/** * @breaf read the temperature on analog pins (10K termistor) and send sms with * teaded temperature * * @param smsc_nr: sms center number * nrtel: number hu recive sms */ static void StareTMP(char *smsc_nr, char *nrtel) { char mesage[64]; char buffer[18]; char tmpe[32]; memset(mesage, 0, sizeof(mesage)); memset(buffer, 0, sizeof(buffer)); memset(tmpe, 0, sizeof(tmpe)); int tmp, tmp1, tmp2; tmp = Thermistor(PC0); _delay_ms(30); tmp1 = Thermistor(PC0); _delay_ms(30); tmp2 = Thermistor(PC0); tmp = (tmp + tmp1 + tmp2) / 3; ReadEprom(buffer, 288); //18 * 16 if (strlen(buffer) != 0) { sprintf(tmpe, "%s: %d %s", buffer, tmp, "C\r\n"); strcat(mesage, tmpe); } tmp = Thermistor(PC1); _delay_ms(30); tmp1 = Thermistor(PC1); _delay_ms(30); tmp2 = Thermistor(PC1); tmp = (tmp + tmp1 + tmp2) / 3; ReadEprom(buffer, 306); //18 * 17 if (strlen(buffer) != 0) { sprintf(tmpe, "%s: %d %s", buffer, tmp, "C\r\n"); strcat(mesage, tmpe); } tmp = Thermistor(PC2); _delay_ms(30); tmp1 = Thermistor(PC2); _delay_ms(30); tmp2 = Thermistor(PC2); tmp = (tmp + tmp1 + tmp2) / 3; ReadEprom(buffer, 324); //18 * 18 if (strlen(buffer) != 0) { sprintf(tmpe, "%s: %d %c", buffer, tmp, 'C'); strcat(mesage, tmpe); } if (strlen(mesage) != 0) uart_sendsms(smsc_nr, nrtel, mesage); }
void StareTMP(char *nrtel) { char mesage[120]; char buffer[18]; char tmpe[32]; int tmp, tmp1, tmp2; tmp = Thermistor(PC0); delay(10); tmp1 = Thermistor(PC0); delay(10); tmp2 = Thermistor(PC0); tmp = (tmp + tmp1 + tmp2) / 3; ReadEprom(buffer, 18 * 18); if (strlen(buffer) != 0) { sprintf(tmpe, " %s: %d %s", buffer, tmp, "C\r\n"); strcat(mesage, tmpe); } tmp = Thermistor(PC1); delay(10); tmp1 = Thermistor(PC1); delay(10); tmp2 = Thermistor(PC1); tmp = (tmp + tmp1 + tmp2) / 3; ReadEprom(buffer, 18 * 19); if (strlen(buffer) != 0) { sprintf(tmpe, " %s: %d %s", buffer, tmp, "C\r\n"); strcat(mesage, tmpe); } tmp = Thermistor(PC2); delay(10); tmp1 = Thermistor(PC2); delay(10); tmp2 = Thermistor(PC2); tmp = (tmp + tmp1 + tmp2) / 3; ReadEprom(buffer, 18 * 20); if (strlen(buffer) != 0) { sprintf(tmpe, " %s: %d %c", buffer, tmp, 'C'); strcat(mesage, tmpe); } if (strlen(mesage) != 0) SendSms(nrtel, mesage); }
int eepromParametersInit(void) { UINT8 blank = 0; static UINT8 err_count = 0; start: ReadEprom(0, sizeof(blank), &blank); if (blank != 0xa5) { mprintf("empty eeprom found, writting default parameters!!!\r\n"); blank = 0xa5; WriteEprom(1, sizeof(gParameters), (UINT8 *) &gParameters); WriteEprom(0, sizeof(blank), &blank); if (err_count++ > 10) { mprintf("sorry,eeprom error!!\r\n"); return -1; //eeprom err!!! } goto start; } ReadEprom(1, sizeof(gParameters), (UINT8 *) &gParameters); return 0; }
//write the sms string for commands void Config(char *nrtel, char *inmsg) { char buffer[18]; int adr = 18; if ((strlen(nrtel) != 0) && (strlen(inmsg) != 0)) { //strcpy_P(buffer, (char*) pgm_read_word(&(comenzi[17]))); if (strstr_P(inmsg, LOGIN) != 0) { eeprom_write_block(nrtel, (int*) adr, 18); CfgCmd(inmsg); } else { ReadEprom(buffer, 18); if (strcmp(nrtel, buffer) == 0) CfgCmd(inmsg); } } }
int self_test_eeprom(void) { UINT8 data_ori[] = { 0, 1, 2, 3, 4, 5, 6, 7, 8 }; UINT8 i = 0, data_eeprom = 0; int err = CHECK_ERR_NONE; WriteEprom(EEPROM_ADDR_SELF_TEST, sizeof(data_ori), data_ori); for (i = 0; i < sizeof(data_ori); i++) { ReadEprom((UINT16) (EEPROM_ADDR_SELF_TEST + i), (UINT16) 1, &data_eeprom); if (i != data_eeprom) { mprintf("err eeprom self test!\r\n"); err = CHECK_ERR; } } mprintf("eeprom self test success!!!"); bms_setSlefDetResByType(SELF_DETECTION_EEPROM, err); return err; }
void loop() { // The loop function is called in an endless loop int id = 0; //int error = 0; //error from function byte i = 0; if (delEEPROM) return; if (config) { if (Serial.available() > 0) { while (Serial.available() > 0) { sms_rx[i] = (Serial.read()); //read data i++; } sms_rx[i - 1] = 0; delay(5); //Serial.println(sms_rx); if (strstr_P(sms_rx, PSTR("citeste")) != 0) { for (int i = 0; i <= 512; i += 18) ReadEprom(sms_rx, i); } else if (strlen(sms_rx) != 0) if (!CfgCmd(sms_rx)) Serial.println("ERROR"); *sms_rx = 0x00; } else { id = Check_SMS(); if (id == GETSMS_AUTH_SMS || id == GETSMS_NOT_AUTH_SMS) Config(number, sms_rx); *sms_rx = 0x00; id = 0; } //test SIM900 module up if (AT_RESP_OK == gsm.SendATCmdWaitResp("AT", 500, 100, "OK", 5)) PORTB &= ~(1 << PINB5); //ERROR LED off else PORTB |= (1 << PINB5); //ERROR LED on //XXX feeding the dog wdt_reset(); } else { VerificIN(); id = Check_SMS(); //Serial.println(id); if (id == GETSMS_AUTH_SMS) Comand(number, sms_rx); else if (id == GETSMS_NOT_AUTH_SMS) { //Check if receive a pas char buffer[64]; ReadEprom(buffer, 18 * 24); if (strcmp(buffer, sms_rx) == 0) { //write number on sim uint8_t nr_pfonnr = 1; //hold number of phone number on sim char tmpnr[20]; for (byte i = 1; i < 7; i++) { if (1 == gsm.GetPhoneNumber(i, tmpnr)) ++nr_pfonnr; //Find number in specified position else break; } if (nr_pfonnr < 7) //max 6 number { if (gsm.WritePhoneNumber(nr_pfonnr, number) != 0) { #ifndef DEBUG_GSMRX sprintf_P(buffer, PSTR("%s writed at position %d"), number, nr_pfonnr); Serial.println(buffer); #endif //++nr_pfonnr; strcpy_P(buffer, PSTR("Acceptat")); gsm.SendSMS(number, buffer); } else { strcpy_P(buffer, PSTR("ERROR")); Serial.println(buffer); gsm.SendSMS(number, buffer); } } else { strcpy_P(buffer, PSTR("Nu slot")); gsm.SendSMS(number, buffer); } } } *number = 0x00; *sms_rx = 0x00; id = 0; } //XXX feeding the dog wdt_reset(); //test SIM900 module up if (AT_RESP_OK == gsm.SendATCmdWaitResp("AT", 500, 100, "OK", 5)) PORTB &= ~(1 << PINB5); //ERROR LED off else PORTB |= (1 << PINB5); //ERROR LED on delay(50); }
void VerificIN() { //char mesage[80]; char nrtel[18]; char buffer[18]; if ((PINB & (1 << PB0)) == 0) { if (in1) { ReadEprom(nrtel, 18); in1 = false; ReadEprom(buffer, 18 * 2); if (strlen(buffer) != 0) SendSms(nrtel, buffer); } } else in1 = true; //if (digitalRead(inD2) == LOW && in2) if ((PINB & (1 << PB1)) == 0) { if (in2) { ReadEprom(nrtel, 18); in2 = false; ReadEprom(buffer, 18 * 3); if (strlen(buffer) != 0) SendSms(nrtel, buffer); } } else in2 = true; //if (digitalRead(inD3) == LOW && in3) if ((PINB & (1 << PB2)) == 0) { if (in3) { ReadEprom(nrtel, 18); in3 = false; ReadEprom(buffer, 18 * 4); if (strlen(buffer) != 0) SendSms(nrtel, buffer); } } else in3 = true; //if (digitalRead(inD4) == LOW && in4) if ((PINB & (1 << PB3)) == 0) { if (in4) { ReadEprom(nrtel, 18); in4 = false; ReadEprom(buffer, 18 * 5); if (strlen(buffer) != 0) SendSms(nrtel, buffer); } } else in4 = true; }
void StareOUT(char *nrtel) { char mesage[120]; char buffer[18]; //int i = 108; *mesage = 0x00; //if (digitalRead(outD1) == LOW) if ((PIND & (1 << PD2)) == 0) { ReadEprom(buffer, 18 * 6); //Serial.print(strlen(buffer)); //Serial.println(buffer); if (strlen(buffer) != 0) { strcat(mesage, buffer); strcat_P(mesage, PSTR("\n\r")); } } else { ReadEprom(buffer, 18 * 7); if (strlen(buffer) != 0) { strcat(mesage, buffer); strcat_P(mesage, PSTR("\n\r")); } } //if (digitalRead(outD2) == LOW) if ((PIND & (1 << PD3)) == 0) { ReadEprom(buffer, 18 * 8); if (strlen(buffer) != 0) { strcat(mesage, buffer); strcat_P(mesage, PSTR("\r\n")); } } else { ReadEprom(buffer, 18 * 9); if (strlen(buffer) != 0) { strcat(mesage, buffer); strcat_P(mesage, PSTR("\r\n")); } } //if (digitalRead(outD3) == LOW) if ((PIND & (1 << PD4)) == 0) { ReadEprom(buffer, 18 * 10); if (strlen(buffer) != 0) { strcat(mesage, buffer); strcat_P(mesage, PSTR("\r\n")); } } else { ReadEprom(buffer, 18 * 11); if (strlen(buffer) != 0) { strcat(mesage, buffer); strcat_P(mesage, PSTR("\r\n")); } } //if (digitalRead(outD4) == LOW) if ((PIND & (1 << PD5)) == 0) { ReadEprom(buffer, 18 * 12); if (strlen(buffer) != 0) { strcat(mesage, buffer); strcat_P(mesage, PSTR("\r\n")); } } else { ReadEprom(buffer, 18 * 13); if (strlen(buffer) != 0) { strcat(mesage, buffer); strcat_P(mesage, PSTR("\r\n")); } } //if (digitalRead(outD5) == LOW) if ((PIND & (1 << PD6)) == 0) { ReadEprom(buffer, 18 * 14); if (strlen(buffer) != 0) { strcat(mesage, buffer); strcat_P(mesage, PSTR("\r\n")); } } else { ReadEprom(buffer, 18 * 15); if (strlen(buffer) != 0) { strcat(mesage, buffer); //strcat(mesage, "\n"); } } if ((PIND & (1 << PD7)) == 0) { ReadEprom(buffer, 18 * 16); if (strlen(buffer) != 0) { strcat(mesage, buffer); strcat_P(mesage, PSTR("\r\n")); } } else { ReadEprom(buffer, 18 * 17); if (strlen(buffer) != 0) { strcat(mesage, buffer); //strcat(mesage, "\n"); } } if (strlen(mesage) != 0) SendSms(nrtel, mesage); }
/* void DellPass() { for (int i = 18 * 19; i < 18 * 20; i++) EEPROM.update(i, 0); } */ void Comand(char *nrtel, char *inmsg) { char buffer[24]; char OK[3] = "OK"; //bool cmdok = false; ReadEprom(buffer, 18); if (strcmp(nrtel, buffer) == 0) { ReadEprom(buffer, 18 * 6); //Serial.println(strcasecmp(buffer, inmsg)); //if (strstr(inmsg,buffer) != 0) if (strcasecmp(buffer, inmsg) == 0) { //digitalWrite(outD1, LOW); PORTD &= ~(1 << PD2); eeprom_update_byte((uint8_t*) 379, 0); SendSms(nrtel, OK); return; } ReadEprom(buffer, 18 * 7); if (strcasecmp(buffer, inmsg) == 0) { //digitalWrite(outD1, HIGH); PORTD |= (1 << PD2); eeprom_update_byte((uint8_t*) 379, 1); SendSms(nrtel, OK); return; } ReadEprom(buffer, 18 * 8); if (strcasecmp(buffer, inmsg) == 0) { //digitalWrite(outD2, LOW); PORTD &= ~(1 << PD3); eeprom_update_byte((uint8_t*) 380, 0); SendSms(nrtel, OK); return; } ReadEprom(buffer, 18 * 9); if (strcasecmp(buffer, inmsg) == 0) { //digitalWrite(outD2, HIGH); PORTD |= (1 << PD3); eeprom_update_byte((uint8_t*) 380, 1); SendSms(nrtel, OK); return; } ReadEprom(buffer, 18 * 10); if (strcasecmp(buffer, inmsg) == 0) { //digitalWrite(outD3, LOW); PORTD &= ~(1 << PD4); eeprom_update_byte((uint8_t*) 381, 0); SendSms(nrtel, OK); return; } ReadEprom(buffer, 18 * 11); if (strcasecmp(buffer, inmsg) == 0) { //digitalWrite(outD3, HIGH); PORTD |= (1 << PD4); eeprom_update_byte((uint8_t*) 381, 1); SendSms(nrtel, OK); return; } ReadEprom(buffer, 18 * 12); if (strcasecmp(buffer, inmsg) == 0) { //digitalWrite(outD4, LOW); PORTD &= ~(1 << PD5); eeprom_update_byte((uint8_t*) 382, 0); SendSms(nrtel, OK); return; } ReadEprom(buffer, 18 * 13); if (strcasecmp(buffer, inmsg) == 0) { //digitalWrite(outD4, HIGH); PORTD |= (1 << PD5); eeprom_update_byte((uint8_t*) 382, 1); SendSms(nrtel, OK); return; } ReadEprom(buffer, 18 * 14); if (strcasecmp(buffer, inmsg) == 0) { //digitalWrite(outD5, LOW); PORTD &= ~(1 << PD6); eeprom_update_byte((uint8_t*) 383, 0); SendSms(nrtel, OK); return; } ReadEprom(buffer, 18 * 15); if (strcasecmp(buffer, inmsg) == 0) { //digitalWrite(outD5, HIGH); PORTD |= (1 << PD6); eeprom_update_byte((uint8_t*) 383, 1); SendSms(nrtel, OK); return; } ReadEprom(buffer, 18 * 16); if (strcasecmp(buffer, inmsg) == 0) { //digitalWrite(outD5, LOW); PORTD &= ~(1 << PD7); eeprom_update_byte((uint8_t*) 384, 0); SendSms(nrtel, OK); return; } ReadEprom(buffer, 18 * 17); if (strcasecmp(buffer, inmsg) == 0) { //digitalWrite(outD5, HIGH); PORTD |= (1 << PD7); eeprom_update_byte((uint8_t*) 384, 1); SendSms(nrtel, OK); return; } //strcpy_P(buffer, (char*) pgm_read_word(&(comenzi[18]))); //if (strcasecmp(buffer, inmsg) == 0) if (strcasecmp_P(inmsg, STARE_OUT) == 0) { StareOUT(nrtel); return; } //strcpy_P(buffer, (char*) pgm_read_word(&(comenzi[19]))); //if (strcasecmp(buffer, inmsg) == 0) if (strcasecmp_P(inmsg, STARE_TMP) == 0) { StareTMP(nrtel); return; } //strcpy_P(buffer, (char*) pgm_read_word(&(comenzi[20]))); //if (strcasecmp(buffer, inmsg) == 0) if (strcasecmp_P(inmsg, STARE_ALL) == 0) { StareOUT(nrtel); StareTMP(nrtel); return; } ReadEprom(buffer, 486); SendSms(nrtel, buffer); return; } else { ReadEprom(buffer, 18 * 21); if (strcmp(buffer, inmsg) == 0) { eeprom_write_block(nrtel, (int*) 18, 18); strcpy_P(buffer, LOGIN); SendSms(nrtel, buffer); } } }
void VerificIN() { char smsc_nr[18]; char nrtel[18]; char buffer[18]; memset(nrtel, 0, sizeof(nrtel)); memset(buffer, 0, sizeof(buffer)); memset(smsc_nr, 0, sizeof(smsc_nr)); if ((PINB & (1 << PB0)) == 0) { if (in1) { ReadEprom(smsc_nr, 360); ReadEprom(nrtel, 18); in1 = 0; ReadEprom(buffer, 36); //18*2 if (strlen(buffer) != 0) uart_sendsms(smsc_nr, nrtel, buffer); } } else in1 = 1; if ((PINB & (1 << PB1)) == 0) { if (in2) { ReadEprom(smsc_nr, 360); ReadEprom(nrtel, 18); in2 = 0; ReadEprom(buffer, 54); //18*3 if (strlen(buffer) != 0) uart_sendsms(smsc_nr, nrtel, buffer); } } else in2 = 1; if ((PINB & (1 << PB2)) == 0) { if (in3) { ReadEprom(smsc_nr, 360); ReadEprom(nrtel, 18); in3 = 0; ReadEprom(buffer, 72); //18 * 4 if (strlen(buffer) != 0) uart_sendsms(smsc_nr, nrtel, buffer); } } else in3 = 1; if ((PINB & (1 << PB3)) == 0) { if (in4) { ReadEprom(smsc_nr, 360); ReadEprom(nrtel, 18); in4 = 0; ReadEprom(buffer, 90); //18*5 if (strlen(buffer) != 0) uart_sendsms(smsc_nr, nrtel, buffer); } } else in4 = 1; }
static void StareOUT(char *smsc_nr, char *nrtel) { char mesage1[60]; char mesage2[60]; char buffer[18]; memset(mesage1, 0, sizeof(mesage1)); memset(mesage2, 0, sizeof(mesage2)); memset(buffer, 0, sizeof(buffer)); //int i = 108; //if (digitalRead(outD1) == LOW) if ((PIND & (1 << PD2)) == 0) { ReadEprom(buffer, 108); if (strlen(buffer) != 0) { strcat(mesage1, buffer); strcat(mesage1, "\n\r"); } //i += 18; } else { ReadEprom(buffer, 126); if (strlen(buffer) != 0) { strcat(mesage1, buffer); strcat(mesage1, "\n\r"); } } //if (digitalRead(outD2) == LOW) if ((PIND & (1 << PD3)) == 0) { ReadEprom(buffer, 144); if (strlen(buffer) != 0) { strcat(mesage1, buffer); strcat(mesage1, "\n\r"); } } else { ReadEprom(buffer, 162); if (strlen(buffer) != 0) { strcat(mesage1, buffer); strcat(mesage1, "\n\r"); } } //if (digitalRead(outD3) == LOW) if ((PIND & (1 << PD4)) == 0) { ReadEprom(buffer, 180); if (strlen(buffer) != 0) { strcat(mesage1, buffer); strcat(mesage1, "\n\r"); } } else { ReadEprom(buffer, 198); if (strlen(buffer) != 0) { strcat(mesage1, buffer); strcat(mesage1, "\n\r"); } } //if (digitalRead(outD4) == LOW) if ((PIND & (1 << PD5)) == 0) { ReadEprom(buffer, 216); if (strlen(buffer) != 0) { strcat(mesage2, buffer); strcat(mesage2, "\n\r"); } } else { ReadEprom(buffer, 234); if (strlen(buffer) != 0) { strcat(mesage2, buffer); strcat(mesage2, "\n\r"); } } //if (digitalRead(outD5) == LOW) if ((PIND & (1 << PD6)) == 0) { ReadEprom(buffer, 252); if (strlen(buffer) != 0) { strcat(mesage2, buffer); strcat(mesage2, "\n\r"); } } else { ReadEprom(buffer, 270); if (strlen(buffer) != 0) { strcat(mesage2, buffer); //strcat(mesage, "\n"); } } if (strlen(mesage1) != 0) uart_sendsms(smsc_nr, nrtel, mesage1); if (strlen(mesage2) != 0) uart_sendsms(smsc_nr, nrtel, mesage2); }
/** * @breaf execut sms commands * * @param nrtel: pfon number * inmsg: sms command */ void Comand(char *nrtel, char *inmsg) { char buffer[18]; memset(buffer, 0, sizeof(buffer)); char OK[3] = "OK"; char smsc_num[18]; memset(smsc_num, 0, sizeof(smsc_num)); //bool cmdok = false; ReadEprom(buffer, 18); ReadEprom(smsc_num, 360); if (strcmp(nrtel, buffer) == 0) { ReadEprom(buffer, 108); //18 * 6 if (strcasecmp(buffer, inmsg) == 0) { //digitalWrite(outD1, LOW); PORTD &= ~(1 << PD2); eeprom_update_byte((uint8_t*) 379, 0); uart_sendsms(smsc_num, nrtel, OK); return; } ReadEprom(buffer, 126); //18 * 7 if (strcasecmp(buffer, inmsg) == 0) { //digitalWrite(outD1, HIGH); PORTD |= (1 << PD2); eeprom_update_byte((uint8_t*) 379, 1); uart_sendsms(smsc_num, nrtel, OK); return; } ReadEprom(buffer, 144); //18 * 8 if (strcasecmp(buffer, inmsg) == 0) { //digitalWrite(outD2, LOW); PORTD &= ~(1 << PD3); eeprom_update_byte((uint8_t*) 380, 0); uart_sendsms(smsc_num, nrtel, OK); return; } ReadEprom(buffer, 162); //18 * 9 if (strcasecmp(buffer, inmsg) == 0) { //digitalWrite(outD2, HIGH); PORTD |= (1 << PD3); eeprom_update_byte((uint8_t*) 380, 1); uart_sendsms(smsc_num, nrtel, OK); return; } ReadEprom(buffer, 180); //18 * 10 if (strcasecmp(buffer, inmsg) == 0) { //digitalWrite(outD3, LOW); PORTD &= ~(1 << PD4); eeprom_update_byte((uint8_t*) 381, 0); uart_sendsms(smsc_num, nrtel, OK); return; } ReadEprom(buffer, 198); //18 * 11 if (strcasecmp(buffer, inmsg) == 0) { //digitalWrite(outD3, HIGH); PORTD |= (1 << PD4); eeprom_update_byte((uint8_t*) 381, 1); uart_sendsms(smsc_num, nrtel, OK); return; } ReadEprom(buffer, 216); //18 * 12 if (strcasecmp(buffer, inmsg) == 0) { //digitalWrite(outD4, LOW); PORTD &= ~(1 << PD5); eeprom_update_byte((uint8_t*) 382, 0); uart_sendsms(smsc_num, nrtel, OK); return; } ReadEprom(buffer, 234); //18 * 13 if (strcasecmp(buffer, inmsg) == 0) { //digitalWrite(outD4, HIGH); PORTD |= (1 << PD5); eeprom_update_byte((uint8_t*) 382, 1); uart_sendsms(smsc_num, nrtel, OK); return; } ReadEprom(buffer, 252); //18 * 14 if (strcasecmp(buffer, inmsg) == 0) { //digitalWrite(outD5, LOW); PORTD &= ~(1 << PD6); eeprom_update_byte((uint8_t*) 383, 0); uart_sendsms(smsc_num, nrtel, OK); return; } ReadEprom(buffer, 270); //18 * 15 if (strcasecmp(buffer, inmsg) == 0) { //digitalWrite(outD5, HIGH); PORTD |= (1 << PD6); eeprom_update_byte((uint8_t*) 383, 1); uart_sendsms(smsc_num, nrtel, OK); return; } //strcpy_P(buffer, (char*) pgm_read_word(&(comenzi[18]))); //if (strcasecmp(buffer, inmsg) == 0) if (strcasecmp_P(inmsg, STARE_OUT) == 0) { StareOUT(smsc_num, nrtel); return; } //strcpy_P(buffer, (char*) pgm_read_word(&(comenzi[19]))); //if (strcasecmp(buffer, inmsg) == 0) if (strcasecmp_P(inmsg, STARE_TMP) == 0) { StareTMP(smsc_num, nrtel); return; } //strcpy_P(buffer, (char*) pgm_read_word(&(comenzi[20]))); //if (strcasecmp(buffer, inmsg) == 0) if (strcasecmp_P(inmsg, STARE_ALL) == 0) { StareTMP(smsc_num, nrtel); StareOUT(smsc_num, nrtel); return; } ReadEprom(buffer, 486); uart_sendsms(smsc_num, nrtel, buffer); return; } else { ReadEprom(buffer, 342); //18 * 19 if (strcmp(buffer, inmsg) == 0) { eeprom_write_block(nrtel, (int*) 18, 18); strcpy_P(buffer, LOGIN); uart_sendsms(smsc_num, nrtel, buffer); } } }
static int readAlleepromParameters(void) { ReadEprom(1, sizeof(gParameters), (UINT8 *) &gParameters); return 0; }