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/*
* Copyright (c) 2015 Intel Corporation.
*
* Licensed under the Apache License, Version 2.0 (the "License");
* you may not use this file except in compliance with the License.
* You may obtain a copy of the License at
*
* http://www.apache.org/licenses/LICENSE-2.0
*
* Unless required by applicable law or agreed to in writing, software
* distributed under the License is distributed on an "AS IS" BASIS,
* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
* See the License for the specific language governing permissions and
* limitations under the License.
*/
#include <errno.h>
#include <nanokernel.h>
#include <arch/cpu.h>
#include <misc/__assert.h>
#include <board.h>
#include <init.h>
#include <sys_io.h>
#include <power.h>
#include <spi.h>
#include <spi/spi_intel.h>
#include "spi_intel.h"
#ifdef CONFIG_IOAPIC
#include <drivers/ioapic.h>
#endif
#define SYS_LOG_DOMAIN "SPI Intel"
#define SYS_LOG_LEVEL CONFIG_SYS_LOG_SPI_LEVEL
#include <misc/sys_log.h>
#define DEFINE_MM_REG_READ(__reg, __off, __sz) \
static inline uint32_t read_##__reg(uint32_t addr) \
{ \
return sys_read##__sz(addr + __off); \
}
#define DEFINE_MM_REG_WRITE(__reg, __off, __sz) \
static inline void write_##__reg(uint32_t data, uint32_t addr) \
{ \
sys_write##__sz(data, addr + __off); \
}
DEFINE_MM_REG_WRITE(sscr0, INTEL_SPI_REG_SSCR0, 32)
DEFINE_MM_REG_WRITE(sscr1, INTEL_SPI_REG_SSCR1, 32)
DEFINE_MM_REG_READ(sssr, INTEL_SPI_REG_SSSR, 32)
DEFINE_MM_REG_READ(ssdr, INTEL_SPI_REG_SSDR, 32)
DEFINE_MM_REG_WRITE(ssdr, INTEL_SPI_REG_SSDR, 32)
DEFINE_MM_REG_WRITE(dds_rate, INTEL_SPI_REG_DDS_RATE, 32)
#define DEFINE_SET_BIT_OP(__reg_bit, __reg_off, __bit) \
static inline void set_bit_##__reg_bit(uint32_t addr) \
{ \
sys_set_bit(addr + __reg_off, __bit); \
}
#define DEFINE_CLEAR_BIT_OP(__reg_bit, __reg_off, __bit) \
static inline void clear_bit_##__reg_bit(uint32_t addr) \
{ \
sys_clear_bit(addr + __reg_off, __bit); \
}
#define DEFINE_TEST_BIT_OP(__reg_bit, __reg_off, __bit) \
static inline int test_bit_##__reg_bit(uint32_t addr) \
{ \
return sys_test_bit(addr + __reg_off, __bit); \
}
DEFINE_SET_BIT_OP(sscr0_sse, INTEL_SPI_REG_SSCR0, INTEL_SPI_SSCR0_SSE_BIT)
DEFINE_CLEAR_BIT_OP(sscr0_sse, INTEL_SPI_REG_SSCR0, INTEL_SPI_SSCR0_SSE_BIT)
DEFINE_TEST_BIT_OP(sscr0_sse, INTEL_SPI_REG_SSCR0, INTEL_SPI_SSCR0_SSE_BIT)
DEFINE_TEST_BIT_OP(sssr_bsy, INTEL_SPI_REG_SSSR, INTEL_SPI_SSSR_BSY_BIT)
DEFINE_CLEAR_BIT_OP(sscr1_tie, INTEL_SPI_REG_SSCR1, INTEL_SPI_SSCR1_TIE_BIT)
DEFINE_TEST_BIT_OP(sscr1_tie, INTEL_SPI_REG_SSCR1, INTEL_SPI_SSCR1_TIE_BIT)
DEFINE_CLEAR_BIT_OP(sssr_ror, INTEL_SPI_REG_SSSR, INTEL_SPI_SSSR_ROR_BIT)
#ifdef CONFIG_SPI_CS_GPIO
#include <gpio.h>
static inline void _spi_config_cs(struct device *dev)
{
struct spi_intel_config *info = dev->config->config_info;
struct spi_intel_data *spi = dev->driver_data;
struct device *gpio;
gpio = device_get_binding(info->cs_gpio_name);
if (!gpio) {
spi->cs_gpio_port = NULL;
return;
}
gpio_pin_configure(gpio, info->cs_gpio_pin, GPIO_DIR_OUT);
/* Default CS line to high (idling) */
gpio_pin_write(gpio, info->cs_gpio_pin, 1);
spi->cs_gpio_port = gpio;
}
static inline void _spi_control_cs(struct device *dev, int on)
{
struct spi_intel_config *info = dev->config->config_info;
struct spi_intel_data *spi = dev->driver_data;
if (!spi->cs_gpio_port) {
return;
}
gpio_pin_write(spi->cs_gpio_port, info->cs_gpio_pin, !on);
}
#else
#define _spi_control_cs(...) { ; }
#define _spi_config_cs(...) { ; }
#endif /* CONFIG_SPI_CS_GPIO */
static void completed(struct device *dev, uint32_t error)
{
struct spi_intel_config *info = dev->config->config_info;
struct spi_intel_data *spi = dev->driver_data;
/* if received == trans_len, then transmitted == trans_len */
if (!(spi->received == spi->trans_len) && !error) {
return;
}
spi->error = error;
_spi_control_cs(dev, 0);
write_sscr1(spi->sscr1, info->regs);
clear_bit_sscr0_sse(info->regs);
device_sync_call_complete(&spi->sync);
}
static void pull_data(struct device *dev)
{
struct spi_intel_config *info = dev->config->config_info;
struct spi_intel_data *spi = dev->driver_data;
uint32_t cnt = 0;
uint8_t data = 0;
while (read_sssr(info->regs) & INTEL_SPI_SSSR_RNE) {
data = (uint8_t) read_ssdr(info->regs);
cnt++;
spi->received++;
if ((spi->received - 1) < spi->r_buf_len) {
*(uint8_t *)(spi->rx_buf) = data;
spi->rx_buf++;
}
}
SYS_LOG_DBG("Pulled: %d (total: %d)", cnt, spi->received);
}
static void push_data(struct device *dev)
{
struct spi_intel_config *info = dev->config->config_info;
struct spi_intel_data *spi = dev->driver_data;
uint32_t cnt = 0;
uint8_t data;
uint32_t status;
while ((status = read_sssr(info->regs)) & INTEL_SPI_SSSR_TNF) {
if (status & INTEL_SPI_SSSR_RFS) {
break;
}
if (spi->tx_buf && (spi->transmitted < spi->t_buf_len)) {
data = *(uint8_t *)(spi->tx_buf);
spi->tx_buf++;
} else if (spi->transmitted < spi->trans_len) {
data = 0;
} else {
/* Nothing to push anymore for now */
break;
}
cnt++;
SYS_LOG_DBG("Pushing 1 byte (total: %d)", cnt);
write_ssdr(data, info->regs);
spi->transmitted++;
}
SYS_LOG_DBG("Pushed: %d (total: %d)", cnt, spi->transmitted);
if (spi->transmitted == spi->trans_len) {
clear_bit_sscr1_tie(info->regs);
}
}
static int spi_intel_configure(struct device *dev,
struct spi_config *config)
{
struct spi_intel_config *info = dev->config->config_info;
struct spi_intel_data *spi = dev->driver_data;
uint32_t flags = config->config;
uint32_t mode;
SYS_LOG_DBG("spi_intel_configure: %p (0x%x), %p", dev, info->regs, config);
/* Check status */
if (test_bit_sscr0_sse(info->regs) && test_bit_sssr_bsy(info->regs)) {
SYS_LOG_DBG("spi_intel_configure: Controller is busy");
return -EBUSY;
}
/* Pre-configuring the registers to a clean state*/
spi->sscr0 = spi->sscr1 = 0;
write_sscr0(spi->sscr0, info->regs);
write_sscr1(spi->sscr1, info->regs);
SYS_LOG_DBG("spi_intel_configure: WS: %d, DDS_RATE: 0x%x SCR: %d",
SPI_WORD_SIZE_GET(flags),
INTEL_SPI_DSS_RATE(config->max_sys_freq),
INTEL_SPI_SSCR0_SCR(config->max_sys_freq) >> 8);
/* Word size and clock rate */
spi->sscr0 = INTEL_SPI_SSCR0_DSS(SPI_WORD_SIZE_GET(flags)) |
INTEL_SPI_SSCR0_SCR(config->max_sys_freq);
/* Tx/Rx thresholds
* Note: Rx thresholds needs to be 1, it does not seem to be able
* to trigger reliably any interrupt with another value though the
* rx fifo would be full
*/
spi->sscr1 |= INTEL_SPI_SSCR1_TFT(INTEL_SPI_SSCR1_TFT_DFLT) |
INTEL_SPI_SSCR1_RFT(INTEL_SPI_SSCR1_RFT_DFLT);
/* SPI mode */
mode = SPI_MODE(flags);
if (mode & SPI_MODE_CPOL) {
spi->sscr1 |= INTEL_SPI_SSCR1_SPO;
}
if (mode & SPI_MODE_CPHA) {
spi->sscr1 |= INTEL_SPI_SSCR1_SPH;
}
if (mode & SPI_MODE_LOOP) {
spi->sscr1 |= INTEL_SPI_SSCR1_LBM;
}
/* Configuring the rate */
write_dds_rate(INTEL_SPI_DSS_RATE(config->max_sys_freq), info->regs);
return 0;
}
static int spi_intel_transceive(struct device *dev,
const void *tx_buf, uint32_t tx_buf_len,
void *rx_buf, uint32_t rx_buf_len)
{
struct spi_intel_config *info = dev->config->config_info;
struct spi_intel_data *spi = dev->driver_data;
SYS_LOG_DBG("spi_dw_transceive: %p, %p, %u, %p, %u",
dev, tx_buf, tx_buf_len, rx_buf, rx_buf_len);
/* Check status */
if (test_bit_sscr0_sse(info->regs) && test_bit_sssr_bsy(info->regs)) {
SYS_LOG_DBG("spi_intel_transceive: Controller is busy");
return -EBUSY;
}
/* Set buffers info */
spi->tx_buf = tx_buf;
spi->rx_buf = rx_buf;
spi->t_buf_len = tx_buf_len;
spi->r_buf_len = rx_buf_len;
spi->transmitted = 0;
spi->received = 0;
spi->trans_len = max(tx_buf_len, rx_buf_len);
_spi_control_cs(dev, 1);
/* Enabling the controller */
write_sscr0(spi->sscr0 | INTEL_SPI_SSCR0_SSE, info->regs);
/* Installing the registers */
write_sscr1(spi->sscr1 | INTEL_SPI_SSCR1_RIE |
INTEL_SPI_SSCR1_TIE, info->regs);
device_sync_call_wait(&spi->sync);
if (spi->error) {
spi->error = 0;
return -EIO;
}
return 0;
}
void spi_intel_isr(void *arg)
{
struct device *dev = arg;
struct spi_intel_config *info = dev->config->config_info;
uint32_t error = 0;
uint32_t status;
SYS_LOG_DBG("spi_intel_isr: %p", dev);
status = read_sssr(info->regs);
if (status & INTEL_SPI_SSSR_ROR) {
/* Unrecoverable error, ack it */
clear_bit_sssr_ror(info->regs);
error = 1;
goto out;
}
if (status & INTEL_SPI_SSSR_RFS) {
pull_data(dev);
}
if (test_bit_sscr1_tie(info->regs)) {
if (status & INTEL_SPI_SSSR_TFS) {
push_data(dev);
}
}
out:
completed(dev, error);
}
static struct spi_driver_api intel_spi_api = {
.configure = spi_intel_configure,
.slave_select = NULL,
.transceive = spi_intel_transceive,
};
#ifdef CONFIG_PCI
static inline int spi_intel_setup(struct device *dev)
{
struct spi_intel_config *info = dev->config->config_info;
pci_bus_scan_init();
if (!pci_bus_scan(&info->pci_dev)) {
SYS_LOG_DBG("Could not find device");
return 0;
}
#ifdef CONFIG_PCI_ENUMERATION
info->regs = info->pci_dev.addr;
info->irq = info->pci_dev.irq;
#endif
pci_enable_regs(&info->pci_dev);
pci_show(&info->pci_dev);
return 1;
}
#else
#define spi_intel_setup(_unused_) (1)
#endif /* CONFIG_PCI */
int spi_intel_init(struct device *dev)
{
struct spi_intel_config *info = dev->config->config_info;
struct spi_intel_data *spi = dev->driver_data;
if (!spi_intel_setup(dev)) {
return -EPERM;
}
info->config_func();
_spi_config_cs(dev);
device_sync_call_init(&spi->sync);
irq_enable(info->irq);
SYS_LOG_DBG("SPI Intel Driver initialized on device: %p", dev);
dev->driver_api = &intel_spi_api;
return 0;
}
#ifdef CONFIG_DEVICE_POWER_MANAGEMENT
static int spi_intel_suspend(struct device *dev, int pm_policy)
{
struct spi_intel_config *info = dev->config->config_info;
SYS_LOG_DBG("spi_intel_suspend: %p", dev);
clear_bit_sscr0_sse(info->regs);
irq_disable(info->irq);
return 0;
}
static int spi_intel_resume(struct device *dev, int pm_policy)
{
struct spi_intel_config *info = dev->config->config_info;
SYS_LOG_DBG("spi_intel_resume: %p", dev);
set_bit_sscr0_sse(info->regs);
irq_enable(info->irq);
return 0;
}
#endif
DEFINE_DEVICE_PM_OPS(spi, spi_intel_suspend, spi_intel_resume);
/* system bindings */
#ifdef CONFIG_SPI_0
void spi_config_0_irq(void);
struct spi_intel_data spi_intel_data_port_0;
struct spi_intel_config spi_intel_config_0 = {
.regs = SPI_INTEL_PORT_0_REGS,
.irq = SPI_INTEL_PORT_0_IRQ,
#if CONFIG_PCI
.pci_dev.class_type = SPI_INTEL_CLASS,
.pci_dev.bus = SPI_INTEL_PORT_0_BUS,
.pci_dev.dev = SPI_INTEL_PORT_0_DEV,
.pci_dev.vendor_id = SPI_INTEL_VENDOR_ID,
.pci_dev.device_id = SPI_INTEL_DEVICE_ID,
.pci_dev.function = SPI_INTEL_PORT_0_FUNCTION,
#endif
#ifdef CONFIG_SPI_CS_GPIO
.cs_gpio_name = CONFIG_SPI_0_CS_GPIO_PORT,
.cs_gpio_pin = CONFIG_SPI_0_CS_GPIO_PIN,
#endif
.config_func = spi_config_0_irq
};
/* SPI may use GPIO pin for CS, thus it needs to be initialized after GPIO */
DEVICE_INIT_PM(spi_intel_port_0, CONFIG_SPI_0_NAME, spi_intel_init,
DEVICE_PM_OPS_GET(spi), &spi_intel_data_port_0,
&spi_intel_config_0, SECONDARY, CONFIG_SPI_INIT_PRIORITY);
void spi_config_0_irq(void)
{
IRQ_CONNECT(SPI_INTEL_PORT_0_IRQ, CONFIG_SPI_0_IRQ_PRI,
spi_intel_isr, DEVICE_GET(spi_intel_port_0),
SPI_INTEL_IRQ_FLAGS);
}
#endif /* CONFIG_SPI_0 */
#ifdef CONFIG_SPI_1
void spi_config_1_irq(void);
struct spi_intel_data spi_intel_data_port_1;
struct spi_intel_config spi_intel_config_1 = {
.regs = SPI_INTEL_PORT_1_REGS,
.irq = SPI_INTEL_PORT_1_IRQ,
#if CONFIG_PCI
.pci_dev.class_type = SPI_INTEL_CLASS,
.pci_dev.bus = SPI_INTEL_PORT_1_BUS,
.pci_dev.dev = SPI_INTEL_PORT_1_DEV,
.pci_dev.function = SPI_INTEL_PORT_1_FUNCTION,
.pci_dev.vendor_id = SPI_INTEL_VENDOR_ID,
.pci_dev.device_id = SPI_INTEL_DEVICE_ID,
#endif
#ifdef CONFIG_SPI_CS_GPIO
.cs_gpio_name = CONFIG_SPI_1_CS_GPIO_PORT,
.cs_gpio_pin = CONFIG_SPI_1_CS_GPIO_PIN,
#endif
.config_func = spi_config_1_irq
};
/* SPI may use GPIO pin for CS, thus it needs to be initialized after GPIO */
DEVICE_INIT_PM(spi_intel_port_1, CONFIG_SPI_1_NAME, spi_intel_init,
DEVICE_PM_OPS_GET(spi), &spi_intel_data_port_1,
&spi_intel_config_1, SECONDARY, CONFIG_SPI_INIT_PRIORITY);
void spi_config_1_irq(void)
{
IRQ_CONNECT(SPI_INTEL_PORT_1_IRQ, CONFIG_SPI_1_IRQ_PRI,
spi_intel_isr, DEVICE_GET(spi_intel_port_1),
SPI_INTEL_IRQ_FLAGS);
}
#endif /* CONFIG_SPI_1 */
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