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authorFelix Fietkau <nbd@openwrt.org>2015-03-19 11:58:43 +0000
committerFelix Fietkau <nbd@openwrt.org>2015-03-19 11:58:43 +0000
commit3581298348ae2a9820d5aefa86a668f2905e7d91 (patch)
tree3cc3a0a0d16c0596f16232bcfa44c8d08bad1fa5 /target/linux/mpc83xx/patches-3.10/120-ucc_tdm.patch
parent5956a3ca1a1582eae132e7377d2cff988aab9915 (diff)
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mpc83xx: moved to targets feed
Signed-off-by: Felix Fietkau <nbd@openwrt.org> SVN-Revision: 44887
Diffstat (limited to 'target/linux/mpc83xx/patches-3.10/120-ucc_tdm.patch')
-rw-r--r--target/linux/mpc83xx/patches-3.10/120-ucc_tdm.patch1307
1 files changed, 0 insertions, 1307 deletions
diff --git a/target/linux/mpc83xx/patches-3.10/120-ucc_tdm.patch b/target/linux/mpc83xx/patches-3.10/120-ucc_tdm.patch
deleted file mode 100644
index f828a40a81..0000000000
--- a/target/linux/mpc83xx/patches-3.10/120-ucc_tdm.patch
+++ /dev/null
@@ -1,1307 +0,0 @@
---- /dev/null
-+++ b/drivers/misc/ucc_tdm.h
-@@ -0,0 +1,221 @@
-+/*
-+ * drivers/misc/ucc_tdm.h
-+ *
-+ * UCC Based Linux TDM Driver
-+ * This driver is designed to support UCC based TDM for PowerPC processors.
-+ * This driver can interface with SLIC device to run VOIP kind of
-+ * applications.
-+ *
-+ * Author: Ashish Kalra & Poonam Aggrwal
-+ *
-+ * Copyright (c) 2007 Freescale Semiconductor, Inc.
-+ *
-+ * 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.
-+ */
-+
-+#ifndef TDM_H
-+#define TDM_H
-+
-+#define NUM_TS 8
-+#define ACTIVE_CH 8
-+
-+/* SAMPLE_DEPTH is the sample depth is the number of frames before
-+ * an interrupt. Must be a multiple of 4
-+ */
-+#define SAMPLE_DEPTH 80
-+
-+/* define the number of Rx interrupts to go by for initial stuttering */
-+#define STUTTER_INT_CNT 1
-+
-+/* BMRx Field Descriptions to specify tstate and rstate in UCC parameter RAM*/
-+#define EN_BUS_SNOOPING 0x20
-+#define BE_BO 0x10
-+
-+/* UPSMR Register for Transparent UCC controller Bit definitions*/
-+#define NBO 0x00000000 /* Normal Mode 1 bit of data per clock */
-+
-+/* SI Mode register bit definitions */
-+#define NORMAL_OPERATION 0x0000
-+#define AUTO_ECHO 0x0400
-+#define INTERNAL_LB 0x0800
-+#define CONTROL_LB 0x0c00
-+#define SIMODE_CRT (0x8000 >> 9)
-+#define SIMODE_SL (0x8000 >> 10)
-+#define SIMODE_CE (0x8000 >> 11)
-+#define SIMODE_FE (0x8000 >> 12)
-+#define SIMODE_GM (0x8000 >> 13)
-+#define SIMODE_TFSD(val) (val)
-+#define SIMODE_RFSD(val) ((val) << 8)
-+
-+#define SI_TDM_MODE_REGISTER_OFFSET 0
-+
-+#define R_CM 0x02000000
-+#define T_CM 0x02000000
-+
-+#define SET_RX_SI_RAM(n, val) \
-+ out_be16((u16 *)&qe_immr->sir.rx[(n)*2], (u16)(val))
-+
-+#define SET_TX_SI_RAM(n, val) \
-+ out_be16((u16 *)&qe_immr->sir.tx[(n)*2], (u16)(val))
-+
-+/* SI RAM entries */
-+#define SIR_LAST 0x0001
-+#define SIR_CNT(n) ((n) << 2)
-+#define SIR_BYTE 0x0002
-+#define SIR_BIT 0x0000
-+#define SIR_IDLE 0
-+#define SIR_UCC(uccx) (((uccx+9)) << 5)
-+
-+/* BRGC Register Bit definitions */
-+#define BRGC_RESET (0x1<<17)
-+#define BRGC_EN (0x1<<16)
-+#define BRGC_EXTC_QE (0x00<<14)
-+#define BRGC_EXTC_CLK3 (0x01<<14)
-+#define BRGC_EXTC_CLK5 (0x01<<15)
-+#define BRGC_EXTC_CLK9 (0x01<<14)
-+#define BRGC_EXTC_CLK11 (0x01<<14)
-+#define BRGC_EXTC_CLK13 (0x01<<14)
-+#define BRGC_EXTC_CLK15 (0x01<<15)
-+#define BRGC_ATB (0x1<<13)
-+#define BRGC_DIV16 (0x1)
-+
-+/* structure representing UCC transparent parameter RAM */
-+struct ucc_transparent_pram {
-+ __be16 riptr;
-+ __be16 tiptr;
-+ __be16 res0;
-+ __be16 mrblr;
-+ __be32 rstate;
-+ __be32 rbase;
-+ __be16 rbdstat;
-+ __be16 rbdlen;
-+ __be32 rdptr;
-+ __be32 tstate;
-+ __be32 tbase;
-+ __be16 tbdstat;
-+ __be16 tbdlen;
-+ __be32 tdptr;
-+ __be32 rbptr;
-+ __be32 tbptr;
-+ __be32 rcrc;
-+ __be32 res1;
-+ __be32 tcrc;
-+ __be32 res2;
-+ __be32 res3;
-+ __be32 c_mask;
-+ __be32 c_pres;
-+ __be16 disfc;
-+ __be16 crcec;
-+ __be32 res4[4];
-+ __be16 ts_tmp;
-+ __be16 tmp_mb;
-+};
-+
-+#define UCC_TRANSPARENT_PRAM_SIZE 0x100
-+
-+struct tdm_cfg {
-+ u8 com_pin; /* Common receive and transmit pins
-+ * 0 = separate pins
-+ * 1 = common pins
-+ */
-+
-+ u8 fr_sync_level; /* SLx bit Frame Sync Polarity
-+ * 0 = L1R/TSYNC active logic "1"
-+ * 1 = L1R/TSYNC active logic "0"
-+ */
-+
-+ u8 clk_edge; /* CEx bit Tx Rx Clock Edge
-+ * 0 = TX data on rising edge of clock
-+ * RX data on falling edge
-+ * 1 = TX data on falling edge of clock
-+ * RX data on rising edge
-+ */
-+
-+ u8 fr_sync_edge; /* FEx bit Frame sync edge
-+ * Determine when the sync pulses are sampled
-+ * 0 = Falling edge
-+ * 1 = Rising edge
-+ */
-+
-+ u8 rx_fr_sync_delay; /* TFSDx/RFSDx bits Frame Sync Delay
-+ * 00 = no bit delay
-+ * 01 = 1 bit delay
-+ * 10 = 2 bit delay
-+ * 11 = 3 bit delay
-+ */
-+
-+ u8 tx_fr_sync_delay; /* TFSDx/RFSDx bits Frame Sync Delay
-+ * 00 = no bit delay
-+ * 01 = 1 bit delay
-+ * 10 = 2 bit delay
-+ * 11 = 3 bit delay
-+ */
-+
-+ u8 active_num_ts; /* Number of active time slots in TDM
-+ * assume same active Rx/Tx time slots
-+ */
-+};
-+
-+struct ucc_tdm_info {
-+ struct ucc_fast_info uf_info;
-+ u32 ucc_busy;
-+};
-+
-+struct tdm_ctrl {
-+ u32 device_busy;
-+ struct device *device;
-+ struct ucc_fast_private *uf_private;
-+ struct ucc_tdm_info *ut_info;
-+ u32 tdm_port; /* port for this tdm:TDMA,TDMB,TDMC,TDMD */
-+ u32 si; /* serial interface: 0 or 1 */
-+ struct ucc_fast __iomem *uf_regs; /* UCC Fast registers */
-+ u16 rx_mask[8]; /* Active Receive channels LSB is ch0 */
-+ u16 tx_mask[8]; /* Active Transmit channels LSB is ch0 */
-+ /* Only channels less than the number of FRAME_SIZE are implemented */
-+ struct tdm_cfg cfg_ctrl; /* Signaling controls configuration */
-+ u8 *tdm_input_data; /* buffer used for Rx by the tdm */
-+ u8 *tdm_output_data; /* buffer used for Tx by the tdm */
-+
-+ dma_addr_t dma_input_addr; /* dma mapped buffer for TDM Rx */
-+ dma_addr_t dma_output_addr; /* dma mapped buffer for TDM Tx */
-+ u16 physical_num_ts; /* physical number of timeslots in the tdm
-+ frame */
-+ u32 phase_rx; /* cycles through 0, 1, 2 */
-+ u32 phase_tx; /* cycles through 0, 1, 2 */
-+ /*
-+ * the following two variables are for dealing with "stutter" problem
-+ * "stutter" period is about 20 frames or so, varies depending active
-+ * channel num depending on the sample depth, the code should let a
-+ * few Rx interrupts go by
-+ */
-+ u32 tdm_icnt;
-+ u32 tdm_flag;
-+ struct ucc_transparent_pram __iomem *ucc_pram;
-+ struct qe_bd __iomem *tx_bd;
-+ struct qe_bd __iomem *rx_bd;
-+ u32 ucc_pram_offset;
-+ u32 tx_bd_offset;
-+ u32 rx_bd_offset;
-+ u32 rx_ucode_buf_offset;
-+ u32 tx_ucode_buf_offset;
-+ bool leg_slic;
-+ wait_queue_head_t wakeup_event;
-+};
-+
-+struct tdm_client {
-+ u32 client_id;
-+ void (*tdm_read)(u32 client_id, short chn_id,
-+ short *pcm_buffer, short len);
-+ void (*tdm_write)(u32 client_id, short chn_id,
-+ short *pcm_buffer, short len);
-+ wait_queue_head_t *wakeup_event;
-+ };
-+
-+#define MAX_PHASE 1
-+#define NR_BUFS 2
-+#define EFF_ACTIVE_CH ACTIVE_CH / 2
-+
-+#endif
---- /dev/null
-+++ b/drivers/misc/ucc_tdm.c
-@@ -0,0 +1,1017 @@
-+/*
-+ * drivers/misc/ucc_tdm.c
-+ *
-+ * UCC Based Linux TDM Driver
-+ * This driver is designed to support UCC based TDM for PowerPC processors.
-+ * This driver can interface with SLIC device to run VOIP kind of
-+ * applications.
-+ *
-+ * Author: Ashish Kalra & Poonam Aggrwal
-+ *
-+ * Copyright (c) 2007 Freescale Semiconductor, Inc.
-+ *
-+ * 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.
-+ */
-+
-+#include <generated/autoconf.h>
-+#include <linux/module.h>
-+#include <linux/sched.h>
-+#include <linux/kernel.h>
-+#include <linux/slab.h>
-+#include <linux/errno.h>
-+#include <linux/types.h>
-+#include <linux/interrupt.h>
-+#include <linux/time.h>
-+#include <linux/skbuff.h>
-+#include <linux/proc_fs.h>
-+#include <linux/delay.h>
-+#include <linux/dma-mapping.h>
-+#include <linux/string.h>
-+#include <linux/irq.h>
-+#include <linux/of_platform.h>
-+#include <linux/io.h>
-+#include <linux/wait.h>
-+#include <linux/timer.h>
-+
-+#include <asm/immap_qe.h>
-+#include <asm/qe.h>
-+#include <asm/ucc.h>
-+#include <asm/ucc_fast.h>
-+#include <asm/ucc_slow.h>
-+
-+#include "ucc_tdm.h"
-+#define DRV_DESC "Freescale QE UCC TDM Driver"
-+#define DRV_NAME "ucc_tdm"
-+
-+
-+/*
-+ * define the following #define if snooping or hardware-based cache coherency
-+ * is disabled on the UCC transparent controller.This flag enables
-+ * software-based cache-coherency support by explicitly flushing data cache
-+ * contents after setting up the TDM output buffer(s) and invalidating the
-+ * data cache contents before the TDM input buffer(s) are read.
-+ */
-+#undef UCC_CACHE_SNOOPING_DISABLED
-+
-+#define MAX_NUM_TDM_DEVICES 8
-+
-+static struct tdm_ctrl *tdm_ctrl[MAX_NUM_TDM_DEVICES];
-+
-+static int num_tdm_devices;
-+static int num_tdm_clients;
-+
-+static struct ucc_tdm_info utdm_primary_info = {
-+ .uf_info = {
-+ .tsa = 1,
-+ .cdp = 1,
-+ .cds = 1,
-+ .ctsp = 1,
-+ .ctss = 1,
-+ .revd = 1,
-+ .urfs = 0x128,
-+ .utfs = 0x128,
-+ .utfet = 0,
-+ .utftt = 0x128,
-+ .ufpt = 256,
-+ .ttx_trx = UCC_FAST_GUMR_TRANSPARENT_TTX_TRX_TRANSPARENT,
-+ .tenc = UCC_FAST_TX_ENCODING_NRZ,
-+ .renc = UCC_FAST_RX_ENCODING_NRZ,
-+ .tcrc = UCC_FAST_16_BIT_CRC,
-+ .synl = UCC_FAST_SYNC_LEN_NOT_USED,
-+ },
-+ .ucc_busy = 0,
-+};
-+
-+static struct ucc_tdm_info utdm_info[8];
-+
-+static void dump_siram(struct tdm_ctrl *tdm_c)
-+{
-+#ifdef DEBUG
-+ int i;
-+ u16 phy_num_ts;
-+
-+ phy_num_ts = tdm_c->physical_num_ts;
-+
-+ pr_debug("SI TxRAM dump\n");
-+ /* each slot entry in SI RAM is of 2 bytes */
-+ for (i = 0; i < phy_num_ts * 2; i++)
-+ pr_debug("%x ", in_8(&qe_immr->sir.tx[i]));
-+ pr_debug("\nSI RxRAM dump\n");
-+ for (i = 0; i < phy_num_ts * 2; i++)
-+ pr_debug("%x ", in_8(&qe_immr->sir.rx[i]));
-+ pr_debug("\n");
-+#endif
-+}
-+
-+static void dump_ucc(struct tdm_ctrl *tdm_c)
-+{
-+#ifdef DEBUG
-+ struct ucc_transparent_pram *ucc_pram;
-+
-+ ucc_pram = tdm_c->ucc_pram;
-+
-+ pr_debug("%s Dumping UCC Registers\n", __FUNCTION__);
-+ ucc_fast_dump_regs(tdm_c->uf_private);
-+ pr_debug("%s Dumping UCC Parameter RAM\n", __FUNCTION__);
-+ pr_debug("rbase = 0x%x\n", in_be32(&ucc_pram->rbase));
-+ pr_debug("rbptr = 0x%x\n", in_be32(&ucc_pram->rbptr));
-+ pr_debug("mrblr = 0x%x\n", in_be16(&ucc_pram->mrblr));
-+ pr_debug("rbdlen = 0x%x\n", in_be16(&ucc_pram->rbdlen));
-+ pr_debug("rbdstat = 0x%x\n", in_be16(&ucc_pram->rbdstat));
-+ pr_debug("rstate = 0x%x\n", in_be32(&ucc_pram->rstate));
-+ pr_debug("rdptr = 0x%x\n", in_be32(&ucc_pram->rdptr));
-+ pr_debug("tbase = 0x%x\n", in_be32(&ucc_pram->tbase));
-+ pr_debug("tbptr = 0x%x\n", in_be32(&ucc_pram->tbptr));
-+ pr_debug("tbdlen = 0x%x\n", in_be16(&ucc_pram->tbdlen));
-+ pr_debug("tbdstat = 0x%x\n", in_be16(&ucc_pram->tbdstat));
-+ pr_debug("tstate = 0x%x\n", in_be32(&ucc_pram->tstate));
-+ pr_debug("tdptr = 0x%x\n", in_be32(&ucc_pram->tdptr));
-+#endif
-+}
-+
-+/*
-+ * For use when a framing bit is not present
-+ * Program current-route SI ram
-+ * Set SIxRAM TDMx
-+ * Entries must be in units of 8.
-+ * SIR_UCC -> Channel Select
-+ * SIR_CNT -> Number of bits or bytes
-+ * SIR_BYTE -> Byte or Bit resolution
-+ * SIR_LAST -> Indicates last entry in SIxRAM
-+ * SIR_IDLE -> The Tx data pin is Tri-stated and the Rx data pin is
-+ * ignored
-+ */
-+static void set_siram(struct tdm_ctrl *tdm_c, enum comm_dir dir)
-+{
-+ const u16 *mask;
-+ u16 temp_mask = 1;
-+ u16 siram_code = 0;
-+ u32 i, j, k;
-+ u32 ucc;
-+ u32 phy_num_ts;
-+
-+ phy_num_ts = tdm_c->physical_num_ts;
-+ ucc = tdm_c->ut_info->uf_info.ucc_num;
-+
-+ if (dir == COMM_DIR_RX)
-+ mask = tdm_c->rx_mask;
-+ else
-+ mask = tdm_c->tx_mask;
-+ k = 0;
-+ j = 0;
-+ for (i = 0; i < phy_num_ts; i++) {
-+ if ((mask[k] & temp_mask) == temp_mask)
-+ siram_code = SIR_UCC(ucc) | SIR_CNT(0) | SIR_BYTE;
-+ else
-+ siram_code = SIR_IDLE | SIR_CNT(0) | SIR_BYTE;
-+ if (dir == COMM_DIR_RX)
-+ out_be16((u16 *)&qe_immr->sir.rx[i * 2], siram_code);
-+ else
-+ out_be16((u16 *)&qe_immr->sir.tx[i * 2], siram_code);
-+ temp_mask = temp_mask << 1;
-+ j++;
-+ if (j >= 16) {
-+ j = 0;
-+ temp_mask = 0x0001;
-+ k++;
-+ }
-+ }
-+ siram_code = siram_code | SIR_LAST;
-+
-+ if (dir == COMM_DIR_RX)
-+ out_be16((u16 *)&qe_immr->sir.rx[(phy_num_ts - 1) * 2],
-+ siram_code);
-+ else
-+ out_be16((u16 *)&qe_immr->sir.tx[(phy_num_ts - 1) * 2],
-+ siram_code);
-+}
-+
-+static void config_si(struct tdm_ctrl *tdm_c)
-+{
-+ u8 rxsyncdelay, txsyncdelay, tdm_port;
-+ u16 sixmr_val = 0;
-+ u32 tdma_mode_off;
-+ u16 *si1_tdm_mode_reg;
-+
-+ tdm_port = tdm_c->tdm_port;
-+
-+ set_siram(tdm_c, COMM_DIR_RX);
-+
-+ set_siram(tdm_c, COMM_DIR_TX);
-+
-+ rxsyncdelay = tdm_c->cfg_ctrl.rx_fr_sync_delay;
-+ txsyncdelay = tdm_c->cfg_ctrl.tx_fr_sync_delay;
-+ if (tdm_c->cfg_ctrl.com_pin)
-+ sixmr_val |= SIMODE_CRT;
-+ if (tdm_c->cfg_ctrl.fr_sync_level == 1)
-+ sixmr_val |= SIMODE_SL;
-+ if (tdm_c->cfg_ctrl.clk_edge == 1)
-+ sixmr_val |= SIMODE_CE;
-+ if (tdm_c->cfg_ctrl.fr_sync_edge == 1)
-+ sixmr_val |= SIMODE_FE;
-+ sixmr_val |= (SIMODE_TFSD(txsyncdelay) | SIMODE_RFSD(rxsyncdelay));
-+
-+ tdma_mode_off = SI_TDM_MODE_REGISTER_OFFSET * tdm_c->tdm_port;
-+
-+ si1_tdm_mode_reg = (u8 *)&qe_immr->si1 + tdma_mode_off;
-+ out_be16(si1_tdm_mode_reg, sixmr_val);
-+
-+ dump_siram(tdm_c);
-+}
-+
-+static int tdm_init(struct tdm_ctrl *tdm_c)
-+{
-+ u32 tdm_port, ucc, act_num_ts;
-+ int ret, i, err;
-+ u32 cecr_subblock;
-+ u32 pram_offset;
-+ u32 rxbdt_offset;
-+ u32 txbdt_offset;
-+ u32 rx_ucode_buf_offset, tx_ucode_buf_offset;
-+ u16 bd_status, bd_len;
-+ enum qe_clock clock;
-+ struct qe_bd __iomem *rx_bd, *tx_bd;
-+
-+ tdm_port = tdm_c->tdm_port;
-+ ucc = tdm_c->ut_info->uf_info.ucc_num;
-+ act_num_ts = tdm_c->cfg_ctrl.active_num_ts;
-+
-+ /*
-+ * TDM Tx and Rx CLKs = 2048 KHz.
-+ */
-+ if (strstr(tdm_c->ut_info->uf_info.tdm_tx_clk, "BRG")) {
-+ clock = qe_clock_source(tdm_c->ut_info->uf_info.tdm_tx_clk);
-+ err = qe_setbrg(clock, 2048000, 1);
-+ if (err < 0) {
-+ printk(KERN_ERR "%s: Failed to set %s\n", __FUNCTION__,
-+ tdm_c->ut_info->uf_info.tdm_tx_clk);
-+ return err;
-+ }
-+ }
-+ if (strstr(tdm_c->ut_info->uf_info.tdm_rx_clk, "BRG")) {
-+ clock = qe_clock_source(tdm_c->ut_info->uf_info.tdm_rx_clk);
-+ err = qe_setbrg(clock, 2048000, 1);
-+ if (err < 0) {
-+ printk(KERN_ERR "%s: Failed to set %s\n", __FUNCTION__,
-+ tdm_c->ut_info->uf_info.tdm_rx_clk);
-+ return err;
-+ }
-+ }
-+ /*
-+ * TDM FSyncs = 4 KHz.
-+ */
-+ if (strstr(tdm_c->ut_info->uf_info.tdm_tx_sync, "BRG")) {
-+ clock = qe_clock_source(tdm_c->ut_info->uf_info.tdm_tx_sync);
-+ err = qe_setbrg(clock, 4000, 1);
-+ if (err < 0) {
-+ printk(KERN_ERR "%s: Failed to set %s\n", __FUNCTION__,
-+ tdm_c->ut_info->uf_info.tdm_tx_sync);
-+ return err;
-+ }
-+ }
-+ if (strstr(tdm_c->ut_info->uf_info.tdm_rx_sync, "BRG")) {
-+ clock = qe_clock_source(tdm_c->ut_info->uf_info.tdm_rx_sync);
-+ err = qe_setbrg(clock, 4000, 1);
-+ if (err < 0) {
-+ printk(KERN_ERR "%s: Failed to set %s\n", __FUNCTION__,
-+ tdm_c->ut_info->uf_info.tdm_rx_sync);
-+ return err;
-+ }
-+ }
-+
-+ tdm_c->ut_info->uf_info.uccm_mask = (u32)
-+ ((UCC_TRANS_UCCE_RXB | UCC_TRANS_UCCE_BSY) << 16);
-+
-+ if (ucc_fast_init(&(tdm_c->ut_info->uf_info), &tdm_c->uf_private)) {
-+ printk(KERN_ERR "%s: Failed to init uccf\n", __FUNCTION__);
-+ return -ENOMEM;
-+ }
-+
-+ ucc_fast_disable(tdm_c->uf_private, COMM_DIR_RX | COMM_DIR_TX);
-+
-+ /* Write to QE CECR, UCCx channel to Stop Transmission */
-+ cecr_subblock = ucc_fast_get_qe_cr_subblock(ucc);
-+ qe_issue_cmd(QE_STOP_TX, cecr_subblock,
-+ (u8) QE_CR_PROTOCOL_UNSPECIFIED, 0);
-+
-+ pram_offset = qe_muram_alloc(UCC_TRANSPARENT_PRAM_SIZE,
-+ ALIGNMENT_OF_UCC_SLOW_PRAM);
-+ if (IS_ERR_VALUE(pram_offset)) {
-+ printk(KERN_ERR "%s: Cannot allocate MURAM memory for"
-+ " transparent UCC\n", __FUNCTION__);
-+ ret = -ENOMEM;
-+ goto pram_alloc_error;
-+ }
-+
-+ cecr_subblock = ucc_fast_get_qe_cr_subblock(ucc);
-+ qe_issue_cmd(QE_ASSIGN_PAGE_TO_DEVICE, cecr_subblock,
-+ QE_CR_PROTOCOL_UNSPECIFIED, pram_offset);
-+
-+ tdm_c->ucc_pram = qe_muram_addr(pram_offset);
-+ tdm_c->ucc_pram_offset = pram_offset;
-+
-+ /*
-+ * zero-out pram, this will also ensure RSTATE, TSTATE are cleared, also
-+ * DISFC & CRCEC counters will be initialized.
-+ */
-+ memset(tdm_c->ucc_pram, 0, sizeof(struct ucc_transparent_pram));
-+
-+ /* rbase, tbase alignment is 8. */
-+ rxbdt_offset = qe_muram_alloc(NR_BUFS * sizeof(struct qe_bd),
-+ QE_ALIGNMENT_OF_BD);
-+ if (IS_ERR_VALUE(rxbdt_offset)) {
-+ printk(KERN_ERR "%s: Cannot allocate MURAM memory for RxBDs\n",
-+ __FUNCTION__);
-+ ret = -ENOMEM;
-+ goto rxbd_alloc_error;
-+ }
-+ txbdt_offset = qe_muram_alloc(NR_BUFS * sizeof(struct qe_bd),
-+ QE_ALIGNMENT_OF_BD);
-+ if (IS_ERR_VALUE(txbdt_offset)) {
-+ printk(KERN_ERR "%s: Cannot allocate MURAM memory for TxBDs\n",
-+ __FUNCTION__);
-+ ret = -ENOMEM;
-+ goto txbd_alloc_error;
-+ }
-+ tdm_c->tx_bd = qe_muram_addr(txbdt_offset);
-+ tdm_c->rx_bd = qe_muram_addr(rxbdt_offset);
-+
-+ tdm_c->tx_bd_offset = txbdt_offset;
-+ tdm_c->rx_bd_offset = rxbdt_offset;
-+
-+ rx_bd = tdm_c->rx_bd;
-+ tx_bd = tdm_c->tx_bd;
-+
-+ out_be32(&tdm_c->ucc_pram->rbase, (u32) immrbar_virt_to_phys(rx_bd));
-+ out_be32(&tdm_c->ucc_pram->tbase, (u32) immrbar_virt_to_phys(tx_bd));
-+
-+ for (i = 0; i < NR_BUFS - 1; i++) {
-+ bd_status = (u16) ((R_E | R_CM | R_I) >> 16);
-+ bd_len = 0;
-+ out_be16(&rx_bd->length, bd_len);
-+ out_be16(&rx_bd->status, bd_status);
-+ out_be32(&rx_bd->buf,
-+ tdm_c->dma_input_addr + i * SAMPLE_DEPTH * act_num_ts);
-+ rx_bd += 1;
-+
-+ bd_status = (u16) ((T_R | T_CM) >> 16);
-+ bd_len = SAMPLE_DEPTH * act_num_ts;
-+ out_be16(&tx_bd->length, bd_len);
-+ out_be16(&tx_bd->status, bd_status);
-+ out_be32(&tx_bd->buf,
-+ tdm_c->dma_output_addr + i * SAMPLE_DEPTH * act_num_ts);
-+ tx_bd += 1;
-+ }
-+
-+ bd_status = (u16) ((R_E | R_CM | R_I | R_W) >> 16);
-+ bd_len = 0;
-+ out_be16(&rx_bd->length, bd_len);
-+ out_be16(&rx_bd->status, bd_status);
-+ out_be32(&rx_bd->buf,
-+ tdm_c->dma_input_addr + i * SAMPLE_DEPTH * act_num_ts);
-+
-+ bd_status = (u16) ((T_R | T_CM | T_W) >> 16);
-+ bd_len = SAMPLE_DEPTH * act_num_ts;
-+ out_be16(&tx_bd->length, bd_len);
-+ out_be16(&tx_bd->status, bd_status);
-+ out_be32(&tx_bd->buf,
-+ tdm_c->dma_output_addr + i * SAMPLE_DEPTH * act_num_ts);
-+
-+ config_si(tdm_c);
-+
-+ setbits32(&qe_immr->ic.qimr, (0x80000000UL >> ucc));
-+
-+ rx_ucode_buf_offset = qe_muram_alloc(32, 32);
-+ if (IS_ERR_VALUE(rx_ucode_buf_offset)) {
-+ printk(KERN_ERR "%s: Cannot allocate MURAM mem for Rx"
-+ " ucode buf\n", __FUNCTION__);
-+ ret = -ENOMEM;
-+ goto rxucode_buf_alloc_error;
-+ }
-+
-+ tx_ucode_buf_offset = qe_muram_alloc(32, 32);
-+ if (IS_ERR_VALUE(tx_ucode_buf_offset)) {
-+ printk(KERN_ERR "%s: Cannot allocate MURAM mem for Tx"
-+ " ucode buf\n", __FUNCTION__);
-+ ret = -ENOMEM;
-+ goto txucode_buf_alloc_error;
-+ }
-+ out_be16(&tdm_c->ucc_pram->riptr, (u16) rx_ucode_buf_offset);
-+ out_be16(&tdm_c->ucc_pram->tiptr, (u16) tx_ucode_buf_offset);
-+
-+ tdm_c->rx_ucode_buf_offset = rx_ucode_buf_offset;
-+ tdm_c->tx_ucode_buf_offset = tx_ucode_buf_offset;
-+
-+ /*
-+ * set the receive buffer descriptor maximum size to be
-+ * SAMPLE_DEPTH * number of active RX channels
-+ */
-+ out_be16(&tdm_c->ucc_pram->mrblr, (u16) SAMPLE_DEPTH * act_num_ts);
-+
-+ /*
-+ * enable snooping and BE byte ordering on the UCC pram's
-+ * tstate & rstate registers.
-+ */
-+ out_be32(&tdm_c->ucc_pram->tstate, 0x30000000UL);
-+ out_be32(&tdm_c->ucc_pram->rstate, 0x30000000UL);
-+
-+ /*Put UCC transparent controller into serial interface mode. */
-+ out_be32(&tdm_c->uf_regs->upsmr, 0);
-+
-+ /* Reset TX and RX for UCCx */
-+ cecr_subblock = ucc_fast_get_qe_cr_subblock(ucc);
-+ qe_issue_cmd(QE_INIT_TX_RX, cecr_subblock,
-+ (u8) QE_CR_PROTOCOL_UNSPECIFIED, 0);
-+
-+ return 0;
-+
-+txucode_buf_alloc_error:
-+ qe_muram_free(rx_ucode_buf_offset);
-+rxucode_buf_alloc_error:
-+ qe_muram_free(txbdt_offset);
-+txbd_alloc_error:
-+ qe_muram_free(rxbdt_offset);
-+rxbd_alloc_error:
-+ qe_muram_free(pram_offset);
-+pram_alloc_error:
-+ ucc_fast_free(tdm_c->uf_private);
-+ return ret;
-+}
-+
-+static void tdm_deinit(struct tdm_ctrl *tdm_c)
-+{
-+ qe_muram_free(tdm_c->rx_ucode_buf_offset);
-+ qe_muram_free(tdm_c->tx_ucode_buf_offset);
-+
-+ if (tdm_c->rx_bd_offset) {
-+ qe_muram_free(tdm_c->rx_bd_offset);
-+ tdm_c->rx_bd = NULL;
-+ tdm_c->rx_bd_offset = 0;
-+ }
-+ if (tdm_c->tx_bd_offset) {
-+ qe_muram_free(tdm_c->tx_bd_offset);
-+ tdm_c->tx_bd = NULL;
-+ tdm_c->tx_bd_offset = 0;
-+ }
-+ if (tdm_c->ucc_pram_offset) {
-+ qe_muram_free(tdm_c->ucc_pram_offset);
-+ tdm_c->ucc_pram = NULL;
-+ tdm_c->ucc_pram_offset = 0;
-+ }
-+}
-+
-+
-+static irqreturn_t tdm_isr(int irq, void *dev_id)
-+{
-+ u8 *input_tdm_buffer, *output_tdm_buffer;
-+ u32 txb, rxb;
-+ u32 ucc;
-+ register u32 ucce = 0;
-+ struct tdm_ctrl *tdm_c;
-+ tdm_c = (struct tdm_ctrl *)dev_id;
-+
-+ tdm_c->tdm_icnt++;
-+ ucc = tdm_c->ut_info->uf_info.ucc_num;
-+ input_tdm_buffer = tdm_c->tdm_input_data;
-+ output_tdm_buffer = tdm_c->tdm_output_data;
-+
-+ if (in_be32(tdm_c->uf_private->p_ucce) &
-+ (UCC_TRANS_UCCE_BSY << 16)) {
-+ out_be32(tdm_c->uf_private->p_ucce,
-+ (UCC_TRANS_UCCE_BSY << 16));
-+ pr_info("%s: From tdm isr busy interrupt\n",
-+ __FUNCTION__);
-+ dump_ucc(tdm_c);
-+
-+ return IRQ_HANDLED;
-+ }
-+
-+ if (tdm_c->tdm_flag == 1) {
-+ /* track phases for Rx/Tx */
-+ tdm_c->phase_rx += 1;
-+ if (tdm_c->phase_rx == MAX_PHASE)
-+ tdm_c->phase_rx = 0;
-+
-+ tdm_c->phase_tx += 1;
-+ if (tdm_c->phase_tx == MAX_PHASE)
-+ tdm_c->phase_tx = 0;
-+
-+#ifdef CONFIG_TDM_HW_LB_TSA_SLIC
-+ {
-+ u32 temp_rx, temp_tx, phase_tx, phase_rx;
-+ int i;
-+ phase_rx = tdm_c->phase_rx;
-+ phase_tx = tdm_c->phase_tx;
-+ if (phase_rx == 0)
-+ phase_rx = MAX_PHASE;
-+ else
-+ phase_rx -= 1;
-+ if (phase_tx == 0)
-+ phase_tx = MAX_PHASE;
-+ else
-+ phase_tx -= 1;
-+ temp_rx = phase_rx * SAMPLE_DEPTH * ACTIVE_CH;
-+ temp_tx = phase_tx * SAMPLE_DEPTH * ACTIVE_CH;
-+
-+ /*check if loopback received data on TS0 is correct. */
-+ pr_debug("%s: check if loopback received data on TS0"
-+ " is correct\n", __FUNCTION__);
-+ pr_debug("%d,%d ", phase_rx, phase_tx);
-+ for (i = 0; i < 8; i++)
-+ pr_debug("%1d,%1d ",
-+ input_tdm_buffer[temp_rx + i],
-+ output_tdm_buffer[temp_tx + i]);
-+ pr_debug("\n");
-+ }
-+#endif
-+
-+ /* schedule BH */
-+ wake_up_interruptible(&tdm_c->wakeup_event);
-+ } else {
-+ if (tdm_c->tdm_icnt == STUTTER_INT_CNT) {
-+ txb = in_be32(&tdm_c->ucc_pram->tbptr) -
-+ in_be32(&tdm_c->ucc_pram->tbase);
-+ rxb = in_be32(&tdm_c->ucc_pram->rbptr) -
-+ in_be32(&tdm_c->ucc_pram->rbase);
-+ tdm_c->phase_tx = txb / sizeof(struct qe_bd);
-+ tdm_c->phase_rx = rxb / sizeof(struct qe_bd);
-+
-+#ifdef CONFIG_TDM_HW_LB_TSA_SLIC
-+ tdm_c->phase_tx = tdm_c->phase_rx;
-+#endif
-+
-+ /* signal "stuttering" period is over */
-+ tdm_c->tdm_flag = 1;
-+
-+ pr_debug("%s: stuttering period is over\n",
-+ __FUNCTION__);
-+
-+ if (in_be32(tdm_c->uf_private->p_ucce) &
-+ (UCC_TRANS_UCCE_TXE << 16)) {
-+ u32 cecr_subblock;
-+ out_be32(tdm_c->uf_private->p_ucce,
-+ (UCC_TRANS_UCCE_TXE << 16));
-+ pr_debug("%s: From tdm isr txe interrupt\n",
-+ __FUNCTION__);
-+
-+ cecr_subblock =
-+ ucc_fast_get_qe_cr_subblock(ucc);
-+ qe_issue_cmd(QE_RESTART_TX, cecr_subblock,
-+ (u8) QE_CR_PROTOCOL_UNSPECIFIED,
-+ 0);
-+ }
-+ }
-+ }
-+
-+ ucce = (in_be32(tdm_c->uf_private->p_ucce)
-+ & in_be32(tdm_c->uf_private->p_uccm));
-+
-+ out_be32(tdm_c->uf_private->p_ucce, ucce);
-+
-+ return IRQ_HANDLED;
-+}
-+
-+static int tdm_start(struct tdm_ctrl *tdm_c)
-+{
-+ if (request_irq(tdm_c->ut_info->uf_info.irq, tdm_isr,
-+ 0, "tdm", tdm_c)) {
-+ printk(KERN_ERR "%s: request_irq for tdm_isr failed\n",
-+ __FUNCTION__);
-+ return -ENODEV;
-+ }
-+
-+ ucc_fast_enable(tdm_c->uf_private, COMM_DIR_RX | COMM_DIR_TX);
-+
-+ pr_info("%s 16-bit linear pcm mode active with"
-+ " slots 0 & 2\n", __FUNCTION__);
-+
-+ dump_siram(tdm_c);
-+ dump_ucc(tdm_c);
-+
-+ setbits8(&(qe_immr->si1.siglmr1_h), (0x1 << tdm_c->tdm_port));
-+ pr_info("%s UCC based TDM enabled\n", __FUNCTION__);
-+
-+ return 0;
-+}
-+
-+static void tdm_stop(struct tdm_ctrl *tdm_c)
-+{
-+ u32 port, si;
-+ u32 ucc;
-+ u32 cecr_subblock;
-+
-+ port = tdm_c->tdm_port;
-+ si = tdm_c->si;
-+ ucc = tdm_c->ut_info->uf_info.ucc_num;
-+ cecr_subblock = ucc_fast_get_qe_cr_subblock(ucc);
-+
-+ qe_issue_cmd(QE_GRACEFUL_STOP_TX, cecr_subblock,
-+ (u8) QE_CR_PROTOCOL_UNSPECIFIED, 0);
-+ qe_issue_cmd(QE_CLOSE_RX_BD, cecr_subblock,
-+ (u8) QE_CR_PROTOCOL_UNSPECIFIED, 0);
-+
-+ clrbits8(&qe_immr->si1.siglmr1_h, (0x1 << port));
-+ ucc_fast_disable(tdm_c->uf_private, COMM_DIR_RX);
-+ ucc_fast_disable(tdm_c->uf_private, COMM_DIR_TX);
-+ free_irq(tdm_c->ut_info->uf_info.irq, tdm_c);
-+}
-+
-+
-+static void config_tdm(struct tdm_ctrl *tdm_c)
-+{
-+ u32 i, j, k;
-+
-+ j = 0;
-+ k = 0;
-+
-+ /* Set Mask Bits */
-+ for (i = 0; i < ACTIVE_CH; i++) {
-+ tdm_c->tx_mask[k] |= (1 << j);
-+ tdm_c->rx_mask[k] |= (1 << j);
-+ j++;
-+ if (j >= 16) {
-+ j = 0;
-+ k++;
-+ }
-+ }
-+ /* physical number of slots in a frame */
-+ tdm_c->physical_num_ts = NUM_TS;
-+
-+ /* common receive and transmit pins */
-+ tdm_c->cfg_ctrl.com_pin = 1;
-+
-+ /* L1R/TSYNC active logic "1" */
-+ tdm_c->cfg_ctrl.fr_sync_level = 0;
-+
-+ /*
-+ * TX data on rising edge of clock
-+ * RX data on falling edge
-+ */
-+ tdm_c->cfg_ctrl.clk_edge = 0;
-+
-+ /* Frame sync sampled on falling edge */
-+ tdm_c->cfg_ctrl.fr_sync_edge = 0;
-+
-+ /* no bit delay */
-+ tdm_c->cfg_ctrl.rx_fr_sync_delay = 0;
-+
-+ /* no bit delay */
-+ tdm_c->cfg_ctrl.tx_fr_sync_delay = 0;
-+
-+#ifndef CONFIG_TDM_HW_LB_TSA_SLIC
-+ if (tdm_c->leg_slic) {
-+ /* Need 1 bit delay for Legrity SLIC */
-+ tdm_c->cfg_ctrl.rx_fr_sync_delay = 1;
-+ tdm_c->cfg_ctrl.tx_fr_sync_delay = 1;
-+ pr_info("%s Delay for Legerity!\n", __FUNCTION__);
-+ }
-+#endif
-+
-+ tdm_c->cfg_ctrl.active_num_ts = ACTIVE_CH;
-+}
-+
-+static void tdm_read(u32 client_id, short chn_id, short *pcm_buffer,
-+ short len)
-+{
-+ int i;
-+ u32 phase_rx;
-+ /* point to where to start for the current phase data processing */
-+ u32 temp_rx;
-+
-+ struct tdm_ctrl *tdm_c = tdm_ctrl[client_id];
-+
-+ u16 *input_tdm_buffer =
-+ (u16 *)tdm_c->tdm_input_data;
-+
-+ phase_rx = tdm_c->phase_rx;
-+ if (phase_rx == 0)
-+ phase_rx = MAX_PHASE;
-+ else
-+ phase_rx -= 1;
-+
-+ temp_rx = phase_rx * SAMPLE_DEPTH * EFF_ACTIVE_CH;
-+
-+#ifdef UCC_CACHE_SNOOPING_DISABLED
-+ flush_dcache_range((size_t) &input_tdm_buffer[temp_rx],
-+ (size_t) &input_tdm_buffer[temp_rx +
-+ SAMPLE_DEPTH * ACTIVE_CH]);
-+#endif
-+ for (i = 0; i < len; i++)
-+ pcm_buffer[i] =
-+ input_tdm_buffer[i * EFF_ACTIVE_CH + temp_rx + chn_id];
-+
-+}
-+
-+static void tdm_write(u32 client_id, short chn_id, short *pcm_buffer,
-+ short len)
-+{
-+ int i;
-+ int phase_tx;
-+ u32 txb;
-+ /* point to where to start for the current phase data processing */
-+ int temp_tx;
-+ struct tdm_ctrl *tdm_c = tdm_ctrl[client_id];
-+
-+ u16 *output_tdm_buffer;
-+ output_tdm_buffer = (u16 *)tdm_c->tdm_output_data;
-+ txb = in_be32(&tdm_c->ucc_pram->tbptr) -
-+ in_be32(&tdm_c->ucc_pram->tbase);
-+ phase_tx = txb / sizeof(struct qe_bd);
-+
-+ if (phase_tx == 0)
-+ phase_tx = MAX_PHASE;
-+ else
-+ phase_tx -= 1;
-+
-+ temp_tx = phase_tx * SAMPLE_DEPTH * EFF_ACTIVE_CH;
-+
-+ for (i = 0; i < len; i++)
-+ output_tdm_buffer[i * EFF_ACTIVE_CH + temp_tx + chn_id] =
-+ pcm_buffer[i];
-+
-+#ifdef UCC_CACHE_SNOOPING_DISABLED
-+ flush_dcache_range((size_t) &output_tdm_buffer[temp_tx],
-+ (size_t) &output_tdm_buffer[temp_tx + SAMPLE_DEPTH *
-+ ACTIVE_CH]);
-+#endif
-+}
-+
-+
-+static int tdm_register_client(struct tdm_client *tdm_client)
-+{
-+ u32 i;
-+ if (num_tdm_clients == num_tdm_devices) {
-+ printk(KERN_ERR "all TDM devices busy\n");
-+ return -EBUSY;
-+ }
-+
-+ for (i = 0; i < num_tdm_devices; i++) {
-+ if (!tdm_ctrl[i]->device_busy) {
-+ tdm_ctrl[i]->device_busy = 1;
-+ break;
-+ }
-+ }
-+ num_tdm_clients++;
-+ tdm_client->client_id = i;
-+ tdm_client->tdm_read = tdm_read;
-+ tdm_client->tdm_write = tdm_write;
-+ tdm_client->wakeup_event =
-+ &(tdm_ctrl[i]->wakeup_event);
-+ return 0;
-+}
-+EXPORT_SYMBOL_GPL(tdm_register_client);
-+
-+static int tdm_deregister_client(struct tdm_client *tdm_client)
-+{
-+ num_tdm_clients--;
-+ tdm_ctrl[tdm_client->client_id]->device_busy = 0;
-+ return 0;
-+}
-+EXPORT_SYMBOL_GPL(tdm_deregister_client);
-+
-+static int ucc_tdm_probe(struct of_device *ofdev,
-+ const struct of_device_id *match)
-+{
-+ struct device_node *np = ofdev->node;
-+ struct resource res;
-+ const unsigned int *prop;
-+ u32 ucc_num, device_num, err, ret = 0;
-+ struct device_node *np_tmp;
-+ dma_addr_t physaddr;
-+ void *tdm_buff;
-+ struct ucc_tdm_info *ut_info;
-+
-+ prop = of_get_property(np, "device-id", NULL);
-+ if (prop == NULL) {
-+ printk(KERN_ERR "ucc_tdm: device-id missing\n");
-+ return -ENODEV;
-+ }
-+
-+ ucc_num = *prop - 1;
-+ if ((ucc_num < 0) || (ucc_num > 7))
-+ return -ENODEV;
-+
-+ ut_info = &utdm_info[ucc_num];
-+ if (ut_info->ucc_busy) {
-+ printk(KERN_ERR "ucc_tdm: UCC in use by another TDM driver"
-+ "instance\n");
-+ return -EBUSY;
-+ }
-+ if (num_tdm_devices == MAX_NUM_TDM_DEVICES) {
-+ printk(KERN_ERR "ucc_tdm: All TDM devices already"
-+ " initialized\n");
-+ return -ENODEV;
-+ }
-+
-+ ut_info->ucc_busy = 1;
-+ tdm_ctrl[num_tdm_devices++] =
-+ kzalloc(sizeof(struct tdm_ctrl), GFP_KERNEL);
-+ if (!tdm_ctrl[num_tdm_devices - 1]) {
-+ printk(KERN_ERR "ucc_tdm: no memory to allocate for"
-+ " tdm control structure\n");
-+ num_tdm_devices--;
-+ return -ENOMEM;
-+ }
-+ device_num = num_tdm_devices - 1;
-+
-+ tdm_ctrl[device_num]->device = &ofdev->dev;
-+ tdm_ctrl[device_num]->ut_info = ut_info;
-+
-+ tdm_ctrl[device_num]->ut_info->uf_info.ucc_num = ucc_num;
-+
-+ prop = of_get_property(np, "fsl,tdm-num", NULL);
-+ if (prop == NULL) {
-+ ret = -EINVAL;
-+ goto get_property_error;
-+ }
-+
-+ tdm_ctrl[device_num]->tdm_port = *prop - 1;
-+
-+ if (tdm_ctrl[device_num]->tdm_port > 3) {
-+ ret = -EINVAL;
-+ goto get_property_error;
-+ }
-+
-+ prop = of_get_property(np, "fsl,si-num", NULL);
-+ if (prop == NULL) {
-+ ret = -EINVAL;
-+ goto get_property_error;
-+ }
-+
-+ tdm_ctrl[device_num]->si = *prop - 1;
-+
-+ tdm_ctrl[device_num]->ut_info->uf_info.tdm_tx_clk =
-+ of_get_property(np, "fsl,tdm-tx-clk", NULL);
-+ if (tdm_ctrl[device_num]->ut_info->uf_info.tdm_tx_clk == NULL) {
-+ ret = -EINVAL;
-+ goto get_property_error;
-+ }
-+
-+ tdm_ctrl[device_num]->ut_info->uf_info.tdm_rx_clk =
-+ of_get_property(np, "fsl,tdm-rx-clk", NULL);
-+ if (tdm_ctrl[device_num]->ut_info->uf_info.tdm_rx_clk == NULL) {
-+ ret = -EINVAL;
-+ goto get_property_error;
-+ }
-+
-+ tdm_ctrl[device_num]->ut_info->uf_info.tdm_tx_sync =
-+ of_get_property(np, "fsl,tdm-tx-sync", NULL);
-+ if (tdm_ctrl[device_num]->ut_info->uf_info.tdm_tx_sync == NULL) {
-+ ret = -EINVAL;
-+ goto get_property_error;
-+ }
-+
-+ tdm_ctrl[device_num]->ut_info->uf_info.tdm_rx_sync =
-+ of_get_property(np, "fsl,tdm-rx-sync", NULL);
-+ if (tdm_ctrl[device_num]->ut_info->uf_info.tdm_rx_sync == NULL) {
-+ ret = -EINVAL;
-+ goto get_property_error;
-+ }
-+
-+ tdm_ctrl[device_num]->ut_info->uf_info.irq =
-+ irq_of_parse_and_map(np, 0);
-+ err = of_address_to_resource(np, 0, &res);
-+ if (err) {
-+ ret = -EINVAL;
-+ goto get_property_error;
-+ }
-+ tdm_ctrl[device_num]->ut_info->uf_info.regs = res.start;
-+ tdm_ctrl[device_num]->uf_regs = of_iomap(np, 0);
-+
-+ np_tmp = NULL;
-+ np_tmp = of_find_compatible_node(np_tmp, "slic", "legerity-slic");
-+ if (np_tmp != NULL) {
-+ tdm_ctrl[device_num]->leg_slic = 1;
-+ of_node_put(np_tmp);
-+ } else
-+ tdm_ctrl[device_num]->leg_slic = 0;
-+
-+ config_tdm(tdm_ctrl[device_num]);
-+
-+ tdm_buff = dma_alloc_coherent(NULL, 2 * NR_BUFS * SAMPLE_DEPTH *
-+ tdm_ctrl[device_num]->cfg_ctrl.active_num_ts,
-+ &physaddr, GFP_KERNEL);
-+ if (!tdm_buff) {
-+ printk(KERN_ERR "ucc-tdm: could not allocate buffer"
-+ "descriptors\n");
-+ ret = -ENOMEM;
-+ goto alloc_error;
-+ }
-+
-+ tdm_ctrl[device_num]->tdm_input_data = tdm_buff;
-+ tdm_ctrl[device_num]->dma_input_addr = physaddr;
-+
-+ tdm_ctrl[device_num]->tdm_output_data = tdm_buff + NR_BUFS *
-+ SAMPLE_DEPTH * tdm_ctrl[device_num]->cfg_ctrl.active_num_ts;
-+ tdm_ctrl[device_num]->dma_output_addr = physaddr + NR_BUFS *
-+ SAMPLE_DEPTH * tdm_ctrl[device_num]->cfg_ctrl.active_num_ts;
-+
-+ init_waitqueue_head(&(tdm_ctrl[device_num]->wakeup_event));
-+
-+ ret = tdm_init(tdm_ctrl[device_num]);
-+ if (ret != 0)
-+ goto tdm_init_error;
-+
-+ ret = tdm_start(tdm_ctrl[device_num]);
-+ if (ret != 0)
-+ goto tdm_start_error;
-+
-+ dev_set_drvdata(&(ofdev->dev), tdm_ctrl[device_num]);
-+
-+ pr_info("%s UCC based tdm module installed\n", __FUNCTION__);
-+ return 0;
-+
-+tdm_start_error:
-+ tdm_deinit(tdm_ctrl[device_num]);
-+tdm_init_error:
-+ dma_free_coherent(NULL, 2 * NR_BUFS * SAMPLE_DEPTH *
-+ tdm_ctrl[device_num]->cfg_ctrl.active_num_ts,
-+ tdm_ctrl[device_num]->tdm_input_data,
-+ tdm_ctrl[device_num]->dma_input_addr);
-+
-+alloc_error:
-+ irq_dispose_mapping(tdm_ctrl[device_num]->ut_info->uf_info.irq);
-+ iounmap(tdm_ctrl[device_num]->uf_regs);
-+
-+get_property_error:
-+ num_tdm_devices--;
-+ kfree(tdm_ctrl[device_num]);
-+ ut_info->ucc_busy = 0;
-+ return ret;
-+}
-+
-+static int ucc_tdm_remove(struct of_device *ofdev)
-+{
-+ struct tdm_ctrl *tdm_c;
-+ struct ucc_tdm_info *ut_info;
-+ u32 ucc_num;
-+
-+ tdm_c = dev_get_drvdata(&(ofdev->dev));
-+ dev_set_drvdata(&(ofdev->dev), NULL);
-+ ucc_num = tdm_c->ut_info->uf_info.ucc_num;
-+ ut_info = &utdm_info[ucc_num];
-+ tdm_stop(tdm_c);
-+ tdm_deinit(tdm_c);
-+
-+ ucc_fast_free(tdm_c->uf_private);
-+
-+ dma_free_coherent(NULL, 2 * NR_BUFS * SAMPLE_DEPTH *
-+ tdm_c->cfg_ctrl.active_num_ts,
-+ tdm_c->tdm_input_data,
-+ tdm_c->dma_input_addr);
-+
-+ irq_dispose_mapping(tdm_c->ut_info->uf_info.irq);
-+ iounmap(tdm_c->uf_regs);
-+
-+ num_tdm_devices--;
-+ kfree(tdm_c);
-+
-+ ut_info->ucc_busy = 0;
-+
-+ pr_info("%s UCC based tdm module uninstalled\n", __FUNCTION__);
-+ return 0;
-+}
-+
-+const struct of_device_id ucc_tdm_match[] = {
-+ { .type = "tdm", .compatible = "fsl,ucc-tdm", },
-+ {},
-+};
-+
-+MODULE_DEVICE_TABLE(of, ucc_tdm_match);
-+
-+static struct of_platform_driver ucc_tdm_driver = {
-+ .name = DRV_NAME,
-+ .match_table = ucc_tdm_match,
-+ .probe = ucc_tdm_probe,
-+ .remove = ucc_tdm_remove,
-+ .driver = {
-+ .name = DRV_NAME,
-+ .owner = THIS_MODULE,
-+ },
-+};
-+
-+static int __init ucc_tdm_init(void)
-+{
-+ u32 i;
-+
-+ pr_info("ucc_tdm: " DRV_DESC "\n");
-+ for (i = 0; i < 8; i++)
-+ memcpy(&(utdm_info[i]), &utdm_primary_info,
-+ sizeof(utdm_primary_info));
-+
-+ return of_register_platform_driver(&ucc_tdm_driver);
-+}
-+
-+static void __exit ucc_tdm_exit(void)
-+{
-+ of_unregister_platform_driver(&ucc_tdm_driver);
-+}
-+
-+module_init(ucc_tdm_init);
-+module_exit(ucc_tdm_exit);
-+MODULE_AUTHOR("Freescale Semiconductor, Inc");
-+MODULE_DESCRIPTION(DRV_DESC);
-+MODULE_LICENSE("GPL");
---- a/drivers/misc/Makefile
-+++ b/drivers/misc/Makefile
-@@ -10,6 +10,7 @@ obj-$(CONFIG_INTEL_MID_PTI) += pti.o
- obj-$(CONFIG_ATMEL_PWM) += atmel_pwm.o
- obj-$(CONFIG_ATMEL_SSC) += atmel-ssc.o
- obj-$(CONFIG_ATMEL_TCLIB) += atmel_tclib.o
-+obj-$(CONFIG_UCC_TDM) += ucc_tdm.o
- obj-$(CONFIG_BMP085) += bmp085.o
- obj-$(CONFIG_BMP085_I2C) += bmp085-i2c.o
- obj-$(CONFIG_BMP085_SPI) += bmp085-spi.o
---- a/drivers/misc/Kconfig
-+++ b/drivers/misc/Kconfig
-@@ -210,6 +210,20 @@ config ATMEL_SSC
-
- If unsure, say N.
-
-+config UCC_TDM
-+ tristate "Freescale UCC TDM Driver"
-+ depends on QUICC_ENGINE && UCC_FAST
-+ default n
-+ help
-+ The TDM driver is for UCC based TDM devices for example, TDM device on
-+ MPC832x RDB. Select it to run PowerVoIP on MPC832x RDB board.
-+ The TDM driver can interface with SLIC kind of devices to transmit
-+ and receive TDM samples. The TDM driver receives Time Division
-+ multiplexed samples(for different channels) from the SLIC device,
-+ demutiplexes them and sends them to the upper layers. At the transmit
-+ end the TDM drivers receives samples for different channels, it
-+ multiplexes them and sends them to the SLIC device.
-+
- config ENCLOSURE_SERVICES
- tristate "Enclosure Services"
- default n
---- a/arch/powerpc/include/asm/ucc_fast.h
-+++ b/arch/powerpc/include/asm/ucc_fast.h
-@@ -150,6 +150,10 @@ struct ucc_fast_info {
- enum ucc_fast_rx_decoding_method renc;
- enum ucc_fast_transparent_tcrc tcrc;
- enum ucc_fast_sync_len synl;
-+ char *tdm_rx_clk;
-+ char *tdm_tx_clk;
-+ char *tdm_rx_sync;
-+ char *tdm_tx_sync;
- };
-
- struct ucc_fast_private {
---- a/arch/powerpc/include/asm/qe.h
-+++ b/arch/powerpc/include/asm/qe.h
-@@ -670,6 +670,14 @@ struct ucc_slow_pram {
- #define UCC_GETH_UCCE_RXF1 0x00000002
- #define UCC_GETH_UCCE_RXF0 0x00000001
-
-+/* Transparent UCC Event Register (UCCE) */
-+#define UCC_TRANS_UCCE_GRA 0x0080
-+#define UCC_TRANS_UCCE_TXE 0x0010
-+#define UCC_TRANS_UCCE_RXF 0x0008
-+#define UCC_TRANS_UCCE_BSY 0x0004
-+#define UCC_TRANS_UCCE_TXB 0x0002
-+#define UCC_TRANS_UCCE_RXB 0x0001
-+
- /* UCC Protocol Specific Mode Register (UPSMR), when used for UART */
- #define UCC_UART_UPSMR_FLC 0x8000
- #define UCC_UART_UPSMR_SL 0x4000