* Wait for a response during power-up */
++ if (global_request & ~g_state.global_request) {
++ rc = bcm_mailbox_read(MBOX_CHAN_POWER,
++ &actual);
++ DPRINTK
++ ("bcm_mailbox_read -> %08x, %d\n",
++ actual, rc);
++ actual >>= 4;
++ } else {
++ rc = 0;
++ actual = global_request;
++ }
++
++ if (rc == 0) {
++ if (actual != global_request) {
++ printk(KERN_ERR
++ "%s: prev global %x, new global %x, actual %x, request %x, others_request %x\n",
++ __func__,
++ g_state.global_request,
++ global_request, actual, request, others_request);
++ /* A failure */
++ BUG_ON((others_request & actual)
++ != others_request);
++ request &= actual;
++ rc = -EIO;
++ }
++
++ g_state.global_request = actual;
++ g_state.client_request[handle] =
++ request;
++ }
++ }
++ }
++ up(&g_state.mutex);
++ } else {
++ rc = -EINVAL;
++ }
++ DPRINTK("bcm_power_request -> %d\n", rc);
++ return rc;
++}
++EXPORT_SYMBOL_GPL(bcm_power_request);
++
++int bcm_power_close(BCM_POWER_HANDLE_T handle)
++{
++ int rc;
++
++ DPRINTK("bcm_power_close(%d)\n", handle);
++
++ rc = bcm_power_request(handle, BCM_POWER_NONE);
++ if (rc == 0)
++ g_state.client_request[handle] = BCM_POWER_NOCLIENT;
++
++ return rc;
++}
++EXPORT_SYMBOL_GPL(bcm_power_close);
++
++static int __init bcm_power_init(void)
++{
++#if defined(BCM_POWER_ALWAYS_ON)
++ BCM_POWER_HANDLE_T always_on_handle;
++#endif
++ int rc = 0;
++ int i;
++
++ printk(KERN_INFO "bcm_power: Broadcom power driver\n");
++ bcm_mailbox_write(MBOX_CHAN_POWER, 0);
++
++ for (i = 0; i < BCM_POWER_MAXCLIENTS; i++)
++ g_state.client_request[i] = BCM_POWER_NOCLIENT;
++
++ sema_init(&g_state.client_mutex, 1);
++ sema_init(&g_state.mutex, 1);
++
++ g_state.global_request = 0;
++
++#if defined(BCM_POWER_ALWAYS_ON)
++ if (BCM_POWER_ALWAYS_ON) {
++ bcm_power_open(&always_on_handle);
++ bcm_power_request(always_on_handle, BCM_POWER_ALWAYS_ON);
++ }
++#endif
++
++ return rc;
++}
++
++static void __exit bcm_power_exit(void)
++{
++ bcm_mailbox_write(MBOX_CHAN_POWER, 0);
++}
++
++arch_initcall(bcm_power_init); /* Initialize early */
++module_exit(bcm_power_exit);
++
++MODULE_AUTHOR("Phil Elwell");
++MODULE_DESCRIPTION("Interface to BCM2708 power management");
++MODULE_LICENSE("GPL");
+diff -urN linux-3.10/arch/arm/mach-bcm2708/vcio.c linux-rpi-3.10.y/arch/arm/mach-bcm2708/vcio.c
+--- linux-3.10/arch/arm/mach-bcm2708/vcio.c 1970-01-01 01:00:00.000000000 +0100
++++ linux-rpi-3.10.y/arch/arm/mach-bcm2708/vcio.c 2013-07-06 15:25:50.000000000 +0100
+@@ -0,0 +1,474 @@
++/*
++ * linux/arch/arm/mach-bcm2708/vcio.c
++ *
++ * Copyright (C) 2010 Broadcom
++ *
++ * This program is free software; you can redistribute it and/or modify
++ * it under the terms of the GNU General Public License version 2 as
++ * published by the Free Software Foundation.
++ *
++ * This device provides a shared mechanism for writing to the mailboxes,
++ * semaphores, doorbells etc. that are shared between the ARM and the
++ * VideoCore processor
++ */
++
++#if defined(CONFIG_SERIAL_BCM_MBOX_CONSOLE) && defined(CONFIG_MAGIC_SYSRQ)
++#define SUPPORT_SYSRQ
++#endif
++
++#include <linux/module.h>
++#include <linux/console.h>
++#include <linux/serial_core.h>
++#include <linux/serial.h>
++#include <linux/errno.h>
++#include <linux/device.h>
++#include <linux/init.h>
++#include <linux/mm.h>
++#include <linux/dma-mapping.h>
++#include <linux/platform_device.h>
++#include <linux/sysrq.h>
++#include <linux/delay.h>
++#include <linux/slab.h>
++#include <linux/interrupt.h>
++#include <linux/irq.h>
++
++#include <linux/io.h>
++
++#include <mach/vcio.h>
++#include <mach/platform.h>
++
++#include <asm/uaccess.h>
++
++
++#define DRIVER_NAME BCM_VCIO_DRIVER_NAME
++
++/* ----------------------------------------------------------------------
++ * Mailbox
++ * -------------------------------------------------------------------- */
++
++/* offsets from a mail box base address */
++#define MAIL_WRT 0x00 /* write - and next 4 words */
++#define MAIL_RD 0x00 /* read - and next 4 words */
++#define MAIL_POL 0x10 /* read without popping the fifo */
++#define MAIL_SND 0x14 /* sender ID (bottom two bits) */
++#define MAIL_STA 0x18 /* status */
++#define MAIL_CNF 0x1C /* configuration */
++
++#define MBOX_MSG(chan, data28) (((data28) & ~0xf) | ((chan) & 0xf))
++#define MBOX_MSG_LSB(chan, data28) (((data28) << 4) | ((chan) & 0xf))
++#define MBOX_CHAN(msg) ((msg) & 0xf)
++#define MBOX_DATA28(msg) ((msg) & ~0xf)
++#define MBOX_DATA28_LSB(msg) (((uint32_t)msg) >> 4)
++
++#define MBOX_MAGIC 0xd0d0c0de
++
++struct vc_mailbox {
++ struct device *dev; /* parent device */
++ void __iomem *status;
++ void __iomem *config;
++ void __iomem *read;
++ void __iomem *write;
++ uint32_t msg[MBOX_CHAN_COUNT];
++ struct semaphore sema[MBOX_CHAN_COUNT];
++ uint32_t magic;
++};
++
++static void mbox_init(struct vc_mailbox *mbox_out, struct device *dev,
++ uint32_t addr_mbox)
++{
++ int i;
++
++ mbox_out->dev = dev;
++ mbox_out->status = __io_address(addr_mbox + MAIL_STA);
++ mbox_out->config = __io_address(addr_mbox + MAIL_CNF);
++ mbox_out->read = __io_address(addr_mbox + MAIL_RD);
++ /* Write to the other mailbox */
++ mbox_out->write =
++ __io_address((addr_mbox ^ ARM_0_MAIL0_WRT ^ ARM_0_MAIL1_WRT) +
++ MAIL_WRT);
++
++ for (i = 0; i < MBOX_CHAN_COUNT; i++) {
++ mbox_out->msg[i] = 0;
++ sema_init(&mbox_out->sema[i], 0);
++ }
++
++ /* Enable the interrupt on data reception */
++ writel(ARM_MC_IHAVEDATAIRQEN, mbox_out->config);
++
++ mbox_out->magic = MBOX_MAGIC;
++}
++
++static int mbox_write(struct vc_mailbox *mbox, unsigned chan, uint32_t data28)
++{
++ int rc;
++
++ if (mbox->magic != MBOX_MAGIC)
++ rc = -EINVAL;
++ else {
++ /* wait for the mailbox FIFO to have some space in it */
++ while (0 != (readl(mbox->status) & ARM_MS_FULL))
++ cpu_relax();
++
++ writel(MBOX_MSG(chan, data28), mbox->write);
++ rc = 0;
++ }
++ return rc;
++}
++
++static int mbox_read(struct vc_mailbox *mbox, unsigned chan, uint32_t *data28)
++{
++ int rc;
++
++ if (mbox->magic != MBOX_MAGIC)
++ rc = -EINVAL;
++ else {
++ down(&mbox->sema[chan]);
++ *data28 = MBOX_DATA28(mbox->msg[chan]);
++ mbox->msg[chan] = 0;
++ rc = 0;
++ }
++ return rc;
++}
++
++static irqreturn_t mbox_irq(int irq, void *dev_id)
++{
++ /* wait for the mailbox FIFO to have some data in it */
++ struct vc_mailbox *mbox = (struct vc_mailbox *) dev_id;
++ int status = readl(mbox->status);
++ int ret = IRQ_NONE;
++
++ while (!(status & ARM_MS_EMPTY)) {
++ uint32_t msg = readl(mbox->read);
++ int chan = MBOX_CHAN(msg);
++ if (chan < MBOX_CHAN_COUNT) {
++ if (mbox->msg[chan]) {
++ /* Overflow */
++ printk(KERN_ERR DRIVER_NAME
++ ": mbox chan %d overflow - drop %08x\n",
++ chan, msg);
++ } else {
++ mbox->msg[chan] = (msg | 0xf);
++ up(&mbox->sema[chan]);
++ }
++ } else {
++ printk(KERN_ERR DRIVER_NAME
++ ": invalid channel selector (msg %08x)\n", msg);
++ }
++ ret = IRQ_HANDLED;
++ status = readl(mbox->status);
++ }
++ return ret;
++}
++
++static struct irqaction mbox_irqaction = {
++ .name = "ARM Mailbox IRQ",
++ .flags = IRQF_DISABLED | IRQF_IRQPOLL,
++ .handler = mbox_irq,
++};
++
++/* ----------------------------------------------------------------------
++ * Mailbox Methods
++ * -------------------------------------------------------------------- */
++
++static struct device *mbox_dev; /* we assume there's only one! */
++
++static int dev_mbox_write(struct device *dev, unsigned chan, uint32_t data28)
++{
++ int rc;
++
++ struct vc_mailbox *mailbox = dev_get_drvdata(dev);
++ device_lock(dev);
++ rc = mbox_write(mailbox, chan, data28);
++ device_unlock(dev);
++
++ return rc;
++}
++
++static int dev_mbox_read(struct device *dev, unsigned chan, uint32_t *data28)
++{
++ int rc;
++
++ struct vc_mailbox *mailbox = dev_get_drvdata(dev);
++ device_lock(dev);
++ rc = mbox_read(mailbox, chan, data28);
++ device_unlock(dev);
++
++ return rc;
++}
++
++extern int bcm_mailbox_write(unsigned chan, uint32_t data28)
++{
++ if (mbox_dev)
++ return dev_mbox_write(mbox_dev, chan, data28);
++ else
++ return -ENODEV;
++}
++EXPORT_SYMBOL_GPL(bcm_mailbox_write);
++
++extern int bcm_mailbox_read(unsigned chan, uint32_t *data28)
++{
++ if (mbox_dev)
++ return dev_mbox_read(mbox_dev, chan, data28);
++ else
++ return -ENODEV;
++}
++EXPORT_SYMBOL_GPL(bcm_mailbox_read);
++
++static void dev_mbox_register(const char *dev_name, struct device *dev)
++{
++ mbox_dev = dev;
++}
++
++static int mbox_copy_from_user(void *dst, const void *src, int size)
++{
++ if ( (uint32_t)src < TASK_SIZE)
++ {
++ return copy_from_user(dst, src, size);
++ }
++ else
++ {
++ memcpy( dst, src, size );
++ return 0;
++ }
++}
++
++static int mbox_copy_to_user(void *dst, const void *src, int size)
++{
++ if ( (uint32_t)dst < TASK_SIZE)
++ {
++ return copy_to_user(dst, src, size);
++ }
++ else
++ {
++ memcpy( dst, src, size );
++ return 0;
++ }
++}
++
++static DEFINE_MUTEX(mailbox_lock);
++extern int bcm_mailbox_property(void *data, int size)
++{
++ uint32_t success;
++ dma_addr_t mem_bus; /* the memory address accessed from videocore */
++ void *mem_kern; /* the memory address accessed from driver */
++ int s = 0;
++
++ mutex_lock(&mailbox_lock);
++ /* allocate some memory for the messages communicating with GPU */
++ mem_kern = dma_alloc_coherent(NULL, PAGE_ALIGN(size), &mem_bus, GFP_ATOMIC);
++ if (mem_kern) {
++ /* create the message */
++ mbox_copy_from_user(mem_kern, data, size);
++
++ /* send the message */
++ wmb();
++ s = bcm_mailbox_write(MBOX_CHAN_PROPERTY, (uint32_t)mem_bus);
++ if (s == 0) {
++ s = bcm_mailbox_read(MBOX_CHAN_PROPERTY, &success);
++ }
++ if (s == 0) {
++ /* copy the response */
++ rmb();
++ mbox_copy_to_user(data, mem_kern, size);
++ }
++ dma_free_coherent(NULL, PAGE_ALIGN(size), mem_kern, mem_bus);
++ } else {
++ s = -ENOMEM;
++ }
++ if (s != 0)
++ printk(KERN_ERR DRIVER_NAME ": %s failed (%d)\n", __func__, s);
++
++ mutex_unlock(&mailbox_lock);
++ return s;
++}
++EXPORT_SYMBOL_GPL(bcm_mailbox_property);
++
++/* ----------------------------------------------------------------------
++ * Platform Device for Mailbox
++ * -------------------------------------------------------------------- */
++
++/*
++ * Is the device open right now? Used to prevent
++ * concurent access into the same device
++ */
++static int Device_Open = 0;
++
++/*
++ * This is called whenever a process attempts to open the device file
++ */
++static int device_open(struct inode *inode, struct file *file)
++{
++ /*
++ * We don't want to talk to two processes at the same time
++ */
++ if (Device_Open)
++ return -EBUSY;
++
++ Device_Open++;
++ /*
++ * Initialize the message
++ */
++ try_module_get(THIS_MODULE);
++ return 0;
++}
++
++static int device_release(struct inode *inode, struct file *file)
++{
++ /*
++ * We're now ready for our next caller
++ */
++ Device_Open--;
++
++ module_put(THIS_MODULE);
++ return 0;
++}
++
++/*
++ * This function is called whenever a process tries to do an ioctl on our
++ * device file. We get two extra parameters (additional to the inode and file
++ * structures, which all device functions get): the number of the ioctl called
++ * and the parameter given to the ioctl function.
++ *
++ * If the ioctl is write or read/write (meaning output is returned to the
++ * calling process), the ioctl call returns the output of this function.
++ *
++ */
++static long device_ioctl(struct file *file, /* see include/linux/fs.h */
++ unsigned int ioctl_num, /* number and param for ioctl */
++ unsigned long ioctl_param)
++{
++ unsigned size;
++ /*
++ * Switch according to the ioctl called
++ */
++ switch (ioctl_num) {
++ case IOCTL_MBOX_PROPERTY:
++ /*
++ * Receive a pointer to a message (in user space) and set that
++ * to be the device's message. Get the parameter given to
++ * ioctl by the process.
++ */
++ mbox_copy_from_user(&size, (void *)ioctl_param, sizeof size);
++ return bcm_mailbox_property((void *)ioctl_param, size);
++ break;
++ default:
++ printk(KERN_ERR DRIVER_NAME "unknown ioctl: %d\n", ioctl_num);
++ return -EINVAL;
++ }
++
++ return 0;
++}
++
++/* Module Declarations */
++
++/*
++ * This structure will hold the functions to be called
++ * when a process does something to the device we
++ * created. Since a pointer to this structure is kept in
++ * the devices table, it can't be local to
++ * init_module. NULL is for unimplemented functios.
++ */
++struct file_operations fops = {
++ .unlocked_ioctl = device_ioctl,
++ .open = device_open,
++ .release = device_release, /* a.k.a. close */
++};
++
++static int bcm_vcio_probe(struct platform_device *pdev)
++{
++ int ret = 0;
++ struct vc_mailbox *mailbox;
++
++ mailbox = kzalloc(sizeof(*mailbox), GFP_KERNEL);
++ if (NULL == mailbox) {
++ printk(KERN_ERR DRIVER_NAME ": failed to allocate "
++ "mailbox memory\n");
++ ret = -ENOMEM;
++ } else {
++ struct resource *res;
++
++ res = platform_get_resource(pdev, IORESOURCE_MEM, 0);
++ if (res == NULL) {
++ printk(KERN_ERR DRIVER_NAME ": failed to obtain memory "
++ "resource\n");
++ ret = -ENODEV;
++ kfree(mailbox);
++ } else {
++ /* should be based on the registers from res really */
++ mbox_init(mailbox, &pdev->dev, ARM_0_MAIL0_RD);
++
++ platform_set_drvdata(pdev, mailbox);
++ dev_mbox_register(DRIVER_NAME, &pdev->dev);
++
++ mbox_irqaction.dev_id = mailbox;
++ setup_irq(IRQ_ARM_MAILBOX, &mbox_irqaction);
++ printk(KERN_INFO DRIVER_NAME ": mailbox at %p\n",
++ __io_address(ARM_0_MAIL0_RD));
++ }
++ }
++
++ if (ret == 0) {
++ /*
++ * Register the character device
++ */
++ ret = register_chrdev(MAJOR_NUM, DEVICE_FILE_NAME, &fops);
++
++ /*
++ * Negative values signify an error
++ */
++ if (ret < 0) {
++ printk(KERN_ERR DRIVER_NAME
++ "Failed registering the character device %d\n", ret);
++ return ret;
++ }
++ }
++ return ret;
++}
++
++static int bcm_vcio_remove(struct platform_device *pdev)
++{
++ struct vc_mailbox *mailbox = platform_get_drvdata(pdev);
++
++ platform_set_drvdata(pdev, NULL);
++ kfree(mailbox);
++
++ return 0;
++}
++
++static struct platform_driver bcm_mbox_driver = {
++ .probe = bcm_vcio_probe,
++ .remove = bcm_vcio_remove,
++
++ .driver = {
++ .name = DRIVER_NAME,
++ .owner = THIS_MODULE,
++ },
++};
++
++static int __init bcm_mbox_init(void)
++{
++ int ret;
++
++ printk(KERN_INFO "mailbox: Broadcom VideoCore Mailbox driver\n");
++
++ ret = platform_driver_register(&bcm_mbox_driver);
++ if (ret != 0) {
++ printk(KERN_ERR DRIVER_NAME ": failed to register "
++ "on platform\n");
++ }
++
++ return ret;
++}
++
++static void __exit bcm_mbox_exit(void)
++{
++ platform_driver_unregister(&bcm_mbox_driver);
++}
++
++arch_initcall(bcm_mbox_init); /* Initialize early */
++module_exit(bcm_mbox_exit);
++
++MODULE_AUTHOR("Gray Girling");
++MODULE_DESCRIPTION("ARM I/O to VideoCore processor");
++MODULE_LICENSE("GPL");
++MODULE_ALIAS("platform:bcm-mbox");
+diff -urN linux-3.10/arch/arm/mach-bcm2708/vc_mem.c linux-rpi-3.10.y/arch/arm/mach-bcm2708/vc_mem.c
+--- linux-3.10/arch/arm/mach-bcm2708/vc_mem.c 1970-01-01 01:00:00.000000000 +0100
++++ linux-rpi-3.10.y/arch/arm/mach-bcm2708/vc_mem.c 2013-07-06 15:25:50.000000000 +0100
+@@ -0,0 +1,462 @@
++/*****************************************************************************
++* Copyright 2010 - 2011 Broadcom Corporation. All rights reserved.
++*
++* Unless you and Broadcom execute a separate written software license
++* agreement governing use of this software, this software is licensed to you
++* under the terms of the GNU General Public License version 2, available at
++* http://www.broadcom.com/licenses/GPLv2.php (the "GPL").
++*
++* Notwithstanding the above, under no circumstances may you combine this
++* software in any way with any other Broadcom software provided under a
++* license other than the GPL, without Broadcom's express prior written
++* consent.
++*****************************************************************************/
++
++#include <linux/kernel.h>
++#include <linux/module.h>
++#include <linux/fs.h>
++#include <linux/device.h>
++#include <linux/cdev.h>
++#include <linux/mm.h>
++#include <linux/slab.h>
++#include <linux/proc_fs.h>
++#include <asm/uaccess.h>
++#include <linux/dma-mapping.h>
++
++#ifdef CONFIG_ARCH_KONA
++#include <chal/chal_ipc.h>
++#elif CONFIG_ARCH_BCM2708
++#else
++#include <csp/chal_ipc.h>
++#endif
++
++#include "mach/vc_mem.h"
++#include <mach/vcio.h>
++
++#define DRIVER_NAME "vc-mem"
++
++// Uncomment to enable debug logging
++// #define ENABLE_DBG
++
++#if defined(ENABLE_DBG)
++#define LOG_DBG( fmt, ... ) printk( KERN_INFO fmt "\n", ##__VA_ARGS__ )
++#else
++#define LOG_DBG( fmt, ... )
++#endif
++#define LOG_ERR( fmt, ... ) printk( KERN_ERR fmt "\n", ##__VA_ARGS__ )
++
++// Device (/dev) related variables
++static dev_t vc_mem_devnum = 0;
++static struct class *vc_mem_class = NULL;
++static struct cdev vc_mem_cdev;
++static int vc_mem_inited = 0;
++
++// Proc entry
++static struct proc_dir_entry *vc_mem_proc_entry;
++
++/*
++ * Videocore memory addresses and size
++ *
++ * Drivers that wish to know the videocore memory addresses and sizes should
++ * use these variables instead of the MM_IO_BASE and MM_ADDR_IO defines in
++ * headers. This allows the other drivers to not be tied down to a a certain
++ * address/size at compile time.
++ *
++ * In the future, the goal is to have the videocore memory virtual address and
++ * size be calculated at boot time rather than at compile time. The decision of
++ * where the videocore memory resides and its size would be in the hands of the
++ * bootloader (and/or kernel). When that happens, the values of these variables
++ * would be calculated and assigned in the init function.
++ */
++// in the 2835 VC in mapped above ARM, but ARM has full access to VC space
++unsigned long mm_vc_mem_phys_addr = 0x00000000;
++unsigned int mm_vc_mem_size = 0;
++unsigned int mm_vc_mem_base = 0;
++
++EXPORT_SYMBOL(mm_vc_mem_phys_addr);
++EXPORT_SYMBOL(mm_vc_mem_size);
++EXPORT_SYMBOL(mm_vc_mem_base);
++
++static uint phys_addr = 0;
++static uint mem_size = 0;
++static uint mem_base = 0;
++
++
++/****************************************************************************
++*
++* vc_mem_open
++*
++***************************************************************************/
++
++static int
++vc_mem_open(struct inode *inode, struct file *file)
++{
++ (void) inode;
++ (void) file;
++
++ LOG_DBG("%s: called file = 0x%p", __func__, file);
++
++ return 0;
++}
++
++/****************************************************************************
++*
++* vc_mem_release
++*
++***************************************************************************/
++
++static int
++vc_mem_release(struct inode *inode, struct file *file)
++{
++ (void) inode;
++ (void) file;
++
++ LOG_DBG("%s: called file = 0x%p", __func__, file);
++
++ return 0;
++}
++
++/****************************************************************************
++*
++* vc_mem_get_size
++*
++***************************************************************************/
++
++static void
++vc_mem_get_size(void)
++{
++}
++
++/****************************************************************************
++*
++* vc_mem_get_base
++*
++***************************************************************************/
++
++static void
++vc_mem_get_base(void)
++{
++}
++
++/****************************************************************************
++*
++* vc_mem_get_current_size
++*
++***************************************************************************/
++
++int
++vc_mem_get_current_size(void)
++{
++ return mm_vc_mem_size;
++}
++
++EXPORT_SYMBOL_GPL(vc_mem_get_current_size);
++
++/****************************************************************************
++*
++* vc_mem_ioctl
++*
++***************************************************************************/
++
++static long
++vc_mem_ioctl(struct file *file, unsigned int cmd, unsigned long arg)
++{
++ int rc = 0;
++
++ (void) cmd;
++ (void) arg;
++
++ LOG_DBG("%s: called file = 0x%p", __func__, file);
++
++ switch (cmd) {
++ case VC_MEM_IOC_MEM_PHYS_ADDR:
++ {
++ LOG_DBG("%s: VC_MEM_IOC_MEM_PHYS_ADDR=0x%p",
++ __func__, (void *) mm_vc_mem_phys_addr);
++
++ if (copy_to_user((void *) arg, &mm_vc_mem_phys_addr,
++ sizeof (mm_vc_mem_phys_addr)) != 0) {
++ rc = -EFAULT;
++ }
++ break;
++ }
++ case VC_MEM_IOC_MEM_SIZE:
++ {
++ // Get the videocore memory size first
++ vc_mem_get_size();
++
++ LOG_DBG("%s: VC_MEM_IOC_MEM_SIZE=%u", __func__,
++ mm_vc_mem_size);
++
++ if (copy_to_user((void *) arg, &mm_vc_mem_size,
++ sizeof (mm_vc_mem_size)) != 0) {
++ rc = -EFAULT;
++ }
++ break;
++ }
++ case VC_MEM_IOC_MEM_BASE:
++ {
++ // Get the videocore memory base
++ vc_mem_get_base();
++
++ LOG_DBG("%s: VC_MEM_IOC_MEM_BASE=%u", __func__,
++ mm_vc_mem_base);
++
++ if (copy_to_user((void *) arg, &mm_vc_mem_base,
++ sizeof (mm_vc_mem_base)) != 0) {
++ rc = -EFAULT;
++ }
++ break;
++ }
++ case VC_MEM_IOC_MEM_LOAD:
++ {
++ // Get the videocore memory base
++ vc_mem_get_base();
++
++ LOG_DBG("%s: VC_MEM_IOC_MEM_LOAD=%u", __func__,
++ mm_vc_mem_base);
++
++ if (copy_to_user((void *) arg, &mm_vc_mem_base,
++ sizeof (mm_vc_mem_base)) != 0) {
++ rc = -EFAULT;
++ }
++ break;
++ }
++ default:
++ {
++ return -ENOTTY;
++ }
++ }
++ LOG_DBG("%s: file = 0x%p returning %d", __func__, file, rc);
++
++ return rc;
++}
++
++/****************************************************************************
++*
++* vc_mem_mmap
++*
++***************************************************************************/
++
++static int
++vc_mem_mmap(struct file *filp, struct vm_area_struct *vma)
++{
++ int rc = 0;
++ unsigned long length = vma->vm_end - vma->vm_start;
++ unsigned long offset = vma->vm_pgoff << PAGE_SHIFT;
++
++ LOG_DBG("%s: vm_start = 0x%08lx vm_end = 0x%08lx vm_pgoff = 0x%08lx",
++ __func__, (long) vma->vm_start, (long) vma->vm_end,
++ (long) vma->vm_pgoff);
++
++ if (offset + length > mm_vc_mem_size) {
++ LOG_ERR("%s: length %ld is too big", __func__, length);
++ return -EINVAL;
++ }
++ // Do not cache the memory map
++ vma->vm_page_prot = pgprot_noncached(vma->vm_page_prot);
++
++ rc = remap_pfn_range(vma, vma->vm_start,
++ (mm_vc_mem_phys_addr >> PAGE_SHIFT) +
++ vma->vm_pgoff, length, vma->vm_page_prot);
++ if (rc != 0) {
++ LOG_ERR("%s: remap_pfn_range failed (rc=%d)", __func__, rc);
++ }
++
++ return rc;
++}
++
++/****************************************************************************
++*
++* File Operations for the driver.
++*
++***************************************************************************/
++
++static const struct file_operations vc_mem_fops = {
++ .owner = THIS_MODULE,
++ .open = vc_mem_open,
++ .release = vc_mem_release,
++ .unlocked_ioctl = vc_mem_ioctl,
++ .mmap = vc_mem_mmap,
++};
++
++/****************************************************************************
++*
++* vc_mem_proc_read
++*
++***************************************************************************/
++
++static int
++vc_mem_proc_read(char *buf, char **start, off_t offset, int count, int *eof,
++ void *data)
++{
++ char *p = buf;
++
++ (void) start;
++ (void) count;
++ (void) data;
++
++ if (offset > 0) {
++ *eof = 1;
++ return 0;
++ }
++ // Get the videocore memory size first
++ vc_mem_get_size();
++
++ p += sprintf(p, "Videocore memory:\n");
++ if (mm_vc_mem_phys_addr != 0)
++ p += sprintf(p, " Physical address: 0x%p\n",
++ (void *) mm_vc_mem_phys_addr);
++ else
++ p += sprintf(p, " Physical address: 0x00000000\n");
++ p += sprintf(p, " Length (bytes): %u\n", mm_vc_mem_size);
++
++ *eof = 1;
++ return p - buf;
++}
++
++/****************************************************************************
++*
++* vc_mem_proc_write
++*
++***************************************************************************/
++
++static int
++vc_mem_proc_write(struct file *file, const char __user * buffer,
++ unsigned long count, void *data)
++{
++ int rc = -EFAULT;
++ char input_str[10];
++
++ memset(input_str, 0, sizeof (input_str));
++
++ if (count > sizeof (input_str)) {
++ LOG_ERR("%s: input string length too long", __func__);
++ goto out;
++ }
++
++ if (copy_from_user(input_str, buffer, count - 1)) {
++ LOG_ERR("%s: failed to get input string", __func__);
++ goto out;
++ }
++
++ if (strncmp(input_str, "connect", strlen("connect")) == 0) {
++ // Get the videocore memory size from the videocore
++ vc_mem_get_size();
++ }
++
++ out:
++ return rc;
++}
++
++/****************************************************************************
++*
++* vc_mem_init
++*
++***************************************************************************/
++
++static int __init
++vc_mem_init(void)
++{
++ int rc = -EFAULT;
++ struct device *dev;
++
++ LOG_DBG("%s: called", __func__);
++
++ mm_vc_mem_phys_addr = phys_addr;
++ mm_vc_mem_size = mem_size;
++ mm_vc_mem_base = mem_base;
++
++ vc_mem_get_size();
++
++ printk("vc-mem: phys_addr:0x%08lx mem_base=0x%08x mem_size:0x%08x(%u MiB)\n",
++ mm_vc_mem_phys_addr, mm_vc_mem_base, mm_vc_mem_size, mm_vc_mem_size / (1024 * 1024));
++
++ if ((rc = alloc_chrdev_region(&vc_mem_devnum, 0, 1, DRIVER_NAME)) < 0) {
++ LOG_ERR("%s: alloc_chrdev_region failed (rc=%d)", __func__, rc);
++ goto out_err;
++ }
++
++ cdev_init(&vc_mem_cdev, &vc_mem_fops);
++ if ((rc = cdev_add(&vc_mem_cdev, vc_mem_devnum, 1)) != 0) {
++ LOG_ERR("%s: cdev_add failed (rc=%d)", __func__, rc);
++ goto out_unregister;
++ }
++
++ vc_mem_class = class_create(THIS_MODULE, DRIVER_NAME);
++ if (IS_ERR(vc_mem_class)) {
++ rc = PTR_ERR(vc_mem_class);
++ LOG_ERR("%s: class_create failed (rc=%d)", __func__, rc);
++ goto out_cdev_del;
++ }
++
++ dev = device_create(vc_mem_class, NULL, vc_mem_devnum, NULL,
++ DRIVER_NAME);
++ if (IS_ERR(dev)) {
++ rc = PTR_ERR(dev);
++ LOG_ERR("%s: device_create failed (rc=%d)", __func__, rc);
++ goto out_class_destroy;
++ }
++
++#if 0
++ vc_mem_proc_entry = create_proc_entry(DRIVER_NAME, 0444, NULL);
++ if (vc_mem_proc_entry == NULL) {
++ rc = -EFAULT;
++ LOG_ERR("%s: create_proc_entry failed", __func__);
++ goto out_device_destroy;
++ }
++ vc_mem_proc_entry->read_proc = vc_mem_proc_read;
++ vc_mem_proc_entry->write_proc = vc_mem_proc_write;
++#endif
++
++ vc_mem_inited = 1;
++ return 0;
++
++ out_device_destroy:
++ device_destroy(vc_mem_class, vc_mem_devnum);
++
++ out_class_destroy:
++ class_destroy(vc_mem_class);
++ vc_mem_class = NULL;
++
++ out_cdev_del:
++ cdev_del(&vc_mem_cdev);
++
++ out_unregister:
++ unregister_chrdev_region(vc_mem_devnum, 1);
++
++ out_err:
++ return -1;
++}
++
++/****************************************************************************
++*
++* vc_mem_exit
++*
++***************************************************************************/
++
++static void __exit
++vc_mem_exit(void)
++{
++ LOG_DBG("%s: called", __func__);
++
++ if (vc_mem_inited) {
++#if 0
++ remove_proc_entry(vc_mem_proc_entry->name, NULL);
++#endif
++ device_destroy(vc_mem_class, vc_mem_devnum);
++ class_destroy(vc_mem_class);
++ cdev_del(&vc_mem_cdev);
++ unregister_chrdev_region(vc_mem_devnum, 1);
++ }
++}
++
++module_init(vc_mem_init);
++module_exit(vc_mem_exit);
++MODULE_LICENSE("GPL");
++MODULE_AUTHOR("Broadcom Corporation");
++
++module_param(phys_addr, uint, 0644);
++module_param(mem_size, uint, 0644);
++module_param(mem_base, uint, 0644);
++
+diff -urN linux-3.10/arch/arm/mach-bcm2708/vc_support.c linux-rpi-3.10.y/arch/arm/mach-bcm2708/vc_support.c
+--- linux-3.10/arch/arm/mach-bcm2708/vc_support.c 1970-01-01 01:00:00.000000000 +0100
++++ linux-rpi-3.10.y/arch/arm/mach-bcm2708/vc_support.c 2013-07-06 15:25:50.000000000 +0100
+@@ -0,0 +1,319 @@
++/*
++ * vc_support.c
++ *
++ * Created on: 25 Nov 2012
++ * Author: Simon
++ */
++
++#include <linux/module.h>
++#include <mach/vcio.h>
++
++#ifdef ECLIPSE_IGNORE
++
++#define __user
++#define __init
++#define __exit
++#define __iomem
++#define KERN_DEBUG
++#define KERN_ERR
++#define KERN_WARNING
++#define KERN_INFO
++#define _IOWR(a, b, c) b
++#define _IOW(a, b, c) b
++#define _IO(a, b) b
++
++#endif
++
++/****** VC MAILBOX FUNCTIONALITY ******/
++unsigned int AllocateVcMemory(unsigned int *pHandle, unsigned int size, unsigned int alignment, unsigned int flags)
++{
++ struct vc_msg
++ {
++ unsigned int m_msgSize;
++ unsigned int m_response;
++
++ struct vc_tag
++ {
++ unsigned int m_tagId;
++ unsigned int m_sendBufferSize;
++ union {
++ unsigned int m_sendDataSize;
++ unsigned int m_recvDataSize;
++ };
++
++ struct args
++ {
++ union {
++ unsigned int m_size;
++ unsigned int m_handle;
++ };
++ unsigned int m_alignment;
++ unsigned int m_flags;
++ } m_args;
++ } m_tag;
++
++ unsigned int m_endTag;
++ } msg;
++ int s;
++
++ msg.m_msgSize = sizeof(msg);
++ msg.m_response = 0;
++ msg.m_endTag = 0;
++
++ //fill in the tag for the allocation command
++ msg.m_tag.m_tagId = 0x3000c;
++ msg.m_tag.m_sendBufferSize = 12;
++ msg.m_tag.m_sendDataSize = 12;
++
++ //fill in our args
++ msg.m_tag.m_args.m_size = size;
++ msg.m_tag.m_args.m_alignment = alignment;
++ msg.m_tag.m_args.m_flags = flags;
++
++ //run the command
++ s = bcm_mailbox_property(&msg, sizeof(msg));
++
++ if (s == 0 && msg.m_response == 0x80000000 && msg.m_tag.m_recvDataSize == 0x80000004)
++ {
++ *pHandle = msg.m_tag.m_args.m_handle;
++ return 0;
++ }
++ else
++ {
++ printk(KERN_ERR "failed to allocate vc memory: s=%d response=%08x recv data size=%08x\n",
++ s, msg.m_response, msg.m_tag.m_recvDataSize);
++ return 1;
++ }
++}
++
++unsigned int ReleaseVcMemory(unsigned int handle)
++{
++ struct vc_msg
++ {
++ unsigned int m_msgSize;
++ unsigned int m_response;
++
++ struct vc_tag
++ {
++ unsigned int m_tagId;
++ unsigned int m_sendBufferSize;
++ union {
++ unsigned int m_sendDataSize;
++ unsigned int m_recvDataSize;
++ };
++
++ struct args
++ {
++ union {
++ unsigned int m_handle;
++ unsigned int m_error;
++ };
++ } m_args;
++ } m_tag;
++
++ unsigned int m_endTag;
++ } msg;
++ int s;
++
++ msg.m_msgSize = sizeof(msg);
++ msg.m_response = 0;
++ msg.m_endTag = 0;
++
++ //fill in the tag for the release command
++ msg.m_tag.m_tagId = 0x3000f;
++ msg.m_tag.m_sendBufferSize = 4;
++ msg.m_tag.m_sendDataSize = 4;
++
++ //pass across the handle
++ msg.m_tag.m_args.m_handle = handle;
++
++ s = bcm_mailbox_property(&msg, sizeof(msg));
++
++ if (s == 0 && msg.m_response == 0x80000000 && msg.m_tag.m_recvDataSize == 0x80000004 && msg.m_tag.m_args.m_error == 0)
++ return 0;
++ else
++ {
++ printk(KERN_ERR "failed to release vc memory: s=%d response=%08x recv data size=%08x error=%08x\n",
++ s, msg.m_response, msg.m_tag.m_recvDataSize, msg.m_tag.m_args.m_error);
++ return 1;
++ }
++}
++
++unsigned int LockVcMemory(unsigned int *pBusAddress, unsigned int handle)
++{
++ struct vc_msg
++ {
++ unsigned int m_msgSize;
++ unsigned int m_response;
++
++ struct vc_tag
++ {
++ unsigned int m_tagId;
++ unsigned int m_sendBufferSize;
++ union {
++ unsigned int m_sendDataSize;
++ unsigned int m_recvDataSize;
++ };
++
++ struct args
++ {
++ union {
++ unsigned int m_handle;
++ unsigned int m_busAddress;
++ };
++ } m_args;
++ } m_tag;
++
++ unsigned int m_endTag;
++ } msg;
++ int s;
++
++ msg.m_msgSize = sizeof(msg);
++ msg.m_response = 0;
++ msg.m_endTag = 0;
++
++ //fill in the tag for the lock command
++ msg.m_tag.m_tagId = 0x3000d;
++ msg.m_tag.m_sendBufferSize = 4;
++ msg.m_tag.m_sendDataSize = 4;
++
++ //pass across the handle
++ msg.m_tag.m_args.m_handle = handle;
++
++ s = bcm_mailbox_property(&msg, sizeof(msg));
++
++ if (s == 0 && msg.m_response == 0x80000000 && msg.m_tag.m_recvDataSize == 0x80000004)
++ {
++ //pick out the bus address
++ *pBusAddress = msg.m_tag.m_args.m_busAddress;
++ return 0;
++ }
++ else
++ {
++ printk(KERN_ERR "failed to lock vc memory: s=%d response=%08x recv data size=%08x\n",
++ s, msg.m_response, msg.m_tag.m_recvDataSize);
++ return 1;
++ }
++}
++
++unsigned int UnlockVcMemory(unsigned int handle)
++{
++ struct vc_msg
++ {
++ unsigned int m_msgSize;
++ unsigned int m_response;
++
++ struct vc_tag
++ {
++ unsigned int m_tagId;
++ unsigned int m_sendBufferSize;
++ union {
++ unsigned int m_sendDataSize;
++ unsigned int m_recvDataSize;
++ };
++
++ struct args
++ {
++ union {
++ unsigned int m_handle;
++ unsigned int m_error;
++ };
++ } m_args;
++ } m_tag;
++
++ unsigned int m_endTag;
++ } msg;
++ int s;
++
++ msg.m_msgSize = sizeof(msg);
++ msg.m_response = 0;
++ msg.m_endTag = 0;
++
++ //fill in the tag for the unlock command
++ msg.m_tag.m_tagId = 0x3000e;
++ msg.m_tag.m_sendBufferSize = 4;
++ msg.m_tag.m_sendDataSize = 4;
++
++ //pass across the handle
++ msg.m_tag.m_args.m_handle = handle;
++
++ s = bcm_mailbox_property(&msg, sizeof(msg));
++
++ //check the error code too
++ if (s == 0 && msg.m_response == 0x80000000 && msg.m_tag.m_recvDataSize == 0x80000004 && msg.m_tag.m_args.m_error == 0)
++ return 0;
++ else
++ {
++ printk(KERN_ERR "failed to unlock vc memory: s=%d response=%08x recv data size=%08x error%08x\n",
++ s, msg.m_response, msg.m_tag.m_recvDataSize, msg.m_tag.m_args.m_error);
++ return 1;
++ }
++}
++
++unsigned int ExecuteVcCode(unsigned int code,
++ unsigned int r0, unsigned int r1, unsigned int r2, unsigned int r3, unsigned int r4, unsigned int r5)
++{
++ struct vc_msg
++ {
++ unsigned int m_msgSize;
++ unsigned int m_response;
++
++ struct vc_tag
++ {
++ unsigned int m_tagId;
++ unsigned int m_sendBufferSize;
++ union {
++ unsigned int m_sendDataSize;
++ unsigned int m_recvDataSize;
++ };
++
++ struct args
++ {
++ union {
++ unsigned int m_pCode;
++ unsigned int m_return;
++ };
++ unsigned int m_r0;
++ unsigned int m_r1;
++ unsigned int m_r2;
++ unsigned int m_r3;
++ unsigned int m_r4;
++ unsigned int m_r5;
++ } m_args;
++ } m_tag;
++
++ unsigned int m_endTag;
++ } msg;
++ int s;
++
++ msg.m_msgSize = sizeof(msg);
++ msg.m_response = 0;
++ msg.m_endTag = 0;
++
++ //fill in the tag for the unlock command
++ msg.m_tag.m_tagId = 0x30010;
++ msg.m_tag.m_sendBufferSize = 28;
++ msg.m_tag.m_sendDataSize = 28;
++
++ //pass across the handle
++ msg.m_tag.m_args.m_pCode = code;
++ msg.m_tag.m_args.m_r0 = r0;
++ msg.m_tag.m_args.m_r1 = r1;
++ msg.m_tag.m_args.m_r2 = r2;
++ msg.m_tag.m_args.m_r3 = r3;
++ msg.m_tag.m_args.m_r4 = r4;
++ msg.m_tag.m_args.m_r5 = r5;
++
++ s = bcm_mailbox_property(&msg, sizeof(msg));
++
++ //check the error code too
++ if (s == 0 && msg.m_response == 0x80000000 && msg.m_tag.m_recvDataSize == 0x80000004)
++ return msg.m_tag.m_args.m_return;
++ else
++ {
++ printk(KERN_ERR "failed to execute: s=%d response=%08x recv data size=%08x\n",
++ s, msg.m_response, msg.m_tag.m_recvDataSize);
++ return 1;
++ }
++}
++
+diff -urN linux-3.10/arch/arm/Makefile linux-rpi-3.10.y/arch/arm/Makefile
+--- linux-3.10/arch/arm/Makefile 2013-06-30 23:13:29.000000000 +0100
++++ linux-rpi-3.10.y/arch/arm/Makefile 2013-07-06 15:25:50.000000000 +0100
+@@ -139,6 +139,7 @@
+ # by CONFIG_* macro name.
+ machine-$(CONFIG_ARCH_AT91) += at91
+ machine-$(CONFIG_ARCH_BCM) += bcm
++machine-$(CONFIG_ARCH_BCM2708) += bcm2708
+ machine-$(CONFIG_ARCH_BCM2835) += bcm2835
+ machine-$(CONFIG_ARCH_CLPS711X) += clps711x
+ machine-$(CONFIG_ARCH_CNS3XXX) += cns3xxx
+diff -urN linux-3.10/arch/arm/mm/Kconfig linux-rpi-3.10.y/arch/arm/mm/Kconfig
+--- linux-3.10/arch/arm/mm/Kconfig 2013-06-30 23:13:29.000000000 +0100
++++ linux-rpi-3.10.y/arch/arm/mm/Kconfig 2013-07-06 15:25:50.000000000 +0100
+@@ -358,7 +358,7 @@
+
+ # ARMv6
+ config CPU_V6
+- bool "Support ARM V6 processor" if ARCH_INTEGRATOR || MACH_REALVIEW_EB || MACH_REALVIEW_PBX
++ bool "Support ARM V6 processor" if ARCH_INTEGRATOR || MACH_REALVIEW_EB || MACH_REALVIEW_PBX || MACH_BCM2708
+ select CPU_32v6
+ select CPU_ABRT_EV6
+ select CPU_CACHE_V6
+diff -urN linux-3.10/arch/arm/mm/proc-v6.S linux-rpi-3.10.y/arch/arm/mm/proc-v6.S
+--- linux-3.10/arch/arm/mm/proc-v6.S 2013-06-30 23:13:29.000000000 +0100
++++ linux-rpi-3.10.y/arch/arm/mm/proc-v6.S 2013-07-06 15:25:50.000000000 +0100
+@@ -73,10 +73,19 @@
+ *
+ * IRQs are already disabled.
+ */
++
++/* See jira SW-5991 for details of this workaround */
+ ENTRY(cpu_v6_do_idle)
+- mov r1, #0
+- mcr p15, 0, r1, c7, c10, 4 @ DWB - WFI may enter a low-power mode
+- mcr p15, 0, r1, c7, c0, 4 @ wait for interrupt
++ .align 5
++ mov r1, #2
++1: subs r1, #1
++ nop
++ mcreq p15, 0, r1, c7, c10, 4 @ DWB - WFI may enter a low-power mode
++ mcreq p15, 0, r1, c7, c0, 4 @ wait for interrupt
++ nop
++ nop
++ nop
++ bne 1b
+ mov pc, lr
+
+ ENTRY(cpu_v6_dcache_clean_area)
+diff -urN linux-3.10/arch/arm/tools/mach-types linux-rpi-3.10.y/arch/arm/tools/mach-types
+--- linux-3.10/arch/arm/tools/mach-types 2013-06-30 23:13:29.000000000 +0100
++++ linux-rpi-3.10.y/arch/arm/tools/mach-types 2013-07-06 15:25:50.000000000 +0100
+@@ -522,6 +522,7 @@
+ prima2_evb MACH_PRIMA2_EVB PRIMA2_EVB 3103
+ paz00 MACH_PAZ00 PAZ00 3128
+ acmenetusfoxg20 MACH_ACMENETUSFOXG20 ACMENETUSFOXG20 3129
++bcm2708 MACH_BCM2708 BCM2708 3138
+ ag5evm MACH_AG5EVM AG5EVM 3189
+ ics_if_voip MACH_ICS_IF_VOIP ICS_IF_VOIP 3206
+ wlf_cragg_6410 MACH_WLF_CRAGG_6410 WLF_CRAGG_6410 3207
diff --git a/target/linux/brcm2708/patches-3.10/003-bcm2708-watchdog-driver.patch b/target/linux/brcm2708/patches-3.10/003-bcm2708-watchdog-driver.patch
new file mode 100644
index 0000000000..fb0ea33d62
--- /dev/null
+++ b/target/linux/brcm2708/patches-3.10/003-bcm2708-watchdog-driver.patch
@@ -0,0 +1,416 @@
+diff -urN linux-3.10/drivers/watchdog/bcm2708_wdog.c linux-rpi-3.10.y/drivers/watchdog/bcm2708_wdog.c
+--- linux-3.10/drivers/watchdog/bcm2708_wdog.c 1970-01-01 01:00:00.000000000 +0100
++++ linux-rpi-3.10.y/drivers/watchdog/bcm2708_wdog.c 2013-07-06 15:25:50.000000000 +0100
+@@ -0,0 +1,385 @@
++/*
++ * Broadcom BCM2708 watchdog driver.
++ *
++ * (c) Copyright 2010 Broadcom Europe Ltd
++ *
++ * This program is free software; you can redistribute it and/or
++ * modify it under the terms of the GNU General Public License
++ * as published by the Free Software Foundation; either version
++ * 2 of the License, or (at your option) any later version.
++ *
++ * BCM2708 watchdog driver. Loosely based on wdt driver.
++ */
++
++#include <linux/interrupt.h>
++#include <linux/module.h>
++#include <linux/moduleparam.h>
++#include <linux/types.h>
++#include <linux/miscdevice.h>
++#include <linux/watchdog.h>
++#include <linux/fs.h>
++#include <linux/ioport.h>
++#include <linux/notifier.h>
++#include <linux/reboot.h>
++#include <linux/init.h>
++#include <linux/io.h>
++#include <linux/uaccess.h>
++#include <mach/platform.h>
++
++#include <asm/system.h>
++
++#define SECS_TO_WDOG_TICKS(x) ((x) << 16)
++#define WDOG_TICKS_TO_SECS(x) ((x) >> 16)
++
++static unsigned long wdog_is_open;
++static uint32_t wdog_ticks; /* Ticks to load into wdog timer */
++static char expect_close;
++
++/*
++ * Module parameters
++ */
++
++#define WD_TIMO 10 /* Default heartbeat = 60 seconds */
++static int heartbeat = WD_TIMO; /* Heartbeat in seconds */
++
++module_param(heartbeat, int, 0);
++MODULE_PARM_DESC(heartbeat,
++ "Watchdog heartbeat in seconds. (0 < heartbeat < 65536, default="
++ __MODULE_STRING(WD_TIMO) ")");
++
++static int nowayout = WATCHDOG_NOWAYOUT;
++module_param(nowayout, int, 0);
++MODULE_PARM_DESC(nowayout,
++ "Watchdog cannot be stopped once started (default="
++ __MODULE_STRING(WATCHDOG_NOWAYOUT) ")");
++
++static DEFINE_SPINLOCK(wdog_lock);
++
++/**
++ * Start the watchdog driver.
++ */
++
++static int wdog_start(unsigned long timeout)
++{
++ uint32_t cur;
++ unsigned long flags;
++ spin_lock_irqsave(&wdog_lock, flags);
++
++ /* enable the watchdog */
++ iowrite32(PM_PASSWORD | (timeout & PM_WDOG_TIME_SET),
++ __io_address(PM_WDOG));
++ cur = ioread32(__io_address(PM_RSTC));
++ iowrite32(PM_PASSWORD | (cur & PM_RSTC_WRCFG_CLR) |
++ PM_RSTC_WRCFG_FULL_RESET, __io_address(PM_RSTC));
++
++ spin_unlock_irqrestore(&wdog_lock, flags);
++ return 0;
++}
++
++/**
++ * Stop the watchdog driver.
++ */
++
++static int wdog_stop(void)
++{
++ iowrite32(PM_PASSWORD | PM_RSTC_RESET, __io_address(PM_RSTC));
++ printk(KERN_INFO "watchdog stopped\n");
++ return 0;
++}
++
++/**
++ * Reload counter one with the watchdog heartbeat. We don't bother
++ * reloading the cascade counter.
++ */
++
++static void wdog_ping(void)
++{
++ wdog_start(wdog_ticks);
++}
++
++/**
++ * @t: the new heartbeat value that needs to be set.
++ *
++ * Set a new heartbeat value for the watchdog device. If the heartbeat
++ * value is incorrect we keep the old value and return -EINVAL. If
++ * successful we return 0.
++ */
++
++static int wdog_set_heartbeat(int t)
++{
++ if (t < 1 || t > WDOG_TICKS_TO_SECS(PM_WDOG_TIME_SET))
++ return -EINVAL;
++
++ heartbeat = t;
++ wdog_ticks = SECS_TO_WDOG_TICKS(t);
++ return 0;
++}
++
++/**
++ * @file: file handle to the watchdog
++ * @buf: buffer to write (unused as data does not matter here
++ * @count: count of bytes
++ * @ppos: pointer to the position to write. No seeks allowed
++ *
++ * A write to a watchdog device is defined as a keepalive signal.
++ *
++ * if 'nowayout' is set then normally a close() is ignored. But
++ * if you write 'V' first then the close() will stop the timer.
++ */
++
++static ssize_t wdog_write(struct file *file, const char __user *buf,
++ size_t count, loff_t *ppos)
++{
++ if (count) {
++ if (!nowayout) {
++ size_t i;
++
++ /* In case it was set long ago */
++ expect_close = 0;
++
++ for (i = 0; i != count; i++) {
++ char c;
++ if (get_user(c, buf + i))
++ return -EFAULT;
++ if (c == 'V')
++ expect_close = 42;
++ }
++ }
++ wdog_ping();
++ }
++ return count;
++}
++
++static int wdog_get_status(void)
++{
++ unsigned long flags;
++ int status = 0;
++ spin_lock_irqsave(&wdog_lock, flags);
++ /* FIXME: readback reset reason */
++ spin_unlock_irqrestore(&wdog_lock, flags);
++ return status;
++}
++
++static uint32_t wdog_get_remaining(void)
++{
++ uint32_t ret = ioread32(__io_address(PM_WDOG));
++ return ret & PM_WDOG_TIME_SET;
++}
++
++/**
++ * @file: file handle to the device
++ * @cmd: watchdog command
++ * @arg: argument pointer
++ *
++ * The watchdog API defines a common set of functions for all watchdogs
++ * according to their available features. We only actually usefully support
++ * querying capabilities and current status.
++ */
++
++static long wdog_ioctl(struct file *file, unsigned int cmd, unsigned long arg)
++{
++ void __user *argp = (void __user *)arg;
++ int __user *p = argp;
++ int new_heartbeat;
++ int status;
++ int options;
++ uint32_t remaining;
++
++ struct watchdog_info ident = {
++ .options = WDIOF_SETTIMEOUT|
++ WDIOF_MAGICCLOSE|
++ WDIOF_KEEPALIVEPING,
++ .firmware_version = 1,
++ .identity = "BCM2708",
++ };
++
++ switch (cmd) {
++ case WDIOC_GETSUPPORT:
++ return copy_to_user(argp, &ident, sizeof(ident)) ? -EFAULT : 0;
++ case WDIOC_GETSTATUS:
++ status = wdog_get_status();
++ return put_user(status, p);
++ case WDIOC_GETBOOTSTATUS:
++ return put_user(0, p);
++ case WDIOC_KEEPALIVE:
++ wdog_ping();
++ return 0;
++ case WDIOC_SETTIMEOUT:
++ if (get_user(new_heartbeat, p))
++ return -EFAULT;
++ if (wdog_set_heartbeat(new_heartbeat))
++ return -EINVAL;
++ wdog_ping();
++ /* Fall */
++ case WDIOC_GETTIMEOUT:
++ return put_user(heartbeat, p);
++ case WDIOC_GETTIMELEFT:
++ remaining = WDOG_TICKS_TO_SECS(wdog_get_remaining());
++ return put_user(remaining, p);
++ case WDIOC_SETOPTIONS:
++ if (get_user(options, p))
++ return -EFAULT;
++ if (options & WDIOS_DISABLECARD)
++ wdog_stop();
++ if (options & WDIOS_ENABLECARD)
++ wdog_start(wdog_ticks);
++ return 0;
++ default:
++ return -ENOTTY;
++ }
++}
++
++/**
++ * @inode: inode of device
++ * @file: file handle to device
++ *
++ * The watchdog device has been opened. The watchdog device is single
++ * open and on opening we load the counters.
++ */
++
++static int wdog_open(struct inode *inode, struct file *file)
++{
++ if (test_and_set_bit(0, &wdog_is_open))
++ return -EBUSY;
++ /*
++ * Activate
++ */
++ wdog_start(wdog_ticks);
++ return nonseekable_open(inode, file);
++}
++
++/**
++ * @inode: inode to board
++ * @file: file handle to board
++ *
++ * The watchdog has a configurable API. There is a religious dispute
++ * between people who want their watchdog to be able to shut down and
++ * those who want to be sure if the watchdog manager dies the machine
++ * reboots. In the former case we disable the counters, in the latter
++ * case you have to open it again very soon.
++ */
++
++static int wdog_release(struct inode *inode, struct file *file)
++{
++ if (expect_close == 42) {
++ wdog_stop();
++ } else {
++ printk(KERN_CRIT
++ "wdt: WDT device closed unexpectedly. WDT will not stop!\n");
++ wdog_ping();
++ }
++ clear_bit(0, &wdog_is_open);
++ expect_close = 0;
++ return 0;
++}
++
++/**
++ * @this: our notifier block
++ * @code: the event being reported
++ * @unused: unused
++ *
++ * Our notifier is called on system shutdowns. Turn the watchdog
++ * off so that it does not fire during the next reboot.
++ */
++
++static int wdog_notify_sys(struct notifier_block *this, unsigned long code,
++ void *unused)
++{
++ if (code == SYS_DOWN || code == SYS_HALT)
++ wdog_stop();
++ return NOTIFY_DONE;
++}
++
++/*
++ * Kernel Interfaces
++ */
++
++
++static const struct file_operations wdog_fops = {
++ .owner = THIS_MODULE,
++ .llseek = no_llseek,
++ .write = wdog_write,
++ .unlocked_ioctl = wdog_ioctl,
++ .open = wdog_open,
++ .release = wdog_release,
++};
++
++static struct miscdevice wdog_miscdev = {
++ .minor = WATCHDOG_MINOR,
++ .name = "watchdog",
++ .fops = &wdog_fops,
++};
++
++/*
++ * The WDT card needs to learn about soft shutdowns in order to
++ * turn the timebomb registers off.
++ */
++
++static struct notifier_block wdog_notifier = {
++ .notifier_call = wdog_notify_sys,
++};
++
++/**
++ * cleanup_module:
++ *
++ * Unload the watchdog. You cannot do this with any file handles open.
++ * If your watchdog is set to continue ticking on close and you unload
++ * it, well it keeps ticking. We won't get the interrupt but the board
++ * will not touch PC memory so all is fine. You just have to load a new
++ * module in 60 seconds or reboot.
++ */
++
++static void __exit wdog_exit(void)
++{
++ misc_deregister(&wdog_miscdev);
++ unregister_reboot_notifier(&wdog_notifier);
++}
++
++static int __init wdog_init(void)
++{
++ int ret;
++
++ /* Check that the heartbeat value is within it's range;
++ if not reset to the default */
++ if (wdog_set_heartbeat(heartbeat)) {
++ wdog_set_heartbeat(WD_TIMO);
++ printk(KERN_INFO "bcm2708_wdog: heartbeat value must be "
++ "0 < heartbeat < %d, using %d\n",
++ WDOG_TICKS_TO_SECS(PM_WDOG_TIME_SET),
++ WD_TIMO);
++ }
++
++ ret = register_reboot_notifier(&wdog_notifier);
++ if (ret) {
++ printk(KERN_ERR
++ "wdt: cannot register reboot notifier (err=%d)\n", ret);
++ goto out_reboot;
++ }
++
++ ret = misc_register(&wdog_miscdev);
++ if (ret) {
++ printk(KERN_ERR
++ "wdt: cannot register miscdev on minor=%d (err=%d)\n",
++ WATCHDOG_MINOR, ret);
++ goto out_misc;
++ }
++
++ printk(KERN_INFO "bcm2708 watchdog, heartbeat=%d sec (nowayout=%d)\n",
++ heartbeat, nowayout);
++ return 0;
++
++out_misc:
++ unregister_reboot_notifier(&wdog_notifier);
++out_reboot:
++ return ret;
++}
++
++module_init(wdog_init);
++module_exit(wdog_exit);
++
++MODULE_AUTHOR("Luke Diamand");
++MODULE_DESCRIPTION("Driver for BCM2708 watchdog");
++MODULE_ALIAS_MISCDEV(WATCHDOG_MINOR);
++MODULE_ALIAS_MISCDEV(TEMP_MINOR);
++MODULE_LICENSE("GPL");
++
+diff -urN linux-3.10/drivers/watchdog/Kconfig linux-rpi-3.10.y/drivers/watchdog/Kconfig
+--- linux-3.10/drivers/watchdog/Kconfig 2013-06-30 23:13:29.000000000 +0100
++++ linux-rpi-3.10.y/drivers/watchdog/Kconfig 2013-07-06 15:25:50.000000000 +0100
+@@ -391,6 +391,12 @@
+ To compile this driver as a module, choose M here: the
+ module will be called retu_wdt.
+
++config BCM2708_WDT
++ tristate "BCM2708 Watchdog"
++ depends on ARCH_BCM2708
++ help
++ Enables BCM2708 watchdog support.
++
+ # AVR32 Architecture
+
+ config AT32AP700X_WDT
+diff -urN linux-3.10/drivers/watchdog/Makefile linux-rpi-3.10.y/drivers/watchdog/Makefile
+--- linux-3.10/drivers/watchdog/Makefile 2013-06-30 23:13:29.000000000 +0100
++++ linux-rpi-3.10.y/drivers/watchdog/Makefile 2013-07-06 15:25:50.000000000 +0100
+@@ -54,6 +54,7 @@
+ obj-$(CONFIG_IMX2_WDT) += imx2_wdt.o
+ obj-$(CONFIG_UX500_WATCHDOG) += ux500_wdt.o
+ obj-$(CONFIG_RETU_WATCHDOG) += retu_wdt.o
++obj-$(CONFIG_BCM2708_WDT) += bcm2708_wdog.o
+
+ # AVR32 Architecture
+ obj-$(CONFIG_AT32AP700X_WDT) += at32ap700x_wdt.o
diff --git a/target/linux/brcm2708/patches-3.10/004-bcm2708-framebuffer-driver.patch b/target/linux/brcm2708/patches-3.10/004-bcm2708-framebuffer-driver.patch
new file mode 100644
index 0000000000..7bdf92c35a
--- /dev/null
+++ b/target/linux/brcm2708/patches-3.10/004-bcm2708-framebuffer-driver.patch
@@ -0,0 +1,3427 @@
+diff -urN linux-3.10/drivers/video/bcm2708_fb.c linux-rpi-3.10.y/drivers/video/bcm2708_fb.c
+--- linux-3.10/drivers/video/bcm2708_fb.c 1970-01-01 01:00:00.000000000 +0100
++++ linux-rpi-3.10.y/drivers/video/bcm2708_fb.c 2013-07-06 15:25:50.000000000 +0100
+@@ -0,0 +1,647 @@
++/*
++ * linux/drivers/video/bcm2708_fb.c
++ *
++ * Copyright (C) 2010 Broadcom
++ *
++ * This file is subject to the terms and conditions of the GNU General Public
++ * License. See the file COPYING in the main directory of this archive
++ * for more details.
++ *
++ * Broadcom simple framebuffer driver
++ *
++ * This file is derived from cirrusfb.c
++ * Copyright 1999-2001 Jeff Garzik <jgarzik@pobox.com>
++ *
++ */
++#include <linux/module.h>
++#include <linux/kernel.h>
++#include <linux/errno.h>
++#include <linux/string.h>
++#include <linux/slab.h>
++#include <linux/mm.h>
++#include <linux/fb.h>
++#include <linux/init.h>
++#include <linux/ioport.h>
++#include <linux/list.h>
++#include <linux/platform_device.h>
++#include <linux/clk.h>
++#include <linux/printk.h>
++#include <linux/console.h>
++
++#include <mach/dma.h>
++#include <mach/platform.h>
++#include <mach/vcio.h>
++
++#include <asm/sizes.h>
++#include <linux/io.h>
++#include <linux/dma-mapping.h>
++
++#ifdef BCM2708_FB_DEBUG
++#define print_debug(fmt,...) pr_debug("%s:%s:%d: "fmt, MODULE_NAME, __func__, __LINE__, ##__VA_ARGS__)
++#else
++#define print_debug(fmt,...)
++#endif
++
++/* This is limited to 16 characters when displayed by X startup */
++static const char *bcm2708_name = "BCM2708 FB";
++
++#define DRIVER_NAME "bcm2708_fb"
++
++/* this data structure describes each frame buffer device we find */
++
++struct fbinfo_s {
++ u32 xres, yres, xres_virtual, yres_virtual;
++ u32 pitch, bpp;
++ u32 xoffset, yoffset;
++ u32 base;
++ u32 screen_size;
++ u16 cmap[256];
++};
++
++struct bcm2708_fb {
++ struct fb_info fb;
++ struct platform_device *dev;
++ struct fbinfo_s *info;
++ dma_addr_t dma;
++ u32 cmap[16];
++ int dma_chan;
++ int dma_irq;
++ void __iomem *dma_chan_base;
++ void *cb_base; /* DMA control blocks */
++ dma_addr_t cb_handle;
++};
++
++#define to_bcm2708(info) container_of(info, struct bcm2708_fb, fb)
++
++static int bcm2708_fb_set_bitfields(struct fb_var_screeninfo *var)
++{
++ int ret = 0;
++
++ memset(&var->transp, 0, sizeof(var->transp));
++
++ var->red.msb_right = 0;
++ var->green.msb_right = 0;
++ var->blue.msb_right = 0;
++
++ switch (var->bits_per_pixel) {
++ case 1:
++ case 2:
++ case 4:
++ case 8:
++ var->red.length = var->bits_per_pixel;
++ var->red.offset = 0;
++ var->green.length = var->bits_per_pixel;
++ var->green.offset = 0;
++ var->blue.length = var->bits_per_pixel;
++ var->blue.offset = 0;
++ break;
++ case 16:
++ var->red.length = 5;
++ var->blue.length = 5;
++ /*
++ * Green length can be 5 or 6 depending whether
++ * we're operating in RGB555 or RGB565 mode.
++ */
++ if (var->green.length != 5 && var->green.length != 6)
++ var->green.length = 6;
++ break;
++ case 24:
++ var->red.length = 8;
++ var->blue.length = 8;
++ var->green.length = 8;
++ break;
++ case 32:
++ var->red.length = 8;
++ var->green.length = 8;
++ var->blue.length = 8;
++ var->transp.length = 8;
++ break;
++ default:
++ ret = -EINVAL;
++ break;
++ }
++
++ /*
++ * >= 16bpp displays have separate colour component bitfields
++ * encoded in the pixel data. Calculate their position from
++ * the bitfield length defined above.
++ */
++ if (ret == 0 && var->bits_per_pixel >= 24) {
++ var->red.offset = 0;
++ var->green.offset = var->red.offset + var->red.length;
++ var->blue.offset = var->green.offset + var->green.length;
++ var->transp.offset = var->blue.offset + var->blue.length;
++ } else if (ret == 0 && var->bits_per_pixel >= 16) {
++ var->blue.offset = 0;
++ var->green.offset = var->blue.offset + var->blue.length;
++ var->red.offset = var->green.offset + var->green.length;
++ var->transp.offset = var->red.offset + var->red.length;
++ }
++
++ return ret;
++}
++
++static int bcm2708_fb_check_var(struct fb_var_screeninfo *var,
++ struct fb_info *info)
++{
++ /* info input, var output */
++ int yres;
++
++ /* info input, var output */
++ print_debug("bcm2708_fb_check_var info(%p) %dx%d (%dx%d), %d, %d\n", info,
++ info->var.xres, info->var.yres, info->var.xres_virtual,
++ info->var.yres_virtual, (int)info->screen_size,
++ info->var.bits_per_pixel);
++ print_debug("bcm2708_fb_check_var var(%p) %dx%d (%dx%d), %d\n", var,
++ var->xres, var->yres, var->xres_virtual, var->yres_virtual,
++ var->bits_per_pixel);
++
++ if (!var->bits_per_pixel)
++ var->bits_per_pixel = 16;
++
++ if (bcm2708_fb_set_bitfields(var) != 0) {
++ pr_err("bcm2708_fb_check_var: invalid bits_per_pixel %d\n",
++ var->bits_per_pixel);
++ return -EINVAL;
++ }
++
++
++ if (var->xres_virtual < var->xres)
++ var->xres_virtual = var->xres;
++ /* use highest possible virtual resolution */
++ if (var->yres_virtual == -1) {
++ var->yres_virtual = 480;
++
++ pr_err
++ ("bcm2708_fb_check_var: virtual resolution set to maximum of %dx%d\n",
++ var->xres_virtual, var->yres_virtual);
++ }
++ if (var->yres_virtual < var->yres)
++ var->yres_virtual = var->yres;
++
++ if (var->xoffset < 0)
++ var->xoffset = 0;
++ if (var->yoffset < 0)
++ var->yoffset = 0;
++
++ /* truncate xoffset and yoffset to maximum if too high */
++ if (var->xoffset > var->xres_virtual - var->xres)
++ var->xoffset = var->xres_virtual - var->xres - 1;
++ if (var->yoffset > var->yres_virtual - var->yres)
++ var->yoffset = var->yres_virtual - var->yres - 1;
++
++ yres = var->yres;
++ if (var->vmode & FB_VMODE_DOUBLE)
++ yres *= 2;
++ else if (var->vmode & FB_VMODE_INTERLACED)
++ yres = (yres + 1) / 2;
++
++ if (yres > 1200) {
++ pr_err("bcm2708_fb_check_var: ERROR: VerticalTotal >= 1200; "
++ "special treatment required! (TODO)\n");
++ return -EINVAL;
++ }
++
++ return 0;
++}
++
++static int bcm2708_fb_set_par(struct fb_info *info)
++{
++ uint32_t val = 0;
++ struct bcm2708_fb *fb = to_bcm2708(info);
++ volatile struct fbinfo_s *fbinfo = fb->info;
++ fbinfo->xres = info->var.xres;
++ fbinfo->yres = info->var.yres;
++ fbinfo->xres_virtual = info->var.xres_virtual;
++ fbinfo->yres_virtual = info->var.yres_virtual;
++ fbinfo->bpp = info->var.bits_per_pixel;
++ fbinfo->xoffset = info->var.xoffset;
++ fbinfo->yoffset = info->var.yoffset;
++ fbinfo->base = 0; /* filled in by VC */
++ fbinfo->pitch = 0; /* filled in by VC */
++
++ print_debug("bcm2708_fb_set_par info(%p) %dx%d (%dx%d), %d, %d\n", info,
++ info->var.xres, info->var.yres, info->var.xres_virtual,
++ info->var.yres_virtual, (int)info->screen_size,
++ info->var.bits_per_pixel);
++
++ /* ensure last write to fbinfo is visible to GPU */
++ wmb();
++
++ /* inform vc about new framebuffer */
++ bcm_mailbox_write(MBOX_CHAN_FB, fb->dma);
++
++ /* TODO: replace fb driver with vchiq version */
++ /* wait for response */
++ bcm_mailbox_read(MBOX_CHAN_FB, &val);
++
++ /* ensure GPU writes are visible to us */
++ rmb();
++
++ if (val == 0) {
++ fb->fb.fix.line_length = fbinfo->pitch;
++
++ if (info->var.bits_per_pixel <= 8)
++ fb->fb.fix.visual = FB_VISUAL_PSEUDOCOLOR;
++ else
++ fb->fb.fix.visual = FB_VISUAL_TRUECOLOR;
++
++ fb->fb.fix.smem_start = fbinfo->base;
++ fb->fb.fix.smem_len = fbinfo->pitch * fbinfo->yres_virtual;
++ fb->fb.screen_size = fbinfo->screen_size;
++ if (fb->fb.screen_base)
++ iounmap(fb->fb.screen_base);
++ fb->fb.screen_base =
++ (void *)ioremap_wc(fb->fb.fix.smem_start, fb->fb.screen_size);
++ if (!fb->fb.screen_base) {
++ /* the console may currently be locked */
++ console_trylock();
++ console_unlock();
++
++ BUG(); /* what can we do here */
++ }
++ }
++ print_debug
++ ("BCM2708FB: start = %p,%p width=%d, height=%d, bpp=%d, pitch=%d size=%d success=%d\n",
++ (void *)fb->fb.screen_base, (void *)fb->fb.fix.smem_start,
++ fbinfo->xres, fbinfo->yres, fbinfo->bpp,
++ fbinfo->pitch, (int)fb->fb.screen_size, val);
++
++ return val;
++}
++
++static inline u32 convert_bitfield(int val, struct fb_bitfield *bf)
++{
++ unsigned int mask = (1 << bf->length) - 1;
++
++ return (val >> (16 - bf->length) & mask) << bf->offset;
++}
++
++
++static int bcm2708_fb_setcolreg(unsigned int regno, unsigned int red,
++ unsigned int green, unsigned int blue,
++ unsigned int transp, struct fb_info *info)
++{
++ struct bcm2708_fb *fb = to_bcm2708(info);
++
++ /*print_debug("BCM2708FB: setcolreg %d:(%02x,%02x,%02x,%02x) %x\n", regno, red, green, blue, transp, fb->fb.fix.visual);*/
++ if (fb->fb.var.bits_per_pixel <= 8) {
++ if (regno < 256) {
++ /* blue [0:4], green [5:10], red [11:15] */
++ fb->info->cmap[regno] = ((red >> (16-5)) & 0x1f) << 11 |
++ ((green >> (16-6)) & 0x3f) << 5 |
++ ((blue >> (16-5)) & 0x1f) << 0;
++ }
++ /* Hack: we need to tell GPU the palette has changed, but currently bcm2708_fb_set_par takes noticable time when called for every (256) colour */
++ /* So just call it for what looks like the last colour in a list for now. */
++ if (regno == 15 || regno == 255)
++ bcm2708_fb_set_par(info);
++ } else if (regno < 16) {
++ fb->cmap[regno] = convert_bitfield(transp, &fb->fb.var.transp) |
++ convert_bitfield(blue, &fb->fb.var.blue) |
++ convert_bitfield(green, &fb->fb.var.green) |
++ convert_bitfield(red, &fb->fb.var.red);
++ }
++ return regno > 255;
++}
++
++static int bcm2708_fb_blank(int blank_mode, struct fb_info *info)
++{
++ /*print_debug("bcm2708_fb_blank\n"); */
++ return -1;
++}
++
++static void bcm2708_fb_fillrect(struct fb_info *info,
++ const struct fb_fillrect *rect)
++{
++ /* (is called) print_debug("bcm2708_fb_fillrect\n"); */
++ cfb_fillrect(info, rect);
++}
++
++/* A helper function for configuring dma control block */
++static void set_dma_cb(struct bcm2708_dma_cb *cb,
++ int burst_size,
++ dma_addr_t dst,
++ int dst_stride,
++ dma_addr_t src,
++ int src_stride,
++ int w,
++ int h)
++{
++ cb->info = BCM2708_DMA_BURST(burst_size) | BCM2708_DMA_S_WIDTH |
++ BCM2708_DMA_S_INC | BCM2708_DMA_D_WIDTH |
++ BCM2708_DMA_D_INC | BCM2708_DMA_TDMODE;
++ cb->dst = dst;
++ cb->src = src;
++ /*
++ * This is not really obvious from the DMA documentation,
++ * but the top 16 bits must be programmmed to "height -1"
++ * and not "height" in 2D mode.
++ */
++ cb->length = ((h - 1) << 16) | w;
++ cb->stride = ((dst_stride - w) << 16) | (u16)(src_stride - w);
++ cb->pad[0] = 0;
++ cb->pad[1] = 0;
++}
++
++static void bcm2708_fb_copyarea(struct fb_info *info,
++ const struct fb_copyarea *region)
++{
++ struct bcm2708_fb *fb = to_bcm2708(info);
++ struct bcm2708_dma_cb *cb = fb->cb_base;
++ int bytes_per_pixel = (info->var.bits_per_pixel + 7) >> 3;
++ /* Channel 0 supports larger bursts and is a bit faster */
++ int burst_size = (fb->dma_chan == 0) ? 8 : 2;
++
++ /* Fallback to cfb_copyarea() if we don't like something */
++ if (bytes_per_pixel > 4 ||
++ info->var.xres > 1920 || info->var.yres > 1200 ||
++ region->width <= 0 || region->width > info->var.xres ||
++ region->height <= 0 || region->height > info->var.yres ||
++ region->sx < 0 || region->sx >= info->var.xres ||
++ region->sy < 0 || region->sy >= info->var.yres ||
++ region->dx < 0 || region->dx >= info->var.xres ||
++ region->dy < 0 || region->dy >= info->var.yres ||
++ region->sx + region->width > info->var.xres ||
++ region->dx + region->width > info->var.xres ||
++ region->sy + region->height > info->var.yres ||
++ region->dy + region->height > info->var.yres) {
++ cfb_copyarea(info, region);
++ return;
++ }
++
++ if (region->dy == region->sy && region->dx > region->sx) {
++ /*
++ * A difficult case of overlapped copy. Because DMA can't
++ * copy individual scanlines in backwards direction, we need
++ * two-pass processing. We do it by programming a chain of dma
++ * control blocks in the first 16K part of the buffer and use
++ * the remaining 48K as the intermediate temporary scratch
++ * buffer. The buffer size is sufficient to handle up to
++ * 1920x1200 resolution at 32bpp pixel depth.
++ */
++ int y;
++ dma_addr_t control_block_pa = fb->cb_handle;
++ dma_addr_t scratchbuf = fb->cb_handle + 16 * 1024;
++ int scanline_size = bytes_per_pixel * region->width;
++ int scanlines_per_cb = (64 * 1024 - 16 * 1024) / scanline_size;
++
++ for (y = 0; y < region->height; y += scanlines_per_cb) {
++ dma_addr_t src =
++ fb->fb.fix.smem_start +
++ bytes_per_pixel * region->sx +
++ (region->sy + y) * fb->fb.fix.line_length;
++ dma_addr_t dst =
++ fb->fb.fix.smem_start +
++ bytes_per_pixel * region->dx +
++ (region->dy + y) * fb->fb.fix.line_length;
++
++ if (region->height - y < scanlines_per_cb)
++ scanlines_per_cb = region->height - y;
++
++ set_dma_cb(cb, burst_size, scratchbuf, scanline_size,
++ src, fb->fb.fix.line_length,
++ scanline_size, scanlines_per_cb);
++ control_block_pa += sizeof(struct bcm2708_dma_cb);
++ cb->next = control_block_pa;
++ cb++;
++
++ set_dma_cb(cb, burst_size, dst, fb->fb.fix.line_length,
++ scratchbuf, scanline_size,
++ scanline_size, scanlines_per_cb);
++ control_block_pa += sizeof(struct bcm2708_dma_cb);
++ cb->next = control_block_pa;
++ cb++;
++ }
++ /* move the pointer back to the last dma control block */
++ cb--;
++ } else {
++ /* A single dma control block is enough. */
++ int sy, dy, stride;
++ if (region->dy <= region->sy) {
++ /* processing from top to bottom */
++ dy = region->dy;
++ sy = region->sy;
++ stride = fb->fb.fix.line_length;
++ } else {
++ /* processing from bottom to top */
++ dy = region->dy + region->height - 1;
++ sy = region->sy + region->height - 1;
++ stride = -fb->fb.fix.line_length;
++ }
++ set_dma_cb(cb, burst_size,
++ fb->fb.fix.smem_start + dy * fb->fb.fix.line_length +
++ bytes_per_pixel * region->dx,
++ stride,
++ fb->fb.fix.smem_start + sy * fb->fb.fix.line_length +
++ bytes_per_pixel * region->sx,
++ stride,
++ region->width * bytes_per_pixel,
++ region->height);
++ }
++
++ /* end of dma control blocks chain */
++ cb->next = 0;
++
++ bcm_dma_start(fb->dma_chan_base, fb->cb_handle);
++ bcm_dma_wait_idle(fb->dma_chan_base);
++}
++
++static void bcm2708_fb_imageblit(struct fb_info *info,
++ const struct fb_image *image)
++{
++ /* (is called) print_debug("bcm2708_fb_imageblit\n"); */
++ cfb_imageblit(info, image);
++}
++
++static struct fb_ops bcm2708_fb_ops = {
++ .owner = THIS_MODULE,
++ .fb_check_var = bcm2708_fb_check_var,
++ .fb_set_par = bcm2708_fb_set_par,
++ .fb_setcolreg = bcm2708_fb_setcolreg,
++ .fb_blank = bcm2708_fb_blank,
++ .fb_fillrect = bcm2708_fb_fillrect,
++ .fb_copyarea = bcm2708_fb_copyarea,
++ .fb_imageblit = bcm2708_fb_imageblit,
++};
++
++static int fbwidth = 800; /* module parameter */
++static int fbheight = 480; /* module parameter */
++static int fbdepth = 16; /* module parameter */
++
++static int bcm2708_fb_register(struct bcm2708_fb *fb)
++{
++ int ret;
++ dma_addr_t dma;
++ void *mem;
++
++ mem =
++ dma_alloc_coherent(NULL, PAGE_ALIGN(sizeof(*fb->info)), &dma,
++ GFP_KERNEL);
++
++ if (NULL == mem) {
++ pr_err(": unable to allocate fbinfo buffer\n");
++ ret = -ENOMEM;
++ } else {
++ fb->info = (struct fbinfo_s *)mem;
++ fb->dma = dma;
++ }
++ fb->fb.fbops = &bcm2708_fb_ops;
++ fb->fb.flags = FBINFO_FLAG_DEFAULT | FBINFO_HWACCEL_COPYAREA;
++ fb->fb.pseudo_palette = fb->cmap;
++
++ strncpy(fb->fb.fix.id, bcm2708_name, sizeof(fb->fb.fix.id));
++ fb->fb.fix.type = FB_TYPE_PACKED_PIXELS;
++ fb->fb.fix.type_aux = 0;
++ fb->fb.fix.xpanstep = 0;
++ fb->fb.fix.ypanstep = 0;
++ fb->fb.fix.ywrapstep = 0;
++ fb->fb.fix.accel = FB_ACCEL_NONE;
++
++ fb->fb.var.xres = fbwidth;
++ fb->fb.var.yres = fbheight;
++ fb->fb.var.xres_virtual = fbwidth;
++ fb->fb.var.yres_virtual = fbheight;
++ fb->fb.var.bits_per_pixel = fbdepth;
++ fb->fb.var.vmode = FB_VMODE_NONINTERLACED;
++ fb->fb.var.activate = FB_ACTIVATE_NOW;
++ fb->fb.var.nonstd = 0;
++ fb->fb.var.height = -1; /* height of picture in mm */
++ fb->fb.var.width = -1; /* width of picture in mm */
++ fb->fb.var.accel_flags = 0;
++
++ fb->fb.monspecs.hfmin = 0;
++ fb->fb.monspecs.hfmax = 100000;
++ fb->fb.monspecs.vfmin = 0;
++ fb->fb.monspecs.vfmax = 400;
++ fb->fb.monspecs.dclkmin = 1000000;
++ fb->fb.monspecs.dclkmax = 100000000;
++
++ bcm2708_fb_set_bitfields(&fb->fb.var);
++
++ /*
++ * Allocate colourmap.
++ */
++
++ fb_set_var(&fb->fb, &fb->fb.var);
++
++ print_debug("BCM2708FB: registering framebuffer (%dx%d@%d)\n", fbwidth,
++ fbheight, fbdepth);
++
++ ret = register_framebuffer(&fb->fb);
++ print_debug("BCM2708FB: register framebuffer (%d)\n", ret);
++ if (ret == 0)
++ goto out;
++
++ print_debug("BCM2708FB: cannot register framebuffer (%d)\n", ret);
++out:
++ return ret;
++}
++
++static int bcm2708_fb_probe(struct platform_device *dev)
++{
++ struct bcm2708_fb *fb;
++ int ret;
++
++ fb = kmalloc(sizeof(struct bcm2708_fb), GFP_KERNEL);
++ if (!fb) {
++ dev_err(&dev->dev,
++ "could not allocate new bcm2708_fb struct\n");
++ ret = -ENOMEM;
++ goto free_region;
++ }
++ memset(fb, 0, sizeof(struct bcm2708_fb));
++
++ fb->cb_base = dma_alloc_writecombine(&dev->dev, SZ_64K,
++ &fb->cb_handle, GFP_KERNEL);
++ if (!fb->cb_base) {
++ dev_err(&dev->dev, "cannot allocate DMA CBs\n");
++ ret = -ENOMEM;
++ goto free_fb;
++ }
++
++ pr_info("BCM2708FB: allocated DMA memory %08x\n",
++ fb->cb_handle);
++
++ ret = bcm_dma_chan_alloc(BCM_DMA_FEATURE_BULK,
++ &fb->dma_chan_base, &fb->dma_irq);
++ if (ret < 0) {
++ dev_err(&dev->dev, "couldn't allocate a DMA channel\n");
++ goto free_cb;
++ }
++ fb->dma_chan = ret;
++
++ pr_info("BCM2708FB: allocated DMA channel %d @ %p\n",
++ fb->dma_chan, fb->dma_chan_base);
++
++ fb->dev = dev;
++
++ ret = bcm2708_fb_register(fb);
++ if (ret == 0) {
++ platform_set_drvdata(dev, fb);
++ goto out;
++ }
++
++free_cb:
++ dma_free_writecombine(&dev->dev, SZ_64K, fb->cb_base, fb->cb_handle);
++free_fb:
++ kfree(fb);
++free_region:
++ dev_err(&dev->dev, "probe failed, err %d\n", ret);
++out:
++ return ret;
++}
++
++static int bcm2708_fb_remove(struct platform_device *dev)
++{
++ struct bcm2708_fb *fb = platform_get_drvdata(dev);
++
++ platform_set_drvdata(dev, NULL);
++
++ if (fb->fb.screen_base)
++ iounmap(fb->fb.screen_base);
++ unregister_framebuffer(&fb->fb);
++
++ dma_free_writecombine(&dev->dev, SZ_64K, fb->cb_base, fb->cb_handle);
++ bcm_dma_chan_free(fb->dma_chan);
++
++ dma_free_coherent(NULL, PAGE_ALIGN(sizeof(*fb->info)), (void *)fb->info,
++ fb->dma);
++ kfree(fb);
++
++ return 0;
++}
++
++static struct platform_driver bcm2708_fb_driver = {
++ .probe = bcm2708_fb_probe,
++ .remove = bcm2708_fb_remove,
++ .driver = {
++ .name = DRIVER_NAME,
++ .owner = THIS_MODULE,
++ },
++};
++
++static int __init bcm2708_fb_init(void)
++{
++ return platform_driver_register(&bcm2708_fb_driver);
++}
++
++module_init(bcm2708_fb_init);
++
++static void __exit bcm2708_fb_exit(void)
++{
++ platform_driver_unregister(&bcm2708_fb_driver);
++}
++
++module_exit(bcm2708_fb_exit);
++
++module_param(fbwidth, int, 0644);
++module_param(fbheight, int, 0644);
++module_param(fbdepth, int, 0644);
++
++MODULE_DESCRIPTION("BCM2708 framebuffer driver");
++MODULE_LICENSE("GPL");
++
++MODULE_PARM_DESC(fbwidth, "Width of ARM Framebuffer");
++MODULE_PARM_DESC(fbheight, "Height of ARM Framebuffer");
++MODULE_PARM_DESC(fbdepth, "Bit depth of ARM Framebuffer");
+diff -urN linux-3.10/drivers/video/cfbimgblt.c linux-rpi-3.10.y/drivers/video/cfbimgblt.c
+--- linux-3.10/drivers/video/cfbimgblt.c 2013-06-30 23:13:29.000000000 +0100
++++ linux-rpi-3.10.y/drivers/video/cfbimgblt.c 2013-07-06 15:25:50.000000000 +0100
+@@ -28,6 +28,11 @@
+ *
+ * Also need to add code to deal with cards endians that are different than
+ * the native cpu endians. I also need to deal with MSB position in the word.
++ * Modified by Harm Hanemaaijer (fgenfb@yahoo.com) 2013:
++ * - Provide optimized versions of fast_imageblit for 16 and 32bpp that are
++ * significantly faster than the previous implementation.
++ * - Simplify the fast/slow_imageblit selection code, avoiding integer
++ * divides.
+ */
+ #include <linux/module.h>
+ #include <linux/string.h>
+@@ -262,6 +267,133 @@
+ }
+ }
+
++/*
++ * Optimized fast_imageblit for bpp == 16. ppw = 2, bit_mask = 3 folded
++ * into the code, main loop unrolled.
++ */
++
++static inline void fast_imageblit16(const struct fb_image *image,
++ struct fb_info *p, u8 __iomem * dst1,
++ u32 fgcolor, u32 bgcolor)
++{
++ u32 fgx = fgcolor, bgx = bgcolor;
++ u32 spitch = (image->width + 7) / 8;
++ u32 end_mask, eorx;
++ const char *s = image->data, *src;
++ u32 __iomem *dst;
++ const u32 *tab = NULL;
++ int i, j, k;
++
++ tab = fb_be_math(p) ? cfb_tab16_be : cfb_tab16_le;
++
++ fgx <<= 16;
++ bgx <<= 16;
++ fgx |= fgcolor;
++ bgx |= bgcolor;
++
++ eorx = fgx ^ bgx;
++ k = image->width / 2;
++
++ for (i = image->height; i--;) {
++ dst = (u32 __iomem *) dst1;
++ src = s;
++
++ j = k;
++ while (j >= 4) {
++ u8 bits = *src;
++ end_mask = tab[(bits >> 6) & 3];
++ FB_WRITEL((end_mask & eorx) ^ bgx, dst++);
++ end_mask = tab[(bits >> 4) & 3];
++ FB_WRITEL((end_mask & eorx) ^ bgx, dst++);
++ end_mask = tab[(bits >> 2) & 3];
++ FB_WRITEL((end_mask & eorx) ^ bgx, dst++);
++ end_mask = tab[bits & 3];
++ FB_WRITEL((end_mask & eorx) ^ bgx, dst++);
++ src++;
++ j -= 4;
++ }
++ if (j != 0) {
++ u8 bits = *src;
++ end_mask = tab[(bits >> 6) & 3];
++ FB_WRITEL((end_mask & eorx) ^ bgx, dst++);
++ if (j >= 2) {
++ end_mask = tab[(bits >> 4) & 3];
++ FB_WRITEL((end_mask & eorx) ^ bgx, dst++);
++ if (j == 3) {
++ end_mask = tab[(bits >> 2) & 3];
++ FB_WRITEL((end_mask & eorx) ^ bgx, dst);
++ }
++ }
++ }
++ dst1 += p->fix.line_length;
++ s += spitch;
++ }
++}
++
++/*
++ * Optimized fast_imageblit for bpp == 32. ppw = 1, bit_mask = 1 folded
++ * into the code, main loop unrolled.
++ */
++
++static inline void fast_imageblit32(const struct fb_image *image,
++ struct fb_info *p, u8 __iomem * dst1,
++ u32 fgcolor, u32 bgcolor)
++{
++ u32 fgx = fgcolor, bgx = bgcolor;
++ u32 spitch = (image->width + 7) / 8;
++ u32 end_mask, eorx;
++ const char *s = image->data, *src;
++ u32 __iomem *dst;
++ const u32 *tab = NULL;
++ int i, j, k;
++
++ tab = cfb_tab32;
++
++ eorx = fgx ^ bgx;
++ k = image->width;
++
++ for (i = image->height; i--;) {
++ dst = (u32 __iomem *) dst1;
++ src = s;
++
++ j = k;
++ while (j >= 8) {
++ u8 bits = *src;
++ end_mask = tab[(bits >> 7) & 1];
++ FB_WRITEL((end_mask & eorx) ^ bgx, dst++);
++ end_mask = tab[(bits >> 6) & 1];
++ FB_WRITEL((end_mask & eorx) ^ bgx, dst++);
++ end_mask = tab[(bits >> 5) & 1];
++ FB_WRITEL((end_mask & eorx) ^ bgx, dst++);
++ end_mask = tab[(bits >> 4) & 1];
++ FB_WRITEL((end_mask & eorx) ^ bgx, dst++);
++ end_mask = tab[(bits >> 3) & 1];
++ FB_WRITEL((end_mask & eorx) ^ bgx, dst++);
++ end_mask = tab[(bits >> 2) & 1];
++ FB_WRITEL((end_mask & eorx) ^ bgx, dst++);
++ end_mask = tab[(bits >> 1) & 1];
++ FB_WRITEL((end_mask & eorx) ^ bgx, dst++);
++ end_mask = tab[bits & 1];
++ FB_WRITEL((end_mask & eorx) ^ bgx, dst++);
++ src++;
++ j -= 8;
++ }
++ if (j != 0) {
++ u32 bits = (u32) * src;
++ while (j > 1) {
++ end_mask = tab[(bits >> 7) & 1];
++ FB_WRITEL((end_mask & eorx) ^ bgx, dst++);
++ bits <<= 1;
++ j--;
++ }
++ end_mask = tab[(bits >> 7) & 1];
++ FB_WRITEL((end_mask & eorx) ^ bgx, dst);
++ }
++ dst1 += p->fix.line_length;
++ s += spitch;
++ }
++}
++
+ void cfb_imageblit(struct fb_info *p, const struct fb_image *image)
+ {
+ u32 fgcolor, bgcolor, start_index, bitstart, pitch_index = 0;
+@@ -294,11 +426,21 @@
+ bgcolor = image->bg_color;
+ }
+
+- if (32 % bpp == 0 && !start_index && !pitch_index &&
+- ((width & (32/bpp-1)) == 0) &&
+- bpp >= 8 && bpp <= 32)
+- fast_imageblit(image, p, dst1, fgcolor, bgcolor);
+- else
++ if (!start_index && !pitch_index) {
++ if (bpp == 32)
++ fast_imageblit32(image, p, dst1, fgcolor,
++ bgcolor);
++ else if (bpp == 16 && (width & 1) == 0)
++ fast_imageblit16(image, p, dst1, fgcolor,
++ bgcolor);
++ else if (bpp == 8 && (width & 3) == 0)
++ fast_imageblit(image, p, dst1, fgcolor,
++ bgcolor);
++ else
++ slow_imageblit(image, p, dst1, fgcolor,
++ bgcolor,
++ start_index, pitch_index);
++ } else
+ slow_imageblit(image, p, dst1, fgcolor, bgcolor,
+ start_index, pitch_index);
+ } else
+diff -urN linux-3.10/drivers/video/fbmem.c linux-rpi-3.10.y/drivers/video/fbmem.c
+--- linux-3.10/drivers/video/fbmem.c 2013-06-30 23:13:29.000000000 +0100
++++ linux-rpi-3.10.y/drivers/video/fbmem.c 2013-07-06 15:25:50.000000000 +0100
+@@ -1074,6 +1074,25 @@
+ return ret;
+ }
+
++static int fb_copyarea_user(struct fb_info *info,
++ struct fb_copyarea *copy)
++{
++ int ret = 0;
++ if (!lock_fb_info(info))
++ return -ENODEV;
++ if (copy->dx + copy->width > info->var.xres ||
++ copy->sx + copy->width > info->var.xres ||
++ copy->dy + copy->height > info->var.yres ||
++ copy->sy + copy->height > info->var.yres) {
++ ret = -EINVAL;
++ goto out;
++ }
++ info->fbops->fb_copyarea(info, copy);
++out:
++ unlock_fb_info(info);
++ return ret;
++}
++
+ static long do_fb_ioctl(struct fb_info *info, unsigned int cmd,
+ unsigned long arg)
+ {
+@@ -1084,6 +1103,7 @@
+ struct fb_cmap cmap_from;
+ struct fb_cmap_user cmap;
+ struct fb_event event;
++ struct fb_copyarea copy;
+ void __user *argp = (void __user *)arg;
+ long ret = 0;
+
+@@ -1193,6 +1213,15 @@
+ console_unlock();
+ unlock_fb_info(info);
+ break;
++ case FBIOCOPYAREA:
++ if (info->flags & FBINFO_HWACCEL_COPYAREA) {
++ /* only provide this ioctl if it is accelerated */
++ if (copy_from_user(&copy, argp, sizeof(copy)))
++ return -EFAULT;
++ ret = fb_copyarea_user(info, &copy);
++ break;
++ }
++ /* fall through */
+ default:
+ if (!lock_fb_info(info))
+ return -ENODEV;
+@@ -1345,6 +1374,7 @@
+ case FBIOPAN_DISPLAY:
+ case FBIOGET_CON2FBMAP:
+ case FBIOPUT_CON2FBMAP:
++ case FBIOCOPYAREA:
+ arg = (unsigned long) compat_ptr(arg);
+ case FBIOBLANK:
+ ret = do_fb_ioctl(info, cmd, arg);
+diff -urN linux-3.10/drivers/video/Kconfig linux-rpi-3.10.y/drivers/video/Kconfig
+--- linux-3.10/drivers/video/Kconfig 2013-06-30 23:13:29.000000000 +0100
++++ linux-rpi-3.10.y/drivers/video/Kconfig 2013-07-06 15:25:50.000000000 +0100
+@@ -310,6 +310,20 @@
+ help
+ Support the Permedia2 FIFO disconnect feature.
+
++config FB_BCM2708
++ tristate "BCM2708 framebuffer support"
++ depends on FB && ARM
++ select FB_CFB_FILLRECT
++ select FB_CFB_COPYAREA
++ select FB_CFB_IMAGEBLIT
++ help
++ This framebuffer device driver is for the BCM2708 framebuffer.
++
++ If you want to compile this as a module (=code which can be
++ inserted into and removed from the running kernel), say M
++ here and read <file:Documentation/kbuild/modules.txt>. The module
++ will be called bcm2708_fb.
++
+ config FB_ARMCLCD
+ tristate "ARM PrimeCell PL110 support"
+ depends on FB && ARM && ARM_AMBA
+diff -urN linux-3.10/drivers/video/logo/logo_linux_clut224.ppm linux-rpi-3.10.y/drivers/video/logo/logo_linux_clut224.ppm
+--- linux-3.10/drivers/video/logo/logo_linux_clut224.ppm 2013-06-30 23:13:29.000000000 +0100
++++ linux-rpi-3.10.y/drivers/video/logo/logo_linux_clut224.ppm 2013-07-06 15:25:50.000000000 +0100
+@@ -1,1604 +1,883 @@
+ P3
+-# Standard 224-color Linux logo
+-80 80
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+diff -urN linux-3.10/drivers/video/Makefile linux-rpi-3.10.y/drivers/video/Makefile
+--- linux-3.10/drivers/video/Makefile 2013-06-30 23:13:29.000000000 +0100
++++ linux-rpi-3.10.y/drivers/video/Makefile 2013-07-06 15:25:50.000000000 +0100
+@@ -100,6 +100,7 @@
+ obj-$(CONFIG_FB_VOODOO1) += sstfb.o
+ obj-$(CONFIG_FB_ARMCLCD) += amba-clcd.o
+ obj-$(CONFIG_FB_GOLDFISH) += goldfishfb.o
++obj-$(CONFIG_FB_BCM2708) += bcm2708_fb.o
+ obj-$(CONFIG_FB_68328) += 68328fb.o
+ obj-$(CONFIG_FB_GBE) += gbefb.o
+ obj-$(CONFIG_FB_CIRRUS) += cirrusfb.o
+diff -urN linux-3.10/include/uapi/linux/fb.h linux-rpi-3.10.y/include/uapi/linux/fb.h
+--- linux-3.10/include/uapi/linux/fb.h 2013-06-30 23:13:29.000000000 +0100
++++ linux-rpi-3.10.y/include/uapi/linux/fb.h 2013-07-06 15:25:50.000000000 +0100
+@@ -34,6 +34,11 @@
+ #define FBIOPUT_MODEINFO 0x4617
+ #define FBIOGET_DISPINFO 0x4618
+ #define FBIO_WAITFORVSYNC _IOW('F', 0x20, __u32)
++/*
++ * HACK: use 'z' in order not to clash with any other ioctl numbers which might
++ * be concurrently added to the mainline kernel
++ */
++#define FBIOCOPYAREA _IOW('z', 0x21, struct fb_copyarea)
+
+ #define FB_TYPE_PACKED_PIXELS 0 /* Packed Pixels */
+ #define FB_TYPE_PLANES 1 /* Non interleaved planes */
diff --git a/target/linux/brcm2708/patches-3.10/005-bcm2708-vchiq-driver.patch b/target/linux/brcm2708/patches-3.10/005-bcm2708-vchiq-driver.patch
new file mode 100644
index 0000000000..cd73ca4b5b
--- /dev/null
+++ b/target/linux/brcm2708/patches-3.10/005-bcm2708-vchiq-driver.patch
@@ -0,0 +1,13559 @@
+diff -urN linux-3.10/drivers/char/broadcom/Kconfig linux-rpi-3.10.y/drivers/char/broadcom/Kconfig
+--- linux-3.10/drivers/char/broadcom/Kconfig 1970-01-01 01:00:00.000000000 +0100
++++ linux-rpi-3.10.y/drivers/char/broadcom/Kconfig 2013-07-06 15:25:50.000000000 +0100
+@@ -0,0 +1,17 @@
++#
++# Broadcom char driver config
++#
++
++menuconfig BRCM_CHAR_DRIVERS
++ tristate "Broadcom Char Drivers"
++ depends on PROC_FS
++ help
++ Broadcom's char drivers
++
++config BCM_VC_CMA
++ bool "Videocore CMA"
++ depends on CMA
++ default n
++ help
++ Helper for videocore CMA access.
++
+diff -urN linux-3.10/drivers/char/broadcom/Makefile linux-rpi-3.10.y/drivers/char/broadcom/Makefile
+--- linux-3.10/drivers/char/broadcom/Makefile 1970-01-01 01:00:00.000000000 +0100
++++ linux-rpi-3.10.y/drivers/char/broadcom/Makefile 2013-07-06 15:25:50.000000000 +0100
+@@ -0,0 +1,2 @@
++obj-$(CONFIG_BCM_VC_CMA) += vc_cma/
++
+diff -urN linux-3.10/drivers/char/broadcom/vc_cma/Makefile linux-rpi-3.10.y/drivers/char/broadcom/vc_cma/Makefile
+--- linux-3.10/drivers/char/broadcom/vc_cma/Makefile 1970-01-01 01:00:00.000000000 +0100
++++ linux-rpi-3.10.y/drivers/char/broadcom/vc_cma/Makefile 2013-07-06 15:25:50.000000000 +0100
+@@ -0,0 +1,15 @@
++EXTRA_CFLAGS += -Wall -Wstrict-prototypes -Wno-trigraphs
++EXTRA_CFLAGS += -Werror
++EXTRA_CFLAGS += -I"include/linux/broadcom"
++EXTRA_CFLAGS += -I"drivers/misc/vc04_services"
++EXTRA_CFLAGS += -I"drivers/misc/vc04_services/interface/vchi"
++EXTRA_CFLAGS += -I"drivers/misc/vc04_services/interface/vchiq_arm"
++
++EXTRA_CFLAGS += -D__KERNEL__
++EXTRA_CFLAGS += -D__linux__
++EXTRA_CFLAGS += -Werror
++
++obj-$(CONFIG_BCM_VC_CMA) += vc-cma.o
++
++vc-cma-objs := vc_cma.o
++
+diff -urN linux-3.10/drivers/char/broadcom/vc_cma/vc_cma.c linux-rpi-3.10.y/drivers/char/broadcom/vc_cma/vc_cma.c
+--- linux-3.10/drivers/char/broadcom/vc_cma/vc_cma.c 1970-01-01 01:00:00.000000000 +0100
++++ linux-rpi-3.10.y/drivers/char/broadcom/vc_cma/vc_cma.c 2013-07-06 15:25:50.000000000 +0100
+@@ -0,0 +1,1145 @@
++/**
++ * Copyright (c) 2010-2012 Broadcom. All rights reserved.
++ *
++ * Redistribution and use in source and binary forms, with or without
++ * modification, are permitted provided that the following conditions
++ * are met:
++ * 1. Redistributions of source code must retain the above copyright
++ * notice, this list of conditions, and the following disclaimer,
++ * without modification.
++ * 2. Redistributions in binary form must reproduce the above copyright
++ * notice, this list of conditions and the following disclaimer in the
++ * documentation and/or other materials provided with the distribution.
++ * 3. The names of the above-listed copyright holders may not be used
++ * to endorse or promote products derived from this software without
++ * specific prior written permission.
++ *
++ * ALTERNATIVELY, this software may be distributed under the terms of the
++ * GNU General Public License ("GPL") version 2, as published by the Free
++ * Software Foundation.
++ *
++ * THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS
++ * IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO,
++ * THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR
++ * PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT OWNER OR
++ * CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL,
++ * EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO,
++ * PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR
++ * PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF
++ * LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING
++ * NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS
++ * SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
++ */
++
++#include <linux/kernel.h>
++#include <linux/module.h>
++#include <linux/kthread.h>
++#include <linux/fs.h>
++#include <linux/device.h>
++#include <linux/cdev.h>
++#include <linux/mm.h>
++#include <linux/proc_fs.h>
++#include <linux/seq_file.h>
++#include <linux/dma-mapping.h>
++#include <linux/dma-contiguous.h>
++#include <linux/platform_device.h>
++#include <linux/uaccess.h>
++#include <asm/cacheflush.h>
++
++#include "vc_cma.h"
++
++#include "vchiq_util.h"
++#include "vchiq_connected.h"
++//#include "debug_sym.h"
++//#include "vc_mem.h"
++
++#define DRIVER_NAME "vc-cma"
++
++#define LOG_DBG(fmt, ...) \
++ if (vc_cma_debug) \
++ printk(KERN_INFO fmt "\n", ##__VA_ARGS__)
++#define LOG_ERR(fmt, ...) \
++ printk(KERN_ERR fmt "\n", ##__VA_ARGS__)
++
++#define VC_CMA_FOURCC VCHIQ_MAKE_FOURCC('C', 'M', 'A', ' ')
++#define VC_CMA_VERSION 2
++
++#define VC_CMA_CHUNK_ORDER 6 /* 256K */
++#define VC_CMA_CHUNK_SIZE (4096 << VC_CMA_CHUNK_ORDER)
++#define VC_CMA_MAX_PARAMS_PER_MSG \
++ ((VCHIQ_MAX_MSG_SIZE - sizeof(unsigned short))/sizeof(unsigned short))
++#define VC_CMA_RESERVE_COUNT_MAX 16
++
++#define PAGES_PER_CHUNK (VC_CMA_CHUNK_SIZE / PAGE_SIZE)
++
++#define VCADDR_TO_PHYSADDR(vcaddr) (mm_vc_mem_phys_addr + vcaddr)
++
++#define loud_error(...) \
++ LOG_ERR("===== " __VA_ARGS__)
++
++enum {
++ VC_CMA_MSG_QUIT,
++ VC_CMA_MSG_OPEN,
++ VC_CMA_MSG_TICK,
++ VC_CMA_MSG_ALLOC, /* chunk count */
++ VC_CMA_MSG_FREE, /* chunk, chunk, ... */
++ VC_CMA_MSG_ALLOCATED, /* chunk, chunk, ... */
++ VC_CMA_MSG_REQUEST_ALLOC, /* chunk count */
++ VC_CMA_MSG_REQUEST_FREE, /* chunk count */
++ VC_CMA_MSG_RESERVE, /* bytes lo, bytes hi */
++ VC_CMA_MSG_UPDATE_RESERVE,
++ VC_CMA_MSG_MAX
++};
++
++struct cma_msg {
++ unsigned short type;
++ unsigned short params[VC_CMA_MAX_PARAMS_PER_MSG];
++};
++
++struct vc_cma_reserve_user {
++ unsigned int pid;
++ unsigned int reserve;
++};
++
++/* Device (/dev) related variables */
++static dev_t vc_cma_devnum;
++static struct class *vc_cma_class;
++static struct cdev vc_cma_cdev;
++static int vc_cma_inited;
++static int vc_cma_debug;
++
++/* Proc entry */
++static struct proc_dir_entry *vc_cma_proc_entry;
++
++phys_addr_t vc_cma_base;
++struct page *vc_cma_base_page;
++unsigned int vc_cma_size;
++EXPORT_SYMBOL(vc_cma_size);
++unsigned int vc_cma_initial;
++unsigned int vc_cma_chunks;
++unsigned int vc_cma_chunks_used;
++unsigned int vc_cma_chunks_reserved;
++
++static int in_loud_error;
++
++unsigned int vc_cma_reserve_total;
++unsigned int vc_cma_reserve_count;
++struct vc_cma_reserve_user vc_cma_reserve_users[VC_CMA_RESERVE_COUNT_MAX];
++static DEFINE_SEMAPHORE(vc_cma_reserve_mutex);
++static DEFINE_SEMAPHORE(vc_cma_worker_queue_push_mutex);
++
++static u64 vc_cma_dma_mask = DMA_BIT_MASK(32);
++static struct platform_device vc_cma_device = {
++ .name = "vc-cma",
++ .id = 0,
++ .dev = {
++ .dma_mask = &vc_cma_dma_mask,
++ .coherent_dma_mask = DMA_BIT_MASK(32),
++ },
++};
++
++static VCHIQ_INSTANCE_T cma_instance;
++static VCHIQ_SERVICE_HANDLE_T cma_service;
++static VCHIU_QUEUE_T cma_msg_queue;
++static struct task_struct *cma_worker;
++
++static int vc_cma_set_reserve(unsigned int reserve, unsigned int pid);
++static int vc_cma_alloc_chunks(int num_chunks, struct cma_msg *reply);
++static VCHIQ_STATUS_T cma_service_callback(VCHIQ_REASON_T reason,
++ VCHIQ_HEADER_T * header,
++ VCHIQ_SERVICE_HANDLE_T service,
++ void *bulk_userdata);
++static void send_vc_msg(unsigned short type,
++ unsigned short param1, unsigned short param2);
++static bool send_worker_msg(VCHIQ_HEADER_T * msg);
++
++static int early_vc_cma_mem(char *p)
++{
++ unsigned int new_size;
++ printk(KERN_NOTICE "early_vc_cma_mem(%s)", p);
++ vc_cma_size = memparse(p, &p);
++ vc_cma_initial = vc_cma_size;
++ if (*p == '/')
++ vc_cma_size = memparse(p + 1, &p);
++ if (*p == '@')
++ vc_cma_base = memparse(p + 1, &p);
++
++ new_size = (vc_cma_size - ((-vc_cma_base) & (VC_CMA_CHUNK_SIZE - 1)))
++ & ~(VC_CMA_CHUNK_SIZE - 1);
++ if (new_size > vc_cma_size)
++ vc_cma_size = 0;
++ vc_cma_initial = (vc_cma_initial + VC_CMA_CHUNK_SIZE - 1)
++ & ~(VC_CMA_CHUNK_SIZE - 1);
++ if (vc_cma_initial > vc_cma_size)
++ vc_cma_initial = vc_cma_size;
++ vc_cma_base = (vc_cma_base + VC_CMA_CHUNK_SIZE - 1)
++ & ~(VC_CMA_CHUNK_SIZE - 1);
++
++ printk(KERN_NOTICE " -> initial %x, size %x, base %x", vc_cma_initial,
++ vc_cma_size, (unsigned int)vc_cma_base);
++
++ return 0;
++}
++
++early_param("vc-cma-mem", early_vc_cma_mem);
++
++void vc_cma_early_init(void)
++{
++ LOG_DBG("vc_cma_early_init - vc_cma_chunks = %d", vc_cma_chunks);
++ if (vc_cma_size) {
++ int rc = platform_device_register(&vc_cma_device);
++ LOG_DBG("platform_device_register -> %d", rc);
++ }
++}
++
++void vc_cma_reserve(void)
++{
++ /* if vc_cma_size is set, then declare vc CMA area of the same
++ * size from the end of memory
++ */
++ if (vc_cma_size) {
++ if (dma_declare_contiguous(NULL /*&vc_cma_device.dev*/, vc_cma_size,
++ vc_cma_base, 0) == 0) {
++ } else {
++ LOG_ERR("vc_cma: dma_declare_contiguous(%x,%x) failed",
++ vc_cma_size, (unsigned int)vc_cma_base);
++ vc_cma_size = 0;
++ }
++ }
++ vc_cma_chunks = vc_cma_size / VC_CMA_CHUNK_SIZE;
++}
++
++/****************************************************************************
++*
++* vc_cma_open
++*
++***************************************************************************/
++
++static int vc_cma_open(struct inode *inode, struct file *file)
++{
++ (void)inode;
++ (void)file;
++
++ return 0;
++}
++
++/****************************************************************************
++*
++* vc_cma_release
++*
++***************************************************************************/
++
++static int vc_cma_release(struct inode *inode, struct file *file)
++{
++ (void)inode;
++ (void)file;
++
++ vc_cma_set_reserve(0, current->tgid);
++
++ return 0;
++}
++
++/****************************************************************************
++*
++* vc_cma_ioctl
++*
++***************************************************************************/
++
++static long vc_cma_ioctl(struct file *file, unsigned int cmd, unsigned long arg)
++{
++ int rc = 0;
++
++ (void)cmd;
++ (void)arg;
++
++ switch (cmd) {
++ case VC_CMA_IOC_RESERVE:
++ rc = vc_cma_set_reserve((unsigned int)arg, current->tgid);
++ if (rc >= 0)
++ rc = 0;
++ break;
++ default:
++ LOG_ERR("vc-cma: Unknown ioctl %x", cmd);
++ return -ENOTTY;
++ }
++
++ return rc;
++}
++
++/****************************************************************************
++*
++* File Operations for the driver.
++*
++***************************************************************************/
++
++static const struct file_operations vc_cma_fops = {
++ .owner = THIS_MODULE,
++ .open = vc_cma_open,
++ .release = vc_cma_release,
++ .unlocked_ioctl = vc_cma_ioctl,
++};
++
++/****************************************************************************
++*
++* vc_cma_proc_open
++*
++***************************************************************************/
++
++static int vc_cma_show_info(struct seq_file *m, void *v)
++{
++ int i;
++
++ seq_printf(m, "Videocore CMA:\n");
++ seq_printf(m, " Base : %08x\n", (unsigned int)vc_cma_base);
++ seq_printf(m, " Length : %08x\n", vc_cma_size);
++ seq_printf(m, " Initial : %08x\n", vc_cma_initial);
++ seq_printf(m, " Chunk size : %08x\n", VC_CMA_CHUNK_SIZE);
++ seq_printf(m, " Chunks : %4d (%d bytes)\n",
++ (int)vc_cma_chunks,
++ (int)(vc_cma_chunks * VC_CMA_CHUNK_SIZE));
++ seq_printf(m, " Used : %4d (%d bytes)\n",
++ (int)vc_cma_chunks_used,
++ (int)(vc_cma_chunks_used * VC_CMA_CHUNK_SIZE));
++ seq_printf(m, " Reserved : %4d (%d bytes)\n",
++ (unsigned int)vc_cma_chunks_reserved,
++ (int)(vc_cma_chunks_reserved * VC_CMA_CHUNK_SIZE));
++
++ for (i = 0; i < vc_cma_reserve_count; i++) {
++ struct vc_cma_reserve_user *user = &vc_cma_reserve_users[i];
++ seq_printf(m, " PID %5d: %d bytes\n", user->pid,
++ user->reserve);
++ }
++
++ seq_printf(m, "\n");
++
++ return 0;
++}
++
++static int vc_cma_proc_open(struct inode *inode, struct file *file)
++{
++ return single_open(file, vc_cma_show_info, NULL);
++}
++
++/****************************************************************************
++*
++* vc_cma_proc_write
++*
++***************************************************************************/
++
++static int vc_cma_proc_write(struct file *file,
++ const char __user *buffer,
++ size_t size, loff_t *ppos)
++{
++ int rc = -EFAULT;
++ char input_str[20];
++
++ memset(input_str, 0, sizeof(input_str));
++
++ if (size > sizeof(input_str)) {
++ LOG_ERR("%s: input string length too long", __func__);
++ goto out;
++ }
++
++ if (copy_from_user(input_str, buffer, size - 1)) {
++ LOG_ERR("%s: failed to get input string", __func__);
++ goto out;
++ }
++#define ALLOC_STR "alloc"
++#define FREE_STR "free"
++#define DEBUG_STR "debug"
++#define RESERVE_STR "reserve"
++ if (strncmp(input_str, ALLOC_STR, strlen(ALLOC_STR)) == 0) {
++ int size;
++ char *p = input_str + strlen(ALLOC_STR);
++
++ while (*p == ' ')
++ p++;
++ size = memparse(p, NULL);
++ LOG_ERR("/proc/vc-cma: alloc %d", size);
++ if (size)
++ send_vc_msg(VC_CMA_MSG_REQUEST_FREE,
++ size / VC_CMA_CHUNK_SIZE, 0);
++ else
++ LOG_ERR("invalid size '%s'", p);
++ rc = size;
++ } else if (strncmp(input_str, FREE_STR, strlen(FREE_STR)) == 0) {
++ int size;
++ char *p = input_str + strlen(FREE_STR);
++
++ while (*p == ' ')
++ p++;
++ size = memparse(p, NULL);
++ LOG_ERR("/proc/vc-cma: free %d", size);
++ if (size)
++ send_vc_msg(VC_CMA_MSG_REQUEST_ALLOC,
++ size / VC_CMA_CHUNK_SIZE, 0);
++ else
++ LOG_ERR("invalid size '%s'", p);
++ rc = size;
++ } else if (strncmp(input_str, DEBUG_STR, strlen(DEBUG_STR)) == 0) {
++ char *p = input_str + strlen(DEBUG_STR);
++ while (*p == ' ')
++ p++;
++ if ((strcmp(p, "on") == 0) || (strcmp(p, "1") == 0))
++ vc_cma_debug = 1;
++ else if ((strcmp(p, "off") == 0) || (strcmp(p, "0") == 0))
++ vc_cma_debug = 0;
++ LOG_ERR("/proc/vc-cma: debug %s", vc_cma_debug ? "on" : "off");
++ rc = size;
++ } else if (strncmp(input_str, RESERVE_STR, strlen(RESERVE_STR)) == 0) {
++ int size;
++ int reserved;
++ char *p = input_str + strlen(RESERVE_STR);
++ while (*p == ' ')
++ p++;
++ size = memparse(p, NULL);
++
++ reserved = vc_cma_set_reserve(size, current->tgid);
++ rc = (reserved >= 0) ? size : reserved;
++ }
++
++out:
++ return rc;
++}
++
++/****************************************************************************
++*
++* File Operations for /proc interface.
++*
++***************************************************************************/
++
++static const struct file_operations vc_cma_proc_fops = {
++ .open = vc_cma_proc_open,
++ .read = seq_read,
++ .write = vc_cma_proc_write,
++ .llseek = seq_lseek,
++ .release = single_release
++};
++
++static int vc_cma_set_reserve(unsigned int reserve, unsigned int pid)
++{
++ struct vc_cma_reserve_user *user = NULL;
++ int delta = 0;
++ int i;
++
++ if (down_interruptible(&vc_cma_reserve_mutex))
++ return -ERESTARTSYS;
++
++ for (i = 0; i < vc_cma_reserve_count; i++) {
++ if (pid == vc_cma_reserve_users[i].pid) {
++ user = &vc_cma_reserve_users[i];
++ delta = reserve - user->reserve;
++ if (reserve)
++ user->reserve = reserve;
++ else {
++ /* Remove this entry by copying downwards */
++ while ((i + 1) < vc_cma_reserve_count) {
++ user[0].pid = user[1].pid;
++ user[0].reserve = user[1].reserve;
++ user++;
++ i++;
++ }
++ vc_cma_reserve_count--;
++ user = NULL;
++ }
++ break;
++ }
++ }
++
++ if (reserve && !user) {
++ if (vc_cma_reserve_count == VC_CMA_RESERVE_COUNT_MAX) {
++ LOG_ERR("vc-cma: Too many reservations - "
++ "increase CMA_RESERVE_COUNT_MAX");
++ up(&vc_cma_reserve_mutex);
++ return -EBUSY;
++ }
++ user = &vc_cma_reserve_users[vc_cma_reserve_count];
++ user->pid = pid;
++ user->reserve = reserve;
++ delta = reserve;
++ vc_cma_reserve_count++;
++ }
++
++ vc_cma_reserve_total += delta;
++
++ send_vc_msg(VC_CMA_MSG_RESERVE,
++ vc_cma_reserve_total & 0xffff, vc_cma_reserve_total >> 16);
++
++ send_worker_msg((VCHIQ_HEADER_T *) VC_CMA_MSG_UPDATE_RESERVE);
++
++ LOG_DBG("/proc/vc-cma: reserve %d (PID %d) - total %u",
++ reserve, pid, vc_cma_reserve_total);
++
++ up(&vc_cma_reserve_mutex);
++
++ return vc_cma_reserve_total;
++}
++
++static VCHIQ_STATUS_T cma_service_callback(VCHIQ_REASON_T reason,
++ VCHIQ_HEADER_T * header,
++ VCHIQ_SERVICE_HANDLE_T service,
++ void *bulk_userdata)
++{
++ switch (reason) {
++ case VCHIQ_MESSAGE_AVAILABLE:
++ if (!send_worker_msg(header))
++ return VCHIQ_RETRY;
++ break;
++ case VCHIQ_SERVICE_CLOSED:
++ LOG_DBG("CMA service closed");
++ break;
++ default:
++ LOG_ERR("Unexpected CMA callback reason %d", reason);
++ break;
++ }
++ return VCHIQ_SUCCESS;
++}
++
++static void send_vc_msg(unsigned short type,
++ unsigned short param1, unsigned short param2)
++{
++ unsigned short msg[] = { type, param1, param2 };
++ VCHIQ_ELEMENT_T elem = { &msg, sizeof(msg) };
++ VCHIQ_STATUS_T ret;
++ vchiq_use_service(cma_service);
++ ret = vchiq_queue_message(cma_service, &elem, 1);
++ vchiq_release_service(cma_service);
++ if (ret != VCHIQ_SUCCESS)
++ LOG_ERR("vchiq_queue_message returned %x", ret);
++}
++
++static bool send_worker_msg(VCHIQ_HEADER_T * msg)
++{
++ if (down_interruptible(&vc_cma_worker_queue_push_mutex))
++ return false;
++ vchiu_queue_push(&cma_msg_queue, msg);
++ up(&vc_cma_worker_queue_push_mutex);
++ return true;
++}
++
++static int vc_cma_alloc_chunks(int num_chunks, struct cma_msg *reply)
++{
++ int i;
++ for (i = 0; i < num_chunks; i++) {
++ struct page *chunk;
++ unsigned int chunk_num;
++ uint8_t *chunk_addr;
++ size_t chunk_size = PAGES_PER_CHUNK << PAGE_SHIFT;
++
++ chunk = dma_alloc_from_contiguous(NULL /*&vc_cma_device.dev*/,
++ PAGES_PER_CHUNK,
++ VC_CMA_CHUNK_ORDER);
++ if (!chunk)
++ break;
++
++ chunk_addr = page_address(chunk);
++ dmac_flush_range(chunk_addr, chunk_addr + chunk_size);
++ outer_inv_range(__pa(chunk_addr), __pa(chunk_addr) +
++ chunk_size);
++
++ chunk_num =
++ (page_to_phys(chunk) - vc_cma_base) / VC_CMA_CHUNK_SIZE;
++ BUG_ON(((page_to_phys(chunk) - vc_cma_base) %
++ VC_CMA_CHUNK_SIZE) != 0);
++ if (chunk_num >= vc_cma_chunks) {
++ LOG_ERR("%s: ===============================",
++ __func__);
++ LOG_ERR("%s: chunk phys %x, vc_cma %x-%x - "
++ "bad SPARSEMEM configuration?",
++ __func__, (unsigned int)page_to_phys(chunk),
++ vc_cma_base, vc_cma_base + vc_cma_size - 1);
++ LOG_ERR("%s: dev->cma_area = %p\n", __func__,
++ vc_cma_device.dev.cma_area);
++ LOG_ERR("%s: ===============================",
++ __func__);
++ break;
++ }
++ reply->params[i] = chunk_num;
++ vc_cma_chunks_used++;
++ }
++
++ if (i < num_chunks) {
++ LOG_ERR("%s: dma_alloc_from_contiguous failed "
++ "for %x bytes (alloc %d of %d, %d free)",
++ __func__, VC_CMA_CHUNK_SIZE, i,
++ num_chunks, vc_cma_chunks - vc_cma_chunks_used);
++ num_chunks = i;
++ }
++
++ LOG_DBG("CMA allocated %d chunks -> %d used",
++ num_chunks, vc_cma_chunks_used);
++ reply->type = VC_CMA_MSG_ALLOCATED;
++
++ {
++ VCHIQ_ELEMENT_T elem = {
++ reply,
++ offsetof(struct cma_msg, params[0]) +
++ num_chunks * sizeof(reply->params[0])
++ };
++ VCHIQ_STATUS_T ret;
++ vchiq_use_service(cma_service);
++ ret = vchiq_queue_message(cma_service, &elem, 1);
++ vchiq_release_service(cma_service);
++ if (ret != VCHIQ_SUCCESS)
++ LOG_ERR("vchiq_queue_message return " "%x", ret);
++ }
++
++ return num_chunks;
++}
++
++static int cma_worker_proc(void *param)
++{
++ static struct cma_msg reply;
++ (void)param;
++
++ while (1) {
++ VCHIQ_HEADER_T *msg;
++ static struct cma_msg msg_copy;
++ struct cma_msg *cma_msg = &msg_copy;
++ int type, msg_size;
++
++ msg = vchiu_queue_pop(&cma_msg_queue);
++ if ((unsigned int)msg >= VC_CMA_MSG_MAX) {
++ msg_size = msg->size;
++ memcpy(&msg_copy, msg->data, msg_size);
++ type = cma_msg->type;
++ vchiq_release_message(cma_service, msg);
++ } else {
++ msg_size = 0;
++ type = (int)msg;
++ if (type == VC_CMA_MSG_QUIT)
++ break;
++ else if (type == VC_CMA_MSG_UPDATE_RESERVE) {
++ msg = NULL;
++ cma_msg = NULL;
++ } else {
++ BUG();
++ continue;
++ }
++ }
++
++ switch (type) {
++ case VC_CMA_MSG_ALLOC:{
++ int num_chunks, free_chunks;
++ num_chunks = cma_msg->params[0];
++ free_chunks =
++ vc_cma_chunks - vc_cma_chunks_used;
++ LOG_DBG("CMA_MSG_ALLOC(%d chunks)", num_chunks);
++ if (num_chunks > VC_CMA_MAX_PARAMS_PER_MSG) {
++ LOG_ERR
++ ("CMA_MSG_ALLOC - chunk count (%d) "
++ "exceeds VC_CMA_MAX_PARAMS_PER_MSG (%d)",
++ num_chunks,
++ VC_CMA_MAX_PARAMS_PER_MSG);
++ num_chunks = VC_CMA_MAX_PARAMS_PER_MSG;
++ }
++
++ if (num_chunks > free_chunks) {
++ LOG_ERR
++ ("CMA_MSG_ALLOC - chunk count (%d) "
++ "exceeds free chunks (%d)",
++ num_chunks, free_chunks);
++ num_chunks = free_chunks;
++ }
++
++ vc_cma_alloc_chunks(num_chunks, &reply);
++ }
++ break;
++
++ case VC_CMA_MSG_FREE:{
++ int chunk_count =
++ (msg_size -
++ offsetof(struct cma_msg,
++ params)) /
++ sizeof(cma_msg->params[0]);
++ int i;
++ BUG_ON(chunk_count <= 0);
++
++ LOG_DBG("CMA_MSG_FREE(%d chunks - %x, ...)",
++ chunk_count, cma_msg->params[0]);
++ for (i = 0; i < chunk_count; i++) {
++ int chunk_num = cma_msg->params[i];
++ struct page *page = vc_cma_base_page +
++ chunk_num * PAGES_PER_CHUNK;
++ if (chunk_num >= vc_cma_chunks) {
++ LOG_ERR
++ ("CMA_MSG_FREE - chunk %d of %d"
++ " (value %x) exceeds maximum "
++ "(%x)", i, chunk_count,
++ chunk_num,
++ vc_cma_chunks - 1);
++ break;
++ }
++
++ if (!dma_release_from_contiguous
++ (NULL /*&vc_cma_device.dev*/, page,
++ PAGES_PER_CHUNK)) {
++ LOG_ERR
++ ("CMA_MSG_FREE - failed to "
++ "release chunk %d (phys %x, "
++ "page %x)", chunk_num,
++ page_to_phys(page),
++ (unsigned int)page);
++ }
++ vc_cma_chunks_used--;
++ }
++ LOG_DBG("CMA released %d chunks -> %d used",
++ i, vc_cma_chunks_used);
++ }
++ break;
++
++ case VC_CMA_MSG_UPDATE_RESERVE:{
++ int chunks_needed =
++ ((vc_cma_reserve_total + VC_CMA_CHUNK_SIZE -
++ 1)
++ / VC_CMA_CHUNK_SIZE) -
++ vc_cma_chunks_reserved;
++
++ LOG_DBG
++ ("CMA_MSG_UPDATE_RESERVE(%d chunks needed)",
++ chunks_needed);
++
++ /* Cap the reservations to what is available */
++ if (chunks_needed > 0) {
++ if (chunks_needed >
++ (vc_cma_chunks -
++ vc_cma_chunks_used))
++ chunks_needed =
++ (vc_cma_chunks -
++ vc_cma_chunks_used);
++
++ chunks_needed =
++ vc_cma_alloc_chunks(chunks_needed,
++ &reply);
++ }
++
++ LOG_DBG
++ ("CMA_MSG_UPDATE_RESERVE(%d chunks allocated)",
++ chunks_needed);
++ vc_cma_chunks_reserved += chunks_needed;
++ }
++ break;
++
++ default:
++ LOG_ERR("unexpected msg type %d", type);
++ break;
++ }
++ }
++
++ LOG_DBG("quitting...");
++ return 0;
++}
++
++/****************************************************************************
++*
++* vc_cma_connected_init
++*
++* This function is called once the videocore has been connected.
++*
++***************************************************************************/
++
++static void vc_cma_connected_init(void)
++{
++ VCHIQ_SERVICE_PARAMS_T service_params;
++
++ LOG_DBG("vc_cma_connected_init");
++
++ if (!vchiu_queue_init(&cma_msg_queue, 16)) {
++ LOG_ERR("could not create CMA msg queue");
++ goto fail_queue;
++ }
++
++ if (vchiq_initialise(&cma_instance) != VCHIQ_SUCCESS)
++ goto fail_vchiq_init;
++
++ vchiq_connect(cma_instance);
++
++ service_params.fourcc = VC_CMA_FOURCC;
++ service_params.callback = cma_service_callback;
++ service_params.userdata = NULL;
++ service_params.version = VC_CMA_VERSION;
++ service_params.version_min = VC_CMA_VERSION;
++
++ if (vchiq_open_service(cma_instance, &service_params,
++ &cma_service) != VCHIQ_SUCCESS) {
++ LOG_ERR("failed to open service - already in use?");
++ goto fail_vchiq_open;
++ }
++
++ vchiq_release_service(cma_service);
++
++ cma_worker = kthread_create(cma_worker_proc, NULL, "cma_worker");
++ if (!cma_worker) {
++ LOG_ERR("could not create CMA worker thread");
++ goto fail_worker;
++ }
++ set_user_nice(cma_worker, -20);
++ wake_up_process(cma_worker);
++
++ return;
++
++fail_worker:
++ vchiq_close_service(cma_service);
++fail_vchiq_open:
++ vchiq_shutdown(cma_instance);
++fail_vchiq_init:
++ vchiu_queue_delete(&cma_msg_queue);
++fail_queue:
++ return;
++}
++
++void
++loud_error_header(void)
++{
++ if (in_loud_error)
++ return;
++
++ LOG_ERR("============================================================"
++ "================");
++ LOG_ERR("============================================================"
++ "================");
++ LOG_ERR("=====");
++
++ in_loud_error = 1;
++}
++
++void
++loud_error_footer(void)
++{
++ if (!in_loud_error)
++ return;
++
++ LOG_ERR("=====");
++ LOG_ERR("============================================================"
++ "================");
++ LOG_ERR("============================================================"
++ "================");
++
++ in_loud_error = 0;
++}
++
++#if 1
++static int check_cma_config(void) { return 1; }
++#else
++static int
++read_vc_debug_var(VC_MEM_ACCESS_HANDLE_T handle,
++ const char *symbol,
++ void *buf, size_t bufsize)
++{
++ VC_MEM_ADDR_T vcMemAddr;
++ size_t vcMemSize;
++ uint8_t *mapAddr;
++ off_t vcMapAddr;
++
++ if (!LookupVideoCoreSymbol(handle, symbol,
++ &vcMemAddr,
++ &vcMemSize)) {
++ loud_error_header();
++ loud_error(
++ "failed to find VC symbol \"%s\".",
++ symbol);
++ loud_error_footer();
++ return 0;
++ }
++
++ if (vcMemSize != bufsize) {
++ loud_error_header();
++ loud_error(
++ "VC symbol \"%s\" is the wrong size.",
++ symbol);
++ loud_error_footer();
++ return 0;
++ }
++
++ vcMapAddr = (off_t)vcMemAddr & VC_MEM_TO_ARM_ADDR_MASK;
++ vcMapAddr += mm_vc_mem_phys_addr;
++ mapAddr = ioremap_nocache(vcMapAddr, vcMemSize);
++ if (mapAddr == 0) {
++ loud_error_header();
++ loud_error(
++ "failed to ioremap \"%s\" @ 0x%x "
++ "(phys: 0x%x, size: %u).",
++ symbol,
++ (unsigned int)vcMapAddr,
++ (unsigned int)vcMemAddr,
++ (unsigned int)vcMemSize);
++ loud_error_footer();
++ return 0;
++ }
++
++ memcpy(buf, mapAddr, bufsize);
++ iounmap(mapAddr);
++
++ return 1;
++}
++
++
++static int
++check_cma_config(void)
++{
++ VC_MEM_ACCESS_HANDLE_T mem_hndl;
++ VC_MEM_ADDR_T mempool_start;
++ VC_MEM_ADDR_T mempool_end;
++ VC_MEM_ADDR_T mempool_offline_start;
++ VC_MEM_ADDR_T mempool_offline_end;
++ VC_MEM_ADDR_T cam_alloc_base;
++ VC_MEM_ADDR_T cam_alloc_size;
++ VC_MEM_ADDR_T cam_alloc_end;
++ int success = 0;
++
++ if (OpenVideoCoreMemory(&mem_hndl) != 0)
++ goto out;
++
++ /* Read the relevant VideoCore variables */
++ if (!read_vc_debug_var(mem_hndl, "__MEMPOOL_START",
++ &mempool_start,
++ sizeof(mempool_start)))
++ goto close;
++
++ if (!read_vc_debug_var(mem_hndl, "__MEMPOOL_END",
++ &mempool_end,
++ sizeof(mempool_end)))
++ goto close;
++
++ if (!read_vc_debug_var(mem_hndl, "__MEMPOOL_OFFLINE_START",
++ &mempool_offline_start,
++ sizeof(mempool_offline_start)))
++ goto close;
++
++ if (!read_vc_debug_var(mem_hndl, "__MEMPOOL_OFFLINE_END",
++ &mempool_offline_end,
++ sizeof(mempool_offline_end)))
++ goto close;
++
++ if (!read_vc_debug_var(mem_hndl, "cam_alloc_base",
++ &cam_alloc_base,
++ sizeof(cam_alloc_base)))
++ goto close;
++
++ if (!read_vc_debug_var(mem_hndl, "cam_alloc_size",
++ &cam_alloc_size,
++ sizeof(cam_alloc_size)))
++ goto close;
++
++ cam_alloc_end = cam_alloc_base + cam_alloc_size;
++
++ success = 1;
++
++ /* Now the sanity checks */
++ if (!mempool_offline_start)
++ mempool_offline_start = mempool_start;
++ if (!mempool_offline_end)
++ mempool_offline_end = mempool_end;
++
++ if (VCADDR_TO_PHYSADDR(mempool_offline_start) != vc_cma_base) {
++ loud_error_header();
++ loud_error(
++ "__MEMPOOL_OFFLINE_START(%x -> %lx) doesn't match "
++ "vc_cma_base(%x)",
++ mempool_offline_start,
++ VCADDR_TO_PHYSADDR(mempool_offline_start),
++ vc_cma_base);
++ success = 0;
++ }
++
++ if (VCADDR_TO_PHYSADDR(mempool_offline_end) !=
++ (vc_cma_base + vc_cma_size)) {
++ loud_error_header();
++ loud_error(
++ "__MEMPOOL_OFFLINE_END(%x -> %lx) doesn't match "
++ "vc_cma_base(%x) + vc_cma_size(%x) = %x",
++ mempool_offline_start,
++ VCADDR_TO_PHYSADDR(mempool_offline_end),
++ vc_cma_base, vc_cma_size, vc_cma_base + vc_cma_size);
++ success = 0;
++ }
++
++ if (mempool_end < mempool_start) {
++ loud_error_header();
++ loud_error(
++ "__MEMPOOL_END(%x) must not be before "
++ "__MEMPOOL_START(%x)",
++ mempool_end,
++ mempool_start);
++ success = 0;
++ }
++
++ if (mempool_offline_end < mempool_offline_start) {
++ loud_error_header();
++ loud_error(
++ "__MEMPOOL_OFFLINE_END(%x) must not be before "
++ "__MEMPOOL_OFFLINE_START(%x)",
++ mempool_offline_end,
++ mempool_offline_start);
++ success = 0;
++ }
++
++ if (mempool_offline_start < mempool_start) {
++ loud_error_header();
++ loud_error(
++ "__MEMPOOL_OFFLINE_START(%x) must not be before "
++ "__MEMPOOL_START(%x)",
++ mempool_offline_start,
++ mempool_start);
++ success = 0;
++ }
++
++ if (mempool_offline_end > mempool_end) {
++ loud_error_header();
++ loud_error(
++ "__MEMPOOL_OFFLINE_END(%x) must not be after "
++ "__MEMPOOL_END(%x)",
++ mempool_offline_end,
++ mempool_end);
++ success = 0;
++ }
++
++ if ((cam_alloc_base < mempool_end) &&
++ (cam_alloc_end > mempool_start)) {
++ loud_error_header();
++ loud_error(
++ "cam_alloc pool(%x-%x) overlaps "
++ "mempool(%x-%x)",
++ cam_alloc_base, cam_alloc_end,
++ mempool_start, mempool_end);
++ success = 0;
++ }
++
++ loud_error_footer();
++
++close:
++ CloseVideoCoreMemory(mem_hndl);
++
++out:
++ return success;
++}
++#endif
++
++static int vc_cma_init(void)
++{
++ int rc = -EFAULT;
++ struct device *dev;
++
++ if (!check_cma_config())
++ goto out_release;
++
++ printk(KERN_INFO "vc-cma: Videocore CMA driver\n");
++ printk(KERN_INFO "vc-cma: vc_cma_base = 0x%08x\n", vc_cma_base);
++ printk(KERN_INFO "vc-cma: vc_cma_size = 0x%08x (%u MiB)\n",
++ vc_cma_size, vc_cma_size / (1024 * 1024));
++ printk(KERN_INFO "vc-cma: vc_cma_initial = 0x%08x (%u MiB)\n",
++ vc_cma_initial, vc_cma_initial / (1024 * 1024));
++
++ vc_cma_base_page = phys_to_page(vc_cma_base);
++
++ if (vc_cma_chunks) {
++ int chunks_needed = vc_cma_initial / VC_CMA_CHUNK_SIZE;
++
++ for (vc_cma_chunks_used = 0;
++ vc_cma_chunks_used < chunks_needed; vc_cma_chunks_used++) {
++ struct page *chunk;
++ chunk = dma_alloc_from_contiguous(NULL /*&vc_cma_device.dev*/,
++ PAGES_PER_CHUNK,
++ VC_CMA_CHUNK_ORDER);
++ if (!chunk)
++ break;
++ BUG_ON(((page_to_phys(chunk) - vc_cma_base) %
++ VC_CMA_CHUNK_SIZE) != 0);
++ }
++ if (vc_cma_chunks_used != chunks_needed) {
++ LOG_ERR("%s: dma_alloc_from_contiguous failed (%d "
++ "bytes, allocation %d of %d)",
++ __func__, VC_CMA_CHUNK_SIZE,
++ vc_cma_chunks_used, chunks_needed);
++ goto out_release;
++ }
++
++ vchiq_add_connected_callback(vc_cma_connected_init);
++ }
++
++ rc = alloc_chrdev_region(&vc_cma_devnum, 0, 1, DRIVER_NAME);
++ if (rc < 0) {
++ LOG_ERR("%s: alloc_chrdev_region failed (rc=%d)", __func__, rc);
++ goto out_release;
++ }
++
++ cdev_init(&vc_cma_cdev, &vc_cma_fops);
++ rc = cdev_add(&vc_cma_cdev, vc_cma_devnum, 1);
++ if (rc != 0) {
++ LOG_ERR("%s: cdev_add failed (rc=%d)", __func__, rc);
++ goto out_unregister;
++ }
++
++ vc_cma_class = class_create(THIS_MODULE, DRIVER_NAME);
++ if (IS_ERR(vc_cma_class)) {
++ rc = PTR_ERR(vc_cma_class);
++ LOG_ERR("%s: class_create failed (rc=%d)", __func__, rc);
++ goto out_cdev_del;
++ }
++
++ dev = device_create(vc_cma_class, NULL, vc_cma_devnum, NULL,
++ DRIVER_NAME);
++ if (IS_ERR(dev)) {
++ rc = PTR_ERR(dev);
++ LOG_ERR("%s: device_create failed (rc=%d)", __func__, rc);
++ goto out_class_destroy;
++ }
++
++ vc_cma_proc_entry = create_proc_entry(DRIVER_NAME, 0444, NULL);
++ if (vc_cma_proc_entry == NULL) {
++ rc = -EFAULT;
++ LOG_ERR("%s: create_proc_entry failed", __func__);
++ goto out_device_destroy;
++ }
++
++ vc_cma_proc_entry->proc_fops = &vc_cma_proc_fops;
++
++ vc_cma_inited = 1;
++ return 0;
++
++out_device_destroy:
++ device_destroy(vc_cma_class, vc_cma_devnum);
++
++out_class_destroy:
++ class_destroy(vc_cma_class);
++ vc_cma_class = NULL;
++
++out_cdev_del:
++ cdev_del(&vc_cma_cdev);
++
++out_unregister:
++ unregister_chrdev_region(vc_cma_devnum, 1);
++
++out_release:
++ /* It is tempting to try to clean up by calling
++ dma_release_from_contiguous for all allocated chunks, but it isn't
++ a very safe thing to do. If vc_cma_initial is non-zero it is because
++ VideoCore is already using that memory, so giving it back to Linux
++ is likely to be fatal.
++ */
++ return -1;
++}
++
++/****************************************************************************
++*
++* vc_cma_exit
++*
++***************************************************************************/
++
++static void __exit vc_cma_exit(void)
++{
++ LOG_DBG("%s: called", __func__);
++
++ if (vc_cma_inited) {
++ remove_proc_entry(vc_cma_proc_entry->name, NULL);
++ device_destroy(vc_cma_class, vc_cma_devnum);
++ class_destroy(vc_cma_class);
++ cdev_del(&vc_cma_cdev);
++ unregister_chrdev_region(vc_cma_devnum, 1);
++ }
++}
++
++module_init(vc_cma_init);
++module_exit(vc_cma_exit);
++MODULE_LICENSE("GPL");
++MODULE_AUTHOR("Broadcom Corporation");
+--- linux-3.10/drivers/char/Makefile 2013-06-30 23:13:29.000000000 +0100
++++ linux-rpi-3.10.y/drivers/char/Makefile 2013-07-06 15:25:50.000000000 +0100
+@@ -62,3 +62,6 @@
+ js-rtc-y = rtc.o
+
+ obj-$(CONFIG_TILE_SROM) += tile-srom.o
++
++obj-$(CONFIG_BRCM_CHAR_DRIVERS) += broadcom/
++
+--- linux-3.10/drivers/char/Kconfig 2013-06-30 23:13:29.000000000 +0100
++++ linux-rpi-3.10.y/drivers/char/Kconfig 2013-07-06 15:25:50.000000000 +0100
+@@ -586,6 +586,8 @@
+
+ source "drivers/s390/char/Kconfig"
+
++source "drivers/char/broadcom/Kconfig"
++
+ config MSM_SMD_PKT
+ bool "Enable device interface for some SMD packet ports"
+ default n
+diff -urN linux-3.10/drivers/misc/Kconfig linux-rpi-3.10.y/drivers/misc/Kconfig
+--- linux-3.10/drivers/misc/Kconfig 2013-06-30 23:13:29.000000000 +0100
++++ linux-rpi-3.10.y/drivers/misc/Kconfig 2013-07-06 15:25:50.000000000 +0100
+@@ -536,4 +536,6 @@
+ source "drivers/misc/altera-stapl/Kconfig"
+ source "drivers/misc/mei/Kconfig"
+ source "drivers/misc/vmw_vmci/Kconfig"
++source "drivers/misc/vc04_services/Kconfig"
+ endmenu
++
+diff -urN linux-3.10/drivers/misc/Makefile linux-rpi-3.10.y/drivers/misc/Makefile
+--- linux-3.10/drivers/misc/Makefile 2013-06-30 23:13:29.000000000 +0100
++++ linux-rpi-3.10.y/drivers/misc/Makefile 2013-07-06 15:25:50.000000000 +0100
+@@ -53,3 +53,4 @@
+ obj-$(CONFIG_VMWARE_VMCI) += vmw_vmci/
+ obj-$(CONFIG_LATTICE_ECP3_CONFIG) += lattice-ecp3-config.o
+ obj-$(CONFIG_SRAM) += sram.o
++obj-$(CONFIG_BCM2708_VCHIQ) += vc04_services/
+diff -urN linux-3.10/drivers/misc/vc04_services/interface/vchi/connections/connection.h linux-rpi-3.10.y/drivers/misc/vc04_services/interface/vchi/connections/connection.h
+--- linux-3.10/drivers/misc/vc04_services/interface/vchi/connections/connection.h 1970-01-01 01:00:00.000000000 +0100
++++ linux-rpi-3.10.y/drivers/misc/vc04_services/interface/vchi/connections/connection.h 2013-07-06 15:25:50.000000000 +0100
+@@ -0,0 +1,328 @@
++/**
++ * Copyright (c) 2010-2012 Broadcom. All rights reserved.
++ *
++ * Redistribution and use in source and binary forms, with or without
++ * modification, are permitted provided that the following conditions
++ * are met:
++ * 1. Redistributions of source code must retain the above copyright
++ * notice, this list of conditions, and the following disclaimer,
++ * without modification.
++ * 2. Redistributions in binary form must reproduce the above copyright
++ * notice, this list of conditions and the following disclaimer in the
++ * documentation and/or other materials provided with the distribution.
++ * 3. The names of the above-listed copyright holders may not be used
++ * to endorse or promote products derived from this software without
++ * specific prior written permission.
++ *
++ * ALTERNATIVELY, this software may be distributed under the terms of the
++ * GNU General Public License ("GPL") version 2, as published by the Free
++ * Software Foundation.
++ *
++ * THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS
++ * IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO,
++ * THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR
++ * PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT OWNER OR
++ * CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL,
++ * EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO,
++ * PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR
++ * PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF
++ * LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING
++ * NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS
++ * SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
++ */
++
++#ifndef CONNECTION_H_
++#define CONNECTION_H_
++
++#include <linux/kernel.h>
++#include <linux/types.h>
++#include <linux/semaphore.h>
++
++#include "interface/vchi/vchi_cfg_internal.h"
++#include "interface/vchi/vchi_common.h"
++#include "interface/vchi/message_drivers/message.h"
++
++/******************************************************************************
++ Global defs
++ *****************************************************************************/
++
++// Opaque handle for a connection / service pair
++typedef struct opaque_vchi_connection_connected_service_handle_t *VCHI_CONNECTION_SERVICE_HANDLE_T;
++
++// opaque handle to the connection state information
++typedef struct opaque_vchi_connection_info_t VCHI_CONNECTION_STATE_T;
++
++typedef struct vchi_connection_t VCHI_CONNECTION_T;
++
++
++/******************************************************************************
++ API
++ *****************************************************************************/
++
++// Routine to init a connection with a particular low level driver
++typedef VCHI_CONNECTION_STATE_T * (*VCHI_CONNECTION_INIT_T)( struct vchi_connection_t * connection,
++ const VCHI_MESSAGE_DRIVER_T * driver );
++
++// Routine to control CRC enabling at a connection level
++typedef int32_t (*VCHI_CONNECTION_CRC_CONTROL_T)( VCHI_CONNECTION_STATE_T *state_handle,
++ VCHI_CRC_CONTROL_T control );
++
++// Routine to create a service
++typedef int32_t (*VCHI_CONNECTION_SERVICE_CONNECT_T)( VCHI_CONNECTION_STATE_T *state_handle,
++ int32_t service_id,
++ uint32_t rx_fifo_size,
++ uint32_t tx_fifo_size,
++ int server,
++ VCHI_CALLBACK_T callback,
++ void *callback_param,
++ int32_t want_crc,
++ int32_t want_unaligned_bulk_rx,
++ int32_t want_unaligned_bulk_tx,
++ VCHI_CONNECTION_SERVICE_HANDLE_T *service_handle );
++
++// Routine to close a service
++typedef int32_t (*VCHI_CONNECTION_SERVICE_DISCONNECT_T)( VCHI_CONNECTION_SERVICE_HANDLE_T service_handle );
++
++// Routine to queue a message
++typedef int32_t (*VCHI_CONNECTION_SERVICE_QUEUE_MESSAGE_T)( VCHI_CONNECTION_SERVICE_HANDLE_T service_handle,
++ const void *data,
++ uint32_t data_size,
++ VCHI_FLAGS_T flags,
++ void *msg_handle );
++
++// scatter-gather (vector) message queueing
++typedef int32_t (*VCHI_CONNECTION_SERVICE_QUEUE_MESSAGEV_T)( VCHI_CONNECTION_SERVICE_HANDLE_T service_handle,
++ VCHI_MSG_VECTOR_T *vector,
++ uint32_t count,
++ VCHI_FLAGS_T flags,
++ void *msg_handle );
++
++// Routine to dequeue a message
++typedef int32_t (*VCHI_CONNECTION_SERVICE_DEQUEUE_MESSAGE_T)( VCHI_CONNECTION_SERVICE_HANDLE_T service_handle,
++ void *data,
++ uint32_t max_data_size_to_read,
++ uint32_t *actual_msg_size,
++ VCHI_FLAGS_T flags );
++
++// Routine to peek at a message
++typedef int32_t (*VCHI_CONNECTION_SERVICE_PEEK_MESSAGE_T)( VCHI_CONNECTION_SERVICE_HANDLE_T service_handle,
++ void **data,
++ uint32_t *msg_size,
++ VCHI_FLAGS_T flags );
++
++// Routine to hold a message
++typedef int32_t (*VCHI_CONNECTION_SERVICE_HOLD_MESSAGE_T)( VCHI_CONNECTION_SERVICE_HANDLE_T service_handle,
++ void **data,
++ uint32_t *msg_size,
++ VCHI_FLAGS_T flags,
++ void **message_handle );
++
++// Routine to initialise a received message iterator
++typedef int32_t (*VCHI_CONNECTION_SERVICE_LOOKAHEAD_MESSAGE_T)( VCHI_CONNECTION_SERVICE_HANDLE_T service_handle,
++ VCHI_MSG_ITER_T *iter,
++ VCHI_FLAGS_T flags );
++
++// Routine to release a held message
++typedef int32_t (*VCHI_CONNECTION_HELD_MSG_RELEASE_T)( VCHI_CONNECTION_SERVICE_HANDLE_T service_handle,
++ void *message_handle );
++
++// Routine to get info on a held message
++typedef int32_t (*VCHI_CONNECTION_HELD_MSG_INFO_T)( VCHI_CONNECTION_SERVICE_HANDLE_T service_handle,
++ void *message_handle,
++ void **data,
++ int32_t *msg_size,
++ uint32_t *tx_timestamp,
++ uint32_t *rx_timestamp );
++
++// Routine to check whether the iterator has a next message
++typedef int32_t (*VCHI_CONNECTION_MSG_ITER_HAS_NEXT_T)( VCHI_CONNECTION_SERVICE_HANDLE_T service,
++ const VCHI_MSG_ITER_T *iter );
++
++// Routine to advance the iterator
++typedef int32_t (*VCHI_CONNECTION_MSG_ITER_NEXT_T)( VCHI_CONNECTION_SERVICE_HANDLE_T service,
++ VCHI_MSG_ITER_T *iter,
++ void **data,
++ uint32_t *msg_size );
++
++// Routine to remove the last message returned by the iterator
++typedef int32_t (*VCHI_CONNECTION_MSG_ITER_REMOVE_T)( VCHI_CONNECTION_SERVICE_HANDLE_T service,
++ VCHI_MSG_ITER_T *iter );
++
++// Routine to hold the last message returned by the iterator
++typedef int32_t (*VCHI_CONNECTION_MSG_ITER_HOLD_T)( VCHI_CONNECTION_SERVICE_HANDLE_T service,
++ VCHI_MSG_ITER_T *iter,
++ void **msg_handle );
++
++// Routine to transmit bulk data
++typedef int32_t (*VCHI_CONNECTION_BULK_QUEUE_TRANSMIT_T)( VCHI_CONNECTION_SERVICE_HANDLE_T service_handle,
++ const void *data_src,
++ uint32_t data_size,
++ VCHI_FLAGS_T flags,
++ void *bulk_handle );
++
++// Routine to receive data
++typedef int32_t (*VCHI_CONNECTION_BULK_QUEUE_RECEIVE_T)( VCHI_CONNECTION_SERVICE_HANDLE_T service_handle,
++ void *data_dst,
++ uint32_t data_size,
++ VCHI_FLAGS_T flags,
++ void *bulk_handle );
++
++// Routine to report if a server is available
++typedef int32_t (*VCHI_CONNECTION_SERVER_PRESENT)( VCHI_CONNECTION_STATE_T *state, int32_t service_id, int32_t peer_flags );
++
++// Routine to report the number of RX slots available
++typedef int (*VCHI_CONNECTION_RX_SLOTS_AVAILABLE)( const VCHI_CONNECTION_STATE_T *state );
++
++// Routine to report the RX slot size
++typedef uint32_t (*VCHI_CONNECTION_RX_SLOT_SIZE)( const VCHI_CONNECTION_STATE_T *state );
++
++// Callback to indicate that the other side has added a buffer to the rx bulk DMA FIFO
++typedef void (*VCHI_CONNECTION_RX_BULK_BUFFER_ADDED)(VCHI_CONNECTION_STATE_T *state,
++ int32_t service,
++ uint32_t length,
++ MESSAGE_TX_CHANNEL_T channel,
++ uint32_t channel_params,
++ uint32_t data_length,
++ uint32_t data_offset);
++
++// Callback to inform a service that a Xon or Xoff message has been received
++typedef void (*VCHI_CONNECTION_FLOW_CONTROL)(VCHI_CONNECTION_STATE_T *state, int32_t service_id, int32_t xoff);
++
++// Callback to inform a service that a server available reply message has been received
++typedef void (*VCHI_CONNECTION_SERVER_AVAILABLE_REPLY)(VCHI_CONNECTION_STATE_T *state, int32_t service_id, uint32_t flags);
++
++// Callback to indicate that bulk auxiliary messages have arrived
++typedef void (*VCHI_CONNECTION_BULK_AUX_RECEIVED)(VCHI_CONNECTION_STATE_T *state);
++
++// Callback to indicate that bulk auxiliary messages have arrived
++typedef void (*VCHI_CONNECTION_BULK_AUX_TRANSMITTED)(VCHI_CONNECTION_STATE_T *state, void *handle);
++
++// Callback with all the connection info you require
++typedef void (*VCHI_CONNECTION_INFO)(VCHI_CONNECTION_STATE_T *state, uint32_t protocol_version, uint32_t slot_size, uint32_t num_slots, uint32_t min_bulk_size);
++
++// Callback to inform of a disconnect
++typedef void (*VCHI_CONNECTION_DISCONNECT)(VCHI_CONNECTION_STATE_T *state, uint32_t flags);
++
++// Callback to inform of a power control request
++typedef void (*VCHI_CONNECTION_POWER_CONTROL)(VCHI_CONNECTION_STATE_T *state, MESSAGE_TX_CHANNEL_T channel, int32_t enable);
++
++// allocate memory suitably aligned for this connection
++typedef void * (*VCHI_BUFFER_ALLOCATE)(VCHI_CONNECTION_SERVICE_HANDLE_T service_handle, uint32_t * length);
++
++// free memory allocated by buffer_allocate
++typedef void (*VCHI_BUFFER_FREE)(VCHI_CONNECTION_SERVICE_HANDLE_T service_handle, void * address);
++
++
++/******************************************************************************
++ System driver struct
++ *****************************************************************************/
++
++struct opaque_vchi_connection_api_t
++{
++ // Routine to init the connection
++ VCHI_CONNECTION_INIT_T init;
++
++ // Connection-level CRC control
++ VCHI_CONNECTION_CRC_CONTROL_T crc_control;
++
++ // Routine to connect to or create service
++ VCHI_CONNECTION_SERVICE_CONNECT_T service_connect;
++
++ // Routine to disconnect from a service
++ VCHI_CONNECTION_SERVICE_DISCONNECT_T service_disconnect;
++
++ // Routine to queue a message
++ VCHI_CONNECTION_SERVICE_QUEUE_MESSAGE_T service_queue_msg;
++
++ // scatter-gather (vector) message queue
++ VCHI_CONNECTION_SERVICE_QUEUE_MESSAGEV_T service_queue_msgv;
++
++ // Routine to dequeue a message
++ VCHI_CONNECTION_SERVICE_DEQUEUE_MESSAGE_T service_dequeue_msg;
++
++ // Routine to peek at a message
++ VCHI_CONNECTION_SERVICE_PEEK_MESSAGE_T service_peek_msg;
++
++ // Routine to hold a message
++ VCHI_CONNECTION_SERVICE_HOLD_MESSAGE_T service_hold_msg;
++
++ // Routine to initialise a received message iterator
++ VCHI_CONNECTION_SERVICE_LOOKAHEAD_MESSAGE_T service_look_ahead_msg;
++
++ // Routine to release a message
++ VCHI_CONNECTION_HELD_MSG_RELEASE_T held_msg_release;
++
++ // Routine to get information on a held message
++ VCHI_CONNECTION_HELD_MSG_INFO_T held_msg_info;
++
++ // Routine to check for next message on iterator
++ VCHI_CONNECTION_MSG_ITER_HAS_NEXT_T msg_iter_has_next;
++
++ // Routine to get next message on iterator
++ VCHI_CONNECTION_MSG_ITER_NEXT_T msg_iter_next;
++
++ // Routine to remove the last message returned by iterator
++ VCHI_CONNECTION_MSG_ITER_REMOVE_T msg_iter_remove;
++
++ // Routine to hold the last message returned by iterator
++ VCHI_CONNECTION_MSG_ITER_HOLD_T msg_iter_hold;
++
++ // Routine to transmit bulk data
++ VCHI_CONNECTION_BULK_QUEUE_TRANSMIT_T bulk_queue_transmit;
++
++ // Routine to receive data
++ VCHI_CONNECTION_BULK_QUEUE_RECEIVE_T bulk_queue_receive;
++
++ // Routine to report the available servers
++ VCHI_CONNECTION_SERVER_PRESENT server_present;
++
++ // Routine to report the number of RX slots available
++ VCHI_CONNECTION_RX_SLOTS_AVAILABLE connection_rx_slots_available;
++
++ // Routine to report the RX slot size
++ VCHI_CONNECTION_RX_SLOT_SIZE connection_rx_slot_size;
++
++ // Callback to indicate that the other side has added a buffer to the rx bulk DMA FIFO
++ VCHI_CONNECTION_RX_BULK_BUFFER_ADDED rx_bulk_buffer_added;
++
++ // Callback to inform a service that a Xon or Xoff message has been received
++ VCHI_CONNECTION_FLOW_CONTROL flow_control;
++
++ // Callback to inform a service that a server available reply message has been received
++ VCHI_CONNECTION_SERVER_AVAILABLE_REPLY server_available_reply;
++
++ // Callback to indicate that bulk auxiliary messages have arrived
++ VCHI_CONNECTION_BULK_AUX_RECEIVED bulk_aux_received;
++
++ // Callback to indicate that a bulk auxiliary message has been transmitted
++ VCHI_CONNECTION_BULK_AUX_TRANSMITTED bulk_aux_transmitted;
++
++ // Callback to provide information about the connection
++ VCHI_CONNECTION_INFO connection_info;
++
++ // Callback to notify that peer has requested disconnect
++ VCHI_CONNECTION_DISCONNECT disconnect;
++
++ // Callback to notify that peer has requested power change
++ VCHI_CONNECTION_POWER_CONTROL power_control;
++
++ // allocate memory suitably aligned for this connection
++ VCHI_BUFFER_ALLOCATE buffer_allocate;
++
++ // free memory allocated by buffer_allocate
++ VCHI_BUFFER_FREE buffer_free;
++
++};
++
++struct vchi_connection_t {
++ const VCHI_CONNECTION_API_T *api;
++ VCHI_CONNECTION_STATE_T *state;
++#ifdef VCHI_COARSE_LOCKING
++ struct semaphore sem;
++#endif
++};
++
++
++#endif /* CONNECTION_H_ */
++
++/****************************** End of file **********************************/
+diff -urN linux-3.10/drivers/misc/vc04_services/interface/vchi/message_drivers/message.h linux-rpi-3.10.y/drivers/misc/vc04_services/interface/vchi/message_drivers/message.h
+--- linux-3.10/drivers/misc/vc04_services/interface/vchi/message_drivers/message.h 1970-01-01 01:00:00.000000000 +0100
++++ linux-rpi-3.10.y/drivers/misc/vc04_services/interface/vchi/message_drivers/message.h 2013-07-06 15:25:50.000000000 +0100
+@@ -0,0 +1,204 @@
++/**
++ * Copyright (c) 2010-2012 Broadcom. All rights reserved.
++ *
++ * Redistribution and use in source and binary forms, with or without
++ * modification, are permitted provided that the following conditions
++ * are met:
++ * 1. Redistributions of source code must retain the above copyright
++ * notice, this list of conditions, and the following disclaimer,
++ * without modification.
++ * 2. Redistributions in binary form must reproduce the above copyright
++ * notice, this list of conditions and the following disclaimer in the
++ * documentation and/or other materials provided with the distribution.
++ * 3. The names of the above-listed copyright holders may not be used
++ * to endorse or promote products derived from this software without
++ * specific prior written permission.
++ *
++ * ALTERNATIVELY, this software may be distributed under the terms of the
++ * GNU General Public License ("GPL") version 2, as published by the Free
++ * Software Foundation.
++ *
++ * THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS
++ * IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO,
++ * THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR
++ * PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT OWNER OR
++ * CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL,
++ * EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO,
++ * PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR
++ * PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF
++ * LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING
++ * NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS
++ * SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
++ */
++
++#ifndef _VCHI_MESSAGE_H_
++#define _VCHI_MESSAGE_H_
++
++#include <linux/kernel.h>
++#include <linux/types.h>
++#include <linux/semaphore.h>
++
++#include "interface/vchi/vchi_cfg_internal.h"
++#include "interface/vchi/vchi_common.h"
++
++
++typedef enum message_event_type {
++ MESSAGE_EVENT_NONE,
++ MESSAGE_EVENT_NOP,
++ MESSAGE_EVENT_MESSAGE,
++ MESSAGE_EVENT_SLOT_COMPLETE,
++ MESSAGE_EVENT_RX_BULK_PAUSED,
++ MESSAGE_EVENT_RX_BULK_COMPLETE,
++ MESSAGE_EVENT_TX_COMPLETE,
++ MESSAGE_EVENT_MSG_DISCARDED
++} MESSAGE_EVENT_TYPE_T;
++
++typedef enum vchi_msg_flags
++{
++ VCHI_MSG_FLAGS_NONE = 0x0,
++ VCHI_MSG_FLAGS_TERMINATE_DMA = 0x1
++} VCHI_MSG_FLAGS_T;
++
++typedef enum message_tx_channel
++{
++ MESSAGE_TX_CHANNEL_MESSAGE = 0,
++ MESSAGE_TX_CHANNEL_BULK = 1 // drivers may provide multiple bulk channels, from 1 upwards
++} MESSAGE_TX_CHANNEL_T;
++
++// Macros used for cycling through bulk channels
++#define MESSAGE_TX_CHANNEL_BULK_PREV(c) (MESSAGE_TX_CHANNEL_BULK+((c)-MESSAGE_TX_CHANNEL_BULK+VCHI_MAX_BULK_TX_CHANNELS_PER_CONNECTION-1)%VCHI_MAX_BULK_TX_CHANNELS_PER_CONNECTION)
++#define MESSAGE_TX_CHANNEL_BULK_NEXT(c) (MESSAGE_TX_CHANNEL_BULK+((c)-MESSAGE_TX_CHANNEL_BULK+1)%VCHI_MAX_BULK_TX_CHANNELS_PER_CONNECTION)
++
++typedef enum message_rx_channel
++{
++ MESSAGE_RX_CHANNEL_MESSAGE = 0,
++ MESSAGE_RX_CHANNEL_BULK = 1 // drivers may provide multiple bulk channels, from 1 upwards
++} MESSAGE_RX_CHANNEL_T;
++
++// Message receive slot information
++typedef struct rx_msg_slot_info {
++
++ struct rx_msg_slot_info *next;
++ //struct slot_info *prev;
++#if !defined VCHI_COARSE_LOCKING
++ struct semaphore sem;
++#endif
++
++ uint8_t *addr; // base address of slot
++ uint32_t len; // length of slot in bytes
++
++ uint32_t write_ptr; // hardware causes this to advance
++ uint32_t read_ptr; // this module does the reading
++ int active; // is this slot in the hardware dma fifo?
++ uint32_t msgs_parsed; // count how many messages are in this slot
++ uint32_t msgs_released; // how many messages have been released
++ void *state; // connection state information
++ uint8_t ref_count[VCHI_MAX_SERVICES_PER_CONNECTION]; // reference count for slots held by services
++} RX_MSG_SLOTINFO_T;
++
++// The message driver no longer needs to know about the fields of RX_BULK_SLOTINFO_T - sort this out.
++// In particular, it mustn't use addr and len - they're the client buffer, but the message
++// driver will be tasked with sending the aligned core section.
++typedef struct rx_bulk_slotinfo_t {
++ struct rx_bulk_slotinfo_t *next;
++
++ struct semaphore *blocking;
++
++ // needed by DMA
++ void *addr;
++ uint32_t len;
++
++ // needed for the callback
++ void *service;
++ void *handle;
++ VCHI_FLAGS_T flags;
++} RX_BULK_SLOTINFO_T;
++
++
++/* ----------------------------------------------------------------------
++ * each connection driver will have a pool of the following struct.
++ *
++ * the pool will be managed by vchi_qman_*
++ * this means there will be multiple queues (single linked lists)
++ * a given struct message_info will be on exactly one of these queues
++ * at any one time
++ * -------------------------------------------------------------------- */
++typedef struct rx_message_info {
++
++ struct message_info *next;
++ //struct message_info *prev;
++
++ uint8_t *addr;
++ uint32_t len;
++ RX_MSG_SLOTINFO_T *slot; // points to whichever slot contains this message
++ uint32_t tx_timestamp;
++ uint32_t rx_timestamp;
++
++} RX_MESSAGE_INFO_T;
++
++typedef struct {
++ MESSAGE_EVENT_TYPE_T type;
++
++ struct {
++ // for messages
++ void *addr; // address of message
++ uint16_t slot_delta; // whether this message indicated slot delta
++ uint32_t len; // length of message
++ RX_MSG_SLOTINFO_T *slot; // slot this message is in
++ int32_t service; // service id this message is destined for
++ uint32_t tx_timestamp; // timestamp from the header
++ uint32_t rx_timestamp; // timestamp when we parsed it
++ } message;
++
++ // FIXME: cleanup slot reporting...
++ RX_MSG_SLOTINFO_T *rx_msg;
++ RX_BULK_SLOTINFO_T *rx_bulk;
++ void *tx_handle;
++ MESSAGE_TX_CHANNEL_T tx_channel;
++
++} MESSAGE_EVENT_T;
++
++
++// callbacks
++typedef void VCHI_MESSAGE_DRIVER_EVENT_CALLBACK_T( void *state );
++
++typedef struct {
++ VCHI_MESSAGE_DRIVER_EVENT_CALLBACK_T *event_callback;
++} VCHI_MESSAGE_DRIVER_OPEN_T;
++
++
++// handle to this instance of message driver (as returned by ->open)
++typedef struct opaque_mhandle_t *VCHI_MDRIVER_HANDLE_T;
++
++struct opaque_vchi_message_driver_t {
++ VCHI_MDRIVER_HANDLE_T *(*open)( VCHI_MESSAGE_DRIVER_OPEN_T *params, void *state );
++ int32_t (*suspending)( VCHI_MDRIVER_HANDLE_T *handle );
++ int32_t (*resumed)( VCHI_MDRIVER_HANDLE_T *handle );
++ int32_t (*power_control)( VCHI_MDRIVER_HANDLE_T *handle, MESSAGE_TX_CHANNEL_T, int32_t enable );
++ int32_t (*add_msg_rx_slot)( VCHI_MDRIVER_HANDLE_T *handle, RX_MSG_SLOTINFO_T *slot ); // rx message
++ int32_t (*add_bulk_rx)( VCHI_MDRIVER_HANDLE_T *handle, void *data, uint32_t len, RX_BULK_SLOTINFO_T *slot ); // rx data (bulk)
++ int32_t (*send)( VCHI_MDRIVER_HANDLE_T *handle, MESSAGE_TX_CHANNEL_T channel, const void *data, uint32_t len, VCHI_MSG_FLAGS_T flags, void *send_handle ); // tx (message & bulk)
++ void (*next_event)( VCHI_MDRIVER_HANDLE_T *handle, MESSAGE_EVENT_T *event ); // get the next event from message_driver
++ int32_t (*enable)( VCHI_MDRIVER_HANDLE_T *handle );
++ int32_t (*form_message)( VCHI_MDRIVER_HANDLE_T *handle, int32_t service_id, VCHI_MSG_VECTOR_T *vector, uint32_t count, void
++ *address, uint32_t length_avail, uint32_t max_total_length, int32_t pad_to_fill, int32_t allow_partial );
++
++ int32_t (*update_message)( VCHI_MDRIVER_HANDLE_T *handle, void *dest, int16_t *slot_count );
++ int32_t (*buffer_aligned)( VCHI_MDRIVER_HANDLE_T *handle, int tx, int uncached, const void *address, const uint32_t length );
++ void * (*allocate_buffer)( VCHI_MDRIVER_HANDLE_T *handle, uint32_t *length );
++ void (*free_buffer)( VCHI_MDRIVER_HANDLE_T *handle, void *address );
++ int (*rx_slot_size)( VCHI_MDRIVER_HANDLE_T *handle, int msg_size );
++ int (*tx_slot_size)( VCHI_MDRIVER_HANDLE_T *handle, int msg_size );
++
++ int32_t (*tx_supports_terminate)( const VCHI_MDRIVER_HANDLE_T *handle, MESSAGE_TX_CHANNEL_T channel );
++ uint32_t (*tx_bulk_chunk_size)( const VCHI_MDRIVER_HANDLE_T *handle, MESSAGE_TX_CHANNEL_T channel );
++ int (*tx_alignment)( const VCHI_MDRIVER_HANDLE_T *handle, MESSAGE_TX_CHANNEL_T channel );
++ int (*rx_alignment)( const VCHI_MDRIVER_HANDLE_T *handle, MESSAGE_RX_CHANNEL_T channel );
++ void (*form_bulk_aux)( VCHI_MDRIVER_HANDLE_T *handle, MESSAGE_TX_CHANNEL_T channel, const void *data, uint32_t len, uint32_t chunk_size, const void **aux_data, int32_t *aux_len );
++ void (*debug)( VCHI_MDRIVER_HANDLE_T *handle );
++};
++
++
++#endif // _VCHI_MESSAGE_H_
++
++/****************************** End of file ***********************************/
+diff -urN linux-3.10/drivers/misc/vc04_services/interface/vchi/vchi_cfg.h linux-rpi-3.10.y/drivers/misc/vc04_services/interface/vchi/vchi_cfg.h
+--- linux-3.10/drivers/misc/vc04_services/interface/vchi/vchi_cfg.h 1970-01-01 01:00:00.000000000 +0100
++++ linux-rpi-3.10.y/drivers/misc/vc04_services/interface/vchi/vchi_cfg.h 2013-07-06 15:25:50.000000000 +0100
+@@ -0,0 +1,224 @@
++/**
++ * Copyright (c) 2010-2012 Broadcom. All rights reserved.
++ *
++ * Redistribution and use in source and binary forms, with or without
++ * modification, are permitted provided that the following conditions
++ * are met:
++ * 1. Redistributions of source code must retain the above copyright
++ * notice, this list of conditions, and the following disclaimer,
++ * without modification.
++ * 2. Redistributions in binary form must reproduce the above copyright
++ * notice, this list of conditions and the following disclaimer in the
++ * documentation and/or other materials provided with the distribution.
++ * 3. The names of the above-listed copyright holders may not be used
++ * to endorse or promote products derived from this software without
++ * specific prior written permission.
++ *
++ * ALTERNATIVELY, this software may be distributed under the terms of the
++ * GNU General Public License ("GPL") version 2, as published by the Free
++ * Software Foundation.
++ *
++ * THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS
++ * IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO,
++ * THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR
++ * PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT OWNER OR
++ * CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL,
++ * EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO,
++ * PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR
++ * PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF
++ * LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING
++ * NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS
++ * SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
++ */
++
++#ifndef VCHI_CFG_H_
++#define VCHI_CFG_H_
++
++/****************************************************************************************
++ * Defines in this first section are part of the VCHI API and may be examined by VCHI
++ * services.
++ ***************************************************************************************/
++
++/* Required alignment of base addresses for bulk transfer, if unaligned transfers are not enabled */
++/* Really determined by the message driver, and should be available from a run-time call. */
++#ifndef VCHI_BULK_ALIGN
++# if __VCCOREVER__ >= 0x04000000
++# define VCHI_BULK_ALIGN 32 // Allows for the need to do cache cleans
++# else
++# define VCHI_BULK_ALIGN 16
++# endif
++#endif
++
++/* Required length multiple for bulk transfers, if unaligned transfers are not enabled */
++/* May be less than or greater than VCHI_BULK_ALIGN */
++/* Really determined by the message driver, and should be available from a run-time call. */
++#ifndef VCHI_BULK_GRANULARITY
++# if __VCCOREVER__ >= 0x04000000
++# define VCHI_BULK_GRANULARITY 32 // Allows for the need to do cache cleans
++# else
++# define VCHI_BULK_GRANULARITY 16
++# endif
++#endif
++
++/* The largest possible message to be queued with vchi_msg_queue. */
++#ifndef VCHI_MAX_MSG_SIZE
++# if defined VCHI_LOCAL_HOST_PORT
++# define VCHI_MAX_MSG_SIZE 16384 // makes file transfers fast, but should they be using bulk?
++# else
++# define VCHI_MAX_MSG_SIZE 4096 // NOTE: THIS MUST BE LARGER THAN OR EQUAL TO THE SIZE OF THE KHRONOS MERGE BUFFER!!
++# endif
++#endif
++
++/******************************************************************************************
++ * Defines below are system configuration options, and should not be used by VCHI services.
++ *****************************************************************************************/
++
++/* How many connections can we support? A localhost implementation uses 2 connections,
++ * 1 for host-app, 1 for VMCS, and these are hooked together by a loopback MPHI VCFW
++ * driver. */
++#ifndef VCHI_MAX_NUM_CONNECTIONS
++# define VCHI_MAX_NUM_CONNECTIONS 3
++#endif
++
++/* How many services can we open per connection? Extending this doesn't cost processing time, just a small
++ * amount of static memory. */
++#ifndef VCHI_MAX_SERVICES_PER_CONNECTION
++# define VCHI_MAX_SERVICES_PER_CONNECTION 36
++#endif
++
++/* Adjust if using a message driver that supports more logical TX channels */
++#ifndef VCHI_MAX_BULK_TX_CHANNELS_PER_CONNECTION
++# define VCHI_MAX_BULK_TX_CHANNELS_PER_CONNECTION 9 // 1 MPHI + 8 CCP2 logical channels
++#endif
++
++/* Adjust if using a message driver that supports more logical RX channels */
++#ifndef VCHI_MAX_BULK_RX_CHANNELS_PER_CONNECTION
++# define VCHI_MAX_BULK_RX_CHANNELS_PER_CONNECTION 1 // 1 MPHI
++#endif
++
++/* How many receive slots do we use. This times VCHI_MAX_MSG_SIZE gives the effective
++ * receive queue space, less message headers. */
++#ifndef VCHI_NUM_READ_SLOTS
++# if defined(VCHI_LOCAL_HOST_PORT)
++# define VCHI_NUM_READ_SLOTS 4
++# else
++# define VCHI_NUM_READ_SLOTS 48
++# endif
++#endif
++
++/* Do we utilise overrun facility for receive message slots? Can aid peer transmit
++ * performance. Only define on VideoCore end, talking to host.
++ */
++//#define VCHI_MSG_RX_OVERRUN
++
++/* How many transmit slots do we use. Generally don't need many, as the hardware driver
++ * underneath VCHI will usually have its own buffering. */
++#ifndef VCHI_NUM_WRITE_SLOTS
++# define VCHI_NUM_WRITE_SLOTS 4
++#endif
++
++/* If a service has held or queued received messages in VCHI_XOFF_THRESHOLD or more slots,
++ * then it's taking up too much buffer space, and the peer service will be told to stop
++ * transmitting with an XOFF message. For this to be effective, the VCHI_NUM_READ_SLOTS
++ * needs to be considerably bigger than VCHI_NUM_WRITE_SLOTS, or the transmit latency
++ * is too high. */
++#ifndef VCHI_XOFF_THRESHOLD
++# define VCHI_XOFF_THRESHOLD (VCHI_NUM_READ_SLOTS / 2)
++#endif
++
++/* After we've sent an XOFF, the peer will be told to resume transmission once the local
++ * service has dequeued/released enough messages that it's now occupying
++ * VCHI_XON_THRESHOLD slots or fewer. */
++#ifndef VCHI_XON_THRESHOLD
++# define VCHI_XON_THRESHOLD (VCHI_NUM_READ_SLOTS / 4)
++#endif
++
++/* A size below which a bulk transfer omits the handshake completely and always goes
++ * via the message channel, if bulk auxiliary is being sent on that service. (The user
++ * can guarantee this by enabling unaligned transmits).
++ * Not API. */
++#ifndef VCHI_MIN_BULK_SIZE
++# define VCHI_MIN_BULK_SIZE ( VCHI_MAX_MSG_SIZE / 2 < 4096 ? VCHI_MAX_MSG_SIZE / 2 : 4096 )
++#endif
++
++/* Maximum size of bulk transmission chunks, for each interface type. A trade-off between
++ * speed and latency; the smaller the chunk size the better change of messages and other
++ * bulk transmissions getting in when big bulk transfers are happening. Set to 0 to not
++ * break transmissions into chunks.
++ */
++#ifndef VCHI_MAX_BULK_CHUNK_SIZE_MPHI
++# define VCHI_MAX_BULK_CHUNK_SIZE_MPHI (16 * 1024)
++#endif
++
++/* NB Chunked CCP2 transmissions violate the letter of the CCP2 spec by using "JPEG8" mode
++ * with multiple-line frames. Only use if the receiver can cope. */
++#ifndef VCHI_MAX_BULK_CHUNK_SIZE_CCP2
++# define VCHI_MAX_BULK_CHUNK_SIZE_CCP2 0
++#endif
++
++/* How many TX messages can we have pending in our transmit slots. Once exhausted,
++ * vchi_msg_queue will be blocked. */
++#ifndef VCHI_TX_MSG_QUEUE_SIZE
++# define VCHI_TX_MSG_QUEUE_SIZE 256
++#endif
++
++/* How many RX messages can we have parsed in the receive slots. Once exhausted, parsing
++ * will be suspended until older messages are dequeued/released. */
++#ifndef VCHI_RX_MSG_QUEUE_SIZE
++# define VCHI_RX_MSG_QUEUE_SIZE 256
++#endif
++
++/* Really should be able to cope if we run out of received message descriptors, by
++ * suspending parsing as the comment above says, but we don't. This sweeps the issue
++ * under the carpet. */
++#if VCHI_RX_MSG_QUEUE_SIZE < (VCHI_MAX_MSG_SIZE/16 + 1) * VCHI_NUM_READ_SLOTS
++# undef VCHI_RX_MSG_QUEUE_SIZE
++# define VCHI_RX_MSG_QUEUE_SIZE (VCHI_MAX_MSG_SIZE/16 + 1) * VCHI_NUM_READ_SLOTS
++#endif
++
++/* How many bulk transmits can we have pending. Once exhausted, vchi_bulk_queue_transmit
++ * will be blocked. */
++#ifndef VCHI_TX_BULK_QUEUE_SIZE
++# define VCHI_TX_BULK_QUEUE_SIZE 64
++#endif
++
++/* How many bulk receives can we have pending. Once exhausted, vchi_bulk_queue_receive
++ * will be blocked. */
++#ifndef VCHI_RX_BULK_QUEUE_SIZE
++# define VCHI_RX_BULK_QUEUE_SIZE 64
++#endif
++
++/* A limit on how many outstanding bulk requests we expect the peer to give us. If
++ * the peer asks for more than this, VCHI will fail and assert. The number is determined
++ * by the peer's hardware - it's the number of outstanding requests that can be queued
++ * on all bulk channels. VC3's MPHI peripheral allows 16. */
++#ifndef VCHI_MAX_PEER_BULK_REQUESTS
++# define VCHI_MAX_PEER_BULK_REQUESTS 32
++#endif
++
++/* Define VCHI_CCP2TX_MANUAL_POWER if the host tells us when to turn the CCP2
++ * transmitter on and off.
++ */
++/*#define VCHI_CCP2TX_MANUAL_POWER*/
++
++#ifndef VCHI_CCP2TX_MANUAL_POWER
++
++/* Timeout (in milliseconds) for putting the CCP2TX interface into IDLE state. Set
++ * negative for no IDLE.
++ */
++# ifndef VCHI_CCP2TX_IDLE_TIMEOUT
++# define VCHI_CCP2TX_IDLE_TIMEOUT 5
++# endif
++
++/* Timeout (in milliseconds) for putting the CCP2TX interface into OFF state. Set
++ * negative for no OFF.
++ */
++# ifndef VCHI_CCP2TX_OFF_TIMEOUT
++# define VCHI_CCP2TX_OFF_TIMEOUT 1000
++# endif
++
++#endif /* VCHI_CCP2TX_MANUAL_POWER */
++
++#endif /* VCHI_CFG_H_ */
++
++/****************************** End of file **********************************/
+diff -urN linux-3.10/drivers/misc/vc04_services/interface/vchi/vchi_cfg_internal.h linux-rpi-3.10.y/drivers/misc/vc04_services/interface/vchi/vchi_cfg_internal.h
+--- linux-3.10/drivers/misc/vc04_services/interface/vchi/vchi_cfg_internal.h 1970-01-01 01:00:00.000000000 +0100
++++ linux-rpi-3.10.y/drivers/misc/vc04_services/interface/vchi/vchi_cfg_internal.h 2013-07-06 15:25:50.000000000 +0100
+@@ -0,0 +1,71 @@
++/**
++ * Copyright (c) 2010-2012 Broadcom. All rights reserved.
++ *
++ * Redistribution and use in source and binary forms, with or without
++ * modification, are permitted provided that the following conditions
++ * are met:
++ * 1. Redistributions of source code must retain the above copyright
++ * notice, this list of conditions, and the following disclaimer,
++ * without modification.
++ * 2. Redistributions in binary form must reproduce the above copyright
++ * notice, this list of conditions and the following disclaimer in the
++ * documentation and/or other materials provided with the distribution.
++ * 3. The names of the above-listed copyright holders may not be used
++ * to endorse or promote products derived from this software without
++ * specific prior written permission.
++ *
++ * ALTERNATIVELY, this software may be distributed under the terms of the
++ * GNU General Public License ("GPL") version 2, as published by the Free
++ * Software Foundation.
++ *
++ * THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS
++ * IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO,
++ * THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR
++ * PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT OWNER OR
++ * CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL,
++ * EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO,
++ * PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR
++ * PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF
++ * LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING
++ * NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS
++ * SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
++ */
++
++#ifndef VCHI_CFG_INTERNAL_H_
++#define VCHI_CFG_INTERNAL_H_
++
++/****************************************************************************************
++ * Control optimisation attempts.
++ ***************************************************************************************/
++
++// Don't use lots of short-term locks - use great long ones, reducing the overall locks-per-second
++#define VCHI_COARSE_LOCKING
++
++// Avoid lock then unlock on exit from blocking queue operations (msg tx, bulk rx/tx)
++// (only relevant if VCHI_COARSE_LOCKING)
++#define VCHI_ELIDE_BLOCK_EXIT_LOCK
++
++// Avoid lock on non-blocking peek
++// (only relevant if VCHI_COARSE_LOCKING)
++#define VCHI_AVOID_PEEK_LOCK
++
++// Use one slot-handler thread per connection, rather than 1 thread dealing with all connections in rotation.
++#define VCHI_MULTIPLE_HANDLER_THREADS
++
++// Put free descriptors onto the head of the free queue, rather than the tail, so that we don't thrash
++// our way through the pool of descriptors.
++#define VCHI_PUSH_FREE_DESCRIPTORS_ONTO_HEAD
++
++// Don't issue a MSG_AVAILABLE callback for every single message. Possibly only safe if VCHI_COARSE_LOCKING.
++#define VCHI_FEWER_MSG_AVAILABLE_CALLBACKS
++
++// Don't use message descriptors for TX messages that don't need them
++#define VCHI_MINIMISE_TX_MSG_DESCRIPTORS
++
++// Nano-locks for multiqueue
++//#define VCHI_MQUEUE_NANOLOCKS
++
++// Lock-free(er) dequeuing
++//#define VCHI_RX_NANOLOCKS
++
++#endif /*VCHI_CFG_INTERNAL_H_*/
+diff -urN linux-3.10/drivers/misc/vc04_services/interface/vchi/vchi_common.h linux-rpi-3.10.y/drivers/misc/vc04_services/interface/vchi/vchi_common.h
+--- linux-3.10/drivers/misc/vc04_services/interface/vchi/vchi_common.h 1970-01-01 01:00:00.000000000 +0100
++++ linux-rpi-3.10.y/drivers/misc/vc04_services/interface/vchi/vchi_common.h 2013-07-06 15:25:50.000000000 +0100
+@@ -0,0 +1,163 @@
++/**
++ * Copyright (c) 2010-2012 Broadcom. All rights reserved.
++ *
++ * Redistribution and use in source and binary forms, with or without
++ * modification, are permitted provided that the following conditions
++ * are met:
++ * 1. Redistributions of source code must retain the above copyright
++ * notice, this list of conditions, and the following disclaimer,
++ * without modification.
++ * 2. Redistributions in binary form must reproduce the above copyright
++ * notice, this list of conditions and the following disclaimer in the
++ * documentation and/or other materials provided with the distribution.
++ * 3. The names of the above-listed copyright holders may not be used
++ * to endorse or promote products derived from this software without
++ * specific prior written permission.
++ *
++ * ALTERNATIVELY, this software may be distributed under the terms of the
++ * GNU General Public License ("GPL") version 2, as published by the Free
++ * Software Foundation.
++ *
++ * THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS
++ * IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO,
++ * THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR
++ * PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT OWNER OR
++ * CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL,
++ * EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO,
++ * PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR
++ * PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF
++ * LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING
++ * NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS
++ * SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
++ */
++
++#ifndef VCHI_COMMON_H_
++#define VCHI_COMMON_H_
++
++
++//flags used when sending messages (must be bitmapped)
++typedef enum
++{
++ VCHI_FLAGS_NONE = 0x0,
++ VCHI_FLAGS_BLOCK_UNTIL_OP_COMPLETE = 0x1, // waits for message to be received, or sent (NB. not the same as being seen on other side)
++ VCHI_FLAGS_CALLBACK_WHEN_OP_COMPLETE = 0x2, // run a callback when message sent
++ VCHI_FLAGS_BLOCK_UNTIL_QUEUED = 0x4, // return once the transfer is in a queue ready to go
++ VCHI_FLAGS_ALLOW_PARTIAL = 0x8,
++ VCHI_FLAGS_BLOCK_UNTIL_DATA_READ = 0x10,
++ VCHI_FLAGS_CALLBACK_WHEN_DATA_READ = 0x20,
++
++ VCHI_FLAGS_ALIGN_SLOT = 0x000080, // internal use only
++ VCHI_FLAGS_BULK_AUX_QUEUED = 0x010000, // internal use only
++ VCHI_FLAGS_BULK_AUX_COMPLETE = 0x020000, // internal use only
++ VCHI_FLAGS_BULK_DATA_QUEUED = 0x040000, // internal use only
++ VCHI_FLAGS_BULK_DATA_COMPLETE = 0x080000, // internal use only
++ VCHI_FLAGS_INTERNAL = 0xFF0000
++} VCHI_FLAGS_T;
++
++// constants for vchi_crc_control()
++typedef enum {
++ VCHI_CRC_NOTHING = -1,
++ VCHI_CRC_PER_SERVICE = 0,
++ VCHI_CRC_EVERYTHING = 1,
++} VCHI_CRC_CONTROL_T;
++
++//callback reasons when an event occurs on a service
++typedef enum
++{
++ VCHI_CALLBACK_REASON_MIN,
++
++ //This indicates that there is data available
++ //handle is the msg id that was transmitted with the data
++ // When a message is received and there was no FULL message available previously, send callback
++ // Tasks get kicked by the callback, reset their event and try and read from the fifo until it fails
++ VCHI_CALLBACK_MSG_AVAILABLE,
++ VCHI_CALLBACK_MSG_SENT,
++ VCHI_CALLBACK_MSG_SPACE_AVAILABLE, // XXX not yet implemented
++
++ // This indicates that a transfer from the other side has completed
++ VCHI_CALLBACK_BULK_RECEIVED,
++ //This indicates that data queued up to be sent has now gone
++ //handle is the msg id that was used when sending the data
++ VCHI_CALLBACK_BULK_SENT,
++ VCHI_CALLBACK_BULK_RX_SPACE_AVAILABLE, // XXX not yet implemented
++ VCHI_CALLBACK_BULK_TX_SPACE_AVAILABLE, // XXX not yet implemented
++
++ VCHI_CALLBACK_SERVICE_CLOSED,
++
++ // this side has sent XOFF to peer due to lack of data consumption by service
++ // (suggests the service may need to take some recovery action if it has
++ // been deliberately holding off consuming data)
++ VCHI_CALLBACK_SENT_XOFF,
++ VCHI_CALLBACK_SENT_XON,
++
++ // indicates that a bulk transfer has finished reading the source buffer
++ VCHI_CALLBACK_BULK_DATA_READ,
++
++ // power notification events (currently host side only)
++ VCHI_CALLBACK_PEER_OFF,
++ VCHI_CALLBACK_PEER_SUSPENDED,
++ VCHI_CALLBACK_PEER_ON,
++ VCHI_CALLBACK_PEER_RESUMED,
++ VCHI_CALLBACK_FORCED_POWER_OFF,
++
++#ifdef USE_VCHIQ_ARM
++ // some extra notifications provided by vchiq_arm
++ VCHI_CALLBACK_SERVICE_OPENED,
++ VCHI_CALLBACK_BULK_RECEIVE_ABORTED,
++ VCHI_CALLBACK_BULK_TRANSMIT_ABORTED,
++#endif
++
++ VCHI_CALLBACK_REASON_MAX
++} VCHI_CALLBACK_REASON_T;
++
++//Calback used by all services / bulk transfers
++typedef void (*VCHI_CALLBACK_T)( void *callback_param, //my service local param
++ VCHI_CALLBACK_REASON_T reason,
++ void *handle ); //for transmitting msg's only
++
++
++
++/*
++ * Define vector struct for scatter-gather (vector) operations
++ * Vectors can be nested - if a vector element has negative length, then
++ * the data pointer is treated as pointing to another vector array, with
++ * '-vec_len' elements. Thus to append a header onto an existing vector,
++ * you can do this:
++ *
++ * void foo(const VCHI_MSG_VECTOR_T *v, int n)
++ * {
++ * VCHI_MSG_VECTOR_T nv[2];
++ * nv[0].vec_base = my_header;
++ * nv[0].vec_len = sizeof my_header;
++ * nv[1].vec_base = v;
++ * nv[1].vec_len = -n;
++ * ...
++ *
++ */
++typedef struct vchi_msg_vector {
++ const void *vec_base;
++ int32_t vec_len;
++} VCHI_MSG_VECTOR_T;
++
++// Opaque type for a connection API
++typedef struct opaque_vchi_connection_api_t VCHI_CONNECTION_API_T;
++
++// Opaque type for a message driver
++typedef struct opaque_vchi_message_driver_t VCHI_MESSAGE_DRIVER_T;
++
++
++// Iterator structure for reading ahead through received message queue. Allocated by client,
++// initialised by vchi_msg_look_ahead. Fields are for internal VCHI use only.
++// Iterates over messages in queue at the instant of the call to vchi_msg_lookahead -
++// will not proceed to messages received since. Behaviour is undefined if an iterator
++// is used again after messages for that service are removed/dequeued by any
++// means other than vchi_msg_iter_... calls on the iterator itself.
++typedef struct {
++ struct opaque_vchi_service_t *service;
++ void *last;
++ void *next;
++ void *remove;
++} VCHI_MSG_ITER_T;
++
++
++#endif // VCHI_COMMON_H_
+diff -urN linux-3.10/drivers/misc/vc04_services/interface/vchi/vchi.h linux-rpi-3.10.y/drivers/misc/vc04_services/interface/vchi/vchi.h
+--- linux-3.10/drivers/misc/vc04_services/interface/vchi/vchi.h 1970-01-01 01:00:00.000000000 +0100
++++ linux-rpi-3.10.y/drivers/misc/vc04_services/interface/vchi/vchi.h 2013-07-06 15:25:50.000000000 +0100
+@@ -0,0 +1,373 @@
++/**
++ * Copyright (c) 2010-2012 Broadcom. All rights reserved.
++ *
++ * Redistribution and use in source and binary forms, with or without
++ * modification, are permitted provided that the following conditions
++ * are met:
++ * 1. Redistributions of source code must retain the above copyright
++ * notice, this list of conditions, and the following disclaimer,
++ * without modification.
++ * 2. Redistributions in binary form must reproduce the above copyright
++ * notice, this list of conditions and the following disclaimer in the
++ * documentation and/or other materials provided with the distribution.
++ * 3. The names of the above-listed copyright holders may not be used
++ * to endorse or promote products derived from this software without
++ * specific prior written permission.
++ *
++ * ALTERNATIVELY, this software may be distributed under the terms of the
++ * GNU General Public License ("GPL") version 2, as published by the Free
++ * Software Foundation.
++ *
++ * THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS
++ * IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO,
++ * THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR
++ * PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT OWNER OR
++ * CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL,
++ * EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO,
++ * PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR
++ * PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF
++ * LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING
++ * NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS
++ * SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
++ */
++
++#ifndef VCHI_H_
++#define VCHI_H_
++
++#include "interface/vchi/vchi_cfg.h"
++#include "interface/vchi/vchi_common.h"
++#include "interface/vchi/connections/connection.h"
++#include "vchi_mh.h"
++
++
++/******************************************************************************
++ Global defs
++ *****************************************************************************/
++
++#define VCHI_BULK_ROUND_UP(x) ((((unsigned long)(x))+VCHI_BULK_ALIGN-1) & ~(VCHI_BULK_ALIGN-1))
++#define VCHI_BULK_ROUND_DOWN(x) (((unsigned long)(x)) & ~(VCHI_BULK_ALIGN-1))
++#define VCHI_BULK_ALIGN_NBYTES(x) (VCHI_BULK_ALIGNED(x) ? 0 : (VCHI_BULK_ALIGN - ((unsigned long)(x) & (VCHI_BULK_ALIGN-1))))
++
++#ifdef USE_VCHIQ_ARM
++#define VCHI_BULK_ALIGNED(x) 1
++#else
++#define VCHI_BULK_ALIGNED(x) (((unsigned long)(x) & (VCHI_BULK_ALIGN-1)) == 0)
++#endif
++
++struct vchi_version {
++ uint32_t version;
++ uint32_t version_min;
++};
++#define VCHI_VERSION(v_) { v_, v_ }
++#define VCHI_VERSION_EX(v_, m_) { v_, m_ }
++
++typedef enum
++{
++ VCHI_VEC_POINTER,
++ VCHI_VEC_HANDLE,
++ VCHI_VEC_LIST
++} VCHI_MSG_VECTOR_TYPE_T;
++
++typedef struct vchi_msg_vector_ex {
++
++ VCHI_MSG_VECTOR_TYPE_T type;
++ union
++ {
++ // a memory handle
++ struct
++ {
++ VCHI_MEM_HANDLE_T handle;
++ uint32_t offset;
++ int32_t vec_len;
++ } handle;
++
++ // an ordinary data pointer
++ struct
++ {
++ const void *vec_base;
++ int32_t vec_len;
++ } ptr;
++
++ // a nested vector list
++ struct
++ {
++ struct vchi_msg_vector_ex *vec;
++ uint32_t vec_len;
++ } list;
++ } u;
++} VCHI_MSG_VECTOR_EX_T;
++
++
++// Construct an entry in a msg vector for a pointer (p) of length (l)
++#define VCHI_VEC_POINTER(p,l) VCHI_VEC_POINTER, { { (VCHI_MEM_HANDLE_T)(p), (l) } }
++
++// Construct an entry in a msg vector for a message handle (h), starting at offset (o) of length (l)
++#define VCHI_VEC_HANDLE(h,o,l) VCHI_VEC_HANDLE, { { (h), (o), (l) } }
++
++// Macros to manipulate 'FOURCC' values
++#define MAKE_FOURCC(x) ((int32_t)( (x[0] << 24) | (x[1] << 16) | (x[2] << 8) | x[3] ))
++#define FOURCC_TO_CHAR(x) (x >> 24) & 0xFF,(x >> 16) & 0xFF,(x >> 8) & 0xFF, x & 0xFF
++
++
++// Opaque service information
++struct opaque_vchi_service_t;
++
++// Descriptor for a held message. Allocated by client, initialised by vchi_msg_hold,
++// vchi_msg_iter_hold or vchi_msg_iter_hold_next. Fields are for internal VCHI use only.
++typedef struct
++{
++ struct opaque_vchi_service_t *service;
++ void *message;
++} VCHI_HELD_MSG_T;
++
++
++
++// structure used to provide the information needed to open a server or a client
++typedef struct {
++ struct vchi_version version;
++ int32_t service_id;
++ VCHI_CONNECTION_T *connection;
++ uint32_t rx_fifo_size;
++ uint32_t tx_fifo_size;
++ VCHI_CALLBACK_T callback;
++ void *callback_param;
++ /* client intends to receive bulk transfers of
++ odd lengths or into unaligned buffers */
++ int32_t want_unaligned_bulk_rx;
++ /* client intends to transmit bulk transfers of
++ odd lengths or out of unaligned buffers */
++ int32_t want_unaligned_bulk_tx;
++ /* client wants to check CRCs on (bulk) xfers.
++ Only needs to be set at 1 end - will do both directions. */
++ int32_t want_crc;
++} SERVICE_CREATION_T;
++
++// Opaque handle for a VCHI instance
++typedef struct opaque_vchi_instance_handle_t *VCHI_INSTANCE_T;
++
++// Opaque handle for a server or client
++typedef struct opaque_vchi_service_handle_t *VCHI_SERVICE_HANDLE_T;
++
++// Service registration & startup
++typedef void (*VCHI_SERVICE_INIT)(VCHI_INSTANCE_T initialise_instance, VCHI_CONNECTION_T **connections, uint32_t num_connections);
++
++typedef struct service_info_tag {
++ const char * const vll_filename; /* VLL to load to start this service. This is an empty string if VLL is "static" */
++ VCHI_SERVICE_INIT init; /* Service initialisation function */
++ void *vll_handle; /* VLL handle; NULL when unloaded or a "static VLL" in build */
++} SERVICE_INFO_T;
++
++/******************************************************************************
++ Global funcs - implementation is specific to which side you are on (local / remote)
++ *****************************************************************************/
++
++#ifdef __cplusplus
++extern "C" {
++#endif
++
++extern /*@observer@*/ VCHI_CONNECTION_T * vchi_create_connection( const VCHI_CONNECTION_API_T * function_table,
++ const VCHI_MESSAGE_DRIVER_T * low_level);
++
++
++// Routine used to initialise the vchi on both local + remote connections
++extern int32_t vchi_initialise( VCHI_INSTANCE_T *instance_handle );
++
++extern int32_t vchi_exit( void );
++
++extern int32_t vchi_connect( VCHI_CONNECTION_T **connections,
++ const uint32_t num_connections,
++ VCHI_INSTANCE_T instance_handle );
++
++//When this is called, ensure that all services have no data pending.
++//Bulk transfers can remain 'queued'
++extern int32_t vchi_disconnect( VCHI_INSTANCE_T instance_handle );
++
++// Global control over bulk CRC checking
++extern int32_t vchi_crc_control( VCHI_CONNECTION_T *connection,
++ VCHI_CRC_CONTROL_T control );
++
++// helper functions
++extern void * vchi_allocate_buffer(VCHI_SERVICE_HANDLE_T handle, uint32_t *length);
++extern void vchi_free_buffer(VCHI_SERVICE_HANDLE_T handle, void *address);
++extern uint32_t vchi_current_time(VCHI_INSTANCE_T instance_handle);
++
++
++/******************************************************************************
++ Global service API
++ *****************************************************************************/
++// Routine to create a named service
++extern int32_t vchi_service_create( VCHI_INSTANCE_T instance_handle,
++ SERVICE_CREATION_T *setup,
++ VCHI_SERVICE_HANDLE_T *handle );
++
++// Routine to destory a service
++extern int32_t vchi_service_destroy( const VCHI_SERVICE_HANDLE_T handle );
++
++// Routine to open a named service
++extern int32_t vchi_service_open( VCHI_INSTANCE_T instance_handle,
++ SERVICE_CREATION_T *setup,
++ VCHI_SERVICE_HANDLE_T *handle);
++
++extern int32_t vchi_get_peer_version( const VCHI_SERVICE_HANDLE_T handle,
++ short *peer_version );
++
++// Routine to close a named service
++extern int32_t vchi_service_close( const VCHI_SERVICE_HANDLE_T handle );
++
++// Routine to increment ref count on a named service
++extern int32_t vchi_service_use( const VCHI_SERVICE_HANDLE_T handle );
++
++// Routine to decrement ref count on a named service
++extern int32_t vchi_service_release( const VCHI_SERVICE_HANDLE_T handle );
++
++// Routine to send a message accross a service
++extern int32_t vchi_msg_queue( VCHI_SERVICE_HANDLE_T handle,
++ const void *data,
++ uint32_t data_size,
++ VCHI_FLAGS_T flags,
++ void *msg_handle );
++
++// scatter-gather (vector) and send message
++int32_t vchi_msg_queuev_ex( VCHI_SERVICE_HANDLE_T handle,
++ VCHI_MSG_VECTOR_EX_T *vector,
++ uint32_t count,
++ VCHI_FLAGS_T flags,
++ void *msg_handle );
++
++// legacy scatter-gather (vector) and send message, only handles pointers
++int32_t vchi_msg_queuev( VCHI_SERVICE_HANDLE_T handle,
++ VCHI_MSG_VECTOR_T *vector,
++ uint32_t count,
++ VCHI_FLAGS_T flags,
++ void *msg_handle );
++
++// Routine to receive a msg from a service
++// Dequeue is equivalent to hold, copy into client buffer, release
++extern int32_t vchi_msg_dequeue( VCHI_SERVICE_HANDLE_T handle,
++ void *data,
++ uint32_t max_data_size_to_read,
++ uint32_t *actual_msg_size,
++ VCHI_FLAGS_T flags );
++
++// Routine to look at a message in place.
++// The message is not dequeued, so a subsequent call to peek or dequeue
++// will return the same message.
++extern int32_t vchi_msg_peek( VCHI_SERVICE_HANDLE_T handle,
++ void **data,
++ uint32_t *msg_size,
++ VCHI_FLAGS_T flags );
++
++// Routine to remove a message after it has been read in place with peek
++// The first message on the queue is dequeued.
++extern int32_t vchi_msg_remove( VCHI_SERVICE_HANDLE_T handle );
++
++// Routine to look at a message in place.
++// The message is dequeued, so the caller is left holding it; the descriptor is
++// filled in and must be released when the user has finished with the message.
++extern int32_t vchi_msg_hold( VCHI_SERVICE_HANDLE_T handle,
++ void **data, // } may be NULL, as info can be
++ uint32_t *msg_size, // } obtained from HELD_MSG_T
++ VCHI_FLAGS_T flags,
++ VCHI_HELD_MSG_T *message_descriptor );
++
++// Initialise an iterator to look through messages in place
++extern int32_t vchi_msg_look_ahead( VCHI_SERVICE_HANDLE_T handle,
++ VCHI_MSG_ITER_T *iter,
++ VCHI_FLAGS_T flags );
++
++/******************************************************************************
++ Global service support API - operations on held messages and message iterators
++ *****************************************************************************/
++
++// Routine to get the address of a held message
++extern void *vchi_held_msg_ptr( const VCHI_HELD_MSG_T *message );
++
++// Routine to get the size of a held message
++extern int32_t vchi_held_msg_size( const VCHI_HELD_MSG_T *message );
++
++// Routine to get the transmit timestamp as written into the header by the peer
++extern uint32_t vchi_held_msg_tx_timestamp( const VCHI_HELD_MSG_T *message );
++
++// Routine to get the reception timestamp, written as we parsed the header
++extern uint32_t vchi_held_msg_rx_timestamp( const VCHI_HELD_MSG_T *message );
++
++// Routine to release a held message after it has been processed
++extern int32_t vchi_held_msg_release( VCHI_HELD_MSG_T *message );
++
++// Indicates whether the iterator has a next message.
++extern int32_t vchi_msg_iter_has_next( const VCHI_MSG_ITER_T *iter );
++
++// Return the pointer and length for the next message and advance the iterator.
++extern int32_t vchi_msg_iter_next( VCHI_MSG_ITER_T *iter,
++ void **data,
++ uint32_t *msg_size );
++
++// Remove the last message returned by vchi_msg_iter_next.
++// Can only be called once after each call to vchi_msg_iter_next.
++extern int32_t vchi_msg_iter_remove( VCHI_MSG_ITER_T *iter );
++
++// Hold the last message returned by vchi_msg_iter_next.
++// Can only be called once after each call to vchi_msg_iter_next.
++extern int32_t vchi_msg_iter_hold( VCHI_MSG_ITER_T *iter,
++ VCHI_HELD_MSG_T *message );
++
++// Return information for the next message, and hold it, advancing the iterator.
++extern int32_t vchi_msg_iter_hold_next( VCHI_MSG_ITER_T *iter,
++ void **data, // } may be NULL
++ uint32_t *msg_size, // }
++ VCHI_HELD_MSG_T *message );
++
++
++/******************************************************************************
++ Global bulk API
++ *****************************************************************************/
++
++// Routine to prepare interface for a transfer from the other side
++extern int32_t vchi_bulk_queue_receive( VCHI_SERVICE_HANDLE_T handle,
++ void *data_dst,
++ uint32_t data_size,
++ VCHI_FLAGS_T flags,
++ void *transfer_handle );
++
++
++// Prepare interface for a transfer from the other side into relocatable memory.
++int32_t vchi_bulk_queue_receive_reloc( const VCHI_SERVICE_HANDLE_T handle,
++ VCHI_MEM_HANDLE_T h_dst,
++ uint32_t offset,
++ uint32_t data_size,
++ const VCHI_FLAGS_T flags,
++ void * const bulk_handle );
++
++// Routine to queue up data ready for transfer to the other (once they have signalled they are ready)
++extern int32_t vchi_bulk_queue_transmit( VCHI_SERVICE_HANDLE_T handle,
++ const void *data_src,
++ uint32_t data_size,
++ VCHI_FLAGS_T flags,
++ void *transfer_handle );
++
++
++/******************************************************************************
++ Configuration plumbing
++ *****************************************************************************/
++
++// function prototypes for the different mid layers (the state info gives the different physical connections)
++extern const VCHI_CONNECTION_API_T *single_get_func_table( void );
++//extern const VCHI_CONNECTION_API_T *local_server_get_func_table( void );
++//extern const VCHI_CONNECTION_API_T *local_client_get_func_table( void );
++
++// declare all message drivers here
++const VCHI_MESSAGE_DRIVER_T *vchi_mphi_message_driver_func_table( void );
++
++#ifdef __cplusplus
++}
++#endif
++
++extern int32_t vchi_bulk_queue_transmit_reloc( VCHI_SERVICE_HANDLE_T handle,
++ VCHI_MEM_HANDLE_T h_src,
++ uint32_t offset,
++ uint32_t data_size,
++ VCHI_FLAGS_T flags,
++ void *transfer_handle );
++#endif /* VCHI_H_ */
++
++/****************************** End of file **********************************/
+diff -urN linux-3.10/drivers/misc/vc04_services/interface/vchi/vchi_mh.h linux-rpi-3.10.y/drivers/misc/vc04_services/interface/vchi/vchi_mh.h
+--- linux-3.10/drivers/misc/vc04_services/interface/vchi/vchi_mh.h 1970-01-01 01:00:00.000000000 +0100
++++ linux-rpi-3.10.y/drivers/misc/vc04_services/interface/vchi/vchi_mh.h 2013-07-06 15:25:50.000000000 +0100
+@@ -0,0 +1,42 @@
++/**
++ * Copyright (c) 2010-2012 Broadcom. All rights reserved.
++ *
++ * Redistribution and use in source and binary forms, with or without
++ * modification, are permitted provided that the following conditions
++ * are met:
++ * 1. Redistributions of source code must retain the above copyright
++ * notice, this list of conditions, and the following disclaimer,
++ * without modification.
++ * 2. Redistributions in binary form must reproduce the above copyright
++ * notice, this list of conditions and the following disclaimer in the
++ * documentation and/or other materials provided with the distribution.
++ * 3. The names of the above-listed copyright holders may not be used
++ * to endorse or promote products derived from this software without
++ * specific prior written permission.
++ *
++ * ALTERNATIVELY, this software may be distributed under the terms of the
++ * GNU General Public License ("GPL") version 2, as published by the Free
++ * Software Foundation.
++ *
++ * THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS
++ * IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO,
++ * THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR
++ * PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT OWNER OR
++ * CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL,
++ * EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO,
++ * PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR
++ * PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF
++ * LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING
++ * NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS
++ * SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
++ */
++
++#ifndef VCHI_MH_H_
++#define VCHI_MH_H_
++
++#include <linux/types.h>
++
++typedef int32_t VCHI_MEM_HANDLE_T;
++#define VCHI_MEM_HANDLE_INVALID 0
++
++#endif
+diff -urN linux-3.10/drivers/misc/vc04_services/interface/vchiq_arm/vchiq_2835_arm.c linux-rpi-3.10.y/drivers/misc/vc04_services/interface/vchiq_arm/vchiq_2835_arm.c
+--- linux-3.10/drivers/misc/vc04_services/interface/vchiq_arm/vchiq_2835_arm.c 1970-01-01 01:00:00.000000000 +0100
++++ linux-rpi-3.10.y/drivers/misc/vc04_services/interface/vchiq_arm/vchiq_2835_arm.c 2013-07-06 15:25:50.000000000 +0100
+@@ -0,0 +1,538 @@
++/**
++ * Copyright (c) 2010-2012 Broadcom. All rights reserved.
++ *
++ * Redistribution and use in source and binary forms, with or without
++ * modification, are permitted provided that the following conditions
++ * are met:
++ * 1. Redistributions of source code must retain the above copyright
++ * notice, this list of conditions, and the following disclaimer,
++ * without modification.
++ * 2. Redistributions in binary form must reproduce the above copyright
++ * notice, this list of conditions and the following disclaimer in the
++ * documentation and/or other materials provided with the distribution.
++ * 3. The names of the above-listed copyright holders may not be used
++ * to endorse or promote products derived from this software without
++ * specific prior written permission.
++ *
++ * ALTERNATIVELY, this software may be distributed under the terms of the
++ * GNU General Public License ("GPL") version 2, as published by the Free
++ * Software Foundation.
++ *
++ * THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS
++ * IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO,
++ * THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR
++ * PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT OWNER OR
++ * CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL,
++ * EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO,
++ * PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR
++ * PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF
++ * LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING
++ * NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS
++ * SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
++ */
++
++#include <linux/kernel.h>
++#include <linux/types.h>
++#include <linux/errno.h>
++#include <linux/interrupt.h>
++#include <linux/irq.h>
++#include <linux/pagemap.h>
++#include <linux/dma-mapping.h>
++#include <linux/version.h>
++#include <linux/io.h>
++#include <linux/uaccess.h>
++#include <asm/pgtable.h>
++
++#include <mach/irqs.h>
++
++#include <mach/platform.h>
++#include <mach/vcio.h>
++
++#define TOTAL_SLOTS (VCHIQ_SLOT_ZERO_SLOTS + 2 * 32)
++
++#define VCHIQ_DOORBELL_IRQ IRQ_ARM_DOORBELL_0
++#define VCHIQ_ARM_ADDRESS(x) ((void *)__virt_to_bus((unsigned)x))
++
++#include "vchiq_arm.h"
++#include "vchiq_2835.h"
++#include "vchiq_connected.h"
++
++#define MAX_FRAGMENTS (VCHIQ_NUM_CURRENT_BULKS * 2)
++
++typedef struct vchiq_2835_state_struct {
++ int inited;
++ VCHIQ_ARM_STATE_T arm_state;
++} VCHIQ_2835_ARM_STATE_T;
++
++static char *g_slot_mem;
++static int g_slot_mem_size;
++dma_addr_t g_slot_phys;
++static FRAGMENTS_T *g_fragments_base;
++static FRAGMENTS_T *g_free_fragments;
++struct semaphore g_free_fragments_sema;
++
++extern int vchiq_arm_log_level;
++
++static DEFINE_SEMAPHORE(g_free_fragments_mutex);
++
++static irqreturn_t
++vchiq_doorbell_irq(int irq, void *dev_id);
++
++static int
++create_pagelist(char __user *buf, size_t count, unsigned short type,
++ struct task_struct *task, PAGELIST_T ** ppagelist);
++
++static void
++free_pagelist(PAGELIST_T *pagelist, int actual);
++
++int __init
++vchiq_platform_init(VCHIQ_STATE_T *state)
++{
++ VCHIQ_SLOT_ZERO_T *vchiq_slot_zero;
++ int frag_mem_size;
++ int err;
++ int i;
++
++ /* Allocate space for the channels in coherent memory */
++ g_slot_mem_size = PAGE_ALIGN(TOTAL_SLOTS * VCHIQ_SLOT_SIZE);
++ frag_mem_size = PAGE_ALIGN(sizeof(FRAGMENTS_T) * MAX_FRAGMENTS);
++
++ g_slot_mem = dma_alloc_coherent(NULL, g_slot_mem_size + frag_mem_size,
++ &g_slot_phys, GFP_ATOMIC);
++
++ if (!g_slot_mem) {
++ vchiq_log_error(vchiq_arm_log_level,
++ "Unable to allocate channel memory");
++ err = -ENOMEM;
++ goto failed_alloc;
++ }
++
++ WARN_ON(((int)g_slot_mem & (PAGE_SIZE - 1)) != 0);
++
++ vchiq_slot_zero = vchiq_init_slots(g_slot_mem, g_slot_mem_size);
++ if (!vchiq_slot_zero) {
++ err = -EINVAL;
++ goto failed_init_slots;
++ }
++
++ vchiq_slot_zero->platform_data[VCHIQ_PLATFORM_FRAGMENTS_OFFSET_IDX] =
++ (int)g_slot_phys + g_slot_mem_size;
++ vchiq_slot_zero->platform_data[VCHIQ_PLATFORM_FRAGMENTS_COUNT_IDX] =
++ MAX_FRAGMENTS;
++
++ g_fragments_base = (FRAGMENTS_T *)(g_slot_mem + g_slot_mem_size);
++ g_slot_mem_size += frag_mem_size;
++
++ g_free_fragments = g_fragments_base;
++ for (i = 0; i < (MAX_FRAGMENTS - 1); i++) {
++ *(FRAGMENTS_T **)&g_fragments_base[i] =
++ &g_fragments_base[i + 1];
++ }
++ *(FRAGMENTS_T **)&g_fragments_base[i] = NULL;
++ sema_init(&g_free_fragments_sema, MAX_FRAGMENTS);
++
++ if (vchiq_init_state(state, vchiq_slot_zero, 0/*slave*/) !=
++ VCHIQ_SUCCESS) {
++ err = -EINVAL;
++ goto failed_vchiq_init;
++ }
++
++ err = request_irq(VCHIQ_DOORBELL_IRQ, vchiq_doorbell_irq,
++ IRQF_IRQPOLL, "VCHIQ doorbell",
++ state);
++ if (err < 0) {
++ vchiq_log_error(vchiq_arm_log_level, "%s: failed to register "
++ "irq=%d err=%d", __func__,
++ VCHIQ_DOORBELL_IRQ, err);
++ goto failed_request_irq;
++ }
++
++ /* Send the base address of the slots to VideoCore */
++
++ dsb(); /* Ensure all writes have completed */
++
++ bcm_mailbox_write(MBOX_CHAN_VCHIQ, (unsigned int)g_slot_phys);
++
++ vchiq_log_info(vchiq_arm_log_level,
++ "vchiq_init - done (slots %x, phys %x)",
++ (unsigned int)vchiq_slot_zero, g_slot_phys);
++
++ vchiq_call_connected_callbacks();
++
++ return 0;
++
++failed_request_irq:
++failed_vchiq_init:
++failed_init_slots:
++ dma_free_coherent(NULL, g_slot_mem_size, g_slot_mem, g_slot_phys);
++
++failed_alloc:
++ return err;
++}
++
++void __exit
++vchiq_platform_exit(VCHIQ_STATE_T *state)
++{
++ free_irq(VCHIQ_DOORBELL_IRQ, state);
++ dma_free_coherent(NULL, g_slot_mem_size,
++ g_slot_mem, g_slot_phys);
++}
++
++
++VCHIQ_STATUS_T
++vchiq_platform_init_state(VCHIQ_STATE_T *state)
++{
++ VCHIQ_STATUS_T status = VCHIQ_SUCCESS;
++ state->platform_state = kzalloc(sizeof(VCHIQ_2835_ARM_STATE_T), GFP_KERNEL);
++ ((VCHIQ_2835_ARM_STATE_T*)state->platform_state)->inited = 1;
++ status = vchiq_arm_init_state(state, &((VCHIQ_2835_ARM_STATE_T*)state->platform_state)->arm_state);
++ if(status != VCHIQ_SUCCESS)
++ {
++ ((VCHIQ_2835_ARM_STATE_T*)state->platform_state)->inited = 0;
++ }
++ return status;
++}
++
++VCHIQ_ARM_STATE_T*
++vchiq_platform_get_arm_state(VCHIQ_STATE_T *state)
++{
++ if(!((VCHIQ_2835_ARM_STATE_T*)state->platform_state)->inited)
++ {
++ BUG();
++ }
++ return &((VCHIQ_2835_ARM_STATE_T*)state->platform_state)->arm_state;
++}
++
++void
++remote_event_signal(REMOTE_EVENT_T *event)
++{
++ wmb();
++
++ event->fired = 1;
++
++ dsb(); /* data barrier operation */
++
++ if (event->armed) {
++ /* trigger vc interrupt */
++
++ writel(0, __io_address(ARM_0_BELL2));
++ }
++}
++
++int
++vchiq_copy_from_user(void *dst, const void *src, int size)
++{
++ if ((uint32_t)src < TASK_SIZE) {
++ return copy_from_user(dst, src, size);
++ } else {
++ memcpy(dst, src, size);
++ return 0;
++ }
++}
++
++VCHIQ_STATUS_T
++vchiq_prepare_bulk_data(VCHIQ_BULK_T *bulk, VCHI_MEM_HANDLE_T memhandle,
++ void *offset, int size, int dir)
++{
++ PAGELIST_T *pagelist;
++ int ret;
++
++ WARN_ON(memhandle != VCHI_MEM_HANDLE_INVALID);
++
++ ret = create_pagelist((char __user *)offset, size,
++ (dir == VCHIQ_BULK_RECEIVE)
++ ? PAGELIST_READ
++ : PAGELIST_WRITE,
++ current,
++ &pagelist);
++ if (ret != 0)
++ return VCHIQ_ERROR;
++
++ bulk->handle = memhandle;
++ bulk->data = VCHIQ_ARM_ADDRESS(pagelist);
++
++ /* Store the pagelist address in remote_data, which isn't used by the
++ slave. */
++ bulk->remote_data = pagelist;
++
++ return VCHIQ_SUCCESS;
++}
++
++void
++vchiq_complete_bulk(VCHIQ_BULK_T *bulk)
++{
++ if (bulk && bulk->remote_data && bulk->actual)
++ free_pagelist((PAGELIST_T *)bulk->remote_data, bulk->actual);
++}
++
++void
++vchiq_transfer_bulk(VCHIQ_BULK_T *bulk)
++{
++ /*
++ * This should only be called on the master (VideoCore) side, but
++ * provide an implementation to avoid the need for ifdefery.
++ */
++ BUG();
++}
++
++void
++vchiq_dump_platform_state(void *dump_context)
++{
++ char buf[80];
++ int len;
++ len = snprintf(buf, sizeof(buf),
++ " Platform: 2835 (VC master)");
++ vchiq_dump(dump_context, buf, len + 1);
++}
++
++VCHIQ_STATUS_T
++vchiq_platform_suspend(VCHIQ_STATE_T *state)
++{
++ return VCHIQ_ERROR;
++}
++
++VCHIQ_STATUS_T
++vchiq_platform_resume(VCHIQ_STATE_T *state)
++{
++ return VCHIQ_SUCCESS;
++}
++
++void
++vchiq_platform_paused(VCHIQ_STATE_T *state)
++{
++}
++
++void
++vchiq_platform_resumed(VCHIQ_STATE_T *state)
++{
++}
++
++int
++vchiq_platform_videocore_wanted(VCHIQ_STATE_T* state)
++{
++ return 1; // autosuspend not supported - videocore always wanted
++}
++
++int
++vchiq_platform_use_suspend_timer(void)
++{
++ return 0;
++}
++void
++vchiq_dump_platform_use_state(VCHIQ_STATE_T *state)
++{
++ vchiq_log_info((vchiq_arm_log_level>=VCHIQ_LOG_INFO),"Suspend timer not in use");
++}
++void
++vchiq_platform_handle_timeout(VCHIQ_STATE_T *state)
++{
++ (void)state;
++}
++/*
++ * Local functions
++ */
++
++static irqreturn_t
++vchiq_doorbell_irq(int irq, void *dev_id)
++{
++ VCHIQ_STATE_T *state = dev_id;
++ irqreturn_t ret = IRQ_NONE;
++ unsigned int status;
++
++ /* Read (and clear) the doorbell */
++ status = readl(__io_address(ARM_0_BELL0));
++
++ if (status & 0x4) { /* Was the doorbell rung? */
++ remote_event_pollall(state);
++ ret = IRQ_HANDLED;
++ }
++
++ return ret;
++}
++
++/* There is a potential problem with partial cache lines (pages?)
++** at the ends of the block when reading. If the CPU accessed anything in
++** the same line (page?) then it may have pulled old data into the cache,
++** obscuring the new data underneath. We can solve this by transferring the
++** partial cache lines separately, and allowing the ARM to copy into the
++** cached area.
++
++** N.B. This implementation plays slightly fast and loose with the Linux
++** driver programming rules, e.g. its use of __virt_to_bus instead of
++** dma_map_single, but it isn't a multi-platform driver and it benefits
++** from increased speed as a result.
++*/
++
++static int
++create_pagelist(char __user *buf, size_t count, unsigned short type,
++ struct task_struct *task, PAGELIST_T ** ppagelist)
++{
++ PAGELIST_T *pagelist;
++ struct page **pages;
++ struct page *page;
++ unsigned long *addrs;
++ unsigned int num_pages, offset, i;
++ char *addr, *base_addr, *next_addr;
++ int run, addridx, actual_pages;
++
++ offset = (unsigned int)buf & (PAGE_SIZE - 1);
++ num_pages = (count + offset + PAGE_SIZE - 1) / PAGE_SIZE;
++
++ *ppagelist = NULL;
++
++ /* Allocate enough storage to hold the page pointers and the page
++ ** list
++ */
++ pagelist = kmalloc(sizeof(PAGELIST_T) +
++ (num_pages * sizeof(unsigned long)) +
++ (num_pages * sizeof(pages[0])),
++ GFP_KERNEL);
++
++ vchiq_log_trace(vchiq_arm_log_level,
++ "create_pagelist - %x", (unsigned int)pagelist);
++ if (!pagelist)
++ return -ENOMEM;
++
++ addrs = pagelist->addrs;
++ pages = (struct page **)(addrs + num_pages);
++
++ down_read(&task->mm->mmap_sem);
++ actual_pages = get_user_pages(task, task->mm,
++ (unsigned long)buf & ~(PAGE_SIZE - 1), num_pages,
++ (type == PAGELIST_READ) /*Write */ , 0 /*Force */ ,
++ pages, NULL /*vmas */);
++ up_read(&task->mm->mmap_sem);
++
++ if (actual_pages != num_pages)
++ {
++ /* This is probably due to the process being killed */
++ while (actual_pages > 0)
++ {
++ actual_pages--;
++ page_cache_release(pages[actual_pages]);
++ }
++ kfree(pagelist);
++ if (actual_pages == 0)
++ actual_pages = -ENOMEM;
++ return actual_pages;
++ }
++
++ pagelist->length = count;
++ pagelist->type = type;
++ pagelist->offset = offset;
++
++ /* Group the pages into runs of contiguous pages */
++
++ base_addr = VCHIQ_ARM_ADDRESS(page_address(pages[0]));
++ next_addr = base_addr + PAGE_SIZE;
++ addridx = 0;
++ run = 0;
++
++ for (i = 1; i < num_pages; i++) {
++ addr = VCHIQ_ARM_ADDRESS(page_address(pages[i]));
++ if ((addr == next_addr) && (run < (PAGE_SIZE - 1))) {
++ next_addr += PAGE_SIZE;
++ run++;
++ } else {
++ addrs[addridx] = (unsigned long)base_addr + run;
++ addridx++;
++ base_addr = addr;
++ next_addr = addr + PAGE_SIZE;
++ run = 0;
++ }
++ }
++
++ addrs[addridx] = (unsigned long)base_addr + run;
++ addridx++;
++
++ /* Partial cache lines (fragments) require special measures */
++ if ((type == PAGELIST_READ) &&
++ ((pagelist->offset & (CACHE_LINE_SIZE - 1)) ||
++ ((pagelist->offset + pagelist->length) &
++ (CACHE_LINE_SIZE - 1)))) {
++ FRAGMENTS_T *fragments;
++
++ if (down_interruptible(&g_free_fragments_sema) != 0) {
++ kfree(pagelist);
++ return -EINTR;
++ }
++
++ WARN_ON(g_free_fragments == NULL);
++
++ down(&g_free_fragments_mutex);
++ fragments = (FRAGMENTS_T *) g_free_fragments;
++ WARN_ON(fragments == NULL);
++ g_free_fragments = *(FRAGMENTS_T **) g_free_fragments;
++ up(&g_free_fragments_mutex);
++ pagelist->type =
++ PAGELIST_READ_WITH_FRAGMENTS + (fragments -
++ g_fragments_base);
++ }
++
++ for (page = virt_to_page(pagelist);
++ page <= virt_to_page(addrs + num_pages - 1); page++) {
++ flush_dcache_page(page);
++ }
++
++ *ppagelist = pagelist;
++
++ return 0;
++}
++
++static void
++free_pagelist(PAGELIST_T *pagelist, int actual)
++{
++ struct page **pages;
++ unsigned int num_pages, i;
++
++ vchiq_log_trace(vchiq_arm_log_level,
++ "free_pagelist - %x, %d", (unsigned int)pagelist, actual);
++
++ num_pages =
++ (pagelist->length + pagelist->offset + PAGE_SIZE - 1) /
++ PAGE_SIZE;
++
++ pages = (struct page **)(pagelist->addrs + num_pages);
++
++ /* Deal with any partial cache lines (fragments) */
++ if (pagelist->type >= PAGELIST_READ_WITH_FRAGMENTS) {
++ FRAGMENTS_T *fragments = g_fragments_base +
++ (pagelist->type - PAGELIST_READ_WITH_FRAGMENTS);
++ int head_bytes, tail_bytes;
++ head_bytes = (CACHE_LINE_SIZE - pagelist->offset) &
++ (CACHE_LINE_SIZE - 1);
++ tail_bytes = (pagelist->offset + actual) &
++ (CACHE_LINE_SIZE - 1);
++
++ if ((actual >= 0) && (head_bytes != 0)) {
++ if (head_bytes > actual)
++ head_bytes = actual;
++
++ memcpy((char *)page_address(pages[0]) +
++ pagelist->offset,
++ fragments->headbuf,
++ head_bytes);
++ }
++ if ((actual >= 0) && (head_bytes < actual) &&
++ (tail_bytes != 0)) {
++ memcpy((char *)page_address(pages[num_pages - 1]) +
++ ((pagelist->offset + actual) &
++ (PAGE_SIZE - 1) & ~(CACHE_LINE_SIZE - 1)),
++ fragments->tailbuf, tail_bytes);
++ }
++
++ down(&g_free_fragments_mutex);
++ *(FRAGMENTS_T **) fragments = g_free_fragments;
++ g_free_fragments = fragments;
++ up(&g_free_fragments_mutex);
++ up(&g_free_fragments_sema);
++ }
++
++ for (i = 0; i < num_pages; i++) {
++ if (pagelist->type != PAGELIST_WRITE)
++ set_page_dirty(pages[i]);
++ page_cache_release(pages[i]);
++ }
++
++ kfree(pagelist);
++}
+diff -urN linux-3.10/drivers/misc/vc04_services/interface/vchiq_arm/vchiq_2835.h linux-rpi-3.10.y/drivers/misc/vc04_services/interface/vchiq_arm/vchiq_2835.h
+--- linux-3.10/drivers/misc/vc04_services/interface/vchiq_arm/vchiq_2835.h 1970-01-01 01:00:00.000000000 +0100
++++ linux-rpi-3.10.y/drivers/misc/vc04_services/interface/vchiq_arm/vchiq_2835.h 2013-07-06 15:25:50.000000000 +0100
+@@ -0,0 +1,42 @@
++/**
++ * Copyright (c) 2010-2012 Broadcom. All rights reserved.
++ *
++ * Redistribution and use in source and binary forms, with or without
++ * modification, are permitted provided that the following conditions
++ * are met:
++ * 1. Redistributions of source code must retain the above copyright
++ * notice, this list of conditions, and the following disclaimer,
++ * without modification.
++ * 2. Redistributions in binary form must reproduce the above copyright
++ * notice, this list of conditions and the following disclaimer in the
++ * documentation and/or other materials provided with the distribution.
++ * 3. The names of the above-listed copyright holders may not be used
++ * to endorse or promote products derived from this software without
++ * specific prior written permission.
++ *
++ * ALTERNATIVELY, this software may be distributed under the terms of the
++ * GNU General Public License ("GPL") version 2, as published by the Free
++ * Software Foundation.
++ *
++ * THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS
++ * IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO,
++ * THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR
++ * PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT OWNER OR
++ * CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL,
++ * EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO,
++ * PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR
++ * PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF
++ * LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING
++ * NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS
++ * SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
++ */
++
++#ifndef VCHIQ_2835_H
++#define VCHIQ_2835_H
++
++#include "vchiq_pagelist.h"
++
++#define VCHIQ_PLATFORM_FRAGMENTS_OFFSET_IDX 0
++#define VCHIQ_PLATFORM_FRAGMENTS_COUNT_IDX 1
++
++#endif /* VCHIQ_2835_H */
+diff -urN linux-3.10/drivers/misc/vc04_services/interface/vchiq_arm/vchiq_arm.c linux-rpi-3.10.y/drivers/misc/vc04_services/interface/vchiq_arm/vchiq_arm.c
+--- linux-3.10/drivers/misc/vc04_services/interface/vchiq_arm/vchiq_arm.c 1970-01-01 01:00:00.000000000 +0100
++++ linux-rpi-3.10.y/drivers/misc/vc04_services/interface/vchiq_arm/vchiq_arm.c 2013-07-06 15:25:50.000000000 +0100
+@@ -0,0 +1,2806 @@
++/**
++ * Copyright (c) 2010-2012 Broadcom. All rights reserved.
++ *
++ * Redistribution and use in source and binary forms, with or without
++ * modification, are permitted provided that the following conditions
++ * are met:
++ * 1. Redistributions of source code must retain the above copyright
++ * notice, this list of conditions, and the following disclaimer,
++ * without modification.
++ * 2. Redistributions in binary form must reproduce the above copyright
++ * notice, this list of conditions and the following disclaimer in the
++ * documentation and/or other materials provided with the distribution.
++ * 3. The names of the above-listed copyright holders may not be used
++ * to endorse or promote products derived from this software without
++ * specific prior written permission.
++ *
++ * ALTERNATIVELY, this software may be distributed under the terms of the
++ * GNU General Public License ("GPL") version 2, as published by the Free
++ * Software Foundation.
++ *
++ * THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS
++ * IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO,
++ * THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR
++ * PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT OWNER OR
++ * CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL,
++ * EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO,
++ * PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR
++ * PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF
++ * LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING
++ * NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS
++ * SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
++ */
++
++#include <linux/kernel.h>
++#include <linux/module.h>
++#include <linux/types.h>
++#include <linux/errno.h>
++#include <linux/cdev.h>
++#include <linux/fs.h>
++#include <linux/device.h>
++#include <linux/mm.h>
++#include <linux/highmem.h>
++#include <linux/pagemap.h>
++#include <linux/bug.h>
++#include <linux/semaphore.h>
++#include <linux/list.h>
++#include <linux/proc_fs.h>
++
++#include "vchiq_core.h"
++#include "vchiq_ioctl.h"
++#include "vchiq_arm.h"
++
++#define DEVICE_NAME "vchiq"
++
++/* Override the default prefix, which would be vchiq_arm (from the filename) */
++#undef MODULE_PARAM_PREFIX
++#define MODULE_PARAM_PREFIX DEVICE_NAME "."
++
++#define VCHIQ_MINOR 0
++
++/* Some per-instance constants */
++#define MAX_COMPLETIONS 16
++#define MAX_SERVICES 64
++#define MAX_ELEMENTS 8
++#define MSG_QUEUE_SIZE 64
++
++#define KEEPALIVE_VER 1
++#define KEEPALIVE_VER_MIN KEEPALIVE_VER
++
++/* Run time control of log level, based on KERN_XXX level. */
++int vchiq_arm_log_level = VCHIQ_LOG_DEFAULT;
++int vchiq_susp_log_level = VCHIQ_LOG_ERROR;
++
++#define SUSPEND_TIMER_TIMEOUT_MS 100
++#define SUSPEND_RETRY_TIMER_TIMEOUT_MS 1000
++
++#define VC_SUSPEND_NUM_OFFSET 3 /* number of values before idle which are -ve */
++static const char *const suspend_state_names[] = {
++ "VC_SUSPEND_FORCE_CANCELED",
++ "VC_SUSPEND_REJECTED",
++ "VC_SUSPEND_FAILED",
++ "VC_SUSPEND_IDLE",
++ "VC_SUSPEND_REQUESTED",
++ "VC_SUSPEND_IN_PROGRESS",
++ "VC_SUSPEND_SUSPENDED"
++};
++#define VC_RESUME_NUM_OFFSET 1 /* number of values before idle which are -ve */
++static const char *const resume_state_names[] = {
++ "VC_RESUME_FAILED",
++ "VC_RESUME_IDLE",
++ "VC_RESUME_REQUESTED",
++ "VC_RESUME_IN_PROGRESS",
++ "VC_RESUME_RESUMED"
++};
++/* The number of times we allow force suspend to timeout before actually
++** _forcing_ suspend. This is to cater for SW which fails to release vchiq
++** correctly - we don't want to prevent ARM suspend indefinitely in this case.
++*/
++#define FORCE_SUSPEND_FAIL_MAX 8
++
++/* The time in ms allowed for videocore to go idle when force suspend has been
++ * requested */
++#define FORCE_SUSPEND_TIMEOUT_MS 200
++
++
++static void suspend_timer_callback(unsigned long context);
++static int vchiq_proc_add_instance(VCHIQ_INSTANCE_T instance);
++static void vchiq_proc_remove_instance(VCHIQ_INSTANCE_T instance);
++
++
++typedef struct user_service_struct {
++ VCHIQ_SERVICE_T *service;
++ void *userdata;
++ VCHIQ_INSTANCE_T instance;
++ int is_vchi;
++ int dequeue_pending;
++ int message_available_pos;
++ int msg_insert;
++ int msg_remove;
++ struct semaphore insert_event;
++ struct semaphore remove_event;
++ VCHIQ_HEADER_T * msg_queue[MSG_QUEUE_SIZE];
++} USER_SERVICE_T;
++
++struct bulk_waiter_node {
++ struct bulk_waiter bulk_waiter;
++ int pid;
++ struct list_head list;
++};
++
++struct vchiq_instance_struct {
++ VCHIQ_STATE_T *state;
++ VCHIQ_COMPLETION_DATA_T completions[MAX_COMPLETIONS];
++ int completion_insert;
++ int completion_remove;
++ struct semaphore insert_event;
++ struct semaphore remove_event;
++ struct mutex completion_mutex;
++
++ int connected;
++ int closing;
++ int pid;
++ int mark;
++
++ struct list_head bulk_waiter_list;
++ struct mutex bulk_waiter_list_mutex;
++
++ struct proc_dir_entry *proc_entry;
++};
++
++typedef struct dump_context_struct {
++ char __user *buf;
++ size_t actual;
++ size_t space;
++ loff_t offset;
++} DUMP_CONTEXT_T;
++
++static struct cdev vchiq_cdev;
++static dev_t vchiq_devid;
++static VCHIQ_STATE_T g_state;
++static struct class *vchiq_class;
++static struct device *vchiq_dev;
++static DEFINE_SPINLOCK(msg_queue_spinlock);
++
++static const char *const ioctl_names[] = {
++ "CONNECT",
++ "SHUTDOWN",
++ "CREATE_SERVICE",
++ "REMOVE_SERVICE",
++ "QUEUE_MESSAGE",
++ "QUEUE_BULK_TRANSMIT",
++ "QUEUE_BULK_RECEIVE",
++ "AWAIT_COMPLETION",
++ "DEQUEUE_MESSAGE",
++ "GET_CLIENT_ID",
++ "GET_CONFIG",
++ "CLOSE_SERVICE",
++ "USE_SERVICE",
++ "RELEASE_SERVICE",
++ "SET_SERVICE_OPTION",
++ "DUMP_PHYS_MEM"
++};
++
++vchiq_static_assert((sizeof(ioctl_names)/sizeof(ioctl_names[0])) ==
++ (VCHIQ_IOC_MAX + 1));
++
++static void
++dump_phys_mem(void *virt_addr, uint32_t num_bytes);
++
++/****************************************************************************
++*
++* add_completion
++*
++***************************************************************************/
++
++static VCHIQ_STATUS_T
++add_completion(VCHIQ_INSTANCE_T instance, VCHIQ_REASON_T reason,
++ VCHIQ_HEADER_T *header, USER_SERVICE_T *user_service,
++ void *bulk_userdata)
++{
++ VCHIQ_COMPLETION_DATA_T *completion;
++ DEBUG_INITIALISE(g_state.local)
++
++ while (instance->completion_insert ==
++ (instance->completion_remove + MAX_COMPLETIONS)) {
++ /* Out of space - wait for the client */
++ DEBUG_TRACE(SERVICE_CALLBACK_LINE);
++ vchiq_log_trace(vchiq_arm_log_level,
++ "add_completion - completion queue full");
++ DEBUG_COUNT(COMPLETION_QUEUE_FULL_COUNT);
++ if (down_interruptible(&instance->remove_event) != 0) {
++ vchiq_log_info(vchiq_arm_log_level,
++ "service_callback interrupted");
++ return VCHIQ_RETRY;
++ } else if (instance->closing) {
++ vchiq_log_info(vchiq_arm_log_level,
++ "service_callback closing");
++ return VCHIQ_ERROR;
++ }
++ DEBUG_TRACE(SERVICE_CALLBACK_LINE);
++ }
++
++ completion =
++ &instance->completions[instance->completion_insert &
++ (MAX_COMPLETIONS - 1)];
++
++ completion->header = header;
++ completion->reason = reason;
++ /* N.B. service_userdata is updated while processing AWAIT_COMPLETION */
++ completion->service_userdata = user_service->service;
++ completion->bulk_userdata = bulk_userdata;
++
++ if (reason == VCHIQ_SERVICE_CLOSED)
++ /* Take an extra reference, to be held until
++ this CLOSED notification is delivered. */
++ lock_service(user_service->service);
++
++ /* A write barrier is needed here to ensure that the entire completion
++ record is written out before the insert point. */
++ wmb();
++
++ if (reason == VCHIQ_MESSAGE_AVAILABLE)
++ user_service->message_available_pos =
++ instance->completion_insert;
++ instance->completion_insert++;
++
++ up(&instance->insert_event);
++
++ return VCHIQ_SUCCESS;
++}
++
++/****************************************************************************
++*
++* service_callback
++*
++***************************************************************************/
++
++static VCHIQ_STATUS_T
++service_callback(VCHIQ_REASON_T reason, VCHIQ_HEADER_T *header,
++ VCHIQ_SERVICE_HANDLE_T handle, void *bulk_userdata)
++{
++ /* How do we ensure the callback goes to the right client?
++ ** The service_user data points to a USER_SERVICE_T record containing
++ ** the original callback and the user state structure, which contains a
++ ** circular buffer for completion records.
++ */
++ USER_SERVICE_T *user_service;
++ VCHIQ_SERVICE_T *service;
++ VCHIQ_INSTANCE_T instance;
++ DEBUG_INITIALISE(g_state.local)
++
++ DEBUG_TRACE(SERVICE_CALLBACK_LINE);
++
++ service = handle_to_service(handle);
++ BUG_ON(!service);
++ user_service = (USER_SERVICE_T *)service->base.userdata;
++ instance = user_service->instance;
++
++ if (!instance || instance->closing)
++ return VCHIQ_SUCCESS;
++
++ vchiq_log_trace(vchiq_arm_log_level,
++ "service_callback - service %lx(%d), reason %d, header %lx, "
++ "instance %lx, bulk_userdata %lx",
++ (unsigned long)user_service,
++ service->localport,
++ reason, (unsigned long)header,
++ (unsigned long)instance, (unsigned long)bulk_userdata);
++
++ if (header && user_service->is_vchi) {
++ spin_lock(&msg_queue_spinlock);
++ while (user_service->msg_insert ==
++ (user_service->msg_remove + MSG_QUEUE_SIZE)) {
++ spin_unlock(&msg_queue_spinlock);
++ DEBUG_TRACE(SERVICE_CALLBACK_LINE);
++ DEBUG_COUNT(MSG_QUEUE_FULL_COUNT);
++ vchiq_log_trace(vchiq_arm_log_level,
++ "service_callback - msg queue full");
++ /* If there is no MESSAGE_AVAILABLE in the completion
++ ** queue, add one
++ */
++ if ((user_service->message_available_pos -
++ instance->completion_remove) < 0) {
++ VCHIQ_STATUS_T status;
++ vchiq_log_info(vchiq_arm_log_level,
++ "Inserting extra MESSAGE_AVAILABLE");
++ DEBUG_TRACE(SERVICE_CALLBACK_LINE);
++ status = add_completion(instance, reason,
++ NULL, user_service, bulk_userdata);
++ if (status != VCHIQ_SUCCESS) {
++ DEBUG_TRACE(SERVICE_CALLBACK_LINE);
++ return status;
++ }
++ }
++
++ DEBUG_TRACE(SERVICE_CALLBACK_LINE);
++ if (down_interruptible(&user_service->remove_event)
++ != 0) {
++ vchiq_log_info(vchiq_arm_log_level,
++ "service_callback interrupted");
++ DEBUG_TRACE(SERVICE_CALLBACK_LINE);
++ return VCHIQ_RETRY;
++ } else if (instance->closing) {
++ vchiq_log_info(vchiq_arm_log_level,
++ "service_callback closing");
++ DEBUG_TRACE(SERVICE_CALLBACK_LINE);
++ return VCHIQ_ERROR;
++ }
++ DEBUG_TRACE(SERVICE_CALLBACK_LINE);
++ spin_lock(&msg_queue_spinlock);
++ }
++
++ user_service->msg_queue[user_service->msg_insert &
++ (MSG_QUEUE_SIZE - 1)] = header;
++ user_service->msg_insert++;
++ spin_unlock(&msg_queue_spinlock);
++
++ up(&user_service->insert_event);
++
++ /* If there is a thread waiting in DEQUEUE_MESSAGE, or if
++ ** there is a MESSAGE_AVAILABLE in the completion queue then
++ ** bypass the completion queue.
++ */
++ if (((user_service->message_available_pos -
++ instance->completion_remove) >= 0) ||
++ user_service->dequeue_pending) {
++ DEBUG_TRACE(SERVICE_CALLBACK_LINE);
++ user_service->dequeue_pending = 0;
++ return VCHIQ_SUCCESS;
++ }
++
++ header = NULL;
++ }
++ DEBUG_TRACE(SERVICE_CALLBACK_LINE);
++
++ return add_completion(instance, reason, header, user_service,
++ bulk_userdata);
++}
++
++/****************************************************************************
++*
++* vchiq_ioctl
++*
++***************************************************************************/
++
++static long
++vchiq_ioctl(struct file *file, unsigned int cmd, unsigned long arg)
++{
++ VCHIQ_INSTANCE_T instance = file->private_data;
++ VCHIQ_STATUS_T status = VCHIQ_SUCCESS;
++ VCHIQ_SERVICE_T *service = NULL;
++ long ret = 0;
++ int i, rc;
++ DEBUG_INITIALISE(g_state.local)
++
++ vchiq_log_trace(vchiq_arm_log_level,
++ "vchiq_ioctl - instance %x, cmd %s, arg %lx",
++ (unsigned int)instance,
++ ((_IOC_TYPE(cmd) == VCHIQ_IOC_MAGIC) &&
++ (_IOC_NR(cmd) <= VCHIQ_IOC_MAX)) ?
++ ioctl_names[_IOC_NR(cmd)] : "<invalid>", arg);
++
++ switch (cmd) {
++ case VCHIQ_IOC_SHUTDOWN:
++ if (!instance->connected)
++ break;
++
++ /* Remove all services */
++ i = 0;
++ while ((service = next_service_by_instance(instance->state,
++ instance, &i)) != NULL) {
++ status = vchiq_remove_service(service->handle);
++ unlock_service(service);
++ if (status != VCHIQ_SUCCESS)
++ break;
++ }
++ service = NULL;
++
++ if (status == VCHIQ_SUCCESS) {
++ /* Wake the completion thread and ask it to exit */
++ instance->closing = 1;
++ up(&instance->insert_event);
++ }
++
++ break;
++
++ case VCHIQ_IOC_CONNECT:
++ if (instance->connected) {
++ ret = -EINVAL;
++ break;
++ }
++ rc = mutex_lock_interruptible(&instance->state->mutex);
++ if (rc != 0) {
++ vchiq_log_error(vchiq_arm_log_level,
++ "vchiq: connect: could not lock mutex for "
++ "state %d: %d",
++ instance->state->id, rc);
++ ret = -EINTR;
++ break;
++ }
++ status = vchiq_connect_internal(instance->state, instance);
++ mutex_unlock(&instance->state->mutex);
++
++ if (status == VCHIQ_SUCCESS)
++ instance->connected = 1;
++ else
++ vchiq_log_error(vchiq_arm_log_level,
++ "vchiq: could not connect: %d", status);
++ break;
++
++ case VCHIQ_IOC_CREATE_SERVICE: {
++ VCHIQ_CREATE_SERVICE_T args;
++ USER_SERVICE_T *user_service = NULL;
++ void *userdata;
++ int srvstate;
++
++ if (copy_from_user
++ (&args, (const void __user *)arg,
++ sizeof(args)) != 0) {
++ ret = -EFAULT;
++ break;
++ }
++
++ user_service = kmalloc(sizeof(USER_SERVICE_T), GFP_KERNEL);
++ if (!user_service) {
++ ret = -ENOMEM;
++ break;
++ }
++
++ if (args.is_open) {
++ if (!instance->connected) {
++ ret = -ENOTCONN;
++ kfree(user_service);
++ break;
++ }
++ srvstate = VCHIQ_SRVSTATE_OPENING;
++ } else {
++ srvstate =
++ instance->connected ?
++ VCHIQ_SRVSTATE_LISTENING :
++ VCHIQ_SRVSTATE_HIDDEN;
++ }
++
++ userdata = args.params.userdata;
++ args.params.callback = service_callback;
++ args.params.userdata = user_service;
++ service = vchiq_add_service_internal(
++ instance->state,
++ &args.params, srvstate,
++ instance);
++
++ if (service != NULL) {
++ user_service->service = service;
++ user_service->userdata = userdata;
++ user_service->instance = instance;
++ user_service->is_vchi = args.is_vchi;
++ user_service->dequeue_pending = 0;
++ user_service->message_available_pos =
++ instance->completion_remove - 1;
++ user_service->msg_insert = 0;
++ user_service->msg_remove = 0;
++ sema_init(&user_service->insert_event, 0);
++ sema_init(&user_service->remove_event, 0);
++
++ if (args.is_open) {
++ status = vchiq_open_service_internal
++ (service, instance->pid);
++ if (status != VCHIQ_SUCCESS) {
++ vchiq_remove_service(service->handle);
++ service = NULL;
++ ret = (status == VCHIQ_RETRY) ?
++ -EINTR : -EIO;
++ user_service->service = NULL;
++ user_service->instance = NULL;
++ break;
++ }
++ }
++
++ if (copy_to_user((void __user *)
++ &(((VCHIQ_CREATE_SERVICE_T __user *)
++ arg)->handle),
++ (const void *)&service->handle,
++ sizeof(service->handle)) != 0) {
++ ret = -EFAULT;
++ vchiq_remove_service(service->handle);
++ kfree(user_service);
++ }
++
++ service = NULL;
++ } else {
++ ret = -EEXIST;
++ kfree(user_service);
++ }
++ } break;
++
++ case VCHIQ_IOC_CLOSE_SERVICE: {
++ VCHIQ_SERVICE_HANDLE_T handle = (VCHIQ_SERVICE_HANDLE_T)arg;
++
++ service = find_service_for_instance(instance, handle);
++ if (service != NULL)
++ status = vchiq_close_service(service->handle);
++ else
++ ret = -EINVAL;
++ } break;
++
++ case VCHIQ_IOC_REMOVE_SERVICE: {
++ VCHIQ_SERVICE_HANDLE_T handle = (VCHIQ_SERVICE_HANDLE_T)arg;
++
++ service = find_service_for_instance(instance, handle);
++ if (service != NULL)
++ status = vchiq_remove_service(service->handle);
++ else
++ ret = -EINVAL;
++ } break;
++
++ case VCHIQ_IOC_USE_SERVICE:
++ case VCHIQ_IOC_RELEASE_SERVICE: {
++ VCHIQ_SERVICE_HANDLE_T handle = (VCHIQ_SERVICE_HANDLE_T)arg;
++
++ service = find_service_for_instance(instance, handle);
++ if (service != NULL) {
++ status = (cmd == VCHIQ_IOC_USE_SERVICE) ?
++ vchiq_use_service_internal(service) :
++ vchiq_release_service_internal(service);
++ if (status != VCHIQ_SUCCESS) {
++ vchiq_log_error(vchiq_susp_log_level,
++ "%s: cmd %s returned error %d for "
++ "service %c%c%c%c:%03d",
++ __func__,
++ (cmd == VCHIQ_IOC_USE_SERVICE) ?
++ "VCHIQ_IOC_USE_SERVICE" :
++ "VCHIQ_IOC_RELEASE_SERVICE",
++ status,
++ VCHIQ_FOURCC_AS_4CHARS(
++ service->base.fourcc),
++ service->client_id);
++ ret = -EINVAL;
++ }
++ } else
++ ret = -EINVAL;
++ } break;
++
++ case VCHIQ_IOC_QUEUE_MESSAGE: {
++ VCHIQ_QUEUE_MESSAGE_T args;
++ if (copy_from_user
++ (&args, (const void __user *)arg,
++ sizeof(args)) != 0) {
++ ret = -EFAULT;
++ break;
++ }
++
++ service = find_service_for_instance(instance, args.handle);
++
++ if ((service != NULL) && (args.count <= MAX_ELEMENTS)) {
++ /* Copy elements into kernel space */
++ VCHIQ_ELEMENT_T elements[MAX_ELEMENTS];
++ if (copy_from_user(elements, args.elements,
++ args.count * sizeof(VCHIQ_ELEMENT_T)) == 0)
++ status = vchiq_queue_message
++ (args.handle,
++ elements, args.count);
++ else
++ ret = -EFAULT;
++ } else {
++ ret = -EINVAL;
++ }
++ } break;
++
++ case VCHIQ_IOC_QUEUE_BULK_TRANSMIT:
++ case VCHIQ_IOC_QUEUE_BULK_RECEIVE: {
++ VCHIQ_QUEUE_BULK_TRANSFER_T args;
++ struct bulk_waiter_node *waiter = NULL;
++ VCHIQ_BULK_DIR_T dir =
++ (cmd == VCHIQ_IOC_QUEUE_BULK_TRANSMIT) ?
++ VCHIQ_BULK_TRANSMIT : VCHIQ_BULK_RECEIVE;
++
++ if (copy_from_user
++ (&args, (const void __user *)arg,
++ sizeof(args)) != 0) {
++ ret = -EFAULT;
++ break;
++ }
++
++ service = find_service_for_instance(instance, args.handle);
++ if (!service) {
++ ret = -EINVAL;
++ break;
++ }
++
++ if (args.mode == VCHIQ_BULK_MODE_BLOCKING) {
++ waiter = kzalloc(sizeof(struct bulk_waiter_node),
++ GFP_KERNEL);
++ if (!waiter) {
++ ret = -ENOMEM;
++ break;
++ }
++ args.userdata = &waiter->bulk_waiter;
++ } else if (args.mode == VCHIQ_BULK_MODE_WAITING) {
++ struct list_head *pos;
++ mutex_lock(&instance->bulk_waiter_list_mutex);
++ list_for_each(pos, &instance->bulk_waiter_list) {
++ if (list_entry(pos, struct bulk_waiter_node,
++ list)->pid == current->pid) {
++ waiter = list_entry(pos,
++ struct bulk_waiter_node,
++ list);
++ list_del(pos);
++ break;
++ }
++
++ }
++ mutex_unlock(&instance->bulk_waiter_list_mutex);
++ if (!waiter) {
++ vchiq_log_error(vchiq_arm_log_level,
++ "no bulk_waiter found for pid %d",
++ current->pid);
++ ret = -ESRCH;
++ break;
++ }
++ vchiq_log_info(vchiq_arm_log_level,
++ "found bulk_waiter %x for pid %d",
++ (unsigned int)waiter, current->pid);
++ args.userdata = &waiter->bulk_waiter;
++ }
++ status = vchiq_bulk_transfer
++ (args.handle,
++ VCHI_MEM_HANDLE_INVALID,
++ args.data, args.size,
++ args.userdata, args.mode,
++ dir);
++ if (!waiter)
++ break;
++ if ((status != VCHIQ_RETRY) || fatal_signal_pending(current) ||
++ !waiter->bulk_waiter.bulk) {
++ if (waiter->bulk_waiter.bulk) {
++ /* Cancel the signal when the transfer
++ ** completes. */
++ spin_lock(&bulk_waiter_spinlock);
++ waiter->bulk_waiter.bulk->userdata = NULL;
++ spin_unlock(&bulk_waiter_spinlock);
++ }
++ kfree(waiter);
++ } else {
++ const VCHIQ_BULK_MODE_T mode_waiting =
++ VCHIQ_BULK_MODE_WAITING;
++ waiter->pid = current->pid;
++ mutex_lock(&instance->bulk_waiter_list_mutex);
++ list_add(&waiter->list, &instance->bulk_waiter_list);
++ mutex_unlock(&instance->bulk_waiter_list_mutex);
++ vchiq_log_info(vchiq_arm_log_level,
++ "saved bulk_waiter %x for pid %d",
++ (unsigned int)waiter, current->pid);
++
++ if (copy_to_user((void __user *)
++ &(((VCHIQ_QUEUE_BULK_TRANSFER_T __user *)
++ arg)->mode),
++ (const void *)&mode_waiting,
++ sizeof(mode_waiting)) != 0)
++ ret = -EFAULT;
++ }
++ } break;
++
++ case VCHIQ_IOC_AWAIT_COMPLETION: {
++ VCHIQ_AWAIT_COMPLETION_T args;
++
++ DEBUG_TRACE(AWAIT_COMPLETION_LINE);
++ if (!instance->connected) {
++ ret = -ENOTCONN;
++ break;
++ }
++
++ if (copy_from_user(&args, (const void __user *)arg,
++ sizeof(args)) != 0) {
++ ret = -EFAULT;
++ break;
++ }
++
++ mutex_lock(&instance->completion_mutex);
++
++ DEBUG_TRACE(AWAIT_COMPLETION_LINE);
++ while ((instance->completion_remove ==
++ instance->completion_insert)
++ && !instance->closing) {
++ int rc;
++ DEBUG_TRACE(AWAIT_COMPLETION_LINE);
++ mutex_unlock(&instance->completion_mutex);
++ rc = down_interruptible(&instance->insert_event);
++ mutex_lock(&instance->completion_mutex);
++ if (rc != 0) {
++ DEBUG_TRACE(AWAIT_COMPLETION_LINE);
++ vchiq_log_info(vchiq_arm_log_level,
++ "AWAIT_COMPLETION interrupted");
++ ret = -EINTR;
++ break;
++ }
++ }
++ DEBUG_TRACE(AWAIT_COMPLETION_LINE);
++
++ /* A read memory barrier is needed to stop prefetch of a stale
++ ** completion record
++ */
++ rmb();
++
++ if (ret == 0) {
++ int msgbufcount = args.msgbufcount;
++ for (ret = 0; ret < args.count; ret++) {
++ VCHIQ_COMPLETION_DATA_T *completion;
++ VCHIQ_SERVICE_T *service;
++ USER_SERVICE_T *user_service;
++ VCHIQ_HEADER_T *header;
++ if (instance->completion_remove ==
++ instance->completion_insert)
++ break;
++ completion = &instance->completions[
++ instance->completion_remove &
++ (MAX_COMPLETIONS - 1)];
++
++ service = completion->service_userdata;
++ user_service = service->base.userdata;
++ completion->service_userdata =
++ user_service->userdata;
++
++ header = completion->header;
++ if (header) {
++ void __user *msgbuf;
++ int msglen;
++
++ msglen = header->size +
++ sizeof(VCHIQ_HEADER_T);
++ /* This must be a VCHIQ-style service */
++ if (args.msgbufsize < msglen) {
++ vchiq_log_error(
++ vchiq_arm_log_level,
++ "header %x: msgbufsize"
++ " %x < msglen %x",
++ (unsigned int)header,
++ args.msgbufsize,
++ msglen);
++ WARN(1, "invalid message "
++ "size\n");
++ if (ret == 0)
++ ret = -EMSGSIZE;
++ break;
++ }
++ if (msgbufcount <= 0)
++ /* Stall here for lack of a
++ ** buffer for the message. */
++ break;
++ /* Get the pointer from user space */
++ msgbufcount--;
++ if (copy_from_user(&msgbuf,
++ (const void __user *)
++ &args.msgbufs[msgbufcount],
++ sizeof(msgbuf)) != 0) {
++ if (ret == 0)
++ ret = -EFAULT;
++ break;
++ }
++
++ /* Copy the message to user space */
++ if (copy_to_user(msgbuf, header,
++ msglen) != 0) {
++ if (ret == 0)
++ ret = -EFAULT;
++ break;
++ }
++
++ /* Now it has been copied, the message
++ ** can be released. */
++ vchiq_release_message(service->handle,
++ header);
++
++ /* The completion must point to the
++ ** msgbuf. */
++ completion->header = msgbuf;
++ }
++
++ if (completion->reason ==
++ VCHIQ_SERVICE_CLOSED) {
++ unlock_service(service);
++ kfree(user_service);
++ }
++
++ if (copy_to_user((void __user *)(
++ (size_t)args.buf +
++ ret * sizeof(VCHIQ_COMPLETION_DATA_T)),
++ completion,
++ sizeof(VCHIQ_COMPLETION_DATA_T)) != 0) {
++ if (ret == 0)
++ ret = -EFAULT;
++ break;
++ }
++
++ instance->completion_remove++;
++ }
++
++ if (msgbufcount != args.msgbufcount) {
++ if (copy_to_user((void __user *)
++ &((VCHIQ_AWAIT_COMPLETION_T *)arg)->
++ msgbufcount,
++ &msgbufcount,
++ sizeof(msgbufcount)) != 0) {
++ ret = -EFAULT;
++ }
++ }
++ }
++
++ if (ret != 0)
++ up(&instance->remove_event);
++ mutex_unlock(&instance->completion_mutex);
++ DEBUG_TRACE(AWAIT_COMPLETION_LINE);
++ } break;
++
++ case VCHIQ_IOC_DEQUEUE_MESSAGE: {
++ VCHIQ_DEQUEUE_MESSAGE_T args;
++ USER_SERVICE_T *user_service;
++ VCHIQ_HEADER_T *header;
++
++ DEBUG_TRACE(DEQUEUE_MESSAGE_LINE);
++ if (copy_from_user
++ (&args, (const void __user *)arg,
++ sizeof(args)) != 0) {
++ ret = -EFAULT;
++ break;
++ }
++ service = find_service_for_instance(instance, args.handle);
++ if (!service) {
++ ret = -EINVAL;
++ break;
++ }
++ user_service = (USER_SERVICE_T *)service->base.userdata;
++ if (user_service->is_vchi == 0) {
++ ret = -EINVAL;
++ break;
++ }
++
++ spin_lock(&msg_queue_spinlock);
++ if (user_service->msg_remove == user_service->msg_insert) {
++ if (!args.blocking) {
++ spin_unlock(&msg_queue_spinlock);
++ DEBUG_TRACE(DEQUEUE_MESSAGE_LINE);
++ ret = -EWOULDBLOCK;
++ break;
++ }
++ user_service->dequeue_pending = 1;
++ do {
++ spin_unlock(&msg_queue_spinlock);
++ DEBUG_TRACE(DEQUEUE_MESSAGE_LINE);
++ if (down_interruptible(
++ &user_service->insert_event) != 0) {
++ vchiq_log_info(vchiq_arm_log_level,
++ "DEQUEUE_MESSAGE interrupted");
++ ret = -EINTR;
++ break;
++ }
++ spin_lock(&msg_queue_spinlock);
++ } while (user_service->msg_remove ==
++ user_service->msg_insert);
++
++ if (ret)
++ break;
++ }
++
++ BUG_ON((int)(user_service->msg_insert -
++ user_service->msg_remove) < 0);
++
++ header = user_service->msg_queue[user_service->msg_remove &
++ (MSG_QUEUE_SIZE - 1)];
++ user_service->msg_remove++;
++ spin_unlock(&msg_queue_spinlock);
++
++ up(&user_service->remove_event);
++ if (header == NULL)
++ ret = -ENOTCONN;
++ else if (header->size <= args.bufsize) {
++ /* Copy to user space if msgbuf is not NULL */
++ if ((args.buf == NULL) ||
++ (copy_to_user((void __user *)args.buf,
++ header->data,
++ header->size) == 0)) {
++ ret = header->size;
++ vchiq_release_message(
++ service->handle,
++ header);
++ } else
++ ret = -EFAULT;
++ } else {
++ vchiq_log_error(vchiq_arm_log_level,
++ "header %x: bufsize %x < size %x",
++ (unsigned int)header, args.bufsize,
++ header->size);
++ WARN(1, "invalid size\n");
++ ret = -EMSGSIZE;
++ }
++ DEBUG_TRACE(DEQUEUE_MESSAGE_LINE);
++ } break;
++
++ case VCHIQ_IOC_GET_CLIENT_ID: {
++ VCHIQ_SERVICE_HANDLE_T handle = (VCHIQ_SERVICE_HANDLE_T)arg;
++
++ ret = vchiq_get_client_id(handle);
++ } break;
++
++ case VCHIQ_IOC_GET_CONFIG: {
++ VCHIQ_GET_CONFIG_T args;
++ VCHIQ_CONFIG_T config;
++
++ if (copy_from_user(&args, (const void __user *)arg,
++ sizeof(args)) != 0) {
++ ret = -EFAULT;
++ break;
++ }
++ if (args.config_size > sizeof(config)) {
++ ret = -EINVAL;
++ break;
++ }
++ status = vchiq_get_config(instance, args.config_size, &config);
++ if (status == VCHIQ_SUCCESS) {
++ if (copy_to_user((void __user *)args.pconfig,
++ &config, args.config_size) != 0) {
++ ret = -EFAULT;
++ break;
++ }
++ }
++ } break;
++
++ case VCHIQ_IOC_SET_SERVICE_OPTION: {
++ VCHIQ_SET_SERVICE_OPTION_T args;
++
++ if (copy_from_user(
++ &args, (const void __user *)arg,
++ sizeof(args)) != 0) {
++ ret = -EFAULT;
++ break;
++ }
++
++ service = find_service_for_instance(instance, args.handle);
++ if (!service) {
++ ret = -EINVAL;
++ break;
++ }
++
++ status = vchiq_set_service_option(
++ args.handle, args.option, args.value);
++ } break;
++
++ case VCHIQ_IOC_DUMP_PHYS_MEM: {
++ VCHIQ_DUMP_MEM_T args;
++
++ if (copy_from_user
++ (&args, (const void __user *)arg,
++ sizeof(args)) != 0) {
++ ret = -EFAULT;
++ break;
++ }
++ dump_phys_mem(args.virt_addr, args.num_bytes);
++ } break;
++
++ default:
++ ret = -ENOTTY;
++ break;
++ }
++
++ if (service)
++ unlock_service(service);
++
++ if (ret == 0) {
++ if (status == VCHIQ_ERROR)
++ ret = -EIO;
++ else if (status == VCHIQ_RETRY)
++ ret = -EINTR;
++ }
++
++ if ((status == VCHIQ_SUCCESS) && (ret < 0) && (ret != -EINTR) &&
++ (ret != -EWOULDBLOCK))
++ vchiq_log_info(vchiq_arm_log_level,
++ " ioctl instance %lx, cmd %s -> status %d, %ld",
++ (unsigned long)instance,
++ (_IOC_NR(cmd) <= VCHIQ_IOC_MAX) ?
++ ioctl_names[_IOC_NR(cmd)] :
++ "<invalid>",
++ status, ret);
++ else
++ vchiq_log_trace(vchiq_arm_log_level,
++ " ioctl instance %lx, cmd %s -> status %d, %ld",
++ (unsigned long)instance,
++ (_IOC_NR(cmd) <= VCHIQ_IOC_MAX) ?
++ ioctl_names[_IOC_NR(cmd)] :
++ "<invalid>",
++ status, ret);
++
++ return ret;
++}
++
++/****************************************************************************
++*
++* vchiq_open
++*
++***************************************************************************/
++
++static int
++vchiq_open(struct inode *inode, struct file *file)
++{
++ int dev = iminor(inode) & 0x0f;
++ vchiq_log_info(vchiq_arm_log_level, "vchiq_open");
++ switch (dev) {
++ case VCHIQ_MINOR: {
++ int ret;
++ VCHIQ_STATE_T *state = vchiq_get_state();
++ VCHIQ_INSTANCE_T instance;
++
++ if (!state) {
++ vchiq_log_error(vchiq_arm_log_level,
++ "vchiq has no connection to VideoCore");
++ return -ENOTCONN;
++ }
++
++ instance = kzalloc(sizeof(*instance), GFP_KERNEL);
++ if (!instance)
++ return -ENOMEM;
++
++ instance->state = state;
++ instance->pid = current->tgid;
++
++ ret = vchiq_proc_add_instance(instance);
++ if (ret != 0) {
++ kfree(instance);
++ return ret;
++ }
++
++ sema_init(&instance->insert_event, 0);
++ sema_init(&instance->remove_event, 0);
++ mutex_init(&instance->completion_mutex);
++ mutex_init(&instance->bulk_waiter_list_mutex);
++ INIT_LIST_HEAD(&instance->bulk_waiter_list);
++
++ file->private_data = instance;
++ } break;
++
++ default:
++ vchiq_log_error(vchiq_arm_log_level,
++ "Unknown minor device: %d", dev);
++ return -ENXIO;
++ }
++
++ return 0;
++}
++
++/****************************************************************************
++*
++* vchiq_release
++*
++***************************************************************************/
++
++static int
++vchiq_release(struct inode *inode, struct file *file)
++{
++ int dev = iminor(inode) & 0x0f;
++ int ret = 0;
++ switch (dev) {
++ case VCHIQ_MINOR: {
++ VCHIQ_INSTANCE_T instance = file->private_data;
++ VCHIQ_STATE_T *state = vchiq_get_state();
++ VCHIQ_SERVICE_T *service;
++ int i;
++
++ vchiq_log_info(vchiq_arm_log_level,
++ "vchiq_release: instance=%lx",
++ (unsigned long)instance);
++
++ if (!state) {
++ ret = -EPERM;
++ goto out;
++ }
++
++ /* Ensure videocore is awake to allow termination. */
++ vchiq_use_internal(instance->state, NULL,
++ USE_TYPE_VCHIQ);
++
++ mutex_lock(&instance->completion_mutex);
++
++ /* Wake the completion thread and ask it to exit */
++ instance->closing = 1;
++ up(&instance->insert_event);
++
++ mutex_unlock(&instance->completion_mutex);
++
++ /* Wake the slot handler if the completion queue is full. */
++ up(&instance->remove_event);
++
++ /* Mark all services for termination... */
++ i = 0;
++ while ((service = next_service_by_instance(state, instance,
++ &i)) != NULL) {
++ USER_SERVICE_T *user_service = service->base.userdata;
++
++ /* Wake the slot handler if the msg queue is full. */
++ up(&user_service->remove_event);
++
++ vchiq_terminate_service_internal(service);
++ unlock_service(service);
++ }
++
++ /* ...and wait for them to die */
++ i = 0;
++ while ((service = next_service_by_instance(state, instance, &i))
++ != NULL) {
++ USER_SERVICE_T *user_service = service->base.userdata;
++
++ down(&service->remove_event);
++
++ BUG_ON(service->srvstate != VCHIQ_SRVSTATE_FREE);
++
++ spin_lock(&msg_queue_spinlock);
++
++ while (user_service->msg_remove !=
++ user_service->msg_insert) {
++ VCHIQ_HEADER_T *header = user_service->
++ msg_queue[user_service->msg_remove &
++ (MSG_QUEUE_SIZE - 1)];
++ user_service->msg_remove++;
++ spin_unlock(&msg_queue_spinlock);
++
++ if (header)
++ vchiq_release_message(
++ service->handle,
++ header);
++ spin_lock(&msg_queue_spinlock);
++ }
++
++ spin_unlock(&msg_queue_spinlock);
++
++ unlock_service(service);
++ kfree(user_service);
++ }
++
++ /* Release any closed services */
++ while (instance->completion_remove !=
++ instance->completion_insert) {
++ VCHIQ_COMPLETION_DATA_T *completion;
++ VCHIQ_SERVICE_T *service;
++ completion = &instance->completions[
++ instance->completion_remove &
++ (MAX_COMPLETIONS - 1)];
++ service = completion->service_userdata;
++ if (completion->reason == VCHIQ_SERVICE_CLOSED)
++ unlock_service(service);
++ instance->completion_remove++;
++ }
++
++ /* Release the PEER service count. */
++ vchiq_release_internal(instance->state, NULL);
++
++ {
++ struct list_head *pos, *next;
++ list_for_each_safe(pos, next,
++ &instance->bulk_waiter_list) {
++ struct bulk_waiter_node *waiter;
++ waiter = list_entry(pos,
++ struct bulk_waiter_node,
++ list);
++ list_del(pos);
++ vchiq_log_info(vchiq_arm_log_level,
++ "bulk_waiter - cleaned up %x "
++ "for pid %d",
++ (unsigned int)waiter, waiter->pid);
++ kfree(waiter);
++ }
++ }
++
++ vchiq_proc_remove_instance(instance);
++
++ kfree(instance);
++ file->private_data = NULL;
++ } break;
++
++ default:
++ vchiq_log_error(vchiq_arm_log_level,
++ "Unknown minor device: %d", dev);
++ ret = -ENXIO;
++ }
++
++out:
++ return ret;
++}
++
++/****************************************************************************
++*
++* vchiq_dump
++*
++***************************************************************************/
++
++void
++vchiq_dump(void *dump_context, const char *str, int len)
++{
++ DUMP_CONTEXT_T *context = (DUMP_CONTEXT_T *)dump_context;
++
++ if (context->actual < context->space) {
++ int copy_bytes;
++ if (context->offset > 0) {
++ int skip_bytes = min(len, (int)context->offset);
++ str += skip_bytes;
++ len -= skip_bytes;
++ context->offset -= skip_bytes;
++ if (context->offset > 0)
++ return;
++ }
++ copy_bytes = min(len, (int)(context->space - context->actual));
++ if (copy_bytes == 0)
++ return;
++ if (copy_to_user(context->buf + context->actual, str,
++ copy_bytes))
++ context->actual = -EFAULT;
++ context->actual += copy_bytes;
++ len -= copy_bytes;
++
++ /* If tne terminating NUL is included in the length, then it
++ ** marks the end of a line and should be replaced with a
++ ** carriage return. */
++ if ((len == 0) && (str[copy_bytes - 1] == '\0')) {
++ char cr = '\n';
++ if (copy_to_user(context->buf + context->actual - 1,
++ &cr, 1))
++ context->actual = -EFAULT;
++ }
++ }
++}
++
++/****************************************************************************
++*
++* vchiq_dump_platform_instance_state
++*
++***************************************************************************/
++
++void
++vchiq_dump_platform_instances(void *dump_context)
++{
++ VCHIQ_STATE_T *state = vchiq_get_state();
++ char buf[80];
++ int len;
++ int i;
++
++ /* There is no list of instances, so instead scan all services,
++ marking those that have been dumped. */
++
++ for (i = 0; i < state->unused_service; i++) {
++ VCHIQ_SERVICE_T *service = state->services[i];
++ VCHIQ_INSTANCE_T instance;
++
++ if (service && (service->base.callback == service_callback)) {
++ instance = service->instance;
++ if (instance)
++ instance->mark = 0;
++ }
++ }
++
++ for (i = 0; i < state->unused_service; i++) {
++ VCHIQ_SERVICE_T *service = state->services[i];
++ VCHIQ_INSTANCE_T instance;
++
++ if (service && (service->base.callback == service_callback)) {
++ instance = service->instance;
++ if (instance && !instance->mark) {
++ len = snprintf(buf, sizeof(buf),
++ "Instance %x: pid %d,%s completions "
++ "%d/%d",
++ (unsigned int)instance, instance->pid,
++ instance->connected ? " connected, " :
++ "",
++ instance->completion_insert -
++ instance->completion_remove,
++ MAX_COMPLETIONS);
++
++ vchiq_dump(dump_context, buf, len + 1);
++
++ instance->mark = 1;
++ }
++ }
++ }
++}
++
++/****************************************************************************
++*
++* vchiq_dump_platform_service_state
++*
++***************************************************************************/
++
++void
++vchiq_dump_platform_service_state(void *dump_context, VCHIQ_SERVICE_T *service)
++{
++ USER_SERVICE_T *user_service = (USER_SERVICE_T *)service->base.userdata;
++ char buf[80];
++ int len;
++
++ len = snprintf(buf, sizeof(buf), " instance %x",
++ (unsigned int)service->instance);
++
++ if ((service->base.callback == service_callback) &&
++ user_service->is_vchi) {
++ len += snprintf(buf + len, sizeof(buf) - len,
++ ", %d/%d messages",
++ user_service->msg_insert - user_service->msg_remove,
++ MSG_QUEUE_SIZE);
++
++ if (user_service->dequeue_pending)
++ len += snprintf(buf + len, sizeof(buf) - len,
++ " (dequeue pending)");
++ }
++
++ vchiq_dump(dump_context, buf, len + 1);
++}
++
++/****************************************************************************
++*
++* dump_user_mem
++*
++***************************************************************************/
++
++static void
++dump_phys_mem(void *virt_addr, uint32_t num_bytes)
++{
++ int rc;
++ uint8_t *end_virt_addr = virt_addr + num_bytes;
++ int num_pages;
++ int offset;
++ int end_offset;
++ int page_idx;
++ int prev_idx;
++ struct page *page;
++ struct page **pages;
++ uint8_t *kmapped_virt_ptr;
++
++ /* Align virtAddr and endVirtAddr to 16 byte boundaries. */
++
++ virt_addr = (void *)((unsigned long)virt_addr & ~0x0fuL);
++ end_virt_addr = (void *)(((unsigned long)end_virt_addr + 15uL) &
++ ~0x0fuL);
++
++ offset = (int)(long)virt_addr & (PAGE_SIZE - 1);
++ end_offset = (int)(long)end_virt_addr & (PAGE_SIZE - 1);
++
++ num_pages = (offset + num_bytes + PAGE_SIZE - 1) / PAGE_SIZE;
++
++ pages = kmalloc(sizeof(struct page *) * num_pages, GFP_KERNEL);
++ if (pages == NULL) {
++ vchiq_log_error(vchiq_arm_log_level,
++ "Unable to allocation memory for %d pages\n",
++ num_pages);
++ return;
++ }
++
++ down_read(&current->mm->mmap_sem);
++ rc = get_user_pages(current, /* task */
++ current->mm, /* mm */
++ (unsigned long)virt_addr, /* start */
++ num_pages, /* len */
++ 0, /* write */
++ 0, /* force */
++ pages, /* pages (array of page pointers) */
++ NULL); /* vmas */
++ up_read(&current->mm->mmap_sem);
++
++ prev_idx = -1;
++ page = NULL;
++
++ while (offset < end_offset) {
++
++ int page_offset = offset % PAGE_SIZE;
++ page_idx = offset / PAGE_SIZE;
++
++ if (page_idx != prev_idx) {
++
++ if (page != NULL)
++ kunmap(page);
++ page = pages[page_idx];
++ kmapped_virt_ptr = kmap(page);
++
++ prev_idx = page_idx;
++ }
++
++ if (vchiq_arm_log_level >= VCHIQ_LOG_TRACE)
++ vchiq_log_dump_mem("ph",
++ (uint32_t)(unsigned long)&kmapped_virt_ptr[
++ page_offset],
++ &kmapped_virt_ptr[page_offset], 16);
++
++ offset += 16;
++ }
++ if (page != NULL)
++ kunmap(page);
++
++ for (page_idx = 0; page_idx < num_pages; page_idx++)
++ page_cache_release(pages[page_idx]);
++
++ kfree(pages);
++}
++
++/****************************************************************************
++*
++* vchiq_read
++*
++***************************************************************************/
++
++static ssize_t
++vchiq_read(struct file *file, char __user *buf,
++ size_t count, loff_t *ppos)
++{
++ DUMP_CONTEXT_T context;
++ context.buf = buf;
++ context.actual = 0;
++ context.space = count;
++ context.offset = *ppos;
++
++ vchiq_dump_state(&context, &g_state);
++
++ *ppos += context.actual;
++
++ return context.actual;
++}
++
++VCHIQ_STATE_T *
++vchiq_get_state(void)
++{
++
++ if (g_state.remote == NULL)
++ printk(KERN_ERR "%s: g_state.remote == NULL\n", __func__);
++ else if (g_state.remote->initialised != 1)
++ printk(KERN_NOTICE "%s: g_state.remote->initialised != 1 (%d)\n",
++ __func__, g_state.remote->initialised);
++
++ return ((g_state.remote != NULL) &&
++ (g_state.remote->initialised == 1)) ? &g_state : NULL;
++}
++
++static const struct file_operations
++vchiq_fops = {
++ .owner = THIS_MODULE,
++ .unlocked_ioctl = vchiq_ioctl,
++ .open = vchiq_open,
++ .release = vchiq_release,
++ .read = vchiq_read
++};
++
++/*
++ * Autosuspend related functionality
++ */
++
++int
++vchiq_videocore_wanted(VCHIQ_STATE_T *state)
++{
++ VCHIQ_ARM_STATE_T *arm_state = vchiq_platform_get_arm_state(state);
++ if (!arm_state)
++ /* autosuspend not supported - always return wanted */
++ return 1;
++ else if (arm_state->blocked_count)
++ return 1;
++ else if (!arm_state->videocore_use_count)
++ /* usage count zero - check for override unless we're forcing */
++ if (arm_state->resume_blocked)
++ return 0;
++ else
++ return vchiq_platform_videocore_wanted(state);
++ else
++ /* non-zero usage count - videocore still required */
++ return 1;
++}
++
++static VCHIQ_STATUS_T
++vchiq_keepalive_vchiq_callback(VCHIQ_REASON_T reason,
++ VCHIQ_HEADER_T *header,
++ VCHIQ_SERVICE_HANDLE_T service_user,
++ void *bulk_user)
++{
++ vchiq_log_error(vchiq_susp_log_level,
++ "%s callback reason %d", __func__, reason);
++ return 0;
++}
++
++static int
++vchiq_keepalive_thread_func(void *v)
++{
++ VCHIQ_STATE_T *state = (VCHIQ_STATE_T *) v;
++ VCHIQ_ARM_STATE_T *arm_state = vchiq_platform_get_arm_state(state);
++
++ VCHIQ_STATUS_T status;
++ VCHIQ_INSTANCE_T instance;
++ VCHIQ_SERVICE_HANDLE_T ka_handle;
++
++ VCHIQ_SERVICE_PARAMS_T params = {
++ .fourcc = VCHIQ_MAKE_FOURCC('K', 'E', 'E', 'P'),
++ .callback = vchiq_keepalive_vchiq_callback,
++ .version = KEEPALIVE_VER,
++ .version_min = KEEPALIVE_VER_MIN
++ };
++
++ status = vchiq_initialise(&instance);
++ if (status != VCHIQ_SUCCESS) {
++ vchiq_log_error(vchiq_susp_log_level,
++ "%s vchiq_initialise failed %d", __func__, status);
++ goto exit;
++ }
++
++ status = vchiq_connect(instance);
++ if (status != VCHIQ_SUCCESS) {
++ vchiq_log_error(vchiq_susp_log_level,
++ "%s vchiq_connect failed %d", __func__, status);
++ goto shutdown;
++ }
++
++ status = vchiq_add_service(instance, &params, &ka_handle);
++ if (status != VCHIQ_SUCCESS) {
++ vchiq_log_error(vchiq_susp_log_level,
++ "%s vchiq_open_service failed %d", __func__, status);
++ goto shutdown;
++ }
++
++ while (1) {
++ long rc = 0, uc = 0;
++ if (wait_for_completion_interruptible(&arm_state->ka_evt)
++ != 0) {
++ vchiq_log_error(vchiq_susp_log_level,
++ "%s interrupted", __func__);
++ flush_signals(current);
++ continue;
++ }
++
++ /* read and clear counters. Do release_count then use_count to
++ * prevent getting more releases than uses */
++ rc = atomic_xchg(&arm_state->ka_release_count, 0);
++ uc = atomic_xchg(&arm_state->ka_use_count, 0);
++
++ /* Call use/release service the requisite number of times.
++ * Process use before release so use counts don't go negative */
++ while (uc--) {
++ atomic_inc(&arm_state->ka_use_ack_count);
++ status = vchiq_use_service(ka_handle);
++ if (status != VCHIQ_SUCCESS) {
++ vchiq_log_error(vchiq_susp_log_level,
++ "%s vchiq_use_service error %d",
++ __func__, status);
++ }
++ }
++ while (rc--) {
++ status = vchiq_release_service(ka_handle);
++ if (status != VCHIQ_SUCCESS) {
++ vchiq_log_error(vchiq_susp_log_level,
++ "%s vchiq_release_service error %d",
++ __func__, status);
++ }
++ }
++ }
++
++shutdown:
++ vchiq_shutdown(instance);
++exit:
++ return 0;
++}
++
++
++
++VCHIQ_STATUS_T
++vchiq_arm_init_state(VCHIQ_STATE_T *state, VCHIQ_ARM_STATE_T *arm_state)
++{
++ VCHIQ_STATUS_T status = VCHIQ_SUCCESS;
++
++ if (arm_state) {
++ rwlock_init(&arm_state->susp_res_lock);
++
++ init_completion(&arm_state->ka_evt);
++ atomic_set(&arm_state->ka_use_count, 0);
++ atomic_set(&arm_state->ka_use_ack_count, 0);
++ atomic_set(&arm_state->ka_release_count, 0);
++
++ init_completion(&arm_state->vc_suspend_complete);
++
++ init_completion(&arm_state->vc_resume_complete);
++ /* Initialise to 'done' state. We only want to block on resume
++ * completion while videocore is suspended. */
++ set_resume_state(arm_state, VC_RESUME_RESUMED);
++
++ init_completion(&arm_state->resume_blocker);
++ /* Initialise to 'done' state. We only want to block on this
++ * completion while resume is blocked */
++ complete_all(&arm_state->resume_blocker);
++
++ init_completion(&arm_state->blocked_blocker);
++ /* Initialise to 'done' state. We only want to block on this
++ * completion while things are waiting on the resume blocker */
++ complete_all(&arm_state->blocked_blocker);
++
++ arm_state->suspend_timer_timeout = SUSPEND_TIMER_TIMEOUT_MS;
++ arm_state->suspend_timer_running = 0;
++ init_timer(&arm_state->suspend_timer);
++ arm_state->suspend_timer.data = (unsigned long)(state);
++ arm_state->suspend_timer.function = suspend_timer_callback;
++
++ arm_state->first_connect = 0;
++
++ }
++ return status;
++}
++
++/*
++** Functions to modify the state variables;
++** set_suspend_state
++** set_resume_state
++**
++** There are more state variables than we might like, so ensure they remain in
++** step. Suspend and resume state are maintained separately, since most of
++** these state machines can operate independently. However, there are a few
++** states where state transitions in one state machine cause a reset to the
++** other state machine. In addition, there are some completion events which
++** need to occur on state machine reset and end-state(s), so these are also
++** dealt with in these functions.
++**
++** In all states we set the state variable according to the input, but in some
++** cases we perform additional steps outlined below;
++**
++** VC_SUSPEND_IDLE - Initialise the suspend completion at the same time.
++** The suspend completion is completed after any suspend
++** attempt. When we reset the state machine we also reset
++** the completion. This reset occurs when videocore is
++** resumed, and also if we initiate suspend after a suspend
++** failure.
++**
++** VC_SUSPEND_IN_PROGRESS - This state is considered the point of no return for
++** suspend - ie from this point on we must try to suspend
++** before resuming can occur. We therefore also reset the
++** resume state machine to VC_RESUME_IDLE in this state.
++**
++** VC_SUSPEND_SUSPENDED - Suspend has completed successfully. Also call
++** complete_all on the suspend completion to notify
++** anything waiting for suspend to happen.
++**
++** VC_SUSPEND_REJECTED - Videocore rejected suspend. Videocore will also
++** initiate resume, so no need to alter resume state.
++** We call complete_all on the suspend completion to notify
++** of suspend rejection.
++**
++** VC_SUSPEND_FAILED - We failed to initiate videocore suspend. We notify the
++** suspend completion and reset the resume state machine.
++**
++** VC_RESUME_IDLE - Initialise the resume completion at the same time. The
++** resume completion is in it's 'done' state whenever
++** videcore is running. Therfore, the VC_RESUME_IDLE state
++** implies that videocore is suspended.
++** Hence, any thread which needs to wait until videocore is
++** running can wait on this completion - it will only block
++** if videocore is suspended.
++**
++** VC_RESUME_RESUMED - Resume has completed successfully. Videocore is running.
++** Call complete_all on the resume completion to unblock
++** any threads waiting for resume. Also reset the suspend
++** state machine to it's idle state.
++**
++** VC_RESUME_FAILED - Currently unused - no mechanism to fail resume exists.
++*/
++
++inline void
++set_suspend_state(VCHIQ_ARM_STATE_T *arm_state,
++ enum vc_suspend_status new_state)
++{
++ /* set the state in all cases */
++ arm_state->vc_suspend_state = new_state;
++
++ /* state specific additional actions */
++ switch (new_state) {
++ case VC_SUSPEND_FORCE_CANCELED:
++ complete_all(&arm_state->vc_suspend_complete);
++ break;
++ case VC_SUSPEND_REJECTED:
++ complete_all(&arm_state->vc_suspend_complete);
++ break;
++ case VC_SUSPEND_FAILED:
++ complete_all(&arm_state->vc_suspend_complete);
++ arm_state->vc_resume_state = VC_RESUME_RESUMED;
++ complete_all(&arm_state->vc_resume_complete);
++ break;
++ case VC_SUSPEND_IDLE:
++ INIT_COMPLETION(arm_state->vc_suspend_complete);
++ break;
++ case VC_SUSPEND_REQUESTED:
++ break;
++ case VC_SUSPEND_IN_PROGRESS:
++ set_resume_state(arm_state, VC_RESUME_IDLE);
++ break;
++ case VC_SUSPEND_SUSPENDED:
++ complete_all(&arm_state->vc_suspend_complete);
++ break;
++ default:
++ BUG();
++ break;
++ }
++}
++
++inline void
++set_resume_state(VCHIQ_ARM_STATE_T *arm_state,
++ enum vc_resume_status new_state)
++{
++ /* set the state in all cases */
++ arm_state->vc_resume_state = new_state;
++
++ /* state specific additional actions */
++ switch (new_state) {
++ case VC_RESUME_FAILED:
++ break;
++ case VC_RESUME_IDLE:
++ INIT_COMPLETION(arm_state->vc_resume_complete);
++ break;
++ case VC_RESUME_REQUESTED:
++ break;
++ case VC_RESUME_IN_PROGRESS:
++ break;
++ case VC_RESUME_RESUMED:
++ complete_all(&arm_state->vc_resume_complete);
++ set_suspend_state(arm_state, VC_SUSPEND_IDLE);
++ break;
++ default:
++ BUG();
++ break;
++ }
++}
++
++
++/* should be called with the write lock held */
++inline void
++start_suspend_timer(VCHIQ_ARM_STATE_T *arm_state)
++{
++ del_timer(&arm_state->suspend_timer);
++ arm_state->suspend_timer.expires = jiffies +
++ msecs_to_jiffies(arm_state->
++ suspend_timer_timeout);
++ add_timer(&arm_state->suspend_timer);
++ arm_state->suspend_timer_running = 1;
++}
++
++/* should be called with the write lock held */
++static inline void
++stop_suspend_timer(VCHIQ_ARM_STATE_T *arm_state)
++{
++ if (arm_state->suspend_timer_running) {
++ del_timer(&arm_state->suspend_timer);
++ arm_state->suspend_timer_running = 0;
++ }
++}
++
++static inline int
++need_resume(VCHIQ_STATE_T *state)
++{
++ VCHIQ_ARM_STATE_T *arm_state = vchiq_platform_get_arm_state(state);
++ return (arm_state->vc_suspend_state > VC_SUSPEND_IDLE) &&
++ (arm_state->vc_resume_state < VC_RESUME_REQUESTED) &&
++ vchiq_videocore_wanted(state);
++}
++
++static int
++block_resume(VCHIQ_ARM_STATE_T *arm_state)
++{
++ int status = VCHIQ_SUCCESS;
++ const unsigned long timeout_val =
++ msecs_to_jiffies(FORCE_SUSPEND_TIMEOUT_MS);
++ int resume_count = 0;
++
++ /* Allow any threads which were blocked by the last force suspend to
++ * complete if they haven't already. Only give this one shot; if
++ * blocked_count is incremented after blocked_blocker is completed
++ * (which only happens when blocked_count hits 0) then those threads
++ * will have to wait until next time around */
++ if (arm_state->blocked_count) {
++ INIT_COMPLETION(arm_state->blocked_blocker);
++ write_unlock_bh(&arm_state->susp_res_lock);
++ vchiq_log_info(vchiq_susp_log_level, "%s wait for previously "
++ "blocked clients", __func__);
++ if (wait_for_completion_interruptible_timeout(
++ &arm_state->blocked_blocker, timeout_val)
++ <= 0) {
++ vchiq_log_error(vchiq_susp_log_level, "%s wait for "
++ "previously blocked clients failed" , __func__);
++ status = VCHIQ_ERROR;
++ write_lock_bh(&arm_state->susp_res_lock);
++ goto out;
++ }
++ vchiq_log_info(vchiq_susp_log_level, "%s previously blocked "
++ "clients resumed", __func__);
++ write_lock_bh(&arm_state->susp_res_lock);
++ }
++
++ /* We need to wait for resume to complete if it's in process */
++ while (arm_state->vc_resume_state != VC_RESUME_RESUMED &&
++ arm_state->vc_resume_state > VC_RESUME_IDLE) {
++ if (resume_count > 1) {
++ status = VCHIQ_ERROR;
++ vchiq_log_error(vchiq_susp_log_level, "%s waited too "
++ "many times for resume" , __func__);
++ goto out;
++ }
++ write_unlock_bh(&arm_state->susp_res_lock);
++ vchiq_log_info(vchiq_susp_log_level, "%s wait for resume",
++ __func__);
++ if (wait_for_completion_interruptible_timeout(
++ &arm_state->vc_resume_complete, timeout_val)
++ <= 0) {
++ vchiq_log_error(vchiq_susp_log_level, "%s wait for "
++ "resume failed (%s)", __func__,
++ resume_state_names[arm_state->vc_resume_state +
++ VC_RESUME_NUM_OFFSET]);
++ status = VCHIQ_ERROR;
++ write_lock_bh(&arm_state->susp_res_lock);
++ goto out;
++ }
++ vchiq_log_info(vchiq_susp_log_level, "%s resumed", __func__);
++ write_lock_bh(&arm_state->susp_res_lock);
++ resume_count++;
++ }
++ INIT_COMPLETION(arm_state->resume_blocker);
++ arm_state->resume_blocked = 1;
++
++out:
++ return status;
++}
++
++static inline void
++unblock_resume(VCHIQ_ARM_STATE_T *arm_state)
++{
++ complete_all(&arm_state->resume_blocker);
++ arm_state->resume_blocked = 0;
++}
++
++/* Initiate suspend via slot handler. Should be called with the write lock
++ * held */
++VCHIQ_STATUS_T
++vchiq_arm_vcsuspend(VCHIQ_STATE_T *state)
++{
++ VCHIQ_STATUS_T status = VCHIQ_ERROR;
++ VCHIQ_ARM_STATE_T *arm_state = vchiq_platform_get_arm_state(state);
++
++ if (!arm_state)
++ goto out;
++
++ vchiq_log_trace(vchiq_susp_log_level, "%s", __func__);
++ status = VCHIQ_SUCCESS;
++
++
++ switch (arm_state->vc_suspend_state) {
++ case VC_SUSPEND_REQUESTED:
++ vchiq_log_info(vchiq_susp_log_level, "%s: suspend already "
++ "requested", __func__);
++ break;
++ case VC_SUSPEND_IN_PROGRESS:
++ vchiq_log_info(vchiq_susp_log_level, "%s: suspend already in "
++ "progress", __func__);
++ break;
++
++ default:
++ /* We don't expect to be in other states, so log but continue
++ * anyway */
++ vchiq_log_error(vchiq_susp_log_level,
++ "%s unexpected suspend state %s", __func__,
++ suspend_state_names[arm_state->vc_suspend_state +
++ VC_SUSPEND_NUM_OFFSET]);
++ /* fall through */
++ case VC_SUSPEND_REJECTED:
++ case VC_SUSPEND_FAILED:
++ /* Ensure any idle state actions have been run */
++ set_suspend_state(arm_state, VC_SUSPEND_IDLE);
++ /* fall through */
++ case VC_SUSPEND_IDLE:
++ vchiq_log_info(vchiq_susp_log_level,
++ "%s: suspending", __func__);
++ set_suspend_state(arm_state, VC_SUSPEND_REQUESTED);
++ /* kick the slot handler thread to initiate suspend */
++ request_poll(state, NULL, 0);
++ break;
++ }
++
++out:
++ vchiq_log_trace(vchiq_susp_log_level, "%s exit %d", __func__, status);
++ return status;
++}
++
++void
++vchiq_platform_check_suspend(VCHIQ_STATE_T *state)
++{
++ VCHIQ_ARM_STATE_T *arm_state = vchiq_platform_get_arm_state(state);
++ int susp = 0;
++
++ if (!arm_state)
++ goto out;
++
++ vchiq_log_trace(vchiq_susp_log_level, "%s", __func__);
++
++ write_lock_bh(&arm_state->susp_res_lock);
++ if (arm_state->vc_suspend_state == VC_SUSPEND_REQUESTED &&
++ arm_state->vc_resume_state == VC_RESUME_RESUMED) {
++ set_suspend_state(arm_state, VC_SUSPEND_IN_PROGRESS);
++ susp = 1;
++ }
++ write_unlock_bh(&arm_state->susp_res_lock);
++
++ if (susp)
++ vchiq_platform_suspend(state);
++
++out:
++ vchiq_log_trace(vchiq_susp_log_level, "%s exit", __func__);
++ return;
++}
++
++
++static void
++output_timeout_error(VCHIQ_STATE_T *state)
++{
++ VCHIQ_ARM_STATE_T *arm_state = vchiq_platform_get_arm_state(state);
++ char service_err[50] = "";
++ int vc_use_count = arm_state->videocore_use_count;
++ int active_services = state->unused_service;
++ int i;
++
++ if (!arm_state->videocore_use_count) {
++ snprintf(service_err, 50, " Videocore usecount is 0");
++ goto output_msg;
++ }
++ for (i = 0; i < active_services; i++) {
++ VCHIQ_SERVICE_T *service_ptr = state->services[i];
++ if (service_ptr && service_ptr->service_use_count &&
++ (service_ptr->srvstate != VCHIQ_SRVSTATE_FREE)) {
++ snprintf(service_err, 50, " %c%c%c%c(%d) service has "
++ "use count %d%s", VCHIQ_FOURCC_AS_4CHARS(
++ service_ptr->base.fourcc),
++ service_ptr->client_id,
++ service_ptr->service_use_count,
++ service_ptr->service_use_count ==
++ vc_use_count ? "" : " (+ more)");
++ break;
++ }
++ }
++
++output_msg:
++ vchiq_log_error(vchiq_susp_log_level,
++ "timed out waiting for vc suspend (%d).%s",
++ arm_state->autosuspend_override, service_err);
++
++}
++
++/* Try to get videocore into suspended state, regardless of autosuspend state.
++** We don't actually force suspend, since videocore may get into a bad state
++** if we force suspend at a bad time. Instead, we wait for autosuspend to
++** determine a good point to suspend. If this doesn't happen within 100ms we
++** report failure.
++**
++** Returns VCHIQ_SUCCESS if videocore suspended successfully, VCHIQ_RETRY if
++** videocore failed to suspend in time or VCHIQ_ERROR if interrupted.
++*/
++VCHIQ_STATUS_T
++vchiq_arm_force_suspend(VCHIQ_STATE_T *state)
++{
++ VCHIQ_ARM_STATE_T *arm_state = vchiq_platform_get_arm_state(state);
++ VCHIQ_STATUS_T status = VCHIQ_ERROR;
++ long rc = 0;
++ int repeat = -1;
++
++ if (!arm_state)
++ goto out;
++
++ vchiq_log_trace(vchiq_susp_log_level, "%s", __func__);
++
++ write_lock_bh(&arm_state->susp_res_lock);
++
++ status = block_resume(arm_state);
++ if (status != VCHIQ_SUCCESS)
++ goto unlock;
++ if (arm_state->vc_suspend_state == VC_SUSPEND_SUSPENDED) {
++ /* Already suspended - just block resume and exit */
++ vchiq_log_info(vchiq_susp_log_level, "%s already suspended",
++ __func__);
++ status = VCHIQ_SUCCESS;
++ goto unlock;
++ } else if (arm_state->vc_suspend_state <= VC_SUSPEND_IDLE) {
++ /* initiate suspend immediately in the case that we're waiting
++ * for the timeout */
++ stop_suspend_timer(arm_state);
++ if (!vchiq_videocore_wanted(state)) {
++ vchiq_log_info(vchiq_susp_log_level, "%s videocore "
++ "idle, initiating suspend", __func__);
++ status = vchiq_arm_vcsuspend(state);
++ } else if (arm_state->autosuspend_override <
++ FORCE_SUSPEND_FAIL_MAX) {
++ vchiq_log_info(vchiq_susp_log_level, "%s letting "
++ "videocore go idle", __func__);
++ status = VCHIQ_SUCCESS;
++ } else {
++ vchiq_log_warning(vchiq_susp_log_level, "%s failed too "
++ "many times - attempting suspend", __func__);
++ status = vchiq_arm_vcsuspend(state);
++ }
++ } else {
++ vchiq_log_info(vchiq_susp_log_level, "%s videocore suspend "
++ "in progress - wait for completion", __func__);
++ status = VCHIQ_SUCCESS;
++ }
++
++ /* Wait for suspend to happen due to system idle (not forced..) */
++ if (status != VCHIQ_SUCCESS)
++ goto unblock_resume;
++
++ do {
++ write_unlock_bh(&arm_state->susp_res_lock);
++
++ rc = wait_for_completion_interruptible_timeout(
++ &arm_state->vc_suspend_complete,
++ msecs_to_jiffies(FORCE_SUSPEND_TIMEOUT_MS));
++
++ write_lock_bh(&arm_state->susp_res_lock);
++ if (rc < 0) {
++ vchiq_log_warning(vchiq_susp_log_level, "%s "
++ "interrupted waiting for suspend", __func__);
++ status = VCHIQ_ERROR;
++ goto unblock_resume;
++ } else if (rc == 0) {
++ if (arm_state->vc_suspend_state > VC_SUSPEND_IDLE) {
++ /* Repeat timeout once if in progress */
++ if (repeat < 0) {
++ repeat = 1;
++ continue;
++ }
++ }
++ arm_state->autosuspend_override++;
++ output_timeout_error(state);
++
++ status = VCHIQ_RETRY;
++ goto unblock_resume;
++ }
++ } while (0 < (repeat--));
++
++ /* Check and report state in case we need to abort ARM suspend */
++ if (arm_state->vc_suspend_state != VC_SUSPEND_SUSPENDED) {
++ status = VCHIQ_RETRY;
++ vchiq_log_error(vchiq_susp_log_level,
++ "%s videocore suspend failed (state %s)", __func__,
++ suspend_state_names[arm_state->vc_suspend_state +
++ VC_SUSPEND_NUM_OFFSET]);
++ /* Reset the state only if it's still in an error state.
++ * Something could have already initiated another suspend. */
++ if (arm_state->vc_suspend_state < VC_SUSPEND_IDLE)
++ set_suspend_state(arm_state, VC_SUSPEND_IDLE);
++
++ goto unblock_resume;
++ }
++
++ /* successfully suspended - unlock and exit */
++ goto unlock;
++
++unblock_resume:
++ /* all error states need to unblock resume before exit */
++ unblock_resume(arm_state);
++
++unlock:
++ write_unlock_bh(&arm_state->susp_res_lock);
++
++out:
++ vchiq_log_trace(vchiq_susp_log_level, "%s exit %d", __func__, status);
++ return status;
++}
++
++void
++vchiq_check_suspend(VCHIQ_STATE_T *state)
++{
++ VCHIQ_ARM_STATE_T *arm_state = vchiq_platform_get_arm_state(state);
++
++ if (!arm_state)
++ goto out;
++
++ vchiq_log_trace(vchiq_susp_log_level, "%s", __func__);
++
++ write_lock_bh(&arm_state->susp_res_lock);
++ if (arm_state->vc_suspend_state != VC_SUSPEND_SUSPENDED &&
++ arm_state->first_connect &&
++ !vchiq_videocore_wanted(state)) {
++ vchiq_arm_vcsuspend(state);
++ }
++ write_unlock_bh(&arm_state->susp_res_lock);
++
++out:
++ vchiq_log_trace(vchiq_susp_log_level, "%s exit", __func__);
++ return;
++}
++
++
++int
++vchiq_arm_allow_resume(VCHIQ_STATE_T *state)
++{
++ VCHIQ_ARM_STATE_T *arm_state = vchiq_platform_get_arm_state(state);
++ int resume = 0;
++ int ret = -1;
++
++ if (!arm_state)
++ goto out;
++
++ vchiq_log_trace(vchiq_susp_log_level, "%s", __func__);
++
++ write_lock_bh(&arm_state->susp_res_lock);
++ unblock_resume(arm_state);
++ resume = vchiq_check_resume(state);
++ write_unlock_bh(&arm_state->susp_res_lock);
++
++ if (resume) {
++ if (wait_for_completion_interruptible(
++ &arm_state->vc_resume_complete) < 0) {
++ vchiq_log_error(vchiq_susp_log_level,
++ "%s interrupted", __func__);
++ /* failed, cannot accurately derive suspend
++ * state, so exit early. */
++ goto out;
++ }
++ }
++
++ read_lock_bh(&arm_state->susp_res_lock);
++ if (arm_state->vc_suspend_state == VC_SUSPEND_SUSPENDED) {
++ vchiq_log_info(vchiq_susp_log_level,
++ "%s: Videocore remains suspended", __func__);
++ } else {
++ vchiq_log_info(vchiq_susp_log_level,
++ "%s: Videocore resumed", __func__);
++ ret = 0;
++ }
++ read_unlock_bh(&arm_state->susp_res_lock);
++out:
++ vchiq_log_trace(vchiq_susp_log_level, "%s exit %d", __func__, ret);
++ return ret;
++}
++
++/* This function should be called with the write lock held */
++int
++vchiq_check_resume(VCHIQ_STATE_T *state)
++{
++ VCHIQ_ARM_STATE_T *arm_state = vchiq_platform_get_arm_state(state);
++ int resume = 0;
++
++ if (!arm_state)
++ goto out;
++
++ vchiq_log_trace(vchiq_susp_log_level, "%s", __func__);
++
++ if (need_resume(state)) {
++ set_resume_state(arm_state, VC_RESUME_REQUESTED);
++ request_poll(state, NULL, 0);
++ resume = 1;
++ }
++
++out:
++ vchiq_log_trace(vchiq_susp_log_level, "%s exit", __func__);
++ return resume;
++}
++
++void
++vchiq_platform_check_resume(VCHIQ_STATE_T *state)
++{
++ VCHIQ_ARM_STATE_T *arm_state = vchiq_platform_get_arm_state(state);
++ int res = 0;
++
++ if (!arm_state)
++ goto out;
++
++ vchiq_log_trace(vchiq_susp_log_level, "%s", __func__);
++
++ write_lock_bh(&arm_state->susp_res_lock);
++ if (arm_state->wake_address == 0) {
++ vchiq_log_info(vchiq_susp_log_level,
++ "%s: already awake", __func__);
++ goto unlock;
++ }
++ if (arm_state->vc_resume_state == VC_RESUME_IN_PROGRESS) {
++ vchiq_log_info(vchiq_susp_log_level,
++ "%s: already resuming", __func__);
++ goto unlock;
++ }
++
++ if (arm_state->vc_resume_state == VC_RESUME_REQUESTED) {
++ set_resume_state(arm_state, VC_RESUME_IN_PROGRESS);
++ res = 1;
++ } else
++ vchiq_log_trace(vchiq_susp_log_level,
++ "%s: not resuming (resume state %s)", __func__,
++ resume_state_names[arm_state->vc_resume_state +
++ VC_RESUME_NUM_OFFSET]);
++
++unlock:
++ write_unlock_bh(&arm_state->susp_res_lock);
++
++ if (res)
++ vchiq_platform_resume(state);
++
++out:
++ vchiq_log_trace(vchiq_susp_log_level, "%s exit", __func__);
++ return;
++
++}
++
++
++
++VCHIQ_STATUS_T
++vchiq_use_internal(VCHIQ_STATE_T *state, VCHIQ_SERVICE_T *service,
++ enum USE_TYPE_E use_type)
++{
++ VCHIQ_ARM_STATE_T *arm_state = vchiq_platform_get_arm_state(state);
++ VCHIQ_STATUS_T ret = VCHIQ_SUCCESS;
++ char entity[16];
++ int *entity_uc;
++ int local_uc, local_entity_uc;
++
++ if (!arm_state)
++ goto out;
++
++ vchiq_log_trace(vchiq_susp_log_level, "%s", __func__);
++
++ if (use_type == USE_TYPE_VCHIQ) {
++ sprintf(entity, "VCHIQ: ");
++ entity_uc = &arm_state->peer_use_count;
++ } else if (service) {
++ sprintf(entity, "%c%c%c%c:%03d",
++ VCHIQ_FOURCC_AS_4CHARS(service->base.fourcc),
++ service->client_id);
++ entity_uc = &service->service_use_count;
++ } else {
++ vchiq_log_error(vchiq_susp_log_level, "%s null service "
++ "ptr", __func__);
++ ret = VCHIQ_ERROR;
++ goto out;
++ }
++
++ write_lock_bh(&arm_state->susp_res_lock);
++ while (arm_state->resume_blocked) {
++ /* If we call 'use' while force suspend is waiting for suspend,
++ * then we're about to block the thread which the force is
++ * waiting to complete, so we're bound to just time out. In this
++ * case, set the suspend state such that the wait will be
++ * canceled, so we can complete as quickly as possible. */
++ if (arm_state->resume_blocked && arm_state->vc_suspend_state ==
++ VC_SUSPEND_IDLE) {
++ set_suspend_state(arm_state, VC_SUSPEND_FORCE_CANCELED);
++ break;
++ }
++ /* If suspend is already in progress then we need to block */
++ if (!try_wait_for_completion(&arm_state->resume_blocker)) {
++ /* Indicate that there are threads waiting on the resume
++ * blocker. These need to be allowed to complete before
++ * a _second_ call to force suspend can complete,
++ * otherwise low priority threads might never actually
++ * continue */
++ arm_state->blocked_count++;
++ write_unlock_bh(&arm_state->susp_res_lock);
++ vchiq_log_info(vchiq_susp_log_level, "%s %s resume "
++ "blocked - waiting...", __func__, entity);
++ if (wait_for_completion_killable(
++ &arm_state->resume_blocker) != 0) {
++ vchiq_log_error(vchiq_susp_log_level, "%s %s "
++ "wait for resume blocker interrupted",
++ __func__, entity);
++ ret = VCHIQ_ERROR;
++ write_lock_bh(&arm_state->susp_res_lock);
++ arm_state->blocked_count--;
++ write_unlock_bh(&arm_state->susp_res_lock);
++ goto out;
++ }
++ vchiq_log_info(vchiq_susp_log_level, "%s %s resume "
++ "unblocked", __func__, entity);
++ write_lock_bh(&arm_state->susp_res_lock);
++ if (--arm_state->blocked_count == 0)
++ complete_all(&arm_state->blocked_blocker);
++ }
++ }
++
++ stop_suspend_timer(arm_state);
++
++ local_uc = ++arm_state->videocore_use_count;
++ local_entity_uc = ++(*entity_uc);
++
++ /* If there's a pending request which hasn't yet been serviced then
++ * just clear it. If we're past VC_SUSPEND_REQUESTED state then
++ * vc_resume_complete will block until we either resume or fail to
++ * suspend */
++ if (arm_state->vc_suspend_state <= VC_SUSPEND_REQUESTED)
++ set_suspend_state(arm_state, VC_SUSPEND_IDLE);
++
++ if ((use_type != USE_TYPE_SERVICE_NO_RESUME) && need_resume(state)) {
++ set_resume_state(arm_state, VC_RESUME_REQUESTED);
++ vchiq_log_info(vchiq_susp_log_level,
++ "%s %s count %d, state count %d",
++ __func__, entity, local_entity_uc, local_uc);
++ request_poll(state, NULL, 0);
++ } else
++ vchiq_log_trace(vchiq_susp_log_level,
++ "%s %s count %d, state count %d",
++ __func__, entity, *entity_uc, local_uc);
++
++
++ write_unlock_bh(&arm_state->susp_res_lock);
++
++ /* Completion is in a done state when we're not suspended, so this won't
++ * block for the non-suspended case. */
++ if (!try_wait_for_completion(&arm_state->vc_resume_complete)) {
++ vchiq_log_info(vchiq_susp_log_level, "%s %s wait for resume",
++ __func__, entity);
++ if (wait_for_completion_killable(
++ &arm_state->vc_resume_complete) != 0) {
++ vchiq_log_error(vchiq_susp_log_level, "%s %s wait for "
++ "resume interrupted", __func__, entity);
++ ret = VCHIQ_ERROR;
++ goto out;
++ }
++ vchiq_log_info(vchiq_susp_log_level, "%s %s resumed", __func__,
++ entity);
++ }
++
++ if (ret == VCHIQ_SUCCESS) {
++ VCHIQ_STATUS_T status = VCHIQ_SUCCESS;
++ long ack_cnt = atomic_xchg(&arm_state->ka_use_ack_count, 0);
++ while (ack_cnt && (status == VCHIQ_SUCCESS)) {
++ /* Send the use notify to videocore */
++ status = vchiq_send_remote_use_active(state);
++ if (status == VCHIQ_SUCCESS)
++ ack_cnt--;
++ else
++ atomic_add(ack_cnt,
++ &arm_state->ka_use_ack_count);
++ }
++ }
++
++out:
++ vchiq_log_trace(vchiq_susp_log_level, "%s exit %d", __func__, ret);
++ return ret;
++}
++
++VCHIQ_STATUS_T
++vchiq_release_internal(VCHIQ_STATE_T *state, VCHIQ_SERVICE_T *service)
++{
++ VCHIQ_ARM_STATE_T *arm_state = vchiq_platform_get_arm_state(state);
++ VCHIQ_STATUS_T ret = VCHIQ_SUCCESS;
++ char entity[16];
++ int *entity_uc;
++ int local_uc, local_entity_uc;
++
++ if (!arm_state)
++ goto out;
++
++ vchiq_log_trace(vchiq_susp_log_level, "%s", __func__);
++
++ if (service) {
++ sprintf(entity, "%c%c%c%c:%03d",
++ VCHIQ_FOURCC_AS_4CHARS(service->base.fourcc),
++ service->client_id);
++ entity_uc = &service->service_use_count;
++ } else {
++ sprintf(entity, "PEER: ");
++ entity_uc = &arm_state->peer_use_count;
++ }
++
++ write_lock_bh(&arm_state->susp_res_lock);
++ if (!arm_state->videocore_use_count || !(*entity_uc)) {
++ /* Don't use BUG_ON - don't allow user thread to crash kernel */
++ WARN_ON(!arm_state->videocore_use_count);
++ WARN_ON(!(*entity_uc));
++ ret = VCHIQ_ERROR;
++ goto unlock;
++ }
++ local_uc = --arm_state->videocore_use_count;
++ local_entity_uc = --(*entity_uc);
++
++ if (!vchiq_videocore_wanted(state)) {
++ if (vchiq_platform_use_suspend_timer() &&
++ !arm_state->resume_blocked) {
++ /* Only use the timer if we're not trying to force
++ * suspend (=> resume_blocked) */
++ start_suspend_timer(arm_state);
++ } else {
++ vchiq_log_info(vchiq_susp_log_level,
++ "%s %s count %d, state count %d - suspending",
++ __func__, entity, *entity_uc,
++ arm_state->videocore_use_count);
++ vchiq_arm_vcsuspend(state);
++ }
++ } else
++ vchiq_log_trace(vchiq_susp_log_level,
++ "%s %s count %d, state count %d",
++ __func__, entity, *entity_uc,
++ arm_state->videocore_use_count);
++
++unlock:
++ write_unlock_bh(&arm_state->susp_res_lock);
++
++out:
++ vchiq_log_trace(vchiq_susp_log_level, "%s exit %d", __func__, ret);
++ return ret;
++}
++
++void
++vchiq_on_remote_use(VCHIQ_STATE_T *state)
++{
++ VCHIQ_ARM_STATE_T *arm_state = vchiq_platform_get_arm_state(state);
++ vchiq_log_trace(vchiq_susp_log_level, "%s", __func__);
++ atomic_inc(&arm_state->ka_use_count);
++ complete(&arm_state->ka_evt);
++}
++
++void
++vchiq_on_remote_release(VCHIQ_STATE_T *state)
++{
++ VCHIQ_ARM_STATE_T *arm_state = vchiq_platform_get_arm_state(state);
++ vchiq_log_trace(vchiq_susp_log_level, "%s", __func__);
++ atomic_inc(&arm_state->ka_release_count);
++ complete(&arm_state->ka_evt);
++}
++
++VCHIQ_STATUS_T
++vchiq_use_service_internal(VCHIQ_SERVICE_T *service)
++{
++ return vchiq_use_internal(service->state, service, USE_TYPE_SERVICE);
++}
++
++VCHIQ_STATUS_T
++vchiq_release_service_internal(VCHIQ_SERVICE_T *service)
++{
++ return vchiq_release_internal(service->state, service);
++}
++
++static void suspend_timer_callback(unsigned long context)
++{
++ VCHIQ_STATE_T *state = (VCHIQ_STATE_T *)context;
++ VCHIQ_ARM_STATE_T *arm_state = vchiq_platform_get_arm_state(state);
++ if (!arm_state)
++ goto out;
++ vchiq_log_info(vchiq_susp_log_level,
++ "%s - suspend timer expired - check suspend", __func__);
++ vchiq_check_suspend(state);
++out:
++ return;
++}
++
++VCHIQ_STATUS_T
++vchiq_use_service_no_resume(VCHIQ_SERVICE_HANDLE_T handle)
++{
++ VCHIQ_STATUS_T ret = VCHIQ_ERROR;
++ VCHIQ_SERVICE_T *service = find_service_by_handle(handle);
++ if (service) {
++ ret = vchiq_use_internal(service->state, service,
++ USE_TYPE_SERVICE_NO_RESUME);
++ unlock_service(service);
++ }
++ return ret;
++}
++
++VCHIQ_STATUS_T
++vchiq_use_service(VCHIQ_SERVICE_HANDLE_T handle)
++{
++ VCHIQ_STATUS_T ret = VCHIQ_ERROR;
++ VCHIQ_SERVICE_T *service = find_service_by_handle(handle);
++ if (service) {
++ ret = vchiq_use_internal(service->state, service,
++ USE_TYPE_SERVICE);
++ unlock_service(service);
++ }
++ return ret;
++}
++
++VCHIQ_STATUS_T
++vchiq_release_service(VCHIQ_SERVICE_HANDLE_T handle)
++{
++ VCHIQ_STATUS_T ret = VCHIQ_ERROR;
++ VCHIQ_SERVICE_T *service = find_service_by_handle(handle);
++ if (service) {
++ ret = vchiq_release_internal(service->state, service);
++ unlock_service(service);
++ }
++ return ret;
++}
++
++void
++vchiq_dump_service_use_state(VCHIQ_STATE_T *state)
++{
++ VCHIQ_ARM_STATE_T *arm_state = vchiq_platform_get_arm_state(state);
++ int i, j = 0;
++ /* Only dump 64 services */
++ static const int local_max_services = 64;
++ /* If there's more than 64 services, only dump ones with
++ * non-zero counts */
++ int only_nonzero = 0;
++ static const char *nz = "<-- preventing suspend";
++
++ enum vc_suspend_status vc_suspend_state;
++ enum vc_resume_status vc_resume_state;
++ int peer_count;
++ int vc_use_count;
++ int active_services;
++ struct service_data_struct {
++ int fourcc;
++ int clientid;
++ int use_count;
++ } service_data[local_max_services];
++
++ if (!arm_state)
++ return;
++
++ read_lock_bh(&arm_state->susp_res_lock);
++ vc_suspend_state = arm_state->vc_suspend_state;
++ vc_resume_state = arm_state->vc_resume_state;
++ peer_count = arm_state->peer_use_count;
++ vc_use_count = arm_state->videocore_use_count;
++ active_services = state->unused_service;
++ if (active_services > local_max_services)
++ only_nonzero = 1;
++
++ for (i = 0; (i < active_services) && (j < local_max_services); i++) {
++ VCHIQ_SERVICE_T *service_ptr = state->services[i];
++ if (!service_ptr)
++ continue;
++
++ if (only_nonzero && !service_ptr->service_use_count)
++ continue;
++
++ if (service_ptr->srvstate != VCHIQ_SRVSTATE_FREE) {
++ service_data[j].fourcc = service_ptr->base.fourcc;
++ service_data[j].clientid = service_ptr->client_id;
++ service_data[j++].use_count = service_ptr->
++ service_use_count;
++ }
++ }
++
++ read_unlock_bh(&arm_state->susp_res_lock);
++
++ vchiq_log_warning(vchiq_susp_log_level,
++ "-- Videcore suspend state: %s --",
++ suspend_state_names[vc_suspend_state + VC_SUSPEND_NUM_OFFSET]);
++ vchiq_log_warning(vchiq_susp_log_level,
++ "-- Videcore resume state: %s --",
++ resume_state_names[vc_resume_state + VC_RESUME_NUM_OFFSET]);
++
++ if (only_nonzero)
++ vchiq_log_warning(vchiq_susp_log_level, "Too many active "
++ "services (%d). Only dumping up to first %d services "
++ "with non-zero use-count", active_services,
++ local_max_services);
++
++ for (i = 0; i < j; i++) {
++ vchiq_log_warning(vchiq_susp_log_level,
++ "----- %c%c%c%c:%d service count %d %s",
++ VCHIQ_FOURCC_AS_4CHARS(service_data[i].fourcc),
++ service_data[i].clientid,
++ service_data[i].use_count,
++ service_data[i].use_count ? nz : "");
++ }
++ vchiq_log_warning(vchiq_susp_log_level,
++ "----- VCHIQ use count count %d", peer_count);
++ vchiq_log_warning(vchiq_susp_log_level,
++ "--- Overall vchiq instance use count %d", vc_use_count);
++
++ vchiq_dump_platform_use_state(state);
++}
++
++VCHIQ_STATUS_T
++vchiq_check_service(VCHIQ_SERVICE_T *service)
++{
++ VCHIQ_ARM_STATE_T *arm_state;
++ VCHIQ_STATUS_T ret = VCHIQ_ERROR;
++
++ if (!service || !service->state)
++ goto out;
++
++ vchiq_log_trace(vchiq_susp_log_level, "%s", __func__);
++
++ arm_state = vchiq_platform_get_arm_state(service->state);
++
++ read_lock_bh(&arm_state->susp_res_lock);
++ if (service->service_use_count)
++ ret = VCHIQ_SUCCESS;
++ read_unlock_bh(&arm_state->susp_res_lock);
++
++ if (ret == VCHIQ_ERROR) {
++ vchiq_log_error(vchiq_susp_log_level,
++ "%s ERROR - %c%c%c%c:%d service count %d, "
++ "state count %d, videocore suspend state %s", __func__,
++ VCHIQ_FOURCC_AS_4CHARS(service->base.fourcc),
++ service->client_id, service->service_use_count,
++ arm_state->videocore_use_count,
++ suspend_state_names[arm_state->vc_suspend_state +
++ VC_SUSPEND_NUM_OFFSET]);
++ vchiq_dump_service_use_state(service->state);
++ }
++out:
++ return ret;
++}
++
++/* stub functions */
++void vchiq_on_remote_use_active(VCHIQ_STATE_T *state)
++{
++ (void)state;
++}
++
++void vchiq_platform_conn_state_changed(VCHIQ_STATE_T *state,
++ VCHIQ_CONNSTATE_T oldstate, VCHIQ_CONNSTATE_T newstate)
++{
++ VCHIQ_ARM_STATE_T *arm_state = vchiq_platform_get_arm_state(state);
++ vchiq_log_info(vchiq_susp_log_level, "%d: %s->%s", state->id,
++ get_conn_state_name(oldstate), get_conn_state_name(newstate));
++ if (state->conn_state == VCHIQ_CONNSTATE_CONNECTED) {
++ write_lock_bh(&arm_state->susp_res_lock);
++ if (!arm_state->first_connect) {
++ char threadname[10];
++ arm_state->first_connect = 1;
++ write_unlock_bh(&arm_state->susp_res_lock);
++ snprintf(threadname, sizeof(threadname), "VCHIQka-%d",
++ state->id);
++ arm_state->ka_thread = kthread_create(
++ &vchiq_keepalive_thread_func,
++ (void *)state,
++ threadname);
++ if (arm_state->ka_thread == NULL) {
++ vchiq_log_error(vchiq_susp_log_level,
++ "vchiq: FATAL: couldn't create thread %s",
++ threadname);
++ } else {
++ wake_up_process(arm_state->ka_thread);
++ }
++ } else
++ write_unlock_bh(&arm_state->susp_res_lock);
++ }
++}
++
++
++/****************************************************************************
++*
++* vchiq_init - called when the module is loaded.
++*
++***************************************************************************/
++
++static int __init
++vchiq_init(void)
++{
++ int err;
++ void *ptr_err;
++
++ /* create proc entries */
++ err = vchiq_proc_init();
++ if (err != 0)
++ goto failed_proc_init;
++
++ err = alloc_chrdev_region(&vchiq_devid, VCHIQ_MINOR, 1, DEVICE_NAME);
++ if (err != 0) {
++ vchiq_log_error(vchiq_arm_log_level,
++ "Unable to allocate device number");
++ goto failed_alloc_chrdev;
++ }
++ cdev_init(&vchiq_cdev, &vchiq_fops);
++ vchiq_cdev.owner = THIS_MODULE;
++ err = cdev_add(&vchiq_cdev, vchiq_devid, 1);
++ if (err != 0) {
++ vchiq_log_error(vchiq_arm_log_level,
++ "Unable to register device");
++ goto failed_cdev_add;
++ }
++
++ /* create sysfs entries */
++ vchiq_class = class_create(THIS_MODULE, DEVICE_NAME);
++ ptr_err = vchiq_class;
++ if (IS_ERR(ptr_err))
++ goto failed_class_create;
++
++ vchiq_dev = device_create(vchiq_class, NULL,
++ vchiq_devid, NULL, "vchiq");
++ ptr_err = vchiq_dev;
++ if (IS_ERR(ptr_err))
++ goto failed_device_create;
++
++ err = vchiq_platform_init(&g_state);
++ if (err != 0)
++ goto failed_platform_init;
++
++ vchiq_log_info(vchiq_arm_log_level,
++ "vchiq: initialised - version %d (min %d), device %d.%d",
++ VCHIQ_VERSION, VCHIQ_VERSION_MIN,
++ MAJOR(vchiq_devid), MINOR(vchiq_devid));
++
++ return 0;
++
++failed_platform_init:
++ device_destroy(vchiq_class, vchiq_devid);
++failed_device_create:
++ class_destroy(vchiq_class);
++failed_class_create:
++ cdev_del(&vchiq_cdev);
++ err = PTR_ERR(ptr_err);
++failed_cdev_add:
++ unregister_chrdev_region(vchiq_devid, 1);
++failed_alloc_chrdev:
++ vchiq_proc_deinit();
++failed_proc_init:
++ vchiq_log_warning(vchiq_arm_log_level, "could not load vchiq");
++ return err;
++}
++
++static int vchiq_instance_get_use_count(VCHIQ_INSTANCE_T instance)
++{
++ VCHIQ_SERVICE_T *service;
++ int use_count = 0, i;
++ i = 0;
++ while ((service = next_service_by_instance(instance->state,
++ instance, &i)) != NULL) {
++ use_count += service->service_use_count;
++ unlock_service(service);
++ }
++ return use_count;
++}
++
++/* read the per-process use-count */
++static int proc_read_use_count(char *page, char **start,
++ off_t off, int count,
++ int *eof, void *data)
++{
++ VCHIQ_INSTANCE_T instance = data;
++ int len, use_count;
++
++ use_count = vchiq_instance_get_use_count(instance);
++ len = snprintf(page+off, count, "%d\n", use_count);
++
++ return len;
++}
++
++/* add an instance (process) to the proc entries */
++static int vchiq_proc_add_instance(VCHIQ_INSTANCE_T instance)
++{
++ char pidstr[32];
++ struct proc_dir_entry *top, *use_count;
++ struct proc_dir_entry *clients = vchiq_clients_top();
++ int pid = instance->pid;
++
++ snprintf(pidstr, sizeof(pidstr), "%d", pid);
++ top = proc_mkdir(pidstr, clients);
++ if (!top)
++ goto fail_top;
++#if 0
++ use_count = create_proc_read_entry("use_count",
++ 0444, top,
++ proc_read_use_count,
++ instance);
++ if (!use_count)
++ goto fail_use_count;
++
++ instance->proc_entry = top;
++#endif
++ return 0;
++
++fail_use_count:
++#if 0
++ remove_proc_entry(top->name, clients);
++#endif
++fail_top:
++ return -ENOMEM;
++}
++
++static void vchiq_proc_remove_instance(VCHIQ_INSTANCE_T instance)
++{
++#if 0
++ struct proc_dir_entry *clients = vchiq_clients_top();
++ remove_proc_entry("use_count", instance->proc_entry);
++ remove_proc_entry(instance->proc_entry->name, clients);
++#endif
++}
++
++/****************************************************************************
++*
++* vchiq_exit - called when the module is unloaded.
++*
++***************************************************************************/
++
++static void __exit
++vchiq_exit(void)
++{
++ vchiq_platform_exit(&g_state);
++ device_destroy(vchiq_class, vchiq_devid);
++ class_destroy(vchiq_class);
++ cdev_del(&vchiq_cdev);
++ unregister_chrdev_region(vchiq_devid, 1);
++}
++
++module_init(vchiq_init);
++module_exit(vchiq_exit);
++MODULE_LICENSE("GPL");
++MODULE_AUTHOR("Broadcom Corporation");
+diff -urN linux-3.10/drivers/misc/vc04_services/interface/vchiq_arm/vchiq_arm.h linux-rpi-3.10.y/drivers/misc/vc04_services/interface/vchiq_arm/vchiq_arm.h
+--- linux-3.10/drivers/misc/vc04_services/interface/vchiq_arm/vchiq_arm.h 1970-01-01 01:00:00.000000000 +0100
++++ linux-rpi-3.10.y/drivers/misc/vc04_services/interface/vchiq_arm/vchiq_arm.h 2013-07-06 15:25:50.000000000 +0100
+@@ -0,0 +1,212 @@
++/**
++ * Copyright (c) 2010-2012 Broadcom. All rights reserved.
++ *
++ * Redistribution and use in source and binary forms, with or without
++ * modification, are permitted provided that the following conditions
++ * are met:
++ * 1. Redistributions of source code must retain the above copyright
++ * notice, this list of conditions, and the following disclaimer,
++ * without modification.
++ * 2. Redistributions in binary form must reproduce the above copyright
++ * notice, this list of conditions and the following disclaimer in the
++ * documentation and/or other materials provided with the distribution.
++ * 3. The names of the above-listed copyright holders may not be used
++ * to endorse or promote products derived from this software without
++ * specific prior written permission.
++ *
++ * ALTERNATIVELY, this software may be distributed under the terms of the
++ * GNU General Public License ("GPL") version 2, as published by the Free
++ * Software Foundation.
++ *
++ * THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS
++ * IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO,
++ * THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR
++ * PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT OWNER OR
++ * CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL,
++ * EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO,
++ * PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR
++ * PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF
++ * LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING
++ * NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS
++ * SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
++ */
++
++#ifndef VCHIQ_ARM_H
++#define VCHIQ_ARM_H
++
++#include <linux/mutex.h>
++#include <linux/semaphore.h>
++#include <linux/atomic.h>
++#include "vchiq_core.h"
++
++
++enum vc_suspend_status {
++ VC_SUSPEND_FORCE_CANCELED = -3, /* Force suspend canceled, too busy */
++ VC_SUSPEND_REJECTED = -2, /* Videocore rejected suspend request */
++ VC_SUSPEND_FAILED = -1, /* Videocore suspend failed */
++ VC_SUSPEND_IDLE = 0, /* VC active, no suspend actions */
++ VC_SUSPEND_REQUESTED, /* User has requested suspend */
++ VC_SUSPEND_IN_PROGRESS, /* Slot handler has recvd suspend request */
++ VC_SUSPEND_SUSPENDED /* Videocore suspend succeeded */
++};
++
++enum vc_resume_status {
++ VC_RESUME_FAILED = -1, /* Videocore resume failed */
++ VC_RESUME_IDLE = 0, /* VC suspended, no resume actions */
++ VC_RESUME_REQUESTED, /* User has requested resume */
++ VC_RESUME_IN_PROGRESS, /* Slot handler has received resume request */
++ VC_RESUME_RESUMED /* Videocore resumed successfully (active) */
++};
++
++
++enum USE_TYPE_E {
++ USE_TYPE_SERVICE,
++ USE_TYPE_SERVICE_NO_RESUME,
++ USE_TYPE_VCHIQ
++};
++
++
++
++typedef struct vchiq_arm_state_struct {
++ /* Keepalive-related data */
++ struct task_struct *ka_thread;
++ struct completion ka_evt;
++ atomic_t ka_use_count;
++ atomic_t ka_use_ack_count;
++ atomic_t ka_release_count;
++
++ struct completion vc_suspend_complete;
++ struct completion vc_resume_complete;
++
++ rwlock_t susp_res_lock;
++ enum vc_suspend_status vc_suspend_state;
++ enum vc_resume_status vc_resume_state;
++
++ unsigned int wake_address;
++
++ struct timer_list suspend_timer;
++ int suspend_timer_timeout;
++ int suspend_timer_running;
++
++ /* Global use count for videocore.
++ ** This is equal to the sum of the use counts for all services. When
++ ** this hits zero the videocore suspend procedure will be initiated.
++ */
++ int videocore_use_count;
++
++ /* Use count to track requests from videocore peer.
++ ** This use count is not associated with a service, so needs to be
++ ** tracked separately with the state.
++ */
++ int peer_use_count;
++
++ /* Flag to indicate whether resume is blocked. This happens when the
++ ** ARM is suspending
++ */
++ struct completion resume_blocker;
++ int resume_blocked;
++ struct completion blocked_blocker;
++ int blocked_count;
++
++ int autosuspend_override;
++
++ /* Flag to indicate that the first vchiq connect has made it through.
++ ** This means that both sides should be fully ready, and we should
++ ** be able to suspend after this point.
++ */
++ int first_connect;
++
++ unsigned long long suspend_start_time;
++ unsigned long long sleep_start_time;
++ unsigned long long resume_start_time;
++ unsigned long long last_wake_time;
++
++} VCHIQ_ARM_STATE_T;
++
++extern int vchiq_arm_log_level;
++extern int vchiq_susp_log_level;
++
++extern int __init
++vchiq_platform_init(VCHIQ_STATE_T *state);
++
++extern void __exit
++vchiq_platform_exit(VCHIQ_STATE_T *state);
++
++extern VCHIQ_STATE_T *
++vchiq_get_state(void);
++
++extern VCHIQ_STATUS_T
++vchiq_arm_vcsuspend(VCHIQ_STATE_T *state);
++
++extern VCHIQ_STATUS_T
++vchiq_arm_force_suspend(VCHIQ_STATE_T *state);
++
++extern int
++vchiq_arm_allow_resume(VCHIQ_STATE_T *state);
++
++extern VCHIQ_STATUS_T
++vchiq_arm_vcresume(VCHIQ_STATE_T *state);
++
++extern VCHIQ_STATUS_T
++vchiq_arm_init_state(VCHIQ_STATE_T *state, VCHIQ_ARM_STATE_T *arm_state);
++
++extern int
++vchiq_check_resume(VCHIQ_STATE_T *state);
++
++extern void
++vchiq_check_suspend(VCHIQ_STATE_T *state);
++
++extern VCHIQ_STATUS_T
++vchiq_use_service(VCHIQ_SERVICE_HANDLE_T handle);
++
++extern VCHIQ_STATUS_T
++vchiq_release_service(VCHIQ_SERVICE_HANDLE_T handle);
++
++extern VCHIQ_STATUS_T
++vchiq_check_service(VCHIQ_SERVICE_T *service);
++
++extern VCHIQ_STATUS_T
++vchiq_platform_suspend(VCHIQ_STATE_T *state);
++
++extern int
++vchiq_platform_videocore_wanted(VCHIQ_STATE_T *state);
++
++extern int
++vchiq_platform_use_suspend_timer(void);
++
++extern void
++vchiq_dump_platform_use_state(VCHIQ_STATE_T *state);
++
++extern void
++vchiq_dump_service_use_state(VCHIQ_STATE_T *state);
++
++extern VCHIQ_ARM_STATE_T*
++vchiq_platform_get_arm_state(VCHIQ_STATE_T *state);
++
++extern int
++vchiq_videocore_wanted(VCHIQ_STATE_T *state);
++
++extern VCHIQ_STATUS_T
++vchiq_use_internal(VCHIQ_STATE_T *state, VCHIQ_SERVICE_T *service,
++ enum USE_TYPE_E use_type);
++extern VCHIQ_STATUS_T
++vchiq_release_internal(VCHIQ_STATE_T *state, VCHIQ_SERVICE_T *service);
++
++void
++set_suspend_state(VCHIQ_ARM_STATE_T *arm_state,
++ enum vc_suspend_status new_state);
++
++void
++set_resume_state(VCHIQ_ARM_STATE_T *arm_state,
++ enum vc_resume_status new_state);
++
++void
++start_suspend_timer(VCHIQ_ARM_STATE_T *arm_state);
++
++extern int vchiq_proc_init(void);
++extern void vchiq_proc_deinit(void);
++extern struct proc_dir_entry *vchiq_proc_top(void);
++extern struct proc_dir_entry *vchiq_clients_top(void);
++
++
++#endif /* VCHIQ_ARM_H */
+diff -urN linux-3.10/drivers/misc/vc04_services/interface/vchiq_arm/vchiq_build_info.h linux-rpi-3.10.y/drivers/misc/vc04_services/interface/vchiq_arm/vchiq_build_info.h
+--- linux-3.10/drivers/misc/vc04_services/interface/vchiq_arm/vchiq_build_info.h 1970-01-01 01:00:00.000000000 +0100
++++ linux-rpi-3.10.y/drivers/misc/vc04_services/interface/vchiq_arm/vchiq_build_info.h 2013-07-06 15:25:50.000000000 +0100
+@@ -0,0 +1,37 @@
++/**
++ * Copyright (c) 2010-2012 Broadcom. All rights reserved.
++ *
++ * Redistribution and use in source and binary forms, with or without
++ * modification, are permitted provided that the following conditions
++ * are met:
++ * 1. Redistributions of source code must retain the above copyright
++ * notice, this list of conditions, and the following disclaimer,
++ * without modification.
++ * 2. Redistributions in binary form must reproduce the above copyright
++ * notice, this list of conditions and the following disclaimer in the
++ * documentation and/or other materials provided with the distribution.
++ * 3. The names of the above-listed copyright holders may not be used
++ * to endorse or promote products derived from this software without
++ * specific prior written permission.
++ *
++ * ALTERNATIVELY, this software may be distributed under the terms of the
++ * GNU General Public License ("GPL") version 2, as published by the Free
++ * Software Foundation.
++ *
++ * THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS
++ * IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO,
++ * THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR
++ * PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT OWNER OR
++ * CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL,
++ * EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO,
++ * PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR
++ * PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF
++ * LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING
++ * NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS
++ * SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
++ */
++
++const char *vchiq_get_build_hostname(void);
++const char *vchiq_get_build_version(void);
++const char *vchiq_get_build_time(void);
++const char *vchiq_get_build_date(void);
+diff -urN linux-3.10/drivers/misc/vc04_services/interface/vchiq_arm/vchiq_cfg.h linux-rpi-3.10.y/drivers/misc/vc04_services/interface/vchiq_arm/vchiq_cfg.h
+--- linux-3.10/drivers/misc/vc04_services/interface/vchiq_arm/vchiq_cfg.h 1970-01-01 01:00:00.000000000 +0100
++++ linux-rpi-3.10.y/drivers/misc/vc04_services/interface/vchiq_arm/vchiq_cfg.h 2013-07-06 15:25:50.000000000 +0100
+@@ -0,0 +1,60 @@
++/**
++ * Copyright (c) 2010-2012 Broadcom. All rights reserved.
++ *
++ * Redistribution and use in source and binary forms, with or without
++ * modification, are permitted provided that the following conditions
++ * are met:
++ * 1. Redistributions of source code must retain the above copyright
++ * notice, this list of conditions, and the following disclaimer,
++ * without modification.
++ * 2. Redistributions in binary form must reproduce the above copyright
++ * notice, this list of conditions and the following disclaimer in the
++ * documentation and/or other materials provided with the distribution.
++ * 3. The names of the above-listed copyright holders may not be used
++ * to endorse or promote products derived from this software without
++ * specific prior written permission.
++ *
++ * ALTERNATIVELY, this software may be distributed under the terms of the
++ * GNU General Public License ("GPL") version 2, as published by the Free
++ * Software Foundation.
++ *
++ * THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS
++ * IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO,
++ * THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR
++ * PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT OWNER OR
++ * CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL,
++ * EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO,
++ * PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR
++ * PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF
++ * LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING
++ * NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS
++ * SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
++ */
++
++#ifndef VCHIQ_CFG_H
++#define VCHIQ_CFG_H
++
++#define VCHIQ_MAGIC VCHIQ_MAKE_FOURCC('V', 'C', 'H', 'I')
++/* The version of VCHIQ - change with any non-trivial change */
++#define VCHIQ_VERSION 6
++/* The minimum compatible version - update to match VCHIQ_VERSION with any
++** incompatible change */
++#define VCHIQ_VERSION_MIN 3
++
++#define VCHIQ_MAX_STATES 1
++#define VCHIQ_MAX_SERVICES 4096
++#define VCHIQ_MAX_SLOTS 128
++#define VCHIQ_MAX_SLOTS_PER_SIDE 64
++
++#define VCHIQ_NUM_CURRENT_BULKS 32
++#define VCHIQ_NUM_SERVICE_BULKS 4
++
++#ifndef VCHIQ_ENABLE_DEBUG
++#define VCHIQ_ENABLE_DEBUG 1
++#endif
++
++#ifndef VCHIQ_ENABLE_STATS
++#define VCHIQ_ENABLE_STATS 1
++#endif
++
++#endif /* VCHIQ_CFG_H */
+diff -urN linux-3.10/drivers/misc/vc04_services/interface/vchiq_arm/vchiq_connected.c linux-rpi-3.10.y/drivers/misc/vc04_services/interface/vchiq_arm/vchiq_connected.c
+--- linux-3.10/drivers/misc/vc04_services/interface/vchiq_arm/vchiq_connected.c 1970-01-01 01:00:00.000000000 +0100
++++ linux-rpi-3.10.y/drivers/misc/vc04_services/interface/vchiq_arm/vchiq_connected.c 2013-07-06 15:25:50.000000000 +0100
+@@ -0,0 +1,119 @@
++/**
++ * Copyright (c) 2010-2012 Broadcom. All rights reserved.
++ *
++ * Redistribution and use in source and binary forms, with or without
++ * modification, are permitted provided that the following conditions
++ * are met:
++ * 1. Redistributions of source code must retain the above copyright
++ * notice, this list of conditions, and the following disclaimer,
++ * without modification.
++ * 2. Redistributions in binary form must reproduce the above copyright
++ * notice, this list of conditions and the following disclaimer in the
++ * documentation and/or other materials provided with the distribution.
++ * 3. The names of the above-listed copyright holders may not be used
++ * to endorse or promote products derived from this software without
++ * specific prior written permission.
++ *
++ * ALTERNATIVELY, this software may be distributed under the terms of the
++ * GNU General Public License ("GPL") version 2, as published by the Free
++ * Software Foundation.
++ *
++ * THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS
++ * IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO,
++ * THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR
++ * PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT OWNER OR
++ * CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL,
++ * EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO,
++ * PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR
++ * PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF
++ * LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING
++ * NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS
++ * SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
++ */
++
++#include "vchiq_connected.h"
++#include "vchiq_core.h"
++#include <linux/module.h>
++#include <linux/mutex.h>
++
++#define MAX_CALLBACKS 10
++
++static int g_connected;
++static int g_num_deferred_callbacks;
++static VCHIQ_CONNECTED_CALLBACK_T g_deferred_callback[MAX_CALLBACKS];
++static int g_once_init;
++static struct mutex g_connected_mutex;
++
++/****************************************************************************
++*
++* Function to initialize our lock.
++*
++***************************************************************************/
++
++static void connected_init(void)
++{
++ if (!g_once_init) {
++ mutex_init(&g_connected_mutex);
++ g_once_init = 1;
++ }
++}
++
++/****************************************************************************
++*
++* This function is used to defer initialization until the vchiq stack is
++* initialized. If the stack is already initialized, then the callback will
++* be made immediately, otherwise it will be deferred until
++* vchiq_call_connected_callbacks is called.
++*
++***************************************************************************/
++
++void vchiq_add_connected_callback(VCHIQ_CONNECTED_CALLBACK_T callback)
++{
++ connected_init();
++
++ if (mutex_lock_interruptible(&g_connected_mutex) != 0)
++ return;
++
++ if (g_connected)
++ /* We're already connected. Call the callback immediately. */
++
++ callback();
++ else {
++ if (g_num_deferred_callbacks >= MAX_CALLBACKS)
++ vchiq_log_error(vchiq_core_log_level,
++ "There already %d callback registered - "
++ "please increase MAX_CALLBACKS",
++ g_num_deferred_callbacks);
++ else {
++ g_deferred_callback[g_num_deferred_callbacks] =
++ callback;
++ g_num_deferred_callbacks++;
++ }
++ }
++ mutex_unlock(&g_connected_mutex);
++}
++
++/****************************************************************************
++*
++* This function is called by the vchiq stack once it has been connected to
++* the videocore and clients can start to use the stack.
++*
++***************************************************************************/
++
++void vchiq_call_connected_callbacks(void)
++{
++ int i;
++
++ connected_init();
++
++ if (mutex_lock_interruptible(&g_connected_mutex) != 0)
++ return;
++
++ for (i = 0; i < g_num_deferred_callbacks; i++)
++ g_deferred_callback[i]();
++
++ g_num_deferred_callbacks = 0;
++ g_connected = 1;
++ mutex_unlock(&g_connected_mutex);
++}
++EXPORT_SYMBOL(vchiq_add_connected_callback);
+diff -urN linux-3.10/drivers/misc/vc04_services/interface/vchiq_arm/vchiq_connected.h linux-rpi-3.10.y/drivers/misc/vc04_services/interface/vchiq_arm/vchiq_connected.h
+--- linux-3.10/drivers/misc/vc04_services/interface/vchiq_arm/vchiq_connected.h 1970-01-01 01:00:00.000000000 +0100
++++ linux-rpi-3.10.y/drivers/misc/vc04_services/interface/vchiq_arm/vchiq_connected.h 2013-07-06 15:25:50.000000000 +0100
+@@ -0,0 +1,51 @@
++/**
++ * Copyright (c) 2010-2012 Broadcom. All rights reserved.
++ *
++ * Redistribution and use in source and binary forms, with or without
++ * modification, are permitted provided that the following conditions
++ * are met:
++ * 1. Redistributions of source code must retain the above copyright
++ * notice, this list of conditions, and the following disclaimer,
++ * without modification.
++ * 2. Redistributions in binary form must reproduce the above copyright
++ * notice, this list of conditions and the following disclaimer in the
++ * documentation and/or other materials provided with the distribution.
++ * 3. The names of the above-listed copyright holders may not be used
++ * to endorse or promote products derived from this software without
++ * specific prior written permission.
++ *
++ * ALTERNATIVELY, this software may be distributed under the terms of the
++ * GNU General Public License ("GPL") version 2, as published by the Free
++ * Software Foundation.
++ *
++ * THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS
++ * IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO,
++ * THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR
++ * PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT OWNER OR
++ * CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL,
++ * EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO,
++ * PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR
++ * PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF
++ * LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING
++ * NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS
++ * SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
++ */
++
++#ifndef VCHIQ_CONNECTED_H
++#define VCHIQ_CONNECTED_H
++
++/* ---- Include Files ----------------------------------------------------- */
++
++/* ---- Constants and Types ---------------------------------------------- */
++
++typedef void (*VCHIQ_CONNECTED_CALLBACK_T)(void);
++
++/* ---- Variable Externs ------------------------------------------------- */
++
++/* ---- Function Prototypes ---------------------------------------------- */
++
++void vchiq_add_connected_callback(VCHIQ_CONNECTED_CALLBACK_T callback);
++void vchiq_call_connected_callbacks(void);
++
++#endif /* VCHIQ_CONNECTED_H */
++
+diff -urN linux-3.10/drivers/misc/vc04_services/interface/vchiq_arm/vchiq_core.c linux-rpi-3.10.y/drivers/misc/vc04_services/interface/vchiq_arm/vchiq_core.c
+--- linux-3.10/drivers/misc/vc04_services/interface/vchiq_arm/vchiq_core.c 1970-01-01 01:00:00.000000000 +0100
++++ linux-rpi-3.10.y/drivers/misc/vc04_services/interface/vchiq_arm/vchiq_core.c 2013-07-06 15:25:50.000000000 +0100
+@@ -0,0 +1,3818 @@
++/**
++ * Copyright (c) 2010-2012 Broadcom. All rights reserved.
++ *
++ * Redistribution and use in source and binary forms, with or without
++ * modification, are permitted provided that the following conditions
++ * are met:
++ * 1. Redistributions of source code must retain the above copyright
++ * notice, this list of conditions, and the following disclaimer,
++ * without modification.
++ * 2. Redistributions in binary form must reproduce the above copyright
++ * notice, this list of conditions and the following disclaimer in the
++ * documentation and/or other materials provided with the distribution.
++ * 3. The names of the above-listed copyright holders may not be used
++ * to endorse or promote products derived from this software without
++ * specific prior written permission.
++ *
++ * ALTERNATIVELY, this software may be distributed under the terms of the
++ * GNU General Public License ("GPL") version 2, as published by the Free
++ * Software Foundation.
++ *
++ * THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS
++ * IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO,
++ * THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR
++ * PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT OWNER OR
++ * CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL,
++ * EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO,
++ * PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR
++ * PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF
++ * LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING
++ * NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS
++ * SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
++ */
++
++#include "vchiq_core.h"
++
++#define VCHIQ_SLOT_HANDLER_STACK 8192
++
++#define HANDLE_STATE_SHIFT 12
++
++#define SLOT_INFO_FROM_INDEX(state, index) (state->slot_info + (index))
++#define SLOT_DATA_FROM_INDEX(state, index) (state->slot_data + (index))
++#define SLOT_INDEX_FROM_DATA(state, data) \
++ (((unsigned int)((char *)data - (char *)state->slot_data)) / \
++ VCHIQ_SLOT_SIZE)
++#define SLOT_INDEX_FROM_INFO(state, info) \
++ ((unsigned int)(info - state->slot_info))
++#define SLOT_QUEUE_INDEX_FROM_POS(pos) \
++ ((int)((unsigned int)(pos) / VCHIQ_SLOT_SIZE))
++
++
++#define BULK_INDEX(x) (x & (VCHIQ_NUM_SERVICE_BULKS - 1))
++
++
++struct vchiq_open_payload {
++ int fourcc;
++ int client_id;
++ short version;
++ short version_min;
++};
++
++struct vchiq_openack_payload {
++ short version;
++};
++
++/* we require this for consistency between endpoints */
++vchiq_static_assert(sizeof(VCHIQ_HEADER_T) == 8);
++vchiq_static_assert(IS_POW2(sizeof(VCHIQ_HEADER_T)));
++vchiq_static_assert(IS_POW2(VCHIQ_NUM_CURRENT_BULKS));
++vchiq_static_assert(IS_POW2(VCHIQ_NUM_SERVICE_BULKS));
++vchiq_static_assert(IS_POW2(VCHIQ_MAX_SERVICES));
++vchiq_static_assert(VCHIQ_VERSION >= VCHIQ_VERSION_MIN);
++
++/* Run time control of log level, based on KERN_XXX level. */
++int vchiq_core_log_level = VCHIQ_LOG_DEFAULT;
++int vchiq_core_msg_log_level = VCHIQ_LOG_DEFAULT;
++int vchiq_sync_log_level = VCHIQ_LOG_DEFAULT;
++
++static atomic_t pause_bulks_count = ATOMIC_INIT(0);
++
++static DEFINE_SPINLOCK(service_spinlock);
++DEFINE_SPINLOCK(bulk_waiter_spinlock);
++DEFINE_SPINLOCK(quota_spinlock);
++
++VCHIQ_STATE_T *vchiq_states[VCHIQ_MAX_STATES];
++static unsigned int handle_seq;
++
++static const char *const srvstate_names[] = {
++ "FREE",
++ "HIDDEN",
++ "LISTENING",
++ "OPENING",
++ "OPEN",
++ "OPENSYNC",
++ "CLOSESENT",
++ "CLOSERECVD",
++ "CLOSEWAIT",
++ "CLOSED"
++};
++
++static const char *const reason_names[] = {
++ "SERVICE_OPENED",
++ "SERVICE_CLOSED",
++ "MESSAGE_AVAILABLE",
++ "BULK_TRANSMIT_DONE",
++ "BULK_RECEIVE_DONE",
++ "BULK_TRANSMIT_ABORTED",
++ "BULK_RECEIVE_ABORTED"
++};
++
++static const char *const conn_state_names[] = {
++ "DISCONNECTED",
++ "CONNECTING",
++ "CONNECTED",
++ "PAUSING",
++ "PAUSE_SENT",
++ "PAUSED",
++ "RESUMING",
++ "PAUSE_TIMEOUT",
++ "RESUME_TIMEOUT"
++};
++
++
++static void
++release_message_sync(VCHIQ_STATE_T *state, VCHIQ_HEADER_T *header);
++
++static const char *msg_type_str(unsigned int msg_type)
++{
++ switch (msg_type) {
++ case VCHIQ_MSG_PADDING: return "PADDING";
++ case VCHIQ_MSG_CONNECT: return "CONNECT";
++ case VCHIQ_MSG_OPEN: return "OPEN";
++ case VCHIQ_MSG_OPENACK: return "OPENACK";
++ case VCHIQ_MSG_CLOSE: return "CLOSE";
++ case VCHIQ_MSG_DATA: return "DATA";
++ case VCHIQ_MSG_BULK_RX: return "BULK_RX";
++ case VCHIQ_MSG_BULK_TX: return "BULK_TX";
++ case VCHIQ_MSG_BULK_RX_DONE: return "BULK_RX_DONE";
++ case VCHIQ_MSG_BULK_TX_DONE: return "BULK_TX_DONE";
++ case VCHIQ_MSG_PAUSE: return "PAUSE";
++ case VCHIQ_MSG_RESUME: return "RESUME";
++ case VCHIQ_MSG_REMOTE_USE: return "REMOTE_USE";
++ case VCHIQ_MSG_REMOTE_RELEASE: return "REMOTE_RELEASE";
++ case VCHIQ_MSG_REMOTE_USE_ACTIVE: return "REMOTE_USE_ACTIVE";
++ }
++ return "???";
++}
++
++static inline void
++vchiq_set_service_state(VCHIQ_SERVICE_T *service, int newstate)
++{
++ vchiq_log_info(vchiq_core_log_level, "%d: srv:%d %s->%s",
++ service->state->id, service->localport,
++ srvstate_names[service->srvstate],
++ srvstate_names[newstate]);
++ service->srvstate = newstate;
++}
++
++VCHIQ_SERVICE_T *
++find_service_by_handle(VCHIQ_SERVICE_HANDLE_T handle)
++{
++ VCHIQ_SERVICE_T *service;
++
++ spin_lock(&service_spinlock);
++ service = handle_to_service(handle);
++ if (service && (service->srvstate != VCHIQ_SRVSTATE_FREE) &&
++ (service->handle == handle)) {
++ BUG_ON(service->ref_count == 0);
++ service->ref_count++;
++ } else
++ service = NULL;
++ spin_unlock(&service_spinlock);
++
++ if (!service)
++ vchiq_log_info(vchiq_core_log_level,
++ "Invalid service handle 0x%x", handle);
++
++ return service;
++}
++
++VCHIQ_SERVICE_T *
++find_service_by_port(VCHIQ_STATE_T *state, int localport)
++{
++ VCHIQ_SERVICE_T *service = NULL;
++ if ((unsigned int)localport <= VCHIQ_PORT_MAX) {
++ spin_lock(&service_spinlock);
++ service = state->services[localport];
++ if (service && (service->srvstate != VCHIQ_SRVSTATE_FREE)) {
++ BUG_ON(service->ref_count == 0);
++ service->ref_count++;
++ } else
++ service = NULL;
++ spin_unlock(&service_spinlock);
++ }
++
++ if (!service)
++ vchiq_log_info(vchiq_core_log_level,
++ "Invalid port %d", localport);
++
++ return service;
++}
++
++VCHIQ_SERVICE_T *
++find_service_for_instance(VCHIQ_INSTANCE_T instance,
++ VCHIQ_SERVICE_HANDLE_T handle) {
++ VCHIQ_SERVICE_T *service;
++
++ spin_lock(&service_spinlock);
++ service = handle_to_service(handle);
++ if (service && (service->srvstate != VCHIQ_SRVSTATE_FREE) &&
++ (service->handle == handle) &&
++ (service->instance == instance)) {
++ BUG_ON(service->ref_count == 0);
++ service->ref_count++;
++ } else
++ service = NULL;
++ spin_unlock(&service_spinlock);
++
++ if (!service)
++ vchiq_log_info(vchiq_core_log_level,
++ "Invalid service handle 0x%x", handle);
++
++ return service;
++}
++
++VCHIQ_SERVICE_T *
++next_service_by_instance(VCHIQ_STATE_T *state, VCHIQ_INSTANCE_T instance,
++ int *pidx)
++{
++ VCHIQ_SERVICE_T *service = NULL;
++ int idx = *pidx;
++
++ spin_lock(&service_spinlock);
++ while (idx < state->unused_service) {
++ VCHIQ_SERVICE_T *srv = state->services[idx++];
++ if (srv && (srv->srvstate != VCHIQ_SRVSTATE_FREE) &&
++ (srv->instance == instance)) {
++ service = srv;
++ BUG_ON(service->ref_count == 0);
++ service->ref_count++;
++ break;
++ }
++ }
++ spin_unlock(&service_spinlock);
++
++ *pidx = idx;
++
++ return service;
++}
++
++void
++lock_service(VCHIQ_SERVICE_T *service)
++{
++ spin_lock(&service_spinlock);
++ BUG_ON(!service || (service->ref_count == 0));
++ if (service)
++ service->ref_count++;
++ spin_unlock(&service_spinlock);
++}
++
++void
++unlock_service(VCHIQ_SERVICE_T *service)
++{
++ VCHIQ_STATE_T *state = service->state;
++ spin_lock(&service_spinlock);
++ BUG_ON(!service || (service->ref_count == 0));
++ if (service && service->ref_count) {
++ service->ref_count--;
++ if (!service->ref_count) {
++ BUG_ON(service->srvstate != VCHIQ_SRVSTATE_FREE);
++ state->services[service->localport] = NULL;
++ } else
++ service = NULL;
++ }
++ spin_unlock(&service_spinlock);
++
++ kfree(service);
++}
++
++int
++vchiq_get_client_id(VCHIQ_SERVICE_HANDLE_T handle)
++{
++ VCHIQ_SERVICE_T *service = find_service_by_handle(handle);
++ int id;
++
++ id = service ? service->client_id : 0;
++ if (service)
++ unlock_service(service);
++
++ return id;
++}
++
++void *
++vchiq_get_service_userdata(VCHIQ_SERVICE_HANDLE_T handle)
++{
++ VCHIQ_SERVICE_T *service = handle_to_service(handle);
++
++ return service ? service->base.userdata : NULL;
++}
++
++int
++vchiq_get_service_fourcc(VCHIQ_SERVICE_HANDLE_T handle)
++{
++ VCHIQ_SERVICE_T *service = handle_to_service(handle);
++
++ return service ? service->base.fourcc : 0;
++}
++
++static void
++mark_service_closing_internal(VCHIQ_SERVICE_T *service, int sh_thread)
++{
++ VCHIQ_STATE_T *state = service->state;
++ VCHIQ_SERVICE_QUOTA_T *service_quota;
++
++ service->closing = 1;
++
++ /* Synchronise with other threads. */
++ mutex_lock(&state->recycle_mutex);
++ mutex_unlock(&state->recycle_mutex);
++ if (!sh_thread || (state->conn_state != VCHIQ_CONNSTATE_PAUSE_SENT)) {
++ /* If we're pausing then the slot_mutex is held until resume
++ * by the slot handler. Therefore don't try to acquire this
++ * mutex if we're the slot handler and in the pause sent state.
++ * We don't need to in this case anyway. */
++ mutex_lock(&state->slot_mutex);
++ mutex_unlock(&state->slot_mutex);
++ }
++
++ /* Unblock any sending thread. */
++ service_quota = &state->service_quotas[service->localport];
++ up(&service_quota->quota_event);
++}
++
++static void
++mark_service_closing(VCHIQ_SERVICE_T *service)
++{
++ mark_service_closing_internal(service, 0);
++}
++
++static inline VCHIQ_STATUS_T
++make_service_callback(VCHIQ_SERVICE_T *service, VCHIQ_REASON_T reason,
++ VCHIQ_HEADER_T *header, void *bulk_userdata)
++{
++ VCHIQ_STATUS_T status;
++ vchiq_log_trace(vchiq_core_log_level, "%d: callback:%d (%s, %x, %x)",
++ service->state->id, service->localport, reason_names[reason],
++ (unsigned int)header, (unsigned int)bulk_userdata);
++ status = service->base.callback(reason, header, service->handle,
++ bulk_userdata);
++ if (status == VCHIQ_ERROR) {
++ vchiq_log_warning(vchiq_core_log_level,
++ "%d: ignoring ERROR from callback to service %x",
++ service->state->id, service->handle);
++ status = VCHIQ_SUCCESS;
++ }
++ return status;
++}
++
++inline void
++vchiq_set_conn_state(VCHIQ_STATE_T *state, VCHIQ_CONNSTATE_T newstate)
++{
++ VCHIQ_CONNSTATE_T oldstate = state->conn_state;
++ vchiq_log_info(vchiq_core_log_level, "%d: %s->%s", state->id,
++ conn_state_names[oldstate],
++ conn_state_names[newstate]);
++ state->conn_state = newstate;
++ vchiq_platform_conn_state_changed(state, oldstate, newstate);
++}
++
++static inline void
++remote_event_create(REMOTE_EVENT_T *event)
++{
++ event->armed = 0;
++ /* Don't clear the 'fired' flag because it may already have been set
++ ** by the other side. */
++ sema_init(event->event, 0);
++}
++
++static inline void
++remote_event_destroy(REMOTE_EVENT_T *event)
++{
++ (void)event;
++}
++
++static inline int
++remote_event_wait(REMOTE_EVENT_T *event)
++{
++ if (!event->fired) {
++ event->armed = 1;
++ dsb();
++ if (!event->fired) {
++ if (down_interruptible(event->event) != 0) {
++ event->armed = 0;
++ return 0;
++ }
++ }
++ event->armed = 0;
++ wmb();
++ }
++
++ event->fired = 0;
++ return 1;
++}
++
++static inline void
++remote_event_signal_local(REMOTE_EVENT_T *event)
++{
++ event->armed = 0;
++ up(event->event);
++}
++
++static inline void
++remote_event_poll(REMOTE_EVENT_T *event)
++{
++ if (event->fired && event->armed)
++ remote_event_signal_local(event);
++}
++
++void
++remote_event_pollall(VCHIQ_STATE_T *state)
++{
++ remote_event_poll(&state->local->sync_trigger);
++ remote_event_poll(&state->local->sync_release);
++ remote_event_poll(&state->local->trigger);
++ remote_event_poll(&state->local->recycle);
++}
++
++/* Round up message sizes so that any space at the end of a slot is always big
++** enough for a header. This relies on header size being a power of two, which
++** has been verified earlier by a static assertion. */
++
++static inline unsigned int
++calc_stride(unsigned int size)
++{
++ /* Allow room for the header */
++ size += sizeof(VCHIQ_HEADER_T);
++
++ /* Round up */
++ return (size + sizeof(VCHIQ_HEADER_T) - 1) & ~(sizeof(VCHIQ_HEADER_T)
++ - 1);
++}
++
++/* Called by the slot handler thread */
++static VCHIQ_SERVICE_T *
++get_listening_service(VCHIQ_STATE_T *state, int fourcc)
++{
++ int i;
++
++ WARN_ON(fourcc == VCHIQ_FOURCC_INVALID);
++
++ for (i = 0; i < state->unused_service; i++) {
++ VCHIQ_SERVICE_T *service = state->services[i];
++ if (service &&
++ (service->public_fourcc == fourcc) &&
++ ((service->srvstate == VCHIQ_SRVSTATE_LISTENING) ||
++ ((service->srvstate == VCHIQ_SRVSTATE_OPEN) &&
++ (service->remoteport == VCHIQ_PORT_FREE)))) {
++ lock_service(service);
++ return service;
++ }
++ }
++
++ return NULL;
++}
++
++/* Called by the slot handler thread */
++static VCHIQ_SERVICE_T *
++get_connected_service(VCHIQ_STATE_T *state, unsigned int port)
++{
++ int i;
++ for (i = 0; i < state->unused_service; i++) {
++ VCHIQ_SERVICE_T *service = state->services[i];
++ if (service && (service->srvstate == VCHIQ_SRVSTATE_OPEN)
++ && (service->remoteport == port)) {
++ lock_service(service);
++ return service;
++ }
++ }
++ return NULL;
++}
++
++inline void
++request_poll(VCHIQ_STATE_T *state, VCHIQ_SERVICE_T *service, int poll_type)
++{
++ uint32_t value;
++
++ if (service) {
++ do {
++ value = atomic_read(&service->poll_flags);
++ } while (atomic_cmpxchg(&service->poll_flags, value,
++ value | (1 << poll_type)) != value);
++
++ do {
++ value = atomic_read(&state->poll_services[
++ service->localport>>5]);
++ } while (atomic_cmpxchg(
++ &state->poll_services[service->localport>>5],
++ value, value | (1 << (service->localport & 0x1f)))
++ != value);
++ }
++
++ state->poll_needed = 1;
++ wmb();
++
++ /* ... and ensure the slot handler runs. */
++ remote_event_signal_local(&state->local->trigger);
++}
++
++/* Called from queue_message, by the slot handler and application threads,
++** with slot_mutex held */
++static VCHIQ_HEADER_T *
++reserve_space(VCHIQ_STATE_T *state, int space, int is_blocking)
++{
++ VCHIQ_SHARED_STATE_T *local = state->local;
++ int tx_pos = state->local_tx_pos;
++ int slot_space = VCHIQ_SLOT_SIZE - (tx_pos & VCHIQ_SLOT_MASK);
++
++ if (space > slot_space) {
++ VCHIQ_HEADER_T *header;
++ /* Fill the remaining space with padding */
++ WARN_ON(state->tx_data == NULL);
++ header = (VCHIQ_HEADER_T *)
++ (state->tx_data + (tx_pos & VCHIQ_SLOT_MASK));
++ header->msgid = VCHIQ_MSGID_PADDING;
++ header->size = slot_space - sizeof(VCHIQ_HEADER_T);
++
++ tx_pos += slot_space;
++ }
++
++ /* If necessary, get the next slot. */
++ if ((tx_pos & VCHIQ_SLOT_MASK) == 0) {
++ int slot_index;
++
++ /* If there is no free slot... */
++
++ if (down_trylock(&state->slot_available_event) != 0) {
++ /* ...wait for one. */
++
++ VCHIQ_STATS_INC(state, slot_stalls);
++
++ /* But first, flush through the last slot. */
++ state->local_tx_pos = tx_pos;
++ local->tx_pos = tx_pos;
++ remote_event_signal(&state->remote->trigger);
++
++ if (!is_blocking ||
++ (down_interruptible(
++ &state->slot_available_event) != 0))
++ return NULL; /* No space available */
++ }
++
++ BUG_ON(tx_pos ==
++ (state->slot_queue_available * VCHIQ_SLOT_SIZE));
++
++ slot_index = local->slot_queue[
++ SLOT_QUEUE_INDEX_FROM_POS(tx_pos) &
++ VCHIQ_SLOT_QUEUE_MASK];
++ state->tx_data =
++ (char *)SLOT_DATA_FROM_INDEX(state, slot_index);
++ }
++
++ state->local_tx_pos = tx_pos + space;
++
++ return (VCHIQ_HEADER_T *)(state->tx_data + (tx_pos & VCHIQ_SLOT_MASK));
++}
++
++/* Called by the recycle thread. */
++static void
++process_free_queue(VCHIQ_STATE_T *state)
++{
++ VCHIQ_SHARED_STATE_T *local = state->local;
++ BITSET_T service_found[BITSET_SIZE(VCHIQ_MAX_SERVICES)];
++ int slot_queue_available;
++
++ /* Use a read memory barrier to ensure that any state that may have
++ ** been modified by another thread is not masked by stale prefetched
++ ** values. */
++ rmb();
++
++ /* Find slots which have been freed by the other side, and return them
++ ** to the available queue. */
++ slot_queue_available = state->slot_queue_available;
++
++ while (slot_queue_available != local->slot_queue_recycle) {
++ unsigned int pos;
++ int slot_index = local->slot_queue[slot_queue_available++ &
++ VCHIQ_SLOT_QUEUE_MASK];
++ char *data = (char *)SLOT_DATA_FROM_INDEX(state, slot_index);
++ int data_found = 0;
++
++ vchiq_log_trace(vchiq_core_log_level, "%d: pfq %d=%x %x %x",
++ state->id, slot_index, (unsigned int)data,
++ local->slot_queue_recycle, slot_queue_available);
++
++ /* Initialise the bitmask for services which have used this
++ ** slot */
++ BITSET_ZERO(service_found);
++
++ pos = 0;
++
++ while (pos < VCHIQ_SLOT_SIZE) {
++ VCHIQ_HEADER_T *header =
++ (VCHIQ_HEADER_T *)(data + pos);
++ int msgid = header->msgid;
++ if (VCHIQ_MSG_TYPE(msgid) == VCHIQ_MSG_DATA) {
++ int port = VCHIQ_MSG_SRCPORT(msgid);
++ VCHIQ_SERVICE_QUOTA_T *service_quota =
++ &state->service_quotas[port];
++ int count;
++ spin_lock(&quota_spinlock);
++ count = service_quota->message_use_count;
++ if (count > 0)
++ service_quota->message_use_count =
++ count - 1;
++ spin_unlock(&quota_spinlock);
++
++ if (count == service_quota->message_quota)
++ /* Signal the service that it
++ ** has dropped below its quota
++ */
++ up(&service_quota->quota_event);
++ else if (count == 0) {
++ vchiq_log_error(vchiq_core_log_level,
++ "service %d "
++ "message_use_count=%d "
++ "(header %x, msgid %x, "
++ "header->msgid %x, "
++ "header->size %x)",
++ port,
++ service_quota->
++ message_use_count,
++ (unsigned int)header, msgid,
++ header->msgid,
++ header->size);
++ WARN(1, "invalid message use count\n");
++ }
++ if (!BITSET_IS_SET(service_found, port)) {
++ /* Set the found bit for this service */
++ BITSET_SET(service_found, port);
++
++ spin_lock(&quota_spinlock);
++ count = service_quota->slot_use_count;
++ if (count > 0)
++ service_quota->slot_use_count =
++ count - 1;
++ spin_unlock(&quota_spinlock);
++
++ if (count > 0) {
++ /* Signal the service in case
++ ** it has dropped below its
++ ** quota */
++ up(&service_quota->quota_event);
++ vchiq_log_trace(
++ vchiq_core_log_level,
++ "%d: pfq:%d %x@%x - "
++ "slot_use->%d",
++ state->id, port,
++ header->size,
++ (unsigned int)header,
++ count - 1);
++ } else {
++ vchiq_log_error(
++ vchiq_core_log_level,
++ "service %d "
++ "slot_use_count"
++ "=%d (header %x"
++ ", msgid %x, "
++ "header->msgid"
++ " %x, header->"
++ "size %x)",
++ port, count,
++ (unsigned int)header,
++ msgid,
++ header->msgid,
++ header->size);
++ WARN(1, "bad slot use count\n");
++ }
++ }
++
++ data_found = 1;
++ }
++
++ pos += calc_stride(header->size);
++ if (pos > VCHIQ_SLOT_SIZE) {
++ vchiq_log_error(vchiq_core_log_level,
++ "pfq - pos %x: header %x, msgid %x, "
++ "header->msgid %x, header->size %x",
++ pos, (unsigned int)header, msgid,
++ header->msgid, header->size);
++ WARN(1, "invalid slot position\n");
++ }
++ }
++
++ if (data_found) {
++ int count;
++ spin_lock(&quota_spinlock);
++ count = state->data_use_count;
++ if (count > 0)
++ state->data_use_count =
++ count - 1;
++ spin_unlock(&quota_spinlock);
++ if (count == state->data_quota)
++ up(&state->data_quota_event);
++ }
++
++ state->slot_queue_available = slot_queue_available;
++ up(&state->slot_available_event);
++ }
++}
++
++/* Called by the slot handler and application threads */
++static VCHIQ_STATUS_T
++queue_message(VCHIQ_STATE_T *state, VCHIQ_SERVICE_T *service,
++ int msgid, const VCHIQ_ELEMENT_T *elements,
++ int count, int size, int is_blocking)
++{
++ VCHIQ_SHARED_STATE_T *local;
++ VCHIQ_SERVICE_QUOTA_T *service_quota = NULL;
++ VCHIQ_HEADER_T *header;
++ int type = VCHIQ_MSG_TYPE(msgid);
++
++ unsigned int stride;
++
++ local = state->local;
++
++ stride = calc_stride(size);
++
++ WARN_ON(!(stride <= VCHIQ_SLOT_SIZE));
++
++ if ((type != VCHIQ_MSG_RESUME) &&
++ (mutex_lock_interruptible(&state->slot_mutex) != 0))
++ return VCHIQ_RETRY;
++
++ if (type == VCHIQ_MSG_DATA) {
++ int tx_end_index;
++
++ BUG_ON(!service);
++
++ if (service->closing) {
++ /* The service has been closed */
++ mutex_unlock(&state->slot_mutex);
++ return VCHIQ_ERROR;
++ }
++
++ service_quota = &state->service_quotas[service->localport];
++
++ spin_lock(&quota_spinlock);
++
++ /* Ensure this service doesn't use more than its quota of
++ ** messages or slots */
++ tx_end_index = SLOT_QUEUE_INDEX_FROM_POS(
++ state->local_tx_pos + stride - 1);
++
++ /* Ensure data messages don't use more than their quota of
++ ** slots */
++ while ((tx_end_index != state->previous_data_index) &&
++ (state->data_use_count == state->data_quota)) {
++ VCHIQ_STATS_INC(state, data_stalls);
++ spin_unlock(&quota_spinlock);
++ mutex_unlock(&state->slot_mutex);
++
++ if (down_interruptible(&state->data_quota_event)
++ != 0)
++ return VCHIQ_RETRY;
++
++ mutex_lock(&state->slot_mutex);
++ spin_lock(&quota_spinlock);
++ tx_end_index = SLOT_QUEUE_INDEX_FROM_POS(
++ state->local_tx_pos + stride - 1);
++ if ((tx_end_index == state->previous_data_index) ||
++ (state->data_use_count < state->data_quota)) {
++ /* Pass the signal on to other waiters */
++ up(&state->data_quota_event);
++ break;
++ }
++ }
++
++ while ((service_quota->message_use_count ==
++ service_quota->message_quota) ||
++ ((tx_end_index != service_quota->previous_tx_index) &&
++ (service_quota->slot_use_count ==
++ service_quota->slot_quota))) {
++ spin_unlock(&quota_spinlock);
++ vchiq_log_trace(vchiq_core_log_level,
++ "%d: qm:%d %s,%x - quota stall "
++ "(msg %d, slot %d)",
++ state->id, service->localport,
++ msg_type_str(type), size,
++ service_quota->message_use_count,
++ service_quota->slot_use_count);
++ VCHIQ_SERVICE_STATS_INC(service, quota_stalls);
++ mutex_unlock(&state->slot_mutex);
++ if (down_interruptible(&service_quota->quota_event)
++ != 0)
++ return VCHIQ_RETRY;
++ if (service->closing)
++ return VCHIQ_ERROR;
++ if (mutex_lock_interruptible(&state->slot_mutex) != 0)
++ return VCHIQ_RETRY;
++ if (service->srvstate != VCHIQ_SRVSTATE_OPEN) {
++ /* The service has been closed */
++ mutex_unlock(&state->slot_mutex);
++ return VCHIQ_ERROR;
++ }
++ spin_lock(&quota_spinlock);
++ tx_end_index = SLOT_QUEUE_INDEX_FROM_POS(
++ state->local_tx_pos + stride - 1);
++ }
++
++ spin_unlock(&quota_spinlock);
++ }
++
++ header = reserve_space(state, stride, is_blocking);
++
++ if (!header) {
++ if (service)
++ VCHIQ_SERVICE_STATS_INC(service, slot_stalls);
++ mutex_unlock(&state->slot_mutex);
++ return VCHIQ_RETRY;
++ }
++
++ if (type == VCHIQ_MSG_DATA) {
++ int i, pos;
++ int tx_end_index;
++ int slot_use_count;
++
++ vchiq_log_info(vchiq_core_log_level,
++ "%d: qm %s@%x,%x (%d->%d)",
++ state->id,
++ msg_type_str(VCHIQ_MSG_TYPE(msgid)),
++ (unsigned int)header, size,
++ VCHIQ_MSG_SRCPORT(msgid),
++ VCHIQ_MSG_DSTPORT(msgid));
++
++ BUG_ON(!service);
++
++ for (i = 0, pos = 0; i < (unsigned int)count;
++ pos += elements[i++].size)
++ if (elements[i].size) {
++ if (vchiq_copy_from_user
++ (header->data + pos, elements[i].data,
++ (size_t) elements[i].size) !=
++ VCHIQ_SUCCESS) {
++ mutex_unlock(&state->slot_mutex);
++ VCHIQ_SERVICE_STATS_INC(service,
++ error_count);
++ return VCHIQ_ERROR;
++ }
++ if (i == 0) {
++ if (vchiq_core_msg_log_level >=
++ VCHIQ_LOG_INFO)
++ vchiq_log_dump_mem("Sent", 0,
++ header->data + pos,
++ min(64u,
++ elements[0].size));
++ }
++ }
++
++ spin_lock(&quota_spinlock);
++ service_quota->message_use_count++;
++
++ tx_end_index =
++ SLOT_QUEUE_INDEX_FROM_POS(state->local_tx_pos - 1);
++
++ /* If this transmission can't fit in the last slot used by any
++ ** service, the data_use_count must be increased. */
++ if (tx_end_index != state->previous_data_index) {
++ state->previous_data_index = tx_end_index;
++ state->data_use_count++;
++ }
++
++ /* If this isn't the same slot last used by this service,
++ ** the service's slot_use_count must be increased. */
++ if (tx_end_index != service_quota->previous_tx_index) {
++ service_quota->previous_tx_index = tx_end_index;
++ slot_use_count = ++service_quota->slot_use_count;
++ } else {
++ slot_use_count = 0;
++ }
++
++ spin_unlock(&quota_spinlock);
++
++ if (slot_use_count)
++ vchiq_log_trace(vchiq_core_log_level,
++ "%d: qm:%d %s,%x - slot_use->%d (hdr %p)",
++ state->id, service->localport,
++ msg_type_str(VCHIQ_MSG_TYPE(msgid)), size,
++ slot_use_count, header);
++
++ VCHIQ_SERVICE_STATS_INC(service, ctrl_tx_count);
++ VCHIQ_SERVICE_STATS_ADD(service, ctrl_tx_bytes, size);
++ } else {
++ vchiq_log_info(vchiq_core_log_level,
++ "%d: qm %s@%x,%x (%d->%d)", state->id,
++ msg_type_str(VCHIQ_MSG_TYPE(msgid)),
++ (unsigned int)header, size,
++ VCHIQ_MSG_SRCPORT(msgid),
++ VCHIQ_MSG_DSTPORT(msgid));
++ if (size != 0) {
++ WARN_ON(!((count == 1) && (size == elements[0].size)));
++ memcpy(header->data, elements[0].data,
++ elements[0].size);
++ }
++ VCHIQ_STATS_INC(state, ctrl_tx_count);
++ }
++
++ header->msgid = msgid;
++ header->size = size;
++
++ {
++ int svc_fourcc;
++
++ svc_fourcc = service
++ ? service->base.fourcc
++ : VCHIQ_MAKE_FOURCC('?', '?', '?', '?');
++
++ vchiq_log_info(vchiq_core_msg_log_level,
++ "Sent Msg %s(%u) to %c%c%c%c s:%u d:%d len:%d",
++ msg_type_str(VCHIQ_MSG_TYPE(msgid)),
++ VCHIQ_MSG_TYPE(msgid),
++ VCHIQ_FOURCC_AS_4CHARS(svc_fourcc),
++ VCHIQ_MSG_SRCPORT(msgid),
++ VCHIQ_MSG_DSTPORT(msgid),
++ size);
++ }
++
++ /* Make sure the new header is visible to the peer. */
++ wmb();
++
++ /* Make the new tx_pos visible to the peer. */
++ local->tx_pos = state->local_tx_pos;
++ wmb();
++
++ if (service && (type == VCHIQ_MSG_CLOSE))
++ vchiq_set_service_state(service, VCHIQ_SRVSTATE_CLOSESENT);
++
++ if (VCHIQ_MSG_TYPE(msgid) != VCHIQ_MSG_PAUSE)
++ mutex_unlock(&state->slot_mutex);
++
++ remote_event_signal(&state->remote->trigger);
++
++ return VCHIQ_SUCCESS;
++}
++
++/* Called by the slot handler and application threads */
++static VCHIQ_STATUS_T
++queue_message_sync(VCHIQ_STATE_T *state, VCHIQ_SERVICE_T *service,
++ int msgid, const VCHIQ_ELEMENT_T *elements,
++ int count, int size, int is_blocking)
++{
++ VCHIQ_SHARED_STATE_T *local;
++ VCHIQ_HEADER_T *header;
++
++ local = state->local;
++
++ if ((VCHIQ_MSG_TYPE(msgid) != VCHIQ_MSG_RESUME) &&
++ (mutex_lock_interruptible(&state->sync_mutex) != 0))
++ return VCHIQ_RETRY;
++
++ remote_event_wait(&local->sync_release);
++
++ rmb();
++
++ header = (VCHIQ_HEADER_T *)SLOT_DATA_FROM_INDEX(state,
++ local->slot_sync);
++
++ {
++ int oldmsgid = header->msgid;
++ if (oldmsgid != VCHIQ_MSGID_PADDING)
++ vchiq_log_error(vchiq_core_log_level,
++ "%d: qms - msgid %x, not PADDING",
++ state->id, oldmsgid);
++ }
++
++ if (service) {
++ int i, pos;
++
++ vchiq_log_info(vchiq_sync_log_level,
++ "%d: qms %s@%x,%x (%d->%d)", state->id,
++ msg_type_str(VCHIQ_MSG_TYPE(msgid)),
++ (unsigned int)header, size,
++ VCHIQ_MSG_SRCPORT(msgid),
++ VCHIQ_MSG_DSTPORT(msgid));
++
++ for (i = 0, pos = 0; i < (unsigned int)count;
++ pos += elements[i++].size)
++ if (elements[i].size) {
++ if (vchiq_copy_from_user
++ (header->data + pos, elements[i].data,
++ (size_t) elements[i].size) !=
++ VCHIQ_SUCCESS) {
++ mutex_unlock(&state->sync_mutex);
++ VCHIQ_SERVICE_STATS_INC(service,
++ error_count);
++ return VCHIQ_ERROR;
++ }
++ if (i == 0) {
++ if (vchiq_sync_log_level >=
++ VCHIQ_LOG_TRACE)
++ vchiq_log_dump_mem("Sent Sync",
++ 0, header->data + pos,
++ min(64u,
++ elements[0].size));
++ }
++ }
++
++ VCHIQ_SERVICE_STATS_INC(service, ctrl_tx_count);
++ VCHIQ_SERVICE_STATS_ADD(service, ctrl_tx_bytes, size);
++ } else {
++ vchiq_log_info(vchiq_sync_log_level,
++ "%d: qms %s@%x,%x (%d->%d)", state->id,
++ msg_type_str(VCHIQ_MSG_TYPE(msgid)),
++ (unsigned int)header, size,
++ VCHIQ_MSG_SRCPORT(msgid),
++ VCHIQ_MSG_DSTPORT(msgid));
++ if (size != 0) {
++ WARN_ON(!((count == 1) && (size == elements[0].size)));
++ memcpy(header->data, elements[0].data,
++ elements[0].size);
++ }
++ VCHIQ_STATS_INC(state, ctrl_tx_count);
++ }
++
++ header->size = size;
++ header->msgid = msgid;
++
++ if (vchiq_sync_log_level >= VCHIQ_LOG_TRACE) {
++ int svc_fourcc;
++
++ svc_fourcc = service
++ ? service->base.fourcc
++ : VCHIQ_MAKE_FOURCC('?', '?', '?', '?');
++
++ vchiq_log_trace(vchiq_sync_log_level,
++ "Sent Sync Msg %s(%u) to %c%c%c%c s:%u d:%d len:%d",
++ msg_type_str(VCHIQ_MSG_TYPE(msgid)),
++ VCHIQ_MSG_TYPE(msgid),
++ VCHIQ_FOURCC_AS_4CHARS(svc_fourcc),
++ VCHIQ_MSG_SRCPORT(msgid),
++ VCHIQ_MSG_DSTPORT(msgid),
++ size);
++ }
++
++ /* Make sure the new header is visible to the peer. */
++ wmb();
++
++ remote_event_signal(&state->remote->sync_trigger);
++
++ if (VCHIQ_MSG_TYPE(msgid) != VCHIQ_MSG_PAUSE)
++ mutex_unlock(&state->sync_mutex);
++
++ return VCHIQ_SUCCESS;
++}
++
++static inline void
++claim_slot(VCHIQ_SLOT_INFO_T *slot)
++{
++ slot->use_count++;
++}
++
++static void
++release_slot(VCHIQ_STATE_T *state, VCHIQ_SLOT_INFO_T *slot_info,
++ VCHIQ_HEADER_T *header, VCHIQ_SERVICE_T *service)
++{
++ int release_count;
++
++ mutex_lock(&state->recycle_mutex);
++
++ if (header) {
++ int msgid = header->msgid;
++ if (((msgid & VCHIQ_MSGID_CLAIMED) == 0) ||
++ (service && service->closing)) {
++ mutex_unlock(&state->recycle_mutex);
++ return;
++ }
++
++ /* Rewrite the message header to prevent a double
++ ** release */
++ header->msgid = msgid & ~VCHIQ_MSGID_CLAIMED;
++ }
++
++ release_count = slot_info->release_count;
++ slot_info->release_count = ++release_count;
++
++ if (release_count == slot_info->use_count) {
++ int slot_queue_recycle;
++ /* Add to the freed queue */
++
++ /* A read barrier is necessary here to prevent speculative
++ ** fetches of remote->slot_queue_recycle from overtaking the
++ ** mutex. */
++ rmb();
++
++ slot_queue_recycle = state->remote->slot_queue_recycle;
++ state->remote->slot_queue[slot_queue_recycle &
++ VCHIQ_SLOT_QUEUE_MASK] =
++ SLOT_INDEX_FROM_INFO(state, slot_info);
++ state->remote->slot_queue_recycle = slot_queue_recycle + 1;
++ vchiq_log_info(vchiq_core_log_level,
++ "%d: release_slot %d - recycle->%x",
++ state->id, SLOT_INDEX_FROM_INFO(state, slot_info),
++ state->remote->slot_queue_recycle);
++
++ /* A write barrier is necessary, but remote_event_signal
++ ** contains one. */
++ remote_event_signal(&state->remote->recycle);
++ }
++
++ mutex_unlock(&state->recycle_mutex);
++}
++
++/* Called by the slot handler - don't hold the bulk mutex */
++static VCHIQ_STATUS_T
++notify_bulks(VCHIQ_SERVICE_T *service, VCHIQ_BULK_QUEUE_T *queue,
++ int retry_poll)
++{
++ VCHIQ_STATUS_T status = VCHIQ_SUCCESS;
++
++ vchiq_log_trace(vchiq_core_log_level,
++ "%d: nb:%d %cx - p=%x rn=%x r=%x",
++ service->state->id, service->localport,
++ (queue == &service->bulk_tx) ? 't' : 'r',
++ queue->process, queue->remote_notify, queue->remove);
++
++ if (service->state->is_master) {
++ while (queue->remote_notify != queue->process) {
++ VCHIQ_BULK_T *bulk =
++ &queue->bulks[BULK_INDEX(queue->remote_notify)];
++ int msgtype = (bulk->dir == VCHIQ_BULK_TRANSMIT) ?
++ VCHIQ_MSG_BULK_RX_DONE : VCHIQ_MSG_BULK_TX_DONE;
++ int msgid = VCHIQ_MAKE_MSG(msgtype, service->localport,
++ service->remoteport);
++ VCHIQ_ELEMENT_T element = { &bulk->actual, 4 };
++ /* Only reply to non-dummy bulk requests */
++ if (bulk->remote_data) {
++ status = queue_message(service->state, NULL,
++ msgid, &element, 1, 4, 0);
++ if (status != VCHIQ_SUCCESS)
++ break;
++ }
++ queue->remote_notify++;
++ }
++ } else {
++ queue->remote_notify = queue->process;
++ }
++
++ if (status == VCHIQ_SUCCESS) {
++ while (queue->remove != queue->remote_notify) {
++ VCHIQ_BULK_T *bulk =
++ &queue->bulks[BULK_INDEX(queue->remove)];
++
++ /* Only generate callbacks for non-dummy bulk
++ ** requests, and non-terminated services */
++ if (bulk->data && service->instance) {
++ if (bulk->actual != VCHIQ_BULK_ACTUAL_ABORTED) {
++ if (bulk->dir == VCHIQ_BULK_TRANSMIT) {
++ VCHIQ_SERVICE_STATS_INC(service,
++ bulk_tx_count);
++ VCHIQ_SERVICE_STATS_ADD(service,
++ bulk_tx_bytes,
++ bulk->actual);
++ } else {
++ VCHIQ_SERVICE_STATS_INC(service,
++ bulk_rx_count);
++ VCHIQ_SERVICE_STATS_ADD(service,
++ bulk_rx_bytes,
++ bulk->actual);
++ }
++ } else {
++ VCHIQ_SERVICE_STATS_INC(service,
++ bulk_aborted_count);
++ }
++ if (bulk->mode == VCHIQ_BULK_MODE_BLOCKING) {
++ struct bulk_waiter *waiter;
++ spin_lock(&bulk_waiter_spinlock);
++ waiter = bulk->userdata;
++ if (waiter) {
++ waiter->actual = bulk->actual;
++ up(&waiter->event);
++ }
++ spin_unlock(&bulk_waiter_spinlock);
++ } else if (bulk->mode ==
++ VCHIQ_BULK_MODE_CALLBACK) {
++ VCHIQ_REASON_T reason = (bulk->dir ==
++ VCHIQ_BULK_TRANSMIT) ?
++ ((bulk->actual ==
++ VCHIQ_BULK_ACTUAL_ABORTED) ?
++ VCHIQ_BULK_TRANSMIT_ABORTED :
++ VCHIQ_BULK_TRANSMIT_DONE) :
++ ((bulk->actual ==
++ VCHIQ_BULK_ACTUAL_ABORTED) ?
++ VCHIQ_BULK_RECEIVE_ABORTED :
++ VCHIQ_BULK_RECEIVE_DONE);
++ status = make_service_callback(service,
++ reason, NULL, bulk->userdata);
++ if (status == VCHIQ_RETRY)
++ break;
++ }
++ }
++
++ queue->remove++;
++ up(&service->bulk_remove_event);
++ }
++ if (!retry_poll)
++ status = VCHIQ_SUCCESS;
++ }
++
++ if (status == VCHIQ_RETRY)
++ request_poll(service->state, service,
++ (queue == &service->bulk_tx) ?
++ VCHIQ_POLL_TXNOTIFY : VCHIQ_POLL_RXNOTIFY);
++
++ return status;
++}
++
++/* Called by the slot handler thread */
++static void
++poll_services(VCHIQ_STATE_T *state)
++{
++ int group, i;
++
++ for (group = 0; group < BITSET_SIZE(state->unused_service); group++) {
++ uint32_t flags;
++ flags = atomic_xchg(&state->poll_services[group], 0);
++ for (i = 0; flags; i++) {
++ if (flags & (1 << i)) {
++ VCHIQ_SERVICE_T *service =
++ find_service_by_port(state,
++ (group<<5) + i);
++ uint32_t service_flags;
++ flags &= ~(1 << i);
++ if (!service)
++ continue;
++ service_flags =
++ atomic_xchg(&service->poll_flags, 0);
++ if (service_flags &
++ (1 << VCHIQ_POLL_REMOVE)) {
++ vchiq_log_info(vchiq_core_log_level,
++ "%d: ps - remove %d<->%d",
++ state->id, service->localport,
++ service->remoteport);
++
++ /* Make it look like a client, because
++ it must be removed and not left in
++ the LISTENING state. */
++ service->public_fourcc =
++ VCHIQ_FOURCC_INVALID;
++
++ if (vchiq_close_service_internal(
++ service, 0/*!close_recvd*/) !=
++ VCHIQ_SUCCESS)
++ request_poll(state, service,
++ VCHIQ_POLL_REMOVE);
++ } else if (service_flags &
++ (1 << VCHIQ_POLL_TERMINATE)) {
++ vchiq_log_info(vchiq_core_log_level,
++ "%d: ps - terminate %d<->%d",
++ state->id, service->localport,
++ service->remoteport);
++ if (vchiq_close_service_internal(
++ service, 0/*!close_recvd*/) !=
++ VCHIQ_SUCCESS)
++ request_poll(state, service,
++ VCHIQ_POLL_TERMINATE);
++ }
++ if (service_flags & (1 << VCHIQ_POLL_TXNOTIFY))
++ notify_bulks(service,
++ &service->bulk_tx,
++ 1/*retry_poll*/);
++ if (service_flags & (1 << VCHIQ_POLL_RXNOTIFY))
++ notify_bulks(service,
++ &service->bulk_rx,
++ 1/*retry_poll*/);
++ unlock_service(service);
++ }
++ }
++ }
++}
++
++/* Called by the slot handler or application threads, holding the bulk mutex. */
++static int
++resolve_bulks(VCHIQ_SERVICE_T *service, VCHIQ_BULK_QUEUE_T *queue)
++{
++ VCHIQ_STATE_T *state = service->state;
++ int resolved = 0;
++ int rc;
++
++ while ((queue->process != queue->local_insert) &&
++ (queue->process != queue->remote_insert)) {
++ VCHIQ_BULK_T *bulk = &queue->bulks[BULK_INDEX(queue->process)];
++
++ vchiq_log_trace(vchiq_core_log_level,
++ "%d: rb:%d %cx - li=%x ri=%x p=%x",
++ state->id, service->localport,
++ (queue == &service->bulk_tx) ? 't' : 'r',
++ queue->local_insert, queue->remote_insert,
++ queue->process);
++
++ WARN_ON(!((int)(queue->local_insert - queue->process) > 0));
++ WARN_ON(!((int)(queue->remote_insert - queue->process) > 0));
++
++ rc = mutex_lock_interruptible(&state->bulk_transfer_mutex);
++ if (rc != 0)
++ break;
++
++ vchiq_transfer_bulk(bulk);
++ mutex_unlock(&state->bulk_transfer_mutex);
++
++ if (vchiq_core_msg_log_level >= VCHIQ_LOG_INFO) {
++ const char *header = (queue == &service->bulk_tx) ?
++ "Send Bulk to" : "Recv Bulk from";
++ if (bulk->actual != VCHIQ_BULK_ACTUAL_ABORTED)
++ vchiq_log_info(vchiq_core_msg_log_level,
++ "%s %c%c%c%c d:%d len:%d %x<->%x",
++ header,
++ VCHIQ_FOURCC_AS_4CHARS(
++ service->base.fourcc),
++ service->remoteport,
++ bulk->size,
++ (unsigned int)bulk->data,
++ (unsigned int)bulk->remote_data);
++ else
++ vchiq_log_info(vchiq_core_msg_log_level,
++ "%s %c%c%c%c d:%d ABORTED - tx len:%d,"
++ " rx len:%d %x<->%x",
++ header,
++ VCHIQ_FOURCC_AS_4CHARS(
++ service->base.fourcc),
++ service->remoteport,
++ bulk->size,
++ bulk->remote_size,
++ (unsigned int)bulk->data,
++ (unsigned int)bulk->remote_data);
++ }
++
++ vchiq_complete_bulk(bulk);
++ queue->process++;
++ resolved++;
++ }
++ return resolved;
++}
++
++/* Called with the bulk_mutex held */
++static void
++abort_outstanding_bulks(VCHIQ_SERVICE_T *service, VCHIQ_BULK_QUEUE_T *queue)
++{
++ int is_tx = (queue == &service->bulk_tx);
++ vchiq_log_trace(vchiq_core_log_level,
++ "%d: aob:%d %cx - li=%x ri=%x p=%x",
++ service->state->id, service->localport, is_tx ? 't' : 'r',
++ queue->local_insert, queue->remote_insert, queue->process);
++
++ WARN_ON(!((int)(queue->local_insert - queue->process) >= 0));
++ WARN_ON(!((int)(queue->remote_insert - queue->process) >= 0));
++
++ while ((queue->process != queue->local_insert) ||
++ (queue->process != queue->remote_insert)) {
++ VCHIQ_BULK_T *bulk = &queue->bulks[BULK_INDEX(queue->process)];
++
++ if (queue->process == queue->remote_insert) {
++ /* fabricate a matching dummy bulk */
++ bulk->remote_data = NULL;
++ bulk->remote_size = 0;
++ queue->remote_insert++;
++ }
++
++ if (queue->process != queue->local_insert) {
++ vchiq_complete_bulk(bulk);
++
++ vchiq_log_info(vchiq_core_msg_log_level,
++ "%s %c%c%c%c d:%d ABORTED - tx len:%d, "
++ "rx len:%d",
++ is_tx ? "Send Bulk to" : "Recv Bulk from",
++ VCHIQ_FOURCC_AS_4CHARS(service->base.fourcc),
++ service->remoteport,
++ bulk->size,
++ bulk->remote_size);
++ } else {
++ /* fabricate a matching dummy bulk */
++ bulk->data = NULL;
++ bulk->size = 0;
++ bulk->actual = VCHIQ_BULK_ACTUAL_ABORTED;
++ bulk->dir = is_tx ? VCHIQ_BULK_TRANSMIT :
++ VCHIQ_BULK_RECEIVE;
++ queue->local_insert++;
++ }
++
++ queue->process++;
++ }
++}
++
++/* Called from the slot handler thread */
++static void
++pause_bulks(VCHIQ_STATE_T *state)
++{
++ if (unlikely(atomic_inc_return(&pause_bulks_count) != 1)) {
++ WARN_ON_ONCE(1);
++ atomic_set(&pause_bulks_count, 1);
++ return;
++ }
++
++ /* Block bulk transfers from all services */
++ mutex_lock(&state->bulk_transfer_mutex);
++}
++
++/* Called from the slot handler thread */
++static void
++resume_bulks(VCHIQ_STATE_T *state)
++{
++ int i;
++ if (unlikely(atomic_dec_return(&pause_bulks_count) != 0)) {
++ WARN_ON_ONCE(1);
++ atomic_set(&pause_bulks_count, 0);
++ return;
++ }
++
++ /* Allow bulk transfers from all services */
++ mutex_unlock(&state->bulk_transfer_mutex);
++
++ if (state->deferred_bulks == 0)
++ return;
++
++ /* Deal with any bulks which had to be deferred due to being in
++ * paused state. Don't try to match up to number of deferred bulks
++ * in case we've had something come and close the service in the
++ * interim - just process all bulk queues for all services */
++ vchiq_log_info(vchiq_core_log_level, "%s: processing %d deferred bulks",
++ __func__, state->deferred_bulks);
++
++ for (i = 0; i < state->unused_service; i++) {
++ VCHIQ_SERVICE_T *service = state->services[i];
++ int resolved_rx = 0;
++ int resolved_tx = 0;
++ if (!service || (service->srvstate != VCHIQ_SRVSTATE_OPEN))
++ continue;
++
++ mutex_lock(&service->bulk_mutex);
++ resolved_rx = resolve_bulks(service, &service->bulk_rx);
++ resolved_tx = resolve_bulks(service, &service->bulk_tx);
++ mutex_unlock(&service->bulk_mutex);
++ if (resolved_rx)
++ notify_bulks(service, &service->bulk_rx, 1);
++ if (resolved_tx)
++ notify_bulks(service, &service->bulk_tx, 1);
++ }
++ state->deferred_bulks = 0;
++}
++
++static int
++parse_open(VCHIQ_STATE_T *state, VCHIQ_HEADER_T *header)
++{
++ VCHIQ_SERVICE_T *service = NULL;
++ int msgid, size;
++ int type;
++ unsigned int localport, remoteport;
++
++ msgid = header->msgid;
++ size = header->size;
++ type = VCHIQ_MSG_TYPE(msgid);
++ localport = VCHIQ_MSG_DSTPORT(msgid);
++ remoteport = VCHIQ_MSG_SRCPORT(msgid);
++ if (size >= sizeof(struct vchiq_open_payload)) {
++ const struct vchiq_open_payload *payload =
++ (struct vchiq_open_payload *)header->data;
++ unsigned int fourcc;
++
++ fourcc = payload->fourcc;
++ vchiq_log_info(vchiq_core_log_level,
++ "%d: prs OPEN@%x (%d->'%c%c%c%c')",
++ state->id, (unsigned int)header,
++ localport,
++ VCHIQ_FOURCC_AS_4CHARS(fourcc));
++
++ service = get_listening_service(state, fourcc);
++
++ if (service) {
++ /* A matching service exists */
++ short version = payload->version;
++ short version_min = payload->version_min;
++ if ((service->version < version_min) ||
++ (version < service->version_min)) {
++ /* Version mismatch */
++ vchiq_loud_error_header();
++ vchiq_loud_error("%d: service %d (%c%c%c%c) "
++ "version mismatch - local (%d, min %d)"
++ " vs. remote (%d, min %d)",
++ state->id, service->localport,
++ VCHIQ_FOURCC_AS_4CHARS(fourcc),
++ service->version, service->version_min,
++ version, version_min);
++ vchiq_loud_error_footer();
++ unlock_service(service);
++ goto fail_open;
++ }
++ service->peer_version = version;
++
++ if (service->srvstate == VCHIQ_SRVSTATE_LISTENING) {
++ struct vchiq_openack_payload ack_payload = {
++ service->version
++ };
++ VCHIQ_ELEMENT_T body = {
++ &ack_payload,
++ sizeof(ack_payload)
++ };
++
++ /* Acknowledge the OPEN */
++ if (service->sync) {
++ if (queue_message_sync(state, NULL,
++ VCHIQ_MAKE_MSG(
++ VCHIQ_MSG_OPENACK,
++ service->localport,
++ remoteport),
++ &body, 1, sizeof(ack_payload),
++ 0) == VCHIQ_RETRY)
++ goto bail_not_ready;
++ } else {
++ if (queue_message(state, NULL,
++ VCHIQ_MAKE_MSG(
++ VCHIQ_MSG_OPENACK,
++ service->localport,
++ remoteport),
++ &body, 1, sizeof(ack_payload),
++ 0) == VCHIQ_RETRY)
++ goto bail_not_ready;
++ }
++
++ /* The service is now open */
++ vchiq_set_service_state(service,
++ service->sync ? VCHIQ_SRVSTATE_OPENSYNC
++ : VCHIQ_SRVSTATE_OPEN);
++ }
++
++ service->remoteport = remoteport;
++ service->client_id = ((int *)header->data)[1];
++ if (make_service_callback(service, VCHIQ_SERVICE_OPENED,
++ NULL, NULL) == VCHIQ_RETRY) {
++ /* Bail out if not ready */
++ service->remoteport = VCHIQ_PORT_FREE;
++ goto bail_not_ready;
++ }
++
++ /* Success - the message has been dealt with */
++ unlock_service(service);
++ return 1;
++ }
++ }
++
++fail_open:
++ /* No available service, or an invalid request - send a CLOSE */
++ if (queue_message(state, NULL,
++ VCHIQ_MAKE_MSG(VCHIQ_MSG_CLOSE, 0, VCHIQ_MSG_SRCPORT(msgid)),
++ NULL, 0, 0, 0) == VCHIQ_RETRY)
++ goto bail_not_ready;
++
++ return 1;
++
++bail_not_ready:
++ unlock_service(service);
++
++ return 0;
++}
++
++/* Called by the slot handler thread */
++static void
++parse_rx_slots(VCHIQ_STATE_T *state)
++{
++ VCHIQ_SHARED_STATE_T *remote = state->remote;
++ VCHIQ_SERVICE_T *service = NULL;
++ int tx_pos;
++ DEBUG_INITIALISE(state->local)
++
++ tx_pos = remote->tx_pos;
++
++ while (state->rx_pos != tx_pos) {
++ VCHIQ_HEADER_T *header;
++ int msgid, size;
++ int type;
++ unsigned int localport, remoteport;
++
++ DEBUG_TRACE(PARSE_LINE);
++ if (!state->rx_data) {
++ int rx_index;
++ WARN_ON(!((state->rx_pos & VCHIQ_SLOT_MASK) == 0));
++ rx_index = remote->slot_queue[
++ SLOT_QUEUE_INDEX_FROM_POS(state->rx_pos) &
++ VCHIQ_SLOT_QUEUE_MASK];
++ state->rx_data = (char *)SLOT_DATA_FROM_INDEX(state,
++ rx_index);
++ state->rx_info = SLOT_INFO_FROM_INDEX(state, rx_index);
++
++ /* Initialise use_count to one, and increment
++ ** release_count at the end of the slot to avoid
++ ** releasing the slot prematurely. */
++ state->rx_info->use_count = 1;
++ state->rx_info->release_count = 0;
++ }
++
++ header = (VCHIQ_HEADER_T *)(state->rx_data +
++ (state->rx_pos & VCHIQ_SLOT_MASK));
++ DEBUG_VALUE(PARSE_HEADER, (int)header);
++ msgid = header->msgid;
++ DEBUG_VALUE(PARSE_MSGID, msgid);
++ size = header->size;
++ type = VCHIQ_MSG_TYPE(msgid);
++ localport = VCHIQ_MSG_DSTPORT(msgid);
++ remoteport = VCHIQ_MSG_SRCPORT(msgid);
++
++ if (type != VCHIQ_MSG_DATA)
++ VCHIQ_STATS_INC(state, ctrl_rx_count);
++
++ switch (type) {
++ case VCHIQ_MSG_OPENACK:
++ case VCHIQ_MSG_CLOSE:
++ case VCHIQ_MSG_DATA:
++ case VCHIQ_MSG_BULK_RX:
++ case VCHIQ_MSG_BULK_TX:
++ case VCHIQ_MSG_BULK_RX_DONE:
++ case VCHIQ_MSG_BULK_TX_DONE:
++ service = find_service_by_port(state, localport);
++ if ((!service || service->remoteport != remoteport) &&
++ (localport == 0) &&
++ (type == VCHIQ_MSG_CLOSE)) {
++ /* This could be a CLOSE from a client which
++ hadn't yet received the OPENACK - look for
++ the connected service */
++ if (service)
++ unlock_service(service);
++ service = get_connected_service(state,
++ remoteport);
++ if (service)
++ vchiq_log_warning(vchiq_core_log_level,
++ "%d: prs %s@%x (%d->%d) - "
++ "found connected service %d",
++ state->id, msg_type_str(type),
++ (unsigned int)header,
++ remoteport, localport,
++ service->localport);
++ }
++
++ if (!service) {
++ vchiq_log_error(vchiq_core_log_level,
++ "%d: prs %s@%x (%d->%d) - "
++ "invalid/closed service %d",
++ state->id, msg_type_str(type),
++ (unsigned int)header,
++ remoteport, localport, localport);
++ goto skip_message;
++ }
++ break;
++ default:
++ break;
++ }
++
++ if (vchiq_core_msg_log_level >= VCHIQ_LOG_INFO) {
++ int svc_fourcc;
++
++ svc_fourcc = service
++ ? service->base.fourcc
++ : VCHIQ_MAKE_FOURCC('?', '?', '?', '?');
++ vchiq_log_info(vchiq_core_msg_log_level,
++ "Rcvd Msg %s(%u) from %c%c%c%c s:%d d:%d "
++ "len:%d",
++ msg_type_str(type), type,
++ VCHIQ_FOURCC_AS_4CHARS(svc_fourcc),
++ remoteport, localport, size);
++ if (size > 0)
++ vchiq_log_dump_mem("Rcvd", 0, header->data,
++ min(64, size));
++ }
++
++ if (((unsigned int)header & VCHIQ_SLOT_MASK) + calc_stride(size)
++ > VCHIQ_SLOT_SIZE) {
++ vchiq_log_error(vchiq_core_log_level,
++ "header %x (msgid %x) - size %x too big for "
++ "slot",
++ (unsigned int)header, (unsigned int)msgid,
++ (unsigned int)size);
++ WARN(1, "oversized for slot\n");
++ }
++
++ switch (type) {
++ case VCHIQ_MSG_OPEN:
++ WARN_ON(!(VCHIQ_MSG_DSTPORT(msgid) == 0));
++ if (!parse_open(state, header))
++ goto bail_not_ready;
++ break;
++ case VCHIQ_MSG_OPENACK:
++ if (size >= sizeof(struct vchiq_openack_payload)) {
++ const struct vchiq_openack_payload *payload =
++ (struct vchiq_openack_payload *)
++ header->data;
++ service->peer_version = payload->version;
++ }
++ vchiq_log_info(vchiq_core_log_level,
++ "%d: prs OPENACK@%x,%x (%d->%d) v:%d",
++ state->id, (unsigned int)header, size,
++ remoteport, localport, service->peer_version);
++ if (service->srvstate ==
++ VCHIQ_SRVSTATE_OPENING) {
++ service->remoteport = remoteport;
++ vchiq_set_service_state(service,
++ VCHIQ_SRVSTATE_OPEN);
++ up(&service->remove_event);
++ } else
++ vchiq_log_error(vchiq_core_log_level,
++ "OPENACK received in state %s",
++ srvstate_names[service->srvstate]);
++ break;
++ case VCHIQ_MSG_CLOSE:
++ WARN_ON(size != 0); /* There should be no data */
++
++ vchiq_log_info(vchiq_core_log_level,
++ "%d: prs CLOSE@%x (%d->%d)",
++ state->id, (unsigned int)header,
++ remoteport, localport);
++
++ mark_service_closing_internal(service, 1);
++
++ if (vchiq_close_service_internal(service,
++ 1/*close_recvd*/) == VCHIQ_RETRY)
++ goto bail_not_ready;
++
++ vchiq_log_info(vchiq_core_log_level,
++ "Close Service %c%c%c%c s:%u d:%d",
++ VCHIQ_FOURCC_AS_4CHARS(service->base.fourcc),
++ service->localport,
++ service->remoteport);
++ break;
++ case VCHIQ_MSG_DATA:
++ vchiq_log_trace(vchiq_core_log_level,
++ "%d: prs DATA@%x,%x (%d->%d)",
++ state->id, (unsigned int)header, size,
++ remoteport, localport);
++
++ if ((service->remoteport == remoteport)
++ && (service->srvstate ==
++ VCHIQ_SRVSTATE_OPEN)) {
++ header->msgid = msgid | VCHIQ_MSGID_CLAIMED;
++ claim_slot(state->rx_info);
++ DEBUG_TRACE(PARSE_LINE);
++ if (make_service_callback(service,
++ VCHIQ_MESSAGE_AVAILABLE, header,
++ NULL) == VCHIQ_RETRY) {
++ DEBUG_TRACE(PARSE_LINE);
++ goto bail_not_ready;
++ }
++ VCHIQ_SERVICE_STATS_INC(service, ctrl_rx_count);
++ VCHIQ_SERVICE_STATS_ADD(service, ctrl_rx_bytes,
++ size);
++ } else {
++ VCHIQ_STATS_INC(state, error_count);
++ }
++ break;
++ case VCHIQ_MSG_CONNECT:
++ vchiq_log_info(vchiq_core_log_level,
++ "%d: prs CONNECT@%x",
++ state->id, (unsigned int)header);
++ up(&state->connect);
++ break;
++ case VCHIQ_MSG_BULK_RX:
++ case VCHIQ_MSG_BULK_TX: {
++ VCHIQ_BULK_QUEUE_T *queue;
++ WARN_ON(!state->is_master);
++ queue = (type == VCHIQ_MSG_BULK_RX) ?
++ &service->bulk_tx : &service->bulk_rx;
++ if ((service->remoteport == remoteport)
++ && (service->srvstate ==
++ VCHIQ_SRVSTATE_OPEN)) {
++ VCHIQ_BULK_T *bulk;
++ int resolved = 0;
++
++ DEBUG_TRACE(PARSE_LINE);
++ if (mutex_lock_interruptible(
++ &service->bulk_mutex) != 0) {
++ DEBUG_TRACE(PARSE_LINE);
++ goto bail_not_ready;
++ }
++
++ WARN_ON(!(queue->remote_insert < queue->remove +
++ VCHIQ_NUM_SERVICE_BULKS));
++ bulk = &queue->bulks[
++ BULK_INDEX(queue->remote_insert)];
++ bulk->remote_data =
++ (void *)((int *)header->data)[0];
++ bulk->remote_size = ((int *)header->data)[1];
++ wmb();
++
++ vchiq_log_info(vchiq_core_log_level,
++ "%d: prs %s@%x (%d->%d) %x@%x",
++ state->id, msg_type_str(type),
++ (unsigned int)header,
++ remoteport, localport,
++ bulk->remote_size,
++ (unsigned int)bulk->remote_data);
++
++ queue->remote_insert++;
++
++ if (atomic_read(&pause_bulks_count)) {
++ state->deferred_bulks++;
++ vchiq_log_info(vchiq_core_log_level,
++ "%s: deferring bulk (%d)",
++ __func__,
++ state->deferred_bulks);
++ if (state->conn_state !=
++ VCHIQ_CONNSTATE_PAUSE_SENT)
++ vchiq_log_error(
++ vchiq_core_log_level,
++ "%s: bulks paused in "
++ "unexpected state %s",
++ __func__,
++ conn_state_names[
++ state->conn_state]);
++ } else if (state->conn_state ==
++ VCHIQ_CONNSTATE_CONNECTED) {
++ DEBUG_TRACE(PARSE_LINE);
++ resolved = resolve_bulks(service,
++ queue);
++ }
++
++ mutex_unlock(&service->bulk_mutex);
++ if (resolved)
++ notify_bulks(service, queue,
++ 1/*retry_poll*/);
++ }
++ } break;
++ case VCHIQ_MSG_BULK_RX_DONE:
++ case VCHIQ_MSG_BULK_TX_DONE:
++ WARN_ON(state->is_master);
++ if ((service->remoteport == remoteport)
++ && (service->srvstate !=
++ VCHIQ_SRVSTATE_FREE)) {
++ VCHIQ_BULK_QUEUE_T *queue;
++ VCHIQ_BULK_T *bulk;
++
++ queue = (type == VCHIQ_MSG_BULK_RX_DONE) ?
++ &service->bulk_rx : &service->bulk_tx;
++
++ DEBUG_TRACE(PARSE_LINE);
++ if (mutex_lock_interruptible(
++ &service->bulk_mutex) != 0) {
++ DEBUG_TRACE(PARSE_LINE);
++ goto bail_not_ready;
++ }
++ if ((int)(queue->remote_insert -
++ queue->local_insert) >= 0) {
++ vchiq_log_error(vchiq_core_log_level,
++ "%d: prs %s@%x (%d->%d) "
++ "unexpected (ri=%d,li=%d)",
++ state->id, msg_type_str(type),
++ (unsigned int)header,
++ remoteport, localport,
++ queue->remote_insert,
++ queue->local_insert);
++ mutex_unlock(&service->bulk_mutex);
++ break;
++ }
++
++ BUG_ON(queue->process == queue->local_insert);
++ BUG_ON(queue->process != queue->remote_insert);
++
++ bulk = &queue->bulks[
++ BULK_INDEX(queue->remote_insert)];
++ bulk->actual = *(int *)header->data;
++ queue->remote_insert++;
++
++ vchiq_log_info(vchiq_core_log_level,
++ "%d: prs %s@%x (%d->%d) %x@%x",
++ state->id, msg_type_str(type),
++ (unsigned int)header,
++ remoteport, localport,
++ bulk->actual, (unsigned int)bulk->data);
++
++ vchiq_log_trace(vchiq_core_log_level,
++ "%d: prs:%d %cx li=%x ri=%x p=%x",
++ state->id, localport,
++ (type == VCHIQ_MSG_BULK_RX_DONE) ?
++ 'r' : 't',
++ queue->local_insert,
++ queue->remote_insert, queue->process);
++
++ DEBUG_TRACE(PARSE_LINE);
++ WARN_ON(queue->process == queue->local_insert);
++ vchiq_complete_bulk(bulk);
++ queue->process++;
++ mutex_unlock(&service->bulk_mutex);
++ DEBUG_TRACE(PARSE_LINE);
++ notify_bulks(service, queue, 1/*retry_poll*/);
++ DEBUG_TRACE(PARSE_LINE);
++ }
++ break;
++ case VCHIQ_MSG_PADDING:
++ vchiq_log_trace(vchiq_core_log_level,
++ "%d: prs PADDING@%x,%x",
++ state->id, (unsigned int)header, size);
++ break;
++ case VCHIQ_MSG_PAUSE:
++ /* If initiated, signal the application thread */
++ vchiq_log_trace(vchiq_core_log_level,
++ "%d: prs PAUSE@%x,%x",
++ state->id, (unsigned int)header, size);
++ if (state->conn_state == VCHIQ_CONNSTATE_PAUSED) {
++ vchiq_log_error(vchiq_core_log_level,
++ "%d: PAUSE received in state PAUSED",
++ state->id);
++ break;
++ }
++ if (state->conn_state != VCHIQ_CONNSTATE_PAUSE_SENT) {
++ /* Send a PAUSE in response */
++ if (queue_message(state, NULL,
++ VCHIQ_MAKE_MSG(VCHIQ_MSG_PAUSE, 0, 0),
++ NULL, 0, 0, 0) == VCHIQ_RETRY)
++ goto bail_not_ready;
++ if (state->is_master)
++ pause_bulks(state);
++ }
++ /* At this point slot_mutex is held */
++ vchiq_set_conn_state(state, VCHIQ_CONNSTATE_PAUSED);
++ vchiq_platform_paused(state);
++ break;
++ case VCHIQ_MSG_RESUME:
++ vchiq_log_trace(vchiq_core_log_level,
++ "%d: prs RESUME@%x,%x",
++ state->id, (unsigned int)header, size);
++ /* Release the slot mutex */
++ mutex_unlock(&state->slot_mutex);
++ if (state->is_master)
++ resume_bulks(state);
++ vchiq_set_conn_state(state, VCHIQ_CONNSTATE_CONNECTED);
++ vchiq_platform_resumed(state);
++ break;
++
++ case VCHIQ_MSG_REMOTE_USE:
++ vchiq_on_remote_use(state);
++ break;
++ case VCHIQ_MSG_REMOTE_RELEASE:
++ vchiq_on_remote_release(state);
++ break;
++ case VCHIQ_MSG_REMOTE_USE_ACTIVE:
++ vchiq_on_remote_use_active(state);
++ break;
++
++ default:
++ vchiq_log_error(vchiq_core_log_level,
++ "%d: prs invalid msgid %x@%x,%x",
++ state->id, msgid, (unsigned int)header, size);
++ WARN(1, "invalid message\n");
++ break;
++ }
++
++skip_message:
++ if (service) {
++ unlock_service(service);
++ service = NULL;
++ }
++
++ state->rx_pos += calc_stride(size);
++
++ DEBUG_TRACE(PARSE_LINE);
++ /* Perform some housekeeping when the end of the slot is
++ ** reached. */
++ if ((state->rx_pos & VCHIQ_SLOT_MASK) == 0) {
++ /* Remove the extra reference count. */
++ release_slot(state, state->rx_info, NULL, NULL);
++ state->rx_data = NULL;
++ }
++ }
++
++bail_not_ready:
++ if (service)
++ unlock_service(service);
++}
++
++/* Called by the slot handler thread */
++static int
++slot_handler_func(void *v)
++{
++ VCHIQ_STATE_T *state = (VCHIQ_STATE_T *) v;
++ VCHIQ_SHARED_STATE_T *local = state->local;
++ DEBUG_INITIALISE(local)
++
++ while (1) {
++ DEBUG_COUNT(SLOT_HANDLER_COUNT);
++ DEBUG_TRACE(SLOT_HANDLER_LINE);
++ remote_event_wait(&local->trigger);
++
++ rmb();
++
++ DEBUG_TRACE(SLOT_HANDLER_LINE);
++ if (state->poll_needed) {
++ /* Check if we need to suspend - may change our
++ * conn_state */
++ vchiq_platform_check_suspend(state);
++
++ state->poll_needed = 0;
++
++ /* Handle service polling and other rare conditions here
++ ** out of the mainline code */
++ switch (state->conn_state) {
++ case VCHIQ_CONNSTATE_CONNECTED:
++ /* Poll the services as requested */
++ poll_services(state);
++ break;
++
++ case VCHIQ_CONNSTATE_PAUSING:
++ if (state->is_master)
++ pause_bulks(state);
++ if (queue_message(state, NULL,
++ VCHIQ_MAKE_MSG(VCHIQ_MSG_PAUSE, 0, 0),
++ NULL, 0, 0, 0) != VCHIQ_RETRY) {
++ vchiq_set_conn_state(state,
++ VCHIQ_CONNSTATE_PAUSE_SENT);
++ } else {
++ if (state->is_master)
++ resume_bulks(state);
++ /* Retry later */
++ state->poll_needed = 1;
++ }
++ break;
++
++ case VCHIQ_CONNSTATE_PAUSED:
++ vchiq_platform_resume(state);
++ break;
++
++ case VCHIQ_CONNSTATE_RESUMING:
++ if (queue_message(state, NULL,
++ VCHIQ_MAKE_MSG(VCHIQ_MSG_RESUME, 0, 0),
++ NULL, 0, 0, 0) != VCHIQ_RETRY) {
++ if (state->is_master)
++ resume_bulks(state);
++ vchiq_set_conn_state(state,
++ VCHIQ_CONNSTATE_CONNECTED);
++ vchiq_platform_resumed(state);
++ } else {
++ /* This should really be impossible,
++ ** since the PAUSE should have flushed
++ ** through outstanding messages. */
++ vchiq_log_error(vchiq_core_log_level,
++ "Failed to send RESUME "
++ "message");
++ BUG();
++ }
++ break;
++
++ case VCHIQ_CONNSTATE_PAUSE_TIMEOUT:
++ case VCHIQ_CONNSTATE_RESUME_TIMEOUT:
++ vchiq_platform_handle_timeout(state);
++ break;
++ default:
++ break;
++ }
++
++
++ }
++
++ DEBUG_TRACE(SLOT_HANDLER_LINE);
++ parse_rx_slots(state);
++ }
++ return 0;
++}
++
++
++/* Called by the recycle thread */
++static int
++recycle_func(void *v)
++{
++ VCHIQ_STATE_T *state = (VCHIQ_STATE_T *) v;
++ VCHIQ_SHARED_STATE_T *local = state->local;
++
++ while (1) {
++ remote_event_wait(&local->recycle);
++
++ process_free_queue(state);
++ }
++ return 0;
++}
++
++
++/* Called by the sync thread */
++static int
++sync_func(void *v)
++{
++ VCHIQ_STATE_T *state = (VCHIQ_STATE_T *) v;
++ VCHIQ_SHARED_STATE_T *local = state->local;
++ VCHIQ_HEADER_T *header = (VCHIQ_HEADER_T *)SLOT_DATA_FROM_INDEX(state,
++ state->remote->slot_sync);
++
++ while (1) {
++ VCHIQ_SERVICE_T *service;
++ int msgid, size;
++ int type;
++ unsigned int localport, remoteport;
++
++ remote_event_wait(&local->sync_trigger);
++
++ rmb();
++
++ msgid = header->msgid;
++ size = header->size;
++ type = VCHIQ_MSG_TYPE(msgid);
++ localport = VCHIQ_MSG_DSTPORT(msgid);
++ remoteport = VCHIQ_MSG_SRCPORT(msgid);
++
++ service = find_service_by_port(state, localport);
++
++ if (!service) {
++ vchiq_log_error(vchiq_sync_log_level,
++ "%d: sf %s@%x (%d->%d) - "
++ "invalid/closed service %d",
++ state->id, msg_type_str(type),
++ (unsigned int)header,
++ remoteport, localport, localport);
++ release_message_sync(state, header);
++ continue;
++ }
++
++ if (vchiq_sync_log_level >= VCHIQ_LOG_TRACE) {
++ int svc_fourcc;
++
++ svc_fourcc = service
++ ? service->base.fourcc
++ : VCHIQ_MAKE_FOURCC('?', '?', '?', '?');
++ vchiq_log_trace(vchiq_sync_log_level,
++ "Rcvd Msg %s from %c%c%c%c s:%d d:%d len:%d",
++ msg_type_str(type),
++ VCHIQ_FOURCC_AS_4CHARS(svc_fourcc),
++ remoteport, localport, size);
++ if (size > 0)
++ vchiq_log_dump_mem("Rcvd", 0, header->data,
++ min(64, size));
++ }
++
++ switch (type) {
++ case VCHIQ_MSG_OPENACK:
++ if (size >= sizeof(struct vchiq_openack_payload)) {
++ const struct vchiq_openack_payload *payload =
++ (struct vchiq_openack_payload *)
++ header->data;
++ service->peer_version = payload->version;
++ }
++ vchiq_log_info(vchiq_sync_log_level,
++ "%d: sf OPENACK@%x,%x (%d->%d) v:%d",
++ state->id, (unsigned int)header, size,
++ remoteport, localport, service->peer_version);
++ if (service->srvstate == VCHIQ_SRVSTATE_OPENING) {
++ service->remoteport = remoteport;
++ vchiq_set_service_state(service,
++ VCHIQ_SRVSTATE_OPENSYNC);
++ up(&service->remove_event);
++ }
++ release_message_sync(state, header);
++ break;
++
++ case VCHIQ_MSG_DATA:
++ vchiq_log_trace(vchiq_sync_log_level,
++ "%d: sf DATA@%x,%x (%d->%d)",
++ state->id, (unsigned int)header, size,
++ remoteport, localport);
++
++ if ((service->remoteport == remoteport) &&
++ (service->srvstate ==
++ VCHIQ_SRVSTATE_OPENSYNC)) {
++ if (make_service_callback(service,
++ VCHIQ_MESSAGE_AVAILABLE, header,
++ NULL) == VCHIQ_RETRY)
++ vchiq_log_error(vchiq_sync_log_level,
++ "synchronous callback to "
++ "service %d returns "
++ "VCHIQ_RETRY",
++ localport);
++ }
++ break;
++
++ default:
++ vchiq_log_error(vchiq_sync_log_level,
++ "%d: sf unexpected msgid %x@%x,%x",
++ state->id, msgid, (unsigned int)header, size);
++ release_message_sync(state, header);
++ break;
++ }
++
++ unlock_service(service);
++ }
++
++ return 0;
++}
++
++
++static void
++init_bulk_queue(VCHIQ_BULK_QUEUE_T *queue)
++{
++ queue->local_insert = 0;
++ queue->remote_insert = 0;
++ queue->process = 0;
++ queue->remote_notify = 0;
++ queue->remove = 0;
++}
++
++
++inline const char *
++get_conn_state_name(VCHIQ_CONNSTATE_T conn_state)
++{
++ return conn_state_names[conn_state];
++}
++
++
++VCHIQ_SLOT_ZERO_T *
++vchiq_init_slots(void *mem_base, int mem_size)
++{
++ int mem_align = (VCHIQ_SLOT_SIZE - (int)mem_base) & VCHIQ_SLOT_MASK;
++ VCHIQ_SLOT_ZERO_T *slot_zero =
++ (VCHIQ_SLOT_ZERO_T *)((char *)mem_base + mem_align);
++ int num_slots = (mem_size - mem_align)/VCHIQ_SLOT_SIZE;
++ int first_data_slot = VCHIQ_SLOT_ZERO_SLOTS;
++
++ /* Ensure there is enough memory to run an absolutely minimum system */
++ num_slots -= first_data_slot;
++
++ if (num_slots < 4) {
++ vchiq_log_error(vchiq_core_log_level,
++ "vchiq_init_slots - insufficient memory %x bytes",
++ mem_size);
++ return NULL;
++ }
++
++ memset(slot_zero, 0, sizeof(VCHIQ_SLOT_ZERO_T));
++
++ slot_zero->magic = VCHIQ_MAGIC;
++ slot_zero->version = VCHIQ_VERSION;
++ slot_zero->version_min = VCHIQ_VERSION_MIN;
++ slot_zero->slot_zero_size = sizeof(VCHIQ_SLOT_ZERO_T);
++ slot_zero->slot_size = VCHIQ_SLOT_SIZE;
++ slot_zero->max_slots = VCHIQ_MAX_SLOTS;
++ slot_zero->max_slots_per_side = VCHIQ_MAX_SLOTS_PER_SIDE;
++
++ slot_zero->master.slot_sync = first_data_slot;
++ slot_zero->master.slot_first = first_data_slot + 1;
++ slot_zero->master.slot_last = first_data_slot + (num_slots/2) - 1;
++ slot_zero->slave.slot_sync = first_data_slot + (num_slots/2);
++ slot_zero->slave.slot_first = first_data_slot + (num_slots/2) + 1;
++ slot_zero->slave.slot_last = first_data_slot + num_slots - 1;
++
++ return slot_zero;
++}
++
++VCHIQ_STATUS_T
++vchiq_init_state(VCHIQ_STATE_T *state, VCHIQ_SLOT_ZERO_T *slot_zero,
++ int is_master)
++{
++ VCHIQ_SHARED_STATE_T *local;
++ VCHIQ_SHARED_STATE_T *remote;
++ VCHIQ_STATUS_T status;
++ char threadname[10];
++ static int id;
++ int i;
++
++ vchiq_log_warning(vchiq_core_log_level,
++ "%s: slot_zero = 0x%08lx, is_master = %d",
++ __func__, (unsigned long)slot_zero, is_master);
++
++ /* Check the input configuration */
++
++ if (slot_zero->magic != VCHIQ_MAGIC) {
++ vchiq_loud_error_header();
++ vchiq_loud_error("Invalid VCHIQ magic value found.");
++ vchiq_loud_error("slot_zero=%x: magic=%x (expected %x)",
++ (unsigned int)slot_zero, slot_zero->magic, VCHIQ_MAGIC);
++ vchiq_loud_error_footer();
++ return VCHIQ_ERROR;
++ }
++
++ if (slot_zero->version < VCHIQ_VERSION_MIN) {
++ vchiq_loud_error_header();
++ vchiq_loud_error("Incompatible VCHIQ versions found.");
++ vchiq_loud_error("slot_zero=%x: VideoCore version=%d "
++ "(minimum %d)",
++ (unsigned int)slot_zero, slot_zero->version,
++ VCHIQ_VERSION_MIN);
++ vchiq_loud_error("Restart with a newer VideoCore image.");
++ vchiq_loud_error_footer();
++ return VCHIQ_ERROR;
++ }
++
++ if (VCHIQ_VERSION < slot_zero->version_min) {
++ vchiq_loud_error_header();
++ vchiq_loud_error("Incompatible VCHIQ versions found.");
++ vchiq_loud_error("slot_zero=%x: version=%d (VideoCore "
++ "minimum %d)",
++ (unsigned int)slot_zero, VCHIQ_VERSION,
++ slot_zero->version_min);
++ vchiq_loud_error("Restart with a newer kernel.");
++ vchiq_loud_error_footer();
++ return VCHIQ_ERROR;
++ }
++
++ if ((slot_zero->slot_zero_size != sizeof(VCHIQ_SLOT_ZERO_T)) ||
++ (slot_zero->slot_size != VCHIQ_SLOT_SIZE) ||
++ (slot_zero->max_slots != VCHIQ_MAX_SLOTS) ||
++ (slot_zero->max_slots_per_side != VCHIQ_MAX_SLOTS_PER_SIDE)) {
++ vchiq_loud_error_header();
++ if (slot_zero->slot_zero_size != sizeof(VCHIQ_SLOT_ZERO_T))
++ vchiq_loud_error("slot_zero=%x: slot_zero_size=%x "
++ "(expected %x)",
++ (unsigned int)slot_zero,
++ slot_zero->slot_zero_size,
++ sizeof(VCHIQ_SLOT_ZERO_T));
++ if (slot_zero->slot_size != VCHIQ_SLOT_SIZE)
++ vchiq_loud_error("slot_zero=%x: slot_size=%d "
++ "(expected %d",
++ (unsigned int)slot_zero, slot_zero->slot_size,
++ VCHIQ_SLOT_SIZE);
++ if (slot_zero->max_slots != VCHIQ_MAX_SLOTS)
++ vchiq_loud_error("slot_zero=%x: max_slots=%d "
++ "(expected %d)",
++ (unsigned int)slot_zero, slot_zero->max_slots,
++ VCHIQ_MAX_SLOTS);
++ if (slot_zero->max_slots_per_side != VCHIQ_MAX_SLOTS_PER_SIDE)
++ vchiq_loud_error("slot_zero=%x: max_slots_per_side=%d "
++ "(expected %d)",
++ (unsigned int)slot_zero,
++ slot_zero->max_slots_per_side,
++ VCHIQ_MAX_SLOTS_PER_SIDE);
++ vchiq_loud_error_footer();
++ return VCHIQ_ERROR;
++ }
++
++ if (is_master) {
++ local = &slot_zero->master;
++ remote = &slot_zero->slave;
++ } else {
++ local = &slot_zero->slave;
++ remote = &slot_zero->master;
++ }
++
++ if (local->initialised) {
++ vchiq_loud_error_header();
++ if (remote->initialised)
++ vchiq_loud_error("local state has already been "
++ "initialised");
++ else
++ vchiq_loud_error("master/slave mismatch - two %ss",
++ is_master ? "master" : "slave");
++ vchiq_loud_error_footer();
++ return VCHIQ_ERROR;
++ }
++
++ memset(state, 0, sizeof(VCHIQ_STATE_T));
++
++ state->id = id++;
++ state->is_master = is_master;
++
++ /*
++ initialize shared state pointers
++ */
++
++ state->local = local;
++ state->remote = remote;
++ state->slot_data = (VCHIQ_SLOT_T *)slot_zero;
++
++ /*
++ initialize events and mutexes
++ */
++
++ sema_init(&state->connect, 0);
++ mutex_init(&state->mutex);
++ sema_init(&state->trigger_event, 0);
++ sema_init(&state->recycle_event, 0);
++ sema_init(&state->sync_trigger_event, 0);
++ sema_init(&state->sync_release_event, 0);
++
++ mutex_init(&state->slot_mutex);
++ mutex_init(&state->recycle_mutex);
++ mutex_init(&state->sync_mutex);
++ mutex_init(&state->bulk_transfer_mutex);
++
++ sema_init(&state->slot_available_event, 0);
++ sema_init(&state->slot_remove_event, 0);
++ sema_init(&state->data_quota_event, 0);
++
++ state->slot_queue_available = 0;
++
++ for (i = 0; i < VCHIQ_MAX_SERVICES; i++) {
++ VCHIQ_SERVICE_QUOTA_T *service_quota =
++ &state->service_quotas[i];
++ sema_init(&service_quota->quota_event, 0);
++ }
++
++ for (i = local->slot_first; i <= local->slot_last; i++) {
++ local->slot_queue[state->slot_queue_available++] = i;
++ up(&state->slot_available_event);
++ }
++
++ state->default_slot_quota = state->slot_queue_available/2;
++ state->default_message_quota =
++ min((unsigned short)(state->default_slot_quota * 256),
++ (unsigned short)~0);
++
++ state->previous_data_index = -1;
++ state->data_use_count = 0;
++ state->data_quota = state->slot_queue_available - 1;
++
++ local->trigger.event = &state->trigger_event;
++ remote_event_create(&local->trigger);
++ local->tx_pos = 0;
++
++ local->recycle.event = &state->recycle_event;
++ remote_event_create(&local->recycle);
++ local->slot_queue_recycle = state->slot_queue_available;
++
++ local->sync_trigger.event = &state->sync_trigger_event;
++ remote_event_create(&local->sync_trigger);
++
++ local->sync_release.event = &state->sync_release_event;
++ remote_event_create(&local->sync_release);
++
++ /* At start-of-day, the slot is empty and available */
++ ((VCHIQ_HEADER_T *)SLOT_DATA_FROM_INDEX(state, local->slot_sync))->msgid
++ = VCHIQ_MSGID_PADDING;
++ remote_event_signal_local(&local->sync_release);
++
++ local->debug[DEBUG_ENTRIES] = DEBUG_MAX;
++
++ status = vchiq_platform_init_state(state);
++
++ /*
++ bring up slot handler thread
++ */
++ snprintf(threadname, sizeof(threadname), "VCHIQ-%d", state->id);
++ state->slot_handler_thread = kthread_create(&slot_handler_func,
++ (void *)state,
++ threadname);
++
++ if (state->slot_handler_thread == NULL) {
++ vchiq_loud_error_header();
++ vchiq_loud_error("couldn't create thread %s", threadname);
++ vchiq_loud_error_footer();
++ return VCHIQ_ERROR;
++ }
++ set_user_nice(state->slot_handler_thread, -19);
++ wake_up_process(state->slot_handler_thread);
++
++ snprintf(threadname, sizeof(threadname), "VCHIQr-%d", state->id);
++ state->recycle_thread = kthread_create(&recycle_func,
++ (void *)state,
++ threadname);
++ if (state->recycle_thread == NULL) {
++ vchiq_loud_error_header();
++ vchiq_loud_error("couldn't create thread %s", threadname);
++ vchiq_loud_error_footer();
++ return VCHIQ_ERROR;
++ }
++ set_user_nice(state->recycle_thread, -19);
++ wake_up_process(state->recycle_thread);
++
++ snprintf(threadname, sizeof(threadname), "VCHIQs-%d", state->id);
++ state->sync_thread = kthread_create(&sync_func,
++ (void *)state,
++ threadname);
++ if (state->sync_thread == NULL) {
++ vchiq_loud_error_header();
++ vchiq_loud_error("couldn't create thread %s", threadname);
++ vchiq_loud_error_footer();
++ return VCHIQ_ERROR;
++ }
++ set_user_nice(state->sync_thread, -20);
++ wake_up_process(state->sync_thread);
++
++ BUG_ON(state->id >= VCHIQ_MAX_STATES);
++ vchiq_states[state->id] = state;
++
++ /* Indicate readiness to the other side */
++ local->initialised = 1;
++
++ return status;
++}
++
++/* Called from application thread when a client or server service is created. */
++VCHIQ_SERVICE_T *
++vchiq_add_service_internal(VCHIQ_STATE_T *state,
++ const VCHIQ_SERVICE_PARAMS_T *params, int srvstate,
++ VCHIQ_INSTANCE_T instance)
++{
++ VCHIQ_SERVICE_T *service;
++
++ service = kmalloc(sizeof(VCHIQ_SERVICE_T), GFP_KERNEL);
++ if (service) {
++ service->base.fourcc = params->fourcc;
++ service->base.callback = params->callback;
++ service->base.userdata = params->userdata;
++ service->handle = VCHIQ_SERVICE_HANDLE_INVALID;
++ service->ref_count = 1;
++ service->srvstate = VCHIQ_SRVSTATE_FREE;
++ service->localport = VCHIQ_PORT_FREE;
++ service->remoteport = VCHIQ_PORT_FREE;
++
++ service->public_fourcc = (srvstate == VCHIQ_SRVSTATE_OPENING) ?
++ VCHIQ_FOURCC_INVALID : params->fourcc;
++ service->client_id = 0;
++ service->auto_close = 1;
++ service->sync = 0;
++ service->closing = 0;
++ atomic_set(&service->poll_flags, 0);
++ service->version = params->version;
++ service->version_min = params->version_min;
++ service->state = state;
++ service->instance = instance;
++ service->service_use_count = 0;
++ init_bulk_queue(&service->bulk_tx);
++ init_bulk_queue(&service->bulk_rx);
++ sema_init(&service->remove_event, 0);
++ sema_init(&service->bulk_remove_event, 0);
++ mutex_init(&service->bulk_mutex);
++ memset(&service->stats, 0, sizeof(service->stats));
++ } else {
++ vchiq_log_error(vchiq_core_log_level,
++ "Out of memory");
++ }
++
++ if (service) {
++ VCHIQ_SERVICE_T **pservice = NULL;
++ int i;
++
++ /* Although it is perfectly possible to use service_spinlock
++ ** to protect the creation of services, it is overkill as it
++ ** disables interrupts while the array is searched.
++ ** The only danger is of another thread trying to create a
++ ** service - service deletion is safe.
++ ** Therefore it is preferable to use state->mutex which,
++ ** although slower to claim, doesn't block interrupts while
++ ** it is held.
++ */
++
++ mutex_lock(&state->mutex);
++
++ /* Prepare to use a previously unused service */
++ if (state->unused_service < VCHIQ_MAX_SERVICES)
++ pservice = &state->services[state->unused_service];
++
++ if (srvstate == VCHIQ_SRVSTATE_OPENING) {
++ for (i = 0; i < state->unused_service; i++) {
++ VCHIQ_SERVICE_T *srv = state->services[i];
++ if (!srv) {
++ pservice = &state->services[i];
++ break;
++ }
++ }
++ } else {
++ for (i = (state->unused_service - 1); i >= 0; i--) {
++ VCHIQ_SERVICE_T *srv = state->services[i];
++ if (!srv)
++ pservice = &state->services[i];
++ else if ((srv->public_fourcc == params->fourcc)
++ && ((srv->instance != instance) ||
++ (srv->base.callback !=
++ params->callback))) {
++ /* There is another server using this
++ ** fourcc which doesn't match. */
++ pservice = NULL;
++ break;
++ }
++ }
++ }
++
++ if (pservice) {
++ service->localport = (pservice - state->services);
++ if (!handle_seq)
++ handle_seq = VCHIQ_MAX_STATES *
++ VCHIQ_MAX_SERVICES;
++ service->handle = handle_seq |
++ (state->id * VCHIQ_MAX_SERVICES) |
++ service->localport;
++ handle_seq += VCHIQ_MAX_STATES * VCHIQ_MAX_SERVICES;
++ *pservice = service;
++ if (pservice == &state->services[state->unused_service])
++ state->unused_service++;
++ }
++
++ mutex_unlock(&state->mutex);
++
++ if (!pservice) {
++ kfree(service);
++ service = NULL;
++ }
++ }
++
++ if (service) {
++ VCHIQ_SERVICE_QUOTA_T *service_quota =
++ &state->service_quotas[service->localport];
++ service_quota->slot_quota = state->default_slot_quota;
++ service_quota->message_quota = state->default_message_quota;
++ if (service_quota->slot_use_count == 0)
++ service_quota->previous_tx_index =
++ SLOT_QUEUE_INDEX_FROM_POS(state->local_tx_pos)
++ - 1;
++
++ /* Bring this service online */
++ vchiq_set_service_state(service, srvstate);
++
++ vchiq_log_info(vchiq_core_msg_log_level,
++ "%s Service %c%c%c%c SrcPort:%d",
++ (srvstate == VCHIQ_SRVSTATE_OPENING)
++ ? "Open" : "Add",
++ VCHIQ_FOURCC_AS_4CHARS(params->fourcc),
++ service->localport);
++ }
++
++ /* Don't unlock the service - leave it with a ref_count of 1. */
++
++ return service;
++}
++
++VCHIQ_STATUS_T
++vchiq_open_service_internal(VCHIQ_SERVICE_T *service, int client_id)
++{
++ struct vchiq_open_payload payload = {
++ service->base.fourcc,
++ client_id,
++ service->version,
++ service->version_min
++ };
++ VCHIQ_ELEMENT_T body = { &payload, sizeof(payload) };
++ VCHIQ_STATUS_T status = VCHIQ_SUCCESS;
++
++ service->client_id = client_id;
++ vchiq_use_service_internal(service);
++ status = queue_message(service->state, NULL,
++ VCHIQ_MAKE_MSG(VCHIQ_MSG_OPEN, service->localport, 0),
++ &body, 1, sizeof(payload), 1);
++ if (status == VCHIQ_SUCCESS) {
++ if (down_interruptible(&service->remove_event) != 0) {
++ status = VCHIQ_RETRY;
++ vchiq_release_service_internal(service);
++ } else if ((service->srvstate != VCHIQ_SRVSTATE_OPEN) &&
++ (service->srvstate != VCHIQ_SRVSTATE_OPENSYNC)) {
++ if (service->srvstate != VCHIQ_SRVSTATE_CLOSEWAIT)
++ vchiq_log_error(vchiq_core_log_level,
++ "%d: osi - srvstate = %s (ref %d)",
++ service->state->id,
++ srvstate_names[service->srvstate],
++ service->ref_count);
++ status = VCHIQ_ERROR;
++ VCHIQ_SERVICE_STATS_INC(service, error_count);
++ vchiq_release_service_internal(service);
++ }
++ }
++ return status;
++}
++
++static void
++release_service_messages(VCHIQ_SERVICE_T *service)
++{
++ VCHIQ_STATE_T *state = service->state;
++ int slot_last = state->remote->slot_last;
++ int i;
++
++ /* Release any claimed messages */
++ for (i = state->remote->slot_first; i <= slot_last; i++) {
++ VCHIQ_SLOT_INFO_T *slot_info =
++ SLOT_INFO_FROM_INDEX(state, i);
++ if (slot_info->release_count != slot_info->use_count) {
++ char *data =
++ (char *)SLOT_DATA_FROM_INDEX(state, i);
++ unsigned int pos, end;
++
++ end = VCHIQ_SLOT_SIZE;
++ if (data == state->rx_data)
++ /* This buffer is still being read from - stop
++ ** at the current read position */
++ end = state->rx_pos & VCHIQ_SLOT_MASK;
++
++ pos = 0;
++
++ while (pos < end) {
++ VCHIQ_HEADER_T *header =
++ (VCHIQ_HEADER_T *)(data + pos);
++ int msgid = header->msgid;
++ int port = VCHIQ_MSG_DSTPORT(msgid);
++ if ((port == service->localport) &&
++ (msgid & VCHIQ_MSGID_CLAIMED)) {
++ vchiq_log_info(vchiq_core_log_level,
++ " fsi - hdr %x",
++ (unsigned int)header);
++ release_slot(state, slot_info, header,
++ NULL);
++ }
++ pos += calc_stride(header->size);
++ if (pos > VCHIQ_SLOT_SIZE) {
++ vchiq_log_error(vchiq_core_log_level,
++ "fsi - pos %x: header %x, "
++ "msgid %x, header->msgid %x, "
++ "header->size %x",
++ pos, (unsigned int)header,
++ msgid, header->msgid,
++ header->size);
++ WARN(1, "invalid slot position\n");
++ }
++ }
++ }
++ }
++}
++
++static int
++do_abort_bulks(VCHIQ_SERVICE_T *service)
++{
++ VCHIQ_STATUS_T status;
++
++ /* Abort any outstanding bulk transfers */
++ if (mutex_lock_interruptible(&service->bulk_mutex) != 0)
++ return 0;
++ abort_outstanding_bulks(service, &service->bulk_tx);
++ abort_outstanding_bulks(service, &service->bulk_rx);
++ mutex_unlock(&service->bulk_mutex);
++
++ status = notify_bulks(service, &service->bulk_tx, 0/*!retry_poll*/);
++ if (status == VCHIQ_SUCCESS)
++ status = notify_bulks(service, &service->bulk_rx,
++ 0/*!retry_poll*/);
++ return (status == VCHIQ_SUCCESS);
++}
++
++static VCHIQ_STATUS_T
++close_service_complete(VCHIQ_SERVICE_T *service, int failstate)
++{
++ VCHIQ_STATUS_T status;
++ int is_server = (service->public_fourcc != VCHIQ_FOURCC_INVALID);
++ int newstate;
++
++ switch (service->srvstate) {
++ case VCHIQ_SRVSTATE_OPEN:
++ case VCHIQ_SRVSTATE_CLOSESENT:
++ case VCHIQ_SRVSTATE_CLOSERECVD:
++ if (is_server) {
++ if (service->auto_close) {
++ service->client_id = 0;
++ service->remoteport = VCHIQ_PORT_FREE;
++ newstate = VCHIQ_SRVSTATE_LISTENING;
++ } else
++ newstate = VCHIQ_SRVSTATE_CLOSEWAIT;
++ } else
++ newstate = VCHIQ_SRVSTATE_CLOSED;
++ vchiq_set_service_state(service, newstate);
++ break;
++ case VCHIQ_SRVSTATE_LISTENING:
++ break;
++ default:
++ vchiq_log_error(vchiq_core_log_level,
++ "close_service_complete(%x) called in state %s",
++ service->handle, srvstate_names[service->srvstate]);
++ WARN(1, "close_service_complete in unexpected state\n");
++ return VCHIQ_ERROR;
++ }
++
++ status = make_service_callback(service,
++ VCHIQ_SERVICE_CLOSED, NULL, NULL);
++
++ if (status != VCHIQ_RETRY) {
++ int uc = service->service_use_count;
++ int i;
++ /* Complete the close process */
++ for (i = 0; i < uc; i++)
++ /* cater for cases where close is forced and the
++ ** client may not close all it's handles */
++ vchiq_release_service_internal(service);
++
++ service->client_id = 0;
++ service->remoteport = VCHIQ_PORT_FREE;
++
++ if (service->srvstate == VCHIQ_SRVSTATE_CLOSED)
++ vchiq_free_service_internal(service);
++ else if (service->srvstate != VCHIQ_SRVSTATE_CLOSEWAIT) {
++ if (is_server)
++ service->closing = 0;
++
++ up(&service->remove_event);
++ }
++ } else
++ vchiq_set_service_state(service, failstate);
++
++ return status;
++}
++
++/* Called by the slot handler */
++VCHIQ_STATUS_T
++vchiq_close_service_internal(VCHIQ_SERVICE_T *service, int close_recvd)
++{
++ VCHIQ_STATE_T *state = service->state;
++ VCHIQ_STATUS_T status = VCHIQ_SUCCESS;
++ int is_server = (service->public_fourcc != VCHIQ_FOURCC_INVALID);
++
++ vchiq_log_info(vchiq_core_log_level, "%d: csi:%d,%d (%s)",
++ service->state->id, service->localport, close_recvd,
++ srvstate_names[service->srvstate]);
++
++ switch (service->srvstate) {
++ case VCHIQ_SRVSTATE_CLOSED:
++ case VCHIQ_SRVSTATE_HIDDEN:
++ case VCHIQ_SRVSTATE_LISTENING:
++ case VCHIQ_SRVSTATE_CLOSEWAIT:
++ if (close_recvd)
++ vchiq_log_error(vchiq_core_log_level,
++ "vchiq_close_service_internal(1) called "
++ "in state %s",
++ srvstate_names[service->srvstate]);
++ else if (is_server) {
++ if (service->srvstate == VCHIQ_SRVSTATE_LISTENING) {
++ status = VCHIQ_ERROR;
++ } else {
++ service->client_id = 0;
++ service->remoteport = VCHIQ_PORT_FREE;
++ if (service->srvstate ==
++ VCHIQ_SRVSTATE_CLOSEWAIT)
++ vchiq_set_service_state(service,
++ VCHIQ_SRVSTATE_LISTENING);
++ }
++ up(&service->remove_event);
++ } else
++ vchiq_free_service_internal(service);
++ break;
++ case VCHIQ_SRVSTATE_OPENING:
++ if (close_recvd) {
++ /* The open was rejected - tell the user */
++ vchiq_set_service_state(service,
++ VCHIQ_SRVSTATE_CLOSEWAIT);
++ up(&service->remove_event);
++ } else {
++ /* Shutdown mid-open - let the other side know */
++ status = queue_message(state, service,
++ VCHIQ_MAKE_MSG
++ (VCHIQ_MSG_CLOSE,
++ service->localport,
++ VCHIQ_MSG_DSTPORT(service->remoteport)),
++ NULL, 0, 0, 0);
++ }
++ break;
++
++ case VCHIQ_SRVSTATE_OPENSYNC:
++ mutex_lock(&state->sync_mutex);
++ /* Drop through */
++
++ case VCHIQ_SRVSTATE_OPEN:
++ if (state->is_master || close_recvd) {
++ if (!do_abort_bulks(service))
++ status = VCHIQ_RETRY;
++ }
++
++ release_service_messages(service);
++
++ if (status == VCHIQ_SUCCESS)
++ status = queue_message(state, service,
++ VCHIQ_MAKE_MSG
++ (VCHIQ_MSG_CLOSE,
++ service->localport,
++ VCHIQ_MSG_DSTPORT(service->remoteport)),
++ NULL, 0, 0, 0);
++
++ if (status == VCHIQ_SUCCESS) {
++ if (!close_recvd)
++ break;
++ } else if (service->srvstate == VCHIQ_SRVSTATE_OPENSYNC) {
++ mutex_unlock(&state->sync_mutex);
++ break;
++ } else
++ break;
++
++ status = close_service_complete(service,
++ VCHIQ_SRVSTATE_CLOSERECVD);
++ break;
++
++ case VCHIQ_SRVSTATE_CLOSESENT:
++ if (!close_recvd)
++ /* This happens when a process is killed mid-close */
++ break;
++
++ if (!state->is_master) {
++ if (!do_abort_bulks(service)) {
++ status = VCHIQ_RETRY;
++ break;
++ }
++ }
++
++ if (status == VCHIQ_SUCCESS)
++ status = close_service_complete(service,
++ VCHIQ_SRVSTATE_CLOSERECVD);
++ break;
++
++ case VCHIQ_SRVSTATE_CLOSERECVD:
++ if (!close_recvd && is_server)
++ /* Force into LISTENING mode */
++ vchiq_set_service_state(service,
++ VCHIQ_SRVSTATE_LISTENING);
++ status = close_service_complete(service,
++ VCHIQ_SRVSTATE_CLOSERECVD);
++ break;
++
++ default:
++ vchiq_log_error(vchiq_core_log_level,
++ "vchiq_close_service_internal(%d) called in state %s",
++ close_recvd, srvstate_names[service->srvstate]);
++ break;
++ }
++
++ return status;
++}
++
++/* Called from the application process upon process death */
++void
++vchiq_terminate_service_internal(VCHIQ_SERVICE_T *service)
++{
++ VCHIQ_STATE_T *state = service->state;
++
++ vchiq_log_info(vchiq_core_log_level, "%d: tsi - (%d<->%d)",
++ state->id, service->localport, service->remoteport);
++
++ mark_service_closing(service);
++
++ /* Mark the service for removal by the slot handler */
++ request_poll(state, service, VCHIQ_POLL_REMOVE);
++}
++
++/* Called from the slot handler */
++void
++vchiq_free_service_internal(VCHIQ_SERVICE_T *service)
++{
++ VCHIQ_STATE_T *state = service->state;
++
++ vchiq_log_info(vchiq_core_log_level, "%d: fsi - (%d)",
++ state->id, service->localport);
++
++ switch (service->srvstate) {
++ case VCHIQ_SRVSTATE_OPENING:
++ case VCHIQ_SRVSTATE_CLOSED:
++ case VCHIQ_SRVSTATE_HIDDEN:
++ case VCHIQ_SRVSTATE_LISTENING:
++ case VCHIQ_SRVSTATE_CLOSEWAIT:
++ break;
++ default:
++ vchiq_log_error(vchiq_core_log_level,
++ "%d: fsi - (%d) in state %s",
++ state->id, service->localport,
++ srvstate_names[service->srvstate]);
++ return;
++ }
++
++ vchiq_set_service_state(service, VCHIQ_SRVSTATE_FREE);
++
++ up(&service->remove_event);
++
++ /* Release the initial lock */
++ unlock_service(service);
++}
++
++VCHIQ_STATUS_T
++vchiq_connect_internal(VCHIQ_STATE_T *state, VCHIQ_INSTANCE_T instance)
++{
++ VCHIQ_SERVICE_T *service;
++ int i;
++
++ /* Find all services registered to this client and enable them. */
++ i = 0;
++ while ((service = next_service_by_instance(state, instance,
++ &i)) != NULL) {
++ if (service->srvstate == VCHIQ_SRVSTATE_HIDDEN)
++ vchiq_set_service_state(service,
++ VCHIQ_SRVSTATE_LISTENING);
++ unlock_service(service);
++ }
++
++ if (state->conn_state == VCHIQ_CONNSTATE_DISCONNECTED) {
++ if (queue_message(state, NULL,
++ VCHIQ_MAKE_MSG(VCHIQ_MSG_CONNECT, 0, 0), NULL, 0,
++ 0, 1) == VCHIQ_RETRY)
++ return VCHIQ_RETRY;
++
++ vchiq_set_conn_state(state, VCHIQ_CONNSTATE_CONNECTING);
++ }
++
++ if (state->conn_state == VCHIQ_CONNSTATE_CONNECTING) {
++ if (down_interruptible(&state->connect) != 0)
++ return VCHIQ_RETRY;
++
++ vchiq_set_conn_state(state, VCHIQ_CONNSTATE_CONNECTED);
++ up(&state->connect);
++ }
++
++ return VCHIQ_SUCCESS;
++}
++
++VCHIQ_STATUS_T
++vchiq_shutdown_internal(VCHIQ_STATE_T *state, VCHIQ_INSTANCE_T instance)
++{
++ VCHIQ_SERVICE_T *service;
++ int i;
++
++ /* Find all services registered to this client and enable them. */
++ i = 0;
++ while ((service = next_service_by_instance(state, instance,
++ &i)) != NULL) {
++ (void)vchiq_remove_service(service->handle);
++ unlock_service(service);
++ }
++
++ return VCHIQ_SUCCESS;
++}
++
++VCHIQ_STATUS_T
++vchiq_pause_internal(VCHIQ_STATE_T *state)
++{
++ VCHIQ_STATUS_T status = VCHIQ_SUCCESS;
++
++ switch (state->conn_state) {
++ case VCHIQ_CONNSTATE_CONNECTED:
++ /* Request a pause */
++ vchiq_set_conn_state(state, VCHIQ_CONNSTATE_PAUSING);
++ request_poll(state, NULL, 0);
++ break;
++ default:
++ vchiq_log_error(vchiq_core_log_level,
++ "vchiq_pause_internal in state %s\n",
++ conn_state_names[state->conn_state]);
++ status = VCHIQ_ERROR;
++ VCHIQ_STATS_INC(state, error_count);
++ break;
++ }
++
++ return status;
++}
++
++VCHIQ_STATUS_T
++vchiq_resume_internal(VCHIQ_STATE_T *state)
++{
++ VCHIQ_STATUS_T status = VCHIQ_SUCCESS;
++
++ if (state->conn_state == VCHIQ_CONNSTATE_PAUSED) {
++ vchiq_set_conn_state(state, VCHIQ_CONNSTATE_RESUMING);
++ request_poll(state, NULL, 0);
++ } else {
++ status = VCHIQ_ERROR;
++ VCHIQ_STATS_INC(state, error_count);
++ }
++
++ return status;
++}
++
++VCHIQ_STATUS_T
++vchiq_close_service(VCHIQ_SERVICE_HANDLE_T handle)
++{
++ /* Unregister the service */
++ VCHIQ_SERVICE_T *service = find_service_by_handle(handle);
++ VCHIQ_STATUS_T status = VCHIQ_SUCCESS;
++
++ if (!service)
++ return VCHIQ_ERROR;
++
++ vchiq_log_info(vchiq_core_log_level,
++ "%d: close_service:%d",
++ service->state->id, service->localport);
++
++ if ((service->srvstate == VCHIQ_SRVSTATE_FREE) ||
++ (service->srvstate == VCHIQ_SRVSTATE_LISTENING) ||
++ (service->srvstate == VCHIQ_SRVSTATE_HIDDEN)) {
++ unlock_service(service);
++ return VCHIQ_ERROR;
++ }
++
++ mark_service_closing(service);
++
++ if (current == service->state->slot_handler_thread) {
++ status = vchiq_close_service_internal(service,
++ 0/*!close_recvd*/);
++ BUG_ON(status == VCHIQ_RETRY);
++ } else {
++ /* Mark the service for termination by the slot handler */
++ request_poll(service->state, service, VCHIQ_POLL_TERMINATE);
++ }
++
++ while (1) {
++ if (down_interruptible(&service->remove_event) != 0) {
++ status = VCHIQ_RETRY;
++ break;
++ }
++
++ if ((service->srvstate == VCHIQ_SRVSTATE_FREE) ||
++ (service->srvstate == VCHIQ_SRVSTATE_LISTENING) ||
++ (service->srvstate == VCHIQ_SRVSTATE_OPEN))
++ break;
++
++ vchiq_log_warning(vchiq_core_log_level,
++ "%d: close_service:%d - waiting in state %s",
++ service->state->id, service->localport,
++ srvstate_names[service->srvstate]);
++ }
++
++ if ((status == VCHIQ_SUCCESS) &&
++ (service->srvstate != VCHIQ_SRVSTATE_FREE) &&
++ (service->srvstate != VCHIQ_SRVSTATE_LISTENING))
++ status = VCHIQ_ERROR;
++
++ unlock_service(service);
++
++ return status;
++}
++
++VCHIQ_STATUS_T
++vchiq_remove_service(VCHIQ_SERVICE_HANDLE_T handle)
++{
++ /* Unregister the service */
++ VCHIQ_SERVICE_T *service = find_service_by_handle(handle);
++ VCHIQ_STATUS_T status = VCHIQ_SUCCESS;
++
++ if (!service)
++ return VCHIQ_ERROR;
++
++ vchiq_log_info(vchiq_core_log_level,
++ "%d: remove_service:%d",
++ service->state->id, service->localport);
++
++ if (service->srvstate == VCHIQ_SRVSTATE_FREE) {
++ unlock_service(service);
++ return VCHIQ_ERROR;
++ }
++
++ mark_service_closing(service);
++
++ if ((service->srvstate == VCHIQ_SRVSTATE_HIDDEN) ||
++ (current == service->state->slot_handler_thread)) {
++ /* Make it look like a client, because it must be removed and
++ not left in the LISTENING state. */
++ service->public_fourcc = VCHIQ_FOURCC_INVALID;
++
++ status = vchiq_close_service_internal(service,
++ 0/*!close_recvd*/);
++ BUG_ON(status == VCHIQ_RETRY);
++ } else {
++ /* Mark the service for removal by the slot handler */
++ request_poll(service->state, service, VCHIQ_POLL_REMOVE);
++ }
++ while (1) {
++ if (down_interruptible(&service->remove_event) != 0) {
++ status = VCHIQ_RETRY;
++ break;
++ }
++
++ if ((service->srvstate == VCHIQ_SRVSTATE_FREE) ||
++ (service->srvstate == VCHIQ_SRVSTATE_OPEN))
++ break;
++
++ vchiq_log_warning(vchiq_core_log_level,
++ "%d: remove_service:%d - waiting in state %s",
++ service->state->id, service->localport,
++ srvstate_names[service->srvstate]);
++ }
++
++ if ((status == VCHIQ_SUCCESS) &&
++ (service->srvstate != VCHIQ_SRVSTATE_FREE))
++ status = VCHIQ_ERROR;
++
++ unlock_service(service);
++
++ return status;
++}
++
++
++/* This function may be called by kernel threads or user threads.
++ * User threads may receive VCHIQ_RETRY to indicate that a signal has been
++ * received and the call should be retried after being returned to user
++ * context.
++ * When called in blocking mode, the userdata field points to a bulk_waiter
++ * structure.
++ */
++VCHIQ_STATUS_T
++vchiq_bulk_transfer(VCHIQ_SERVICE_HANDLE_T handle,
++ VCHI_MEM_HANDLE_T memhandle, void *offset, int size, void *userdata,
++ VCHIQ_BULK_MODE_T mode, VCHIQ_BULK_DIR_T dir)
++{
++ VCHIQ_SERVICE_T *service = find_service_by_handle(handle);
++ VCHIQ_BULK_QUEUE_T *queue;
++ VCHIQ_BULK_T *bulk;
++ VCHIQ_STATE_T *state;
++ struct bulk_waiter *bulk_waiter = NULL;
++ const char dir_char = (dir == VCHIQ_BULK_TRANSMIT) ? 't' : 'r';
++ const int dir_msgtype = (dir == VCHIQ_BULK_TRANSMIT) ?
++ VCHIQ_MSG_BULK_TX : VCHIQ_MSG_BULK_RX;
++ VCHIQ_STATUS_T status = VCHIQ_ERROR;
++
++ if (!service ||
++ (service->srvstate != VCHIQ_SRVSTATE_OPEN) ||
++ ((memhandle == VCHI_MEM_HANDLE_INVALID) && (offset == NULL)) ||
++ (vchiq_check_service(service) != VCHIQ_SUCCESS))
++ goto error_exit;
++
++ switch (mode) {
++ case VCHIQ_BULK_MODE_NOCALLBACK:
++ case VCHIQ_BULK_MODE_CALLBACK:
++ break;
++ case VCHIQ_BULK_MODE_BLOCKING:
++ bulk_waiter = (struct bulk_waiter *)userdata;
++ sema_init(&bulk_waiter->event, 0);
++ bulk_waiter->actual = 0;
++ bulk_waiter->bulk = NULL;
++ break;
++ case VCHIQ_BULK_MODE_WAITING:
++ bulk_waiter = (struct bulk_waiter *)userdata;
++ bulk = bulk_waiter->bulk;
++ goto waiting;
++ default:
++ goto error_exit;
++ }
++
++ state = service->state;
++
++ queue = (dir == VCHIQ_BULK_TRANSMIT) ?
++ &service->bulk_tx : &service->bulk_rx;
++
++ if (mutex_lock_interruptible(&service->bulk_mutex) != 0) {
++ status = VCHIQ_RETRY;
++ goto error_exit;
++ }
++
++ if (queue->local_insert == queue->remove + VCHIQ_NUM_SERVICE_BULKS) {
++ VCHIQ_SERVICE_STATS_INC(service, bulk_stalls);
++ do {
++ mutex_unlock(&service->bulk_mutex);
++ if (down_interruptible(&service->bulk_remove_event)
++ != 0) {
++ status = VCHIQ_RETRY;
++ goto error_exit;
++ }
++ if (mutex_lock_interruptible(&service->bulk_mutex)
++ != 0) {
++ status = VCHIQ_RETRY;
++ goto error_exit;
++ }
++ } while (queue->local_insert == queue->remove +
++ VCHIQ_NUM_SERVICE_BULKS);
++ }
++
++ bulk = &queue->bulks[BULK_INDEX(queue->local_insert)];
++
++ bulk->mode = mode;
++ bulk->dir = dir;
++ bulk->userdata = userdata;
++ bulk->size = size;
++ bulk->actual = VCHIQ_BULK_ACTUAL_ABORTED;
++
++ if (vchiq_prepare_bulk_data(bulk, memhandle, offset, size, dir) !=
++ VCHIQ_SUCCESS)
++ goto unlock_error_exit;
++
++ wmb();
++
++ vchiq_log_info(vchiq_core_log_level,
++ "%d: bt (%d->%d) %cx %x@%x %x",
++ state->id,
++ service->localport, service->remoteport, dir_char,
++ size, (unsigned int)bulk->data, (unsigned int)userdata);
++
++ if (state->is_master) {
++ queue->local_insert++;
++ if (resolve_bulks(service, queue))
++ request_poll(state, service,
++ (dir == VCHIQ_BULK_TRANSMIT) ?
++ VCHIQ_POLL_TXNOTIFY : VCHIQ_POLL_RXNOTIFY);
++ } else {
++ int payload[2] = { (int)bulk->data, bulk->size };
++ VCHIQ_ELEMENT_T element = { payload, sizeof(payload) };
++
++ status = queue_message(state, NULL,
++ VCHIQ_MAKE_MSG(dir_msgtype,
++ service->localport, service->remoteport),
++ &element, 1, sizeof(payload), 1);
++ if (status != VCHIQ_SUCCESS) {
++ vchiq_complete_bulk(bulk);
++ goto unlock_error_exit;
++ }
++ queue->local_insert++;
++ }
++
++ mutex_unlock(&service->bulk_mutex);
++
++ vchiq_log_trace(vchiq_core_log_level,
++ "%d: bt:%d %cx li=%x ri=%x p=%x",
++ state->id,
++ service->localport, dir_char,
++ queue->local_insert, queue->remote_insert, queue->process);
++
++waiting:
++ unlock_service(service);
++
++ status = VCHIQ_SUCCESS;
++
++ if (bulk_waiter) {
++ bulk_waiter->bulk = bulk;
++ if (down_interruptible(&bulk_waiter->event) != 0)
++ status = VCHIQ_RETRY;
++ else if (bulk_waiter->actual == VCHIQ_BULK_ACTUAL_ABORTED)
++ status = VCHIQ_ERROR;
++ }
++
++ return status;
++
++unlock_error_exit:
++ mutex_unlock(&service->bulk_mutex);
++
++error_exit:
++ if (service)
++ unlock_service(service);
++ return status;
++}
++
++VCHIQ_STATUS_T
++vchiq_queue_message(VCHIQ_SERVICE_HANDLE_T handle,
++ const VCHIQ_ELEMENT_T *elements, unsigned int count)
++{
++ VCHIQ_SERVICE_T *service = find_service_by_handle(handle);
++ VCHIQ_STATUS_T status = VCHIQ_ERROR;
++
++ unsigned int size = 0;
++ unsigned int i;
++
++ if (!service ||
++ (vchiq_check_service(service) != VCHIQ_SUCCESS))
++ goto error_exit;
++
++ for (i = 0; i < (unsigned int)count; i++) {
++ if (elements[i].size) {
++ if (elements[i].data == NULL) {
++ VCHIQ_SERVICE_STATS_INC(service, error_count);
++ goto error_exit;
++ }
++ size += elements[i].size;
++ }
++ }
++
++ if (size > VCHIQ_MAX_MSG_SIZE) {
++ VCHIQ_SERVICE_STATS_INC(service, error_count);
++ goto error_exit;
++ }
++
++ switch (service->srvstate) {
++ case VCHIQ_SRVSTATE_OPEN:
++ status = queue_message(service->state, service,
++ VCHIQ_MAKE_MSG(VCHIQ_MSG_DATA,
++ service->localport,
++ service->remoteport),
++ elements, count, size, 1);
++ break;
++ case VCHIQ_SRVSTATE_OPENSYNC:
++ status = queue_message_sync(service->state, service,
++ VCHIQ_MAKE_MSG(VCHIQ_MSG_DATA,
++ service->localport,
++ service->remoteport),
++ elements, count, size, 1);
++ break;
++ default:
++ status = VCHIQ_ERROR;
++ break;
++ }
++
++error_exit:
++ if (service)
++ unlock_service(service);
++
++ return status;
++}
++
++void
++vchiq_release_message(VCHIQ_SERVICE_HANDLE_T handle, VCHIQ_HEADER_T *header)
++{
++ VCHIQ_SERVICE_T *service = find_service_by_handle(handle);
++ VCHIQ_SHARED_STATE_T *remote;
++ VCHIQ_STATE_T *state;
++ int slot_index;
++
++ if (!service)
++ return;
++
++ state = service->state;
++ remote = state->remote;
++
++ slot_index = SLOT_INDEX_FROM_DATA(state, (void *)header);
++
++ if ((slot_index >= remote->slot_first) &&
++ (slot_index <= remote->slot_last)) {
++ int msgid = header->msgid;
++ if (msgid & VCHIQ_MSGID_CLAIMED) {
++ VCHIQ_SLOT_INFO_T *slot_info =
++ SLOT_INFO_FROM_INDEX(state, slot_index);
++
++ release_slot(state, slot_info, header, service);
++ }
++ } else if (slot_index == remote->slot_sync)
++ release_message_sync(state, header);
++
++ unlock_service(service);
++}
++
++static void
++release_message_sync(VCHIQ_STATE_T *state, VCHIQ_HEADER_T *header)
++{
++ header->msgid = VCHIQ_MSGID_PADDING;
++ wmb();
++ remote_event_signal(&state->remote->sync_release);
++}
++
++VCHIQ_STATUS_T
++vchiq_get_peer_version(VCHIQ_SERVICE_HANDLE_T handle, short *peer_version)
++{
++ VCHIQ_STATUS_T status = VCHIQ_ERROR;
++ VCHIQ_SERVICE_T *service = find_service_by_handle(handle);
++
++ if (!service ||
++ (vchiq_check_service(service) != VCHIQ_SUCCESS) ||
++ !peer_version)
++ goto exit;
++ *peer_version = service->peer_version;
++ status = VCHIQ_SUCCESS;
++
++exit:
++ if (service)
++ unlock_service(service);
++ return status;
++}
++
++VCHIQ_STATUS_T
++vchiq_get_config(VCHIQ_INSTANCE_T instance,
++ int config_size, VCHIQ_CONFIG_T *pconfig)
++{
++ VCHIQ_CONFIG_T config;
++
++ (void)instance;
++
++ config.max_msg_size = VCHIQ_MAX_MSG_SIZE;
++ config.bulk_threshold = VCHIQ_MAX_MSG_SIZE;
++ config.max_outstanding_bulks = VCHIQ_NUM_SERVICE_BULKS;
++ config.max_services = VCHIQ_MAX_SERVICES;
++ config.version = VCHIQ_VERSION;
++ config.version_min = VCHIQ_VERSION_MIN;
++
++ if (config_size > sizeof(VCHIQ_CONFIG_T))
++ return VCHIQ_ERROR;
++
++ memcpy(pconfig, &config,
++ min(config_size, (int)(sizeof(VCHIQ_CONFIG_T))));
++
++ return VCHIQ_SUCCESS;
++}
++
++VCHIQ_STATUS_T
++vchiq_set_service_option(VCHIQ_SERVICE_HANDLE_T handle,
++ VCHIQ_SERVICE_OPTION_T option, int value)
++{
++ VCHIQ_SERVICE_T *service = find_service_by_handle(handle);
++ VCHIQ_STATUS_T status = VCHIQ_ERROR;
++
++ if (service) {
++ switch (option) {
++ case VCHIQ_SERVICE_OPTION_AUTOCLOSE:
++ service->auto_close = value;
++ status = VCHIQ_SUCCESS;
++ break;
++
++ case VCHIQ_SERVICE_OPTION_SLOT_QUOTA: {
++ VCHIQ_SERVICE_QUOTA_T *service_quota =
++ &service->state->service_quotas[
++ service->localport];
++ if (value == 0)
++ value = service->state->default_slot_quota;
++ if ((value >= service_quota->slot_use_count) &&
++ (value < (unsigned short)~0)) {
++ service_quota->slot_quota = value;
++ if ((value >= service_quota->slot_use_count) &&
++ (service_quota->message_quota >=
++ service_quota->message_use_count)) {
++ /* Signal the service that it may have
++ ** dropped below its quota */
++ up(&service_quota->quota_event);
++ }
++ status = VCHIQ_SUCCESS;
++ }
++ } break;
++
++ case VCHIQ_SERVICE_OPTION_MESSAGE_QUOTA: {
++ VCHIQ_SERVICE_QUOTA_T *service_quota =
++ &service->state->service_quotas[
++ service->localport];
++ if (value == 0)
++ value = service->state->default_message_quota;
++ if ((value >= service_quota->message_use_count) &&
++ (value < (unsigned short)~0)) {
++ service_quota->message_quota = value;
++ if ((value >=
++ service_quota->message_use_count) &&
++ (service_quota->slot_quota >=
++ service_quota->slot_use_count))
++ /* Signal the service that it may have
++ ** dropped below its quota */
++ up(&service_quota->quota_event);
++ status = VCHIQ_SUCCESS;
++ }
++ } break;
++
++ case VCHIQ_SERVICE_OPTION_SYNCHRONOUS:
++ if ((service->srvstate == VCHIQ_SRVSTATE_HIDDEN) ||
++ (service->srvstate ==
++ VCHIQ_SRVSTATE_LISTENING)) {
++ service->sync = value;
++ status = VCHIQ_SUCCESS;
++ }
++ break;
++
++ default:
++ break;
++ }
++ unlock_service(service);
++ }
++
++ return status;
++}
++
++void
++vchiq_dump_shared_state(void *dump_context, VCHIQ_STATE_T *state,
++ VCHIQ_SHARED_STATE_T *shared, const char *label)
++{
++ static const char *const debug_names[] = {
++ "<entries>",
++ "SLOT_HANDLER_COUNT",
++ "SLOT_HANDLER_LINE",
++ "PARSE_LINE",
++ "PARSE_HEADER",
++ "PARSE_MSGID",
++ "AWAIT_COMPLETION_LINE",
++ "DEQUEUE_MESSAGE_LINE",
++ "SERVICE_CALLBACK_LINE",
++ "MSG_QUEUE_FULL_COUNT",
++ "COMPLETION_QUEUE_FULL_COUNT"
++ };
++ int i;
++
++ char buf[80];
++ int len;
++ len = snprintf(buf, sizeof(buf),
++ " %s: slots %d-%d tx_pos=%x recycle=%x",
++ label, shared->slot_first, shared->slot_last,
++ shared->tx_pos, shared->slot_queue_recycle);
++ vchiq_dump(dump_context, buf, len + 1);
++
++ len = snprintf(buf, sizeof(buf),
++ " Slots claimed:");
++ vchiq_dump(dump_context, buf, len + 1);
++
++ for (i = shared->slot_first; i <= shared->slot_last; i++) {
++ VCHIQ_SLOT_INFO_T slot_info = *SLOT_INFO_FROM_INDEX(state, i);
++ if (slot_info.use_count != slot_info.release_count) {
++ len = snprintf(buf, sizeof(buf),
++ " %d: %d/%d", i, slot_info.use_count,
++ slot_info.release_count);
++ vchiq_dump(dump_context, buf, len + 1);
++ }
++ }
++
++ for (i = 1; i < shared->debug[DEBUG_ENTRIES]; i++) {
++ len = snprintf(buf, sizeof(buf), " DEBUG: %s = %d(%x)",
++ debug_names[i], shared->debug[i], shared->debug[i]);
++ vchiq_dump(dump_context, buf, len + 1);
++ }
++}
++
++void
++vchiq_dump_state(void *dump_context, VCHIQ_STATE_T *state)
++{
++ char buf[80];
++ int len;
++ int i;
++
++ len = snprintf(buf, sizeof(buf), "State %d: %s", state->id,
++ conn_state_names[state->conn_state]);
++ vchiq_dump(dump_context, buf, len + 1);
++
++ len = snprintf(buf, sizeof(buf),
++ " tx_pos=%x(@%x), rx_pos=%x(@%x)",
++ state->local->tx_pos,
++ (uint32_t)state->tx_data +
++ (state->local_tx_pos & VCHIQ_SLOT_MASK),
++ state->rx_pos,
++ (uint32_t)state->rx_data +
++ (state->rx_pos & VCHIQ_SLOT_MASK));
++ vchiq_dump(dump_context, buf, len + 1);
++
++ len = snprintf(buf, sizeof(buf),
++ " Version: %d (min %d)",
++ VCHIQ_VERSION, VCHIQ_VERSION_MIN);
++ vchiq_dump(dump_context, buf, len + 1);
++
++ if (VCHIQ_ENABLE_STATS) {
++ len = snprintf(buf, sizeof(buf),
++ " Stats: ctrl_tx_count=%d, ctrl_rx_count=%d, "
++ "error_count=%d",
++ state->stats.ctrl_tx_count, state->stats.ctrl_rx_count,
++ state->stats.error_count);
++ vchiq_dump(dump_context, buf, len + 1);
++ }
++
++ len = snprintf(buf, sizeof(buf),
++ " Slots: %d available (%d data), %d recyclable, %d stalls "
++ "(%d data)",
++ ((state->slot_queue_available * VCHIQ_SLOT_SIZE) -
++ state->local_tx_pos) / VCHIQ_SLOT_SIZE,
++ state->data_quota - state->data_use_count,
++ state->local->slot_queue_recycle - state->slot_queue_available,
++ state->stats.slot_stalls, state->stats.data_stalls);
++ vchiq_dump(dump_context, buf, len + 1);
++
++ vchiq_dump_platform_state(dump_context);
++
++ vchiq_dump_shared_state(dump_context, state, state->local, "Local");
++ vchiq_dump_shared_state(dump_context, state, state->remote, "Remote");
++
++ vchiq_dump_platform_instances(dump_context);
++
++ for (i = 0; i < state->unused_service; i++) {
++ VCHIQ_SERVICE_T *service = find_service_by_port(state, i);
++
++ if (service) {
++ vchiq_dump_service_state(dump_context, service);
++ unlock_service(service);
++ }
++ }
++}
++
++void
++vchiq_dump_service_state(void *dump_context, VCHIQ_SERVICE_T *service)
++{
++ char buf[80];
++ int len;
++
++ len = snprintf(buf, sizeof(buf), "Service %d: %s (ref %u)",
++ service->localport, srvstate_names[service->srvstate],
++ service->ref_count - 1); /*Don't include the lock just taken*/
++
++ if (service->srvstate != VCHIQ_SRVSTATE_FREE) {
++ char remoteport[30];
++ VCHIQ_SERVICE_QUOTA_T *service_quota =
++ &service->state->service_quotas[service->localport];
++ int fourcc = service->base.fourcc;
++ int tx_pending, rx_pending;
++ if (service->remoteport != VCHIQ_PORT_FREE) {
++ int len2 = snprintf(remoteport, sizeof(remoteport),
++ "%d", service->remoteport);
++ if (service->public_fourcc != VCHIQ_FOURCC_INVALID)
++ snprintf(remoteport + len2,
++ sizeof(remoteport) - len2,
++ " (client %x)", service->client_id);
++ } else
++ strcpy(remoteport, "n/a");
++
++ len += snprintf(buf + len, sizeof(buf) - len,
++ " '%c%c%c%c' remote %s (msg use %d/%d, slot use %d/%d)",
++ VCHIQ_FOURCC_AS_4CHARS(fourcc),
++ remoteport,
++ service_quota->message_use_count,
++ service_quota->message_quota,
++ service_quota->slot_use_count,
++ service_quota->slot_quota);
++
++ vchiq_dump(dump_context, buf, len + 1);
++
++ tx_pending = service->bulk_tx.local_insert -
++ service->bulk_tx.remote_insert;
++
++ rx_pending = service->bulk_rx.local_insert -
++ service->bulk_rx.remote_insert;
++
++ len = snprintf(buf, sizeof(buf),
++ " Bulk: tx_pending=%d (size %d),"
++ " rx_pending=%d (size %d)",
++ tx_pending,
++ tx_pending ? service->bulk_tx.bulks[
++ BULK_INDEX(service->bulk_tx.remove)].size : 0,
++ rx_pending,
++ rx_pending ? service->bulk_rx.bulks[
++ BULK_INDEX(service->bulk_rx.remove)].size : 0);
++
++ if (VCHIQ_ENABLE_STATS) {
++ vchiq_dump(dump_context, buf, len + 1);
++
++ len = snprintf(buf, sizeof(buf),
++ " Ctrl: tx_count=%d, tx_bytes=%llu, "
++ "rx_count=%d, rx_bytes=%llu",
++ service->stats.ctrl_tx_count,
++ service->stats.ctrl_tx_bytes,
++ service->stats.ctrl_rx_count,
++ service->stats.ctrl_rx_bytes);
++ vchiq_dump(dump_context, buf, len + 1);
++
++ len = snprintf(buf, sizeof(buf),
++ " Bulk: tx_count=%d, tx_bytes=%llu, "
++ "rx_count=%d, rx_bytes=%llu",
++ service->stats.bulk_tx_count,
++ service->stats.bulk_tx_bytes,
++ service->stats.bulk_rx_count,
++ service->stats.bulk_rx_bytes);
++ vchiq_dump(dump_context, buf, len + 1);
++
++ len = snprintf(buf, sizeof(buf),
++ " %d quota stalls, %d slot stalls, "
++ "%d bulk stalls, %d aborted, %d errors",
++ service->stats.quota_stalls,
++ service->stats.slot_stalls,
++ service->stats.bulk_stalls,
++ service->stats.bulk_aborted_count,
++ service->stats.error_count);
++ }
++ }
++
++ vchiq_dump(dump_context, buf, len + 1);
++
++ if (service->srvstate != VCHIQ_SRVSTATE_FREE)
++ vchiq_dump_platform_service_state(dump_context, service);
++}
++
++
++void
++vchiq_loud_error_header(void)
++{
++ vchiq_log_error(vchiq_core_log_level,
++ "============================================================"
++ "================");
++ vchiq_log_error(vchiq_core_log_level,
++ "============================================================"
++ "================");
++ vchiq_log_error(vchiq_core_log_level, "=====");
++}
++
++void
++vchiq_loud_error_footer(void)
++{
++ vchiq_log_error(vchiq_core_log_level, "=====");
++ vchiq_log_error(vchiq_core_log_level,
++ "============================================================"
++ "================");
++ vchiq_log_error(vchiq_core_log_level,
++ "============================================================"
++ "================");
++}
++
++
++VCHIQ_STATUS_T vchiq_send_remote_use(VCHIQ_STATE_T *state)
++{
++ VCHIQ_STATUS_T status = VCHIQ_RETRY;
++ if (state->conn_state != VCHIQ_CONNSTATE_DISCONNECTED)
++ status = queue_message(state, NULL,
++ VCHIQ_MAKE_MSG(VCHIQ_MSG_REMOTE_USE, 0, 0),
++ NULL, 0, 0, 0);
++ return status;
++}
++
++VCHIQ_STATUS_T vchiq_send_remote_release(VCHIQ_STATE_T *state)
++{
++ VCHIQ_STATUS_T status = VCHIQ_RETRY;
++ if (state->conn_state != VCHIQ_CONNSTATE_DISCONNECTED)
++ status = queue_message(state, NULL,
++ VCHIQ_MAKE_MSG(VCHIQ_MSG_REMOTE_RELEASE, 0, 0),
++ NULL, 0, 0, 0);
++ return status;
++}
++
++VCHIQ_STATUS_T vchiq_send_remote_use_active(VCHIQ_STATE_T *state)
++{
++ VCHIQ_STATUS_T status = VCHIQ_RETRY;
++ if (state->conn_state != VCHIQ_CONNSTATE_DISCONNECTED)
++ status = queue_message(state, NULL,
++ VCHIQ_MAKE_MSG(VCHIQ_MSG_REMOTE_USE_ACTIVE, 0, 0),
++ NULL, 0, 0, 0);
++ return status;
++}
++
++void vchiq_log_dump_mem(const char *label, uint32_t addr, const void *voidMem,
++ size_t numBytes)
++{
++ const uint8_t *mem = (const uint8_t *)voidMem;
++ size_t offset;
++ char lineBuf[100];
++ char *s;
++
++ while (numBytes > 0) {
++ s = lineBuf;
++
++ for (offset = 0; offset < 16; offset++) {
++ if (offset < numBytes)
++ s += snprintf(s, 4, "%02x ", mem[offset]);
++ else
++ s += snprintf(s, 4, " ");
++ }
++
++ for (offset = 0; offset < 16; offset++) {
++ if (offset < numBytes) {
++ uint8_t ch = mem[offset];
++
++ if ((ch < ' ') || (ch > '~'))
++ ch = '.';
++ *s++ = (char)ch;
++ }
++ }
++ *s++ = '\0';
++
++ if ((label != NULL) && (*label != '\0'))
++ vchiq_log_trace(VCHIQ_LOG_TRACE,
++ "%s: %08x: %s", label, addr, lineBuf);
++ else
++ vchiq_log_trace(VCHIQ_LOG_TRACE,
++ "%08x: %s", addr, lineBuf);
++
++ addr += 16;
++ mem += 16;
++ if (numBytes > 16)
++ numBytes -= 16;
++ else
++ numBytes = 0;
++ }
++}
+diff -urN linux-3.10/drivers/misc/vc04_services/interface/vchiq_arm/vchiq_core.h linux-rpi-3.10.y/drivers/misc/vc04_services/interface/vchiq_arm/vchiq_core.h
+--- linux-3.10/drivers/misc/vc04_services/interface/vchiq_arm/vchiq_core.h 1970-01-01 01:00:00.000000000 +0100
++++ linux-rpi-3.10.y/drivers/misc/vc04_services/interface/vchiq_arm/vchiq_core.h 2013-07-06 15:25:50.000000000 +0100
+@@ -0,0 +1,703 @@
++/**
++ * Copyright (c) 2010-2012 Broadcom. All rights reserved.
++ *
++ * Redistribution and use in source and binary forms, with or without
++ * modification, are permitted provided that the following conditions
++ * are met:
++ * 1. Redistributions of source code must retain the above copyright
++ * notice, this list of conditions, and the following disclaimer,
++ * without modification.
++ * 2. Redistributions in binary form must reproduce the above copyright
++ * notice, this list of conditions and the following disclaimer in the
++ * documentation and/or other materials provided with the distribution.
++ * 3. The names of the above-listed copyright holders may not be used
++ * to endorse or promote products derived from this software without
++ * specific prior written permission.
++ *
++ * ALTERNATIVELY, this software may be distributed under the terms of the
++ * GNU General Public License ("GPL") version 2, as published by the Free
++ * Software Foundation.
++ *
++ * THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS
++ * IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO,
++ * THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR
++ * PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT OWNER OR
++ * CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL,
++ * EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO,
++ * PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR
++ * PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF
++ * LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING
++ * NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS
++ * SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
++ */
++
++#ifndef VCHIQ_CORE_H
++#define VCHIQ_CORE_H
++
++#include <linux/mutex.h>
++#include <linux/semaphore.h>
++#include <linux/kthread.h>
++
++#include "vchiq_cfg.h"
++
++#include "vchiq.h"
++
++/* Run time control of log level, based on KERN_XXX level. */
++#define VCHIQ_LOG_DEFAULT 4
++#define VCHIQ_LOG_ERROR 3
++#define VCHIQ_LOG_WARNING 4
++#define VCHIQ_LOG_INFO 6
++#define VCHIQ_LOG_TRACE 7
++
++#define VCHIQ_LOG_PREFIX KERN_INFO "vchiq: "
++
++#ifndef vchiq_log_error
++#define vchiq_log_error(cat, fmt, ...) \
++ do { if (cat >= VCHIQ_LOG_ERROR) \
++ printk(VCHIQ_LOG_PREFIX fmt "\n", ##__VA_ARGS__); } while (0)
++#endif
++#ifndef vchiq_log_warning
++#define vchiq_log_warning(cat, fmt, ...) \
++ do { if (cat >= VCHIQ_LOG_WARNING) \
++ printk(VCHIQ_LOG_PREFIX fmt "\n", ##__VA_ARGS__); } while (0)
++#endif
++#ifndef vchiq_log_info
++#define vchiq_log_info(cat, fmt, ...) \
++ do { if (cat >= VCHIQ_LOG_INFO) \
++ printk(VCHIQ_LOG_PREFIX fmt "\n", ##__VA_ARGS__); } while (0)
++#endif
++#ifndef vchiq_log_trace
++#define vchiq_log_trace(cat, fmt, ...) \
++ do { if (cat >= VCHIQ_LOG_TRACE) \
++ printk(VCHIQ_LOG_PREFIX fmt "\n", ##__VA_ARGS__); } while (0)
++#endif
++
++#define vchiq_loud_error(...) \
++ vchiq_log_error(vchiq_core_log_level, "===== " __VA_ARGS__)
++
++#ifndef vchiq_static_assert
++#define vchiq_static_assert(cond) __attribute__((unused)) \
++ extern int vchiq_static_assert[(cond) ? 1 : -1]
++#endif
++
++#define IS_POW2(x) (x && ((x & (x - 1)) == 0))
++
++/* Ensure that the slot size and maximum number of slots are powers of 2 */
++vchiq_static_assert(IS_POW2(VCHIQ_SLOT_SIZE));
++vchiq_static_assert(IS_POW2(VCHIQ_MAX_SLOTS));
++vchiq_static_assert(IS_POW2(VCHIQ_MAX_SLOTS_PER_SIDE));
++
++#define VCHIQ_SLOT_MASK (VCHIQ_SLOT_SIZE - 1)
++#define VCHIQ_SLOT_QUEUE_MASK (VCHIQ_MAX_SLOTS_PER_SIDE - 1)
++#define VCHIQ_SLOT_ZERO_SLOTS ((sizeof(VCHIQ_SLOT_ZERO_T) + \
++ VCHIQ_SLOT_SIZE - 1) / VCHIQ_SLOT_SIZE)
++
++#define VCHIQ_MSG_PADDING 0 /* - */
++#define VCHIQ_MSG_CONNECT 1 /* - */
++#define VCHIQ_MSG_OPEN 2 /* + (srcport, -), fourcc, client_id */
++#define VCHIQ_MSG_OPENACK 3 /* + (srcport, dstport) */
++#define VCHIQ_MSG_CLOSE 4 /* + (srcport, dstport) */
++#define VCHIQ_MSG_DATA 5 /* + (srcport, dstport) */
++#define VCHIQ_MSG_BULK_RX 6 /* + (srcport, dstport), data, size */
++#define VCHIQ_MSG_BULK_TX 7 /* + (srcport, dstport), data, size */
++#define VCHIQ_MSG_BULK_RX_DONE 8 /* + (srcport, dstport), actual */
++#define VCHIQ_MSG_BULK_TX_DONE 9 /* + (srcport, dstport), actual */
++#define VCHIQ_MSG_PAUSE 10 /* - */
++#define VCHIQ_MSG_RESUME 11 /* - */
++#define VCHIQ_MSG_REMOTE_USE 12 /* - */
++#define VCHIQ_MSG_REMOTE_RELEASE 13 /* - */
++#define VCHIQ_MSG_REMOTE_USE_ACTIVE 14 /* - */
++
++#define VCHIQ_PORT_MAX (VCHIQ_MAX_SERVICES - 1)
++#define VCHIQ_PORT_FREE 0x1000
++#define VCHIQ_PORT_IS_VALID(port) (port < VCHIQ_PORT_FREE)
++#define VCHIQ_MAKE_MSG(type, srcport, dstport) \
++ ((type<<24) | (srcport<<12) | (dstport<<0))
++#define VCHIQ_MSG_TYPE(msgid) ((unsigned int)msgid >> 24)
++#define VCHIQ_MSG_SRCPORT(msgid) \
++ (unsigned short)(((unsigned int)msgid >> 12) & 0xfff)
++#define VCHIQ_MSG_DSTPORT(msgid) \
++ ((unsigned short)msgid & 0xfff)
++
++#define VCHIQ_FOURCC_AS_4CHARS(fourcc) \
++ ((fourcc) >> 24) & 0xff, \
++ ((fourcc) >> 16) & 0xff, \
++ ((fourcc) >> 8) & 0xff, \
++ (fourcc) & 0xff
++
++/* Ensure the fields are wide enough */
++vchiq_static_assert(VCHIQ_MSG_SRCPORT(VCHIQ_MAKE_MSG(0, 0, VCHIQ_PORT_MAX))
++ == 0);
++vchiq_static_assert(VCHIQ_MSG_TYPE(VCHIQ_MAKE_MSG(0, VCHIQ_PORT_MAX, 0)) == 0);
++vchiq_static_assert((unsigned int)VCHIQ_PORT_MAX <
++ (unsigned int)VCHIQ_PORT_FREE);
++
++#define VCHIQ_MSGID_PADDING VCHIQ_MAKE_MSG(VCHIQ_MSG_PADDING, 0, 0)
++#define VCHIQ_MSGID_CLAIMED 0x40000000
++
++#define VCHIQ_FOURCC_INVALID 0x00000000
++#define VCHIQ_FOURCC_IS_LEGAL(fourcc) (fourcc != VCHIQ_FOURCC_INVALID)
++
++#define VCHIQ_BULK_ACTUAL_ABORTED -1
++
++typedef uint32_t BITSET_T;
++
++vchiq_static_assert((sizeof(BITSET_T) * 8) == 32);
++
++#define BITSET_SIZE(b) ((b + 31) >> 5)
++#define BITSET_WORD(b) (b >> 5)
++#define BITSET_BIT(b) (1 << (b & 31))
++#define BITSET_ZERO(bs) memset(bs, 0, sizeof(bs))
++#define BITSET_IS_SET(bs, b) (bs[BITSET_WORD(b)] & BITSET_BIT(b))
++#define BITSET_SET(bs, b) (bs[BITSET_WORD(b)] |= BITSET_BIT(b))
++#define BITSET_CLR(bs, b) (bs[BITSET_WORD(b)] &= ~BITSET_BIT(b))
++
++#if VCHIQ_ENABLE_STATS
++#define VCHIQ_STATS_INC(state, stat) (state->stats. stat++)
++#define VCHIQ_SERVICE_STATS_INC(service, stat) (service->stats. stat++)
++#define VCHIQ_SERVICE_STATS_ADD(service, stat, addend) \
++ (service->stats. stat += addend)
++#else
++#define VCHIQ_STATS_INC(state, stat) ((void)0)
++#define VCHIQ_SERVICE_STATS_INC(service, stat) ((void)0)
++#define VCHIQ_SERVICE_STATS_ADD(service, stat, addend) ((void)0)
++#endif
++
++enum {
++ DEBUG_ENTRIES,
++#if VCHIQ_ENABLE_DEBUG
++ DEBUG_SLOT_HANDLER_COUNT,
++ DEBUG_SLOT_HANDLER_LINE,
++ DEBUG_PARSE_LINE,
++ DEBUG_PARSE_HEADER,
++ DEBUG_PARSE_MSGID,
++ DEBUG_AWAIT_COMPLETION_LINE,
++ DEBUG_DEQUEUE_MESSAGE_LINE,
++ DEBUG_SERVICE_CALLBACK_LINE,
++ DEBUG_MSG_QUEUE_FULL_COUNT,
++ DEBUG_COMPLETION_QUEUE_FULL_COUNT,
++#endif
++ DEBUG_MAX
++};
++
++#if VCHIQ_ENABLE_DEBUG
++
++#define DEBUG_INITIALISE(local) int *debug_ptr = (local)->debug;
++#define DEBUG_TRACE(d) \
++ do { debug_ptr[DEBUG_ ## d] = __LINE__; dsb(); } while (0)
++#define DEBUG_VALUE(d, v) \
++ do { debug_ptr[DEBUG_ ## d] = (v); dsb(); } while (0)
++#define DEBUG_COUNT(d) \
++ do { debug_ptr[DEBUG_ ## d]++; dsb(); } while (0)
++
++#else /* VCHIQ_ENABLE_DEBUG */
++
++#define DEBUG_INITIALISE(local)
++#define DEBUG_TRACE(d)
++#define DEBUG_VALUE(d, v)
++#define DEBUG_COUNT(d)
++
++#endif /* VCHIQ_ENABLE_DEBUG */
++
++typedef enum {
++ VCHIQ_CONNSTATE_DISCONNECTED,
++ VCHIQ_CONNSTATE_CONNECTING,
++ VCHIQ_CONNSTATE_CONNECTED,
++ VCHIQ_CONNSTATE_PAUSING,
++ VCHIQ_CONNSTATE_PAUSE_SENT,
++ VCHIQ_CONNSTATE_PAUSED,
++ VCHIQ_CONNSTATE_RESUMING,
++ VCHIQ_CONNSTATE_PAUSE_TIMEOUT,
++ VCHIQ_CONNSTATE_RESUME_TIMEOUT
++} VCHIQ_CONNSTATE_T;
++
++enum {
++ VCHIQ_SRVSTATE_FREE,
++ VCHIQ_SRVSTATE_HIDDEN,
++ VCHIQ_SRVSTATE_LISTENING,
++ VCHIQ_SRVSTATE_OPENING,
++ VCHIQ_SRVSTATE_OPEN,
++ VCHIQ_SRVSTATE_OPENSYNC,
++ VCHIQ_SRVSTATE_CLOSESENT,
++ VCHIQ_SRVSTATE_CLOSERECVD,
++ VCHIQ_SRVSTATE_CLOSEWAIT,
++ VCHIQ_SRVSTATE_CLOSED
++};
++
++enum {
++ VCHIQ_POLL_TERMINATE,
++ VCHIQ_POLL_REMOVE,
++ VCHIQ_POLL_TXNOTIFY,
++ VCHIQ_POLL_RXNOTIFY,
++ VCHIQ_POLL_COUNT
++};
++
++typedef enum {
++ VCHIQ_BULK_TRANSMIT,
++ VCHIQ_BULK_RECEIVE
++} VCHIQ_BULK_DIR_T;
++
++typedef struct vchiq_bulk_struct {
++ short mode;
++ short dir;
++ void *userdata;
++ VCHI_MEM_HANDLE_T handle;
++ void *data;
++ int size;
++ void *remote_data;
++ int remote_size;
++ int actual;
++} VCHIQ_BULK_T;
++
++typedef struct vchiq_bulk_queue_struct {
++ int local_insert; /* Where to insert the next local bulk */
++ int remote_insert; /* Where to insert the next remote bulk (master) */
++ int process; /* Bulk to transfer next */
++ int remote_notify; /* Bulk to notify the remote client of next (mstr) */
++ int remove; /* Bulk to notify the local client of, and remove,
++ ** next */
++ VCHIQ_BULK_T bulks[VCHIQ_NUM_SERVICE_BULKS];
++} VCHIQ_BULK_QUEUE_T;
++
++typedef struct remote_event_struct {
++ int armed;
++ int fired;
++ struct semaphore *event;
++} REMOTE_EVENT_T;
++
++typedef struct opaque_platform_state_t *VCHIQ_PLATFORM_STATE_T;
++
++typedef struct vchiq_state_struct VCHIQ_STATE_T;
++
++typedef struct vchiq_slot_struct {
++ char data[VCHIQ_SLOT_SIZE];
++} VCHIQ_SLOT_T;
++
++typedef struct vchiq_slot_info_struct {
++ /* Use two counters rather than one to avoid the need for a mutex. */
++ short use_count;
++ short release_count;
++} VCHIQ_SLOT_INFO_T;
++
++typedef struct vchiq_service_struct {
++ VCHIQ_SERVICE_BASE_T base;
++ VCHIQ_SERVICE_HANDLE_T handle;
++ unsigned int ref_count;
++ int srvstate;
++ unsigned int localport;
++ unsigned int remoteport;
++ int public_fourcc;
++ int client_id;
++ char auto_close;
++ char sync;
++ char closing;
++ atomic_t poll_flags;
++ short version;
++ short version_min;
++ short peer_version;
++
++ VCHIQ_STATE_T *state;
++ VCHIQ_INSTANCE_T instance;
++
++ int service_use_count;
++
++ VCHIQ_BULK_QUEUE_T bulk_tx;
++ VCHIQ_BULK_QUEUE_T bulk_rx;
++
++ struct semaphore remove_event;
++ struct semaphore bulk_remove_event;
++ struct mutex bulk_mutex;
++
++ struct service_stats_struct {
++ int quota_stalls;
++ int slot_stalls;
++ int bulk_stalls;
++ int error_count;
++ int ctrl_tx_count;
++ int ctrl_rx_count;
++ int bulk_tx_count;
++ int bulk_rx_count;
++ int bulk_aborted_count;
++ uint64_t ctrl_tx_bytes;
++ uint64_t ctrl_rx_bytes;
++ uint64_t bulk_tx_bytes;
++ uint64_t bulk_rx_bytes;
++ } stats;
++} VCHIQ_SERVICE_T;
++
++/* The quota information is outside VCHIQ_SERVICE_T so that it can be
++ statically allocated, since for accounting reasons a service's slot
++ usage is carried over between users of the same port number.
++ */
++typedef struct vchiq_service_quota_struct {
++ unsigned short slot_quota;
++ unsigned short slot_use_count;
++ unsigned short message_quota;
++ unsigned short message_use_count;
++ struct semaphore quota_event;
++ int previous_tx_index;
++} VCHIQ_SERVICE_QUOTA_T;
++
++typedef struct vchiq_shared_state_struct {
++
++ /* A non-zero value here indicates that the content is valid. */
++ int initialised;
++
++ /* The first and last (inclusive) slots allocated to the owner. */
++ int slot_first;
++ int slot_last;
++
++ /* The slot allocated to synchronous messages from the owner. */
++ int slot_sync;
++
++ /* Signalling this event indicates that owner's slot handler thread
++ ** should run. */
++ REMOTE_EVENT_T trigger;
++
++ /* Indicates the byte position within the stream where the next message
++ ** will be written. The least significant bits are an index into the
++ ** slot. The next bits are the index of the slot in slot_queue. */
++ int tx_pos;
++
++ /* This event should be signalled when a slot is recycled. */
++ REMOTE_EVENT_T recycle;
++
++ /* The slot_queue index where the next recycled slot will be written. */
++ int slot_queue_recycle;
++
++ /* This event should be signalled when a synchronous message is sent. */
++ REMOTE_EVENT_T sync_trigger;
++
++ /* This event should be signalled when a synchronous message has been
++ ** released. */
++ REMOTE_EVENT_T sync_release;
++
++ /* A circular buffer of slot indexes. */
++ int slot_queue[VCHIQ_MAX_SLOTS_PER_SIDE];
++
++ /* Debugging state */
++ int debug[DEBUG_MAX];
++} VCHIQ_SHARED_STATE_T;
++
++typedef struct vchiq_slot_zero_struct {
++ int magic;
++ short version;
++ short version_min;
++ int slot_zero_size;
++ int slot_size;
++ int max_slots;
++ int max_slots_per_side;
++ int platform_data[2];
++ VCHIQ_SHARED_STATE_T master;
++ VCHIQ_SHARED_STATE_T slave;
++ VCHIQ_SLOT_INFO_T slots[VCHIQ_MAX_SLOTS];
++} VCHIQ_SLOT_ZERO_T;
++
++struct vchiq_state_struct {
++ int id;
++ int initialised;
++ VCHIQ_CONNSTATE_T conn_state;
++ int is_master;
++
++ VCHIQ_SHARED_STATE_T *local;
++ VCHIQ_SHARED_STATE_T *remote;
++ VCHIQ_SLOT_T *slot_data;
++
++ unsigned short default_slot_quota;
++ unsigned short default_message_quota;
++
++ /* Event indicating connect message received */
++ struct semaphore connect;
++
++ /* Mutex protecting services */
++ struct mutex mutex;
++ VCHIQ_INSTANCE_T *instance;
++
++ /* Processes incoming messages */
++ struct task_struct *slot_handler_thread;
++
++ /* Processes recycled slots */
++ struct task_struct *recycle_thread;
++
++ /* Processes synchronous messages */
++ struct task_struct *sync_thread;
++
++ /* Local implementation of the trigger remote event */
++ struct semaphore trigger_event;
++
++ /* Local implementation of the recycle remote event */
++ struct semaphore recycle_event;
++
++ /* Local implementation of the sync trigger remote event */
++ struct semaphore sync_trigger_event;
++
++ /* Local implementation of the sync release remote event */
++ struct semaphore sync_release_event;
++
++ char *tx_data;
++ char *rx_data;
++ VCHIQ_SLOT_INFO_T *rx_info;
++
++ struct mutex slot_mutex;
++
++ struct mutex recycle_mutex;
++
++ struct mutex sync_mutex;
++
++ struct mutex bulk_transfer_mutex;
++
++ /* Indicates the byte position within the stream from where the next
++ ** message will be read. The least significant bits are an index into
++ ** the slot.The next bits are the index of the slot in
++ ** remote->slot_queue. */
++ int rx_pos;
++
++ /* A cached copy of local->tx_pos. Only write to local->tx_pos, and read
++ from remote->tx_pos. */
++ int local_tx_pos;
++
++ /* The slot_queue index of the slot to become available next. */
++ int slot_queue_available;
++
++ /* A flag to indicate if any poll has been requested */
++ int poll_needed;
++
++ /* Ths index of the previous slot used for data messages. */
++ int previous_data_index;
++
++ /* The number of slots occupied by data messages. */
++ unsigned short data_use_count;
++
++ /* The maximum number of slots to be occupied by data messages. */
++ unsigned short data_quota;
++
++ /* An array of bit sets indicating which services must be polled. */
++ atomic_t poll_services[BITSET_SIZE(VCHIQ_MAX_SERVICES)];
++
++ /* The number of the first unused service */
++ int unused_service;
++
++ /* Signalled when a free slot becomes available. */
++ struct semaphore slot_available_event;
++
++ struct semaphore slot_remove_event;
++
++ /* Signalled when a free data slot becomes available. */
++ struct semaphore data_quota_event;
++
++ /* Incremented when there are bulk transfers which cannot be processed
++ * whilst paused and must be processed on resume */
++ int deferred_bulks;
++
++ struct state_stats_struct {
++ int slot_stalls;
++ int data_stalls;
++ int ctrl_tx_count;
++ int ctrl_rx_count;
++ int error_count;
++ } stats;
++
++ VCHIQ_SERVICE_T * services[VCHIQ_MAX_SERVICES];
++ VCHIQ_SERVICE_QUOTA_T service_quotas[VCHIQ_MAX_SERVICES];
++ VCHIQ_SLOT_INFO_T slot_info[VCHIQ_MAX_SLOTS];
++
++ VCHIQ_PLATFORM_STATE_T platform_state;
++};
++
++struct bulk_waiter {
++ VCHIQ_BULK_T *bulk;
++ struct semaphore event;
++ int actual;
++};
++
++extern spinlock_t bulk_waiter_spinlock;
++
++extern int vchiq_core_log_level;
++extern int vchiq_core_msg_log_level;
++extern int vchiq_sync_log_level;
++
++extern VCHIQ_STATE_T *vchiq_states[VCHIQ_MAX_STATES];
++
++extern const char *
++get_conn_state_name(VCHIQ_CONNSTATE_T conn_state);
++
++extern VCHIQ_SLOT_ZERO_T *
++vchiq_init_slots(void *mem_base, int mem_size);
++
++extern VCHIQ_STATUS_T
++vchiq_init_state(VCHIQ_STATE_T *state, VCHIQ_SLOT_ZERO_T *slot_zero,
++ int is_master);
++
++extern VCHIQ_STATUS_T
++vchiq_connect_internal(VCHIQ_STATE_T *state, VCHIQ_INSTANCE_T instance);
++
++extern VCHIQ_SERVICE_T *
++vchiq_add_service_internal(VCHIQ_STATE_T *state,
++ const VCHIQ_SERVICE_PARAMS_T *params, int srvstate,
++ VCHIQ_INSTANCE_T instance);
++
++extern VCHIQ_STATUS_T
++vchiq_open_service_internal(VCHIQ_SERVICE_T *service, int client_id);
++
++extern VCHIQ_STATUS_T
++vchiq_close_service_internal(VCHIQ_SERVICE_T *service, int close_recvd);
++
++extern void
++vchiq_terminate_service_internal(VCHIQ_SERVICE_T *service);
++
++extern void
++vchiq_free_service_internal(VCHIQ_SERVICE_T *service);
++
++extern VCHIQ_STATUS_T
++vchiq_shutdown_internal(VCHIQ_STATE_T *state, VCHIQ_INSTANCE_T instance);
++
++extern VCHIQ_STATUS_T
++vchiq_pause_internal(VCHIQ_STATE_T *state);
++
++extern VCHIQ_STATUS_T
++vchiq_resume_internal(VCHIQ_STATE_T *state);
++
++extern void
++remote_event_pollall(VCHIQ_STATE_T *state);
++
++extern VCHIQ_STATUS_T
++vchiq_bulk_transfer(VCHIQ_SERVICE_HANDLE_T handle,
++ VCHI_MEM_HANDLE_T memhandle, void *offset, int size, void *userdata,
++ VCHIQ_BULK_MODE_T mode, VCHIQ_BULK_DIR_T dir);
++
++extern void
++vchiq_dump_state(void *dump_context, VCHIQ_STATE_T *state);
++
++extern void
++vchiq_dump_service_state(void *dump_context, VCHIQ_SERVICE_T *service);
++
++extern void
++vchiq_loud_error_header(void);
++
++extern void
++vchiq_loud_error_footer(void);
++
++extern void
++request_poll(VCHIQ_STATE_T *state, VCHIQ_SERVICE_T *service, int poll_type);
++
++static inline VCHIQ_SERVICE_T *
++handle_to_service(VCHIQ_SERVICE_HANDLE_T handle)
++{
++ VCHIQ_STATE_T *state = vchiq_states[(handle / VCHIQ_MAX_SERVICES) &
++ (VCHIQ_MAX_STATES - 1)];
++ if (!state)
++ return NULL;
++
++ return state->services[handle & (VCHIQ_MAX_SERVICES - 1)];
++}
++
++extern VCHIQ_SERVICE_T *
++find_service_by_handle(VCHIQ_SERVICE_HANDLE_T handle);
++
++extern VCHIQ_SERVICE_T *
++find_service_by_port(VCHIQ_STATE_T *state, int localport);
++
++extern VCHIQ_SERVICE_T *
++find_service_for_instance(VCHIQ_INSTANCE_T instance,
++ VCHIQ_SERVICE_HANDLE_T handle);
++
++extern VCHIQ_SERVICE_T *
++next_service_by_instance(VCHIQ_STATE_T *state, VCHIQ_INSTANCE_T instance,
++ int *pidx);
++
++extern void
++lock_service(VCHIQ_SERVICE_T *service);
++
++extern void
++unlock_service(VCHIQ_SERVICE_T *service);
++
++/* The following functions are called from vchiq_core, and external
++** implementations must be provided. */
++
++extern VCHIQ_STATUS_T
++vchiq_prepare_bulk_data(VCHIQ_BULK_T *bulk,
++ VCHI_MEM_HANDLE_T memhandle, void *offset, int size, int dir);
++
++extern void
++vchiq_transfer_bulk(VCHIQ_BULK_T *bulk);
++
++extern void
++vchiq_complete_bulk(VCHIQ_BULK_T *bulk);
++
++extern VCHIQ_STATUS_T
++vchiq_copy_from_user(void *dst, const void *src, int size);
++
++extern void
++remote_event_signal(REMOTE_EVENT_T *event);
++
++void
++vchiq_platform_check_suspend(VCHIQ_STATE_T *state);
++
++extern void
++vchiq_platform_paused(VCHIQ_STATE_T *state);
++
++extern VCHIQ_STATUS_T
++vchiq_platform_resume(VCHIQ_STATE_T *state);
++
++extern void
++vchiq_platform_resumed(VCHIQ_STATE_T *state);
++
++extern void
++vchiq_dump(void *dump_context, const char *str, int len);
++
++extern void
++vchiq_dump_platform_state(void *dump_context);
++
++extern void
++vchiq_dump_platform_instances(void *dump_context);
++
++extern void
++vchiq_dump_platform_service_state(void *dump_context,
++ VCHIQ_SERVICE_T *service);
++
++extern VCHIQ_STATUS_T
++vchiq_use_service_internal(VCHIQ_SERVICE_T *service);
++
++extern VCHIQ_STATUS_T
++vchiq_release_service_internal(VCHIQ_SERVICE_T *service);
++
++extern void
++vchiq_on_remote_use(VCHIQ_STATE_T *state);
++
++extern void
++vchiq_on_remote_release(VCHIQ_STATE_T *state);
++
++extern VCHIQ_STATUS_T
++vchiq_platform_init_state(VCHIQ_STATE_T *state);
++
++extern VCHIQ_STATUS_T
++vchiq_check_service(VCHIQ_SERVICE_T *service);
++
++extern void
++vchiq_on_remote_use_active(VCHIQ_STATE_T *state);
++
++extern VCHIQ_STATUS_T
++vchiq_send_remote_use(VCHIQ_STATE_T *state);
++
++extern VCHIQ_STATUS_T
++vchiq_send_remote_release(VCHIQ_STATE_T *state);
++
++extern VCHIQ_STATUS_T
++vchiq_send_remote_use_active(VCHIQ_STATE_T *state);
++
++extern void
++vchiq_platform_conn_state_changed(VCHIQ_STATE_T *state,
++ VCHIQ_CONNSTATE_T oldstate, VCHIQ_CONNSTATE_T newstate);
++
++extern void
++vchiq_platform_handle_timeout(VCHIQ_STATE_T *state);
++
++extern void
++vchiq_set_conn_state(VCHIQ_STATE_T *state, VCHIQ_CONNSTATE_T newstate);
++
++
++extern void
++vchiq_log_dump_mem(const char *label, uint32_t addr, const void *voidMem,
++ size_t numBytes);
++
++#endif
+diff -urN linux-3.10/drivers/misc/vc04_services/interface/vchiq_arm/vchiq_genversion linux-rpi-3.10.y/drivers/misc/vc04_services/interface/vchiq_arm/vchiq_genversion
+--- linux-3.10/drivers/misc/vc04_services/interface/vchiq_arm/vchiq_genversion 1970-01-01 01:00:00.000000000 +0100
++++ linux-rpi-3.10.y/drivers/misc/vc04_services/interface/vchiq_arm/vchiq_genversion 2013-07-06 15:25:50.000000000 +0100
+@@ -0,0 +1,89 @@
++#!/usr/bin/perl -w
++
++use strict;
++
++#
++# Generate a version from available information
++#
++
++my $prefix = shift @ARGV;
++my $root = shift @ARGV;
++
++
++if ( not defined $root ) {
++ die "usage: $0 prefix root-dir\n";
++}
++
++if ( ! -d $root ) {
++ die "root directory $root not found\n";
++}
++
++my $version = "unknown";
++my $tainted = "";
++
++if ( -d "$root/.git" ) {
++ # attempt to work out git version. only do so
++ # on a linux build host, as cygwin builds are
++ # already slow enough
++
++ if ( -f "/usr/bin/git" || -f "/usr/local/bin/git" ) {
++ if (not open(F, "git --git-dir $root/.git rev-parse --verify HEAD|")) {
++ $version = "no git version";
++ }
++ else {
++ $version = <F>;
++ $version =~ s/[ \r\n]*$//; # chomp may not be enough (cygwin).
++ $version =~ s/^[ \r\n]*//; # chomp may not be enough (cygwin).
++ }
++
++ if (open(G, "git --git-dir $root/.git status --porcelain|")) {
++ $tainted = <G>;
++ $tainted =~ s/[ \r\n]*$//; # chomp may not be enough (cygwin).
++ $tainted =~ s/^[ \r\n]*//; # chomp may not be enough (cygwin).
++ if (length $tainted) {
++ $version = join ' ', $version, "(tainted)";
++ }
++ else {
++ $version = join ' ', $version, "(clean)";
++ }
++ }
++ }
++}
++
++my $hostname = `hostname`;
++$hostname =~ s/[ \r\n]*$//; # chomp may not be enough (cygwin).
++$hostname =~ s/^[ \r\n]*//; # chomp may not be enough (cygwin).
++
++
++print STDERR "Version $version\n";
++print <<EOF;
++#include "${prefix}_build_info.h"
++#include <linux/broadcom/vc_debug_sym.h>
++
++VC_DEBUG_DECLARE_STRING_VAR( ${prefix}_build_hostname, "$hostname" );
++VC_DEBUG_DECLARE_STRING_VAR( ${prefix}_build_version, "$version" );
++VC_DEBUG_DECLARE_STRING_VAR( ${prefix}_build_time, __TIME__ );
++VC_DEBUG_DECLARE_STRING_VAR( ${prefix}_build_date, __DATE__ );
++
++const char *vchiq_get_build_hostname( void )
++{
++ return vchiq_build_hostname;
++}
++
++const char *vchiq_get_build_version( void )
++{
++ return vchiq_build_version;
++}
++
++const char *vchiq_get_build_date( void )
++{
++ return vchiq_build_date;
++}
++
++const char *vchiq_get_build_time( void )
++{
++ return vchiq_build_time;
++}
++EOF
++
++
+diff -urN linux-3.10/drivers/misc/vc04_services/interface/vchiq_arm/vchiq.h linux-rpi-3.10.y/drivers/misc/vc04_services/interface/vchiq_arm/vchiq.h
+--- linux-3.10/drivers/misc/vc04_services/interface/vchiq_arm/vchiq.h 1970-01-01 01:00:00.000000000 +0100
++++ linux-rpi-3.10.y/drivers/misc/vc04_services/interface/vchiq_arm/vchiq.h 2013-07-06 15:25:50.000000000 +0100
+@@ -0,0 +1,41 @@
++/**
++ * Copyright (c) 2010-2012 Broadcom. All rights reserved.
++ *
++ * Redistribution and use in source and binary forms, with or without
++ * modification, are permitted provided that the following conditions
++ * are met:
++ * 1. Redistributions of source code must retain the above copyright
++ * notice, this list of conditions, and the following disclaimer,
++ * without modification.
++ * 2. Redistributions in binary form must reproduce the above copyright
++ * notice, this list of conditions and the following disclaimer in the
++ * documentation and/or other materials provided with the distribution.
++ * 3. The names of the above-listed copyright holders may not be used
++ * to endorse or promote products derived from this software without
++ * specific prior written permission.
++ *
++ * ALTERNATIVELY, this software may be distributed under the terms of the
++ * GNU General Public License ("GPL") version 2, as published by the Free
++ * Software Foundation.
++ *
++ * THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS
++ * IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO,
++ * THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR
++ * PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT OWNER OR
++ * CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL,
++ * EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO,
++ * PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR
++ * PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF
++ * LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING
++ * NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS
++ * SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
++ */
++
++#ifndef VCHIQ_VCHIQ_H
++#define VCHIQ_VCHIQ_H
++
++#include "vchiq_if.h"
++#include "vchiq_util.h"
++
++#endif
++
+diff -urN linux-3.10/drivers/misc/vc04_services/interface/vchiq_arm/vchiq_if.h linux-rpi-3.10.y/drivers/misc/vc04_services/interface/vchiq_arm/vchiq_if.h
+--- linux-3.10/drivers/misc/vc04_services/interface/vchiq_arm/vchiq_if.h 1970-01-01 01:00:00.000000000 +0100
++++ linux-rpi-3.10.y/drivers/misc/vc04_services/interface/vchiq_arm/vchiq_if.h 2013-07-06 15:25:50.000000000 +0100
+@@ -0,0 +1,188 @@
++/**
++ * Copyright (c) 2010-2012 Broadcom. All rights reserved.
++ *
++ * Redistribution and use in source and binary forms, with or without
++ * modification, are permitted provided that the following conditions
++ * are met:
++ * 1. Redistributions of source code must retain the above copyright
++ * notice, this list of conditions, and the following disclaimer,
++ * without modification.
++ * 2. Redistributions in binary form must reproduce the above copyright
++ * notice, this list of conditions and the following disclaimer in the
++ * documentation and/or other materials provided with the distribution.
++ * 3. The names of the above-listed copyright holders may not be used
++ * to endorse or promote products derived from this software without
++ * specific prior written permission.
++ *
++ * ALTERNATIVELY, this software may be distributed under the terms of the
++ * GNU General Public License ("GPL") version 2, as published by the Free
++ * Software Foundation.
++ *
++ * THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS
++ * IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO,
++ * THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR
++ * PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT OWNER OR
++ * CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL,
++ * EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO,
++ * PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR
++ * PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF
++ * LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING
++ * NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS
++ * SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
++ */
++
++#ifndef VCHIQ_IF_H
++#define VCHIQ_IF_H
++
++#include "interface/vchi/vchi_mh.h"
++
++#define VCHIQ_SERVICE_HANDLE_INVALID 0
++
++#define VCHIQ_SLOT_SIZE 4096
++#define VCHIQ_MAX_MSG_SIZE (VCHIQ_SLOT_SIZE - sizeof(VCHIQ_HEADER_T))
++#define VCHIQ_CHANNEL_SIZE VCHIQ_MAX_MSG_SIZE /* For backwards compatibility */
++
++#define VCHIQ_MAKE_FOURCC(x0, x1, x2, x3) \
++ (((x0) << 24) | ((x1) << 16) | ((x2) << 8) | (x3))
++#define VCHIQ_GET_SERVICE_USERDATA(service) vchiq_get_service_userdata(service)
++#define VCHIQ_GET_SERVICE_FOURCC(service) vchiq_get_service_fourcc(service)
++
++typedef enum {
++ VCHIQ_SERVICE_OPENED, /* service, -, - */
++ VCHIQ_SERVICE_CLOSED, /* service, -, - */
++ VCHIQ_MESSAGE_AVAILABLE, /* service, header, - */
++ VCHIQ_BULK_TRANSMIT_DONE, /* service, -, bulk_userdata */
++ VCHIQ_BULK_RECEIVE_DONE, /* service, -, bulk_userdata */
++ VCHIQ_BULK_TRANSMIT_ABORTED, /* service, -, bulk_userdata */
++ VCHIQ_BULK_RECEIVE_ABORTED /* service, -, bulk_userdata */
++} VCHIQ_REASON_T;
++
++typedef enum {
++ VCHIQ_ERROR = -1,
++ VCHIQ_SUCCESS = 0,
++ VCHIQ_RETRY = 1
++} VCHIQ_STATUS_T;
++
++typedef enum {
++ VCHIQ_BULK_MODE_CALLBACK,
++ VCHIQ_BULK_MODE_BLOCKING,
++ VCHIQ_BULK_MODE_NOCALLBACK,
++ VCHIQ_BULK_MODE_WAITING /* Reserved for internal use */
++} VCHIQ_BULK_MODE_T;
++
++typedef enum {
++ VCHIQ_SERVICE_OPTION_AUTOCLOSE,
++ VCHIQ_SERVICE_OPTION_SLOT_QUOTA,
++ VCHIQ_SERVICE_OPTION_MESSAGE_QUOTA,
++ VCHIQ_SERVICE_OPTION_SYNCHRONOUS
++} VCHIQ_SERVICE_OPTION_T;
++
++typedef struct vchiq_header_struct {
++ /* The message identifier - opaque to applications. */
++ int msgid;
++
++ /* Size of message data. */
++ unsigned int size;
++
++ char data[0]; /* message */
++} VCHIQ_HEADER_T;
++
++typedef struct {
++ const void *data;
++ unsigned int size;
++} VCHIQ_ELEMENT_T;
++
++typedef unsigned int VCHIQ_SERVICE_HANDLE_T;
++
++typedef VCHIQ_STATUS_T (*VCHIQ_CALLBACK_T)(VCHIQ_REASON_T, VCHIQ_HEADER_T *,
++ VCHIQ_SERVICE_HANDLE_T, void *);
++
++typedef struct vchiq_service_base_struct {
++ int fourcc;
++ VCHIQ_CALLBACK_T callback;
++ void *userdata;
++} VCHIQ_SERVICE_BASE_T;
++
++typedef struct vchiq_service_params_struct {
++ int fourcc;
++ VCHIQ_CALLBACK_T callback;
++ void *userdata;
++ short version; /* Increment for non-trivial changes */
++ short version_min; /* Update for incompatible changes */
++} VCHIQ_SERVICE_PARAMS_T;
++
++typedef struct vchiq_config_struct {
++ unsigned int max_msg_size;
++ unsigned int bulk_threshold; /* The message size above which it
++ is better to use a bulk transfer
++ (<= max_msg_size) */
++ unsigned int max_outstanding_bulks;
++ unsigned int max_services;
++ short version; /* The version of VCHIQ */
++ short version_min; /* The minimum compatible version of VCHIQ */
++} VCHIQ_CONFIG_T;
++
++typedef struct vchiq_instance_struct *VCHIQ_INSTANCE_T;
++typedef void (*VCHIQ_REMOTE_USE_CALLBACK_T)(void *cb_arg);
++
++extern VCHIQ_STATUS_T vchiq_initialise(VCHIQ_INSTANCE_T *pinstance);
++extern VCHIQ_STATUS_T vchiq_shutdown(VCHIQ_INSTANCE_T instance);
++extern VCHIQ_STATUS_T vchiq_connect(VCHIQ_INSTANCE_T instance);
++extern VCHIQ_STATUS_T vchiq_add_service(VCHIQ_INSTANCE_T instance,
++ const VCHIQ_SERVICE_PARAMS_T *params,
++ VCHIQ_SERVICE_HANDLE_T *pservice);
++extern VCHIQ_STATUS_T vchiq_open_service(VCHIQ_INSTANCE_T instance,
++ const VCHIQ_SERVICE_PARAMS_T *params,
++ VCHIQ_SERVICE_HANDLE_T *pservice);
++extern VCHIQ_STATUS_T vchiq_close_service(VCHIQ_SERVICE_HANDLE_T service);
++extern VCHIQ_STATUS_T vchiq_remove_service(VCHIQ_SERVICE_HANDLE_T service);
++extern VCHIQ_STATUS_T vchiq_use_service(VCHIQ_SERVICE_HANDLE_T service);
++extern VCHIQ_STATUS_T vchiq_use_service_no_resume(
++ VCHIQ_SERVICE_HANDLE_T service);
++extern VCHIQ_STATUS_T vchiq_release_service(VCHIQ_SERVICE_HANDLE_T service);
++
++extern VCHIQ_STATUS_T vchiq_queue_message(VCHIQ_SERVICE_HANDLE_T service,
++ const VCHIQ_ELEMENT_T *elements, unsigned int count);
++extern void vchiq_release_message(VCHIQ_SERVICE_HANDLE_T service,
++ VCHIQ_HEADER_T *header);
++extern VCHIQ_STATUS_T vchiq_queue_bulk_transmit(VCHIQ_SERVICE_HANDLE_T service,
++ const void *data, unsigned int size, void *userdata);
++extern VCHIQ_STATUS_T vchiq_queue_bulk_receive(VCHIQ_SERVICE_HANDLE_T service,
++ void *data, unsigned int size, void *userdata);
++extern VCHIQ_STATUS_T vchiq_queue_bulk_transmit_handle(
++ VCHIQ_SERVICE_HANDLE_T service, VCHI_MEM_HANDLE_T handle,
++ const void *offset, unsigned int size, void *userdata);
++extern VCHIQ_STATUS_T vchiq_queue_bulk_receive_handle(
++ VCHIQ_SERVICE_HANDLE_T service, VCHI_MEM_HANDLE_T handle,
++ void *offset, unsigned int size, void *userdata);
++extern VCHIQ_STATUS_T vchiq_bulk_transmit(VCHIQ_SERVICE_HANDLE_T service,
++ const void *data, unsigned int size, void *userdata,
++ VCHIQ_BULK_MODE_T mode);
++extern VCHIQ_STATUS_T vchiq_bulk_receive(VCHIQ_SERVICE_HANDLE_T service,
++ void *data, unsigned int size, void *userdata,
++ VCHIQ_BULK_MODE_T mode);
++extern VCHIQ_STATUS_T vchiq_bulk_transmit_handle(VCHIQ_SERVICE_HANDLE_T service,
++ VCHI_MEM_HANDLE_T handle, const void *offset, unsigned int size,
++ void *userdata, VCHIQ_BULK_MODE_T mode);
++extern VCHIQ_STATUS_T vchiq_bulk_receive_handle(VCHIQ_SERVICE_HANDLE_T service,
++ VCHI_MEM_HANDLE_T handle, void *offset, unsigned int size,
++ void *userdata, VCHIQ_BULK_MODE_T mode);
++extern int vchiq_get_client_id(VCHIQ_SERVICE_HANDLE_T service);
++extern void *vchiq_get_service_userdata(VCHIQ_SERVICE_HANDLE_T service);
++extern int vchiq_get_service_fourcc(VCHIQ_SERVICE_HANDLE_T service);
++extern VCHIQ_STATUS_T vchiq_get_config(VCHIQ_INSTANCE_T instance,
++ int config_size, VCHIQ_CONFIG_T *pconfig);
++extern VCHIQ_STATUS_T vchiq_set_service_option(VCHIQ_SERVICE_HANDLE_T service,
++ VCHIQ_SERVICE_OPTION_T option, int value);
++
++extern VCHIQ_STATUS_T vchiq_remote_use(VCHIQ_INSTANCE_T instance,
++ VCHIQ_REMOTE_USE_CALLBACK_T callback, void *cb_arg);
++extern VCHIQ_STATUS_T vchiq_remote_release(VCHIQ_INSTANCE_T instance);
++
++extern VCHIQ_STATUS_T vchiq_dump_phys_mem(VCHIQ_SERVICE_HANDLE_T service,
++ void *ptr, size_t num_bytes);
++
++extern VCHIQ_STATUS_T vchiq_get_peer_version(VCHIQ_SERVICE_HANDLE_T handle,
++ short *peer_version);
++
++#endif /* VCHIQ_IF_H */
+diff -urN linux-3.10/drivers/misc/vc04_services/interface/vchiq_arm/vchiq_ioctl.h linux-rpi-3.10.y/drivers/misc/vc04_services/interface/vchiq_arm/vchiq_ioctl.h
+--- linux-3.10/drivers/misc/vc04_services/interface/vchiq_arm/vchiq_ioctl.h 1970-01-01 01:00:00.000000000 +0100
++++ linux-rpi-3.10.y/drivers/misc/vc04_services/interface/vchiq_arm/vchiq_ioctl.h 2013-07-06 15:25:50.000000000 +0100
+@@ -0,0 +1,129 @@
++/**
++ * Copyright (c) 2010-2012 Broadcom. All rights reserved.
++ *
++ * Redistribution and use in source and binary forms, with or without
++ * modification, are permitted provided that the following conditions
++ * are met:
++ * 1. Redistributions of source code must retain the above copyright
++ * notice, this list of conditions, and the following disclaimer,
++ * without modification.
++ * 2. Redistributions in binary form must reproduce the above copyright
++ * notice, this list of conditions and the following disclaimer in the
++ * documentation and/or other materials provided with the distribution.
++ * 3. The names of the above-listed copyright holders may not be used
++ * to endorse or promote products derived from this software without
++ * specific prior written permission.
++ *
++ * ALTERNATIVELY, this software may be distributed under the terms of the
++ * GNU General Public License ("GPL") version 2, as published by the Free
++ * Software Foundation.
++ *
++ * THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS
++ * IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO,
++ * THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR
++ * PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT OWNER OR
++ * CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL,
++ * EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO,
++ * PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR
++ * PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF
++ * LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING
++ * NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS
++ * SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
++ */
++
++#ifndef VCHIQ_IOCTLS_H
++#define VCHIQ_IOCTLS_H
++
++#include <linux/ioctl.h>
++#include "vchiq_if.h"
++
++#define VCHIQ_IOC_MAGIC 0xc4
++#define VCHIQ_INVALID_HANDLE (~0)
++
++typedef struct {
++ VCHIQ_SERVICE_PARAMS_T params;
++ int is_open;
++ int is_vchi;
++ unsigned int handle; /* OUT */
++} VCHIQ_CREATE_SERVICE_T;
++
++typedef struct {
++ unsigned int handle;
++ unsigned int count;
++ const VCHIQ_ELEMENT_T *elements;
++} VCHIQ_QUEUE_MESSAGE_T;
++
++typedef struct {
++ unsigned int handle;
++ void *data;
++ unsigned int size;
++ void *userdata;
++ VCHIQ_BULK_MODE_T mode;
++} VCHIQ_QUEUE_BULK_TRANSFER_T;
++
++typedef struct {
++ VCHIQ_REASON_T reason;
++ VCHIQ_HEADER_T *header;
++ void *service_userdata;
++ void *bulk_userdata;
++} VCHIQ_COMPLETION_DATA_T;
++
++typedef struct {
++ unsigned int count;
++ VCHIQ_COMPLETION_DATA_T *buf;
++ unsigned int msgbufsize;
++ unsigned int msgbufcount; /* IN/OUT */
++ void **msgbufs;
++} VCHIQ_AWAIT_COMPLETION_T;
++
++typedef struct {
++ unsigned int handle;
++ int blocking;
++ unsigned int bufsize;
++ void *buf;
++} VCHIQ_DEQUEUE_MESSAGE_T;
++
++typedef struct {
++ unsigned int config_size;
++ VCHIQ_CONFIG_T *pconfig;
++} VCHIQ_GET_CONFIG_T;
++
++typedef struct {
++ unsigned int handle;
++ VCHIQ_SERVICE_OPTION_T option;
++ int value;
++} VCHIQ_SET_SERVICE_OPTION_T;
++
++typedef struct {
++ void *virt_addr;
++ size_t num_bytes;
++} VCHIQ_DUMP_MEM_T;
++
++#define VCHIQ_IOC_CONNECT _IO(VCHIQ_IOC_MAGIC, 0)
++#define VCHIQ_IOC_SHUTDOWN _IO(VCHIQ_IOC_MAGIC, 1)
++#define VCHIQ_IOC_CREATE_SERVICE \
++ _IOWR(VCHIQ_IOC_MAGIC, 2, VCHIQ_CREATE_SERVICE_T)
++#define VCHIQ_IOC_REMOVE_SERVICE _IO(VCHIQ_IOC_MAGIC, 3)
++#define VCHIQ_IOC_QUEUE_MESSAGE \
++ _IOW(VCHIQ_IOC_MAGIC, 4, VCHIQ_QUEUE_MESSAGE_T)
++#define VCHIQ_IOC_QUEUE_BULK_TRANSMIT \
++ _IOWR(VCHIQ_IOC_MAGIC, 5, VCHIQ_QUEUE_BULK_TRANSFER_T)
++#define VCHIQ_IOC_QUEUE_BULK_RECEIVE \
++ _IOWR(VCHIQ_IOC_MAGIC, 6, VCHIQ_QUEUE_BULK_TRANSFER_T)
++#define VCHIQ_IOC_AWAIT_COMPLETION \
++ _IOWR(VCHIQ_IOC_MAGIC, 7, VCHIQ_AWAIT_COMPLETION_T)
++#define VCHIQ_IOC_DEQUEUE_MESSAGE \
++ _IOWR(VCHIQ_IOC_MAGIC, 8, VCHIQ_DEQUEUE_MESSAGE_T)
++#define VCHIQ_IOC_GET_CLIENT_ID _IO(VCHIQ_IOC_MAGIC, 9)
++#define VCHIQ_IOC_GET_CONFIG \
++ _IOWR(VCHIQ_IOC_MAGIC, 10, VCHIQ_GET_CONFIG_T)
++#define VCHIQ_IOC_CLOSE_SERVICE _IO(VCHIQ_IOC_MAGIC, 11)
++#define VCHIQ_IOC_USE_SERVICE _IO(VCHIQ_IOC_MAGIC, 12)
++#define VCHIQ_IOC_RELEASE_SERVICE _IO(VCHIQ_IOC_MAGIC, 13)
++#define VCHIQ_IOC_SET_SERVICE_OPTION \
++ _IOW(VCHIQ_IOC_MAGIC, 14, VCHIQ_SET_SERVICE_OPTION_T)
++#define VCHIQ_IOC_DUMP_PHYS_MEM \
++ _IOW(VCHIQ_IOC_MAGIC, 15, VCHIQ_DUMP_MEM_T)
++#define VCHIQ_IOC_MAX 15
++
++#endif
+diff -urN linux-3.10/drivers/misc/vc04_services/interface/vchiq_arm/vchiq_kern_lib.c linux-rpi-3.10.y/drivers/misc/vc04_services/interface/vchiq_arm/vchiq_kern_lib.c
+--- linux-3.10/drivers/misc/vc04_services/interface/vchiq_arm/vchiq_kern_lib.c 1970-01-01 01:00:00.000000000 +0100
++++ linux-rpi-3.10.y/drivers/misc/vc04_services/interface/vchiq_arm/vchiq_kern_lib.c 2013-07-06 15:25:50.000000000 +0100
+@@ -0,0 +1,454 @@
++/**
++ * Copyright (c) 2010-2012 Broadcom. All rights reserved.
++ *
++ * Redistribution and use in source and binary forms, with or without
++ * modification, are permitted provided that the following conditions
++ * are met:
++ * 1. Redistributions of source code must retain the above copyright
++ * notice, this list of conditions, and the following disclaimer,
++ * without modification.
++ * 2. Redistributions in binary form must reproduce the above copyright
++ * notice, this list of conditions and the following disclaimer in the
++ * documentation and/or other materials provided with the distribution.
++ * 3. The names of the above-listed copyright holders may not be used
++ * to endorse or promote products derived from this software without
++ * specific prior written permission.
++ *
++ * ALTERNATIVELY, this software may be distributed under the terms of the
++ * GNU General Public License ("GPL") version 2, as published by the Free
++ * Software Foundation.
++ *
++ * THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS
++ * IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO,
++ * THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR
++ * PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT OWNER OR
++ * CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL,
++ * EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO,
++ * PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR
++ * PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF
++ * LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING
++ * NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS
++ * SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
++ */
++
++/* ---- Include Files ---------------------------------------------------- */
++
++#include <linux/kernel.h>
++#include <linux/module.h>
++#include <linux/mutex.h>
++
++#include "vchiq_core.h"
++#include "vchiq_arm.h"
++
++/* ---- Public Variables ------------------------------------------------- */
++
++/* ---- Private Constants and Types -------------------------------------- */
++
++struct bulk_waiter_node {
++ struct bulk_waiter bulk_waiter;
++ int pid;
++ struct list_head list;
++};
++
++struct vchiq_instance_struct {
++ VCHIQ_STATE_T *state;
++
++ int connected;
++
++ struct list_head bulk_waiter_list;
++ struct mutex bulk_waiter_list_mutex;
++};
++
++static VCHIQ_STATUS_T
++vchiq_blocking_bulk_transfer(VCHIQ_SERVICE_HANDLE_T handle, void *data,
++ unsigned int size, VCHIQ_BULK_DIR_T dir);
++
++/****************************************************************************
++*
++* vchiq_initialise
++*
++***************************************************************************/
++#define VCHIQ_INIT_RETRIES 10
++VCHIQ_STATUS_T vchiq_initialise(VCHIQ_INSTANCE_T *instanceOut)
++{
++ VCHIQ_STATUS_T status = VCHIQ_ERROR;
++ VCHIQ_STATE_T *state;
++ VCHIQ_INSTANCE_T instance = NULL;
++ int i;
++
++ vchiq_log_trace(vchiq_core_log_level, "%s called", __func__);
++
++ /* VideoCore may not be ready due to boot up timing.
++ It may never be ready if kernel and firmware are mismatched, so don't block forever. */
++ for (i=0; i<VCHIQ_INIT_RETRIES; i++) {
++ state = vchiq_get_state();
++ if (state)
++ break;
++ udelay(500);
++ }
++ if (i==VCHIQ_INIT_RETRIES) {
++ vchiq_log_error(vchiq_core_log_level,
++ "%s: videocore not initialized\n", __func__);
++ goto failed;
++ } else if (i>0) {
++ vchiq_log_warning(vchiq_core_log_level,
++ "%s: videocore initialized after %d retries\n", __func__, i);
++ }
++
++ instance = kzalloc(sizeof(*instance), GFP_KERNEL);
++ if (!instance) {
++ vchiq_log_error(vchiq_core_log_level,
++ "%s: error allocating vchiq instance\n", __func__);
++ goto failed;
++ }
++
++ instance->connected = 0;
++ instance->state = state;
++ mutex_init(&instance->bulk_waiter_list_mutex);
++ INIT_LIST_HEAD(&instance->bulk_waiter_list);
++
++ *instanceOut = instance;
++
++ status = VCHIQ_SUCCESS;
++
++failed:
++ vchiq_log_trace(vchiq_core_log_level,
++ "%s(%p): returning %d", __func__, instance, status);
++
++ return status;
++}
++EXPORT_SYMBOL(vchiq_initialise);
++
++/****************************************************************************
++*
++* vchiq_shutdown
++*
++***************************************************************************/
++
++VCHIQ_STATUS_T vchiq_shutdown(VCHIQ_INSTANCE_T instance)
++{
++ VCHIQ_STATUS_T status;
++ VCHIQ_STATE_T *state = instance->state;
++
++ vchiq_log_trace(vchiq_core_log_level,
++ "%s(%p) called", __func__, instance);
++
++ if (mutex_lock_interruptible(&state->mutex) != 0)
++ return VCHIQ_RETRY;
++
++ /* Remove all services */
++ status = vchiq_shutdown_internal(state, instance);
++
++ mutex_unlock(&state->mutex);
++
++ vchiq_log_trace(vchiq_core_log_level,
++ "%s(%p): returning %d", __func__, instance, status);
++
++ if (status == VCHIQ_SUCCESS) {
++ struct list_head *pos, *next;
++ list_for_each_safe(pos, next,
++ &instance->bulk_waiter_list) {
++ struct bulk_waiter_node *waiter;
++ waiter = list_entry(pos,
++ struct bulk_waiter_node,
++ list);
++ list_del(pos);
++ vchiq_log_info(vchiq_arm_log_level,
++ "bulk_waiter - cleaned up %x "
++ "for pid %d",
++ (unsigned int)waiter, waiter->pid);
++ kfree(waiter);
++ }
++ kfree(instance);
++ }
++
++ return status;
++}
++EXPORT_SYMBOL(vchiq_shutdown);
++
++/****************************************************************************
++*
++* vchiq_is_connected
++*
++***************************************************************************/
++
++int vchiq_is_connected(VCHIQ_INSTANCE_T instance)
++{
++ return instance->connected;
++}
++
++/****************************************************************************
++*
++* vchiq_connect
++*
++***************************************************************************/
++
++VCHIQ_STATUS_T vchiq_connect(VCHIQ_INSTANCE_T instance)
++{
++ VCHIQ_STATUS_T status;
++ VCHIQ_STATE_T *state = instance->state;
++
++ vchiq_log_trace(vchiq_core_log_level,
++ "%s(%p) called", __func__, instance);
++
++ if (mutex_lock_interruptible(&state->mutex) != 0) {
++ vchiq_log_trace(vchiq_core_log_level,
++ "%s: call to mutex_lock failed", __func__);
++ status = VCHIQ_RETRY;
++ goto failed;
++ }
++ status = vchiq_connect_internal(state, instance);
++
++ if (status == VCHIQ_SUCCESS)
++ instance->connected = 1;
++
++ mutex_unlock(&state->mutex);
++
++failed:
++ vchiq_log_trace(vchiq_core_log_level,
++ "%s(%p): returning %d", __func__, instance, status);
++
++ return status;
++}
++EXPORT_SYMBOL(vchiq_connect);
++
++/****************************************************************************
++*
++* vchiq_add_service
++*
++***************************************************************************/
++
++VCHIQ_STATUS_T vchiq_add_service(
++ VCHIQ_INSTANCE_T instance,
++ const VCHIQ_SERVICE_PARAMS_T *params,
++ VCHIQ_SERVICE_HANDLE_T *phandle)
++{
++ VCHIQ_STATUS_T status;
++ VCHIQ_STATE_T *state = instance->state;
++ VCHIQ_SERVICE_T *service = NULL;
++ int srvstate;
++
++ vchiq_log_trace(vchiq_core_log_level,
++ "%s(%p) called", __func__, instance);
++
++ *phandle = VCHIQ_SERVICE_HANDLE_INVALID;
++
++ srvstate = vchiq_is_connected(instance)
++ ? VCHIQ_SRVSTATE_LISTENING
++ : VCHIQ_SRVSTATE_HIDDEN;
++
++ service = vchiq_add_service_internal(
++ state,
++ params,
++ srvstate,
++ instance);
++
++ if (service) {
++ *phandle = service->handle;
++ status = VCHIQ_SUCCESS;
++ } else
++ status = VCHIQ_ERROR;
++
++ vchiq_log_trace(vchiq_core_log_level,
++ "%s(%p): returning %d", __func__, instance, status);
++
++ return status;
++}
++EXPORT_SYMBOL(vchiq_add_service);
++
++/****************************************************************************
++*
++* vchiq_open_service
++*
++***************************************************************************/
++
++VCHIQ_STATUS_T vchiq_open_service(
++ VCHIQ_INSTANCE_T instance,
++ const VCHIQ_SERVICE_PARAMS_T *params,
++ VCHIQ_SERVICE_HANDLE_T *phandle)
++{
++ VCHIQ_STATUS_T status = VCHIQ_ERROR;
++ VCHIQ_STATE_T *state = instance->state;
++ VCHIQ_SERVICE_T *service = NULL;
++
++ vchiq_log_trace(vchiq_core_log_level,
++ "%s(%p) called", __func__, instance);
++
++ *phandle = VCHIQ_SERVICE_HANDLE_INVALID;
++
++ if (!vchiq_is_connected(instance))
++ goto failed;
++
++ service = vchiq_add_service_internal(state,
++ params,
++ VCHIQ_SRVSTATE_OPENING,
++ instance);
++
++ if (service) {
++ status = vchiq_open_service_internal(service, current->pid);
++ if (status == VCHIQ_SUCCESS)
++ *phandle = service->handle;
++ else
++ vchiq_remove_service(service->handle);
++ }
++
++failed:
++ vchiq_log_trace(vchiq_core_log_level,
++ "%s(%p): returning %d", __func__, instance, status);
++
++ return status;
++}
++EXPORT_SYMBOL(vchiq_open_service);
++
++VCHIQ_STATUS_T
++vchiq_queue_bulk_transmit(VCHIQ_SERVICE_HANDLE_T handle,
++ const void *data, unsigned int size, void *userdata)
++{
++ return vchiq_bulk_transfer(handle,
++ VCHI_MEM_HANDLE_INVALID, (void *)data, size, userdata,
++ VCHIQ_BULK_MODE_CALLBACK, VCHIQ_BULK_TRANSMIT);
++}
++EXPORT_SYMBOL(vchiq_queue_bulk_transmit);
++
++VCHIQ_STATUS_T
++vchiq_queue_bulk_receive(VCHIQ_SERVICE_HANDLE_T handle, void *data,
++ unsigned int size, void *userdata)
++{
++ return vchiq_bulk_transfer(handle,
++ VCHI_MEM_HANDLE_INVALID, data, size, userdata,
++ VCHIQ_BULK_MODE_CALLBACK, VCHIQ_BULK_RECEIVE);
++}
++EXPORT_SYMBOL(vchiq_queue_bulk_receive);
++
++VCHIQ_STATUS_T
++vchiq_bulk_transmit(VCHIQ_SERVICE_HANDLE_T handle, const void *data,
++ unsigned int size, void *userdata, VCHIQ_BULK_MODE_T mode)
++{
++ VCHIQ_STATUS_T status;
++
++ switch (mode) {
++ case VCHIQ_BULK_MODE_NOCALLBACK:
++ case VCHIQ_BULK_MODE_CALLBACK:
++ status = vchiq_bulk_transfer(handle,
++ VCHI_MEM_HANDLE_INVALID, (void *)data, size, userdata,
++ mode, VCHIQ_BULK_TRANSMIT);
++ break;
++ case VCHIQ_BULK_MODE_BLOCKING:
++ status = vchiq_blocking_bulk_transfer(handle,
++ (void *)data, size, VCHIQ_BULK_TRANSMIT);
++ break;
++ default:
++ return VCHIQ_ERROR;
++ }
++
++ return status;
++}
++EXPORT_SYMBOL(vchiq_bulk_transmit);
++
++VCHIQ_STATUS_T
++vchiq_bulk_receive(VCHIQ_SERVICE_HANDLE_T handle, void *data,
++ unsigned int size, void *userdata, VCHIQ_BULK_MODE_T mode)
++{
++ VCHIQ_STATUS_T status;
++
++ switch (mode) {
++ case VCHIQ_BULK_MODE_NOCALLBACK:
++ case VCHIQ_BULK_MODE_CALLBACK:
++ status = vchiq_bulk_transfer(handle,
++ VCHI_MEM_HANDLE_INVALID, data, size, userdata,
++ mode, VCHIQ_BULK_RECEIVE);
++ break;
++ case VCHIQ_BULK_MODE_BLOCKING:
++ status = vchiq_blocking_bulk_transfer(handle,
++ (void *)data, size, VCHIQ_BULK_RECEIVE);
++ break;
++ default:
++ return VCHIQ_ERROR;
++ }
++
++ return status;
++}
++EXPORT_SYMBOL(vchiq_bulk_receive);
++
++static VCHIQ_STATUS_T
++vchiq_blocking_bulk_transfer(VCHIQ_SERVICE_HANDLE_T handle, void *data,
++ unsigned int size, VCHIQ_BULK_DIR_T dir)
++{
++ VCHIQ_INSTANCE_T instance;
++ VCHIQ_SERVICE_T *service;
++ VCHIQ_STATUS_T status;
++ struct bulk_waiter_node *waiter = NULL;
++ struct list_head *pos;
++
++ service = find_service_by_handle(handle);
++ if (!service)
++ return VCHIQ_ERROR;
++
++ instance = service->instance;
++
++ unlock_service(service);
++
++ mutex_lock(&instance->bulk_waiter_list_mutex);
++ list_for_each(pos, &instance->bulk_waiter_list) {
++ if (list_entry(pos, struct bulk_waiter_node,
++ list)->pid == current->pid) {
++ waiter = list_entry(pos,
++ struct bulk_waiter_node,
++ list);
++ list_del(pos);
++ break;
++ }
++ }
++ mutex_unlock(&instance->bulk_waiter_list_mutex);
++
++ if (waiter) {
++ VCHIQ_BULK_T *bulk = waiter->bulk_waiter.bulk;
++ if (bulk) {
++ /* This thread has an outstanding bulk transfer. */
++ if ((bulk->data != data) ||
++ (bulk->size != size)) {
++ /* This is not a retry of the previous one.
++ ** Cancel the signal when the transfer
++ ** completes. */
++ spin_lock(&bulk_waiter_spinlock);
++ bulk->userdata = NULL;
++ spin_unlock(&bulk_waiter_spinlock);
++ }
++ }
++ }
++
++ if (!waiter) {
++ waiter = kzalloc(sizeof(struct bulk_waiter_node), GFP_KERNEL);
++ if (!waiter) {
++ vchiq_log_error(vchiq_core_log_level,
++ "%s - out of memory", __func__);
++ return VCHIQ_ERROR;
++ }
++ }
++
++ status = vchiq_bulk_transfer(handle, VCHI_MEM_HANDLE_INVALID,
++ data, size, &waiter->bulk_waiter, VCHIQ_BULK_MODE_BLOCKING,
++ dir);
++ if ((status != VCHIQ_RETRY) || fatal_signal_pending(current) ||
++ !waiter->bulk_waiter.bulk) {
++ VCHIQ_BULK_T *bulk = waiter->bulk_waiter.bulk;
++ if (bulk) {
++ /* Cancel the signal when the transfer
++ ** completes. */
++ spin_lock(&bulk_waiter_spinlock);
++ bulk->userdata = NULL;
++ spin_unlock(&bulk_waiter_spinlock);
++ }
++ kfree(waiter);
++ } else {
++ waiter->pid = current->pid;
++ mutex_lock(&instance->bulk_waiter_list_mutex);
++ list_add(&waiter->list, &instance->bulk_waiter_list);
++ mutex_unlock(&instance->bulk_waiter_list_mutex);
++ vchiq_log_info(vchiq_arm_log_level,
++ "saved bulk_waiter %x for pid %d",
++ (unsigned int)waiter, current->pid);
++ }
++
++ return status;
++}
+diff -urN linux-3.10/drivers/misc/vc04_services/interface/vchiq_arm/vchiq_memdrv.h linux-rpi-3.10.y/drivers/misc/vc04_services/interface/vchiq_arm/vchiq_memdrv.h
+--- linux-3.10/drivers/misc/vc04_services/interface/vchiq_arm/vchiq_memdrv.h 1970-01-01 01:00:00.000000000 +0100
++++ linux-rpi-3.10.y/drivers/misc/vc04_services/interface/vchiq_arm/vchiq_memdrv.h 2013-07-06 15:25:50.000000000 +0100
+@@ -0,0 +1,71 @@
++/**
++ * Copyright (c) 2010-2012 Broadcom. All rights reserved.
++ *
++ * Redistribution and use in source and binary forms, with or without
++ * modification, are permitted provided that the following conditions
++ * are met:
++ * 1. Redistributions of source code must retain the above copyright
++ * notice, this list of conditions, and the following disclaimer,
++ * without modification.
++ * 2. Redistributions in binary form must reproduce the above copyright
++ * notice, this list of conditions and the following disclaimer in the
++ * documentation and/or other materials provided with the distribution.
++ * 3. The names of the above-listed copyright holders may not be used
++ * to endorse or promote products derived from this software without
++ * specific prior written permission.
++ *
++ * ALTERNATIVELY, this software may be distributed under the terms of the
++ * GNU General Public License ("GPL") version 2, as published by the Free
++ * Software Foundation.
++ *
++ * THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS
++ * IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO,
++ * THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR
++ * PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT OWNER OR
++ * CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL,
++ * EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO,
++ * PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR
++ * PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF
++ * LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING
++ * NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS
++ * SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
++ */
++
++#ifndef VCHIQ_MEMDRV_H
++#define VCHIQ_MEMDRV_H
++
++/* ---- Include Files ----------------------------------------------------- */
++
++#include <linux/kernel.h>
++#include "vchiq_if.h"
++
++/* ---- Constants and Types ---------------------------------------------- */
++
++typedef struct {
++ void *armSharedMemVirt;
++ dma_addr_t armSharedMemPhys;
++ size_t armSharedMemSize;
++
++ void *vcSharedMemVirt;
++ dma_addr_t vcSharedMemPhys;
++ size_t vcSharedMemSize;
++} VCHIQ_SHARED_MEM_INFO_T;
++
++/* ---- Variable Externs ------------------------------------------------- */
++
++/* ---- Function Prototypes ---------------------------------------------- */
++
++void vchiq_get_shared_mem_info(VCHIQ_SHARED_MEM_INFO_T *info);
++
++VCHIQ_STATUS_T vchiq_memdrv_initialise(void);
++
++VCHIQ_STATUS_T vchiq_userdrv_create_instance(
++ const VCHIQ_PLATFORM_DATA_T * platform_data);
++
++VCHIQ_STATUS_T vchiq_userdrv_suspend(
++ const VCHIQ_PLATFORM_DATA_T * platform_data);
++
++VCHIQ_STATUS_T vchiq_userdrv_resume(
++ const VCHIQ_PLATFORM_DATA_T * platform_data);
++
++#endif
+diff -urN linux-3.10/drivers/misc/vc04_services/interface/vchiq_arm/vchiq_pagelist.h linux-rpi-3.10.y/drivers/misc/vc04_services/interface/vchiq_arm/vchiq_pagelist.h
+--- linux-3.10/drivers/misc/vc04_services/interface/vchiq_arm/vchiq_pagelist.h 1970-01-01 01:00:00.000000000 +0100
++++ linux-rpi-3.10.y/drivers/misc/vc04_services/interface/vchiq_arm/vchiq_pagelist.h 2013-07-06 15:25:50.000000000 +0100
+@@ -0,0 +1,58 @@
++/**
++ * Copyright (c) 2010-2012 Broadcom. All rights reserved.
++ *
++ * Redistribution and use in source and binary forms, with or without
++ * modification, are permitted provided that the following conditions
++ * are met:
++ * 1. Redistributions of source code must retain the above copyright
++ * notice, this list of conditions, and the following disclaimer,
++ * without modification.
++ * 2. Redistributions in binary form must reproduce the above copyright
++ * notice, this list of conditions and the following disclaimer in the
++ * documentation and/or other materials provided with the distribution.
++ * 3. The names of the above-listed copyright holders may not be used
++ * to endorse or promote products derived from this software without
++ * specific prior written permission.
++ *
++ * ALTERNATIVELY, this software may be distributed under the terms of the
++ * GNU General Public License ("GPL") version 2, as published by the Free
++ * Software Foundation.
++ *
++ * THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS
++ * IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO,
++ * THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR
++ * PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT OWNER OR
++ * CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL,
++ * EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO,
++ * PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR
++ * PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF
++ * LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING
++ * NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS
++ * SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
++ */
++
++#ifndef VCHIQ_PAGELIST_H
++#define VCHIQ_PAGELIST_H
++
++#ifndef PAGE_SIZE
++#define PAGE_SIZE 4096
++#endif
++#define CACHE_LINE_SIZE 32
++#define PAGELIST_WRITE 0
++#define PAGELIST_READ 1
++#define PAGELIST_READ_WITH_FRAGMENTS 2
++
++typedef struct pagelist_struct {
++ unsigned long length;
++ unsigned short type;
++ unsigned short offset;
++ unsigned long addrs[1]; /* N.B. 12 LSBs hold the number of following
++ pages at consecutive addresses. */
++} PAGELIST_T;
++
++typedef struct fragments_struct {
++ char headbuf[CACHE_LINE_SIZE];
++ char tailbuf[CACHE_LINE_SIZE];
++} FRAGMENTS_T;
++
++#endif /* VCHIQ_PAGELIST_H */
+diff -urN linux-3.10/drivers/misc/vc04_services/interface/vchiq_arm/vchiq_proc.c linux-rpi-3.10.y/drivers/misc/vc04_services/interface/vchiq_arm/vchiq_proc.c
+--- linux-3.10/drivers/misc/vc04_services/interface/vchiq_arm/vchiq_proc.c 1970-01-01 01:00:00.000000000 +0100
++++ linux-rpi-3.10.y/drivers/misc/vc04_services/interface/vchiq_arm/vchiq_proc.c 2013-07-06 15:25:50.000000000 +0100
+@@ -0,0 +1,243 @@
++/**
++ * Copyright (c) 2010-2012 Broadcom. All rights reserved.
++ *
++ * Redistribution and use in source and binary forms, with or without
++ * modification, are permitted provided that the following conditions
++ * are met:
++ * 1. Redistributions of source code must retain the above copyright
++ * notice, this list of conditions, and the following disclaimer,
++ * without modification.
++ * 2. Redistributions in binary form must reproduce the above copyright
++ * notice, this list of conditions and the following disclaimer in the
++ * documentation and/or other materials provided with the distribution.
++ * 3. The names of the above-listed copyright holders may not be used
++ * to endorse or promote products derived from this software without
++ * specific prior written permission.
++ *
++ * ALTERNATIVELY, this software may be distributed under the terms of the
++ * GNU General Public License ("GPL") version 2, as published by the Free
++ * Software Foundation.
++ *
++ * THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS
++ * IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO,
++ * THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR
++ * PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT OWNER OR
++ * CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL,
++ * EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO,
++ * PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR
++ * PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF
++ * LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING
++ * NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS
++ * SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
++ */
++
++
++#include <linux/proc_fs.h>
++#include "vchiq_core.h"
++#include "vchiq_arm.h"
++
++struct vchiq_proc_info {
++ /* Global 'vc' proc entry used by all instances */
++ struct proc_dir_entry *vc_cfg_dir;
++
++ /* one entry per client process */
++ struct proc_dir_entry *clients;
++
++ /* log categories */
++ struct proc_dir_entry *log_categories;
++};
++
++static struct vchiq_proc_info proc_info;
++
++struct proc_dir_entry *vchiq_proc_top(void)
++{
++ BUG_ON(proc_info.vc_cfg_dir == NULL);
++ return proc_info.vc_cfg_dir;
++}
++
++/****************************************************************************
++*
++* log category entries
++*
++***************************************************************************/
++#define PROC_WRITE_BUF_SIZE 256
++
++#define VCHIQ_LOG_ERROR_STR "error"
++#define VCHIQ_LOG_WARNING_STR "warning"
++#define VCHIQ_LOG_INFO_STR "info"
++#define VCHIQ_LOG_TRACE_STR "trace"
++
++static int log_cfg_read(char *buffer,
++ char **start,
++ off_t off,
++ int count,
++ int *eof,
++ void *data)
++{
++ int len = 0;
++ char *log_value = NULL;
++
++ switch (*((int *)data)) {
++ case VCHIQ_LOG_ERROR:
++ log_value = VCHIQ_LOG_ERROR_STR;
++ break;
++ case VCHIQ_LOG_WARNING:
++ log_value = VCHIQ_LOG_WARNING_STR;
++ break;
++ case VCHIQ_LOG_INFO:
++ log_value = VCHIQ_LOG_INFO_STR;
++ break;
++ case VCHIQ_LOG_TRACE:
++ log_value = VCHIQ_LOG_TRACE_STR;
++ break;
++ default:
++ break;
++ }
++
++ len += sprintf(buffer + len,
++ "%s\n",
++ log_value ? log_value : "(null)");
++
++ return len;
++}
++
++
++static int log_cfg_write(struct file *file,
++ const char __user *buffer,
++ unsigned long count,
++ void *data)
++{
++ int *log_module = data;
++ char kbuf[PROC_WRITE_BUF_SIZE + 1];
++
++ (void)file;
++
++ memset(kbuf, 0, PROC_WRITE_BUF_SIZE + 1);
++ if (count >= PROC_WRITE_BUF_SIZE)
++ count = PROC_WRITE_BUF_SIZE;
++
++ if (copy_from_user(kbuf,
++ buffer,
++ count) != 0)
++ return -EFAULT;
++ kbuf[count - 1] = 0;
++
++ if (strncmp("error", kbuf, strlen("error")) == 0)
++ *log_module = VCHIQ_LOG_ERROR;
++ else if (strncmp("warning", kbuf, strlen("warning")) == 0)
++ *log_module = VCHIQ_LOG_WARNING;
++ else if (strncmp("info", kbuf, strlen("info")) == 0)
++ *log_module = VCHIQ_LOG_INFO;
++ else if (strncmp("trace", kbuf, strlen("trace")) == 0)
++ *log_module = VCHIQ_LOG_TRACE;
++ else
++ *log_module = VCHIQ_LOG_DEFAULT;
++
++ return count;
++}
++
++/* Log category proc entries */
++struct vchiq_proc_log_entry {
++ const char *name;
++ int *plevel;
++ struct proc_dir_entry *dir;
++};
++
++static struct vchiq_proc_log_entry vchiq_proc_log_entries[] = {
++ { "core", &vchiq_core_log_level },
++ { "msg", &vchiq_core_msg_log_level },
++ { "sync", &vchiq_sync_log_level },
++ { "susp", &vchiq_susp_log_level },
++ { "arm", &vchiq_arm_log_level },
++};
++static int n_log_entries =
++ sizeof(vchiq_proc_log_entries)/sizeof(vchiq_proc_log_entries[0]);
++
++/* create an entry under /proc/vc/log for each log category */
++static int vchiq_proc_create_log_entries(struct proc_dir_entry *top)
++{
++ struct proc_dir_entry *dir;
++ size_t i;
++ int ret = 0;
++#if 0
++ dir = proc_mkdir("log", proc_info.vc_cfg_dir);
++ if (!dir)
++ return -ENOMEM;
++ proc_info.log_categories = dir;
++
++ for (i = 0; i < n_log_entries; i++) {
++ dir = create_proc_entry(vchiq_proc_log_entries[i].name,
++ 0644,
++ proc_info.log_categories);
++ if (!dir) {
++ ret = -ENOMEM;
++ break;
++ }
++
++ dir->read_proc = &log_cfg_read;
++ dir->write_proc = &log_cfg_write;
++ dir->data = (void *)vchiq_proc_log_entries[i].plevel;
++
++ vchiq_proc_log_entries[i].dir = dir;
++ }
++#endif
++ return ret;
++}
++
++
++int vchiq_proc_init(void)
++{
++ BUG_ON(proc_info.vc_cfg_dir != NULL);
++
++ proc_info.vc_cfg_dir = proc_mkdir("vc", NULL);
++ if (proc_info.vc_cfg_dir == NULL)
++ goto fail;
++
++ proc_info.clients = proc_mkdir("clients",
++ proc_info.vc_cfg_dir);
++ if (!proc_info.clients)
++ goto fail;
++
++ if (vchiq_proc_create_log_entries(proc_info.vc_cfg_dir) != 0)
++ goto fail;
++
++ return 0;
++
++fail:
++ vchiq_proc_deinit();
++ vchiq_log_error(vchiq_arm_log_level,
++ "%s: failed to create proc directory",
++ __func__);
++
++ return -ENOMEM;
++}
++
++/* remove all the proc entries */
++void vchiq_proc_deinit(void)
++{
++ /* log category entries */
++#if 0
++ if (proc_info.log_categories) {
++ size_t i;
++ for (i = 0; i < n_log_entries; i++)
++ if (vchiq_proc_log_entries[i].dir)
++ remove_proc_entry(
++ vchiq_proc_log_entries[i].name,
++ proc_info.log_categories);
++
++ remove_proc_entry(proc_info.log_categories->name,
++ proc_info.vc_cfg_dir);
++ }
++ if (proc_info.clients)
++ remove_proc_entry(proc_info.clients->name,
++ proc_info.vc_cfg_dir);
++ if (proc_info.vc_cfg_dir)
++ remove_proc_entry(proc_info.vc_cfg_dir->name, NULL);
++#endif
++}
++
++struct proc_dir_entry *vchiq_clients_top(void)
++{
++ return proc_info.clients;
++}
++
+diff -urN linux-3.10/drivers/misc/vc04_services/interface/vchiq_arm/vchiq_shim.c linux-rpi-3.10.y/drivers/misc/vc04_services/interface/vchiq_arm/vchiq_shim.c
+--- linux-3.10/drivers/misc/vc04_services/interface/vchiq_arm/vchiq_shim.c 1970-01-01 01:00:00.000000000 +0100
++++ linux-rpi-3.10.y/drivers/misc/vc04_services/interface/vchiq_arm/vchiq_shim.c 2013-07-06 15:25:50.000000000 +0100
+@@ -0,0 +1,815 @@
++/**
++ * Copyright (c) 2010-2012 Broadcom. All rights reserved.
++ *
++ * Redistribution and use in source and binary forms, with or without
++ * modification, are permitted provided that the following conditions
++ * are met:
++ * 1. Redistributions of source code must retain the above copyright
++ * notice, this list of conditions, and the following disclaimer,
++ * without modification.
++ * 2. Redistributions in binary form must reproduce the above copyright
++ * notice, this list of conditions and the following disclaimer in the
++ * documentation and/or other materials provided with the distribution.
++ * 3. The names of the above-listed copyright holders may not be used
++ * to endorse or promote products derived from this software without
++ * specific prior written permission.
++ *
++ * ALTERNATIVELY, this software may be distributed under the terms of the
++ * GNU General Public License ("GPL") version 2, as published by the Free
++ * Software Foundation.
++ *
++ * THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS
++ * IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO,
++ * THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR
++ * PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT OWNER OR
++ * CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL,
++ * EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO,
++ * PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR
++ * PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF
++ * LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING
++ * NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS
++ * SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
++ */
++#include <linux/module.h>
++#include <linux/types.h>
++
++#include "interface/vchi/vchi.h"
++#include "vchiq.h"
++#include "vchiq_core.h"
++
++#include "vchiq_util.h"
++
++#include <stddef.h>
++
++#define vchiq_status_to_vchi(status) ((int32_t)status)
++
++typedef struct {
++ VCHIQ_SERVICE_HANDLE_T handle;
++
++ VCHIU_QUEUE_T queue;
++
++ VCHI_CALLBACK_T callback;
++ void *callback_param;
++} SHIM_SERVICE_T;
++
++/* ----------------------------------------------------------------------
++ * return pointer to the mphi message driver function table
++ * -------------------------------------------------------------------- */
++const VCHI_MESSAGE_DRIVER_T *
++vchi_mphi_message_driver_func_table(void)
++{
++ return NULL;
++}
++
++/* ----------------------------------------------------------------------
++ * return a pointer to the 'single' connection driver fops
++ * -------------------------------------------------------------------- */
++const VCHI_CONNECTION_API_T *
++single_get_func_table(void)
++{
++ return NULL;
++}
++
++VCHI_CONNECTION_T *vchi_create_connection(
++ const VCHI_CONNECTION_API_T *function_table,
++ const VCHI_MESSAGE_DRIVER_T *low_level)
++{
++ (void)function_table;
++ (void)low_level;
++ return NULL;
++}
++
++/***********************************************************
++ * Name: vchi_msg_peek
++ *
++ * Arguments: const VCHI_SERVICE_HANDLE_T handle,
++ * void **data,
++ * uint32_t *msg_size,
++
++
++ * VCHI_FLAGS_T flags
++ *
++ * Description: Routine to return a pointer to the current message (to allow in
++ * place processing). The message can be removed using
++ * vchi_msg_remove when you're finished
++ *
++ * Returns: int32_t - success == 0
++ *
++ ***********************************************************/
++int32_t vchi_msg_peek(VCHI_SERVICE_HANDLE_T handle,
++ void **data,
++ uint32_t *msg_size,
++ VCHI_FLAGS_T flags)
++{
++ SHIM_SERVICE_T *service = (SHIM_SERVICE_T *)handle;
++ VCHIQ_HEADER_T *header;
++
++ WARN_ON((flags != VCHI_FLAGS_NONE) &&
++ (flags != VCHI_FLAGS_BLOCK_UNTIL_OP_COMPLETE));
++
++ if (flags == VCHI_FLAGS_NONE)
++ if (vchiu_queue_is_empty(&service->queue))
++ return -1;
++
++ header = vchiu_queue_peek(&service->queue);
++
++ *data = header->data;
++ *msg_size = header->size;
++
++ return 0;
++}
++EXPORT_SYMBOL(vchi_msg_peek);
++
++/***********************************************************
++ * Name: vchi_msg_remove
++ *
++ * Arguments: const VCHI_SERVICE_HANDLE_T handle,
++ *
++ * Description: Routine to remove a message (after it has been read with
++ * vchi_msg_peek)
++ *
++ * Returns: int32_t - success == 0
++ *
++ ***********************************************************/
++int32_t vchi_msg_remove(VCHI_SERVICE_HANDLE_T handle)
++{
++ SHIM_SERVICE_T *service = (SHIM_SERVICE_T *)handle;
++ VCHIQ_HEADER_T *header;
++
++ header = vchiu_queue_pop(&service->queue);
++
++ vchiq_release_message(service->handle, header);
++
++ return 0;
++}
++EXPORT_SYMBOL(vchi_msg_remove);
++
++/***********************************************************
++ * Name: vchi_msg_queue
++ *
++ * Arguments: VCHI_SERVICE_HANDLE_T handle,
++ * const void *data,
++ * uint32_t data_size,
++ * VCHI_FLAGS_T flags,
++ * void *msg_handle,
++ *
++ * Description: Thin wrapper to queue a message onto a connection
++ *
++ * Returns: int32_t - success == 0
++ *
++ ***********************************************************/
++int32_t vchi_msg_queue(VCHI_SERVICE_HANDLE_T handle,
++ const void *data,
++ uint32_t data_size,
++ VCHI_FLAGS_T flags,
++ void *msg_handle)
++{
++ SHIM_SERVICE_T *service = (SHIM_SERVICE_T *)handle;
++ VCHIQ_ELEMENT_T element = {data, data_size};
++ VCHIQ_STATUS_T status;
++
++ (void)msg_handle;
++
++ WARN_ON(flags != VCHI_FLAGS_BLOCK_UNTIL_QUEUED);
++
++ status = vchiq_queue_message(service->handle, &element, 1);
++
++ /* vchiq_queue_message() may return VCHIQ_RETRY, so we need to
++ ** implement a retry mechanism since this function is supposed
++ ** to block until queued
++ */
++ while (status == VCHIQ_RETRY) {
++ msleep(1);
++ status = vchiq_queue_message(service->handle, &element, 1);
++ }
++
++ return vchiq_status_to_vchi(status);
++}
++EXPORT_SYMBOL(vchi_msg_queue);
++
++/***********************************************************
++ * Name: vchi_bulk_queue_receive
++ *
++ * Arguments: VCHI_BULK_HANDLE_T handle,
++ * void *data_dst,
++ * const uint32_t data_size,
++ * VCHI_FLAGS_T flags
++ * void *bulk_handle
++ *
++ * Description: Routine to setup a rcv buffer
++ *
++ * Returns: int32_t - success == 0
++ *
++ ***********************************************************/
++int32_t vchi_bulk_queue_receive(VCHI_SERVICE_HANDLE_T handle,
++ void *data_dst,
++ uint32_t data_size,
++ VCHI_FLAGS_T flags,
++ void *bulk_handle)
++{
++ SHIM_SERVICE_T *service = (SHIM_SERVICE_T *)handle;
++ VCHIQ_BULK_MODE_T mode;
++ VCHIQ_STATUS_T status;
++
++ switch ((int)flags) {
++ case VCHI_FLAGS_CALLBACK_WHEN_OP_COMPLETE
++ | VCHI_FLAGS_BLOCK_UNTIL_QUEUED:
++ WARN_ON(!service->callback);
++ mode = VCHIQ_BULK_MODE_CALLBACK;
++ break;
++ case VCHI_FLAGS_BLOCK_UNTIL_OP_COMPLETE:
++ mode = VCHIQ_BULK_MODE_BLOCKING;
++ break;
++ case VCHI_FLAGS_BLOCK_UNTIL_QUEUED:
++ case VCHI_FLAGS_NONE:
++ mode = VCHIQ_BULK_MODE_NOCALLBACK;
++ break;
++ default:
++ WARN(1, "unsupported message\n");
++ return vchiq_status_to_vchi(VCHIQ_ERROR);
++ }
++
++ status = vchiq_bulk_receive(service->handle, data_dst, data_size,
++ bulk_handle, mode);
++
++ /* vchiq_bulk_receive() may return VCHIQ_RETRY, so we need to
++ ** implement a retry mechanism since this function is supposed
++ ** to block until queued
++ */
++ while (status == VCHIQ_RETRY) {
++ msleep(1);
++ status = vchiq_bulk_receive(service->handle, data_dst,
++ data_size, bulk_handle, mode);
++ }
++
++ return vchiq_status_to_vchi(status);
++}
++EXPORT_SYMBOL(vchi_bulk_queue_receive);
++
++/***********************************************************
++ * Name: vchi_bulk_queue_transmit
++ *
++ * Arguments: VCHI_BULK_HANDLE_T handle,
++ * const void *data_src,
++ * uint32_t data_size,
++ * VCHI_FLAGS_T flags,
++ * void *bulk_handle
++ *
++ * Description: Routine to transmit some data
++ *
++ * Returns: int32_t - success == 0
++ *
++ ***********************************************************/
++int32_t vchi_bulk_queue_transmit(VCHI_SERVICE_HANDLE_T handle,
++ const void *data_src,
++ uint32_t data_size,
++ VCHI_FLAGS_T flags,
++ void *bulk_handle)
++{
++ SHIM_SERVICE_T *service = (SHIM_SERVICE_T *)handle;
++ VCHIQ_BULK_MODE_T mode;
++ VCHIQ_STATUS_T status;
++
++ switch ((int)flags) {
++ case VCHI_FLAGS_CALLBACK_WHEN_OP_COMPLETE
++ | VCHI_FLAGS_BLOCK_UNTIL_QUEUED:
++ WARN_ON(!service->callback);
++ mode = VCHIQ_BULK_MODE_CALLBACK;
++ break;
++ case VCHI_FLAGS_BLOCK_UNTIL_DATA_READ:
++ case VCHI_FLAGS_BLOCK_UNTIL_OP_COMPLETE:
++ mode = VCHIQ_BULK_MODE_BLOCKING;
++ break;
++ case VCHI_FLAGS_BLOCK_UNTIL_QUEUED:
++ case VCHI_FLAGS_NONE:
++ mode = VCHIQ_BULK_MODE_NOCALLBACK;
++ break;
++ default:
++ WARN(1, "unsupported message\n");
++ return vchiq_status_to_vchi(VCHIQ_ERROR);
++ }
++
++ status = vchiq_bulk_transmit(service->handle, data_src, data_size,
++ bulk_handle, mode);
++
++ /* vchiq_bulk_transmit() may return VCHIQ_RETRY, so we need to
++ ** implement a retry mechanism since this function is supposed
++ ** to block until queued
++ */
++ while (status == VCHIQ_RETRY) {
++ msleep(1);
++ status = vchiq_bulk_transmit(service->handle, data_src,
++ data_size, bulk_handle, mode);
++ }
++
++ return vchiq_status_to_vchi(status);
++}
++EXPORT_SYMBOL(vchi_bulk_queue_transmit);
++
++/***********************************************************
++ * Name: vchi_msg_dequeue
++ *
++ * Arguments: VCHI_SERVICE_HANDLE_T handle,
++ * void *data,
++ * uint32_t max_data_size_to_read,
++ * uint32_t *actual_msg_size
++ * VCHI_FLAGS_T flags
++ *
++ * Description: Routine to dequeue a message into the supplied buffer
++ *
++ * Returns: int32_t - success == 0
++ *
++ ***********************************************************/
++int32_t vchi_msg_dequeue(VCHI_SERVICE_HANDLE_T handle,
++ void *data,
++ uint32_t max_data_size_to_read,
++ uint32_t *actual_msg_size,
++ VCHI_FLAGS_T flags)
++{
++ SHIM_SERVICE_T *service = (SHIM_SERVICE_T *)handle;
++ VCHIQ_HEADER_T *header;
++
++ WARN_ON((flags != VCHI_FLAGS_NONE) &&
++ (flags != VCHI_FLAGS_BLOCK_UNTIL_OP_COMPLETE));
++
++ if (flags == VCHI_FLAGS_NONE)
++ if (vchiu_queue_is_empty(&service->queue))
++ return -1;
++
++ header = vchiu_queue_pop(&service->queue);
++
++ memcpy(data, header->data, header->size < max_data_size_to_read ?
++ header->size : max_data_size_to_read);
++
++ *actual_msg_size = header->size;
++
++ vchiq_release_message(service->handle, header);
++
++ return 0;
++}
++EXPORT_SYMBOL(vchi_msg_dequeue);
++
++/***********************************************************
++ * Name: vchi_msg_queuev
++ *
++ * Arguments: VCHI_SERVICE_HANDLE_T handle,
++ * VCHI_MSG_VECTOR_T *vector,
++ * uint32_t count,
++ * VCHI_FLAGS_T flags,
++ * void *msg_handle
++ *
++ * Description: Thin wrapper to queue a message onto a connection
++ *
++ * Returns: int32_t - success == 0
++ *
++ ***********************************************************/
++
++vchiq_static_assert(sizeof(VCHI_MSG_VECTOR_T) == sizeof(VCHIQ_ELEMENT_T));
++vchiq_static_assert(offsetof(VCHI_MSG_VECTOR_T, vec_base) ==
++ offsetof(VCHIQ_ELEMENT_T, data));
++vchiq_static_assert(offsetof(VCHI_MSG_VECTOR_T, vec_len) ==
++ offsetof(VCHIQ_ELEMENT_T, size));
++
++int32_t vchi_msg_queuev(VCHI_SERVICE_HANDLE_T handle,
++ VCHI_MSG_VECTOR_T *vector,
++ uint32_t count,
++ VCHI_FLAGS_T flags,
++ void *msg_handle)
++{
++ SHIM_SERVICE_T *service = (SHIM_SERVICE_T *)handle;
++
++ (void)msg_handle;
++
++ WARN_ON(flags != VCHI_FLAGS_BLOCK_UNTIL_QUEUED);
++
++ return vchiq_status_to_vchi(vchiq_queue_message(service->handle,
++ (const VCHIQ_ELEMENT_T *)vector, count));
++}
++EXPORT_SYMBOL(vchi_msg_queuev);
++
++/***********************************************************
++ * Name: vchi_held_msg_release
++ *
++ * Arguments: VCHI_HELD_MSG_T *message
++ *
++ * Description: Routine to release a held message (after it has been read with
++ * vchi_msg_hold)
++ *
++ * Returns: int32_t - success == 0
++ *
++ ***********************************************************/
++int32_t vchi_held_msg_release(VCHI_HELD_MSG_T *message)
++{
++ vchiq_release_message((VCHIQ_SERVICE_HANDLE_T)message->service,
++ (VCHIQ_HEADER_T *)message->message);
++
++ return 0;
++}
++
++/***********************************************************
++ * Name: vchi_msg_hold
++ *
++ * Arguments: VCHI_SERVICE_HANDLE_T handle,
++ * void **data,
++ * uint32_t *msg_size,
++ * VCHI_FLAGS_T flags,
++ * VCHI_HELD_MSG_T *message_handle
++ *
++ * Description: Routine to return a pointer to the current message (to allow
++ * in place processing). The message is dequeued - don't forget
++ * to release the message using vchi_held_msg_release when you're
++ * finished.
++ *
++ * Returns: int32_t - success == 0
++ *
++ ***********************************************************/
++int32_t vchi_msg_hold(VCHI_SERVICE_HANDLE_T handle,
++ void **data,
++ uint32_t *msg_size,
++ VCHI_FLAGS_T flags,
++ VCHI_HELD_MSG_T *message_handle)
++{
++ SHIM_SERVICE_T *service = (SHIM_SERVICE_T *)handle;
++ VCHIQ_HEADER_T *header;
++
++ WARN_ON((flags != VCHI_FLAGS_NONE) &&
++ (flags != VCHI_FLAGS_BLOCK_UNTIL_OP_COMPLETE));
++
++ if (flags == VCHI_FLAGS_NONE)
++ if (vchiu_queue_is_empty(&service->queue))
++ return -1;
++
++ header = vchiu_queue_pop(&service->queue);
++
++ *data = header->data;
++ *msg_size = header->size;
++
++ message_handle->service =
++ (struct opaque_vchi_service_t *)service->handle;
++ message_handle->message = header;
++
++ return 0;
++}
++
++/***********************************************************
++ * Name: vchi_initialise
++ *
++ * Arguments: VCHI_INSTANCE_T *instance_handle
++ * VCHI_CONNECTION_T **connections
++ * const uint32_t num_connections
++ *
++ * Description: Initialises the hardware but does not transmit anything
++ * When run as a Host App this will be called twice hence the need
++ * to malloc the state information
++ *
++ * Returns: 0 if successful, failure otherwise
++ *
++ ***********************************************************/
++
++int32_t vchi_initialise(VCHI_INSTANCE_T *instance_handle)
++{
++ VCHIQ_INSTANCE_T instance;
++ VCHIQ_STATUS_T status;
++
++ status = vchiq_initialise(&instance);
++
++ *instance_handle = (VCHI_INSTANCE_T)instance;
++
++ return vchiq_status_to_vchi(status);
++}
++EXPORT_SYMBOL(vchi_initialise);
++
++/***********************************************************
++ * Name: vchi_connect
++ *
++ * Arguments: VCHI_CONNECTION_T **connections
++ * const uint32_t num_connections
++ * VCHI_INSTANCE_T instance_handle)
++ *
++ * Description: Starts the command service on each connection,
++ * causing INIT messages to be pinged back and forth
++ *
++ * Returns: 0 if successful, failure otherwise
++ *
++ ***********************************************************/
++int32_t vchi_connect(VCHI_CONNECTION_T **connections,
++ const uint32_t num_connections,
++ VCHI_INSTANCE_T instance_handle)
++{
++ VCHIQ_INSTANCE_T instance = (VCHIQ_INSTANCE_T)instance_handle;
++
++ (void)connections;
++ (void)num_connections;
++
++ return vchiq_connect(instance);
++}
++EXPORT_SYMBOL(vchi_connect);
++
++
++/***********************************************************
++ * Name: vchi_disconnect
++ *
++ * Arguments: VCHI_INSTANCE_T instance_handle
++ *
++ * Description: Stops the command service on each connection,
++ * causing DE-INIT messages to be pinged back and forth
++ *
++ * Returns: 0 if successful, failure otherwise
++ *
++ ***********************************************************/
++int32_t vchi_disconnect(VCHI_INSTANCE_T instance_handle)
++{
++ VCHIQ_INSTANCE_T instance = (VCHIQ_INSTANCE_T)instance_handle;
++ return vchiq_status_to_vchi(vchiq_shutdown(instance));
++}
++EXPORT_SYMBOL(vchi_disconnect);
++
++
++/***********************************************************
++ * Name: vchi_service_open
++ * Name: vchi_service_create
++ *
++ * Arguments: VCHI_INSTANCE_T *instance_handle
++ * SERVICE_CREATION_T *setup,
++ * VCHI_SERVICE_HANDLE_T *handle
++ *
++ * Description: Routine to open a service
++ *
++ * Returns: int32_t - success == 0
++ *
++ ***********************************************************/
++
++static VCHIQ_STATUS_T shim_callback(VCHIQ_REASON_T reason,
++ VCHIQ_HEADER_T *header, VCHIQ_SERVICE_HANDLE_T handle, void *bulk_user)
++{
++ SHIM_SERVICE_T *service =
++ (SHIM_SERVICE_T *)VCHIQ_GET_SERVICE_USERDATA(handle);
++
++ switch (reason) {
++ case VCHIQ_MESSAGE_AVAILABLE:
++ vchiu_queue_push(&service->queue, header);
++
++ if (service->callback)
++ service->callback(service->callback_param,
++ VCHI_CALLBACK_MSG_AVAILABLE, NULL);
++ break;
++ case VCHIQ_BULK_TRANSMIT_DONE:
++ if (service->callback)
++ service->callback(service->callback_param,
++ VCHI_CALLBACK_BULK_SENT, bulk_user);
++ break;
++ case VCHIQ_BULK_RECEIVE_DONE:
++ if (service->callback)
++ service->callback(service->callback_param,
++ VCHI_CALLBACK_BULK_RECEIVED, bulk_user);
++ break;
++ case VCHIQ_SERVICE_CLOSED:
++ if (service->callback)
++ service->callback(service->callback_param,
++ VCHI_CALLBACK_SERVICE_CLOSED, NULL);
++ break;
++ case VCHIQ_SERVICE_OPENED:
++ /* No equivalent VCHI reason */
++ break;
++ case VCHIQ_BULK_TRANSMIT_ABORTED:
++ if (service->callback)
++ service->callback(service->callback_param,
++ VCHI_CALLBACK_BULK_TRANSMIT_ABORTED, bulk_user);
++ break;
++ case VCHIQ_BULK_RECEIVE_ABORTED:
++ if (service->callback)
++ service->callback(service->callback_param,
++ VCHI_CALLBACK_BULK_RECEIVE_ABORTED, bulk_user);
++ break;
++ default:
++ WARN(1, "not supported\n");
++ break;
++ }
++
++ return VCHIQ_SUCCESS;
++}
++
++static SHIM_SERVICE_T *service_alloc(VCHIQ_INSTANCE_T instance,
++ SERVICE_CREATION_T *setup)
++{
++ SHIM_SERVICE_T *service = kzalloc(sizeof(SHIM_SERVICE_T), GFP_KERNEL);
++
++ (void)instance;
++
++ if (service) {
++ if (vchiu_queue_init(&service->queue, 64)) {
++ service->callback = setup->callback;
++ service->callback_param = setup->callback_param;
++ } else {
++ kfree(service);
++ service = NULL;
++ }
++ }
++
++ return service;
++}
++
++static void service_free(SHIM_SERVICE_T *service)
++{
++ if (service) {
++ vchiu_queue_delete(&service->queue);
++ kfree(service);
++ }
++}
++
++int32_t vchi_service_open(VCHI_INSTANCE_T instance_handle,
++ SERVICE_CREATION_T *setup,
++ VCHI_SERVICE_HANDLE_T *handle)
++{
++ VCHIQ_INSTANCE_T instance = (VCHIQ_INSTANCE_T)instance_handle;
++ SHIM_SERVICE_T *service = service_alloc(instance, setup);
++ if (service) {
++ VCHIQ_SERVICE_PARAMS_T params;
++ VCHIQ_STATUS_T status;
++
++ memset(&params, 0, sizeof(params));
++ params.fourcc = setup->service_id;
++ params.callback = shim_callback;
++ params.userdata = service;
++ params.version = setup->version.version;
++ params.version_min = setup->version.version_min;
++
++ status = vchiq_open_service(instance, &params,
++ &service->handle);
++ if (status != VCHIQ_SUCCESS) {
++ service_free(service);
++ service = NULL;
++ }
++ }
++
++ *handle = (VCHI_SERVICE_HANDLE_T)service;
++
++ return (service != NULL) ? 0 : -1;
++}
++EXPORT_SYMBOL(vchi_service_open);
++
++int32_t vchi_service_create(VCHI_INSTANCE_T instance_handle,
++ SERVICE_CREATION_T *setup,
++ VCHI_SERVICE_HANDLE_T *handle)
++{
++ VCHIQ_INSTANCE_T instance = (VCHIQ_INSTANCE_T)instance_handle;
++ SHIM_SERVICE_T *service = service_alloc(instance, setup);
++ if (service) {
++ VCHIQ_SERVICE_PARAMS_T params;
++ VCHIQ_STATUS_T status;
++
++ memset(&params, 0, sizeof(params));
++ params.fourcc = setup->service_id;
++ params.callback = shim_callback;
++ params.userdata = service;
++ params.version = setup->version.version;
++ params.version_min = setup->version.version_min;
++ status = vchiq_add_service(instance, &params, &service->handle);
++
++ if (status != VCHIQ_SUCCESS) {
++ service_free(service);
++ service = NULL;
++ }
++ }
++
++ *handle = (VCHI_SERVICE_HANDLE_T)service;
++
++ return (service != NULL) ? 0 : -1;
++}
++EXPORT_SYMBOL(vchi_service_create);
++
++int32_t vchi_service_close(const VCHI_SERVICE_HANDLE_T handle)
++{
++ int32_t ret = -1;
++ SHIM_SERVICE_T *service = (SHIM_SERVICE_T *)handle;
++ if (service) {
++ VCHIQ_STATUS_T status = vchiq_close_service(service->handle);
++ if (status == VCHIQ_SUCCESS) {
++ service_free(service);
++ service = NULL;
++ }
++
++ ret = vchiq_status_to_vchi(status);
++ }
++ return ret;
++}
++EXPORT_SYMBOL(vchi_service_close);
++
++int32_t vchi_service_destroy(const VCHI_SERVICE_HANDLE_T handle)
++{
++ int32_t ret = -1;
++ SHIM_SERVICE_T *service = (SHIM_SERVICE_T *)handle;
++ if (service) {
++ VCHIQ_STATUS_T status = vchiq_remove_service(service->handle);
++ if (status == VCHIQ_SUCCESS) {
++ service_free(service);
++ service = NULL;
++ }
++
++ ret = vchiq_status_to_vchi(status);
++ }
++ return ret;
++}
++EXPORT_SYMBOL(vchi_service_destroy);
++
++int32_t vchi_get_peer_version( const VCHI_SERVICE_HANDLE_T handle, short *peer_version )
++{
++ int32_t ret = -1;
++ SHIM_SERVICE_T *service = (SHIM_SERVICE_T *)handle;
++ if(service)
++ {
++ VCHIQ_STATUS_T status = vchiq_get_peer_version(service->handle, peer_version);
++ ret = vchiq_status_to_vchi( status );
++ }
++ return ret;
++}
++EXPORT_SYMBOL(vchi_get_peer_version);
++
++/* ----------------------------------------------------------------------
++ * read a uint32_t from buffer.
++ * network format is defined to be little endian
++ * -------------------------------------------------------------------- */
++uint32_t
++vchi_readbuf_uint32(const void *_ptr)
++{
++ const unsigned char *ptr = _ptr;
++ return ptr[0] | (ptr[1] << 8) | (ptr[2] << 16) | (ptr[3] << 24);
++}
++
++/* ----------------------------------------------------------------------
++ * write a uint32_t to buffer.
++ * network format is defined to be little endian
++ * -------------------------------------------------------------------- */
++void
++vchi_writebuf_uint32(void *_ptr, uint32_t value)
++{
++ unsigned char *ptr = _ptr;
++ ptr[0] = (unsigned char)((value >> 0) & 0xFF);
++ ptr[1] = (unsigned char)((value >> 8) & 0xFF);
++ ptr[2] = (unsigned char)((value >> 16) & 0xFF);
++ ptr[3] = (unsigned char)((value >> 24) & 0xFF);
++}
++
++/* ----------------------------------------------------------------------
++ * read a uint16_t from buffer.
++ * network format is defined to be little endian
++ * -------------------------------------------------------------------- */
++uint16_t
++vchi_readbuf_uint16(const void *_ptr)
++{
++ const unsigned char *ptr = _ptr;
++ return ptr[0] | (ptr[1] << 8);
++}
++
++/* ----------------------------------------------------------------------
++ * write a uint16_t into the buffer.
++ * network format is defined to be little endian
++ * -------------------------------------------------------------------- */
++void
++vchi_writebuf_uint16(void *_ptr, uint16_t value)
++{
++ unsigned char *ptr = _ptr;
++ ptr[0] = (value >> 0) & 0xFF;
++ ptr[1] = (value >> 8) & 0xFF;
++}
++
++/***********************************************************
++ * Name: vchi_service_use
++ *
++ * Arguments: const VCHI_SERVICE_HANDLE_T handle
++ *
++ * Description: Routine to increment refcount on a service
++ *
++ * Returns: void
++ *
++ ***********************************************************/
++int32_t vchi_service_use(const VCHI_SERVICE_HANDLE_T handle)
++{
++ int32_t ret = -1;
++ SHIM_SERVICE_T *service = (SHIM_SERVICE_T *)handle;
++ if (service)
++ ret = vchiq_status_to_vchi(vchiq_use_service(service->handle));
++ return ret;
++}
++EXPORT_SYMBOL(vchi_service_use);
++
++/***********************************************************
++ * Name: vchi_service_release
++ *
++ * Arguments: const VCHI_SERVICE_HANDLE_T handle
++ *
++ * Description: Routine to decrement refcount on a service
++ *
++ * Returns: void
++ *
++ ***********************************************************/
++int32_t vchi_service_release(const VCHI_SERVICE_HANDLE_T handle)
++{
++ int32_t ret = -1;
++ SHIM_SERVICE_T *service = (SHIM_SERVICE_T *)handle;
++ if (service)
++ ret = vchiq_status_to_vchi(
++ vchiq_release_service(service->handle));
++ return ret;
++}
++EXPORT_SYMBOL(vchi_service_release);
+diff -urN linux-3.10/drivers/misc/vc04_services/interface/vchiq_arm/vchiq_util.c linux-rpi-3.10.y/drivers/misc/vc04_services/interface/vchiq_arm/vchiq_util.c
+--- linux-3.10/drivers/misc/vc04_services/interface/vchiq_arm/vchiq_util.c 1970-01-01 01:00:00.000000000 +0100
++++ linux-rpi-3.10.y/drivers/misc/vc04_services/interface/vchiq_arm/vchiq_util.c 2013-07-06 15:25:50.000000000 +0100
+@@ -0,0 +1,120 @@
++/**
++ * Copyright (c) 2010-2012 Broadcom. All rights reserved.
++ *
++ * Redistribution and use in source and binary forms, with or without
++ * modification, are permitted provided that the following conditions
++ * are met:
++ * 1. Redistributions of source code must retain the above copyright
++ * notice, this list of conditions, and the following disclaimer,
++ * without modification.
++ * 2. Redistributions in binary form must reproduce the above copyright
++ * notice, this list of conditions and the following disclaimer in the
++ * documentation and/or other materials provided with the distribution.
++ * 3. The names of the above-listed copyright holders may not be used
++ * to endorse or promote products derived from this software without
++ * specific prior written permission.
++ *
++ * ALTERNATIVELY, this software may be distributed under the terms of the
++ * GNU General Public License ("GPL") version 2, as published by the Free
++ * Software Foundation.
++ *
++ * THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS
++ * IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO,
++ * THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR
++ * PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT OWNER OR
++ * CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL,
++ * EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO,
++ * PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR
++ * PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF
++ * LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING
++ * NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS
++ * SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
++ */
++
++#include "vchiq_util.h"
++
++static inline int is_pow2(int i)
++{
++ return i && !(i & (i - 1));
++}
++
++int vchiu_queue_init(VCHIU_QUEUE_T *queue, int size)
++{
++ WARN_ON(!is_pow2(size));
++
++ queue->size = size;
++ queue->read = 0;
++ queue->write = 0;
++
++ sema_init(&queue->pop, 0);
++ sema_init(&queue->push, 0);
++
++ queue->storage = kzalloc(size * sizeof(VCHIQ_HEADER_T *), GFP_KERNEL);
++ if (queue->storage == NULL) {
++ vchiu_queue_delete(queue);
++ return 0;
++ }
++ return 1;
++}
++
++void vchiu_queue_delete(VCHIU_QUEUE_T *queue)
++{
++ if (queue->storage != NULL)
++ kfree(queue->storage);
++}
++
++int vchiu_queue_is_empty(VCHIU_QUEUE_T *queue)
++{
++ return queue->read == queue->write;
++}
++
++int vchiu_queue_is_full(VCHIU_QUEUE_T *queue)
++{
++ return queue->write == queue->read + queue->size;
++}
++
++void vchiu_queue_push(VCHIU_QUEUE_T *queue, VCHIQ_HEADER_T *header)
++{
++ while (queue->write == queue->read + queue->size) {
++ if (down_interruptible(&queue->pop) != 0) {
++ flush_signals(current);
++ }
++ }
++
++ queue->storage[queue->write & (queue->size - 1)] = header;
++
++ queue->write++;
++
++ up(&queue->push);
++}
++
++VCHIQ_HEADER_T *vchiu_queue_peek(VCHIU_QUEUE_T *queue)
++{
++ while (queue->write == queue->read) {
++ if (down_interruptible(&queue->push) != 0) {
++ flush_signals(current);
++ }
++ }
++
++ up(&queue->push); // We haven't removed anything from the queue.
++ return queue->storage[queue->read & (queue->size - 1)];
++}
++
++VCHIQ_HEADER_T *vchiu_queue_pop(VCHIU_QUEUE_T *queue)
++{
++ VCHIQ_HEADER_T *header;
++
++ while (queue->write == queue->read) {
++ if (down_interruptible(&queue->push) != 0) {
++ flush_signals(current);
++ }
++ }
++
++ header = queue->storage[queue->read & (queue->size - 1)];
++
++ queue->read++;
++
++ up(&queue->pop);
++
++ return header;
++}
+diff -urN linux-3.10/drivers/misc/vc04_services/interface/vchiq_arm/vchiq_util.h linux-rpi-3.10.y/drivers/misc/vc04_services/interface/vchiq_arm/vchiq_util.h
+--- linux-3.10/drivers/misc/vc04_services/interface/vchiq_arm/vchiq_util.h 1970-01-01 01:00:00.000000000 +0100
++++ linux-rpi-3.10.y/drivers/misc/vc04_services/interface/vchiq_arm/vchiq_util.h 2013-07-06 15:25:50.000000000 +0100
+@@ -0,0 +1,82 @@
++/**
++ * Copyright (c) 2010-2012 Broadcom. All rights reserved.
++ *
++ * Redistribution and use in source and binary forms, with or without
++ * modification, are permitted provided that the following conditions
++ * are met:
++ * 1. Redistributions of source code must retain the above copyright
++ * notice, this list of conditions, and the following disclaimer,
++ * without modification.
++ * 2. Redistributions in binary form must reproduce the above copyright
++ * notice, this list of conditions and the following disclaimer in the
++ * documentation and/or other materials provided with the distribution.
++ * 3. The names of the above-listed copyright holders may not be used
++ * to endorse or promote products derived from this software without
++ * specific prior written permission.
++ *
++ * ALTERNATIVELY, this software may be distributed under the terms of the
++ * GNU General Public License ("GPL") version 2, as published by the Free
++ * Software Foundation.
++ *
++ * THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS
++ * IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO,
++ * THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR
++ * PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT OWNER OR
++ * CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL,
++ * EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO,
++ * PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR
++ * PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF
++ * LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING
++ * NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS
++ * SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
++ */
++
++#ifndef VCHIQ_UTIL_H
++#define VCHIQ_UTIL_H
++
++#include <linux/types.h>
++#include <linux/semaphore.h>
++#include <linux/mutex.h>
++#include <linux/bitops.h>
++#include <linux/kthread.h>
++#include <linux/wait.h>
++#include <linux/vmalloc.h>
++#include <linux/jiffies.h>
++#include <linux/delay.h>
++#include <linux/string.h>
++#include <linux/types.h>
++#include <linux/interrupt.h>
++#include <linux/random.h>
++#include <linux/sched.h>
++#include <linux/ctype.h>
++#include <linux/uaccess.h>
++#include <linux/time.h> /* for time_t */
++#include <linux/slab.h>
++#include <linux/vmalloc.h>
++
++#include "vchiq_if.h"
++
++typedef struct {
++ int size;
++ int read;
++ int write;
++
++ struct semaphore pop;
++ struct semaphore push;
++
++ VCHIQ_HEADER_T **storage;
++} VCHIU_QUEUE_T;
++
++extern int vchiu_queue_init(VCHIU_QUEUE_T *queue, int size);
++extern void vchiu_queue_delete(VCHIU_QUEUE_T *queue);
++
++extern int vchiu_queue_is_empty(VCHIU_QUEUE_T *queue);
++extern int vchiu_queue_is_full(VCHIU_QUEUE_T *queue);
++
++extern void vchiu_queue_push(VCHIU_QUEUE_T *queue, VCHIQ_HEADER_T *header);
++
++extern VCHIQ_HEADER_T *vchiu_queue_peek(VCHIU_QUEUE_T *queue);
++extern VCHIQ_HEADER_T *vchiu_queue_pop(VCHIU_QUEUE_T *queue);
++
++#endif
++
+diff -urN linux-3.10/drivers/misc/vc04_services/interface/vchiq_arm/vchiq_version.c linux-rpi-3.10.y/drivers/misc/vc04_services/interface/vchiq_arm/vchiq_version.c
+--- linux-3.10/drivers/misc/vc04_services/interface/vchiq_arm/vchiq_version.c 1970-01-01 01:00:00.000000000 +0100
++++ linux-rpi-3.10.y/drivers/misc/vc04_services/interface/vchiq_arm/vchiq_version.c 2013-07-06 15:25:50.000000000 +0100
+@@ -0,0 +1,59 @@
++/**
++ * Copyright (c) 2010-2012 Broadcom. All rights reserved.
++ *
++ * Redistribution and use in source and binary forms, with or without
++ * modification, are permitted provided that the following conditions
++ * are met:
++ * 1. Redistributions of source code must retain the above copyright
++ * notice, this list of conditions, and the following disclaimer,
++ * without modification.
++ * 2. Redistributions in binary form must reproduce the above copyright
++ * notice, this list of conditions and the following disclaimer in the
++ * documentation and/or other materials provided with the distribution.
++ * 3. The names of the above-listed copyright holders may not be used
++ * to endorse or promote products derived from this software without
++ * specific prior written permission.
++ *
++ * ALTERNATIVELY, this software may be distributed under the terms of the
++ * GNU General Public License ("GPL") version 2, as published by the Free
++ * Software Foundation.
++ *
++ * THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS
++ * IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO,
++ * THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR
++ * PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT OWNER OR
++ * CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL,
++ * EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO,
++ * PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR
++ * PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF
++ * LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING
++ * NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS
++ * SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
++ */
++#include "vchiq_build_info.h"
++#include <linux/broadcom/vc_debug_sym.h>
++
++VC_DEBUG_DECLARE_STRING_VAR( vchiq_build_hostname, "dc4-arm-01" );
++VC_DEBUG_DECLARE_STRING_VAR( vchiq_build_version, "9245b4c35b99b3870e1f7dc598c5692b3c66a6f0 (tainted)" );
++VC_DEBUG_DECLARE_STRING_VAR( vchiq_build_time, __TIME__ );
++VC_DEBUG_DECLARE_STRING_VAR( vchiq_build_date, __DATE__ );
++
++const char *vchiq_get_build_hostname( void )
++{
++ return vchiq_build_hostname;
++}
++
++const char *vchiq_get_build_version( void )
++{
++ return vchiq_build_version;
++}
++
++const char *vchiq_get_build_date( void )
++{
++ return vchiq_build_date;
++}
++
++const char *vchiq_get_build_time( void )
++{
++ return vchiq_build_time;
++}
+diff -urN linux-3.10/drivers/misc/vc04_services/Kconfig linux-rpi-3.10.y/drivers/misc/vc04_services/Kconfig
+--- linux-3.10/drivers/misc/vc04_services/Kconfig 1970-01-01 01:00:00.000000000 +0100
++++ linux-rpi-3.10.y/drivers/misc/vc04_services/Kconfig 2013-07-06 15:25:50.000000000 +0100
+@@ -0,0 +1,10 @@
++config BCM2708_VCHIQ
++ tristate "Videocore VCHIQ"
++ depends on MACH_BCM2708
++ default y
++ help
++ Kernel to VideoCore communication interface for the
++ BCM2708 family of products.
++ Defaults to Y when the Broadcom Videocore services
++ are included in the build, N otherwise.
++
+diff -urN linux-3.10/drivers/misc/vc04_services/Makefile linux-rpi-3.10.y/drivers/misc/vc04_services/Makefile
+--- linux-3.10/drivers/misc/vc04_services/Makefile 1970-01-01 01:00:00.000000000 +0100
++++ linux-rpi-3.10.y/drivers/misc/vc04_services/Makefile 2013-07-06 15:25:50.000000000 +0100
+@@ -0,0 +1,18 @@
++ifeq ($(CONFIG_MACH_BCM2708),y)
++
++obj-$(CONFIG_BCM2708_VCHIQ) += vchiq.o
++
++vchiq-objs := \
++ interface/vchiq_arm/vchiq_core.o \
++ interface/vchiq_arm/vchiq_arm.o \
++ interface/vchiq_arm/vchiq_kern_lib.o \
++ interface/vchiq_arm/vchiq_2835_arm.o \
++ interface/vchiq_arm/vchiq_proc.o \
++ interface/vchiq_arm/vchiq_shim.o \
++ interface/vchiq_arm/vchiq_util.o \
++ interface/vchiq_arm/vchiq_connected.o \
++
++EXTRA_CFLAGS += -DVCOS_VERIFY_BKPTS=1 -Idrivers/misc/vc04_services -DUSE_VCHIQ_ARM -D__VCCOREVER__=0x04000000
++
++endif
++
+diff -urN linux-3.10/include/linux/broadcom/vc_cma.h linux-rpi-3.10.y/include/linux/broadcom/vc_cma.h
+--- linux-3.10/include/linux/broadcom/vc_cma.h 1970-01-01 01:00:00.000000000 +0100
++++ linux-rpi-3.10.y/include/linux/broadcom/vc_cma.h 2013-07-06 15:25:50.000000000 +0100
+@@ -0,0 +1,30 @@
++/*****************************************************************************
++* Copyright 2012 Broadcom Corporation. All rights reserved.
++*
++* Unless you and Broadcom execute a separate written software license
++* agreement governing use of this software, this software is licensed to you
++* under the terms of the GNU General Public License version 2, available at
++* http://www.broadcom.com/licenses/GPLv2.php (the "GPL").
++*
++* Notwithstanding the above, under no circumstances may you combine this
++* software in any way with any other Broadcom software provided under a
++* license other than the GPL, without Broadcom's express prior written
++* consent.
++*****************************************************************************/
++
++#if !defined( VC_CMA_H )
++#define VC_CMA_H
++
++#include <linux/ioctl.h>
++
++#define VC_CMA_IOC_MAGIC 0xc5
++
++#define VC_CMA_IOC_RESERVE _IO(VC_CMA_IOC_MAGIC, 0)
++
++#ifdef __KERNEL__
++extern void __init vc_cma_early_init(void);
++extern void __init vc_cma_reserve(void);
++#endif
++
++#endif /* VC_CMA_H */
++
diff --git a/target/linux/brcm2708/patches-3.10/006-Allow-mac-address-to-be-set-in-smsc95xx.patch b/target/linux/brcm2708/patches-3.10/006-Allow-mac-address-to-be-set-in-smsc95xx.patch
new file mode 100644
index 0000000000..5a243bba65
--- /dev/null
+++ b/target/linux/brcm2708/patches-3.10/006-Allow-mac-address-to-be-set-in-smsc95xx.patch
@@ -0,0 +1,82 @@
+diff -urN linux-3.10/drivers/net/usb/smsc95xx.c linux-rpi-3.10.y/drivers/net/usb/smsc95xx.c
+--- linux-3.10/drivers/net/usb/smsc95xx.c 2013-06-30 23:13:29.000000000 +0100
++++ linux-rpi-3.10.y/drivers/net/usb/smsc95xx.c 2013-07-06 15:25:50.000000000 +0100
+@@ -61,6 +61,7 @@
+ #define SUSPEND_SUSPEND3 (0x08)
+ #define SUSPEND_ALLMODES (SUSPEND_SUSPEND0 | SUSPEND_SUSPEND1 | \
+ SUSPEND_SUSPEND2 | SUSPEND_SUSPEND3)
++#define MAC_ADDR_LEN (6)
+
+ struct smsc95xx_priv {
+ u32 mac_cr;
+@@ -76,6 +77,10 @@
+ module_param(turbo_mode, bool, 0644);
+ MODULE_PARM_DESC(turbo_mode, "Enable multiple frames per Rx transaction");
+
++static char *macaddr = ":";
++module_param(macaddr, charp, 0);
++MODULE_PARM_DESC(macaddr, "MAC address");
++
+ static int __must_check __smsc95xx_read_reg(struct usbnet *dev, u32 index,
+ u32 *data, int in_pm)
+ {
+@@ -765,8 +770,59 @@
+ return generic_mii_ioctl(&dev->mii, if_mii(rq), cmd, NULL);
+ }
+
++/* Check the macaddr module parameter for a MAC address */
++static int smsc95xx_is_macaddr_param(struct usbnet *dev, u8 *dev_mac)
++{
++ int i, j, got_num, num;
++ u8 mtbl[MAC_ADDR_LEN];
++
++ if (macaddr[0] == ':')
++ return 0;
++
++ i = 0;
++ j = 0;
++ num = 0;
++ got_num = 0;
++ while (j < MAC_ADDR_LEN) {
++ if (macaddr[i] && macaddr[i] != ':') {
++ got_num++;
++ if ('0' <= macaddr[i] && macaddr[i] <= '9')
++ num = num * 16 + macaddr[i] - '0';
++ else if ('A' <= macaddr[i] && macaddr[i] <= 'F')
++ num = num * 16 + 10 + macaddr[i] - 'A';
++ else if ('a' <= macaddr[i] && macaddr[i] <= 'f')
++ num = num * 16 + 10 + macaddr[i] - 'a';
++ else
++ break;
++ i++;
++ } else if (got_num == 2) {
++ mtbl[j++] = (u8) num;
++ num = 0;
++ got_num = 0;
++ i++;
++ } else {
++ break;
++ }
++ }
++
++ if (j == MAC_ADDR_LEN) {
++ netif_dbg(dev, ifup, dev->net, "Overriding MAC address with: "
++ "%02x:%02x:%02x:%02x:%02x:%02x\n", mtbl[0], mtbl[1], mtbl[2],
++ mtbl[3], mtbl[4], mtbl[5]);
++ for (i = 0; i < MAC_ADDR_LEN; i++)
++ dev_mac[i] = mtbl[i];
++ return 1;
++ } else {
++ return 0;
++ }
++}
++
+ static void smsc95xx_init_mac_address(struct usbnet *dev)
+ {
++ /* Check module parameters */
++ if (smsc95xx_is_macaddr_param(dev, dev->net->dev_addr))
++ return;
++
+ /* try reading mac address from EEPROM */
+ if (smsc95xx_read_eeprom(dev, EEPROM_MAC_OFFSET, ETH_ALEN,
+ dev->net->dev_addr) == 0) {
diff --git a/target/linux/brcm2708/patches-3.10/007-bcm2708_hw_random-driver.patch b/target/linux/brcm2708/patches-3.10/007-bcm2708_hw_random-driver.patch
new file mode 100644
index 0000000000..480532616e
--- /dev/null
+++ b/target/linux/brcm2708/patches-3.10/007-bcm2708_hw_random-driver.patch
@@ -0,0 +1,148 @@
+diff -urN linux-3.10/drivers/char/hw_random/bcm2708-rng.c linux-rpi-3.10.y/drivers/char/hw_random/bcm2708-rng.c
+--- linux-3.10/drivers/char/hw_random/bcm2708-rng.c 1970-01-01 01:00:00.000000000 +0100
++++ linux-rpi-3.10.y/drivers/char/hw_random/bcm2708-rng.c 2013-07-06 15:25:50.000000000 +0100
+@@ -0,0 +1,117 @@
++/**
++ * Copyright (c) 2010-2012 Broadcom. All rights reserved.
++ *
++ * Redistribution and use in source and binary forms, with or without
++ * modification, are permitted provided that the following conditions
++ * are met:
++ * 1. Redistributions of source code must retain the above copyright
++ * notice, this list of conditions, and the following disclaimer,
++ * without modification.
++ * 2. Redistributions in binary form must reproduce the above copyright
++ * notice, this list of conditions and the following disclaimer in the
++ * documentation and/or other materials provided with the distribution.
++ * 3. The names of the above-listed copyright holders may not be used
++ * to endorse or promote products derived from this software without
++ * specific prior written permission.
++ *
++ * ALTERNATIVELY, this software may be distributed under the terms of the
++ * GNU General Public License ("GPL") version 2, as published by the Free
++ * Software Foundation.
++ *
++ * THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS
++ * IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO,
++ * THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR
++ * PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT OWNER OR
++ * CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL,
++ * EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO,
++ * PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR
++ * PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF
++ * LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING
++ * NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS
++ * SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
++ */
++
++#include <linux/kernel.h>
++#include <linux/module.h>
++#include <linux/init.h>
++#include <linux/hw_random.h>
++#include <linux/printk.h>
++
++#include <asm/io.h>
++#include <mach/hardware.h>
++#include <mach/platform.h>
++
++#define RNG_CTRL (0x0)
++#define RNG_STATUS (0x4)
++#define RNG_DATA (0x8)
++#define RNG_FF_THRESHOLD (0xc)
++
++/* enable rng */
++#define RNG_RBGEN 0x1
++/* double speed, less random mode */
++#define RNG_RBG2X 0x2
++
++/* the initial numbers generated are "less random" so will be discarded */
++#define RNG_WARMUP_COUNT 0x40000
++
++static int bcm2708_rng_data_read(struct hwrng *rng, u32 *buffer)
++{
++ void __iomem *rng_base = (void __iomem *)rng->priv;
++ unsigned words;
++ /* wait for a random number to be in fifo */
++ do {
++ words = __raw_readl(rng_base + RNG_STATUS)>>24;
++ }
++ while (words == 0);
++ /* read the random number */
++ *buffer = __raw_readl(rng_base + RNG_DATA);
++ return 4;
++}
++
++static struct hwrng bcm2708_rng_ops = {
++ .name = "bcm2708",
++ .data_read = bcm2708_rng_data_read,
++};
++
++static int __init bcm2708_rng_init(void)
++{
++ void __iomem *rng_base;
++ int err;
++
++ /* map peripheral */
++ rng_base = ioremap(RNG_BASE, 0x10);
++ pr_info("bcm2708_rng_init=%p\n", rng_base);
++ if (!rng_base) {
++ pr_err("bcm2708_rng_init failed to ioremap\n");
++ return -ENOMEM;
++ }
++ bcm2708_rng_ops.priv = (unsigned long)rng_base;
++ /* register driver */
++ err = hwrng_register(&bcm2708_rng_ops);
++ if (err) {
++ pr_err("bcm2708_rng_init hwrng_register()=%d\n", err);
++ iounmap(rng_base);
++ } else {
++ /* set warm-up count & enable */
++ __raw_writel(RNG_WARMUP_COUNT, rng_base + RNG_STATUS);
++ __raw_writel(RNG_RBGEN, rng_base + RNG_CTRL);
++ }
++ return err;
++}
++
++static void __exit bcm2708_rng_exit(void)
++{
++ void __iomem *rng_base = (void __iomem *)bcm2708_rng_ops.priv;
++ pr_info("bcm2708_rng_exit\n");
++ /* disable rng hardware */
++ __raw_writel(0, rng_base + RNG_CTRL);
++ /* unregister driver */
++ hwrng_unregister(&bcm2708_rng_ops);
++ iounmap(rng_base);
++}
++
++module_init(bcm2708_rng_init);
++module_exit(bcm2708_rng_exit);
++
++MODULE_DESCRIPTION("BCM2708 H/W Random Number Generator (RNG) driver");
++MODULE_LICENSE("GPL and additional rights");
+diff -urN linux-3.10/drivers/char/hw_random/Kconfig linux-rpi-3.10.y/drivers/char/hw_random/Kconfig
+--- linux-3.10/drivers/char/hw_random/Kconfig 2013-06-30 23:13:29.000000000 +0100
++++ linux-rpi-3.10.y/drivers/char/hw_random/Kconfig 2013-07-06 15:25:50.000000000 +0100
+@@ -314,3 +314,15 @@
+ module will be called tpm-rng.
+
+ If unsure, say Y.
++
++config HW_RANDOM_BCM2708
++ tristate "BCM2708 generic true random number generator support"
++ depends on HW_RANDOM && ARCH_BCM2708
++ ---help---
++ This driver provides the kernel-side support for the BCM2708 hardware.
++
++ To compile this driver as a module, choose M here: the
++ module will be called bcm2708-rng.
++
++ If unsure, say N.
++
+diff -urN linux-3.10/drivers/char/hw_random/Makefile linux-rpi-3.10.y/drivers/char/hw_random/Makefile
+--- linux-3.10/drivers/char/hw_random/Makefile 2013-06-30 23:13:29.000000000 +0100
++++ linux-rpi-3.10.y/drivers/char/hw_random/Makefile 2013-07-06 15:25:50.000000000 +0100
+@@ -27,3 +27,4 @@
+ obj-$(CONFIG_HW_RANDOM_EXYNOS) += exynos-rng.o
+ obj-$(CONFIG_HW_RANDOM_TPM) += tpm-rng.o
+ obj-$(CONFIG_HW_RANDOM_BCM2835) += bcm2835-rng.o
++obj-$(CONFIG_HW_RANDOM_BCM2708) += bcm2708-rng.o
diff --git a/target/linux/brcm2708/patches-3.10/008-lirc_rpi_driver.patch b/target/linux/brcm2708/patches-3.10/008-lirc_rpi_driver.patch
new file mode 100644
index 0000000000..ca23a3a9a7
--- /dev/null
+++ b/target/linux/brcm2708/patches-3.10/008-lirc_rpi_driver.patch
@@ -0,0 +1,723 @@
+diff -urN linux-3.10/drivers/staging/media/lirc/Kconfig linux-rpi-3.10.y/drivers/staging/media/lirc/Kconfig
+--- linux-3.10/drivers/staging/media/lirc/Kconfig 2013-06-30 23:13:29.000000000 +0100
++++ linux-rpi-3.10.y/drivers/staging/media/lirc/Kconfig 2013-07-06 15:25:50.000000000 +0100
+@@ -38,6 +38,12 @@
+ help
+ Driver for Homebrew Parallel Port Receivers
+
++config LIRC_RPI
++ tristate "Homebrew GPIO Port Receiver/Transmitter for the RaspberryPi"
++ depends on LIRC
++ help
++ Driver for Homebrew GPIO Port Receiver/Transmitter for the RaspberryPi
++
+ config LIRC_SASEM
+ tristate "Sasem USB IR Remote"
+ depends on LIRC && USB
+diff -urN linux-3.10/drivers/staging/media/lirc/lirc_rpi.c linux-rpi-3.10.y/drivers/staging/media/lirc/lirc_rpi.c
+--- linux-3.10/drivers/staging/media/lirc/lirc_rpi.c 1970-01-01 01:00:00.000000000 +0100
++++ linux-rpi-3.10.y/drivers/staging/media/lirc/lirc_rpi.c 2013-07-06 15:25:50.000000000 +0100
+@@ -0,0 +1,692 @@
++/*
++ * lirc_rpi.c
++ *
++ * lirc_rpi - Device driver that records pulse- and pause-lengths
++ * (space-lengths) (just like the lirc_serial driver does)
++ * between GPIO interrupt events on the Raspberry Pi.
++ * Lots of code has been taken from the lirc_serial module,
++ * so I would like say thanks to the authors.
++ *
++ * Copyright (C) 2012 Aron Robert Szabo <aron@reon.hu>,
++ * Michael Bishop <cleverca22@gmail.com>
++ * This program is free software; you can redistribute it and/or modify
++ * it under the terms of the GNU General Public License as published by
++ * the Free Software Foundation; either version 2 of the License, or
++ * (at your option) any later version.
++ *
++ * This program is distributed in the hope that it will be useful,
++ * but WITHOUT ANY WARRANTY; without even the implied warranty of
++ * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
++ * GNU General Public License for more details.
++ *
++ * You should have received a copy of the GNU General Public License
++ * along with this program; if not, write to the Free Software
++ * Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA
++ */
++
++#include <linux/module.h>
++#include <linux/errno.h>
++#include <linux/interrupt.h>
++#include <linux/sched.h>
++#include <linux/kernel.h>
++#include <linux/time.h>
++#include <linux/string.h>
++#include <linux/delay.h>
++#include <linux/platform_device.h>
++#include <linux/irq.h>
++#include <linux/spinlock.h>
++#include <media/lirc.h>
++#include <media/lirc_dev.h>
++#include <linux/gpio.h>
++
++#define LIRC_DRIVER_NAME "lirc_rpi"
++#define RBUF_LEN 256
++#define LIRC_TRANSMITTER_LATENCY 256
++
++#ifndef MAX_UDELAY_MS
++#define MAX_UDELAY_US 5000
++#else
++#define MAX_UDELAY_US (MAX_UDELAY_MS*1000)
++#endif
++
++#define dprintk(fmt, args...) \
++ do { \
++ if (debug) \
++ printk(KERN_DEBUG LIRC_DRIVER_NAME ": " \
++ fmt, ## args); \
++ } while (0)
++
++/* module parameters */
++
++/* set the default GPIO input pin */
++static int gpio_in_pin = 18;
++/* set the default GPIO output pin */
++static int gpio_out_pin = 17;
++/* enable debugging messages */
++static int debug;
++/* -1 = auto, 0 = active high, 1 = active low */
++static int sense = -1;
++/* use softcarrier by default */
++static int softcarrier = 1;
++/* 0 = do not invert output, 1 = invert output */
++static int invert = 0;
++
++struct gpio_chip *gpiochip;
++struct irq_chip *irqchip;
++struct irq_data *irqdata;
++
++/* forward declarations */
++static long send_pulse(unsigned long length);
++static void send_space(long length);
++static void lirc_rpi_exit(void);
++
++int valid_gpio_pins[] = { 0, 1, 4, 8, 7, 9, 10, 11, 14, 15, 17, 18, 21, 22, 23,
++ 24, 25 };
++
++static struct platform_device *lirc_rpi_dev;
++static struct timeval lasttv = { 0, 0 };
++static struct lirc_buffer rbuf;
++static spinlock_t lock;
++
++/* initialized/set in init_timing_params() */
++static unsigned int freq = 38000;
++static unsigned int duty_cycle = 50;
++static unsigned long period;
++static unsigned long pulse_width;
++static unsigned long space_width;
++
++static void safe_udelay(unsigned long usecs)
++{
++ while (usecs > MAX_UDELAY_US) {
++ udelay(MAX_UDELAY_US);
++ usecs -= MAX_UDELAY_US;
++ }
++ udelay(usecs);
++}
++
++static int init_timing_params(unsigned int new_duty_cycle,
++ unsigned int new_freq)
++{
++ /*
++ * period, pulse/space width are kept with 8 binary places -
++ * IE multiplied by 256.
++ */
++ if (256 * 1000000L / new_freq * new_duty_cycle / 100 <=
++ LIRC_TRANSMITTER_LATENCY)
++ return -EINVAL;
++ if (256 * 1000000L / new_freq * (100 - new_duty_cycle) / 100 <=
++ LIRC_TRANSMITTER_LATENCY)
++ return -EINVAL;
++ duty_cycle = new_duty_cycle;
++ freq = new_freq;
++ period = 256 * 1000000L / freq;
++ pulse_width = period * duty_cycle / 100;
++ space_width = period - pulse_width;
++ dprintk("in init_timing_params, freq=%d pulse=%ld, "
++ "space=%ld\n", freq, pulse_width, space_width);
++ return 0;
++}
++
++static long send_pulse_softcarrier(unsigned long length)
++{
++ int flag;
++ unsigned long actual, target, d;
++
++ length <<= 8;
++
++ actual = 0; target = 0; flag = 0;
++ while (actual < length) {
++ if (flag) {
++ gpiochip->set(gpiochip, gpio_out_pin, invert);
++ target += space_width;
++ } else {
++ gpiochip->set(gpiochip, gpio_out_pin, !invert);
++ target += pulse_width;
++ }
++ d = (target - actual -
++ LIRC_TRANSMITTER_LATENCY + 128) >> 8;
++ /*
++ * Note - we've checked in ioctl that the pulse/space
++ * widths are big enough so that d is > 0
++ */
++ udelay(d);
++ actual += (d << 8) + LIRC_TRANSMITTER_LATENCY;
++ flag = !flag;
++ }
++ return (actual-length) >> 8;
++}
++
++static long send_pulse(unsigned long length)
++{
++ if (length <= 0)
++ return 0;
++
++ if (softcarrier) {
++ return send_pulse_softcarrier(length);
++ } else {
++ gpiochip->set(gpiochip, gpio_out_pin, !invert);
++ safe_udelay(length);
++ return 0;
++ }
++}
++
++static void send_space(long length)
++{
++ gpiochip->set(gpiochip, gpio_out_pin, invert);
++ if (length <= 0)
++ return;
++ safe_udelay(length);
++}
++
++static void rbwrite(int l)
++{
++ if (lirc_buffer_full(&rbuf)) {
++ /* no new signals will be accepted */
++ dprintk("Buffer overrun\n");
++ return;
++ }
++ lirc_buffer_write(&rbuf, (void *)&l);
++}
++
++static void frbwrite(int l)
++{
++ /* simple noise filter */
++ static int pulse, space;
++ static unsigned int ptr;
++
++ if (ptr > 0 && (l & PULSE_BIT)) {
++ pulse += l & PULSE_MASK;
++ if (pulse > 250) {
++ rbwrite(space);
++ rbwrite(pulse | PULSE_BIT);
++ ptr = 0;
++ pulse = 0;
++ }
++ return;
++ }
++ if (!(l & PULSE_BIT)) {
++ if (ptr == 0) {
++ if (l > 20000) {
++ space = l;
++ ptr++;
++ return;
++ }
++ } else {
++ if (l > 20000) {
++ space += pulse;
++ if (space > PULSE_MASK)
++ space = PULSE_MASK;
++ space += l;
++ if (space > PULSE_MASK)
++ space = PULSE_MASK;
++ pulse = 0;
++ return;
++ }
++ rbwrite(space);
++ rbwrite(pulse | PULSE_BIT);
++ ptr = 0;
++ pulse = 0;
++ }
++ }
++ rbwrite(l);
++}
++
++static irqreturn_t irq_handler(int i, void *blah, struct pt_regs *regs)
++{
++ struct timeval tv;
++ long deltv;
++ int data;
++ int signal;
++
++ /* use the GPIO signal level */
++ signal = gpiochip->get(gpiochip, gpio_in_pin);
++
++ /* unmask the irq */
++ irqchip->irq_unmask(irqdata);
++
++ if (sense != -1) {
++ /* get current time */
++ do_gettimeofday(&tv);
++
++ /* calc time since last interrupt in microseconds */
++ deltv = tv.tv_sec-lasttv.tv_sec;
++ if (tv.tv_sec < lasttv.tv_sec ||
++ (tv.tv_sec == lasttv.tv_sec &&
++ tv.tv_usec < lasttv.tv_usec)) {
++ printk(KERN_WARNING LIRC_DRIVER_NAME
++ ": AIEEEE: your clock just jumped backwards\n");
++ printk(KERN_WARNING LIRC_DRIVER_NAME
++ ": %d %d %lx %lx %lx %lx\n", signal, sense,
++ tv.tv_sec, lasttv.tv_sec,
++ tv.tv_usec, lasttv.tv_usec);
++ data = PULSE_MASK;
++ } else if (deltv > 15) {
++ data = PULSE_MASK; /* really long time */
++ if (!(signal^sense)) {
++ /* sanity check */
++ printk(KERN_WARNING LIRC_DRIVER_NAME
++ ": AIEEEE: %d %d %lx %lx %lx %lx\n",
++ signal, sense, tv.tv_sec, lasttv.tv_sec,
++ tv.tv_usec, lasttv.tv_usec);
++ /*
++ * detecting pulse while this
++ * MUST be a space!
++ */
++ sense = sense ? 0 : 1;
++ }
++ } else {
++ data = (int) (deltv*1000000 +
++ (tv.tv_usec - lasttv.tv_usec));
++ }
++ frbwrite(signal^sense ? data : (data|PULSE_BIT));
++ lasttv = tv;
++ wake_up_interruptible(&rbuf.wait_poll);
++ }
++
++ return IRQ_HANDLED;
++}
++
++static int is_right_chip(struct gpio_chip *chip, void *data)
++{
++ dprintk("is_right_chip %s %d\n", chip->label, strcmp(data, chip->label));
++
++ if (strcmp(data, chip->label) == 0)
++ return 1;
++ return 0;
++}
++
++static int init_port(void)
++{
++ int i, nlow, nhigh, ret, irq;
++
++ gpiochip = gpiochip_find("bcm2708_gpio", is_right_chip);
++
++ if (!gpiochip)
++ return -ENODEV;
++
++ if (gpio_request(gpio_out_pin, LIRC_DRIVER_NAME " ir/out")) {
++ printk(KERN_ALERT LIRC_DRIVER_NAME
++ ": cant claim gpio pin %d\n", gpio_out_pin);
++ ret = -ENODEV;
++ goto exit_init_port;
++ }
++
++ if (gpio_request(gpio_in_pin, LIRC_DRIVER_NAME " ir/in")) {
++ printk(KERN_ALERT LIRC_DRIVER_NAME
++ ": cant claim gpio pin %d\n", gpio_in_pin);
++ ret = -ENODEV;
++ goto exit_gpio_free_out_pin;
++ }
++
++ gpiochip->direction_input(gpiochip, gpio_in_pin);
++ gpiochip->direction_output(gpiochip, gpio_out_pin, 1);
++ gpiochip->set(gpiochip, gpio_out_pin, invert);
++
++ irq = gpiochip->to_irq(gpiochip, gpio_in_pin);
++ dprintk("to_irq %d\n", irq);
++ irqdata = irq_get_irq_data(irq);
++
++ if (irqdata && irqdata->chip) {
++ irqchip = irqdata->chip;
++ } else {
++ ret = -ENODEV;
++ goto exit_gpio_free_in_pin;
++ }
++
++ /* if pin is high, then this must be an active low receiver. */
++ if (sense == -1) {
++ /* wait 1/2 sec for the power supply */
++ msleep(500);
++
++ /*
++ * probe 9 times every 0.04s, collect "votes" for
++ * active high/low
++ */
++ nlow = 0;
++ nhigh = 0;
++ for (i = 0; i < 9; i++) {
++ if (gpiochip->get(gpiochip, gpio_in_pin))
++ nlow++;
++ else
++ nhigh++;
++ msleep(40);
++ }
++ sense = (nlow >= nhigh ? 1 : 0);
++ printk(KERN_INFO LIRC_DRIVER_NAME
++ ": auto-detected active %s receiver on GPIO pin %d\n",
++ sense ? "low" : "high", gpio_in_pin);
++ } else {
++ printk(KERN_INFO LIRC_DRIVER_NAME
++ ": manually using active %s receiver on GPIO pin %d\n",
++ sense ? "low" : "high", gpio_in_pin);
++ }
++
++ return 0;
++
++ exit_gpio_free_in_pin:
++ gpio_free(gpio_in_pin);
++
++ exit_gpio_free_out_pin:
++ gpio_free(gpio_out_pin);
++
++ exit_init_port:
++ return ret;
++}
++
++// called when the character device is opened
++static int set_use_inc(void *data)
++{
++ int result;
++ unsigned long flags;
++
++ /* initialize timestamp */
++ do_gettimeofday(&lasttv);
++
++ result = request_irq(gpiochip->to_irq(gpiochip, gpio_in_pin),
++ (irq_handler_t) irq_handler, 0,
++ LIRC_DRIVER_NAME, (void*) 0);
++
++ switch (result) {
++ case -EBUSY:
++ printk(KERN_ERR LIRC_DRIVER_NAME
++ ": IRQ %d is busy\n",
++ gpiochip->to_irq(gpiochip, gpio_in_pin));
++ return -EBUSY;
++ case -EINVAL:
++ printk(KERN_ERR LIRC_DRIVER_NAME
++ ": Bad irq number or handler\n");
++ return -EINVAL;
++ default:
++ dprintk("Interrupt %d obtained\n",
++ gpiochip->to_irq(gpiochip, gpio_in_pin));
++ break;
++ };
++
++ /* initialize pulse/space widths */
++ init_timing_params(duty_cycle, freq);
++
++ spin_lock_irqsave(&lock, flags);
++
++ /* GPIO Pin Falling/Rising Edge Detect Enable */
++ irqchip->irq_set_type(irqdata,
++ IRQ_TYPE_EDGE_RISING | IRQ_TYPE_EDGE_FALLING);
++
++ /* unmask the irq */
++ irqchip->irq_unmask(irqdata);
++
++ spin_unlock_irqrestore(&lock, flags);
++
++ return 0;
++}
++
++static void set_use_dec(void *data)
++{
++ unsigned long flags;
++
++ spin_lock_irqsave(&lock, flags);
++
++ /* GPIO Pin Falling/Rising Edge Detect Disable */
++ irqchip->irq_set_type(irqdata, 0);
++ irqchip->irq_mask(irqdata);
++
++ spin_unlock_irqrestore(&lock, flags);
++
++ free_irq(gpiochip->to_irq(gpiochip, gpio_in_pin), (void *) 0);
++
++ dprintk(KERN_INFO LIRC_DRIVER_NAME
++ ": freed IRQ %d\n", gpiochip->to_irq(gpiochip, gpio_in_pin));
++}
++
++static ssize_t lirc_write(struct file *file, const char *buf,
++ size_t n, loff_t *ppos)
++{
++ int i, count;
++ unsigned long flags;
++ long delta = 0;
++ int *wbuf;
++
++ count = n / sizeof(int);
++ if (n % sizeof(int) || count % 2 == 0)
++ return -EINVAL;
++ wbuf = memdup_user(buf, n);
++ if (IS_ERR(wbuf))
++ return PTR_ERR(wbuf);
++ spin_lock_irqsave(&lock, flags);
++
++ for (i = 0; i < count; i++) {
++ if (i%2)
++ send_space(wbuf[i] - delta);
++ else
++ delta = send_pulse(wbuf[i]);
++ }
++ gpiochip->set(gpiochip, gpio_out_pin, invert);
++
++ spin_unlock_irqrestore(&lock, flags);
++ kfree(wbuf);
++ return n;
++}
++
++static long lirc_ioctl(struct file *filep, unsigned int cmd, unsigned long arg)
++{
++ int result;
++ __u32 value;
++
++ switch (cmd) {
++ case LIRC_GET_SEND_MODE:
++ return -ENOIOCTLCMD;
++ break;
++
++ case LIRC_SET_SEND_MODE:
++ result = get_user(value, (__u32 *) arg);
++ if (result)
++ return result;
++ /* only LIRC_MODE_PULSE supported */
++ if (value != LIRC_MODE_PULSE)
++ return -ENOSYS;
++ break;
++
++ case LIRC_GET_LENGTH:
++ return -ENOSYS;
++ break;
++
++ case LIRC_SET_SEND_DUTY_CYCLE:
++ dprintk("SET_SEND_DUTY_CYCLE\n");
++ result = get_user(value, (__u32 *) arg);
++ if (result)
++ return result;
++ if (value <= 0 || value > 100)
++ return -EINVAL;
++ return init_timing_params(value, freq);
++ break;
++
++ case LIRC_SET_SEND_CARRIER:
++ dprintk("SET_SEND_CARRIER\n");
++ result = get_user(value, (__u32 *) arg);
++ if (result)
++ return result;
++ if (value > 500000 || value < 20000)
++ return -EINVAL;
++ return init_timing_params(duty_cycle, value);
++ break;
++
++ default:
++ return lirc_dev_fop_ioctl(filep, cmd, arg);
++ }
++ return 0;
++}
++
++static const struct file_operations lirc_fops = {
++ .owner = THIS_MODULE,
++ .write = lirc_write,
++ .unlocked_ioctl = lirc_ioctl,
++ .read = lirc_dev_fop_read,
++ .poll = lirc_dev_fop_poll,
++ .open = lirc_dev_fop_open,
++ .release = lirc_dev_fop_close,
++ .llseek = no_llseek,
++};
++
++static struct lirc_driver driver = {
++ .name = LIRC_DRIVER_NAME,
++ .minor = -1,
++ .code_length = 1,
++ .sample_rate = 0,
++ .data = NULL,
++ .add_to_buf = NULL,
++ .rbuf = &rbuf,
++ .set_use_inc = set_use_inc,
++ .set_use_dec = set_use_dec,
++ .fops = &lirc_fops,
++ .dev = NULL,
++ .owner = THIS_MODULE,
++};
++
++static struct platform_driver lirc_rpi_driver = {
++ .driver = {
++ .name = LIRC_DRIVER_NAME,
++ .owner = THIS_MODULE,
++ },
++};
++
++static int __init lirc_rpi_init(void)
++{
++ int result;
++
++ /* Init read buffer. */
++ result = lirc_buffer_init(&rbuf, sizeof(int), RBUF_LEN);
++ if (result < 0)
++ return -ENOMEM;
++
++ result = platform_driver_register(&lirc_rpi_driver);
++ if (result) {
++ printk(KERN_ERR LIRC_DRIVER_NAME
++ ": lirc register returned %d\n", result);
++ goto exit_buffer_free;
++ }
++
++ lirc_rpi_dev = platform_device_alloc(LIRC_DRIVER_NAME, 0);
++ if (!lirc_rpi_dev) {
++ result = -ENOMEM;
++ goto exit_driver_unregister;
++ }
++
++ result = platform_device_add(lirc_rpi_dev);
++ if (result)
++ goto exit_device_put;
++
++ return 0;
++
++ exit_device_put:
++ platform_device_put(lirc_rpi_dev);
++
++ exit_driver_unregister:
++ platform_driver_unregister(&lirc_rpi_driver);
++
++ exit_buffer_free:
++ lirc_buffer_free(&rbuf);
++
++ return result;
++}
++
++static void lirc_rpi_exit(void)
++{
++ gpio_free(gpio_out_pin);
++ gpio_free(gpio_in_pin);
++ platform_device_unregister(lirc_rpi_dev);
++ platform_driver_unregister(&lirc_rpi_driver);
++ lirc_buffer_free(&rbuf);
++}
++
++static int __init lirc_rpi_init_module(void)
++{
++ int result, i;
++
++ result = lirc_rpi_init();
++ if (result)
++ return result;
++
++ /* check if the module received valid gpio pin numbers */
++ result = 0;
++ if (gpio_in_pin != gpio_out_pin) {
++ for(i = 0; (i < ARRAY_SIZE(valid_gpio_pins)) && (result != 2); i++) {
++ if (gpio_in_pin == valid_gpio_pins[i] ||
++ gpio_out_pin == valid_gpio_pins[i]) {
++ result++;
++ }
++ }
++ }
++
++ if (result != 2) {
++ result = -EINVAL;
++ printk(KERN_ERR LIRC_DRIVER_NAME
++ ": invalid GPIO pin(s) specified!\n");
++ goto exit_rpi;
++ }
++
++ driver.features = LIRC_CAN_SET_SEND_DUTY_CYCLE |
++ LIRC_CAN_SET_SEND_CARRIER |
++ LIRC_CAN_SEND_PULSE |
++ LIRC_CAN_REC_MODE2;
++
++ driver.dev = &lirc_rpi_dev->dev;
++ driver.minor = lirc_register_driver(&driver);
++
++ if (driver.minor < 0) {
++ printk(KERN_ERR LIRC_DRIVER_NAME
++ ": device registration failed with %d\n", result);
++ result = -EIO;
++ goto exit_rpi;
++ }
++
++ printk(KERN_INFO LIRC_DRIVER_NAME ": driver registered!\n");
++
++ result = init_port();
++ if (result < 0)
++ goto exit_rpi;
++
++ return 0;
++
++ exit_rpi:
++ lirc_rpi_exit();
++
++ return result;
++}
++
++static void __exit lirc_rpi_exit_module(void)
++{
++ lirc_rpi_exit();
++
++ lirc_unregister_driver(driver.minor);
++ printk(KERN_INFO LIRC_DRIVER_NAME ": cleaned up module\n");
++}
++
++module_init(lirc_rpi_init_module);
++module_exit(lirc_rpi_exit_module);
++
++MODULE_DESCRIPTION("Infra-red receiver and blaster driver for Raspberry Pi GPIO.");
++MODULE_AUTHOR("Aron Robert Szabo <aron@reon.hu>");
++MODULE_AUTHOR("Michael Bishop <cleverca22@gmail.com>");
++MODULE_LICENSE("GPL");
++
++module_param(gpio_out_pin, int, S_IRUGO);
++MODULE_PARM_DESC(gpio_out_pin, "GPIO output/transmitter pin number of the BCM"
++ " processor. Valid pin numbers are: 0, 1, 4, 8, 7, 9, 10, 11,"
++ " 14, 15, 17, 18, 21, 22, 23, 24, 25, default 17");
++
++module_param(gpio_in_pin, int, S_IRUGO);
++MODULE_PARM_DESC(gpio_in_pin, "GPIO input pin number of the BCM processor."
++ " Valid pin numbers are: 0, 1, 4, 8, 7, 9, 10, 11, 14, 15,"
++ " 17, 18, 21, 22, 23, 24, 25, default 18");
++
++module_param(sense, bool, S_IRUGO);
++MODULE_PARM_DESC(sense, "Override autodetection of IR receiver circuit"
++ " (0 = active high, 1 = active low )");
++
++module_param(softcarrier, bool, S_IRUGO);
++MODULE_PARM_DESC(softcarrier, "Software carrier (0 = off, 1 = on, default on)");
++
++module_param(invert, bool, S_IRUGO);
++MODULE_PARM_DESC(invert, "Invert output (0 = off, 1 = on, default off");
++
++module_param(debug, bool, S_IRUGO | S_IWUSR);
++MODULE_PARM_DESC(debug, "Enable debugging messages");
+diff -urN linux-3.10/drivers/staging/media/lirc/Makefile linux-rpi-3.10.y/drivers/staging/media/lirc/Makefile
+--- linux-3.10/drivers/staging/media/lirc/Makefile 2013-06-30 23:13:29.000000000 +0100
++++ linux-rpi-3.10.y/drivers/staging/media/lirc/Makefile 2013-07-06 15:25:50.000000000 +0100
+@@ -7,6 +7,7 @@
+ obj-$(CONFIG_LIRC_IGORPLUGUSB) += lirc_igorplugusb.o
+ obj-$(CONFIG_LIRC_IMON) += lirc_imon.o
+ obj-$(CONFIG_LIRC_PARALLEL) += lirc_parallel.o
++obj-$(CONFIG_LIRC_RPI) += lirc_rpi.o
+ obj-$(CONFIG_LIRC_SASEM) += lirc_sasem.o
+ obj-$(CONFIG_LIRC_SERIAL) += lirc_serial.o
+ obj-$(CONFIG_LIRC_SIR) += lirc_sir.o
diff --git a/target/linux/brcm2708/patches-3.10/009-bcm2708-spi-driver.patch b/target/linux/brcm2708/patches-3.10/009-bcm2708-spi-driver.patch
new file mode 100644
index 0000000000..ffddc140cd
--- /dev/null
+++ b/target/linux/brcm2708/patches-3.10/009-bcm2708-spi-driver.patch
@@ -0,0 +1,659 @@
+diff -urN linux-3.10/drivers/spi/Kconfig linux-rpi-3.10.y/drivers/spi/Kconfig
+--- linux-3.10/drivers/spi/Kconfig 2013-06-30 23:13:29.000000000 +0100
++++ linux-rpi-3.10.y/drivers/spi/Kconfig 2013-07-06 15:25:50.000000000 +0100
+@@ -86,6 +86,14 @@
+ is for the regular SPI controller. Slave mode operation is not also
+ not supported.
+
++config SPI_BCM2708
++ tristate "BCM2708 SPI controller driver (SPI0)"
++ depends on MACH_BCM2708
++ help
++ This selects a driver for the Broadcom BCM2708 SPI master (SPI0). This
++ driver is not compatible with the "Universal SPI Master" or the SPI slave
++ device.
++
+ config SPI_BFIN5XX
+ tristate "SPI controller driver for ADI Blackfin5xx"
+ depends on BLACKFIN
+diff -urN linux-3.10/drivers/spi/Makefile linux-rpi-3.10.y/drivers/spi/Makefile
+--- linux-3.10/drivers/spi/Makefile 2013-06-30 23:13:29.000000000 +0100
++++ linux-rpi-3.10.y/drivers/spi/Makefile 2013-07-06 15:25:50.000000000 +0100
+@@ -17,6 +17,7 @@
+ obj-$(CONFIG_SPI_BCM2835) += spi-bcm2835.o
+ obj-$(CONFIG_SPI_BCM63XX) += spi-bcm63xx.o
+ obj-$(CONFIG_SPI_BFIN5XX) += spi-bfin5xx.o
++obj-$(CONFIG_SPI_BCM2708) += spi-bcm2708.o
+ obj-$(CONFIG_SPI_BFIN_SPORT) += spi-bfin-sport.o
+ obj-$(CONFIG_SPI_BITBANG) += spi-bitbang.o
+ obj-$(CONFIG_SPI_BUTTERFLY) += spi-butterfly.o
+diff -urN linux-3.10/drivers/spi/spi-bcm2708.c linux-rpi-3.10.y/drivers/spi/spi-bcm2708.c
+--- linux-3.10/drivers/spi/spi-bcm2708.c 1970-01-01 01:00:00.000000000 +0100
++++ linux-rpi-3.10.y/drivers/spi/spi-bcm2708.c 2013-07-06 15:25:50.000000000 +0100
+@@ -0,0 +1,626 @@
++/*
++ * Driver for Broadcom BCM2708 SPI Controllers
++ *
++ * Copyright (C) 2012 Chris Boot
++ *
++ * This driver is inspired by:
++ * spi-ath79.c, Copyright (C) 2009-2011 Gabor Juhos <juhosg@openwrt.org>
++ * spi-atmel.c, Copyright (C) 2006 Atmel Corporation
++ *
++ * This program is free software; you can redistribute it and/or modify
++ * it under the terms of the GNU General Public License as published by
++ * the Free Software Foundation; either version 2 of the License, or
++ * (at your option) any later version.
++ *
++ * This program is distributed in the hope that it will be useful,
++ * but WITHOUT ANY WARRANTY; without even the implied warranty of
++ * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
++ * GNU General Public License for more details.
++ *
++ * You should have received a copy of the GNU General Public License
++ * along with this program; if not, write to the Free Software
++ * Foundation, Inc., 59 Temple Place - Suite 330, Boston, MA 02111-1307, USA.
++ */
++
++#include <linux/kernel.h>
++#include <linux/module.h>
++#include <linux/spinlock.h>
++#include <linux/clk.h>
++#include <linux/err.h>
++#include <linux/platform_device.h>
++#include <linux/io.h>
++#include <linux/spi/spi.h>
++#include <linux/interrupt.h>
++#include <linux/delay.h>
++#include <linux/log2.h>
++#include <linux/sched.h>
++#include <linux/wait.h>
++
++/* SPI register offsets */
++#define SPI_CS 0x00
++#define SPI_FIFO 0x04
++#define SPI_CLK 0x08
++#define SPI_DLEN 0x0c
++#define SPI_LTOH 0x10
++#define SPI_DC 0x14
++
++/* Bitfields in CS */
++#define SPI_CS_LEN_LONG 0x02000000
++#define SPI_CS_DMA_LEN 0x01000000
++#define SPI_CS_CSPOL2 0x00800000
++#define SPI_CS_CSPOL1 0x00400000
++#define SPI_CS_CSPOL0 0x00200000
++#define SPI_CS_RXF 0x00100000
++#define SPI_CS_RXR 0x00080000
++#define SPI_CS_TXD 0x00040000
++#define SPI_CS_RXD 0x00020000
++#define SPI_CS_DONE 0x00010000
++#define SPI_CS_LEN 0x00002000
++#define SPI_CS_REN 0x00001000
++#define SPI_CS_ADCS 0x00000800
++#define SPI_CS_INTR 0x00000400
++#define SPI_CS_INTD 0x00000200
++#define SPI_CS_DMAEN 0x00000100
++#define SPI_CS_TA 0x00000080
++#define SPI_CS_CSPOL 0x00000040
++#define SPI_CS_CLEAR_RX 0x00000020
++#define SPI_CS_CLEAR_TX 0x00000010
++#define SPI_CS_CPOL 0x00000008
++#define SPI_CS_CPHA 0x00000004
++#define SPI_CS_CS_10 0x00000002
++#define SPI_CS_CS_01 0x00000001
++
++#define SPI_TIMEOUT_MS 150
++
++#define DRV_NAME "bcm2708_spi"
++
++struct bcm2708_spi {
++ spinlock_t lock;
++ void __iomem *base;
++ int irq;
++ struct clk *clk;
++ bool stopping;
++
++ struct list_head queue;
++ struct workqueue_struct *workq;
++ struct work_struct work;
++ struct completion done;
++
++ const u8 *tx_buf;
++ u8 *rx_buf;
++ int len;
++};
++
++struct bcm2708_spi_state {
++ u32 cs;
++ u16 cdiv;
++};
++
++/*
++ * This function sets the ALT mode on the SPI pins so that we can use them with
++ * the SPI hardware.
++ *
++ * FIXME: This is a hack. Use pinmux / pinctrl.
++ */
++static void bcm2708_init_pinmode(void)
++{
++#define INP_GPIO(g) *(gpio+((g)/10)) &= ~(7<<(((g)%10)*3))
++#define SET_GPIO_ALT(g,a) *(gpio+(((g)/10))) |= (((a)<=3?(a)+4:(a)==4?3:2)<<(((g)%10)*3))
++
++ int pin;
++ u32 *gpio = ioremap(0x20200000, SZ_16K);
++
++ /* SPI is on GPIO 7..11 */
++ for (pin = 7; pin <= 11; pin++) {
++ INP_GPIO(pin); /* set mode to GPIO input first */
++ SET_GPIO_ALT(pin, 0); /* set mode to ALT 0 */
++ }
++
++ iounmap(gpio);
++
++#undef INP_GPIO
++#undef SET_GPIO_ALT
++}
++
++static inline u32 bcm2708_rd(struct bcm2708_spi *bs, unsigned reg)
++{
++ return readl(bs->base + reg);
++}
++
++static inline void bcm2708_wr(struct bcm2708_spi *bs, unsigned reg, u32 val)
++{
++ writel(val, bs->base + reg);
++}
++
++static inline void bcm2708_rd_fifo(struct bcm2708_spi *bs, int len)
++{
++ u8 byte;
++
++ while (len--) {
++ byte = bcm2708_rd(bs, SPI_FIFO);
++ if (bs->rx_buf)
++ *bs->rx_buf++ = byte;
++ }
++}
++
++static inline void bcm2708_wr_fifo(struct bcm2708_spi *bs, int len)
++{
++ u8 byte;
++ u16 val;
++
++ if (len > bs->len)
++ len = bs->len;
++
++ if (unlikely(bcm2708_rd(bs, SPI_CS) & SPI_CS_LEN)) {
++ /* LoSSI mode */
++ if (unlikely(len % 2)) {
++ printk(KERN_ERR"bcm2708_wr_fifo: length must be even, skipping.\n");
++ bs->len = 0;
++ return;
++ }
++ while (len) {
++ if (bs->tx_buf) {
++ val = *(const u16 *)bs->tx_buf;
++ bs->tx_buf += 2;
++ } else
++ val = 0;
++ bcm2708_wr(bs, SPI_FIFO, val);
++ bs->len -= 2;
++ len -= 2;
++ }
++ return;
++ }
++
++ while (len--) {
++ byte = bs->tx_buf ? *bs->tx_buf++ : 0;
++ bcm2708_wr(bs, SPI_FIFO, byte);
++ bs->len--;
++ }
++}
++
++static irqreturn_t bcm2708_spi_interrupt(int irq, void *dev_id)
++{
++ struct spi_master *master = dev_id;
++ struct bcm2708_spi *bs = spi_master_get_devdata(master);
++ u32 cs;
++
++ spin_lock(&bs->lock);
++
++ cs = bcm2708_rd(bs, SPI_CS);
++
++ if (cs & SPI_CS_DONE) {
++ if (bs->len) { /* first interrupt in a transfer */
++ /* fill the TX fifo with up to 16 bytes */
++ bcm2708_wr_fifo(bs, 16);
++ } else { /* transfer complete */
++ /* disable interrupts */
++ cs &= ~(SPI_CS_INTR | SPI_CS_INTD);
++ bcm2708_wr(bs, SPI_CS, cs);
++
++ /* drain RX FIFO */
++ while (cs & SPI_CS_RXD) {
++ bcm2708_rd_fifo(bs, 1);
++ cs = bcm2708_rd(bs, SPI_CS);
++ }
++
++ /* wake up our bh */
++ complete(&bs->done);
++ }
++ } else if (cs & SPI_CS_RXR) {
++ /* read 12 bytes of data */
++ bcm2708_rd_fifo(bs, 12);
++
++ /* write up to 12 bytes */
++ bcm2708_wr_fifo(bs, 12);
++ }
++
++ spin_unlock(&bs->lock);
++
++ return IRQ_HANDLED;
++}
++
++static int bcm2708_setup_state(struct spi_master *master,
++ struct device *dev, struct bcm2708_spi_state *state,
++ u32 hz, u8 csel, u8 mode, u8 bpw)
++{
++ struct bcm2708_spi *bs = spi_master_get_devdata(master);
++ int cdiv;
++ unsigned long bus_hz;
++ u32 cs = 0;
++
++ bus_hz = clk_get_rate(bs->clk);
++
++ if (hz >= bus_hz) {
++ cdiv = 2; /* bus_hz / 2 is as fast as we can go */
++ } else if (hz) {
++ cdiv = DIV_ROUND_UP(bus_hz, hz);
++
++ /* CDIV must be a power of 2, so round up */
++ cdiv = roundup_pow_of_two(cdiv);
++
++ if (cdiv > 65536) {
++ dev_dbg(dev,
++ "setup: %d Hz too slow, cdiv %u; min %ld Hz\n",
++ hz, cdiv, bus_hz / 65536);
++ return -EINVAL;
++ } else if (cdiv == 65536) {
++ cdiv = 0;
++ } else if (cdiv == 1) {
++ cdiv = 2; /* 1 gets rounded down to 0; == 65536 */
++ }
++ } else {
++ cdiv = 0;
++ }
++
++ switch (bpw) {
++ case 8:
++ break;
++ case 9:
++ /* Reading in LoSSI mode is a special case. See 'BCM2835 ARM Peripherals' datasheet */
++ cs |= SPI_CS_LEN;
++ break;
++ default:
++ dev_dbg(dev, "setup: invalid bits_per_word %u (must be 8 or 9)\n",
++ bpw);
++ return -EINVAL;
++ }
++
++ if (mode & SPI_CPOL)
++ cs |= SPI_CS_CPOL;
++ if (mode & SPI_CPHA)
++ cs |= SPI_CS_CPHA;
++
++ if (!(mode & SPI_NO_CS)) {
++ if (mode & SPI_CS_HIGH) {
++ cs |= SPI_CS_CSPOL;
++ cs |= SPI_CS_CSPOL0 << csel;
++ }
++
++ cs |= csel;
++ } else {
++ cs |= SPI_CS_CS_10 | SPI_CS_CS_01;
++ }
++
++ if (state) {
++ state->cs = cs;
++ state->cdiv = cdiv;
++ dev_dbg(dev, "setup: want %d Hz; "
++ "bus_hz=%lu / cdiv=%u == %lu Hz; "
++ "mode %u: cs 0x%08X\n",
++ hz, bus_hz, cdiv, bus_hz/cdiv, mode, cs);
++ }
++
++ return 0;
++}
++
++static int bcm2708_process_transfer(struct bcm2708_spi *bs,
++ struct spi_message *msg, struct spi_transfer *xfer)
++{
++ struct spi_device *spi = msg->spi;
++ struct bcm2708_spi_state state, *stp;
++ int ret;
++ u32 cs;
++
++ if (bs->stopping)
++ return -ESHUTDOWN;
++
++ if (xfer->bits_per_word || xfer->speed_hz) {
++ ret = bcm2708_setup_state(spi->master, &spi->dev, &state,
++ xfer->speed_hz ? xfer->speed_hz : spi->max_speed_hz,
++ spi->chip_select, spi->mode,
++ xfer->bits_per_word ? xfer->bits_per_word :
++ spi->bits_per_word);
++ if (ret)
++ return ret;
++
++ stp = &state;
++ } else {
++ stp = spi->controller_state;
++ }
++
++ INIT_COMPLETION(bs->done);
++ bs->tx_buf = xfer->tx_buf;
++ bs->rx_buf = xfer->rx_buf;
++ bs->len = xfer->len;
++
++ cs = stp->cs | SPI_CS_INTR | SPI_CS_INTD | SPI_CS_TA;
++
++ bcm2708_wr(bs, SPI_CLK, stp->cdiv);
++ bcm2708_wr(bs, SPI_CS, cs);
++
++ ret = wait_for_completion_timeout(&bs->done,
++ msecs_to_jiffies(SPI_TIMEOUT_MS));
++ if (ret == 0) {
++ dev_err(&spi->dev, "transfer timed out\n");
++ return -ETIMEDOUT;
++ }
++
++ if (xfer->delay_usecs)
++ udelay(xfer->delay_usecs);
++
++ if (list_is_last(&xfer->transfer_list, &msg->transfers) ||
++ xfer->cs_change) {
++ /* clear TA and interrupt flags */
++ bcm2708_wr(bs, SPI_CS, stp->cs);
++ }
++
++ msg->actual_length += (xfer->len - bs->len);
++
++ return 0;
++}
++
++static void bcm2708_work(struct work_struct *work)
++{
++ struct bcm2708_spi *bs = container_of(work, struct bcm2708_spi, work);
++ unsigned long flags;
++ struct spi_message *msg;
++ struct spi_transfer *xfer;
++ int status = 0;
++
++ spin_lock_irqsave(&bs->lock, flags);
++ while (!list_empty(&bs->queue)) {
++ msg = list_first_entry(&bs->queue, struct spi_message, queue);
++ list_del_init(&msg->queue);
++ spin_unlock_irqrestore(&bs->lock, flags);
++
++ list_for_each_entry(xfer, &msg->transfers, transfer_list) {
++ status = bcm2708_process_transfer(bs, msg, xfer);
++ if (status)
++ break;
++ }
++
++ msg->status = status;
++ msg->complete(msg->context);
++
++ spin_lock_irqsave(&bs->lock, flags);
++ }
++ spin_unlock_irqrestore(&bs->lock, flags);
++}
++
++static int bcm2708_spi_setup(struct spi_device *spi)
++{
++ struct bcm2708_spi *bs = spi_master_get_devdata(spi->master);
++ struct bcm2708_spi_state *state;
++ int ret;
++
++ if (bs->stopping)
++ return -ESHUTDOWN;
++
++ if (!(spi->mode & SPI_NO_CS) &&
++ (spi->chip_select > spi->master->num_chipselect)) {
++ dev_dbg(&spi->dev,
++ "setup: invalid chipselect %u (%u defined)\n",
++ spi->chip_select, spi->master->num_chipselect);
++ return -EINVAL;
++ }
++
++ state = spi->controller_state;
++ if (!state) {
++ state = kzalloc(sizeof(*state), GFP_KERNEL);
++ if (!state)
++ return -ENOMEM;
++
++ spi->controller_state = state;
++ }
++
++ ret = bcm2708_setup_state(spi->master, &spi->dev, state,
++ spi->max_speed_hz, spi->chip_select, spi->mode,
++ spi->bits_per_word);
++ if (ret < 0) {
++ kfree(state);
++ spi->controller_state = NULL;
++ return ret;
++ }
++
++ dev_dbg(&spi->dev,
++ "setup: cd %d: %d Hz, bpw %u, mode 0x%x -> CS=%08x CDIV=%04x\n",
++ spi->chip_select, spi->max_speed_hz, spi->bits_per_word,
++ spi->mode, state->cs, state->cdiv);
++
++ return 0;
++}
++
++static int bcm2708_spi_transfer(struct spi_device *spi, struct spi_message *msg)
++{
++ struct bcm2708_spi *bs = spi_master_get_devdata(spi->master);
++ struct spi_transfer *xfer;
++ int ret;
++ unsigned long flags;
++
++ if (unlikely(list_empty(&msg->transfers)))
++ return -EINVAL;
++
++ if (bs->stopping)
++ return -ESHUTDOWN;
++
++ list_for_each_entry(xfer, &msg->transfers, transfer_list) {
++ if (!(xfer->tx_buf || xfer->rx_buf) && xfer->len) {
++ dev_dbg(&spi->dev, "missing rx or tx buf\n");
++ return -EINVAL;
++ }
++
++ if (!xfer->bits_per_word || xfer->speed_hz)
++ continue;
++
++ ret = bcm2708_setup_state(spi->master, &spi->dev, NULL,
++ xfer->speed_hz ? xfer->speed_hz : spi->max_speed_hz,
++ spi->chip_select, spi->mode,
++ xfer->bits_per_word ? xfer->bits_per_word :
++ spi->bits_per_word);
++ if (ret)
++ return ret;
++ }
++
++ msg->status = -EINPROGRESS;
++ msg->actual_length = 0;
++
++ spin_lock_irqsave(&bs->lock, flags);
++ list_add_tail(&msg->queue, &bs->queue);
++ queue_work(bs->workq, &bs->work);
++ spin_unlock_irqrestore(&bs->lock, flags);
++
++ return 0;
++}
++
++static void bcm2708_spi_cleanup(struct spi_device *spi)
++{
++ if (spi->controller_state) {
++ kfree(spi->controller_state);
++ spi->controller_state = NULL;
++ }
++}
++
++static int bcm2708_spi_probe(struct platform_device *pdev)
++{
++ struct resource *regs;
++ int irq, err = -ENOMEM;
++ struct clk *clk;
++ struct spi_master *master;
++ struct bcm2708_spi *bs;
++
++ regs = platform_get_resource(pdev, IORESOURCE_MEM, 0);
++ if (!regs) {
++ dev_err(&pdev->dev, "could not get IO memory\n");
++ return -ENXIO;
++ }
++
++ irq = platform_get_irq(pdev, 0);
++ if (irq < 0) {
++ dev_err(&pdev->dev, "could not get IRQ\n");
++ return irq;
++ }
++
++ clk = clk_get(&pdev->dev, NULL);
++ if (IS_ERR(clk)) {
++ dev_err(&pdev->dev, "could not find clk: %ld\n", PTR_ERR(clk));
++ return PTR_ERR(clk);
++ }
++
++ bcm2708_init_pinmode();
++
++ master = spi_alloc_master(&pdev->dev, sizeof(*bs));
++ if (!master) {
++ dev_err(&pdev->dev, "spi_alloc_master() failed\n");
++ goto out_clk_put;
++ }
++
++ /* the spi->mode bits understood by this driver: */
++ master->mode_bits = SPI_CPOL | SPI_CPHA | SPI_CS_HIGH | SPI_NO_CS;
++
++ master->bus_num = pdev->id;
++ master->num_chipselect = 3;
++ master->setup = bcm2708_spi_setup;
++ master->transfer = bcm2708_spi_transfer;
++ master->cleanup = bcm2708_spi_cleanup;
++ platform_set_drvdata(pdev, master);
++
++ bs = spi_master_get_devdata(master);
++
++ spin_lock_init(&bs->lock);
++ INIT_LIST_HEAD(&bs->queue);
++ init_completion(&bs->done);
++ INIT_WORK(&bs->work, bcm2708_work);
++
++ bs->base = ioremap(regs->start, resource_size(regs));
++ if (!bs->base) {
++ dev_err(&pdev->dev, "could not remap memory\n");
++ goto out_master_put;
++ }
++
++ bs->workq = create_singlethread_workqueue(dev_name(&pdev->dev));
++ if (!bs->workq) {
++ dev_err(&pdev->dev, "could not create workqueue\n");
++ goto out_iounmap;
++ }
++
++ bs->irq = irq;
++ bs->clk = clk;
++ bs->stopping = false;
++
++ err = request_irq(irq, bcm2708_spi_interrupt, 0, dev_name(&pdev->dev),
++ master);
++ if (err) {
++ dev_err(&pdev->dev, "could not request IRQ: %d\n", err);
++ goto out_workqueue;
++ }
++
++ /* initialise the hardware */
++ clk_enable(clk);
++ bcm2708_wr(bs, SPI_CS, SPI_CS_REN | SPI_CS_CLEAR_RX | SPI_CS_CLEAR_TX);
++
++ err = spi_register_master(master);
++ if (err) {
++ dev_err(&pdev->dev, "could not register SPI master: %d\n", err);
++ goto out_free_irq;
++ }
++
++ dev_info(&pdev->dev, "SPI Controller at 0x%08lx (irq %d)\n",
++ (unsigned long)regs->start, irq);
++
++ return 0;
++
++out_free_irq:
++ free_irq(bs->irq, master);
++out_workqueue:
++ destroy_workqueue(bs->workq);
++out_iounmap:
++ iounmap(bs->base);
++out_master_put:
++ spi_master_put(master);
++out_clk_put:
++ clk_put(clk);
++ return err;
++}
++
++static int bcm2708_spi_remove(struct platform_device *pdev)
++{
++ struct spi_master *master = platform_get_drvdata(pdev);
++ struct bcm2708_spi *bs = spi_master_get_devdata(master);
++
++ /* reset the hardware and block queue progress */
++ spin_lock_irq(&bs->lock);
++ bs->stopping = true;
++ bcm2708_wr(bs, SPI_CS, SPI_CS_CLEAR_RX | SPI_CS_CLEAR_TX);
++ spin_unlock_irq(&bs->lock);
++
++ flush_work_sync(&bs->work);
++
++ clk_disable(bs->clk);
++ clk_put(bs->clk);
++ free_irq(bs->irq, master);
++ iounmap(bs->base);
++
++ spi_unregister_master(master);
++
++ return 0;
++}
++
++static struct platform_driver bcm2708_spi_driver = {
++ .driver = {
++ .name = DRV_NAME,
++ .owner = THIS_MODULE,
++ },
++ .probe = bcm2708_spi_probe,
++ .remove = bcm2708_spi_remove,
++};
++
++
++static int __init bcm2708_spi_init(void)
++{
++ return platform_driver_probe(&bcm2708_spi_driver, bcm2708_spi_probe);
++}
++module_init(bcm2708_spi_init);
++
++static void __exit bcm2708_spi_exit(void)
++{
++ platform_driver_unregister(&bcm2708_spi_driver);
++}
++module_exit(bcm2708_spi_exit);
++
++
++//module_platform_driver(bcm2708_spi_driver);
++
++MODULE_DESCRIPTION("SPI controller driver for Broadcom BCM2708");
++MODULE_AUTHOR("Chris Boot <bootc@bootc.net>");
++MODULE_LICENSE("GPL v2");
++MODULE_ALIAS("platform:" DRV_NAME);
diff --git a/target/linux/brcm2708/patches-3.10/010-bcm2835-thermal-driver.patch b/target/linux/brcm2708/patches-3.10/010-bcm2835-thermal-driver.patch
new file mode 100644
index 0000000000..80256d05d7
--- /dev/null
+++ b/target/linux/brcm2708/patches-3.10/010-bcm2835-thermal-driver.patch
@@ -0,0 +1,212 @@
+diff -urN linux-3.10/drivers/thermal/bcm2835-thermal.c linux-rpi-3.10.y/drivers/thermal/bcm2835-thermal.c
+--- linux-3.10/drivers/thermal/bcm2835-thermal.c 1970-01-01 01:00:00.000000000 +0100
++++ linux-rpi-3.10.y/drivers/thermal/bcm2835-thermal.c 2013-07-06 15:25:50.000000000 +0100
+@@ -0,0 +1,184 @@
++/*****************************************************************************
++* Copyright 2011 Broadcom Corporation. All rights reserved.
++*
++* Unless you and Broadcom execute a separate written software license
++* agreement governing use of this software, this software is licensed to you
++* under the terms of the GNU General Public License version 2, available at
++* http://www.broadcom.com/licenses/GPLv2.php (the "GPL").
++*
++* Notwithstanding the above, under no circumstances may you combine this
++* software in any way with any other Broadcom software provided under a
++* license other than the GPL, without Broadcom's express prior written
++* consent.
++*****************************************************************************/
++
++#include <linux/kernel.h>
++#include <linux/module.h>
++#include <linux/init.h>
++#include <linux/platform_device.h>
++#include <linux/slab.h>
++#include <linux/sysfs.h>
++#include <mach/vcio.h>
++#include <linux/thermal.h>
++
++
++/* --- DEFINITIONS --- */
++#define MODULE_NAME "bcm2835_thermal"
++
++/*#define THERMAL_DEBUG_ENABLE*/
++
++#ifdef THERMAL_DEBUG_ENABLE
++#define print_debug(fmt,...) printk(KERN_INFO "%s:%s:%d: "fmt"\n", MODULE_NAME, __func__, __LINE__, ##__VA_ARGS__)
++#else
++#define print_debug(fmt,...)
++#endif
++#define print_err(fmt,...) printk(KERN_ERR "%s:%s:%d: "fmt"\n", MODULE_NAME, __func__,__LINE__, ##__VA_ARGS__)
++
++#define VC_TAG_GET_TEMP 0x00030006
++#define VC_TAG_GET_MAX_TEMP 0x0003000A
++
++typedef enum {
++ TEMP,
++ MAX_TEMP,
++} temp_type;
++
++/* --- STRUCTS --- */
++/* tag part of the message */
++struct vc_msg_tag {
++ uint32_t tag_id; /* the tag ID for the temperature */
++ uint32_t buffer_size; /* size of the buffer (should be 8) */
++ uint32_t request_code; /* identifies message as a request (should be 0) */
++ uint32_t id; /* extra ID field (should be 0) */
++ uint32_t val; /* returned value of the temperature */
++};
++
++/* message structure to be sent to videocore */
++struct vc_msg {
++ uint32_t msg_size; /* simply, sizeof(struct vc_msg) */
++ uint32_t request_code; /* holds various information like the success and number of bytes returned (refer to mailboxes wiki) */
++ struct vc_msg_tag tag; /* the tag structure above to make */
++ uint32_t end_tag; /* an end identifier, should be set to NULL */
++};
++
++struct bcm2835_thermal_data {
++ struct thermal_zone_device *thermal_dev;
++ struct vc_msg msg;
++};
++
++/* --- GLOBALS --- */
++static struct bcm2835_thermal_data bcm2835_data;
++
++/* Thermal Device Operations */
++static struct thermal_zone_device_ops ops;
++
++/* --- FUNCTIONS --- */
++
++static int bcm2835_get_temp_or_max(struct thermal_zone_device *thermal_dev, unsigned long *temp, unsigned tag_id)
++{
++ int result = -1, retry = 3;
++ print_debug("IN");
++
++ *temp = 0;
++ while (result != 0 && retry-- > 0) {
++ /* wipe all previous message data */
++ memset(&bcm2835_data.msg, 0, sizeof bcm2835_data.msg);
++
++ /* prepare message */
++ bcm2835_data.msg.msg_size = sizeof bcm2835_data.msg;
++ bcm2835_data.msg.tag.buffer_size = 8;
++ bcm2835_data.msg.tag.tag_id = tag_id;
++
++ /* send the message */
++ result = bcm_mailbox_property(&bcm2835_data.msg, sizeof bcm2835_data.msg);
++ print_debug("Got %stemperature as %u (%d,%x)\n", tag_id==VC_TAG_GET_MAX_TEMP ? "max ":"", (uint)bcm2835_data.msg.tag.val, result, bcm2835_data.msg.request_code);
++ if (!(bcm2835_data.msg.request_code & 0x80000000))
++ result = -1;
++ }
++
++ /* check if it was all ok and return the rate in milli degrees C */
++ if (result == 0)
++ *temp = (uint)bcm2835_data.msg.tag.val;
++ else
++ print_err("Failed to get temperature! (%x:%d)\n", tag_id, result);
++ print_debug("OUT");
++ return result;
++}
++
++static int bcm2835_get_temp(struct thermal_zone_device *thermal_dev, unsigned long *temp)
++{
++ return bcm2835_get_temp_or_max(thermal_dev, temp, VC_TAG_GET_TEMP);
++}
++
++static int bcm2835_get_max_temp(struct thermal_zone_device *thermal_dev, int trip_num, unsigned long *temp)
++{
++ return bcm2835_get_temp_or_max(thermal_dev, temp, VC_TAG_GET_MAX_TEMP);
++}
++
++static int bcm2835_get_trip_type(struct thermal_zone_device * thermal_dev, int trip_num, enum thermal_trip_type *trip_type)
++{
++ *trip_type = THERMAL_TRIP_HOT;
++ return 0;
++}
++
++
++static int bcm2835_get_mode(struct thermal_zone_device *thermal_dev, enum thermal_device_mode *dev_mode)
++{
++ *dev_mode = THERMAL_DEVICE_ENABLED;
++ return 0;
++}
++
++
++static int bcm2835_thermal_probe(struct platform_device *pdev)
++{
++ print_debug("IN");
++ print_debug("THERMAL Driver has been probed!");
++
++ /* check that the device isn't null!*/
++ if(pdev == NULL)
++ {
++ print_debug("Platform device is empty!");
++ return -ENODEV;
++ }
++
++ if(!(bcm2835_data.thermal_dev = thermal_zone_device_register("bcm2835_thermal", 1, 0, NULL, &ops, NULL, 0, 0)))
++ {
++ print_debug("Unable to register the thermal device!");
++ return -EFAULT;
++ }
++ return 0;
++}
++
++
++static int bcm2835_thermal_remove(struct platform_device *pdev)
++{
++ print_debug("IN");
++
++ thermal_zone_device_unregister(bcm2835_data.thermal_dev);
++
++ print_debug("OUT");
++
++ return 0;
++}
++
++static struct thermal_zone_device_ops ops = {
++ .get_temp = bcm2835_get_temp,
++ .get_trip_temp = bcm2835_get_max_temp,
++ .get_trip_type = bcm2835_get_trip_type,
++ .get_mode = bcm2835_get_mode,
++};
++
++/* Thermal Driver */
++static struct platform_driver bcm2835_thermal_driver = {
++ .probe = bcm2835_thermal_probe,
++ .remove = bcm2835_thermal_remove,
++ .driver = {
++ .name = "bcm2835_thermal",
++ .owner = THIS_MODULE,
++ },
++};
++
++MODULE_LICENSE("GPL");
++MODULE_AUTHOR("Dorian Peake");
++MODULE_DESCRIPTION("Thermal driver for bcm2835 chip");
++
++module_platform_driver(bcm2835_thermal_driver);
+diff -urN linux-3.10/drivers/thermal/Kconfig linux-rpi-3.10.y/drivers/thermal/Kconfig
+--- linux-3.10/drivers/thermal/Kconfig 2013-06-30 23:13:29.000000000 +0100
++++ linux-rpi-3.10.y/drivers/thermal/Kconfig 2013-07-06 15:25:50.000000000 +0100
+@@ -169,4 +169,11 @@
+ enforce idle time which results in more package C-state residency. The
+ user interface is exposed via generic thermal framework.
+
++config THERMAL_BCM2835
++ tristate "BCM2835 Thermal Driver"
++ help
++ This will enable temperature monitoring for the Broadcom BCM2835
++ chip. If built as a module, it will be called 'bcm2835-thermal'.
++
+ endif
++
+diff -urN linux-3.10/drivers/thermal/Makefile linux-rpi-3.10.y/drivers/thermal/Makefile
+--- linux-3.10/drivers/thermal/Makefile 2013-06-30 23:13:29.000000000 +0100
++++ linux-rpi-3.10.y/drivers/thermal/Makefile 2013-07-06 15:25:50.000000000 +0100
+@@ -23,4 +23,5 @@
+ obj-$(CONFIG_ARMADA_THERMAL) += armada_thermal.o
+ obj-$(CONFIG_DB8500_CPUFREQ_COOLING) += db8500_cpufreq_cooling.o
+ obj-$(CONFIG_INTEL_POWERCLAMP) += intel_powerclamp.o
++obj-$(CONFIG_THERMAL_BCM2835) += bcm2835-thermal.o
+
diff --git a/target/linux/brcm2708/patches-3.10/011-bcm2835-cpufreq-driver.patch b/target/linux/brcm2708/patches-3.10/011-bcm2835-cpufreq-driver.patch
new file mode 100644
index 0000000000..9a0b10c2cb
--- /dev/null
+++ b/target/linux/brcm2708/patches-3.10/011-bcm2835-cpufreq-driver.patch
@@ -0,0 +1,269 @@
+diff -urN linux-3.10/drivers/cpufreq/bcm2835-cpufreq.c linux-rpi-3.10.y/drivers/cpufreq/bcm2835-cpufreq.c
+--- linux-3.10/drivers/cpufreq/bcm2835-cpufreq.c 1970-01-01 01:00:00.000000000 +0100
++++ linux-rpi-3.10.y/drivers/cpufreq/bcm2835-cpufreq.c 2013-07-06 15:25:50.000000000 +0100
+@@ -0,0 +1,239 @@
++/*****************************************************************************
++* Copyright 2011 Broadcom Corporation. All rights reserved.
++*
++* Unless you and Broadcom execute a separate written software license
++* agreement governing use of this software, this software is licensed to you
++* under the terms of the GNU General Public License version 2, available at
++* http://www.broadcom.com/licenses/GPLv2.php (the "GPL").
++*
++* Notwithstanding the above, under no circumstances may you combine this
++* software in any way with any other Broadcom software provided under a
++* license other than the GPL, without Broadcom's express prior written
++* consent.
++*****************************************************************************/
++
++/*****************************************************************************
++* FILENAME: bcm2835-cpufreq.h
++* DESCRIPTION: This driver dynamically manages the CPU Frequency of the ARM
++* processor. Messages are sent to Videocore either setting or requesting the
++* frequency of the ARM in order to match an appropiate frequency to the current
++* usage of the processor. The policy which selects the frequency to use is
++* defined in the kernel .config file, but can be changed during runtime.
++*****************************************************************************/
++
++/* ---------- INCLUDES ---------- */
++#include <linux/kernel.h>
++#include <linux/init.h>
++#include <linux/module.h>
++#include <linux/cpufreq.h>
++#include <mach/vcio.h>
++
++/* ---------- DEFINES ---------- */
++/*#define CPUFREQ_DEBUG_ENABLE*/ /* enable debugging */
++#define MODULE_NAME "bcm2835-cpufreq"
++
++#define VCMSG_ID_ARM_CLOCK 0x000000003 /* Clock/Voltage ID's */
++
++/* debug printk macros */
++#ifdef CPUFREQ_DEBUG_ENABLE
++#define print_debug(fmt,...) pr_debug("%s:%s:%d: "fmt, MODULE_NAME, __func__, __LINE__, ##__VA_ARGS__)
++#else
++#define print_debug(fmt,...)
++#endif
++#define print_err(fmt,...) pr_err("%s:%s:%d: "fmt, MODULE_NAME, __func__,__LINE__, ##__VA_ARGS__)
++#define print_info(fmt,...) pr_info("%s: "fmt, MODULE_NAME, ##__VA_ARGS__)
++
++/* tag part of the message */
++struct vc_msg_tag {
++ uint32_t tag_id; /* the message id */
++ uint32_t buffer_size; /* size of the buffer (which in this case is always 8 bytes) */
++ uint32_t data_size; /* amount of data being sent or received */
++ uint32_t dev_id; /* the ID of the clock/voltage to get or set */
++ uint32_t val; /* the value (e.g. rate (in Hz)) to set */
++};
++
++/* message structure to be sent to videocore */
++struct vc_msg {
++ uint32_t msg_size; /* simply, sizeof(struct vc_msg) */
++ uint32_t request_code; /* holds various information like the success and number of bytes returned (refer to mailboxes wiki) */
++ struct vc_msg_tag tag; /* the tag structure above to make */
++ uint32_t end_tag; /* an end identifier, should be set to NULL */
++};
++
++/* ---------- GLOBALS ---------- */
++static struct cpufreq_driver bcm2835_cpufreq_driver; /* the cpufreq driver global */
++
++/*
++ ===============================================
++ clk_rate either gets or sets the clock rates.
++ ===============================================
++*/
++static uint32_t bcm2835_cpufreq_set_clock(int cur_rate, int arm_rate)
++{
++ int s, actual_rate=0;
++ struct vc_msg msg;
++
++ /* wipe all previous message data */
++ memset(&msg, 0, sizeof msg);
++
++ msg.msg_size = sizeof msg;
++
++ msg.tag.tag_id = VCMSG_SET_CLOCK_RATE;
++ msg.tag.buffer_size = 8;
++ msg.tag.data_size = 8; /* we're sending the clock ID and the new rates which is a total of 2 words */
++ msg.tag.dev_id = VCMSG_ID_ARM_CLOCK;
++ msg.tag.val = arm_rate * 1000;
++
++ /* send the message */
++ s = bcm_mailbox_property(&msg, sizeof msg);
++
++ /* check if it was all ok and return the rate in KHz */
++ if (s == 0 && (msg.request_code & 0x80000000))
++ actual_rate = msg.tag.val/1000;
++
++ print_debug("Setting new frequency = %d -> %d (actual %d)\n", cur_rate, arm_rate, actual_rate);
++ return actual_rate;
++}
++
++static uint32_t bcm2835_cpufreq_get_clock(int tag)
++{
++ int s;
++ int arm_rate = 0;
++ struct vc_msg msg;
++
++ /* wipe all previous message data */
++ memset(&msg, 0, sizeof msg);
++
++ msg.msg_size = sizeof msg;
++ msg.tag.tag_id = tag;
++ msg.tag.buffer_size = 8;
++ msg.tag.data_size = 4; /* we're just sending the clock ID which is one word long */
++ msg.tag.dev_id = VCMSG_ID_ARM_CLOCK;
++
++ /* send the message */
++ s = bcm_mailbox_property(&msg, sizeof msg);
++
++ /* check if it was all ok and return the rate in KHz */
++ if (s == 0 && (msg.request_code & 0x80000000))
++ arm_rate = msg.tag.val/1000;
++
++ print_debug("%s frequency = %d\n",
++ tag == VCMSG_GET_CLOCK_RATE ? "Current":
++ tag == VCMSG_GET_MIN_CLOCK ? "Min":
++ tag == VCMSG_GET_MAX_CLOCK ? "Max":
++ "Unexpected", arm_rate);
++
++ return arm_rate;
++}
++
++/*
++ ====================================================
++ Module Initialisation registers the cpufreq driver
++ ====================================================
++*/
++static int __init bcm2835_cpufreq_module_init(void)
++{
++ print_debug("IN\n");
++ return cpufreq_register_driver(&bcm2835_cpufreq_driver);
++}
++
++/*
++ =============
++ Module exit
++ =============
++*/
++static void __exit bcm2835_cpufreq_module_exit(void)
++{
++ print_debug("IN\n");
++ cpufreq_unregister_driver(&bcm2835_cpufreq_driver);
++ return;
++}
++
++/*
++ ==============================================================
++ Initialisation function sets up the CPU policy for first use
++ ==============================================================
++*/
++static int bcm2835_cpufreq_driver_init(struct cpufreq_policy *policy)
++{
++ /* measured value of how long it takes to change frequency */
++ policy->cpuinfo.transition_latency = 355000; /* ns */
++
++ /* now find out what the maximum and minimum frequencies are */
++ policy->min = policy->cpuinfo.min_freq = bcm2835_cpufreq_get_clock(VCMSG_GET_MIN_CLOCK);
++ policy->max = policy->cpuinfo.max_freq = bcm2835_cpufreq_get_clock(VCMSG_GET_MAX_CLOCK);
++ policy->cur = bcm2835_cpufreq_get_clock(VCMSG_GET_CLOCK_RATE);
++
++ print_info("min=%d max=%d cur=%d\n", policy->min, policy->max, policy->cur);
++ return 0;
++}
++
++/*
++ =================================================================================
++ Target function chooses the most appropriate frequency from the table to enable
++ =================================================================================
++*/
++
++static int bcm2835_cpufreq_driver_target(struct cpufreq_policy *policy, unsigned int target_freq, unsigned int relation)
++{
++ unsigned int target = target_freq;
++ unsigned int cur = policy->cur;
++ print_debug("%s: min=%d max=%d cur=%d target=%d\n",policy->governor->name,policy->min,policy->max,policy->cur,target_freq);
++
++ /* if we are above min and using ondemand, then just use max */
++ if (strcmp("ondemand", policy->governor->name)==0 && target > policy->min)
++ target = policy->max;
++ /* if the frequency is the same, just quit */
++ if (target == policy->cur)
++ return 0;
++
++ /* otherwise were good to set the clock frequency */
++ policy->cur = bcm2835_cpufreq_set_clock(policy->cur, target);
++
++ if (!policy->cur)
++ {
++ print_err("Error occurred setting a new frequency (%d)!\n", target);
++ policy->cur = bcm2835_cpufreq_get_clock(VCMSG_GET_CLOCK_RATE);
++ return -EINVAL;
++ }
++ print_debug("Freq %d->%d (min=%d max=%d target=%d request=%d)\n", cur, policy->cur, policy->min, policy->max, target_freq, target);
++ return 0;
++}
++
++static unsigned int bcm2835_cpufreq_driver_get(unsigned int cpu)
++{
++ unsigned int actual_rate = bcm2835_cpufreq_get_clock(VCMSG_GET_CLOCK_RATE);
++ print_debug("cpu=%d\n", actual_rate);
++ return actual_rate;
++}
++
++/*
++ =================================================================================
++ Verify ensures that when a policy is changed, it is suitable for the CPU to use
++ =================================================================================
++*/
++
++static int bcm2835_cpufreq_driver_verify(struct cpufreq_policy *policy)
++{
++ print_info("switching to governor %s\n", policy->governor->name);
++ return 0;
++}
++
++
++/* the CPUFreq driver */
++static struct cpufreq_driver bcm2835_cpufreq_driver = {
++ .name = "BCM2835 CPUFreq",
++ .owner = THIS_MODULE,
++ .init = bcm2835_cpufreq_driver_init,
++ .verify = bcm2835_cpufreq_driver_verify,
++ .target = bcm2835_cpufreq_driver_target,
++ .get = bcm2835_cpufreq_driver_get
++};
++
++MODULE_AUTHOR("Dorian Peake and Dom Cobley");
++MODULE_DESCRIPTION("CPU frequency driver for BCM2835 chip");
++MODULE_LICENSE("GPL");
++
++module_init(bcm2835_cpufreq_module_init);
++module_exit(bcm2835_cpufreq_module_exit);
++
+diff -urN linux-3.10/drivers/cpufreq/Kconfig.arm linux-rpi-3.10.y/drivers/cpufreq/Kconfig.arm
+--- linux-3.10/drivers/cpufreq/Kconfig.arm 2013-06-30 23:13:29.000000000 +0100
++++ linux-rpi-3.10.y/drivers/cpufreq/Kconfig.arm 2013-07-06 15:25:50.000000000 +0100
+@@ -150,3 +150,11 @@
+ default y
+ help
+ This adds the CPUFreq driver support for SPEAr SOCs.
++
++config ARM_BCM2835_CPUFREQ
++ bool "BCM2835 Driver"
++ default y
++ help
++ This adds the CPUFreq driver for BCM2835
++
++ If in doubt, say N.
+diff -urN linux-3.10/drivers/cpufreq/Makefile linux-rpi-3.10.y/drivers/cpufreq/Makefile
+--- linux-3.10/drivers/cpufreq/Makefile 2013-06-30 23:13:29.000000000 +0100
++++ linux-rpi-3.10.y/drivers/cpufreq/Makefile 2013-07-06 15:25:50.000000000 +0100
+@@ -72,6 +72,7 @@
+ obj-$(CONFIG_ARM_SA1110_CPUFREQ) += sa1110-cpufreq.o
+ obj-$(CONFIG_ARM_SPEAR_CPUFREQ) += spear-cpufreq.o
+ obj-$(CONFIG_ARCH_TEGRA) += tegra-cpufreq.o
++obj-$(CONFIG_ARM_BCM2835_CPUFREQ) += bcm2835-cpufreq.o
+
+ ##################################################################################
+ # PowerPC platform drivers
diff --git a/target/linux/brcm2708/patches-3.10/012-bcm2708-sound-driver.patch b/target/linux/brcm2708/patches-3.10/012-bcm2708-sound-driver.patch
new file mode 100644
index 0000000000..d1f2eb4f06
--- /dev/null
+++ b/target/linux/brcm2708/patches-3.10/012-bcm2708-sound-driver.patch
@@ -0,0 +1,2244 @@
+diff -urN linux-3.10/sound/arm/bcm2835.c linux-rpi-3.10.y/sound/arm/bcm2835.c
+--- linux-3.10/sound/arm/bcm2835.c 1970-01-01 01:00:00.000000000 +0100
++++ linux-rpi-3.10.y/sound/arm/bcm2835.c 2013-07-06 15:25:50.000000000 +0100
+@@ -0,0 +1,413 @@
++/*****************************************************************************
++* Copyright 2011 Broadcom Corporation. All rights reserved.
++*
++* Unless you and Broadcom execute a separate written software license
++* agreement governing use of this software, this software is licensed to you
++* under the terms of the GNU General Public License version 2, available at
++* http://www.broadcom.com/licenses/GPLv2.php (the "GPL").
++*
++* Notwithstanding the above, under no circumstances may you combine this
++* software in any way with any other Broadcom software provided under a
++* license other than the GPL, without Broadcom's express prior written
++* consent.
++*****************************************************************************/
++
++#include <linux/platform_device.h>
++
++#include <linux/init.h>
++#include <linux/slab.h>
++#include <linux/module.h>
++
++#include "bcm2835.h"
++
++/* module parameters (see "Module Parameters") */
++/* SNDRV_CARDS: maximum number of cards supported by this module */
++static int index[MAX_SUBSTREAMS] = {[0 ... (MAX_SUBSTREAMS - 1)] = -1 };
++static char *id[MAX_SUBSTREAMS] = {[0 ... (MAX_SUBSTREAMS - 1)] = NULL };
++static int enable[MAX_SUBSTREAMS] = {[0 ... (MAX_SUBSTREAMS - 1)] = 1 };
++
++/* HACKY global pointers needed for successive probes to work : ssp
++ * But compared against the changes we will have to do in VC audio_ipc code
++ * to export 8 audio_ipc devices as a single IPC device and then monitor all
++ * four devices in a thread, this gets things done quickly and should be easier
++ * to debug if we run into issues
++ */
++
++static struct snd_card *g_card = NULL;
++static bcm2835_chip_t *g_chip = NULL;
++
++static int snd_bcm2835_free(bcm2835_chip_t * chip)
++{
++ kfree(chip);
++ return 0;
++}
++
++/* component-destructor
++ * (see "Management of Cards and Components")
++ */
++static int snd_bcm2835_dev_free(struct snd_device *device)
++{
++ return snd_bcm2835_free(device->device_data);
++}
++
++/* chip-specific constructor
++ * (see "Management of Cards and Components")
++ */
++static int snd_bcm2835_create(struct snd_card *card,
++ struct platform_device *pdev,
++ bcm2835_chip_t ** rchip)
++{
++ bcm2835_chip_t *chip;
++ int err;
++ static struct snd_device_ops ops = {
++ .dev_free = snd_bcm2835_dev_free,
++ };
++
++ *rchip = NULL;
++
++ chip = kzalloc(sizeof(*chip), GFP_KERNEL);
++ if (chip == NULL)
++ return -ENOMEM;
++
++ chip->card = card;
++
++ err = snd_device_new(card, SNDRV_DEV_LOWLEVEL, chip, &ops);
++ if (err < 0) {
++ snd_bcm2835_free(chip);
++ return err;
++ }
++
++ *rchip = chip;
++ return 0;
++}
++
++static int snd_bcm2835_alsa_probe(struct platform_device *pdev)
++{
++ static int dev;
++ bcm2835_chip_t *chip;
++ struct snd_card *card;
++ int err;
++
++ if (dev >= MAX_SUBSTREAMS)
++ return -ENODEV;
++
++ if (!enable[dev]) {
++ dev++;
++ return -ENOENT;
++ }
++
++ if (dev > 0)
++ goto add_register_map;
++
++ err = snd_card_create(index[dev], id[dev], THIS_MODULE, 0, &g_card);
++ if (err < 0)
++ goto out;
++
++ snd_card_set_dev(g_card, &pdev->dev);
++ strcpy(g_card->driver, "BRCM bcm2835 ALSA Driver");
++ strcpy(g_card->shortname, "bcm2835 ALSA");
++ sprintf(g_card->longname, "%s", g_card->shortname);
++
++ err = snd_bcm2835_create(g_card, pdev, &chip);
++ if (err < 0) {
++ dev_err(&pdev->dev, "Failed to create bcm2835 chip\n");
++ goto out_bcm2835_create;
++ }
++
++ g_chip = chip;
++ err = snd_bcm2835_new_pcm(chip);
++ if (err < 0) {
++ dev_err(&pdev->dev, "Failed to create new BCM2835 pcm device\n");
++ goto out_bcm2835_new_pcm;
++ }
++
++ err = snd_bcm2835_new_ctl(chip);
++ if (err < 0) {
++ dev_err(&pdev->dev, "Failed to create new BCM2835 ctl\n");
++ goto out_bcm2835_new_ctl;
++ }
++
++add_register_map:
++ card = g_card;
++ chip = g_chip;
++
++ BUG_ON(!(card && chip));
++
++ chip->avail_substreams |= (1 << dev);
++ chip->pdev[dev] = pdev;
++
++ if (dev == 0) {
++ err = snd_card_register(card);
++ if (err < 0) {
++ dev_err(&pdev->dev,
++ "Failed to register bcm2835 ALSA card \n");
++ goto out_card_register;
++ }
++ platform_set_drvdata(pdev, card);
++ audio_info("bcm2835 ALSA card created!\n");
++ } else {
++ audio_info("bcm2835 ALSA chip created!\n");
++ platform_set_drvdata(pdev, (void *)dev);
++ }
++
++ dev++;
++
++ return 0;
++
++out_card_register:
++out_bcm2835_new_ctl:
++out_bcm2835_new_pcm:
++out_bcm2835_create:
++ BUG_ON(!g_card);
++ if (snd_card_free(g_card))
++ dev_err(&pdev->dev, "Failed to free Registered alsa card\n");
++ g_card = NULL;
++out:
++ dev = SNDRV_CARDS; /* stop more avail_substreams from being probed */
++ dev_err(&pdev->dev, "BCM2835 ALSA Probe failed !!\n");
++ return err;
++}
++
++static int snd_bcm2835_alsa_remove(struct platform_device *pdev)
++{
++ uint32_t idx;
++ void *drv_data;
++
++ drv_data = platform_get_drvdata(pdev);
++
++ if (drv_data == (void *)g_card) {
++ /* This is the card device */
++ snd_card_free((struct snd_card *)drv_data);
++ g_card = NULL;
++ g_chip = NULL;
++ } else {
++ idx = (uint32_t) drv_data;
++ if (g_card != NULL) {
++ BUG_ON(!g_chip);
++ /* We pass chip device numbers in audio ipc devices
++ * other than the one we registered our card with
++ */
++ idx = (uint32_t) drv_data;
++ BUG_ON(!idx || idx > MAX_SUBSTREAMS);
++ g_chip->avail_substreams &= ~(1 << idx);
++ /* There should be atleast one substream registered
++ * after we are done here, as it wil be removed when
++ * the *remove* is called for the card device
++ */
++ BUG_ON(!g_chip->avail_substreams);
++ }
++ }
++
++ platform_set_drvdata(pdev, NULL);
++
++ return 0;
++}
++
++#ifdef CONFIG_PM
++static int snd_bcm2835_alsa_suspend(struct platform_device *pdev,
++ pm_message_t state)
++{
++ return 0;
++}
++
++static int snd_bcm2835_alsa_resume(struct platform_device *pdev)
++{
++ return 0;
++}
++
++#endif
++
++static struct platform_driver bcm2835_alsa0_driver = {
++ .probe = snd_bcm2835_alsa_probe,
++ .remove = snd_bcm2835_alsa_remove,
++#ifdef CONFIG_PM
++ .suspend = snd_bcm2835_alsa_suspend,
++ .resume = snd_bcm2835_alsa_resume,
++#endif
++ .driver = {
++ .name = "bcm2835_AUD0",
++ .owner = THIS_MODULE,
++ },
++};
++
++static struct platform_driver bcm2835_alsa1_driver = {
++ .probe = snd_bcm2835_alsa_probe,
++ .remove = snd_bcm2835_alsa_remove,
++#ifdef CONFIG_PM
++ .suspend = snd_bcm2835_alsa_suspend,
++ .resume = snd_bcm2835_alsa_resume,
++#endif
++ .driver = {
++ .name = "bcm2835_AUD1",
++ .owner = THIS_MODULE,
++ },
++};
++
++static struct platform_driver bcm2835_alsa2_driver = {
++ .probe = snd_bcm2835_alsa_probe,
++ .remove = snd_bcm2835_alsa_remove,
++#ifdef CONFIG_PM
++ .suspend = snd_bcm2835_alsa_suspend,
++ .resume = snd_bcm2835_alsa_resume,
++#endif
++ .driver = {
++ .name = "bcm2835_AUD2",
++ .owner = THIS_MODULE,
++ },
++};
++
++static struct platform_driver bcm2835_alsa3_driver = {
++ .probe = snd_bcm2835_alsa_probe,
++ .remove = snd_bcm2835_alsa_remove,
++#ifdef CONFIG_PM
++ .suspend = snd_bcm2835_alsa_suspend,
++ .resume = snd_bcm2835_alsa_resume,
++#endif
++ .driver = {
++ .name = "bcm2835_AUD3",
++ .owner = THIS_MODULE,
++ },
++};
++
++static struct platform_driver bcm2835_alsa4_driver = {
++ .probe = snd_bcm2835_alsa_probe,
++ .remove = snd_bcm2835_alsa_remove,
++#ifdef CONFIG_PM
++ .suspend = snd_bcm2835_alsa_suspend,
++ .resume = snd_bcm2835_alsa_resume,
++#endif
++ .driver = {
++ .name = "bcm2835_AUD4",
++ .owner = THIS_MODULE,
++ },
++};
++
++static struct platform_driver bcm2835_alsa5_driver = {
++ .probe = snd_bcm2835_alsa_probe,
++ .remove = snd_bcm2835_alsa_remove,
++#ifdef CONFIG_PM
++ .suspend = snd_bcm2835_alsa_suspend,
++ .resume = snd_bcm2835_alsa_resume,
++#endif
++ .driver = {
++ .name = "bcm2835_AUD5",
++ .owner = THIS_MODULE,
++ },
++};
++
++static struct platform_driver bcm2835_alsa6_driver = {
++ .probe = snd_bcm2835_alsa_probe,
++ .remove = snd_bcm2835_alsa_remove,
++#ifdef CONFIG_PM
++ .suspend = snd_bcm2835_alsa_suspend,
++ .resume = snd_bcm2835_alsa_resume,
++#endif
++ .driver = {
++ .name = "bcm2835_AUD6",
++ .owner = THIS_MODULE,
++ },
++};
++
++static struct platform_driver bcm2835_alsa7_driver = {
++ .probe = snd_bcm2835_alsa_probe,
++ .remove = snd_bcm2835_alsa_remove,
++#ifdef CONFIG_PM
++ .suspend = snd_bcm2835_alsa_suspend,
++ .resume = snd_bcm2835_alsa_resume,
++#endif
++ .driver = {
++ .name = "bcm2835_AUD7",
++ .owner = THIS_MODULE,
++ },
++};
++
++static int bcm2835_alsa_device_init(void)
++{
++ int err;
++ err = platform_driver_register(&bcm2835_alsa0_driver);
++ if (err) {
++ pr_err("Error registering bcm2835_alsa0_driver %d .\n", err);
++ goto out;
++ }
++
++ err = platform_driver_register(&bcm2835_alsa1_driver);
++ if (err) {
++ pr_err("Error registering bcm2835_alsa0_driver %d .\n", err);
++ goto unregister_0;
++ }
++
++ err = platform_driver_register(&bcm2835_alsa2_driver);
++ if (err) {
++ pr_err("Error registering bcm2835_alsa0_driver %d .\n", err);
++ goto unregister_1;
++ }
++
++ err = platform_driver_register(&bcm2835_alsa3_driver);
++ if (err) {
++ pr_err("Error registering bcm2835_alsa0_driver %d .\n", err);
++ goto unregister_2;
++ }
++
++ err = platform_driver_register(&bcm2835_alsa4_driver);
++ if (err) {
++ pr_err("Error registering bcm2835_alsa0_driver %d .\n", err);
++ goto unregister_3;
++ }
++
++ err = platform_driver_register(&bcm2835_alsa5_driver);
++ if (err) {
++ pr_err("Error registering bcm2835_alsa0_driver %d .\n", err);
++ goto unregister_4;
++ }
++
++ err = platform_driver_register(&bcm2835_alsa6_driver);
++ if (err) {
++ pr_err("Error registering bcm2835_alsa0_driver %d .\n", err);
++ goto unregister_5;
++ }
++
++ err = platform_driver_register(&bcm2835_alsa7_driver);
++ if (err) {
++ pr_err("Error registering bcm2835_alsa0_driver %d .\n", err);
++ goto unregister_6;
++ }
++
++ return 0;
++
++unregister_6:
++ platform_driver_unregister(&bcm2835_alsa6_driver);
++unregister_5:
++ platform_driver_unregister(&bcm2835_alsa5_driver);
++unregister_4:
++ platform_driver_unregister(&bcm2835_alsa4_driver);
++unregister_3:
++ platform_driver_unregister(&bcm2835_alsa3_driver);
++unregister_2:
++ platform_driver_unregister(&bcm2835_alsa2_driver);
++unregister_1:
++ platform_driver_unregister(&bcm2835_alsa1_driver);
++unregister_0:
++ platform_driver_unregister(&bcm2835_alsa0_driver);
++out:
++ return err;
++}
++
++static void bcm2835_alsa_device_exit(void)
++{
++ platform_driver_unregister(&bcm2835_alsa0_driver);
++ platform_driver_unregister(&bcm2835_alsa1_driver);
++ platform_driver_unregister(&bcm2835_alsa2_driver);
++ platform_driver_unregister(&bcm2835_alsa3_driver);
++ platform_driver_unregister(&bcm2835_alsa4_driver);
++ platform_driver_unregister(&bcm2835_alsa5_driver);
++ platform_driver_unregister(&bcm2835_alsa6_driver);
++ platform_driver_unregister(&bcm2835_alsa7_driver);
++}
++
++late_initcall(bcm2835_alsa_device_init);
++module_exit(bcm2835_alsa_device_exit);
++
++MODULE_AUTHOR("Dom Cobley");
++MODULE_DESCRIPTION("Alsa driver for BCM2835 chip");
++MODULE_LICENSE("GPL");
++MODULE_ALIAS("platform:bcm2835_alsa");
+diff -urN linux-3.10/sound/arm/bcm2835-ctl.c linux-rpi-3.10.y/sound/arm/bcm2835-ctl.c
+--- linux-3.10/sound/arm/bcm2835-ctl.c 1970-01-01 01:00:00.000000000 +0100
++++ linux-rpi-3.10.y/sound/arm/bcm2835-ctl.c 2013-07-06 15:25:50.000000000 +0100
+@@ -0,0 +1,200 @@
++/*****************************************************************************
++* Copyright 2011 Broadcom Corporation. All rights reserved.
++*
++* Unless you and Broadcom execute a separate written software license
++* agreement governing use of this software, this software is licensed to you
++* under the terms of the GNU General Public License version 2, available at
++* http://www.broadcom.com/licenses/GPLv2.php (the "GPL").
++*
++* Notwithstanding the above, under no circumstances may you combine this
++* software in any way with any other Broadcom software provided under a
++* license other than the GPL, without Broadcom's express prior written
++* consent.
++*****************************************************************************/
++
++#include <linux/platform_device.h>
++#include <linux/init.h>
++#include <linux/io.h>
++#include <linux/jiffies.h>
++#include <linux/slab.h>
++#include <linux/time.h>
++#include <linux/wait.h>
++#include <linux/delay.h>
++#include <linux/moduleparam.h>
++#include <linux/sched.h>
++
++#include <sound/core.h>
++#include <sound/control.h>
++#include <sound/pcm.h>
++#include <sound/pcm_params.h>
++#include <sound/rawmidi.h>
++#include <sound/initval.h>
++#include <sound/tlv.h>
++
++#include "bcm2835.h"
++
++/* volume maximum and minimum in terms of 0.01dB */
++#define CTRL_VOL_MAX 400
++#define CTRL_VOL_MIN -10239 /* originally -10240 */
++
++
++static int snd_bcm2835_ctl_info(struct snd_kcontrol *kcontrol,
++ struct snd_ctl_elem_info *uinfo)
++{
++ audio_info(" ... IN\n");
++ if (kcontrol->private_value == PCM_PLAYBACK_VOLUME) {
++ uinfo->type = SNDRV_CTL_ELEM_TYPE_INTEGER;
++ uinfo->count = 1;
++ uinfo->value.integer.min = CTRL_VOL_MIN;
++ uinfo->value.integer.max = CTRL_VOL_MAX; /* 2303 */
++ } else if (kcontrol->private_value == PCM_PLAYBACK_MUTE) {
++ uinfo->type = SNDRV_CTL_ELEM_TYPE_BOOLEAN;
++ uinfo->count = 1;
++ uinfo->value.integer.min = 0;
++ uinfo->value.integer.max = 1;
++ } else if (kcontrol->private_value == PCM_PLAYBACK_DEVICE) {
++ uinfo->type = SNDRV_CTL_ELEM_TYPE_INTEGER;
++ uinfo->count = 1;
++ uinfo->value.integer.min = 0;
++ uinfo->value.integer.max = AUDIO_DEST_MAX-1;
++ }
++ audio_info(" ... OUT\n");
++ return 0;
++}
++
++/* toggles mute on or off depending on the value of nmute, and returns
++ * 1 if the mute value was changed, otherwise 0
++ */
++static int toggle_mute(struct bcm2835_chip *chip, int nmute)
++{
++ /* if settings are ok, just return 0 */
++ if(chip->mute == nmute)
++ return 0;
++
++ /* if the sound is muted then we need to unmute */
++ if(chip->mute == CTRL_VOL_MUTE)
++ {
++ chip->volume = chip->old_volume; /* copy the old volume back */
++ audio_info("Unmuting, old_volume = %d, volume = %d ...\n", chip->old_volume, chip->volume);
++ }
++ else /* otherwise we mute */
++ {
++ chip->old_volume = chip->volume;
++ chip->volume = 26214; /* set volume to minimum level AKA mute */
++ audio_info("Muting, old_volume = %d, volume = %d ...\n", chip->old_volume, chip->volume);
++ }
++
++ chip->mute = nmute;
++ return 1;
++}
++
++static int snd_bcm2835_ctl_get(struct snd_kcontrol *kcontrol,
++ struct snd_ctl_elem_value *ucontrol)
++{
++ struct bcm2835_chip *chip = snd_kcontrol_chip(kcontrol);
++
++ BUG_ON(!chip && !(chip->avail_substreams & AVAIL_SUBSTREAMS_MASK));
++
++ if (kcontrol->private_value == PCM_PLAYBACK_VOLUME)
++ ucontrol->value.integer.value[0] = chip2alsa(chip->volume);
++ else if (kcontrol->private_value == PCM_PLAYBACK_MUTE)
++ ucontrol->value.integer.value[0] = chip->mute;
++ else if (kcontrol->private_value == PCM_PLAYBACK_DEVICE)
++ ucontrol->value.integer.value[0] = chip->dest;
++
++ return 0;
++}
++
++static int snd_bcm2835_ctl_put(struct snd_kcontrol *kcontrol,
++ struct snd_ctl_elem_value *ucontrol)
++{
++ struct bcm2835_chip *chip = snd_kcontrol_chip(kcontrol);
++ int changed = 0;
++
++ if (kcontrol->private_value == PCM_PLAYBACK_VOLUME) {
++ audio_info("Volume change attempted.. volume = %d new_volume = %d\n", chip->volume, (int)ucontrol->value.integer.value[0]);
++ if (chip->mute == CTRL_VOL_MUTE) {
++ /* changed = toggle_mute(chip, CTRL_VOL_UNMUTE); */
++ return 1; /* should return 0 to signify no change but the mixer takes this as the opposite sign (no idea why) */
++ }
++ if (changed
++ || (ucontrol->value.integer.value[0] != chip2alsa(chip->volume))) {
++
++ chip->volume = alsa2chip(ucontrol->value.integer.value[0]);
++ changed = 1;
++ }
++
++ } else if (kcontrol->private_value == PCM_PLAYBACK_MUTE) {
++ /* Now implemented */
++ audio_info(" Mute attempted\n");
++ changed = toggle_mute(chip, ucontrol->value.integer.value[0]);
++
++ } else if (kcontrol->private_value == PCM_PLAYBACK_DEVICE) {
++ if (ucontrol->value.integer.value[0] != chip->dest) {
++ chip->dest = ucontrol->value.integer.value[0];
++ changed = 1;
++ }
++ }
++
++ if (changed) {
++ if (bcm2835_audio_set_ctls(chip))
++ printk(KERN_ERR "Failed to set ALSA controls..\n");
++ }
++
++ return changed;
++}
++
++static DECLARE_TLV_DB_SCALE(snd_bcm2835_db_scale, CTRL_VOL_MIN, 1, 1);
++
++static struct snd_kcontrol_new snd_bcm2835_ctl[] = {
++ {
++ .iface = SNDRV_CTL_ELEM_IFACE_MIXER,
++ .name = "PCM Playback Volume",
++ .index = 0,
++ .access = SNDRV_CTL_ELEM_ACCESS_READWRITE | SNDRV_CTL_ELEM_ACCESS_TLV_READ,
++ .private_value = PCM_PLAYBACK_VOLUME,
++ .info = snd_bcm2835_ctl_info,
++ .get = snd_bcm2835_ctl_get,
++ .put = snd_bcm2835_ctl_put,
++ .count = 1,
++ .tlv = {.p = snd_bcm2835_db_scale}
++ },
++ {
++ .iface = SNDRV_CTL_ELEM_IFACE_MIXER,
++ .name = "PCM Playback Switch",
++ .index = 0,
++ .access = SNDRV_CTL_ELEM_ACCESS_READWRITE,
++ .private_value = PCM_PLAYBACK_MUTE,
++ .info = snd_bcm2835_ctl_info,
++ .get = snd_bcm2835_ctl_get,
++ .put = snd_bcm2835_ctl_put,
++ .count = 1,
++ },
++ {
++ .iface = SNDRV_CTL_ELEM_IFACE_MIXER,
++ .name = "PCM Playback Route",
++ .index = 0,
++ .access = SNDRV_CTL_ELEM_ACCESS_READWRITE,
++ .private_value = PCM_PLAYBACK_DEVICE,
++ .info = snd_bcm2835_ctl_info,
++ .get = snd_bcm2835_ctl_get,
++ .put = snd_bcm2835_ctl_put,
++ .count = 1,
++ },
++};
++
++int snd_bcm2835_new_ctl(bcm2835_chip_t * chip)
++{
++ int err;
++ unsigned int idx;
++
++ strcpy(chip->card->mixername, "Broadcom Mixer");
++ for (idx = 0; idx < ARRAY_SIZE(snd_bcm2835_ctl); idx++) {
++ err =
++ snd_ctl_add(chip->card,
++ snd_ctl_new1(&snd_bcm2835_ctl[idx], chip));
++ if (err < 0)
++ return err;
++ }
++ return 0;
++}
+diff -urN linux-3.10/sound/arm/bcm2835.h linux-rpi-3.10.y/sound/arm/bcm2835.h
+--- linux-3.10/sound/arm/bcm2835.h 1970-01-01 01:00:00.000000000 +0100
++++ linux-rpi-3.10.y/sound/arm/bcm2835.h 2013-07-06 15:25:50.000000000 +0100
+@@ -0,0 +1,157 @@
++/*****************************************************************************
++* Copyright 2011 Broadcom Corporation. All rights reserved.
++*
++* Unless you and Broadcom execute a separate written software license
++* agreement governing use of this software, this software is licensed to you
++* under the terms of the GNU General Public License version 2, available at
++* http://www.broadcom.com/licenses/GPLv2.php (the "GPL").
++*
++* Notwithstanding the above, under no circumstances may you combine this
++* software in any way with any other Broadcom software provided under a
++* license other than the GPL, without Broadcom's express prior written
++* consent.
++*****************************************************************************/
++
++#ifndef __SOUND_ARM_BCM2835_H
++#define __SOUND_ARM_BCM2835_H
++
++#include <linux/device.h>
++#include <linux/list.h>
++#include <linux/interrupt.h>
++#include <linux/wait.h>
++#include <sound/core.h>
++#include <sound/initval.h>
++#include <sound/pcm.h>
++#include <sound/pcm_params.h>
++#include <sound/pcm-indirect.h>
++#include <linux/workqueue.h>
++
++/*
++#define AUDIO_DEBUG_ENABLE
++#define AUDIO_VERBOSE_DEBUG_ENABLE
++*/
++
++/* Debug macros */
++
++#ifdef AUDIO_DEBUG_ENABLE
++#ifdef AUDIO_VERBOSE_DEBUG_ENABLE
++
++#define audio_debug(fmt, arg...) \
++ printk(KERN_INFO"%s:%d " fmt, __func__, __LINE__, ##arg)
++
++#define audio_info(fmt, arg...) \
++ printk(KERN_INFO"%s:%d " fmt, __func__, __LINE__, ##arg)
++
++#else
++
++#define audio_debug(fmt, arg...)
++
++#define audio_info(fmt, arg...)
++
++#endif /* AUDIO_VERBOSE_DEBUG_ENABLE */
++
++#else
++
++#define audio_debug(fmt, arg...)
++
++#define audio_info(fmt, arg...)
++
++#endif /* AUDIO_DEBUG_ENABLE */
++
++#define audio_error(fmt, arg...) \
++ printk(KERN_ERR"%s:%d " fmt, __func__, __LINE__, ##arg)
++
++#define audio_warning(fmt, arg...) \
++ printk(KERN_WARNING"%s:%d " fmt, __func__, __LINE__, ##arg)
++
++#define audio_alert(fmt, arg...) \
++ printk(KERN_ALERT"%s:%d " fmt, __func__, __LINE__, ##arg)
++
++#define MAX_SUBSTREAMS (8)
++#define AVAIL_SUBSTREAMS_MASK (0xff)
++enum {
++ CTRL_VOL_MUTE,
++ CTRL_VOL_UNMUTE
++};
++
++/* macros for alsa2chip and chip2alsa, instead of functions */
++
++#define alsa2chip(vol) (uint)(-((vol << 8) / 100)) /* convert alsa to chip volume (defined as macro rather than function call) */
++#define chip2alsa(vol) -((vol * 100) >> 8) /* convert chip to alsa volume */
++
++/* Some constants for values .. */
++typedef enum {
++ AUDIO_DEST_AUTO = 0,
++ AUDIO_DEST_HEADPHONES = 1,
++ AUDIO_DEST_HDMI = 2,
++ AUDIO_DEST_MAX,
++} SND_BCM2835_ROUTE_T;
++
++typedef enum {
++ PCM_PLAYBACK_VOLUME,
++ PCM_PLAYBACK_MUTE,
++ PCM_PLAYBACK_DEVICE,
++} SND_BCM2835_CTRL_T;
++
++/* definition of the chip-specific record */
++typedef struct bcm2835_chip {
++ struct snd_card *card;
++ struct snd_pcm *pcm;
++ /* Bitmat for valid reg_base and irq numbers */
++ uint32_t avail_substreams;
++ struct platform_device *pdev[MAX_SUBSTREAMS];
++ struct bcm2835_alsa_stream *alsa_stream[MAX_SUBSTREAMS];
++
++ int volume;
++ int old_volume; /* stores the volume value whist muted */
++ int dest;
++ int mute;
++} bcm2835_chip_t;
++
++typedef struct bcm2835_alsa_stream {
++ bcm2835_chip_t *chip;
++ struct snd_pcm_substream *substream;
++ struct snd_pcm_indirect pcm_indirect;
++
++ struct semaphore buffers_update_sem;
++ struct semaphore control_sem;
++ spinlock_t lock;
++ volatile uint32_t control;
++ volatile uint32_t status;
++
++ int open;
++ int running;
++ int draining;
++
++ unsigned int pos;
++ unsigned int buffer_size;
++ unsigned int period_size;
++
++ uint32_t enable_fifo_irq;
++ irq_handler_t fifo_irq_handler;
++
++ atomic_t retrieved;
++ struct opaque_AUDIO_INSTANCE_T *instance;
++ struct workqueue_struct *my_wq;
++ int idx;
++} bcm2835_alsa_stream_t;
++
++int snd_bcm2835_new_ctl(bcm2835_chip_t * chip);
++int snd_bcm2835_new_pcm(bcm2835_chip_t * chip);
++
++int bcm2835_audio_open(bcm2835_alsa_stream_t * alsa_stream);
++int bcm2835_audio_close(bcm2835_alsa_stream_t * alsa_stream);
++int bcm2835_audio_set_params(bcm2835_alsa_stream_t * alsa_stream,
++ uint32_t channels, uint32_t samplerate,
++ uint32_t bps);
++int bcm2835_audio_setup(bcm2835_alsa_stream_t * alsa_stream);
++int bcm2835_audio_start(bcm2835_alsa_stream_t * alsa_stream);
++int bcm2835_audio_stop(bcm2835_alsa_stream_t * alsa_stream);
++int bcm2835_audio_set_ctls(bcm2835_chip_t * chip);
++int bcm2835_audio_write(bcm2835_alsa_stream_t * alsa_stream, uint32_t count,
++ void *src);
++uint32_t bcm2835_audio_retrieve_buffers(bcm2835_alsa_stream_t * alsa_stream);
++void bcm2835_audio_flush_buffers(bcm2835_alsa_stream_t * alsa_stream);
++void bcm2835_audio_flush_playback_buffers(bcm2835_alsa_stream_t * alsa_stream);
++
++#endif /* __SOUND_ARM_BCM2835_H */
+diff -urN linux-3.10/sound/arm/bcm2835-pcm.c linux-rpi-3.10.y/sound/arm/bcm2835-pcm.c
+--- linux-3.10/sound/arm/bcm2835-pcm.c 1970-01-01 01:00:00.000000000 +0100
++++ linux-rpi-3.10.y/sound/arm/bcm2835-pcm.c 2013-07-06 15:25:50.000000000 +0100
+@@ -0,0 +1,426 @@
++/*****************************************************************************
++* Copyright 2011 Broadcom Corporation. All rights reserved.
++*
++* Unless you and Broadcom execute a separate written software license
++* agreement governing use of this software, this software is licensed to you
++* under the terms of the GNU General Public License version 2, available at
++* http://www.broadcom.com/licenses/GPLv2.php (the "GPL").
++*
++* Notwithstanding the above, under no circumstances may you combine this
++* software in any way with any other Broadcom software provided under a
++* license other than the GPL, without Broadcom's express prior written
++* consent.
++*****************************************************************************/
++
++#include <linux/interrupt.h>
++#include <linux/slab.h>
++
++#include "bcm2835.h"
++
++/* hardware definition */
++static struct snd_pcm_hardware snd_bcm2835_playback_hw = {
++ .info = (SNDRV_PCM_INFO_INTERLEAVED | SNDRV_PCM_INFO_BLOCK_TRANSFER |
++ SNDRV_PCM_INFO_MMAP | SNDRV_PCM_INFO_MMAP_VALID),
++ .formats = SNDRV_PCM_FMTBIT_U8 | SNDRV_PCM_FMTBIT_S16_LE,
++ .rates = SNDRV_PCM_RATE_CONTINUOUS | SNDRV_PCM_RATE_8000_48000,
++ .rate_min = 8000,
++ .rate_max = 48000,
++ .channels_min = 1,
++ .channels_max = 2,
++ .buffer_bytes_max = 128 * 1024,
++ .period_bytes_min = 1 * 1024,
++ .period_bytes_max = 128 * 1024,
++ .periods_min = 1,
++ .periods_max = 128,
++};
++
++static void snd_bcm2835_playback_free(struct snd_pcm_runtime *runtime)
++{
++ audio_info("Freeing up alsa stream here ..\n");
++ if (runtime->private_data)
++ kfree(runtime->private_data);
++ runtime->private_data = NULL;
++}
++
++static irqreturn_t bcm2835_playback_fifo_irq(int irq, void *dev_id)
++{
++ bcm2835_alsa_stream_t *alsa_stream = (bcm2835_alsa_stream_t *) dev_id;
++ uint32_t consumed = 0;
++ int new_period = 0;
++
++ audio_info(" .. IN\n");
++
++ audio_info("alsa_stream=%p substream=%p\n", alsa_stream,
++ alsa_stream ? alsa_stream->substream : 0);
++
++ if (alsa_stream->open)
++ consumed = bcm2835_audio_retrieve_buffers(alsa_stream);
++
++ /* We get called only if playback was triggered, So, the number of buffers we retrieve in
++ * each iteration are the buffers that have been played out already
++ */
++
++ if (alsa_stream->period_size) {
++ if ((alsa_stream->pos / alsa_stream->period_size) !=
++ ((alsa_stream->pos + consumed) / alsa_stream->period_size))
++ new_period = 1;
++ }
++ audio_debug("updating pos cur: %d + %d max:%d period_bytes:%d, hw_ptr: %d new_period:%d\n",
++ alsa_stream->pos,
++ consumed,
++ alsa_stream->buffer_size,
++ (int)(alsa_stream->period_size*alsa_stream->substream->runtime->periods),
++ frames_to_bytes(alsa_stream->substream->runtime, alsa_stream->substream->runtime->status->hw_ptr),
++ new_period);
++ if (alsa_stream->buffer_size) {
++ alsa_stream->pos += consumed &~ (1<<30);
++ alsa_stream->pos %= alsa_stream->buffer_size;
++ }
++
++ if (alsa_stream->substream) {
++ if (new_period)
++ snd_pcm_period_elapsed(alsa_stream->substream);
++ } else {
++ audio_warning(" unexpected NULL substream\n");
++ }
++ audio_info(" .. OUT\n");
++
++ return IRQ_HANDLED;
++}
++
++/* open callback */
++static int snd_bcm2835_playback_open(struct snd_pcm_substream *substream)
++{
++ bcm2835_chip_t *chip = snd_pcm_substream_chip(substream);
++ struct snd_pcm_runtime *runtime = substream->runtime;
++ bcm2835_alsa_stream_t *alsa_stream;
++ int idx;
++ int err;
++
++ audio_info(" .. IN (%d)\n", substream->number);
++
++ audio_info("Alsa open (%d)\n", substream->number);
++ idx = substream->number;
++
++ if (idx > MAX_SUBSTREAMS) {
++ audio_error
++ ("substream(%d) device doesn't exist max(%d) substreams allowed\n",
++ idx, MAX_SUBSTREAMS);
++ err = -ENODEV;
++ goto out;
++ }
++
++ /* Check if we are ready */
++ if (!(chip->avail_substreams & (1 << idx))) {
++ /* We are not ready yet */
++ audio_error("substream(%d) device is not ready yet\n", idx);
++ err = -EAGAIN;
++ goto out;
++ }
++
++ alsa_stream = kzalloc(sizeof(bcm2835_alsa_stream_t), GFP_KERNEL);
++ if (alsa_stream == NULL) {
++ return -ENOMEM;
++ }
++
++ /* Initialise alsa_stream */
++ alsa_stream->chip = chip;
++ alsa_stream->substream = substream;
++ alsa_stream->idx = idx;
++ chip->alsa_stream[idx] = alsa_stream;
++
++ sema_init(&alsa_stream->buffers_update_sem, 0);
++ sema_init(&alsa_stream->control_sem, 0);
++ spin_lock_init(&alsa_stream->lock);
++
++ /* Enabled in start trigger, called on each "fifo irq" after that */
++ alsa_stream->enable_fifo_irq = 0;
++ alsa_stream->fifo_irq_handler = bcm2835_playback_fifo_irq;
++
++ runtime->private_data = alsa_stream;
++ runtime->private_free = snd_bcm2835_playback_free;
++ runtime->hw = snd_bcm2835_playback_hw;
++ /* minimum 16 bytes alignment (for vchiq bulk transfers) */
++ snd_pcm_hw_constraint_step(runtime, 0, SNDRV_PCM_HW_PARAM_PERIOD_BYTES,
++ 16);
++
++ err = bcm2835_audio_open(alsa_stream);
++ if (err != 0) {
++ kfree(alsa_stream);
++ return err;
++ }
++
++ alsa_stream->open = 1;
++ alsa_stream->draining = 1;
++
++out:
++ audio_info(" .. OUT =%d\n", err);
++
++ return err;
++}
++
++/* close callback */
++static int snd_bcm2835_playback_close(struct snd_pcm_substream *substream)
++{
++ /* the hardware-specific codes will be here */
++
++ struct snd_pcm_runtime *runtime = substream->runtime;
++ bcm2835_alsa_stream_t *alsa_stream = runtime->private_data;
++
++ audio_info(" .. IN\n");
++ audio_info("Alsa close\n");
++
++ /*
++ * Call stop if it's still running. This happens when app
++ * is force killed and we don't get a stop trigger.
++ */
++ if (alsa_stream->running) {
++ int err;
++ err = bcm2835_audio_stop(alsa_stream);
++ alsa_stream->running = 0;
++ if (err != 0)
++ audio_error(" Failed to STOP alsa device\n");
++ }
++
++ alsa_stream->period_size = 0;
++ alsa_stream->buffer_size = 0;
++
++ if (alsa_stream->open) {
++ alsa_stream->open = 0;
++ bcm2835_audio_close(alsa_stream);
++ }
++ if (alsa_stream->chip)
++ alsa_stream->chip->alsa_stream[alsa_stream->idx] = NULL;
++ /*
++ * Do not free up alsa_stream here, it will be freed up by
++ * runtime->private_free callback we registered in *_open above
++ */
++
++ audio_info(" .. OUT\n");
++
++ return 0;
++}
++
++/* hw_params callback */
++static int snd_bcm2835_pcm_hw_params(struct snd_pcm_substream *substream,
++ struct snd_pcm_hw_params *params)
++{
++ int err;
++ struct snd_pcm_runtime *runtime = substream->runtime;
++ bcm2835_alsa_stream_t *alsa_stream =
++ (bcm2835_alsa_stream_t *) runtime->private_data;
++
++ audio_info(" .. IN\n");
++
++ err = snd_pcm_lib_malloc_pages(substream, params_buffer_bytes(params));
++ if (err < 0) {
++ audio_error
++ (" pcm_lib_malloc failed to allocated pages for buffers\n");
++ return err;
++ }
++
++ err = bcm2835_audio_set_params(alsa_stream, params_channels(params),
++ params_rate(params),
++ snd_pcm_format_width(params_format
++ (params)));
++ if (err < 0) {
++ audio_error(" error setting hw params\n");
++ }
++
++ bcm2835_audio_setup(alsa_stream);
++
++ /* in preparation of the stream, set the controls (volume level) of the stream */
++ bcm2835_audio_set_ctls(alsa_stream->chip);
++
++ audio_info(" .. OUT\n");
++
++ return err;
++}
++
++/* hw_free callback */
++static int snd_bcm2835_pcm_hw_free(struct snd_pcm_substream *substream)
++{
++ audio_info(" .. IN\n");
++ return snd_pcm_lib_free_pages(substream);
++}
++
++/* prepare callback */
++static int snd_bcm2835_pcm_prepare(struct snd_pcm_substream *substream)
++{
++ struct snd_pcm_runtime *runtime = substream->runtime;
++ bcm2835_alsa_stream_t *alsa_stream = runtime->private_data;
++
++ audio_info(" .. IN\n");
++
++ memset(&alsa_stream->pcm_indirect, 0, sizeof(alsa_stream->pcm_indirect));
++
++ alsa_stream->pcm_indirect.hw_buffer_size =
++ alsa_stream->pcm_indirect.sw_buffer_size =
++ snd_pcm_lib_buffer_bytes(substream);
++
++ alsa_stream->buffer_size = snd_pcm_lib_buffer_bytes(substream);
++ alsa_stream->period_size = snd_pcm_lib_period_bytes(substream);
++ alsa_stream->pos = 0;
++
++ audio_debug("buffer_size=%d, period_size=%d pos=%d frame_bits=%d\n",
++ alsa_stream->buffer_size, alsa_stream->period_size,
++ alsa_stream->pos, runtime->frame_bits);
++
++ audio_info(" .. OUT\n");
++ return 0;
++}
++
++static void snd_bcm2835_pcm_transfer(struct snd_pcm_substream *substream,
++ struct snd_pcm_indirect *rec, size_t bytes)
++{
++ struct snd_pcm_runtime *runtime = substream->runtime;
++ bcm2835_alsa_stream_t *alsa_stream = runtime->private_data;
++ void *src = (void *)(substream->runtime->dma_area + rec->sw_data);
++ int err;
++
++ err = bcm2835_audio_write(alsa_stream, bytes, src);
++ if (err)
++ audio_error(" Failed to transfer to alsa device (%d)\n", err);
++
++}
++
++static int snd_bcm2835_pcm_ack(struct snd_pcm_substream *substream)
++{
++ struct snd_pcm_runtime *runtime = substream->runtime;
++ bcm2835_alsa_stream_t *alsa_stream = runtime->private_data;
++ struct snd_pcm_indirect *pcm_indirect = &alsa_stream->pcm_indirect;
++
++ pcm_indirect->hw_queue_size = runtime->hw.buffer_bytes_max;
++ snd_pcm_indirect_playback_transfer(substream, pcm_indirect,
++ snd_bcm2835_pcm_transfer);
++ return 0;
++}
++
++/* trigger callback */
++static int snd_bcm2835_pcm_trigger(struct snd_pcm_substream *substream, int cmd)
++{
++ struct snd_pcm_runtime *runtime = substream->runtime;
++ bcm2835_alsa_stream_t *alsa_stream = runtime->private_data;
++ int err = 0;
++
++ audio_info(" .. IN\n");
++
++ switch (cmd) {
++ case SNDRV_PCM_TRIGGER_START:
++ audio_debug("bcm2835_AUDIO_TRIGGER_START running=%d\n",
++ alsa_stream->running);
++ if (!alsa_stream->running) {
++ err = bcm2835_audio_start(alsa_stream);
++ if (err == 0) {
++ alsa_stream->pcm_indirect.hw_io =
++ alsa_stream->pcm_indirect.hw_data =
++ bytes_to_frames(runtime,
++ alsa_stream->pos);
++ substream->ops->ack(substream);
++ alsa_stream->running = 1;
++ alsa_stream->draining = 1;
++ } else {
++ audio_error(" Failed to START alsa device (%d)\n", err);
++ }
++ }
++ break;
++ case SNDRV_PCM_TRIGGER_STOP:
++ audio_debug
++ ("bcm2835_AUDIO_TRIGGER_STOP running=%d draining=%d\n",
++ alsa_stream->running, runtime->status->state == SNDRV_PCM_STATE_DRAINING);
++ if (runtime->status->state == SNDRV_PCM_STATE_DRAINING) {
++ audio_info("DRAINING\n");
++ alsa_stream->draining = 1;
++ } else {
++ audio_info("DROPPING\n");
++ alsa_stream->draining = 0;
++ }
++ if (alsa_stream->running) {
++ err = bcm2835_audio_stop(alsa_stream);
++ if (err != 0)
++ audio_error(" Failed to STOP alsa device (%d)\n", err);
++ alsa_stream->running = 0;
++ }
++ break;
++ default:
++ err = -EINVAL;
++ }
++
++ audio_info(" .. OUT\n");
++ return err;
++}
++
++/* pointer callback */
++static snd_pcm_uframes_t
++snd_bcm2835_pcm_pointer(struct snd_pcm_substream *substream)
++{
++ struct snd_pcm_runtime *runtime = substream->runtime;
++ bcm2835_alsa_stream_t *alsa_stream = runtime->private_data;
++
++ audio_info(" .. IN\n");
++
++ audio_debug("pcm_pointer... (%d) hwptr=%d appl=%d pos=%d\n", 0,
++ frames_to_bytes(runtime, runtime->status->hw_ptr),
++ frames_to_bytes(runtime, runtime->control->appl_ptr),
++ alsa_stream->pos);
++
++ audio_info(" .. OUT\n");
++ return snd_pcm_indirect_playback_pointer(substream,
++ &alsa_stream->pcm_indirect,
++ alsa_stream->pos);
++}
++
++static int snd_bcm2835_pcm_lib_ioctl(struct snd_pcm_substream *substream,
++ unsigned int cmd, void *arg)
++{
++ int ret = snd_pcm_lib_ioctl(substream, cmd, arg);
++ audio_info(" .. substream=%p, cmd=%d, arg=%p (%x) ret=%d\n", substream,
++ cmd, arg, arg ? *(unsigned *)arg : 0, ret);
++ return ret;
++}
++
++/* operators */
++static struct snd_pcm_ops snd_bcm2835_playback_ops = {
++ .open = snd_bcm2835_playback_open,
++ .close = snd_bcm2835_playback_close,
++ .ioctl = snd_bcm2835_pcm_lib_ioctl,
++ .hw_params = snd_bcm2835_pcm_hw_params,
++ .hw_free = snd_bcm2835_pcm_hw_free,
++ .prepare = snd_bcm2835_pcm_prepare,
++ .trigger = snd_bcm2835_pcm_trigger,
++ .pointer = snd_bcm2835_pcm_pointer,
++ .ack = snd_bcm2835_pcm_ack,
++};
++
++/* create a pcm device */
++int snd_bcm2835_new_pcm(bcm2835_chip_t * chip)
++{
++ struct snd_pcm *pcm;
++ int err;
++
++ audio_info(" .. IN\n");
++ err =
++ snd_pcm_new(chip->card, "bcm2835 ALSA", 0, MAX_SUBSTREAMS, 0, &pcm);
++ if (err < 0)
++ return err;
++ pcm->private_data = chip;
++ strcpy(pcm->name, "bcm2835 ALSA");
++ chip->pcm = pcm;
++ chip->dest = AUDIO_DEST_AUTO;
++ chip->volume = alsa2chip(0);
++ chip->mute = CTRL_VOL_UNMUTE; /*disable mute on startup */
++ /* set operators */
++ snd_pcm_set_ops(pcm, SNDRV_PCM_STREAM_PLAYBACK,
++ &snd_bcm2835_playback_ops);
++
++ /* pre-allocation of buffers */
++ /* NOTE: this may fail */
++ snd_pcm_lib_preallocate_pages_for_all(pcm, SNDRV_DMA_TYPE_CONTINUOUS,
++ snd_dma_continuous_data
++ (GFP_KERNEL), 64 * 1024,
++ 64 * 1024);
++
++ audio_info(" .. OUT\n");
++
++ return 0;
++}
+diff -urN linux-3.10/sound/arm/bcm2835-vchiq.c linux-rpi-3.10.y/sound/arm/bcm2835-vchiq.c
+--- linux-3.10/sound/arm/bcm2835-vchiq.c 1970-01-01 01:00:00.000000000 +0100
++++ linux-rpi-3.10.y/sound/arm/bcm2835-vchiq.c 2013-07-06 15:25:50.000000000 +0100
+@@ -0,0 +1,879 @@
++/*****************************************************************************
++* Copyright 2011 Broadcom Corporation. All rights reserved.
++*
++* Unless you and Broadcom execute a separate written software license
++* agreement governing use of this software, this software is licensed to you
++* under the terms of the GNU General Public License version 2, available at
++* http://www.broadcom.com/licenses/GPLv2.php (the "GPL").
++*
++* Notwithstanding the above, under no circumstances may you combine this
++* software in any way with any other Broadcom software provided under a
++* license other than the GPL, without Broadcom's express prior written
++* consent.
++*****************************************************************************/
++
++#include <linux/device.h>
++#include <sound/core.h>
++#include <sound/initval.h>
++#include <sound/pcm.h>
++#include <linux/io.h>
++#include <linux/interrupt.h>
++#include <linux/fs.h>
++#include <linux/file.h>
++#include <linux/mm.h>
++#include <linux/syscalls.h>
++#include <asm/uaccess.h>
++#include <linux/slab.h>
++#include <linux/delay.h>
++#include <linux/atomic.h>
++#include <linux/module.h>
++#include <linux/completion.h>
++
++#include "bcm2835.h"
++
++/* ---- Include Files -------------------------------------------------------- */
++
++#include "interface/vchi/vchi.h"
++#include "vc_vchi_audioserv_defs.h"
++
++/* ---- Private Constants and Types ------------------------------------------ */
++
++#define BCM2835_AUDIO_STOP 0
++#define BCM2835_AUDIO_START 1
++#define BCM2835_AUDIO_WRITE 2
++
++/* Logging macros (for remapping to other logging mechanisms, i.e., printf) */
++#ifdef AUDIO_DEBUG_ENABLE
++ #define LOG_ERR( fmt, arg... ) pr_err( "%s:%d " fmt, __func__, __LINE__, ##arg)
++ #define LOG_WARN( fmt, arg... ) pr_info( "%s:%d " fmt, __func__, __LINE__, ##arg)
++ #define LOG_INFO( fmt, arg... ) pr_info( "%s:%d " fmt, __func__, __LINE__, ##arg)
++ #define LOG_DBG( fmt, arg... ) pr_info( "%s:%d " fmt, __func__, __LINE__, ##arg)
++#else
++ #define LOG_ERR( fmt, arg... ) pr_err( "%s:%d " fmt, __func__, __LINE__, ##arg)
++ #define LOG_WARN( fmt, arg... )
++ #define LOG_INFO( fmt, arg... )
++ #define LOG_DBG( fmt, arg... )
++#endif
++
++typedef struct opaque_AUDIO_INSTANCE_T {
++ uint32_t num_connections;
++ VCHI_SERVICE_HANDLE_T vchi_handle[VCHI_MAX_NUM_CONNECTIONS];
++ struct completion msg_avail_comp;
++ struct mutex vchi_mutex;
++ bcm2835_alsa_stream_t *alsa_stream;
++ int32_t result;
++ short peer_version;
++} AUDIO_INSTANCE_T;
++
++bool force_bulk = false;
++
++/* ---- Private Variables ---------------------------------------------------- */
++
++/* ---- Private Function Prototypes ------------------------------------------ */
++
++/* ---- Private Functions ---------------------------------------------------- */
++
++static int bcm2835_audio_stop_worker(bcm2835_alsa_stream_t * alsa_stream);
++static int bcm2835_audio_start_worker(bcm2835_alsa_stream_t * alsa_stream);
++static int bcm2835_audio_write_worker(bcm2835_alsa_stream_t *alsa_stream,
++ uint32_t count, void *src);
++
++typedef struct {
++ struct work_struct my_work;
++ bcm2835_alsa_stream_t *alsa_stream;
++ int cmd;
++ void *src;
++ uint32_t count;
++} my_work_t;
++
++static void my_wq_function(struct work_struct *work)
++{
++ my_work_t *w = (my_work_t *) work;
++ int ret = -9;
++ LOG_DBG(" .. IN %p:%d\n", w->alsa_stream, w->cmd);
++ switch (w->cmd) {
++ case BCM2835_AUDIO_START:
++ ret = bcm2835_audio_start_worker(w->alsa_stream);
++ break;
++ case BCM2835_AUDIO_STOP:
++ ret = bcm2835_audio_stop_worker(w->alsa_stream);
++ break;
++ case BCM2835_AUDIO_WRITE:
++ ret = bcm2835_audio_write_worker(w->alsa_stream, w->count,
++ w->src);
++ break;
++ default:
++ LOG_ERR(" Unexpected work: %p:%d\n", w->alsa_stream, w->cmd);
++ break;
++ }
++ kfree((void *)work);
++ LOG_DBG(" .. OUT %d\n", ret);
++}
++
++int bcm2835_audio_start(bcm2835_alsa_stream_t * alsa_stream)
++{
++ int ret = -1;
++ LOG_DBG(" .. IN\n");
++ if (alsa_stream->my_wq) {
++ my_work_t *work = kmalloc(sizeof(my_work_t), GFP_ATOMIC);
++ /*--- Queue some work (item 1) ---*/
++ if (work) {
++ INIT_WORK((struct work_struct *)work, my_wq_function);
++ work->alsa_stream = alsa_stream;
++ work->cmd = BCM2835_AUDIO_START;
++ if (queue_work
++ (alsa_stream->my_wq, (struct work_struct *)work))
++ ret = 0;
++ } else
++ LOG_ERR(" .. Error: NULL work kmalloc\n");
++ }
++ LOG_DBG(" .. OUT %d\n", ret);
++ return ret;
++}
++
++int bcm2835_audio_stop(bcm2835_alsa_stream_t * alsa_stream)
++{
++ int ret = -1;
++ LOG_DBG(" .. IN\n");
++ if (alsa_stream->my_wq) {
++ my_work_t *work = kmalloc(sizeof(my_work_t), GFP_ATOMIC);
++ /*--- Queue some work (item 1) ---*/
++ if (work) {
++ INIT_WORK((struct work_struct *)work, my_wq_function);
++ work->alsa_stream = alsa_stream;
++ work->cmd = BCM2835_AUDIO_STOP;
++ if (queue_work
++ (alsa_stream->my_wq, (struct work_struct *)work))
++ ret = 0;
++ } else
++ LOG_ERR(" .. Error: NULL work kmalloc\n");
++ }
++ LOG_DBG(" .. OUT %d\n", ret);
++ return ret;
++}
++
++int bcm2835_audio_write(bcm2835_alsa_stream_t *alsa_stream,
++ uint32_t count, void *src)
++{
++ int ret = -1;
++ LOG_DBG(" .. IN\n");
++ if (alsa_stream->my_wq) {
++ my_work_t *work = kmalloc(sizeof(my_work_t), GFP_ATOMIC);
++ /*--- Queue some work (item 1) ---*/
++ if (work) {
++ INIT_WORK((struct work_struct *)work, my_wq_function);
++ work->alsa_stream = alsa_stream;
++ work->cmd = BCM2835_AUDIO_WRITE;
++ work->src = src;
++ work->count = count;
++ if (queue_work
++ (alsa_stream->my_wq, (struct work_struct *)work))
++ ret = 0;
++ } else
++ LOG_ERR(" .. Error: NULL work kmalloc\n");
++ }
++ LOG_DBG(" .. OUT %d\n", ret);
++ return ret;
++}
++
++void my_workqueue_init(bcm2835_alsa_stream_t * alsa_stream)
++{
++ alsa_stream->my_wq = create_workqueue("my_queue");
++ return;
++}
++
++void my_workqueue_quit(bcm2835_alsa_stream_t * alsa_stream)
++{
++ if (alsa_stream->my_wq) {
++ flush_workqueue(alsa_stream->my_wq);
++ destroy_workqueue(alsa_stream->my_wq);
++ alsa_stream->my_wq = NULL;
++ }
++ return;
++}
++
++static void audio_vchi_callback(void *param,
++ const VCHI_CALLBACK_REASON_T reason,
++ void *msg_handle)
++{
++ AUDIO_INSTANCE_T *instance = (AUDIO_INSTANCE_T *) param;
++ int32_t status;
++ int32_t msg_len;
++ VC_AUDIO_MSG_T m;
++ bcm2835_alsa_stream_t *alsa_stream = 0;
++ LOG_DBG(" .. IN instance=%p, param=%p, reason=%d, handle=%p\n",
++ instance, param, reason, msg_handle);
++
++ if (!instance || reason != VCHI_CALLBACK_MSG_AVAILABLE) {
++ return;
++ }
++ alsa_stream = instance->alsa_stream;
++ status = vchi_msg_dequeue(instance->vchi_handle[0],
++ &m, sizeof m, &msg_len, VCHI_FLAGS_NONE);
++ if (m.type == VC_AUDIO_MSG_TYPE_RESULT) {
++ LOG_DBG
++ (" .. instance=%p, m.type=VC_AUDIO_MSG_TYPE_RESULT, success=%d\n",
++ instance, m.u.result.success);
++ instance->result = m.u.result.success;
++ complete(&instance->msg_avail_comp);
++ } else if (m.type == VC_AUDIO_MSG_TYPE_COMPLETE) {
++ irq_handler_t callback = (irq_handler_t) m.u.complete.callback;
++ LOG_DBG
++ (" .. instance=%p, m.type=VC_AUDIO_MSG_TYPE_COMPLETE, complete=%d\n",
++ instance, m.u.complete.count);
++ if (alsa_stream && callback) {
++ atomic_add(m.u.complete.count, &alsa_stream->retrieved);
++ callback(0, alsa_stream);
++ } else {
++ LOG_DBG(" .. unexpected alsa_stream=%p, callback=%p\n",
++ alsa_stream, callback);
++ }
++ } else {
++ LOG_DBG(" .. unexpected m.type=%d\n", m.type);
++ }
++ LOG_DBG(" .. OUT\n");
++}
++
++static AUDIO_INSTANCE_T *vc_vchi_audio_init(VCHI_INSTANCE_T vchi_instance,
++ VCHI_CONNECTION_T **
++ vchi_connections,
++ uint32_t num_connections)
++{
++ uint32_t i;
++ AUDIO_INSTANCE_T *instance;
++ int status;
++
++ LOG_DBG("%s: start", __func__);
++
++ if (num_connections > VCHI_MAX_NUM_CONNECTIONS) {
++ LOG_ERR("%s: unsupported number of connections %u (max=%u)\n",
++ __func__, num_connections, VCHI_MAX_NUM_CONNECTIONS);
++
++ return NULL;
++ }
++ /* Allocate memory for this instance */
++ instance = kmalloc(sizeof(*instance), GFP_KERNEL);
++
++ memset(instance, 0, sizeof(*instance));
++ instance->num_connections = num_connections;
++
++ /* Create a lock for exclusive, serialized VCHI connection access */
++ mutex_init(&instance->vchi_mutex);
++ /* Open the VCHI service connections */
++ for (i = 0; i < num_connections; i++) {
++ SERVICE_CREATION_T params = {
++ VCHI_VERSION_EX(VC_AUDIOSERV_VER, VC_AUDIOSERV_MIN_VER),
++ VC_AUDIO_SERVER_NAME, // 4cc service code
++ vchi_connections[i], // passed in fn pointers
++ 0, // rx fifo size (unused)
++ 0, // tx fifo size (unused)
++ audio_vchi_callback, // service callback
++ instance, // service callback parameter
++ 1, //TODO: remove VCOS_FALSE, // unaligned bulk recieves
++ 1, //TODO: remove VCOS_FALSE, // unaligned bulk transmits
++ 0 // want crc check on bulk transfers
++ };
++
++ status = vchi_service_open(vchi_instance, &params,
++ &instance->vchi_handle[i]);
++ if (status) {
++ LOG_ERR
++ ("%s: failed to open VCHI service connection (status=%d)\n",
++ __func__, status);
++
++ goto err_close_services;
++ }
++ /* Finished with the service for now */
++ vchi_service_release(instance->vchi_handle[i]);
++ }
++
++ return instance;
++
++err_close_services:
++ for (i = 0; i < instance->num_connections; i++) {
++ vchi_service_close(instance->vchi_handle[i]);
++ }
++
++ kfree(instance);
++
++ return NULL;
++}
++
++static int32_t vc_vchi_audio_deinit(AUDIO_INSTANCE_T * instance)
++{
++ uint32_t i;
++
++ LOG_DBG(" .. IN\n");
++
++ if (instance == NULL) {
++ LOG_ERR("%s: invalid handle %p\n", __func__, instance);
++
++ return -1;
++ }
++
++ LOG_DBG(" .. about to lock (%d)\n", instance->num_connections);
++ if(mutex_lock_interruptible(&instance->vchi_mutex))
++ {
++ LOG_DBG("Interrupted whilst waiting for lock on (%d)\n",instance->num_connections);
++ return -EINTR;
++ }
++
++ /* Close all VCHI service connections */
++ for (i = 0; i < instance->num_connections; i++) {
++ int32_t success;
++ LOG_DBG(" .. %i:closing %p\n", i, instance->vchi_handle[i]);
++ vchi_service_use(instance->vchi_handle[i]);
++
++ success = vchi_service_close(instance->vchi_handle[i]);
++ if (success != 0) {
++ LOG_ERR
++ ("%s: failed to close VCHI service connection (status=%d)\n",
++ __func__, success);
++ }
++ }
++
++ mutex_unlock(&instance->vchi_mutex);
++
++ kfree(instance);
++
++ LOG_DBG(" .. OUT\n");
++
++ return 0;
++}
++
++static int bcm2835_audio_open_connection(bcm2835_alsa_stream_t * alsa_stream)
++{
++ static VCHI_INSTANCE_T vchi_instance;
++ static VCHI_CONNECTION_T *vchi_connection;
++ AUDIO_INSTANCE_T *instance = alsa_stream->instance;
++ int ret;
++ LOG_DBG(" .. IN\n");
++
++ LOG_INFO("%s: start", __func__);
++ //BUG_ON(instance);
++ if (instance) {
++ LOG_ERR("%s: VCHI instance already open (%p)\n",
++ __func__, instance);
++ instance->alsa_stream = alsa_stream;
++ alsa_stream->instance = instance;
++ ret = 0; // xxx todo -1;
++ goto err_free_mem;
++ }
++
++ /* Initialize and create a VCHI connection */
++ ret = vchi_initialise(&vchi_instance);
++ if (ret != 0) {
++ LOG_ERR("%s: failed to initialise VCHI instance (ret=%d)\n",
++ __func__, ret);
++
++ ret = -EIO;
++ goto err_free_mem;
++ }
++ ret = vchi_connect(NULL, 0, vchi_instance);
++ if (ret != 0) {
++ LOG_ERR("%s: failed to connect VCHI instance (ret=%d)\n",
++ __func__, ret);
++
++ ret = -EIO;
++ goto err_free_mem;
++ }
++
++ /* Initialize an instance of the audio service */
++ instance = vc_vchi_audio_init(vchi_instance, &vchi_connection, 1);
++
++ if (instance == NULL /*|| audio_handle != instance */ ) {
++ LOG_ERR("%s: failed to initialize audio service\n", __func__);
++
++ ret = -EPERM;
++ goto err_free_mem;
++ }
++
++ instance->alsa_stream = alsa_stream;
++ alsa_stream->instance = instance;
++
++ LOG_DBG(" success !\n");
++err_free_mem:
++ LOG_DBG(" .. OUT\n");
++
++ return ret;
++}
++
++int bcm2835_audio_open(bcm2835_alsa_stream_t * alsa_stream)
++{
++ AUDIO_INSTANCE_T *instance;
++ VC_AUDIO_MSG_T m;
++ int32_t success;
++ int ret;
++ LOG_DBG(" .. IN\n");
++
++ my_workqueue_init(alsa_stream);
++
++ ret = bcm2835_audio_open_connection(alsa_stream);
++ if (ret != 0) {
++ ret = -1;
++ goto exit;
++ }
++ instance = alsa_stream->instance;
++
++ if(mutex_lock_interruptible(&instance->vchi_mutex))
++ {
++ LOG_DBG("Interrupted whilst waiting for lock on (%d)\n",instance->num_connections);
++ return -EINTR;
++ }
++ vchi_service_use(instance->vchi_handle[0]);
++
++ m.type = VC_AUDIO_MSG_TYPE_OPEN;
++
++ /* Send the message to the videocore */
++ success = vchi_msg_queue(instance->vchi_handle[0],
++ &m, sizeof m,
++ VCHI_FLAGS_BLOCK_UNTIL_QUEUED, NULL);
++
++ if (success != 0) {
++ LOG_ERR("%s: failed on vchi_msg_queue (status=%d)\n",
++ __func__, success);
++
++ ret = -1;
++ goto unlock;
++ }
++
++ ret = 0;
++
++unlock:
++ vchi_service_release(instance->vchi_handle[0]);
++ mutex_unlock(&instance->vchi_mutex);
++exit:
++ LOG_DBG(" .. OUT\n");
++ return ret;
++}
++
++static int bcm2835_audio_set_ctls_chan(bcm2835_alsa_stream_t * alsa_stream,
++ bcm2835_chip_t * chip)
++{
++ VC_AUDIO_MSG_T m;
++ AUDIO_INSTANCE_T *instance = alsa_stream->instance;
++ int32_t success;
++ int ret;
++ LOG_DBG(" .. IN\n");
++
++ LOG_INFO
++ (" Setting ALSA dest(%d), volume(%d)\n", chip->dest, chip->volume);
++
++ if(mutex_lock_interruptible(&instance->vchi_mutex))
++ {
++ LOG_DBG("Interrupted whilst waiting for lock on (%d)\n",instance->num_connections);
++ return -EINTR;
++ }
++ vchi_service_use(instance->vchi_handle[0]);
++
++ instance->result = -1;
++
++ m.type = VC_AUDIO_MSG_TYPE_CONTROL;
++ m.u.control.dest = chip->dest;
++ m.u.control.volume = chip->volume;
++
++ /* Create the message available completion */
++ init_completion(&instance->msg_avail_comp);
++
++ /* Send the message to the videocore */
++ success = vchi_msg_queue(instance->vchi_handle[0],
++ &m, sizeof m,
++ VCHI_FLAGS_BLOCK_UNTIL_QUEUED, NULL);
++
++ if (success != 0) {
++ LOG_ERR("%s: failed on vchi_msg_queue (status=%d)\n",
++ __func__, success);
++
++ ret = -1;
++ goto unlock;
++ }
++
++ /* We are expecting a reply from the videocore */
++ ret = wait_for_completion_interruptible(&instance->msg_avail_comp);
++ if (ret) {
++ LOG_ERR("%s: failed on waiting for event (status=%d)\n",
++ __func__, success);
++ goto unlock;
++ }
++
++ if (instance->result != 0) {
++ LOG_ERR("%s: result=%d\n", __func__, instance->result);
++
++ ret = -1;
++ goto unlock;
++ }
++
++ ret = 0;
++
++unlock:
++ vchi_service_release(instance->vchi_handle[0]);
++ mutex_unlock(&instance->vchi_mutex);
++
++ LOG_DBG(" .. OUT\n");
++ return ret;
++}
++
++int bcm2835_audio_set_ctls(bcm2835_chip_t * chip)
++{
++ int i;
++ int ret = 0;
++ LOG_DBG(" .. IN\n");
++
++ /* change ctls for all substreams */
++ for (i = 0; i < MAX_SUBSTREAMS; i++) {
++ if (chip->avail_substreams & (1 << i)) {
++ if (!chip->alsa_stream[i])
++ {
++ LOG_DBG(" No ALSA stream available?! %i:%p (%x)\n", i, chip->alsa_stream[i], chip->avail_substreams);
++ ret = 0;
++ }
++ else if (bcm2835_audio_set_ctls_chan /* returns 0 on success */
++ (chip->alsa_stream[i], chip) != 0)
++ {
++ LOG_DBG("Couldn't set the controls for stream %d\n", i);
++ ret = -1;
++ }
++ else LOG_DBG(" Controls set for stream %d\n", i);
++ }
++ }
++ LOG_DBG(" .. OUT ret=%d\n", ret);
++ return ret;
++}
++
++int bcm2835_audio_set_params(bcm2835_alsa_stream_t * alsa_stream,
++ uint32_t channels, uint32_t samplerate,
++ uint32_t bps)
++{
++ VC_AUDIO_MSG_T m;
++ AUDIO_INSTANCE_T *instance = alsa_stream->instance;
++ int32_t success;
++ int ret;
++ LOG_DBG(" .. IN\n");
++
++ LOG_INFO
++ (" Setting ALSA channels(%d), samplerate(%d), bits-per-sample(%d)\n",
++ channels, samplerate, bps);
++
++ /* resend ctls - alsa_stream may not have been open when first send */
++ ret = bcm2835_audio_set_ctls_chan(alsa_stream, alsa_stream->chip);
++ if (ret != 0) {
++ LOG_ERR(" Alsa controls not supported\n");
++ return -EINVAL;
++ }
++
++ if(mutex_lock_interruptible(&instance->vchi_mutex))
++ {
++ LOG_DBG("Interrupted whilst waiting for lock on (%d)\n",instance->num_connections);
++ return -EINTR;
++ }
++ vchi_service_use(instance->vchi_handle[0]);
++
++ instance->result = -1;
++
++ m.type = VC_AUDIO_MSG_TYPE_CONFIG;
++ m.u.config.channels = channels;
++ m.u.config.samplerate = samplerate;
++ m.u.config.bps = bps;
++
++ /* Create the message available completion */
++ init_completion(&instance->msg_avail_comp);
++
++ /* Send the message to the videocore */
++ success = vchi_msg_queue(instance->vchi_handle[0],
++ &m, sizeof m,
++ VCHI_FLAGS_BLOCK_UNTIL_QUEUED, NULL);
++
++ if (success != 0) {
++ LOG_ERR("%s: failed on vchi_msg_queue (status=%d)\n",
++ __func__, success);
++
++ ret = -1;
++ goto unlock;
++ }
++
++ /* We are expecting a reply from the videocore */
++ ret = wait_for_completion_interruptible(&instance->msg_avail_comp);
++ if (ret) {
++ LOG_ERR("%s: failed on waiting for event (status=%d)\n",
++ __func__, success);
++ goto unlock;
++ }
++
++ if (instance->result != 0) {
++ LOG_ERR("%s: result=%d", __func__, instance->result);
++
++ ret = -1;
++ goto unlock;
++ }
++
++ ret = 0;
++
++unlock:
++ vchi_service_release(instance->vchi_handle[0]);
++ mutex_unlock(&instance->vchi_mutex);
++
++ LOG_DBG(" .. OUT\n");
++ return ret;
++}
++
++int bcm2835_audio_setup(bcm2835_alsa_stream_t * alsa_stream)
++{
++ LOG_DBG(" .. IN\n");
++
++ LOG_DBG(" .. OUT\n");
++
++ return 0;
++}
++
++static int bcm2835_audio_start_worker(bcm2835_alsa_stream_t * alsa_stream)
++{
++ VC_AUDIO_MSG_T m;
++ AUDIO_INSTANCE_T *instance = alsa_stream->instance;
++ int32_t success;
++ int ret;
++ LOG_DBG(" .. IN\n");
++
++ if(mutex_lock_interruptible(&instance->vchi_mutex))
++ {
++ LOG_DBG("Interrupted whilst waiting for lock on (%d)\n",instance->num_connections);
++ return -EINTR;
++ }
++ vchi_service_use(instance->vchi_handle[0]);
++
++ m.type = VC_AUDIO_MSG_TYPE_START;
++
++ /* Send the message to the videocore */
++ success = vchi_msg_queue(instance->vchi_handle[0],
++ &m, sizeof m,
++ VCHI_FLAGS_BLOCK_UNTIL_QUEUED, NULL);
++
++ if (success != 0) {
++ LOG_ERR("%s: failed on vchi_msg_queue (status=%d)",
++ __func__, success);
++
++ ret = -1;
++ goto unlock;
++ }
++
++ ret = 0;
++
++unlock:
++ vchi_service_release(instance->vchi_handle[0]);
++ mutex_unlock(&instance->vchi_mutex);
++ LOG_DBG(" .. OUT\n");
++ return ret;
++}
++
++static int bcm2835_audio_stop_worker(bcm2835_alsa_stream_t * alsa_stream)
++{
++ VC_AUDIO_MSG_T m;
++ AUDIO_INSTANCE_T *instance = alsa_stream->instance;
++ int32_t success;
++ int ret;
++ LOG_DBG(" .. IN\n");
++
++ if(mutex_lock_interruptible(&instance->vchi_mutex))
++ {
++ LOG_DBG("Interrupted whilst waiting for lock on (%d)\n",instance->num_connections);
++ return -EINTR;
++ }
++ vchi_service_use(instance->vchi_handle[0]);
++
++ m.type = VC_AUDIO_MSG_TYPE_STOP;
++ m.u.stop.draining = alsa_stream->draining;
++
++ /* Send the message to the videocore */
++ success = vchi_msg_queue(instance->vchi_handle[0],
++ &m, sizeof m,
++ VCHI_FLAGS_BLOCK_UNTIL_QUEUED, NULL);
++
++ if (success != 0) {
++ LOG_ERR("%s: failed on vchi_msg_queue (status=%d)",
++ __func__, success);
++
++ ret = -1;
++ goto unlock;
++ }
++
++ ret = 0;
++
++unlock:
++ vchi_service_release(instance->vchi_handle[0]);
++ mutex_unlock(&instance->vchi_mutex);
++ LOG_DBG(" .. OUT\n");
++ return ret;
++}
++
++int bcm2835_audio_close(bcm2835_alsa_stream_t * alsa_stream)
++{
++ VC_AUDIO_MSG_T m;
++ AUDIO_INSTANCE_T *instance = alsa_stream->instance;
++ int32_t success;
++ int ret;
++ LOG_DBG(" .. IN\n");
++
++ my_workqueue_quit(alsa_stream);
++
++ if(mutex_lock_interruptible(&instance->vchi_mutex))
++ {
++ LOG_DBG("Interrupted whilst waiting for lock on (%d)\n",instance->num_connections);
++ return -EINTR;
++ }
++ vchi_service_use(instance->vchi_handle[0]);
++
++ m.type = VC_AUDIO_MSG_TYPE_CLOSE;
++
++ /* Create the message available completion */
++ init_completion(&instance->msg_avail_comp);
++
++ /* Send the message to the videocore */
++ success = vchi_msg_queue(instance->vchi_handle[0],
++ &m, sizeof m,
++ VCHI_FLAGS_BLOCK_UNTIL_QUEUED, NULL);
++
++ if (success != 0) {
++ LOG_ERR("%s: failed on vchi_msg_queue (status=%d)",
++ __func__, success);
++ ret = -1;
++ goto unlock;
++ }
++
++ ret = wait_for_completion_interruptible(&instance->msg_avail_comp);
++ if (ret) {
++ LOG_ERR("%s: failed on waiting for event (status=%d)",
++ __func__, success);
++ goto unlock;
++ }
++ if (instance->result != 0) {
++ LOG_ERR("%s: failed result (status=%d)",
++ __func__, instance->result);
++
++ ret = -1;
++ goto unlock;
++ }
++
++ ret = 0;
++
++unlock:
++ vchi_service_release(instance->vchi_handle[0]);
++ mutex_unlock(&instance->vchi_mutex);
++
++ /* Stop the audio service */
++ if (instance) {
++ vc_vchi_audio_deinit(instance);
++ alsa_stream->instance = NULL;
++ }
++ LOG_DBG(" .. OUT\n");
++ return ret;
++}
++
++int bcm2835_audio_write_worker(bcm2835_alsa_stream_t *alsa_stream,
++ uint32_t count, void *src)
++{
++ VC_AUDIO_MSG_T m;
++ AUDIO_INSTANCE_T *instance = alsa_stream->instance;
++ int32_t success;
++ int ret;
++
++ LOG_DBG(" .. IN\n");
++
++ LOG_INFO(" Writing %d bytes from %p\n", count, src);
++
++ if(mutex_lock_interruptible(&instance->vchi_mutex))
++ {
++ LOG_DBG("Interrupted whilst waiting for lock on (%d)\n",instance->num_connections);
++ return -EINTR;
++ }
++ vchi_service_use(instance->vchi_handle[0]);
++
++ if ( instance->peer_version==0 && vchi_get_peer_version(instance->vchi_handle[0], &instance->peer_version) == 0 ) {
++ LOG_DBG("%s: client version %d connected\n", __func__, instance->peer_version);
++ }
++ m.type = VC_AUDIO_MSG_TYPE_WRITE;
++ m.u.write.count = count;
++ // old version uses bulk, new version uses control
++ m.u.write.max_packet = instance->peer_version < 2 || force_bulk ? 0:4000;
++ m.u.write.callback = alsa_stream->fifo_irq_handler;
++ m.u.write.cookie = alsa_stream;
++ m.u.write.silence = src == NULL;
++
++ /* Send the message to the videocore */
++ success = vchi_msg_queue(instance->vchi_handle[0],
++ &m, sizeof m,
++ VCHI_FLAGS_BLOCK_UNTIL_QUEUED, NULL);
++
++ if (success != 0) {
++ LOG_ERR("%s: failed on vchi_msg_queue (status=%d)",
++ __func__, success);
++
++ ret = -1;
++ goto unlock;
++ }
++ if (!m.u.write.silence) {
++ if (m.u.write.max_packet == 0) {
++ /* Send the message to the videocore */
++ success = vchi_bulk_queue_transmit(instance->vchi_handle[0],
++ src, count,
++ 0 *
++ VCHI_FLAGS_BLOCK_UNTIL_QUEUED
++ +
++ 1 *
++ VCHI_FLAGS_BLOCK_UNTIL_DATA_READ,
++ NULL);
++ } else {
++ while (count > 0) {
++ int bytes = min((int)m.u.write.max_packet, (int)count);
++ success = vchi_msg_queue(instance->vchi_handle[0],
++ src, bytes,
++ VCHI_FLAGS_BLOCK_UNTIL_QUEUED, NULL);
++ src = (char *)src + bytes;
++ count -= bytes;
++ }
++ }
++ if (success != 0) {
++ LOG_ERR
++ ("%s: failed on vchi_bulk_queue_transmit (status=%d)",
++ __func__, success);
++
++ ret = -1;
++ goto unlock;
++ }
++ }
++ ret = 0;
++
++unlock:
++ vchi_service_release(instance->vchi_handle[0]);
++ mutex_unlock(&instance->vchi_mutex);
++ LOG_DBG(" .. OUT\n");
++ return ret;
++}
++
++/**
++ * Returns all buffers from arm->vc
++ */
++void bcm2835_audio_flush_buffers(bcm2835_alsa_stream_t * alsa_stream)
++{
++ LOG_DBG(" .. IN\n");
++ LOG_DBG(" .. OUT\n");
++ return;
++}
++
++/**
++ * Forces VC to flush(drop) its filled playback buffers and
++ * return them the us. (VC->ARM)
++ */
++void bcm2835_audio_flush_playback_buffers(bcm2835_alsa_stream_t * alsa_stream)
++{
++ LOG_DBG(" .. IN\n");
++ LOG_DBG(" .. OUT\n");
++}
++
++uint32_t bcm2835_audio_retrieve_buffers(bcm2835_alsa_stream_t * alsa_stream)
++{
++ uint32_t count = atomic_read(&alsa_stream->retrieved);
++ atomic_sub(count, &alsa_stream->retrieved);
++ return count;
++}
++
++module_param(force_bulk, bool, 0444);
++MODULE_PARM_DESC(force_bulk, "Force use of vchiq bulk for audio");
+diff -urN linux-3.10/sound/arm/Kconfig linux-rpi-3.10.y/sound/arm/Kconfig
+--- linux-3.10/sound/arm/Kconfig 2013-06-30 23:13:29.000000000 +0100
++++ linux-rpi-3.10.y/sound/arm/Kconfig 2013-07-06 15:25:50.000000000 +0100
+@@ -39,5 +39,12 @@
+ Say Y or M if you want to support any AC97 codec attached to
+ the PXA2xx AC97 interface.
+
++config SND_BCM2835
++ tristate "BCM2835 ALSA driver"
++ depends on ARCH_BCM2708 && BCM2708_VCHIQ && SND
++ select SND_PCM
++ help
++ Say Y or M if you want to support BCM2835 Alsa pcm card driver
++
+ endif # SND_ARM
+
+diff -urN linux-3.10/sound/arm/Makefile linux-rpi-3.10.y/sound/arm/Makefile
+--- linux-3.10/sound/arm/Makefile 2013-06-30 23:13:29.000000000 +0100
++++ linux-rpi-3.10.y/sound/arm/Makefile 2013-07-06 15:25:50.000000000 +0100
+@@ -14,3 +14,9 @@
+
+ obj-$(CONFIG_SND_PXA2XX_AC97) += snd-pxa2xx-ac97.o
+ snd-pxa2xx-ac97-objs := pxa2xx-ac97.o
++
++obj-$(CONFIG_SND_BCM2835) += snd-bcm2835.o
++snd-bcm2835-objs := bcm2835.o bcm2835-ctl.o bcm2835-pcm.o bcm2835-vchiq.o
++
++EXTRA_CFLAGS += -Idrivers/misc/vc04_services -Idrivers/misc/vc04_services/interface/vcos/linuxkernel -D__VCCOREVER__=0x04000000
++
+diff -urN linux-3.10/sound/arm/vc_vchi_audioserv_defs.h linux-rpi-3.10.y/sound/arm/vc_vchi_audioserv_defs.h
+--- linux-3.10/sound/arm/vc_vchi_audioserv_defs.h 1970-01-01 01:00:00.000000000 +0100
++++ linux-rpi-3.10.y/sound/arm/vc_vchi_audioserv_defs.h 2013-07-06 15:25:50.000000000 +0100
+@@ -0,0 +1,116 @@
++/*****************************************************************************
++* Copyright 2011 Broadcom Corporation. All rights reserved.
++*
++* Unless you and Broadcom execute a separate written software license
++* agreement governing use of this software, this software is licensed to you
++* under the terms of the GNU General Public License version 2, available at
++* http://www.broadcom.com/licenses/GPLv2.php (the "GPL").
++*
++* Notwithstanding the above, under no circumstances may you combine this
++* software in any way with any other Broadcom software provided under a
++* license other than the GPL, without Broadcom's express prior written
++* consent.
++*****************************************************************************/
++
++#ifndef _VC_AUDIO_DEFS_H_
++#define _VC_AUDIO_DEFS_H_
++
++#define VC_AUDIOSERV_MIN_VER 1
++#define VC_AUDIOSERV_VER 2
++
++// FourCC code used for VCHI connection
++#define VC_AUDIO_SERVER_NAME MAKE_FOURCC("AUDS")
++
++// Maximum message length
++#define VC_AUDIO_MAX_MSG_LEN (sizeof( VC_AUDIO_MSG_T ))
++
++// List of screens that are currently supported
++// All message types supported for HOST->VC direction
++typedef enum {
++ VC_AUDIO_MSG_TYPE_RESULT, // Generic result
++ VC_AUDIO_MSG_TYPE_COMPLETE, // Generic result
++ VC_AUDIO_MSG_TYPE_CONFIG, // Configure audio
++ VC_AUDIO_MSG_TYPE_CONTROL, // Configure audio
++ VC_AUDIO_MSG_TYPE_OPEN, // Configure audio
++ VC_AUDIO_MSG_TYPE_CLOSE, // Configure audio
++ VC_AUDIO_MSG_TYPE_START, // Configure audio
++ VC_AUDIO_MSG_TYPE_STOP, // Configure audio
++ VC_AUDIO_MSG_TYPE_WRITE, // Configure audio
++ VC_AUDIO_MSG_TYPE_MAX
++} VC_AUDIO_MSG_TYPE;
++
++// configure the audio
++typedef struct {
++ uint32_t channels;
++ uint32_t samplerate;
++ uint32_t bps;
++
++} VC_AUDIO_CONFIG_T;
++
++typedef struct {
++ uint32_t volume;
++ uint32_t dest;
++
++} VC_AUDIO_CONTROL_T;
++
++// audio
++typedef struct {
++ uint32_t dummy;
++
++} VC_AUDIO_OPEN_T;
++
++// audio
++typedef struct {
++ uint32_t dummy;
++
++} VC_AUDIO_CLOSE_T;
++// audio
++typedef struct {
++ uint32_t dummy;
++
++} VC_AUDIO_START_T;
++// audio
++typedef struct {
++ uint32_t draining;
++
++} VC_AUDIO_STOP_T;
++
++// configure the write audio samples
++typedef struct {
++ uint32_t count; // in bytes
++ void *callback;
++ void *cookie;
++ uint16_t silence;
++ uint16_t max_packet;
++} VC_AUDIO_WRITE_T;
++
++// Generic result for a request (VC->HOST)
++typedef struct {
++ int32_t success; // Success value
++
++} VC_AUDIO_RESULT_T;
++
++// Generic result for a request (VC->HOST)
++typedef struct {
++ int32_t count; // Success value
++ void *callback;
++ void *cookie;
++} VC_AUDIO_COMPLETE_T;
++
++// Message header for all messages in HOST->VC direction
++typedef struct {
++ int32_t type; // Message type (VC_AUDIO_MSG_TYPE)
++ union {
++ VC_AUDIO_CONFIG_T config;
++ VC_AUDIO_CONTROL_T control;
++ VC_AUDIO_OPEN_T open;
++ VC_AUDIO_CLOSE_T close;
++ VC_AUDIO_START_T start;
++ VC_AUDIO_STOP_T stop;
++ VC_AUDIO_WRITE_T write;
++ VC_AUDIO_RESULT_T result;
++ VC_AUDIO_COMPLETE_T complete;
++ } u;
++} VC_AUDIO_MSG_T;
++
++#endif // _VC_AUDIO_DEFS_H_
diff --git a/target/linux/brcm2708/patches-3.10/013-bcm2835-hwmon-driver.patch b/target/linux/brcm2708/patches-3.10/013-bcm2835-hwmon-driver.patch
new file mode 100644
index 0000000000..45980532c4
--- /dev/null
+++ b/target/linux/brcm2708/patches-3.10/013-bcm2835-hwmon-driver.patch
@@ -0,0 +1,257 @@
+Index: linux-3.10/drivers/hwmon/bcm2835-hwmon.c
+===================================================================
+--- /dev/null 1970-01-01 00:00:00.000000000 +0000
++++ linux-3.10/drivers/hwmon/bcm2835-hwmon.c 2013-07-09 20:25:51.309324091 +0100
+@@ -0,0 +1,219 @@
++/*****************************************************************************
++* Copyright 2011 Broadcom Corporation. All rights reserved.
++*
++* Unless you and Broadcom execute a separate written software license
++* agreement governing use of this software, this software is licensed to you
++* under the terms of the GNU General Public License version 2, available at
++* http://www.broadcom.com/licenses/GPLv2.php (the "GPL").
++*
++* Notwithstanding the above, under no circumstances may you combine this
++* software in any way with any other Broadcom software provided under a
++* license other than the GPL, without Broadcom's express prior written
++* consent.
++*****************************************************************************/
++
++#include <linux/kernel.h>
++#include <linux/module.h>
++#include <linux/init.h>
++#include <linux/hwmon.h>
++#include <linux/hwmon-sysfs.h>
++#include <linux/platform_device.h>
++#include <linux/sysfs.h>
++#include <mach/vcio.h>
++#include <linux/slab.h>
++#include <linux/err.h>
++
++#define MODULE_NAME "bcm2835_hwmon"
++
++/*#define HWMON_DEBUG_ENABLE*/
++
++#ifdef HWMON_DEBUG_ENABLE
++#define print_debug(fmt,...) printk(KERN_INFO "%s:%s:%d: "fmt"\n", MODULE_NAME, __func__, __LINE__, ##__VA_ARGS__)
++#else
++#define print_debug(fmt,...)
++#endif
++#define print_err(fmt,...) printk(KERN_ERR "%s:%s:%d: "fmt"\n", MODULE_NAME, __func__,__LINE__, ##__VA_ARGS__)
++#define print_info(fmt,...) printk(KERN_INFO "%s: "fmt"\n", MODULE_NAME, ##__VA_ARGS__)
++
++#define VC_TAG_GET_TEMP 0x00030006
++#define VC_TAG_GET_MAX_TEMP 0x0003000A
++
++/* --- STRUCTS --- */
++struct bcm2835_hwmon_data {
++ struct device *hwmon_dev;
++};
++
++/* tag part of the message */
++struct vc_msg_tag {
++ uint32_t tag_id; /* the tag ID for the temperature */
++ uint32_t buffer_size; /* size of the buffer (should be 8) */
++ uint32_t request_code; /* identifies message as a request (should be 0) */
++ uint32_t id; /* extra ID field (should be 0) */
++ uint32_t val; /* returned value of the temperature */
++};
++
++/* message structure to be sent to videocore */
++struct vc_msg {
++ uint32_t msg_size; /* simply, sizeof(struct vc_msg) */
++ uint32_t request_code; /* holds various information like the success and number of bytes returned (refer to mailboxes wiki) */
++ struct vc_msg_tag tag; /* the tag structure above to make */
++ uint32_t end_tag; /* an end identifier, should be set to NULL */
++};
++
++typedef enum {
++ TEMP,
++ MAX_TEMP,
++} temp_type;
++
++/* --- PROTOTYPES --- */
++static ssize_t bcm2835_get_temp(struct device *dev, struct device_attribute *attr, char *buf);
++static ssize_t bcm2835_get_name(struct device *dev, struct device_attribute *attr, char *buf);
++
++/* --- GLOBALS --- */
++
++static struct bcm2835_hwmon_data *bcm2835_data;
++static struct platform_driver bcm2835_hwmon_driver;
++
++static SENSOR_DEVICE_ATTR(name, S_IRUGO,bcm2835_get_name,NULL,0);
++static SENSOR_DEVICE_ATTR(temp1_input,S_IRUGO,bcm2835_get_temp,NULL,TEMP);
++static SENSOR_DEVICE_ATTR(temp1_max,S_IRUGO,bcm2835_get_temp,NULL,MAX_TEMP);
++
++static struct attribute* bcm2835_attributes[] = {
++ &sensor_dev_attr_name.dev_attr.attr,
++ &sensor_dev_attr_temp1_input.dev_attr.attr,
++ &sensor_dev_attr_temp1_max.dev_attr.attr,
++ NULL,
++};
++
++static struct attribute_group bcm2835_attr_group = {
++ .attrs = bcm2835_attributes,
++};
++
++/* --- FUNCTIONS --- */
++
++static ssize_t bcm2835_get_name(struct device *dev, struct device_attribute *attr, char *buf)
++{
++ return sprintf(buf,"bcm2835_hwmon\n");
++}
++
++static ssize_t bcm2835_get_temp(struct device *dev, struct device_attribute *attr, char *buf)
++{
++ struct vc_msg msg;
++ int result;
++ uint temp = 0;
++ int index = ((struct sensor_device_attribute*)to_sensor_dev_attr(attr))->index;
++
++ print_debug("IN");
++
++ /* wipe all previous message data */
++ memset(&msg, 0, sizeof msg);
++
++ /* determine the message type */
++ if(index == TEMP)
++ msg.tag.tag_id = VC_TAG_GET_TEMP;
++ else if (index == MAX_TEMP)
++ msg.tag.tag_id = VC_TAG_GET_MAX_TEMP;
++ else
++ {
++ print_debug("Unknown temperature message!");
++ return -EINVAL;
++ }
++
++ msg.msg_size = sizeof msg;
++ msg.tag.buffer_size = 8;
++
++ /* send the message */
++ result = bcm_mailbox_property(&msg, sizeof msg);
++
++ /* check if it was all ok and return the rate in milli degrees C */
++ if (result == 0 && (msg.request_code & 0x80000000))
++ temp = (uint)msg.tag.val;
++ #ifdef HWMON_DEBUG_ENABLE
++ else
++ print_debug("Failed to get temperature!");
++ #endif
++ print_debug("Got temperature as %u",temp);
++ print_debug("OUT");
++ return sprintf(buf, "%u\n", temp);
++}
++
++
++static int bcm2835_hwmon_probe(struct platform_device *pdev)
++{
++ int err;
++
++ print_debug("IN");
++ print_debug("HWMON Driver has been probed!");
++
++ /* check that the device isn't null!*/
++ if(pdev == NULL)
++ {
++ print_debug("Platform device is empty!");
++ return -ENODEV;
++ }
++
++ /* allocate memory for neccessary data */
++ bcm2835_data = kzalloc(sizeof(struct bcm2835_hwmon_data),GFP_KERNEL);
++ if(!bcm2835_data)
++ {
++ print_debug("Unable to allocate memory for hwmon data!");
++ err = -ENOMEM;
++ goto kzalloc_error;
++ }
++
++ /* create the sysfs files */
++ if(sysfs_create_group(&pdev->dev.kobj, &bcm2835_attr_group))
++ {
++ print_debug("Unable to create sysfs files!");
++ err = -EFAULT;
++ goto sysfs_error;
++ }
++
++ /* register the hwmon device */
++ bcm2835_data->hwmon_dev = hwmon_device_register(&pdev->dev);
++ if (IS_ERR(bcm2835_data->hwmon_dev))
++ {
++ err = PTR_ERR(bcm2835_data->hwmon_dev);
++ goto hwmon_error;
++ }
++ print_debug("OUT");
++ return 0;
++
++ /* error goto's */
++ hwmon_error:
++ sysfs_remove_group(&pdev->dev.kobj, &bcm2835_attr_group);
++
++ sysfs_error:
++ kfree(bcm2835_data);
++
++ kzalloc_error:
++
++ return err;
++
++}
++
++static int bcm2835_hwmon_remove(struct platform_device *pdev)
++{
++ print_debug("IN");
++ hwmon_device_unregister(bcm2835_data->hwmon_dev);
++
++ sysfs_remove_group(&pdev->dev.kobj, &bcm2835_attr_group);
++ print_debug("OUT");
++ return 0;
++}
++
++/* Hwmon Driver */
++static struct platform_driver bcm2835_hwmon_driver = {
++ .probe = bcm2835_hwmon_probe,
++ .remove = bcm2835_hwmon_remove,
++ .driver = {
++ .name = "bcm2835_hwmon",
++ .owner = THIS_MODULE,
++ },
++};
++
++MODULE_LICENSE("GPL");
++MODULE_AUTHOR("Dorian Peake");
++MODULE_DESCRIPTION("HW Monitor driver for bcm2835 chip");
++
++module_platform_driver(bcm2835_hwmon_driver);
+Index: linux-3.10/drivers/hwmon/Kconfig
+===================================================================
+--- linux-3.10.orig/drivers/hwmon/Kconfig 2013-07-09 20:25:51.321324159 +0100
++++ linux-3.10/drivers/hwmon/Kconfig 2013-07-09 20:25:51.313324108 +0100
+@@ -1537,6 +1537,16 @@
+ help
+ Support for the A/D converter on MC13783 and MC13892 PMIC.
+
++config SENSORS_BCM2835
++ depends on THERMAL_BCM2835=n
++ tristate "Broadcom BCM2835 HWMON Driver"
++ help
++ If you say yes here you get support for the hardware
++ monitoring features of the BCM2835 Chip
++
++ This driver can also be built as a module. If so, the module
++ will be called bcm2835-hwmon.
++
+ if ACPI
+
+ comment "ACPI drivers"
+Index: linux-3.10/drivers/hwmon/Makefile
+===================================================================
+--- linux-3.10.orig/drivers/hwmon/Makefile 2013-07-09 20:25:51.321324159 +0100
++++ linux-3.10/drivers/hwmon/Makefile 2013-07-09 20:26:07.361403698 +0100
+@@ -141,6 +141,7 @@
+ obj-$(CONFIG_SENSORS_WM831X) += wm831x-hwmon.o
+ obj-$(CONFIG_SENSORS_WM8350) += wm8350-hwmon.o
+ obj-$(CONFIG_SENSORS_GSC) += gsc.o
++obj-$(CONFIG_SENSORS_BCM2835) += bcm2835-hwmon.o
+
+ obj-$(CONFIG_PMBUS) += pmbus/
+
diff --git a/target/linux/brcm2708/patches-3.10/014-bcm2708-sdhci-driver.patch b/target/linux/brcm2708/patches-3.10/014-bcm2708-sdhci-driver.patch
new file mode 100644
index 0000000000..b76eaf452c
--- /dev/null
+++ b/target/linux/brcm2708/patches-3.10/014-bcm2708-sdhci-driver.patch
@@ -0,0 +1,2581 @@
+diff -urwN linux-3.10/drivers/mmc/card/block.c linux-rpi-3.10.y/drivers/mmc/card/block.c
+--- linux-3.10/drivers/mmc/card/block.c 2013-06-30 23:13:29.000000000 +0100
++++ linux-rpi-3.10.y/drivers/mmc/card/block.c 2013-07-06 15:25:50.000000000 +0100
+@@ -1294,7 +1294,7 @@
+ brq->data.blocks = 1;
+ }
+
+- if (brq->data.blocks > 1 || do_rel_wr) {
++ if (brq->data.blocks > 1 || do_rel_wr || card->host->caps2 & MMC_CAP2_FORCE_MULTIBLOCK) {
+ /* SPI multiblock writes terminate using a special
+ * token, not a STOP_TRANSMISSION request.
+ */
+diff -urwN linux-3.10/drivers/mmc/core/sd.c linux-rpi-3.10.y/drivers/mmc/core/sd.c
+--- linux-3.10/drivers/mmc/core/sd.c 2013-06-30 23:13:29.000000000 +0100
++++ linux-rpi-3.10.y/drivers/mmc/core/sd.c 2013-07-06 15:25:50.000000000 +0100
+@@ -13,6 +13,8 @@
+ #include <linux/err.h>
+ #include <linux/slab.h>
+ #include <linux/stat.h>
++#include <linux/jiffies.h>
++#include <linux/nmi.h>
+
+ #include <linux/mmc/host.h>
+ #include <linux/mmc/card.h>
+@@ -58,6 +60,15 @@
+ __res & __mask; \
+ })
+
++// timeout for tries
++static const unsigned long retry_timeout_ms= 10*1000;
++
++// try at least 10 times, even if timeout is reached
++static const int retry_min_tries= 10;
++
++// delay between tries
++static const unsigned long retry_delay_ms= 10;
++
+ /*
+ * Given the decoded CSD structure, decode the raw CID to our CID structure.
+ */
+@@ -210,12 +221,62 @@
+ }
+
+ /*
+- * Fetch and process SD Status register.
++ * Fetch and process SD Configuration Register.
++ */
++static int mmc_read_scr(struct mmc_card *card)
++{
++ unsigned long timeout_at;
++ int err, tries;
++
++ timeout_at= jiffies + msecs_to_jiffies( retry_timeout_ms );
++ tries= 0;
++
++ while( tries < retry_min_tries || time_before( jiffies, timeout_at ) )
++ {
++ unsigned long delay_at;
++ tries++;
++
++ err = mmc_app_send_scr(card, card->raw_scr);
++ if( !err )
++ break; // success!!!
++
++ touch_nmi_watchdog(); // we are still alive!
++
++ // delay
++ delay_at= jiffies + msecs_to_jiffies( retry_delay_ms );
++ while( time_before( jiffies, delay_at ) )
++ {
++ mdelay( 1 );
++ touch_nmi_watchdog(); // we are still alive!
++ }
++ }
++
++ if( err)
++ {
++ pr_err("%s: failed to read SD Configuration register (SCR) after %d tries during %lu ms, error %d\n", mmc_hostname(card->host), tries, retry_timeout_ms, err );
++ return err;
++ }
++
++ if( tries > 1 )
++ {
++ pr_info("%s: could read SD Configuration register (SCR) at the %dth attempt\n", mmc_hostname(card->host), tries );
++ }
++
++ err = mmc_decode_scr(card);
++ if (err)
++ return err;
++
++ return err;
++}
++
++/*
++ * Fetch and process SD Status Register.
+ */
+ static int mmc_read_ssr(struct mmc_card *card)
+ {
++ unsigned long timeout_at;
+ unsigned int au, es, et, eo;
+- int err, i;
++ int err, i, tries;
+ u32 *ssr;
+
+ if (!(card->csd.cmdclass & CCC_APP_SPEC)) {
+@@ -228,14 +289,40 @@
+ if (!ssr)
+ return -ENOMEM;
+
++ timeout_at= jiffies + msecs_to_jiffies( retry_timeout_ms );
++ tries= 0;
++
++ while( tries < retry_min_tries || time_before( jiffies, timeout_at ) )
++ {
++ unsigned long delay_at;
++ tries++;
++
+ err = mmc_app_sd_status(card, ssr);
+- if (err) {
+- pr_warning("%s: problem reading SD Status "
+- "register.\n", mmc_hostname(card->host));
+- err = 0;
++ if( !err )
++ break; // sucess!!!
++
++ touch_nmi_watchdog(); // we are still alive!
++
++ // delay
++ delay_at= jiffies + msecs_to_jiffies( retry_delay_ms );
++ while( time_before( jiffies, delay_at ) )
++ {
++ mdelay( 1 );
++ touch_nmi_watchdog(); // we are still alive!
++ }
++ }
++
++ if( err)
++ {
++ pr_err("%s: failed to read SD Status register (SSR) after %d tries during %lu ms, error %d\n", mmc_hostname(card->host), tries, retry_timeout_ms, err );
+ goto out;
+ }
+
++ if( tries > 1 )
++ {
++ pr_info("%s: read SD Status register (SSR) after %d attempts\n", mmc_hostname(card->host), tries );
++ }
++
+ for (i = 0; i < 16; i++)
+ ssr[i] = be32_to_cpu(ssr[i]);
+
+@@ -808,13 +895,9 @@
+
+ if (!reinit) {
+ /*
+- * Fetch SCR from card.
++ * Fetch and decode SD Configuration register.
+ */
+- err = mmc_app_send_scr(card, card->raw_scr);
+- if (err)
+- return err;
+-
+- err = mmc_decode_scr(card);
++ err = mmc_read_scr(card);
+ if (err)
+ return err;
+
+diff -urwN linux-3.10/drivers/mmc/host/Kconfig linux-rpi-3.10.y/drivers/mmc/host/Kconfig
+--- linux-3.10/drivers/mmc/host/Kconfig 2013-06-30 23:13:29.000000000 +0100
++++ linux-rpi-3.10.y/drivers/mmc/host/Kconfig 2013-07-06 15:25:50.000000000 +0100
+@@ -249,6 +249,27 @@
+
+ YMMV.
+
++config MMC_SDHCI_BCM2708
++ tristate "SDHCI support on BCM2708"
++ depends on MMC_SDHCI && MACH_BCM2708
++ select MMC_SDHCI_IO_ACCESSORS
++ help
++ This selects the Secure Digital Host Controller Interface (SDHCI)
++ often referrered to as the eMMC block.
++
++ If you have a controller with this interface, say Y or M here.
++
++ If unsure, say N.
++
++config MMC_SDHCI_BCM2708_DMA
++ bool "DMA support on BCM2708 Arasan controller"
++ depends on MMC_SDHCI_BCM2708
++ help
++ Enable DMA support on the Arasan SDHCI controller in Broadcom 2708
++ based chips.
++
++ If unsure, say N.
++
+ config MMC_SDHCI_BCM2835
+ tristate "SDHCI platform support for the BCM2835 SD/MMC Controller"
+ depends on ARCH_BCM2835
+diff -urwN linux-3.10/drivers/mmc/host/Makefile linux-rpi-3.10.y/drivers/mmc/host/Makefile
+--- linux-3.10/drivers/mmc/host/Makefile 2013-06-30 23:13:29.000000000 +0100
++++ linux-rpi-3.10.y/drivers/mmc/host/Makefile 2013-07-06 15:25:50.000000000 +0100
+@@ -15,6 +15,7 @@
+ obj-$(CONFIG_MMC_SDHCI_S3C) += sdhci-s3c.o
+ obj-$(CONFIG_MMC_SDHCI_SIRF) += sdhci-sirf.o
+ obj-$(CONFIG_MMC_SDHCI_SPEAR) += sdhci-spear.o
++obj-$(CONFIG_MMC_SDHCI_BCM2708) += sdhci-bcm2708.o
+ obj-$(CONFIG_MMC_WBSD) += wbsd.o
+ obj-$(CONFIG_MMC_AU1X) += au1xmmc.o
+ obj-$(CONFIG_MMC_OMAP) += omap.o
+diff -urwN linux-3.10/drivers/mmc/host/sdhci-bcm2708.c linux-rpi-3.10.y/drivers/mmc/host/sdhci-bcm2708.c
+--- linux-3.10/drivers/mmc/host/sdhci-bcm2708.c 1970-01-01 01:00:00.000000000 +0100
++++ linux-rpi-3.10.y/drivers/mmc/host/sdhci-bcm2708.c 2013-07-06 15:25:50.000000000 +0100
+@@ -0,0 +1,1420 @@
++/*
++ * sdhci-bcm2708.c Support for SDHCI device on BCM2708
++ * Copyright (c) 2010 Broadcom
++ *
++ * This program is free software; you can redistribute it and/or modify
++ * it under the terms of the GNU General Public License version 2 as
++ * published by the Free Software Foundation.
++ *
++ * This program is distributed in the hope that it will be useful,
++ * but WITHOUT ANY WARRANTY; without even the implied warranty of
++ * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
++ * GNU General Public License for more details.
++ *
++ * You should have received a copy of the GNU General Public License
++ * along with this program; if not, write to the Free Software
++ * Foundation, Inc., 675 Mass Ave, Cambridge, MA 02139, USA.
++ */
++
++/* Supports:
++ * SDHCI platform device - Arasan SD controller in BCM2708
++ *
++ * Inspired by sdhci-pci.c, by Pierre Ossman
++ */
++
++#include <linux/delay.h>
++#include <linux/highmem.h>
++#include <linux/platform_device.h>
++#include <linux/module.h>
++#include <linux/mmc/mmc.h>
++#include <linux/mmc/host.h>
++#include <linux/mmc/sd.h>
++
++#include <linux/io.h>
++#include <linux/dma-mapping.h>
++#include <mach/dma.h>
++
++#include "sdhci.h"
++
++/*****************************************************************************\
++ * *
++ * Configuration *
++ * *
++\*****************************************************************************/
++
++#define DRIVER_NAME "bcm2708_sdhci"
++
++/* for the time being insist on DMA mode - PIO seems not to work */
++#ifndef CONFIG_MMC_SDHCI_BCM2708_DMA
++#warning Non-DMA (PIO) version of this driver currently unavailable
++#endif
++#undef CONFIG_MMC_SDHCI_BCM2708_DMA
++#define CONFIG_MMC_SDHCI_BCM2708_DMA y
++
++#ifdef CONFIG_MMC_SDHCI_BCM2708_DMA
++/* #define CHECK_DMA_USE */
++#endif
++//#define LOG_REGISTERS
++
++#define USE_SCHED_TIME
++#define USE_SPACED_WRITES_2CLK 1 /* space consecutive register writes */
++#define USE_SOFTWARE_TIMEOUTS 1 /* not hardware timeouts */
++#define SOFTWARE_ERASE_TIMEOUT_SEC 30
++
++#define SDHCI_BCM_DMA_CHAN 4 /* this default is normally overriden */
++#define SDHCI_BCM_DMA_WAITS 0 /* delays slowing DMA transfers: 0-31 */
++/* We are worried that SD card DMA use may be blocking the AXI bus for others */
++
++/*! TODO: obtain these from the physical address */
++#define DMA_SDHCI_BASE 0x7e300000 /* EMMC register block on Videocore */
++#define DMA_SDHCI_BUFFER (DMA_SDHCI_BASE + SDHCI_BUFFER)
++
++#define BCM2708_SDHCI_SLEEP_TIMEOUT 1000 /* msecs */
++
++/* Mhz clock that the EMMC core is running at. Should match the platform clockman settings */
++#define BCM2708_EMMC_CLOCK_FREQ 50000000
++
++#define REG_EXRDFIFO_EN 0x80
++#define REG_EXRDFIFO_CFG 0x84
++
++int cycle_delay=2;
++
++/*****************************************************************************\
++ * *
++ * Debug *
++ * *
++\*****************************************************************************/
++
++
++
++#define DBG(f, x...) \
++ pr_debug(DRIVER_NAME " [%s()]: " f, __func__,## x)
++// printk(KERN_INFO DRIVER_NAME " [%s()]: " f, __func__,## x)//GRAYG
++
++
++/*****************************************************************************\
++ * *
++ * High Precision Time *
++ * *
++\*****************************************************************************/
++
++#ifdef USE_SCHED_TIME
++
++#include <mach/frc.h>
++
++typedef unsigned long hptime_t;
++
++#define FMT_HPT "lu"
++
++static inline hptime_t hptime(void)
++{
++ return frc_clock_ticks32();
++}
++
++#define HPTIME_CLK_NS 1000ul
++
++#else
++
++typedef unsigned long hptime_t;
++
++#define FMT_HPT "lu"
++
++static inline hptime_t hptime(void)
++{
++ return jiffies;
++}
++
++#define HPTIME_CLK_NS (1000000000ul/HZ)
++
++#endif
++
++static inline unsigned long int since_ns(hptime_t t)
++{
++ return (unsigned long)((hptime() - t) * HPTIME_CLK_NS);
++}
++
++static bool allow_highspeed = 1;
++static int emmc_clock_freq = BCM2708_EMMC_CLOCK_FREQ;
++static bool sync_after_dma = 1;
++static bool missing_status = 1;
++static bool spurious_crc_acmd51 = 0;
++bool enable_llm = 1;
++bool extra_messages = 0;
++
++#if 0
++static void hptime_test(void)
++{
++ hptime_t now;
++ hptime_t later;
++
++ now = hptime();
++ msleep(10);
++ later = hptime();
++
++ printk(KERN_INFO DRIVER_NAME": 10ms = %"FMT_HPT" clks "
++ "(from %"FMT_HPT" to %"FMT_HPT") = %luns\n",
++ later-now, now, later,
++ (unsigned long)(HPTIME_CLK_NS * (later - now)));
++
++ now = hptime();
++ msleep(1000);
++ later = hptime();
++
++ printk(KERN_INFO DRIVER_NAME": 1s = %"FMT_HPT" clks "
++ "(from %"FMT_HPT" to %"FMT_HPT") = %luns\n",
++ later-now, now, later,
++ (unsigned long)(HPTIME_CLK_NS * (later - now)));
++}
++#endif
++
++/*****************************************************************************\
++ * *
++ * SDHCI core callbacks *
++ * *
++\*****************************************************************************/
++
++
++#ifdef CHECK_DMA_USE
++/*#define CHECK_DMA_REG_USE*/
++#endif
++
++#ifdef CHECK_DMA_REG_USE
++/* we don't expect anything to be using these registers during a
++ DMA (except the IRQ status) - so check */
++static void check_dma_reg_use(struct sdhci_host *host, int reg);
++#else
++#define check_dma_reg_use(host, reg)
++#endif
++
++
++static inline u32 sdhci_bcm2708_raw_readl(struct sdhci_host *host, int reg)
++{
++ return readl(host->ioaddr + reg);
++}
++
++u32 sdhci_bcm2708_readl(struct sdhci_host *host, int reg)
++{
++ u32 l = sdhci_bcm2708_raw_readl(host, reg);
++
++#ifdef LOG_REGISTERS
++ printk(KERN_ERR "%s: readl from 0x%02x, value 0x%08x\n",
++ mmc_hostname(host->mmc), reg, l);
++#endif
++ check_dma_reg_use(host, reg);
++
++ return l;
++}
++
++u16 sdhci_bcm2708_readw(struct sdhci_host *host, int reg)
++{
++ u32 l = sdhci_bcm2708_raw_readl(host, reg & ~3);
++ u32 w = l >> (reg << 3 & 0x18) & 0xffff;
++
++#ifdef LOG_REGISTERS
++ printk(KERN_ERR "%s: readw from 0x%02x, value 0x%04x\n",
++ mmc_hostname(host->mmc), reg, w);
++#endif
++ check_dma_reg_use(host, reg);
++
++ return (u16)w;
++}
++
++u8 sdhci_bcm2708_readb(struct sdhci_host *host, int reg)
++{
++ u32 l = sdhci_bcm2708_raw_readl(host, reg & ~3);
++ u32 b = l >> (reg << 3 & 0x18) & 0xff;
++
++#ifdef LOG_REGISTERS
++ printk(KERN_ERR "%s: readb from 0x%02x, value 0x%02x\n",
++ mmc_hostname(host->mmc), reg, b);
++#endif
++ check_dma_reg_use(host, reg);
++
++ return (u8)b;
++}
++
++
++static void sdhci_bcm2708_raw_writel(struct sdhci_host *host, u32 val, int reg)
++{
++ u32 ier;
++
++#if USE_SPACED_WRITES_2CLK
++ static bool timeout_disabled = false;
++ unsigned int ns_2clk = 0;
++
++ /* The Arasan has a bugette whereby it may lose the content of
++ * successive writes to registers that are within two SD-card clock
++ * cycles of each other (a clock domain crossing problem).
++ * It seems, however, that the data register does not have this problem.
++ * (Which is just as well - otherwise we'd have to nobble the DMA engine
++ * too)
++ */
++ if (reg != SDHCI_BUFFER && host->clock != 0) {
++ /* host->clock is the clock freq in Hz */
++ static hptime_t last_write_hpt;
++ hptime_t now = hptime();
++ ns_2clk = cycle_delay*1000000/(host->clock/1000);
++
++ if (now == last_write_hpt || now == last_write_hpt+1) {
++ /* we can't guarantee any significant time has
++ * passed - we'll have to wait anyway ! */
++ ndelay(ns_2clk);
++ } else
++ {
++ /* we must have waited at least this many ns: */
++ unsigned int ns_wait = HPTIME_CLK_NS *
++ (last_write_hpt - now - 1);
++ if (ns_wait < ns_2clk)
++ ndelay(ns_2clk - ns_wait);
++ }
++ last_write_hpt = now;
++ }
++#if USE_SOFTWARE_TIMEOUTS
++ /* The Arasan is clocked for timeouts using the SD clock which is too
++ * fast for ERASE commands and causes issues. So we disable timeouts
++ * for ERASE */
++ if (host->cmd != NULL && host->cmd->opcode == MMC_ERASE &&
++ reg == (SDHCI_COMMAND & ~3)) {
++ mod_timer(&host->timer,
++ jiffies + SOFTWARE_ERASE_TIMEOUT_SEC * HZ);
++ ier = readl(host->ioaddr + SDHCI_SIGNAL_ENABLE);
++ ier &= ~SDHCI_INT_DATA_TIMEOUT;
++ writel(ier, host->ioaddr + SDHCI_SIGNAL_ENABLE);
++ timeout_disabled = true;
++ ndelay(ns_2clk);
++ } else if (timeout_disabled) {
++ ier = readl(host->ioaddr + SDHCI_SIGNAL_ENABLE);
++ ier |= SDHCI_INT_DATA_TIMEOUT;
++ writel(ier, host->ioaddr + SDHCI_SIGNAL_ENABLE);
++ timeout_disabled = false;
++ ndelay(ns_2clk);
++ }
++#endif
++ writel(val, host->ioaddr + reg);
++#else
++ void __iomem * regaddr = host->ioaddr + reg;
++
++ writel(val, regaddr);
++
++ if (reg != SDHCI_BUFFER && reg != SDHCI_INT_STATUS && host->clock != 0)
++ {
++ int timeout = 100000;
++ while (val != readl(regaddr) && --timeout > 0)
++ continue;
++
++ if (timeout <= 0)
++ printk(KERN_ERR "%s: writing 0x%X to reg 0x%X "
++ "always gives 0x%X\n",
++ mmc_hostname(host->mmc),
++ val, reg, readl(regaddr));
++ BUG_ON(timeout <= 0);
++ }
++#endif
++}
++
++
++void sdhci_bcm2708_writel(struct sdhci_host *host, u32 val, int reg)
++{
++#ifdef LOG_REGISTERS
++ printk(KERN_ERR "%s: writel to 0x%02x, value 0x%08x\n",
++ mmc_hostname(host->mmc), reg, val);
++#endif
++ check_dma_reg_use(host, reg);
++
++ sdhci_bcm2708_raw_writel(host, val, reg);
++}
++
++void sdhci_bcm2708_writew(struct sdhci_host *host, u16 val, int reg)
++{
++ static u32 shadow = 0;
++
++ u32 p = reg == SDHCI_COMMAND ? shadow :
++ sdhci_bcm2708_raw_readl(host, reg & ~3);
++ u32 s = reg << 3 & 0x18;
++ u32 l = val << s;
++ u32 m = 0xffff << s;
++
++#ifdef LOG_REGISTERS
++ printk(KERN_ERR "%s: writew to 0x%02x, value 0x%04x\n",
++ mmc_hostname(host->mmc), reg, val);
++#endif
++
++ if (reg == SDHCI_TRANSFER_MODE)
++ shadow = (p & ~m) | l;
++ else {
++ check_dma_reg_use(host, reg);
++ sdhci_bcm2708_raw_writel(host, (p & ~m) | l, reg & ~3);
++ }
++}
++
++void sdhci_bcm2708_writeb(struct sdhci_host *host, u8 val, int reg)
++{
++ u32 p = sdhci_bcm2708_raw_readl(host, reg & ~3);
++ u32 s = reg << 3 & 0x18;
++ u32 l = val << s;
++ u32 m = 0xff << s;
++
++#ifdef LOG_REGISTERS
++ printk(KERN_ERR "%s: writeb to 0x%02x, value 0x%02x\n",
++ mmc_hostname(host->mmc), reg, val);
++#endif
++
++ check_dma_reg_use(host, reg);
++ sdhci_bcm2708_raw_writel(host, (p & ~m) | l, reg & ~3);
++}
++
++static unsigned int sdhci_bcm2708_get_max_clock(struct sdhci_host *host)
++{
++ return emmc_clock_freq;
++}
++
++/*****************************************************************************\
++ * *
++ * DMA Operation *
++ * *
++\*****************************************************************************/
++
++struct sdhci_bcm2708_priv {
++ int dma_chan;
++ int dma_irq;
++ void __iomem *dma_chan_base;
++ struct bcm2708_dma_cb *cb_base; /* DMA control blocks */
++ dma_addr_t cb_handle;
++ /* tracking scatter gather progress */
++ unsigned sg_ix; /* scatter gather list index */
++ unsigned sg_done; /* bytes in current sg_ix done */
++#ifdef CONFIG_MMC_SDHCI_BCM2708_DMA
++ unsigned char dma_wanted; /* DMA transfer requested */
++ unsigned char dma_waits; /* wait states in DMAs */
++#ifdef CHECK_DMA_USE
++ unsigned char dmas_pending; /* no of unfinished DMAs */
++ hptime_t when_started;
++ hptime_t when_reset;
++ hptime_t when_stopped;
++#endif
++#endif
++ /* signalling the end of a transfer */
++ void (*complete)(struct sdhci_host *);
++};
++
++#define SDHCI_HOST_PRIV(host) \
++ (struct sdhci_bcm2708_priv *)((struct sdhci_host *)(host)+1)
++
++
++
++#ifdef CHECK_DMA_REG_USE
++static void check_dma_reg_use(struct sdhci_host *host, int reg)
++{
++ struct sdhci_bcm2708_priv *host_priv = SDHCI_HOST_PRIV(host);
++ if (host_priv->dma_wanted && reg != SDHCI_INT_STATUS) {
++ printk(KERN_INFO"%s: accessing register 0x%x during DMA\n",
++ mmc_hostname(host->mmc), reg);
++ }
++}
++#endif
++
++
++
++#ifdef CONFIG_MMC_SDHCI_BCM2708_DMA
++
++static void sdhci_clear_set_irqgen(struct sdhci_host *host, u32 clear, u32 set)
++{
++ u32 ier;
++
++ ier = sdhci_bcm2708_raw_readl(host, SDHCI_SIGNAL_ENABLE);
++ ier &= ~clear;
++ ier |= set;
++ /* change which requests generate IRQs - makes no difference to
++ the content of SDHCI_INT_STATUS, or the need to acknowledge IRQs */
++ sdhci_bcm2708_raw_writel(host, ier, SDHCI_SIGNAL_ENABLE);
++}
++
++static void sdhci_signal_irqs(struct sdhci_host *host, u32 irqs)
++{
++ sdhci_clear_set_irqgen(host, 0, irqs);
++}
++
++static void sdhci_unsignal_irqs(struct sdhci_host *host, u32 irqs)
++{
++ sdhci_clear_set_irqgen(host, irqs, 0);
++}
++
++
++
++static void schci_bcm2708_cb_read(struct sdhci_bcm2708_priv *host,
++ int ix,
++ dma_addr_t dma_addr, unsigned len,
++ int /*bool*/ is_last)
++{
++ struct bcm2708_dma_cb *cb = &host->cb_base[ix];
++ unsigned char dmawaits = host->dma_waits;
++
++ cb->info = BCM2708_DMA_PER_MAP(BCM2708_DMA_DREQ_EMMC) |
++ BCM2708_DMA_WAITS(dmawaits) |
++ BCM2708_DMA_S_DREQ |
++ BCM2708_DMA_D_WIDTH |
++ BCM2708_DMA_D_INC;
++ cb->src = DMA_SDHCI_BUFFER; /* DATA register DMA address */
++ cb->dst = dma_addr;
++ cb->length = len;
++ cb->stride = 0;
++
++ if (is_last) {
++ cb->info |= BCM2708_DMA_INT_EN |
++ BCM2708_DMA_WAIT_RESP;
++ cb->next = 0;
++ } else
++ cb->next = host->cb_handle +
++ (ix+1)*sizeof(struct bcm2708_dma_cb);
++
++ cb->pad[0] = 0;
++ cb->pad[1] = 0;
++}
++
++static void schci_bcm2708_cb_write(struct sdhci_bcm2708_priv *host,
++ int ix,
++ dma_addr_t dma_addr, unsigned len,
++ int /*bool*/ is_last)
++{
++ struct bcm2708_dma_cb *cb = &host->cb_base[ix];
++ unsigned char dmawaits = host->dma_waits;
++
++ /* We can make arbitrarily large writes as long as we specify DREQ to
++ pace the delivery of bytes to the Arasan hardware */
++ cb->info = BCM2708_DMA_PER_MAP(BCM2708_DMA_DREQ_EMMC) |
++ BCM2708_DMA_WAITS(dmawaits) |
++ BCM2708_DMA_D_DREQ |
++ BCM2708_DMA_S_WIDTH |
++ BCM2708_DMA_S_INC;
++ cb->src = dma_addr;
++ cb->dst = DMA_SDHCI_BUFFER; /* DATA register DMA address */
++ cb->length = len;
++ cb->stride = 0;
++
++ if (is_last) {
++ cb->info |= BCM2708_DMA_INT_EN |
++ BCM2708_DMA_WAIT_RESP;
++ cb->next = 0;
++ } else
++ cb->next = host->cb_handle +
++ (ix+1)*sizeof(struct bcm2708_dma_cb);
++
++ cb->pad[0] = 0;
++ cb->pad[1] = 0;
++}
++
++
++static void schci_bcm2708_dma_go(struct sdhci_host *host)
++{
++ struct sdhci_bcm2708_priv *host_priv = SDHCI_HOST_PRIV(host);
++ void __iomem *dma_chan_base = host_priv->dma_chan_base;
++
++ BUG_ON(host_priv->dma_wanted);
++#ifdef CHECK_DMA_USE
++ if (host_priv->dma_wanted)
++ printk(KERN_ERR "%s: DMA already in progress - "
++ "now %"FMT_HPT", last started %lu "
++ "reset %lu stopped %lu\n",
++ mmc_hostname(host->mmc),
++ hptime(), since_ns(host_priv->when_started),
++ since_ns(host_priv->when_reset),
++ since_ns(host_priv->when_stopped));
++ else if (host_priv->dmas_pending > 0)
++ printk(KERN_INFO "%s: note - new DMA when %d reset DMAs "
++ "already in progress - "
++ "now %"FMT_HPT", started %lu reset %lu stopped %lu\n",
++ mmc_hostname(host->mmc),
++ host_priv->dmas_pending,
++ hptime(), since_ns(host_priv->when_started),
++ since_ns(host_priv->when_reset),
++ since_ns(host_priv->when_stopped));
++ host_priv->dmas_pending += 1;
++ host_priv->when_started = hptime();
++#endif
++ host_priv->dma_wanted = 1;
++ DBG("PDMA go - base %p handle %08X\n", dma_chan_base,
++ host_priv->cb_handle);
++ bcm_dma_start(dma_chan_base, host_priv->cb_handle);
++}
++
++
++static void
++sdhci_platdma_read(struct sdhci_host *host, dma_addr_t dma_addr, size_t len)
++{
++ struct sdhci_bcm2708_priv *host_priv = SDHCI_HOST_PRIV(host);
++
++ DBG("PDMA to read %d bytes\n", len);
++ host_priv->sg_done += len;
++ schci_bcm2708_cb_read(host_priv, 0, dma_addr, len, 1/*TRUE*/);
++ schci_bcm2708_dma_go(host);
++}
++
++
++static void
++sdhci_platdma_write(struct sdhci_host *host, dma_addr_t dma_addr, size_t len)
++{
++ struct sdhci_bcm2708_priv *host_priv = SDHCI_HOST_PRIV(host);
++
++ DBG("PDMA to write %d bytes\n", len);
++ //BUG_ON(0 != (len & 0x1ff));
++
++ host_priv->sg_done += len;
++ schci_bcm2708_cb_write(host_priv, 0, dma_addr, len, 1/*TRUE*/);
++ schci_bcm2708_dma_go(host);
++}
++
++/*! space is avaiable to receive into or data is available to write
++ Platform DMA exported function
++*/
++void
++sdhci_bcm2708_platdma_avail(struct sdhci_host *host, unsigned int *ref_intmask,
++ void(*completion_callback)(struct sdhci_host *host))
++{
++ struct mmc_data *data = host->data;
++ struct sdhci_bcm2708_priv *host_priv = SDHCI_HOST_PRIV(host);
++ int sg_ix;
++ size_t bytes;
++ dma_addr_t addr;
++
++ BUG_ON(NULL == data);
++ BUG_ON(0 == data->blksz);
++
++ host_priv->complete = completion_callback;
++
++ sg_ix = host_priv->sg_ix;
++ BUG_ON(sg_ix >= data->sg_len);
++
++ /* we can DMA blocks larger than blksz - it may hang the DMA
++ channel but we are its only user */
++ bytes = sg_dma_len(&data->sg[sg_ix]) - host_priv->sg_done;
++ addr = sg_dma_address(&data->sg[sg_ix]) + host_priv->sg_done;
++
++ if (bytes > 0) {
++ /* We're going to poll for read/write available state until
++ we finish this DMA
++ */
++
++ if (data->flags & MMC_DATA_READ) {
++ if (*ref_intmask & SDHCI_INT_DATA_AVAIL) {
++ sdhci_unsignal_irqs(host, SDHCI_INT_DATA_AVAIL |
++ SDHCI_INT_SPACE_AVAIL);
++ sdhci_platdma_read(host, addr, bytes);
++ }
++ } else {
++ if (*ref_intmask & SDHCI_INT_SPACE_AVAIL) {
++ sdhci_unsignal_irqs(host, SDHCI_INT_DATA_AVAIL |
++ SDHCI_INT_SPACE_AVAIL);
++ sdhci_platdma_write(host, addr, bytes);
++ }
++ }
++ }
++ /* else:
++ we have run out of bytes that need transferring (e.g. we may be in
++ the middle of the last DMA transfer), or
++ it is also possible that we've been called when another IRQ is
++ signalled, even though we've turned off signalling of our own IRQ */
++
++ *ref_intmask &= ~SDHCI_INT_DATA_END;
++ /* don't let the main sdhci driver act on this .. we'll deal with it
++ when we respond to the DMA - if one is currently in progress */
++}
++
++/* is it possible to DMA the given mmc_data structure?
++ Platform DMA exported function
++*/
++int /*bool*/
++sdhci_bcm2708_platdma_dmaable(struct sdhci_host *host, struct mmc_data *data)
++{
++ struct sdhci_bcm2708_priv *host_priv = SDHCI_HOST_PRIV(host);
++ int ok = bcm_sg_suitable_for_dma(data->sg, data->sg_len);
++
++ if (!ok)
++ DBG("Reverting to PIO - bad cache alignment\n");
++
++ else {
++ host_priv->sg_ix = 0; /* first SG index */
++ host_priv->sg_done = 0; /* no bytes done */
++ }
++
++ return ok;
++}
++
++#include <mach/arm_control.h> //GRAYG
++/*! the current SD transacton has been abandonned
++ We need to tidy up if we were in the middle of a DMA
++ Platform DMA exported function
++*/
++void
++sdhci_bcm2708_platdma_reset(struct sdhci_host *host, struct mmc_data *data)
++{
++ struct sdhci_bcm2708_priv *host_priv = SDHCI_HOST_PRIV(host);
++// unsigned long flags;
++
++ BUG_ON(NULL == host);
++
++// spin_lock_irqsave(&host->lock, flags);
++
++ if (host_priv->dma_wanted) {
++ if (NULL == data) {
++ printk(KERN_ERR "%s: ongoing DMA reset - no data!\n",
++ mmc_hostname(host->mmc));
++ BUG_ON(NULL == data);
++ } else {
++ struct scatterlist *sg;
++ int sg_len;
++ int sg_todo;
++ int rc;
++ unsigned long cs;
++
++ sg = data->sg;
++ sg_len = data->sg_len;
++ sg_todo = sg_dma_len(&sg[host_priv->sg_ix]);
++
++ cs = readl(host_priv->dma_chan_base + BCM2708_DMA_CS);
++
++ if (!(BCM2708_DMA_ACTIVE & cs))
++ {
++ if (extra_messages)
++ printk(KERN_INFO "%s: missed completion of "
++ "cmd %d DMA (%d/%d [%d]/[%d]) - "
++ "ignoring it\n",
++ mmc_hostname(host->mmc),
++ host->last_cmdop,
++ host_priv->sg_done, sg_todo,
++ host_priv->sg_ix+1, sg_len);
++ }
++ else
++ printk(KERN_INFO "%s: resetting ongoing cmd %d"
++ "DMA before %d/%d [%d]/[%d] complete\n",
++ mmc_hostname(host->mmc),
++ host->last_cmdop,
++ host_priv->sg_done, sg_todo,
++ host_priv->sg_ix+1, sg_len);
++#ifdef CHECK_DMA_USE
++ printk(KERN_INFO "%s: now %"FMT_HPT" started %lu "
++ "last reset %lu last stopped %lu\n",
++ mmc_hostname(host->mmc),
++ hptime(), since_ns(host_priv->when_started),
++ since_ns(host_priv->when_reset),
++ since_ns(host_priv->when_stopped));
++ { unsigned long info, debug;
++ void __iomem *base;
++ unsigned long pend0, pend1, pend2;
++
++ base = host_priv->dma_chan_base;
++ cs = readl(base + BCM2708_DMA_CS);
++ info = readl(base + BCM2708_DMA_INFO);
++ debug = readl(base + BCM2708_DMA_DEBUG);
++ printk(KERN_INFO "%s: DMA%d CS=%08lX TI=%08lX "
++ "DEBUG=%08lX\n",
++ mmc_hostname(host->mmc),
++ host_priv->dma_chan,
++ cs, info, debug);
++ pend0 = readl(__io_address(ARM_IRQ_PEND0));
++ pend1 = readl(__io_address(ARM_IRQ_PEND1));
++ pend2 = readl(__io_address(ARM_IRQ_PEND2));
++
++ printk(KERN_INFO "%s: PEND0=%08lX "
++ "PEND1=%08lX PEND2=%08lX\n",
++ mmc_hostname(host->mmc),
++ pend0, pend1, pend2);
++
++ //gintsts = readl(__io_address(GINTSTS));
++ //gintmsk = readl(__io_address(GINTMSK));
++ //printk(KERN_INFO "%s: USB GINTSTS=%08lX"
++ // "GINTMSK=%08lX\n",
++ // mmc_hostname(host->mmc), gintsts, gintmsk);
++ }
++#endif
++ rc = bcm_dma_abort(host_priv->dma_chan_base);
++ BUG_ON(rc != 0);
++ }
++ host_priv->dma_wanted = 0;
++#ifdef CHECK_DMA_USE
++ host_priv->when_reset = hptime();
++#endif
++ }
++
++// spin_unlock_irqrestore(&host->lock, flags);
++}
++
++
++static void sdhci_bcm2708_dma_complete_irq(struct sdhci_host *host,
++ u32 dma_cs)
++{
++ struct sdhci_bcm2708_priv *host_priv = SDHCI_HOST_PRIV(host);
++ struct mmc_data *data;
++ struct scatterlist *sg;
++ int sg_len;
++ int sg_ix;
++ int sg_todo;
++// unsigned long flags;
++
++ BUG_ON(NULL == host);
++
++// spin_lock_irqsave(&host->lock, flags);
++ data = host->data;
++
++#ifdef CHECK_DMA_USE
++ if (host_priv->dmas_pending <= 0)
++ DBG("on completion no DMA in progress - "
++ "now %"FMT_HPT" started %lu reset %lu stopped %lu\n",
++ hptime(), since_ns(host_priv->when_started),
++ since_ns(host_priv->when_reset),
++ since_ns(host_priv->when_stopped));
++ else if (host_priv->dmas_pending > 1)
++ DBG("still %d DMA in progress after completion - "
++ "now %"FMT_HPT" started %lu reset %lu stopped %lu\n",
++ host_priv->dmas_pending - 1,
++ hptime(), since_ns(host_priv->when_started),
++ since_ns(host_priv->when_reset),
++ since_ns(host_priv->when_stopped));
++ BUG_ON(host_priv->dmas_pending <= 0);
++ host_priv->dmas_pending -= 1;
++ host_priv->when_stopped = hptime();
++#endif
++ host_priv->dma_wanted = 0;
++
++ if (NULL == data) {
++ DBG("PDMA unused completion - status 0x%X\n", dma_cs);
++// spin_unlock_irqrestore(&host->lock, flags);
++ return;
++ }
++ sg = data->sg;
++ sg_len = data->sg_len;
++ sg_todo = sg_dma_len(&sg[host_priv->sg_ix]);
++
++ DBG("PDMA complete %d/%d [%d]/[%d]..\n",
++ host_priv->sg_done, sg_todo,
++ host_priv->sg_ix+1, sg_len);
++
++ BUG_ON(host_priv->sg_done > sg_todo);
++
++ if (host_priv->sg_done >= sg_todo) {
++ host_priv->sg_ix++;
++ host_priv->sg_done = 0;
++ }
++
++ sg_ix = host_priv->sg_ix;
++ if (sg_ix < sg_len) {
++ u32 irq_mask;
++ /* Set off next DMA if we've got the capacity */
++
++ if (data->flags & MMC_DATA_READ)
++ irq_mask = SDHCI_INT_DATA_AVAIL;
++ else
++ irq_mask = SDHCI_INT_SPACE_AVAIL;
++
++ /* We have to use the interrupt status register on the BCM2708
++ rather than the SDHCI_PRESENT_STATE register because latency
++ in the glue logic means that the information retrieved from
++ the latter is not always up-to-date w.r.t the DMA engine -
++ it may not indicate that a read or a write is ready yet */
++ if (sdhci_bcm2708_raw_readl(host, SDHCI_INT_STATUS) &
++ irq_mask) {
++ size_t bytes = sg_dma_len(&sg[sg_ix]) -
++ host_priv->sg_done;
++ dma_addr_t addr = sg_dma_address(&data->sg[sg_ix]) +
++ host_priv->sg_done;
++
++ /* acknowledge interrupt */
++ sdhci_bcm2708_raw_writel(host, irq_mask,
++ SDHCI_INT_STATUS);
++
++ BUG_ON(0 == bytes);
++
++ if (data->flags & MMC_DATA_READ)
++ sdhci_platdma_read(host, addr, bytes);
++ else
++ sdhci_platdma_write(host, addr, bytes);
++ } else {
++ DBG("PDMA - wait avail\n");
++ /* may generate an IRQ if already present */
++ sdhci_signal_irqs(host, SDHCI_INT_DATA_AVAIL |
++ SDHCI_INT_SPACE_AVAIL);
++ }
++ } else {
++ if (sync_after_dma) {
++ /* On the Arasan controller the stop command (which will be
++ scheduled after this completes) does not seem to work
++ properly if we allow it to be issued when we are
++ transferring data to/from the SD card.
++ We get CRC and DEND errors unless we wait for
++ the SD controller to finish reading/writing to the card. */
++ u32 state_mask;
++ int timeout=30*5000;
++
++ DBG("PDMA over - sync card\n");
++ if (data->flags & MMC_DATA_READ)
++ state_mask = SDHCI_DOING_READ;
++ else
++ state_mask = SDHCI_DOING_WRITE;
++
++ while (0 != (sdhci_bcm2708_raw_readl(host, SDHCI_PRESENT_STATE)
++ & state_mask) && --timeout > 0)
++ {
++ udelay(1);
++ continue;
++ }
++ if (timeout <= 0)
++ printk(KERN_ERR"%s: final %s to SD card still "
++ "running\n",
++ mmc_hostname(host->mmc),
++ data->flags & MMC_DATA_READ? "read": "write");
++ }
++ if (host_priv->complete) {
++ (*host_priv->complete)(host);
++ DBG("PDMA %s complete\n",
++ data->flags & MMC_DATA_READ?"read":"write");
++ sdhci_signal_irqs(host, SDHCI_INT_DATA_AVAIL |
++ SDHCI_INT_SPACE_AVAIL);
++ }
++ }
++// spin_unlock_irqrestore(&host->lock, flags);
++}
++
++static irqreturn_t sdhci_bcm2708_dma_irq(int irq, void *dev_id)
++{
++ irqreturn_t result = IRQ_NONE;
++ struct sdhci_host *host = dev_id;
++ struct sdhci_bcm2708_priv *host_priv = SDHCI_HOST_PRIV(host);
++ u32 dma_cs; /* control and status register */
++
++ BUG_ON(NULL == dev_id);
++ BUG_ON(NULL == host_priv->dma_chan_base);
++
++ sdhci_spin_lock(host);
++
++ dma_cs = readl(host_priv->dma_chan_base + BCM2708_DMA_CS);
++
++ if (dma_cs & BCM2708_DMA_ERR) {
++ unsigned long debug;
++ debug = readl(host_priv->dma_chan_base +
++ BCM2708_DMA_DEBUG);
++ printk(KERN_ERR "%s: DMA error - CS %lX DEBUG %lX\n",
++ mmc_hostname(host->mmc), (unsigned long)dma_cs,
++ (unsigned long)debug);
++ /* reset error */
++ writel(debug, host_priv->dma_chan_base +
++ BCM2708_DMA_DEBUG);
++ }
++ if (dma_cs & BCM2708_DMA_INT) {
++ /* acknowledge interrupt */
++ writel(BCM2708_DMA_INT,
++ host_priv->dma_chan_base + BCM2708_DMA_CS);
++
++ dsb(); /* ARM data synchronization (push) operation */
++
++ if (!host_priv->dma_wanted) {
++ /* ignore this interrupt - it was reset */
++ if (extra_messages)
++ printk(KERN_INFO "%s: DMA IRQ %X ignored - "
++ "results were reset\n",
++ mmc_hostname(host->mmc), dma_cs);
++#ifdef CHECK_DMA_USE
++ printk(KERN_INFO "%s: now %"FMT_HPT
++ " started %lu reset %lu stopped %lu\n",
++ mmc_hostname(host->mmc), hptime(),
++ since_ns(host_priv->when_started),
++ since_ns(host_priv->when_reset),
++ since_ns(host_priv->when_stopped));
++ host_priv->dmas_pending--;
++#endif
++ } else
++ sdhci_bcm2708_dma_complete_irq(host, dma_cs);
++
++ result = IRQ_HANDLED;
++ }
++ sdhci_spin_unlock(host);
++
++ return result;
++}
++#endif /* CONFIG_MMC_SDHCI_BCM2708_DMA */
++
++
++/***************************************************************************** \
++ * *
++ * Device Attributes *
++ * *
++\*****************************************************************************/
++
++
++/**
++ * Show the DMA-using status
++ */
++static ssize_t attr_dma_show(struct device *_dev,
++ struct device_attribute *attr, char *buf)
++{
++ struct sdhci_host *host = (struct sdhci_host *)dev_get_drvdata(_dev);
++
++ if (host) {
++ int use_dma = (host->flags & SDHCI_USE_PLATDMA? 1:0);
++ return sprintf(buf, "%d\n", use_dma);
++ } else
++ return -EINVAL;
++}
++
++/**
++ * Set the DMA-using status
++ */
++static ssize_t attr_dma_store(struct device *_dev,
++ struct device_attribute *attr,
++ const char *buf, size_t count)
++{
++ struct sdhci_host *host = (struct sdhci_host *)dev_get_drvdata(_dev);
++
++ if (host) {
++#ifdef CONFIG_MMC_SDHCI_BCM2708_DMA
++ int on = simple_strtol(buf, NULL, 0);
++ if (on) {
++ host->flags |= SDHCI_USE_PLATDMA;
++ sdhci_bcm2708_writel(host, 1, REG_EXRDFIFO_EN);
++ printk(KERN_INFO "%s: DMA enabled\n",
++ mmc_hostname(host->mmc));
++ } else {
++ host->flags &= ~(SDHCI_USE_PLATDMA | SDHCI_REQ_USE_DMA);
++ sdhci_bcm2708_writel(host, 0, REG_EXRDFIFO_EN);
++ printk(KERN_INFO "%s: DMA disabled\n",
++ mmc_hostname(host->mmc));
++ }
++#endif
++ return count;
++ } else
++ return -EINVAL;
++}
++
++static DEVICE_ATTR(use_dma, S_IRUGO | S_IWUGO, attr_dma_show, attr_dma_store);
++
++
++/**
++ * Show the DMA wait states used
++ */
++static ssize_t attr_dmawait_show(struct device *_dev,
++ struct device_attribute *attr, char *buf)
++{
++ struct sdhci_host *host = (struct sdhci_host *)dev_get_drvdata(_dev);
++
++ if (host) {
++ struct sdhci_bcm2708_priv *host_priv = SDHCI_HOST_PRIV(host);
++ int dmawait = host_priv->dma_waits;
++ return sprintf(buf, "%d\n", dmawait);
++ } else
++ return -EINVAL;
++}
++
++/**
++ * Set the DMA wait state used
++ */
++static ssize_t attr_dmawait_store(struct device *_dev,
++ struct device_attribute *attr,
++ const char *buf, size_t count)
++{
++ struct sdhci_host *host = (struct sdhci_host *)dev_get_drvdata(_dev);
++
++ if (host) {
++#ifdef CONFIG_MMC_SDHCI_BCM2708_DMA
++ struct sdhci_bcm2708_priv *host_priv = SDHCI_HOST_PRIV(host);
++ int dma_waits = simple_strtol(buf, NULL, 0);
++ if (dma_waits >= 0 && dma_waits < 32)
++ host_priv->dma_waits = dma_waits;
++ else
++ printk(KERN_ERR "%s: illegal dma_waits value - %d",
++ mmc_hostname(host->mmc), dma_waits);
++#endif
++ return count;
++ } else
++ return -EINVAL;
++}
++
++static DEVICE_ATTR(dma_wait, S_IRUGO | S_IWUGO,
++ attr_dmawait_show, attr_dmawait_store);
++
++
++/**
++ * Show the DMA-using status
++ */
++static ssize_t attr_status_show(struct device *_dev,
++ struct device_attribute *attr, char *buf)
++{
++ struct sdhci_host *host = (struct sdhci_host *)dev_get_drvdata(_dev);
++
++ if (host) {
++ struct sdhci_bcm2708_priv *host_priv = SDHCI_HOST_PRIV(host);
++ return sprintf(buf,
++ "present: yes\n"
++ "power: %s\n"
++ "clock: %u Hz\n"
++#ifdef CONFIG_MMC_SDHCI_BCM2708_DMA
++ "dma: %s (%d waits)\n",
++#else
++ "dma: unconfigured\n",
++#endif
++ "always on",
++ host->clock
++#ifdef CONFIG_MMC_SDHCI_BCM2708_DMA
++ , (host->flags & SDHCI_USE_PLATDMA)? "on": "off"
++ , host_priv->dma_waits
++#endif
++ );
++ } else
++ return -EINVAL;
++}
++
++static DEVICE_ATTR(status, S_IRUGO, attr_status_show, NULL);
++
++/***************************************************************************** \
++ * *
++ * Power Management *
++ * *
++\*****************************************************************************/
++
++
++#ifdef CONFIG_PM
++static int sdhci_bcm2708_suspend(struct platform_device *dev, pm_message_t state)
++{
++ struct sdhci_host *host = (struct sdhci_host *)
++ platform_get_drvdata(dev);
++ int ret = 0;
++
++ if (host->mmc) {
++ ret = mmc_suspend_host(host->mmc);
++ }
++
++ return ret;
++}
++
++static int sdhci_bcm2708_resume(struct platform_device *dev)
++{
++ struct sdhci_host *host = (struct sdhci_host *)
++ platform_get_drvdata(dev);
++ int ret = 0;
++
++ if (host->mmc) {
++ ret = mmc_resume_host(host->mmc);
++ }
++
++ return ret;
++}
++#endif
++
++
++/*****************************************************************************\
++ * *
++ * Device quirk functions. Implemented as local ops because the flags *
++ * field is out of space with newer kernels. This implementation can be *
++ * back ported to older kernels as well. *
++\****************************************************************************/
++static unsigned int sdhci_bcm2708_quirk_extra_ints(struct sdhci_host *host)
++{
++ return 1;
++}
++
++static unsigned int sdhci_bcm2708_quirk_spurious_crc_acmd51(struct sdhci_host *host)
++{
++ return 1;
++}
++
++static unsigned int sdhci_bcm2708_quirk_voltage_broken(struct sdhci_host *host)
++{
++ return 1;
++}
++
++static unsigned int sdhci_bcm2708_uhs_broken(struct sdhci_host *host)
++{
++ return 1;
++}
++
++static unsigned int sdhci_bcm2708_missing_status(struct sdhci_host *host)
++{
++ return 1;
++}
++
++/***************************************************************************** \
++ * *
++ * Device ops *
++ * *
++\*****************************************************************************/
++
++static struct sdhci_ops sdhci_bcm2708_ops = {
++#ifdef CONFIG_MMC_SDHCI_IO_ACCESSORS
++ .read_l = sdhci_bcm2708_readl,
++ .read_w = sdhci_bcm2708_readw,
++ .read_b = sdhci_bcm2708_readb,
++ .write_l = sdhci_bcm2708_writel,
++ .write_w = sdhci_bcm2708_writew,
++ .write_b = sdhci_bcm2708_writeb,
++#else
++#error The BCM2708 SDHCI driver needs CONFIG_MMC_SDHCI_IO_ACCESSORS to be set
++#endif
++ .get_max_clock = sdhci_bcm2708_get_max_clock,
++
++#ifdef CONFIG_MMC_SDHCI_BCM2708_DMA
++ // Platform DMA operations
++ .pdma_able = sdhci_bcm2708_platdma_dmaable,
++ .pdma_avail = sdhci_bcm2708_platdma_avail,
++ .pdma_reset = sdhci_bcm2708_platdma_reset,
++#endif
++ .extra_ints = sdhci_bcm2708_quirk_extra_ints,
++ .voltage_broken = sdhci_bcm2708_quirk_voltage_broken,
++ .uhs_broken = sdhci_bcm2708_uhs_broken,
++};
++
++/*****************************************************************************\
++ * *
++ * Device probing/removal *
++ * *
++\*****************************************************************************/
++
++static int sdhci_bcm2708_probe(struct platform_device *pdev)
++{
++ struct sdhci_host *host;
++ struct resource *iomem;
++ struct sdhci_bcm2708_priv *host_priv;
++ int ret;
++
++ BUG_ON(pdev == NULL);
++
++ iomem = platform_get_resource(pdev, IORESOURCE_MEM, 0);
++ if (!iomem) {
++ ret = -ENOMEM;
++ goto err;
++ }
++
++ if (resource_size(iomem) != 0x100)
++ dev_err(&pdev->dev, "Invalid iomem size. You may "
++ "experience problems.\n");
++
++ if (pdev->dev.parent)
++ host = sdhci_alloc_host(pdev->dev.parent,
++ sizeof(struct sdhci_bcm2708_priv));
++ else
++ host = sdhci_alloc_host(&pdev->dev,
++ sizeof(struct sdhci_bcm2708_priv));
++
++ if (IS_ERR(host)) {
++ ret = PTR_ERR(host);
++ goto err;
++ }
++ if (missing_status) {
++ sdhci_bcm2708_ops.missing_status = sdhci_bcm2708_missing_status;
++ }
++
++ if( spurious_crc_acmd51 ) {
++ sdhci_bcm2708_ops.spurious_crc_acmd51 = sdhci_bcm2708_quirk_spurious_crc_acmd51;
++ }
++
++
++ printk("sdhci: %s low-latency mode\n",enable_llm?"Enable":"Disable");
++
++ host->hw_name = "BCM2708_Arasan";
++ host->ops = &sdhci_bcm2708_ops;
++ host->irq = platform_get_irq(pdev, 0);
++ host->second_irq = 0;
++
++ host->quirks = SDHCI_QUIRK_BROKEN_CARD_DETECTION |
++ SDHCI_QUIRK_DATA_TIMEOUT_USES_SDCLK |
++ SDHCI_QUIRK_BROKEN_TIMEOUT_VAL |
++ SDHCI_QUIRK_MISSING_CAPS |
++ SDHCI_QUIRK_NO_HISPD_BIT |
++ (sync_after_dma ? 0:SDHCI_QUIRK_MULTIBLOCK_READ_ACMD12);
++
++
++#ifdef CONFIG_MMC_SDHCI_BCM2708_DMA
++ host->flags = SDHCI_USE_PLATDMA;
++#endif
++
++ if (!request_mem_region(iomem->start, resource_size(iomem),
++ mmc_hostname(host->mmc))) {
++ dev_err(&pdev->dev, "cannot request region\n");
++ ret = -EBUSY;
++ goto err_request;
++ }
++
++ host->ioaddr = ioremap(iomem->start, resource_size(iomem));
++ if (!host->ioaddr) {
++ dev_err(&pdev->dev, "failed to remap registers\n");
++ ret = -ENOMEM;
++ goto err_remap;
++ }
++
++ host_priv = SDHCI_HOST_PRIV(host);
++
++#ifdef CONFIG_MMC_SDHCI_BCM2708_DMA
++ host_priv->dma_wanted = 0;
++#ifdef CHECK_DMA_USE
++ host_priv->dmas_pending = 0;
++ host_priv->when_started = 0;
++ host_priv->when_reset = 0;
++ host_priv->when_stopped = 0;
++#endif
++ host_priv->sg_ix = 0;
++ host_priv->sg_done = 0;
++ host_priv->complete = NULL;
++ host_priv->dma_waits = SDHCI_BCM_DMA_WAITS;
++
++ host_priv->cb_base = dma_alloc_writecombine(&pdev->dev, SZ_4K,
++ &host_priv->cb_handle,
++ GFP_KERNEL);
++ if (!host_priv->cb_base) {
++ dev_err(&pdev->dev, "cannot allocate DMA CBs\n");
++ ret = -ENOMEM;
++ goto err_alloc_cb;
++ }
++
++ ret = bcm_dma_chan_alloc(BCM_DMA_FEATURE_FAST,
++ &host_priv->dma_chan_base,
++ &host_priv->dma_irq);
++ if (ret < 0) {
++ dev_err(&pdev->dev, "couldn't allocate a DMA channel\n");
++ goto err_add_dma;
++ }
++ host_priv->dma_chan = ret;
++
++ ret = request_irq(host_priv->dma_irq, sdhci_bcm2708_dma_irq,0,//IRQF_SHARED,
++ DRIVER_NAME " (dma)", host);
++ if (ret) {
++ dev_err(&pdev->dev, "cannot set DMA IRQ\n");
++ goto err_add_dma_irq;
++ }
++ host->second_irq = host_priv->dma_irq;
++ DBG("DMA CBs %p handle %08X DMA%d %p DMA IRQ %d\n",
++ host_priv->cb_base, (unsigned)host_priv->cb_handle,
++ host_priv->dma_chan, host_priv->dma_chan_base,
++ host_priv->dma_irq);
++
++ if (allow_highspeed)
++ host->mmc->caps |= MMC_CAP_SD_HIGHSPEED | MMC_CAP_MMC_HIGHSPEED;
++
++ /* single block writes cause data loss with some SD cards! */
++ host->mmc->caps2 |= MMC_CAP2_FORCE_MULTIBLOCK;
++#endif
++
++ ret = sdhci_add_host(host);
++ if (ret)
++ goto err_add_host;
++
++ platform_set_drvdata(pdev, host);
++ ret = device_create_file(&pdev->dev, &dev_attr_use_dma);
++ ret = device_create_file(&pdev->dev, &dev_attr_dma_wait);
++ ret = device_create_file(&pdev->dev, &dev_attr_status);
++
++#ifdef CONFIG_MMC_SDHCI_BCM2708_DMA
++ /* enable extension fifo for paced DMA transfers */
++ sdhci_bcm2708_writel(host, 1, REG_EXRDFIFO_EN);
++ sdhci_bcm2708_writel(host, 4, REG_EXRDFIFO_CFG);
++#endif
++
++ printk(KERN_INFO "%s: BCM2708 SDHC host at 0x%08llx DMA %d IRQ %d\n",
++ mmc_hostname(host->mmc), (unsigned long long)iomem->start,
++ host_priv->dma_chan, host_priv->dma_irq);
++
++ return 0;
++
++err_add_host:
++#ifdef CONFIG_MMC_SDHCI_BCM2708_DMA
++ free_irq(host_priv->dma_irq, host);
++err_add_dma_irq:
++ bcm_dma_chan_free(host_priv->dma_chan);
++err_add_dma:
++ dma_free_writecombine(&pdev->dev, SZ_4K, host_priv->cb_base,
++ host_priv->cb_handle);
++err_alloc_cb:
++#endif
++ iounmap(host->ioaddr);
++err_remap:
++ release_mem_region(iomem->start, resource_size(iomem));
++err_request:
++ sdhci_free_host(host);
++err:
++ dev_err(&pdev->dev, "probe failed, err %d\n", ret);
++ return ret;
++}
++
++static int sdhci_bcm2708_remove(struct platform_device *pdev)
++{
++ struct sdhci_host *host = platform_get_drvdata(pdev);
++ struct resource *iomem = platform_get_resource(pdev, IORESOURCE_MEM, 0);
++ struct sdhci_bcm2708_priv *host_priv = SDHCI_HOST_PRIV(host);
++ int dead;
++ u32 scratch;
++
++ dead = 0;
++ scratch = sdhci_bcm2708_readl(host, SDHCI_INT_STATUS);
++ if (scratch == (u32)-1)
++ dead = 1;
++
++ device_remove_file(&pdev->dev, &dev_attr_status);
++ device_remove_file(&pdev->dev, &dev_attr_dma_wait);
++ device_remove_file(&pdev->dev, &dev_attr_use_dma);
++
++#ifdef CONFIG_MMC_SDHCI_BCM2708_DMA
++ free_irq(host_priv->dma_irq, host);
++ dma_free_writecombine(&pdev->dev, SZ_4K, host_priv->cb_base,
++ host_priv->cb_handle);
++#endif
++ sdhci_remove_host(host, dead);
++ iounmap(host->ioaddr);
++ release_mem_region(iomem->start, resource_size(iomem));
++ sdhci_free_host(host);
++ platform_set_drvdata(pdev, NULL);
++
++ return 0;
++}
++
++static struct platform_driver sdhci_bcm2708_driver = {
++ .driver = {
++ .name = DRIVER_NAME,
++ .owner = THIS_MODULE,
++ },
++ .probe = sdhci_bcm2708_probe,
++ .remove = sdhci_bcm2708_remove,
++
++#ifdef CONFIG_PM
++ .suspend = sdhci_bcm2708_suspend,
++ .resume = sdhci_bcm2708_resume,
++#endif
++
++};
++
++/*****************************************************************************\
++ * *
++ * Driver init/exit *
++ * *
++\*****************************************************************************/
++
++static int __init sdhci_drv_init(void)
++{
++ return platform_driver_register(&sdhci_bcm2708_driver);
++}
++
++static void __exit sdhci_drv_exit(void)
++{
++ platform_driver_unregister(&sdhci_bcm2708_driver);
++}
++
++module_init(sdhci_drv_init);
++module_exit(sdhci_drv_exit);
++
++module_param(allow_highspeed, bool, 0444);
++module_param(emmc_clock_freq, int, 0444);
++module_param(sync_after_dma, bool, 0444);
++module_param(missing_status, bool, 0444);
++module_param(spurious_crc_acmd51, bool, 0444);
++module_param(enable_llm, bool, 0444);
++module_param(cycle_delay, int, 0444);
++module_param(extra_messages, bool, 0444);
++
++MODULE_DESCRIPTION("Secure Digital Host Controller Interface platform driver");
++MODULE_AUTHOR("Broadcom <info@broadcom.com>");
++MODULE_LICENSE("GPL v2");
++MODULE_ALIAS("platform:"DRIVER_NAME);
++
++MODULE_PARM_DESC(allow_highspeed, "Allow high speed transfers modes");
++MODULE_PARM_DESC(emmc_clock_freq, "Specify the speed of emmc clock");
++MODULE_PARM_DESC(sync_after_dma, "Block in driver until dma complete");
++MODULE_PARM_DESC(missing_status, "Use the missing status quirk");
++MODULE_PARM_DESC(spurious_crc_acmd51, "Use the spurious crc quirk for reading SCR (ACMD51)");
++MODULE_PARM_DESC(enable_llm, "Enable low-latency mode");
++MODULE_PARM_DESC(extra_messages, "Enable more sdcard warning messages");
++
++
+diff -urwN linux-3.10/drivers/mmc/host/sdhci.c linux-rpi-3.10.y/drivers/mmc/host/sdhci.c
+--- linux-3.10/drivers/mmc/host/sdhci.c 2013-06-30 23:13:29.000000000 +0100
++++ linux-rpi-3.10.y/drivers/mmc/host/sdhci.c 2013-07-06 15:25:50.000000000 +0100
+@@ -28,6 +28,7 @@
+ #include <linux/mmc/mmc.h>
+ #include <linux/mmc/host.h>
+ #include <linux/mmc/card.h>
++#include <linux/mmc/sd.h>
+ #include <linux/mmc/slot-gpio.h>
+
+ #include "sdhci.h"
+@@ -123,6 +124,91 @@
+ * Low level functions *
+ * *
+ \*****************************************************************************/
++extern bool enable_llm;
++static int sdhci_locked=0;
++void sdhci_spin_lock(struct sdhci_host *host)
++{
++ spin_lock(&host->lock);
++#ifdef CONFIG_PREEMPT
++ if(enable_llm)
++ {
++ disable_irq_nosync(host->irq);
++ if(host->second_irq)
++ disable_irq_nosync(host->second_irq);
++ local_irq_enable();
++ }
++#endif
++}
++
++void sdhci_spin_unlock(struct sdhci_host *host)
++{
++#ifdef CONFIG_PREEMPT
++ if(enable_llm)
++ {
++ local_irq_disable();
++ if(host->second_irq)
++ enable_irq(host->second_irq);
++ enable_irq(host->irq);
++ }
++#endif
++ spin_unlock(&host->lock);
++}
++
++void sdhci_spin_lock_irqsave(struct sdhci_host *host,unsigned long *flags)
++{
++#ifdef CONFIG_PREEMPT
++ if(enable_llm)
++ {
++ while(sdhci_locked)
++ {
++ preempt_schedule();
++ }
++ spin_lock_irqsave(&host->lock,*flags);
++ disable_irq(host->irq);
++ if(host->second_irq)
++ disable_irq(host->second_irq);
++ local_irq_enable();
++ }
++ else
++#endif
++ spin_lock_irqsave(&host->lock,*flags);
++}
++
++void sdhci_spin_unlock_irqrestore(struct sdhci_host *host,unsigned long flags)
++{
++#ifdef CONFIG_PREEMPT
++ if(enable_llm)
++ {
++ local_irq_disable();
++ if(host->second_irq)
++ enable_irq(host->second_irq);
++ enable_irq(host->irq);
++ }
++#endif
++ spin_unlock_irqrestore(&host->lock,flags);
++}
++
++static void sdhci_spin_enable_schedule(struct sdhci_host *host)
++{
++#ifdef CONFIG_PREEMPT
++ if(enable_llm)
++ {
++ sdhci_locked = 1;
++ preempt_enable();
++ }
++#endif
++}
++
++static void sdhci_spin_disable_schedule(struct sdhci_host *host)
++{
++#ifdef CONFIG_PREEMPT
++ if(enable_llm)
++ {
++ preempt_disable();
++ sdhci_locked = 0;
++ }
++#endif
++}
+
+ static void sdhci_clear_set_irqs(struct sdhci_host *host, u32 clear, u32 set)
+ {
+@@ -288,7 +374,7 @@
+ struct sdhci_host *host = container_of(led, struct sdhci_host, led);
+ unsigned long flags;
+
+- spin_lock_irqsave(&host->lock, flags);
++ sdhci_spin_lock_irqsave(host, &flags);
+
+ if (host->runtime_suspended)
+ goto out;
+@@ -298,7 +384,7 @@
+ else
+ sdhci_activate_led(host);
+ out:
+- spin_unlock_irqrestore(&host->lock, flags);
++ sdhci_spin_unlock_irqrestore(host, flags);
+ }
+ #endif
+
+@@ -315,7 +401,7 @@
+ u32 uninitialized_var(scratch);
+ u8 *buf;
+
+- DBG("PIO reading\n");
++ DBG("PIO reading %db\n", host->data->blksz);
+
+ blksize = host->data->blksz;
+ chunk = 0;
+@@ -360,7 +446,7 @@
+ u32 scratch;
+ u8 *buf;
+
+- DBG("PIO writing\n");
++ DBG("PIO writing %db\n", host->data->blksz);
+
+ blksize = host->data->blksz;
+ chunk = 0;
+@@ -399,19 +485,28 @@
+ local_irq_restore(flags);
+ }
+
+-static void sdhci_transfer_pio(struct sdhci_host *host)
++static void sdhci_transfer_pio(struct sdhci_host *host, u32 intstate)
+ {
+ u32 mask;
++ u32 state = 0;
++ u32 intmask;
++ int available;
+
+ BUG_ON(!host->data);
+
+ if (host->blocks == 0)
+ return;
+
+- if (host->data->flags & MMC_DATA_READ)
++ if (host->data->flags & MMC_DATA_READ) {
+ mask = SDHCI_DATA_AVAILABLE;
+- else
++ intmask = SDHCI_INT_DATA_AVAIL;
++ } else {
+ mask = SDHCI_SPACE_AVAILABLE;
++ intmask = SDHCI_INT_SPACE_AVAIL;
++ }
++
++ /* initially we can see whether we can procede using intstate */
++ available = (intstate & intmask);
+
+ /*
+ * Some controllers (JMicron JMB38x) mess up the buffer bits
+@@ -422,7 +517,7 @@
+ (host->data->blocks == 1))
+ mask = ~0;
+
+- while (sdhci_readl(host, SDHCI_PRESENT_STATE) & mask) {
++ while (available) {
+ if (host->quirks & SDHCI_QUIRK_PIO_NEEDS_DELAY)
+ udelay(100);
+
+@@ -434,9 +529,11 @@
+ host->blocks--;
+ if (host->blocks == 0)
+ break;
++ state = sdhci_readl(host, SDHCI_PRESENT_STATE);
++ available = state & mask;
+ }
+
+- DBG("PIO transfer complete.\n");
++ DBG("PIO transfer complete - %d blocks left.\n", host->blocks);
+ }
+
+ static char *sdhci_kmap_atomic(struct scatterlist *sg, unsigned long *flags)
+@@ -709,7 +806,9 @@
+ u32 pio_irqs = SDHCI_INT_DATA_AVAIL | SDHCI_INT_SPACE_AVAIL;
+ u32 dma_irqs = SDHCI_INT_DMA_END | SDHCI_INT_ADMA_ERROR;
+
+- if (host->flags & SDHCI_REQ_USE_DMA)
++ /* platform DMA will begin on receipt of PIO irqs */
++ if ((host->flags & SDHCI_REQ_USE_DMA) &&
++ !(host->flags & SDHCI_USE_PLATDMA))
+ sdhci_clear_set_irqs(host, pio_irqs, dma_irqs);
+ else
+ sdhci_clear_set_irqs(host, dma_irqs, pio_irqs);
+@@ -741,44 +840,25 @@
+ host->data_early = 0;
+ host->data->bytes_xfered = 0;
+
+- if (host->flags & (SDHCI_USE_SDMA | SDHCI_USE_ADMA))
++ if (host->flags & (SDHCI_USE_SDMA | SDHCI_USE_ADMA | SDHCI_USE_PLATDMA))
+ host->flags |= SDHCI_REQ_USE_DMA;
+
+ /*
+ * FIXME: This doesn't account for merging when mapping the
+ * scatterlist.
+ */
+- if (host->flags & SDHCI_REQ_USE_DMA) {
+- int broken, i;
+- struct scatterlist *sg;
+-
+- broken = 0;
+- if (host->flags & SDHCI_USE_ADMA) {
+- if (host->quirks & SDHCI_QUIRK_32BIT_ADMA_SIZE)
+- broken = 1;
+- } else {
+- if (host->quirks & SDHCI_QUIRK_32BIT_DMA_SIZE)
+- broken = 1;
+- }
+-
+- if (unlikely(broken)) {
+- for_each_sg(data->sg, sg, data->sg_len, i) {
+- if (sg->length & 0x3) {
+- DBG("Reverting to PIO because of "
+- "transfer size (%d)\n",
+- sg->length);
+- host->flags &= ~SDHCI_REQ_USE_DMA;
+- break;
+- }
+- }
+- }
+- }
+
+ /*
+ * The assumption here being that alignment is the same after
+ * translation to device address space.
+ */
+- if (host->flags & SDHCI_REQ_USE_DMA) {
++ if ((host->flags & (SDHCI_REQ_USE_DMA | SDHCI_USE_PLATDMA)) ==
++ (SDHCI_REQ_USE_DMA | SDHCI_USE_PLATDMA)) {
++
++ if (! sdhci_platdma_dmaable(host, data))
++ host->flags &= ~SDHCI_REQ_USE_DMA;
++
++ } else if (host->flags & SDHCI_REQ_USE_DMA) {
+ int broken, i;
+ struct scatterlist *sg;
+
+@@ -837,7 +917,8 @@
+ */
+ WARN_ON(1);
+ host->flags &= ~SDHCI_REQ_USE_DMA;
+- } else {
++ } else
++ if (!(host->flags & SDHCI_USE_PLATDMA)) {
+ WARN_ON(sg_cnt != 1);
+ sdhci_writel(host, sg_dma_address(data->sg),
+ SDHCI_DMA_ADDRESS);
+@@ -853,11 +934,13 @@
+ if (host->version >= SDHCI_SPEC_200) {
+ ctrl = sdhci_readb(host, SDHCI_HOST_CONTROL);
+ ctrl &= ~SDHCI_CTRL_DMA_MASK;
++ if (! (host->flags & SDHCI_USE_PLATDMA)) {
+ if ((host->flags & SDHCI_REQ_USE_DMA) &&
+ (host->flags & SDHCI_USE_ADMA))
+ ctrl |= SDHCI_CTRL_ADMA32;
+ else
+ ctrl |= SDHCI_CTRL_SDMA;
++ }
+ sdhci_writeb(host, ctrl, SDHCI_HOST_CONTROL);
+ }
+
+@@ -909,7 +992,8 @@
+
+ if (data->flags & MMC_DATA_READ)
+ mode |= SDHCI_TRNS_READ;
+- if (host->flags & SDHCI_REQ_USE_DMA)
++ if ((host->flags & SDHCI_REQ_USE_DMA) &&
++ !(host->flags & SDHCI_USE_PLATDMA))
+ mode |= SDHCI_TRNS_DMA;
+
+ sdhci_writew(host, mode, SDHCI_TRANSFER_MODE);
+@@ -925,13 +1009,16 @@
+ host->data = NULL;
+
+ if (host->flags & SDHCI_REQ_USE_DMA) {
+- if (host->flags & SDHCI_USE_ADMA)
+- sdhci_adma_table_post(host, data);
+- else {
++ /* we may have to abandon an ongoing platform DMA */
++ if (host->flags & SDHCI_USE_PLATDMA)
++ sdhci_platdma_reset(host, data);
++
++ if (host->flags & (SDHCI_USE_PLATDMA | SDHCI_USE_SDMA)) {
+ dma_unmap_sg(mmc_dev(host->mmc), data->sg,
+ data->sg_len, (data->flags & MMC_DATA_READ) ?
+ DMA_FROM_DEVICE : DMA_TO_DEVICE);
+- }
++ } else if (host->flags & SDHCI_USE_ADMA)
++ sdhci_adma_table_post(host, data);
+ }
+
+ /*
+@@ -984,6 +1071,12 @@
+ if ((cmd->data != NULL) || (cmd->flags & MMC_RSP_BUSY))
+ mask |= SDHCI_DATA_INHIBIT;
+
++ if(host->ops->missing_status && (cmd->opcode == MMC_SEND_STATUS)) {
++ timeout = 5000; // Really obscenely large delay to send the status, due to bug in controller
++ // which might cause the STATUS command to get stuck when a data operation is in flow
++ mask |= SDHCI_DATA_INHIBIT;
++ }
++
+ /* We shouldn't wait for data inihibit for stop commands, even
+ though they might use busy signaling */
+ if (host->mrq->data && (cmd == host->mrq->data->stop))
+@@ -999,12 +1092,20 @@
+ return;
+ }
+ timeout--;
++ sdhci_spin_enable_schedule(host);
+ mdelay(1);
++ sdhci_spin_disable_schedule(host);
+ }
++ DBG("send cmd %d - wait 0x%X irq 0x%x\n", cmd->opcode, mask,
++ sdhci_readl(host, SDHCI_INT_STATUS));
+
+ mod_timer(&host->timer, jiffies + 10 * HZ);
+
+ host->cmd = cmd;
++ if (host->last_cmdop == MMC_APP_CMD)
++ host->last_cmdop = -cmd->opcode;
++ else
++ host->last_cmdop = cmd->opcode;
+
+ sdhci_prepare_data(host, cmd);
+
+@@ -1220,7 +1321,9 @@
+ return;
+ }
+ timeout--;
++ sdhci_spin_enable_schedule(host);
+ mdelay(1);
++ sdhci_spin_disable_schedule(host);
+ }
+
+ clk |= SDHCI_CLOCK_CARD_EN;
+@@ -1316,7 +1419,7 @@
+
+ sdhci_runtime_pm_get(host);
+
+- spin_lock_irqsave(&host->lock, flags);
++ sdhci_spin_lock_irqsave(host, &flags);
+
+ WARN_ON(host->mrq != NULL);
+
+@@ -1374,9 +1477,9 @@
+ mmc->card->type == MMC_TYPE_MMC ?
+ MMC_SEND_TUNING_BLOCK_HS200 :
+ MMC_SEND_TUNING_BLOCK;
+- spin_unlock_irqrestore(&host->lock, flags);
++ sdhci_spin_unlock_irqrestore(host, flags);
+ sdhci_execute_tuning(mmc, tuning_opcode);
+- spin_lock_irqsave(&host->lock, flags);
++ sdhci_spin_lock_irqsave(host, &flags);
+
+ /* Restore original mmc_request structure */
+ host->mrq = mrq;
+@@ -1390,7 +1493,7 @@
+ }
+
+ mmiowb();
+- spin_unlock_irqrestore(&host->lock, flags);
++ sdhci_spin_unlock_irqrestore(host, flags);
+ }
+
+ static void sdhci_do_set_ios(struct sdhci_host *host, struct mmc_ios *ios)
+@@ -1399,10 +1502,10 @@
+ int vdd_bit = -1;
+ u8 ctrl;
+
+- spin_lock_irqsave(&host->lock, flags);
++ sdhci_spin_lock_irqsave(host, &flags);
+
+ if (host->flags & SDHCI_DEVICE_DEAD) {
+- spin_unlock_irqrestore(&host->lock, flags);
++ sdhci_spin_unlock_irqrestore(host, flags);
+ if (host->vmmc && ios->power_mode == MMC_POWER_OFF)
+ mmc_regulator_set_ocr(host->mmc, host->vmmc, 0);
+ return;
+@@ -1429,9 +1532,9 @@
+ vdd_bit = sdhci_set_power(host, ios->vdd);
+
+ if (host->vmmc && vdd_bit != -1) {
+- spin_unlock_irqrestore(&host->lock, flags);
++ sdhci_spin_unlock_irqrestore(host, flags);
+ mmc_regulator_set_ocr(host->mmc, host->vmmc, vdd_bit);
+- spin_lock_irqsave(&host->lock, flags);
++ sdhci_spin_lock_irqsave(host, &flags);
+ }
+
+ if (host->ops->platform_send_init_74_clocks)
+@@ -1470,7 +1573,7 @@
+ else
+ ctrl &= ~SDHCI_CTRL_HISPD;
+
+- if (host->version >= SDHCI_SPEC_300) {
++ if (host->version >= SDHCI_SPEC_300 && !(host->ops->uhs_broken)) {
+ u16 clk, ctrl_2;
+
+ /* In case of UHS-I modes, set High Speed Enable */
+@@ -1569,7 +1672,7 @@
+ sdhci_reset(host, SDHCI_RESET_CMD | SDHCI_RESET_DATA);
+
+ mmiowb();
+- spin_unlock_irqrestore(&host->lock, flags);
++ sdhci_spin_unlock_irqrestore(host, flags);
+ }
+
+ static void sdhci_set_ios(struct mmc_host *mmc, struct mmc_ios *ios)
+@@ -1617,7 +1720,7 @@
+ unsigned long flags;
+ int is_readonly;
+
+- spin_lock_irqsave(&host->lock, flags);
++ sdhci_spin_lock_irqsave(host, &flags);
+
+ if (host->flags & SDHCI_DEVICE_DEAD)
+ is_readonly = 0;
+@@ -1627,7 +1730,7 @@
+ is_readonly = !(sdhci_readl(host, SDHCI_PRESENT_STATE)
+ & SDHCI_WRITE_PROTECT);
+
+- spin_unlock_irqrestore(&host->lock, flags);
++ sdhci_spin_unlock_irqrestore(host, flags);
+
+ /* This quirk needs to be replaced by a callback-function later */
+ return host->quirks & SDHCI_QUIRK_INVERTED_WRITE_PROTECT ?
+@@ -1700,9 +1803,9 @@
+ struct sdhci_host *host = mmc_priv(mmc);
+ unsigned long flags;
+
+- spin_lock_irqsave(&host->lock, flags);
++ sdhci_spin_lock_irqsave(host, &flags);
+ sdhci_enable_sdio_irq_nolock(host, enable);
+- spin_unlock_irqrestore(&host->lock, flags);
++ sdhci_spin_unlock_irqrestore(host, flags);
+ }
+
+ static int sdhci_do_start_signal_voltage_switch(struct sdhci_host *host,
+@@ -2046,7 +2149,7 @@
+ struct sdhci_host *host = mmc_priv(mmc);
+ unsigned long flags;
+
+- spin_lock_irqsave(&host->lock, flags);
++ sdhci_spin_lock_irqsave(host, &flags);
+
+ /* Check host->mrq first in case we are runtime suspended */
+ if (host->mrq &&
+@@ -2063,7 +2166,7 @@
+ tasklet_schedule(&host->finish_tasklet);
+ }
+
+- spin_unlock_irqrestore(&host->lock, flags);
++ sdhci_spin_unlock_irqrestore(host, flags);
+ }
+
+ static const struct mmc_host_ops sdhci_ops = {
+@@ -2102,14 +2205,14 @@
+
+ host = (struct sdhci_host*)param;
+
+- spin_lock_irqsave(&host->lock, flags);
++ sdhci_spin_lock_irqsave(host, &flags);
+
+ /*
+ * If this tasklet gets rescheduled while running, it will
+ * be run again afterwards but without any active request.
+ */
+ if (!host->mrq) {
+- spin_unlock_irqrestore(&host->lock, flags);
++ sdhci_spin_unlock_irqrestore(host, flags);
+ return;
+ }
+
+@@ -2147,7 +2250,7 @@
+ #endif
+
+ mmiowb();
+- spin_unlock_irqrestore(&host->lock, flags);
++ sdhci_spin_unlock_irqrestore(host, flags);
+
+ mmc_request_done(host->mmc, mrq);
+ sdhci_runtime_pm_put(host);
+@@ -2160,11 +2263,11 @@
+
+ host = (struct sdhci_host*)data;
+
+- spin_lock_irqsave(&host->lock, flags);
++ sdhci_spin_lock_irqsave(host, &flags);
+
+ if (host->mrq) {
+ pr_err("%s: Timeout waiting for hardware "
+- "interrupt.\n", mmc_hostname(host->mmc));
++ "interrupt - cmd%d.\n", mmc_hostname(host->mmc), host->last_cmdop);
+ sdhci_dumpregs(host);
+
+ if (host->data) {
+@@ -2181,7 +2284,7 @@
+ }
+
+ mmiowb();
+- spin_unlock_irqrestore(&host->lock, flags);
++ sdhci_spin_unlock_irqrestore(host, flags);
+ }
+
+ static void sdhci_tuning_timer(unsigned long data)
+@@ -2191,11 +2294,11 @@
+
+ host = (struct sdhci_host *)data;
+
+- spin_lock_irqsave(&host->lock, flags);
++ sdhci_spin_lock_irqsave(host, &flags);
+
+ host->flags |= SDHCI_NEEDS_RETUNING;
+
+- spin_unlock_irqrestore(&host->lock, flags);
++ sdhci_spin_unlock_irqrestore(host, flags);
+ }
+
+ /*****************************************************************************\
+@@ -2209,10 +2312,13 @@
+ BUG_ON(intmask == 0);
+
+ if (!host->cmd) {
++ if (!(host->ops->extra_ints)) {
+ pr_err("%s: Got command interrupt 0x%08x even "
+ "though no command operation was in progress.\n",
+ mmc_hostname(host->mmc), (unsigned)intmask);
+ sdhci_dumpregs(host);
++ } else
++ DBG("cmd irq 0x%08x cmd complete\n", (unsigned)intmask);
+ return;
+ }
+
+@@ -2282,6 +2388,19 @@
+ static void sdhci_show_adma_error(struct sdhci_host *host) { }
+ #endif
+
++static void sdhci_data_end(struct sdhci_host *host)
++{
++ if (host->cmd) {
++ /*
++ * Data managed to finish before the
++ * command completed. Make sure we do
++ * things in the proper order.
++ */
++ host->data_early = 1;
++ } else
++ sdhci_finish_data(host);
++}
++
+ static void sdhci_data_irq(struct sdhci_host *host, u32 intmask)
+ {
+ u32 command;
+@@ -2311,23 +2430,39 @@
+ }
+ }
+
++ if (!(host->ops->extra_ints)) {
+ pr_err("%s: Got data interrupt 0x%08x even "
+ "though no data operation was in progress.\n",
+ mmc_hostname(host->mmc), (unsigned)intmask);
+ sdhci_dumpregs(host);
++ } else
++ DBG("data irq 0x%08x but no data\n", (unsigned)intmask);
+
+ return;
+ }
+
+ if (intmask & SDHCI_INT_DATA_TIMEOUT)
+ host->data->error = -ETIMEDOUT;
+- else if (intmask & SDHCI_INT_DATA_END_BIT)
++ else if (intmask & SDHCI_INT_DATA_END_BIT) {
++ DBG("end error in cmd %d\n", host->last_cmdop);
++ if (host->ops->spurious_crc_acmd51 &&
++ host->last_cmdop == -SD_APP_SEND_SCR) {
++ DBG("ignoring spurious data_end_bit error\n");
++ intmask = SDHCI_INT_DATA_AVAIL|SDHCI_INT_DATA_END;
++ } else
+ host->data->error = -EILSEQ;
+- else if ((intmask & SDHCI_INT_DATA_CRC) &&
++ } else if ((intmask & SDHCI_INT_DATA_CRC) &&
+ SDHCI_GET_CMD(sdhci_readw(host, SDHCI_COMMAND))
+- != MMC_BUS_TEST_R)
++ != MMC_BUS_TEST_R) {
++ DBG("crc error in cmd %d\n", host->last_cmdop);
++ if (host->ops->spurious_crc_acmd51 &&
++ host->last_cmdop == -SD_APP_SEND_SCR) {
++ DBG("ignoring spurious data_crc_bit error\n");
++ intmask = SDHCI_INT_DATA_AVAIL|SDHCI_INT_DATA_END;
++ } else {
+ host->data->error = -EILSEQ;
+- else if (intmask & SDHCI_INT_ADMA_ERROR) {
++ }
++ } else if (intmask & SDHCI_INT_ADMA_ERROR) {
+ pr_err("%s: ADMA error\n", mmc_hostname(host->mmc));
+ sdhci_show_adma_error(host);
+ host->data->error = -EIO;
+@@ -2335,11 +2470,18 @@
+ host->ops->adma_workaround(host, intmask);
+ }
+
+- if (host->data->error)
++ if (host->data->error) {
++ DBG("finish request early on error %d\n", host->data->error);
+ sdhci_finish_data(host);
+- else {
+- if (intmask & (SDHCI_INT_DATA_AVAIL | SDHCI_INT_SPACE_AVAIL))
+- sdhci_transfer_pio(host);
++ } else {
++ if (intmask & (SDHCI_INT_DATA_AVAIL | SDHCI_INT_SPACE_AVAIL)) {
++ if (host->flags & SDHCI_REQ_USE_DMA) {
++ /* possible only in PLATDMA mode */
++ sdhci_platdma_avail(host, &intmask,
++ &sdhci_data_end);
++ } else
++ sdhci_transfer_pio(host, intmask);
++ }
+
+ /*
+ * We currently don't do anything fancy with DMA
+@@ -2368,18 +2510,8 @@
+ sdhci_writel(host, dmanow, SDHCI_DMA_ADDRESS);
+ }
+
+- if (intmask & SDHCI_INT_DATA_END) {
+- if (host->cmd) {
+- /*
+- * Data managed to finish before the
+- * command completed. Make sure we do
+- * things in the proper order.
+- */
+- host->data_early = 1;
+- } else {
+- sdhci_finish_data(host);
+- }
+- }
++ if (intmask & SDHCI_INT_DATA_END)
++ sdhci_data_end(host);
+ }
+ }
+
+@@ -2390,10 +2522,10 @@
+ u32 intmask, unexpected = 0;
+ int cardint = 0, max_loops = 16;
+
+- spin_lock(&host->lock);
++ sdhci_spin_lock(host);
+
+ if (host->runtime_suspended) {
+- spin_unlock(&host->lock);
++ sdhci_spin_unlock(host);
+ pr_warning("%s: got irq while runtime suspended\n",
+ mmc_hostname(host->mmc));
+ return IRQ_HANDLED;
+@@ -2435,6 +2567,22 @@
+ tasklet_schedule(&host->card_tasklet);
+ }
+
++ if (intmask & SDHCI_INT_ERROR_MASK & ~SDHCI_INT_ERROR)
++ DBG("controller reports error 0x%x -"
++ "%s%s%s%s%s%s%s%s%s%s",
++ intmask,
++ intmask & SDHCI_INT_TIMEOUT? " timeout": "",
++ intmask & SDHCI_INT_CRC ? " crc": "",
++ intmask & SDHCI_INT_END_BIT? " endbit": "",
++ intmask & SDHCI_INT_INDEX? " index": "",
++ intmask & SDHCI_INT_DATA_TIMEOUT? " data_timeout": "",
++ intmask & SDHCI_INT_DATA_CRC? " data_crc": "",
++ intmask & SDHCI_INT_DATA_END_BIT? " data_endbit": "",
++ intmask & SDHCI_INT_BUS_POWER? " buspower": "",
++ intmask & SDHCI_INT_ACMD12ERR? " acmd12": "",
++ intmask & SDHCI_INT_ADMA_ERROR? " adma": ""
++ );
++
+ if (intmask & SDHCI_INT_CMD_MASK) {
+ sdhci_writel(host, intmask & SDHCI_INT_CMD_MASK,
+ SDHCI_INT_STATUS);
+@@ -2449,7 +2597,13 @@
+
+ intmask &= ~(SDHCI_INT_CMD_MASK | SDHCI_INT_DATA_MASK);
+
+- intmask &= ~SDHCI_INT_ERROR;
++ if (intmask & SDHCI_INT_ERROR_MASK) {
++ /* collect any uncovered errors */
++ sdhci_writel(host, intmask & SDHCI_INT_ERROR_MASK,
++ SDHCI_INT_STATUS);
++ }
++
++ intmask &= ~SDHCI_INT_ERROR_MASK;
+
+ if (intmask & SDHCI_INT_BUS_POWER) {
+ pr_err("%s: Card is consuming too much power!\n",
+@@ -2475,7 +2629,7 @@
+ if (intmask && --max_loops)
+ goto again;
+ out:
+- spin_unlock(&host->lock);
++ sdhci_spin_unlock(host);
+
+ if (unexpected) {
+ pr_err("%s: Unexpected interrupt 0x%08x.\n",
+@@ -2569,7 +2723,8 @@
+ {
+ int ret;
+
+- if (host->flags & (SDHCI_USE_SDMA | SDHCI_USE_ADMA)) {
++ if (host->flags & (SDHCI_USE_SDMA | SDHCI_USE_ADMA |
++ SDHCI_USE_PLATDMA)) {
+ if (host->ops->enable_dma)
+ host->ops->enable_dma(host);
+ }
+@@ -2636,15 +2791,15 @@
+ host->flags &= ~SDHCI_NEEDS_RETUNING;
+ }
+
+- spin_lock_irqsave(&host->lock, flags);
++ sdhci_spin_lock_irqsave(host, &flags);
+ sdhci_mask_irqs(host, SDHCI_INT_ALL_MASK);
+- spin_unlock_irqrestore(&host->lock, flags);
++ sdhci_spin_unlock_irqrestore(host, flags);
+
+ synchronize_irq(host->irq);
+
+- spin_lock_irqsave(&host->lock, flags);
++ sdhci_spin_lock_irqsave(host, &flags);
+ host->runtime_suspended = true;
+- spin_unlock_irqrestore(&host->lock, flags);
++ sdhci_spin_unlock_irqrestore(host, flags);
+
+ return ret;
+ }
+@@ -2670,16 +2825,16 @@
+ sdhci_do_start_signal_voltage_switch(host, &host->mmc->ios);
+ if ((host_flags & SDHCI_PV_ENABLED) &&
+ !(host->quirks2 & SDHCI_QUIRK2_PRESET_VALUE_BROKEN)) {
+- spin_lock_irqsave(&host->lock, flags);
++ sdhci_spin_lock_irqsave(host, &flags);
+ sdhci_enable_preset_value(host, true);
+- spin_unlock_irqrestore(&host->lock, flags);
++ sdhci_spin_unlock_irqrestore(host, flags);
+ }
+
+ /* Set the re-tuning expiration flag */
+ if (host->flags & SDHCI_USING_RETUNING_TIMER)
+ host->flags |= SDHCI_NEEDS_RETUNING;
+
+- spin_lock_irqsave(&host->lock, flags);
++ sdhci_spin_lock_irqsave(host, &flags);
+
+ host->runtime_suspended = false;
+
+@@ -2690,7 +2845,7 @@
+ /* Enable Card Detection */
+ sdhci_enable_card_detection(host);
+
+- spin_unlock_irqrestore(&host->lock, flags);
++ sdhci_spin_unlock_irqrestore(host, flags);
+
+ return ret;
+ }
+@@ -2785,14 +2940,16 @@
+ host->flags &= ~SDHCI_USE_ADMA;
+ }
+
+- if (host->flags & (SDHCI_USE_SDMA | SDHCI_USE_ADMA)) {
++ if (host->flags & (SDHCI_USE_SDMA | SDHCI_USE_ADMA |
++ SDHCI_USE_PLATDMA)) {
+ if (host->ops->enable_dma) {
+ if (host->ops->enable_dma(host)) {
+ pr_warning("%s: No suitable DMA "
+ "available. Falling back to PIO.\n",
+ mmc_hostname(mmc));
+ host->flags &=
+- ~(SDHCI_USE_SDMA | SDHCI_USE_ADMA);
++ ~(SDHCI_USE_SDMA | SDHCI_USE_ADMA |
++ SDHCI_USE_PLATDMA);
+ }
+ }
+ }
+@@ -3080,6 +3237,12 @@
+ SDHCI_MAX_CURRENT_MULTIPLIER;
+ }
+
++ if(host->ops->voltage_broken) {
++ ocr_avail |= MMC_VDD_32_33 | MMC_VDD_33_34;
++ // Cannot support UHS modes if we are stuck at 3.3V;
++ mmc->caps &= ~(MMC_CAP_UHS_SDR12 | MMC_CAP_UHS_SDR25 | MMC_CAP_UHS_SDR104 | MMC_CAP_UHS_SDR50 | MMC_CAP_UHS_DDR50);
++ }
++
+ mmc->ocr_avail = ocr_avail;
+ mmc->ocr_avail_sdio = ocr_avail;
+ if (host->ocr_avail_sdio)
+@@ -3174,7 +3337,7 @@
+ host->tuning_timer.function = sdhci_tuning_timer;
+ }
+
+- ret = request_irq(host->irq, sdhci_irq, IRQF_SHARED,
++ ret = request_irq(host->irq, sdhci_irq, 0,//IRQF_SHARED,
+ mmc_hostname(mmc), host);
+ if (ret) {
+ pr_err("%s: Failed to request IRQ %d: %d\n",
+@@ -3210,6 +3373,7 @@
+
+ pr_info("%s: SDHCI controller on %s [%s] using %s\n",
+ mmc_hostname(mmc), host->hw_name, dev_name(mmc_dev(mmc)),
++ (host->flags & SDHCI_USE_PLATDMA) ? "platform's DMA" :
+ (host->flags & SDHCI_USE_ADMA) ? "ADMA" :
+ (host->flags & SDHCI_USE_SDMA) ? "DMA" : "PIO");
+
+@@ -3237,7 +3401,7 @@
+ unsigned long flags;
+
+ if (dead) {
+- spin_lock_irqsave(&host->lock, flags);
++ sdhci_spin_lock_irqsave(host, &flags);
+
+ host->flags |= SDHCI_DEVICE_DEAD;
+
+@@ -3249,7 +3413,7 @@
+ tasklet_schedule(&host->finish_tasklet);
+ }
+
+- spin_unlock_irqrestore(&host->lock, flags);
++ sdhci_spin_unlock_irqrestore(host, flags);
+ }
+
+ sdhci_disable_card_detection(host);
+diff -urwN linux-3.10/drivers/mmc/host/sdhci.h linux-rpi-3.10.y/drivers/mmc/host/sdhci.h
+--- linux-3.10/drivers/mmc/host/sdhci.h 2013-06-30 23:13:29.000000000 +0100
++++ linux-rpi-3.10.y/drivers/mmc/host/sdhci.h 2013-07-06 15:25:50.000000000 +0100
+@@ -289,6 +289,20 @@
+ void (*platform_reset_enter)(struct sdhci_host *host, u8 mask);
+ void (*platform_reset_exit)(struct sdhci_host *host, u8 mask);
+ int (*set_uhs_signaling)(struct sdhci_host *host, unsigned int uhs);
++
++ int (*pdma_able)(struct sdhci_host *host,
++ struct mmc_data *data);
++ void (*pdma_avail)(struct sdhci_host *host,
++ unsigned int *ref_intmask,
++ void(*complete)(struct sdhci_host *));
++ void (*pdma_reset)(struct sdhci_host *host,
++ struct mmc_data *data);
++ unsigned int (*extra_ints)(struct sdhci_host *host);
++ unsigned int (*spurious_crc_acmd51)(struct sdhci_host *host);
++ unsigned int (*voltage_broken)(struct sdhci_host *host);
++ unsigned int (*uhs_broken)(struct sdhci_host *host);
++ unsigned int (*missing_status)(struct sdhci_host *host);
++
+ void (*hw_reset)(struct sdhci_host *host);
+ void (*platform_suspend)(struct sdhci_host *host);
+ void (*platform_resume)(struct sdhci_host *host);
+@@ -399,9 +413,38 @@
+ extern void sdhci_enable_irq_wakeups(struct sdhci_host *host);
+ #endif
+
++static inline int /*bool*/
++sdhci_platdma_dmaable(struct sdhci_host *host, struct mmc_data *data)
++{
++ if (host->ops->pdma_able)
++ return host->ops->pdma_able(host, data);
++ else
++ return 1;
++}
++static inline void
++sdhci_platdma_avail(struct sdhci_host *host, unsigned int *ref_intmask,
++ void(*completion_callback)(struct sdhci_host *))
++{
++ if (host->ops->pdma_avail)
++ host->ops->pdma_avail(host, ref_intmask, completion_callback);
++}
++
++static inline void
++sdhci_platdma_reset(struct sdhci_host *host, struct mmc_data *data)
++{
++ if (host->ops->pdma_reset)
++ host->ops->pdma_reset(host, data);
++}
++
+ #ifdef CONFIG_PM_RUNTIME
+ extern int sdhci_runtime_suspend_host(struct sdhci_host *host);
+ extern int sdhci_runtime_resume_host(struct sdhci_host *host);
+ #endif
+
++extern void sdhci_spin_lock_irqsave(struct sdhci_host *host,unsigned long *flags);
++extern void sdhci_spin_unlock_irqrestore(struct sdhci_host *host,unsigned long flags);
++extern void sdhci_spin_lock(struct sdhci_host *host);
++extern void sdhci_spin_unlock(struct sdhci_host *host);
++
++
+ #endif /* __SDHCI_HW_H */
+diff -urN linux-3.10/include/linux/mmc/host.h linux-rpi-3.10.y/include/linux/mmc/host.h
+--- linux-3.10/include/linux/mmc/host.h 2013-06-30 23:13:29.000000000 +0100
++++ linux-rpi-3.10.y/include/linux/mmc/host.h 2013-07-06 15:25:50.000000000 +0100
+@@ -281,6 +281,7 @@
+ #define MMC_CAP2_PACKED_CMD (MMC_CAP2_PACKED_RD | \
+ MMC_CAP2_PACKED_WR)
+ #define MMC_CAP2_NO_PRESCAN_POWERUP (1 << 14) /* Don't power up before scan */
++#define MMC_CAP2_FORCE_MULTIBLOCK (1 << 31) /* Always use multiblock transfers */
+
+ mmc_pm_flag_t pm_caps; /* supported pm features */
+
+diff -urN linux-3.10/include/linux/mmc/sdhci.h linux-rpi-3.10.y/include/linux/mmc/sdhci.h
+--- linux-3.10/include/linux/mmc/sdhci.h 2013-06-30 23:13:29.000000000 +0100
++++ linux-rpi-3.10.y/include/linux/mmc/sdhci.h 2013-07-06 15:25:50.000000000 +0100
+@@ -97,6 +97,7 @@
+ #define SDHCI_QUIRK2_PRESET_VALUE_BROKEN (1<<3)
+
+ int irq; /* Device IRQ */
++ int second_irq; /* Additional IRQ to disable/enable in low-latency mode */
+ void __iomem *ioaddr; /* Mapped address */
+
+ const struct sdhci_ops *ops; /* Low level hw interface */
+@@ -128,6 +129,7 @@
+ #define SDHCI_SDIO_IRQ_ENABLED (1<<9) /* SDIO irq enabled */
+ #define SDHCI_HS200_NEEDS_TUNING (1<<10) /* HS200 needs tuning */
+ #define SDHCI_USING_RETUNING_TIMER (1<<11) /* Host is using a retuning timer for the card */
++#define SDHCI_USE_PLATDMA (1<<12) /* Host uses 3rd party DMA */
+
+ unsigned int version; /* SDHCI spec. version */
+
+@@ -142,6 +144,7 @@
+
+ struct mmc_request *mrq; /* Current request */
+ struct mmc_command *cmd; /* Current command */
++ int last_cmdop; /* Opcode of last cmd sent */
+ struct mmc_data *data; /* Current data request */
+ unsigned int data_early:1; /* Data finished before cmd */
+
diff --git a/target/linux/brcm2708/patches-3.10/015-bcm2708-i2c-driver.patch b/target/linux/brcm2708/patches-3.10/015-bcm2708-i2c-driver.patch
new file mode 100644
index 0000000000..531ae6989e
--- /dev/null
+++ b/target/linux/brcm2708/patches-3.10/015-bcm2708-i2c-driver.patch
@@ -0,0 +1,452 @@
+diff -urN linux-3.10/drivers/i2c/busses/i2c-bcm2708.c linux-rpi-3.10.y/drivers/i2c/busses/i2c-bcm2708.c
+--- linux-3.10/drivers/i2c/busses/i2c-bcm2708.c 1970-01-01 01:00:00.000000000 +0100
++++ linux-rpi-3.10.y/drivers/i2c/busses/i2c-bcm2708.c 2013-07-06 15:25:50.000000000 +0100
+@@ -0,0 +1,408 @@
++/*
++ * Driver for Broadcom BCM2708 BSC Controllers
++ *
++ * Copyright (C) 2012 Chris Boot & Frank Buss
++ *
++ * This driver is inspired by:
++ * i2c-ocores.c, by Peter Korsgaard <jacmet@sunsite.dk>
++ *
++ * This program is free software; you can redistribute it and/or modify
++ * it under the terms of the GNU General Public License as published by
++ * the Free Software Foundation; either version 2 of the License, or
++ * (at your option) any later version.
++ *
++ * This program is distributed in the hope that it will be useful,
++ * but WITHOUT ANY WARRANTY; without even the implied warranty of
++ * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
++ * GNU General Public License for more details.
++ *
++ * You should have received a copy of the GNU General Public License
++ * along with this program; if not, write to the Free Software
++ * Foundation, Inc., 59 Temple Place - Suite 330, Boston, MA 02111-1307, USA.
++ */
++
++#include <linux/kernel.h>
++#include <linux/module.h>
++#include <linux/spinlock.h>
++#include <linux/clk.h>
++#include <linux/err.h>
++#include <linux/platform_device.h>
++#include <linux/io.h>
++#include <linux/slab.h>
++#include <linux/i2c.h>
++#include <linux/interrupt.h>
++#include <linux/sched.h>
++#include <linux/wait.h>
++
++/* BSC register offsets */
++#define BSC_C 0x00
++#define BSC_S 0x04
++#define BSC_DLEN 0x08
++#define BSC_A 0x0c
++#define BSC_FIFO 0x10
++#define BSC_DIV 0x14
++#define BSC_DEL 0x18
++#define BSC_CLKT 0x1c
++
++/* Bitfields in BSC_C */
++#define BSC_C_I2CEN 0x00008000
++#define BSC_C_INTR 0x00000400
++#define BSC_C_INTT 0x00000200
++#define BSC_C_INTD 0x00000100
++#define BSC_C_ST 0x00000080
++#define BSC_C_CLEAR_1 0x00000020
++#define BSC_C_CLEAR_2 0x00000010
++#define BSC_C_READ 0x00000001
++
++/* Bitfields in BSC_S */
++#define BSC_S_CLKT 0x00000200
++#define BSC_S_ERR 0x00000100
++#define BSC_S_RXF 0x00000080
++#define BSC_S_TXE 0x00000040
++#define BSC_S_RXD 0x00000020
++#define BSC_S_TXD 0x00000010
++#define BSC_S_RXR 0x00000008
++#define BSC_S_TXW 0x00000004
++#define BSC_S_DONE 0x00000002
++#define BSC_S_TA 0x00000001
++
++#define I2C_TIMEOUT_MS 150
++
++#define DRV_NAME "bcm2708_i2c"
++
++static unsigned int baudrate = CONFIG_I2C_BCM2708_BAUDRATE;
++module_param(baudrate, uint, S_IRUSR | S_IWUSR | S_IRGRP | S_IWGRP);
++MODULE_PARM_DESC(baudrate, "The I2C baudrate");
++
++
++struct bcm2708_i2c {
++ struct i2c_adapter adapter;
++
++ spinlock_t lock;
++ void __iomem *base;
++ int irq;
++ struct clk *clk;
++
++ struct completion done;
++
++ struct i2c_msg *msg;
++ int pos;
++ int nmsgs;
++ bool error;
++};
++
++/*
++ * This function sets the ALT mode on the I2C pins so that we can use them with
++ * the BSC hardware.
++ *
++ * FIXME: This is a hack. Use pinmux / pinctrl.
++ */
++static void bcm2708_i2c_init_pinmode(int id)
++{
++#define INP_GPIO(g) *(gpio+((g)/10)) &= ~(7<<(((g)%10)*3))
++#define SET_GPIO_ALT(g,a) *(gpio+(((g)/10))) |= (((a)<=3?(a)+4:(a)==4?3:2)<<(((g)%10)*3))
++
++ int pin;
++ u32 *gpio = ioremap(0x20200000, SZ_16K);
++
++ BUG_ON(id != 0 && id != 1);
++ /* BSC0 is on GPIO 0 & 1, BSC1 is on GPIO 2 & 3 */
++ for (pin = id*2+0; pin <= id*2+1; pin++) {
++printk("bcm2708_i2c_init_pinmode(%d,%d)\n", id, pin);
++ INP_GPIO(pin); /* set mode to GPIO input first */
++ SET_GPIO_ALT(pin, 0); /* set mode to ALT 0 */
++ }
++
++ iounmap(gpio);
++
++#undef INP_GPIO
++#undef SET_GPIO_ALT
++}
++
++static inline u32 bcm2708_rd(struct bcm2708_i2c *bi, unsigned reg)
++{
++ return readl(bi->base + reg);
++}
++
++static inline void bcm2708_wr(struct bcm2708_i2c *bi, unsigned reg, u32 val)
++{
++ writel(val, bi->base + reg);
++}
++
++static inline void bcm2708_bsc_reset(struct bcm2708_i2c *bi)
++{
++ bcm2708_wr(bi, BSC_C, 0);
++ bcm2708_wr(bi, BSC_S, BSC_S_CLKT | BSC_S_ERR | BSC_S_DONE);
++}
++
++static inline void bcm2708_bsc_fifo_drain(struct bcm2708_i2c *bi)
++{
++ while ((bcm2708_rd(bi, BSC_S) & BSC_S_RXD) && (bi->pos < bi->msg->len))
++ bi->msg->buf[bi->pos++] = bcm2708_rd(bi, BSC_FIFO);
++}
++
++static inline void bcm2708_bsc_fifo_fill(struct bcm2708_i2c *bi)
++{
++ while ((bcm2708_rd(bi, BSC_S) & BSC_S_TXD) && (bi->pos < bi->msg->len))
++ bcm2708_wr(bi, BSC_FIFO, bi->msg->buf[bi->pos++]);
++}
++
++static inline void bcm2708_bsc_setup(struct bcm2708_i2c *bi)
++{
++ unsigned long bus_hz;
++ u32 cdiv;
++ u32 c = BSC_C_I2CEN | BSC_C_INTD | BSC_C_ST | BSC_C_CLEAR_1;
++
++ bus_hz = clk_get_rate(bi->clk);
++ cdiv = bus_hz / baudrate;
++
++ if (bi->msg->flags & I2C_M_RD)
++ c |= BSC_C_INTR | BSC_C_READ;
++ else
++ c |= BSC_C_INTT;
++
++ bcm2708_wr(bi, BSC_DIV, cdiv);
++ bcm2708_wr(bi, BSC_A, bi->msg->addr);
++ bcm2708_wr(bi, BSC_DLEN, bi->msg->len);
++ bcm2708_wr(bi, BSC_C, c);
++}
++
++static irqreturn_t bcm2708_i2c_interrupt(int irq, void *dev_id)
++{
++ struct bcm2708_i2c *bi = dev_id;
++ bool handled = true;
++ u32 s;
++
++ spin_lock(&bi->lock);
++
++ /* we may see camera interrupts on the "other" I2C channel
++ Just return if we've not sent anything */
++ if (!bi->nmsgs || !bi->msg )
++ goto early_exit;
++
++ s = bcm2708_rd(bi, BSC_S);
++
++ if (s & (BSC_S_CLKT | BSC_S_ERR)) {
++ bcm2708_bsc_reset(bi);
++ bi->error = true;
++
++ /* wake up our bh */
++ complete(&bi->done);
++ } else if (s & BSC_S_DONE) {
++ bi->nmsgs--;
++
++ if (bi->msg->flags & I2C_M_RD)
++ bcm2708_bsc_fifo_drain(bi);
++
++ bcm2708_bsc_reset(bi);
++
++ if (bi->nmsgs) {
++ /* advance to next message */
++ bi->msg++;
++ bi->pos = 0;
++ bcm2708_bsc_setup(bi);
++ } else {
++ /* wake up our bh */
++ complete(&bi->done);
++ }
++ } else if (s & BSC_S_TXW) {
++ bcm2708_bsc_fifo_fill(bi);
++ } else if (s & BSC_S_RXR) {
++ bcm2708_bsc_fifo_drain(bi);
++ } else {
++ handled = false;
++ }
++
++early_exit:
++ spin_unlock(&bi->lock);
++
++ return handled ? IRQ_HANDLED : IRQ_NONE;
++}
++
++static int bcm2708_i2c_master_xfer(struct i2c_adapter *adap,
++ struct i2c_msg *msgs, int num)
++{
++ struct bcm2708_i2c *bi = adap->algo_data;
++ unsigned long flags;
++ int ret;
++
++ spin_lock_irqsave(&bi->lock, flags);
++
++ INIT_COMPLETION(bi->done);
++ bi->msg = msgs;
++ bi->pos = 0;
++ bi->nmsgs = num;
++ bi->error = false;
++
++ spin_unlock_irqrestore(&bi->lock, flags);
++
++ bcm2708_bsc_setup(bi);
++
++ ret = wait_for_completion_timeout(&bi->done,
++ msecs_to_jiffies(I2C_TIMEOUT_MS));
++ if (ret == 0) {
++ dev_err(&adap->dev, "transfer timed out\n");
++ spin_lock_irqsave(&bi->lock, flags);
++ bcm2708_bsc_reset(bi);
++ spin_unlock_irqrestore(&bi->lock, flags);
++ return -ETIMEDOUT;
++ }
++
++ return bi->error ? -EIO : num;
++}
++
++static u32 bcm2708_i2c_functionality(struct i2c_adapter *adap)
++{
++ return I2C_FUNC_I2C | /*I2C_FUNC_10BIT_ADDR |*/ I2C_FUNC_SMBUS_EMUL;
++}
++
++static struct i2c_algorithm bcm2708_i2c_algorithm = {
++ .master_xfer = bcm2708_i2c_master_xfer,
++ .functionality = bcm2708_i2c_functionality,
++};
++
++static int bcm2708_i2c_probe(struct platform_device *pdev)
++{
++ struct resource *regs;
++ int irq, err = -ENOMEM;
++ struct clk *clk;
++ struct bcm2708_i2c *bi;
++ struct i2c_adapter *adap;
++
++ regs = platform_get_resource(pdev, IORESOURCE_MEM, 0);
++ if (!regs) {
++ dev_err(&pdev->dev, "could not get IO memory\n");
++ return -ENXIO;
++ }
++
++ irq = platform_get_irq(pdev, 0);
++ if (irq < 0) {
++ dev_err(&pdev->dev, "could not get IRQ\n");
++ return irq;
++ }
++
++ clk = clk_get(&pdev->dev, NULL);
++ if (IS_ERR(clk)) {
++ dev_err(&pdev->dev, "could not find clk: %ld\n", PTR_ERR(clk));
++ return PTR_ERR(clk);
++ }
++
++ bcm2708_i2c_init_pinmode(pdev->id);
++
++ bi = kzalloc(sizeof(*bi), GFP_KERNEL);
++ if (!bi)
++ goto out_clk_put;
++
++ platform_set_drvdata(pdev, bi);
++
++ adap = &bi->adapter;
++ adap->class = I2C_CLASS_HWMON | I2C_CLASS_DDC;
++ adap->algo = &bcm2708_i2c_algorithm;
++ adap->algo_data = bi;
++ adap->dev.parent = &pdev->dev;
++ adap->nr = pdev->id;
++ strlcpy(adap->name, dev_name(&pdev->dev), sizeof(adap->name));
++
++ switch (pdev->id) {
++ case 0:
++ adap->class = I2C_CLASS_HWMON;
++ break;
++ case 1:
++ adap->class = I2C_CLASS_DDC;
++ break;
++ default:
++ dev_err(&pdev->dev, "can only bind to BSC 0 or 1\n");
++ err = -ENXIO;
++ goto out_free_bi;
++ }
++
++ spin_lock_init(&bi->lock);
++ init_completion(&bi->done);
++
++ bi->base = ioremap(regs->start, resource_size(regs));
++ if (!bi->base) {
++ dev_err(&pdev->dev, "could not remap memory\n");
++ goto out_free_bi;
++ }
++
++ bi->irq = irq;
++ bi->clk = clk;
++
++ err = request_irq(irq, bcm2708_i2c_interrupt, IRQF_SHARED,
++ dev_name(&pdev->dev), bi);
++ if (err) {
++ dev_err(&pdev->dev, "could not request IRQ: %d\n", err);
++ goto out_iounmap;
++ }
++
++ bcm2708_bsc_reset(bi);
++
++ err = i2c_add_numbered_adapter(adap);
++ if (err < 0) {
++ dev_err(&pdev->dev, "could not add I2C adapter: %d\n", err);
++ goto out_free_irq;
++ }
++
++ dev_info(&pdev->dev, "BSC%d Controller at 0x%08lx (irq %d) (baudrate %dk)\n",
++ pdev->id, (unsigned long)regs->start, irq, baudrate/1000);
++
++ return 0;
++
++out_free_irq:
++ free_irq(bi->irq, bi);
++out_iounmap:
++ iounmap(bi->base);
++out_free_bi:
++ kfree(bi);
++out_clk_put:
++ clk_put(clk);
++ return err;
++}
++
++static int bcm2708_i2c_remove(struct platform_device *pdev)
++{
++ struct bcm2708_i2c *bi = platform_get_drvdata(pdev);
++
++ platform_set_drvdata(pdev, NULL);
++
++ i2c_del_adapter(&bi->adapter);
++ free_irq(bi->irq, bi);
++ iounmap(bi->base);
++ clk_disable(bi->clk);
++ clk_put(bi->clk);
++ kfree(bi);
++
++ return 0;
++}
++
++static struct platform_driver bcm2708_i2c_driver = {
++ .driver = {
++ .name = DRV_NAME,
++ .owner = THIS_MODULE,
++ },
++ .probe = bcm2708_i2c_probe,
++ .remove = bcm2708_i2c_remove,
++};
++
++// module_platform_driver(bcm2708_i2c_driver);
++
++
++static int __init bcm2708_i2c_init(void)
++{
++ return platform_driver_register(&bcm2708_i2c_driver);
++}
++
++static void __exit bcm2708_i2c_exit(void)
++{
++ platform_driver_unregister(&bcm2708_i2c_driver);
++}
++
++module_init(bcm2708_i2c_init);
++module_exit(bcm2708_i2c_exit);
++
++
++
++MODULE_DESCRIPTION("BSC controller driver for Broadcom BCM2708");
++MODULE_AUTHOR("Chris Boot <bootc@bootc.net>");
++MODULE_LICENSE("GPL v2");
++MODULE_ALIAS("platform:" DRV_NAME);
+diff -urN linux-3.10/drivers/i2c/busses/Kconfig linux-rpi-3.10.y/drivers/i2c/busses/Kconfig
+--- linux-3.10/drivers/i2c/busses/Kconfig 2013-06-30 23:13:29.000000000 +0100
++++ linux-rpi-3.10.y/drivers/i2c/busses/Kconfig 2013-07-06 15:25:50.000000000 +0100
+@@ -343,6 +343,25 @@
+ This support is also available as a module. If so, the module
+ will be called i2c-bcm2835.
+
++config I2C_BCM2708
++ tristate "BCM2708 BSC"
++ depends on MACH_BCM2708
++ help
++ Enabling this option will add BSC (Broadcom Serial Controller)
++ support for the BCM2708. BSC is a Broadcom proprietary bus compatible
++ with I2C/TWI/SMBus.
++
++config I2C_BCM2708_BAUDRATE
++ prompt "BCM2708 I2C baudrate"
++ depends on I2C_BCM2708
++ int
++ default 100000
++ help
++ Set the I2C baudrate. This will alter the default value. A
++ different baudrate can be set by using a module parameter as well. If
++ no parameter is provided when loading, this is the value that will be
++ used.
++
+ config I2C_BLACKFIN_TWI
+ tristate "Blackfin TWI I2C support"
+ depends on BLACKFIN
+diff -urN linux-3.10/drivers/i2c/busses/Makefile linux-rpi-3.10.y/drivers/i2c/busses/Makefile
+--- linux-3.10/drivers/i2c/busses/Makefile 2013-06-30 23:13:29.000000000 +0100
++++ linux-rpi-3.10.y/drivers/i2c/busses/Makefile 2013-07-06 15:25:50.000000000 +0100
+@@ -32,6 +32,7 @@
+ obj-$(CONFIG_I2C_AT91) += i2c-at91.o
+ obj-$(CONFIG_I2C_AU1550) += i2c-au1550.o
+ obj-$(CONFIG_I2C_BCM2835) += i2c-bcm2835.o
++obj-$(CONFIG_I2C_BCM2708) += i2c-bcm2708.o
+ obj-$(CONFIG_I2C_BLACKFIN_TWI) += i2c-bfin-twi.o
+ obj-$(CONFIG_I2C_CBUS_GPIO) += i2c-cbus-gpio.o
+ obj-$(CONFIG_I2C_CPM) += i2c-cpm.o
diff --git a/target/linux/brcm2708/patches-3.10/016-amba-pl011-fifosize.patch b/target/linux/brcm2708/patches-3.10/016-amba-pl011-fifosize.patch
new file mode 100644
index 0000000000..c994f912aa
--- /dev/null
+++ b/target/linux/brcm2708/patches-3.10/016-amba-pl011-fifosize.patch
@@ -0,0 +1,12 @@
+diff -urN linux-3.10/drivers/tty/serial/amba-pl011.c linux-rpi-3.10.y/drivers/tty/serial/amba-pl011.c
+--- linux-3.10/drivers/tty/serial/amba-pl011.c 2013-06-30 23:13:29.000000000 +0100
++++ linux-rpi-3.10.y/drivers/tty/serial/amba-pl011.c 2013-07-06 15:25:50.000000000 +0100
+@@ -84,7 +84,7 @@
+
+ static unsigned int get_fifosize_arm(unsigned int periphid)
+ {
+- unsigned int rev = (periphid >> 20) & 0xf;
++ unsigned int rev = 0; //(periphid >> 20) & 0xf;
+ return rev < 3 ? 16 : 32;
+ }
+