/* EEPROM LAYOUT "BOOTMODE;SSID;PASSWORD;HOSTNAME;MQTT_SERVER;MQTT_USERNAME;MQTT_PASSWD" BOOTMODE could be 0 for Setup, 1 for normal use, 2 for OTA Setup mode is trigger by setting GPIO3 to ground or at first boot */ int saveConfig(int bootMode, String ssid, String password, String host, String mqttServer, String mqttUser, String mqttpasswd) { String eeprom; eeprom = String(bootMode) + ";" + ssid + ";" + password + ";" + host + ";" + mqttServer + ";" + mqttUser + ";" + mqttpasswd +";"; if (eeprom.length() > EEPROM_SIZE ) return -EMSGSIZE; Serial.println("Saving " + eeprom); for (int i = 0; i < eeprom.length() && i < EEPROM_SIZE; i++) { EEPROM.write(i, eeprom.charAt(i)); } EEPROM.commit(); delay(100); return 0; } int saveBootMode(int bootMode) { EEPROM.write(0, String(bootMode).charAt(0)); EEPROM.commit(); delay(100); return 0; } void readConfElement(char** element, int &i) { *element = &eeprom[i]; do { eeprom[i] = EEPROM.read(i); i++; } while (i < EEPROM_SIZE && eeprom[i - 1] != ';'); eeprom[i - 1] = '\0'; if(i == EEPROM_SIZE) **element = '\0'; } void readEEPROM(int &bootMode, char **ssid, char **password, char **host, char **mqttServer, char **mqttUser, char **mqttPasswd) { int i = 2; int boot = EEPROM.read(0); if (boot == '1') { bootMode = BOOTMODE_NORMAL; } else if (boot == '2') { bootMode = BOOTMODE_OTA; } else { //Do not need to parse EEPROM when not configured bootMode = BOOTMODE_SETUP; return; } readConfElement(ssid, i); readConfElement(password, i); readConfElement(host, i); readConfElement(mqttServer, i); readConfElement(mqttUser, i); readConfElement(mqttPasswd, i); }