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flash.c
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flash.c
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#include "globals.h"
#include "spi.h"
#include "flash.h"
#include "serial.h"
#include "clock.h"
#include <stdio.h>
#include <util/delay.h>
#include <avr/wdt.h>
#include <avr/pgmspace.h>
#define MOD_ADLER 65521
uint8_t flash_buf[256];
uint16_t flash_addr;
volatile uint16_t flash_buf_ctr;
bool_t flag_flash_power_hold = false;
void flash_enable_write(void);
void flash_wait_for_wel(void);
uint8_t flash_status(void);
void flash_wait_for_idle(void);
bool_t flash_busy(void);
void flash_init(void) {
DDRC |= _BV(DDC4); // /CS
strcpy_P(serial_out, PSTR("\r\nFlash initialized\r\n"));
usart_send();
while (flag_serial_sending);
//flash_powerdown();
}
void flash_doheader() {
if (flag_want_header) {
flash_buf[0] = 0xFF;
flash_buf[1] = 0xEE;
flash_buf[2] = 0;
flash_buf[3] = clock.hours;
flash_buf[4] = clock.minutes;
flash_buf[5] = clock.seconds;
flash_buf[6] = buttonPresses;
flash_buf_ctr = 7;
flag_want_header = false;
}
}
void flash_condwrite() {
if (flash_buf_ctr > 253) { // Leave room for 3 byte writes
//uint8_t i;
//bool_t nonzero = false;
if (flag_flash_verbose) {
sprintf(serial_out, "\r\ncondwrite to flash at %d %ld\r\n", flash_addr, clock_ticks);
usart_send();
while (flag_serial_sending);
}
flash_write(flash_addr++);
flash_buf_ctr = 0;
flag_want_header = true;
}
}
uint8_t flash_status(void) {
uint8_t status;
flash_select();
spi_send(INSTR_READ_STATUS1);
status = spi_send(DONTCARE);
flash_deselect();
//wdt_reset();
return status;
}
void flash_scan() {
uint8_t data;
if (flag_flash_verbose) {
strcpy_P(serial_out, PSTR("\r\nPowering up flash\r\n"));
usart_send();
while (flag_serial_sending);
}
flash_powerup();
if (flag_flash_verbose) {
strcpy_P(serial_out, PSTR("\r\nWaiting for idle\r\n"));
usart_send();
while (flag_serial_sending);
}
flash_wait_for_idle();
for(flash_addr=0; flash_addr < 4096; flash_addr++) {
flash_select();
spi_send(INSTR_READ_DATA);
spi_send(flash_addr >> 8);
spi_send(flash_addr & 0xFF);
spi_send(1); // Check the second byte of each page
data = spi_send(DONTCARE);
flash_deselect();
wdt_reset();
if (data == 0xFF)
break;
}
flash_powerdown();
}
uint32_t flash_adler32(void) {
uint32_t a = 1, b = 0;
uint16_t i;
flash_powerup();
flash_power_hold(1);
for(flash_addr=0; flash_addr < 4096; flash_addr++) {
bool_t verified = false;
while (!verified) {
flash_fast_read(flash_addr);
verified = flash_verify(flash_addr);
if (!verified)
_delay_ms(25);
/*
sprintf(serial_out, "%u %d\r\n", flash_addr, verified);
usart_send();
while (flag_serial_sending);
*/
}
if (flash_buf[1] == 0xFF)
break;
for(i=0; i<256; i++) {
a = (a + flash_buf[i]) % MOD_ADLER;
b = (b + a) % MOD_ADLER;
}
/*
sprintf(serial_out, "%u %lu %lu\r\n", flash_addr, a, b);
usart_send();
while (flag_serial_sending);
*/
wdt_reset();
clock_update();
}
flash_power_hold(0);
flash_powerdown();
return (b << 16) | a;
}
void flash_enable_write(void) {
flash_wait_for_idle();
do {
flash_select();
spi_send(INSTR_WRITE_ENABLE);
flash_deselect();
} while (!(flash_status() & STATUS_WEL));
}
void flash_write(uint16_t addr) {
int i;
uint8_t retval;
if (flag_flash_verbose) {
sprintf(serial_out, "\r\nwrite to flash at %d %ld\r\n", flash_addr, clock_ticks);
usart_send();
while (flag_serial_sending);
}
do {
flash_powerup();
flash_enable_write();
flash_wait_for_idle();
//_delay_ms(50);
flash_select();
spi_send(INSTR_PAGE_PROGRAM);
spi_send(addr >> 8);
spi_send(addr & 0xFF);
spi_send(0);
for(i=0; i<256; i++) {
spi_send(flash_buf[i]);
}
flash_deselect();
// Now verify that the write actually "took"
flash_wait_for_idle();
flash_select();
spi_send(INSTR_READ_DATA);
spi_send(addr >> 8);
spi_send(addr & 0xFF);
spi_send(1);
retval = spi_send(DONTCARE);
flash_deselect();
} while (flash_buf[1] != 0xff && retval == 0xff);
flash_powerdown();
}
void flash_read(uint16_t addr) {
int i;
flash_powerup();
flash_select();
spi_send(INSTR_READ_DATA);
spi_send(addr >> 8);
spi_send(addr & 0xFF);
spi_send(0);
for(i=0; i<256; i++) {
flash_buf[i] = spi_send(DONTCARE);
PORTD ^= _BV(PORTD6);
}
flash_deselect();
flash_powerdown();
}
void flash_fast_read(uint16_t addr) {
int i;
flash_powerup();
flash_select();
spi_send(INSTR_FAST_READ);
spi_send(addr >> 8);
spi_send(addr & 0xFF);
spi_send(0);
spi_send(DONTCARE);
for(i=0; i<256; i++) {
flash_buf[i] = spi_send(DONTCARE);
PORTD ^= _BV(PORTD6);
}
flash_deselect();
flash_powerdown();
}
bool_t flash_verify(uint16_t addr) {
int i;
flash_powerup();
flash_select();
spi_send(INSTR_READ_DATA);
spi_send(addr >> 8);
spi_send(addr & 0xFF);
spi_send(0);
for(i=0; i<256; i++) {
if (flash_buf[i] != spi_send(DONTCARE)) {
return false;
}
PORTD ^= _BV(PORTD6);
}
flash_deselect();
flash_powerdown();
return true;
}
void flash_erase(void) {
flash_powerup();
_delay_ms(50);
flash_enable_write();
flash_wait_for_idle();
flash_select();
spi_send(INSTR_CHIP_ERASE);
flash_deselect();
flash_powerdown();
flag_want_header = true;
flash_buf_ctr = 0;
}
void flash_wait_for_idle(void) {
flash_select();
spi_send(INSTR_READ_STATUS1);
while (spi_send(DONTCARE) & STATUS_BUSY);
flash_deselect();
}
void flash_wait_for_wel(void) {
flash_select();
spi_send(INSTR_READ_STATUS1);
while (!(spi_send(DONTCARE) & STATUS_WEL));
flash_deselect();
}
bool_t flash_busy(void) {
uint8_t status;
flash_select();
spi_send(INSTR_READ_STATUS1);
status = spi_send(DONTCARE);
flash_deselect();
return status & STATUS_BUSY;
}