#include "usart.h" #include #include #define EEPROM_TICK_MS 10 #define ADDRCR PORTB #define EEPROMCR PORTC #define EEPROMDR PORTD #define ADDR_BIT 0 #define ADDR_EL 3 #define ADDR_EH 4 #define ADDR_DL 5 #define ADDR_DH 6 #define EEPROM_WR 0 #define EEPROM_RD 1 #define EEPROM_CLK 2 struct file_blk { uint16_t addr; uint16_t size; }; void eeprom_write(uint16_t addr, uint8_t byte); void eeprom_tick(); int main(void) { uint8_t *buffer, i; size_t read; char str[64]; struct file_blk *blk = malloc(sizeof(struct file_blk)); DDRB = 0x7F; DDRC = 0x83; DDRD = 0xFC; /* get configuration */ usart_init(1200); usart_print("programmer Ready\n\n\r"); while (usart_read((uint8_t *) blk, sizeof(struct file_blk))) { buffer = malloc(blk->size); read = usart_read(buffer, blk->size); #ifdef DEBUG sprintf(str, "info : reading block from addr %d of size %d\n\r", blk->addr, blk->size); usart_print(str); if (read != blk->size) { sprintf(str, "error: expected %d but read %d\n\r", blk->size, read); usart_print(str); } #endif for (i = 0; i < read; i++) { eeprom_write(blk->addr +i, buffer[i]); } free(buffer); } free(blk); return 0; } void eeprom_write(uint16_t addr, uint8_t byte) { int bit; /* set address */ for (bit = 0; bit < 8; bit++) { // clear bit ADDRCR &= ~0x07; // select the bit ADDRCR |= bit; // write bit for lower byte if (addr & _BV(bit)) ADDRCR |= _BV(ADDR_DL); else ADDRCR &= ~_BV(ADDR_DL); // write bit for higher byte if ((addr>>8) & _BV(bit)) ADDRCR |= _BV(ADDR_DH); else ADDRCR &= ~_BV(ADDR_DH); } /* set data */ EEPROMDR = byte; // because EEPROMDR0 and EEPROMDR1 are used by Tx and Rx EEPROMCR = (PINC & 0x07) | (byte & 0x03)<<3; EEPROMCR &= ~(_BV(ADDR_EH) | _BV(ADDR_EL)); /* write eeprom */ EEPROMCR &= ~_BV(EEPROM_WR); // eeprom_tick(); EEPROMCR |= _BV(EEPROM_WR); EEPROMCR |= _BV(ADDR_EH) | _BV(ADDR_EL); } #if 0 /* pulse the clock line for the eeprom */ void eeprom_tick() { EEPROMCR |= _BV(EEPROM_CLK); _delay_ms(EEPROM_TICK_MS); EEPROMCR &= ~_BV(EEPROM_CLK); _delay_ms(EEPROM_TICK_MS); } #endif