cregit-Linux how code gets into the kernel

Release 4.11 drivers/net/wireless/broadcom/brcm80211/brcmfmac/pcie.c

/* Copyright (c) 2014 Broadcom Corporation
 *
 * Permission to use, copy, modify, and/or distribute this software for any
 * purpose with or without fee is hereby granted, provided that the above
 * copyright notice and this permission notice appear in all copies.
 *
 * THE SOFTWARE IS PROVIDED "AS IS" AND THE AUTHOR DISCLAIMS ALL WARRANTIES
 * WITH REGARD TO THIS SOFTWARE INCLUDING ALL IMPLIED WARRANTIES OF
 * MERCHANTABILITY AND FITNESS. IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR ANY
 * SPECIAL, DIRECT, INDIRECT, OR CONSEQUENTIAL DAMAGES OR ANY DAMAGES
 * WHATSOEVER RESULTING FROM LOSS OF USE, DATA OR PROFITS, WHETHER IN AN ACTION
 * OF CONTRACT, NEGLIGENCE OR OTHER TORTIOUS ACTION, ARISING OUT OF OR IN
 * CONNECTION WITH THE USE OR PERFORMANCE OF THIS SOFTWARE.
 */

#include <linux/kernel.h>
#include <linux/module.h>
#include <linux/firmware.h>
#include <linux/pci.h>
#include <linux/vmalloc.h>
#include <linux/delay.h>
#include <linux/interrupt.h>
#include <linux/bcma/bcma.h>
#include <linux/sched.h>
#include <asm/unaligned.h>

#include <soc.h>
#include <chipcommon.h>
#include <brcmu_utils.h>
#include <brcmu_wifi.h>
#include <brcm_hw_ids.h>

#include "debug.h"
#include "bus.h"
#include "commonring.h"
#include "msgbuf.h"
#include "pcie.h"
#include "firmware.h"
#include "chip.h"
#include "core.h"
#include "common.h"



enum brcmf_pcie_state {
	
BRCMFMAC_PCIE_STATE_DOWN,
	
BRCMFMAC_PCIE_STATE_UP
};

BRCMF_FW_NVRAM_DEF(43602, "brcmfmac43602-pcie.bin", "brcmfmac43602-pcie.txt");
BRCMF_FW_NVRAM_DEF(4350, "brcmfmac4350-pcie.bin", "brcmfmac4350-pcie.txt");
BRCMF_FW_NVRAM_DEF(4350C, "brcmfmac4350c2-pcie.bin", "brcmfmac4350c2-pcie.txt");
BRCMF_FW_NVRAM_DEF(4356, "brcmfmac4356-pcie.bin", "brcmfmac4356-pcie.txt");
BRCMF_FW_NVRAM_DEF(43570, "brcmfmac43570-pcie.bin", "brcmfmac43570-pcie.txt");
BRCMF_FW_NVRAM_DEF(4358, "brcmfmac4358-pcie.bin", "brcmfmac4358-pcie.txt");
BRCMF_FW_NVRAM_DEF(4359, "brcmfmac4359-pcie.bin", "brcmfmac4359-pcie.txt");
BRCMF_FW_NVRAM_DEF(4365B, "brcmfmac4365b-pcie.bin", "brcmfmac4365b-pcie.txt");
BRCMF_FW_NVRAM_DEF(4365C, "brcmfmac4365c-pcie.bin", "brcmfmac4365c-pcie.txt");
BRCMF_FW_NVRAM_DEF(4366B, "brcmfmac4366b-pcie.bin", "brcmfmac4366b-pcie.txt");
BRCMF_FW_NVRAM_DEF(4366C, "brcmfmac4366c-pcie.bin", "brcmfmac4366c-pcie.txt");
BRCMF_FW_NVRAM_DEF(4371, "brcmfmac4371-pcie.bin", "brcmfmac4371-pcie.txt");


static struct brcmf_firmware_mapping brcmf_pcie_fwnames[] = {
	BRCMF_FW_NVRAM_ENTRY(BRCM_CC_43602_CHIP_ID, 0xFFFFFFFF, 43602),
	BRCMF_FW_NVRAM_ENTRY(BRCM_CC_43465_CHIP_ID, 0xFFFFFFF0, 4366C),
	BRCMF_FW_NVRAM_ENTRY(BRCM_CC_4350_CHIP_ID, 0x000000FF, 4350C),
	BRCMF_FW_NVRAM_ENTRY(BRCM_CC_4350_CHIP_ID, 0xFFFFFF00, 4350),
	BRCMF_FW_NVRAM_ENTRY(BRCM_CC_43525_CHIP_ID, 0xFFFFFFF0, 4365C),
	BRCMF_FW_NVRAM_ENTRY(BRCM_CC_4356_CHIP_ID, 0xFFFFFFFF, 4356),
	BRCMF_FW_NVRAM_ENTRY(BRCM_CC_43567_CHIP_ID, 0xFFFFFFFF, 43570),
	BRCMF_FW_NVRAM_ENTRY(BRCM_CC_43569_CHIP_ID, 0xFFFFFFFF, 43570),
	BRCMF_FW_NVRAM_ENTRY(BRCM_CC_43570_CHIP_ID, 0xFFFFFFFF, 43570),
	BRCMF_FW_NVRAM_ENTRY(BRCM_CC_4358_CHIP_ID, 0xFFFFFFFF, 4358),
	BRCMF_FW_NVRAM_ENTRY(BRCM_CC_4359_CHIP_ID, 0xFFFFFFFF, 4359),
	BRCMF_FW_NVRAM_ENTRY(BRCM_CC_4365_CHIP_ID, 0x0000000F, 4365B),
	BRCMF_FW_NVRAM_ENTRY(BRCM_CC_4365_CHIP_ID, 0xFFFFFFF0, 4365C),
	BRCMF_FW_NVRAM_ENTRY(BRCM_CC_4366_CHIP_ID, 0x0000000F, 4366B),
	BRCMF_FW_NVRAM_ENTRY(BRCM_CC_4366_CHIP_ID, 0xFFFFFFF0, 4366C),
	BRCMF_FW_NVRAM_ENTRY(BRCM_CC_4371_CHIP_ID, 0xFFFFFFFF, 4371),
};


#define BRCMF_PCIE_FW_UP_TIMEOUT		2000 
/* msec */


#define BRCMF_PCIE_REG_MAP_SIZE			(32 * 1024)

/* backplane addres space accessed by BAR0 */

#define	BRCMF_PCIE_BAR0_WINDOW			0x80

#define BRCMF_PCIE_BAR0_REG_SIZE		0x1000

#define	BRCMF_PCIE_BAR0_WRAPPERBASE		0x70


#define BRCMF_PCIE_BAR0_WRAPBASE_DMP_OFFSET	0x1000

#define BRCMF_PCIE_BARO_PCIE_ENUM_OFFSET	0x2000


#define BRCMF_PCIE_ARMCR4REG_BANKIDX		0x40

#define BRCMF_PCIE_ARMCR4REG_BANKPDA		0x4C


#define BRCMF_PCIE_REG_INTSTATUS		0x90

#define BRCMF_PCIE_REG_INTMASK			0x94

#define BRCMF_PCIE_REG_SBMBX			0x98


#define BRCMF_PCIE_REG_LINK_STATUS_CTRL		0xBC


#define BRCMF_PCIE_PCIE2REG_INTMASK		0x24

#define BRCMF_PCIE_PCIE2REG_MAILBOXINT		0x48

#define BRCMF_PCIE_PCIE2REG_MAILBOXMASK		0x4C

#define BRCMF_PCIE_PCIE2REG_CONFIGADDR		0x120

#define BRCMF_PCIE_PCIE2REG_CONFIGDATA		0x124

#define BRCMF_PCIE_PCIE2REG_H2D_MAILBOX		0x140


#define BRCMF_PCIE2_INTA			0x01

#define BRCMF_PCIE2_INTB			0x02


#define BRCMF_PCIE_INT_0			0x01

#define BRCMF_PCIE_INT_1			0x02

#define BRCMF_PCIE_INT_DEF			(BRCMF_PCIE_INT_0 | \
                                                 BRCMF_PCIE_INT_1)


#define BRCMF_PCIE_MB_INT_FN0_0			0x0100

#define BRCMF_PCIE_MB_INT_FN0_1			0x0200

#define	BRCMF_PCIE_MB_INT_D2H0_DB0		0x10000

#define	BRCMF_PCIE_MB_INT_D2H0_DB1		0x20000

#define	BRCMF_PCIE_MB_INT_D2H1_DB0		0x40000

#define	BRCMF_PCIE_MB_INT_D2H1_DB1		0x80000

#define	BRCMF_PCIE_MB_INT_D2H2_DB0		0x100000

#define	BRCMF_PCIE_MB_INT_D2H2_DB1		0x200000

#define	BRCMF_PCIE_MB_INT_D2H3_DB0		0x400000

#define	BRCMF_PCIE_MB_INT_D2H3_DB1		0x800000


#define BRCMF_PCIE_MB_INT_D2H_DB		(BRCMF_PCIE_MB_INT_D2H0_DB0 | \
                                                 BRCMF_PCIE_MB_INT_D2H0_DB1 | \
                                                 BRCMF_PCIE_MB_INT_D2H1_DB0 | \
                                                 BRCMF_PCIE_MB_INT_D2H1_DB1 | \
                                                 BRCMF_PCIE_MB_INT_D2H2_DB0 | \
                                                 BRCMF_PCIE_MB_INT_D2H2_DB1 | \
                                                 BRCMF_PCIE_MB_INT_D2H3_DB0 | \
                                                 BRCMF_PCIE_MB_INT_D2H3_DB1)


#define BRCMF_PCIE_MIN_SHARED_VERSION		5

#define BRCMF_PCIE_MAX_SHARED_VERSION		6

#define BRCMF_PCIE_SHARED_VERSION_MASK		0x00FF

#define BRCMF_PCIE_SHARED_DMA_INDEX		0x10000

#define BRCMF_PCIE_SHARED_DMA_2B_IDX		0x100000


#define BRCMF_PCIE_FLAGS_HTOD_SPLIT		0x4000

#define BRCMF_PCIE_FLAGS_DTOH_SPLIT		0x8000


#define BRCMF_SHARED_MAX_RXBUFPOST_OFFSET	34

#define BRCMF_SHARED_RING_BASE_OFFSET		52

#define BRCMF_SHARED_RX_DATAOFFSET_OFFSET	36

#define BRCMF_SHARED_CONSOLE_ADDR_OFFSET	20

#define BRCMF_SHARED_HTOD_MB_DATA_ADDR_OFFSET	40

#define BRCMF_SHARED_DTOH_MB_DATA_ADDR_OFFSET	44

#define BRCMF_SHARED_RING_INFO_ADDR_OFFSET	48

#define BRCMF_SHARED_DMA_SCRATCH_LEN_OFFSET	52

#define BRCMF_SHARED_DMA_SCRATCH_ADDR_OFFSET	56

#define BRCMF_SHARED_DMA_RINGUPD_LEN_OFFSET	64

#define BRCMF_SHARED_DMA_RINGUPD_ADDR_OFFSET	68


#define BRCMF_RING_H2D_RING_COUNT_OFFSET	0

#define BRCMF_RING_D2H_RING_COUNT_OFFSET	1

#define BRCMF_RING_H2D_RING_MEM_OFFSET		4

#define BRCMF_RING_H2D_RING_STATE_OFFSET	8


#define BRCMF_RING_MEM_BASE_ADDR_OFFSET		8

#define BRCMF_RING_MAX_ITEM_OFFSET		4

#define BRCMF_RING_LEN_ITEMS_OFFSET		6

#define BRCMF_RING_MEM_SZ			16

#define BRCMF_RING_STATE_SZ			8


#define BRCMF_DEF_MAX_RXBUFPOST			255


#define BRCMF_CONSOLE_BUFADDR_OFFSET		8

#define BRCMF_CONSOLE_BUFSIZE_OFFSET		12

#define BRCMF_CONSOLE_WRITEIDX_OFFSET		16


#define BRCMF_DMA_D2H_SCRATCH_BUF_LEN		8

#define BRCMF_DMA_D2H_RINGUPD_BUF_LEN		1024


#define BRCMF_D2H_DEV_D3_ACK			0x00000001

#define BRCMF_D2H_DEV_DS_ENTER_REQ		0x00000002

#define BRCMF_D2H_DEV_DS_EXIT_NOTE		0x00000004


#define BRCMF_H2D_HOST_D3_INFORM		0x00000001

#define BRCMF_H2D_HOST_DS_ACK			0x00000002

#define BRCMF_H2D_HOST_D0_INFORM_IN_USE		0x00000008

#define BRCMF_H2D_HOST_D0_INFORM		0x00000010


#define BRCMF_PCIE_MBDATA_TIMEOUT		msecs_to_jiffies(2000)


#define BRCMF_PCIE_CFGREG_STATUS_CMD		0x4

#define BRCMF_PCIE_CFGREG_PM_CSR		0x4C

#define BRCMF_PCIE_CFGREG_MSI_CAP		0x58

#define BRCMF_PCIE_CFGREG_MSI_ADDR_L		0x5C

#define BRCMF_PCIE_CFGREG_MSI_ADDR_H		0x60

#define BRCMF_PCIE_CFGREG_MSI_DATA		0x64

#define BRCMF_PCIE_CFGREG_LINK_STATUS_CTRL	0xBC

#define BRCMF_PCIE_CFGREG_LINK_STATUS_CTRL2	0xDC

#define BRCMF_PCIE_CFGREG_RBAR_CTRL		0x228

#define BRCMF_PCIE_CFGREG_PML1_SUB_CTRL1	0x248

#define BRCMF_PCIE_CFGREG_REG_BAR2_CONFIG	0x4E0

#define BRCMF_PCIE_CFGREG_REG_BAR3_CONFIG	0x4F4

#define BRCMF_PCIE_LINK_STATUS_CTRL_ASPM_ENAB	3

/* Magic number at a magic location to find RAM size */

#define BRCMF_RAMSIZE_MAGIC			0x534d4152	
/* SMAR */

#define BRCMF_RAMSIZE_OFFSET			0x6c



struct brcmf_pcie_console {
	
u32 base_addr;
	
u32 buf_addr;
	
u32 bufsize;
	
u32 read_idx;
	
u8 log_str[256];
	
u8 log_idx;
};


struct brcmf_pcie_shared_info {
	
u32 tcm_base_address;
	
u32 flags;
	
struct brcmf_pcie_ringbuf *commonrings[BRCMF_NROF_COMMON_MSGRINGS];
	
struct brcmf_pcie_ringbuf *flowrings;
	
u16 max_rxbufpost;
	
u16 max_flowrings;
	
u16 max_submissionrings;
	
u16 max_completionrings;
	
u32 rx_dataoffset;
	
u32 htod_mb_data_addr;
	
u32 dtoh_mb_data_addr;
	
u32 ring_info_addr;
	
struct brcmf_pcie_console console;
	
void *scratch;
	
dma_addr_t scratch_dmahandle;
	
void *ringupd;
	
dma_addr_t ringupd_dmahandle;
	
u8 version;
};


struct brcmf_pcie_core_info {
	
u32 base;
	
u32 wrapbase;
};


struct brcmf_pciedev_info {
	
enum brcmf_pcie_state state;
	
bool in_irq;
	
struct pci_dev *pdev;
	
char fw_name[BRCMF_FW_NAME_LEN];
	
char nvram_name[BRCMF_FW_NAME_LEN];
	
void __iomem *regs;
	
void __iomem *tcm;
	
u32 ram_base;
	
u32 ram_size;
	
struct brcmf_chip *ci;
	
u32 coreid;
	
struct brcmf_pcie_shared_info shared;
	
wait_queue_head_t mbdata_resp_wait;
	
bool mbdata_completed;
	
bool irq_allocated;
	
bool wowl_enabled;
	
u8 dma_idx_sz;
	
void *idxbuf;
	
u32 idxbuf_sz;
	
dma_addr_t idxbuf_dmahandle;
	
u16 (*read_ptr)(struct brcmf_pciedev_info *devinfo, u32 mem_offset);
	
void (*write_ptr)(struct brcmf_pciedev_info *devinfo, u32 mem_offset,
			  u16 value);
	
struct brcmf_mp_device *settings;
};


struct brcmf_pcie_ringbuf {
	
struct brcmf_commonring commonring;
	
dma_addr_t dma_handle;
	
u32 w_idx_addr;
	
u32 r_idx_addr;
	
struct brcmf_pciedev_info *devinfo;
	
u8 id;
};

/**
 * struct brcmf_pcie_dhi_ringinfo - dongle/host interface shared ring info
 *
 * @ringmem: dongle memory pointer to ring memory location
 * @h2d_w_idx_ptr: h2d ring write indices dongle memory pointers
 * @h2d_r_idx_ptr: h2d ring read indices dongle memory pointers
 * @d2h_w_idx_ptr: d2h ring write indices dongle memory pointers
 * @d2h_r_idx_ptr: d2h ring read indices dongle memory pointers
 * @h2d_w_idx_hostaddr: h2d ring write indices host memory pointers
 * @h2d_r_idx_hostaddr: h2d ring read indices host memory pointers
 * @d2h_w_idx_hostaddr: d2h ring write indices host memory pointers
 * @d2h_r_idx_hostaddr: d2h ring reaD indices host memory pointers
 * @max_flowrings: maximum number of tx flow rings supported.
 * @max_submissionrings: maximum number of submission rings(h2d) supported.
 * @max_completionrings: maximum number of completion rings(d2h) supported.
 */

struct brcmf_pcie_dhi_ringinfo {
	
__le32			ringmem;
	
__le32			h2d_w_idx_ptr;
	
__le32			h2d_r_idx_ptr;
	
__le32			d2h_w_idx_ptr;
	
__le32			d2h_r_idx_ptr;
	
struct msgbuf_buf_addr	h2d_w_idx_hostaddr;
	
struct msgbuf_buf_addr	h2d_r_idx_hostaddr;
	
struct msgbuf_buf_addr	d2h_w_idx_hostaddr;
	
struct msgbuf_buf_addr	d2h_r_idx_hostaddr;
	
__le16			max_flowrings;
	
__le16			max_submissionrings;
	
__le16			max_completionrings;
};


static const u32 brcmf_ring_max_item[BRCMF_NROF_COMMON_MSGRINGS] = {
	BRCMF_H2D_MSGRING_CONTROL_SUBMIT_MAX_ITEM,
	BRCMF_H2D_MSGRING_RXPOST_SUBMIT_MAX_ITEM,
	BRCMF_D2H_MSGRING_CONTROL_COMPLETE_MAX_ITEM,
	BRCMF_D2H_MSGRING_TX_COMPLETE_MAX_ITEM,
	BRCMF_D2H_MSGRING_RX_COMPLETE_MAX_ITEM
};


static const u32 brcmf_ring_itemsize[BRCMF_NROF_COMMON_MSGRINGS] = {
	BRCMF_H2D_MSGRING_CONTROL_SUBMIT_ITEMSIZE,
	BRCMF_H2D_MSGRING_RXPOST_SUBMIT_ITEMSIZE,
	BRCMF_D2H_MSGRING_CONTROL_COMPLETE_ITEMSIZE,
	BRCMF_D2H_MSGRING_TX_COMPLETE_ITEMSIZE,
	BRCMF_D2H_MSGRING_RX_COMPLETE_ITEMSIZE
};



static u32 brcmf_pcie_read_reg32(struct brcmf_pciedev_info *devinfo, u32 reg_offset) { void __iomem *address = devinfo->regs + reg_offset; return (ioread32(address)); }

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static void brcmf_pcie_write_reg32(struct brcmf_pciedev_info *devinfo, u32 reg_offset, u32 value) { void __iomem *address = devinfo->regs + reg_offset; iowrite32(value, address); }

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static u8 brcmf_pcie_read_tcm8(struct brcmf_pciedev_info *devinfo, u32 mem_offset) { void __iomem *address = devinfo->tcm + mem_offset; return (ioread8(address)); }

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static u16 brcmf_pcie_read_tcm16(struct brcmf_pciedev_info *devinfo, u32 mem_offset) { void __iomem *address = devinfo->tcm + mem_offset; return (ioread16(address)); }

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static void brcmf_pcie_write_tcm16(struct brcmf_pciedev_info *devinfo, u32 mem_offset, u16 value) { void __iomem *address = devinfo->tcm + mem_offset; iowrite16(value, address); }

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static u16 brcmf_pcie_read_idx(struct brcmf_pciedev_info *devinfo, u32 mem_offset) { u16 *address = devinfo->idxbuf + mem_offset; return (*(address)); }

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static void brcmf_pcie_write_idx(struct brcmf_pciedev_info *devinfo, u32 mem_offset, u16 value) { u16 *address = devinfo->idxbuf + mem_offset; *(address) = value; }

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static u32 brcmf_pcie_read_tcm32(struct brcmf_pciedev_info *devinfo, u32 mem_offset) { void __iomem *address = devinfo->tcm + mem_offset; return (ioread32(address)); }

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static void brcmf_pcie_write_tcm32(struct brcmf_pciedev_info *devinfo, u32 mem_offset, u32 value) { void __iomem *address = devinfo->tcm + mem_offset; iowrite32(value, address); }

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static u32 brcmf_pcie_read_ram32(struct brcmf_pciedev_info *devinfo, u32 mem_offset) { void __iomem *addr = devinfo->tcm + devinfo->ci->rambase + mem_offset; return (ioread32(addr)); }

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static void brcmf_pcie_write_ram32(struct brcmf_pciedev_info *devinfo, u32 mem_offset, u32 value) { void __iomem *addr = devinfo->tcm + devinfo->ci->rambase + mem_offset; iowrite32(value, addr); }

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static void brcmf_pcie_copy_mem_todev(struct brcmf_pciedev_info *devinfo, u32 mem_offset, void *srcaddr, u32 len) { void __iomem *address = devinfo->tcm + mem_offset; __le32 *src32; __le16 *src16; u8 *src8; if (((ulong)address & 4) || ((ulong)srcaddr & 4) || (len & 4)) { if (((ulong)address & 2) || ((ulong)srcaddr & 2) || (len & 2)) { src8 = (u8 *)srcaddr; while (len) { iowrite8(*src8, address); address++; src8++; len--; } } else { len = len / 2; src16 = (__le16 *)srcaddr; while (len) { iowrite16(le16_to_cpu(*src16), address); address += 2; src16++; len--; } } } else { len = len / 4; src32 = (__le32 *)srcaddr; while (len) { iowrite32(le32_to_cpu(*src32), address); address += 4; src32++; len--; } } }

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static void brcmf_pcie_copy_dev_tomem(struct brcmf_pciedev_info *devinfo, u32 mem_offset, void *dstaddr, u32 len) { void __iomem *address = devinfo->tcm + mem_offset; __le32 *dst32; __le16 *dst16; u8 *dst8; if (((ulong)address & 4) || ((ulong)dstaddr & 4) || (len & 4)) { if (((ulong)address & 2) || ((ulong)dstaddr & 2) || (len & 2)) { dst8 = (u8 *)dstaddr; while (len) { *dst8 = ioread8(address); address++; dst8++; len--; } } else { len = len / 2; dst16 = (__le16 *)dstaddr; while (len) { *dst16 = cpu_to_le16(ioread16(address)); address += 2; dst16++; len--; } } } else { len = len / 4; dst32 = (__le32 *)dstaddr; while (len) { *dst32 = cpu_to_le32(ioread32(address)); address += 4; dst32++; len--; } } }

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#define WRITECC32(devinfo, reg, value) brcmf_pcie_write_reg32(devinfo, \ CHIPCREGOFFS(reg), value)
static void brcmf_pcie_select_core(struct brcmf_pciedev_info *devinfo, u16 coreid) { const struct pci_dev *pdev = devinfo->pdev; struct brcmf_core *core; u32 bar0_win; core = brcmf_chip_get_core(devinfo->ci, coreid); if (core) { bar0_win = core->base; pci_write_config_dword(pdev, BRCMF_PCIE_BAR0_WINDOW, bar0_win); if (pci_read_config_dword(pdev, BRCMF_PCIE_BAR0_WINDOW, &bar0_win) == 0) { if (bar0_win != core->base) { bar0_win = core->base; pci_write_config_dword(pdev, BRCMF_PCIE_BAR0_WINDOW, bar0_win); } } } else { brcmf_err("Unsupported core selected %x\n", coreid); } }

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static void brcmf_pcie_reset_device(struct brcmf_pciedev_info *devinfo) { struct brcmf_core *core; u16 cfg_offset[] = { BRCMF_PCIE_CFGREG_STATUS_CMD, BRCMF_PCIE_CFGREG_PM_CSR, BRCMF_PCIE_CFGREG_MSI_CAP, BRCMF_PCIE_CFGREG_MSI_ADDR_L, BRCMF_PCIE_CFGREG_MSI_ADDR_H, BRCMF_PCIE_CFGREG_MSI_DATA, BRCMF_PCIE_CFGREG_LINK_STATUS_CTRL2, BRCMF_PCIE_CFGREG_RBAR_CTRL, BRCMF_PCIE_CFGREG_PML1_SUB_CTRL1, BRCMF_PCIE_CFGREG_REG_BAR2_CONFIG, BRCMF_PCIE_CFGREG_REG_BAR3_CONFIG }; u32 i; u32 val; u32 lsc; if (!devinfo->ci) return; /* Disable ASPM */ brcmf_pcie_select_core(devinfo, BCMA_CORE_PCIE2); pci_read_config_dword(devinfo->pdev, BRCMF_PCIE_REG_LINK_STATUS_CTRL, &lsc); val = lsc & (~BRCMF_PCIE_LINK_STATUS_CTRL_ASPM_ENAB); pci_write_config_dword(devinfo->pdev, BRCMF_PCIE_REG_LINK_STATUS_CTRL, val); /* Watchdog reset */ brcmf_pcie_select_core(devinfo, BCMA_CORE_CHIPCOMMON); WRITECC32(devinfo, watchdog, 4); msleep(100); /* Restore ASPM */ brcmf_pcie_select_core(devinfo, BCMA_CORE_PCIE2); pci_write_config_dword(devinfo->pdev, BRCMF_PCIE_REG_LINK_STATUS_CTRL, lsc); core = brcmf_chip_get_core(devinfo->ci, BCMA_CORE_PCIE2); if (core->rev <= 13) { for (i = 0; i < ARRAY_SIZE(cfg_offset); i++) { brcmf_pcie_write_reg32(devinfo, BRCMF_PCIE_PCIE2REG_CONFIGADDR, cfg_offset[i]); val = brcmf_pcie_read_reg32(devinfo, BRCMF_PCIE_PCIE2REG_CONFIGDATA); brcmf_dbg(PCIE, "config offset 0x%04x, value 0x%04x\n", cfg_offset[i], val); brcmf_pcie_write_reg32(devinfo, BRCMF_PCIE_PCIE2REG_CONFIGDATA, val); } } }

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static void brcmf_pcie_attach(struct brcmf_pciedev_info *devinfo) { u32 config; /* BAR1 window may not be sized properly */ brcmf_pcie_select_core(devinfo, BCMA_CORE_PCIE2); brcmf_pcie_write_reg32(devinfo, BRCMF_PCIE_PCIE2REG_CONFIGADDR, 0x4e0); config = brcmf_pcie_read_reg32(devinfo, BRCMF_PCIE_PCIE2REG_CONFIGDATA); brcmf_pcie_write_reg32(devinfo, BRCMF_PCIE_PCIE2REG_CONFIGDATA, config); device_wakeup_enable(&devinfo->pdev->dev); }

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static int brcmf_pcie_enter_download_state(struct brcmf_pciedev_info *devinfo) { if (devinfo->ci->chip == BRCM_CC_43602_CHIP_ID) { brcmf_pcie_select_core(devinfo, BCMA_CORE_ARM_CR4); brcmf_pcie_write_reg32(devinfo, BRCMF_PCIE_ARMCR4REG_BANKIDX, 5); brcmf_pcie_write_reg32(devinfo, BRCMF_PCIE_ARMCR4REG_BANKPDA, 0); brcmf_pcie_write_reg32(devinfo, BRCMF_PCIE_ARMCR4REG_BANKIDX, 7); brcmf_pcie_write_reg32(devinfo, BRCMF_PCIE_ARMCR4REG_BANKPDA, 0); } return 0; }

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static int brcmf_pcie_exit_download_state(struct brcmf_pciedev_info *devinfo, u32 resetintr) { struct brcmf_core *core; if (devinfo->ci->chip == BRCM_CC_43602_CHIP_ID) { core = brcmf_chip_get_core(devinfo->ci, BCMA_CORE_INTERNAL_MEM); brcmf_chip_resetcore(core, 0, 0, 0); } if (!brcmf_chip_set_active(devinfo->ci, resetintr)) return -EINVAL; return 0; }

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static int brcmf_pcie_send_mb_data(struct brcmf_pciedev_info *devinfo, u32 htod_mb_data) { struct brcmf_pcie_shared_info *shared; u32 addr; u32 cur_htod_mb_data; u32 i; shared = &devinfo->shared; addr = shared->htod_mb_data_addr; cur_htod_mb_data = brcmf_pcie_read_tcm32(devinfo, addr); if (cur_htod_mb_data != 0) brcmf_dbg(PCIE, "MB transaction is already pending 0x%04x\n", cur_htod_mb_data); i = 0; while (cur_htod_mb_data != 0) { msleep(10); i++; if (i > 100) return -EIO; cur_htod_mb_data = brcmf_pcie_read_tcm32(devinfo, addr); } brcmf_pcie_write_tcm32(devinfo, addr, htod_mb_data); pci_write_config_dword(devinfo->pdev, BRCMF_PCIE_REG_SBMBX, 1); pci_write_config_dword(devinfo->pdev, BRCMF_PCIE_REG_SBMBX, 1); return 0; }

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static void brcmf_pcie_handle_mb_data(struct brcmf_pciedev_info *devinfo) { struct brcmf_pcie_shared_info *shared; u32 addr; u32 dtoh_mb_data; shared = &devinfo->shared; addr = shared->dtoh_mb_data_addr; dtoh_mb_data = brcmf_pcie_read_tcm32(devinfo, addr); if (!dtoh_mb_data) return; brcmf_pcie_write_tcm32(devinfo, addr, 0); brcmf_dbg(PCIE, "D2H_MB_DATA: 0x%04x\n", dtoh_mb_data); if (dtoh_mb_data & BRCMF_D2H_DEV_DS_ENTER_REQ) { brcmf_dbg(PCIE, "D2H_MB_DATA: DEEP SLEEP REQ\n"); brcmf_pcie_send_mb_data(devinfo, BRCMF_H2D_HOST_DS_ACK); brcmf_dbg(PCIE, "D2H_MB_DATA: sent DEEP SLEEP ACK\n"); } if (dtoh_mb_data & BRCMF_D2H_DEV_DS_EXIT_NOTE) brcmf_dbg(PCIE, "D2H_MB_DATA: DEEP SLEEP EXIT\n"); if (dtoh_mb_data & BRCMF_D2H_DEV_D3_ACK) { brcmf_dbg(PCIE, "D2H_MB_DATA: D3 ACK\n"); devinfo->mbdata_completed = true; wake_up(&devinfo->mbdata_resp_wait); } }

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static void brcmf_pcie_bus_console_init(struct brcmf_pciedev_info *devinfo) { struct brcmf_pcie_shared_info *shared; struct brcmf_pcie_console *console; u32 addr; shared = &devinfo->shared; console = &shared->console; addr = shared->tcm_base_address + BRCMF_SHARED_CONSOLE_ADDR_OFFSET; console->base_addr = brcmf_pcie_read_tcm32(devinfo, addr); addr = console->base_addr + BRCMF_CONSOLE_BUFADDR_OFFSET; console->buf_addr = brcmf_pcie_read_tcm32(devinfo, addr); addr = console->base_addr + BRCMF_CONSOLE_BUFSIZE_OFFSET; console->bufsize = brcmf_pcie_read_tcm32(devinfo, addr); brcmf_dbg(FWCON, "Console: base %x, buf %x, size %d\n", console->base_addr, console->buf_addr, console->bufsize); }

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static void brcmf_pcie_bus_console_read(struct brcmf_pciedev_info *devinfo) { struct brcmf_pcie_console *console; u32 addr; u8 ch; u32 newidx; if (!BRCMF_FWCON_ON()) return; console = &devinfo->shared.console; addr = console->base_addr + BRCMF_CONSOLE_WRITEIDX_OFFSET; newidx = brcmf_pcie_read_tcm32(devinfo, addr); while (newidx != console->read_idx) { addr = console->buf_addr + console->read_idx; ch = brcmf_pcie_read_tcm8(devinfo, addr); console->read_idx++; if (console->read_idx == console->bufsize) console->read_idx = 0; if (ch == '\r') continue; console->log_str[console->log_idx] = ch; console->log_idx++; if ((ch != '\n') && (console->log_idx == (sizeof(console->log_str) - 2))) { ch = '\n'; console->log_str[console->log_idx] = ch; console->log_idx++; } if (ch == '\n') { console->log_str[console->log_idx] = 0; pr_debug("CONSOLE: %s", console->log_str); console->log_idx = 0; } } }

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static void brcmf_pcie_intr_disable(struct brcmf_pciedev_info *devinfo) { brcmf_pcie_write_reg32(devinfo, BRCMF_PCIE_PCIE2REG_MAILBOXMASK, 0); }

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static void brcmf_pcie_intr_enable(struct brcmf_pciedev_info *devinfo) { brcmf_pcie_write_reg32(devinfo, BRCMF_PCIE_PCIE2REG_MAILBOXMASK, BRCMF_PCIE_MB_INT_D2H_DB | BRCMF_PCIE_MB_INT_FN0_0 | BRCMF_PCIE_MB_INT_FN0_1); }

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static irqreturn_t brcmf_pcie_quick_check_isr(int irq, void *arg) { struct brcmf_pciedev_info *devinfo = (struct brcmf_pciedev_info *)arg; if (brcmf_pcie_read_reg32(devinfo, BRCMF_PCIE_PCIE2REG_MAILBOXINT)) { brcmf_pcie_intr_disable(devinfo); brcmf_dbg(PCIE, "Enter\n"); return IRQ_WAKE_THREAD; } return IRQ_NONE; }

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static irqreturn_t brcmf_pcie_isr_thread(int irq, void *arg) { struct brcmf_pciedev_info *devinfo = (struct brcmf_pciedev_info *)arg; u32 status; devinfo->in_irq = true; status = brcmf_pcie_read_reg32(devinfo, BRCMF_PCIE_PCIE2REG_MAILBOXINT); brcmf_dbg(PCIE, "Enter %x\n", status); if (status) { brcmf_pcie_write_reg32(devinfo, BRCMF_PCIE_PCIE2REG_MAILBOXINT, status); if (status & (BRCMF_PCIE_MB_INT_FN0_0 | BRCMF_PCIE_MB_INT_FN0_1)) brcmf_pcie_handle_mb_data(devinfo); if (status & BRCMF_PCIE_MB_INT_D2H_DB) { if (devinfo->state == BRCMFMAC_PCIE_STATE_UP) brcmf_proto_msgbuf_rx_trigger( &devinfo->pdev->dev); } } brcmf_pcie_bus_console_read(devinfo); if (devinfo->state == BRCMFMAC_PCIE_STATE_UP) brcmf_pcie_intr_enable(devinfo); devinfo->in_irq = false; return IRQ_HANDLED; }

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static int brcmf_pcie_request_irq(struct brcmf_pciedev_info *devinfo) { struct pci_dev *pdev; pdev = devinfo->pdev; brcmf_pcie_intr_disable(devinfo); brcmf_dbg(PCIE, "Enter\n"); pci_enable_msi(pdev); if (request_threaded_irq(pdev->irq, brcmf_pcie_quick_check_isr, brcmf_pcie_isr_thread, IRQF_SHARED, "brcmf_pcie_intr", devinfo)) { pci_disable_msi(pdev); brcmf_err("Failed to request IRQ %d\n", pdev->irq); return -EIO; } devinfo->irq_allocated = true; return 0; }

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static void brcmf_pcie_release_irq(struct brcmf_pciedev_info *devinfo) { struct pci_dev *pdev; u32 status; u32 count; if (!devinfo->irq_allocated) return; pdev = devinfo->pdev; brcmf_pcie_intr_disable(devinfo); free_irq(pdev->irq, devinfo); pci_disable_msi(pdev); msleep(50); count = 0; while ((devinfo->in_irq) && (count < 20)) { msleep(50); count++; } if (devinfo->in_irq) brcmf_err("Still in IRQ (processing) !!!\n"); status = brcmf_pcie_read_reg32(devinfo, BRCMF_PCIE_PCIE2REG_MAILBOXINT); brcmf_pcie_write_reg32(devinfo, BRCMF_PCIE_PCIE2REG_MAILBOXINT, status); devinfo->irq_allocated = false; }

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static int brcmf_pcie_ring_mb_write_rptr(void *ctx) { struct brcmf_pcie_ringbuf *ring = (struct brcmf_pcie_ringbuf *)ctx; struct brcmf_pciedev_info *devinfo = ring->devinfo; struct brcmf_commonring *commonring = &ring->commonring; if (devinfo->state != BRCMFMAC_PCIE_STATE_UP) return -EIO; brcmf_dbg(PCIE, "W r_ptr %d (%d), ring %d\n", commonring->r_ptr, commonring->w_ptr, ring->id); devinfo->write_ptr(devinfo, ring->r_idx_addr, commonring->r_ptr); return 0; }

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static int brcmf_pcie_ring_mb_write_wptr(void *ctx) { struct brcmf_pcie_ringbuf *ring = (struct brcmf_pcie_ringbuf *)ctx; struct brcmf_pciedev_info *devinfo = ring->devinfo; struct brcmf_commonring *commonring = &ring->commonring; if (devinfo->state != BRCMFMAC_PCIE_STATE_UP) return -EIO; brcmf_dbg(PCIE, "W w_ptr %d (%d), ring %d\n", commonring->w_ptr, commonring->r_ptr, ring->id); devinfo->write_ptr(devinfo, ring->w_idx_addr, commonring->w_ptr); return 0; }

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static int brcmf_pcie_ring_mb_ring_bell(void *ctx) { struct brcmf_pcie_ringbuf *ring = (struct brcmf_pcie_ringbuf *)ctx; struct brcmf_pciedev_info *devinfo = ring->devinfo; if (devinfo->state != BRCMFMAC_PCIE_STATE_UP) return -EIO; brcmf_dbg(PCIE, "RING !\n"); /* Any arbitrary value will do, lets use 1 */ brcmf_pcie_write_reg32(devinfo, BRCMF_PCIE_PCIE2REG_H2D_MAILBOX, 1); return 0; }

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static int brcmf_pcie_ring_mb_update_rptr(void *ctx) { struct brcmf_pcie_ringbuf *ring = (struct brcmf_pcie_ringbuf *)ctx; struct brcmf_pciedev_info *devinfo = ring->devinfo; struct brcmf_commonring *commonring = &ring->commonring; if (devinfo->state != BRCMFMAC_PCIE_STATE_UP) return -EIO; commonring->r_ptr = devinfo->read_ptr(devinfo, ring->r_idx_addr); brcmf_dbg(PCIE, "R r_ptr %d (%d), ring %d\n", commonring->r_ptr, commonring->w_ptr, ring->id); return 0; }

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static int brcmf_pcie_ring_mb_update_wptr(void *ctx) { struct brcmf_pcie_ringbuf *ring = (struct brcmf_pcie_ringbuf *)ctx; struct brcmf_pciedev_info *devinfo = ring->devinfo; struct brcmf_commonring *commonring = &ring->commonring; if (devinfo->state != BRCMFMAC_PCIE_STATE_UP) return -EIO; commonring->w_ptr = devinfo->read_ptr(devinfo, ring->w_idx_addr); brcmf_dbg(PCIE, "R w_ptr %d (%d), ring %d\n", commonring->w_ptr, commonring->r_ptr, ring->id); return 0; }

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static void * brcmf_pcie_init_dmabuffer_for_device(struct brcmf_pciedev_info *devinfo, u32 size, u32 tcm_dma_phys_addr, dma_addr_t *dma_handle) { void *ring; u64 address; ring = dma_alloc_coherent(&devinfo->pdev->dev, size, dma_handle, GFP_KERNEL); if (!ring) return NULL; address = (u64)*dma_handle; brcmf_pcie_write_tcm32(devinfo, tcm_dma_phys_addr, address & 0xffffffff); brcmf_pcie_write_tcm32(devinfo, tcm_dma_phys_addr + 4, address >> 32); memset(ring, 0, size); return (ring); }

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static struct brcmf_pcie_ringbuf * brcmf_pcie_alloc_dma_and_ring(struct brcmf_pciedev_info *devinfo, u32 ring_id, u32 tcm_ring_phys_addr) { void *dma_buf; dma_addr_t dma_handle; struct brcmf_pcie_ringbuf *ring; u32 size; u32 addr; size = brcmf_ring_max_item[ring_id] * brcmf_ring_itemsize[ring_id]; dma_buf = brcmf_pcie_init_dmabuffer_for_device(devinfo, size, tcm_ring_phys_addr + BRCMF_RING_MEM_BASE_ADDR_OFFSET, &dma_handle); if (!dma_buf) return NULL; addr = tcm_ring_phys_addr + BRCMF_RING_MAX_ITEM_OFFSET; brcmf_pcie_write_tcm16(devinfo, addr, brcmf_ring_max_item[ring_id]); addr = tcm_ring_phys_addr + BRCMF_RING_LEN_ITEMS_OFFSET; brcmf_pcie_write_tcm16(devinfo, addr, brcmf_ring_itemsize[ring_id]); ring = kzalloc(sizeof(*ring), GFP_KERNEL); if (!ring) { dma_free_coherent(&devinfo->pdev->dev, size, dma_buf, dma_handle); return NULL; } brcmf_commonring_config(&ring->commonring, brcmf_ring_max_item[ring_id], brcmf_ring_itemsize[ring_id], dma_buf); ring->dma_handle = dma_handle; ring->devinfo = devinfo; brcmf_commonring_register_cb(&ring->commonring, brcmf_pcie_ring_mb_ring_bell, brcmf_pcie_ring_mb_update_rptr, brcmf_pcie_ring_mb_update_wptr, brcmf_pcie_ring_mb_write_rptr, brcmf_pcie_ring_mb_write_wptr, ring); return (ring); }

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static void brcmf_pcie_release_ringbuffer(struct device *dev, struct brcmf_pcie_ringbuf *ring) { void *dma_buf; u32 size; if (!ring) return; dma_buf = ring->commonring.buf_addr; if (dma_buf) { size = ring->commonring.depth * ring->commonring.item_len; dma_free_coherent(dev, size, dma_buf, ring->dma_handle); } kfree(ring); }

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static void brcmf_pcie_release_ringbuffers(struct brcmf_pciedev_info *devinfo) { u32 i; for (i = 0; i < BRCMF_NROF_COMMON_MSGRINGS; i++) { brcmf_pcie_release_ringbuffer(&devinfo->pdev->dev, devinfo->shared.commonrings[i]); devinfo->shared.commonrings[i] = NULL; } kfree(devinfo->shared.flowrings); devinfo->shared.flowrings = NULL; if (devinfo->idxbuf) { dma_free_coherent(&devinfo->pdev->dev, devinfo->idxbuf_sz, devinfo->idxbuf, devinfo->idxbuf_dmahandle); devinfo->idxbuf = NULL; } }

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Franky Lin3632.14%150.00%
Total112100.00%2100.00%


static int brcmf_pcie_init_ringbuffers(struct brcmf_pciedev_info *devinfo) { struct brcmf_pcie_ringbuf *ring; struct brcmf_pcie_ringbuf *rings; u32 d2h_w_idx_ptr; u32 d2h_r_idx_ptr; u32 h2d_w_idx_ptr; u32 h2d_r_idx_ptr; u32 ring_mem_ptr; u32 i; u64 address; u32 bufsz; u8 idx_offset; struct brcmf_pcie_dhi_ringinfo ringinfo; u16 max_flowrings; u16 max_submissionrings; u16 max_completionrings; memcpy_fromio(&ringinfo, devinfo->tcm + devinfo->shared.ring_info_addr, sizeof(ringinfo)); if (devinfo->shared.version >= 6) { max_submissionrings = le16_to_cpu(ringinfo.max_submissionrings); max_flowrings = le16_to_cpu(ringinfo.max_flowrings); max_completionrings = le16_to_cpu(ringinfo.max_completionrings); } else { max_submissionrings = le16_to_cpu(ringinfo.max_flowrings); max_flowrings = max_submissionrings - BRCMF_NROF_H2D_COMMON_MSGRINGS; max_completionrings = BRCMF_NROF_D2H_COMMON_MSGRINGS; } if (devinfo->dma_idx_sz != 0) { bufsz = (max_submissionrings + max_completionrings) * devinfo->dma_idx_sz * 2; devinfo->idxbuf = dma_alloc_coherent(&devinfo->pdev->dev, bufsz, &devinfo->idxbuf_dmahandle, GFP_KERNEL); if (!devinfo->idxbuf) devinfo->dma_idx_sz = 0; } if (devinfo->dma_idx_sz == 0) { d2h_w_idx_ptr = le32_to_cpu(ringinfo.d2h_w_idx_ptr); d2h_r_idx_ptr = le32_to_cpu(ringinfo.d2h_r_idx_ptr); h2d_w_idx_ptr = le32_to_cpu(ringinfo.h2d_w_idx_ptr); h2d_r_idx_ptr = le32_to_cpu(ringinfo.h2d_r_idx_ptr); idx_offset = sizeof(u32); devinfo->write_ptr = brcmf_pcie_write_tcm16; devinfo->read_ptr = brcmf_pcie_read_tcm16; brcmf_dbg(PCIE, "Using TCM indices\n"); } else { memset(devinfo->idxbuf, 0, bufsz); devinfo->idxbuf_sz = bufsz; idx_offset = devinfo->dma_idx_sz; devinfo->write_ptr = brcmf_pcie_write_idx; devinfo->read_ptr = brcmf_pcie_read_idx; h2d_w_idx_ptr = 0; address = (u64)devinfo->idxbuf_dmahandle; ringinfo.h2d_w_idx_hostaddr.low_addr = cpu_to_le32(address & 0xffffffff); ringinfo.h2d_w_idx_hostaddr.high_addr = cpu_to_le32(address >> 32); h2d_r_idx_ptr = h2d_w_idx_ptr + max_submissionrings * idx_offset; address += max_submissionrings * idx_offset; ringinfo.h2d_r_idx_hostaddr.low_addr = cpu_to_le32(address & 0xffffffff); ringinfo.h2d_r_idx_hostaddr.high_addr = cpu_to_le32(address >> 32); d2h_w_idx_ptr = h2d_r_idx_ptr + max_submissionrings * idx_offset; address += max_submissionrings * idx_offset; ringinfo.d2h_w_idx_hostaddr.low_addr = cpu_to_le32(address & 0xffffffff); ringinfo.d2h_w_idx_hostaddr.high_addr = cpu_to_le32(address >> 32); d2h_r_idx_ptr = d2h_w_idx_ptr + max_completionrings * idx_offset; address += max_completionrings * idx_offset; ringinfo.d2h_r_idx_hostaddr.low_addr = cpu_to_le32(address & 0xffffffff); ringinfo.d2h_r_idx_hostaddr.high_addr = cpu_to_le32(address >> 32); memcpy_toio(devinfo->tcm + devinfo->shared.ring_info_addr, &ringinfo, sizeof(ringinfo)); brcmf_dbg(PCIE, "Using host memory indices\n"); } ring_mem_ptr = le32_to_cpu(ringinfo.ringmem); for (i = 0; i < BRCMF_NROF_H2D_COMMON_MSGRINGS; i++) { ring = brcmf_pcie_alloc_dma_and_ring(devinfo, i, ring_mem_ptr); if (!ring) goto fail; ring->w_idx_addr = h2d_w_idx_ptr; ring->r_idx_addr = h2d_r_idx_ptr; ring->id = i; devinfo->shared.commonrings[i] = ring; h2d_w_idx_ptr += idx_offset; h2d_r_idx_ptr += idx_offset; ring_mem_ptr += BRCMF_RING_MEM_SZ; } for (i = BRCMF_NROF_H2D_COMMON_MSGRINGS; i < BRCMF_NROF_COMMON_MSGRINGS; i++) { ring = brcmf_pcie_alloc_dma_and_ring(devinfo, i, ring_mem_ptr); if (!ring) goto fail; ring->w_idx_addr = d2h_w_idx_ptr; ring->r_idx_addr = d2h_r_idx_ptr; ring->id = i; devinfo->shared.commonrings[i] = ring; d2h_w_idx_ptr += idx_offset; d2h_r_idx_ptr += idx_offset; ring_mem_ptr += BRCMF_RING_MEM_SZ; } devinfo->shared.max_flowrings = max_flowrings; devinfo->shared.max_submissionrings = max_submissionrings; devinfo->shared.max_completionrings = max_completionrings; rings = kcalloc(max_flowrings, sizeof(*ring), GFP_KERNEL); if (!rings) goto fail; brcmf_dbg(PCIE, "Nr of flowrings is %d\n", max_flowrings); for (i = 0; i < max_flowrings; i++) { ring = &rings[i]; ring->devinfo = devinfo; ring->id = i + BRCMF_H2D_MSGRING_FLOWRING_IDSTART; brcmf_commonring_register_cb(&ring->commonring, brcmf_pcie_ring_mb_ring_bell, brcmf_pcie_ring_mb_update_rptr, brcmf_pcie_ring_mb_update_wptr, brcmf_pcie_ring_mb_write_rptr, brcmf_pcie_ring_mb_write_wptr, ring); ring->w_idx_addr = h2d_w_idx_ptr; ring->r_idx_addr = h2d_r_idx_ptr; h2d_w_idx_ptr += idx_offset; h2d_r_idx_ptr += idx_offset; } devinfo->shared.flowrings = rings; return 0; fail: brcmf_err("Allocating ring buffers failed\n"); brcmf_pcie_release_ringbuffers(devinfo); return -ENOMEM; }

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Franky Lin46156.29%266.67%
Hante Meuleman35843.71%133.33%
Total819100.00%3100.00%


static void brcmf_pcie_release_scratchbuffers(struct brcmf_pciedev_info *devinfo) { if (devinfo->shared.scratch) dma_free_coherent(&devinfo->pdev->dev, BRCMF_DMA_D2H_SCRATCH_BUF_LEN, devinfo->shared.scratch, devinfo->shared.scratch_dmahandle); if (devinfo->shared.ringupd) dma_free_coherent(&devinfo->pdev->dev, BRCMF_DMA_D2H_RINGUPD_BUF_LEN, devinfo->shared.ringupd, devinfo->shared.ringupd_dmahandle); }

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Hante Meuleman75100.00%1100.00%
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static int brcmf_pcie_init_scratchbuffers(struct brcmf_pciedev_info *devinfo) { u64 address; u32 addr; devinfo->shared.scratch = dma_alloc_coherent(&devinfo->pdev->dev, BRCMF_DMA_D2H_SCRATCH_BUF_LEN, &devinfo->shared.scratch_dmahandle, GFP_KERNEL); if (!devinfo->shared.scratch) goto fail; memset(devinfo->shared.scratch, 0, BRCMF_DMA_D2H_SCRATCH_BUF_LEN); addr = devinfo->shared.tcm_base_address + BRCMF_SHARED_DMA_SCRATCH_ADDR_OFFSET; address = (u64)devinfo->shared.scratch_dmahandle; brcmf_pcie_write_tcm32(devinfo, addr, address & 0xffffffff); brcmf_pcie_write_tcm32(devinfo, addr + 4, address >> 32); addr = devinfo->shared.tcm_base_address + BRCMF_SHARED_DMA_SCRATCH_LEN_OFFSET; brcmf_pcie_write_tcm32(devinfo, addr, BRCMF_DMA_D2H_SCRATCH_BUF_LEN); devinfo->shared.ringupd = dma_alloc_coherent(&devinfo->pdev->dev, BRCMF_DMA_D2H_RINGUPD_BUF_LEN, &devinfo->shared.ringupd_dmahandle, GFP_KERNEL); if (!devinfo->shared.ringupd) goto fail; memset(devinfo->shared.ringupd, 0, BRCMF_DMA_D2H_RINGUPD_BUF_LEN); addr = devinfo->shared.tcm_base_address + BRCMF_SHARED_DMA_RINGUPD_ADDR_OFFSET; address = (u64)devinfo->shared.ringupd_dmahandle; brcmf_pcie_write_tcm32(devinfo, addr, address & 0xffffffff); brcmf_pcie_write_tcm32(devinfo, addr + 4, address >> 32); addr = devinfo->shared.tcm_base_address + BRCMF_SHARED_DMA_RINGUPD_LEN_OFFSET; brcmf_pcie_write_tcm32(devinfo, addr, BRCMF_DMA_D2H_RINGUPD_BUF_LEN); return 0; fail: brcmf_err("Allocating scratch buffers failed\n"); brcmf_pcie_release_scratchbuffers(devinfo); return -ENOMEM; }

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Hante Meuleman268100.00%2100.00%
Total268100.00%2100.00%


static void brcmf_pcie_down(struct device *dev) { }

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Hante Meuleman10100.00%1100.00%
Total10100.00%1100.00%


static int brcmf_pcie_tx(struct device *dev, struct sk_buff *skb) { return 0; }

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static int brcmf_pcie_tx_ctlpkt(struct device *dev, unsigned char *msg, uint len) { return 0; }

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Hante Meuleman22100.00%1100.00%
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static int brcmf_pcie_rx_ctlpkt(struct device *dev, unsigned char *msg, uint len) { return 0; }

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static void brcmf_pcie_wowl_config(struct device *dev, bool enabled) { struct brcmf_bus *bus_if = dev_get_drvdata(dev); struct brcmf_pciedev *buspub = bus_if->bus_priv.pcie; struct brcmf_pciedev_info *devinfo = buspub->devinfo; brcmf_dbg(PCIE, "Configuring WOWL, enabled=%d\n", enabled); devinfo->wowl_enabled = enabled; }

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Hante Meuleman59100.00%1100.00%
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static size_t brcmf_pcie_get_ramsize(struct device *dev) { struct brcmf_bus *bus_if = dev_get_drvdata(dev); struct brcmf_pciedev *buspub = bus_if->bus_priv.pcie; struct brcmf_pciedev_info *devinfo = buspub->devinfo; return devinfo->ci->ramsize - devinfo->ci->srsize; }

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Arend Van Spriel54100.00%1100.00%
Total54100.00%1100.00%


static int brcmf_pcie_get_memdump(struct device *dev, void *data, size_t len) { struct brcmf_bus *bus_if = dev_get_drvdata(dev); struct brcmf_pciedev *buspub = bus_if->bus_priv.pcie; struct brcmf_pciedev_info *devinfo = buspub->devinfo; brcmf_dbg(PCIE, "dump at 0x%08X: len=%zu\n", devinfo->ci->rambase, len); brcmf_pcie_copy_dev_tomem(devinfo, devinfo->ci->rambase, data, len); return 0; }

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Arend Van Spriel81100.00%1100.00%
Total81100.00%1100.00%

static const struct brcmf_bus_ops brcmf_pcie_bus_ops = { .txdata = brcmf_pcie_tx, .stop = brcmf_pcie_down, .txctl = brcmf_pcie_tx_ctlpkt, .rxctl = brcmf_pcie_rx_ctlpkt, .wowl_config = brcmf_pcie_wowl_config, .get_ramsize = brcmf_pcie_get_ramsize, .get_memdump = brcmf_pcie_get_memdump, };
static void brcmf_pcie_adjust_ramsize(struct brcmf_pciedev_info *devinfo, u8 *data, u32 data_len) { __le32 *field; u32 newsize; if (data_len < BRCMF_RAMSIZE_OFFSET + 8) return; field = (__le32 *)&data[BRCMF_RAMSIZE_OFFSET]; if (le32_to_cpup(field) != BRCMF_RAMSIZE_MAGIC) return; field++; newsize = le32_to_cpup(field); brcmf_dbg(PCIE, "Found ramsize info in FW, adjusting to 0x%x\n", newsize); devinfo->ci->ramsize = newsize; }

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static int brcmf_pcie_init_share_ram_info(struct brcmf_pciedev_info *devinfo, u32 sharedram_addr) { struct brcmf_pcie_shared_info *shared; u32 addr; shared = &devinfo->shared; shared->tcm_base_address = sharedram_addr; shared->flags = brcmf_pcie_read_tcm32(devinfo, sharedram_addr); shared->version = (u8)(shared->flags & BRCMF_PCIE_SHARED_VERSION_MASK); brcmf_dbg(PCIE, "PCIe protocol version %d\n", shared->version); if ((shared->version > BRCMF_PCIE_MAX_SHARED_VERSION) || (shared->version < BRCMF_PCIE_MIN_SHARED_VERSION)) { brcmf_err("Unsupported PCIE version %d\n", shared->version); return -EINVAL; } /* check firmware support dma indicies */ if (shared->flags & BRCMF_PCIE_SHARED_DMA_INDEX) { if (shared->flags & BRCMF_PCIE_SHARED_DMA_2B_IDX) devinfo->dma_idx_sz = sizeof(u16); else devinfo->dma_idx_sz = sizeof(u32); } addr = sharedram_addr + BRCMF_SHARED_MAX_RXBUFPOST_OFFSET; shared->max_rxbufpost = brcmf_pcie_read_tcm16(devinfo, addr); if (shared->max_rxbufpost == 0) shared->max_rxbufpost = BRCMF_DEF_MAX_RXBUFPOST; addr = sharedram_addr + BRCMF_SHARED_RX_DATAOFFSET_OFFSET; shared->rx_dataoffset = brcmf_pcie_read_tcm32(devinfo, addr); addr = sharedram_addr + BRCMF_SHARED_HTOD_MB_DATA_ADDR_OFFSET; shared->htod_mb_data_addr = brcmf_pcie_read_tcm32(devinfo, addr); addr = sharedram_addr + BRCMF_SHARED_DTOH_MB_DATA_ADDR_OFFSET; shared->dtoh_mb_data_addr = brcmf_pcie_read_tcm32(devinfo, addr); addr = sharedram_addr + BRCMF_SHARED_RING_INFO_ADDR_OFFSET; shared->ring_info_addr = brcmf_pcie_read_tcm32(devinfo, addr); brcmf_dbg(PCIE, "max rx buf post %d, rx dataoffset %d\n", shared->max_rxbufpost, shared->rx_dataoffset); brcmf_pcie_bus_console_init(devinfo); return 0; }

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Hante Meuleman24793.21%466.67%
Franky Lin155.66%116.67%
Eric Caruso31.13%116.67%
Total265100.00%6100.00%


static int brcmf_pcie_download_fw_nvram(struct brcmf_pciedev_info *devinfo, const struct firmware *fw, void *nvram, u32 nvram_len) { u32 sharedram_addr; u32 sharedram_addr_written; u32 loop_counter; int err; u32 address; u32 resetintr; brcmf_dbg(PCIE, "Halt ARM.\n"); err = brcmf_pcie_enter_download_state(devinfo); if (err) return err; brcmf_dbg(PCIE, "Download FW %s\n", devinfo->fw_name); brcmf_pcie_copy_mem_todev(devinfo, devinfo->ci->rambase, (void *)fw->data, fw->size); resetintr = get_unaligned_le32(fw->data); release_firmware(fw); /* reset last 4 bytes of RAM address. to be used for shared * area. This identifies when FW is running */ brcmf_pcie_write_ram32(devinfo, devinfo->ci->ramsize - 4, 0); if (nvram) { brcmf_dbg(PCIE, "Download NVRAM %s\n", devinfo->nvram_name); address = devinfo->ci->rambase + devinfo->ci->ramsize - nvram_len; brcmf_pcie_copy_mem_todev(devinfo, address, nvram, nvram_len); brcmf_fw_nvram_free(nvram); } else { brcmf_dbg(PCIE, "No matching NVRAM file found %s\n", devinfo->nvram_name); } sharedram_addr_written = brcmf_pcie_read_ram32(devinfo, devinfo->ci->ramsize - 4); brcmf_dbg(PCIE, "Bring ARM in running state\n"); err = brcmf_pcie_exit_download_state(devinfo, resetintr); if (err) return err; brcmf_dbg(PCIE, "Wait for FW init\n"); sharedram_addr = sharedram_addr_written; loop_counter = BRCMF_PCIE_FW_UP_TIMEOUT / 50; while ((sharedram_addr == sharedram_addr_written) && (loop_counter)) { msleep(50); sharedram_addr = brcmf_pcie_read_ram32(devinfo, devinfo->ci->ramsize - 4); loop_counter--; } if (sharedram_addr == sharedram_addr_written) { brcmf_err("FW failed to initialize\n"); return -ENODEV; } brcmf_dbg(PCIE, "Shared RAM addr: 0x%08x\n", sharedram_addr); return (brcmf_pcie_init_share_ram_info(devinfo, sharedram_addr)); }

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static int brcmf_pcie_get_resource(struct brcmf_pciedev_info *devinfo) { struct pci_dev *pdev; int err; phys_addr_t bar0_addr, bar1_addr; ulong bar1_size; pdev = devinfo->pdev; err = pci_enable_device(pdev); if (err) { brcmf_err("pci_enable_device failed err=%d\n", err); return err; } pci_set_master(pdev); /* Bar-0 mapped address */ bar0_addr = pci_resource_start(pdev, 0); /* Bar-1 mapped address */ bar1_addr = pci_resource_start(pdev, 2); /* read Bar-1 mapped memory range */ bar1_size = pci_resource_len(pdev, 2); if ((bar1_size == 0) || (bar1_addr == 0)) { brcmf_err("BAR1 Not enabled, device size=%ld, addr=%#016llx\n", bar1_size, (unsigned long long)bar1_addr); return -EINVAL; } devinfo->regs = ioremap_nocache(bar0_addr, BRCMF_PCIE_REG_MAP_SIZE); devinfo->tcm = ioremap_nocache(bar1_addr, bar1_size); if (!devinfo->regs || !devinfo->tcm) { brcmf_err("ioremap() failed (%p,%p)\n", devinfo->regs, devinfo->tcm); return -EINVAL; } brcmf_dbg(PCIE, "Phys addr : reg space = %p base addr %#016llx\n", devinfo->regs, (unsigned long long)bar0_addr); brcmf_dbg(PCIE, "Phys addr : mem space = %p base addr %#016llx size 0x%x\n", devinfo->tcm, (unsigned long long)bar1_addr, (unsigned int)bar1_size); return 0; }

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Total223100.00%2100.00%


static void brcmf_pcie_release_resource(struct brcmf_pciedev_info *devinfo) { if (devinfo->tcm) iounmap(devinfo->tcm); if (devinfo->regs) iounmap(devinfo->regs); pci_disable_device(devinfo->pdev); }

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static int brcmf_pcie_attach_bus(struct brcmf_pciedev_info *devinfo) { int ret; /* Attach to the common driver interface */ ret = brcmf_attach(&devinfo->pdev->dev, devinfo->settings); if (ret) { brcmf_err("brcmf_attach failed\n"); } else { ret = brcmf_bus_started(&devinfo->pdev->dev); if (ret) brcmf_err("dongle is not responding\n"); } return ret; }

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Hante Meuleman6898.55%266.67%
Rafał Miłecki11.45%133.33%
Total69100.00%3100.00%


static u32 brcmf_pcie_buscore_prep_addr(const struct pci_dev *pdev, u32 addr) { u32 ret_addr; ret_addr = addr & (BRCMF_PCIE_BAR0_REG_SIZE - 1); addr &= ~(BRCMF_PCIE_BAR0_REG_SIZE - 1); pci_write_config_dword(pdev, BRCMF_PCIE_BAR0_WINDOW, addr); return ret_addr; }

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static u32 brcmf_pcie_buscore_read32(void *ctx, u32 addr) { struct brcmf_pciedev_info *devinfo = (struct brcmf_pciedev_info *)ctx; addr = brcmf_pcie_buscore_prep_addr(devinfo->pdev, addr); return brcmf_pcie_read_reg32(devinfo, addr); }

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static void brcmf_pcie_buscore_write32(void *ctx, u32 addr, u32 value) { struct brcmf_pciedev_info *devinfo = (struct brcmf_pciedev_info *)ctx; addr = brcmf_pcie_buscore_prep_addr(devinfo->pdev, addr); brcmf_pcie_write_reg32(devinfo, addr, value); }

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static int brcmf_pcie_buscoreprep(void *ctx) { return brcmf_pcie_get_resource(ctx); }

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Hante Meuleman1593.75%150.00%
Arend Van Spriel16.25%150.00%
Total16100.00%2100.00%


static int brcmf_pcie_buscore_reset(void *ctx, struct brcmf_chip *chip) { struct brcmf_pciedev_info *devinfo = (struct brcmf_pciedev_info *)ctx; u32 val; devinfo->ci = chip; brcmf_pcie_reset_device(devinfo); val = brcmf_pcie_read_reg32(devinfo, BRCMF_PCIE_PCIE2REG_MAILBOXINT); if (val != 0xffffffff) brcmf_pcie_write_reg32(devinfo, BRCMF_PCIE_PCIE2REG_MAILBOXINT, val); return 0; }

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static void brcmf_pcie_buscore_activate(void *ctx, struct brcmf_chip *chip, u32 rstvec) { struct brcmf_pciedev_info *devinfo = (struct brcmf_pciedev_info *)ctx; brcmf_pcie_write_tcm32(devinfo, 0, rstvec); }

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Hante Meuleman3897.44%150.00%
Arend Van Spriel12.56%150.00%
Total39100.00%2100.00%

static const struct brcmf_buscore_ops brcmf_pcie_buscore_ops = { .prepare = brcmf_pcie_buscoreprep, .reset = brcmf_pcie_buscore_reset, .activate = brcmf_pcie_buscore_activate, .read32 = brcmf_pcie_buscore_read32, .write32 = brcmf_pcie_buscore_write32, };
static void brcmf_pcie_setup(struct device *dev, const struct firmware *fw, void *nvram, u32 nvram_len) { struct brcmf_bus *bus = dev_get_drvdata(dev); struct brcmf_pciedev *pcie_bus_dev = bus->bus_priv.pcie; struct brcmf_pciedev_info *devinfo = pcie_bus_dev->devinfo; struct brcmf_commonring **flowrings; int ret; u32 i; brcmf_pcie_attach(devinfo); /* Some of the firmwares have the size of the memory of the device * defined inside the firmware. This is because part of the memory in * the device is shared and the devision is determined by FW. Parse * the firmware and adjust the chip memory size now. */ brcmf_pcie_adjust_ramsize(devinfo, (u8 *)fw->data, fw->size); ret = brcmf_pcie_download_fw_nvram(devinfo, fw, nvram, nvram_len); if (ret) goto fail; devinfo->state = BRCMFMAC_PCIE_STATE_UP; ret = brcmf_pcie_init_ringbuffers(devinfo); if (ret) goto fail; ret = brcmf_pcie_init_scratchbuffers(devinfo); if (ret) goto fail; brcmf_pcie_select_core(devinfo, BCMA_CORE_PCIE2); ret = brcmf_pcie_request_irq(devinfo); if (ret) goto fail; /* hook the commonrings in the bus structure. */ for (i = 0; i < BRCMF_NROF_COMMON_MSGRINGS; i++) bus->msgbuf->commonrings[i] = &devinfo->shared.commonrings[i]->commonring; flowrings = kcalloc(devinfo->shared.max_flowrings, sizeof(*flowrings), GFP_KERNEL); if (!flowrings) goto fail; for (i = 0; i < devinfo->shared.max_flowrings; i++) flowrings[i] = &devinfo->shared.flowrings[i].commonring; bus->msgbuf->flowrings = flowrings; bus->msgbuf->rx_dataoffset = devinfo->shared.rx_dataoffset; bus->msgbuf->max_rxbufpost = devinfo->shared.max_rxbufpost; bus->msgbuf->max_flowrings = devinfo->shared.max_flowrings; init_waitqueue_head(&devinfo->mbdata_resp_wait); brcmf_pcie_intr_enable(devinfo); if (brcmf_pcie_attach_bus(devinfo) == 0) return; brcmf_pcie_bus_console_read(devinfo); fail: device_release_driver(dev); }

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Hante Meuleman33498.53%360.00%
Franky Lin41.18%120.00%
Dan Carpenter10.29%120.00%
Total339100.00%5100.00%


static int brcmf_pcie_probe(struct pci_dev *pdev, const struct pci_device_id *id) { int ret; struct brcmf_pciedev_info *devinfo; struct brcmf_pciedev *pcie_bus_dev; struct brcmf_bus *bus; u16 domain_nr; u16 bus_nr; domain_nr = pci_domain_nr(pdev->bus) + 1; bus_nr = pdev->bus->number; brcmf_dbg(PCIE, "Enter %x:%x (%d/%d)\n", pdev->vendor, pdev->device, domain_nr, bus_nr); ret = -ENOMEM; devinfo = kzalloc(sizeof(*devinfo), GFP_KERNEL); if (devinfo == NULL) return ret; devinfo->pdev = pdev; pcie_bus_dev = NULL; devinfo->ci = brcmf_chip_attach(devinfo, &brcmf_pcie_buscore_ops); if (IS_ERR(devinfo->ci)) { ret = PTR_ERR(devinfo->ci); devinfo->ci = NULL; goto fail; } pcie_bus_dev = kzalloc(sizeof(*pcie_bus_dev), GFP_KERNEL); if (pcie_bus_dev == NULL) { ret = -ENOMEM; goto fail; } devinfo->settings = brcmf_get_module_param(&devinfo->pdev->dev, BRCMF_BUSTYPE_PCIE, devinfo->ci->chip, devinfo->ci->chiprev); if (!devinfo->settings) { ret = -ENOMEM; goto fail; } bus = kzalloc(sizeof(*bus), GFP_KERNEL); if (!bus) { ret = -ENOMEM; goto fail; } bus->msgbuf = kzalloc(sizeof(*bus->msgbuf), GFP_KERNEL); if (!bus->msgbuf) { ret = -ENOMEM; kfree(bus); goto fail; } /* hook it all together. */ pcie_bus_dev->devinfo = devinfo; pcie_bus_dev->bus = bus; bus->dev = &pdev->dev; bus->bus_priv.pcie = pcie_bus_dev; bus->ops = &brcmf_pcie_bus_ops; bus->proto_type = BRCMF_PROTO_MSGBUF; bus->chip = devinfo->coreid; bus->wowl_supported = pci_pme_capable(pdev, PCI_D3hot); dev_set_drvdata(&pdev->dev, bus); ret = brcmf_fw_map_chip_to_name(devinfo->ci->chip, devinfo->ci->chiprev, brcmf_pcie_fwnames, ARRAY_SIZE(brcmf_pcie_fwnames), devinfo->fw_name, devinfo->nvram_name); if (ret) goto fail_bus; ret = brcmf_fw_get_firmwares_pcie(bus->dev, BRCMF_FW_REQUEST_NVRAM | BRCMF_FW_REQ_NV_OPTIONAL, devinfo->fw_name, devinfo->nvram_name, brcmf_pcie_setup, domain_nr, bus_nr); if (ret == 0) return 0; fail_bus: kfree(bus->msgbuf); kfree(bus); fail: brcmf_err("failed %x:%x\n", pdev->vendor, pdev->device); brcmf_pcie_release_resource(devinfo); if (devinfo->ci) brcmf_chip_detach(devinfo->ci); if (devinfo->settings) brcmf_release_module_param(devinfo->settings); kfree(pcie_bus_dev); kfree(devinfo); return ret; }

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Hante Meuleman518100.00%5100.00%
Total518100.00%5100.00%


static void brcmf_pcie_remove(struct pci_dev *pdev) { struct brcmf_pciedev_info *devinfo; struct brcmf_bus *bus; brcmf_dbg(PCIE, "Enter\n"); bus = dev_get_drvdata(&pdev->dev); if (bus == NULL) return; devinfo = bus->bus_priv.pcie->devinfo; devinfo->state = BRCMFMAC_PCIE_STATE_DOWN; if (devinfo->ci) brcmf_pcie_intr_disable(devinfo); brcmf_detach(&pdev->dev); kfree(bus->bus_priv.pcie); kfree(bus->msgbuf->flowrings); kfree(bus->msgbuf); kfree(bus); brcmf_pcie_release_irq(devinfo); brcmf_pcie_release_scratchbuffers(devinfo); brcmf_pcie_release_ringbuffers(devinfo); brcmf_pcie_reset_device(devinfo); brcmf_pcie_release_resource(devinfo); if (devinfo->ci) brcmf_chip_detach(devinfo->ci); if (devinfo->settings) brcmf_release_module_param(devinfo->settings); kfree(devinfo); dev_set_drvdata(&pdev->dev, NULL); }

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Hante Meuleman176100.00%3100.00%
Total176100.00%3100.00%

#ifdef CONFIG_PM
static int brcmf_pcie_pm_enter_D3(struct device *dev) { struct brcmf_pciedev_info *devinfo; struct brcmf_bus *bus; brcmf_dbg(PCIE, "Enter\n"); bus = dev_get_drvdata(dev); devinfo = bus->bus_priv.pcie->devinfo; brcmf_bus_change_state(bus, BRCMF_BUS_DOWN); devinfo->mbdata_completed = false; brcmf_pcie_send_mb_data(devinfo, BRCMF_H2D_HOST_D3_INFORM); wait_event_timeout(devinfo->mbdata_resp_wait, devinfo->mbdata_completed, BRCMF_PCIE_MBDATA_TIMEOUT); if (!devinfo->mbdata_completed) { brcmf_err("Timeout on response for entering D3 substate\n"); return -EIO; } devinfo->state = BRCMFMAC_PCIE_STATE_DOWN; return 0; }

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static int brcmf_pcie_pm_leave_D3(struct device *dev) { struct brcmf_pciedev_info *devinfo; struct brcmf_bus *bus; struct pci_dev *pdev; int err; brcmf_dbg(PCIE, "Enter\n"); bus = dev_get_drvdata(dev); devinfo = bus->bus_priv.pcie->devinfo; brcmf_dbg(PCIE, "Enter, dev=%p, bus=%p\n", dev, bus); /* Check if device is still up and running, if so we are ready */ if (brcmf_pcie_read_reg32(devinfo, BRCMF_PCIE_PCIE2REG_INTMASK) != 0) { brcmf_dbg(PCIE, "Try to wakeup device....\n"); if (brcmf_pcie_send_mb_data(devinfo, BRCMF_H2D_HOST_D0_INFORM)) goto cleanup; brcmf_dbg(PCIE, "Hot resume, continue....\n"); devinfo->state = BRCMFMAC_PCIE_STATE_UP; brcmf_pcie_select_core(devinfo, BCMA_CORE_PCIE2); brcmf_bus_change_state(bus, BRCMF_BUS_UP); brcmf_pcie_intr_enable(devinfo); return 0; } cleanup: brcmf_chip_detach(devinfo->ci); devinfo->ci = NULL; pdev = devinfo->pdev; brcmf_pcie_remove(pdev); err = brcmf_pcie_probe(pdev, NULL); if (err) brcmf_err("probe after resume failed, err=%d\n", err); return err; }

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Hante Meuleman181100.00%5100.00%
Total181100.00%5100.00%

static const struct dev_pm_ops brcmf_pciedrvr_pm = { .suspend = brcmf_pcie_pm_enter_D3, .resume = brcmf_pcie_pm_leave_D3, .freeze = brcmf_pcie_pm_enter_D3, .restore = brcmf_pcie_pm_leave_D3, }; #endif /* CONFIG_PM */ #define BRCMF_PCIE_DEVICE(dev_id) { BRCM_PCIE_VENDOR_ID_BROADCOM, dev_id,\ PCI_ANY_ID, PCI_ANY_ID, PCI_CLASS_NETWORK_OTHER << 8, 0xffff00, 0 } #define BRCMF_PCIE_DEVICE_SUB(dev_id, subvend, subdev) { \ BRCM_PCIE_VENDOR_ID_BROADCOM, dev_id,\ subvend, subdev, PCI_CLASS_NETWORK_OTHER << 8, 0xffff00, 0 } static struct pci_device_id brcmf_pcie_devid_table[] = { BRCMF_PCIE_DEVICE(BRCM_PCIE_4350_DEVICE_ID), BRCMF_PCIE_DEVICE(BRCM_PCIE_4356_DEVICE_ID), BRCMF_PCIE_DEVICE(BRCM_PCIE_43567_DEVICE_ID), BRCMF_PCIE_DEVICE(BRCM_PCIE_43570_DEVICE_ID), BRCMF_PCIE_DEVICE(BRCM_PCIE_4358_DEVICE_ID), BRCMF_PCIE_DEVICE(BRCM_PCIE_4359_DEVICE_ID), BRCMF_PCIE_DEVICE(BRCM_PCIE_43602_DEVICE_ID), BRCMF_PCIE_DEVICE(BRCM_PCIE_43602_2G_DEVICE_ID), BRCMF_PCIE_DEVICE(BRCM_PCIE_43602_5G_DEVICE_ID), BRCMF_PCIE_DEVICE(BRCM_PCIE_43602_RAW_DEVICE_ID), BRCMF_PCIE_DEVICE(BRCM_PCIE_4365_DEVICE_ID), BRCMF_PCIE_DEVICE(BRCM_PCIE_4365_2G_DEVICE_ID), BRCMF_PCIE_DEVICE(BRCM_PCIE_4365_5G_DEVICE_ID), BRCMF_PCIE_DEVICE_SUB(0x4365, BRCM_PCIE_VENDOR_ID_BROADCOM, 0x4365), BRCMF_PCIE_DEVICE(BRCM_PCIE_4366_DEVICE_ID), BRCMF_PCIE_DEVICE(BRCM_PCIE_4366_2G_DEVICE_ID), BRCMF_PCIE_DEVICE(BRCM_PCIE_4366_5G_DEVICE_ID), BRCMF_PCIE_DEVICE(BRCM_PCIE_4371_DEVICE_ID), { /* end: all zeroes */ } }; MODULE_DEVICE_TABLE(pci, brcmf_pcie_devid_table); static struct pci_driver brcmf_pciedrvr = { .node = {}, .name = KBUILD_MODNAME, .id_table = brcmf_pcie_devid_table, .probe = brcmf_pcie_probe, .remove = brcmf_pcie_remove, #ifdef CONFIG_PM .driver.pm = &brcmf_pciedrvr_pm, #endif };
void brcmf_pcie_register(void) { int err; brcmf_dbg(PCIE, "Enter\n"); err = pci_register_driver(&brcmf_pciedrvr); if (err) brcmf_err("PCIE driver registration failed, err=%d\n", err); }

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Hante Meuleman36100.00%1100.00%
Total36100.00%1100.00%


void brcmf_pcie_exit(void) { brcmf_dbg(PCIE, "Enter\n"); pci_unregister_driver(&brcmf_pciedrvr); }

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Hante Meuleman20100.00%1100.00%
Total20100.00%1100.00%


Overall Contributors

PersonTokensPropCommitsCommitProp
Hante Meuleman758786.83%2558.14%
Franky Lin7228.26%49.30%
Arend Van Spriel3854.41%716.28%
Rafał Miłecki210.24%24.65%
Dan Carpenter100.11%24.65%
Eric Caruso80.09%12.33%
Johannes Berg40.05%12.33%
Julia Lawall10.01%12.33%
Total8738100.00%43100.00%
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