diff options
Diffstat (limited to 'target/linux/layerscape/patches-4.14/710-pfe-eth-support-layerscape.patch')
-rw-r--r-- | target/linux/layerscape/patches-4.14/710-pfe-eth-support-layerscape.patch | 10884 |
1 files changed, 10884 insertions, 0 deletions
diff --git a/target/linux/layerscape/patches-4.14/710-pfe-eth-support-layerscape.patch b/target/linux/layerscape/patches-4.14/710-pfe-eth-support-layerscape.patch new file mode 100644 index 0000000000..ae64527f3d --- /dev/null +++ b/target/linux/layerscape/patches-4.14/710-pfe-eth-support-layerscape.patch @@ -0,0 +1,10884 @@ +From 93febc09be23aa75cbc5bf5e76250c923f4004e5 Mon Sep 17 00:00:00 2001 +From: Biwen Li <biwen.li@nxp.com> +Date: Tue, 30 Oct 2018 18:26:59 +0800 +Subject: [PATCH 16/40] pfe-eth: support layerscape +This is an integrated patch of pfe-eth for layerscape + +Signed-off-by: Akhila Kavi <akhila.kavi@nxp.com> +Signed-off-by: Akhil Goyal <akhil.goyal@nxp.com> +Signed-off-by: Anjaneyulu Jagarlmudi <anji.jagarlmudi@nxp.com> +Signed-off-by: Archana Madhavan <archana.madhavan@nxp.com> +Signed-off-by: Bhaskar Upadhaya <Bhaskar.Upadhaya@nxp.com> +Signed-off-by: Calvin Johnson <calvin.johnson@nxp.com> +Signed-off-by: Gagandeep Singh <g.singh@nxp.com> +Signed-off-by: Guanhua Gao <guanhua.gao@nxp.com> +Signed-off-by: Yangbo Lu <yangbo.lu@nxp.com> +Signed-off-by: Biwen Li <biwen.li@nxp.com> +--- + .../devicetree/bindings/net/fsl_ppfe/pfe.txt | 173 ++ + drivers/staging/fsl_ppfe/Kconfig | 20 + + drivers/staging/fsl_ppfe/Makefile | 19 + + drivers/staging/fsl_ppfe/TODO | 2 + + drivers/staging/fsl_ppfe/include/pfe/cbus.h | 78 + + .../staging/fsl_ppfe/include/pfe/cbus/bmu.h | 55 + + .../fsl_ppfe/include/pfe/cbus/class_csr.h | 289 ++ + .../fsl_ppfe/include/pfe/cbus/emac_mtip.h | 242 ++ + .../staging/fsl_ppfe/include/pfe/cbus/gpi.h | 86 + + .../staging/fsl_ppfe/include/pfe/cbus/hif.h | 100 + + .../fsl_ppfe/include/pfe/cbus/hif_nocpy.h | 50 + + .../fsl_ppfe/include/pfe/cbus/tmu_csr.h | 168 ++ + .../fsl_ppfe/include/pfe/cbus/util_csr.h | 61 + + drivers/staging/fsl_ppfe/include/pfe/pfe.h | 373 +++ + drivers/staging/fsl_ppfe/pfe_ctrl.c | 238 ++ + drivers/staging/fsl_ppfe/pfe_ctrl.h | 112 + + drivers/staging/fsl_ppfe/pfe_debugfs.c | 111 + + drivers/staging/fsl_ppfe/pfe_debugfs.h | 25 + + drivers/staging/fsl_ppfe/pfe_eth.c | 2521 +++++++++++++++++ + drivers/staging/fsl_ppfe/pfe_eth.h | 185 ++ + drivers/staging/fsl_ppfe/pfe_firmware.c | 314 ++ + drivers/staging/fsl_ppfe/pfe_firmware.h | 32 + + drivers/staging/fsl_ppfe/pfe_hal.c | 1528 ++++++++++ + drivers/staging/fsl_ppfe/pfe_hif.c | 1072 +++++++ + drivers/staging/fsl_ppfe/pfe_hif.h | 212 ++ + drivers/staging/fsl_ppfe/pfe_hif_lib.c | 640 +++++ + drivers/staging/fsl_ppfe/pfe_hif_lib.h | 241 ++ + drivers/staging/fsl_ppfe/pfe_hw.c | 176 ++ + drivers/staging/fsl_ppfe/pfe_hw.h | 27 + + .../staging/fsl_ppfe/pfe_ls1012a_platform.c | 385 +++ + drivers/staging/fsl_ppfe/pfe_mod.c | 156 + + drivers/staging/fsl_ppfe/pfe_mod.h | 114 + + drivers/staging/fsl_ppfe/pfe_perfmon.h | 38 + + drivers/staging/fsl_ppfe/pfe_sysfs.c | 818 ++++++ + drivers/staging/fsl_ppfe/pfe_sysfs.h | 29 + + 35 files changed, 10690 insertions(+) + create mode 100644 Documentation/devicetree/bindings/net/fsl_ppfe/pfe.txt + create mode 100644 drivers/staging/fsl_ppfe/Kconfig + create mode 100644 drivers/staging/fsl_ppfe/Makefile + create mode 100644 drivers/staging/fsl_ppfe/TODO + create mode 100644 drivers/staging/fsl_ppfe/include/pfe/cbus.h + create mode 100644 drivers/staging/fsl_ppfe/include/pfe/cbus/bmu.h + create mode 100644 drivers/staging/fsl_ppfe/include/pfe/cbus/class_csr.h + create mode 100644 drivers/staging/fsl_ppfe/include/pfe/cbus/emac_mtip.h + create mode 100644 drivers/staging/fsl_ppfe/include/pfe/cbus/gpi.h + create mode 100644 drivers/staging/fsl_ppfe/include/pfe/cbus/hif.h + create mode 100644 drivers/staging/fsl_ppfe/include/pfe/cbus/hif_nocpy.h + create mode 100644 drivers/staging/fsl_ppfe/include/pfe/cbus/tmu_csr.h + create mode 100644 drivers/staging/fsl_ppfe/include/pfe/cbus/util_csr.h + create mode 100644 drivers/staging/fsl_ppfe/include/pfe/pfe.h + create mode 100644 drivers/staging/fsl_ppfe/pfe_ctrl.c + create mode 100644 drivers/staging/fsl_ppfe/pfe_ctrl.h + create mode 100644 drivers/staging/fsl_ppfe/pfe_debugfs.c + create mode 100644 drivers/staging/fsl_ppfe/pfe_debugfs.h + create mode 100644 drivers/staging/fsl_ppfe/pfe_eth.c + create mode 100644 drivers/staging/fsl_ppfe/pfe_eth.h + create mode 100644 drivers/staging/fsl_ppfe/pfe_firmware.c + create mode 100644 drivers/staging/fsl_ppfe/pfe_firmware.h + create mode 100644 drivers/staging/fsl_ppfe/pfe_hal.c + create mode 100644 drivers/staging/fsl_ppfe/pfe_hif.c + create mode 100644 drivers/staging/fsl_ppfe/pfe_hif.h + create mode 100644 drivers/staging/fsl_ppfe/pfe_hif_lib.c + create mode 100644 drivers/staging/fsl_ppfe/pfe_hif_lib.h + create mode 100644 drivers/staging/fsl_ppfe/pfe_hw.c + create mode 100644 drivers/staging/fsl_ppfe/pfe_hw.h + create mode 100644 drivers/staging/fsl_ppfe/pfe_ls1012a_platform.c + create mode 100644 drivers/staging/fsl_ppfe/pfe_mod.c + create mode 100644 drivers/staging/fsl_ppfe/pfe_mod.h + create mode 100644 drivers/staging/fsl_ppfe/pfe_perfmon.h + create mode 100644 drivers/staging/fsl_ppfe/pfe_sysfs.c + create mode 100644 drivers/staging/fsl_ppfe/pfe_sysfs.h + +--- /dev/null ++++ b/Documentation/devicetree/bindings/net/fsl_ppfe/pfe.txt +@@ -0,0 +1,173 @@ ++============================================================================= ++NXP Programmable Packet Forwarding Engine Device Bindings ++ ++CONTENTS ++ - PFE Node ++ - Ethernet Node ++ ++============================================================================= ++PFE Node ++ ++DESCRIPTION ++ ++PFE Node has all the properties associated with Packet Forwarding Engine block. ++ ++PROPERTIES ++ ++- compatible ++ Usage: required ++ Value type: <stringlist> ++ Definition: Must include "fsl,pfe" ++ ++- reg ++ Usage: required ++ Value type: <prop-encoded-array> ++ Definition: A standard property. ++ Specifies the offset of the following registers: ++ - PFE configuration registers ++ - DDR memory used by PFE ++ ++- fsl,pfe-num-interfaces ++ Usage: required ++ Value type: <u32> ++ Definition: Must be present. Value can be either one or two. ++ ++- interrupts ++ Usage: required ++ Value type: <prop-encoded-array> ++ Definition: Three interrupts are specified in this property. ++ - HIF interrupt ++ - HIF NO COPY interrupt ++ - Wake On LAN interrupt ++ ++- interrupt-names ++ Usage: required ++ Value type: <stringlist> ++ Definition: Following strings are defined for the 3 interrupts. ++ "pfe_hif" - HIF interrupt ++ "pfe_hif_nocpy" - HIF NO COPY interrupt ++ "pfe_wol" - Wake On LAN interrupt ++ ++- memory-region ++ Usage: required ++ Value type: <phandle> ++ Definition: phandle to a node describing reserved memory used by pfe. ++ Refer:- Documentation/devicetree/bindings/reserved-memory/reserved-memory.txt ++ ++- fsl,pfe-scfg ++ Usage: required ++ Value type: <phandle> ++ Definition: phandle for scfg. ++ ++- fsl,rcpm-wakeup ++ Usage: required ++ Value type: <phandle> ++ Definition: phandle for rcpm. ++ ++- clocks ++ Usage: required ++ Value type: <phandle> ++ Definition: phandle for clockgen. ++ ++- clock-names ++ Usage: required ++ Value type: <string> ++ Definition: phandle for clock name. ++ ++EXAMPLE ++ ++pfe: pfe@04000000 { ++ compatible = "fsl,pfe"; ++ reg = <0x0 0x04000000 0x0 0xc00000>, /* AXI 16M */ ++ <0x0 0x83400000 0x0 0xc00000>; /* PFE DDR 12M */ ++ reg-names = "pfe", "pfe-ddr"; ++ fsl,pfe-num-interfaces = <0x2>; ++ interrupts = <0 172 0x4>, /* HIF interrupt */ ++ <0 173 0x4>, /*HIF_NOCPY interrupt */ ++ <0 174 0x4>; /* WoL interrupt */ ++ interrupt-names = "pfe_hif", "pfe_hif_nocpy", "pfe_wol"; ++ memory-region = <&pfe_reserved>; ++ fsl,pfe-scfg = <&scfg 0>; ++ fsl,rcpm-wakeup = <&rcpm 0xf0000020>; ++ clocks = <&clockgen 4 0>; ++ clock-names = "pfe"; ++ ++ status = "okay"; ++ pfe_mac0: ethernet@0 { ++ }; ++ ++ pfe_mac1: ethernet@1 { ++ }; ++}; ++ ++============================================================================= ++Ethernet Node ++ ++DESCRIPTION ++ ++Ethernet Node has all the properties associated with PFE used by platforms to ++connect to PHY: ++ ++PROPERTIES ++ ++- compatible ++ Usage: required ++ Value type: <stringlist> ++ Definition: Must include "fsl,pfe-gemac-port" ++ ++- reg ++ Usage: required ++ Value type: <prop-encoded-array> ++ Definition: A standard property. ++ Specifies the gemacid of the interface. ++ ++- fsl,gemac-bus-id ++ Usage: required ++ Value type: <u32> ++ Definition: Must be present. Value should be the id of the bus ++ connected to gemac. ++ ++- fsl,gemac-phy-id ++ Usage: required ++ Value type: <u32> ++ Definition: Must be present. Value should be the id of the phy ++ connected to gemac. ++ ++- fsl,mdio-mux-val ++ Usage: required ++ Value type: <u32> ++ Definition: Must be present. Value can be either 0 or 2 or 3. ++ This value is used to configure the mux to enable mdio. ++ ++- phy-mode ++ Usage: required ++ Value type: <string> ++ Definition: Must include "sgmii" ++ ++- fsl,pfe-phy-if-flags ++ Usage: required ++ Value type: <u32> ++ Definition: Must be present. Value should be 0 by default. ++ If there is not phy connected, this need to be 1. ++ ++- mdio ++ optional subnode that specifies the mdio bus. This has reg ++ property which is used to enable/disable the mdio bus. ++ ++EXAMPLE ++ ++ethernet@0 { ++ compatible = "fsl,pfe-gemac-port"; ++ #address-cells = <1>; ++ #size-cells = <0>; ++ reg = <0x0>; /* GEM_ID */ ++ fsl,gemac-bus-id = <0x0>; /* BUS_ID */ ++ fsl,gemac-phy-id = <0x2>; /* PHY_ID */ ++ fsl,mdio-mux-val = <0x0>; ++ phy-mode = "sgmii"; ++ fsl,pfe-phy-if-flags = <0x0>; ++ ++ mdio@0 { ++ reg = <0x1>; /* enabled/disabled */ ++ }; ++}; +--- /dev/null ++++ b/drivers/staging/fsl_ppfe/Kconfig +@@ -0,0 +1,20 @@ ++# ++# Freescale Programmable Packet Forwarding Engine driver ++# ++config FSL_PPFE ++ bool "Freescale PPFE Driver" ++ default n ++ ---help--- ++ Freescale LS1012A SoC has a Programmable Packet Forwarding Engine. ++ It provides two high performance ethernet interfaces. ++ This driver initializes, programs and controls the PPFE. ++ Use this driver to enable network connectivity on LS1012A platforms. ++ ++if FSL_PPFE ++ ++config FSL_PPFE_UTIL_DISABLED ++ bool "Disable PPFE UTIL Processor Engine" ++ ---help--- ++ UTIL PE has to be enabled only if required. ++ ++endif # FSL_PPFE +--- /dev/null ++++ b/drivers/staging/fsl_ppfe/Makefile +@@ -0,0 +1,19 @@ ++# ++# Makefile for Freesecale PPFE driver ++# ++ ++ccflags-y += -I$(src)/include -I$(src) ++ ++obj-m += pfe.o ++ ++pfe-y += pfe_mod.o \ ++ pfe_hw.o \ ++ pfe_firmware.o \ ++ pfe_ctrl.o \ ++ pfe_hif.o \ ++ pfe_hif_lib.o\ ++ pfe_eth.o \ ++ pfe_sysfs.o \ ++ pfe_debugfs.o \ ++ pfe_ls1012a_platform.o \ ++ pfe_hal.o +--- /dev/null ++++ b/drivers/staging/fsl_ppfe/TODO +@@ -0,0 +1,2 @@ ++TODO: ++ - provide pfe pe monitoring support +--- /dev/null ++++ b/drivers/staging/fsl_ppfe/include/pfe/cbus.h +@@ -0,0 +1,78 @@ ++/* ++ * Copyright 2015-2016 Freescale Semiconductor, Inc. ++ * Copyright 2017 NXP ++ * ++ * 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, see <http://www.gnu.org/licenses/>. ++ */ ++ ++#ifndef _CBUS_H_ ++#define _CBUS_H_ ++ ++#define EMAC1_BASE_ADDR (CBUS_BASE_ADDR + 0x200000) ++#define EGPI1_BASE_ADDR (CBUS_BASE_ADDR + 0x210000) ++#define EMAC2_BASE_ADDR (CBUS_BASE_ADDR + 0x220000) ++#define EGPI2_BASE_ADDR (CBUS_BASE_ADDR + 0x230000) ++#define BMU1_BASE_ADDR (CBUS_BASE_ADDR + 0x240000) ++#define BMU2_BASE_ADDR (CBUS_BASE_ADDR + 0x250000) ++#define ARB_BASE_ADDR (CBUS_BASE_ADDR + 0x260000) ++#define DDR_CONFIG_BASE_ADDR (CBUS_BASE_ADDR + 0x270000) ++#define HIF_BASE_ADDR (CBUS_BASE_ADDR + 0x280000) ++#define HGPI_BASE_ADDR (CBUS_BASE_ADDR + 0x290000) ++#define LMEM_BASE_ADDR (CBUS_BASE_ADDR + 0x300000) ++#define LMEM_SIZE 0x10000 ++#define LMEM_END (LMEM_BASE_ADDR + LMEM_SIZE) ++#define TMU_CSR_BASE_ADDR (CBUS_BASE_ADDR + 0x310000) ++#define CLASS_CSR_BASE_ADDR (CBUS_BASE_ADDR + 0x320000) ++#define HIF_NOCPY_BASE_ADDR (CBUS_BASE_ADDR + 0x350000) ++#define UTIL_CSR_BASE_ADDR (CBUS_BASE_ADDR + 0x360000) ++#define CBUS_GPT_BASE_ADDR (CBUS_BASE_ADDR + 0x370000) ++ ++/* ++ * defgroup XXX_MEM_ACCESS_ADDR PE memory access through CSR ++ * XXX_MEM_ACCESS_ADDR register bit definitions. ++ */ ++#define PE_MEM_ACCESS_WRITE BIT(31) /* Internal Memory Write. */ ++#define PE_MEM_ACCESS_IMEM BIT(15) ++#define PE_MEM_ACCESS_DMEM BIT(16) ++ ++/* Byte Enables of the Internal memory access. These are interpred in BE */ ++#define PE_MEM_ACCESS_BYTE_ENABLE(offset, size) \ ++ ({ typeof(size) size_ = (size); \ ++ (((BIT(size_) - 1) << (4 - (offset) - (size_))) & 0xf) << 24; }) ++ ++#include "cbus/emac_mtip.h" ++#include "cbus/gpi.h" ++#include "cbus/bmu.h" ++#include "cbus/hif.h" ++#include "cbus/tmu_csr.h" ++#include "cbus/class_csr.h" ++#include "cbus/hif_nocpy.h" ++#include "cbus/util_csr.h" ++ ++/* PFE cores states */ ++#define CORE_DISABLE 0x00000000 ++#define CORE_ENABLE 0x00000001 ++#define CORE_SW_RESET 0x00000002 ++ ++/* LMEM defines */ ++#define LMEM_HDR_SIZE 0x0010 ++#define LMEM_BUF_SIZE_LN2 0x7 ++#define LMEM_BUF_SIZE BIT(LMEM_BUF_SIZE_LN2) ++ ++/* DDR defines */ ++#define DDR_HDR_SIZE 0x0100 ++#define DDR_BUF_SIZE_LN2 0xb ++#define DDR_BUF_SIZE BIT(DDR_BUF_SIZE_LN2) ++ ++#endif /* _CBUS_H_ */ +--- /dev/null ++++ b/drivers/staging/fsl_ppfe/include/pfe/cbus/bmu.h +@@ -0,0 +1,55 @@ ++/* ++ * Copyright 2015-2016 Freescale Semiconductor, Inc. ++ * Copyright 2017 NXP ++ * ++ * 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, see <http://www.gnu.org/licenses/>. ++ */ ++ ++#ifndef _BMU_H_ ++#define _BMU_H_ ++ ++#define BMU_VERSION 0x000 ++#define BMU_CTRL 0x004 ++#define BMU_UCAST_CONFIG 0x008 ++#define BMU_UCAST_BASE_ADDR 0x00c ++#define BMU_BUF_SIZE 0x010 ++#define BMU_BUF_CNT 0x014 ++#define BMU_THRES 0x018 ++#define BMU_INT_SRC 0x020 ++#define BMU_INT_ENABLE 0x024 ++#define BMU_ALLOC_CTRL 0x030 ++#define BMU_FREE_CTRL 0x034 ++#define BMU_FREE_ERR_ADDR 0x038 ++#define BMU_CURR_BUF_CNT 0x03c ++#define BMU_MCAST_CNT 0x040 ++#define BMU_MCAST_ALLOC_CTRL 0x044 ++#define BMU_REM_BUF_CNT 0x048 ++#define BMU_LOW_WATERMARK 0x050 ++#define BMU_HIGH_WATERMARK 0x054 ++#define BMU_INT_MEM_ACCESS 0x100 ++ ++struct BMU_CFG { ++ unsigned long baseaddr; ++ u32 count; ++ u32 size; ++ u32 low_watermark; ++ u32 high_watermark; ++}; ++ ++#define BMU1_BUF_SIZE LMEM_BUF_SIZE_LN2 ++#define BMU2_BUF_SIZE DDR_BUF_SIZE_LN2 ++ ++#define BMU2_MCAST_ALLOC_CTRL (BMU2_BASE_ADDR + BMU_MCAST_ALLOC_CTRL) ++ ++#endif /* _BMU_H_ */ +--- /dev/null ++++ b/drivers/staging/fsl_ppfe/include/pfe/cbus/class_csr.h +@@ -0,0 +1,289 @@ ++/* ++ * Copyright 2015-2016 Freescale Semiconductor, Inc. ++ * Copyright 2017 NXP ++ * ++ * 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, see <http://www.gnu.org/licenses/>. ++ */ ++ ++#ifndef _CLASS_CSR_H_ ++#define _CLASS_CSR_H_ ++ ++/* @file class_csr.h. ++ * class_csr - block containing all the classifier control and status register. ++ * Mapped on CBUS and accessible from all PE's and ARM. ++ */ ++#define CLASS_VERSION (CLASS_CSR_BASE_ADDR + 0x000) ++#define CLASS_TX_CTRL (CLASS_CSR_BASE_ADDR + 0x004) ++#define CLASS_INQ_PKTPTR (CLASS_CSR_BASE_ADDR + 0x010) ++ ++/* (ddr_hdr_size[24:16], lmem_hdr_size[5:0]) */ ++#define CLASS_HDR_SIZE (CLASS_CSR_BASE_ADDR + 0x014) ++ ++/* LMEM header size for the Classifier block.\ Data in the LMEM ++ * is written from this offset. ++ */ ++#define CLASS_HDR_SIZE_LMEM(off) ((off) & 0x3f) ++ ++/* DDR header size for the Classifier block.\ Data in the DDR ++ * is written from this offset. ++ */ ++#define CLASS_HDR_SIZE_DDR(off) (((off) & 0x1ff) << 16) ++ ++#define CLASS_PE0_QB_DM_ADDR0 (CLASS_CSR_BASE_ADDR + 0x020) ++ ++/* DMEM address of first [15:0] and second [31:16] buffers on QB side. */ ++#define CLASS_PE0_QB_DM_ADDR1 (CLASS_CSR_BASE_ADDR + 0x024) ++ ++/* DMEM address of third [15:0] and fourth [31:16] buffers on QB side. */ ++#define CLASS_PE0_RO_DM_ADDR0 (CLASS_CSR_BASE_ADDR + 0x060) ++ ++/* DMEM address of first [15:0] and second [31:16] buffers on RO side. */ ++#define CLASS_PE0_RO_DM_ADDR1 (CLASS_CSR_BASE_ADDR + 0x064) ++ ++/* DMEM address of third [15:0] and fourth [31:16] buffers on RO side. */ ++ ++/* @name Class PE memory access. Allows external PE's and HOST to ++ * read/write PMEM/DMEM memory ranges for each classifier PE. ++ */ ++/* {sr_pe_mem_cmd[31], csr_pe_mem_wren[27:24], csr_pe_mem_addr[23:0]}, ++ * See \ref XXX_MEM_ACCESS_ADDR for details. ++ */ ++#define CLASS_MEM_ACCESS_ADDR (CLASS_CSR_BASE_ADDR + 0x100) ++ ++/* Internal Memory Access Write Data [31:0] */ ++#define CLASS_MEM_ACCESS_WDATA (CLASS_CSR_BASE_ADDR + 0x104) ++ ++/* Internal Memory Access Read Data [31:0] */ ++#define CLASS_MEM_ACCESS_RDATA (CLASS_CSR_BASE_ADDR + 0x108) ++#define CLASS_TM_INQ_ADDR (CLASS_CSR_BASE_ADDR + 0x114) ++#define CLASS_PE_STATUS (CLASS_CSR_BASE_ADDR + 0x118) ++ ++#define CLASS_PHY1_RX_PKTS (CLASS_CSR_BASE_ADDR + 0x11c) ++#define CLASS_PHY1_TX_PKTS (CLASS_CSR_BASE_ADDR + 0x120) ++#define CLASS_PHY1_LP_FAIL_PKTS (CLASS_CSR_BASE_ADDR + 0x124) ++#define CLASS_PHY1_INTF_FAIL_PKTS (CLASS_CSR_BASE_ADDR + 0x128) ++#define CLASS_PHY1_INTF_MATCH_PKTS (CLASS_CSR_BASE_ADDR + 0x12c) ++#define CLASS_PHY1_L3_FAIL_PKTS (CLASS_CSR_BASE_ADDR + 0x130) ++#define CLASS_PHY1_V4_PKTS (CLASS_CSR_BASE_ADDR + 0x134) ++#define CLASS_PHY1_V6_PKTS (CLASS_CSR_BASE_ADDR + 0x138) ++#define CLASS_PHY1_CHKSUM_ERR_PKTS (CLASS_CSR_BASE_ADDR + 0x13c) ++#define CLASS_PHY1_TTL_ERR_PKTS (CLASS_CSR_BASE_ADDR + 0x140) ++#define CLASS_PHY2_RX_PKTS (CLASS_CSR_BASE_ADDR + 0x144) ++#define CLASS_PHY2_TX_PKTS (CLASS_CSR_BASE_ADDR + 0x148) ++#define CLASS_PHY2_LP_FAIL_PKTS (CLASS_CSR_BASE_ADDR + 0x14c) ++#define CLASS_PHY2_INTF_FAIL_PKTS (CLASS_CSR_BASE_ADDR + 0x150) ++#define CLASS_PHY2_INTF_MATCH_PKTS (CLASS_CSR_BASE_ADDR + 0x154) ++#define CLASS_PHY2_L3_FAIL_PKTS (CLASS_CSR_BASE_ADDR + 0x158) ++#define CLASS_PHY2_V4_PKTS (CLASS_CSR_BASE_ADDR + 0x15c) ++#define CLASS_PHY2_V6_PKTS (CLASS_CSR_BASE_ADDR + 0x160) ++#define CLASS_PHY2_CHKSUM_ERR_PKTS (CLASS_CSR_BASE_ADDR + 0x164) ++#define CLASS_PHY2_TTL_ERR_PKTS (CLASS_CSR_BASE_ADDR + 0x168) ++#define CLASS_PHY3_RX_PKTS (CLASS_CSR_BASE_ADDR + 0x16c) ++#define CLASS_PHY3_TX_PKTS (CLASS_CSR_BASE_ADDR + 0x170) ++#define CLASS_PHY3_LP_FAIL_PKTS (CLASS_CSR_BASE_ADDR + 0x174) ++#define CLASS_PHY3_INTF_FAIL_PKTS (CLASS_CSR_BASE_ADDR + 0x178) ++#define CLASS_PHY3_INTF_MATCH_PKTS (CLASS_CSR_BASE_ADDR + 0x17c) ++#define CLASS_PHY3_L3_FAIL_PKTS (CLASS_CSR_BASE_ADDR + 0x180) ++#define CLASS_PHY3_V4_PKTS (CLASS_CSR_BASE_ADDR + 0x184) ++#define CLASS_PHY3_V6_PKTS (CLASS_CSR_BASE_ADDR + 0x188) ++#define CLASS_PHY3_CHKSUM_ERR_PKTS (CLASS_CSR_BASE_ADDR + 0x18c) ++#define CLASS_PHY3_TTL_ERR_PKTS (CLASS_CSR_BASE_ADDR + 0x190) ++#define CLASS_PHY1_ICMP_PKTS (CLASS_CSR_BASE_ADDR + 0x194) ++#define CLASS_PHY1_IGMP_PKTS (CLASS_CSR_BASE_ADDR + 0x198) ++#define CLASS_PHY1_TCP_PKTS (CLASS_CSR_BASE_ADDR + 0x19c) ++#define CLASS_PHY1_UDP_PKTS (CLASS_CSR_BASE_ADDR + 0x1a0) ++#define CLASS_PHY2_ICMP_PKTS (CLASS_CSR_BASE_ADDR + 0x1a4) ++#define CLASS_PHY2_IGMP_PKTS (CLASS_CSR_BASE_ADDR + 0x1a8) ++#define CLASS_PHY2_TCP_PKTS (CLASS_CSR_BASE_ADDR + 0x1ac) ++#define CLASS_PHY2_UDP_PKTS (CLASS_CSR_BASE_ADDR + 0x1b0) ++#define CLASS_PHY3_ICMP_PKTS (CLASS_CSR_BASE_ADDR + 0x1b4) ++#define CLASS_PHY3_IGMP_PKTS (CLASS_CSR_BASE_ADDR + 0x1b8) ++#define CLASS_PHY3_TCP_PKTS (CLASS_CSR_BASE_ADDR + 0x1bc) ++#define CLASS_PHY3_UDP_PKTS (CLASS_CSR_BASE_ADDR + 0x1c0) ++#define CLASS_PHY4_ICMP_PKTS (CLASS_CSR_BASE_ADDR + 0x1c4) ++#define CLASS_PHY4_IGMP_PKTS (CLASS_CSR_BASE_ADDR + 0x1c8) ++#define CLASS_PHY4_TCP_PKTS (CLASS_CSR_BASE_ADDR + 0x1cc) ++#define CLASS_PHY4_UDP_PKTS (CLASS_CSR_BASE_ADDR + 0x1d0) ++#define CLASS_PHY4_RX_PKTS (CLASS_CSR_BASE_ADDR + 0x1d4) ++#define CLASS_PHY4_TX_PKTS (CLASS_CSR_BASE_ADDR + 0x1d8) ++#define CLASS_PHY4_LP_FAIL_PKTS (CLASS_CSR_BASE_ADDR + 0x1dc) ++#define CLASS_PHY4_INTF_FAIL_PKTS (CLASS_CSR_BASE_ADDR + 0x1e0) ++#define CLASS_PHY4_INTF_MATCH_PKTS (CLASS_CSR_BASE_ADDR + 0x1e4) ++#define CLASS_PHY4_L3_FAIL_PKTS (CLASS_CSR_BASE_ADDR + 0x1e8) ++#define CLASS_PHY4_V4_PKTS (CLASS_CSR_BASE_ADDR + 0x1ec) ++#define CLASS_PHY4_V6_PKTS (CLASS_CSR_BASE_ADDR + 0x1f0) ++#define CLASS_PHY4_CHKSUM_ERR_PKTS (CLASS_CSR_BASE_ADDR + 0x1f4) ++#define CLASS_PHY4_TTL_ERR_PKTS (CLASS_CSR_BASE_ADDR + 0x1f8) ++ ++#define CLASS_PE_SYS_CLK_RATIO (CLASS_CSR_BASE_ADDR + 0x200) ++#define CLASS_AFULL_THRES (CLASS_CSR_BASE_ADDR + 0x204) ++#define CLASS_GAP_BETWEEN_READS (CLASS_CSR_BASE_ADDR + 0x208) ++#define CLASS_MAX_BUF_CNT (CLASS_CSR_BASE_ADDR + 0x20c) ++#define CLASS_TSQ_FIFO_THRES (CLASS_CSR_BASE_ADDR + 0x210) ++#define CLASS_TSQ_MAX_CNT (CLASS_CSR_BASE_ADDR + 0x214) ++#define CLASS_IRAM_DATA_0 (CLASS_CSR_BASE_ADDR + 0x218) ++#define CLASS_IRAM_DATA_1 (CLASS_CSR_BASE_ADDR + 0x21c) ++#define CLASS_IRAM_DATA_2 (CLASS_CSR_BASE_ADDR + 0x220) ++#define CLASS_IRAM_DATA_3 (CLASS_CSR_BASE_ADDR + 0x224) ++ ++#define CLASS_BUS_ACCESS_ADDR (CLASS_CSR_BASE_ADDR + 0x228) ++ ++#define CLASS_BUS_ACCESS_WDATA (CLASS_CSR_BASE_ADDR + 0x22c) ++#define CLASS_BUS_ACCESS_RDATA (CLASS_CSR_BASE_ADDR + 0x230) ++ ++/* (route_entry_size[9:0], route_hash_size[23:16] ++ * (this is actually ln2(size))) ++ */ ++#define CLASS_ROUTE_HASH_ENTRY_SIZE (CLASS_CSR_BASE_ADDR + 0x234) ++ ++#define CLASS_ROUTE_ENTRY_SIZE(size) ((size) & 0x1ff) ++#define CLASS_ROUTE_HASH_SIZE(hash_bits) (((hash_bits) & 0xff) << 16) ++ ++#define CLASS_ROUTE_TABLE_BASE (CLASS_CSR_BASE_ADDR + 0x238) ++ ++#define CLASS_ROUTE_MULTI (CLASS_CSR_BASE_ADDR + 0x23c) ++#define CLASS_SMEM_OFFSET (CLASS_CSR_BASE_ADDR + 0x240) ++#define CLASS_LMEM_BUF_SIZE (CLASS_CSR_BASE_ADDR + 0x244) ++#define CLASS_VLAN_ID (CLASS_CSR_BASE_ADDR + 0x248) ++#define CLASS_BMU1_BUF_FREE (CLASS_CSR_BASE_ADDR + 0x24c) ++#define CLASS_USE_TMU_INQ (CLASS_CSR_BASE_ADDR + 0x250) ++#define CLASS_VLAN_ID1 (CLASS_CSR_BASE_ADDR + 0x254) ++ ++#define CLASS_BUS_ACCESS_BASE (CLASS_CSR_BASE_ADDR + 0x258) ++#define CLASS_BUS_ACCESS_BASE_MASK (0xFF000000) ++/* bit 31:24 of PE peripheral address are stored in CLASS_BUS_ACCESS_BASE */ ++ ++#define CLASS_HIF_PARSE (CLASS_CSR_BASE_ADDR + 0x25c) ++ ++#define CLASS_HOST_PE0_GP (CLASS_CSR_BASE_ADDR + 0x260) ++#define CLASS_PE0_GP (CLASS_CSR_BASE_ADDR + 0x264) ++#define CLASS_HOST_PE1_GP (CLASS_CSR_BASE_ADDR + 0x268) ++#define CLASS_PE1_GP (CLASS_CSR_BASE_ADDR + 0x26c) ++#define CLASS_HOST_PE2_GP (CLASS_CSR_BASE_ADDR + 0x270) ++#define CLASS_PE2_GP (CLASS_CSR_BASE_ADDR + 0x274) ++#define CLASS_HOST_PE3_GP (CLASS_CSR_BASE_ADDR + 0x278) ++#define CLASS_PE3_GP (CLASS_CSR_BASE_ADDR + 0x27c) ++#define CLASS_HOST_PE4_GP (CLASS_CSR_BASE_ADDR + 0x280) ++#define CLASS_PE4_GP (CLASS_CSR_BASE_ADDR + 0x284) ++#define CLASS_HOST_PE5_GP (CLASS_CSR_BASE_ADDR + 0x288) ++#define CLASS_PE5_GP (CLASS_CSR_BASE_ADDR + 0x28c) ++ ++#define CLASS_PE_INT_SRC (CLASS_CSR_BASE_ADDR + 0x290) ++#define CLASS_PE_INT_ENABLE (CLASS_CSR_BASE_ADDR + 0x294) ++ ++#define CLASS_TPID0_TPID1 (CLASS_CSR_BASE_ADDR + 0x298) ++#define CLASS_TPID2 (CLASS_CSR_BASE_ADDR + 0x29c) ++ ++#define CLASS_L4_CHKSUM_ADDR (CLASS_CSR_BASE_ADDR + 0x2a0) ++ ++#define CLASS_PE0_DEBUG (CLASS_CSR_BASE_ADDR + 0x2a4) ++#define CLASS_PE1_DEBUG (CLASS_CSR_BASE_ADDR + 0x2a8) ++#define CLASS_PE2_DEBUG (CLASS_CSR_BASE_ADDR + 0x2ac) ++#define CLASS_PE3_DEBUG (CLASS_CSR_BASE_ADDR + 0x2b0) ++#define CLASS_PE4_DEBUG (CLASS_CSR_BASE_ADDR + 0x2b4) ++#define CLASS_PE5_DEBUG (CLASS_CSR_BASE_ADDR + 0x2b8) ++ ++#define CLASS_STATE (CLASS_CSR_BASE_ADDR + 0x2bc) ++ ++/* CLASS defines */ ++#define CLASS_PBUF_SIZE 0x100 /* Fixed by hardware */ ++#define CLASS_PBUF_HEADER_OFFSET 0x80 /* Can be configured */ ++ ++/* Can be configured */ ++#define CLASS_PBUF0_BASE_ADDR 0x000 ++/* Can be configured */ ++#define CLASS_PBUF1_BASE_ADDR (CLASS_PBUF0_BASE_ADDR + CLASS_PBUF_SIZE) ++/* Can be configured */ ++#define CLASS_PBUF2_BASE_ADDR (CLASS_PBUF1_BASE_ADDR + CLASS_PBUF_SIZE) ++/* Can be configured */ ++#define CLASS_PBUF3_BASE_ADDR (CLASS_PBUF2_BASE_ADDR + CLASS_PBUF_SIZE) ++ ++#define CLASS_PBUF0_HEADER_BASE_ADDR (CLASS_PBUF0_BASE_ADDR + \ ++ CLASS_PBUF_HEADER_OFFSET) ++#define CLASS_PBUF1_HEADER_BASE_ADDR (CLASS_PBUF1_BASE_ADDR + \ ++ CLASS_PBUF_HEADER_OFFSET) ++#define CLASS_PBUF2_HEADER_BASE_ADDR (CLASS_PBUF2_BASE_ADDR + \ ++ CLASS_PBUF_HEADER_OFFSET) ++#define CLASS_PBUF3_HEADER_BASE_ADDR (CLASS_PBUF3_BASE_ADDR + \ ++ CLASS_PBUF_HEADER_OFFSET) ++ ++#define CLASS_PE0_RO_DM_ADDR0_VAL ((CLASS_PBUF1_BASE_ADDR << 16) | \ ++ CLASS_PBUF0_BASE_ADDR) ++#define CLASS_PE0_RO_DM_ADDR1_VAL ((CLASS_PBUF3_BASE_ADDR << 16) | \ ++ CLASS_PBUF2_BASE_ADDR) ++ ++#define CLASS_PE0_QB_DM_ADDR0_VAL ((CLASS_PBUF1_HEADER_BASE_ADDR << 16) |\ ++ CLASS_PBUF0_HEADER_BASE_ADDR) ++#define CLASS_PE0_QB_DM_ADDR1_VAL ((CLASS_PBUF3_HEADER_BASE_ADDR << 16) |\ ++ CLASS_PBUF2_HEADER_BASE_ADDR) ++ ++#define CLASS_ROUTE_SIZE 128 ++#define CLASS_MAX_ROUTE_SIZE 256 ++#define CLASS_ROUTE_HASH_BITS 20 ++#define CLASS_ROUTE_HASH_MASK (BIT(CLASS_ROUTE_HASH_BITS) - 1) ++ ++/* Can be configured */ ++#define CLASS_ROUTE0_BASE_ADDR 0x400 ++/* Can be configured */ ++#define CLASS_ROUTE1_BASE_ADDR (CLASS_ROUTE0_BASE_ADDR + CLASS_ROUTE_SIZE) ++/* Can be configured */ ++#define CLASS_ROUTE2_BASE_ADDR (CLASS_ROUTE1_BASE_ADDR + CLASS_ROUTE_SIZE) ++/* Can be configured */ ++#define CLASS_ROUTE3_BASE_ADDR (CLASS_ROUTE2_BASE_ADDR + CLASS_ROUTE_SIZE) ++ ++#define CLASS_SA_SIZE 128 ++#define CLASS_IPSEC_SA0_BASE_ADDR 0x600 ++/* not used */ ++#define CLASS_IPSEC_SA1_BASE_ADDR (CLASS_IPSEC_SA0_BASE_ADDR + CLASS_SA_SIZE) ++/* not used */ ++#define CLASS_IPSEC_SA2_BASE_ADDR (CLASS_IPSEC_SA1_BASE_ADDR + CLASS_SA_SIZE) ++/* not used */ ++#define CLASS_IPSEC_SA3_BASE_ADDR (CLASS_IPSEC_SA2_BASE_ADDR + CLASS_SA_SIZE) ++ ++/* generic purpose free dmem buffer, last portion of 2K dmem pbuf */ ++#define CLASS_GP_DMEM_BUF_SIZE (2048 - (CLASS_PBUF_SIZE * 4) - \ ++ (CLASS_ROUTE_SIZE * 4) - (CLASS_SA_SIZE)) ++#define CLASS_GP_DMEM_BUF ((void *)(CLASS_IPSEC_SA0_BASE_ADDR + \ ++ CLASS_SA_SIZE)) ++ ++#define TWO_LEVEL_ROUTE BIT(0) ++#define PHYNO_IN_HASH BIT(1) ++#define HW_ROUTE_FETCH BIT(3) ++#define HW_BRIDGE_FETCH BIT(5) ++#define IP_ALIGNED BIT(6) ++#define ARC_HIT_CHECK_EN BIT(7) ++#define CLASS_TOE BIT(11) ++#define HASH_NORMAL (0 << 12) ++#define HASH_CRC_PORT BIT(12) ++#define HASH_CRC_IP (2 << 12) ++#define HASH_CRC_PORT_IP (3 << 12) ++#define QB2BUS_LE BIT(15) ++ ++#define TCP_CHKSUM_DROP BIT(0) ++#define UDP_CHKSUM_DROP BIT(1) ++#define IPV4_CHKSUM_DROP BIT(9) ++ ++/*CLASS_HIF_PARSE bits*/ ++#define HIF_PKT_CLASS_EN BIT(0) ++#define HIF_PKT_OFFSET(ofst) (((ofst) & 0xF) << 1) ++ ++struct class_cfg { ++ u32 toe_mode; ++ unsigned long route_table_baseaddr; ++ u32 route_table_hash_bits; ++ u32 pe_sys_clk_ratio; ++ u32 resume; ++}; ++ ++#endif /* _CLASS_CSR_H_ */ +--- /dev/null ++++ b/drivers/staging/fsl_ppfe/include/pfe/cbus/emac_mtip.h +@@ -0,0 +1,242 @@ ++/* ++ * Copyright 2015-2016 Freescale Semiconductor, Inc. ++ * Copyright 2017 NXP ++ * ++ * 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, see <http://www.gnu.org/licenses/>. ++ */ ++ ++#ifndef _EMAC_H_ ++#define _EMAC_H_ ++ ++#include <linux/ethtool.h> ++ ++#define EMAC_IEVENT_REG 0x004 ++#define EMAC_IMASK_REG 0x008 ++#define EMAC_R_DES_ACTIVE_REG 0x010 ++#define EMAC_X_DES_ACTIVE_REG 0x014 ++#define EMAC_ECNTRL_REG 0x024 ++#define EMAC_MII_DATA_REG 0x040 ++#define EMAC_MII_CTRL_REG 0x044 ++#define EMAC_MIB_CTRL_STS_REG 0x064 ++#define EMAC_RCNTRL_REG 0x084 ++#define EMAC_TCNTRL_REG 0x0C4 ++#define EMAC_PHY_ADDR_LOW 0x0E4 ++#define EMAC_PHY_ADDR_HIGH 0x0E8 ++#define EMAC_GAUR 0x120 ++#define EMAC_GALR 0x124 ++#define EMAC_TFWR_STR_FWD 0x144 ++#define EMAC_RX_SECTION_FULL 0x190 ++#define EMAC_RX_SECTION_EMPTY 0x194 ++#define EMAC_TX_SECTION_EMPTY 0x1A0 ++#define EMAC_TRUNC_FL 0x1B0 ++ ++#define RMON_T_DROP 0x200 /* Count of frames not cntd correctly */ ++#define RMON_T_PACKETS 0x204 /* RMON TX packet count */ ++#define RMON_T_BC_PKT 0x208 /* RMON TX broadcast pkts */ ++#define RMON_T_MC_PKT 0x20c /* RMON TX multicast pkts */ ++#define RMON_T_CRC_ALIGN 0x210 /* RMON TX pkts with CRC align err */ ++#define RMON_T_UNDERSIZE 0x214 /* RMON TX pkts < 64 bytes, good CRC */ ++#define RMON_T_OVERSIZE 0x218 /* RMON TX pkts > MAX_FL bytes good CRC */ ++#define RMON_T_FRAG 0x21c /* RMON TX pkts < 64 bytes, bad CRC */ ++#define RMON_T_JAB 0x220 /* RMON TX pkts > MAX_FL bytes, bad CRC */ ++#define RMON_T_COL 0x224 /* RMON TX collision count */ ++#define RMON_T_P64 0x228 /* RMON TX 64 byte pkts */ ++#define RMON_T_P65TO127 0x22c /* RMON TX 65 to 127 byte pkts */ ++#define RMON_T_P128TO255 0x230 /* RMON TX 128 to 255 byte pkts */ ++#define RMON_T_P256TO511 0x234 /* RMON TX 256 to 511 byte pkts */ ++#define RMON_T_P512TO1023 0x238 /* RMON TX 512 to 1023 byte pkts */ ++#define RMON_T_P1024TO2047 0x23c /* RMON TX 1024 to 2047 byte pkts */ ++#define RMON_T_P_GTE2048 0x240 /* RMON TX pkts > 2048 bytes */ ++#define RMON_T_OCTETS 0x244 /* RMON TX octets */ ++#define IEEE_T_DROP 0x248 /* Count of frames not counted crtly */ ++#define IEEE_T_FRAME_OK 0x24c /* Frames tx'd OK */ ++#define IEEE_T_1COL 0x250 /* Frames tx'd with single collision */ ++#define IEEE_T_MCOL 0x254 /* Frames tx'd with multiple collision */ ++#define IEEE_T_DEF 0x258 /* Frames tx'd after deferral delay */ ++#define IEEE_T_LCOL 0x25c /* Frames tx'd with late collision */ ++#define IEEE_T_EXCOL 0x260 /* Frames tx'd with excesv collisions */ ++#define IEEE_T_MACERR 0x264 /* Frames tx'd with TX FIFO underrun */ ++#define IEEE_T_CSERR 0x268 /* Frames tx'd with carrier sense err */ ++#define IEEE_T_SQE 0x26c /* Frames tx'd with SQE err */ ++#define IEEE_T_FDXFC 0x270 /* Flow control pause frames tx'd */ ++#define IEEE_T_OCTETS_OK 0x274 /* Octet count for frames tx'd w/o err */ ++#define RMON_R_PACKETS 0x284 /* RMON RX packet count */ ++#define RMON_R_BC_PKT 0x288 /* RMON RX broadcast pkts */ ++#define RMON_R_MC_PKT 0x28c /* RMON RX multicast pkts */ ++#define RMON_R_CRC_ALIGN 0x290 /* RMON RX pkts with CRC alignment err */ ++#define RMON_R_UNDERSIZE 0x294 /* RMON RX pkts < 64 bytes, good CRC */ ++#define RMON_R_OVERSIZE 0x298 /* RMON RX pkts > MAX_FL bytes good CRC */ ++#define RMON_R_FRAG 0x29c /* RMON RX pkts < 64 bytes, bad CRC */ ++#define RMON_R_JAB 0x2a0 /* RMON RX pkts > MAX_FL bytes, bad CRC */ ++#define RMON_R_RESVD_O 0x2a4 /* Reserved */ ++#define RMON_R_P64 0x2a8 /* RMON RX 64 byte pkts */ ++#define RMON_R_P65TO127 0x2ac /* RMON RX 65 to 127 byte pkts */ ++#define RMON_R_P128TO255 0x2b0 /* RMON RX 128 to 255 byte pkts */ ++#define RMON_R_P256TO511 0x2b4 /* RMON RX 256 to 511 byte pkts */ ++#define RMON_R_P512TO1023 0x2b8 /* RMON RX 512 to 1023 byte pkts */ ++#define RMON_R_P1024TO2047 0x2bc /* RMON RX 1024 to 2047 byte pkts */ ++#define RMON_R_P_GTE2048 0x2c0 /* RMON RX pkts > 2048 bytes */ ++#define RMON_R_OCTETS 0x2c4 /* RMON RX octets */ ++#define IEEE_R_DROP 0x2c8 /* Count frames not counted correctly */ ++#define IEEE_R_FRAME_OK 0x2cc /* Frames rx'd OK */ ++#define IEEE_R_CRC 0x2d0 /* Frames rx'd with CRC err */ ++#define IEEE_R_ALIGN 0x2d4 /* Frames rx'd with alignment err */ ++#define IEEE_R_MACERR 0x2d8 /* Receive FIFO overflow count */ ++#define IEEE_R_FDXFC 0x2dc /* Flow control pause frames rx'd */ ++#define IEEE_R_OCTETS_OK 0x2e0 /* Octet cnt for frames rx'd w/o err */ ++ ++#define EMAC_SMAC_0_0 0x500 /*Supplemental MAC Address 0 (RW).*/ ++#define EMAC_SMAC_0_1 0x504 /*Supplemental MAC Address 0 (RW).*/ ++ ++/* GEMAC definitions and settings */ ++ ++#define EMAC_PORT_0 0 ++#define EMAC_PORT_1 1 ++ ++/* GEMAC Bit definitions */ ++#define EMAC_IEVENT_HBERR 0x80000000 ++#define EMAC_IEVENT_BABR 0x40000000 ++#define EMAC_IEVENT_BABT 0x20000000 ++#define EMAC_IEVENT_GRA 0x10000000 ++#define EMAC_IEVENT_TXF 0x08000000 ++#define EMAC_IEVENT_TXB 0x04000000 ++#define EMAC_IEVENT_RXF 0x02000000 ++#define EMAC_IEVENT_RXB 0x01000000 ++#define EMAC_IEVENT_MII 0x00800000 ++#define EMAC_IEVENT_EBERR 0x00400000 ++#define EMAC_IEVENT_LC 0x00200000 ++#define EMAC_IEVENT_RL 0x00100000 ++#define EMAC_IEVENT_UN 0x00080000 ++ ++#define EMAC_IMASK_HBERR 0x80000000 ++#define EMAC_IMASK_BABR 0x40000000 ++#define EMAC_IMASKT_BABT 0x20000000 ++#define EMAC_IMASK_GRA 0x10000000 ++#define EMAC_IMASKT_TXF 0x08000000 ++#define EMAC_IMASK_TXB 0x04000000 ++#define EMAC_IMASKT_RXF 0x02000000 ++#define EMAC_IMASK_RXB 0x01000000 ++#define EMAC_IMASK_MII 0x00800000 ++#define EMAC_IMASK_EBERR 0x00400000 ++#define EMAC_IMASK_LC 0x00200000 ++#define EMAC_IMASKT_RL 0x00100000 ++#define EMAC_IMASK_UN 0x00080000 ++ ++#define EMAC_RCNTRL_MAX_FL_SHIFT 16 ++#define EMAC_RCNTRL_LOOP 0x00000001 ++#define EMAC_RCNTRL_DRT 0x00000002 ++#define EMAC_RCNTRL_MII_MODE 0x00000004 ++#define EMAC_RCNTRL_PROM 0x00000008 ++#define EMAC_RCNTRL_BC_REJ 0x00000010 ++#define EMAC_RCNTRL_FCE 0x00000020 ++#define EMAC_RCNTRL_RGMII 0x00000040 ++#define EMAC_RCNTRL_SGMII 0x00000080 ++#define EMAC_RCNTRL_RMII 0x00000100 ++#define EMAC_RCNTRL_RMII_10T 0x00000200 ++#define EMAC_RCNTRL_CRC_FWD 0x00004000 ++ ++#define EMAC_TCNTRL_GTS 0x00000001 ++#define EMAC_TCNTRL_HBC 0x00000002 ++#define EMAC_TCNTRL_FDEN 0x00000004 ++#define EMAC_TCNTRL_TFC_PAUSE 0x00000008 ++#define EMAC_TCNTRL_RFC_PAUSE 0x00000010 ++ ++#define EMAC_ECNTRL_RESET 0x00000001 /* reset the EMAC */ ++#define EMAC_ECNTRL_ETHER_EN 0x00000002 /* enable the EMAC */ ++#define EMAC_ECNTRL_MAGIC_ENA 0x00000004 ++#define EMAC_ECNTRL_SLEEP 0x00000008 ++#define EMAC_ECNTRL_SPEED 0x00000020 ++#define EMAC_ECNTRL_DBSWAP 0x00000100 ++ ++#define EMAC_X_WMRK_STRFWD 0x00000100 ++ ++#define EMAC_X_DES_ACTIVE_TDAR 0x01000000 ++#define EMAC_R_DES_ACTIVE_RDAR 0x01000000 ++ ++#define EMAC_RX_SECTION_EMPTY_V 0x00010006 ++/* ++ * The possible operating speeds of the MAC, currently supporting 10, 100 and ++ * 1000Mb modes. ++ */ ++enum mac_speed {SPEED_10M, SPEED_100M, SPEED_1000M, SPEED_1000M_PCS}; ++ ++/* MII-related definitios */ ++#define EMAC_MII_DATA_ST 0x40000000 /* Start of frame delimiter */ ++#define EMAC_MII_DATA_OP_RD 0x20000000 /* Perform a read operation */ ++#define EMAC_MII_DATA_OP_CL45_RD 0x30000000 /* Perform a read operation */ ++#define EMAC_MII_DATA_OP_WR 0x10000000 /* Perform a write operation */ ++#define EMAC_MII_DATA_OP_CL45_WR 0x10000000 /* Perform a write operation */ ++#define EMAC_MII_DATA_PA_MSK 0x0f800000 /* PHY Address field mask */ ++#define EMAC_MII_DATA_RA_MSK 0x007c0000 /* PHY Register field mask */ ++#define EMAC_MII_DATA_TA 0x00020000 /* Turnaround */ ++#define EMAC_MII_DATA_DATAMSK 0x0000ffff /* PHY data field */ ++ ++#define EMAC_MII_DATA_RA_SHIFT 18 /* MII Register address bits */ ++#define EMAC_MII_DATA_RA_MASK 0x1F /* MII Register address mask */ ++#define EMAC_MII_DATA_PA_SHIFT 23 /* MII PHY address bits */ ++#define EMAC_MII_DATA_PA_MASK 0x1F /* MII PHY address mask */ ++ ++#define EMAC_MII_DATA_RA(v) (((v) & EMAC_MII_DATA_RA_MASK) << \ ++ EMAC_MII_DATA_RA_SHIFT) ++#define EMAC_MII_DATA_PA(v) (((v) & EMAC_MII_DATA_RA_MASK) << \ ++ EMAC_MII_DATA_PA_SHIFT) ++#define EMAC_MII_DATA(v) ((v) & 0xffff) ++ ++#define EMAC_MII_SPEED_SHIFT 1 ++#define EMAC_HOLDTIME_SHIFT 8 ++#define EMAC_HOLDTIME_MASK 0x7 ++#define EMAC_HOLDTIME(v) (((v) & EMAC_HOLDTIME_MASK) << \ ++ EMAC_HOLDTIME_SHIFT) ++ ++/* ++ * The Address organisation for the MAC device. All addresses are split into ++ * two 32-bit register fields. The first one (bottom) is the lower 32-bits of ++ * the address and the other field are the high order bits - this may be 16-bits ++ * in the case of MAC addresses, or 32-bits for the hash address. ++ * In terms of memory storage, the first item (bottom) is assumed to be at a ++ * lower address location than 'top'. i.e. top should be at address location of ++ * 'bottom' + 4 bytes. ++ */ ++struct pfe_mac_addr { ++ u32 bottom; /* Lower 32-bits of address. */ ++ u32 top; /* Upper 32-bits of address. */ ++}; ++ ++/* ++ * The following is the organisation of the address filters section of the MAC ++ * registers. The Cadence MAC contains four possible specific address match ++ * addresses, if an incoming frame corresponds to any one of these four ++ * addresses then the frame will be copied to memory. ++ * It is not necessary for all four of the address match registers to be ++ * programmed, this is application dependent. ++ */ ++struct spec_addr { ++ struct pfe_mac_addr one; /* Specific address register 1. */ ++ struct pfe_mac_addr two; /* Specific address register 2. */ ++ struct pfe_mac_addr three; /* Specific address register 3. */ ++ struct pfe_mac_addr four; /* Specific address register 4. */ ++}; ++ ++struct gemac_cfg { ++ u32 mode; ++ u32 speed; ++ u32 duplex; ++}; ++ ++/* EMAC Hash size */ ++#define EMAC_HASH_REG_BITS 64 ++ ++#define EMAC_SPEC_ADDR_MAX 4 ++ ++#endif /* _EMAC_H_ */ +--- /dev/null ++++ b/drivers/staging/fsl_ppfe/include/pfe/cbus/gpi.h +@@ -0,0 +1,86 @@ ++/* ++ * Copyright 2015-2016 Freescale Semiconductor, Inc. ++ * Copyright 2017 NXP ++ * ++ * 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, see <http://www.gnu.org/licenses/>. ++ */ ++ ++#ifndef _GPI_H_ ++#define _GPI_H_ ++ ++#define GPI_VERSION 0x00 ++#define GPI_CTRL 0x04 ++#define GPI_RX_CONFIG 0x08 ++#define GPI_HDR_SIZE 0x0c ++#define GPI_BUF_SIZE 0x10 ++#define GPI_LMEM_ALLOC_ADDR 0x14 ++#define GPI_LMEM_FREE_ADDR 0x18 ++#define GPI_DDR_ALLOC_ADDR 0x1c ++#define GPI_DDR_FREE_ADDR 0x20 ++#define GPI_CLASS_ADDR 0x24 ++#define GPI_DRX_FIFO 0x28 ++#define GPI_TRX_FIFO 0x2c ++#define GPI_INQ_PKTPTR 0x30 ++#define GPI_DDR_DATA_OFFSET 0x34 ++#define GPI_LMEM_DATA_OFFSET 0x38 ++#define GPI_TMLF_TX 0x4c ++#define GPI_DTX_ASEQ 0x50 ++#define GPI_FIFO_STATUS 0x54 ++#define GPI_FIFO_DEBUG 0x58 ++#define GPI_TX_PAUSE_TIME 0x5c ++#define GPI_LMEM_SEC_BUF_DATA_OFFSET 0x60 ++#define GPI_DDR_SEC_BUF_DATA_OFFSET 0x64 ++#define GPI_TOE_CHKSUM_EN 0x68 ++#define GPI_OVERRUN_DROPCNT 0x6c ++#define GPI_CSR_MTIP_PAUSE_REG 0x74 ++#define GPI_CSR_MTIP_PAUSE_QUANTUM 0x78 ++#define GPI_CSR_RX_CNT 0x7c ++#define GPI_CSR_TX_CNT 0x80 ++#define GPI_CSR_DEBUG1 0x84 ++#define GPI_CSR_DEBUG2 0x88 ++ ++struct gpi_cfg { ++ u32 lmem_rtry_cnt; ++ u32 tmlf_txthres; ++ u32 aseq_len; ++ u32 mtip_pause_reg; ++}; ++ ++/* GPI commons defines */ ++#define GPI_LMEM_BUF_EN 0x1 ++#define GPI_DDR_BUF_EN 0x1 ++ ++/* EGPI 1 defines */ ++#define EGPI1_LMEM_RTRY_CNT 0x40 ++#define EGPI1_TMLF_TXTHRES 0xBC ++#define EGPI1_ASEQ_LEN 0x50 ++ ++/* EGPI 2 defines */ ++#define EGPI2_LMEM_RTRY_CNT 0x40 ++#define EGPI2_TMLF_TXTHRES 0xBC ++#define EGPI2_ASEQ_LEN 0x40 ++ ++/* EGPI 3 defines */ ++#define EGPI3_LMEM_RTRY_CNT 0x40 ++#define EGPI3_TMLF_TXTHRES 0xBC ++#define EGPI3_ASEQ_LEN 0x40 ++ ++/* HGPI defines */ ++#define HGPI_LMEM_RTRY_CNT 0x40 ++#define HGPI_TMLF_TXTHRES 0xBC ++#define HGPI_ASEQ_LEN 0x40 ++ ++#define EGPI_PAUSE_TIME 0x000007D0 ++#define EGPI_PAUSE_ENABLE 0x40000000 ++#endif /* _GPI_H_ */ +--- /dev/null ++++ b/drivers/staging/fsl_ppfe/include/pfe/cbus/hif.h +@@ -0,0 +1,100 @@ ++/* ++ * Copyright 2015-2016 Freescale Semiconductor, Inc. ++ * Copyright 2017 NXP ++ * ++ * 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, see <http://www.gnu.org/licenses/>. ++ */ ++ ++#ifndef _HIF_H_ ++#define _HIF_H_ ++ ++/* @file hif.h. ++ * hif - PFE hif block control and status register. ++ * Mapped on CBUS and accessible from all PE's and ARM. ++ */ ++#define HIF_VERSION (HIF_BASE_ADDR + 0x00) ++#define HIF_TX_CTRL (HIF_BASE_ADDR + 0x04) ++#define HIF_TX_CURR_BD_ADDR (HIF_BASE_ADDR + 0x08) ++#define HIF_TX_ALLOC (HIF_BASE_ADDR + 0x0c) ++#define HIF_TX_BDP_ADDR (HIF_BASE_ADDR + 0x10) ++#define HIF_TX_STATUS (HIF_BASE_ADDR + 0x14) ++#define HIF_RX_CTRL (HIF_BASE_ADDR + 0x20) ++#define HIF_RX_BDP_ADDR (HIF_BASE_ADDR + 0x24) ++#define HIF_RX_STATUS (HIF_BASE_ADDR + 0x30) ++#define HIF_INT_SRC (HIF_BASE_ADDR + 0x34) ++#define HIF_INT_ENABLE (HIF_BASE_ADDR + 0x38) ++#define HIF_POLL_CTRL (HIF_BASE_ADDR + 0x3c) ++#define HIF_RX_CURR_BD_ADDR (HIF_BASE_ADDR + 0x40) ++#define HIF_RX_ALLOC (HIF_BASE_ADDR + 0x44) ++#define HIF_TX_DMA_STATUS (HIF_BASE_ADDR + 0x48) ++#define HIF_RX_DMA_STATUS (HIF_BASE_ADDR + 0x4c) ++#define HIF_INT_COAL (HIF_BASE_ADDR + 0x50) ++ ++/* HIF_INT_SRC/ HIF_INT_ENABLE control bits */ ++#define HIF_INT BIT(0) ++#define HIF_RXBD_INT BIT(1) ++#define HIF_RXPKT_INT BIT(2) ++#define HIF_TXBD_INT BIT(3) ++#define HIF_TXPKT_INT BIT(4) ++ ++/* HIF_TX_CTRL bits */ ++#define HIF_CTRL_DMA_EN BIT(0) ++#define HIF_CTRL_BDP_POLL_CTRL_EN BIT(1) ++#define HIF_CTRL_BDP_CH_START_WSTB BIT(2) ++ ++/* HIF_RX_STATUS bits */ ++#define BDP_CSR_RX_DMA_ACTV BIT(16) ++ ++/* HIF_INT_ENABLE bits */ ++#define HIF_INT_EN BIT(0) ++#define HIF_RXBD_INT_EN BIT(1) ++#define HIF_RXPKT_INT_EN BIT(2) ++#define HIF_TXBD_INT_EN BIT(3) ++#define HIF_TXPKT_INT_EN BIT(4) ++ ++/* HIF_POLL_CTRL bits*/ ++#define HIF_RX_POLL_CTRL_CYCLE 0x0400 ++#define HIF_TX_POLL_CTRL_CYCLE 0x0400 ++ ++/* HIF_INT_COAL bits*/ ++#define HIF_INT_COAL_ENABLE BIT(31) ++ ++/* Buffer descriptor control bits */ ++#define BD_CTRL_BUFLEN_MASK 0x3fff ++#define BD_BUF_LEN(x) ((x) & BD_CTRL_BUFLEN_MASK) ++#define BD_CTRL_CBD_INT_EN BIT(16) ++#define BD_CTRL_PKT_INT_EN BIT(17) ++#define BD_CTRL_LIFM BIT(18) ++#define BD_CTRL_LAST_BD BIT(19) ++#define BD_CTRL_DIR BIT(20) ++#define BD_CTRL_LMEM_CPY BIT(21) /* Valid only for HIF_NOCPY */ ++#define BD_CTRL_PKT_XFER BIT(24) ++#define BD_CTRL_DESC_EN BIT(31) ++#define BD_CTRL_PARSE_DISABLE BIT(25) ++#define BD_CTRL_BRFETCH_DISABLE BIT(26) ++#define BD_CTRL_RTFETCH_DISABLE BIT(27) ++ ++/* Buffer descriptor status bits*/ ++#define BD_STATUS_CONN_ID(x) ((x) & 0xffff) ++#define BD_STATUS_DIR_PROC_ID BIT(16) ++#define BD_STATUS_CONN_ID_EN BIT(17) ++#define BD_STATUS_PE2PROC_ID(x) (((x) & 7) << 18) ++#define BD_STATUS_LE_DATA BIT(21) ++#define BD_STATUS_CHKSUM_EN BIT(22) ++ ++/* HIF Buffer descriptor status bits */ ++#define DIR_PROC_ID BIT(16) ++#define PROC_ID(id) ((id) << 18) ++ ++#endif /* _HIF_H_ */ +--- /dev/null ++++ b/drivers/staging/fsl_ppfe/include/pfe/cbus/hif_nocpy.h +@@ -0,0 +1,50 @@ ++/* ++ * Copyright 2015-2016 Freescale Semiconductor, Inc. ++ * Copyright 2017 NXP ++ * ++ * 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, see <http://www.gnu.org/licenses/>. ++ */ ++ ++#ifndef _HIF_NOCPY_H_ ++#define _HIF_NOCPY_H_ ++ ++#define HIF_NOCPY_VERSION (HIF_NOCPY_BASE_ADDR + 0x00) ++#define HIF_NOCPY_TX_CTRL (HIF_NOCPY_BASE_ADDR + 0x04) ++#define HIF_NOCPY_TX_CURR_BD_ADDR (HIF_NOCPY_BASE_ADDR + 0x08) ++#define HIF_NOCPY_TX_ALLOC (HIF_NOCPY_BASE_ADDR + 0x0c) ++#define HIF_NOCPY_TX_BDP_ADDR (HIF_NOCPY_BASE_ADDR + 0x10) ++#define HIF_NOCPY_TX_STATUS (HIF_NOCPY_BASE_ADDR + 0x14) ++#define HIF_NOCPY_RX_CTRL (HIF_NOCPY_BASE_ADDR + 0x20) ++#define HIF_NOCPY_RX_BDP_ADDR (HIF_NOCPY_BASE_ADDR + 0x24) ++#define HIF_NOCPY_RX_STATUS (HIF_NOCPY_BASE_ADDR + 0x30) ++#define HIF_NOCPY_INT_SRC (HIF_NOCPY_BASE_ADDR + 0x34) ++#define HIF_NOCPY_INT_ENABLE (HIF_NOCPY_BASE_ADDR + 0x38) ++#define HIF_NOCPY_POLL_CTRL (HIF_NOCPY_BASE_ADDR + 0x3c) ++#define HIF_NOCPY_RX_CURR_BD_ADDR (HIF_NOCPY_BASE_ADDR + 0x40) ++#define HIF_NOCPY_RX_ALLOC (HIF_NOCPY_BASE_ADDR + 0x44) ++#define HIF_NOCPY_TX_DMA_STATUS (HIF_NOCPY_BASE_ADDR + 0x48) ++#define HIF_NOCPY_RX_DMA_STATUS (HIF_NOCPY_BASE_ADDR + 0x4c) ++#define HIF_NOCPY_RX_INQ0_PKTPTR (HIF_NOCPY_BASE_ADDR + 0x50) ++#define HIF_NOCPY_RX_INQ1_PKTPTR (HIF_NOCPY_BASE_ADDR + 0x54) ++#define HIF_NOCPY_TX_PORT_NO (HIF_NOCPY_BASE_ADDR + 0x60) ++#define HIF_NOCPY_LMEM_ALLOC_ADDR (HIF_NOCPY_BASE_ADDR + 0x64) ++#define HIF_NOCPY_CLASS_ADDR (HIF_NOCPY_BASE_ADDR + 0x68) ++#define HIF_NOCPY_TMU_PORT0_ADDR (HIF_NOCPY_BASE_ADDR + 0x70) ++#define HIF_NOCPY_TMU_PORT1_ADDR (HIF_NOCPY_BASE_ADDR + 0x74) ++#define HIF_NOCPY_TMU_PORT2_ADDR (HIF_NOCPY_BASE_ADDR + 0x7c) ++#define HIF_NOCPY_TMU_PORT3_ADDR (HIF_NOCPY_BASE_ADDR + 0x80) ++#define HIF_NOCPY_TMU_PORT4_ADDR (HIF_NOCPY_BASE_ADDR + 0x84) ++#define HIF_NOCPY_INT_COAL (HIF_NOCPY_BASE_ADDR + 0x90) ++ ++#endif /* _HIF_NOCPY_H_ */ +--- /dev/null ++++ b/drivers/staging/fsl_ppfe/include/pfe/cbus/tmu_csr.h +@@ -0,0 +1,168 @@ ++/* ++ * Copyright 2015-2016 Freescale Semiconductor, Inc. ++ * Copyright 2017 NXP ++ * ++ * 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, see <http://www.gnu.org/licenses/>. ++ */ ++ ++#ifndef _TMU_CSR_H_ ++#define _TMU_CSR_H_ ++ ++#define TMU_VERSION (TMU_CSR_BASE_ADDR + 0x000) ++#define TMU_INQ_WATERMARK (TMU_CSR_BASE_ADDR + 0x004) ++#define TMU_PHY_INQ_PKTPTR (TMU_CSR_BASE_ADDR + 0x008) ++#define TMU_PHY_INQ_PKTINFO (TMU_CSR_BASE_ADDR + 0x00c) ++#define TMU_PHY_INQ_FIFO_CNT (TMU_CSR_BASE_ADDR + 0x010) ++#define TMU_SYS_GENERIC_CONTROL (TMU_CSR_BASE_ADDR + 0x014) ++#define TMU_SYS_GENERIC_STATUS (TMU_CSR_BASE_ADDR + 0x018) ++#define TMU_SYS_GEN_CON0 (TMU_CSR_BASE_ADDR + 0x01c) ++#define TMU_SYS_GEN_CON1 (TMU_CSR_BASE_ADDR + 0x020) ++#define TMU_SYS_GEN_CON2 (TMU_CSR_BASE_ADDR + 0x024) ++#define TMU_SYS_GEN_CON3 (TMU_CSR_BASE_ADDR + 0x028) ++#define TMU_SYS_GEN_CON4 (TMU_CSR_BASE_ADDR + 0x02c) ++#define TMU_TEQ_DISABLE_DROPCHK (TMU_CSR_BASE_ADDR + 0x030) ++#define TMU_TEQ_CTRL (TMU_CSR_BASE_ADDR + 0x034) ++#define TMU_TEQ_QCFG (TMU_CSR_BASE_ADDR + 0x038) ++#define TMU_TEQ_DROP_STAT (TMU_CSR_BASE_ADDR + 0x03c) ++#define TMU_TEQ_QAVG (TMU_CSR_BASE_ADDR + 0x040) ++#define TMU_TEQ_WREG_PROB (TMU_CSR_BASE_ADDR + 0x044) ++#define TMU_TEQ_TRANS_STAT (TMU_CSR_BASE_ADDR + 0x048) ++#define TMU_TEQ_HW_PROB_CFG0 (TMU_CSR_BASE_ADDR + 0x04c) ++#define TMU_TEQ_HW_PROB_CFG1 (TMU_CSR_BASE_ADDR + 0x050) ++#define TMU_TEQ_HW_PROB_CFG2 (TMU_CSR_BASE_ADDR + 0x054) ++#define TMU_TEQ_HW_PROB_CFG3 (TMU_CSR_BASE_ADDR + 0x058) ++#define TMU_TEQ_HW_PROB_CFG4 (TMU_CSR_BASE_ADDR + 0x05c) ++#define TMU_TEQ_HW_PROB_CFG5 (TMU_CSR_BASE_ADDR + 0x060) ++#define TMU_TEQ_HW_PROB_CFG6 (TMU_CSR_BASE_ADDR + 0x064) ++#define TMU_TEQ_HW_PROB_CFG7 (TMU_CSR_BASE_ADDR + 0x068) ++#define TMU_TEQ_HW_PROB_CFG8 (TMU_CSR_BASE_ADDR + 0x06c) ++#define TMU_TEQ_HW_PROB_CFG9 (TMU_CSR_BASE_ADDR + 0x070) ++#define TMU_TEQ_HW_PROB_CFG10 (TMU_CSR_BASE_ADDR + 0x074) ++#define TMU_TEQ_HW_PROB_CFG11 (TMU_CSR_BASE_ADDR + 0x078) ++#define TMU_TEQ_HW_PROB_CFG12 (TMU_CSR_BASE_ADDR + 0x07c) ++#define TMU_TEQ_HW_PROB_CFG13 (TMU_CSR_BASE_ADDR + 0x080) ++#define TMU_TEQ_HW_PROB_CFG14 (TMU_CSR_BASE_ADDR + 0x084) ++#define TMU_TEQ_HW_PROB_CFG15 (TMU_CSR_BASE_ADDR + 0x088) ++#define TMU_TEQ_HW_PROB_CFG16 (TMU_CSR_BASE_ADDR + 0x08c) ++#define TMU_TEQ_HW_PROB_CFG17 (TMU_CSR_BASE_ADDR + 0x090) ++#define TMU_TEQ_HW_PROB_CFG18 (TMU_CSR_BASE_ADDR + 0x094) ++#define TMU_TEQ_HW_PROB_CFG19 (TMU_CSR_BASE_ADDR + 0x098) ++#define TMU_TEQ_HW_PROB_CFG20 (TMU_CSR_BASE_ADDR + 0x09c) ++#define TMU_TEQ_HW_PROB_CFG21 (TMU_CSR_BASE_ADDR + 0x0a0) ++#define TMU_TEQ_HW_PROB_CFG22 (TMU_CSR_BASE_ADDR + 0x0a4) ++#define TMU_TEQ_HW_PROB_CFG23 (TMU_CSR_BASE_ADDR + 0x0a8) ++#define TMU_TEQ_HW_PROB_CFG24 (TMU_CSR_BASE_ADDR + 0x0ac) ++#define TMU_TEQ_HW_PROB_CFG25 (TMU_CSR_BASE_ADDR + 0x0b0) ++#define TMU_TDQ_IIFG_CFG (TMU_CSR_BASE_ADDR + 0x0b4) ++/* [9:0] Scheduler Enable for each of the scheduler in the TDQ. ++ * This is a global Enable for all schedulers in PHY0 ++ */ ++#define TMU_TDQ0_SCH_CTRL (TMU_CSR_BASE_ADDR + 0x0b8) ++ ++#define TMU_LLM_CTRL (TMU_CSR_BASE_ADDR + 0x0bc) ++#define TMU_LLM_BASE_ADDR (TMU_CSR_BASE_ADDR + 0x0c0) ++#define TMU_LLM_QUE_LEN (TMU_CSR_BASE_ADDR + 0x0c4) ++#define TMU_LLM_QUE_HEADPTR (TMU_CSR_BASE_ADDR + 0x0c8) ++#define TMU_LLM_QUE_TAILPTR (TMU_CSR_BASE_ADDR + 0x0cc) ++#define TMU_LLM_QUE_DROPCNT (TMU_CSR_BASE_ADDR + 0x0d0) ++#define TMU_INT_EN (TMU_CSR_BASE_ADDR + 0x0d4) ++#define TMU_INT_SRC (TMU_CSR_BASE_ADDR + 0x0d8) ++#define TMU_INQ_STAT (TMU_CSR_BASE_ADDR + 0x0dc) ++#define TMU_CTRL (TMU_CSR_BASE_ADDR + 0x0e0) ++ ++/* [31] Mem Access Command. 0 = Internal Memory Read, 1 = Internal memory ++ * Write [27:24] Byte Enables of the Internal memory access [23:0] Address of ++ * the internal memory. This address is used to access both the PM and DM of ++ * all the PE's ++ */ ++#define TMU_MEM_ACCESS_ADDR (TMU_CSR_BASE_ADDR + 0x0e4) ++ ++/* Internal Memory Access Write Data */ ++#define TMU_MEM_ACCESS_WDATA (TMU_CSR_BASE_ADDR + 0x0e8) ++/* Internal Memory Access Read Data. The commands are blocked ++ * at the mem_access only ++ */ ++#define TMU_MEM_ACCESS_RDATA (TMU_CSR_BASE_ADDR + 0x0ec) ++ ++/* [31:0] PHY0 in queue address (must be initialized with one of the ++ * xxx_INQ_PKTPTR cbus addresses) ++ */ ++#define TMU_PHY0_INQ_ADDR (TMU_CSR_BASE_ADDR + 0x0f0) ++/* [31:0] PHY1 in queue address (must be initialized with one of the ++ * xxx_INQ_PKTPTR cbus addresses) ++ */ ++#define TMU_PHY1_INQ_ADDR (TMU_CSR_BASE_ADDR + 0x0f4) ++/* [31:0] PHY2 in queue address (must be initialized with one of the ++ * xxx_INQ_PKTPTR cbus addresses) ++ */ ++#define TMU_PHY2_INQ_ADDR (TMU_CSR_BASE_ADDR + 0x0f8) ++/* [31:0] PHY3 in queue address (must be initialized with one of the ++ * xxx_INQ_PKTPTR cbus addresses) ++ */ ++#define TMU_PHY3_INQ_ADDR (TMU_CSR_BASE_ADDR + 0x0fc) ++#define TMU_BMU_INQ_ADDR (TMU_CSR_BASE_ADDR + 0x100) ++#define TMU_TX_CTRL (TMU_CSR_BASE_ADDR + 0x104) ++ ++#define TMU_BUS_ACCESS_WDATA (TMU_CSR_BASE_ADDR + 0x108) ++#define TMU_BUS_ACCESS (TMU_CSR_BASE_ADDR + 0x10c) ++#define TMU_BUS_ACCESS_RDATA (TMU_CSR_BASE_ADDR + 0x110) ++ ++#define TMU_PE_SYS_CLK_RATIO (TMU_CSR_BASE_ADDR + 0x114) ++#define TMU_PE_STATUS (TMU_CSR_BASE_ADDR + 0x118) ++#define TMU_TEQ_MAX_THRESHOLD (TMU_CSR_BASE_ADDR + 0x11c) ++/* [31:0] PHY4 in queue address (must be initialized with one of the ++ * xxx_INQ_PKTPTR cbus addresses) ++ */ ++#define TMU_PHY4_INQ_ADDR (TMU_CSR_BASE_ADDR + 0x134) ++/* [9:0] Scheduler Enable for each of the scheduler in the TDQ. ++ * This is a global Enable for all schedulers in PHY1 ++ */ ++#define TMU_TDQ1_SCH_CTRL (TMU_CSR_BASE_ADDR + 0x138) ++/* [9:0] Scheduler Enable for each of the scheduler in the TDQ. ++ * This is a global Enable for all schedulers in PHY2 ++ */ ++#define TMU_TDQ2_SCH_CTRL (TMU_CSR_BASE_ADDR + 0x13c) ++/* [9:0] Scheduler Enable for each of the scheduler in the TDQ. ++ * This is a global Enable for all schedulers in PHY3 ++ */ ++#define TMU_TDQ3_SCH_CTRL (TMU_CSR_BASE_ADDR + 0x140) ++#define TMU_BMU_BUF_SIZE (TMU_CSR_BASE_ADDR + 0x144) ++/* [31:0] PHY5 in queue address (must be initialized with one of the ++ * xxx_INQ_PKTPTR cbus addresses) ++ */ ++#define TMU_PHY5_INQ_ADDR (TMU_CSR_BASE_ADDR + 0x148) ++ ++#define SW_RESET BIT(0) /* Global software reset */ ++#define INQ_RESET BIT(2) ++#define TEQ_RESET BIT(3) ++#define TDQ_RESET BIT(4) ++#define PE_RESET BIT(5) ++#define MEM_INIT BIT(6) ++#define MEM_INIT_DONE BIT(7) ++#define LLM_INIT BIT(8) ++#define LLM_INIT_DONE BIT(9) ++#define ECC_MEM_INIT_DONE BIT(10) ++ ++struct tmu_cfg { ++ u32 pe_sys_clk_ratio; ++ unsigned long llm_base_addr; ++ u32 llm_queue_len; ++}; ++ ++/* Not HW related for pfe_ctrl / pfe common defines */ ++#define DEFAULT_MAX_QDEPTH 80 ++#define DEFAULT_Q0_QDEPTH 511 /*We keep one large queue for host tx qos */ ++#define DEFAULT_TMU3_QDEPTH 127 ++ ++#endif /* _TMU_CSR_H_ */ +--- /dev/null ++++ b/drivers/staging/fsl_ppfe/include/pfe/cbus/util_csr.h +@@ -0,0 +1,61 @@ ++/* ++ * Copyright 2015-2016 Freescale Semiconductor, Inc. ++ * Copyright 2017 NXP ++ * ++ * 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, see <http://www.gnu.org/licenses/>. ++ */ ++ ++#ifndef _UTIL_CSR_H_ ++#define _UTIL_CSR_H_ ++ ++#define UTIL_VERSION (UTIL_CSR_BASE_ADDR + 0x000) ++#define UTIL_TX_CTRL (UTIL_CSR_BASE_ADDR + 0x004) ++#define UTIL_INQ_PKTPTR (UTIL_CSR_BASE_ADDR + 0x010) ++ ++#define UTIL_HDR_SIZE (UTIL_CSR_BASE_ADDR + 0x014) ++ ++#define UTIL_PE0_QB_DM_ADDR0 (UTIL_CSR_BASE_ADDR + 0x020) ++#define UTIL_PE0_QB_DM_ADDR1 (UTIL_CSR_BASE_ADDR + 0x024) ++#define UTIL_PE0_RO_DM_ADDR0 (UTIL_CSR_BASE_ADDR + 0x060) ++#define UTIL_PE0_RO_DM_ADDR1 (UTIL_CSR_BASE_ADDR + 0x064) ++ ++#define UTIL_MEM_ACCESS_ADDR (UTIL_CSR_BASE_ADDR + 0x100) ++#define UTIL_MEM_ACCESS_WDATA (UTIL_CSR_BASE_ADDR + 0x104) ++#define UTIL_MEM_ACCESS_RDATA (UTIL_CSR_BASE_ADDR + 0x108) ++ ++#define UTIL_TM_INQ_ADDR (UTIL_CSR_BASE_ADDR + 0x114) ++#define UTIL_PE_STATUS (UTIL_CSR_BASE_ADDR + 0x118) ++ ++#define UTIL_PE_SYS_CLK_RATIO (UTIL_CSR_BASE_ADDR + 0x200) ++#define UTIL_AFULL_THRES (UTIL_CSR_BASE_ADDR + 0x204) ++#define UTIL_GAP_BETWEEN_READS (UTIL_CSR_BASE_ADDR + 0x208) ++#define UTIL_MAX_BUF_CNT (UTIL_CSR_BASE_ADDR + 0x20c) ++#define UTIL_TSQ_FIFO_THRES (UTIL_CSR_BASE_ADDR + 0x210) ++#define UTIL_TSQ_MAX_CNT (UTIL_CSR_BASE_ADDR + 0x214) ++#define UTIL_IRAM_DATA_0 (UTIL_CSR_BASE_ADDR + 0x218) ++#define UTIL_IRAM_DATA_1 (UTIL_CSR_BASE_ADDR + 0x21c) ++#define UTIL_IRAM_DATA_2 (UTIL_CSR_BASE_ADDR + 0x220) ++#define UTIL_IRAM_DATA_3 (UTIL_CSR_BASE_ADDR + 0x224) ++ ++#define UTIL_BUS_ACCESS_ADDR (UTIL_CSR_BASE_ADDR + 0x228) ++#define UTIL_BUS_ACCESS_WDATA (UTIL_CSR_BASE_ADDR + 0x22c) ++#define UTIL_BUS_ACCESS_RDATA (UTIL_CSR_BASE_ADDR + 0x230) ++ ++#define UTIL_INQ_AFULL_THRES (UTIL_CSR_BASE_ADDR + 0x234) ++ ++struct util_cfg { ++ u32 pe_sys_clk_ratio; ++}; ++ ++#endif /* _UTIL_CSR_H_ */ +--- /dev/null ++++ b/drivers/staging/fsl_ppfe/include/pfe/pfe.h +@@ -0,0 +1,373 @@ ++/* ++ * Copyright 2015-2016 Freescale Semiconductor, Inc. ++ * Copyright 2017 NXP ++ * ++ * 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, see <http://www.gnu.org/licenses/>. ++ */ ++ ++#ifndef _PFE_H_ ++#define _PFE_H_ ++ ++#include "cbus.h" ++ ++#define CLASS_DMEM_BASE_ADDR(i) (0x00000000 | ((i) << 20)) ++/* ++ * Only valid for mem access register interface ++ */ ++#define CLASS_IMEM_BASE_ADDR(i) (0x00000000 | ((i) << 20)) ++#define CLASS_DMEM_SIZE 0x00002000 ++#define CLASS_IMEM_SIZE 0x00008000 ++ ++#define TMU_DMEM_BASE_ADDR(i) (0x00000000 + ((i) << 20)) ++/* ++ * Only valid for mem access register interface ++ */ ++#define TMU_IMEM_BASE_ADDR(i) (0x00000000 + ((i) << 20)) ++#define TMU_DMEM_SIZE 0x00000800 ++#define TMU_IMEM_SIZE 0x00002000 ++ ++#define UTIL_DMEM_BASE_ADDR 0x00000000 ++#define UTIL_DMEM_SIZE 0x00002000 ++ ++#define PE_LMEM_BASE_ADDR 0xc3010000 ++#define PE_LMEM_SIZE 0x8000 ++#define PE_LMEM_END (PE_LMEM_BASE_ADDR + PE_LMEM_SIZE) ++ ++#define DMEM_BASE_ADDR 0x00000000 ++#define DMEM_SIZE 0x2000 /* TMU has less... */ ++#define DMEM_END (DMEM_BASE_ADDR + DMEM_SIZE) ++ ++#define PMEM_BASE_ADDR 0x00010000 ++#define PMEM_SIZE 0x8000 /* TMU has less... */ ++#define PMEM_END (PMEM_BASE_ADDR + PMEM_SIZE) ++ ++/* These check memory ranges from PE point of view/memory map */ ++#define IS_DMEM(addr, len) \ ++ ({ typeof(addr) addr_ = (addr); \ ++ ((unsigned long)(addr_) >= DMEM_BASE_ADDR) && \ ++ (((unsigned long)(addr_) + (len)) <= DMEM_END); }) ++ ++#define IS_PMEM(addr, len) \ ++ ({ typeof(addr) addr_ = (addr); \ ++ ((unsigned long)(addr_) >= PMEM_BASE_ADDR) && \ ++ (((unsigned long)(addr_) + (len)) <= PMEM_END); }) ++ ++#define IS_PE_LMEM(addr, len) \ ++ ({ typeof(addr) addr_ = (addr); \ ++ ((unsigned long)(addr_) >= \ ++ PE_LMEM_BASE_ADDR) && \ ++ (((unsigned long)(addr_) + \ ++ (len)) <= PE_LMEM_END); }) ++ ++#define IS_PFE_LMEM(addr, len) \ ++ ({ typeof(addr) addr_ = (addr); \ ++ ((unsigned long)(addr_) >= \ ++ CBUS_VIRT_TO_PFE(LMEM_BASE_ADDR)) && \ ++ (((unsigned long)(addr_) + (len)) <= \ ++ CBUS_VIRT_TO_PFE(LMEM_END)); }) ++ ++#define __IS_PHYS_DDR(addr, len) \ ++ ({ typeof(addr) addr_ = (addr); \ ++ ((unsigned long)(addr_) >= \ ++ DDR_PHYS_BASE_ADDR) && \ ++ (((unsigned long)(addr_) + (len)) <= \ ++ DDR_PHYS_END); }) ++ ++#define IS_PHYS_DDR(addr, len) __IS_PHYS_DDR(DDR_PFE_TO_PHYS(addr), len) ++ ++/* ++ * If using a run-time virtual address for the cbus base address use this code ++ */ ++extern void *cbus_base_addr; ++extern void *ddr_base_addr; ++extern unsigned long ddr_phys_base_addr; ++extern unsigned int ddr_size; ++ ++#define CBUS_BASE_ADDR cbus_base_addr ++#define DDR_PHYS_BASE_ADDR ddr_phys_base_addr ++#define DDR_BASE_ADDR ddr_base_addr ++#define DDR_SIZE ddr_size ++ ++#define DDR_PHYS_END (DDR_PHYS_BASE_ADDR + DDR_SIZE) ++ ++#define LS1012A_PFE_RESET_WA /* ++ * PFE doesn't have global reset and re-init ++ * should takecare few things to make PFE ++ * functional after reset ++ */ ++#define PFE_CBUS_PHYS_BASE_ADDR 0xc0000000 /* CBUS physical base address ++ * as seen by PE's. ++ */ ++/* CBUS physical base address as seen by PE's. */ ++#define PFE_CBUS_PHYS_BASE_ADDR_FROM_PFE 0xc0000000 ++ ++#define DDR_PHYS_TO_PFE(p) (((unsigned long int)(p)) & 0x7FFFFFFF) ++#define DDR_PFE_TO_PHYS(p) (((unsigned long int)(p)) | 0x80000000) ++#define CBUS_PHYS_TO_PFE(p) (((p) - PFE_CBUS_PHYS_BASE_ADDR) + \ ++ PFE_CBUS_PHYS_BASE_ADDR_FROM_PFE) ++/* Translates to PFE address map */ ++ ++#define DDR_PHYS_TO_VIRT(p) (((p) - DDR_PHYS_BASE_ADDR) + DDR_BASE_ADDR) ++#define DDR_VIRT_TO_PHYS(v) (((v) - DDR_BASE_ADDR) + DDR_PHYS_BASE_ADDR) ++#define DDR_VIRT_TO_PFE(p) (DDR_PHYS_TO_PFE(DDR_VIRT_TO_PHYS(p))) ++ ++#define CBUS_VIRT_TO_PFE(v) (((v) - CBUS_BASE_ADDR) + \ ++ PFE_CBUS_PHYS_BASE_ADDR) ++#define CBUS_PFE_TO_VIRT(p) (((unsigned long int)(p) - \ ++ PFE_CBUS_PHYS_BASE_ADDR) + CBUS_BASE_ADDR) ++ ++/* The below part of the code is used in QOS control driver from host */ ++#define TMU_APB_BASE_ADDR 0xc1000000 /* TMU base address seen by ++ * pe's ++ */ ++ ++enum { ++ CLASS0_ID = 0, ++ CLASS1_ID, ++ CLASS2_ID, ++ CLASS3_ID, ++ CLASS4_ID, ++ CLASS5_ID, ++ TMU0_ID, ++ TMU1_ID, ++ TMU2_ID, ++ TMU3_ID, ++#if !defined(CONFIG_FSL_PPFE_UTIL_DISABLED) ++ UTIL_ID, ++#endif ++ MAX_PE ++}; ++ ++#define CLASS_MASK (BIT(CLASS0_ID) | BIT(CLASS1_ID) |\ ++ BIT(CLASS2_ID) | BIT(CLASS3_ID) |\ ++ BIT(CLASS4_ID) | BIT(CLASS5_ID)) ++#define CLASS_MAX_ID CLASS5_ID ++ ++#define TMU_MASK (BIT(TMU0_ID) | BIT(TMU1_ID) |\ ++ BIT(TMU3_ID)) ++ ++#define TMU_MAX_ID TMU3_ID ++ ++#if !defined(CONFIG_FSL_PPFE_UTIL_DISABLED) ++#define UTIL_MASK BIT(UTIL_ID) ++#endif ++ ++struct pe_status { ++ u32 cpu_state; ++ u32 activity_counter; ++ u32 rx; ++ union { ++ u32 tx; ++ u32 tmu_qstatus; ++ }; ++ u32 drop; ++#if defined(CFG_PE_DEBUG) ++ u32 debug_indicator; ++ u32 debug[16]; ++#endif ++} __aligned(16); ++ ++struct pe_sync_mailbox { ++ u32 stop; ++ u32 stopped; ++}; ++ ++/* Drop counter definitions */ ++ ++#define CLASS_NUM_DROP_COUNTERS 13 ++#define UTIL_NUM_DROP_COUNTERS 8 ++ ++/* PE information. ++ * Structure containing PE's specific information. It is used to create ++ * generic C functions common to all PE's. ++ * Before using the library functions this structure needs to be initialized ++ * with the different registers virtual addresses ++ * (according to the ARM MMU mmaping). The default initialization supports a ++ * virtual == physical mapping. ++ */ ++struct pe_info { ++ u32 dmem_base_addr; /* PE's dmem base address */ ++ u32 pmem_base_addr; /* PE's pmem base address */ ++ u32 pmem_size; /* PE's pmem size */ ++ ++ void *mem_access_wdata; /* PE's _MEM_ACCESS_WDATA register ++ * address ++ */ ++ void *mem_access_addr; /* PE's _MEM_ACCESS_ADDR register ++ * address ++ */ ++ void *mem_access_rdata; /* PE's _MEM_ACCESS_RDATA register ++ * address ++ */ ++}; ++ ++void pe_lmem_read(u32 *dst, u32 len, u32 offset); ++void pe_lmem_write(u32 *src, u32 len, u32 offset); ++ ++void pe_dmem_memcpy_to32(int id, u32 dst, const void *src, unsigned int len); ++void pe_pmem_memcpy_to32(int id, u32 dst, const void *src, unsigned int len); ++ ++u32 pe_pmem_read(int id, u32 addr, u8 size); ++ ++void pe_dmem_write(int id, u32 val, u32 addr, u8 size); ++u32 pe_dmem_read(int id, u32 addr, u8 size); ++void class_pe_lmem_memcpy_to32(u32 dst, const void *src, unsigned int len); ++void class_pe_lmem_memset(u32 dst, int val, unsigned int len); ++void class_bus_write(u32 val, u32 addr, u8 size); ++u32 class_bus_read(u32 addr, u8 size); ++ ++#define class_bus_readl(addr) class_bus_read(addr, 4) ++#define class_bus_readw(addr) class_bus_read(addr, 2) ++#define class_bus_readb(addr) class_bus_read(addr, 1) ++ ++#define class_bus_writel(val, addr) class_bus_write(val, addr, 4) ++#define class_bus_writew(val, addr) class_bus_write(val, addr, 2) ++#define class_bus_writeb(val, addr) class_bus_write(val, addr, 1) ++ ++#define pe_dmem_readl(id, addr) pe_dmem_read(id, addr, 4) ++#define pe_dmem_readw(id, addr) pe_dmem_read(id, addr, 2) ++#define pe_dmem_readb(id, addr) pe_dmem_read(id, addr, 1) ++ ++#define pe_dmem_writel(id, val, addr) pe_dmem_write(id, val, addr, 4) ++#define pe_dmem_writew(id, val, addr) pe_dmem_write(id, val, addr, 2) ++#define pe_dmem_writeb(id, val, addr) pe_dmem_write(id, val, addr, 1) ++ ++/*int pe_load_elf_section(int id, const void *data, elf32_shdr *shdr); */ ++int pe_load_elf_section(int id, const void *data, struct elf32_shdr *shdr, ++ struct device *dev); ++ ++void pfe_lib_init(void *cbus_base, void *ddr_base, unsigned long ddr_phys_base, ++ unsigned int ddr_size); ++void bmu_init(void *base, struct BMU_CFG *cfg); ++void bmu_reset(void *base); ++void bmu_enable(void *base); ++void bmu_disable(void *base); ++void bmu_set_config(void *base, struct BMU_CFG *cfg); ++ ++/* ++ * An enumerated type for loopback values. This can be one of three values, no ++ * loopback -normal operation, local loopback with internal loopback module of ++ * MAC or PHY loopback which is through the external PHY. ++ */ ++#ifndef __MAC_LOOP_ENUM__ ++#define __MAC_LOOP_ENUM__ ++enum mac_loop {LB_NONE, LB_EXT, LB_LOCAL}; ++#endif ++ ++void gemac_init(void *base, void *config); ++void gemac_disable_rx_checksum_offload(void *base); ++void gemac_enable_rx_checksum_offload(void *base); ++void gemac_set_mdc_div(void *base, int mdc_div); ++void gemac_set_speed(void *base, enum mac_speed gem_speed); ++void gemac_set_duplex(void *base, int duplex); ++void gemac_set_mode(void *base, int mode); ++void gemac_enable(void *base); ++void gemac_tx_disable(void *base); ++void gemac_tx_enable(void *base); ++void gemac_disable(void *base); ++void gemac_reset(void *base); ++void gemac_set_address(void *base, struct spec_addr *addr); ++struct spec_addr gemac_get_address(void *base); ++void gemac_set_loop(void *base, enum mac_loop gem_loop); ++void gemac_set_laddr1(void *base, struct pfe_mac_addr *address); ++void gemac_set_laddr2(void *base, struct pfe_mac_addr *address); ++void gemac_set_laddr3(void *base, struct pfe_mac_addr *address); ++void gemac_set_laddr4(void *base, struct pfe_mac_addr *address); ++void gemac_set_laddrN(void *base, struct pfe_mac_addr *address, ++ unsigned int entry_index); ++void gemac_clear_laddr1(void *base); ++void gemac_clear_laddr2(void *base); ++void gemac_clear_laddr3(void *base); ++void gemac_clear_laddr4(void *base); ++void gemac_clear_laddrN(void *base, unsigned int entry_index); ++struct pfe_mac_addr gemac_get_hash(void *base); ++void gemac_set_hash(void *base, struct pfe_mac_addr *hash); ++struct pfe_mac_addr gem_get_laddr1(void *base); ++struct pfe_mac_addr gem_get_laddr2(void *base); ++struct pfe_mac_addr gem_get_laddr3(void *base); ++struct pfe_mac_addr gem_get_laddr4(void *base); ++struct pfe_mac_addr gem_get_laddrN(void *base, unsigned int entry_index); ++void gemac_set_config(void *base, struct gemac_cfg *cfg); ++void gemac_allow_broadcast(void *base); ++void gemac_no_broadcast(void *base); ++void gemac_enable_1536_rx(void *base); ++void gemac_disable_1536_rx(void *base); ++void gemac_set_rx_max_fl(void *base, int mtu); ++void gemac_enable_rx_jmb(void *base); ++void gemac_disable_rx_jmb(void *base); ++void gemac_enable_stacked_vlan(void *base); ++void gemac_disable_stacked_vlan(void *base); ++void gemac_enable_pause_rx(void *base); ++void gemac_disable_pause_rx(void *base); ++void gemac_enable_copy_all(void *base); ++void gemac_disable_copy_all(void *base); ++void gemac_set_bus_width(void *base, int width); ++void gemac_set_wol(void *base, u32 wol_conf); ++ ++void gpi_init(void *base, struct gpi_cfg *cfg); ++void gpi_reset(void *base); ++void gpi_enable(void *base); ++void gpi_disable(void *base); ++void gpi_set_config(void *base, struct gpi_cfg *cfg); ++ ++void class_init(struct class_cfg *cfg); ++void class_reset(void); ++void class_enable(void); ++void class_disable(void); ++void class_set_config(struct class_cfg *cfg); ++ ++void tmu_reset(void); ++void tmu_init(struct tmu_cfg *cfg); ++void tmu_enable(u32 pe_mask); ++void tmu_disable(u32 pe_mask); ++u32 tmu_qstatus(u32 if_id); ++u32 tmu_pkts_processed(u32 if_id); ++ ++void util_init(struct util_cfg *cfg); ++void util_reset(void); ++void util_enable(void); ++void util_disable(void); ++ ++void hif_init(void); ++void hif_tx_enable(void); ++void hif_tx_disable(void); ++void hif_rx_enable(void); ++void hif_rx_disable(void); ++ ++/* Get Chip Revision level ++ * ++ */ ++static inline unsigned int CHIP_REVISION(void) ++{ ++ /*For LS1012A return always 1 */ ++ return 1; ++} ++ ++/* Start HIF rx DMA ++ * ++ */ ++static inline void hif_rx_dma_start(void) ++{ ++ writel(HIF_CTRL_DMA_EN | HIF_CTRL_BDP_CH_START_WSTB, HIF_RX_CTRL); ++} ++ ++/* Start HIF tx DMA ++ * ++ */ ++static inline void hif_tx_dma_start(void) ++{ ++ writel(HIF_CTRL_DMA_EN | HIF_CTRL_BDP_CH_START_WSTB, HIF_TX_CTRL); ++} ++ ++#endif /* _PFE_H_ */ +--- /dev/null ++++ b/drivers/staging/fsl_ppfe/pfe_ctrl.c +@@ -0,0 +1,238 @@ ++/* ++ * Copyright 2015-2016 Freescale Semiconductor, Inc. ++ * Copyright 2017 NXP ++ * ++ * 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, see <http://www.gnu.org/licenses/>. ++ */ ++ ++#include <linux/kernel.h> ++#include <linux/sched.h> ++#include <linux/module.h> ++#include <linux/list.h> ++#include <linux/kthread.h> ++ ++#include "pfe_mod.h" ++#include "pfe_ctrl.h" ++ ++#define TIMEOUT_MS 1000 ++ ++int relax(unsigned long end) ++{ ++ if (time_after(jiffies, end)) { ++ if (time_after(jiffies, end + (TIMEOUT_MS * HZ) / 1000)) ++ return -1; ++ ++ if (need_resched()) ++ schedule(); ++ } ++ ++ return 0; ++} ++ ++void pfe_ctrl_suspend(struct pfe_ctrl *ctrl) ++{ ++ int id; ++ ++ mutex_lock(&ctrl->mutex); ++ ++ for (id = CLASS0_ID; id <= CLASS_MAX_ID; id++) ++ pe_dmem_write(id, cpu_to_be32(0x1), CLASS_DM_RESUME, 4); ++ ++ for (id = TMU0_ID; id <= TMU_MAX_ID; id++) { ++ if (id == TMU2_ID) ++ continue; ++ pe_dmem_write(id, cpu_to_be32(0x1), TMU_DM_RESUME, 4); ++ } ++ ++#if !defined(CONFIG_FSL_PPFE_UTIL_DISABLED) ++ pe_dmem_write(UTIL_ID, cpu_to_be32(0x1), UTIL_DM_RESUME, 4); ++#endif ++ mutex_unlock(&ctrl->mutex); ++} ++ ++void pfe_ctrl_resume(struct pfe_ctrl *ctrl) ++{ ++ int pe_mask = CLASS_MASK | TMU_MASK; ++ ++#if !defined(CONFIG_FSL_PPFE_UTIL_DISABLED) ++ pe_mask |= UTIL_MASK; ++#endif ++ mutex_lock(&ctrl->mutex); ++ pe_start(&pfe->ctrl, pe_mask); ++ mutex_unlock(&ctrl->mutex); ++} ++ ++/* PE sync stop. ++ * Stops packet processing for a list of PE's (specified using a bitmask). ++ * The caller must hold ctrl->mutex. ++ * ++ * @param ctrl Control context ++ * @param pe_mask Mask of PE id's to stop ++ * ++ */ ++int pe_sync_stop(struct pfe_ctrl *ctrl, int pe_mask) ++{ ++ struct pe_sync_mailbox *mbox; ++ int pe_stopped = 0; ++ unsigned long end = jiffies + 2; ++ int i; ++ ++ pe_mask &= 0x2FF; /*Exclude Util + TMU2 */ ++ ++ for (i = 0; i < MAX_PE; i++) ++ if (pe_mask & (1 << i)) { ++ mbox = (void *)ctrl->sync_mailbox_baseaddr[i]; ++ ++ pe_dmem_write(i, cpu_to_be32(0x1), (unsigned ++ long)&mbox->stop, 4); ++ } ++ ++ while (pe_stopped != pe_mask) { ++ for (i = 0; i < MAX_PE; i++) ++ if ((pe_mask & (1 << i)) && !(pe_stopped & (1 << i))) { ++ mbox = (void *)ctrl->sync_mailbox_baseaddr[i]; ++ ++ if (pe_dmem_read(i, (unsigned ++ long)&mbox->stopped, 4) & ++ cpu_to_be32(0x1)) ++ pe_stopped |= (1 << i); ++ } ++ ++ if (relax(end) < 0) ++ goto err; ++ } ++ ++ return 0; ++ ++err: ++ pr_err("%s: timeout, %x %x\n", __func__, pe_mask, pe_stopped); ++ ++ for (i = 0; i < MAX_PE; i++) ++ if (pe_mask & (1 << i)) { ++ mbox = (void *)ctrl->sync_mailbox_baseaddr[i]; ++ ++ pe_dmem_write(i, cpu_to_be32(0x0), (unsigned ++ long)&mbox->stop, 4); ++ } ++ ++ return -EIO; ++} ++ ++/* PE start. ++ * Starts packet processing for a list of PE's (specified using a bitmask). ++ * The caller must hold ctrl->mutex. ++ * ++ * @param ctrl Control context ++ * @param pe_mask Mask of PE id's to start ++ * ++ */ ++void pe_start(struct pfe_ctrl *ctrl, int pe_mask) ++{ ++ struct pe_sync_mailbox *mbox; ++ int i; ++ ++ for (i = 0; i < MAX_PE; i++) ++ if (pe_mask & (1 << i)) { ++ mbox = (void *)ctrl->sync_mailbox_baseaddr[i]; ++ ++ pe_dmem_write(i, cpu_to_be32(0x0), (unsigned ++ long)&mbox->stop, 4); ++ } ++} ++ ++/* This function will ensure all PEs are put in to idle state */ ++int pe_reset_all(struct pfe_ctrl *ctrl) ++{ ++ struct pe_sync_mailbox *mbox; ++ int pe_stopped = 0; ++ unsigned long end = jiffies + 2; ++ int i; ++ int pe_mask = CLASS_MASK | TMU_MASK; ++ ++#if !defined(CONFIG_FSL_PPFE_UTIL_DISABLED) ++ pe_mask |= UTIL_MASK; ++#endif ++ ++ for (i = 0; i < MAX_PE; i++) ++ if (pe_mask & (1 << i)) { ++ mbox = (void *)ctrl->sync_mailbox_baseaddr[i]; ++ ++ pe_dmem_write(i, cpu_to_be32(0x2), (unsigned ++ long)&mbox->stop, 4); ++ } ++ ++ while (pe_stopped != pe_mask) { ++ for (i = 0; i < MAX_PE; i++) ++ if ((pe_mask & (1 << i)) && !(pe_stopped & (1 << i))) { ++ mbox = (void *)ctrl->sync_mailbox_baseaddr[i]; ++ ++ if (pe_dmem_read(i, (unsigned long) ++ &mbox->stopped, 4) & ++ cpu_to_be32(0x1)) ++ pe_stopped |= (1 << i); ++ } ++ ++ if (relax(end) < 0) ++ goto err; ++ } ++ ++ return 0; ++ ++err: ++ pr_err("%s: timeout, %x %x\n", __func__, pe_mask, pe_stopped); ++ return -EIO; ++} ++ ++int pfe_ctrl_init(struct pfe *pfe) ++{ ++ struct pfe_ctrl *ctrl = &pfe->ctrl; ++ int id; ++ ++ pr_info("%s\n", __func__); ++ ++ mutex_init(&ctrl->mutex); ++ spin_lock_init(&ctrl->lock); ++ ++ for (id = CLASS0_ID; id <= CLASS_MAX_ID; id++) { ++ ctrl->sync_mailbox_baseaddr[id] = CLASS_DM_SYNC_MBOX; ++ ctrl->msg_mailbox_baseaddr[id] = CLASS_DM_MSG_MBOX; ++ } ++ ++ for (id = TMU0_ID; id <= TMU_MAX_ID; id++) { ++ if (id == TMU2_ID) ++ continue; ++ ctrl->sync_mailbox_baseaddr[id] = TMU_DM_SYNC_MBOX; ++ ctrl->msg_mailbox_baseaddr[id] = TMU_DM_MSG_MBOX; ++ } ++ ++#if !defined(CONFIG_FSL_PPFE_UTIL_DISABLED) ++ ctrl->sync_mailbox_baseaddr[UTIL_ID] = UTIL_DM_SYNC_MBOX; ++ ctrl->msg_mailbox_baseaddr[UTIL_ID] = UTIL_DM_MSG_MBOX; ++#endif ++ ++ ctrl->hash_array_baseaddr = pfe->ddr_baseaddr + ROUTE_TABLE_BASEADDR; ++ ctrl->hash_array_phys_baseaddr = pfe->ddr_phys_baseaddr + ++ ROUTE_TABLE_BASEADDR; ++ ++ ctrl->dev = pfe->dev; ++ ++ pr_info("%s finished\n", __func__); ++ ++ return 0; ++} ++ ++void pfe_ctrl_exit(struct pfe *pfe) ++{ ++ pr_info("%s\n", __func__); ++} +--- /dev/null ++++ b/drivers/staging/fsl_ppfe/pfe_ctrl.h +@@ -0,0 +1,112 @@ ++/* ++ * Copyright 2015-2016 Freescale Semiconductor, Inc. ++ * Copyright 2017 NXP ++ * ++ * 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, see <http://www.gnu.org/licenses/>. ++ */ ++ ++#ifndef _PFE_CTRL_H_ ++#define _PFE_CTRL_H_ ++ ++#include <linux/dmapool.h> ++ ++#include "pfe_mod.h" ++#include "pfe/pfe.h" ++ ++#define DMA_BUF_SIZE_128 0x80 /* enough for 1 conntracks */ ++#define DMA_BUF_SIZE_256 0x100 ++/* enough for 2 conntracks, 1 bridge entry or 1 multicast entry */ ++#define DMA_BUF_SIZE_512 0x200 ++/* 512bytes dma allocated buffers used by rtp relay feature */ ++#define DMA_BUF_MIN_ALIGNMENT 8 ++#define DMA_BUF_BOUNDARY (4 * 1024) ++/* bursts can not cross 4k boundary */ ++ ++#define CMD_TX_ENABLE 0x0501 ++#define CMD_TX_DISABLE 0x0502 ++ ++#define CMD_RX_LRO 0x0011 ++#define CMD_PKTCAP_ENABLE 0x0d01 ++#define CMD_QM_EXPT_RATE 0x020c ++ ++#define CLASS_DM_SH_STATIC (0x800) ++#define CLASS_DM_CPU_TICKS (CLASS_DM_SH_STATIC) ++#define CLASS_DM_SYNC_MBOX (0x808) ++#define CLASS_DM_MSG_MBOX (0x810) ++#define CLASS_DM_DROP_CNTR (0x820) ++#define CLASS_DM_RESUME (0x854) ++#define CLASS_DM_PESTATUS (0x860) ++ ++#define TMU_DM_SH_STATIC (0x80) ++#define TMU_DM_CPU_TICKS (TMU_DM_SH_STATIC) ++#define TMU_DM_SYNC_MBOX (0x88) ++#define TMU_DM_MSG_MBOX (0x90) ++#define TMU_DM_RESUME (0xA0) ++#define TMU_DM_PESTATUS (0xB0) ++#define TMU_DM_CONTEXT (0x300) ++#define TMU_DM_TX_TRANS (0x480) ++ ++#define UTIL_DM_SH_STATIC (0x0) ++#define UTIL_DM_CPU_TICKS (UTIL_DM_SH_STATIC) ++#define UTIL_DM_SYNC_MBOX (0x8) ++#define UTIL_DM_MSG_MBOX (0x10) ++#define UTIL_DM_DROP_CNTR (0x20) ++#define UTIL_DM_RESUME (0x40) ++#define UTIL_DM_PESTATUS (0x50) ++ ++struct pfe_ctrl { ++ struct mutex mutex; /* to serialize pfe control access */ ++ spinlock_t lock; ++ ++ void *dma_pool; ++ void *dma_pool_512; ++ void *dma_pool_128; ++ ++ struct device *dev; ++ ++ void *hash_array_baseaddr; /* ++ * Virtual base address of ++ * the conntrack hash array ++ */ ++ unsigned long hash_array_phys_baseaddr; /* ++ * Physical base address of ++ * the conntrack hash array ++ */ ++ ++ int (*event_cb)(u16, u16, u16*); ++ ++ unsigned long sync_mailbox_baseaddr[MAX_PE]; /* ++ * Sync mailbox PFE ++ * internal address, ++ * initialized ++ * when parsing elf images ++ */ ++ unsigned long msg_mailbox_baseaddr[MAX_PE]; /* ++ * Msg mailbox PFE internal ++ * address, initialized ++ * when parsing elf images ++ */ ++ unsigned int sys_clk; /* AXI clock value, in KHz */ ++}; ++ ++int pfe_ctrl_init(struct pfe *pfe); ++void pfe_ctrl_exit(struct pfe *pfe); ++int pe_sync_stop(struct pfe_ctrl *ctrl, int pe_mask); ++void pe_start(struct pfe_ctrl *ctrl, int pe_mask); ++int pe_reset_all(struct pfe_ctrl *ctrl); ++void pfe_ctrl_suspend(struct pfe_ctrl *ctrl); ++void pfe_ctrl_resume(struct pfe_ctrl *ctrl); ++int relax(unsigned long end); ++ ++#endif /* _PFE_CTRL_H_ */ +--- /dev/null ++++ b/drivers/staging/fsl_ppfe/pfe_debugfs.c +@@ -0,0 +1,111 @@ ++/* ++ * Copyright 2015-2016 Freescale Semiconductor, Inc. ++ * Copyright 2017 NXP ++ * ++ * 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, see <http://www.gnu.org/licenses/>. ++ */ ++ ++#include <linux/module.h> ++#include <linux/debugfs.h> ++#include <linux/platform_device.h> ++ ++#include "pfe_mod.h" ++ ++static int dmem_show(struct seq_file *s, void *unused) ++{ ++ u32 dmem_addr, val; ++ int id = (long int)s->private; ++ int i; ++ ++ for (dmem_addr = 0; dmem_addr < CLASS_DMEM_SIZE; dmem_addr += 8 * 4) { ++ seq_printf(s, "%04x:", dmem_addr); ++ ++ for (i = 0; i < 8; i++) { ++ val = pe_dmem_read(id, dmem_addr + i * 4, 4); ++ seq_printf(s, " %02x %02x %02x %02x", val & 0xff, ++ (val >> 8) & 0xff, (val >> 16) & 0xff, ++ (val >> 24) & 0xff); ++ } ++ ++ seq_puts(s, "\n"); ++ } ++ ++ return 0; ++} ++ ++static int dmem_open(struct inode *inode, struct file *file) ++{ ++ return single_open(file, dmem_show, inode->i_private); ++} ++ ++static const struct file_operations dmem_fops = { ++ .open = dmem_open, ++ .read = seq_read, ++ .llseek = seq_lseek, ++ .release = single_release, ++}; ++ ++int pfe_debugfs_init(struct pfe *pfe) ++{ ++ struct dentry *d; ++ ++ pr_info("%s\n", __func__); ++ ++ pfe->dentry = debugfs_create_dir("pfe", NULL); ++ if (IS_ERR_OR_NULL(pfe->dentry)) ++ goto err_dir; ++ ++ d = debugfs_create_file("pe0_dmem", 0444, pfe->dentry, (void *)0, ++ &dmem_fops); ++ if (IS_ERR_OR_NULL(d)) ++ goto err_pe; ++ ++ d = debugfs_create_file("pe1_dmem", 0444, pfe->dentry, (void *)1, ++ &dmem_fops); ++ if (IS_ERR_OR_NULL(d)) ++ goto err_pe; ++ ++ d = debugfs_create_file("pe2_dmem", 0444, pfe->dentry, (void *)2, ++ &dmem_fops); ++ if (IS_ERR_OR_NULL(d)) ++ goto err_pe; ++ ++ d = debugfs_create_file("pe3_dmem", 0444, pfe->dentry, (void *)3, ++ &dmem_fops); ++ if (IS_ERR_OR_NULL(d)) ++ goto err_pe; ++ ++ d = debugfs_create_file("pe4_dmem", 0444, pfe->dentry, (void *)4, ++ &dmem_fops); ++ if (IS_ERR_OR_NULL(d)) ++ goto err_pe; ++ ++ d = debugfs_create_file("pe5_dmem", 0444, pfe->dentry, (void *)5, ++ &dmem_fops); ++ if (IS_ERR_OR_NULL(d)) ++ goto err_pe; ++ ++ return 0; ++ ++err_pe: ++ debugfs_remove_recursive(pfe->dentry); ++ ++err_dir: ++ return -1; ++} ++ ++void pfe_debugfs_exit(struct pfe *pfe) ++{ ++ debugfs_remove_recursive(pfe->dentry); ++} +--- /dev/null ++++ b/drivers/staging/fsl_ppfe/pfe_debugfs.h +@@ -0,0 +1,25 @@ ++/* ++ * Copyright 2015-2016 Freescale Semiconductor, Inc. ++ * Copyright 2017 NXP ++ * ++ * 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, see <http://www.gnu.org/licenses/>. ++ */ ++ ++#ifndef _PFE_DEBUGFS_H_ ++#define _PFE_DEBUGFS_H_ ++ ++int pfe_debugfs_init(struct pfe *pfe); ++void pfe_debugfs_exit(struct pfe *pfe); ++ ++#endif /* _PFE_DEBUGFS_H_ */ +--- /dev/null ++++ b/drivers/staging/fsl_ppfe/pfe_eth.c +@@ -0,0 +1,2521 @@ ++/* ++ * Copyright 2015-2016 Freescale Semiconductor, Inc. ++ * Copyright 2017 NXP ++ * ++ * 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, see <http://www.gnu.org/licenses/>. ++ */ ++ ++/* @pfe_eth.c. ++ * Ethernet driver for to handle exception path for PFE. ++ * - uses HIF functions to send/receive packets. ++ * - uses ctrl function to start/stop interfaces. ++ * - uses direct register accesses to control phy operation. ++ */ ++#include <linux/version.h> ++#include <linux/kernel.h> ++#include <linux/interrupt.h> ++#include <linux/dma-mapping.h> ++#include <linux/dmapool.h> ++#include <linux/netdevice.h> ++#include <linux/etherdevice.h> ++#include <linux/ethtool.h> ++#include <linux/mii.h> ++#include <linux/phy.h> ++#include <linux/timer.h> ++#include <linux/hrtimer.h> ++#include <linux/platform_device.h> ++ ++#include <net/ip.h> ++#include <net/sock.h> ++ ++#include <linux/io.h> ++#include <asm/irq.h> ++#include <linux/delay.h> ++#include <linux/regmap.h> ++#include <linux/i2c.h> ++#include <linux/fsl/guts.h> ++ ++#if defined(CONFIG_NF_CONNTRACK_MARK) ++#include <net/netfilter/nf_conntrack.h> ++#endif ++ ++#include "pfe_mod.h" ++#include "pfe_eth.h" ++ ++#define LS1012A_REV_1_0 0x87040010 ++ ++bool pfe_errata_a010897; ++ ++static void *cbus_emac_base[3]; ++static void *cbus_gpi_base[3]; ++ ++/* Forward Declaration */ ++static void pfe_eth_exit_one(struct pfe_eth_priv_s *priv); ++static void pfe_eth_flush_tx(struct pfe_eth_priv_s *priv); ++static void pfe_eth_flush_txQ(struct pfe_eth_priv_s *priv, int tx_q_num, int ++ from_tx, int n_desc); ++ ++unsigned int gemac_regs[] = { ++ 0x0004, /* Interrupt event */ ++ 0x0008, /* Interrupt mask */ ++ 0x0024, /* Ethernet control */ ++ 0x0064, /* MIB Control/Status */ ++ 0x0084, /* Receive control/status */ ++ 0x00C4, /* Transmit control */ ++ 0x00E4, /* Physical address low */ ++ 0x00E8, /* Physical address high */ ++ 0x0144, /* Transmit FIFO Watermark and Store and Forward Control*/ ++ 0x0190, /* Receive FIFO Section Full Threshold */ ++ 0x01A0, /* Transmit FIFO Section Empty Threshold */ ++ 0x01B0, /* Frame Truncation Length */ ++}; ++ ++/********************************************************************/ ++/* SYSFS INTERFACE */ ++/********************************************************************/ ++ ++#ifdef PFE_ETH_NAPI_STATS ++/* ++ * pfe_eth_show_napi_stats ++ */ ++static ssize_t pfe_eth_show_napi_stats(struct device *dev, ++ struct device_attribute *attr, ++ char *buf) ++{ ++ struct pfe_eth_priv_s *priv = netdev_priv(to_net_dev(dev)); ++ ssize_t len = 0; ++ ++ len += sprintf(buf + len, "sched: %u\n", ++ priv->napi_counters[NAPI_SCHED_COUNT]); ++ len += sprintf(buf + len, "poll: %u\n", ++ priv->napi_counters[NAPI_POLL_COUNT]); ++ len += sprintf(buf + len, "packet: %u\n", ++ priv->napi_counters[NAPI_PACKET_COUNT]); ++ len += sprintf(buf + len, "budget: %u\n", ++ priv->napi_counters[NAPI_FULL_BUDGET_COUNT]); ++ len += sprintf(buf + len, "desc: %u\n", ++ priv->napi_counters[NAPI_DESC_COUNT]); ++ ++ return len; ++} ++ ++/* ++ * pfe_eth_set_napi_stats ++ */ ++static ssize_t pfe_eth_set_napi_stats(struct device *dev, ++ struct device_attribute *attr, ++ const char *buf, size_t count) ++{ ++ struct pfe_eth_priv_s *priv = netdev_priv(to_net_dev(dev)); ++ ++ memset(priv->napi_counters, 0, sizeof(priv->napi_counters)); ++ ++ return count; ++} ++#endif ++#ifdef PFE_ETH_TX_STATS ++/* pfe_eth_show_tx_stats ++ * ++ */ ++static ssize_t pfe_eth_show_tx_stats(struct device *dev, ++ struct device_attribute *attr, ++ char *buf) ++{ ++ struct pfe_eth_priv_s *priv = netdev_priv(to_net_dev(dev)); ++ ssize_t len = 0; ++ int i; ++ ++ len += sprintf(buf + len, "TX queues stats:\n"); ++ ++ for (i = 0; i < emac_txq_cnt; i++) { ++ struct netdev_queue *tx_queue = netdev_get_tx_queue(priv->ndev, ++ i); ++ ++ len += sprintf(buf + len, "\n"); ++ __netif_tx_lock_bh(tx_queue); ++ ++ hif_tx_lock(&pfe->hif); ++ len += sprintf(buf + len, ++ "Queue %2d : credits = %10d\n" ++ , i, hif_lib_tx_credit_avail(pfe, priv->id, i)); ++ len += sprintf(buf + len, ++ " tx packets = %10d\n" ++ , pfe->tmu_credit.tx_packets[priv->id][i]); ++ hif_tx_unlock(&pfe->hif); ++ ++ /* Don't output additionnal stats if queue never used */ ++ if (!pfe->tmu_credit.tx_packets[priv->id][i]) ++ goto skip; ++ ++ len += sprintf(buf + len, ++ " clean_fail = %10d\n" ++ , priv->clean_fail[i]); ++ len += sprintf(buf + len, ++ " stop_queue = %10d\n" ++ , priv->stop_queue_total[i]); ++ len += sprintf(buf + len, ++ " stop_queue_hif = %10d\n" ++ , priv->stop_queue_hif[i]); ++ len += sprintf(buf + len, ++ " stop_queue_hif_client = %10d\n" ++ , priv->stop_queue_hif_client[i]); ++ len += sprintf(buf + len, ++ " stop_queue_credit = %10d\n" ++ , priv->stop_queue_credit[i]); ++skip: ++ __netif_tx_unlock_bh(tx_queue); ++ } ++ return len; ++} ++ ++/* pfe_eth_set_tx_stats ++ * ++ */ ++static ssize_t pfe_eth_set_tx_stats(struct device *dev, ++ struct device_attribute *attr, ++ const char *buf, size_t count) ++{ ++ struct pfe_eth_priv_s *priv = netdev_priv(to_net_dev(dev)); ++ int i; ++ ++ for (i = 0; i < emac_txq_cnt; i++) { ++ struct netdev_queue *tx_queue = netdev_get_tx_queue(priv->ndev, ++ i); ++ ++ __netif_tx_lock_bh(tx_queue); ++ priv->clean_fail[i] = 0; ++ priv->stop_queue_total[i] = 0; ++ priv->stop_queue_hif[i] = 0; ++ priv->stop_queue_hif_client[i] = 0; ++ priv->stop_queue_credit[i] = 0; ++ __netif_tx_unlock_bh(tx_queue); ++ } ++ ++ return count; ++} ++#endif ++/* pfe_eth_show_txavail ++ * ++ */ ++static ssize_t pfe_eth_show_txavail(struct device *dev, ++ struct device_attribute *attr, ++ char *buf) ++{ ++ struct pfe_eth_priv_s *priv = netdev_priv(to_net_dev(dev)); ++ ssize_t len = 0; ++ int i; ++ ++ for (i = 0; i < emac_txq_cnt; i++) { ++ struct netdev_queue *tx_queue = netdev_get_tx_queue(priv->ndev, ++ i); ++ ++ __netif_tx_lock_bh(tx_queue); ++ ++ len += sprintf(buf + len, "%d", ++ hif_lib_tx_avail(&priv->client, i)); ++ ++ __netif_tx_unlock_bh(tx_queue); ++ ++ if (i == (emac_txq_cnt - 1)) ++ len += sprintf(buf + len, "\n"); ++ else ++ len += sprintf(buf + len, " "); ++ } ++ ++ return len; ++} ++ ++/* pfe_eth_show_default_priority ++ * ++ */ ++static ssize_t pfe_eth_show_default_priority(struct device *dev, ++ struct device_attribute *attr, ++ char *buf) ++{ ++ struct pfe_eth_priv_s *priv = netdev_priv(to_net_dev(dev)); ++ unsigned long flags; ++ int rc; ++ ++ spin_lock_irqsave(&priv->lock, flags); ++ rc = sprintf(buf, "%d\n", priv->default_priority); ++ spin_unlock_irqrestore(&priv->lock, flags); ++ ++ return rc; ++} ++ ++/* pfe_eth_set_default_priority ++ * ++ */ ++ ++static ssize_t pfe_eth_set_default_priority(struct device *dev, ++ struct device_attribute *attr, ++ const char *buf, size_t count) ++{ ++ struct pfe_eth_priv_s *priv = netdev_priv(to_net_dev(dev)); ++ unsigned long flags; ++ ++ spin_lock_irqsave(&priv->lock, flags); ++ priv->default_priority = kstrtoul(buf, 0, 0); ++ spin_unlock_irqrestore(&priv->lock, flags); ++ ++ return count; ++} ++ ++static DEVICE_ATTR(txavail, 0444, pfe_eth_show_txavail, NULL); ++static DEVICE_ATTR(default_priority, 0644, pfe_eth_show_default_priority, ++ pfe_eth_set_default_priority); ++ ++#ifdef PFE_ETH_NAPI_STATS ++static DEVICE_ATTR(napi_stats, 0644, pfe_eth_show_napi_stats, ++ pfe_eth_set_napi_stats); ++#endif ++ ++#ifdef PFE_ETH_TX_STATS ++static DEVICE_ATTR(tx_stats, 0644, pfe_eth_show_tx_stats, ++ pfe_eth_set_tx_stats); ++#endif ++ ++/* ++ * pfe_eth_sysfs_init ++ * ++ */ ++static int pfe_eth_sysfs_init(struct net_device *ndev) ++{ ++ struct pfe_eth_priv_s *priv = netdev_priv(ndev); ++ int err; ++ ++ /* Initialize the default values */ ++ ++ /* ++ * By default, packets without conntrack will use this default low ++ * priority queue ++ */ ++ priv->default_priority = 0; ++ ++ /* Create our sysfs files */ ++ err = device_create_file(&ndev->dev, &dev_attr_default_priority); ++ if (err) { ++ netdev_err(ndev, ++ "failed to create default_priority sysfs files\n"); ++ goto err_priority; ++ } ++ ++ err = device_create_file(&ndev->dev, &dev_attr_txavail); ++ if (err) { ++ netdev_err(ndev, ++ "failed to create default_priority sysfs files\n"); ++ goto err_txavail; ++ } ++ ++#ifdef PFE_ETH_NAPI_STATS ++ err = device_create_file(&ndev->dev, &dev_attr_napi_stats); ++ if (err) { ++ netdev_err(ndev, "failed to create napi stats sysfs files\n"); ++ goto err_napi; ++ } ++#endif ++ ++#ifdef PFE_ETH_TX_STATS ++ err = device_create_file(&ndev->dev, &dev_attr_tx_stats); ++ if (err) { ++ netdev_err(ndev, "failed to create tx stats sysfs files\n"); ++ goto err_tx; ++ } ++#endif ++ ++ return 0; ++ ++#ifdef PFE_ETH_TX_STATS ++err_tx: ++#endif ++#ifdef PFE_ETH_NAPI_STATS ++ device_remove_file(&ndev->dev, &dev_attr_napi_stats); ++ ++err_napi: ++#endif ++ device_remove_file(&ndev->dev, &dev_attr_txavail); ++ ++err_txavail: ++ device_remove_file(&ndev->dev, &dev_attr_default_priority); ++ ++err_priority: ++ return -1; ++} ++ ++/* pfe_eth_sysfs_exit ++ * ++ */ ++void pfe_eth_sysfs_exit(struct net_device *ndev) ++{ ++#ifdef PFE_ETH_TX_STATS ++ device_remove_file(&ndev->dev, &dev_attr_tx_stats); ++#endif ++ ++#ifdef PFE_ETH_NAPI_STATS ++ device_remove_file(&ndev->dev, &dev_attr_napi_stats); ++#endif ++ device_remove_file(&ndev->dev, &dev_attr_txavail); ++ device_remove_file(&ndev->dev, &dev_attr_default_priority); ++} ++ ++/*************************************************************************/ ++/* ETHTOOL INTERCAE */ ++/*************************************************************************/ ++ ++/*MTIP GEMAC */ ++static const struct fec_stat { ++ char name[ETH_GSTRING_LEN]; ++ u16 offset; ++} fec_stats[] = { ++ /* RMON TX */ ++ { "tx_dropped", RMON_T_DROP }, ++ { "tx_packets", RMON_T_PACKETS }, ++ { "tx_broadcast", RMON_T_BC_PKT }, ++ { "tx_multicast", RMON_T_MC_PKT }, ++ { "tx_crc_errors", RMON_T_CRC_ALIGN }, ++ { "tx_undersize", RMON_T_UNDERSIZE }, ++ { "tx_oversize", RMON_T_OVERSIZE }, ++ { "tx_fragment", RMON_T_FRAG }, ++ { "tx_jabber", RMON_T_JAB }, ++ { "tx_collision", RMON_T_COL }, ++ { "tx_64byte", RMON_T_P64 }, ++ { "tx_65to127byte", RMON_T_P65TO127 }, ++ { "tx_128to255byte", RMON_T_P128TO255 }, ++ { "tx_256to511byte", RMON_T_P256TO511 }, ++ { "tx_512to1023byte", RMON_T_P512TO1023 }, ++ { "tx_1024to2047byte", RMON_T_P1024TO2047 }, ++ { "tx_GTE2048byte", RMON_T_P_GTE2048 }, ++ { "tx_octets", RMON_T_OCTETS }, ++ ++ /* IEEE TX */ ++ { "IEEE_tx_drop", IEEE_T_DROP }, ++ { "IEEE_tx_frame_ok", IEEE_T_FRAME_OK }, ++ { "IEEE_tx_1col", IEEE_T_1COL }, ++ { "IEEE_tx_mcol", IEEE_T_MCOL }, ++ { "IEEE_tx_def", IEEE_T_DEF }, ++ { "IEEE_tx_lcol", IEEE_T_LCOL }, ++ { "IEEE_tx_excol", IEEE_T_EXCOL }, ++ { "IEEE_tx_macerr", IEEE_T_MACERR }, ++ { "IEEE_tx_cserr", IEEE_T_CSERR }, ++ { "IEEE_tx_sqe", IEEE_T_SQE }, ++ { "IEEE_tx_fdxfc", IEEE_T_FDXFC }, ++ { "IEEE_tx_octets_ok", IEEE_T_OCTETS_OK }, ++ ++ /* RMON RX */ ++ { "rx_packets", RMON_R_PACKETS }, ++ { "rx_broadcast", RMON_R_BC_PKT }, ++ { "rx_multicast", RMON_R_MC_PKT }, ++ { "rx_crc_errors", RMON_R_CRC_ALIGN }, ++ { "rx_undersize", RMON_R_UNDERSIZE }, ++ { "rx_oversize", RMON_R_OVERSIZE }, ++ { "rx_fragment", RMON_R_FRAG }, ++ { "rx_jabber", RMON_R_JAB }, ++ { "rx_64byte", RMON_R_P64 }, ++ { "rx_65to127byte", RMON_R_P65TO127 }, ++ { "rx_128to255byte", RMON_R_P128TO255 }, ++ { "rx_256to511byte", RMON_R_P256TO511 }, ++ { "rx_512to1023byte", RMON_R_P512TO1023 }, ++ { "rx_1024to2047byte", RMON_R_P1024TO2047 }, ++ { "rx_GTE2048byte", RMON_R_P_GTE2048 }, ++ { "rx_octets", RMON_R_OCTETS }, ++ ++ /* IEEE RX */ ++ { "IEEE_rx_drop", IEEE_R_DROP }, ++ { "IEEE_rx_frame_ok", IEEE_R_FRAME_OK }, ++ { "IEEE_rx_crc", IEEE_R_CRC }, ++ { "IEEE_rx_align", IEEE_R_ALIGN }, ++ { "IEEE_rx_macerr", IEEE_R_MACERR }, ++ { "IEEE_rx_fdxfc", IEEE_R_FDXFC }, ++ { "IEEE_rx_octets_ok", IEEE_R_OCTETS_OK }, ++}; ++ ++static void pfe_eth_fill_stats(struct net_device *ndev, struct ethtool_stats ++ *stats, u64 *data) ++{ ++ struct pfe_eth_priv_s *priv = netdev_priv(ndev); ++ int i; ++ ++ for (i = 0; i < ARRAY_SIZE(fec_stats); i++) ++ data[i] = readl(priv->EMAC_baseaddr + fec_stats[i].offset); ++} ++ ++static void pfe_eth_gstrings(struct net_device *netdev, ++ u32 stringset, u8 *data) ++{ ++ int i; ++ ++ switch (stringset) { ++ case ETH_SS_STATS: ++ for (i = 0; i < ARRAY_SIZE(fec_stats); i++) ++ memcpy(data + i * ETH_GSTRING_LEN, ++ fec_stats[i].name, ETH_GSTRING_LEN); ++ break; ++ } ++} ++ ++static int pfe_eth_stats_count(struct net_device *ndev, int sset) ++{ ++ switch (sset) { ++ case ETH_SS_STATS: ++ return ARRAY_SIZE(fec_stats); ++ default: ++ return -EOPNOTSUPP; ++ } ++} ++ ++/* ++ * pfe_eth_gemac_reglen - Return the length of the register structure. ++ * ++ */ ++static int pfe_eth_gemac_reglen(struct net_device *ndev) ++{ ++ pr_info("%s()\n", __func__); ++ return (sizeof(gemac_regs) / sizeof(u32)); ++} ++ ++/* ++ * pfe_eth_gemac_get_regs - Return the gemac register structure. ++ * ++ */ ++static void pfe_eth_gemac_get_regs(struct net_device *ndev, struct ethtool_regs ++ *regs, void *regbuf) ++{ ++ int i; ++ ++ struct pfe_eth_priv_s *priv = netdev_priv(ndev); ++ u32 *buf = (u32 *)regbuf; ++ ++ pr_info("%s()\n", __func__); ++ for (i = 0; i < sizeof(gemac_regs) / sizeof(u32); i++) ++ buf[i] = readl(priv->EMAC_baseaddr + gemac_regs[i]); ++} ++ ++/* ++ * pfe_eth_set_wol - Set the magic packet option, in WoL register. ++ * ++ */ ++static int pfe_eth_set_wol(struct net_device *ndev, struct ethtool_wolinfo *wol) ++{ ++ struct pfe_eth_priv_s *priv = netdev_priv(ndev); ++ ++ if (wol->wolopts & ~WAKE_MAGIC) ++ return -EOPNOTSUPP; ++ ++ /* for MTIP we store wol->wolopts */ ++ priv->wol = wol->wolopts; ++ ++ device_set_wakeup_enable(&ndev->dev, wol->wolopts & WAKE_MAGIC); ++ ++ return 0; ++} ++ ++/* ++ * ++ * pfe_eth_get_wol - Get the WoL options. ++ * ++ */ ++static void pfe_eth_get_wol(struct net_device *ndev, struct ethtool_wolinfo ++ *wol) ++{ ++ struct pfe_eth_priv_s *priv = netdev_priv(ndev); ++ ++ wol->supported = WAKE_MAGIC; ++ wol->wolopts = 0; ++ ++ if (priv->wol & WAKE_MAGIC) ++ wol->wolopts = WAKE_MAGIC; ++ ++ memset(&wol->sopass, 0, sizeof(wol->sopass)); ++} ++ ++/* ++ * pfe_eth_get_drvinfo - Fills in the drvinfo structure with some basic info ++ * ++ */ ++static void pfe_eth_get_drvinfo(struct net_device *ndev, struct ethtool_drvinfo ++ *drvinfo) ++{ ++ strlcpy(drvinfo->driver, DRV_NAME, sizeof(drvinfo->driver)); ++ strlcpy(drvinfo->version, DRV_VERSION, sizeof(drvinfo->version)); ++ strlcpy(drvinfo->fw_version, "N/A", sizeof(drvinfo->fw_version)); ++ strlcpy(drvinfo->bus_info, "N/A", sizeof(drvinfo->bus_info)); ++} ++ ++/* ++ * pfe_eth_set_settings - Used to send commands to PHY. ++ * ++ */ ++static int pfe_eth_set_settings(struct net_device *ndev, ++ const struct ethtool_link_ksettings *cmd) ++{ ++ struct pfe_eth_priv_s *priv = netdev_priv(ndev); ++ struct phy_device *phydev = priv->phydev; ++ ++ if (!phydev) ++ return -ENODEV; ++ ++ return phy_ethtool_ksettings_set(phydev, cmd); ++} ++ ++/* ++ * pfe_eth_getsettings - Return the current settings in the ethtool_cmd ++ * structure. ++ * ++ */ ++static int pfe_eth_get_settings(struct net_device *ndev, ++ struct ethtool_link_ksettings *cmd) ++{ ++ struct pfe_eth_priv_s *priv = netdev_priv(ndev); ++ struct phy_device *phydev = priv->phydev; ++ ++ if (!phydev) ++ return -ENODEV; ++ ++ phy_ethtool_ksettings_get(phydev, cmd); ++ ++ return 0; ++} ++ ++/* ++ * pfe_eth_get_msglevel - Gets the debug message mask. ++ * ++ */ ++static uint32_t pfe_eth_get_msglevel(struct net_device *ndev) ++{ ++ struct pfe_eth_priv_s *priv = netdev_priv(ndev); ++ ++ return priv->msg_enable; ++} ++ ++/* ++ * pfe_eth_set_msglevel - Sets the debug message mask. ++ * ++ */ ++static void pfe_eth_set_msglevel(struct net_device *ndev, uint32_t data) ++{ ++ struct pfe_eth_priv_s *priv = netdev_priv(ndev); ++ ++ priv->msg_enable = data; ++} ++ ++#define HIF_RX_COAL_MAX_CLKS (~(1 << 31)) ++#define HIF_RX_COAL_CLKS_PER_USEC (pfe->ctrl.sys_clk / 1000) ++#define HIF_RX_COAL_MAX_USECS (HIF_RX_COAL_MAX_CLKS / \ ++ HIF_RX_COAL_CLKS_PER_USEC) ++ ++/* ++ * pfe_eth_set_coalesce - Sets rx interrupt coalescing timer. ++ * ++ */ ++static int pfe_eth_set_coalesce(struct net_device *ndev, ++ struct ethtool_coalesce *ec) ++{ ++ if (ec->rx_coalesce_usecs > HIF_RX_COAL_MAX_USECS) ++ return -EINVAL; ++ ++ if (!ec->rx_coalesce_usecs) { ++ writel(0, HIF_INT_COAL); ++ return 0; ++ } ++ ++ writel((ec->rx_coalesce_usecs * HIF_RX_COAL_CLKS_PER_USEC) | ++ HIF_INT_COAL_ENABLE, HIF_INT_COAL); ++ ++ return 0; ++} ++ ++/* ++ * pfe_eth_get_coalesce - Gets rx interrupt coalescing timer value. ++ * ++ */ ++static int pfe_eth_get_coalesce(struct net_device *ndev, ++ struct ethtool_coalesce *ec) ++{ ++ int reg_val = readl(HIF_INT_COAL); ++ ++ if (reg_val & HIF_INT_COAL_ENABLE) ++ ec->rx_coalesce_usecs = (reg_val & HIF_RX_COAL_MAX_CLKS) / ++ HIF_RX_COAL_CLKS_PER_USEC; ++ else ++ ec->rx_coalesce_usecs = 0; ++ ++ return 0; ++} ++ ++/* ++ * pfe_eth_set_pauseparam - Sets pause parameters ++ * ++ */ ++static int pfe_eth_set_pauseparam(struct net_device *ndev, ++ struct ethtool_pauseparam *epause) ++{ ++ struct pfe_eth_priv_s *priv = netdev_priv(ndev); ++ ++ if (epause->tx_pause != epause->rx_pause) { ++ netdev_info(ndev, ++ "hardware only support enable/disable both tx and rx\n"); ++ return -EINVAL; ++ } ++ ++ priv->pause_flag = 0; ++ priv->pause_flag |= epause->rx_pause ? PFE_PAUSE_FLAG_ENABLE : 0; ++ priv->pause_flag |= epause->autoneg ? PFE_PAUSE_FLAG_AUTONEG : 0; ++ ++ if (epause->rx_pause || epause->autoneg) { ++ gemac_enable_pause_rx(priv->EMAC_baseaddr); ++ writel((readl(priv->GPI_baseaddr + GPI_TX_PAUSE_TIME) | ++ EGPI_PAUSE_ENABLE), ++ priv->GPI_baseaddr + GPI_TX_PAUSE_TIME); ++ if (priv->phydev) { ++ priv->phydev->supported |= ADVERTISED_Pause | ++ ADVERTISED_Asym_Pause; ++ priv->phydev->advertising |= ADVERTISED_Pause | ++ ADVERTISED_Asym_Pause; ++ } ++ } else { ++ gemac_disable_pause_rx(priv->EMAC_baseaddr); ++ writel((readl(priv->GPI_baseaddr + GPI_TX_PAUSE_TIME) & ++ ~EGPI_PAUSE_ENABLE), ++ priv->GPI_baseaddr + GPI_TX_PAUSE_TIME); ++ if (priv->phydev) { ++ priv->phydev->supported &= ~(ADVERTISED_Pause | ++ ADVERTISED_Asym_Pause); ++ priv->phydev->advertising &= ~(ADVERTISED_Pause | ++ ADVERTISED_Asym_Pause); ++ } ++ } ++ ++ return 0; ++} ++ ++/* ++ * pfe_eth_get_pauseparam - Gets pause parameters ++ * ++ */ ++static void pfe_eth_get_pauseparam(struct net_device *ndev, ++ struct ethtool_pauseparam *epause) ++{ ++ struct pfe_eth_priv_s *priv = netdev_priv(ndev); ++ ++ epause->autoneg = (priv->pause_flag & PFE_PAUSE_FLAG_AUTONEG) != 0; ++ epause->tx_pause = (priv->pause_flag & PFE_PAUSE_FLAG_ENABLE) != 0; ++ epause->rx_pause = epause->tx_pause; ++} ++ ++/* ++ * pfe_eth_get_hash ++ */ ++#define PFE_HASH_BITS 6 /* #bits in hash */ ++#define CRC32_POLY 0xEDB88320 ++ ++static int pfe_eth_get_hash(u8 *addr) ++{ ++ unsigned int i, bit, data, crc, hash; ++ ++ /* calculate crc32 value of mac address */ ++ crc = 0xffffffff; ++ ++ for (i = 0; i < 6; i++) { ++ data = addr[i]; ++ for (bit = 0; bit < 8; bit++, data >>= 1) { ++ crc = (crc >> 1) ^ ++ (((crc ^ data) & 1) ? CRC32_POLY : 0); ++ } ++ } ++ ++ /* ++ * only upper 6 bits (PFE_HASH_BITS) are used ++ * which point to specific bit in the hash registers ++ */ ++ hash = (crc >> (32 - PFE_HASH_BITS)) & 0x3f; ++ ++ return hash; ++} ++ ++const struct ethtool_ops pfe_ethtool_ops = { ++ .get_drvinfo = pfe_eth_get_drvinfo, ++ .get_regs_len = pfe_eth_gemac_reglen, ++ .get_regs = pfe_eth_gemac_get_regs, ++ .get_link = ethtool_op_get_link, ++ .get_wol = pfe_eth_get_wol, ++ .set_wol = pfe_eth_set_wol, ++ .set_pauseparam = pfe_eth_set_pauseparam, ++ .get_pauseparam = pfe_eth_get_pauseparam, ++ .get_strings = pfe_eth_gstrings, ++ .get_sset_count = pfe_eth_stats_count, ++ .get_ethtool_stats = pfe_eth_fill_stats, ++ .get_msglevel = pfe_eth_get_msglevel, ++ .set_msglevel = pfe_eth_set_msglevel, ++ .set_coalesce = pfe_eth_set_coalesce, ++ .get_coalesce = pfe_eth_get_coalesce, ++ .get_link_ksettings = pfe_eth_get_settings, ++ .set_link_ksettings = pfe_eth_set_settings, ++}; ++ ++/* pfe_eth_mdio_reset ++ */ ++int pfe_eth_mdio_reset(struct mii_bus *bus) ++{ ++ struct pfe_eth_priv_s *priv = (struct pfe_eth_priv_s *)bus->priv; ++ u32 phy_speed; ++ ++ netif_info(priv, hw, priv->ndev, "%s\n", __func__); ++ ++ mutex_lock(&bus->mdio_lock); ++ ++ /* ++ * Set MII speed to 2.5 MHz (= clk_get_rate() / 2 * phy_speed) ++ * ++ * The formula for FEC MDC is 'ref_freq / (MII_SPEED x 2)' while ++ * for ENET-MAC is 'ref_freq / ((MII_SPEED + 1) x 2)'. ++ */ ++ phy_speed = (DIV_ROUND_UP((pfe->ctrl.sys_clk * 1000), 4000000) ++ << EMAC_MII_SPEED_SHIFT); ++ phy_speed |= EMAC_HOLDTIME(0x5); ++ __raw_writel(phy_speed, priv->PHY_baseaddr + EMAC_MII_CTRL_REG); ++ ++ mutex_unlock(&bus->mdio_lock); ++ ++ return 0; ++} ++ ++/* pfe_eth_gemac_phy_timeout ++ * ++ */ ++static int pfe_eth_gemac_phy_timeout(struct pfe_eth_priv_s *priv, int timeout) ++{ ++ while (!(__raw_readl(priv->PHY_baseaddr + EMAC_IEVENT_REG) & ++ EMAC_IEVENT_MII)) { ++ if (timeout-- <= 0) ++ return -1; ++ usleep_range(10, 20); ++ } ++ __raw_writel(EMAC_IEVENT_MII, priv->PHY_baseaddr + EMAC_IEVENT_REG); ++ return 0; ++} ++ ++static int pfe_eth_mdio_mux(u8 muxval) ++{ ++ struct i2c_adapter *a; ++ struct i2c_msg msg; ++ unsigned char buf[2]; ++ int ret; ++ ++ a = i2c_get_adapter(0); ++ if (!a) ++ return -ENODEV; ++ ++ /* set bit 1 (the second bit) of chip at 0x09, register 0x13 */ ++ buf[0] = 0x54; /* reg number */ ++ buf[1] = (muxval << 6) | 0x3; /* data */ ++ msg.addr = 0x66; ++ msg.buf = buf; ++ msg.len = 2; ++ msg.flags = 0; ++ ret = i2c_transfer(a, &msg, 1); ++ i2c_put_adapter(a); ++ if (ret != 1) ++ return -ENODEV; ++ return 0; ++} ++ ++static int pfe_eth_mdio_write_addr(struct mii_bus *bus, int mii_id, ++ int dev_addr, int regnum) ++{ ++ struct pfe_eth_priv_s *priv = (struct pfe_eth_priv_s *)bus->priv; ++ ++ __raw_writel(EMAC_MII_DATA_PA(mii_id) | ++ EMAC_MII_DATA_RA(dev_addr) | ++ EMAC_MII_DATA_TA | EMAC_MII_DATA(regnum), ++ priv->PHY_baseaddr + EMAC_MII_DATA_REG); ++ ++ if (pfe_eth_gemac_phy_timeout(priv, EMAC_MDIO_TIMEOUT)) { ++ netdev_err(priv->ndev, "%s: phy MDIO address write timeout\n", ++ __func__); ++ return -1; ++ } ++ ++ return 0; ++} ++ ++static int pfe_eth_mdio_write(struct mii_bus *bus, int mii_id, int regnum, ++ u16 value) ++{ ++ struct pfe_eth_priv_s *priv = (struct pfe_eth_priv_s *)bus->priv; ++ ++ /*To access external PHYs on QDS board mux needs to be configured*/ ++ if ((mii_id) && (pfe->mdio_muxval[mii_id])) ++ pfe_eth_mdio_mux(pfe->mdio_muxval[mii_id]); ++ ++ if (regnum & MII_ADDR_C45) { ++ pfe_eth_mdio_write_addr(bus, mii_id, (regnum >> 16) & 0x1f, ++ regnum & 0xffff); ++ __raw_writel(EMAC_MII_DATA_OP_CL45_WR | ++ EMAC_MII_DATA_PA(mii_id) | ++ EMAC_MII_DATA_RA((regnum >> 16) & 0x1f) | ++ EMAC_MII_DATA_TA | EMAC_MII_DATA(value), ++ priv->PHY_baseaddr + EMAC_MII_DATA_REG); ++ } else { ++ /* start a write op */ ++ __raw_writel(EMAC_MII_DATA_ST | EMAC_MII_DATA_OP_WR | ++ EMAC_MII_DATA_PA(mii_id) | ++ EMAC_MII_DATA_RA(regnum) | ++ EMAC_MII_DATA_TA | EMAC_MII_DATA(value), ++ priv->PHY_baseaddr + EMAC_MII_DATA_REG); ++ } ++ ++ if (pfe_eth_gemac_phy_timeout(priv, EMAC_MDIO_TIMEOUT)) { ++ netdev_err(priv->ndev, "%s: phy MDIO write timeout\n", ++ __func__); ++ return -1; ++ } ++ netif_info(priv, hw, priv->ndev, "%s: phy %x reg %x val %x\n", __func__, ++ mii_id, regnum, value); ++ ++ return 0; ++} ++ ++static int pfe_eth_mdio_read(struct mii_bus *bus, int mii_id, int regnum) ++{ ++ struct pfe_eth_priv_s *priv = (struct pfe_eth_priv_s *)bus->priv; ++ u16 value = 0; ++ ++ /*To access external PHYs on QDS board mux needs to be configured*/ ++ if ((mii_id) && (pfe->mdio_muxval[mii_id])) ++ pfe_eth_mdio_mux(pfe->mdio_muxval[mii_id]); ++ ++ if (regnum & MII_ADDR_C45) { ++ pfe_eth_mdio_write_addr(bus, mii_id, (regnum >> 16) & 0x1f, ++ regnum & 0xffff); ++ __raw_writel(EMAC_MII_DATA_OP_CL45_RD | ++ EMAC_MII_DATA_PA(mii_id) | ++ EMAC_MII_DATA_RA((regnum >> 16) & 0x1f) | ++ EMAC_MII_DATA_TA, ++ priv->PHY_baseaddr + EMAC_MII_DATA_REG); ++ } else { ++ /* start a read op */ ++ __raw_writel(EMAC_MII_DATA_ST | EMAC_MII_DATA_OP_RD | ++ EMAC_MII_DATA_PA(mii_id) | ++ EMAC_MII_DATA_RA(regnum) | ++ EMAC_MII_DATA_TA, priv->PHY_baseaddr + ++ EMAC_MII_DATA_REG); ++ } ++ ++ if (pfe_eth_gemac_phy_timeout(priv, EMAC_MDIO_TIMEOUT)) { ++ netdev_err(priv->ndev, "%s: phy MDIO read timeout\n", __func__); ++ return -1; ++ } ++ ++ value = EMAC_MII_DATA(__raw_readl(priv->PHY_baseaddr + ++ EMAC_MII_DATA_REG)); ++ netif_info(priv, hw, priv->ndev, "%s: phy %x reg %x val %x\n", __func__, ++ mii_id, regnum, value); ++ return value; ++} ++ ++static int pfe_eth_mdio_init(struct pfe_eth_priv_s *priv, ++ struct ls1012a_mdio_platform_data *minfo) ++{ ++ struct mii_bus *bus; ++ int rc, ii; ++ struct phy_device *phydev; ++ ++ netif_info(priv, drv, priv->ndev, "%s\n", __func__); ++ pr_info("%s\n", __func__); ++ ++ bus = mdiobus_alloc(); ++ if (!bus) { ++ netdev_err(priv->ndev, "mdiobus_alloc() failed\n"); ++ rc = -ENOMEM; ++ goto err0; ++ } ++ ++ bus->name = "ls1012a MDIO Bus"; ++ bus->read = &pfe_eth_mdio_read; ++ bus->write = &pfe_eth_mdio_write; ++ bus->reset = &pfe_eth_mdio_reset; ++ snprintf(bus->id, MII_BUS_ID_SIZE, "ls1012a-%x", priv->id); ++ bus->priv = priv; ++ ++ bus->phy_mask = minfo->phy_mask; ++ priv->mdc_div = minfo->mdc_div; ++ ++ if (!priv->mdc_div) ++ priv->mdc_div = 64; ++ ++ bus->irq[0] = minfo->irq[0]; ++ ++ bus->parent = priv->pfe->dev; ++ ++ netif_info(priv, drv, priv->ndev, "%s: mdc_div: %d, phy_mask: %x\n", ++ __func__, priv->mdc_div, bus->phy_mask); ++ rc = mdiobus_register(bus); ++ if (rc) { ++ netdev_err(priv->ndev, "mdiobus_register(%s) failed\n", ++ bus->name); ++ goto err1; ++ } ++ ++ priv->mii_bus = bus; ++ ++ /* For clause 45 we need to call get_phy_device() with it's ++ * 3rd argument as true and then register the phy device ++ * via phy_device_register() ++ */ ++ ++ if (priv->einfo->mii_config == PHY_INTERFACE_MODE_2500SGMII) { ++ for (ii = 0; ii < NUM_GEMAC_SUPPORT; ii++) { ++ phydev = get_phy_device(priv->mii_bus, ++ priv->einfo->phy_id + ii, true); ++ if (!phydev || IS_ERR(phydev)) { ++ rc = -EIO; ++ netdev_err(priv->ndev, "fail to get device\n"); ++ goto err1; ++ } ++ rc = phy_device_register(phydev); ++ if (rc) { ++ phy_device_free(phydev); ++ netdev_err(priv->ndev, ++ "phy_device_register() failed\n"); ++ goto err1; ++ } ++ } ++ } ++ ++ pfe_eth_mdio_reset(bus); ++ ++ return 0; ++ ++err1: ++ mdiobus_free(bus); ++err0: ++ return rc; ++} ++ ++/* pfe_eth_mdio_exit ++ */ ++static void pfe_eth_mdio_exit(struct mii_bus *bus) ++{ ++ if (!bus) ++ return; ++ ++ netif_info((struct pfe_eth_priv_s *)bus->priv, drv, ((struct ++ pfe_eth_priv_s *)(bus->priv))->ndev, "%s\n", __func__); ++ ++ mdiobus_unregister(bus); ++ mdiobus_free(bus); ++} ++ ++/* pfe_get_phydev_speed ++ */ ++static int pfe_get_phydev_speed(struct phy_device *phydev) ++{ ++ switch (phydev->speed) { ++ case 10: ++ return SPEED_10M; ++ case 100: ++ return SPEED_100M; ++ case 1000: ++ default: ++ return SPEED_1000M; ++ } ++} ++ ++/* pfe_set_rgmii_speed ++ */ ++#define RGMIIPCR 0x434 ++/* RGMIIPCR bit definitions*/ ++#define SCFG_RGMIIPCR_EN_AUTO (0x00000008) ++#define SCFG_RGMIIPCR_SETSP_1000M (0x00000004) ++#define SCFG_RGMIIPCR_SETSP_100M (0x00000000) ++#define SCFG_RGMIIPCR_SETSP_10M (0x00000002) ++#define SCFG_RGMIIPCR_SETFD (0x00000001) ++ ++static void pfe_set_rgmii_speed(struct phy_device *phydev) ++{ ++ u32 rgmii_pcr; ++ ++ regmap_read(pfe->scfg, RGMIIPCR, &rgmii_pcr); ++ rgmii_pcr &= ~(SCFG_RGMIIPCR_SETSP_1000M | SCFG_RGMIIPCR_SETSP_10M); ++ ++ switch (phydev->speed) { ++ case 10: ++ rgmii_pcr |= SCFG_RGMIIPCR_SETSP_10M; ++ break; ++ case 1000: ++ rgmii_pcr |= SCFG_RGMIIPCR_SETSP_1000M; ++ break; ++ case 100: ++ default: ++ /* Default is 100M */ ++ break; ++ } ++ regmap_write(pfe->scfg, RGMIIPCR, rgmii_pcr); ++} ++ ++/* pfe_get_phydev_duplex ++ */ ++static int pfe_get_phydev_duplex(struct phy_device *phydev) ++{ ++ /*return (phydev->duplex == DUPLEX_HALF) ? DUP_HALF:DUP_FULL ; */ ++ return DUPLEX_FULL; ++} ++ ++/* pfe_eth_adjust_link ++ */ ++static void pfe_eth_adjust_link(struct net_device *ndev) ++{ ++ struct pfe_eth_priv_s *priv = netdev_priv(ndev); ++ unsigned long flags; ++ struct phy_device *phydev = priv->phydev; ++ int new_state = 0; ++ ++ netif_info(priv, drv, ndev, "%s\n", __func__); ++ ++ spin_lock_irqsave(&priv->lock, flags); ++ ++ if (phydev->link) { ++ /* ++ * Now we make sure that we can be in full duplex mode. ++ * If not, we operate in half-duplex mode. ++ */ ++ if (phydev->duplex != priv->oldduplex) { ++ new_state = 1; ++ gemac_set_duplex(priv->EMAC_baseaddr, ++ pfe_get_phydev_duplex(phydev)); ++ priv->oldduplex = phydev->duplex; ++ } ++ ++ if (phydev->speed != priv->oldspeed) { ++ new_state = 1; ++ gemac_set_speed(priv->EMAC_baseaddr, ++ pfe_get_phydev_speed(phydev)); ++ if (priv->einfo->mii_config == ++ PHY_INTERFACE_MODE_RGMII_TXID) ++ pfe_set_rgmii_speed(phydev); ++ priv->oldspeed = phydev->speed; ++ } ++ ++ if (!priv->oldlink) { ++ new_state = 1; ++ priv->oldlink = 1; ++ } ++ ++ } else if (priv->oldlink) { ++ new_state = 1; ++ priv->oldlink = 0; ++ priv->oldspeed = 0; ++ priv->oldduplex = -1; ++ } ++ ++ if (new_state && netif_msg_link(priv)) ++ phy_print_status(phydev); ++ ++ spin_unlock_irqrestore(&priv->lock, flags); ++} ++ ++/* pfe_phy_exit ++ */ ++static void pfe_phy_exit(struct net_device *ndev) ++{ ++ struct pfe_eth_priv_s *priv = netdev_priv(ndev); ++ ++ netif_info(priv, drv, ndev, "%s\n", __func__); ++ ++ phy_disconnect(priv->phydev); ++ priv->phydev = NULL; ++} ++ ++/* pfe_eth_stop ++ */ ++static void pfe_eth_stop(struct net_device *ndev, int wake) ++{ ++ struct pfe_eth_priv_s *priv = netdev_priv(ndev); ++ ++ netif_info(priv, drv, ndev, "%s\n", __func__); ++ ++ if (wake) { ++ gemac_tx_disable(priv->EMAC_baseaddr); ++ } else { ++ gemac_disable(priv->EMAC_baseaddr); ++ gpi_disable(priv->GPI_baseaddr); ++ ++ if (priv->phydev) ++ phy_stop(priv->phydev); ++ } ++} ++ ++/* pfe_eth_start ++ */ ++static int pfe_eth_start(struct pfe_eth_priv_s *priv) ++{ ++ netif_info(priv, drv, priv->ndev, "%s\n", __func__); ++ ++ if (priv->phydev) ++ phy_start(priv->phydev); ++ ++ gpi_enable(priv->GPI_baseaddr); ++ gemac_enable(priv->EMAC_baseaddr); ++ ++ return 0; ++} ++ ++/* ++ * Configure on chip serdes through mdio ++ */ ++static void ls1012a_configure_serdes(struct net_device *ndev) ++{ ++ struct pfe_eth_priv_s *priv = pfe->eth.eth_priv[0]; ++ int sgmii_2500 = 0; ++ struct mii_bus *bus = priv->mii_bus; ++ u16 value = 0; ++ ++ if (priv->einfo->mii_config == PHY_INTERFACE_MODE_2500SGMII) ++ sgmii_2500 = 1; ++ ++ netif_info(priv, drv, ndev, "%s\n", __func__); ++ /* PCS configuration done with corresponding GEMAC */ ++ ++ pfe_eth_mdio_read(bus, 0, 0); ++ pfe_eth_mdio_read(bus, 0, 1); ++ ++ /*These settings taken from validtion team */ ++ pfe_eth_mdio_write(bus, 0, 0x0, 0x8000); ++ if (sgmii_2500) { ++ pfe_eth_mdio_write(bus, 0, 0x14, 0x9); ++ pfe_eth_mdio_write(bus, 0, 0x4, 0x4001); ++ pfe_eth_mdio_write(bus, 0, 0x12, 0xa120); ++ pfe_eth_mdio_write(bus, 0, 0x13, 0x7); ++ /* Autonegotiation need to be disabled for 2.5G SGMII mode*/ ++ value = 0x0140; ++ pfe_eth_mdio_write(bus, 0, 0x0, value); ++ } else { ++ pfe_eth_mdio_write(bus, 0, 0x14, 0xb); ++ pfe_eth_mdio_write(bus, 0, 0x4, 0x1a1); ++ pfe_eth_mdio_write(bus, 0, 0x12, 0x400); ++ pfe_eth_mdio_write(bus, 0, 0x13, 0x0); ++ pfe_eth_mdio_write(bus, 0, 0x0, 0x1140); ++ } ++} ++ ++/* ++ * pfe_phy_init ++ * ++ */ ++static int pfe_phy_init(struct net_device *ndev) ++{ ++ struct pfe_eth_priv_s *priv = netdev_priv(ndev); ++ struct phy_device *phydev; ++ char phy_id[MII_BUS_ID_SIZE + 3]; ++ char bus_id[MII_BUS_ID_SIZE]; ++ phy_interface_t interface; ++ ++ priv->oldlink = 0; ++ priv->oldspeed = 0; ++ priv->oldduplex = -1; ++ ++ snprintf(bus_id, MII_BUS_ID_SIZE, "ls1012a-%d", 0); ++ snprintf(phy_id, MII_BUS_ID_SIZE + 3, PHY_ID_FMT, bus_id, ++ priv->einfo->phy_id); ++ ++ netif_info(priv, drv, ndev, "%s: %s\n", __func__, phy_id); ++ interface = priv->einfo->mii_config; ++ if ((interface == PHY_INTERFACE_MODE_SGMII) || ++ (interface == PHY_INTERFACE_MODE_2500SGMII)) { ++ /*Configure SGMII PCS */ ++ if (pfe->scfg) { ++ /*Config MDIO from serdes */ ++ regmap_write(pfe->scfg, 0x484, 0x00000000); ++ } ++ ls1012a_configure_serdes(ndev); ++ } ++ ++ if (pfe->scfg) { ++ /*Config MDIO from PAD */ ++ regmap_write(pfe->scfg, 0x484, 0x80000000); ++ } ++ ++ priv->oldlink = 0; ++ priv->oldspeed = 0; ++ priv->oldduplex = -1; ++ pr_info("%s interface %x\n", __func__, interface); ++ phydev = phy_connect(ndev, phy_id, &pfe_eth_adjust_link, interface); ++ ++ if (IS_ERR(phydev)) { ++ netdev_err(ndev, "phy_connect() failed\n"); ++ return PTR_ERR(phydev); ++ } ++ ++ priv->phydev = phydev; ++ phydev->irq = PHY_POLL; ++ ++ return 0; ++} ++ ++/* pfe_gemac_init ++ */ ++static int pfe_gemac_init(struct pfe_eth_priv_s *priv) ++{ ++ struct gemac_cfg cfg; ++ ++ netif_info(priv, ifup, priv->ndev, "%s\n", __func__); ++ ++ cfg.speed = SPEED_1000M; ++ cfg.duplex = DUPLEX_FULL; ++ ++ gemac_set_config(priv->EMAC_baseaddr, &cfg); ++ gemac_allow_broadcast(priv->EMAC_baseaddr); ++ gemac_enable_1536_rx(priv->EMAC_baseaddr); ++ gemac_enable_stacked_vlan(priv->EMAC_baseaddr); ++ gemac_enable_pause_rx(priv->EMAC_baseaddr); ++ gemac_set_bus_width(priv->EMAC_baseaddr, 64); ++ ++ /*GEM will perform checksum verifications*/ ++ if (priv->ndev->features & NETIF_F_RXCSUM) ++ gemac_enable_rx_checksum_offload(priv->EMAC_baseaddr); ++ else ++ gemac_disable_rx_checksum_offload(priv->EMAC_baseaddr); ++ ++ return 0; ++} ++ ++/* pfe_eth_event_handler ++ */ ++static int pfe_eth_event_handler(void *data, int event, int qno) ++{ ++ struct pfe_eth_priv_s *priv = data; ++ ++ switch (event) { ++ case EVENT_RX_PKT_IND: ++ ++ if (qno == 0) { ++ if (napi_schedule_prep(&priv->high_napi)) { ++ netif_info(priv, intr, priv->ndev, ++ "%s: schedule high prio poll\n" ++ , __func__); ++ ++#ifdef PFE_ETH_NAPI_STATS ++ priv->napi_counters[NAPI_SCHED_COUNT]++; ++#endif ++ ++ __napi_schedule(&priv->high_napi); ++ } ++ } else if (qno == 1) { ++ if (napi_schedule_prep(&priv->low_napi)) { ++ netif_info(priv, intr, priv->ndev, ++ "%s: schedule low prio poll\n" ++ , __func__); ++ ++#ifdef PFE_ETH_NAPI_STATS ++ priv->napi_counters[NAPI_SCHED_COUNT]++; ++#endif ++ __napi_schedule(&priv->low_napi); ++ } ++ } else if (qno == 2) { ++ if (napi_schedule_prep(&priv->lro_napi)) { ++ netif_info(priv, intr, priv->ndev, ++ "%s: schedule lro prio poll\n" ++ , __func__); ++ ++#ifdef PFE_ETH_NAPI_STATS ++ priv->napi_counters[NAPI_SCHED_COUNT]++; ++#endif ++ __napi_schedule(&priv->lro_napi); ++ } ++ } ++ ++ break; ++ ++ case EVENT_TXDONE_IND: ++ pfe_eth_flush_tx(priv); ++ hif_lib_event_handler_start(&priv->client, EVENT_TXDONE_IND, 0); ++ break; ++ case EVENT_HIGH_RX_WM: ++ default: ++ break; ++ } ++ ++ return 0; ++} ++ ++static int pfe_eth_change_mtu(struct net_device *ndev, int new_mtu) ++{ ++ struct pfe_eth_priv_s *priv = netdev_priv(ndev); ++ ++ ndev->mtu = new_mtu; ++ new_mtu += ETH_HLEN + ETH_FCS_LEN; ++ gemac_set_rx_max_fl(priv->EMAC_baseaddr, new_mtu); ++ ++ return 0; ++} ++ ++/* pfe_eth_open ++ */ ++static int pfe_eth_open(struct net_device *ndev) ++{ ++ struct pfe_eth_priv_s *priv = netdev_priv(ndev); ++ struct hif_client_s *client; ++ int rc; ++ ++ netif_info(priv, ifup, ndev, "%s\n", __func__); ++ ++ /* Register client driver with HIF */ ++ client = &priv->client; ++ memset(client, 0, sizeof(*client)); ++ client->id = PFE_CL_GEM0 + priv->id; ++ client->tx_qn = emac_txq_cnt; ++ client->rx_qn = EMAC_RXQ_CNT; ++ client->priv = priv; ++ client->pfe = priv->pfe; ++ client->event_handler = pfe_eth_event_handler; ++ ++ client->tx_qsize = EMAC_TXQ_DEPTH; ++ client->rx_qsize = EMAC_RXQ_DEPTH; ++ ++ rc = hif_lib_client_register(client); ++ if (rc) { ++ netdev_err(ndev, "%s: hif_lib_client_register(%d) failed\n", ++ __func__, client->id); ++ goto err0; ++ } ++ ++ netif_info(priv, drv, ndev, "%s: registered client: %p\n", __func__, ++ client); ++ ++ pfe_gemac_init(priv); ++ ++ if (!is_valid_ether_addr(ndev->dev_addr)) { ++ netdev_err(ndev, "%s: invalid MAC address\n", __func__); ++ rc = -EADDRNOTAVAIL; ++ goto err1; ++ } ++ ++ gemac_set_laddrN(priv->EMAC_baseaddr, ++ (struct pfe_mac_addr *)ndev->dev_addr, 1); ++ ++ napi_enable(&priv->high_napi); ++ napi_enable(&priv->low_napi); ++ napi_enable(&priv->lro_napi); ++ ++ rc = pfe_eth_start(priv); ++ ++ netif_tx_wake_all_queues(ndev); ++ ++ return rc; ++ ++err1: ++ hif_lib_client_unregister(&priv->client); ++ ++err0: ++ return rc; ++} ++ ++/* ++ * pfe_eth_shutdown ++ */ ++int pfe_eth_shutdown(struct net_device *ndev, int wake) ++{ ++ struct pfe_eth_priv_s *priv = netdev_priv(ndev); ++ int i, qstatus; ++ unsigned long next_poll = jiffies + 1, end = jiffies + ++ (TX_POLL_TIMEOUT_MS * HZ) / 1000; ++ int tx_pkts, prv_tx_pkts; ++ ++ netif_info(priv, ifdown, ndev, "%s\n", __func__); ++ ++ for (i = 0; i < emac_txq_cnt; i++) ++ hrtimer_cancel(&priv->fast_tx_timeout[i].timer); ++ ++ netif_tx_stop_all_queues(ndev); ++ ++ do { ++ tx_pkts = 0; ++ pfe_eth_flush_tx(priv); ++ ++ for (i = 0; i < emac_txq_cnt; i++) ++ tx_pkts += hif_lib_tx_pending(&priv->client, i); ++ ++ if (tx_pkts) { ++ /*Don't wait forever, break if we cross max timeout */ ++ if (time_after(jiffies, end)) { ++ pr_err( ++ "(%s)Tx is not complete after %dmsec\n", ++ ndev->name, TX_POLL_TIMEOUT_MS); ++ break; ++ } ++ ++ pr_info("%s : (%s) Waiting for tx packets to free. Pending tx pkts = %d.\n" ++ , __func__, ndev->name, tx_pkts); ++ if (need_resched()) ++ schedule(); ++ } ++ ++ } while (tx_pkts); ++ ++ end = jiffies + (TX_POLL_TIMEOUT_MS * HZ) / 1000; ++ ++ prv_tx_pkts = tmu_pkts_processed(priv->id); ++ /* ++ * Wait till TMU transmits all pending packets ++ * poll tmu_qstatus and pkts processed by TMU for every 10ms ++ * Consider TMU is busy, If we see TMU qeueu pending or any packets ++ * processed by TMU ++ */ ++ while (1) { ++ if (time_after(jiffies, next_poll)) { ++ tx_pkts = tmu_pkts_processed(priv->id); ++ qstatus = tmu_qstatus(priv->id) & 0x7ffff; ++ ++ if (!qstatus && (tx_pkts == prv_tx_pkts)) ++ break; ++ /* Don't wait forever, break if we cross max ++ * timeout(TX_POLL_TIMEOUT_MS) ++ */ ++ if (time_after(jiffies, end)) { ++ pr_err("TMU%d is busy after %dmsec\n", ++ priv->id, TX_POLL_TIMEOUT_MS); ++ break; ++ } ++ prv_tx_pkts = tx_pkts; ++ next_poll++; ++ } ++ if (need_resched()) ++ schedule(); ++ } ++ /* Wait for some more time to complete transmitting packet if any */ ++ next_poll = jiffies + 1; ++ while (1) { ++ if (time_after(jiffies, next_poll)) ++ break; ++ if (need_resched()) ++ schedule(); ++ } ++ ++ pfe_eth_stop(ndev, wake); ++ ++ napi_disable(&priv->lro_napi); ++ napi_disable(&priv->low_napi); ++ napi_disable(&priv->high_napi); ++ ++ hif_lib_client_unregister(&priv->client); ++ ++ return 0; ++} ++ ++/* pfe_eth_close ++ * ++ */ ++static int pfe_eth_close(struct net_device *ndev) ++{ ++ pfe_eth_shutdown(ndev, 0); ++ ++ return 0; ++} ++ ++/* pfe_eth_suspend ++ * ++ * return value : 1 if netdevice is configured to wakeup system ++ * 0 otherwise ++ */ ++int pfe_eth_suspend(struct net_device *ndev) ++{ ++ struct pfe_eth_priv_s *priv = netdev_priv(ndev); ++ int retval = 0; ++ ++ if (priv->wol) { ++ gemac_set_wol(priv->EMAC_baseaddr, priv->wol); ++ retval = 1; ++ } ++ pfe_eth_shutdown(ndev, priv->wol); ++ ++ return retval; ++} ++ ++/* pfe_eth_resume ++ * ++ */ ++int pfe_eth_resume(struct net_device *ndev) ++{ ++ struct pfe_eth_priv_s *priv = netdev_priv(ndev); ++ ++ if (priv->wol) ++ gemac_set_wol(priv->EMAC_baseaddr, 0); ++ gemac_tx_enable(priv->EMAC_baseaddr); ++ ++ return pfe_eth_open(ndev); ++} ++ ++/* pfe_eth_get_queuenum ++ */ ++static int pfe_eth_get_queuenum(struct pfe_eth_priv_s *priv, struct sk_buff ++ *skb) ++{ ++ int queuenum = 0; ++ unsigned long flags; ++ ++ /* Get the Fast Path queue number */ ++ /* ++ * Use conntrack mark (if conntrack exists), then packet mark (if any), ++ * then fallback to default ++ */ ++#if defined(CONFIG_IP_NF_CONNTRACK_MARK) || defined(CONFIG_NF_CONNTRACK_MARK) ++ if (skb->_nfct) { ++ enum ip_conntrack_info cinfo; ++ struct nf_conn *ct; ++ ++ ct = nf_ct_get(skb, &cinfo); ++ ++ if (ct) { ++ u32 connmark; ++ ++ connmark = ct->mark; ++ ++ if ((connmark & 0x80000000) && priv->id != 0) ++ connmark >>= 16; ++ ++ queuenum = connmark & EMAC_QUEUENUM_MASK; ++ } ++ } else {/* continued after #endif ... */ ++#endif ++ if (skb->mark) { ++ queuenum = skb->mark & EMAC_QUEUENUM_MASK; ++ } else { ++ spin_lock_irqsave(&priv->lock, flags); ++ queuenum = priv->default_priority & EMAC_QUEUENUM_MASK; ++ spin_unlock_irqrestore(&priv->lock, flags); ++ } ++#if defined(CONFIG_IP_NF_CONNTRACK_MARK) || defined(CONFIG_NF_CONNTRACK_MARK) ++ } ++#endif ++ return queuenum; ++} ++ ++/* pfe_eth_might_stop_tx ++ * ++ */ ++static int pfe_eth_might_stop_tx(struct pfe_eth_priv_s *priv, int queuenum, ++ struct netdev_queue *tx_queue, ++ unsigned int n_desc, ++ unsigned int n_segs) ++{ ++ ktime_t kt; ++ int tried = 0; ++ ++try_again: ++ if (unlikely((__hif_tx_avail(&pfe->hif) < n_desc) || ++ (hif_lib_tx_avail(&priv->client, queuenum) < n_desc) || ++ (hif_lib_tx_credit_avail(pfe, priv->id, queuenum) < n_segs))) { ++ if (!tried) { ++ __hif_lib_update_credit(&priv->client, queuenum); ++ tried = 1; ++ goto try_again; ++ } ++#ifdef PFE_ETH_TX_STATS ++ if (__hif_tx_avail(&pfe->hif) < n_desc) { ++ priv->stop_queue_hif[queuenum]++; ++ } else if (hif_lib_tx_avail(&priv->client, queuenum) < n_desc) { ++ priv->stop_queue_hif_client[queuenum]++; ++ } else if (hif_lib_tx_credit_avail(pfe, priv->id, queuenum) < ++ n_segs) { ++ priv->stop_queue_credit[queuenum]++; ++ } ++ priv->stop_queue_total[queuenum]++; ++#endif ++ netif_tx_stop_queue(tx_queue); ++ ++ kt = ktime_set(0, LS1012A_TX_FAST_RECOVERY_TIMEOUT_MS * ++ NSEC_PER_MSEC); ++ hrtimer_start(&priv->fast_tx_timeout[queuenum].timer, kt, ++ HRTIMER_MODE_REL); ++ return -1; ++ } else { ++ return 0; ++ } ++} ++ ++#define SA_MAX_OP 2 ++/* pfe_hif_send_packet ++ * ++ * At this level if TX fails we drop the packet ++ */ ++static void pfe_hif_send_packet(struct sk_buff *skb, struct pfe_eth_priv_s ++ *priv, int queuenum) ++{ ++ struct skb_shared_info *sh = skb_shinfo(skb); ++ unsigned int nr_frags; ++ u32 ctrl = 0; ++ ++ netif_info(priv, tx_queued, priv->ndev, "%s\n", __func__); ++ ++ if (skb_is_gso(skb)) { ++ priv->stats.tx_dropped++; ++ return; ++ } ++ ++ if (skb->ip_summed == CHECKSUM_PARTIAL) ++ ctrl = HIF_CTRL_TX_CHECKSUM; ++ ++ nr_frags = sh->nr_frags; ++ ++ if (nr_frags) { ++ skb_frag_t *f; ++ int i; ++ ++ __hif_lib_xmit_pkt(&priv->client, queuenum, skb->data, ++ skb_headlen(skb), ctrl, HIF_FIRST_BUFFER, ++ skb); ++ ++ for (i = 0; i < nr_frags - 1; i++) { ++ f = &sh->frags[i]; ++ __hif_lib_xmit_pkt(&priv->client, queuenum, ++ skb_frag_address(f), ++ skb_frag_size(f), ++ 0x0, 0x0, skb); ++ } ++ ++ f = &sh->frags[i]; ++ ++ __hif_lib_xmit_pkt(&priv->client, queuenum, ++ skb_frag_address(f), skb_frag_size(f), ++ 0x0, HIF_LAST_BUFFER | HIF_DATA_VALID, ++ skb); ++ ++ netif_info(priv, tx_queued, priv->ndev, ++ "%s: pkt sent successfully skb:%p nr_frags:%d len:%d\n", ++ __func__, skb, nr_frags, skb->len); ++ } else { ++ __hif_lib_xmit_pkt(&priv->client, queuenum, skb->data, ++ skb->len, ctrl, HIF_FIRST_BUFFER | ++ HIF_LAST_BUFFER | HIF_DATA_VALID, ++ skb); ++ netif_info(priv, tx_queued, priv->ndev, ++ "%s: pkt sent successfully skb:%p len:%d\n", ++ __func__, skb, skb->len); ++ } ++ hif_tx_dma_start(); ++ priv->stats.tx_packets++; ++ priv->stats.tx_bytes += skb->len; ++ hif_lib_tx_credit_use(pfe, priv->id, queuenum, 1); ++} ++ ++/* pfe_eth_flush_txQ ++ */ ++static void pfe_eth_flush_txQ(struct pfe_eth_priv_s *priv, int tx_q_num, int ++ from_tx, int n_desc) ++{ ++ struct sk_buff *skb; ++ struct netdev_queue *tx_queue = netdev_get_tx_queue(priv->ndev, ++ tx_q_num); ++ unsigned int flags; ++ ++ netif_info(priv, tx_done, priv->ndev, "%s\n", __func__); ++ ++ if (!from_tx) ++ __netif_tx_lock_bh(tx_queue); ++ ++ /* Clean HIF and client queue */ ++ while ((skb = hif_lib_tx_get_next_complete(&priv->client, ++ tx_q_num, &flags, ++ HIF_TX_DESC_NT))) { ++ if (flags & HIF_DATA_VALID) ++ dev_kfree_skb_any(skb); ++ } ++ if (!from_tx) ++ __netif_tx_unlock_bh(tx_queue); ++} ++ ++/* pfe_eth_flush_tx ++ */ ++static void pfe_eth_flush_tx(struct pfe_eth_priv_s *priv) ++{ ++ int ii; ++ ++ netif_info(priv, tx_done, priv->ndev, "%s\n", __func__); ++ ++ for (ii = 0; ii < emac_txq_cnt; ii++) { ++ pfe_eth_flush_txQ(priv, ii, 0, 0); ++ __hif_lib_update_credit(&priv->client, ii); ++ } ++} ++ ++void pfe_tx_get_req_desc(struct sk_buff *skb, unsigned int *n_desc, unsigned int ++ *n_segs) ++{ ++ struct skb_shared_info *sh = skb_shinfo(skb); ++ ++ /* Scattered data */ ++ if (sh->nr_frags) { ++ *n_desc = sh->nr_frags + 1; ++ *n_segs = 1; ++ /* Regular case */ ++ } else { ++ *n_desc = 1; ++ *n_segs = 1; ++ } ++} ++ ++/* pfe_eth_send_packet ++ */ ++static int pfe_eth_send_packet(struct sk_buff *skb, struct net_device *ndev) ++{ ++ struct pfe_eth_priv_s *priv = netdev_priv(ndev); ++ int tx_q_num = skb_get_queue_mapping(skb); ++ int n_desc, n_segs; ++ struct netdev_queue *tx_queue = netdev_get_tx_queue(priv->ndev, ++ tx_q_num); ++ ++ netif_info(priv, tx_queued, ndev, "%s\n", __func__); ++ ++ if ((!skb_is_gso(skb)) && (skb_headroom(skb) < (PFE_PKT_HEADER_SZ + ++ sizeof(unsigned long)))) { ++ netif_warn(priv, tx_err, priv->ndev, "%s: copying skb\n", ++ __func__); ++ ++ if (pskb_expand_head(skb, (PFE_PKT_HEADER_SZ + sizeof(unsigned ++ long)), 0, GFP_ATOMIC)) { ++ /* No need to re-transmit, no way to recover*/ ++ kfree_skb(skb); ++ priv->stats.tx_dropped++; ++ return NETDEV_TX_OK; ++ } ++ } ++ ++ pfe_tx_get_req_desc(skb, &n_desc, &n_segs); ++ ++ hif_tx_lock(&pfe->hif); ++ if (unlikely(pfe_eth_might_stop_tx(priv, tx_q_num, tx_queue, n_desc, ++ n_segs))) { ++#ifdef PFE_ETH_TX_STATS ++ if (priv->was_stopped[tx_q_num]) { ++ priv->clean_fail[tx_q_num]++; ++ priv->was_stopped[tx_q_num] = 0; ++ } ++#endif ++ hif_tx_unlock(&pfe->hif); ++ return NETDEV_TX_BUSY; ++ } ++ ++ pfe_hif_send_packet(skb, priv, tx_q_num); ++ ++ hif_tx_unlock(&pfe->hif); ++ ++ tx_queue->trans_start = jiffies; ++ ++#ifdef PFE_ETH_TX_STATS ++ priv->was_stopped[tx_q_num] = 0; ++#endif ++ ++ return NETDEV_TX_OK; ++} ++ ++/* pfe_eth_select_queue ++ * ++ */ ++static u16 pfe_eth_select_queue(struct net_device *ndev, struct sk_buff *skb, ++ void *accel_priv, ++ select_queue_fallback_t fallback) ++{ ++ struct pfe_eth_priv_s *priv = netdev_priv(ndev); ++ ++ return pfe_eth_get_queuenum(priv, skb); ++} ++ ++/* pfe_eth_get_stats ++ */ ++static struct net_device_stats *pfe_eth_get_stats(struct net_device *ndev) ++{ ++ struct pfe_eth_priv_s *priv = netdev_priv(ndev); ++ ++ netif_info(priv, drv, ndev, "%s\n", __func__); ++ ++ return &priv->stats; ++} ++ ++/* pfe_eth_set_mac_address ++ */ ++static int pfe_eth_set_mac_address(struct net_device *ndev, void *addr) ++{ ++ struct pfe_eth_priv_s *priv = netdev_priv(ndev); ++ struct sockaddr *sa = addr; ++ ++ netif_info(priv, drv, ndev, "%s\n", __func__); ++ ++ if (!is_valid_ether_addr(sa->sa_data)) ++ return -EADDRNOTAVAIL; ++ ++ memcpy(ndev->dev_addr, sa->sa_data, ETH_ALEN); ++ ++ gemac_set_laddrN(priv->EMAC_baseaddr, ++ (struct pfe_mac_addr *)ndev->dev_addr, 1); ++ ++ return 0; ++} ++ ++/* pfe_eth_enet_addr_byte_mac ++ */ ++int pfe_eth_enet_addr_byte_mac(u8 *enet_byte_addr, ++ struct pfe_mac_addr *enet_addr) ++{ ++ if (!enet_byte_addr || !enet_addr) { ++ return -1; ++ ++ } else { ++ enet_addr->bottom = enet_byte_addr[0] | ++ (enet_byte_addr[1] << 8) | ++ (enet_byte_addr[2] << 16) | ++ (enet_byte_addr[3] << 24); ++ enet_addr->top = enet_byte_addr[4] | ++ (enet_byte_addr[5] << 8); ++ return 0; ++ } ++} ++ ++/* pfe_eth_set_multi ++ */ ++static void pfe_eth_set_multi(struct net_device *ndev) ++{ ++ struct pfe_eth_priv_s *priv = netdev_priv(ndev); ++ struct pfe_mac_addr hash_addr; /* hash register structure */ ++ /* specific mac address register structure */ ++ struct pfe_mac_addr spec_addr; ++ int result; /* index into hash register to set.. */ ++ int uc_count = 0; ++ struct netdev_hw_addr *ha; ++ ++ if (ndev->flags & IFF_PROMISC) { ++ netif_info(priv, drv, ndev, "entering promiscuous mode\n"); ++ ++ priv->promisc = 1; ++ gemac_enable_copy_all(priv->EMAC_baseaddr); ++ } else { ++ priv->promisc = 0; ++ gemac_disable_copy_all(priv->EMAC_baseaddr); ++ } ++ ++ /* Enable broadcast frame reception if required. */ ++ if (ndev->flags & IFF_BROADCAST) { ++ gemac_allow_broadcast(priv->EMAC_baseaddr); ++ } else { ++ netif_info(priv, drv, ndev, ++ "disabling broadcast frame reception\n"); ++ ++ gemac_no_broadcast(priv->EMAC_baseaddr); ++ } ++ ++ if (ndev->flags & IFF_ALLMULTI) { ++ /* Set the hash to rx all multicast frames */ ++ hash_addr.bottom = 0xFFFFFFFF; ++ hash_addr.top = 0xFFFFFFFF; ++ gemac_set_hash(priv->EMAC_baseaddr, &hash_addr); ++ netdev_for_each_uc_addr(ha, ndev) { ++ if (uc_count >= MAX_UC_SPEC_ADDR_REG) ++ break; ++ pfe_eth_enet_addr_byte_mac(ha->addr, &spec_addr); ++ gemac_set_laddrN(priv->EMAC_baseaddr, &spec_addr, ++ uc_count + 2); ++ uc_count++; ++ } ++ } else if ((netdev_mc_count(ndev) > 0) || (netdev_uc_count(ndev))) { ++ u8 *addr; ++ ++ hash_addr.bottom = 0; ++ hash_addr.top = 0; ++ ++ netdev_for_each_mc_addr(ha, ndev) { ++ addr = ha->addr; ++ ++ netif_info(priv, drv, ndev, ++ "adding multicast address %X:%X:%X:%X:%X:%X to gem filter\n", ++ addr[0], addr[1], addr[2], ++ addr[3], addr[4], addr[5]); ++ ++ result = pfe_eth_get_hash(addr); ++ ++ if (result < EMAC_HASH_REG_BITS) { ++ if (result < 32) ++ hash_addr.bottom |= (1 << result); ++ else ++ hash_addr.top |= (1 << (result - 32)); ++ } else { ++ break; ++ } ++ } ++ ++ uc_count = -1; ++ netdev_for_each_uc_addr(ha, ndev) { ++ addr = ha->addr; ++ ++ if (++uc_count < MAX_UC_SPEC_ADDR_REG) { ++ netdev_info(ndev, ++ "adding unicast address %02x:%02x:%02x:%02x:%02x:%02x to gem filter\n", ++ addr[0], addr[1], addr[2], ++ addr[3], addr[4], addr[5]); ++ pfe_eth_enet_addr_byte_mac(addr, &spec_addr); ++ gemac_set_laddrN(priv->EMAC_baseaddr, ++ &spec_addr, uc_count + 2); ++ } else { ++ netif_info(priv, drv, ndev, ++ "adding unicast address %02x:%02x:%02x:%02x:%02x:%02x to gem hash\n", ++ addr[0], addr[1], addr[2], ++ addr[3], addr[4], addr[5]); ++ ++ result = pfe_eth_get_hash(addr); ++ if (result >= EMAC_HASH_REG_BITS) { ++ break; ++ ++ } else { ++ if (result < 32) ++ hash_addr.bottom |= (1 << ++ result); ++ else ++ hash_addr.top |= (1 << ++ (result - 32)); ++ } ++ } ++ } ++ ++ gemac_set_hash(priv->EMAC_baseaddr, &hash_addr); ++ } ++ ++ if (!(netdev_uc_count(ndev) >= MAX_UC_SPEC_ADDR_REG)) { ++ /* ++ * Check if there are any specific address HW registers that ++ * need to be flushed ++ */ ++ for (uc_count = netdev_uc_count(ndev); uc_count < ++ MAX_UC_SPEC_ADDR_REG; uc_count++) ++ gemac_clear_laddrN(priv->EMAC_baseaddr, uc_count + 2); ++ } ++ ++ if (ndev->flags & IFF_LOOPBACK) ++ gemac_set_loop(priv->EMAC_baseaddr, LB_LOCAL); ++} ++ ++/* pfe_eth_set_features ++ */ ++static int pfe_eth_set_features(struct net_device *ndev, netdev_features_t ++ features) ++{ ++ struct pfe_eth_priv_s *priv = netdev_priv(ndev); ++ int rc = 0; ++ ++ if (features & NETIF_F_RXCSUM) ++ gemac_enable_rx_checksum_offload(priv->EMAC_baseaddr); ++ else ++ gemac_disable_rx_checksum_offload(priv->EMAC_baseaddr); ++ return rc; ++} ++ ++/* pfe_eth_fast_tx_timeout ++ */ ++static enum hrtimer_restart pfe_eth_fast_tx_timeout(struct hrtimer *timer) ++{ ++ struct pfe_eth_fast_timer *fast_tx_timeout = container_of(timer, struct ++ pfe_eth_fast_timer, ++ timer); ++ struct pfe_eth_priv_s *priv = container_of(fast_tx_timeout->base, ++ struct pfe_eth_priv_s, ++ fast_tx_timeout); ++ struct netdev_queue *tx_queue = netdev_get_tx_queue(priv->ndev, ++ fast_tx_timeout->queuenum); ++ ++ if (netif_tx_queue_stopped(tx_queue)) { ++#ifdef PFE_ETH_TX_STATS ++ priv->was_stopped[fast_tx_timeout->queuenum] = 1; ++#endif ++ netif_tx_wake_queue(tx_queue); ++ } ++ ++ return HRTIMER_NORESTART; ++} ++ ++/* pfe_eth_fast_tx_timeout_init ++ */ ++static void pfe_eth_fast_tx_timeout_init(struct pfe_eth_priv_s *priv) ++{ ++ int i; ++ ++ for (i = 0; i < emac_txq_cnt; i++) { ++ priv->fast_tx_timeout[i].queuenum = i; ++ hrtimer_init(&priv->fast_tx_timeout[i].timer, CLOCK_MONOTONIC, ++ HRTIMER_MODE_REL); ++ priv->fast_tx_timeout[i].timer.function = ++ pfe_eth_fast_tx_timeout; ++ priv->fast_tx_timeout[i].base = priv->fast_tx_timeout; ++ } ++} ++ ++static struct sk_buff *pfe_eth_rx_skb(struct net_device *ndev, ++ struct pfe_eth_priv_s *priv, ++ unsigned int qno) ++{ ++ void *buf_addr; ++ unsigned int rx_ctrl; ++ unsigned int desc_ctrl = 0; ++ struct hif_ipsec_hdr *ipsec_hdr = NULL; ++ struct sk_buff *skb; ++ struct sk_buff *skb_frag, *skb_frag_last = NULL; ++ int length = 0, offset; ++ ++ skb = priv->skb_inflight[qno]; ++ ++ if (skb) { ++ skb_frag_last = skb_shinfo(skb)->frag_list; ++ if (skb_frag_last) { ++ while (skb_frag_last->next) ++ skb_frag_last = skb_frag_last->next; ++ } ++ } ++ ++ while (!(desc_ctrl & CL_DESC_LAST)) { ++ buf_addr = hif_lib_receive_pkt(&priv->client, qno, &length, ++ &offset, &rx_ctrl, &desc_ctrl, ++ (void **)&ipsec_hdr); ++ if (!buf_addr) ++ goto incomplete; ++ ++#ifdef PFE_ETH_NAPI_STATS ++ priv->napi_counters[NAPI_DESC_COUNT]++; ++#endif ++ ++ /* First frag */ ++ if (desc_ctrl & CL_DESC_FIRST) { ++ skb = build_skb(buf_addr, 0); ++ if (unlikely(!skb)) ++ goto pkt_drop; ++ ++ skb_reserve(skb, offset); ++ skb_put(skb, length); ++ skb->dev = ndev; ++ ++ if ((ndev->features & NETIF_F_RXCSUM) && (rx_ctrl & ++ HIF_CTRL_RX_CHECKSUMMED)) ++ skb->ip_summed = CHECKSUM_UNNECESSARY; ++ else ++ skb_checksum_none_assert(skb); ++ ++ } else { ++ /* Next frags */ ++ if (unlikely(!skb)) { ++ pr_err("%s: NULL skb_inflight\n", ++ __func__); ++ goto pkt_drop; ++ } ++ ++ skb_frag = build_skb(buf_addr, 0); ++ ++ if (unlikely(!skb_frag)) { ++ kfree(buf_addr); ++ goto pkt_drop; ++ } ++ ++ skb_reserve(skb_frag, offset); ++ skb_put(skb_frag, length); ++ ++ skb_frag->dev = ndev; ++ ++ if (skb_shinfo(skb)->frag_list) ++ skb_frag_last->next = skb_frag; ++ else ++ skb_shinfo(skb)->frag_list = skb_frag; ++ ++ skb->truesize += skb_frag->truesize; ++ skb->data_len += length; ++ skb->len += length; ++ skb_frag_last = skb_frag; ++ } ++ } ++ ++ priv->skb_inflight[qno] = NULL; ++ return skb; ++ ++incomplete: ++ priv->skb_inflight[qno] = skb; ++ return NULL; ++ ++pkt_drop: ++ priv->skb_inflight[qno] = NULL; ++ ++ if (skb) ++ kfree_skb(skb); ++ else ++ kfree(buf_addr); ++ ++ priv->stats.rx_errors++; ++ ++ return NULL; ++} ++ ++/* pfe_eth_poll ++ */ ++static int pfe_eth_poll(struct pfe_eth_priv_s *priv, struct napi_struct *napi, ++ unsigned int qno, int budget) ++{ ++ struct net_device *ndev = priv->ndev; ++ struct sk_buff *skb; ++ int work_done = 0; ++ unsigned int len; ++ ++ netif_info(priv, intr, priv->ndev, "%s\n", __func__); ++ ++#ifdef PFE_ETH_NAPI_STATS ++ priv->napi_counters[NAPI_POLL_COUNT]++; ++#endif ++ ++ do { ++ skb = pfe_eth_rx_skb(ndev, priv, qno); ++ ++ if (!skb) ++ break; ++ ++ len = skb->len; ++ ++ /* Packet will be processed */ ++ skb->protocol = eth_type_trans(skb, ndev); ++ ++ netif_receive_skb(skb); ++ ++ priv->stats.rx_packets++; ++ priv->stats.rx_bytes += len; ++ ++ work_done++; ++ ++#ifdef PFE_ETH_NAPI_STATS ++ priv->napi_counters[NAPI_PACKET_COUNT]++; ++#endif ++ ++ } while (work_done < budget); ++ ++ /* ++ * If no Rx receive nor cleanup work was done, exit polling mode. ++ * No more netif_running(dev) check is required here , as this is ++ * checked in net/core/dev.c (2.6.33.5 kernel specific). ++ */ ++ if (work_done < budget) { ++ napi_complete(napi); ++ ++ hif_lib_event_handler_start(&priv->client, EVENT_RX_PKT_IND, ++ qno); ++ } ++#ifdef PFE_ETH_NAPI_STATS ++ else ++ priv->napi_counters[NAPI_FULL_BUDGET_COUNT]++; ++#endif ++ ++ return work_done; ++} ++ ++/* ++ * pfe_eth_lro_poll ++ */ ++static int pfe_eth_lro_poll(struct napi_struct *napi, int budget) ++{ ++ struct pfe_eth_priv_s *priv = container_of(napi, struct pfe_eth_priv_s, ++ lro_napi); ++ ++ netif_info(priv, intr, priv->ndev, "%s\n", __func__); ++ ++ return pfe_eth_poll(priv, napi, 2, budget); ++} ++ ++/* pfe_eth_low_poll ++ */ ++static int pfe_eth_low_poll(struct napi_struct *napi, int budget) ++{ ++ struct pfe_eth_priv_s *priv = container_of(napi, struct pfe_eth_priv_s, ++ low_napi); ++ ++ netif_info(priv, intr, priv->ndev, "%s\n", __func__); ++ ++ return pfe_eth_poll(priv, napi, 1, budget); ++} ++ ++/* pfe_eth_high_poll ++ */ ++static int pfe_eth_high_poll(struct napi_struct *napi, int budget) ++{ ++ struct pfe_eth_priv_s *priv = container_of(napi, struct pfe_eth_priv_s, ++ high_napi); ++ ++ netif_info(priv, intr, priv->ndev, "%s\n", __func__); ++ ++ return pfe_eth_poll(priv, napi, 0, budget); ++} ++ ++static const struct net_device_ops pfe_netdev_ops = { ++ .ndo_open = pfe_eth_open, ++ .ndo_stop = pfe_eth_close, ++ .ndo_start_xmit = pfe_eth_send_packet, ++ .ndo_select_queue = pfe_eth_select_queue, ++ .ndo_set_rx_mode = pfe_eth_set_multi, ++ .ndo_set_mac_address = pfe_eth_set_mac_address, ++ .ndo_validate_addr = eth_validate_addr, ++ .ndo_change_mtu = pfe_eth_change_mtu, ++ .ndo_get_stats = pfe_eth_get_stats, ++ .ndo_set_features = pfe_eth_set_features, ++}; ++ ++/* pfe_eth_init_one ++ */ ++static int pfe_eth_init_one(struct pfe *pfe, int id) ++{ ++ struct net_device *ndev = NULL; ++ struct pfe_eth_priv_s *priv = NULL; ++ struct ls1012a_eth_platform_data *einfo; ++ struct ls1012a_mdio_platform_data *minfo; ++ struct ls1012a_pfe_platform_data *pfe_info; ++ int err; ++ ++ /* Extract pltform data */ ++ pfe_info = (struct ls1012a_pfe_platform_data *) ++ pfe->dev->platform_data; ++ if (!pfe_info) { ++ pr_err( ++ "%s: pfe missing additional platform data\n" ++ , __func__); ++ err = -ENODEV; ++ goto err0; ++ } ++ ++ einfo = (struct ls1012a_eth_platform_data *) ++ pfe_info->ls1012a_eth_pdata; ++ ++ /* einfo never be NULL, but no harm in having this check */ ++ if (!einfo) { ++ pr_err( ++ "%s: pfe missing additional gemacs platform data\n" ++ , __func__); ++ err = -ENODEV; ++ goto err0; ++ } ++ ++ minfo = (struct ls1012a_mdio_platform_data *) ++ pfe_info->ls1012a_mdio_pdata; ++ ++ /* einfo never be NULL, but no harm in having this check */ ++ if (!minfo) { ++ pr_err( ++ "%s: pfe missing additional mdios platform data\n", ++ __func__); ++ err = -ENODEV; ++ goto err0; ++ } ++ ++ if (us) ++ emac_txq_cnt = EMAC_TXQ_CNT; ++ /* Create an ethernet device instance */ ++ ndev = alloc_etherdev_mq(sizeof(*priv), emac_txq_cnt); ++ ++ if (!ndev) { ++ pr_err("%s: gemac %d device allocation failed\n", ++ __func__, einfo[id].gem_id); ++ err = -ENOMEM; ++ goto err0; ++ } ++ ++ priv = netdev_priv(ndev); ++ priv->ndev = ndev; ++ priv->id = einfo[id].gem_id; ++ priv->pfe = pfe; ++ ++ SET_NETDEV_DEV(priv->ndev, priv->pfe->dev); ++ ++ pfe->eth.eth_priv[id] = priv; ++ ++ /* Set the info in the priv to the current info */ ++ priv->einfo = &einfo[id]; ++ priv->EMAC_baseaddr = cbus_emac_base[id]; ++ priv->PHY_baseaddr = cbus_emac_base[0]; ++ priv->GPI_baseaddr = cbus_gpi_base[id]; ++ ++#define HIF_GEMAC_TMUQ_BASE 6 ++ priv->low_tmu_q = HIF_GEMAC_TMUQ_BASE + (id * 2); ++ priv->high_tmu_q = priv->low_tmu_q + 1; ++ ++ spin_lock_init(&priv->lock); ++ ++ pfe_eth_fast_tx_timeout_init(priv); ++ ++ /* Copy the station address into the dev structure, */ ++ memcpy(ndev->dev_addr, einfo[id].mac_addr, ETH_ALEN); ++ ++ /* Initialize mdio */ ++ if (minfo[id].enabled) { ++ err = pfe_eth_mdio_init(priv, &minfo[id]); ++ if (err) { ++ netdev_err(ndev, "%s: pfe_eth_mdio_init() failed\n", ++ __func__); ++ goto err2; ++ } ++ } ++ ++ if (us) ++ goto phy_init; ++ ++ ndev->mtu = 1500; ++ ++ /* Set MTU limits */ ++ ndev->min_mtu = ETH_MIN_MTU; ++ ++/* ++ * Jumbo frames are not supported on LS1012A rev-1.0. ++ * So max mtu should be restricted to supported frame length. ++ */ ++ if (pfe_errata_a010897) ++ ndev->max_mtu = JUMBO_FRAME_SIZE_V1 - ETH_HLEN - ETH_FCS_LEN; ++ else ++ ndev->max_mtu = JUMBO_FRAME_SIZE_V2 - ETH_HLEN - ETH_FCS_LEN; ++ ++ /* supported features */ ++ ndev->hw_features = NETIF_F_SG; ++ ++ /*Enable after checksum offload is validated */ ++ ndev->hw_features = NETIF_F_RXCSUM | NETIF_F_IP_CSUM | ++ NETIF_F_IPV6_CSUM | NETIF_F_SG; ++ ++ /* enabled by default */ ++ ndev->features = ndev->hw_features; ++ ++ priv->usr_features = ndev->features; ++ ++ ndev->netdev_ops = &pfe_netdev_ops; ++ ++ ndev->ethtool_ops = &pfe_ethtool_ops; ++ ++ /* Enable basic messages by default */ ++ priv->msg_enable = NETIF_MSG_IFUP | NETIF_MSG_IFDOWN | NETIF_MSG_LINK | ++ NETIF_MSG_PROBE; ++ ++ netif_napi_add(ndev, &priv->low_napi, pfe_eth_low_poll, ++ HIF_RX_POLL_WEIGHT - 16); ++ netif_napi_add(ndev, &priv->high_napi, pfe_eth_high_poll, ++ HIF_RX_POLL_WEIGHT - 16); ++ netif_napi_add(ndev, &priv->lro_napi, pfe_eth_lro_poll, ++ HIF_RX_POLL_WEIGHT - 16); ++ ++ err = register_netdev(ndev); ++ ++ if (err) { ++ netdev_err(ndev, "register_netdev() failed\n"); ++ goto err3; ++ } ++ ++phy_init: ++ device_init_wakeup(&ndev->dev, WAKE_MAGIC); ++ ++ if (!(priv->einfo->phy_flags & GEMAC_NO_PHY)) { ++ err = pfe_phy_init(ndev); ++ if (err) { ++ netdev_err(ndev, "%s: pfe_phy_init() failed\n", ++ __func__); ++ goto err4; ++ } ++ } ++ ++ if (us) { ++ if (priv->phydev) ++ phy_start(priv->phydev); ++ return 0; ++ } ++ ++ netif_carrier_on(ndev); ++ ++ /* Create all the sysfs files */ ++ if (pfe_eth_sysfs_init(ndev)) ++ goto err4; ++ ++ netif_info(priv, probe, ndev, "%s: created interface, baseaddr: %p\n", ++ __func__, priv->EMAC_baseaddr); ++ ++ return 0; ++err4: ++ if (us) ++ goto err3; ++ unregister_netdev(ndev); ++err3: ++ pfe_eth_mdio_exit(priv->mii_bus); ++err2: ++ free_netdev(priv->ndev); ++err0: ++ return err; ++} ++ ++/* pfe_eth_init ++ */ ++int pfe_eth_init(struct pfe *pfe) ++{ ++ int ii = 0; ++ int err; ++ ++ pr_info("%s\n", __func__); ++ ++ cbus_emac_base[0] = EMAC1_BASE_ADDR; ++ cbus_emac_base[1] = EMAC2_BASE_ADDR; ++ ++ cbus_gpi_base[0] = EGPI1_BASE_ADDR; ++ cbus_gpi_base[1] = EGPI2_BASE_ADDR; ++ ++ if (fsl_guts_get_svr() == LS1012A_REV_1_0) ++ pfe_errata_a010897 = true; ++ else ++ pfe_errata_a010897 = false; ++ ++ for (ii = 0; ii < NUM_GEMAC_SUPPORT; ii++) { ++ err = pfe_eth_init_one(pfe, ii); ++ if (err) ++ goto err0; ++ } ++ ++ return 0; ++ ++err0: ++ while (ii--) ++ pfe_eth_exit_one(pfe->eth.eth_priv[ii]); ++ ++ /* Register three network devices in the kernel */ ++ return err; ++} ++ ++/* pfe_eth_exit_one ++ */ ++static void pfe_eth_exit_one(struct pfe_eth_priv_s *priv) ++{ ++ netif_info(priv, probe, priv->ndev, "%s\n", __func__); ++ ++ if (!us) ++ pfe_eth_sysfs_exit(priv->ndev); ++ ++ if (!(priv->einfo->phy_flags & GEMAC_NO_PHY)) ++ pfe_phy_exit(priv->ndev); ++ ++ if (!us) ++ unregister_netdev(priv->ndev); ++ ++ if (priv->mii_bus) ++ pfe_eth_mdio_exit(priv->mii_bus); ++ ++ free_netdev(priv->ndev); ++} ++ ++/* pfe_eth_exit ++ */ ++void pfe_eth_exit(struct pfe *pfe) ++{ ++ int ii; ++ ++ pr_info("%s\n", __func__); ++ ++ for (ii = NUM_GEMAC_SUPPORT - 1; ii >= 0; ii--) ++ pfe_eth_exit_one(pfe->eth.eth_priv[ii]); ++} +--- /dev/null ++++ b/drivers/staging/fsl_ppfe/pfe_eth.h +@@ -0,0 +1,185 @@ ++/* ++ * Copyright 2015-2016 Freescale Semiconductor, Inc. ++ * Copyright 2017 NXP ++ * ++ * 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, see <http://www.gnu.org/licenses/>. ++ */ ++ ++#ifndef _PFE_ETH_H_ ++#define _PFE_ETH_H_ ++#include <linux/kernel.h> ++#include <linux/netdevice.h> ++#include <linux/etherdevice.h> ++#include <linux/ethtool.h> ++#include <linux/mii.h> ++#include <linux/phy.h> ++#include <linux/clk.h> ++#include <linux/interrupt.h> ++#include <linux/time.h> ++ ++#define PFE_ETH_NAPI_STATS ++#define PFE_ETH_TX_STATS ++ ++#define PFE_ETH_FRAGS_MAX (65536 / HIF_RX_PKT_MIN_SIZE) ++#define LRO_LEN_COUNT_MAX 32 ++#define LRO_NB_COUNT_MAX 32 ++ ++#define PFE_PAUSE_FLAG_ENABLE 1 ++#define PFE_PAUSE_FLAG_AUTONEG 2 ++ ++/* GEMAC configured by SW */ ++/* GEMAC configured by phy lines (not for MII/GMII) */ ++ ++#define GEMAC_SW_FULL_DUPLEX BIT(9) ++#define GEMAC_SW_SPEED_10M (0 << 12) ++#define GEMAC_SW_SPEED_100M BIT(12) ++#define GEMAC_SW_SPEED_1G (2 << 12) ++ ++#define GEMAC_NO_PHY BIT(0) ++ ++struct ls1012a_eth_platform_data { ++ /* device specific information */ ++ u32 device_flags; ++ char name[16]; ++ ++ /* board specific information */ ++ u32 mii_config; ++ u32 phy_flags; ++ u32 gem_id; ++ u32 bus_id; ++ u32 phy_id; ++ u32 mdio_muxval; ++ u8 mac_addr[ETH_ALEN]; ++}; ++ ++struct ls1012a_mdio_platform_data { ++ int enabled; ++ int irq[32]; ++ u32 phy_mask; ++ int mdc_div; ++}; ++ ++struct ls1012a_pfe_platform_data { ++ struct ls1012a_eth_platform_data ls1012a_eth_pdata[3]; ++ struct ls1012a_mdio_platform_data ls1012a_mdio_pdata[3]; ++}; ++ ++#define NUM_GEMAC_SUPPORT 2 ++#define DRV_NAME "pfe-eth" ++#define DRV_VERSION "1.0" ++ ++#define LS1012A_TX_FAST_RECOVERY_TIMEOUT_MS 3 ++#define TX_POLL_TIMEOUT_MS 1000 ++ ++#define EMAC_TXQ_CNT 16 ++#define EMAC_TXQ_DEPTH (HIF_TX_DESC_NT) ++ ++#define JUMBO_FRAME_SIZE_V1 1900 ++#define JUMBO_FRAME_SIZE_V2 10258 ++/* ++ * Client Tx queue threshold, for txQ flush condition. ++ * It must be smaller than the queue size (in case we ever change it in the ++ * future). ++ */ ++#define HIF_CL_TX_FLUSH_MARK 32 ++ ++/* ++ * Max number of TX resources (HIF descriptors or skbs) that will be released ++ * in a single go during batch recycling. ++ * Should be lower than the flush mark so the SW can provide the HW with a ++ * continuous stream of packets instead of bursts. ++ */ ++#define TX_FREE_MAX_COUNT 16 ++#define EMAC_RXQ_CNT 3 ++#define EMAC_RXQ_DEPTH HIF_RX_DESC_NT ++/* make sure clients can receive a full burst of packets */ ++#define EMAC_RMON_TXBYTES_POS 0x00 ++#define EMAC_RMON_RXBYTES_POS 0x14 ++ ++#define EMAC_QUEUENUM_MASK (emac_txq_cnt - 1) ++#define EMAC_MDIO_TIMEOUT 1000 ++#define MAX_UC_SPEC_ADDR_REG 31 ++ ++struct pfe_eth_fast_timer { ++ int queuenum; ++ struct hrtimer timer; ++ void *base; ++}; ++ ++struct pfe_eth_priv_s { ++ struct pfe *pfe; ++ struct hif_client_s client; ++ struct napi_struct lro_napi; ++ struct napi_struct low_napi; ++ struct napi_struct high_napi; ++ int low_tmu_q; ++ int high_tmu_q; ++ struct net_device_stats stats; ++ struct net_device *ndev; ++ int id; ++ int promisc; ++ unsigned int msg_enable; ++ unsigned int usr_features; ++ ++ spinlock_t lock; /* protect member variables */ ++ unsigned int event_status; ++ int irq; ++ void *EMAC_baseaddr; ++ /* This points to the EMAC base from where we access PHY */ ++ void *PHY_baseaddr; ++ void *GPI_baseaddr; ++ /* PHY stuff */ ++ struct phy_device *phydev; ++ int oldspeed; ++ int oldduplex; ++ int oldlink; ++ /* mdio info */ ++ int mdc_div; ++ struct mii_bus *mii_bus; ++ struct clk *gemtx_clk; ++ int wol; ++ int pause_flag; ++ ++ int default_priority; ++ struct pfe_eth_fast_timer fast_tx_timeout[EMAC_TXQ_CNT]; ++ ++ struct ls1012a_eth_platform_data *einfo; ++ struct sk_buff *skb_inflight[EMAC_RXQ_CNT + 6]; ++ ++#ifdef PFE_ETH_TX_STATS ++ unsigned int stop_queue_total[EMAC_TXQ_CNT]; ++ unsigned int stop_queue_hif[EMAC_TXQ_CNT]; ++ unsigned int stop_queue_hif_client[EMAC_TXQ_CNT]; ++ unsigned int stop_queue_credit[EMAC_TXQ_CNT]; ++ unsigned int clean_fail[EMAC_TXQ_CNT]; ++ unsigned int was_stopped[EMAC_TXQ_CNT]; ++#endif ++ ++#ifdef PFE_ETH_NAPI_STATS ++ unsigned int napi_counters[NAPI_MAX_COUNT]; ++#endif ++ unsigned int frags_inflight[EMAC_RXQ_CNT + 6]; ++}; ++ ++struct pfe_eth { ++ struct pfe_eth_priv_s *eth_priv[3]; ++}; ++ ++int pfe_eth_init(struct pfe *pfe); ++void pfe_eth_exit(struct pfe *pfe); ++int pfe_eth_suspend(struct net_device *dev); ++int pfe_eth_resume(struct net_device *dev); ++int pfe_eth_mdio_reset(struct mii_bus *bus); ++ ++#endif /* _PFE_ETH_H_ */ +--- /dev/null ++++ b/drivers/staging/fsl_ppfe/pfe_firmware.c +@@ -0,0 +1,314 @@ ++/* ++ * Copyright 2015-2016 Freescale Semiconductor, Inc. ++ * Copyright 2017 NXP ++ * ++ * 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, see <http://www.gnu.org/licenses/>. ++ */ ++ ++/* ++ * @file ++ * Contains all the functions to handle parsing and loading of PE firmware ++ * files. ++ */ ++#include <linux/firmware.h> ++ ++#include "pfe_mod.h" ++#include "pfe_firmware.h" ++#include "pfe/pfe.h" ++ ++static struct elf32_shdr *get_elf_section_header(const struct firmware *fw, ++ const char *section) ++{ ++ struct elf32_hdr *elf_hdr = (struct elf32_hdr *)fw->data; ++ struct elf32_shdr *shdr; ++ struct elf32_shdr *shdr_shstr; ++ Elf32_Off e_shoff = be32_to_cpu(elf_hdr->e_shoff); ++ Elf32_Half e_shentsize = be16_to_cpu(elf_hdr->e_shentsize); ++ Elf32_Half e_shnum = be16_to_cpu(elf_hdr->e_shnum); ++ Elf32_Half e_shstrndx = be16_to_cpu(elf_hdr->e_shstrndx); ++ Elf32_Off shstr_offset; ++ Elf32_Word sh_name; ++ const char *name; ++ int i; ++ ++ /* Section header strings */ ++ shdr_shstr = (struct elf32_shdr *)(fw->data + e_shoff + e_shstrndx * ++ e_shentsize); ++ shstr_offset = be32_to_cpu(shdr_shstr->sh_offset); ++ ++ for (i = 0; i < e_shnum; i++) { ++ shdr = (struct elf32_shdr *)(fw->data + e_shoff ++ + i * e_shentsize); ++ ++ sh_name = be32_to_cpu(shdr->sh_name); ++ ++ name = (const char *)(fw->data + shstr_offset + sh_name); ++ ++ if (!strcmp(name, section)) ++ return shdr; ++ } ++ ++ pr_err("%s: didn't find section %s\n", __func__, section); ++ ++ return NULL; ++} ++ ++#if defined(CFG_DIAGS) ++static int pfe_get_diags_info(const struct firmware *fw, struct pfe_diags_info ++ *diags_info) ++{ ++ struct elf32_shdr *shdr; ++ unsigned long offset, size; ++ ++ shdr = get_elf_section_header(fw, ".pfe_diags_str"); ++ if (shdr) { ++ offset = be32_to_cpu(shdr->sh_offset); ++ size = be32_to_cpu(shdr->sh_size); ++ diags_info->diags_str_base = be32_to_cpu(shdr->sh_addr); ++ diags_info->diags_str_size = size; ++ diags_info->diags_str_array = kmalloc(size, GFP_KERNEL); ++ memcpy(diags_info->diags_str_array, fw->data + offset, size); ++ ++ return 0; ++ } else { ++ return -1; ++ } ++} ++#endif ++ ++static void pfe_check_version_info(const struct firmware *fw) ++{ ++ /*static char *version = NULL;*/ ++ static char *version; ++ ++ struct elf32_shdr *shdr = get_elf_section_header(fw, ".version"); ++ ++ if (shdr) { ++ if (!version) { ++ /* ++ * this is the first fw we load, use its version ++ * string as reference (whatever it is) ++ */ ++ version = (char *)(fw->data + ++ be32_to_cpu(shdr->sh_offset)); ++ ++ pr_info("PFE binary version: %s\n", version); ++ } else { ++ /* ++ * already have loaded at least one firmware, check ++ * sequence can start now ++ */ ++ if (strcmp(version, (char *)(fw->data + ++ be32_to_cpu(shdr->sh_offset)))) { ++ pr_info( ++ "WARNING: PFE firmware binaries from incompatible version\n"); ++ } ++ } ++ } else { ++ /* ++ * version cannot be verified, a potential issue that should ++ * be reported ++ */ ++ pr_info( ++ "WARNING: PFE firmware binaries from incompatible version\n"); ++ } ++} ++ ++/* PFE elf firmware loader. ++ * Loads an elf firmware image into a list of PE's (specified using a bitmask) ++ * ++ * @param pe_mask Mask of PE id's to load firmware to ++ * @param fw Pointer to the firmware image ++ * ++ * @return 0 on success, a negative value on error ++ * ++ */ ++int pfe_load_elf(int pe_mask, const struct firmware *fw, struct pfe *pfe) ++{ ++ struct elf32_hdr *elf_hdr = (struct elf32_hdr *)fw->data; ++ Elf32_Half sections = be16_to_cpu(elf_hdr->e_shnum); ++ struct elf32_shdr *shdr = (struct elf32_shdr *)(fw->data + ++ be32_to_cpu(elf_hdr->e_shoff)); ++ int id, section; ++ int rc; ++ ++ pr_info("%s\n", __func__); ++ ++ /* Some sanity checks */ ++ if (strncmp(&elf_hdr->e_ident[EI_MAG0], ELFMAG, SELFMAG)) { ++ pr_err("%s: incorrect elf magic number\n", __func__); ++ return -EINVAL; ++ } ++ ++ if (elf_hdr->e_ident[EI_CLASS] != ELFCLASS32) { ++ pr_err("%s: incorrect elf class(%x)\n", __func__, ++ elf_hdr->e_ident[EI_CLASS]); ++ return -EINVAL; ++ } ++ ++ if (elf_hdr->e_ident[EI_DATA] != ELFDATA2MSB) { ++ pr_err("%s: incorrect elf data(%x)\n", __func__, ++ elf_hdr->e_ident[EI_DATA]); ++ return -EINVAL; ++ } ++ ++ if (be16_to_cpu(elf_hdr->e_type) != ET_EXEC) { ++ pr_err("%s: incorrect elf file type(%x)\n", __func__, ++ be16_to_cpu(elf_hdr->e_type)); ++ return -EINVAL; ++ } ++ ++ for (section = 0; section < sections; section++, shdr++) { ++ if (!(be32_to_cpu(shdr->sh_flags) & (SHF_WRITE | SHF_ALLOC | ++ SHF_EXECINSTR))) ++ continue; ++ ++ for (id = 0; id < MAX_PE; id++) ++ if (pe_mask & (1 << id)) { ++ rc = pe_load_elf_section(id, fw->data, shdr, ++ pfe->dev); ++ if (rc < 0) ++ goto err; ++ } ++ } ++ ++ pfe_check_version_info(fw); ++ ++ return 0; ++ ++err: ++ return rc; ++} ++ ++/* PFE firmware initialization. ++ * Loads different firmware files from filesystem. ++ * Initializes PE IMEM/DMEM and UTIL-PE DDR ++ * Initializes control path symbol addresses (by looking them up in the elf ++ * firmware files ++ * Takes PE's out of reset ++ * ++ * @return 0 on success, a negative value on error ++ * ++ */ ++int pfe_firmware_init(struct pfe *pfe) ++{ ++ const struct firmware *class_fw, *tmu_fw; ++ int rc = 0; ++#if !defined(CONFIG_FSL_PPFE_UTIL_DISABLED) ++ const char *util_fw_name; ++ const struct firmware *util_fw; ++#endif ++ ++ pr_info("%s\n", __func__); ++ ++ if (request_firmware(&class_fw, CLASS_FIRMWARE_FILENAME, pfe->dev)) { ++ pr_err("%s: request firmware %s failed\n", __func__, ++ CLASS_FIRMWARE_FILENAME); ++ rc = -ETIMEDOUT; ++ goto err0; ++ } ++ ++ if (request_firmware(&tmu_fw, TMU_FIRMWARE_FILENAME, pfe->dev)) { ++ pr_err("%s: request firmware %s failed\n", __func__, ++ TMU_FIRMWARE_FILENAME); ++ rc = -ETIMEDOUT; ++ goto err1; ++} ++ ++#if !defined(CONFIG_FSL_PPFE_UTIL_DISABLED) ++ util_fw_name = UTIL_FIRMWARE_FILENAME; ++ ++ if (request_firmware(&util_fw, util_fw_name, pfe->dev)) { ++ pr_err("%s: request firmware %s failed\n", __func__, ++ util_fw_name); ++ rc = -ETIMEDOUT; ++ goto err2; ++ } ++#endif ++ rc = pfe_load_elf(CLASS_MASK, class_fw, pfe); ++ if (rc < 0) { ++ pr_err("%s: class firmware load failed\n", __func__); ++ goto err3; ++ } ++ ++#if defined(CFG_DIAGS) ++ rc = pfe_get_diags_info(class_fw, &pfe->diags.class_diags_info); ++ if (rc < 0) { ++ pr_warn( ++ "PFE diags won't be available for class PEs\n"); ++ rc = 0; ++ } ++#endif ++ ++ rc = pfe_load_elf(TMU_MASK, tmu_fw, pfe); ++ if (rc < 0) { ++ pr_err("%s: tmu firmware load failed\n", __func__); ++ goto err3; ++ } ++ ++#if !defined(CONFIG_FSL_PPFE_UTIL_DISABLED) ++ rc = pfe_load_elf(UTIL_MASK, util_fw, pfe); ++ if (rc < 0) { ++ pr_err("%s: util firmware load failed\n", __func__); ++ goto err3; ++ } ++ ++#if defined(CFG_DIAGS) ++ rc = pfe_get_diags_info(util_fw, &pfe->diags.util_diags_info); ++ if (rc < 0) { ++ pr_warn( ++ "PFE diags won't be available for util PE\n"); ++ rc = 0; ++ } ++#endif ++ ++ util_enable(); ++#endif ++ ++ tmu_enable(0xf); ++ class_enable(); ++ ++err3: ++#if !defined(CONFIG_FSL_PPFE_UTIL_DISABLED) ++ release_firmware(util_fw); ++ ++err2: ++#endif ++ release_firmware(tmu_fw); ++ ++err1: ++ release_firmware(class_fw); ++ ++err0: ++ return rc; ++} ++ ++/* PFE firmware cleanup ++ * Puts PE's in reset ++ * ++ * ++ */ ++void pfe_firmware_exit(struct pfe *pfe) ++{ ++ pr_info("%s\n", __func__); ++ ++ if (pe_reset_all(&pfe->ctrl) != 0) ++ pr_err("Error: Failed to stop PEs, PFE reload may not work correctly\n"); ++ ++ class_disable(); ++ tmu_disable(0xf); ++#if !defined(CONFIG_FSL_PPFE_UTIL_DISABLED) ++ util_disable(); ++#endif ++} +--- /dev/null ++++ b/drivers/staging/fsl_ppfe/pfe_firmware.h +@@ -0,0 +1,32 @@ ++/* ++ * Copyright 2015-2016 Freescale Semiconductor, Inc. ++ * Copyright 2017 NXP ++ * ++ * 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, see <http://www.gnu.org/licenses/>. ++ */ ++ ++#ifndef _PFE_FIRMWARE_H_ ++#define _PFE_FIRMWARE_H_ ++ ++#define CLASS_FIRMWARE_FILENAME "ppfe_class_ls1012a.elf" ++#define TMU_FIRMWARE_FILENAME "ppfe_tmu_ls1012a.elf" ++ ++#define PFE_FW_CHECK_PASS 0 ++#define PFE_FW_CHECK_FAIL 1 ++#define NUM_PFE_FW 3 ++ ++int pfe_firmware_init(struct pfe *pfe); ++void pfe_firmware_exit(struct pfe *pfe); ++ ++#endif /* _PFE_FIRMWARE_H_ */ +--- /dev/null ++++ b/drivers/staging/fsl_ppfe/pfe_hal.c +@@ -0,0 +1,1528 @@ ++/* ++ * Copyright 2015-2016 Freescale Semiconductor, Inc. ++ * Copyright 2017 NXP ++ * ++ * 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, see <http://www.gnu.org/licenses/>. ++ */ ++ ++#include "pfe_mod.h" ++#include "pfe/pfe.h" ++ ++/* A-010897: Jumbo frame is not supported */ ++extern bool pfe_errata_a010897; ++ ++#define PFE_RCR_MAX_FL_MASK 0xC000FFFF ++ ++void *cbus_base_addr; ++void *ddr_base_addr; ++unsigned long ddr_phys_base_addr; ++unsigned int ddr_size; ++ ++static struct pe_info pe[MAX_PE]; ++ ++/* Initializes the PFE library. ++ * Must be called before using any of the library functions. ++ * ++ * @param[in] cbus_base CBUS virtual base address (as mapped in ++ * the host CPU address space) ++ * @param[in] ddr_base PFE DDR range virtual base address (as ++ * mapped in the host CPU address space) ++ * @param[in] ddr_phys_base PFE DDR range physical base address (as ++ * mapped in platform) ++ * @param[in] size PFE DDR range size (as defined by the host ++ * software) ++ */ ++void pfe_lib_init(void *cbus_base, void *ddr_base, unsigned long ddr_phys_base, ++ unsigned int size) ++{ ++ cbus_base_addr = cbus_base; ++ ddr_base_addr = ddr_base; ++ ddr_phys_base_addr = ddr_phys_base; ++ ddr_size = size; ++ ++ pe[CLASS0_ID].dmem_base_addr = CLASS_DMEM_BASE_ADDR(0); ++ pe[CLASS0_ID].pmem_base_addr = CLASS_IMEM_BASE_ADDR(0); ++ pe[CLASS0_ID].pmem_size = CLASS_IMEM_SIZE; ++ pe[CLASS0_ID].mem_access_wdata = CLASS_MEM_ACCESS_WDATA; ++ pe[CLASS0_ID].mem_access_addr = CLASS_MEM_ACCESS_ADDR; ++ pe[CLASS0_ID].mem_access_rdata = CLASS_MEM_ACCESS_RDATA; ++ ++ pe[CLASS1_ID].dmem_base_addr = CLASS_DMEM_BASE_ADDR(1); ++ pe[CLASS1_ID].pmem_base_addr = CLASS_IMEM_BASE_ADDR(1); ++ pe[CLASS1_ID].pmem_size = CLASS_IMEM_SIZE; ++ pe[CLASS1_ID].mem_access_wdata = CLASS_MEM_ACCESS_WDATA; ++ pe[CLASS1_ID].mem_access_addr = CLASS_MEM_ACCESS_ADDR; ++ pe[CLASS1_ID].mem_access_rdata = CLASS_MEM_ACCESS_RDATA; ++ ++ pe[CLASS2_ID].dmem_base_addr = CLASS_DMEM_BASE_ADDR(2); ++ pe[CLASS2_ID].pmem_base_addr = CLASS_IMEM_BASE_ADDR(2); ++ pe[CLASS2_ID].pmem_size = CLASS_IMEM_SIZE; ++ pe[CLASS2_ID].mem_access_wdata = CLASS_MEM_ACCESS_WDATA; ++ pe[CLASS2_ID].mem_access_addr = CLASS_MEM_ACCESS_ADDR; ++ pe[CLASS2_ID].mem_access_rdata = CLASS_MEM_ACCESS_RDATA; ++ ++ pe[CLASS3_ID].dmem_base_addr = CLASS_DMEM_BASE_ADDR(3); ++ pe[CLASS3_ID].pmem_base_addr = CLASS_IMEM_BASE_ADDR(3); ++ pe[CLASS3_ID].pmem_size = CLASS_IMEM_SIZE; ++ pe[CLASS3_ID].mem_access_wdata = CLASS_MEM_ACCESS_WDATA; ++ pe[CLASS3_ID].mem_access_addr = CLASS_MEM_ACCESS_ADDR; ++ pe[CLASS3_ID].mem_access_rdata = CLASS_MEM_ACCESS_RDATA; ++ ++ pe[CLASS4_ID].dmem_base_addr = CLASS_DMEM_BASE_ADDR(4); ++ pe[CLASS4_ID].pmem_base_addr = CLASS_IMEM_BASE_ADDR(4); ++ pe[CLASS4_ID].pmem_size = CLASS_IMEM_SIZE; ++ pe[CLASS4_ID].mem_access_wdata = CLASS_MEM_ACCESS_WDATA; ++ pe[CLASS4_ID].mem_access_addr = CLASS_MEM_ACCESS_ADDR; ++ pe[CLASS4_ID].mem_access_rdata = CLASS_MEM_ACCESS_RDATA; ++ ++ pe[CLASS5_ID].dmem_base_addr = CLASS_DMEM_BASE_ADDR(5); ++ pe[CLASS5_ID].pmem_base_addr = CLASS_IMEM_BASE_ADDR(5); ++ pe[CLASS5_ID].pmem_size = CLASS_IMEM_SIZE; ++ pe[CLASS5_ID].mem_access_wdata = CLASS_MEM_ACCESS_WDATA; ++ pe[CLASS5_ID].mem_access_addr = CLASS_MEM_ACCESS_ADDR; ++ pe[CLASS5_ID].mem_access_rdata = CLASS_MEM_ACCESS_RDATA; ++ ++ pe[TMU0_ID].dmem_base_addr = TMU_DMEM_BASE_ADDR(0); ++ pe[TMU0_ID].pmem_base_addr = TMU_IMEM_BASE_ADDR(0); ++ pe[TMU0_ID].pmem_size = TMU_IMEM_SIZE; ++ pe[TMU0_ID].mem_access_wdata = TMU_MEM_ACCESS_WDATA; ++ pe[TMU0_ID].mem_access_addr = TMU_MEM_ACCESS_ADDR; ++ pe[TMU0_ID].mem_access_rdata = TMU_MEM_ACCESS_RDATA; ++ ++ pe[TMU1_ID].dmem_base_addr = TMU_DMEM_BASE_ADDR(1); ++ pe[TMU1_ID].pmem_base_addr = TMU_IMEM_BASE_ADDR(1); ++ pe[TMU1_ID].pmem_size = TMU_IMEM_SIZE; ++ pe[TMU1_ID].mem_access_wdata = TMU_MEM_ACCESS_WDATA; ++ pe[TMU1_ID].mem_access_addr = TMU_MEM_ACCESS_ADDR; ++ pe[TMU1_ID].mem_access_rdata = TMU_MEM_ACCESS_RDATA; ++ ++ pe[TMU3_ID].dmem_base_addr = TMU_DMEM_BASE_ADDR(3); ++ pe[TMU3_ID].pmem_base_addr = TMU_IMEM_BASE_ADDR(3); ++ pe[TMU3_ID].pmem_size = TMU_IMEM_SIZE; ++ pe[TMU3_ID].mem_access_wdata = TMU_MEM_ACCESS_WDATA; ++ pe[TMU3_ID].mem_access_addr = TMU_MEM_ACCESS_ADDR; ++ pe[TMU3_ID].mem_access_rdata = TMU_MEM_ACCESS_RDATA; ++ ++#if !defined(CONFIG_FSL_PPFE_UTIL_DISABLED) ++ pe[UTIL_ID].dmem_base_addr = UTIL_DMEM_BASE_ADDR; ++ pe[UTIL_ID].mem_access_wdata = UTIL_MEM_ACCESS_WDATA; ++ pe[UTIL_ID].mem_access_addr = UTIL_MEM_ACCESS_ADDR; ++ pe[UTIL_ID].mem_access_rdata = UTIL_MEM_ACCESS_RDATA; ++#endif ++} ++ ++/* Writes a buffer to PE internal memory from the host ++ * through indirect access registers. ++ * ++ * @param[in] id PE identification (CLASS0_ID, ..., TMU0_ID, ++ * ..., UTIL_ID) ++ * @param[in] src Buffer source address ++ * @param[in] mem_access_addr DMEM destination address (must be 32bit ++ * aligned) ++ * @param[in] len Number of bytes to copy ++ */ ++void pe_mem_memcpy_to32(int id, u32 mem_access_addr, const void *src, unsigned ++int len) ++{ ++ u32 offset = 0, val, addr; ++ unsigned int len32 = len >> 2; ++ int i; ++ ++ addr = mem_access_addr | PE_MEM_ACCESS_WRITE | ++ PE_MEM_ACCESS_BYTE_ENABLE(0, 4); ++ ++ for (i = 0; i < len32; i++, offset += 4, src += 4) { ++ val = *(u32 *)src; ++ writel(cpu_to_be32(val), pe[id].mem_access_wdata); ++ writel(addr + offset, pe[id].mem_access_addr); ++ } ++ ++ len = (len & 0x3); ++ if (len) { ++ val = 0; ++ ++ addr = (mem_access_addr | PE_MEM_ACCESS_WRITE | ++ PE_MEM_ACCESS_BYTE_ENABLE(0, len)) + offset; ++ ++ for (i = 0; i < len; i++, src++) ++ val |= (*(u8 *)src) << (8 * i); ++ ++ writel(cpu_to_be32(val), pe[id].mem_access_wdata); ++ writel(addr, pe[id].mem_access_addr); ++ } ++} ++ ++/* Writes a buffer to PE internal data memory (DMEM) from the host ++ * through indirect access registers. ++ * @param[in] id PE identification (CLASS0_ID, ..., TMU0_ID, ++ * ..., UTIL_ID) ++ * @param[in] src Buffer source address ++ * @param[in] dst DMEM destination address (must be 32bit ++ * aligned) ++ * @param[in] len Number of bytes to copy ++ */ ++void pe_dmem_memcpy_to32(int id, u32 dst, const void *src, unsigned int len) ++{ ++ pe_mem_memcpy_to32(id, pe[id].dmem_base_addr | dst | ++ PE_MEM_ACCESS_DMEM, src, len); ++} ++ ++/* Writes a buffer to PE internal program memory (PMEM) from the host ++ * through indirect access registers. ++ * @param[in] id PE identification (CLASS0_ID, ..., TMU0_ID, ++ * ..., TMU3_ID) ++ * @param[in] src Buffer source address ++ * @param[in] dst PMEM destination address (must be 32bit ++ * aligned) ++ * @param[in] len Number of bytes to copy ++ */ ++void pe_pmem_memcpy_to32(int id, u32 dst, const void *src, unsigned int len) ++{ ++ pe_mem_memcpy_to32(id, pe[id].pmem_base_addr | (dst & (pe[id].pmem_size ++ - 1)) | PE_MEM_ACCESS_IMEM, src, len); ++} ++ ++/* Reads PE internal program memory (IMEM) from the host ++ * through indirect access registers. ++ * @param[in] id PE identification (CLASS0_ID, ..., TMU0_ID, ++ * ..., TMU3_ID) ++ * @param[in] addr PMEM read address (must be aligned on size) ++ * @param[in] size Number of bytes to read (maximum 4, must not ++ * cross 32bit boundaries) ++ * @return the data read (in PE endianness, i.e BE). ++ */ ++u32 pe_pmem_read(int id, u32 addr, u8 size) ++{ ++ u32 offset = addr & 0x3; ++ u32 mask = 0xffffffff >> ((4 - size) << 3); ++ u32 val; ++ ++ addr = pe[id].pmem_base_addr | ((addr & ~0x3) & (pe[id].pmem_size - 1)) ++ | PE_MEM_ACCESS_IMEM | PE_MEM_ACCESS_BYTE_ENABLE(offset, size); ++ ++ writel(addr, pe[id].mem_access_addr); ++ val = be32_to_cpu(readl(pe[id].mem_access_rdata)); ++ ++ return (val >> (offset << 3)) & mask; ++} ++ ++/* Writes PE internal data memory (DMEM) from the host ++ * through indirect access registers. ++ * @param[in] id PE identification (CLASS0_ID, ..., TMU0_ID, ++ * ..., UTIL_ID) ++ * @param[in] addr DMEM write address (must be aligned on size) ++ * @param[in] val Value to write (in PE endianness, i.e BE) ++ * @param[in] size Number of bytes to write (maximum 4, must not ++ * cross 32bit boundaries) ++ */ ++void pe_dmem_write(int id, u32 val, u32 addr, u8 size) ++{ ++ u32 offset = addr & 0x3; ++ ++ addr = pe[id].dmem_base_addr | (addr & ~0x3) | PE_MEM_ACCESS_WRITE | ++ PE_MEM_ACCESS_DMEM | PE_MEM_ACCESS_BYTE_ENABLE(offset, size); ++ ++ /* Indirect access interface is byte swapping data being written */ ++ writel(cpu_to_be32(val << (offset << 3)), pe[id].mem_access_wdata); ++ writel(addr, pe[id].mem_access_addr); ++} ++ ++/* Reads PE internal data memory (DMEM) from the host ++ * through indirect access registers. ++ * @param[in] id PE identification (CLASS0_ID, ..., TMU0_ID, ++ * ..., UTIL_ID) ++ * @param[in] addr DMEM read address (must be aligned on size) ++ * @param[in] size Number of bytes to read (maximum 4, must not ++ * cross 32bit boundaries) ++ * @return the data read (in PE endianness, i.e BE). ++ */ ++u32 pe_dmem_read(int id, u32 addr, u8 size) ++{ ++ u32 offset = addr & 0x3; ++ u32 mask = 0xffffffff >> ((4 - size) << 3); ++ u32 val; ++ ++ addr = pe[id].dmem_base_addr | (addr & ~0x3) | PE_MEM_ACCESS_DMEM | ++ PE_MEM_ACCESS_BYTE_ENABLE(offset, size); ++ ++ writel(addr, pe[id].mem_access_addr); ++ ++ /* Indirect access interface is byte swapping data being read */ ++ val = be32_to_cpu(readl(pe[id].mem_access_rdata)); ++ ++ return (val >> (offset << 3)) & mask; ++} ++ ++/* This function is used to write to CLASS internal bus peripherals (ccu, ++ * pe-lem) from the host ++ * through indirect access registers. ++ * @param[in] val value to write ++ * @param[in] addr Address to write to (must be aligned on size) ++ * @param[in] size Number of bytes to write (1, 2 or 4) ++ * ++ */ ++void class_bus_write(u32 val, u32 addr, u8 size) ++{ ++ u32 offset = addr & 0x3; ++ ++ writel((addr & CLASS_BUS_ACCESS_BASE_MASK), CLASS_BUS_ACCESS_BASE); ++ ++ addr = (addr & ~CLASS_BUS_ACCESS_BASE_MASK) | PE_MEM_ACCESS_WRITE | ++ (size << 24); ++ ++ writel(cpu_to_be32(val << (offset << 3)), CLASS_BUS_ACCESS_WDATA); ++ writel(addr, CLASS_BUS_ACCESS_ADDR); ++} ++ ++/* Reads from CLASS internal bus peripherals (ccu, pe-lem) from the host ++ * through indirect access registers. ++ * @param[in] addr Address to read from (must be aligned on size) ++ * @param[in] size Number of bytes to read (1, 2 or 4) ++ * @return the read data ++ * ++ */ ++u32 class_bus_read(u32 addr, u8 size) ++{ ++ u32 offset = addr & 0x3; ++ u32 mask = 0xffffffff >> ((4 - size) << 3); ++ u32 val; ++ ++ writel((addr & CLASS_BUS_ACCESS_BASE_MASK), CLASS_BUS_ACCESS_BASE); ++ ++ addr = (addr & ~CLASS_BUS_ACCESS_BASE_MASK) | (size << 24); ++ ++ writel(addr, CLASS_BUS_ACCESS_ADDR); ++ val = be32_to_cpu(readl(CLASS_BUS_ACCESS_RDATA)); ++ ++ return (val >> (offset << 3)) & mask; ++} ++ ++/* Writes data to the cluster memory (PE_LMEM) ++ * @param[in] dst PE LMEM destination address (must be 32bit aligned) ++ * @param[in] src Buffer source address ++ * @param[in] len Number of bytes to copy ++ */ ++void class_pe_lmem_memcpy_to32(u32 dst, const void *src, unsigned int len) ++{ ++ u32 len32 = len >> 2; ++ int i; ++ ++ for (i = 0; i < len32; i++, src += 4, dst += 4) ++ class_bus_write(*(u32 *)src, dst, 4); ++ ++ if (len & 0x2) { ++ class_bus_write(*(u16 *)src, dst, 2); ++ src += 2; ++ dst += 2; ++ } ++ ++ if (len & 0x1) { ++ class_bus_write(*(u8 *)src, dst, 1); ++ src++; ++ dst++; ++ } ++} ++ ++/* Writes value to the cluster memory (PE_LMEM) ++ * @param[in] dst PE LMEM destination address (must be 32bit aligned) ++ * @param[in] val Value to write ++ * @param[in] len Number of bytes to write ++ */ ++void class_pe_lmem_memset(u32 dst, int val, unsigned int len) ++{ ++ u32 len32 = len >> 2; ++ int i; ++ ++ val = val | (val << 8) | (val << 16) | (val << 24); ++ ++ for (i = 0; i < len32; i++, dst += 4) ++ class_bus_write(val, dst, 4); ++ ++ if (len & 0x2) { ++ class_bus_write(val, dst, 2); ++ dst += 2; ++ } ++ ++ if (len & 0x1) { ++ class_bus_write(val, dst, 1); ++ dst++; ++ } ++} ++ ++#if !defined(CONFIG_FSL_PPFE_UTIL_DISABLED) ++ ++/* Writes UTIL program memory (DDR) from the host. ++ * ++ * @param[in] addr Address to write (virtual, must be aligned on size) ++ * @param[in] val Value to write (in PE endianness, i.e BE) ++ * @param[in] size Number of bytes to write (2 or 4) ++ */ ++static void util_pmem_write(u32 val, void *addr, u8 size) ++{ ++ void *addr64 = (void *)((unsigned long)addr & ~0x7); ++ unsigned long off = 8 - ((unsigned long)addr & 0x7) - size; ++ ++ /* ++ * IMEM should be loaded as a 64bit swapped value in a 64bit aligned ++ * location ++ */ ++ if (size == 4) ++ writel(be32_to_cpu(val), addr64 + off); ++ else ++ writew(be16_to_cpu((u16)val), addr64 + off); ++} ++ ++/* Writes a buffer to UTIL program memory (DDR) from the host. ++ * ++ * @param[in] dst Address to write (virtual, must be at least 16bit ++ * aligned) ++ * @param[in] src Buffer to write (in PE endianness, i.e BE, must have ++ * same alignment as dst) ++ * @param[in] len Number of bytes to write (must be at least 16bit ++ * aligned) ++ */ ++static void util_pmem_memcpy(void *dst, const void *src, unsigned int len) ++{ ++ unsigned int len32; ++ int i; ++ ++ if ((unsigned long)src & 0x2) { ++ util_pmem_write(*(u16 *)src, dst, 2); ++ src += 2; ++ dst += 2; ++ len -= 2; ++ } ++ ++ len32 = len >> 2; ++ ++ for (i = 0; i < len32; i++, dst += 4, src += 4) ++ util_pmem_write(*(u32 *)src, dst, 4); ++ ++ if (len & 0x2) ++ util_pmem_write(*(u16 *)src, dst, len & 0x2); ++} ++#endif ++ ++/* Loads an elf section into pmem ++ * Code needs to be at least 16bit aligned and only PROGBITS sections are ++ * supported ++ * ++ * @param[in] id PE identification (CLASS0_ID, ..., TMU0_ID, ..., ++ * TMU3_ID) ++ * @param[in] data pointer to the elf firmware ++ * @param[in] shdr pointer to the elf section header ++ * ++ */ ++static int pe_load_pmem_section(int id, const void *data, ++ struct elf32_shdr *shdr) ++{ ++ u32 offset = be32_to_cpu(shdr->sh_offset); ++ u32 addr = be32_to_cpu(shdr->sh_addr); ++ u32 size = be32_to_cpu(shdr->sh_size); ++ u32 type = be32_to_cpu(shdr->sh_type); ++ ++#if !defined(CONFIG_FSL_PPFE_UTIL_DISABLED) ++ if (id == UTIL_ID) { ++ pr_err("%s: unsupported pmem section for UTIL\n", ++ __func__); ++ return -EINVAL; ++ } ++#endif ++ ++ if (((unsigned long)(data + offset) & 0x3) != (addr & 0x3)) { ++ pr_err( ++ "%s: load address(%x) and elf file address(%lx) don't have the same alignment\n" ++ , __func__, addr, (unsigned long)data + offset); ++ ++ return -EINVAL; ++ } ++ ++ if (addr & 0x1) { ++ pr_err("%s: load address(%x) is not 16bit aligned\n", ++ __func__, addr); ++ return -EINVAL; ++ } ++ ++ if (size & 0x1) { ++ pr_err("%s: load size(%x) is not 16bit aligned\n", ++ __func__, size); ++ return -EINVAL; ++ } ++ ++ switch (type) { ++ case SHT_PROGBITS: ++ pe_pmem_memcpy_to32(id, addr, data + offset, size); ++ ++ break; ++ ++ default: ++ pr_err("%s: unsupported section type(%x)\n", __func__, ++ type); ++ return -EINVAL; ++ } ++ ++ return 0; ++} ++ ++/* Loads an elf section into dmem ++ * Data needs to be at least 32bit aligned, NOBITS sections are correctly ++ * initialized to 0 ++ * ++ * @param[in] id PE identification (CLASS0_ID, ..., TMU0_ID, ++ * ..., UTIL_ID) ++ * @param[in] data pointer to the elf firmware ++ * @param[in] shdr pointer to the elf section header ++ * ++ */ ++static int pe_load_dmem_section(int id, const void *data, ++ struct elf32_shdr *shdr) ++{ ++ u32 offset = be32_to_cpu(shdr->sh_offset); ++ u32 addr = be32_to_cpu(shdr->sh_addr); ++ u32 size = be32_to_cpu(shdr->sh_size); ++ u32 type = be32_to_cpu(shdr->sh_type); ++ u32 size32 = size >> 2; ++ int i; ++ ++ if (((unsigned long)(data + offset) & 0x3) != (addr & 0x3)) { ++ pr_err( ++ "%s: load address(%x) and elf file address(%lx) don't have the same alignment\n", ++ __func__, addr, (unsigned long)data + offset); ++ ++ return -EINVAL; ++ } ++ ++ if (addr & 0x3) { ++ pr_err("%s: load address(%x) is not 32bit aligned\n", ++ __func__, addr); ++ return -EINVAL; ++ } ++ ++ switch (type) { ++ case SHT_PROGBITS: ++ pe_dmem_memcpy_to32(id, addr, data + offset, size); ++ break; ++ ++ case SHT_NOBITS: ++ for (i = 0; i < size32; i++, addr += 4) ++ pe_dmem_write(id, 0, addr, 4); ++ ++ if (size & 0x3) ++ pe_dmem_write(id, 0, addr, size & 0x3); ++ ++ break; ++ ++ default: ++ pr_err("%s: unsupported section type(%x)\n", __func__, ++ type); ++ return -EINVAL; ++ } ++ ++ return 0; ++} ++ ++/* Loads an elf section into DDR ++ * Data needs to be at least 32bit aligned, NOBITS sections are correctly ++ * initialized to 0 ++ * ++ * @param[in] id PE identification (CLASS0_ID, ..., TMU0_ID, ++ * ..., UTIL_ID) ++ * @param[in] data pointer to the elf firmware ++ * @param[in] shdr pointer to the elf section header ++ * ++ */ ++static int pe_load_ddr_section(int id, const void *data, ++ struct elf32_shdr *shdr, ++ struct device *dev) { ++ u32 offset = be32_to_cpu(shdr->sh_offset); ++ u32 addr = be32_to_cpu(shdr->sh_addr); ++ u32 size = be32_to_cpu(shdr->sh_size); ++ u32 type = be32_to_cpu(shdr->sh_type); ++ u32 flags = be32_to_cpu(shdr->sh_flags); ++ ++ switch (type) { ++ case SHT_PROGBITS: ++ if (flags & SHF_EXECINSTR) { ++ if (id <= CLASS_MAX_ID) { ++ /* DO the loading only once in DDR */ ++ if (id == CLASS0_ID) { ++ pr_err( ++ "%s: load address(%x) and elf file address(%lx) rcvd\n", ++ __func__, addr, ++ (unsigned long)data + offset); ++ if (((unsigned long)(data + offset) ++ & 0x3) != (addr & 0x3)) { ++ pr_err( ++ "%s: load address(%x) and elf file address(%lx) don't have the same alignment\n" ++ , __func__, addr, ++ (unsigned long)data + offset); ++ ++ return -EINVAL; ++ } ++ ++ if (addr & 0x1) { ++ pr_err( ++ "%s: load address(%x) is not 16bit aligned\n" ++ , __func__, addr); ++ return -EINVAL; ++ } ++ ++ if (size & 0x1) { ++ pr_err( ++ "%s: load length(%x) is not 16bit aligned\n" ++ , __func__, size); ++ return -EINVAL; ++ } ++ memcpy(DDR_PHYS_TO_VIRT( ++ DDR_PFE_TO_PHYS(addr)), ++ data + offset, size); ++ } ++#if !defined(CONFIG_FSL_PPFE_UTIL_DISABLED) ++ } else if (id == UTIL_ID) { ++ if (((unsigned long)(data + offset) & 0x3) ++ != (addr & 0x3)) { ++ pr_err( ++ "%s: load address(%x) and elf file address(%lx) don't have the same alignment\n" ++ , __func__, addr, ++ (unsigned long)data + offset); ++ ++ return -EINVAL; ++ } ++ ++ if (addr & 0x1) { ++ pr_err( ++ "%s: load address(%x) is not 16bit aligned\n" ++ , __func__, addr); ++ return -EINVAL; ++ } ++ ++ if (size & 0x1) { ++ pr_err( ++ "%s: load length(%x) is not 16bit aligned\n" ++ , __func__, size); ++ return -EINVAL; ++ } ++ ++ util_pmem_memcpy(DDR_PHYS_TO_VIRT( ++ DDR_PFE_TO_PHYS(addr)), ++ data + offset, size); ++ } ++#endif ++ } else { ++ pr_err( ++ "%s: unsupported ddr section type(%x) for PE(%d)\n" ++ , __func__, type, id); ++ return -EINVAL; ++ } ++ ++ } else { ++ memcpy(DDR_PHYS_TO_VIRT(DDR_PFE_TO_PHYS(addr)), data ++ + offset, size); ++ } ++ ++ break; ++ ++ case SHT_NOBITS: ++ memset(DDR_PHYS_TO_VIRT(DDR_PFE_TO_PHYS(addr)), 0, size); ++ ++ break; ++ ++ default: ++ pr_err("%s: unsupported section type(%x)\n", __func__, ++ type); ++ return -EINVAL; ++ } ++ ++ return 0; ++} ++ ++/* Loads an elf section into pe lmem ++ * Data needs to be at least 32bit aligned, NOBITS sections are correctly ++ * initialized to 0 ++ * ++ * @param[in] id PE identification (CLASS0_ID,..., CLASS5_ID) ++ * @param[in] data pointer to the elf firmware ++ * @param[in] shdr pointer to the elf section header ++ * ++ */ ++static int pe_load_pe_lmem_section(int id, const void *data, ++ struct elf32_shdr *shdr) ++{ ++ u32 offset = be32_to_cpu(shdr->sh_offset); ++ u32 addr = be32_to_cpu(shdr->sh_addr); ++ u32 size = be32_to_cpu(shdr->sh_size); ++ u32 type = be32_to_cpu(shdr->sh_type); ++ ++ if (id > CLASS_MAX_ID) { ++ pr_err( ++ "%s: unsupported pe-lmem section type(%x) for PE(%d)\n", ++ __func__, type, id); ++ return -EINVAL; ++ } ++ ++ if (((unsigned long)(data + offset) & 0x3) != (addr & 0x3)) { ++ pr_err( ++ "%s: load address(%x) and elf file address(%lx) don't have the same alignment\n", ++ __func__, addr, (unsigned long)data + offset); ++ ++ return -EINVAL; ++ } ++ ++ if (addr & 0x3) { ++ pr_err("%s: load address(%x) is not 32bit aligned\n", ++ __func__, addr); ++ return -EINVAL; ++ } ++ ++ switch (type) { ++ case SHT_PROGBITS: ++ class_pe_lmem_memcpy_to32(addr, data + offset, size); ++ break; ++ ++ case SHT_NOBITS: ++ class_pe_lmem_memset(addr, 0, size); ++ break; ++ ++ default: ++ pr_err("%s: unsupported section type(%x)\n", __func__, ++ type); ++ return -EINVAL; ++ } ++ ++ return 0; ++} ++ ++/* Loads an elf section into a PE ++ * For now only supports loading a section to dmem (all PE's), pmem (class and ++ * tmu PE's), ++ * DDDR (util PE code) ++ * ++ * @param[in] id PE identification (CLASS0_ID, ..., TMU0_ID, ++ * ..., UTIL_ID) ++ * @param[in] data pointer to the elf firmware ++ * @param[in] shdr pointer to the elf section header ++ * ++ */ ++int pe_load_elf_section(int id, const void *data, struct elf32_shdr *shdr, ++ struct device *dev) { ++ u32 addr = be32_to_cpu(shdr->sh_addr); ++ u32 size = be32_to_cpu(shdr->sh_size); ++ ++ if (IS_DMEM(addr, size)) ++ return pe_load_dmem_section(id, data, shdr); ++ else if (IS_PMEM(addr, size)) ++ return pe_load_pmem_section(id, data, shdr); ++ else if (IS_PFE_LMEM(addr, size)) ++ return 0; ++ else if (IS_PHYS_DDR(addr, size)) ++ return pe_load_ddr_section(id, data, shdr, dev); ++ else if (IS_PE_LMEM(addr, size)) ++ return pe_load_pe_lmem_section(id, data, shdr); ++ ++ pr_err("%s: unsupported memory range(%x)\n", __func__, ++ addr); ++ return 0; ++} ++ ++/**************************** BMU ***************************/ ++ ++/* Initializes a BMU block. ++ * @param[in] base BMU block base address ++ * @param[in] cfg BMU configuration ++ */ ++void bmu_init(void *base, struct BMU_CFG *cfg) ++{ ++ bmu_disable(base); ++ ++ bmu_set_config(base, cfg); ++ ++ bmu_reset(base); ++} ++ ++/* Resets a BMU block. ++ * @param[in] base BMU block base address ++ */ ++void bmu_reset(void *base) ++{ ++ writel(CORE_SW_RESET, base + BMU_CTRL); ++ ++ /* Wait for self clear */ ++ while (readl(base + BMU_CTRL) & CORE_SW_RESET) ++ ; ++} ++ ++/* Enabled a BMU block. ++ * @param[in] base BMU block base address ++ */ ++void bmu_enable(void *base) ++{ ++ writel(CORE_ENABLE, base + BMU_CTRL); ++} ++ ++/* Disables a BMU block. ++ * @param[in] base BMU block base address ++ */ ++void bmu_disable(void *base) ++{ ++ writel(CORE_DISABLE, base + BMU_CTRL); ++} ++ ++/* Sets the configuration of a BMU block. ++ * @param[in] base BMU block base address ++ * @param[in] cfg BMU configuration ++ */ ++void bmu_set_config(void *base, struct BMU_CFG *cfg) ++{ ++ writel(cfg->baseaddr, base + BMU_UCAST_BASE_ADDR); ++ writel(cfg->count & 0xffff, base + BMU_UCAST_CONFIG); ++ writel(cfg->size & 0xffff, base + BMU_BUF_SIZE); ++ ++ /* Interrupts are never used */ ++ writel(cfg->low_watermark, base + BMU_LOW_WATERMARK); ++ writel(cfg->high_watermark, base + BMU_HIGH_WATERMARK); ++ writel(0x0, base + BMU_INT_ENABLE); ++} ++ ++/**************************** MTIP GEMAC ***************************/ ++ ++/* Enable Rx Checksum Engine. With this enabled, Frame with bad IP, ++ * TCP or UDP checksums are discarded ++ * ++ * @param[in] base GEMAC base address. ++ */ ++void gemac_enable_rx_checksum_offload(void *base) ++{ ++ /*Do not find configuration to do this */ ++} ++ ++/* Disable Rx Checksum Engine. ++ * ++ * @param[in] base GEMAC base address. ++ */ ++void gemac_disable_rx_checksum_offload(void *base) ++{ ++ /*Do not find configuration to do this */ ++} ++ ++/* GEMAC set speed. ++ * @param[in] base GEMAC base address ++ * @param[in] speed GEMAC speed (10, 100 or 1000 Mbps) ++ */ ++void gemac_set_speed(void *base, enum mac_speed gem_speed) ++{ ++ u32 ecr = readl(base + EMAC_ECNTRL_REG) & ~EMAC_ECNTRL_SPEED; ++ u32 rcr = readl(base + EMAC_RCNTRL_REG) & ~EMAC_RCNTRL_RMII_10T; ++ ++ switch (gem_speed) { ++ case SPEED_10M: ++ rcr |= EMAC_RCNTRL_RMII_10T; ++ break; ++ ++ case SPEED_1000M: ++ ecr |= EMAC_ECNTRL_SPEED; ++ break; ++ ++ case SPEED_100M: ++ default: ++ /*It is in 100M mode */ ++ break; ++ } ++ writel(ecr, (base + EMAC_ECNTRL_REG)); ++ writel(rcr, (base + EMAC_RCNTRL_REG)); ++} ++ ++/* GEMAC set duplex. ++ * @param[in] base GEMAC base address ++ * @param[in] duplex GEMAC duplex mode (Full, Half) ++ */ ++void gemac_set_duplex(void *base, int duplex) ++{ ++ if (duplex == DUPLEX_HALF) { ++ writel(readl(base + EMAC_TCNTRL_REG) & ~EMAC_TCNTRL_FDEN, base ++ + EMAC_TCNTRL_REG); ++ writel(readl(base + EMAC_RCNTRL_REG) | EMAC_RCNTRL_DRT, (base ++ + EMAC_RCNTRL_REG)); ++ } else{ ++ writel(readl(base + EMAC_TCNTRL_REG) | EMAC_TCNTRL_FDEN, base ++ + EMAC_TCNTRL_REG); ++ writel(readl(base + EMAC_RCNTRL_REG) & ~EMAC_RCNTRL_DRT, (base ++ + EMAC_RCNTRL_REG)); ++ } ++} ++ ++/* GEMAC set mode. ++ * @param[in] base GEMAC base address ++ * @param[in] mode GEMAC operation mode (MII, RMII, RGMII, SGMII) ++ */ ++void gemac_set_mode(void *base, int mode) ++{ ++ u32 val = readl(base + EMAC_RCNTRL_REG); ++ ++ /*Remove loopbank*/ ++ val &= ~EMAC_RCNTRL_LOOP; ++ ++ /* Enable flow control and MII mode and terminate received CRC */ ++ val |= (EMAC_RCNTRL_FCE | EMAC_RCNTRL_MII_MODE | EMAC_RCNTRL_CRC_FWD); ++ ++ writel(val, base + EMAC_RCNTRL_REG); ++} ++ ++/* GEMAC enable function. ++ * @param[in] base GEMAC base address ++ */ ++void gemac_enable(void *base) ++{ ++ writel(readl(base + EMAC_ECNTRL_REG) | EMAC_ECNTRL_ETHER_EN, base + ++ EMAC_ECNTRL_REG); ++} ++ ++/* GEMAC disable function. ++ * @param[in] base GEMAC base address ++ */ ++void gemac_disable(void *base) ++{ ++ writel(readl(base + EMAC_ECNTRL_REG) & ~EMAC_ECNTRL_ETHER_EN, base + ++ EMAC_ECNTRL_REG); ++} ++ ++/* GEMAC TX disable function. ++ * @param[in] base GEMAC base address ++ */ ++void gemac_tx_disable(void *base) ++{ ++ writel(readl(base + EMAC_TCNTRL_REG) | EMAC_TCNTRL_GTS, base + ++ EMAC_TCNTRL_REG); ++} ++ ++void gemac_tx_enable(void *base) ++{ ++ writel(readl(base + EMAC_TCNTRL_REG) & ~EMAC_TCNTRL_GTS, base + ++ EMAC_TCNTRL_REG); ++} ++ ++/* Sets the hash register of the MAC. ++ * This register is used for matching unicast and multicast frames. ++ * ++ * @param[in] base GEMAC base address. ++ * @param[in] hash 64-bit hash to be configured. ++ */ ++void gemac_set_hash(void *base, struct pfe_mac_addr *hash) ++{ ++ writel(hash->bottom, base + EMAC_GALR); ++ writel(hash->top, base + EMAC_GAUR); ++} ++ ++void gemac_set_laddrN(void *base, struct pfe_mac_addr *address, ++ unsigned int entry_index) ++{ ++ if ((entry_index < 1) || (entry_index > EMAC_SPEC_ADDR_MAX)) ++ return; ++ ++ entry_index = entry_index - 1; ++ if (entry_index < 1) { ++ writel(htonl(address->bottom), base + EMAC_PHY_ADDR_LOW); ++ writel((htonl(address->top) | 0x8808), base + ++ EMAC_PHY_ADDR_HIGH); ++ } else { ++ writel(htonl(address->bottom), base + ((entry_index - 1) * 8) ++ + EMAC_SMAC_0_0); ++ writel((htonl(address->top) | 0x8808), base + ((entry_index - ++ 1) * 8) + EMAC_SMAC_0_1); ++ } ++} ++ ++void gemac_clear_laddrN(void *base, unsigned int entry_index) ++{ ++ if ((entry_index < 1) || (entry_index > EMAC_SPEC_ADDR_MAX)) ++ return; ++ ++ entry_index = entry_index - 1; ++ if (entry_index < 1) { ++ writel(0, base + EMAC_PHY_ADDR_LOW); ++ writel(0, base + EMAC_PHY_ADDR_HIGH); ++ } else { ++ writel(0, base + ((entry_index - 1) * 8) + EMAC_SMAC_0_0); ++ writel(0, base + ((entry_index - 1) * 8) + EMAC_SMAC_0_1); ++ } ++} ++ ++/* Set the loopback mode of the MAC. This can be either no loopback for ++ * normal operation, local loopback through MAC internal loopback module or PHY ++ * loopback for external loopback through a PHY. This asserts the external ++ * loop pin. ++ * ++ * @param[in] base GEMAC base address. ++ * @param[in] gem_loop Loopback mode to be enabled. LB_LOCAL - MAC ++ * Loopback, ++ * LB_EXT - PHY Loopback. ++ */ ++void gemac_set_loop(void *base, enum mac_loop gem_loop) ++{ ++ pr_info("%s()\n", __func__); ++ writel(readl(base + EMAC_RCNTRL_REG) | EMAC_RCNTRL_LOOP, (base + ++ EMAC_RCNTRL_REG)); ++} ++ ++/* GEMAC allow frames ++ * @param[in] base GEMAC base address ++ */ ++void gemac_enable_copy_all(void *base) ++{ ++ writel(readl(base + EMAC_RCNTRL_REG) | EMAC_RCNTRL_PROM, (base + ++ EMAC_RCNTRL_REG)); ++} ++ ++/* GEMAC do not allow frames ++ * @param[in] base GEMAC base address ++ */ ++void gemac_disable_copy_all(void *base) ++{ ++ writel(readl(base + EMAC_RCNTRL_REG) & ~EMAC_RCNTRL_PROM, (base + ++ EMAC_RCNTRL_REG)); ++} ++ ++/* GEMAC allow broadcast function. ++ * @param[in] base GEMAC base address ++ */ ++void gemac_allow_broadcast(void *base) ++{ ++ writel(readl(base + EMAC_RCNTRL_REG) & ~EMAC_RCNTRL_BC_REJ, base + ++ EMAC_RCNTRL_REG); ++} ++ ++/* GEMAC no broadcast function. ++ * @param[in] base GEMAC base address ++ */ ++void gemac_no_broadcast(void *base) ++{ ++ writel(readl(base + EMAC_RCNTRL_REG) | EMAC_RCNTRL_BC_REJ, base + ++ EMAC_RCNTRL_REG); ++} ++ ++/* GEMAC enable 1536 rx function. ++ * @param[in] base GEMAC base address ++ */ ++void gemac_enable_1536_rx(void *base) ++{ ++ /* Set 1536 as Maximum frame length */ ++ writel((readl(base + EMAC_RCNTRL_REG) & PFE_RCR_MAX_FL_MASK) ++ | (1536 << 16), base + EMAC_RCNTRL_REG); ++} ++ ++/* GEMAC set rx Max frame length. ++ * @param[in] base GEMAC base address ++ * @param[in] mtu new mtu ++ */ ++void gemac_set_rx_max_fl(void *base, int mtu) ++{ ++ /* Set mtu as Maximum frame length */ ++ writel((readl(base + EMAC_RCNTRL_REG) & PFE_RCR_MAX_FL_MASK) ++ | (mtu << 16), base + EMAC_RCNTRL_REG); ++} ++ ++/* GEMAC enable stacked vlan function. ++ * @param[in] base GEMAC base address ++ */ ++void gemac_enable_stacked_vlan(void *base) ++{ ++ /* MTIP doesn't support stacked vlan */ ++} ++ ++/* GEMAC enable pause rx function. ++ * @param[in] base GEMAC base address ++ */ ++void gemac_enable_pause_rx(void *base) ++{ ++ writel(readl(base + EMAC_RCNTRL_REG) | EMAC_RCNTRL_FCE, ++ base + EMAC_RCNTRL_REG); ++} ++ ++/* GEMAC disable pause rx function. ++ * @param[in] base GEMAC base address ++ */ ++void gemac_disable_pause_rx(void *base) ++{ ++ writel(readl(base + EMAC_RCNTRL_REG) & ~EMAC_RCNTRL_FCE, ++ base + EMAC_RCNTRL_REG); ++} ++ ++/* GEMAC enable pause tx function. ++ * @param[in] base GEMAC base address ++ */ ++void gemac_enable_pause_tx(void *base) ++{ ++ writel(EMAC_RX_SECTION_EMPTY_V, base + EMAC_RX_SECTION_EMPTY); ++} ++ ++/* GEMAC disable pause tx function. ++ * @param[in] base GEMAC base address ++ */ ++void gemac_disable_pause_tx(void *base) ++{ ++ writel(0x0, base + EMAC_RX_SECTION_EMPTY); ++} ++ ++/* GEMAC wol configuration ++ * @param[in] base GEMAC base address ++ * @param[in] wol_conf WoL register configuration ++ */ ++void gemac_set_wol(void *base, u32 wol_conf) ++{ ++ u32 val = readl(base + EMAC_ECNTRL_REG); ++ ++ if (wol_conf) ++ val |= (EMAC_ECNTRL_MAGIC_ENA | EMAC_ECNTRL_SLEEP); ++ else ++ val &= ~(EMAC_ECNTRL_MAGIC_ENA | EMAC_ECNTRL_SLEEP); ++ writel(val, base + EMAC_ECNTRL_REG); ++} ++ ++/* Sets Gemac bus width to 64bit ++ * @param[in] base GEMAC base address ++ * @param[in] width gemac bus width to be set possible values are 32/64/128 ++ */ ++void gemac_set_bus_width(void *base, int width) ++{ ++} ++ ++/* Sets Gemac configuration. ++ * @param[in] base GEMAC base address ++ * @param[in] cfg GEMAC configuration ++ */ ++void gemac_set_config(void *base, struct gemac_cfg *cfg) ++{ ++ /*GEMAC config taken from VLSI */ ++ writel(0x00000004, base + EMAC_TFWR_STR_FWD); ++ writel(0x00000005, base + EMAC_RX_SECTION_FULL); ++ ++ if (pfe_errata_a010897) ++ writel(0x0000076c, base + EMAC_TRUNC_FL); ++ else ++ writel(0x00003fff, base + EMAC_TRUNC_FL); ++ ++ writel(0x00000030, base + EMAC_TX_SECTION_EMPTY); ++ writel(0x00000000, base + EMAC_MIB_CTRL_STS_REG); ++ ++ gemac_set_mode(base, cfg->mode); ++ ++ gemac_set_speed(base, cfg->speed); ++ ++ gemac_set_duplex(base, cfg->duplex); ++} ++ ++/**************************** GPI ***************************/ ++ ++/* Initializes a GPI block. ++ * @param[in] base GPI base address ++ * @param[in] cfg GPI configuration ++ */ ++void gpi_init(void *base, struct gpi_cfg *cfg) ++{ ++ gpi_reset(base); ++ ++ gpi_disable(base); ++ ++ gpi_set_config(base, cfg); ++} ++ ++/* Resets a GPI block. ++ * @param[in] base GPI base address ++ */ ++void gpi_reset(void *base) ++{ ++ writel(CORE_SW_RESET, base + GPI_CTRL); ++} ++ ++/* Enables a GPI block. ++ * @param[in] base GPI base address ++ */ ++void gpi_enable(void *base) ++{ ++ writel(CORE_ENABLE, base + GPI_CTRL); ++} ++ ++/* Disables a GPI block. ++ * @param[in] base GPI base address ++ */ ++void gpi_disable(void *base) ++{ ++ writel(CORE_DISABLE, base + GPI_CTRL); ++} ++ ++/* Sets the configuration of a GPI block. ++ * @param[in] base GPI base address ++ * @param[in] cfg GPI configuration ++ */ ++void gpi_set_config(void *base, struct gpi_cfg *cfg) ++{ ++ writel(CBUS_VIRT_TO_PFE(BMU1_BASE_ADDR + BMU_ALLOC_CTRL), base ++ + GPI_LMEM_ALLOC_ADDR); ++ writel(CBUS_VIRT_TO_PFE(BMU1_BASE_ADDR + BMU_FREE_CTRL), base ++ + GPI_LMEM_FREE_ADDR); ++ writel(CBUS_VIRT_TO_PFE(BMU2_BASE_ADDR + BMU_ALLOC_CTRL), base ++ + GPI_DDR_ALLOC_ADDR); ++ writel(CBUS_VIRT_TO_PFE(BMU2_BASE_ADDR + BMU_FREE_CTRL), base ++ + GPI_DDR_FREE_ADDR); ++ writel(CBUS_VIRT_TO_PFE(CLASS_INQ_PKTPTR), base + GPI_CLASS_ADDR); ++ writel(DDR_HDR_SIZE, base + GPI_DDR_DATA_OFFSET); ++ writel(LMEM_HDR_SIZE, base + GPI_LMEM_DATA_OFFSET); ++ writel(0, base + GPI_LMEM_SEC_BUF_DATA_OFFSET); ++ writel(0, base + GPI_DDR_SEC_BUF_DATA_OFFSET); ++ writel((DDR_HDR_SIZE << 16) | LMEM_HDR_SIZE, base + GPI_HDR_SIZE); ++ writel((DDR_BUF_SIZE << 16) | LMEM_BUF_SIZE, base + GPI_BUF_SIZE); ++ ++ writel(((cfg->lmem_rtry_cnt << 16) | (GPI_DDR_BUF_EN << 1) | ++ GPI_LMEM_BUF_EN), base + GPI_RX_CONFIG); ++ writel(cfg->tmlf_txthres, base + GPI_TMLF_TX); ++ writel(cfg->aseq_len, base + GPI_DTX_ASEQ); ++ writel(1, base + GPI_TOE_CHKSUM_EN); ++ ++ if (cfg->mtip_pause_reg) { ++ writel(cfg->mtip_pause_reg, base + GPI_CSR_MTIP_PAUSE_REG); ++ writel(EGPI_PAUSE_TIME, base + GPI_TX_PAUSE_TIME); ++ } ++} ++ ++/**************************** CLASSIFIER ***************************/ ++ ++/* Initializes CLASSIFIER block. ++ * @param[in] cfg CLASSIFIER configuration ++ */ ++void class_init(struct class_cfg *cfg) ++{ ++ class_reset(); ++ ++ class_disable(); ++ ++ class_set_config(cfg); ++} ++ ++/* Resets CLASSIFIER block. ++ * ++ */ ++void class_reset(void) ++{ ++ writel(CORE_SW_RESET, CLASS_TX_CTRL); ++} ++ ++/* Enables all CLASS-PE's cores. ++ * ++ */ ++void class_enable(void) ++{ ++ writel(CORE_ENABLE, CLASS_TX_CTRL); ++} ++ ++/* Disables all CLASS-PE's cores. ++ * ++ */ ++void class_disable(void) ++{ ++ writel(CORE_DISABLE, CLASS_TX_CTRL); ++} ++ ++/* ++ * Sets the configuration of the CLASSIFIER block. ++ * @param[in] cfg CLASSIFIER configuration ++ */ ++void class_set_config(struct class_cfg *cfg) ++{ ++ u32 val; ++ ++ /* Initialize route table */ ++ if (!cfg->resume) ++ memset(DDR_PHYS_TO_VIRT(cfg->route_table_baseaddr), 0, (1 << ++ cfg->route_table_hash_bits) * CLASS_ROUTE_SIZE); ++ ++#if !defined(LS1012A_PFE_RESET_WA) ++ writel(cfg->pe_sys_clk_ratio, CLASS_PE_SYS_CLK_RATIO); ++#endif ++ ++ writel((DDR_HDR_SIZE << 16) | LMEM_HDR_SIZE, CLASS_HDR_SIZE); ++ writel(LMEM_BUF_SIZE, CLASS_LMEM_BUF_SIZE); ++ writel(CLASS_ROUTE_ENTRY_SIZE(CLASS_ROUTE_SIZE) | ++ CLASS_ROUTE_HASH_SIZE(cfg->route_table_hash_bits), ++ CLASS_ROUTE_HASH_ENTRY_SIZE); ++ writel(HIF_PKT_CLASS_EN | HIF_PKT_OFFSET(sizeof(struct hif_hdr)), ++ CLASS_HIF_PARSE); ++ ++ val = HASH_CRC_PORT_IP | QB2BUS_LE; ++ ++#if defined(CONFIG_IP_ALIGNED) ++ val |= IP_ALIGNED; ++#endif ++ ++ /* ++ * Class PE packet steering will only work if TOE mode, bridge fetch or ++ * route fetch are enabled (see class/qb_fet.v). Route fetch would ++ * trigger additional memory copies (likely from DDR because of hash ++ * table size, which cannot be reduced because PE software still ++ * relies on hash value computed in HW), so when not in TOE mode we ++ * simply enable HW bridge fetch even though we don't use it. ++ */ ++ if (cfg->toe_mode) ++ val |= CLASS_TOE; ++ else ++ val |= HW_BRIDGE_FETCH; ++ ++ writel(val, CLASS_ROUTE_MULTI); ++ ++ writel(DDR_PHYS_TO_PFE(cfg->route_table_baseaddr), ++ CLASS_ROUTE_TABLE_BASE); ++ writel(CLASS_PE0_RO_DM_ADDR0_VAL, CLASS_PE0_RO_DM_ADDR0); ++ writel(CLASS_PE0_RO_DM_ADDR1_VAL, CLASS_PE0_RO_DM_ADDR1); ++ writel(CLASS_PE0_QB_DM_ADDR0_VAL, CLASS_PE0_QB_DM_ADDR0); ++ writel(CLASS_PE0_QB_DM_ADDR1_VAL, CLASS_PE0_QB_DM_ADDR1); ++ writel(CBUS_VIRT_TO_PFE(TMU_PHY_INQ_PKTPTR), CLASS_TM_INQ_ADDR); ++ ++ writel(23, CLASS_AFULL_THRES); ++ writel(23, CLASS_TSQ_FIFO_THRES); ++ ++ writel(24, CLASS_MAX_BUF_CNT); ++ writel(24, CLASS_TSQ_MAX_CNT); ++} ++ ++/**************************** TMU ***************************/ ++ ++void tmu_reset(void) ++{ ++ writel(SW_RESET, TMU_CTRL); ++} ++ ++/* Initializes TMU block. ++ * @param[in] cfg TMU configuration ++ */ ++void tmu_init(struct tmu_cfg *cfg) ++{ ++ int q, phyno; ++ ++ tmu_disable(0xF); ++ mdelay(10); ++ ++#if !defined(LS1012A_PFE_RESET_WA) ++ /* keep in soft reset */ ++ writel(SW_RESET, TMU_CTRL); ++#endif ++ writel(0x3, TMU_SYS_GENERIC_CONTROL); ++ writel(750, TMU_INQ_WATERMARK); ++ writel(CBUS_VIRT_TO_PFE(EGPI1_BASE_ADDR + ++ GPI_INQ_PKTPTR), TMU_PHY0_INQ_ADDR); ++ writel(CBUS_VIRT_TO_PFE(EGPI2_BASE_ADDR + ++ GPI_INQ_PKTPTR), TMU_PHY1_INQ_ADDR); ++ writel(CBUS_VIRT_TO_PFE(HGPI_BASE_ADDR + ++ GPI_INQ_PKTPTR), TMU_PHY3_INQ_ADDR); ++ writel(CBUS_VIRT_TO_PFE(HIF_NOCPY_RX_INQ0_PKTPTR), TMU_PHY4_INQ_ADDR); ++ writel(CBUS_VIRT_TO_PFE(UTIL_INQ_PKTPTR), TMU_PHY5_INQ_ADDR); ++ writel(CBUS_VIRT_TO_PFE(BMU2_BASE_ADDR + BMU_FREE_CTRL), ++ TMU_BMU_INQ_ADDR); ++ ++ writel(0x3FF, TMU_TDQ0_SCH_CTRL); /* ++ * enabling all 10 ++ * schedulers [9:0] of each TDQ ++ */ ++ writel(0x3FF, TMU_TDQ1_SCH_CTRL); ++ writel(0x3FF, TMU_TDQ3_SCH_CTRL); ++ ++#if !defined(LS1012A_PFE_RESET_WA) ++ writel(cfg->pe_sys_clk_ratio, TMU_PE_SYS_CLK_RATIO); ++#endif ++ ++#if !defined(LS1012A_PFE_RESET_WA) ++ writel(DDR_PHYS_TO_PFE(cfg->llm_base_addr), TMU_LLM_BASE_ADDR); ++ /* Extra packet pointers will be stored from this address onwards */ ++ ++ writel(cfg->llm_queue_len, TMU_LLM_QUE_LEN); ++ writel(5, TMU_TDQ_IIFG_CFG); ++ writel(DDR_BUF_SIZE, TMU_BMU_BUF_SIZE); ++ ++ writel(0x0, TMU_CTRL); ++ ++ /* MEM init */ ++ pr_info("%s: mem init\n", __func__); ++ writel(MEM_INIT, TMU_CTRL); ++ ++ while (!(readl(TMU_CTRL) & MEM_INIT_DONE)) ++ ; ++ ++ /* LLM init */ ++ pr_info("%s: lmem init\n", __func__); ++ writel(LLM_INIT, TMU_CTRL); ++ ++ while (!(readl(TMU_CTRL) & LLM_INIT_DONE)) ++ ; ++#endif ++ /* set up each queue for tail drop */ ++ for (phyno = 0; phyno < 4; phyno++) { ++ if (phyno == 2) ++ continue; ++ for (q = 0; q < 16; q++) { ++ u32 qdepth; ++ ++ writel((phyno << 8) | q, TMU_TEQ_CTRL); ++ writel(1 << 22, TMU_TEQ_QCFG); /*Enable tail drop */ ++ ++ if (phyno == 3) ++ qdepth = DEFAULT_TMU3_QDEPTH; ++ else ++ qdepth = (q == 0) ? DEFAULT_Q0_QDEPTH : ++ DEFAULT_MAX_QDEPTH; ++ ++ /* LOG: 68855 */ ++ /* ++ * The following is a workaround for the reordered ++ * packet and BMU2 buffer leakage issue. ++ */ ++ if (CHIP_REVISION() == 0) ++ qdepth = 31; ++ ++ writel(qdepth << 18, TMU_TEQ_HW_PROB_CFG2); ++ writel(qdepth >> 14, TMU_TEQ_HW_PROB_CFG3); ++ } ++ } ++ ++#ifdef CFG_LRO ++ /* Set TMU-3 queue 5 (LRO) in no-drop mode */ ++ writel((3 << 8) | TMU_QUEUE_LRO, TMU_TEQ_CTRL); ++ writel(0, TMU_TEQ_QCFG); ++#endif ++ ++ writel(0x05, TMU_TEQ_DISABLE_DROPCHK); ++ ++ writel(0x0, TMU_CTRL); ++} ++ ++/* Enables TMU-PE cores. ++ * @param[in] pe_mask TMU PE mask ++ */ ++void tmu_enable(u32 pe_mask) ++{ ++ writel(readl(TMU_TX_CTRL) | (pe_mask & 0xF), TMU_TX_CTRL); ++} ++ ++/* Disables TMU cores. ++ * @param[in] pe_mask TMU PE mask ++ */ ++void tmu_disable(u32 pe_mask) ++{ ++ writel(readl(TMU_TX_CTRL) & ~(pe_mask & 0xF), TMU_TX_CTRL); ++} ++ ++/* This will return the tmu queue status ++ * @param[in] if_id gem interface id or TMU index ++ * @return returns the bit mask of busy queues, zero means all ++ * queues are empty ++ */ ++u32 tmu_qstatus(u32 if_id) ++{ ++ return cpu_to_be32(pe_dmem_read(TMU0_ID + if_id, TMU_DM_PESTATUS + ++ offsetof(struct pe_status, tmu_qstatus), 4)); ++} ++ ++u32 tmu_pkts_processed(u32 if_id) ++{ ++ return cpu_to_be32(pe_dmem_read(TMU0_ID + if_id, TMU_DM_PESTATUS + ++ offsetof(struct pe_status, rx), 4)); ++} ++ ++/**************************** UTIL ***************************/ ++ ++/* Resets UTIL block. ++ */ ++void util_reset(void) ++{ ++ writel(CORE_SW_RESET, UTIL_TX_CTRL); ++} ++ ++/* Initializes UTIL block. ++ * @param[in] cfg UTIL configuration ++ */ ++void util_init(struct util_cfg *cfg) ++{ ++ writel(cfg->pe_sys_clk_ratio, UTIL_PE_SYS_CLK_RATIO); ++} ++ ++/* Enables UTIL-PE core. ++ * ++ */ ++void util_enable(void) ++{ ++ writel(CORE_ENABLE, UTIL_TX_CTRL); ++} ++ ++/* Disables UTIL-PE core. ++ * ++ */ ++void util_disable(void) ++{ ++ writel(CORE_DISABLE, UTIL_TX_CTRL); ++} ++ ++/**************************** HIF ***************************/ ++/* Initializes HIF copy block. ++ * ++ */ ++void hif_init(void) ++{ ++ /*Initialize HIF registers*/ ++ writel((HIF_RX_POLL_CTRL_CYCLE << 16) | HIF_TX_POLL_CTRL_CYCLE, ++ HIF_POLL_CTRL); ++} ++ ++/* Enable hif tx DMA and interrupt ++ * ++ */ ++void hif_tx_enable(void) ++{ ++ writel(HIF_CTRL_DMA_EN, HIF_TX_CTRL); ++ writel((readl(HIF_INT_ENABLE) | HIF_INT_EN | HIF_TXPKT_INT_EN), ++ HIF_INT_ENABLE); ++} ++ ++/* Disable hif tx DMA and interrupt ++ * ++ */ ++void hif_tx_disable(void) ++{ ++ u32 hif_int; ++ ++ writel(0, HIF_TX_CTRL); ++ ++ hif_int = readl(HIF_INT_ENABLE); ++ hif_int &= HIF_TXPKT_INT_EN; ++ writel(hif_int, HIF_INT_ENABLE); ++} ++ ++/* Enable hif rx DMA and interrupt ++ * ++ */ ++void hif_rx_enable(void) ++{ ++ hif_rx_dma_start(); ++ writel((readl(HIF_INT_ENABLE) | HIF_INT_EN | HIF_RXPKT_INT_EN), ++ HIF_INT_ENABLE); ++} ++ ++/* Disable hif rx DMA and interrupt ++ * ++ */ ++void hif_rx_disable(void) ++{ ++ u32 hif_int; ++ ++ writel(0, HIF_RX_CTRL); ++ ++ hif_int = readl(HIF_INT_ENABLE); ++ hif_int &= HIF_RXPKT_INT_EN; ++ writel(hif_int, HIF_INT_ENABLE); ++} +--- /dev/null ++++ b/drivers/staging/fsl_ppfe/pfe_hif.c +@@ -0,0 +1,1072 @@ ++/* ++ * Copyright 2015-2016 Freescale Semiconductor, Inc. ++ * Copyright 2017 NXP ++ * ++ * 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, see <http://www.gnu.org/licenses/>. ++ */ ++ ++#include <linux/kernel.h> ++#include <linux/interrupt.h> ++#include <linux/dma-mapping.h> ++#include <linux/dmapool.h> ++#include <linux/sched.h> ++#include <linux/module.h> ++#include <linux/list.h> ++#include <linux/kthread.h> ++#include <linux/slab.h> ++ ++#include <linux/io.h> ++#include <asm/irq.h> ++ ++#include "pfe_mod.h" ++ ++#define HIF_INT_MASK (HIF_INT | HIF_RXPKT_INT | HIF_TXPKT_INT) ++ ++unsigned char napi_first_batch; ++ ++static void pfe_tx_do_cleanup(unsigned long data); ++ ++static int pfe_hif_alloc_descr(struct pfe_hif *hif) ++{ ++ void *addr; ++ dma_addr_t dma_addr; ++ int err = 0; ++ ++ pr_info("%s\n", __func__); ++ addr = dma_alloc_coherent(pfe->dev, ++ HIF_RX_DESC_NT * sizeof(struct hif_desc) + ++ HIF_TX_DESC_NT * sizeof(struct hif_desc), ++ &dma_addr, GFP_KERNEL); ++ ++ if (!addr) { ++ pr_err("%s: Could not allocate buffer descriptors!\n" ++ , __func__); ++ err = -ENOMEM; ++ goto err0; ++ } ++ ++ hif->descr_baseaddr_p = dma_addr; ++ hif->descr_baseaddr_v = addr; ++ hif->rx_ring_size = HIF_RX_DESC_NT; ++ hif->tx_ring_size = HIF_TX_DESC_NT; ++ ++ return 0; ++ ++err0: ++ return err; ++} ++ ++#if defined(LS1012A_PFE_RESET_WA) ++static void pfe_hif_disable_rx_desc(struct pfe_hif *hif) ++{ ++ int ii; ++ struct hif_desc *desc = hif->rx_base; ++ ++ /*Mark all descriptors as LAST_BD */ ++ for (ii = 0; ii < hif->rx_ring_size; ii++) { ++ desc->ctrl |= BD_CTRL_LAST_BD; ++ desc++; ++ } ++} ++ ++struct class_rx_hdr_t { ++ u32 next_ptr; /* ptr to the start of the first DDR buffer */ ++ u16 length; /* total packet length */ ++ u16 phyno; /* input physical port number */ ++ u32 status; /* gemac status bits */ ++ u32 status2; /* reserved for software usage */ ++}; ++ ++/* STATUS_BAD_FRAME_ERR is set for all errors (including checksums if enabled) ++ * except overflow ++ */ ++#define STATUS_BAD_FRAME_ERR BIT(16) ++#define STATUS_LENGTH_ERR BIT(17) ++#define STATUS_CRC_ERR BIT(18) ++#define STATUS_TOO_SHORT_ERR BIT(19) ++#define STATUS_TOO_LONG_ERR BIT(20) ++#define STATUS_CODE_ERR BIT(21) ++#define STATUS_MC_HASH_MATCH BIT(22) ++#define STATUS_CUMULATIVE_ARC_HIT BIT(23) ++#define STATUS_UNICAST_HASH_MATCH BIT(24) ++#define STATUS_IP_CHECKSUM_CORRECT BIT(25) ++#define STATUS_TCP_CHECKSUM_CORRECT BIT(26) ++#define STATUS_UDP_CHECKSUM_CORRECT BIT(27) ++#define STATUS_OVERFLOW_ERR BIT(28) /* GPI error */ ++#define MIN_PKT_SIZE 64 ++ ++static inline void copy_to_lmem(u32 *dst, u32 *src, int len) ++{ ++ int i; ++ ++ for (i = 0; i < len; i += sizeof(u32)) { ++ *dst = htonl(*src); ++ dst++; src++; ++ } ++} ++ ++static void send_dummy_pkt_to_hif(void) ++{ ++ void *lmem_ptr, *ddr_ptr, *lmem_virt_addr; ++ u32 physaddr; ++ struct class_rx_hdr_t local_hdr; ++ static u32 dummy_pkt[] = { ++ 0x33221100, 0x2b785544, 0xd73093cb, 0x01000608, ++ 0x04060008, 0x2b780200, 0xd73093cb, 0x0a01a8c0, ++ 0x33221100, 0xa8c05544, 0x00000301, 0x00000000, ++ 0x00000000, 0x00000000, 0x00000000, 0xbe86c51f }; ++ ++ ddr_ptr = (void *)((u64)readl(BMU2_BASE_ADDR + BMU_ALLOC_CTRL)); ++ if (!ddr_ptr) ++ return; ++ ++ lmem_ptr = (void *)((u64)readl(BMU1_BASE_ADDR + BMU_ALLOC_CTRL)); ++ if (!lmem_ptr) ++ return; ++ ++ pr_info("Sending a dummy pkt to HIF %p %p\n", ddr_ptr, lmem_ptr); ++ physaddr = (u32)DDR_VIRT_TO_PFE(ddr_ptr); ++ ++ lmem_virt_addr = (void *)CBUS_PFE_TO_VIRT((unsigned long int)lmem_ptr); ++ ++ local_hdr.phyno = htons(0); /* RX_PHY_0 */ ++ local_hdr.length = htons(MIN_PKT_SIZE); ++ ++ local_hdr.next_ptr = htonl((u32)physaddr); ++ /*Mark checksum is correct */ ++ local_hdr.status = htonl((STATUS_IP_CHECKSUM_CORRECT | ++ STATUS_UDP_CHECKSUM_CORRECT | ++ STATUS_TCP_CHECKSUM_CORRECT | ++ STATUS_UNICAST_HASH_MATCH | ++ STATUS_CUMULATIVE_ARC_HIT)); ++ copy_to_lmem((u32 *)lmem_virt_addr, (u32 *)&local_hdr, ++ sizeof(local_hdr)); ++ ++ copy_to_lmem((u32 *)(lmem_virt_addr + LMEM_HDR_SIZE), (u32 *)dummy_pkt, ++ 0x40); ++ ++ writel((unsigned long int)lmem_ptr, CLASS_INQ_PKTPTR); ++} ++ ++void pfe_hif_rx_idle(struct pfe_hif *hif) ++{ ++ int hif_stop_loop = 10; ++ u32 rx_status; ++ ++ pfe_hif_disable_rx_desc(hif); ++ pr_info("Bringing hif to idle state..."); ++ writel(0, HIF_INT_ENABLE); ++ /*If HIF Rx BDP is busy send a dummy packet */ ++ do { ++ rx_status = readl(HIF_RX_STATUS); ++ if (rx_status & BDP_CSR_RX_DMA_ACTV) ++ send_dummy_pkt_to_hif(); ++ ++ usleep_range(100, 150); ++ } while (--hif_stop_loop); ++ ++ if (readl(HIF_RX_STATUS) & BDP_CSR_RX_DMA_ACTV) ++ pr_info("Failed\n"); ++ else ++ pr_info("Done\n"); ++} ++#endif ++ ++static void pfe_hif_free_descr(struct pfe_hif *hif) ++{ ++ pr_info("%s\n", __func__); ++ ++ dma_free_coherent(pfe->dev, ++ hif->rx_ring_size * sizeof(struct hif_desc) + ++ hif->tx_ring_size * sizeof(struct hif_desc), ++ hif->descr_baseaddr_v, hif->descr_baseaddr_p); ++} ++ ++void pfe_hif_desc_dump(struct pfe_hif *hif) ++{ ++ struct hif_desc *desc; ++ unsigned long desc_p; ++ int ii = 0; ++ ++ pr_info("%s\n", __func__); ++ ++ desc = hif->rx_base; ++ desc_p = (u32)((u64)desc - (u64)hif->descr_baseaddr_v + ++ hif->descr_baseaddr_p); ++ ++ pr_info("HIF Rx desc base %p physical %x\n", desc, (u32)desc_p); ++ for (ii = 0; ii < hif->rx_ring_size; ii++) { ++ pr_info("status: %08x, ctrl: %08x, data: %08x, next: %x\n", ++ readl(&desc->status), readl(&desc->ctrl), ++ readl(&desc->data), readl(&desc->next)); ++ desc++; ++ } ++ ++ desc = hif->tx_base; ++ desc_p = ((u64)desc - (u64)hif->descr_baseaddr_v + ++ hif->descr_baseaddr_p); ++ ++ pr_info("HIF Tx desc base %p physical %x\n", desc, (u32)desc_p); ++ for (ii = 0; ii < hif->tx_ring_size; ii++) { ++ pr_info("status: %08x, ctrl: %08x, data: %08x, next: %x\n", ++ readl(&desc->status), readl(&desc->ctrl), ++ readl(&desc->data), readl(&desc->next)); ++ desc++; ++ } ++} ++ ++/* pfe_hif_release_buffers */ ++static void pfe_hif_release_buffers(struct pfe_hif *hif) ++{ ++ struct hif_desc *desc; ++ int i = 0; ++ ++ hif->rx_base = hif->descr_baseaddr_v; ++ ++ pr_info("%s\n", __func__); ++ ++ /*Free Rx buffers */ ++ desc = hif->rx_base; ++ for (i = 0; i < hif->rx_ring_size; i++) { ++ if (readl(&desc->data)) { ++ if ((i < hif->shm->rx_buf_pool_cnt) && ++ (!hif->shm->rx_buf_pool[i])) { ++ /* ++ * dma_unmap_single(hif->dev, desc->data, ++ * hif->rx_buf_len[i], DMA_FROM_DEVICE); ++ */ ++ dma_unmap_single(hif->dev, ++ DDR_PFE_TO_PHYS( ++ readl(&desc->data)), ++ hif->rx_buf_len[i], ++ DMA_FROM_DEVICE); ++ hif->shm->rx_buf_pool[i] = hif->rx_buf_addr[i]; ++ } else { ++ pr_err("%s: buffer pool already full\n" ++ , __func__); ++ } ++ } ++ ++ writel(0, &desc->data); ++ writel(0, &desc->status); ++ writel(0, &desc->ctrl); ++ desc++; ++ } ++} ++ ++/* ++ * pfe_hif_init_buffers ++ * This function initializes the HIF Rx/Tx ring descriptors and ++ * initialize Rx queue with buffers. ++ */ ++static int pfe_hif_init_buffers(struct pfe_hif *hif) ++{ ++ struct hif_desc *desc, *first_desc_p; ++ u32 data; ++ int i = 0; ++ ++ pr_info("%s\n", __func__); ++ ++ /* Check enough Rx buffers available in the shared memory */ ++ if (hif->shm->rx_buf_pool_cnt < hif->rx_ring_size) ++ return -ENOMEM; ++ ++ hif->rx_base = hif->descr_baseaddr_v; ++ memset(hif->rx_base, 0, hif->rx_ring_size * sizeof(struct hif_desc)); ++ ++ /*Initialize Rx descriptors */ ++ desc = hif->rx_base; ++ first_desc_p = (struct hif_desc *)hif->descr_baseaddr_p; ++ ++ for (i = 0; i < hif->rx_ring_size; i++) { ++ /* Initialize Rx buffers from the shared memory */ ++ ++ data = (u32)dma_map_single(hif->dev, hif->shm->rx_buf_pool[i], ++ pfe_pkt_size, DMA_FROM_DEVICE); ++ hif->rx_buf_addr[i] = hif->shm->rx_buf_pool[i]; ++ hif->rx_buf_len[i] = pfe_pkt_size; ++ hif->shm->rx_buf_pool[i] = NULL; ++ ++ if (likely(dma_mapping_error(hif->dev, data) == 0)) { ++ writel(DDR_PHYS_TO_PFE(data), &desc->data); ++ } else { ++ pr_err("%s : low on mem\n", __func__); ++ ++ goto err; ++ } ++ ++ writel(0, &desc->status); ++ ++ /* ++ * Ensure everything else is written to DDR before ++ * writing bd->ctrl ++ */ ++ wmb(); ++ ++ writel((BD_CTRL_PKT_INT_EN | BD_CTRL_LIFM ++ | BD_CTRL_DIR | BD_CTRL_DESC_EN ++ | BD_BUF_LEN(pfe_pkt_size)), &desc->ctrl); ++ ++ /* Chain descriptors */ ++ writel((u32)DDR_PHYS_TO_PFE(first_desc_p + i + 1), &desc->next); ++ desc++; ++ } ++ ++ /* Overwrite last descriptor to chain it to first one*/ ++ desc--; ++ writel((u32)DDR_PHYS_TO_PFE(first_desc_p), &desc->next); ++ ++ hif->rxtoclean_index = 0; ++ ++ /*Initialize Rx buffer descriptor ring base address */ ++ writel(DDR_PHYS_TO_PFE(hif->descr_baseaddr_p), HIF_RX_BDP_ADDR); ++ ++ hif->tx_base = hif->rx_base + hif->rx_ring_size; ++ first_desc_p = (struct hif_desc *)hif->descr_baseaddr_p + ++ hif->rx_ring_size; ++ memset(hif->tx_base, 0, hif->tx_ring_size * sizeof(struct hif_desc)); ++ ++ /*Initialize tx descriptors */ ++ desc = hif->tx_base; ++ ++ for (i = 0; i < hif->tx_ring_size; i++) { ++ /* Chain descriptors */ ++ writel((u32)DDR_PHYS_TO_PFE(first_desc_p + i + 1), &desc->next); ++ writel(0, &desc->ctrl); ++ desc++; ++ } ++ ++ /* Overwrite last descriptor to chain it to first one */ ++ desc--; ++ writel((u32)DDR_PHYS_TO_PFE(first_desc_p), &desc->next); ++ hif->txavail = hif->tx_ring_size; ++ hif->txtosend = 0; ++ hif->txtoclean = 0; ++ hif->txtoflush = 0; ++ ++ /*Initialize Tx buffer descriptor ring base address */ ++ writel((u32)DDR_PHYS_TO_PFE(first_desc_p), HIF_TX_BDP_ADDR); ++ ++ return 0; ++ ++err: ++ pfe_hif_release_buffers(hif); ++ return -ENOMEM; ++} ++ ++/* ++ * pfe_hif_client_register ++ * ++ * This function used to register a client driver with the HIF driver. ++ * ++ * Return value: ++ * 0 - on Successful registration ++ */ ++static int pfe_hif_client_register(struct pfe_hif *hif, u32 client_id, ++ struct hif_client_shm *client_shm) ++{ ++ struct hif_client *client = &hif->client[client_id]; ++ u32 i, cnt; ++ struct rx_queue_desc *rx_qbase; ++ struct tx_queue_desc *tx_qbase; ++ struct hif_rx_queue *rx_queue; ++ struct hif_tx_queue *tx_queue; ++ int err = 0; ++ ++ pr_info("%s\n", __func__); ++ ++ spin_lock_bh(&hif->tx_lock); ++ ++ if (test_bit(client_id, &hif->shm->g_client_status[0])) { ++ pr_err("%s: client %d already registered\n", ++ __func__, client_id); ++ err = -1; ++ goto unlock; ++ } ++ ++ memset(client, 0, sizeof(struct hif_client)); ++ ++ /* Initialize client Rx queues baseaddr, size */ ++ ++ cnt = CLIENT_CTRL_RX_Q_CNT(client_shm->ctrl); ++ /* Check if client is requesting for more queues than supported */ ++ if (cnt > HIF_CLIENT_QUEUES_MAX) ++ cnt = HIF_CLIENT_QUEUES_MAX; ++ ++ client->rx_qn = cnt; ++ rx_qbase = (struct rx_queue_desc *)client_shm->rx_qbase; ++ for (i = 0; i < cnt; i++) { ++ rx_queue = &client->rx_q[i]; ++ rx_queue->base = rx_qbase + i * client_shm->rx_qsize; ++ rx_queue->size = client_shm->rx_qsize; ++ rx_queue->write_idx = 0; ++ } ++ ++ /* Initialize client Tx queues baseaddr, size */ ++ cnt = CLIENT_CTRL_TX_Q_CNT(client_shm->ctrl); ++ ++ /* Check if client is requesting for more queues than supported */ ++ if (cnt > HIF_CLIENT_QUEUES_MAX) ++ cnt = HIF_CLIENT_QUEUES_MAX; ++ ++ client->tx_qn = cnt; ++ tx_qbase = (struct tx_queue_desc *)client_shm->tx_qbase; ++ for (i = 0; i < cnt; i++) { ++ tx_queue = &client->tx_q[i]; ++ tx_queue->base = tx_qbase + i * client_shm->tx_qsize; ++ tx_queue->size = client_shm->tx_qsize; ++ tx_queue->ack_idx = 0; ++ } ++ ++ set_bit(client_id, &hif->shm->g_client_status[0]); ++ ++unlock: ++ spin_unlock_bh(&hif->tx_lock); ++ ++ return err; ++} ++ ++/* ++ * pfe_hif_client_unregister ++ * ++ * This function used to unregister a client from the HIF driver. ++ * ++ */ ++static void pfe_hif_client_unregister(struct pfe_hif *hif, u32 client_id) ++{ ++ pr_info("%s\n", __func__); ++ ++ /* ++ * Mark client as no longer available (which prevents further packet ++ * receive for this client) ++ */ ++ spin_lock_bh(&hif->tx_lock); ++ ++ if (!test_bit(client_id, &hif->shm->g_client_status[0])) { ++ pr_err("%s: client %d not registered\n", __func__, ++ client_id); ++ ++ spin_unlock_bh(&hif->tx_lock); ++ return; ++ } ++ ++ clear_bit(client_id, &hif->shm->g_client_status[0]); ++ ++ spin_unlock_bh(&hif->tx_lock); ++} ++ ++/* ++ * client_put_rxpacket- ++ * This functions puts the Rx pkt in the given client Rx queue. ++ * It actually swap the Rx pkt in the client Rx descriptor buffer ++ * and returns the free buffer from it. ++ * ++ * If the function returns NULL means client Rx queue is full and ++ * packet couldn't send to client queue. ++ */ ++static void *client_put_rxpacket(struct hif_rx_queue *queue, void *pkt, u32 len, ++ u32 flags, u32 client_ctrl, u32 *rem_len) ++{ ++ void *free_pkt = NULL; ++ struct rx_queue_desc *desc = queue->base + queue->write_idx; ++ ++ if (readl(&desc->ctrl) & CL_DESC_OWN) { ++ if (page_mode) { ++ int rem_page_size = PAGE_SIZE - ++ PRESENT_OFST_IN_PAGE(pkt); ++ int cur_pkt_size = ROUND_MIN_RX_SIZE(len + ++ pfe_pkt_headroom); ++ *rem_len = (rem_page_size - cur_pkt_size); ++ if (*rem_len) { ++ free_pkt = pkt + cur_pkt_size; ++ get_page(virt_to_page(free_pkt)); ++ } else { ++ free_pkt = (void ++ *)__get_free_page(GFP_ATOMIC | GFP_DMA_PFE); ++ *rem_len = pfe_pkt_size; ++ } ++ } else { ++ free_pkt = kmalloc(PFE_BUF_SIZE, GFP_ATOMIC | ++ GFP_DMA_PFE); ++ *rem_len = PFE_BUF_SIZE - pfe_pkt_headroom; ++ } ++ ++ if (free_pkt) { ++ desc->data = pkt; ++ desc->client_ctrl = client_ctrl; ++ /* ++ * Ensure everything else is written to DDR before ++ * writing bd->ctrl ++ */ ++ smp_wmb(); ++ writel(CL_DESC_BUF_LEN(len) | flags, &desc->ctrl); ++ queue->write_idx = (queue->write_idx + 1) ++ & (queue->size - 1); ++ ++ free_pkt += pfe_pkt_headroom; ++ } ++ } ++ ++ return free_pkt; ++} ++ ++/* ++ * pfe_hif_rx_process- ++ * This function does pfe hif rx queue processing. ++ * Dequeue packet from Rx queue and send it to corresponding client queue ++ */ ++static int pfe_hif_rx_process(struct pfe_hif *hif, int budget) ++{ ++ struct hif_desc *desc; ++ struct hif_hdr *pkt_hdr; ++ struct __hif_hdr hif_hdr; ++ void *free_buf; ++ int rtc, len, rx_processed = 0; ++ struct __hif_desc local_desc; ++ int flags; ++ unsigned int desc_p; ++ unsigned int buf_size = 0; ++ ++ spin_lock_bh(&hif->lock); ++ ++ rtc = hif->rxtoclean_index; ++ ++ while (rx_processed < budget) { ++ desc = hif->rx_base + rtc; ++ ++ __memcpy12(&local_desc, desc); ++ ++ /* ACK pending Rx interrupt */ ++ if (local_desc.ctrl & BD_CTRL_DESC_EN) { ++ writel(HIF_INT | HIF_RXPKT_INT, HIF_INT_SRC); ++ ++ if (rx_processed == 0) { ++ if (napi_first_batch == 1) { ++ desc_p = hif->descr_baseaddr_p + ++ ((unsigned long int)(desc) - ++ (unsigned long ++ int)hif->descr_baseaddr_v); ++ napi_first_batch = 0; ++ } ++ } ++ ++ __memcpy12(&local_desc, desc); ++ ++ if (local_desc.ctrl & BD_CTRL_DESC_EN) ++ break; ++ } ++ ++ napi_first_batch = 0; ++ ++#ifdef HIF_NAPI_STATS ++ hif->napi_counters[NAPI_DESC_COUNT]++; ++#endif ++ len = BD_BUF_LEN(local_desc.ctrl); ++ /* ++ * dma_unmap_single(hif->dev, DDR_PFE_TO_PHYS(local_desc.data), ++ * hif->rx_buf_len[rtc], DMA_FROM_DEVICE); ++ */ ++ dma_unmap_single(hif->dev, DDR_PFE_TO_PHYS(local_desc.data), ++ hif->rx_buf_len[rtc], DMA_FROM_DEVICE); ++ ++ pkt_hdr = (struct hif_hdr *)hif->rx_buf_addr[rtc]; ++ ++ /* Track last HIF header received */ ++ if (!hif->started) { ++ hif->started = 1; ++ ++ __memcpy8(&hif_hdr, pkt_hdr); ++ ++ hif->qno = hif_hdr.hdr.q_num; ++ hif->client_id = hif_hdr.hdr.client_id; ++ hif->client_ctrl = (hif_hdr.hdr.client_ctrl1 << 16) | ++ hif_hdr.hdr.client_ctrl; ++ flags = CL_DESC_FIRST; ++ ++ } else { ++ flags = 0; ++ } ++ ++ if (local_desc.ctrl & BD_CTRL_LIFM) ++ flags |= CL_DESC_LAST; ++ ++ /* Check for valid client id and still registered */ ++ if ((hif->client_id >= HIF_CLIENTS_MAX) || ++ !(test_bit(hif->client_id, ++ &hif->shm->g_client_status[0]))) { ++ printk_ratelimited("%s: packet with invalid client id %d q_num %d\n", ++ __func__, ++ hif->client_id, ++ hif->qno); ++ ++ free_buf = pkt_hdr; ++ ++ goto pkt_drop; ++ } ++ ++ /* Check to valid queue number */ ++ if (hif->client[hif->client_id].rx_qn <= hif->qno) { ++ pr_info("%s: packet with invalid queue: %d\n" ++ , __func__, hif->qno); ++ hif->qno = 0; ++ } ++ ++ free_buf = ++ client_put_rxpacket(&hif->client[hif->client_id].rx_q[hif->qno], ++ (void *)pkt_hdr, len, flags, ++ hif->client_ctrl, &buf_size); ++ ++ hif_lib_indicate_client(hif->client_id, EVENT_RX_PKT_IND, ++ hif->qno); ++ ++ if (unlikely(!free_buf)) { ++#ifdef HIF_NAPI_STATS ++ hif->napi_counters[NAPI_CLIENT_FULL_COUNT]++; ++#endif ++ /* ++ * If we want to keep in polling mode to retry later, ++ * we need to tell napi that we consumed ++ * the full budget or we will hit a livelock scenario. ++ * The core code keeps this napi instance ++ * at the head of the list and none of the other ++ * instances get to run ++ */ ++ rx_processed = budget; ++ ++ if (flags & CL_DESC_FIRST) ++ hif->started = 0; ++ ++ break; ++ } ++ ++pkt_drop: ++ /*Fill free buffer in the descriptor */ ++ hif->rx_buf_addr[rtc] = free_buf; ++ hif->rx_buf_len[rtc] = min(pfe_pkt_size, buf_size); ++ writel((DDR_PHYS_TO_PFE ++ ((u32)dma_map_single(hif->dev, ++ free_buf, hif->rx_buf_len[rtc], DMA_FROM_DEVICE))), ++ &desc->data); ++ /* ++ * Ensure everything else is written to DDR before ++ * writing bd->ctrl ++ */ ++ wmb(); ++ writel((BD_CTRL_PKT_INT_EN | BD_CTRL_LIFM | BD_CTRL_DIR | ++ BD_CTRL_DESC_EN | BD_BUF_LEN(hif->rx_buf_len[rtc])), ++ &desc->ctrl); ++ ++ rtc = (rtc + 1) & (hif->rx_ring_size - 1); ++ ++ if (local_desc.ctrl & BD_CTRL_LIFM) { ++ if (!(hif->client_ctrl & HIF_CTRL_RX_CONTINUED)) { ++ rx_processed++; ++ ++#ifdef HIF_NAPI_STATS ++ hif->napi_counters[NAPI_PACKET_COUNT]++; ++#endif ++ } ++ hif->started = 0; ++ } ++ } ++ ++ hif->rxtoclean_index = rtc; ++ spin_unlock_bh(&hif->lock); ++ ++ /* we made some progress, re-start rx dma in case it stopped */ ++ hif_rx_dma_start(); ++ ++ return rx_processed; ++} ++ ++/* ++ * client_ack_txpacket- ++ * This function ack the Tx packet in the give client Tx queue by resetting ++ * ownership bit in the descriptor. ++ */ ++static int client_ack_txpacket(struct pfe_hif *hif, unsigned int client_id, ++ unsigned int q_no) ++{ ++ struct hif_tx_queue *queue = &hif->client[client_id].tx_q[q_no]; ++ struct tx_queue_desc *desc = queue->base + queue->ack_idx; ++ ++ if (readl(&desc->ctrl) & CL_DESC_OWN) { ++ writel((readl(&desc->ctrl) & ~CL_DESC_OWN), &desc->ctrl); ++ queue->ack_idx = (queue->ack_idx + 1) & (queue->size - 1); ++ ++ return 0; ++ ++ } else { ++ /*This should not happen */ ++ pr_err("%s: %d %d %d %d %d %p %d\n", __func__, ++ hif->txtosend, hif->txtoclean, hif->txavail, ++ client_id, q_no, queue, queue->ack_idx); ++ WARN(1, "%s: doesn't own this descriptor", __func__); ++ return 1; ++ } ++} ++ ++void __hif_tx_done_process(struct pfe_hif *hif, int count) ++{ ++ struct hif_desc *desc; ++ struct hif_desc_sw *desc_sw; ++ int ttc, tx_avl; ++ int pkts_done[HIF_CLIENTS_MAX] = {0, 0}; ++ ++ ttc = hif->txtoclean; ++ tx_avl = hif->txavail; ++ ++ while ((tx_avl < hif->tx_ring_size) && count--) { ++ desc = hif->tx_base + ttc; ++ ++ if (readl(&desc->ctrl) & BD_CTRL_DESC_EN) ++ break; ++ ++ desc_sw = &hif->tx_sw_queue[ttc]; ++ ++ if (desc_sw->data) { ++ /* ++ * dmap_unmap_single(hif->dev, desc_sw->data, ++ * desc_sw->len, DMA_TO_DEVICE); ++ */ ++ dma_unmap_single(hif->dev, desc_sw->data, ++ desc_sw->len, DMA_TO_DEVICE); ++ } ++ ++ if (desc_sw->client_id > HIF_CLIENTS_MAX) ++ pr_err("Invalid cl id %d\n", desc_sw->client_id); ++ ++ pkts_done[desc_sw->client_id]++; ++ ++ client_ack_txpacket(hif, desc_sw->client_id, desc_sw->q_no); ++ ++ ttc = (ttc + 1) & (hif->tx_ring_size - 1); ++ tx_avl++; ++ } ++ ++ if (pkts_done[0]) ++ hif_lib_indicate_client(0, EVENT_TXDONE_IND, 0); ++ if (pkts_done[1]) ++ hif_lib_indicate_client(1, EVENT_TXDONE_IND, 0); ++ ++ hif->txtoclean = ttc; ++ hif->txavail = tx_avl; ++ ++ if (!count) { ++ tasklet_schedule(&hif->tx_cleanup_tasklet); ++ } else { ++ /*Enable Tx done interrupt */ ++ writel(readl_relaxed(HIF_INT_ENABLE) | HIF_TXPKT_INT, ++ HIF_INT_ENABLE); ++ } ++} ++ ++static void pfe_tx_do_cleanup(unsigned long data) ++{ ++ struct pfe_hif *hif = (struct pfe_hif *)data; ++ ++ writel(HIF_INT | HIF_TXPKT_INT, HIF_INT_SRC); ++ ++ hif_tx_done_process(hif, 64); ++} ++ ++/* ++ * __hif_xmit_pkt - ++ * This function puts one packet in the HIF Tx queue ++ */ ++void __hif_xmit_pkt(struct pfe_hif *hif, unsigned int client_id, unsigned int ++ q_no, void *data, u32 len, unsigned int flags) ++{ ++ struct hif_desc *desc; ++ struct hif_desc_sw *desc_sw; ++ ++ desc = hif->tx_base + hif->txtosend; ++ desc_sw = &hif->tx_sw_queue[hif->txtosend]; ++ ++ desc_sw->len = len; ++ desc_sw->client_id = client_id; ++ desc_sw->q_no = q_no; ++ desc_sw->flags = flags; ++ ++ if (flags & HIF_DONT_DMA_MAP) { ++ desc_sw->data = 0; ++ writel((u32)DDR_PHYS_TO_PFE(data), &desc->data); ++ } else { ++ desc_sw->data = dma_map_single(hif->dev, data, len, ++ DMA_TO_DEVICE); ++ writel((u32)DDR_PHYS_TO_PFE(desc_sw->data), &desc->data); ++ } ++ ++ hif->txtosend = (hif->txtosend + 1) & (hif->tx_ring_size - 1); ++ hif->txavail--; ++ ++ if ((!((flags & HIF_DATA_VALID) && (flags & ++ HIF_LAST_BUFFER)))) ++ goto skip_tx; ++ ++ /* ++ * Ensure everything else is written to DDR before ++ * writing bd->ctrl ++ */ ++ wmb(); ++ ++ do { ++ desc_sw = &hif->tx_sw_queue[hif->txtoflush]; ++ desc = hif->tx_base + hif->txtoflush; ++ ++ if (desc_sw->flags & HIF_LAST_BUFFER) { ++ writel((BD_CTRL_LIFM | ++ BD_CTRL_BRFETCH_DISABLE | BD_CTRL_RTFETCH_DISABLE ++ | BD_CTRL_PARSE_DISABLE | BD_CTRL_DESC_EN | ++ BD_CTRL_PKT_INT_EN | BD_BUF_LEN(desc_sw->len)), ++ &desc->ctrl); ++ } else { ++ writel((BD_CTRL_DESC_EN | ++ BD_BUF_LEN(desc_sw->len)), &desc->ctrl); ++ } ++ hif->txtoflush = (hif->txtoflush + 1) & (hif->tx_ring_size - 1); ++ } ++ while (hif->txtoflush != hif->txtosend) ++ ; ++ ++skip_tx: ++ return; ++} ++ ++static irqreturn_t wol_isr(int irq, void *dev_id) ++{ ++ pr_info("WoL\n"); ++ gemac_set_wol(EMAC1_BASE_ADDR, 0); ++ gemac_set_wol(EMAC2_BASE_ADDR, 0); ++ return IRQ_HANDLED; ++} ++ ++/* ++ * hif_isr- ++ * This ISR routine processes Rx/Tx done interrupts from the HIF hardware block ++ */ ++static irqreturn_t hif_isr(int irq, void *dev_id) ++{ ++ struct pfe_hif *hif = (struct pfe_hif *)dev_id; ++ int int_status; ++ int int_enable_mask; ++ ++ /*Read hif interrupt source register */ ++ int_status = readl_relaxed(HIF_INT_SRC); ++ int_enable_mask = readl_relaxed(HIF_INT_ENABLE); ++ ++ if ((int_status & HIF_INT) == 0) ++ return IRQ_NONE; ++ ++ int_status &= ~(HIF_INT); ++ ++ if (int_status & HIF_RXPKT_INT) { ++ int_status &= ~(HIF_RXPKT_INT); ++ int_enable_mask &= ~(HIF_RXPKT_INT); ++ ++ napi_first_batch = 1; ++ ++ if (napi_schedule_prep(&hif->napi)) { ++#ifdef HIF_NAPI_STATS ++ hif->napi_counters[NAPI_SCHED_COUNT]++; ++#endif ++ __napi_schedule(&hif->napi); ++ } ++ } ++ ++ if (int_status & HIF_TXPKT_INT) { ++ int_status &= ~(HIF_TXPKT_INT); ++ int_enable_mask &= ~(HIF_TXPKT_INT); ++ /*Schedule tx cleanup tassklet */ ++ tasklet_schedule(&hif->tx_cleanup_tasklet); ++ } ++ ++ /*Disable interrupts, they will be enabled after they are serviced */ ++ writel_relaxed(int_enable_mask, HIF_INT_ENABLE); ++ ++ if (int_status) { ++ pr_info("%s : Invalid interrupt : %d\n", __func__, ++ int_status); ++ writel(int_status, HIF_INT_SRC); ++ } ++ ++ return IRQ_HANDLED; ++} ++ ++void hif_process_client_req(struct pfe_hif *hif, int req, int data1, int data2) ++{ ++ unsigned int client_id = data1; ++ ++ if (client_id >= HIF_CLIENTS_MAX) { ++ pr_err("%s: client id %d out of bounds\n", __func__, ++ client_id); ++ return; ++ } ++ ++ switch (req) { ++ case REQUEST_CL_REGISTER: ++ /* Request for register a client */ ++ pr_info("%s: register client_id %d\n", ++ __func__, client_id); ++ pfe_hif_client_register(hif, client_id, (struct ++ hif_client_shm *)&hif->shm->client[client_id]); ++ break; ++ ++ case REQUEST_CL_UNREGISTER: ++ pr_info("%s: unregister client_id %d\n", ++ __func__, client_id); ++ ++ /* Request for unregister a client */ ++ pfe_hif_client_unregister(hif, client_id); ++ ++ break; ++ ++ default: ++ pr_err("%s: unsupported request %d\n", ++ __func__, req); ++ break; ++ } ++ ++ /* ++ * Process client Tx queues ++ * Currently we don't have checking for tx pending ++ */ ++} ++ ++/* ++ * pfe_hif_rx_poll ++ * This function is NAPI poll function to process HIF Rx queue. ++ */ ++static int pfe_hif_rx_poll(struct napi_struct *napi, int budget) ++{ ++ struct pfe_hif *hif = container_of(napi, struct pfe_hif, napi); ++ int work_done; ++ ++#ifdef HIF_NAPI_STATS ++ hif->napi_counters[NAPI_POLL_COUNT]++; ++#endif ++ ++ work_done = pfe_hif_rx_process(hif, budget); ++ ++ if (work_done < budget) { ++ napi_complete(napi); ++ writel(readl_relaxed(HIF_INT_ENABLE) | HIF_RXPKT_INT, ++ HIF_INT_ENABLE); ++ } ++#ifdef HIF_NAPI_STATS ++ else ++ hif->napi_counters[NAPI_FULL_BUDGET_COUNT]++; ++#endif ++ ++ return work_done; ++} ++ ++/* ++ * pfe_hif_init ++ * This function initializes the baseaddresses and irq, etc. ++ */ ++int pfe_hif_init(struct pfe *pfe) ++{ ++ struct pfe_hif *hif = &pfe->hif; ++ int err; ++ ++ pr_info("%s\n", __func__); ++ ++ hif->dev = pfe->dev; ++ hif->irq = pfe->hif_irq; ++ ++ err = pfe_hif_alloc_descr(hif); ++ if (err) ++ goto err0; ++ ++ if (pfe_hif_init_buffers(hif)) { ++ pr_err("%s: Could not initialize buffer descriptors\n" ++ , __func__); ++ err = -ENOMEM; ++ goto err1; ++ } ++ ++ /* Initialize NAPI for Rx processing */ ++ init_dummy_netdev(&hif->dummy_dev); ++ netif_napi_add(&hif->dummy_dev, &hif->napi, pfe_hif_rx_poll, ++ HIF_RX_POLL_WEIGHT); ++ napi_enable(&hif->napi); ++ ++ spin_lock_init(&hif->tx_lock); ++ spin_lock_init(&hif->lock); ++ ++ hif_init(); ++ hif_rx_enable(); ++ hif_tx_enable(); ++ ++ /* Disable tx done interrupt */ ++ writel(HIF_INT_MASK, HIF_INT_ENABLE); ++ ++ gpi_enable(HGPI_BASE_ADDR); ++ ++ err = request_irq(hif->irq, hif_isr, 0, "pfe_hif", hif); ++ if (err) { ++ pr_err("%s: failed to get the hif IRQ = %d\n", ++ __func__, hif->irq); ++ goto err1; ++ } ++ ++ err = request_irq(pfe->wol_irq, wol_isr, 0, "pfe_wol", pfe); ++ if (err) { ++ pr_err("%s: failed to get the wol IRQ = %d\n", ++ __func__, pfe->wol_irq); ++ goto err1; ++ } ++ ++ tasklet_init(&hif->tx_cleanup_tasklet, ++ (void(*)(unsigned long))pfe_tx_do_cleanup, ++ (unsigned long)hif); ++ ++ return 0; ++err1: ++ pfe_hif_free_descr(hif); ++err0: ++ return err; ++} ++ ++/* pfe_hif_exit- */ ++void pfe_hif_exit(struct pfe *pfe) ++{ ++ struct pfe_hif *hif = &pfe->hif; ++ ++ pr_info("%s\n", __func__); ++ ++ tasklet_kill(&hif->tx_cleanup_tasklet); ++ ++ spin_lock_bh(&hif->lock); ++ hif->shm->g_client_status[0] = 0; ++ /* Make sure all clients are disabled*/ ++ hif->shm->g_client_status[1] = 0; ++ ++ spin_unlock_bh(&hif->lock); ++ ++ /*Disable Rx/Tx */ ++ gpi_disable(HGPI_BASE_ADDR); ++ hif_rx_disable(); ++ hif_tx_disable(); ++ ++ napi_disable(&hif->napi); ++ netif_napi_del(&hif->napi); ++ ++ free_irq(pfe->wol_irq, pfe); ++ free_irq(hif->irq, hif); ++ ++ pfe_hif_release_buffers(hif); ++ pfe_hif_free_descr(hif); ++} +--- /dev/null ++++ b/drivers/staging/fsl_ppfe/pfe_hif.h +@@ -0,0 +1,212 @@ ++/* ++ * Copyright 2015-2016 Freescale Semiconductor, Inc. ++ * Copyright 2017 NXP ++ * ++ * 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, see <http://www.gnu.org/licenses/>. ++ */ ++ ++#ifndef _PFE_HIF_H_ ++#define _PFE_HIF_H_ ++ ++#include <linux/netdevice.h> ++#include <linux/interrupt.h> ++ ++#define HIF_NAPI_STATS ++ ++#define HIF_CLIENT_QUEUES_MAX 16 ++#define HIF_RX_POLL_WEIGHT 64 ++ ++#define HIF_RX_PKT_MIN_SIZE 0x800 /* 2KB */ ++#define HIF_RX_PKT_MIN_SIZE_MASK ~(HIF_RX_PKT_MIN_SIZE - 1) ++#define ROUND_MIN_RX_SIZE(_sz) (((_sz) + (HIF_RX_PKT_MIN_SIZE - 1)) \ ++ & HIF_RX_PKT_MIN_SIZE_MASK) ++#define PRESENT_OFST_IN_PAGE(_buf) (((unsigned long int)(_buf) & (PAGE_SIZE \ ++ - 1)) & HIF_RX_PKT_MIN_SIZE_MASK) ++ ++enum { ++ NAPI_SCHED_COUNT = 0, ++ NAPI_POLL_COUNT, ++ NAPI_PACKET_COUNT, ++ NAPI_DESC_COUNT, ++ NAPI_FULL_BUDGET_COUNT, ++ NAPI_CLIENT_FULL_COUNT, ++ NAPI_MAX_COUNT ++}; ++ ++/* ++ * HIF_TX_DESC_NT value should be always greter than 4, ++ * Otherwise HIF_TX_POLL_MARK will become zero. ++ */ ++#define HIF_RX_DESC_NT 256 ++#define HIF_TX_DESC_NT 2048 ++ ++#define HIF_FIRST_BUFFER BIT(0) ++#define HIF_LAST_BUFFER BIT(1) ++#define HIF_DONT_DMA_MAP BIT(2) ++#define HIF_DATA_VALID BIT(3) ++#define HIF_TSO BIT(4) ++ ++enum { ++ PFE_CL_GEM0 = 0, ++ PFE_CL_GEM1, ++ HIF_CLIENTS_MAX ++}; ++ ++/*structure to store client queue info */ ++struct hif_rx_queue { ++ struct rx_queue_desc *base; ++ u32 size; ++ u32 write_idx; ++}; ++ ++struct hif_tx_queue { ++ struct tx_queue_desc *base; ++ u32 size; ++ u32 ack_idx; ++}; ++ ++/*Structure to store the client info */ ++struct hif_client { ++ int rx_qn; ++ struct hif_rx_queue rx_q[HIF_CLIENT_QUEUES_MAX]; ++ int tx_qn; ++ struct hif_tx_queue tx_q[HIF_CLIENT_QUEUES_MAX]; ++}; ++ ++/*HIF hardware buffer descriptor */ ++struct hif_desc { ++ u32 ctrl; ++ u32 status; ++ u32 data; ++ u32 next; ++}; ++ ++struct __hif_desc { ++ u32 ctrl; ++ u32 status; ++ u32 data; ++}; ++ ++struct hif_desc_sw { ++ dma_addr_t data; ++ u16 len; ++ u8 client_id; ++ u8 q_no; ++ u16 flags; ++}; ++ ++struct hif_hdr { ++ u8 client_id; ++ u8 q_num; ++ u16 client_ctrl; ++ u16 client_ctrl1; ++}; ++ ++struct __hif_hdr { ++ union { ++ struct hif_hdr hdr; ++ u32 word[2]; ++ }; ++}; ++ ++struct hif_ipsec_hdr { ++ u16 sa_handle[2]; ++} __packed; ++ ++/* HIF_CTRL_TX... defines */ ++#define HIF_CTRL_TX_CHECKSUM BIT(2) ++ ++/* HIF_CTRL_RX... defines */ ++#define HIF_CTRL_RX_OFFSET_OFST (24) ++#define HIF_CTRL_RX_CHECKSUMMED BIT(2) ++#define HIF_CTRL_RX_CONTINUED BIT(1) ++ ++struct pfe_hif { ++ /* To store registered clients in hif layer */ ++ struct hif_client client[HIF_CLIENTS_MAX]; ++ struct hif_shm *shm; ++ int irq; ++ ++ void *descr_baseaddr_v; ++ unsigned long descr_baseaddr_p; ++ ++ struct hif_desc *rx_base; ++ u32 rx_ring_size; ++ u32 rxtoclean_index; ++ void *rx_buf_addr[HIF_RX_DESC_NT]; ++ int rx_buf_len[HIF_RX_DESC_NT]; ++ unsigned int qno; ++ unsigned int client_id; ++ unsigned int client_ctrl; ++ unsigned int started; ++ ++ struct hif_desc *tx_base; ++ u32 tx_ring_size; ++ u32 txtosend; ++ u32 txtoclean; ++ u32 txavail; ++ u32 txtoflush; ++ struct hif_desc_sw tx_sw_queue[HIF_TX_DESC_NT]; ++ ++/* tx_lock synchronizes hif packet tx as well as pfe_hif structure access */ ++ spinlock_t tx_lock; ++/* lock synchronizes hif rx queue processing */ ++ spinlock_t lock; ++ struct net_device dummy_dev; ++ struct napi_struct napi; ++ struct device *dev; ++ ++#ifdef HIF_NAPI_STATS ++ unsigned int napi_counters[NAPI_MAX_COUNT]; ++#endif ++ struct tasklet_struct tx_cleanup_tasklet; ++}; ++ ++void __hif_xmit_pkt(struct pfe_hif *hif, unsigned int client_id, unsigned int ++ q_no, void *data, u32 len, unsigned int flags); ++int hif_xmit_pkt(struct pfe_hif *hif, unsigned int client_id, unsigned int q_no, ++ void *data, unsigned int len); ++void __hif_tx_done_process(struct pfe_hif *hif, int count); ++void hif_process_client_req(struct pfe_hif *hif, int req, int data1, int ++ data2); ++int pfe_hif_init(struct pfe *pfe); ++void pfe_hif_exit(struct pfe *pfe); ++void pfe_hif_rx_idle(struct pfe_hif *hif); ++static inline void hif_tx_done_process(struct pfe_hif *hif, int count) ++{ ++ spin_lock_bh(&hif->tx_lock); ++ __hif_tx_done_process(hif, count); ++ spin_unlock_bh(&hif->tx_lock); ++} ++ ++static inline void hif_tx_lock(struct pfe_hif *hif) ++{ ++ spin_lock_bh(&hif->tx_lock); ++} ++ ++static inline void hif_tx_unlock(struct pfe_hif *hif) ++{ ++ spin_unlock_bh(&hif->tx_lock); ++} ++ ++static inline int __hif_tx_avail(struct pfe_hif *hif) ++{ ++ return hif->txavail; ++} ++ ++#define __memcpy8(dst, src) memcpy(dst, src, 8) ++#define __memcpy12(dst, src) memcpy(dst, src, 12) ++#define __memcpy(dst, src, len) memcpy(dst, src, len) ++ ++#endif /* _PFE_HIF_H_ */ +--- /dev/null ++++ b/drivers/staging/fsl_ppfe/pfe_hif_lib.c +@@ -0,0 +1,640 @@ ++/* ++ * Copyright 2015-2016 Freescale Semiconductor, Inc. ++ * Copyright 2017 NXP ++ * ++ * 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, see <http://www.gnu.org/licenses/>. ++ */ ++ ++#include <linux/version.h> ++#include <linux/kernel.h> ++#include <linux/slab.h> ++#include <linux/interrupt.h> ++#include <linux/workqueue.h> ++#include <linux/dma-mapping.h> ++#include <linux/dmapool.h> ++#include <linux/sched.h> ++#include <linux/skbuff.h> ++#include <linux/moduleparam.h> ++#include <linux/cpu.h> ++ ++#include "pfe_mod.h" ++#include "pfe_hif.h" ++#include "pfe_hif_lib.h" ++ ++unsigned int lro_mode; ++unsigned int page_mode; ++unsigned int tx_qos = 1; ++module_param(tx_qos, uint, 0444); ++MODULE_PARM_DESC(tx_qos, "0: disable ,\n" ++ "1: enable (default), guarantee no packet drop at TMU level\n"); ++unsigned int pfe_pkt_size; ++unsigned int pfe_pkt_headroom; ++unsigned int emac_txq_cnt; ++ ++/* ++ * @pfe_hal_lib.c. ++ * Common functions used by HIF client drivers ++ */ ++ ++/*HIF shared memory Global variable */ ++struct hif_shm ghif_shm; ++ ++/* Cleanup the HIF shared memory, release HIF rx_buffer_pool. ++ * This function should be called after pfe_hif_exit ++ * ++ * @param[in] hif_shm Shared memory address location in DDR ++ */ ++static void pfe_hif_shm_clean(struct hif_shm *hif_shm) ++{ ++ int i; ++ void *pkt; ++ ++ for (i = 0; i < hif_shm->rx_buf_pool_cnt; i++) { ++ pkt = hif_shm->rx_buf_pool[i]; ++ if (pkt) { ++ hif_shm->rx_buf_pool[i] = NULL; ++ pkt -= pfe_pkt_headroom; ++ ++ if (page_mode) ++ put_page(virt_to_page(pkt)); ++ else ++ kfree(pkt); ++ } ++ } ++} ++ ++/* Initialize shared memory used between HIF driver and clients, ++ * allocate rx_buffer_pool required for HIF Rx descriptors. ++ * This function should be called before initializing HIF driver. ++ * ++ * @param[in] hif_shm Shared memory address location in DDR ++ * @rerurn 0 - on succes, <0 on fail to initialize ++ */ ++static int pfe_hif_shm_init(struct hif_shm *hif_shm) ++{ ++ int i; ++ void *pkt; ++ ++ memset(hif_shm, 0, sizeof(struct hif_shm)); ++ hif_shm->rx_buf_pool_cnt = HIF_RX_DESC_NT; ++ ++ for (i = 0; i < hif_shm->rx_buf_pool_cnt; i++) { ++ if (page_mode) { ++ pkt = (void *)__get_free_page(GFP_KERNEL | ++ GFP_DMA_PFE); ++ } else { ++ pkt = kmalloc(PFE_BUF_SIZE, GFP_KERNEL | GFP_DMA_PFE); ++ } ++ ++ if (pkt) ++ hif_shm->rx_buf_pool[i] = pkt + pfe_pkt_headroom; ++ else ++ goto err0; ++ } ++ ++ return 0; ++ ++err0: ++ pr_err("%s Low memory\n", __func__); ++ pfe_hif_shm_clean(hif_shm); ++ return -ENOMEM; ++} ++ ++/*This function sends indication to HIF driver ++ * ++ * @param[in] hif hif context ++ */ ++static void hif_lib_indicate_hif(struct pfe_hif *hif, int req, int data1, int ++ data2) ++{ ++ hif_process_client_req(hif, req, data1, data2); ++} ++ ++void hif_lib_indicate_client(int client_id, int event_type, int qno) ++{ ++ struct hif_client_s *client = pfe->hif_client[client_id]; ++ ++ if (!client || (event_type >= HIF_EVENT_MAX) || (qno >= ++ HIF_CLIENT_QUEUES_MAX)) ++ return; ++ ++ if (!test_and_set_bit(qno, &client->queue_mask[event_type])) ++ client->event_handler(client->priv, event_type, qno); ++} ++ ++/*This function releases Rx queue descriptors memory and pre-filled buffers ++ * ++ * @param[in] client hif_client context ++ */ ++static void hif_lib_client_release_rx_buffers(struct hif_client_s *client) ++{ ++ struct rx_queue_desc *desc; ++ int qno, ii; ++ void *buf; ++ ++ for (qno = 0; qno < client->rx_qn; qno++) { ++ desc = client->rx_q[qno].base; ++ ++ for (ii = 0; ii < client->rx_q[qno].size; ii++) { ++ buf = (void *)desc->data; ++ if (buf) { ++ buf -= pfe_pkt_headroom; ++ ++ if (page_mode) ++ free_page((unsigned long)buf); ++ else ++ kfree(buf); ++ ++ desc->ctrl = 0; ++ } ++ ++ desc++; ++ } ++ } ++ ++ kfree(client->rx_qbase); ++} ++ ++/*This function allocates memory for the rxq descriptors and pre-fill rx queues ++ * with buffers. ++ * @param[in] client client context ++ * @param[in] q_size size of the rxQ, all queues are of same size ++ */ ++static int hif_lib_client_init_rx_buffers(struct hif_client_s *client, int ++ q_size) ++{ ++ struct rx_queue_desc *desc; ++ struct hif_client_rx_queue *queue; ++ int ii, qno; ++ ++ /*Allocate memory for the client queues */ ++ client->rx_qbase = kzalloc(client->rx_qn * q_size * sizeof(struct ++ rx_queue_desc), GFP_KERNEL); ++ if (!client->rx_qbase) ++ goto err; ++ ++ for (qno = 0; qno < client->rx_qn; qno++) { ++ queue = &client->rx_q[qno]; ++ ++ queue->base = client->rx_qbase + qno * q_size * sizeof(struct ++ rx_queue_desc); ++ queue->size = q_size; ++ queue->read_idx = 0; ++ queue->write_idx = 0; ++ ++ pr_debug("rx queue: %d, base: %p, size: %d\n", qno, ++ queue->base, queue->size); ++ } ++ ++ for (qno = 0; qno < client->rx_qn; qno++) { ++ queue = &client->rx_q[qno]; ++ desc = queue->base; ++ ++ for (ii = 0; ii < queue->size; ii++) { ++ desc->ctrl = CL_DESC_BUF_LEN(pfe_pkt_size) | ++ CL_DESC_OWN; ++ desc++; ++ } ++ } ++ ++ return 0; ++ ++err: ++ return 1; ++} ++ ++ ++static void hif_lib_client_cleanup_tx_queue(struct hif_client_tx_queue *queue) ++{ ++ pr_debug("%s\n", __func__); ++ ++ /* ++ * Check if there are any pending packets. Client must flush the tx ++ * queues before unregistering, by calling by calling ++ * hif_lib_tx_get_next_complete() ++ * ++ * Hif no longer calls since we are no longer registered ++ */ ++ if (queue->tx_pending) ++ pr_err("%s: pending transmit packets\n", __func__); ++} ++ ++static void hif_lib_client_release_tx_buffers(struct hif_client_s *client) ++{ ++ int qno; ++ ++ pr_debug("%s\n", __func__); ++ ++ for (qno = 0; qno < client->tx_qn; qno++) ++ hif_lib_client_cleanup_tx_queue(&client->tx_q[qno]); ++ ++ kfree(client->tx_qbase); ++} ++ ++static int hif_lib_client_init_tx_buffers(struct hif_client_s *client, int ++ q_size) ++{ ++ struct hif_client_tx_queue *queue; ++ int qno; ++ ++ client->tx_qbase = kzalloc(client->tx_qn * q_size * sizeof(struct ++ tx_queue_desc), GFP_KERNEL); ++ if (!client->tx_qbase) ++ return 1; ++ ++ for (qno = 0; qno < client->tx_qn; qno++) { ++ queue = &client->tx_q[qno]; ++ ++ queue->base = client->tx_qbase + qno * q_size * sizeof(struct ++ tx_queue_desc); ++ queue->size = q_size; ++ queue->read_idx = 0; ++ queue->write_idx = 0; ++ queue->tx_pending = 0; ++ queue->nocpy_flag = 0; ++ queue->prev_tmu_tx_pkts = 0; ++ queue->done_tmu_tx_pkts = 0; ++ ++ pr_debug("tx queue: %d, base: %p, size: %d\n", qno, ++ queue->base, queue->size); ++ } ++ ++ return 0; ++} ++ ++static int hif_lib_event_dummy(void *priv, int event_type, int qno) ++{ ++ return 0; ++} ++ ++int hif_lib_client_register(struct hif_client_s *client) ++{ ++ struct hif_shm *hif_shm; ++ struct hif_client_shm *client_shm; ++ int err, i; ++ /* int loop_cnt = 0; */ ++ ++ pr_debug("%s\n", __func__); ++ ++ /*Allocate memory before spin_lock*/ ++ if (hif_lib_client_init_rx_buffers(client, client->rx_qsize)) { ++ err = -ENOMEM; ++ goto err_rx; ++ } ++ ++ if (hif_lib_client_init_tx_buffers(client, client->tx_qsize)) { ++ err = -ENOMEM; ++ goto err_tx; ++ } ++ ++ spin_lock_bh(&pfe->hif.lock); ++ if (!(client->pfe) || (client->id >= HIF_CLIENTS_MAX) || ++ (pfe->hif_client[client->id])) { ++ err = -EINVAL; ++ goto err; ++ } ++ ++ hif_shm = client->pfe->hif.shm; ++ ++ if (!client->event_handler) ++ client->event_handler = hif_lib_event_dummy; ++ ++ /*Initialize client specific shared memory */ ++ client_shm = (struct hif_client_shm *)&hif_shm->client[client->id]; ++ client_shm->rx_qbase = (unsigned long int)client->rx_qbase; ++ client_shm->rx_qsize = client->rx_qsize; ++ client_shm->tx_qbase = (unsigned long int)client->tx_qbase; ++ client_shm->tx_qsize = client->tx_qsize; ++ client_shm->ctrl = (client->tx_qn << CLIENT_CTRL_TX_Q_CNT_OFST) | ++ (client->rx_qn << CLIENT_CTRL_RX_Q_CNT_OFST); ++ /* spin_lock_init(&client->rx_lock); */ ++ ++ for (i = 0; i < HIF_EVENT_MAX; i++) { ++ client->queue_mask[i] = 0; /* ++ * By default all events are ++ * unmasked ++ */ ++ } ++ ++ /*Indicate to HIF driver*/ ++ hif_lib_indicate_hif(&pfe->hif, REQUEST_CL_REGISTER, client->id, 0); ++ ++ pr_debug("%s: client: %p, client_id: %d, tx_qsize: %d, rx_qsize: %d\n", ++ __func__, client, client->id, client->tx_qsize, ++ client->rx_qsize); ++ ++ client->cpu_id = -1; ++ ++ pfe->hif_client[client->id] = client; ++ spin_unlock_bh(&pfe->hif.lock); ++ ++ return 0; ++ ++err: ++ spin_unlock_bh(&pfe->hif.lock); ++ hif_lib_client_release_tx_buffers(client); ++ ++err_tx: ++ hif_lib_client_release_rx_buffers(client); ++ ++err_rx: ++ return err; ++} ++ ++int hif_lib_client_unregister(struct hif_client_s *client) ++{ ++ struct pfe *pfe = client->pfe; ++ u32 client_id = client->id; ++ ++ pr_info( ++ "%s : client: %p, client_id: %d, txQ_depth: %d, rxQ_depth: %d\n" ++ , __func__, client, client->id, client->tx_qsize, ++ client->rx_qsize); ++ ++ spin_lock_bh(&pfe->hif.lock); ++ hif_lib_indicate_hif(&pfe->hif, REQUEST_CL_UNREGISTER, client->id, 0); ++ ++ hif_lib_client_release_tx_buffers(client); ++ hif_lib_client_release_rx_buffers(client); ++ pfe->hif_client[client_id] = NULL; ++ spin_unlock_bh(&pfe->hif.lock); ++ ++ return 0; ++} ++ ++int hif_lib_event_handler_start(struct hif_client_s *client, int event, ++ int qno) ++{ ++ struct hif_client_rx_queue *queue = &client->rx_q[qno]; ++ struct rx_queue_desc *desc = queue->base + queue->read_idx; ++ ++ if ((event >= HIF_EVENT_MAX) || (qno >= HIF_CLIENT_QUEUES_MAX)) { ++ pr_debug("%s: Unsupported event : %d queue number : %d\n", ++ __func__, event, qno); ++ return -1; ++ } ++ ++ test_and_clear_bit(qno, &client->queue_mask[event]); ++ ++ switch (event) { ++ case EVENT_RX_PKT_IND: ++ if (!(desc->ctrl & CL_DESC_OWN)) ++ hif_lib_indicate_client(client->id, ++ EVENT_RX_PKT_IND, qno); ++ break; ++ ++ case EVENT_HIGH_RX_WM: ++ case EVENT_TXDONE_IND: ++ default: ++ break; ++ } ++ ++ return 0; ++} ++ ++/* ++ * This function gets one packet from the specified client queue ++ * It also refill the rx buffer ++ */ ++void *hif_lib_receive_pkt(struct hif_client_s *client, int qno, int *len, int ++ *ofst, unsigned int *rx_ctrl, ++ unsigned int *desc_ctrl, void **priv_data) ++{ ++ struct hif_client_rx_queue *queue = &client->rx_q[qno]; ++ struct rx_queue_desc *desc; ++ void *pkt = NULL; ++ ++ /* ++ * Following lock is to protect rx queue access from, ++ * hif_lib_event_handler_start. ++ * In general below lock is not required, because hif_lib_xmit_pkt and ++ * hif_lib_event_handler_start are called from napi poll and which is ++ * not re-entrant. But if some client use in different way this lock is ++ * required. ++ */ ++ /*spin_lock_irqsave(&client->rx_lock, flags); */ ++ desc = queue->base + queue->read_idx; ++ if (!(desc->ctrl & CL_DESC_OWN)) { ++ pkt = desc->data - pfe_pkt_headroom; ++ ++ *rx_ctrl = desc->client_ctrl; ++ *desc_ctrl = desc->ctrl; ++ ++ if (desc->ctrl & CL_DESC_FIRST) { ++ u16 size = *rx_ctrl >> HIF_CTRL_RX_OFFSET_OFST; ++ ++ if (size) { ++ size += PFE_PARSE_INFO_SIZE; ++ *len = CL_DESC_BUF_LEN(desc->ctrl) - ++ PFE_PKT_HEADER_SZ - size; ++ *ofst = pfe_pkt_headroom + PFE_PKT_HEADER_SZ ++ + size; ++ *priv_data = desc->data + PFE_PKT_HEADER_SZ; ++ } else { ++ *len = CL_DESC_BUF_LEN(desc->ctrl) - ++ PFE_PKT_HEADER_SZ - PFE_PARSE_INFO_SIZE; ++ *ofst = pfe_pkt_headroom ++ + PFE_PKT_HEADER_SZ ++ + PFE_PARSE_INFO_SIZE; ++ *priv_data = NULL; ++ } ++ ++ } else { ++ *len = CL_DESC_BUF_LEN(desc->ctrl); ++ *ofst = pfe_pkt_headroom; ++ } ++ ++ /* ++ * Needed so we don't free a buffer/page ++ * twice on module_exit ++ */ ++ desc->data = NULL; ++ ++ /* ++ * Ensure everything else is written to DDR before ++ * writing bd->ctrl ++ */ ++ smp_wmb(); ++ ++ desc->ctrl = CL_DESC_BUF_LEN(pfe_pkt_size) | CL_DESC_OWN; ++ queue->read_idx = (queue->read_idx + 1) & (queue->size - 1); ++ } ++ ++ /*spin_unlock_irqrestore(&client->rx_lock, flags); */ ++ return pkt; ++} ++ ++static inline void hif_hdr_write(struct hif_hdr *pkt_hdr, unsigned int ++ client_id, unsigned int qno, ++ u32 client_ctrl) ++{ ++ /* Optimize the write since the destinaton may be non-cacheable */ ++ if (!((unsigned long)pkt_hdr & 0x3)) { ++ ((u32 *)pkt_hdr)[0] = (client_ctrl << 16) | (qno << 8) | ++ client_id; ++ } else { ++ ((u16 *)pkt_hdr)[0] = (qno << 8) | (client_id & 0xFF); ++ ((u16 *)pkt_hdr)[1] = (client_ctrl & 0xFFFF); ++ } ++} ++ ++/*This function puts the given packet in the specific client queue */ ++void __hif_lib_xmit_pkt(struct hif_client_s *client, unsigned int qno, void ++ *data, unsigned int len, u32 client_ctrl, ++ unsigned int flags, void *client_data) ++{ ++ struct hif_client_tx_queue *queue = &client->tx_q[qno]; ++ struct tx_queue_desc *desc = queue->base + queue->write_idx; ++ ++ /* First buffer */ ++ if (flags & HIF_FIRST_BUFFER) { ++ data -= sizeof(struct hif_hdr); ++ len += sizeof(struct hif_hdr); ++ ++ hif_hdr_write(data, client->id, qno, client_ctrl); ++ } ++ ++ desc->data = client_data; ++ desc->ctrl = CL_DESC_OWN | CL_DESC_FLAGS(flags); ++ ++ __hif_xmit_pkt(&pfe->hif, client->id, qno, data, len, flags); ++ ++ queue->write_idx = (queue->write_idx + 1) & (queue->size - 1); ++ queue->tx_pending++; ++ queue->jiffies_last_packet = jiffies; ++} ++ ++void *hif_lib_tx_get_next_complete(struct hif_client_s *client, int qno, ++ unsigned int *flags, int count) ++{ ++ struct hif_client_tx_queue *queue = &client->tx_q[qno]; ++ struct tx_queue_desc *desc = queue->base + queue->read_idx; ++ ++ pr_debug("%s: qno : %d rd_indx: %d pending:%d\n", __func__, qno, ++ queue->read_idx, queue->tx_pending); ++ ++ if (!queue->tx_pending) ++ return NULL; ++ ++ if (queue->nocpy_flag && !queue->done_tmu_tx_pkts) { ++ u32 tmu_tx_pkts = be32_to_cpu(pe_dmem_read(TMU0_ID + ++ client->id, TMU_DM_TX_TRANS, 4)); ++ ++ if (queue->prev_tmu_tx_pkts > tmu_tx_pkts) ++ queue->done_tmu_tx_pkts = UINT_MAX - ++ queue->prev_tmu_tx_pkts + tmu_tx_pkts; ++ else ++ queue->done_tmu_tx_pkts = tmu_tx_pkts - ++ queue->prev_tmu_tx_pkts; ++ ++ queue->prev_tmu_tx_pkts = tmu_tx_pkts; ++ ++ if (!queue->done_tmu_tx_pkts) ++ return NULL; ++ } ++ ++ if (desc->ctrl & CL_DESC_OWN) ++ return NULL; ++ ++ queue->read_idx = (queue->read_idx + 1) & (queue->size - 1); ++ queue->tx_pending--; ++ ++ *flags = CL_DESC_GET_FLAGS(desc->ctrl); ++ ++ if (queue->done_tmu_tx_pkts && (*flags & HIF_LAST_BUFFER)) ++ queue->done_tmu_tx_pkts--; ++ ++ return desc->data; ++} ++ ++static void hif_lib_tmu_credit_init(struct pfe *pfe) ++{ ++ int i, q; ++ ++ for (i = 0; i < NUM_GEMAC_SUPPORT; i++) ++ for (q = 0; q < emac_txq_cnt; q++) { ++ pfe->tmu_credit.tx_credit_max[i][q] = (q == 0) ? ++ DEFAULT_Q0_QDEPTH : DEFAULT_MAX_QDEPTH; ++ pfe->tmu_credit.tx_credit[i][q] = ++ pfe->tmu_credit.tx_credit_max[i][q]; ++ } ++} ++ ++/* __hif_lib_update_credit ++ * ++ * @param[in] client hif client context ++ * @param[in] queue queue number in match with TMU ++ */ ++void __hif_lib_update_credit(struct hif_client_s *client, unsigned int queue) ++{ ++ unsigned int tmu_tx_packets, tmp; ++ ++ if (tx_qos) { ++ tmu_tx_packets = be32_to_cpu(pe_dmem_read(TMU0_ID + ++ client->id, (TMU_DM_TX_TRANS + (queue * 4)), 4)); ++ ++ /* tx_packets counter overflowed */ ++ if (tmu_tx_packets > ++ pfe->tmu_credit.tx_packets[client->id][queue]) { ++ tmp = UINT_MAX - tmu_tx_packets + ++ pfe->tmu_credit.tx_packets[client->id][queue]; ++ ++ pfe->tmu_credit.tx_credit[client->id][queue] = ++ pfe->tmu_credit.tx_credit_max[client->id][queue] - tmp; ++ } else { ++ /* TMU tx <= pfe_eth tx, normal case or both OF since ++ * last time ++ */ ++ pfe->tmu_credit.tx_credit[client->id][queue] = ++ pfe->tmu_credit.tx_credit_max[client->id][queue] - ++ (pfe->tmu_credit.tx_packets[client->id][queue] - ++ tmu_tx_packets); ++ } ++ } ++} ++ ++int pfe_hif_lib_init(struct pfe *pfe) ++{ ++ int rc; ++ ++ pr_info("%s\n", __func__); ++ ++ if (lro_mode) { ++ page_mode = 1; ++ pfe_pkt_size = min(PAGE_SIZE, MAX_PFE_PKT_SIZE); ++ pfe_pkt_headroom = 0; ++ } else { ++ page_mode = 0; ++ pfe_pkt_size = PFE_PKT_SIZE; ++ pfe_pkt_headroom = PFE_PKT_HEADROOM; ++ } ++ ++ if (tx_qos) ++ emac_txq_cnt = EMAC_TXQ_CNT / 2; ++ else ++ emac_txq_cnt = EMAC_TXQ_CNT; ++ ++ hif_lib_tmu_credit_init(pfe); ++ pfe->hif.shm = &ghif_shm; ++ rc = pfe_hif_shm_init(pfe->hif.shm); ++ ++ return rc; ++} ++ ++void pfe_hif_lib_exit(struct pfe *pfe) ++{ ++ pr_info("%s\n", __func__); ++ ++ pfe_hif_shm_clean(pfe->hif.shm); ++} +--- /dev/null ++++ b/drivers/staging/fsl_ppfe/pfe_hif_lib.h +@@ -0,0 +1,241 @@ ++/* ++ * Copyright 2015-2016 Freescale Semiconductor, Inc. ++ * Copyright 2017 NXP ++ * ++ * 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, see <http://www.gnu.org/licenses/>. ++ */ ++ ++#ifndef _PFE_HIF_LIB_H_ ++#define _PFE_HIF_LIB_H_ ++ ++#include "pfe_hif.h" ++ ++#define HIF_CL_REQ_TIMEOUT 10 ++#define GFP_DMA_PFE 0 ++#define PFE_PARSE_INFO_SIZE 16 ++ ++enum { ++ REQUEST_CL_REGISTER = 0, ++ REQUEST_CL_UNREGISTER, ++ HIF_REQUEST_MAX ++}; ++ ++enum { ++ /* Event to indicate that client rx queue is reached water mark level */ ++ EVENT_HIGH_RX_WM = 0, ++ /* Event to indicate that, packet received for client */ ++ EVENT_RX_PKT_IND, ++ /* Event to indicate that, packet tx done for client */ ++ EVENT_TXDONE_IND, ++ HIF_EVENT_MAX ++}; ++ ++/*structure to store client queue info */ ++ ++/*structure to store client queue info */ ++struct hif_client_rx_queue { ++ struct rx_queue_desc *base; ++ u32 size; ++ u32 read_idx; ++ u32 write_idx; ++}; ++ ++struct hif_client_tx_queue { ++ struct tx_queue_desc *base; ++ u32 size; ++ u32 read_idx; ++ u32 write_idx; ++ u32 tx_pending; ++ unsigned long jiffies_last_packet; ++ u32 nocpy_flag; ++ u32 prev_tmu_tx_pkts; ++ u32 done_tmu_tx_pkts; ++}; ++ ++struct hif_client_s { ++ int id; ++ int tx_qn; ++ int rx_qn; ++ void *rx_qbase; ++ void *tx_qbase; ++ int tx_qsize; ++ int rx_qsize; ++ int cpu_id; ++ struct hif_client_tx_queue tx_q[HIF_CLIENT_QUEUES_MAX]; ++ struct hif_client_rx_queue rx_q[HIF_CLIENT_QUEUES_MAX]; ++ int (*event_handler)(void *priv, int event, int data); ++ unsigned long queue_mask[HIF_EVENT_MAX]; ++ struct pfe *pfe; ++ void *priv; ++}; ++ ++/* ++ * Client specific shared memory ++ * It contains number of Rx/Tx queues, base addresses and queue sizes ++ */ ++struct hif_client_shm { ++ u32 ctrl; /*0-7: number of Rx queues, 8-15: number of tx queues */ ++ unsigned long rx_qbase; /*Rx queue base address */ ++ u32 rx_qsize; /*each Rx queue size, all Rx queues are of same size */ ++ unsigned long tx_qbase; /* Tx queue base address */ ++ u32 tx_qsize; /*each Tx queue size, all Tx queues are of same size */ ++}; ++ ++/*Client shared memory ctrl bit description */ ++#define CLIENT_CTRL_RX_Q_CNT_OFST 0 ++#define CLIENT_CTRL_TX_Q_CNT_OFST 8 ++#define CLIENT_CTRL_RX_Q_CNT(ctrl) (((ctrl) >> CLIENT_CTRL_RX_Q_CNT_OFST) \ ++ & 0xFF) ++#define CLIENT_CTRL_TX_Q_CNT(ctrl) (((ctrl) >> CLIENT_CTRL_TX_Q_CNT_OFST) \ ++ & 0xFF) ++ ++/* ++ * Shared memory used to communicate between HIF driver and host/client drivers ++ * Before starting the hif driver rx_buf_pool ans rx_buf_pool_cnt should be ++ * initialized with host buffers and buffers count in the pool. ++ * rx_buf_pool_cnt should be >= HIF_RX_DESC_NT. ++ * ++ */ ++struct hif_shm { ++ u32 rx_buf_pool_cnt; /*Number of rx buffers available*/ ++ /*Rx buffers required to initialize HIF rx descriptors */ ++ void *rx_buf_pool[HIF_RX_DESC_NT]; ++ unsigned long g_client_status[2]; /*Global client status bit mask */ ++ /* Client specific shared memory */ ++ struct hif_client_shm client[HIF_CLIENTS_MAX]; ++}; ++ ++#define CL_DESC_OWN BIT(31) ++/* This sets owner ship to HIF driver */ ++#define CL_DESC_LAST BIT(30) ++/* This indicates last packet for multi buffers handling */ ++#define CL_DESC_FIRST BIT(29) ++/* This indicates first packet for multi buffers handling */ ++ ++#define CL_DESC_BUF_LEN(x) ((x) & 0xFFFF) ++#define CL_DESC_FLAGS(x) (((x) & 0xF) << 16) ++#define CL_DESC_GET_FLAGS(x) (((x) >> 16) & 0xF) ++ ++struct rx_queue_desc { ++ void *data; ++ u32 ctrl; /*0-15bit len, 16-20bit flags, 31bit owner*/ ++ u32 client_ctrl; ++}; ++ ++struct tx_queue_desc { ++ void *data; ++ u32 ctrl; /*0-15bit len, 16-20bit flags, 31bit owner*/ ++}; ++ ++/* HIF Rx is not working properly for 2-byte aligned buffers and ++ * ip_header should be 4byte aligned for better iperformance. ++ * "ip_header = 64 + 6(hif_header) + 14 (MAC Header)" will be 4byte aligned. ++ */ ++#define PFE_PKT_HEADER_SZ sizeof(struct hif_hdr) ++/* must be big enough for headroom, pkt size and skb shared info */ ++#define PFE_BUF_SIZE 2048 ++#define PFE_PKT_HEADROOM 128 ++ ++#define SKB_SHARED_INFO_SIZE SKB_DATA_ALIGN(sizeof(struct skb_shared_info)) ++#define PFE_PKT_SIZE (PFE_BUF_SIZE - PFE_PKT_HEADROOM \ ++ - SKB_SHARED_INFO_SIZE) ++#define MAX_L2_HDR_SIZE 14 /* Not correct for VLAN/PPPoE */ ++#define MAX_L3_HDR_SIZE 20 /* Not correct for IPv6 */ ++#define MAX_L4_HDR_SIZE 60 /* TCP with maximum options */ ++#define MAX_HDR_SIZE (MAX_L2_HDR_SIZE + MAX_L3_HDR_SIZE \ ++ + MAX_L4_HDR_SIZE) ++/* Used in page mode to clamp packet size to the maximum supported by the hif ++ *hw interface (<16KiB) ++ */ ++#define MAX_PFE_PKT_SIZE 16380UL ++ ++extern unsigned int pfe_pkt_size; ++extern unsigned int pfe_pkt_headroom; ++extern unsigned int page_mode; ++extern unsigned int lro_mode; ++extern unsigned int tx_qos; ++extern unsigned int emac_txq_cnt; ++ ++int pfe_hif_lib_init(struct pfe *pfe); ++void pfe_hif_lib_exit(struct pfe *pfe); ++int hif_lib_client_register(struct hif_client_s *client); ++int hif_lib_client_unregister(struct hif_client_s *client); ++void __hif_lib_xmit_pkt(struct hif_client_s *client, unsigned int qno, void ++ *data, unsigned int len, u32 client_ctrl, ++ unsigned int flags, void *client_data); ++int hif_lib_xmit_pkt(struct hif_client_s *client, unsigned int qno, void *data, ++ unsigned int len, u32 client_ctrl, void *client_data); ++void hif_lib_indicate_client(int cl_id, int event, int data); ++int hif_lib_event_handler_start(struct hif_client_s *client, int event, int ++ data); ++int hif_lib_tmu_queue_start(struct hif_client_s *client, int qno); ++int hif_lib_tmu_queue_stop(struct hif_client_s *client, int qno); ++void *hif_lib_tx_get_next_complete(struct hif_client_s *client, int qno, ++ unsigned int *flags, int count); ++void *hif_lib_receive_pkt(struct hif_client_s *client, int qno, int *len, int ++ *ofst, unsigned int *rx_ctrl, ++ unsigned int *desc_ctrl, void **priv_data); ++void __hif_lib_update_credit(struct hif_client_s *client, unsigned int queue); ++void hif_lib_set_rx_cpu_affinity(struct hif_client_s *client, int cpu_id); ++void hif_lib_set_tx_queue_nocpy(struct hif_client_s *client, int qno, int ++ enable); ++static inline int hif_lib_tx_avail(struct hif_client_s *client, unsigned int ++ qno) ++{ ++ struct hif_client_tx_queue *queue = &client->tx_q[qno]; ++ ++ return (queue->size - queue->tx_pending); ++} ++ ++static inline int hif_lib_get_tx_wr_index(struct hif_client_s *client, unsigned ++ int qno) ++{ ++ struct hif_client_tx_queue *queue = &client->tx_q[qno]; ++ ++ return queue->write_idx; ++} ++ ++static inline int hif_lib_tx_pending(struct hif_client_s *client, unsigned int ++ qno) ++{ ++ struct hif_client_tx_queue *queue = &client->tx_q[qno]; ++ ++ return queue->tx_pending; ++} ++ ++#define hif_lib_tx_credit_avail(pfe, id, qno) \ ++ ((pfe)->tmu_credit.tx_credit[id][qno]) ++ ++#define hif_lib_tx_credit_max(pfe, id, qno) \ ++ ((pfe)->tmu_credit.tx_credit_max[id][qno]) ++ ++/* ++ * Test comment ++ */ ++#define hif_lib_tx_credit_use(pfe, id, qno, credit) \ ++ ({ typeof(pfe) pfe_ = pfe; \ ++ typeof(id) id_ = id; \ ++ typeof(qno) qno_ = qno_; \ ++ typeof(credit) credit_ = credit; \ ++ do { \ ++ if (tx_qos) { \ ++ (pfe_)->tmu_credit.tx_credit[id_][qno_]\ ++ -= credit_; \ ++ (pfe_)->tmu_credit.tx_packets[id_][qno_]\ ++ += credit_; \ ++ } \ ++ } while (0); \ ++ }) ++ ++#endif /* _PFE_HIF_LIB_H_ */ +--- /dev/null ++++ b/drivers/staging/fsl_ppfe/pfe_hw.c +@@ -0,0 +1,176 @@ ++/* ++ * Copyright 2015-2016 Freescale Semiconductor, Inc. ++ * Copyright 2017 NXP ++ * ++ * 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, see <http://www.gnu.org/licenses/>. ++ */ ++ ++#include "pfe_mod.h" ++#include "pfe_hw.h" ++ ++/* Functions to handle most of pfe hw register initialization */ ++int pfe_hw_init(struct pfe *pfe, int resume) ++{ ++ struct class_cfg class_cfg = { ++ .pe_sys_clk_ratio = PE_SYS_CLK_RATIO, ++ .route_table_baseaddr = pfe->ddr_phys_baseaddr + ++ ROUTE_TABLE_BASEADDR, ++ .route_table_hash_bits = ROUTE_TABLE_HASH_BITS, ++ }; ++ ++ struct tmu_cfg tmu_cfg = { ++ .pe_sys_clk_ratio = PE_SYS_CLK_RATIO, ++ .llm_base_addr = pfe->ddr_phys_baseaddr + TMU_LLM_BASEADDR, ++ .llm_queue_len = TMU_LLM_QUEUE_LEN, ++ }; ++ ++#if !defined(CONFIG_FSL_PPFE_UTIL_DISABLED) ++ struct util_cfg util_cfg = { ++ .pe_sys_clk_ratio = PE_SYS_CLK_RATIO, ++ }; ++#endif ++ ++ struct BMU_CFG bmu1_cfg = { ++ .baseaddr = CBUS_VIRT_TO_PFE(LMEM_BASE_ADDR + ++ BMU1_LMEM_BASEADDR), ++ .count = BMU1_BUF_COUNT, ++ .size = BMU1_BUF_SIZE, ++ .low_watermark = 10, ++ .high_watermark = 15, ++ }; ++ ++ struct BMU_CFG bmu2_cfg = { ++ .baseaddr = DDR_PHYS_TO_PFE(pfe->ddr_phys_baseaddr + ++ BMU2_DDR_BASEADDR), ++ .count = BMU2_BUF_COUNT, ++ .size = BMU2_BUF_SIZE, ++ .low_watermark = 250, ++ .high_watermark = 253, ++ }; ++ ++ struct gpi_cfg egpi1_cfg = { ++ .lmem_rtry_cnt = EGPI1_LMEM_RTRY_CNT, ++ .tmlf_txthres = EGPI1_TMLF_TXTHRES, ++ .aseq_len = EGPI1_ASEQ_LEN, ++ .mtip_pause_reg = CBUS_VIRT_TO_PFE(EMAC1_BASE_ADDR + ++ EMAC_TCNTRL_REG), ++ }; ++ ++ struct gpi_cfg egpi2_cfg = { ++ .lmem_rtry_cnt = EGPI2_LMEM_RTRY_CNT, ++ .tmlf_txthres = EGPI2_TMLF_TXTHRES, ++ .aseq_len = EGPI2_ASEQ_LEN, ++ .mtip_pause_reg = CBUS_VIRT_TO_PFE(EMAC2_BASE_ADDR + ++ EMAC_TCNTRL_REG), ++ }; ++ ++ struct gpi_cfg hgpi_cfg = { ++ .lmem_rtry_cnt = HGPI_LMEM_RTRY_CNT, ++ .tmlf_txthres = HGPI_TMLF_TXTHRES, ++ .aseq_len = HGPI_ASEQ_LEN, ++ .mtip_pause_reg = 0, ++ }; ++ ++ pr_info("%s\n", __func__); ++ ++#if !defined(LS1012A_PFE_RESET_WA) ++ /* LS1012A needs this to make PE work correctly */ ++ writel(0x3, CLASS_PE_SYS_CLK_RATIO); ++ writel(0x3, TMU_PE_SYS_CLK_RATIO); ++ writel(0x3, UTIL_PE_SYS_CLK_RATIO); ++ usleep_range(10, 20); ++#endif ++ ++ pr_info("CLASS version: %x\n", readl(CLASS_VERSION)); ++ pr_info("TMU version: %x\n", readl(TMU_VERSION)); ++ ++ pr_info("BMU1 version: %x\n", readl(BMU1_BASE_ADDR + ++ BMU_VERSION)); ++ pr_info("BMU2 version: %x\n", readl(BMU2_BASE_ADDR + ++ BMU_VERSION)); ++ ++ pr_info("EGPI1 version: %x\n", readl(EGPI1_BASE_ADDR + ++ GPI_VERSION)); ++ pr_info("EGPI2 version: %x\n", readl(EGPI2_BASE_ADDR + ++ GPI_VERSION)); ++ pr_info("HGPI version: %x\n", readl(HGPI_BASE_ADDR + ++ GPI_VERSION)); ++ ++ pr_info("HIF version: %x\n", readl(HIF_VERSION)); ++ pr_info("HIF NOPCY version: %x\n", readl(HIF_NOCPY_VERSION)); ++ ++#if !defined(CONFIG_FSL_PPFE_UTIL_DISABLED) ++ pr_info("UTIL version: %x\n", readl(UTIL_VERSION)); ++#endif ++ while (!(readl(TMU_CTRL) & ECC_MEM_INIT_DONE)) ++ ; ++ ++ hif_rx_disable(); ++ hif_tx_disable(); ++ ++ bmu_init(BMU1_BASE_ADDR, &bmu1_cfg); ++ ++ pr_info("bmu_init(1) done\n"); ++ ++ bmu_init(BMU2_BASE_ADDR, &bmu2_cfg); ++ ++ pr_info("bmu_init(2) done\n"); ++ ++ class_cfg.resume = resume ? 1 : 0; ++ ++ class_init(&class_cfg); ++ ++ pr_info("class_init() done\n"); ++ ++ tmu_init(&tmu_cfg); ++ ++ pr_info("tmu_init() done\n"); ++#if !defined(CONFIG_FSL_PPFE_UTIL_DISABLED) ++ util_init(&util_cfg); ++ ++ pr_info("util_init() done\n"); ++#endif ++ gpi_init(EGPI1_BASE_ADDR, &egpi1_cfg); ++ ++ pr_info("gpi_init(1) done\n"); ++ ++ gpi_init(EGPI2_BASE_ADDR, &egpi2_cfg); ++ ++ pr_info("gpi_init(2) done\n"); ++ ++ gpi_init(HGPI_BASE_ADDR, &hgpi_cfg); ++ ++ pr_info("gpi_init(hif) done\n"); ++ ++ bmu_enable(BMU1_BASE_ADDR); ++ ++ pr_info("bmu_enable(1) done\n"); ++ ++ bmu_enable(BMU2_BASE_ADDR); ++ ++ pr_info("bmu_enable(2) done\n"); ++ ++ return 0; ++} ++ ++void pfe_hw_exit(struct pfe *pfe) ++{ ++ pr_info("%s\n", __func__); ++ ++ bmu_disable(BMU1_BASE_ADDR); ++ bmu_reset(BMU1_BASE_ADDR); ++ ++ bmu_disable(BMU2_BASE_ADDR); ++ bmu_reset(BMU2_BASE_ADDR); ++} +--- /dev/null ++++ b/drivers/staging/fsl_ppfe/pfe_hw.h +@@ -0,0 +1,27 @@ ++/* ++ * Copyright 2015-2016 Freescale Semiconductor, Inc. ++ * Copyright 2017 NXP ++ * ++ * 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, see <http://www.gnu.org/licenses/>. ++ */ ++ ++#ifndef _PFE_HW_H_ ++#define _PFE_HW_H_ ++ ++#define PE_SYS_CLK_RATIO 1 /* SYS/AXI = 250MHz, HFE = 500MHz */ ++ ++int pfe_hw_init(struct pfe *pfe, int resume); ++void pfe_hw_exit(struct pfe *pfe); ++ ++#endif /* _PFE_HW_H_ */ +--- /dev/null ++++ b/drivers/staging/fsl_ppfe/pfe_ls1012a_platform.c +@@ -0,0 +1,385 @@ ++/* ++ * Copyright 2015-2016 Freescale Semiconductor, Inc. ++ * Copyright 2017 NXP ++ * ++ * 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, see <http://www.gnu.org/licenses/>. ++ */ ++ ++#include <linux/module.h> ++#include <linux/device.h> ++#include <linux/of_net.h> ++#include <linux/of_address.h> ++#include <linux/platform_device.h> ++#include <linux/slab.h> ++#include <linux/clk.h> ++#include <linux/mfd/syscon.h> ++#include <linux/regmap.h> ++ ++#include "pfe_mod.h" ++ ++struct ls1012a_pfe_platform_data pfe_platform_data; ++ ++static int pfe_get_gemac_if_proprties(struct device_node *parent, int port, int ++ if_cnt, ++ struct ls1012a_pfe_platform_data ++ *pdata) ++{ ++ struct device_node *gem = NULL, *phy = NULL; ++ int size; ++ int ii = 0, phy_id = 0; ++ const u32 *addr; ++ const void *mac_addr; ++ ++ for (ii = 0; ii < if_cnt; ii++) { ++ gem = of_get_next_child(parent, gem); ++ if (!gem) ++ goto err; ++ addr = of_get_property(gem, "reg", &size); ++ if (addr && (be32_to_cpup(addr) == port)) ++ break; ++ } ++ ++ if (ii >= if_cnt) { ++ pr_err("%s:%d Failed to find interface = %d\n", ++ __func__, __LINE__, if_cnt); ++ goto err; ++ } ++ ++ pdata->ls1012a_eth_pdata[port].gem_id = port; ++ ++ mac_addr = of_get_mac_address(gem); ++ ++ if (mac_addr) { ++ memcpy(pdata->ls1012a_eth_pdata[port].mac_addr, mac_addr, ++ ETH_ALEN); ++ } ++ ++ pdata->ls1012a_eth_pdata[port].mii_config = of_get_phy_mode(gem); ++ ++ if ((pdata->ls1012a_eth_pdata[port].mii_config) < 0) ++ pr_err("%s:%d Incorrect Phy mode....\n", __func__, ++ __LINE__); ++ ++ addr = of_get_property(gem, "fsl,gemac-bus-id", &size); ++ if (!addr) ++ pr_err("%s:%d Invalid gemac-bus-id....\n", __func__, ++ __LINE__); ++ else ++ pdata->ls1012a_eth_pdata[port].bus_id = be32_to_cpup(addr); ++ ++ addr = of_get_property(gem, "fsl,gemac-phy-id", &size); ++ if (!addr) { ++ pr_err("%s:%d Invalid gemac-phy-id....\n", __func__, ++ __LINE__); ++ } else { ++ phy_id = be32_to_cpup(addr); ++ pdata->ls1012a_eth_pdata[port].phy_id = phy_id; ++ pdata->ls1012a_mdio_pdata[0].phy_mask &= ~(1 << phy_id); ++ } ++ ++ addr = of_get_property(gem, "fsl,mdio-mux-val", &size); ++ if (!addr) ++ pr_err("%s: Invalid mdio-mux-val....\n", __func__); ++ else ++ phy_id = be32_to_cpup(addr); ++ pdata->ls1012a_eth_pdata[port].mdio_muxval = phy_id; ++ ++ if (pdata->ls1012a_eth_pdata[port].phy_id < 32) ++ pfe->mdio_muxval[pdata->ls1012a_eth_pdata[port].phy_id] = ++ pdata->ls1012a_eth_pdata[port].mdio_muxval; ++ ++ addr = of_get_property(gem, "fsl,pfe-phy-if-flags", &size); ++ if (!addr) ++ pr_err("%s:%d Invalid pfe-phy-if-flags....\n", ++ __func__, __LINE__); ++ else ++ pdata->ls1012a_eth_pdata[port].phy_flags = be32_to_cpup(addr); ++ ++ /* If PHY is enabled, read mdio properties */ ++ if (pdata->ls1012a_eth_pdata[port].phy_flags & GEMAC_NO_PHY) ++ goto done; ++ ++ phy = of_get_next_child(gem, NULL); ++ ++ addr = of_get_property(phy, "reg", &size); ++ ++ if (!addr) ++ pr_err("%s:%d Invalid phy enable flag....\n", ++ __func__, __LINE__); ++ else ++ pdata->ls1012a_mdio_pdata[port].enabled = be32_to_cpup(addr); ++ ++ pdata->ls1012a_mdio_pdata[port].irq[0] = PHY_POLL; ++ ++done: ++ ++ return 0; ++ ++err: ++ return -1; ++} ++ ++/* ++ * ++ * pfe_platform_probe - ++ * ++ * ++ */ ++static int pfe_platform_probe(struct platform_device *pdev) ++{ ++ struct resource res; ++ int ii, rc, interface_count = 0, size = 0; ++ const u32 *prop; ++ struct device_node *np; ++ struct clk *pfe_clk; ++ ++ np = pdev->dev.of_node; ++ ++ if (!np) { ++ pr_err("Invalid device node\n"); ++ return -EINVAL; ++ } ++ ++ pfe = kzalloc(sizeof(*pfe), GFP_KERNEL); ++ if (!pfe) { ++ rc = -ENOMEM; ++ goto err_alloc; ++ } ++ ++ platform_set_drvdata(pdev, pfe); ++ ++ dma_set_mask_and_coherent(&pdev->dev, DMA_BIT_MASK(32)); ++ ++ if (of_address_to_resource(np, 1, &res)) { ++ rc = -ENOMEM; ++ pr_err("failed to get ddr resource\n"); ++ goto err_ddr; ++ } ++ ++ pfe->ddr_phys_baseaddr = res.start; ++ pfe->ddr_size = resource_size(&res); ++ pfe->ddr_baseaddr = phys_to_virt(res.start); ++ ++ pfe->scfg = ++ syscon_regmap_lookup_by_phandle(pdev->dev.of_node, ++ "fsl,pfe-scfg"); ++ if (IS_ERR(pfe->scfg)) { ++ dev_err(&pdev->dev, "No syscfg phandle specified\n"); ++ return PTR_ERR(pfe->scfg); ++ } ++ ++ pfe->cbus_baseaddr = of_iomap(np, 0); ++ if (!pfe->cbus_baseaddr) { ++ rc = -ENOMEM; ++ pr_err("failed to get axi resource\n"); ++ goto err_axi; ++ } ++ ++ pfe->hif_irq = platform_get_irq(pdev, 0); ++ if (pfe->hif_irq < 0) { ++ pr_err("platform_get_irq for hif failed\n"); ++ rc = pfe->hif_irq; ++ goto err_hif_irq; ++ } ++ ++ pfe->wol_irq = platform_get_irq(pdev, 2); ++ if (pfe->wol_irq < 0) { ++ pr_err("platform_get_irq for WoL failed\n"); ++ rc = pfe->wol_irq; ++ goto err_hif_irq; ++ } ++ ++ /* Read interface count */ ++ prop = of_get_property(np, "fsl,pfe-num-interfaces", &size); ++ if (!prop) { ++ pr_err("Failed to read number of interfaces\n"); ++ rc = -ENXIO; ++ goto err_prop; ++ } ++ ++ interface_count = be32_to_cpup(prop); ++ if (interface_count <= 0) { ++ pr_err("No ethernet interface count : %d\n", ++ interface_count); ++ rc = -ENXIO; ++ goto err_prop; ++ } ++ ++ pfe_platform_data.ls1012a_mdio_pdata[0].phy_mask = 0xffffffff; ++ ++ for (ii = 0; ii < interface_count; ii++) { ++ pfe_get_gemac_if_proprties(np, ii, interface_count, ++ &pfe_platform_data); ++ } ++ ++ pfe->dev = &pdev->dev; ++ ++ pfe->dev->platform_data = &pfe_platform_data; ++ ++ /* declare WoL capabilities */ ++ device_init_wakeup(&pdev->dev, true); ++ ++ /* find the clocks */ ++ pfe_clk = devm_clk_get(pfe->dev, "pfe"); ++ if (IS_ERR(pfe_clk)) ++ return PTR_ERR(pfe_clk); ++ ++ /* PFE clock is (platform clock / 2) */ ++ /* save sys_clk value as KHz */ ++ pfe->ctrl.sys_clk = clk_get_rate(pfe_clk) / (2 * 1000); ++ ++ rc = pfe_probe(pfe); ++ if (rc < 0) ++ goto err_probe; ++ ++ return 0; ++ ++err_probe: ++err_prop: ++err_hif_irq: ++ iounmap(pfe->cbus_baseaddr); ++ ++err_axi: ++err_ddr: ++ platform_set_drvdata(pdev, NULL); ++ ++ kfree(pfe); ++ ++err_alloc: ++ return rc; ++} ++ ++/* ++ * pfe_platform_remove - ++ */ ++static int pfe_platform_remove(struct platform_device *pdev) ++{ ++ struct pfe *pfe = platform_get_drvdata(pdev); ++ int rc; ++ ++ pr_info("%s\n", __func__); ++ ++ rc = pfe_remove(pfe); ++ ++ iounmap(pfe->cbus_baseaddr); ++ ++ platform_set_drvdata(pdev, NULL); ++ ++ kfree(pfe); ++ ++ return rc; ++} ++ ++#ifdef CONFIG_PM ++#ifdef CONFIG_PM_SLEEP ++int pfe_platform_suspend(struct device *dev) ++{ ++ struct pfe *pfe = platform_get_drvdata(to_platform_device(dev)); ++ struct net_device *netdev; ++ int i; ++ ++ pfe->wake = 0; ++ ++ for (i = 0; i < (NUM_GEMAC_SUPPORT); i++) { ++ netdev = pfe->eth.eth_priv[i]->ndev; ++ ++ netif_device_detach(netdev); ++ ++ if (netif_running(netdev)) ++ if (pfe_eth_suspend(netdev)) ++ pfe->wake = 1; ++ } ++ ++ /* Shutdown PFE only if we're not waking up the system */ ++ if (!pfe->wake) { ++#if defined(LS1012A_PFE_RESET_WA) ++ pfe_hif_rx_idle(&pfe->hif); ++#endif ++ pfe_ctrl_suspend(&pfe->ctrl); ++ pfe_firmware_exit(pfe); ++ ++ pfe_hif_exit(pfe); ++ pfe_hif_lib_exit(pfe); ++ ++ pfe_hw_exit(pfe); ++ } ++ ++ return 0; ++} ++ ++static int pfe_platform_resume(struct device *dev) ++{ ++ struct pfe *pfe = platform_get_drvdata(to_platform_device(dev)); ++ struct net_device *netdev; ++ int i; ++ ++ if (!pfe->wake) { ++ pfe_hw_init(pfe, 1); ++ pfe_hif_lib_init(pfe); ++ pfe_hif_init(pfe); ++#if !defined(CONFIG_FSL_PPFE_UTIL_DISABLED) ++ util_enable(); ++#endif ++ tmu_enable(0xf); ++ class_enable(); ++ pfe_ctrl_resume(&pfe->ctrl); ++ } ++ ++ for (i = 0; i < (NUM_GEMAC_SUPPORT); i++) { ++ netdev = pfe->eth.eth_priv[i]->ndev; ++ ++ if (pfe->eth.eth_priv[i]->mii_bus) ++ pfe_eth_mdio_reset(pfe->eth.eth_priv[i]->mii_bus); ++ ++ if (netif_running(netdev)) ++ pfe_eth_resume(netdev); ++ ++ netif_device_attach(netdev); ++ } ++ return 0; ++} ++#else ++#define pfe_platform_suspend NULL ++#define pfe_platform_resume NULL ++#endif ++ ++static const struct dev_pm_ops pfe_platform_pm_ops = { ++ SET_SYSTEM_SLEEP_PM_OPS(pfe_platform_suspend, pfe_platform_resume) ++}; ++#endif ++ ++static const struct of_device_id pfe_match[] = { ++ { ++ .compatible = "fsl,pfe", ++ }, ++ {}, ++}; ++MODULE_DEVICE_TABLE(of, pfe_match); ++ ++static struct platform_driver pfe_platform_driver = { ++ .probe = pfe_platform_probe, ++ .remove = pfe_platform_remove, ++ .driver = { ++ .name = "pfe", ++ .of_match_table = pfe_match, ++#ifdef CONFIG_PM ++ .pm = &pfe_platform_pm_ops, ++#endif ++ }, ++}; ++ ++module_platform_driver(pfe_platform_driver); ++MODULE_LICENSE("GPL"); ++MODULE_DESCRIPTION("PFE Ethernet driver"); ++MODULE_AUTHOR("NXP DNCPE"); +--- /dev/null ++++ b/drivers/staging/fsl_ppfe/pfe_mod.c +@@ -0,0 +1,156 @@ ++/* ++ * Copyright 2015-2016 Freescale Semiconductor, Inc. ++ * Copyright 2017 NXP ++ * ++ * 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, see <http://www.gnu.org/licenses/>. ++ */ ++ ++#include <linux/dma-mapping.h> ++#include "pfe_mod.h" ++ ++unsigned int us; ++module_param(us, uint, 0444); ++MODULE_PARM_DESC(us, "0: module enabled for kernel networking (DEFAULT)\n" ++ "1: module enabled for userspace networking\n"); ++struct pfe *pfe; ++ ++/* ++ * pfe_probe - ++ */ ++int pfe_probe(struct pfe *pfe) ++{ ++ int rc; ++ ++ if (pfe->ddr_size < DDR_MAX_SIZE) { ++ pr_err("%s: required DDR memory (%x) above platform ddr memory (%x)\n", ++ __func__, (unsigned int)DDR_MAX_SIZE, pfe->ddr_size); ++ rc = -ENOMEM; ++ goto err_hw; ++ } ++ ++ if (((int)(pfe->ddr_phys_baseaddr + BMU2_DDR_BASEADDR) & ++ (8 * SZ_1M - 1)) != 0) { ++ pr_err("%s: BMU2 base address (0x%x) must be aligned on 8MB boundary\n", ++ __func__, (int)pfe->ddr_phys_baseaddr + ++ BMU2_DDR_BASEADDR); ++ rc = -ENOMEM; ++ goto err_hw; ++ } ++ ++ pr_info("cbus_baseaddr: %lx, ddr_baseaddr: %lx, ddr_phys_baseaddr: %lx, ddr_size: %x\n", ++ (unsigned long)pfe->cbus_baseaddr, ++ (unsigned long)pfe->ddr_baseaddr, ++ pfe->ddr_phys_baseaddr, pfe->ddr_size); ++ ++ pfe_lib_init(pfe->cbus_baseaddr, pfe->ddr_baseaddr, ++ pfe->ddr_phys_baseaddr, pfe->ddr_size); ++ ++ rc = pfe_hw_init(pfe, 0); ++ if (rc < 0) ++ goto err_hw; ++ ++ if (us) ++ goto firmware_init; ++ ++ rc = pfe_hif_lib_init(pfe); ++ if (rc < 0) ++ goto err_hif_lib; ++ ++ rc = pfe_hif_init(pfe); ++ if (rc < 0) ++ goto err_hif; ++ ++firmware_init: ++ rc = pfe_firmware_init(pfe); ++ if (rc < 0) ++ goto err_firmware; ++ ++ rc = pfe_ctrl_init(pfe); ++ if (rc < 0) ++ goto err_ctrl; ++ ++ rc = pfe_eth_init(pfe); ++ if (rc < 0) ++ goto err_eth; ++ ++ rc = pfe_sysfs_init(pfe); ++ if (rc < 0) ++ goto err_sysfs; ++ ++ rc = pfe_debugfs_init(pfe); ++ if (rc < 0) ++ goto err_debugfs; ++ ++ return 0; ++ ++err_debugfs: ++ pfe_sysfs_exit(pfe); ++ ++err_sysfs: ++ pfe_eth_exit(pfe); ++ ++err_eth: ++ pfe_ctrl_exit(pfe); ++ ++err_ctrl: ++ pfe_firmware_exit(pfe); ++ ++err_firmware: ++ if (us) ++ goto err_hif_lib; ++ ++ pfe_hif_exit(pfe); ++ ++err_hif: ++ pfe_hif_lib_exit(pfe); ++ ++err_hif_lib: ++ pfe_hw_exit(pfe); ++ ++err_hw: ++ return rc; ++} ++ ++/* ++ * pfe_remove - ++ */ ++int pfe_remove(struct pfe *pfe) ++{ ++ pr_info("%s\n", __func__); ++ ++ pfe_debugfs_exit(pfe); ++ ++ pfe_sysfs_exit(pfe); ++ ++ pfe_eth_exit(pfe); ++ ++ pfe_ctrl_exit(pfe); ++ ++#if defined(LS1012A_PFE_RESET_WA) ++ pfe_hif_rx_idle(&pfe->hif); ++#endif ++ pfe_firmware_exit(pfe); ++ ++ if (us) ++ goto hw_exit; ++ ++ pfe_hif_exit(pfe); ++ ++ pfe_hif_lib_exit(pfe); ++ ++hw_exit: ++ pfe_hw_exit(pfe); ++ ++ return 0; ++} +--- /dev/null ++++ b/drivers/staging/fsl_ppfe/pfe_mod.h +@@ -0,0 +1,114 @@ ++/* ++ * Copyright 2015-2016 Freescale Semiconductor, Inc. ++ * Copyright 2017 NXP ++ * ++ * 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, see <http://www.gnu.org/licenses/>. ++ */ ++ ++#ifndef _PFE_MOD_H_ ++#define _PFE_MOD_H_ ++ ++#include <linux/device.h> ++#include <linux/elf.h> ++ ++extern unsigned int us; ++ ++struct pfe; ++ ++#include "pfe_hw.h" ++#include "pfe_firmware.h" ++#include "pfe_ctrl.h" ++#include "pfe_hif.h" ++#include "pfe_hif_lib.h" ++#include "pfe_eth.h" ++#include "pfe_sysfs.h" ++#include "pfe_perfmon.h" ++#include "pfe_debugfs.h" ++ ++#define PHYID_MAX_VAL 32 ++ ++struct pfe_tmu_credit { ++ /* Number of allowed TX packet in-flight, matches TMU queue size */ ++ unsigned int tx_credit[NUM_GEMAC_SUPPORT][EMAC_TXQ_CNT]; ++ unsigned int tx_credit_max[NUM_GEMAC_SUPPORT][EMAC_TXQ_CNT]; ++ unsigned int tx_packets[NUM_GEMAC_SUPPORT][EMAC_TXQ_CNT]; ++}; ++ ++struct pfe { ++ struct regmap *scfg; ++ unsigned long ddr_phys_baseaddr; ++ void *ddr_baseaddr; ++ unsigned int ddr_size; ++ void *cbus_baseaddr; ++ void *apb_baseaddr; ++ unsigned long iram_phys_baseaddr; ++ void *iram_baseaddr; ++ unsigned long ipsec_phys_baseaddr; ++ void *ipsec_baseaddr; ++ int hif_irq; ++ int wol_irq; ++ int hif_client_irq; ++ struct device *dev; ++ struct dentry *dentry; ++ struct pfe_ctrl ctrl; ++ struct pfe_hif hif; ++ struct pfe_eth eth; ++ struct hif_client_s *hif_client[HIF_CLIENTS_MAX]; ++#if defined(CFG_DIAGS) ++ struct pfe_diags diags; ++#endif ++ struct pfe_tmu_credit tmu_credit; ++ struct pfe_cpumon cpumon; ++ struct pfe_memmon memmon; ++ int wake; ++ int mdio_muxval[PHYID_MAX_VAL]; ++ struct clk *hfe_clock; ++}; ++ ++extern struct pfe *pfe; ++ ++int pfe_probe(struct pfe *pfe); ++int pfe_remove(struct pfe *pfe); ++ ++/* DDR Mapping in reserved memory*/ ++#define ROUTE_TABLE_BASEADDR 0 ++#define ROUTE_TABLE_HASH_BITS 15 /* 32K entries */ ++#define ROUTE_TABLE_SIZE ((1 << ROUTE_TABLE_HASH_BITS) \ ++ * CLASS_ROUTE_SIZE) ++#define BMU2_DDR_BASEADDR (ROUTE_TABLE_BASEADDR + ROUTE_TABLE_SIZE) ++#define BMU2_BUF_COUNT (4096 - 256) ++/* This is to get a total DDR size of 12MiB */ ++#define BMU2_DDR_SIZE (DDR_BUF_SIZE * BMU2_BUF_COUNT) ++#define UTIL_CODE_BASEADDR (BMU2_DDR_BASEADDR + BMU2_DDR_SIZE) ++#define UTIL_CODE_SIZE (128 * SZ_1K) ++#define UTIL_DDR_DATA_BASEADDR (UTIL_CODE_BASEADDR + UTIL_CODE_SIZE) ++#define UTIL_DDR_DATA_SIZE (64 * SZ_1K) ++#define CLASS_DDR_DATA_BASEADDR (UTIL_DDR_DATA_BASEADDR + UTIL_DDR_DATA_SIZE) ++#define CLASS_DDR_DATA_SIZE (32 * SZ_1K) ++#define TMU_DDR_DATA_BASEADDR (CLASS_DDR_DATA_BASEADDR + CLASS_DDR_DATA_SIZE) ++#define TMU_DDR_DATA_SIZE (32 * SZ_1K) ++#define TMU_LLM_BASEADDR (TMU_DDR_DATA_BASEADDR + TMU_DDR_DATA_SIZE) ++#define TMU_LLM_QUEUE_LEN (8 * 512) ++/* Must be power of two and at least 16 * 8 = 128 bytes */ ++#define TMU_LLM_SIZE (4 * 16 * TMU_LLM_QUEUE_LEN) ++/* (4 TMU's x 16 queues x queue_len) */ ++ ++#define DDR_MAX_SIZE (TMU_LLM_BASEADDR + TMU_LLM_SIZE) ++ ++/* LMEM Mapping */ ++#define BMU1_LMEM_BASEADDR 0 ++#define BMU1_BUF_COUNT 256 ++#define BMU1_LMEM_SIZE (LMEM_BUF_SIZE * BMU1_BUF_COUNT) ++ ++#endif /* _PFE_MOD_H */ +--- /dev/null ++++ b/drivers/staging/fsl_ppfe/pfe_perfmon.h +@@ -0,0 +1,38 @@ ++/* ++ * Copyright 2015-2016 Freescale Semiconductor, Inc. ++ * Copyright 2017 NXP ++ * ++ * 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, see <http://www.gnu.org/licenses/>. ++ */ ++ ++#ifndef _PFE_PERFMON_H_ ++#define _PFE_PERFMON_H_ ++ ++#include "pfe/pfe.h" ++ ++#define CT_CPUMON_INTERVAL (1 * TIMER_TICKS_PER_SEC) ++ ++struct pfe_cpumon { ++ u32 cpu_usage_pct[MAX_PE]; ++ u32 class_usage_pct; ++}; ++ ++struct pfe_memmon { ++ u32 kernel_memory_allocated; ++}; ++ ++int pfe_perfmon_init(struct pfe *pfe); ++void pfe_perfmon_exit(struct pfe *pfe); ++ ++#endif /* _PFE_PERFMON_H_ */ +--- /dev/null ++++ b/drivers/staging/fsl_ppfe/pfe_sysfs.c +@@ -0,0 +1,818 @@ ++/* ++ * Copyright 2015-2016 Freescale Semiconductor, Inc. ++ * Copyright 2017 NXP ++ * ++ * 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, see <http://www.gnu.org/licenses/>. ++ */ ++ ++#include <linux/module.h> ++#include <linux/platform_device.h> ++ ++#include "pfe_mod.h" ++ ++#define PE_EXCEPTION_DUMP_ADDRESS 0x1fa8 ++#define NUM_QUEUES 16 ++ ++static char register_name[20][5] = { ++ "EPC", "ECAS", "EID", "ED", ++ "r0", "r1", "r2", "r3", ++ "r4", "r5", "r6", "r7", ++ "r8", "r9", "r10", "r11", ++ "r12", "r13", "r14", "r15", ++}; ++ ++static char exception_name[14][20] = { ++ "Reset", ++ "HardwareFailure", ++ "NMI", ++ "InstBreakpoint", ++ "DataBreakpoint", ++ "Unsupported", ++ "PrivilegeViolation", ++ "InstBusError", ++ "DataBusError", ++ "AlignmentError", ++ "ArithmeticError", ++ "SystemCall", ++ "MemoryManagement", ++ "Interrupt", ++}; ++ ++static unsigned long class_do_clear; ++static unsigned long tmu_do_clear; ++#if !defined(CONFIG_FSL_PPFE_UTIL_DISABLED) ++static unsigned long util_do_clear; ++#endif ++ ++static ssize_t display_pe_status(char *buf, int id, u32 dmem_addr, unsigned long ++ do_clear) ++{ ++ ssize_t len = 0; ++ u32 val; ++ char statebuf[5]; ++ struct pfe_cpumon *cpumon = &pfe->cpumon; ++ u32 debug_indicator; ++ u32 debug[20]; ++ ++ *(u32 *)statebuf = pe_dmem_read(id, dmem_addr, 4); ++ dmem_addr += 4; ++ ++ statebuf[4] = '\0'; ++ len += sprintf(buf + len, "state=%4s ", statebuf); ++ ++ val = pe_dmem_read(id, dmem_addr, 4); ++ dmem_addr += 4; ++ len += sprintf(buf + len, "ctr=%08x ", cpu_to_be32(val)); ++ ++ val = pe_dmem_read(id, dmem_addr, 4); ++ if (do_clear && val) ++ pe_dmem_write(id, 0, dmem_addr, 4); ++ dmem_addr += 4; ++ len += sprintf(buf + len, "rx=%u ", cpu_to_be32(val)); ++ ++ val = pe_dmem_read(id, dmem_addr, 4); ++ if (do_clear && val) ++ pe_dmem_write(id, 0, dmem_addr, 4); ++ dmem_addr += 4; ++ if (id >= TMU0_ID && id <= TMU_MAX_ID) ++ len += sprintf(buf + len, "qstatus=%x", cpu_to_be32(val)); ++ else ++ len += sprintf(buf + len, "tx=%u", cpu_to_be32(val)); ++ ++ val = pe_dmem_read(id, dmem_addr, 4); ++ if (do_clear && val) ++ pe_dmem_write(id, 0, dmem_addr, 4); ++ dmem_addr += 4; ++ if (val) ++ len += sprintf(buf + len, " drop=%u", cpu_to_be32(val)); ++ ++ len += sprintf(buf + len, " load=%d%%", cpumon->cpu_usage_pct[id]); ++ ++ len += sprintf(buf + len, "\n"); ++ ++ debug_indicator = pe_dmem_read(id, dmem_addr, 4); ++ dmem_addr += 4; ++ if (!strncmp((char *)&debug_indicator, "DBUG", 4)) { ++ int j, last = 0; ++ ++ for (j = 0; j < 16; j++) { ++ debug[j] = pe_dmem_read(id, dmem_addr, 4); ++ if (debug[j]) { ++ if (do_clear) ++ pe_dmem_write(id, 0, dmem_addr, 4); ++ last = j + 1; ++ } ++ dmem_addr += 4; ++ } ++ for (j = 0; j < last; j++) { ++ len += sprintf(buf + len, "%08x%s", ++ cpu_to_be32(debug[j]), ++ (j & 0x7) == 0x7 || j == last - 1 ? "\n" : " "); ++ } ++ } ++ ++ if (!strncmp(statebuf, "DEAD", 4)) { ++ u32 i, dump = PE_EXCEPTION_DUMP_ADDRESS; ++ ++ len += sprintf(buf + len, "Exception details:\n"); ++ for (i = 0; i < 20; i++) { ++ debug[i] = pe_dmem_read(id, dump, 4); ++ dump += 4; ++ if (i == 2) ++ len += sprintf(buf + len, "%4s = %08x (=%s) ", ++ register_name[i], cpu_to_be32(debug[i]), ++ exception_name[min((u32) ++ cpu_to_be32(debug[i]), (u32)13)]); ++ else ++ len += sprintf(buf + len, "%4s = %08x%s", ++ register_name[i], cpu_to_be32(debug[i]), ++ (i & 0x3) == 0x3 || i == 19 ? "\n" : " "); ++ } ++ } ++ ++ return len; ++} ++ ++static ssize_t class_phy_stats(char *buf, int phy) ++{ ++ ssize_t len = 0; ++ int off1 = phy * 0x28; ++ int off2 = phy * 0x10; ++ ++ if (phy == 3) ++ off1 = CLASS_PHY4_RX_PKTS - CLASS_PHY1_RX_PKTS; ++ ++ len += sprintf(buf + len, "phy: %d\n", phy); ++ len += sprintf(buf + len, ++ " rx: %10u, tx: %10u, intf: %10u, ipv4: %10u, ipv6: %10u\n", ++ readl(CLASS_PHY1_RX_PKTS + off1), ++ readl(CLASS_PHY1_TX_PKTS + off1), ++ readl(CLASS_PHY1_INTF_MATCH_PKTS + off1), ++ readl(CLASS_PHY1_V4_PKTS + off1), ++ readl(CLASS_PHY1_V6_PKTS + off1)); ++ ++ len += sprintf(buf + len, ++ " icmp: %10u, igmp: %10u, tcp: %10u, udp: %10u\n", ++ readl(CLASS_PHY1_ICMP_PKTS + off2), ++ readl(CLASS_PHY1_IGMP_PKTS + off2), ++ readl(CLASS_PHY1_TCP_PKTS + off2), ++ readl(CLASS_PHY1_UDP_PKTS + off2)); ++ ++ len += sprintf(buf + len, " err\n"); ++ len += sprintf(buf + len, ++ " lp: %10u, intf: %10u, l3: %10u, chcksum: %10u, ttl: %10u\n", ++ readl(CLASS_PHY1_LP_FAIL_PKTS + off1), ++ readl(CLASS_PHY1_INTF_FAIL_PKTS + off1), ++ readl(CLASS_PHY1_L3_FAIL_PKTS + off1), ++ readl(CLASS_PHY1_CHKSUM_ERR_PKTS + off1), ++ readl(CLASS_PHY1_TTL_ERR_PKTS + off1)); ++ ++ return len; ++} ++ ++/* qm_read_drop_stat ++ * This function is used to read the drop statistics from the TMU ++ * hw drop counter. Since the hw counter is always cleared afer ++ * reading, this function maintains the previous drop count, and ++ * adds the new value to it. That value can be retrieved by ++ * passing a pointer to it with the total_drops arg. ++ * ++ * @param tmu TMU number (0 - 3) ++ * @param queue queue number (0 - 15) ++ * @param total_drops pointer to location to store total drops (or NULL) ++ * @param do_reset if TRUE, clear total drops after updating ++ */ ++u32 qm_read_drop_stat(u32 tmu, u32 queue, u32 *total_drops, int do_reset) ++{ ++ static u32 qtotal[TMU_MAX_ID + 1][NUM_QUEUES]; ++ u32 val; ++ ++ writel((tmu << 8) | queue, TMU_TEQ_CTRL); ++ writel((tmu << 8) | queue, TMU_LLM_CTRL); ++ val = readl(TMU_TEQ_DROP_STAT); ++ qtotal[tmu][queue] += val; ++ if (total_drops) ++ *total_drops = qtotal[tmu][queue]; ++ if (do_reset) ++ qtotal[tmu][queue] = 0; ++ return val; ++} ++ ++static ssize_t tmu_queue_stats(char *buf, int tmu, int queue) ++{ ++ ssize_t len = 0; ++ u32 drops; ++ ++ len += sprintf(buf + len, "%d-%02d, ", tmu, queue); ++ ++ drops = qm_read_drop_stat(tmu, queue, NULL, 0); ++ ++ /* Select queue */ ++ writel((tmu << 8) | queue, TMU_TEQ_CTRL); ++ writel((tmu << 8) | queue, TMU_LLM_CTRL); ++ ++ len += sprintf(buf + len, ++ "(teq) drop: %10u, tx: %10u (llm) head: %08x, tail: %08x, drop: %10u\n", ++ drops, readl(TMU_TEQ_TRANS_STAT), ++ readl(TMU_LLM_QUE_HEADPTR), readl(TMU_LLM_QUE_TAILPTR), ++ readl(TMU_LLM_QUE_DROPCNT)); ++ ++ return len; ++} ++ ++static ssize_t tmu_queues(char *buf, int tmu) ++{ ++ ssize_t len = 0; ++ int queue; ++ ++ for (queue = 0; queue < 16; queue++) ++ len += tmu_queue_stats(buf + len, tmu, queue); ++ ++ return len; ++} ++ ++static ssize_t block_version(char *buf, void *addr) ++{ ++ ssize_t len = 0; ++ u32 val; ++ ++ val = readl(addr); ++ len += sprintf(buf + len, "revision: %x, version: %x, id: %x\n", ++ (val >> 24) & 0xff, (val >> 16) & 0xff, val & 0xffff); ++ ++ return len; ++} ++ ++static ssize_t bmu(char *buf, int id, void *base) ++{ ++ ssize_t len = 0; ++ ++ len += sprintf(buf + len, "%s: %d\n ", __func__, id); ++ ++ len += block_version(buf + len, base + BMU_VERSION); ++ ++ len += sprintf(buf + len, " buf size: %x\n", (1 << readl(base + ++ BMU_BUF_SIZE))); ++ len += sprintf(buf + len, " buf count: %x\n", readl(base + ++ BMU_BUF_CNT)); ++ len += sprintf(buf + len, " buf rem: %x\n", readl(base + ++ BMU_REM_BUF_CNT)); ++ len += sprintf(buf + len, " buf curr: %x\n", readl(base + ++ BMU_CURR_BUF_CNT)); ++ len += sprintf(buf + len, " free err: %x\n", readl(base + ++ BMU_FREE_ERR_ADDR)); ++ ++ return len; ++} ++ ++static ssize_t gpi(char *buf, int id, void *base) ++{ ++ ssize_t len = 0; ++ u32 val; ++ ++ len += sprintf(buf + len, "%s%d:\n ", __func__, id); ++ len += block_version(buf + len, base + GPI_VERSION); ++ ++ len += sprintf(buf + len, " tx under stick: %x\n", readl(base + ++ GPI_FIFO_STATUS)); ++ val = readl(base + GPI_FIFO_DEBUG); ++ len += sprintf(buf + len, " tx pkts: %x\n", (val >> 23) & ++ 0x3f); ++ len += sprintf(buf + len, " rx pkts: %x\n", (val >> 18) & ++ 0x3f); ++ len += sprintf(buf + len, " tx bytes: %x\n", (val >> 9) & ++ 0x1ff); ++ len += sprintf(buf + len, " rx bytes: %x\n", (val >> 0) & ++ 0x1ff); ++ len += sprintf(buf + len, " overrun: %x\n", readl(base + ++ GPI_OVERRUN_DROPCNT)); ++ ++ return len; ++} ++ ++static ssize_t pfe_set_class(struct device *dev, struct device_attribute *attr, ++ const char *buf, size_t count) ++{ ++ class_do_clear = kstrtoul(buf, 0, 0); ++ return count; ++} ++ ++static ssize_t pfe_show_class(struct device *dev, struct device_attribute *attr, ++ char *buf) ++{ ++ ssize_t len = 0; ++ int id; ++ u32 val; ++ struct pfe_cpumon *cpumon = &pfe->cpumon; ++ ++ len += block_version(buf + len, CLASS_VERSION); ++ ++ for (id = CLASS0_ID; id <= CLASS_MAX_ID; id++) { ++ len += sprintf(buf + len, "%d: ", id - CLASS0_ID); ++ ++ val = readl(CLASS_PE0_DEBUG + id * 4); ++ len += sprintf(buf + len, "pc=1%04x ", val & 0xffff); ++ ++ len += display_pe_status(buf + len, id, CLASS_DM_PESTATUS, ++ class_do_clear); ++ } ++ len += sprintf(buf + len, "aggregate load=%d%%\n\n", ++ cpumon->class_usage_pct); ++ ++ len += sprintf(buf + len, "pe status: 0x%x\n", ++ readl(CLASS_PE_STATUS)); ++ len += sprintf(buf + len, "max buf cnt: 0x%x afull thres: 0x%x\n", ++ readl(CLASS_MAX_BUF_CNT), readl(CLASS_AFULL_THRES)); ++ len += sprintf(buf + len, "tsq max cnt: 0x%x tsq fifo thres: 0x%x\n", ++ readl(CLASS_TSQ_MAX_CNT), readl(CLASS_TSQ_FIFO_THRES)); ++ len += sprintf(buf + len, "state: 0x%x\n", readl(CLASS_STATE)); ++ ++ len += class_phy_stats(buf + len, 0); ++ len += class_phy_stats(buf + len, 1); ++ len += class_phy_stats(buf + len, 2); ++ len += class_phy_stats(buf + len, 3); ++ ++ return len; ++} ++ ++static ssize_t pfe_set_tmu(struct device *dev, struct device_attribute *attr, ++ const char *buf, size_t count) ++{ ++ tmu_do_clear = kstrtoul(buf, 0, 0); ++ return count; ++} ++ ++static ssize_t pfe_show_tmu(struct device *dev, struct device_attribute *attr, ++ char *buf) ++{ ++ ssize_t len = 0; ++ int id; ++ u32 val; ++ ++ len += block_version(buf + len, TMU_VERSION); ++ ++ for (id = TMU0_ID; id <= TMU_MAX_ID; id++) { ++ if (id == TMU2_ID) ++ continue; ++ len += sprintf(buf + len, "%d: ", id - TMU0_ID); ++ ++ len += display_pe_status(buf + len, id, TMU_DM_PESTATUS, ++ tmu_do_clear); ++ } ++ ++ len += sprintf(buf + len, "pe status: %x\n", readl(TMU_PE_STATUS)); ++ len += sprintf(buf + len, "inq fifo cnt: %x\n", ++ readl(TMU_PHY_INQ_FIFO_CNT)); ++ val = readl(TMU_INQ_STAT); ++ len += sprintf(buf + len, "inq wr ptr: %x\n", val & 0x3ff); ++ len += sprintf(buf + len, "inq rd ptr: %x\n", val >> 10); ++ ++ return len; ++} ++ ++static unsigned long drops_do_clear; ++static u32 class_drop_counter[CLASS_NUM_DROP_COUNTERS]; ++#if !defined(CONFIG_FSL_PPFE_UTIL_DISABLED) ++static u32 util_drop_counter[UTIL_NUM_DROP_COUNTERS]; ++#endif ++ ++char *class_drop_description[CLASS_NUM_DROP_COUNTERS] = { ++ "ICC", ++ "Host Pkt Error", ++ "Rx Error", ++ "IPsec Outbound", ++ "IPsec Inbound", ++ "EXPT IPsec Error", ++ "Reassembly", ++ "Fragmenter", ++ "NAT-T", ++ "Socket", ++ "Multicast", ++ "NAT-PT", ++ "Tx Disabled", ++}; ++ ++#if !defined(CONFIG_FSL_PPFE_UTIL_DISABLED) ++char *util_drop_description[UTIL_NUM_DROP_COUNTERS] = { ++ "IPsec Outbound", ++ "IPsec Inbound", ++ "IPsec Rate Limiter", ++ "Fragmenter", ++ "Socket", ++ "Tx Disabled", ++ "Rx Error", ++}; ++#endif ++ ++static ssize_t pfe_set_drops(struct device *dev, struct device_attribute *attr, ++ const char *buf, size_t count) ++{ ++ drops_do_clear = kstrtoul(buf, 0, 0); ++ return count; ++} ++ ++static u32 tmu_drops[4][16]; ++static ssize_t pfe_show_drops(struct device *dev, struct device_attribute *attr, ++ char *buf) ++{ ++ ssize_t len = 0; ++ int id, dropnum; ++ int tmu, queue; ++ u32 val; ++ u32 dmem_addr; ++ int num_class_drops = 0, num_tmu_drops = 0, num_util_drops = 0; ++ struct pfe_ctrl *ctrl = &pfe->ctrl; ++ ++ memset(class_drop_counter, 0, sizeof(class_drop_counter)); ++ for (id = CLASS0_ID; id <= CLASS_MAX_ID; id++) { ++ if (drops_do_clear) ++ pe_sync_stop(ctrl, (1 << id)); ++ for (dropnum = 0; dropnum < CLASS_NUM_DROP_COUNTERS; ++ dropnum++) { ++ dmem_addr = CLASS_DM_DROP_CNTR; ++ val = be32_to_cpu(pe_dmem_read(id, dmem_addr, 4)); ++ class_drop_counter[dropnum] += val; ++ num_class_drops += val; ++ if (drops_do_clear) ++ pe_dmem_write(id, 0, dmem_addr, 4); ++ } ++ if (drops_do_clear) ++ pe_start(ctrl, (1 << id)); ++ } ++ ++#if !defined(CONFIG_FSL_PPFE_UTIL_DISABLED) ++ if (drops_do_clear) ++ pe_sync_stop(ctrl, (1 << UTIL_ID)); ++ for (dropnum = 0; dropnum < UTIL_NUM_DROP_COUNTERS; dropnum++) { ++ dmem_addr = UTIL_DM_DROP_CNTR; ++ val = be32_to_cpu(pe_dmem_read(UTIL_ID, dmem_addr, 4)); ++ util_drop_counter[dropnum] = val; ++ num_util_drops += val; ++ if (drops_do_clear) ++ pe_dmem_write(UTIL_ID, 0, dmem_addr, 4); ++ } ++ if (drops_do_clear) ++ pe_start(ctrl, (1 << UTIL_ID)); ++#endif ++ for (tmu = 0; tmu < 4; tmu++) { ++ for (queue = 0; queue < 16; queue++) { ++ qm_read_drop_stat(tmu, queue, &tmu_drops[tmu][queue], ++ drops_do_clear); ++ num_tmu_drops += tmu_drops[tmu][queue]; ++ } ++ } ++ ++ if (num_class_drops == 0 && num_util_drops == 0 && num_tmu_drops == 0) ++ len += sprintf(buf + len, "No PE drops\n\n"); ++ ++ if (num_class_drops > 0) { ++ len += sprintf(buf + len, "Class PE drops --\n"); ++ for (dropnum = 0; dropnum < CLASS_NUM_DROP_COUNTERS; ++ dropnum++) { ++ if (class_drop_counter[dropnum] > 0) ++ len += sprintf(buf + len, " %s: %d\n", ++ class_drop_description[dropnum], ++ class_drop_counter[dropnum]); ++ } ++ len += sprintf(buf + len, "\n"); ++ } ++ ++#if !defined(CONFIG_FSL_PPFE_UTIL_DISABLED) ++ if (num_util_drops > 0) { ++ len += sprintf(buf + len, "Util PE drops --\n"); ++ for (dropnum = 0; dropnum < UTIL_NUM_DROP_COUNTERS; dropnum++) { ++ if (util_drop_counter[dropnum] > 0) ++ len += sprintf(buf + len, " %s: %d\n", ++ util_drop_description[dropnum], ++ util_drop_counter[dropnum]); ++ } ++ len += sprintf(buf + len, "\n"); ++ } ++#endif ++ if (num_tmu_drops > 0) { ++ len += sprintf(buf + len, "TMU drops --\n"); ++ for (tmu = 0; tmu < 4; tmu++) { ++ for (queue = 0; queue < 16; queue++) { ++ if (tmu_drops[tmu][queue] > 0) ++ len += sprintf(buf + len, ++ " TMU%d-Q%d: %d\n" ++ , tmu, queue, tmu_drops[tmu][queue]); ++ } ++ } ++ len += sprintf(buf + len, "\n"); ++ } ++ ++ return len; ++} ++ ++static ssize_t pfe_show_tmu0_queues(struct device *dev, struct device_attribute ++ *attr, char *buf) ++{ ++ return tmu_queues(buf, 0); ++} ++ ++static ssize_t pfe_show_tmu1_queues(struct device *dev, struct device_attribute ++ *attr, char *buf) ++{ ++ return tmu_queues(buf, 1); ++} ++ ++static ssize_t pfe_show_tmu2_queues(struct device *dev, struct device_attribute ++ *attr, char *buf) ++{ ++ return tmu_queues(buf, 2); ++} ++ ++static ssize_t pfe_show_tmu3_queues(struct device *dev, struct device_attribute ++ *attr, char *buf) ++{ ++ return tmu_queues(buf, 3); ++} ++ ++#if !defined(CONFIG_FSL_PPFE_UTIL_DISABLED) ++static ssize_t pfe_set_util(struct device *dev, struct device_attribute *attr, ++ const char *buf, size_t count) ++{ ++ util_do_clear = kstrtoul(buf, NULL, 0); ++ return count; ++} ++ ++static ssize_t pfe_show_util(struct device *dev, struct device_attribute *attr, ++ char *buf) ++{ ++ ssize_t len = 0; ++ struct pfe_ctrl *ctrl = &pfe->ctrl; ++ ++ len += block_version(buf + len, UTIL_VERSION); ++ ++ pe_sync_stop(ctrl, (1 << UTIL_ID)); ++ len += display_pe_status(buf + len, UTIL_ID, UTIL_DM_PESTATUS, ++ util_do_clear); ++ pe_start(ctrl, (1 << UTIL_ID)); ++ ++ len += sprintf(buf + len, "pe status: %x\n", readl(UTIL_PE_STATUS)); ++ len += sprintf(buf + len, "max buf cnt: %x\n", ++ readl(UTIL_MAX_BUF_CNT)); ++ len += sprintf(buf + len, "tsq max cnt: %x\n", ++ readl(UTIL_TSQ_MAX_CNT)); ++ ++ return len; ++} ++#endif ++ ++static ssize_t pfe_show_bmu(struct device *dev, struct device_attribute *attr, ++ char *buf) ++{ ++ ssize_t len = 0; ++ ++ len += bmu(buf + len, 1, BMU1_BASE_ADDR); ++ len += bmu(buf + len, 2, BMU2_BASE_ADDR); ++ ++ return len; ++} ++ ++static ssize_t pfe_show_hif(struct device *dev, struct device_attribute *attr, ++ char *buf) ++{ ++ ssize_t len = 0; ++ ++ len += sprintf(buf + len, "hif:\n "); ++ len += block_version(buf + len, HIF_VERSION); ++ ++ len += sprintf(buf + len, " tx curr bd: %x\n", ++ readl(HIF_TX_CURR_BD_ADDR)); ++ len += sprintf(buf + len, " tx status: %x\n", ++ readl(HIF_TX_STATUS)); ++ len += sprintf(buf + len, " tx dma status: %x\n", ++ readl(HIF_TX_DMA_STATUS)); ++ ++ len += sprintf(buf + len, " rx curr bd: %x\n", ++ readl(HIF_RX_CURR_BD_ADDR)); ++ len += sprintf(buf + len, " rx status: %x\n", ++ readl(HIF_RX_STATUS)); ++ len += sprintf(buf + len, " rx dma status: %x\n", ++ readl(HIF_RX_DMA_STATUS)); ++ ++ len += sprintf(buf + len, "hif nocopy:\n "); ++ len += block_version(buf + len, HIF_NOCPY_VERSION); ++ ++ len += sprintf(buf + len, " tx curr bd: %x\n", ++ readl(HIF_NOCPY_TX_CURR_BD_ADDR)); ++ len += sprintf(buf + len, " tx status: %x\n", ++ readl(HIF_NOCPY_TX_STATUS)); ++ len += sprintf(buf + len, " tx dma status: %x\n", ++ readl(HIF_NOCPY_TX_DMA_STATUS)); ++ ++ len += sprintf(buf + len, " rx curr bd: %x\n", ++ readl(HIF_NOCPY_RX_CURR_BD_ADDR)); ++ len += sprintf(buf + len, " rx status: %x\n", ++ readl(HIF_NOCPY_RX_STATUS)); ++ len += sprintf(buf + len, " rx dma status: %x\n", ++ readl(HIF_NOCPY_RX_DMA_STATUS)); ++ ++ return len; ++} ++ ++static ssize_t pfe_show_gpi(struct device *dev, struct device_attribute *attr, ++ char *buf) ++{ ++ ssize_t len = 0; ++ ++ len += gpi(buf + len, 0, EGPI1_BASE_ADDR); ++ len += gpi(buf + len, 1, EGPI2_BASE_ADDR); ++ len += gpi(buf + len, 3, HGPI_BASE_ADDR); ++ ++ return len; ++} ++ ++static ssize_t pfe_show_pfemem(struct device *dev, struct device_attribute ++ *attr, char *buf) ++{ ++ ssize_t len = 0; ++ struct pfe_memmon *memmon = &pfe->memmon; ++ ++ len += sprintf(buf + len, "Kernel Memory: %d Bytes (%d KB)\n", ++ memmon->kernel_memory_allocated, ++ (memmon->kernel_memory_allocated + 1023) / 1024); ++ ++ return len; ++} ++ ++#ifdef HIF_NAPI_STATS ++static ssize_t pfe_show_hif_napi_stats(struct device *dev, ++ struct device_attribute *attr, ++ char *buf) ++{ ++ struct platform_device *pdev = to_platform_device(dev); ++ struct pfe *pfe = platform_get_drvdata(pdev); ++ ssize_t len = 0; ++ ++ len += sprintf(buf + len, "sched: %u\n", ++ pfe->hif.napi_counters[NAPI_SCHED_COUNT]); ++ len += sprintf(buf + len, "poll: %u\n", ++ pfe->hif.napi_counters[NAPI_POLL_COUNT]); ++ len += sprintf(buf + len, "packet: %u\n", ++ pfe->hif.napi_counters[NAPI_PACKET_COUNT]); ++ len += sprintf(buf + len, "budget: %u\n", ++ pfe->hif.napi_counters[NAPI_FULL_BUDGET_COUNT]); ++ len += sprintf(buf + len, "desc: %u\n", ++ pfe->hif.napi_counters[NAPI_DESC_COUNT]); ++ len += sprintf(buf + len, "full: %u\n", ++ pfe->hif.napi_counters[NAPI_CLIENT_FULL_COUNT]); ++ ++ return len; ++} ++ ++static ssize_t pfe_set_hif_napi_stats(struct device *dev, ++ struct device_attribute *attr, ++ const char *buf, size_t count) ++{ ++ struct platform_device *pdev = to_platform_device(dev); ++ struct pfe *pfe = platform_get_drvdata(pdev); ++ ++ memset(pfe->hif.napi_counters, 0, sizeof(pfe->hif.napi_counters)); ++ ++ return count; ++} ++ ++static DEVICE_ATTR(hif_napi_stats, 0644, pfe_show_hif_napi_stats, ++ pfe_set_hif_napi_stats); ++#endif ++ ++static DEVICE_ATTR(class, 0644, pfe_show_class, pfe_set_class); ++static DEVICE_ATTR(tmu, 0644, pfe_show_tmu, pfe_set_tmu); ++#if !defined(CONFIG_FSL_PPFE_UTIL_DISABLED) ++static DEVICE_ATTR(util, 0644, pfe_show_util, pfe_set_util); ++#endif ++static DEVICE_ATTR(bmu, 0444, pfe_show_bmu, NULL); ++static DEVICE_ATTR(hif, 0444, pfe_show_hif, NULL); ++static DEVICE_ATTR(gpi, 0444, pfe_show_gpi, NULL); ++static DEVICE_ATTR(drops, 0644, pfe_show_drops, pfe_set_drops); ++static DEVICE_ATTR(tmu0_queues, 0444, pfe_show_tmu0_queues, NULL); ++static DEVICE_ATTR(tmu1_queues, 0444, pfe_show_tmu1_queues, NULL); ++static DEVICE_ATTR(tmu2_queues, 0444, pfe_show_tmu2_queues, NULL); ++static DEVICE_ATTR(tmu3_queues, 0444, pfe_show_tmu3_queues, NULL); ++static DEVICE_ATTR(pfemem, 0444, pfe_show_pfemem, NULL); ++ ++int pfe_sysfs_init(struct pfe *pfe) ++{ ++ if (device_create_file(pfe->dev, &dev_attr_class)) ++ goto err_class; ++ ++ if (device_create_file(pfe->dev, &dev_attr_tmu)) ++ goto err_tmu; ++ ++#if !defined(CONFIG_FSL_PPFE_UTIL_DISABLED) ++ if (device_create_file(pfe->dev, &dev_attr_util)) ++ goto err_util; ++#endif ++ ++ if (device_create_file(pfe->dev, &dev_attr_bmu)) ++ goto err_bmu; ++ ++ if (device_create_file(pfe->dev, &dev_attr_hif)) ++ goto err_hif; ++ ++ if (device_create_file(pfe->dev, &dev_attr_gpi)) ++ goto err_gpi; ++ ++ if (device_create_file(pfe->dev, &dev_attr_drops)) ++ goto err_drops; ++ ++ if (device_create_file(pfe->dev, &dev_attr_tmu0_queues)) ++ goto err_tmu0_queues; ++ ++ if (device_create_file(pfe->dev, &dev_attr_tmu1_queues)) ++ goto err_tmu1_queues; ++ ++ if (device_create_file(pfe->dev, &dev_attr_tmu2_queues)) ++ goto err_tmu2_queues; ++ ++ if (device_create_file(pfe->dev, &dev_attr_tmu3_queues)) ++ goto err_tmu3_queues; ++ ++ if (device_create_file(pfe->dev, &dev_attr_pfemem)) ++ goto err_pfemem; ++ ++#ifdef HIF_NAPI_STATS ++ if (device_create_file(pfe->dev, &dev_attr_hif_napi_stats)) ++ goto err_hif_napi_stats; ++#endif ++ ++ return 0; ++ ++#ifdef HIF_NAPI_STATS ++err_hif_napi_stats: ++ device_remove_file(pfe->dev, &dev_attr_pfemem); ++#endif ++ ++err_pfemem: ++ device_remove_file(pfe->dev, &dev_attr_tmu3_queues); ++ ++err_tmu3_queues: ++ device_remove_file(pfe->dev, &dev_attr_tmu2_queues); ++ ++err_tmu2_queues: ++ device_remove_file(pfe->dev, &dev_attr_tmu1_queues); ++ ++err_tmu1_queues: ++ device_remove_file(pfe->dev, &dev_attr_tmu0_queues); ++ ++err_tmu0_queues: ++ device_remove_file(pfe->dev, &dev_attr_drops); ++ ++err_drops: ++ device_remove_file(pfe->dev, &dev_attr_gpi); ++ ++err_gpi: ++ device_remove_file(pfe->dev, &dev_attr_hif); ++ ++err_hif: ++ device_remove_file(pfe->dev, &dev_attr_bmu); ++ ++err_bmu: ++#if !defined(CONFIG_FSL_PPFE_UTIL_DISABLED) ++ device_remove_file(pfe->dev, &dev_attr_util); ++ ++err_util: ++#endif ++ device_remove_file(pfe->dev, &dev_attr_tmu); ++ ++err_tmu: ++ device_remove_file(pfe->dev, &dev_attr_class); ++ ++err_class: ++ return -1; ++} ++ ++void pfe_sysfs_exit(struct pfe *pfe) ++{ ++#ifdef HIF_NAPI_STATS ++ device_remove_file(pfe->dev, &dev_attr_hif_napi_stats); ++#endif ++ device_remove_file(pfe->dev, &dev_attr_pfemem); ++ device_remove_file(pfe->dev, &dev_attr_tmu3_queues); ++ device_remove_file(pfe->dev, &dev_attr_tmu2_queues); ++ device_remove_file(pfe->dev, &dev_attr_tmu1_queues); ++ device_remove_file(pfe->dev, &dev_attr_tmu0_queues); ++ device_remove_file(pfe->dev, &dev_attr_drops); ++ device_remove_file(pfe->dev, &dev_attr_gpi); ++ device_remove_file(pfe->dev, &dev_attr_hif); ++ device_remove_file(pfe->dev, &dev_attr_bmu); ++#if !defined(CONFIG_FSL_PPFE_UTIL_DISABLED) ++ device_remove_file(pfe->dev, &dev_attr_util); ++#endif ++ device_remove_file(pfe->dev, &dev_attr_tmu); ++ device_remove_file(pfe->dev, &dev_attr_class); ++} +--- /dev/null ++++ b/drivers/staging/fsl_ppfe/pfe_sysfs.h +@@ -0,0 +1,29 @@ ++/* ++ * Copyright 2015-2016 Freescale Semiconductor, Inc. ++ * Copyright 2017 NXP ++ * ++ * 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, see <http://www.gnu.org/licenses/>. ++ */ ++ ++#ifndef _PFE_SYSFS_H_ ++#define _PFE_SYSFS_H_ ++ ++#include <linux/proc_fs.h> ++ ++u32 qm_read_drop_stat(u32 tmu, u32 queue, u32 *total_drops, int do_reset); ++ ++int pfe_sysfs_init(struct pfe *pfe); ++void pfe_sysfs_exit(struct pfe *pfe); ++ ++#endif /* _PFE_SYSFS_H_ */ |