/************************************************************** * * For this example, you need to install PubSubClient library: * https://github.com/knolleary/pubsubclient/releases/latest * or from http://librarymanager/all#PubSubClient * * TinyGSM Getting Started guide: * http://tiny.cc/tiny-gsm-readme * ************************************************************** * Use Mosquitto client tools to work with MQTT * Ubuntu/Linux: sudo apt-get install mosquitto-clients * Windows: https://mosquitto.org/download/ * * Subscribe for messages: * mosquitto_sub -h test.mosquitto.org -t GsmClientTest/init -t GsmClientTest/ledStatus -q 1 * Toggle led: * mosquitto_pub -h test.mosquitto.org -t GsmClientTest/led -q 1 -m "toggle" * * You can use Node-RED for wiring together MQTT-enabled devices * https://nodered.org/ * Also, take a look at these additional Node-RED modules: * node-red-contrib-blynk-websockets * node-red-dashboard * **************************************************************/ // Select your modem: //#define TINY_GSM_MODEM_SIM800 #define TINY_GSM_MODEM_SIM900 //#define TINY_GSM_MODEM_A6 //#define TINY_GSM_MODEM_M590 #include #include #include #include // Your GPRS credentials // Leave empty, if missing user or pass const char apn[] = "internet.t-mobile"; const char user[] = "tmobile"; const char pass[] = "tm"; SoftwareSerial SerialAT(10, 11); // RX, TX // Use Hardware Serial on Mega, Leonardo, Micro //#define SerialAT Serial1 StreamDebugger debugger(SerialAT, Serial); // or Software Serial on Uno, Nano TinyGsm modem(debugger); TinyGsmClient client(modem); PubSubClient mqtt(client); const char* broker = "broker.hivemq.com"; const char* topicLed = "BSKClientTest/led"; const char* topicInit = "BSKClientTest/init"; const char* topicLedStatus = "BSKClientTest/ledStatus"; const char* topicsensor = "BSKClientTest/sensor1"; #define LED_PIN 13 int ledStatus = LOW; long lastReconnectAttempt = 0; void setup() { pinMode(LED_PIN, OUTPUT); // Set console baud rate Serial.begin(9600); delay(10); // Set GSM module baud rate SerialAT.begin(9600); delay(3000); // Restart takes quite some time // To skip it, call init() instead of restart() Serial.println("Initializing modem..."); modem.restart(); // Unlock your SIM card with a PIN //modem.simUnlock("1234"); Serial.print("Waiting for network..."); if (!modem.waitForNetwork()) { Serial.println(" fail"); while (true); } Serial.println(" OK"); Serial.print("Connecting to "); Serial.print(apn); if (!modem.gprsConnect(apn, user, pass)) { Serial.println(" fail"); while (true); } Serial.println(" OK"); // MQTT Broker setup mqtt.setServer(broker, 1883); mqtt.setCallback(mqttCallback); } boolean mqttConnect() { Serial.print("Connecting to "); Serial.print(broker); if (!mqtt.connect("GsmClientTest")) { Serial.println(" fail"); return false; } Serial.println(" OK"); mqtt.publish(topicInit, "BSKClientTest started"); mqtt.subscribe(topicLed); return mqtt.connected(); } unsigned long time1; char message_buff[100]; void loop() { if (mqtt.connected()) { mqtt.loop(); // publish light reading every 10 seconds if (millis() > (time1 + 10000)) { time1 = millis(); String pubString = String(analogRead(A1)); pubString.toCharArray(message_buff, pubString.length()+1); //Serial.println(pubString); mqtt.publish(topicsensor, message_buff); } } else { // Reconnect every 10 seconds unsigned long t = millis(); if (t - lastReconnectAttempt > 10000L) { lastReconnectAttempt = t; if (mqttConnect()) { lastReconnectAttempt = 0; } } } } void mqttCallback(char* topic, byte* payload, unsigned int len) { Serial.print("Message arrived ["); Serial.print(topic); Serial.print("]: "); Serial.write(payload, len); Serial.println(); // Only proceed if incoming message's topic matches if (String(topic) == topicLed) { ledStatus = !ledStatus; digitalWrite(LED_PIN, ledStatus); mqtt.publish(topicLedStatus, ledStatus ? "1" : "0"); } }