// FARM DATA RELAY SYSTEM // // GATEWAY 2.000 // // Developed by Timm Bogner (timmbogner@gmail.com) for Sola Gratia Farm in Urbana, Illinois, USA. // #include "fdrs_gateway_config.h" #ifdef ESP8266 #include #include #elif defined(ESP32) #include #include #include #endif #include #ifdef USE_WIFI #include #include #endif #ifdef USE_LORA #include #endif #ifdef USE_LED #include #endif #ifdef USE_SD_LOG #include #include #endif #ifdef USE_FS_LOG #include #endif #if defined (USE_SD_LOG) || defined (USE_FS_LOG) #include #endif //#include //Use global functions file #include "fdrs_functions.h" //Use local functions file void setup() { #if defined(ESP8266) Serial.begin(115200); #elif defined(ESP32) Serial.begin(115200); UART_IF.begin(115200, SERIAL_8N1, RXD2, TXD2); #endif DBG("Address:" + String (UNIT_MAC, HEX)); #ifdef USE_LED FastLED.addLeds(leds, NUM_LEDS); leds[0] = CRGB::Blue; FastLED.show(); #endif #ifdef USE_WIFI delay(10); WiFi.begin(ssid, password); while (WiFi.status() != WL_CONNECTED) { DBG("Connecting to WiFi..."); DBG(FDRS_WIFI_SSID); delay(500); } DBG("WiFi Connected"); client.setServer(mqtt_server, mqtt_port); if (!client.connected()) { reconnect(5); } client.setCallback(mqtt_callback); #else begin_espnow(); #endif #ifdef USE_LORA begin_lora(); #endif #ifdef USE_SD_LOG begin_SD(); #endif #ifdef USE_FS_LOG begin_FS(); #endif //DBG(sizeof(DataReading)); #ifdef USE_WIFI client.publish(TOPIC_STATUS, "FDRS initialized"); #endif } void loop() { handleCommands(); #ifdef ESPNOWG_DELAY if ((millis() - timeESPNOWG) >= ESPNOWG_DELAY) { timeESPNOWG = millis(); if (lenESPNOWG > 0) releaseESPNOW(0); } #endif #ifdef ESPNOW1_DELAY if ((millis() - timeESPNOW1) >= ESPNOW1_DELAY) { timeESPNOW1 = millis(); if (lenESPNOW1 > 0) releaseESPNOW(1); } #endif #ifdef ESPNOW2_DELAY if ((millis() - timeESPNOW2) >= ESPNOW2_DELAY) { timeESPNOW2 = millis(); if (lenESPNOW2 > 0) releaseESPNOW(2); } #endif #ifdef SERIAL_DELAY if ((millis() - timeSERIAL) >= SERIAL_DELAY) { timeSERIAL = millis(); if (lenSERIAL > 0) releaseSerial(); } #endif #ifdef MQTT_DELAY if ((millis() - timeMQTT) >= MQTT_DELAY) { timeMQTT = millis(); if (lenMQTT > 0) releaseMQTT(); } #endif #ifdef LORAG_DELAY if ((millis() - timeLORAG) >= LORAG_DELAY) { timeLORAG = millis(); if (lenLORAG > 0) releaseLoRa(0); } #endif #ifdef LORA1_DELAY if ((millis() - timeLORA1) >= LORA1_DELAY) { timeLORA1 = millis(); if (lenLORA1 > 0) releaseLoRa(1); } #endif #ifdef LORA2_DELAY if ((millis() - timeLORA2) >= LORA2_DELAY) { timeLORA2 = millis(); if (lenLORA2 > 0) releaseLoRa(2); } #endif #if defined (USE_SD_LOG) || defined (USE_FS_LOG) if ((millis() - timeLOGBUF) >= LOGBUF_DELAY){ timeLOGBUF = millis(); if (logBufferPos > 0) releaseLogBuffer(); } #endif while (UART_IF.available()) { getSerial(); } getLoRa(); #ifdef USE_WIFI if (!client.connected()) { reconnect(1, true); } client.loop(); // for recieving incoming messages and maintaining connection #endif if (newData) { switch (newData) { case event_espnowg: ESPNOWG_ACT break; case event_espnow1: ESPNOW1_ACT break; case event_espnow2: ESPNOW2_ACT break; case event_serial: SERIAL_ACT break; case event_mqtt: MQTT_ACT break; case event_lorag: LORAG_ACT break; case event_lora1: LORA1_ACT break; case event_lora2: LORA2_ACT break; } newData = event_clear; } }