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|
/*
* Copyright (c) 2012 The Linux Foundation. All rights reserved.
*/
#include <arch/io.h>
#include <delay.h>
#include <stdlib.h>
#include <string.h>
#include <spi.h>
#include <gpio.h>
#include <iomap.h>
#define SUCCESS 0
#define DUMMY_DATA_VAL 0
#define TIMEOUT_CNT 100
#define CS_ASSERT 1
#define CS_DEASSERT 0
#define NUM_PORTS 3
#define NUM_GSBI_PINS 3
#define TLMM_ARGS 6
#define NUM_CS 4
#define GSBI_PIN_IDX 0
#define FUNC_SEL_IDX 1
#define GPIO_DIR_IDX 2
#define PULL_CONF_IDX 3
#define DRV_STR_IDX 4
#define GPIO_EN_IDX 5
/* Arbitrarily assigned error code values */
#define ETIMEDOUT -10
#define EINVAL -11
#define EIO -12
#define GSBI_IDX_TO_GSBI(idx) (idx + 5)
/*
* TLMM Configuration for SPI NOR
* gsbi_pin_conf[bus_num][GPIO_NUM, FUNC_SEL, I/O,
* PULL UP/DOWN, DRV_STR, GPIO_FUNC]
* gsbi_pin_conf[0][x][y] -- GSBI5
* gsbi_pin_conf[1][x][y] -- GSBI6
* gsbi_pin_conf[2][x][y] -- GSBI7
*/
static unsigned int gsbi_pin_conf[NUM_PORTS][NUM_GSBI_PINS][TLMM_ARGS] = {
{
/* GSBI5 CLK */
{
GSBI5_SPI_CLK, FUNC_SEL_1, GPIO_INPUT,
GPIO_PULL_DOWN, GPIO_DRV_STR_11MA, GPIO_FUNC_DISABLE
},
/* GSBI5 MISO */
{
GSBI5_SPI_MISO, FUNC_SEL_1, GPIO_INPUT,
GPIO_PULL_DOWN, GPIO_DRV_STR_10MA, GPIO_FUNC_DISABLE
},
/* GSBI5 MOSI */
{
GSBI5_SPI_MOSI, FUNC_SEL_1, GPIO_INPUT,
GPIO_PULL_DOWN, GPIO_DRV_STR_10MA, GPIO_FUNC_DISABLE
}
},
{
/* GSBI6 CLK */
{
GSBI6_SPI_CLK, FUNC_SEL_3, GPIO_INPUT,
GPIO_PULL_DOWN, GPIO_DRV_STR_11MA, GPIO_FUNC_DISABLE
},
/* GSBI6 MISO */
{
GSBI6_SPI_MISO, FUNC_SEL_3, GPIO_INPUT,
GPIO_PULL_DOWN, GPIO_DRV_STR_10MA, GPIO_FUNC_DISABLE
},
/* GSBI6 MOSI */
{
GSBI6_SPI_MOSI, FUNC_SEL_3, GPIO_INPUT,
GPIO_PULL_DOWN, GPIO_DRV_STR_10MA, GPIO_FUNC_DISABLE
}
},
{
/* GSBI7 CLK */
{
GSBI7_SPI_CLK, FUNC_SEL_1, GPIO_INPUT,
GPIO_PULL_DOWN, GPIO_DRV_STR_11MA, GPIO_FUNC_DISABLE
},
/* GSBI7 MISO */
{
GSBI7_SPI_MISO, FUNC_SEL_1, GPIO_INPUT,
GPIO_PULL_DOWN, GPIO_DRV_STR_10MA, GPIO_FUNC_DISABLE
},
/* GSBI7 MOSI */
{
GSBI7_SPI_MOSI, FUNC_SEL_1, GPIO_INPUT,
GPIO_PULL_DOWN, GPIO_DRV_STR_10MA, GPIO_FUNC_DISABLE
}
}
};
/*
* CS GPIO number array cs_gpio_array[port_num][cs_num]
* cs_gpio_array[0][x] -- GSBI5
* cs_gpio_array[1][x] -- GSBI6
* cs_gpio_array[2][x] -- GSBI7
*/
static unsigned int cs_gpio_array[NUM_PORTS][NUM_CS] = {
{
GSBI5_SPI_CS_0, GSBI5_SPI_CS_1, GSBI5_SPI_CS_2, GSBI5_SPI_CS_3
},
{
GSBI6_SPI_CS_0, 0, 0, 0
},
{
GSBI7_SPI_CS_0, 0, 0, 0
}
};
/*
* GSBI HCLK state register bit
* hclk_state[0] -- GSBI5
* hclk_state[1] -- GSBI6
* hclk_state[2] -- GSBI7
*/
static unsigned int hclk_state[NUM_PORTS] = {
GSBI5_HCLK,
GSBI6_HCLK,
GSBI7_HCLK
};
/*
* GSBI QUP_APPS_CLK state register bit
* qup_apps_clk_state[0] -- GSBI5
* qup_apps_clk_state[1] -- GSBI6
* qup_apps_clk_state[2] -- GSBI7
*/
static unsigned int qup_apps_clk_state[NUM_PORTS] = {
GSBI5_QUP_APPS_CLK,
GSBI6_QUP_APPS_CLK,
GSBI7_QUP_APPS_CLK
};
static int check_bit_state(uint32_t reg_addr, int bit_num, int val, int us_delay)
{
unsigned int count = TIMEOUT_CNT;
unsigned int bit_val = ((readl_i(reg_addr) >> bit_num) & 0x01);
while (bit_val != val) {
count--;
if (count == 0)
return -ETIMEDOUT;
udelay(us_delay);
bit_val = ((readl_i(reg_addr) >> bit_num) & 0x01);
}
return SUCCESS;
}
/*
* Check whether GSBIn_QUP State is valid
*/
static int check_qup_state_valid(struct ipq_spi_slave *ds)
{
return check_bit_state(ds->regs->qup_state, QUP_STATE_VALID_BIT,
QUP_STATE_VALID, 1);
}
/*
* Configure GSBIn Core state
*/
static int config_spi_state(struct ipq_spi_slave *ds, unsigned int state)
{
uint32_t val;
int ret;
uint32_t new_state;
ret = check_qup_state_valid(ds);
if (ret != SUCCESS)
return ret;
switch (state) {
case SPI_RUN_STATE:
new_state = QUP_STATE_RUN_STATE;
break;
case SPI_RESET_STATE:
new_state = QUP_STATE_RESET_STATE;
break;
case SPI_PAUSE_STATE:
new_state = QUP_STATE_PAUSE_STATE;
break;
default:
printk(BIOS_ERR,
"err: unsupported GSBI SPI state : %d\n", state);
return -EINVAL;
}
/* Set the state as requested */
val = (readl_i(ds->regs->qup_state) & ~QUP_STATE_MASK)
| new_state;
writel_i(val, ds->regs->qup_state);
return check_qup_state_valid(ds);
}
/*
* Set GSBIn SPI Mode
*/
static void spi_set_mode(struct ipq_spi_slave *ds, unsigned int mode)
{
unsigned int clk_idle_state;
unsigned int input_first_mode;
uint32_t val;
switch (mode) {
case GSBI_SPI_MODE_0:
clk_idle_state = 0;
input_first_mode = SPI_INPUT_FIRST_MODE;
break;
case GSBI_SPI_MODE_1:
clk_idle_state = 0;
input_first_mode = 0;
break;
case GSBI_SPI_MODE_2:
clk_idle_state = 1;
input_first_mode = SPI_INPUT_FIRST_MODE;
break;
case GSBI_SPI_MODE_3:
clk_idle_state = 1;
input_first_mode = 0;
break;
default:
printk(BIOS_ERR,
"err : unsupported spi mode : %d\n", mode);
return;
}
val = readl_i(ds->regs->spi_config);
val |= input_first_mode;
writel_i(val, ds->regs->spi_config);
val = readl_i(ds->regs->io_control);
if (clk_idle_state)
val |= SPI_IO_CONTROL_CLOCK_IDLE_HIGH;
else
val &= ~SPI_IO_CONTROL_CLOCK_IDLE_HIGH;
writel_i(val, ds->regs->io_control);
}
/*
* Check for HCLK state
*/
static int check_hclk_state(unsigned int core_num, int enable)
{
return check_bit_state(CLK_HALT_CFPB_STATEB_REG,
hclk_state[core_num], enable, 5);
}
/*
* Check for QUP APPS CLK state
*/
static int check_qup_clk_state(unsigned int core_num, int enable)
{
return check_bit_state(CLK_HALT_CFPB_STATEB_REG,
qup_apps_clk_state[core_num], enable, 5);
}
/*
* Function to assert and De-assert chip select
*/
static void CS_change(int port_num, int cs_num, int enable)
{
unsigned int cs_gpio = cs_gpio_array[port_num][cs_num];
uint32_t addr = GPIO_IN_OUT_ADDR(cs_gpio);
uint32_t val = readl_i(addr);
val &= (~(1 << GPIO_OUT));
if (!enable)
val |= (1 << GPIO_OUT);
writel_i(val, addr);
}
/*
* GSBIn TLMM configuration
*/
static void gsbi_pin_config(unsigned int port_num, int cs_num)
{
unsigned int gpio;
unsigned int i;
/* Hold the GSBIn (core_num) core in reset */
clrsetbits_le32_i(GSBIn_RESET_REG(GSBI_IDX_TO_GSBI(port_num)),
GSBI1_RESET_MSK, GSBI1_RESET);
/*
* Configure SPI_CLK, SPI_MISO and SPI_MOSI
*/
for (i = 0; i < NUM_GSBI_PINS; i++) {
unsigned int func_sel;
unsigned int io_config;
unsigned int pull_config;
unsigned int drv_strength;
unsigned int gpio_en;
unsigned int *ptr;
ptr = gsbi_pin_conf[port_num][i];
gpio = *(ptr + GSBI_PIN_IDX);
func_sel = *(ptr + FUNC_SEL_IDX);
io_config = *(ptr + GPIO_DIR_IDX);
pull_config = *(ptr + PULL_CONF_IDX);
drv_strength = *(ptr + DRV_STR_IDX);
gpio_en = *(ptr + GPIO_EN_IDX);
gpio_tlmm_config(gpio, func_sel, io_config,
pull_config, drv_strength, gpio_en);
}
gpio = cs_gpio_array[port_num][cs_num];
/* configure CS */
gpio_tlmm_config(gpio, FUNC_SEL_GPIO, GPIO_OUTPUT, GPIO_PULL_UP,
GPIO_DRV_STR_10MA, GPIO_FUNC_ENABLE);
CS_change(port_num, cs_num, CS_DEASSERT);
}
/*
* Clock configuration for GSBIn Core
*/
static int gsbi_clock_init(struct ipq_spi_slave *ds)
{
int ret;
/* Hold the GSBIn (core_num) core in reset */
clrsetbits_le32_i(GSBIn_RESET_REG(GSBI_IDX_TO_GSBI(ds->slave.bus)),
GSBI1_RESET_MSK, GSBI1_RESET);
/* Disable GSBIn (core_num) QUP core clock branch */
clrsetbits_le32_i(ds->regs->qup_ns_reg, QUP_CLK_BRANCH_ENA_MSK,
QUP_CLK_BRANCH_DIS);
ret = check_qup_clk_state(ds->slave.bus, 1);
if (ret) {
printk(BIOS_ERR,
"QUP Clock Halt For GSBI%d failed!\n", ds->slave.bus);
return ret;
}
/* Disable M/N:D counter and hold M/N:D counter in reset */
clrsetbits_le32_i(ds->regs->qup_ns_reg, (MNCNTR_MSK | MNCNTR_RST_MSK),
(MNCNTR_RST_ENA | MNCNTR_DIS));
/* Disable GSBIn (core_num) QUP core clock root */
clrsetbits_le32_i(ds->regs->qup_ns_reg, CLK_ROOT_ENA_MSK, CLK_ROOT_DIS);
clrsetbits_le32_i(ds->regs->qup_ns_reg, GSBIn_PLL_SRC_MSK,
GSBIn_PLL_SRC_PLL8);
clrsetbits_le32_i(ds->regs->qup_ns_reg, GSBIn_PRE_DIV_SEL_MSK,
(0 << GSBI_PRE_DIV_SEL_SHFT));
/* Program M/N:D values for GSBIn_QUP_APPS_CLK @50MHz */
clrsetbits_le32_i(ds->regs->qup_md_reg, GSBIn_M_VAL_MSK,
(0x01 << GSBI_M_VAL_SHFT));
clrsetbits_le32_i(ds->regs->qup_md_reg, GSBIn_D_VAL_MSK,
(0xF7 << GSBI_D_VAL_SHFT));
clrsetbits_le32_i(ds->regs->qup_ns_reg, GSBIn_N_VAL_MSK,
(0xF8 << GSBI_N_VAL_SHFT));
/* Set MNCNTR_MODE = 0: Bypass mode */
clrsetbits_le32_i(ds->regs->qup_ns_reg, MNCNTR_MODE_MSK,
MNCNTR_MODE_DUAL_EDGE);
/* De-assert the M/N:D counter reset */
clrsetbits_le32_i(ds->regs->qup_ns_reg, MNCNTR_RST_MSK, MNCNTR_RST_DIS);
clrsetbits_le32_i(ds->regs->qup_ns_reg, MNCNTR_MSK, MNCNTR_EN);
/*
* Enable the GSBIn (core_num) QUP core clock root.
* Keep MND counter disabled
*/
clrsetbits_le32_i(ds->regs->qup_ns_reg, CLK_ROOT_ENA_MSK, CLK_ROOT_ENA);
/* Enable GSBIn (core_num) QUP core clock branch */
clrsetbits_le32_i(ds->regs->qup_ns_reg, QUP_CLK_BRANCH_ENA_MSK,
QUP_CLK_BRANCH_ENA);
ret = check_qup_clk_state(ds->slave.bus, 0);
if (ret) {
printk(BIOS_ERR,
"QUP Clock Enable For GSBI%d"
" failed!\n", ds->slave.bus);
return ret;
}
/* Enable GSBIn (core_num) core clock branch */
clrsetbits_le32_i(GSBIn_HCLK_CTL_REG(GSBI_IDX_TO_GSBI(ds->slave.bus)),
GSBI_CLK_BRANCH_ENA_MSK, GSBI_CLK_BRANCH_ENA);
ret = check_hclk_state(ds->slave.bus, 0);
if (ret) {
printk(BIOS_ERR,
"HCLK Enable For GSBI%d failed!\n", ds->slave.bus);
return ret;
}
/* Release GSBIn (core_num) core from reset */
clrsetbits_le32_i(GSBIn_RESET_REG(GSBI_IDX_TO_GSBI(ds->slave.bus)),
GSBI1_RESET_MSK, 0);
udelay(50);
return SUCCESS;
}
/*
* Reset entire QUP and all mini cores
*/
static void spi_reset(struct ipq_spi_slave *ds)
{
writel_i(0x1, ds->regs->qup_sw_reset);
udelay(5);
}
static const struct gsbi_spi spi_reg[] = {
/* GSBI5 registers for SPI interface */
{
GSBI5_SPI_CONFIG_REG,
GSBI5_SPI_IO_CONTROL_REG,
GSBI5_SPI_ERROR_FLAGS_REG,
GSBI5_SPI_ERROR_FLAGS_EN_REG,
GSBI5_GSBI_CTRL_REG_REG,
GSBI5_QUP_CONFIG_REG,
GSBI5_QUP_ERROR_FLAGS_REG,
GSBI5_QUP_ERROR_FLAGS_EN_REG,
GSBI5_QUP_OPERATIONAL_REG,
GSBI5_QUP_IO_MODES_REG,
GSBI5_QUP_STATE_REG,
GSBI5_QUP_INPUT_FIFOc_REG(0),
GSBI5_QUP_OUTPUT_FIFOc_REG(0),
GSBI5_QUP_MX_INPUT_COUNT_REG,
GSBI5_QUP_MX_OUTPUT_COUNT_REG,
GSBI5_QUP_SW_RESET_REG,
GSBIn_QUP_APPS_NS_REG(5),
GSBIn_QUP_APPS_MD_REG(5),
},
/* GSBI6 registers for SPI interface */
{
GSBI6_SPI_CONFIG_REG,
GSBI6_SPI_IO_CONTROL_REG,
GSBI6_SPI_ERROR_FLAGS_REG,
GSBI6_SPI_ERROR_FLAGS_EN_REG,
GSBI6_GSBI_CTRL_REG_REG,
GSBI6_QUP_CONFIG_REG,
GSBI6_QUP_ERROR_FLAGS_REG,
GSBI6_QUP_ERROR_FLAGS_EN_REG,
GSBI6_QUP_OPERATIONAL_REG,
GSBI6_QUP_IO_MODES_REG,
GSBI6_QUP_STATE_REG,
GSBI6_QUP_INPUT_FIFOc_REG(0),
GSBI6_QUP_OUTPUT_FIFOc_REG(0),
GSBI6_QUP_MX_INPUT_COUNT_REG,
GSBI6_QUP_MX_OUTPUT_COUNT_REG,
GSBI6_QUP_SW_RESET_REG,
GSBIn_QUP_APPS_NS_REG(6),
GSBIn_QUP_APPS_MD_REG(6),
},
/* GSBI7 registers for SPI interface */
{
GSBI7_SPI_CONFIG_REG,
GSBI7_SPI_IO_CONTROL_REG,
GSBI7_SPI_ERROR_FLAGS_REG,
GSBI7_SPI_ERROR_FLAGS_EN_REG,
GSBI7_GSBI_CTRL_REG_REG,
GSBI7_QUP_CONFIG_REG,
GSBI7_QUP_ERROR_FLAGS_REG,
GSBI7_QUP_ERROR_FLAGS_EN_REG,
GSBI7_QUP_OPERATIONAL_REG,
GSBI7_QUP_IO_MODES_REG,
GSBI7_QUP_STATE_REG,
GSBI7_QUP_INPUT_FIFOc_REG(0),
GSBI7_QUP_OUTPUT_FIFOc_REG(0),
GSBI7_QUP_MX_INPUT_COUNT_REG,
GSBI7_QUP_MX_OUTPUT_COUNT_REG,
GSBI7_QUP_SW_RESET_REG,
GSBIn_QUP_APPS_NS_REG(7),
GSBIn_QUP_APPS_MD_REG(7),
}
};
static struct ipq_spi_slave spi_slave_pool[2];
void spi_init()
{
/* just in case */
memset(spi_slave_pool, 0, sizeof(spi_slave_pool));
}
struct spi_slave *spi_setup_slave(unsigned int bus, unsigned int cs)
{
struct ipq_spi_slave *ds = NULL;
int i;
/*
* IPQ GSBI (Generic Serial Bus Interface) supports SPI Flash
* on different GSBI5, GSBI6 and GSBI7
* with different number of chip selects (CS, channels):
*/
if ((bus < GSBI5_SPI) || (bus > GSBI7_SPI)
|| ((bus == GSBI5_SPI) && (cs > 3))
|| ((bus == GSBI6_SPI) && (cs > 0))
|| ((bus == GSBI7_SPI) && (cs > 0))) {
printk(BIOS_ERR, "SPI error: unsupported bus %d "
"(Supported busses 0,1 and 2) or chipselect\n", bus);
}
for (i = 0; i < ARRAY_SIZE(spi_slave_pool); i++) {
if (spi_slave_pool[i].allocated)
continue;
ds = spi_slave_pool + i;
ds->slave.bus = bus;
ds->slave.cs = cs;
ds->regs = &spi_reg[bus];
/*
* TODO(vbendeb):
* hardcoded frequency and mode - we might need to find a way
* to configure this
*/
ds->freq = 10000000;
ds->mode = GSBI_SPI_MODE_0;
ds->allocated = 1;
return &ds->slave;
}
printk(BIOS_ERR, "SPI error: all %d pools busy\n", i);
return NULL;
}
/*
* GSBIn SPI Hardware Initialisation
*/
static int spi_hw_init(struct ipq_spi_slave *ds)
{
int ret;
if (ds->initialized)
return 0;
/* GSBI module configuration */
spi_reset(ds);
/* Set the GSBIn QUP state */
ret = config_spi_state(ds, SPI_RESET_STATE);
if (ret)
return ret;
/* Configure GSBI_CTRL register to set protocol_mode to SPI:011 */
clrsetbits_le32_i(ds->regs->gsbi_ctrl, PROTOCOL_CODE_MSK,
PROTOCOL_CODE_SPI);
/*
* Configure Mini core to SPI core with Input Output enabled,
* SPI master, N = 8 bits
*/
clrsetbits_le32_i(ds->regs->qup_config, (QUP_CONFIG_MINI_CORE_MSK |
SPI_QUP_CONF_INPUT_MSK |
SPI_QUP_CONF_OUTPUT_MSK |
SPI_BIT_WORD_MSK),
(QUP_CONFIG_MINI_CORE_SPI |
SPI_QUP_CONF_NO_INPUT |
SPI_QUP_CONF_NO_OUTPUT |
SPI_8_BIT_WORD));
/*
* Configure Input first SPI protocol,
* SPI master mode and no loopback
*/
clrsetbits_le32_i(ds->regs->spi_config, (LOOP_BACK_MSK |
SLAVE_OPERATION_MSK),
(NO_LOOP_BACK |
SLAVE_OPERATION));
/*
* Configure SPI IO Control Register
* CLK_ALWAYS_ON = 0
* MX_CS_MODE = 0
* NO_TRI_STATE = 1
*/
writel_i((CLK_ALWAYS_ON | MX_CS_MODE | NO_TRI_STATE),
ds->regs->io_control);
/*
* Configure SPI IO Modes.
* OUTPUT_BIT_SHIFT_EN = 1
* INPUT_MODE = Block Mode
* OUTPUT MODE = Block Mode
*/
clrsetbits_le32_i(ds->regs->qup_io_modes, (OUTPUT_BIT_SHIFT_MSK |
INPUT_BLOCK_MODE_MSK |
OUTPUT_BLOCK_MODE_MSK),
(OUTPUT_BIT_SHIFT_EN |
INPUT_BLOCK_MODE |
OUTPUT_BLOCK_MODE));
spi_set_mode(ds, ds->mode);
/* Disable Error mask */
writel_i(0, ds->regs->error_flags_en);
writel_i(0, ds->regs->qup_error_flags_en);
ds->initialized = 1;
return SUCCESS;
}
int spi_claim_bus(struct spi_slave *slave)
{
struct ipq_spi_slave *ds = to_ipq_spi(slave);
unsigned int ret;
if (ds->initialized)
return SUCCESS;
/* GPIO Configuration for SPI port */
gsbi_pin_config(ds->slave.bus, ds->slave.cs);
/* Clock configuration */
ret = gsbi_clock_init(ds);
if (ret)
return ret;
ret = spi_hw_init(ds);
if (ret)
return -EIO;
return SUCCESS;
}
void spi_release_bus(struct spi_slave *slave)
{
struct ipq_spi_slave *ds = to_ipq_spi(slave);
/* Reset the SPI hardware */
spi_reset(ds);
ds->initialized = 0;
}
int spi_xfer(struct spi_slave *slave, const void *dout,
unsigned out_bytes, void *din, unsigned in_bytes)
{
int ret;
uint8_t* dbuf;
const uint8_t* dobuf;
struct ipq_spi_slave *ds = to_ipq_spi(slave);
/* Assert the chip select */
CS_change(ds->slave.bus, ds->slave.cs, CS_ASSERT);
ret = config_spi_state(ds, SPI_RESET_STATE);
if (ret)
goto out;
if (!out_bytes)
goto spi_receive;
/*
* Let's do the write side of the transaction first. Enable output
* FIFO.
*/
clrsetbits_le32_i(ds->regs->qup_config, SPI_QUP_CONF_OUTPUT_MSK,
SPI_QUP_CONF_OUTPUT_ENA);
writel_i(out_bytes, ds->regs->qup_mx_output_count);
ret = config_spi_state(ds, SPI_RUN_STATE);
if (ret)
goto out;
dobuf = dout; /* Alias to make it possible to use pointer autoinc. */
while (out_bytes) {
if (readl_i(ds->regs->qup_operational) & QUP_OUTPUT_FIFO_FULL)
continue;
writel_i(*dobuf++, ds->regs->qup_output_fifo);
out_bytes--;
/* Wait for output FIFO to drain. */
if (!out_bytes)
while (readl_i(ds->regs->qup_operational) &
QUP_OUTPUT_FIFO_NOT_EMPTY)
;
}
ret = config_spi_state(ds, SPI_RESET_STATE);
if (ret)
goto out;
spi_receive:
if (!in_bytes) /* Nothing to read. */
goto out;
/* Enable input FIFO */
clrsetbits_le32_i(ds->regs->qup_config, SPI_QUP_CONF_INPUT_MSK,
SPI_QUP_CONF_INPUT_ENA);
writel_i(in_bytes, ds->regs->qup_mx_input_count);
writel_i(in_bytes, ds->regs->qup_mx_output_count);
ret = config_spi_state(ds, SPI_RUN_STATE);
if (ret)
goto out;
/* Seed clocking */
writel_i(0xff, ds->regs->qup_output_fifo);
dbuf = din; /* Alias for pointer autoincrement again. */
while (in_bytes) {
if (!(readl_i(ds->regs->qup_operational) &
QUP_INPUT_FIFO_NOT_EMPTY))
continue;
/* Keep it clocking */
writel_i(0xff, ds->regs->qup_output_fifo);
*dbuf++ = readl_i(ds->regs->qup_input_fifo) & 0xff;
in_bytes--;
}
out:
/* Deassert CS */
CS_change(ds->slave.bus, ds->slave.cs, CS_DEASSERT);
/*
* Put the SPI Core back in the Reset State
* to end the transfer
*/
(void)config_spi_state(ds, SPI_RESET_STATE);
return ret;
}
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