#define ESP_DRD_USE_SPIFFS true // Include Libraries //#include ".h" #include #include #include #include #include #include "media/images.h" #include // Graphics and font library // JSON configuration file #define JSON_CONFIG_FILE "/config.json" //Botón configuración #define TRIGGER_PIN 14 // Flag for saving data bool shouldSaveConfig = false; // Variables to hold data from custom textboxes char poolString[80] = "solo.ckpool.org"; int portNumber = 3333; char btcString[80] = "yourBtcAddress"; // Define WiFiManager Object WiFiManager wm; extern TFT_eSPI tft; // tft variable declared on main void saveConfigFile() // Save Config in JSON format { Serial.println(F("Saving configuration...")); // Create a JSON document StaticJsonDocument<512> json; json["poolString"] = poolString; json["portNumber"] = portNumber; json["btcString"] = btcString; // Open config file File configFile = SPIFFS.open(JSON_CONFIG_FILE, "w"); if (!configFile) { // Error, file did not open Serial.println("failed to open config file for writing"); } // Serialize JSON data to write to file serializeJsonPretty(json, Serial); if (serializeJson(json, configFile) == 0) { // Error writing file Serial.println(F("Failed to write to file")); } // Close file configFile.close(); } bool loadConfigFile() // Load existing configuration file { // Uncomment if we need to format filesystem // SPIFFS.format(); // Read configuration from FS json Serial.println("Mounting File System..."); // May need to make it begin(true) first time you are using SPIFFS if (SPIFFS.begin(false) || SPIFFS.begin(true)) { Serial.println("mounted file system"); if (SPIFFS.exists(JSON_CONFIG_FILE)) { // The file exists, reading and loading Serial.println("reading config file"); File configFile = SPIFFS.open(JSON_CONFIG_FILE, "r"); if (configFile) { Serial.println("Opened configuration file"); StaticJsonDocument<512> json; DeserializationError error = deserializeJson(json, configFile); serializeJsonPretty(json, Serial); if (!error) { Serial.println("Parsing JSON"); strcpy(poolString, json["poolString"]); strcpy(btcString, json["btcString"]); portNumber = json["portNumber"].as(); return true; } else { // Error loading JSON data Serial.println("Failed to load json config"); } } } } else { // Error mounting file system Serial.println("Failed to mount FS"); } return false; } void saveConfigCallback() // Callback notifying us of the need to save configuration { Serial.println("Should save config"); shouldSaveConfig = true; } void configModeCallback(WiFiManager *myWiFiManager) // Called when config mode launched { Serial.println("Entered Configuration Mode"); Serial.print("Config SSID: "); Serial.println(myWiFiManager->getConfigPortalSSID()); Serial.print("Config IP Address: "); Serial.println(WiFi.softAPIP()); } void init_WifiManager() { Serial.begin(115200); //Serial.setTxTimeoutMs(10); //Init config pin pinMode(TRIGGER_PIN, INPUT); // Change to true when testing to force configuration every time we run bool forceConfig = false; bool spiffsSetup = loadConfigFile(); if (!spiffsSetup) { Serial.println(F("Forcing config mode as there is no saved config")); forceConfig = true; } // Explicitly set WiFi mode WiFi.mode(WIFI_STA); // Reset settings (only for development) //wm.resetSettings(); //Set dark theme //wm.setClass("invert"); // dark theme // Set config save notify callback wm.setSaveConfigCallback(saveConfigCallback); // Set callback that gets called when connecting to previous WiFi fails, and enters Access Point mode wm.setAPCallback(configModeCallback); //Advanced settings wm.setConfigPortalBlocking(false); //Hacemos que el portal no bloquee el firmware wm.setConnectTimeout(30); // how long to try to connect for before continuing //wm.setConfigPortalTimeout(30); // auto close configportal after n seconds // wm.setCaptivePortalEnable(false); // disable captive portal redirection // wm.setAPClientCheck(true); // avoid timeout if client connected to softap //wm.setTimeout(120); //wm.setConfigPortalTimeout(120); //seconds // Custom elements // Text box (String) - 80 characters maximum WiFiManagerParameter pool_text_box("Poolurl", "Pool url", poolString, 80); // Need to convert numerical input to string to display the default value. char convertedValue[6]; sprintf(convertedValue, "%d", portNumber); // Text box (Number) - 7 characters maximum WiFiManagerParameter port_text_box_num("Poolport", "Pool port", convertedValue, 7); // Text box (String) - 80 characters maximum WiFiManagerParameter addr_text_box("btcAddress", "Your BTC address", btcString, 80); // Add all defined parameters wm.addParameter(&pool_text_box); wm.addParameter(&port_text_box_num); wm.addParameter(&addr_text_box); Serial.println("AllDone: "); if (forceConfig) // Run if we need a configuration { //No configuramos timeout al modulo wm.setConfigPortalBlocking(true); //Hacemos que el portal SI bloquee el firmware tft.pushImage(0, 0, setupModeWidth, setupModeHeight, setupModeScreen); if (!wm.startConfigPortal("NerdMinerAP","MineYourCoins")) { Serial.println("failed to connect and hit timeout"); delay(3000); //reset and try again, or maybe put it to deep sleep ESP.restart(); delay(5000); } } else { //Tratamos de conectar con la configuración inicial ya almacenada wm.setCaptivePortalEnable(false); // disable captive portal redirection if (!wm.autoConnect("NerdMinerAP","MineYourCoins")) { Serial.println("Failed to connect and hit timeout"); //delay(3000); // if we still have not connected restart and try all over again //ESP.restart(); //delay(5000); } } //Conectado a la red Wifi if(WiFi.status() == WL_CONNECTED){ //tft.pushImage(0, 0, MinerWidth, MinerHeight, MinerScreen); Serial.println(""); Serial.println("WiFi connected"); Serial.print("IP address: "); Serial.println(WiFi.localIP()); // If we get here, we are connected to the WiFi Serial.println(""); Serial.println("WiFi connected"); Serial.print("IP address: "); Serial.println(WiFi.localIP()); // Lets deal with the user config values // Copy the string value strncpy(poolString, pool_text_box.getValue(), sizeof(poolString)); Serial.print("PoolString: "); Serial.println(poolString); //Convert the number value portNumber = atoi(port_text_box_num.getValue()); Serial.print("portNumber: "); Serial.println(portNumber); // Copy the string value strncpy(btcString, addr_text_box.getValue(), sizeof(btcString)); Serial.print("btcString: "); Serial.println(btcString); } // Save the custom parameters to FS if (shouldSaveConfig) { saveConfigFile(); } } void checkConfigButton(){ // check for button press if ( digitalRead(TRIGGER_PIN) == LOW ) { // poor mans debounce/press-hold, code not ideal for production delay(50); if( digitalRead(TRIGGER_PIN) == LOW ){ Serial.println("Button Pressed"); // still holding button for 3000 ms, reset settings, code not ideaa for production delay(3000); // reset delay hold if( digitalRead(TRIGGER_PIN) == LOW ){ Serial.println("Button Held"); Serial.println("Erasing Config, restarting"); wm.resetSettings(); SPIFFS.remove(JSON_CONFIG_FILE); //Borramos fichero ESP.restart(); } } } } void wifiManagerProcess() { wm.process(); // avoid delays() in loop when non-blocking and other long running code checkConfigButton(); }