rt-thread/bsp/essemi/es32f369x/drivers/drv_spi.c

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/*
* Copyright (C) 2018 Shanghai Eastsoft Microelectronics Co., Ltd.
*
* SPDX-License-Identifier: Apache-2.0
*
* Change Logs:
* Date Author Notes
* 2020-01-14 wangyq the first version
* 2019-11-01 wangyq update libraries
*/
#include <rtthread.h>
#include <rtdevice.h>
#include <string.h>
#include <rthw.h>
#include "board.h"
#include "drv_spi.h"
#include <ald_spi.h>
#include <ald_gpio.h>
#include <ald_cmu.h>
#ifdef RT_USING_SPI
#define SPITIMEOUT 0xFFFF
rt_err_t spi_configure(struct rt_spi_device *device,
struct rt_spi_configuration *cfg)
{
spi_handle_t *hspi;
hspi = (spi_handle_t *)device->bus->parent.user_data;
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hspi->init.ss_en = DISABLE;
hspi->init.crc_calc = DISABLE;
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/* config spi mode */
if (cfg->mode & RT_SPI_SLAVE)
{
hspi->init.mode = SPI_MODE_SLAVER;
}
else
{
hspi->init.mode = SPI_MODE_MASTER;
}
if (cfg->mode & RT_SPI_3WIRE)
{
hspi->init.dir = SPI_DIRECTION_1LINE;
}
else
{
hspi->init.dir = SPI_DIRECTION_2LINES;
}
if (cfg->data_width == 8)
{
hspi->init.data_size = SPI_DATA_SIZE_8;
}
else if (cfg->data_width == 16)
{
hspi->init.data_size = SPI_DATA_SIZE_16;
}
if (cfg->mode & RT_SPI_CPHA)
{
hspi->init.phase = SPI_CPHA_SECOND;
}
else
{
hspi->init.phase = SPI_CPHA_FIRST;
}
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if (cfg->mode & RT_SPI_MSB)
{
hspi->init.first_bit = SPI_FIRSTBIT_MSB;
}
else
{
hspi->init.first_bit = SPI_FIRSTBIT_LSB;
}
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if (cfg->mode & RT_SPI_CPOL)
{
hspi->init.polarity = SPI_CPOL_HIGH;
}
else
{
hspi->init.polarity = SPI_CPOL_LOW;
}
if (cfg->mode & RT_SPI_NO_CS)
{
hspi->init.ss_en = DISABLE;
}
else
{
hspi->init.ss_en = ENABLE;
}
/* config spi clock */
if (cfg->max_hz >= ald_cmu_get_pclk1_clock() / 2)
{
/* pclk1 max speed 48MHz, spi master max speed 10MHz */
if (ald_cmu_get_pclk1_clock() / 2 <= 10000000)
{
hspi->init.baud = SPI_BAUD_2;
}
else if (ald_cmu_get_pclk1_clock() / 4 <= 10000000)
{
hspi->init.baud = SPI_BAUD_4;
}
else
{
hspi->init.baud = SPI_BAUD_8;
}
}
else if (cfg->max_hz >= ald_cmu_get_pclk1_clock() / 4)
{
/* pclk1 max speed 48MHz, spi master max speed 10MHz */
if (ald_cmu_get_pclk1_clock() / 4 <= 10000000)
{
hspi->init.baud = SPI_BAUD_4;
}
else
{
hspi->init.baud = SPI_BAUD_8;
}
}
else if (cfg->max_hz >= ald_cmu_get_pclk1_clock() / 8)
{
hspi->init.baud = SPI_BAUD_8;
}
else if (cfg->max_hz >= ald_cmu_get_pclk1_clock() / 16)
{
hspi->init.baud = SPI_BAUD_16;
}
else if (cfg->max_hz >= ald_cmu_get_pclk1_clock() / 32)
{
hspi->init.baud = SPI_BAUD_32;
}
else if (cfg->max_hz >= ald_cmu_get_pclk1_clock() / 64)
{
hspi->init.baud = SPI_BAUD_64;
}
else if (cfg->max_hz >= ald_cmu_get_pclk1_clock() / 128)
{
hspi->init.baud = SPI_BAUD_128;
}
else
{
hspi->init.baud = SPI_BAUD_256;
}
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ald_spi_init(hspi);
return RT_EOK;
}
static rt_uint32_t spixfer(struct rt_spi_device *device, struct rt_spi_message *message)
{
rt_err_t res;
spi_handle_t *hspi;
struct es32f3_hw_spi_cs *cs;
RT_ASSERT(device != RT_NULL);
RT_ASSERT(device->bus != RT_NULL);
RT_ASSERT(device->bus->parent.user_data != RT_NULL);
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hspi = (spi_handle_t *)device->bus->parent.user_data;
cs = device->parent.user_data;
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if(message->send_buf != RT_NULL || message->recv_buf != RT_NULL)
{
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/* send & receive */
if ((message->send_buf != RT_NULL) && (message->recv_buf != RT_NULL))
{
if (message->cs_take)
{
rt_pin_write(cs->pin, 0);
}
res = ald_spi_send_recv(hspi, (rt_uint8_t *)message->send_buf, (rt_uint8_t *)message->recv_buf,
(rt_int32_t)message->length, SPITIMEOUT);
if (message->cs_release)
{
rt_pin_write(cs->pin, 1);
}
if (res != RT_EOK)
return RT_ERROR;
}
else
{
/* only send data */
if (message->recv_buf == RT_NULL)
{
if (message->cs_take)
{
rt_pin_write(cs->pin, 0);
}
res = ald_spi_send(hspi, (rt_uint8_t *)message->send_buf, (rt_int32_t)message->length, SPITIMEOUT);
if (message->cs_release)
{
rt_pin_write(cs->pin, 1);
}
if (res != RT_EOK)
return RT_ERROR;
}
/* only receive data */
if (message->send_buf == RT_NULL)
{
if (message->cs_take)
{
rt_pin_write(cs->pin, 0);
}
res = ald_spi_recv(hspi, (rt_uint8_t *)message->recv_buf, (rt_int32_t)message->length, SPITIMEOUT);
if (message->cs_release)
{
rt_pin_write(cs->pin, 1);
}
if (res != RT_EOK)
return RT_ERROR;
}
}
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}
else
{
if (message->cs_take)
{
rt_pin_write(cs->pin, 0);
}
if (message->cs_release)
{
rt_pin_write(cs->pin, 1);
}
return RT_EOK;
}
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return message->length;
}
const struct rt_spi_ops es32f3_spi_ops =
{
spi_configure,
spixfer,
};
rt_err_t es32f3_spi_device_attach(rt_uint32_t pin, const char *bus_name, const char *device_name)
{
/* define spi Instance */
struct rt_spi_device *spi_device = (struct rt_spi_device *)rt_malloc(sizeof(struct rt_spi_device));
RT_ASSERT(spi_device != RT_NULL);
struct es32f3_hw_spi_cs *cs_pin = (struct es32f3_hw_spi_cs *)rt_malloc(sizeof(struct es32f3_hw_spi_cs));
RT_ASSERT(cs_pin != RT_NULL);
cs_pin->pin = pin;
rt_pin_mode(pin, PIN_MODE_OUTPUT);
rt_pin_write(pin, 1);
return rt_spi_bus_attach_device(spi_device, device_name, bus_name, (void *)cs_pin);
}
#ifdef BSP_USING_SPI0
static struct rt_spi_bus _spi_bus0;
static spi_handle_t _spi0;
#endif
#ifdef BSP_USING_SPI1
static struct rt_spi_bus _spi_bus1;
static spi_handle_t _spi1;
#endif
#ifdef BSP_USING_SPI2
static struct rt_spi_bus _spi_bus2;
static spi_handle_t _spi2;
#endif
int rt_hw_spi_init(void)
{
int result = RT_EOK;
struct rt_spi_bus *spi_bus;
spi_handle_t *spi;
gpio_init_t gpio_instruct;
#ifdef BSP_USING_SPI0
_spi0.perh = SPI0;
spi_bus = &_spi_bus0;
spi = &_spi0;
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rt_device_t spi_bus_dev0;
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/* SPI0 gpio init */
gpio_instruct.mode = GPIO_MODE_OUTPUT;
gpio_instruct.odos = GPIO_PUSH_PULL;
gpio_instruct.podrv = GPIO_OUT_DRIVE_1;
gpio_instruct.nodrv = GPIO_OUT_DRIVE_1;
gpio_instruct.func = GPIO_FUNC_4;
gpio_instruct.type = GPIO_TYPE_TTL;
gpio_instruct.flt = GPIO_FILTER_DISABLE;
/* PB3->SPI0_SCK, PB5->SPI0_MOSI */
ald_gpio_init(GPIOB, GPIO_PIN_3 | GPIO_PIN_5, &gpio_instruct);
/* PB4->SPI0_MISO */
gpio_instruct.mode = GPIO_MODE_INPUT;
ald_gpio_init(GPIOB, GPIO_PIN_4, &gpio_instruct);
spi_bus->parent.user_data = spi;
result = rt_spi_bus_register(spi_bus, "spi0", &es32f3_spi_ops);
if (result != RT_EOK)
{
return result;
}
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rt_device_register(spi_bus_dev0, "spi00", RT_DEVICE_FLAG_RDWR);
/* SPI0_NSS = PA15 = PIN 50 */
result = es32f3_spi_device_attach(50, "spi0", "spi00");
if (result != RT_EOK)
{
return result;
}
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#endif
#ifdef BSP_USING_SPI1
_spi1.perh = SPI1;
spi_bus = &_spi_bus1;
spi = &_spi1;
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rt_device_t spi_bus_dev0;
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/* SPI1 gpio init */
gpio_instruct.mode = GPIO_MODE_OUTPUT;
gpio_instruct.odos = GPIO_PUSH_PULL;
gpio_instruct.podrv = GPIO_OUT_DRIVE_1;
gpio_instruct.nodrv = GPIO_OUT_DRIVE_1;
gpio_instruct.func = GPIO_FUNC_4;
gpio_instruct.type = GPIO_TYPE_TTL;
gpio_instruct.flt = GPIO_FILTER_DISABLE;
/* PC01->SPI1_SCK, PC03->SPI1_MOSI */
ald_gpio_init(GPIOC, GPIO_PIN_1 | GPIO_PIN_3, &gpio_instruct);
/* PC02->SPI1_MISO */
gpio_instruct.mode = GPIO_MODE_INPUT;
ald_gpio_init(GPIOC, GPIO_PIN_2, &gpio_instruct);
spi_bus->parent.user_data = spi;
result = rt_spi_bus_register(spi_bus, "spi1", &es32f3_spi_ops);
if (result != RT_EOK)
{
return result;
}
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rt_device_register(spi_bus_dev0, "spi10", RT_DEVICE_FLAG_RDWR);
/* SPI1_NSS = PC00 = PIN 8 */
result = es32f3_spi_device_attach(8, "spi1", "spi10");
if (result != RT_EOK)
{
return result;
}
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#endif
#ifdef BSP_USING_SPI2
_spi1.perh = SPI2;
spi_bus = &_spi_bus2;
spi = &_spi2;
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rt_device_t spi_bus_dev0;
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/* SPI2 gpio init */
gpio_instruct.mode = GPIO_MODE_OUTPUT;
gpio_instruct.odos = GPIO_PUSH_PULL;
gpio_instruct.podrv = GPIO_OUT_DRIVE_1;
gpio_instruct.nodrv = GPIO_OUT_DRIVE_1;
gpio_instruct.func = GPIO_FUNC_5;
gpio_instruct.type = GPIO_TYPE_TTL;
gpio_instruct.flt = GPIO_FILTER_DISABLE;
/* PC05->SPI1_SCK, PB01->SPI1_MOSI */
ald_gpio_init(GPIOC, GPIO_PIN_5 | GPIO_PIN_1, &gpio_instruct);
/* PB00->SPI1_MISO */
gpio_instruct.mode = GPIO_MODE_INPUT;
ald_gpio_init(GPIOB, GPIO_PIN_0, &gpio_instruct);
spi_bus->parent.user_data = spi;
result = rt_spi_bus_register(spi_bus, "spi2", &es32f3_spi_ops);
if (result != RT_EOK)
{
return result;
}
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rt_device_register(spi_bus_dev0, "spi20", RT_DEVICE_FLAG_RDWR);
/* SPI2_NSS = PC04 = PIN 24 */
result = es32f3_spi_device_attach(39, "spi2", "spi20");
if (result != RT_EOK)
{
return result;
}
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#endif
return result;
}
INIT_BOARD_EXPORT(rt_hw_spi_init);
#endif