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wifi reconnection bug fixed

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This commit is contained in:
Dmitry Borisenko
2020-10-02 01:14:45 +03:00
parent 8a80d509c7
commit 7472863b05
23 changed files with 150 additions and 192 deletions
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32
src/Sensors.cpp
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@@ -48,7 +48,7 @@
// float value = 0;
// static int counter;
// if (dht.getStatus() != 0 && counter < 5) {
// //MqttClient::publishStatus(dhtT_value_name, String(dht.getStatusString()));
// // publishStatus(dhtT_value_name, String(dht.getStatusString()));
// counter++;
// } else {
// counter = 0;
@@ -56,7 +56,7 @@
// if (String(value) != "nan") {
// //eventGen(dhtT_value_name, "");
// //jsonWriteStr(configLiveJson, dhtT_value_name, String(value));
// //MqttClient::publishStatus(dhtT_value_name, String(value));
// // publishStatus(dhtT_value_name, String(value));
// //Serial.println("I sensor '" + dhtT_value_name + "' data: " + String(value));
// }
// }
@@ -86,7 +86,7 @@
// float value = 0;
// static int counter;
// if (dht.getStatus() != 0 && counter < 5) {
// //MqttClient::publishStatus(dhtH_value_name, String(dht.getStatusString()));
// // publishStatus(dhtH_value_name, String(dht.getStatusString()));
// counter++;
// } else {
// counter = 0;
@@ -94,7 +94,7 @@
// if (String(value) != "nan") {
// //eventGen(dhtH_value_name, "");
// //jsonWriteStr(configLiveJson, dhtH_value_name, String(value));
// //MqttClient::publishStatus(dhtH_value_name, String(value));
// // publishStatus(dhtH_value_name, String(value));
// //Serial.println("I sensor '" + dhtH_value_name + "' data: " + String(value));
// }
// }
@@ -112,13 +112,13 @@
//void dhtP_reading() {
// byte value;
// if (dht.getStatus() != 0) {
// MqttClient::publishStatus("dhtPerception", String(dht.getStatusString()));
// publishStatus("dhtPerception", String(dht.getStatusString()));
// } else {
// //value = dht.computePerception(jsonReadStr(configLiveJson, dhtT_value_name).toFloat(), jsonReadStr(configLiveJson, dhtH_value_name).toFloat(), false);
// String final_line = perceptionStr(value);
// jsonWriteStr(configLiveJson, "dhtPerception", final_line);
// eventGen("dhtPerception", "");
// MqttClient::publishStatus("dhtPerception", final_line);
// publishStatus("dhtPerception", final_line);
// if (mqtt.connected()) {
// Serial.println("I sensor 'dhtPerception' data: " + final_line);
// }
@@ -137,13 +137,13 @@
//void dhtC_reading() {
// ComfortState cf;
// if (dht.getStatus() != 0) {
// MqttClient::publishStatus("dhtComfort", String(dht.getStatusString()));
// publishStatus("dhtComfort", String(dht.getStatusString()));
// } else {
// //dht.getComfortRatio(cf, jsonReadStr(configLiveJson, dhtT_value_name).toFloat(), jsonReadStr(configLiveJson, dhtH_value_name).toFloat(), false);
// String final_line = comfortStr(cf);
// jsonWriteStr(configLiveJson, "dhtComfort", final_line);
// eventGen("dhtComfort", "");
// MqttClient::publishStatus("dhtComfort", final_line);
// publishStatus("dhtComfort", final_line);
// Serial.println("I sensor 'dhtComfort' send date " + final_line);
// }
//}
@@ -230,12 +230,12 @@
//void dhtD_reading() {
// float value;
// if (dht.getStatus() != 0) {
// MqttClient::publishStatus("dhtDewpoint", String(dht.getStatusString()));
// publishStatus("dhtDewpoint", String(dht.getStatusString()));
// } else {
// //value = dht.computeDewPoint(jsonReadStr(configLiveJson, dhtT_value_name).toFloat(), jsonReadStr(configLiveJson, dhtH_value_name).toFloat(), false);
// jsonWriteInt(configLiveJson, "dhtDewpoint", value);
// eventGen("dhtDewpoint", "");
// MqttClient::publishStatus("dhtDewpoint", String(value));
// publishStatus("dhtDewpoint", String(value));
// Serial.println("I sensor 'dhtDewpoint' data: " + String(value));
// }
//}
@@ -271,7 +271,7 @@
// value = temp_event.temperature;
// //jsonWriteStr(configLiveJson, bmp280T_value_name, String(value));
// //eventGen(bmp280T_value_name, "");
// //MqttClient::publishStatus(bmp280T_value_name, String(value));
// // publishStatus(bmp280T_value_name, String(value));
// //Serial.println("I sensor '" + bmp280T_value_name + "' data: " + String(value));
//}
//
@@ -303,7 +303,7 @@
// value = value / 1.333224;
// //jsonWriteStr(configLiveJson, bmp280P_value_name, String(value));
// //eventGen(bmp280P_value_name, "");
// //MqttClient::publishStatus(bmp280P_value_name, String(value));
// // publishStatus(bmp280P_value_name, String(value));
// //Serial.println("I sensor '" + bmp280P_value_name + "' data: " + String(value));
//}
//
@@ -328,7 +328,7 @@
// value = bme.readTemperature();
// //jsonWriteStr(configLiveJson, bme280T_value_name, String(value));
// //eventGen(bme280T_value_name, "");
// //MqttClient::publishStatus(bme280T_value_name, String(value));
// // publishStatus(bme280T_value_name, String(value));
// //Serial.println("I sensor '" + bme280T_value_name + "' data: " + String(value));
//}
//
@@ -352,7 +352,7 @@
// value = value / 1.333224 / 100;
// //jsonWriteStr(configLiveJson, bme280P_value_name, String(value));
// //eventGen(bme280P_value_name, "");
// //MqttClient::publishStatus(bme280P_value_name, String(value));
// // publishStatus(bme280P_value_name, String(value));
// //Serial.println("I sensor '" + bme280P_value_name + "' data: " + String(value));
//}
//
@@ -375,7 +375,7 @@
// value = bme.readHumidity();
// //jsonWriteStr(configLiveJson, bme280H_value_name, String(value));
// //eventGen(bme280H_value_name, "");
// //MqttClient::publishStatus(bme280H_value_name, String(value));
// // publishStatus(bme280H_value_name, String(value));
// //Serial.println("I sensor '" + bme280H_value_name + "' data: " + String(value));
//}
//
@@ -399,7 +399,7 @@
//
// //eventGen(bme280A_value_name, "");
//
// //MqttClient::publishStatus(bme280A_value_name, String(value));
// // publishStatus(bme280A_value_name, String(value));
//
// //Serial.println("I sensor '" + bme280A_value_name + "' data: " + String(value));
//}