esp-open-rtos/extras/fram/fram.c

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2017-12-24 13:49:52 +00:00
/**
* Driver for serial nonvolatile ferroelectric random access
* memory or F-RAM.
*
* Part of esp-open-rtos
* Copyright (C) 2017 Ruslan V. Uss <unclerus@gmail.com>
* BSD Licensed as described in the file LICENSE
*/
#include "fram.h"
#include <esp/gpio.h>
#define CMD_WRSR 0x01 // 0b00000001
#define CMD_WRITE 0x02 // 0b00000010
#define CMD_READ 0x03 // 0b00000011
#define CMD_WRDI 0x04 // 0b00000100
#define CMD_RDSR 0x05 // 0b00000101
#define CMD_WREN 0x06 // 0b00000110
#define CMD_FSTRD 0x0b // 0b00001011
#define CMD_RDID 0x9f // 0b10011111
#define CMD_SLEEP 0xb9 // 0b10111001
#define CMD_SNR 0xc3 // 0b11000011
#define SR_BIT_WEL 1
#define SR_BIT_BP0 2
#define SR_BIT_BP1 3
#define SR_BIT_WPEN 7
#define SR_MASK_BP (0x03 << SR_BIT_BP0)
static const spi_settings_t defaults = {
.endianness = SPI_BIG_ENDIAN,
.msb = true,
.mode = SPI_MODE0,
.minimal_pins = true,
.freq_divider = SPI_FREQ_DIV_40M
};
inline static void chip_select(const fram_t *dev)
{
gpio_write(dev->cs_gpio, false);
}
inline static void chip_unselect(const fram_t *dev)
{
gpio_write(dev->cs_gpio, true);
}
static uint8_t read_status_reg(const fram_t *dev)
{
chip_select(dev);
spi_transfer_8(dev->spi_bus, CMD_RDSR);
uint8_t res = spi_transfer_8(dev->spi_bus, 0xff);
chip_unselect(dev);
return res;
}
static void write_status_reg(const fram_t *dev, uint8_t val)
{
chip_select(dev);
spi_transfer_8(dev->spi_bus, CMD_WREN);
chip_unselect(dev);
chip_select(dev);
spi_transfer_8(dev->spi_bus, CMD_WRSR);
spi_transfer_8(dev->spi_bus, val);
}
void fram_init(const fram_t *dev)
{
gpio_enable(dev->cs_gpio, GPIO_OUTPUT);
gpio_set_pullup(dev->cs_gpio, true, true);
chip_unselect(dev);
}
static void begin(const fram_t *dev, spi_settings_t *s, spi_settings_t *old)
{
spi_get_settings(dev->spi_bus, &old);
memcpy(&s, &defaults, sizeof(spi_settings_t));
s->freq_divider = dev->spi_freq_div;
spi_set_settings(dev->spi_bus, &s);
chip_select(dev);
}
static void end(const fram_t *dev, spi_settings_t *old)
{
chip_unselect(dev);
spi_set_settings(dev->spi_bus, &old);
}
void fram_read(const fram_t *dev, void *to, void *from, size_t size)
{
spi_settings_t s, old;
begin(dev, &s, &old);
uint32_t header = ((uint32_t)CMD_READ << 24) | ((uint32_t)from & 0x00ffffff);
spi_transfer_32(dev->spi_bus, header);
spi_set_endianness(dev->spi_bus, SPI_LITTLE_ENDIAN);
spi_read(dev->spi_bus, 0xff, to, size, SPI_8BIT);
end(dev, &old);
}
void fram_write(const fram_t *dev, void *from, void *to, size_t size)
{
spi_settings_t s, old;
begin(dev, &s, &old);
spi_transfer_8(dev->spi_bus, CMD_WREN);
chip_unselect(dev);
chip_select(dev);
uint32_t header = ((uint32_t)CMD_WRITE << 24) | ((uint32_t)to & 0x00ffffff);
spi_transfer_32(dev->spi_bus, header);
spi_set_endianness(dev->spi_bus, SPI_LITTLE_ENDIAN);
spi_transfer(dev->spi_bus, from, NULL, size, SPI_8BIT);
end(dev, &old);
}
void fram_sleep(const fram_t *dev, bool sleep)
{
if (!sleep)
{
chip_select(dev);
chip_unselect(dev);
return;
}
spi_settings_t s, old;
begin(dev, &s, &old);
spi_transfer_8(dev->spi_bus, CMD_SLEEP);
end(dev, &old);
}
bool fram_busy(const fram_t *dev)
{
gpio_enable(dev->cs_gpio, GPIO_INPUT);
bool res = !gpio_read(dev->cs_gpio);
fram_init(dev);
return res;
}
void fram_id(const fram_t *dev, fram_id_t *id)
{
spi_settings_t s, old;
begin(dev, &s, &old);
spi_transfer_8(dev->spi_bus, CMD_RDID);
for (uint8_t i = 0; i < FRAM_ID_LEN; i ++)
id->data[FRAM_ID_LEN - i - 1] = spi_transfer_8(dev->spi_bus, 0xff);
end(dev, &old);
}
void fram_set_wp_mode(const fram_t *dev, fram_wp_mode_t mode)
{
spi_settings_t s, old;
begin(dev, &s, &old);
write_status_reg(dev, (read_status_reg(dev) & ~SR_MASK_BP) | ((mode & 0x03) << SR_BIT_BP0));
end(dev, &old);
}
fram_wp_mode_t fram_get_wp_mode(const fram_t *dev)
{
spi_settings_t s, old;
begin(dev, &s, &old);
fram_wp_mode_t res = (fram_wp_mode_t)((read_status_reg(dev) & SR_MASK_BP) >> SR_BIT_BP0);
end(dev, &old);
return res;
}