#ifndef _WIFI_FUNCTIONS_H_ #define _WIFI_FUNCTIONS_H_ #include #include #include "wifi_settings.h" #include "helpfunctions.h" bool force_ec_measurement=false; struct mqttValueTiming{ float minchange; float maxchange; unsigned long mintime; unsigned long maxtime; float lastvalue=0; unsigned long lasttime=0; }; WiFiClient net; MQTTClient client; bool sendallnext_flag=false; bool enableTiming=true; bool publishValueTimed(String topic,float value,uint8_t decimals,mqttValueTiming &mqttvt,unsigned long loopmillis); void publishValue(String topic,float value,uint8_t decimals); void publishInfo(String topic,String text); void connect() { Serial.print("checking wifi..."); uint8_t timeout=0; while (WiFi.status() != WL_CONNECTED && timeout<10) { timeout++; Serial.print("."); delay(500); } if (WiFi.status() == WL_CONNECTED) { Serial.print("\nconnecting..."); timeout=0; #define CONNECT_TIMEOUT 5 while (!client.connect(client_id, "public", "public") && timeout=CONNECT_TIMEOUT) { Serial.println("\nconnection failed!"); }else{ Serial.println("\nconnected!"); client.subscribe((String)client_id+"/sendall"); client.subscribe((String)client_id+"/ec/trigger"); client.subscribe((String)client_id+"/errorack"); client.subscribe((String)client_id+"/reboot"); // client.unsubscribe("/hello"); } } } void messageReceived(String &topic, String &payload) { Serial.println("incoming: " + topic + " - " + payload); if (topic==((String)client_id+"/sendall") && payload=="true") { sendallnext_flag=true; Serial.println("Send all values next time"); } if (topic==((String)client_id+"/ec/trigger") && payload=="true") { force_ec_measurement=true; Serial.println("Forced EC Measurement"); } if (topic==((String)client_id+"/errorack") && payload=="true") { //error acknowledge valueError=false; Serial.println("Reset value error flag"); } if (topic==((String)client_id+"/reboot") && payload=="true") { //error acknowledge Serial.println("Reboot by mqtt"); delay(100); ESP.restart(); } } bool mqtt_loop(unsigned long loopmillis) { static unsigned long last_client_loop=0; #define CLIENT_LOOP_INTERVAL 10 //ms. fixes some wifi issues. from example https://registry.platformio.org/libraries/256dpi/MQTT/examples/ESP32DevelopmentBoard/ESP32DevelopmentBoard.ino if (loopmillis >= last_client_loop+CLIENT_LOOP_INTERVAL) { last_client_loop=loopmillis; client.loop(); static unsigned long last_connection_try=0; #define RETRY_CONNECTION 60000 if (!client.connected()) { if (loopmillis-last_connection_try>RETRY_CONNECTION) { connect(); } }else{ return true; } } return false; } bool publishValueTimedOverride(String topic,float value,uint8_t decimals,mqttValueTiming &mqttvt,unsigned long loopmillis) { mqttvt.lasttime=loopmillis; mqttvt.lastvalue=value; publishValue(topic,value,decimals); return true; } bool publishValueTimed(String topic,float value,uint8_t decimals,mqttValueTiming &mqttvt,unsigned long loopmillis) { unsigned long timediff=loopmillis-mqttvt.lasttime; float valuediff=abs(value-mqttvt.lastvalue); valuediff=constrain(valuediff,mqttvt.minchange,mqttvt.maxchange); unsigned long sendafter=mapf(valuediff,mqttvt.minchange,mqttvt.maxchange,mqttvt.maxtime,mqttvt.mintime); //map valuediff to time when to send /*Serial.println(); Serial.print("timediff="); Serial.print(timediff); Serial.print(" valuediff="); Serial.print(valuediff); Serial.print(" sendafter="); Serial.println(sendafter);*/ if (timediff>=sendafter || !enableTiming) { mqttvt.lasttime=loopmillis; mqttvt.lastvalue=value; publishValue(topic,value,decimals); return true; } return false; } void publishValue(String topic,float value,uint8_t decimals) { char buffer[16]; dtostrf(value,1,decimals,buffer); client.publish((String)client_id+"/"+topic, buffer); Serial.print("Publish Topic="); Serial.print((String)client_id+"/"+topic); Serial.print(" Message="); Serial.println(buffer); } void publishInfo(String topic,String text) { client.publish((String)client_id+"/"+topic, text); Serial.print("Publish Topic="); Serial.print((String)client_id+"/"+topic); Serial.print(" Message="); Serial.println(text); } #endif