gadget-flash-extractor/spi_drv_stm32f4.c

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2019-05-24 09:26:55 +02:00
/* spi_drv.h
*
* Driver for the SPI back-end of the SPI_FLASH module.
*
* Example implementation for stm32F4, using SPI1.
*
* Pinout: see spi_drv_stm32f4.h
*
*
* this is free software; you can redistribute it and/or modify
* it under the terms of the GNU General Public License as published by
* the Free Software Foundation; either version 2 of the License, or
* (at your option) any later version.
*
* this software is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
* GNU General Public License for more details.
*
* You should have received a copy of the GNU General Public License
* along with this program; if not, write to the Free Software
* Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1335, USA
*/
#include <stdint.h>
#include "spi_drv.h"
#include "spi_drv_stm32f4.h"
void spi_cs_off(void)
{
GPIOA_BSRR |= (1 << SPI_FLASH_PIN);
while(!(GPIOA_ODR & (1 << SPI_FLASH_PIN)))
;
}
void spi_cs_on(void)
{
GPIOA_BSRR |= (1 << (SPI_FLASH_PIN + 16));
while(GPIOA_ODR & (1 << SPI_FLASH_PIN))
;
}
static void spi_flash_pin_setup(void)
{
uint32_t reg;
AHB1_CLOCK_ER |= GPIOA_AHB1_CLOCK_ER;
reg = GPIOA_MODE & ~ (0x03 << (SPI_FLASH_PIN * 2));
GPIOA_MODE = reg | (1 << (SPI_FLASH_PIN * 2));
reg = GPIOA_PUPD & ~(0x03 << (SPI_FLASH_PIN * 2));
GPIOA_PUPD = reg | (0x01 << (SPI_FLASH_PIN * 2));
reg = GPIOA_OSPD & ~(0x03 << (SPI_FLASH_PIN * 2));
GPIOA_OSPD |= (0x03 << (SPI_FLASH_PIN * 2));
}
static void spi1_pins_setup(void)
{
uint32_t reg;
AHB1_CLOCK_ER |= GPIOA_AHB1_CLOCK_ER;
/* Set mode = AF */
reg = GPIOA_MODE & ~ (0x03 << (SPI1_CLOCK_PIN * 2));
GPIOA_MODE = reg | (2 << (SPI1_CLOCK_PIN * 2));
reg = GPIOA_MODE & ~ (0x03 << (SPI1_MOSI_PIN * 2));
GPIOA_MODE = reg | (2 << (SPI1_MOSI_PIN * 2));
reg = GPIOA_MODE & ~ (0x03 << (SPI1_MISO_PIN * 2));
GPIOA_MODE = reg | (2 << (SPI1_MISO_PIN * 2));
/* Alternate function: use low pins (5,6,7) */
reg = GPIOA_AFL & ~(0xf << ((SPI1_CLOCK_PIN) * 4));
GPIOA_AFL = reg | (SPI1_PIN_AF << ((SPI1_CLOCK_PIN) * 4));
reg = GPIOA_AFL & ~(0xf << ((SPI1_MOSI_PIN) * 4));
GPIOA_AFL = reg | (SPI1_PIN_AF << ((SPI1_MOSI_PIN) * 4));
reg = GPIOA_AFL & ~(0xf << ((SPI1_MISO_PIN) * 4));
GPIOA_AFL = reg | (SPI1_PIN_AF << ((SPI1_MISO_PIN) * 4));
}
static void spi_pins_release(void)
{
uint32_t reg;
/* Set mode = 0 */
GPIOA_MODE &= ~ (0x03 << (SPI1_CLOCK_PIN * 2));
GPIOA_MODE &= ~ (0x03 << (SPI1_MOSI_PIN * 2));
GPIOA_MODE &= ~ (0x03 << (SPI1_MISO_PIN * 2));
/* Alternate function clear */
GPIOA_AFL &= ~(0xf << ((SPI1_CLOCK_PIN) * 4));
GPIOA_AFL &= ~(0xf << ((SPI1_MOSI_PIN) * 4));
GPIOA_AFL &= ~(0xf << ((SPI1_MISO_PIN) * 4));
/* Floating */
GPIOA_PUPD &= ~ (0x03 << (SPI1_CLOCK_PIN * 2));
GPIOA_PUPD &= ~ (0x03 << (SPI1_MOSI_PIN * 2));
GPIOA_PUPD &= ~ (0x03 << (SPI1_MISO_PIN * 2));
/* Release CS */
GPIOA_MODE &= ~ (0x03 << (SPI_FLASH_PIN * 2));
GPIOA_PUPD &= ~ (0x03 << (SPI_FLASH_PIN * 2));
/* Disable GPIOA clock */
AHB1_CLOCK_ER &= ~(GPIOA_AHB1_CLOCK_ER);
}
static void spi1_reset(void)
{
APB2_CLOCK_RST |= SPI1_APB2_CLOCK_ER_VAL;
APB2_CLOCK_RST &= ~SPI1_APB2_CLOCK_ER_VAL;
}
uint8_t spi_read(void)
{
volatile uint32_t reg;
do {
reg = SPI1_SR;
} while(!(reg & SPI_SR_RX_NOTEMPTY));
return (uint8_t)SPI1_DR;
}
void spi_write(const char byte)
{
int i;
volatile uint32_t reg;
do {
reg = SPI1_SR;
} while ((reg & SPI_SR_TX_EMPTY) == 0);
SPI1_DR = byte;
do {
reg = SPI1_SR;
} while ((reg & SPI_SR_TX_EMPTY) == 0);
}
void spi_init(int polarity, int phase)
{
spi1_pins_setup();
spi_flash_pin_setup();
APB2_CLOCK_ER |= SPI1_APB2_CLOCK_ER_VAL;
spi1_reset();
SPI1_CR1 = SPI_CR1_MASTER | (2 << 3) | (polarity << 1) | (phase << 0);
SPI1_CR2 |= SPI_CR2_SSOE;
SPI1_CR1 |= SPI_CR1_SPI_EN;
}
void spi_release(void)
{
spi1_reset();
SPI1_CR2 &= ~SPI_CR2_SSOE;
SPI1_CR1 = 0;
spi_pins_release();
}