- 根目录:
- drivers
- staging
- wilc1000
- wilc_sdio.c
/* ////////////////////////////////////////////////////////////////////////// */
/* */
/* Copyright (c) Atmel Corporation. All rights reserved. */
/* */
/* Module Name: wilc_sdio.c */
/* */
/* */
/* //////////////////////////////////////////////////////////////////////////// */
#include <linux/string.h>
#include "wilc_wlan_if.h"
#include "wilc_wlan.h"
#define WILC_SDIO_BLOCK_SIZE 512
typedef struct {
void *os_context;
u32 block_size;
int (*sdio_cmd52)(sdio_cmd52_t *);
int (*sdio_cmd53)(sdio_cmd53_t *);
int (*sdio_set_max_speed)(void);
int (*sdio_set_default_speed)(void);
wilc_debug_func dPrint;
int nint;
#define MAX_NUN_INT_THRPT_ENH2 (5) /* Max num interrupts allowed in registers 0xf7, 0xf8 */
int has_thrpt_enh3;
} wilc_sdio_t;
static wilc_sdio_t g_sdio;
#ifdef WILC_SDIO_IRQ_GPIO
static int sdio_write_reg(u32 addr, u32 data);
static int sdio_read_reg(u32 addr, u32 *data);
#endif
/********************************************
*
* Function 0
*
********************************************/
static int sdio_set_func0_csa_address(u32 adr)
{
sdio_cmd52_t cmd;
/**
* Review: BIG ENDIAN
**/
cmd.read_write = 1;
cmd.function = 0;
cmd.raw = 0;
cmd.address = 0x10c;
cmd.data = (u8)adr;
if (!g_sdio.sdio_cmd52(&cmd)) {
g_sdio.dPrint(N_ERR, "[wilc sdio]: Failed cmd52, set 0x10c data...\n");
goto _fail_;
}
cmd.address = 0x10d;
cmd.data = (u8)(adr >> 8);
if (!g_sdio.sdio_cmd52(&cmd)) {
g_sdio.dPrint(N_ERR, "[wilc sdio]: Failed cmd52, set 0x10d data...\n");
goto _fail_;
}
cmd.address = 0x10e;
cmd.data = (u8)(adr >> 16);
if (!g_sdio.sdio_cmd52(&cmd)) {
g_sdio.dPrint(N_ERR, "[wilc sdio]: Failed cmd52, set 0x10e data...\n");
goto _fail_;
}
return 1;
_fail_:
return 0;
}
static int sdio_set_func0_block_size(u32 block_size)
{
sdio_cmd52_t cmd;
cmd.read_write = 1;
cmd.function = 0;
cmd.raw = 0;
cmd.address = 0x10;
cmd.data = (u8)block_size;
if (!g_sdio.sdio_cmd52(&cmd)) {
g_sdio.dPrint(N_ERR, "[wilc sdio]: Failed cmd52, set 0x10 data...\n");
goto _fail_;
}
cmd.address = 0x11;
cmd.data = (u8)(block_size >> 8);
if (!g_sdio.sdio_cmd52(&cmd)) {
g_sdio.dPrint(N_ERR, "[wilc sdio]: Failed cmd52, set 0x11 data...\n");
goto _fail_;
}
return 1;
_fail_:
return 0;
}
/********************************************
*
* Function 1
*
********************************************/
static int sdio_set_func1_block_size(u32 block_size)
{
sdio_cmd52_t cmd;
cmd.read_write = 1;
cmd.function = 0;
cmd.raw = 0;
cmd.address = 0x110;
cmd.data = (u8)block_size;
if (!g_sdio.sdio_cmd52(&cmd)) {
g_sdio.dPrint(N_ERR, "[wilc sdio]: Failed cmd52, set 0x110 data...\n");
goto _fail_;
}
cmd.address = 0x111;
cmd.data = (u8)(block_size >> 8);
if (!g_sdio.sdio_cmd52(&cmd)) {
g_sdio.dPrint(N_ERR, "[wilc sdio]: Failed cmd52, set 0x111 data...\n");
goto _fail_;
}
return 1;
_fail_:
return 0;
}
static int sdio_clear_int(void)
{
#ifndef WILC_SDIO_IRQ_GPIO
/* u32 sts; */
sdio_cmd52_t cmd;
cmd.read_write = 0;
cmd.function = 1;
cmd.raw = 0;
cmd.address = 0x4;
cmd.data = 0;
g_sdio.sdio_cmd52(&cmd);
return cmd.data;
#else
u32 reg;
if (!sdio_read_reg(WILC_HOST_RX_CTRL_0, ®)) {
g_sdio.dPrint(N_ERR, "[wilc spi]: Failed read reg (%08x)...\n", WILC_HOST_RX_CTRL_0);
return 0;
}
reg &= ~0x1;
sdio_write_reg(WILC_HOST_RX_CTRL_0, reg);
return 1;
#endif
}
u32 sdio_xfer_cnt(void)
{
u32 cnt = 0;
sdio_cmd52_t cmd;
cmd.read_write = 0;
cmd.function = 1;
cmd.raw = 0;
cmd.address = 0x1C;
cmd.data = 0;
g_sdio.sdio_cmd52(&cmd);
cnt = cmd.data;
cmd.read_write = 0;
cmd.function = 1;
cmd.raw = 0;
cmd.address = 0x1D;
cmd.data = 0;
g_sdio.sdio_cmd52(&cmd);
cnt |= (cmd.data << 8);
cmd.read_write = 0;
cmd.function = 1;
cmd.raw = 0;
cmd.address = 0x1E;
cmd.data = 0;
g_sdio.sdio_cmd52(&cmd);
cnt |= (cmd.data << 16);
return cnt;
}
/********************************************
*
* Sdio interfaces
*
********************************************/
int sdio_check_bs(void)
{
sdio_cmd52_t cmd;
/**
* poll until BS is 0
**/
cmd.read_write = 0;
cmd.function = 0;
cmd.raw = 0;
cmd.address = 0xc;
cmd.data = 0;
if (!g_sdio.sdio_cmd52(&cmd)) {
g_sdio.dPrint(N_ERR, "[wilc sdio]: Fail cmd 52, get BS register...\n");
goto _fail_;
}
return 1;
_fail_:
return 0;
}
static int sdio_write_reg(u32 addr, u32 data)
{
#ifdef BIG_ENDIAN
data = BYTE_SWAP(data);
#endif
if ((addr >= 0xf0) && (addr <= 0xff)) {
sdio_cmd52_t cmd;
cmd.read_write = 1;
cmd.function = 0;
cmd.raw = 0;
cmd.address = addr;
cmd.data = data;
if (!g_sdio.sdio_cmd52(&cmd)) {
g_sdio.dPrint(N_ERR, "[wilc sdio]: Failed cmd 52, read reg (%08x) ...\n", addr);
goto _fail_;
}
} else {
sdio_cmd53_t cmd;
/**
* set the AHB address
**/
if (!sdio_set_func0_csa_address(addr))
goto _fail_;
cmd.read_write = 1;
cmd.function = 0;
cmd.address = 0x10f;
cmd.block_mode = 0;
cmd.increment = 1;
cmd.count = 4;
cmd.buffer = (u8 *)&data;
cmd.block_size = g_sdio.block_size; /* johnny : prevent it from setting unexpected value */
if (!g_sdio.sdio_cmd53(&cmd)) {
g_sdio.dPrint(N_ERR, "[wilc sdio]: Failed cmd53, write reg (%08x)...\n", addr);
goto _fail_;
}
}
return 1;
_fail_:
return 0;
}
static int sdio_write(u32 addr, u8 *buf, u32 size)
{
u32 block_size = g_sdio.block_size;
sdio_cmd53_t cmd;
int nblk, nleft;
cmd.read_write = 1;
if (addr > 0) {
/**
* has to be word aligned...
**/
if (size & 0x3) {
size += 4;
size &= ~0x3;
}
/**
* func 0 access
**/
cmd.function = 0;
cmd.address = 0x10f;
} else {
/**
* has to be word aligned...
**/
if (size & 0x3) {
size += 4;
size &= ~0x3;
}
/**
* func 1 access
**/
cmd.function = 1;
cmd.address = 0;
}
nblk = size / block_size;
nleft = size % block_size;
if (nblk > 0) {
cmd.block_mode = 1;
cmd.increment = 1;
cmd.count = nblk;
cmd.buffer = buf;
cmd.block_size = block_size;
if (addr > 0) {
if (!sdio_set_func0_csa_address(addr))
goto _fail_;
}
if (!g_sdio.sdio_cmd53(&cmd)) {
g_sdio.dPrint(N_ERR, "[wilc sdio]: Failed cmd53 [%x], block send...\n", addr);
goto _fail_;
}
if (addr > 0)
addr += nblk * block_size;
buf += nblk * block_size;
}
if (nleft > 0) {
cmd.block_mode = 0;
cmd.increment = 1;
cmd.count = nleft;
cmd.buffer = buf;
cmd.block_size = block_size; /* johnny : prevent it from setting unexpected value */
if (addr > 0) {
if (!sdio_set_func0_csa_address(addr))
goto _fail_;
}
if (!g_sdio.sdio_cmd53(&cmd)) {
g_sdio.dPrint(N_ERR, "[wilc sdio]: Failed cmd53 [%x], bytes send...\n", addr);
goto _fail_;
}
}
return 1;
_fail_:
return 0;
}
static int sdio_read_reg(u32 addr, u32 *data)
{
if ((addr >= 0xf0) && (addr <= 0xff)) {
sdio_cmd52_t cmd;
cmd.read_write = 0;
cmd.function = 0;
cmd.raw = 0;
cmd.address = addr;
if (!g_sdio.sdio_cmd52(&cmd)) {
g_sdio.dPrint(N_ERR, "[wilc sdio]: Failed cmd 52, read reg (%08x) ...\n", addr);
goto _fail_;
}
*data = cmd.data;
} else {
sdio_cmd53_t cmd;
if (!sdio_set_func0_csa_address(addr))
goto _fail_;
cmd.read_write = 0;
cmd.function = 0;
cmd.address = 0x10f;
cmd.block_mode = 0;
cmd.increment = 1;
cmd.count = 4;
cmd.buffer = (u8 *)data;
cmd.block_size = g_sdio.block_size; /* johnny : prevent it from setting unexpected value */
if (!g_sdio.sdio_cmd53(&cmd)) {
g_sdio.dPrint(N_ERR, "[wilc sdio]: Failed cmd53, read reg (%08x)...\n", addr);
goto _fail_;
}
}
#ifdef BIG_ENDIAN
*data = BYTE_SWAP(*data);
#endif
return 1;
_fail_:
return 0;
}
static int sdio_read(u32 addr, u8 *buf, u32 size)
{
u32 block_size = g_sdio.block_size;
sdio_cmd53_t cmd;
int nblk, nleft;
cmd.read_write = 0;
if (addr > 0) {
/**
* has to be word aligned...
**/
if (size & 0x3) {
size += 4;
size &= ~0x3;
}
/**
* func 0 access
**/
cmd.function = 0;
cmd.address = 0x10f;
} else {
/**
* has to be word aligned...
**/
if (size & 0x3) {
size += 4;
size &= ~0x3;
}
/**
* func 1 access
**/
cmd.function = 1;
cmd.address = 0;
}
nblk = size / block_size;
nleft = size % block_size;
if (nblk > 0) {
cmd.block_mode = 1;
cmd.increment = 1;
cmd.count = nblk;
cmd.buffer = buf;
cmd.block_size = block_size;
if (addr > 0) {
if (!sdio_set_func0_csa_address(addr))
goto _fail_;
}
if (!g_sdio.sdio_cmd53(&cmd)) {
g_sdio.dPrint(N_ERR, "[wilc sdio]: Failed cmd53 [%x], block read...\n", addr);
goto _fail_;
}
if (addr > 0)
addr += nblk * block_size;
buf += nblk * block_size;
} /* if (nblk > 0) */
if (nleft > 0) {
cmd.block_mode = 0;
cmd.increment = 1;
cmd.count = nleft;
cmd.buffer = buf;
cmd.block_size = block_size; /* johnny : prevent it from setting unexpected value */
if (addr > 0) {
if (!sdio_set_func0_csa_address(addr))
goto _fail_;
}
if (!g_sdio.sdio_cmd53(&cmd)) {
g_sdio.dPrint(N_ERR, "[wilc sdio]: Failed cmd53 [%x], bytes read...\n", addr);
goto _fail_;
}
}
return 1;
_fail_:
return 0;
}
/********************************************
*
* Bus interfaces
*
********************************************/
static int sdio_deinit(void *pv)
{
return 1;
}
static int sdio_sync(void)
{
u32 reg;
/**
* Disable power sequencer
**/
if (!sdio_read_reg(WILC_MISC, ®)) {
g_sdio.dPrint(N_ERR, "[wilc sdio]: Failed read misc reg...\n");
return 0;
}
reg &= ~BIT(8);
if (!sdio_write_reg(WILC_MISC, reg)) {
g_sdio.dPrint(N_ERR, "[wilc sdio]: Failed write misc reg...\n");
return 0;
}
#ifdef WILC_SDIO_IRQ_GPIO
{
u32 reg;
int ret;
/**
* interrupt pin mux select
**/
ret = sdio_read_reg(WILC_PIN_MUX_0, ®);
if (!ret) {
g_sdio.dPrint(N_ERR, "[wilc spi]: Failed read reg (%08x)...\n", WILC_PIN_MUX_0);
return 0;
}
reg |= BIT(8);
ret = sdio_write_reg(WILC_PIN_MUX_0, reg);
if (!ret) {
g_sdio.dPrint(N_ERR, "[wilc spi]: Failed write reg (%08x)...\n", WILC_PIN_MUX_0);
return 0;
}
/**
* interrupt enable
**/
ret = sdio_read_reg(WILC_INTR_ENABLE, ®);
if (!ret) {
g_sdio.dPrint(N_ERR, "[wilc spi]: Failed read reg (%08x)...\n", WILC_INTR_ENABLE);
return 0;
}
reg |= BIT(16);
ret = sdio_write_reg(WILC_INTR_ENABLE, reg);
if (!ret) {
g_sdio.dPrint(N_ERR, "[wilc spi]: Failed write reg (%08x)...\n", WILC_INTR_ENABLE);
return 0;
}
}
#endif
return 1;
}
static int sdio_init(wilc_wlan_inp_t *inp, wilc_debug_func func)
{
sdio_cmd52_t cmd;
int loop;
u32 chipid;
memset(&g_sdio, 0, sizeof(wilc_sdio_t));
g_sdio.dPrint = func;
g_sdio.os_context = inp->os_context.os_private;
if (inp->io_func.io_init) {
if (!inp->io_func.io_init(g_sdio.os_context)) {
g_sdio.dPrint(N_ERR, "[wilc sdio]: Failed io init bus...\n");
return 0;
}
} else {
return 0;
}
g_sdio.sdio_cmd52 = inp->io_func.u.sdio.sdio_cmd52;
g_sdio.sdio_cmd53 = inp->io_func.u.sdio.sdio_cmd53;
g_sdio.sdio_set_max_speed = inp->io_func.u.sdio.sdio_set_max_speed;
g_sdio.sdio_set_default_speed = inp->io_func.u.sdio.sdio_set_default_speed;
/**
* function 0 csa enable
**/
cmd.read_write = 1;
cmd.function = 0;
cmd.raw = 1;
cmd.address = 0x100;
cmd.data = 0x80;
if (!g_sdio.sdio_cmd52(&cmd)) {
g_sdio.dPrint(N_ERR, "[wilc sdio]: Fail cmd 52, enable csa...\n");
goto _fail_;
}
/**
* function 0 block size
**/
if (!sdio_set_func0_block_size(WILC_SDIO_BLOCK_SIZE)) {
g_sdio.dPrint(N_ERR, "[wilc sdio]: Fail cmd 52, set func 0 block size...\n");
goto _fail_;
}
g_sdio.block_size = WILC_SDIO_BLOCK_SIZE;
/**
* enable func1 IO
**/
cmd.read_write = 1;
cmd.function = 0;
cmd.raw = 1;
cmd.address = 0x2;
cmd.data = 0x2;
if (!g_sdio.sdio_cmd52(&cmd)) {
g_sdio.dPrint(N_ERR, "[wilc sdio] Fail cmd 52, set IOE register...\n");
goto _fail_;
}
/**
* make sure func 1 is up
**/
cmd.read_write = 0;
cmd.function = 0;
cmd.raw = 0;
cmd.address = 0x3;
loop = 3;
do {
cmd.data = 0;
if (!g_sdio.sdio_cmd52(&cmd)) {
g_sdio.dPrint(N_ERR, "[wilc sdio]: Fail cmd 52, get IOR register...\n");
goto _fail_;
}
if (cmd.data == 0x2)
break;
} while (loop--);
if (loop <= 0) {
g_sdio.dPrint(N_ERR, "[wilc sdio]: Fail func 1 is not ready...\n");
goto _fail_;
}
/**
* func 1 is ready, set func 1 block size
**/
if (!sdio_set_func1_block_size(WILC_SDIO_BLOCK_SIZE)) {
g_sdio.dPrint(N_ERR, "[wilc sdio]: Fail set func 1 block size...\n");
goto _fail_;
}
/**
* func 1 interrupt enable
**/
cmd.read_write = 1;
cmd.function = 0;
cmd.raw = 1;
cmd.address = 0x4;
cmd.data = 0x3;
if (!g_sdio.sdio_cmd52(&cmd)) {
g_sdio.dPrint(N_ERR, "[wilc sdio]: Fail cmd 52, set IEN register...\n");
goto _fail_;
}
/**
* make sure can read back chip id correctly
**/
if (!sdio_read_reg(0x1000, &chipid)) {
g_sdio.dPrint(N_ERR, "[wilc sdio]: Fail cmd read chip id...\n");
goto _fail_;
}
g_sdio.dPrint(N_ERR, "[wilc sdio]: chipid (%08x)\n", chipid);
if ((chipid & 0xfff) > 0x2a0)
g_sdio.has_thrpt_enh3 = 1;
else
g_sdio.has_thrpt_enh3 = 0;
g_sdio.dPrint(N_ERR, "[wilc sdio]: has_thrpt_enh3 = %d...\n", g_sdio.has_thrpt_enh3);
return 1;
_fail_:
return 0;
}
static void sdio_set_max_speed(void)
{
g_sdio.sdio_set_max_speed();
}
static void sdio_set_default_speed(void)
{
g_sdio.sdio_set_default_speed();
}
static int sdio_read_size(u32 *size)
{
u32 tmp;
sdio_cmd52_t cmd;
/**
* Read DMA count in words
**/
cmd.read_write = 0;
cmd.function = 0;
cmd.raw = 0;
cmd.address = 0xf2;
cmd.data = 0;
g_sdio.sdio_cmd52(&cmd);
tmp = cmd.data;
/* cmd.read_write = 0; */
/* cmd.function = 0; */
/* cmd.raw = 0; */
cmd.address = 0xf3;
cmd.data = 0;
g_sdio.sdio_cmd52(&cmd);
tmp |= (cmd.data << 8);
*size = tmp;
return 1;
}
static int sdio_read_int(u32 *int_status)
{
u32 tmp;
sdio_cmd52_t cmd;
sdio_read_size(&tmp);
/**
* Read IRQ flags
**/
#ifndef WILC_SDIO_IRQ_GPIO
cmd.function = 1;
cmd.address = 0x04;
cmd.data = 0;
g_sdio.sdio_cmd52(&cmd);
if (cmd.data & BIT(0))
tmp |= INT_0;
if (cmd.data & BIT(2))
tmp |= INT_1;
if (cmd.data & BIT(3))
tmp |= INT_2;
if (cmd.data & BIT(4))
tmp |= INT_3;
if (cmd.data & BIT(5))
tmp |= INT_4;
if (cmd.data & BIT(6))
tmp |= INT_5;
{
int i;
for (i = g_sdio.nint; i < MAX_NUM_INT; i++) {
if ((tmp >> (IRG_FLAGS_OFFSET + i)) & 0x1) {
g_sdio.dPrint(N_ERR, "[wilc sdio]: Unexpected interrupt (1) : tmp=%x, data=%x\n", tmp, cmd.data);
break;
}
}
}
#else
{
u32 irq_flags;
cmd.read_write = 0;
cmd.function = 0;
cmd.raw = 0;
cmd.address = 0xf7;
cmd.data = 0;
g_sdio.sdio_cmd52(&cmd);
irq_flags = cmd.data & 0x1f;
tmp |= ((irq_flags >> 0) << IRG_FLAGS_OFFSET);
}
#endif
*int_status = tmp;
return 1;
}
static int sdio_clear_int_ext(u32 val)
{
int ret;
if (g_sdio.has_thrpt_enh3) {
u32 reg;
#ifdef WILC_SDIO_IRQ_GPIO
{
u32 flags;
flags = val & (BIT(MAX_NUN_INT_THRPT_ENH2) - 1);
reg = flags;
}
#else
reg = 0;
#endif
/* select VMM table 0 */
if ((val & SEL_VMM_TBL0) == SEL_VMM_TBL0)
reg |= BIT(5);
/* select VMM table 1 */
if ((val & SEL_VMM_TBL1) == SEL_VMM_TBL1)
reg |= BIT(6);
/* enable VMM */
if ((val & EN_VMM) == EN_VMM)
reg |= BIT(7);
if (reg) {
sdio_cmd52_t cmd;
cmd.read_write = 1;
cmd.function = 0;
cmd.raw = 0;
cmd.address = 0xf8;
cmd.data = reg;
ret = g_sdio.sdio_cmd52(&cmd);
if (!ret) {
g_sdio.dPrint(N_ERR, "[wilc sdio]: Failed cmd52, set 0xf8 data (%d) ...\n", __LINE__);
goto _fail_;
}
}
} else {
#ifdef WILC_SDIO_IRQ_GPIO
{
/* see below. has_thrpt_enh2 uses register 0xf8 to clear interrupts. */
/* Cannot clear multiple interrupts. Must clear each interrupt individually */
u32 flags;
flags = val & (BIT(MAX_NUM_INT) - 1);
if (flags) {
int i;
ret = 1;
for (i = 0; i < g_sdio.nint; i++) {
if (flags & 1) {
sdio_cmd52_t cmd;
cmd.read_write = 1;
cmd.function = 0;
cmd.raw = 0;
cmd.address = 0xf8;
cmd.data = BIT(i);
ret = g_sdio.sdio_cmd52(&cmd);
if (!ret) {
g_sdio.dPrint(N_ERR, "[wilc sdio]: Failed cmd52, set 0xf8 data (%d) ...\n", __LINE__);
goto _fail_;
}
}
if (!ret)
break;
flags >>= 1;
}
if (!ret)
goto _fail_;
for (i = g_sdio.nint; i < MAX_NUM_INT; i++) {
if (flags & 1)
g_sdio.dPrint(N_ERR, "[wilc sdio]: Unexpected interrupt cleared %d...\n", i);
flags >>= 1;
}
}
}
#endif /* WILC_SDIO_IRQ_GPIO */
{
u32 vmm_ctl;
vmm_ctl = 0;
/* select VMM table 0 */
if ((val & SEL_VMM_TBL0) == SEL_VMM_TBL0)
vmm_ctl |= BIT(0);
/* select VMM table 1 */
if ((val & SEL_VMM_TBL1) == SEL_VMM_TBL1)
vmm_ctl |= BIT(1);
/* enable VMM */
if ((val & EN_VMM) == EN_VMM)
vmm_ctl |= BIT(2);
if (vmm_ctl) {
sdio_cmd52_t cmd;
cmd.read_write = 1;
cmd.function = 0;
cmd.raw = 0;
cmd.address = 0xf6;
cmd.data = vmm_ctl;
ret = g_sdio.sdio_cmd52(&cmd);
if (!ret) {
g_sdio.dPrint(N_ERR, "[wilc sdio]: Failed cmd52, set 0xf6 data (%d) ...\n", __LINE__);
goto _fail_;
}
}
}
}
return 1;
_fail_:
return 0;
}
static int sdio_sync_ext(int nint /* how mant interrupts to enable. */)
{
u32 reg;
if (nint > MAX_NUM_INT) {
g_sdio.dPrint(N_ERR, "[wilc sdio]: Too many interupts (%d)...\n", nint);
return 0;
}
if (nint > MAX_NUN_INT_THRPT_ENH2) {
g_sdio.dPrint(N_ERR, "[wilc sdio]: Error: Cannot support more than 5 interrupts when has_thrpt_enh2=1.\n");
return 0;
}
g_sdio.nint = nint;
/**
* Disable power sequencer
**/
if (!sdio_read_reg(WILC_MISC, ®)) {
g_sdio.dPrint(N_ERR, "[wilc sdio]: Failed read misc reg...\n");
return 0;
}
reg &= ~BIT(8);
if (!sdio_write_reg(WILC_MISC, reg)) {
g_sdio.dPrint(N_ERR, "[wilc sdio]: Failed write misc reg...\n");
return 0;
}
#ifdef WILC_SDIO_IRQ_GPIO
{
u32 reg;
int ret, i;
/**
* interrupt pin mux select
**/
ret = sdio_read_reg(WILC_PIN_MUX_0, ®);
if (!ret) {
g_sdio.dPrint(N_ERR, "[wilc sdio]: Failed read reg (%08x)...\n", WILC_PIN_MUX_0);
return 0;
}
reg |= BIT(8);
ret = sdio_write_reg(WILC_PIN_MUX_0, reg);
if (!ret) {
g_sdio.dPrint(N_ERR, "[wilc sdio]: Failed write reg (%08x)...\n", WILC_PIN_MUX_0);
return 0;
}
/**
* interrupt enable
**/
ret = sdio_read_reg(WILC_INTR_ENABLE, ®);
if (!ret) {
g_sdio.dPrint(N_ERR, "[wilc sdio]: Failed read reg (%08x)...\n", WILC_INTR_ENABLE);
return 0;
}
for (i = 0; (i < 5) && (nint > 0); i++, nint--)
reg |= BIT((27 + i));
ret = sdio_write_reg(WILC_INTR_ENABLE, reg);
if (!ret) {
g_sdio.dPrint(N_ERR, "[wilc sdio]: Failed write reg (%08x)...\n", WILC_INTR_ENABLE);
return 0;
}
if (nint) {
ret = sdio_read_reg(WILC_INTR2_ENABLE, ®);
if (!ret) {
g_sdio.dPrint(N_ERR, "[wilc sdio]: Failed read reg (%08x)...\n", WILC_INTR2_ENABLE);
return 0;
}
for (i = 0; (i < 3) && (nint > 0); i++, nint--)
reg |= BIT(i);
ret = sdio_read_reg(WILC_INTR2_ENABLE, ®);
if (!ret) {
g_sdio.dPrint(N_ERR, "[wilc sdio]: Failed write reg (%08x)...\n", WILC_INTR2_ENABLE);
return 0;
}
}
}
#endif /* WILC_SDIO_IRQ_GPIO */
return 1;
}
/********************************************
*
* Global sdio HIF function table
*
********************************************/
wilc_hif_func_t hif_sdio = {
sdio_init,
sdio_deinit,
sdio_read_reg,
sdio_write_reg,
sdio_read,
sdio_write,
sdio_sync,
sdio_clear_int,
sdio_read_int,
sdio_clear_int_ext,
sdio_read_size,
sdio_write,
sdio_read,
sdio_sync_ext,
sdio_set_max_speed,
sdio_set_default_speed,
};