#include #include "configuration.h" #include "station_utils.h" #include "battery_utils.h" #include "aprs_is_utils.h" #include "boards_pinout.h" #include "syslog_utils.h" #include "A7670_utils.h" #include "wifi_utils.h" #include "gps_utils.h" #include "bme_utils.h" #include "display.h" #include "utils.h" extern Configuration Config; extern WiFiClient espClient; extern String versionDate; extern String firstLine; extern String secondLine; extern String thirdLine; extern String fourthLine; extern String fifthLine; extern String sixthLine; extern String seventhLine; extern String iGateBeaconPacket; extern String iGateLoRaBeaconPacket; extern std::vector lastHeardStation; extern int rssi; extern float snr; extern int freqError; extern String distance; extern uint32_t lastWiFiCheck; extern bool WiFiConnect; extern bool WiFiConnected; extern int wxModuleType; extern bool backUpDigiMode; bool statusAfterBoot = true; bool beaconUpdate = true; uint32_t lastBeaconTx = 0; uint32_t lastScreenOn = millis(); namespace Utils { void processStatus() { String status = Config.callsign + ">APLRG1," + Config.beacon.path; if (WiFi.status() == WL_CONNECTED && Config.aprs_is.active && Config.beacon.sendViaAPRSIS) { delay(1000); status += ",qAC:>https://github.com/richonguzman/LoRa_APRS_iGate " + versionDate; APRS_IS_Utils::upload(status); SYSLOG_Utils::log(2, status,0,0,0); // APRSIS TX statusAfterBoot = false; } if (statusAfterBoot && !Config.beacon.sendViaAPRSIS && Config.beacon.sendViaRF) { delay(2000); status += ":>https://github.com/richonguzman/LoRa_APRS_iGate " + versionDate; STATION_Utils::addToOutputPacketBuffer(status); statusAfterBoot = false; } } String getLocalIP() { if (!WiFiConnected) { return "IP : 192.168.4.1"; } else if (backUpDigiMode) { return "- BACKUP DIGI MODE -"; } else { return "IP : " + String(WiFi.localIP()[0]) + "." + String(WiFi.localIP()[1]) + "." + String(WiFi.localIP()[2]) + "." + String(WiFi.localIP()[3]); } } void setupDisplay() { setup_display(); #ifdef INTERNAL_LED_PIN digitalWrite(INTERNAL_LED_PIN,HIGH); #endif Serial.println("\nStarting Station: " + Config.callsign + " Version: " + versionDate); show_display(" LoRa APRS", "", " ( iGATE & DIGI )", "", "", "Richonguzman / CA2RXU", " " + versionDate, 4000); #ifdef INTERNAL_LED_PIN digitalWrite(INTERNAL_LED_PIN,LOW); #endif firstLine = Config.callsign; seventhLine = " listening..."; } void activeStations() { fourthLine = "Stations (" + String(Config.rememberStationTime) + "min) = "; if (lastHeardStation.size() < 10) { fourthLine += " "; } fourthLine += String(lastHeardStation.size()); } void checkBeaconInterval() { uint32_t lastTx = millis() - lastBeaconTx; String beaconPacket = iGateBeaconPacket; String secondaryBeaconPacket = iGateLoRaBeaconPacket; if (lastBeaconTx == 0 || lastTx >= Config.beacon.interval * 60 * 1000) { beaconUpdate = true; } if (beaconUpdate) { if (!Config.display.alwaysOn && Config.display.timeout != 0) { display_toggle(true); } Utils::println("-- Sending Beacon to APRSIS --"); STATION_Utils::deleteNotHeard(); activeStations(); if (Config.bme.active && wxModuleType != 0) { String sensorData = BME_Utils::readDataSensor(); beaconPacket += sensorData; secondaryBeaconPacket += sensorData; } else if (Config.bme.active && wxModuleType == 0) { beaconPacket += ".../...g...t...r...p...P...h..b....."; secondaryBeaconPacket += ".../...g...t...r...p...P...h..b....."; } beaconPacket += Config.beacon.comment; secondaryBeaconPacket += Config.beacon.comment; #ifdef BATTERY_PIN if (Config.sendBatteryVoltage) { String batteryInfo = "Batt=" + String(BATTERY_Utils::checkBattery(),2) + "V"; beaconPacket += " " + batteryInfo; secondaryBeaconPacket += " " + batteryInfo; sixthLine = " ( " + batteryInfo + ")"; } #endif if (Config.externalVoltageMeasurement) { String externalVoltage = String(BATTERY_Utils::checkExternalVoltage(),2) + "V"; beaconPacket += " Ext=" + externalVoltage; secondaryBeaconPacket += " Ext=" + externalVoltage; sixthLine = " (Ext V=" + externalVoltage; } if (Config.aprs_is.active && Config.beacon.sendViaAPRSIS && !backUpDigiMode) { show_display(firstLine, secondLine, thirdLine, fourthLine, fifthLine, sixthLine, "SENDING IGATE BEACON", 0); seventhLine = " listening..."; #ifdef ESP32_DIY_LoRa_A7670 A7670_Utils::uploadToAPRSIS(beaconPacket); #else APRS_IS_Utils::upload(beaconPacket); #endif } if (Config.beacon.sendViaRF || backUpDigiMode) { show_display(firstLine, secondLine, thirdLine, fourthLine, fifthLine, sixthLine, "SENDING DIGI BEACON", 0); seventhLine = " listening..."; STATION_Utils::addToOutputPacketBuffer(secondaryBeaconPacket); } lastBeaconTx = millis(); lastScreenOn = millis(); beaconUpdate = false; } if (statusAfterBoot) { processStatus(); } } void checkDisplayInterval() { uint32_t lastDisplayTime = millis() - lastScreenOn; if (!Config.display.alwaysOn && lastDisplayTime >= Config.display.timeout * 1000) { display_toggle(false); } } void checkWiFiInterval() { uint32_t WiFiCheck = millis() - lastWiFiCheck; if (WiFi.status() != WL_CONNECTED && WiFiCheck >= 15 * 60 * 1000) { WiFiConnect = true; } if (WiFiConnect) { Serial.println("\nConnecting to WiFi ..."); WIFI_Utils::startWiFi(); lastWiFiCheck = millis(); WiFiConnect = false; } } void validateFreqs() { if (Config.loramodule.txFreq != Config.loramodule.rxFreq && abs(Config.loramodule.txFreq - Config.loramodule.rxFreq) < 125000) { Serial.println("Tx Freq less than 125kHz from Rx Freq ---> NOT VALID"); show_display("Tx Freq is less than ", "125kHz from Rx Freq", "device will autofix", "and then reboot", 1000); Config.loramodule.txFreq = Config.loramodule.rxFreq; // Inform about that but then change the TX QRG to RX QRG and reset the device Config.writeFile(); ESP.restart(); } } void typeOfPacket(const String& packet, uint8_t packetType) { String sender; switch (packetType) { case 0: // LoRa-APRS fifthLine = "LoRa Rx ----> APRS-IS"; sender = packet.substring(0,packet.indexOf(">")); break; case 1: // APRS-LoRa fifthLine = "APRS-IS ----> LoRa Tx"; sender = packet.substring(0,packet.indexOf(">")); break; case 2: // Digi fifthLine = "LoRa Rx ----> LoRa Tx"; sender = packet.substring(0,packet.indexOf(">")); break; } for (int i = sender.length(); i < 9; i++) { sender += " "; } if (packet.indexOf("::") >= 10) { sixthLine = sender + "> MESSAGE"; seventhLine = "RSSI:" + String(rssi) + "dBm SNR: " + String(snr) + "dBm"; } else if (packet.indexOf(":>") >= 10) { sixthLine = sender + "> NEW STATUS"; seventhLine = "RSSI:" + String(rssi) + "dBm SNR: " + String(snr) + "dBm"; } else if (packet.indexOf(":!") >= 10 || packet.indexOf(":=") >= 10) { sixthLine = sender + "> GPS BEACON"; if (!Config.syslog.active) { GPS_Utils::getDistanceAndComment(packet); // to be checked!!! } seventhLine = "RSSI:" + String(rssi) + "dBm"; if (rssi <= -100) { seventhLine += " "; } else { seventhLine += " "; } if (distance.indexOf(".") == 1) { seventhLine += " "; } seventhLine += "D:" + distance + "km"; } else if (packet.indexOf(":T#") >= 10 && packet.indexOf(":=/") == -1) { sixthLine = sender + "> TELEMETRY"; seventhLine = "RSSI:" + String(rssi) + "dBm SNR: " + String(snr) + "dBm"; } else if (packet.indexOf(":`") >= 10) { sixthLine = sender + "> MIC-E"; seventhLine = "RSSI:" + String(rssi) + "dBm SNR: " + String(snr) + "dBm"; } else if (packet.indexOf(":;") >= 10) { sixthLine = sender + "> OBJECT"; seventhLine = "RSSI:" + String(rssi) + "dBm SNR: " + String(snr) + "dBm"; } else { sixthLine = sender + "> ??????????"; seventhLine = "RSSI:" + String(rssi) + "dBm SNR: " + String(snr) + "dBm"; } } void print(const String& text) { if (!Config.tnc.enableSerial) { Serial.print(text); } } void println(const String& text) { if (!Config.tnc.enableSerial) { Serial.println(text); } } }