#include "Bus/OneWireBus.h" #include "Global.h" GMedian<10, int> medianFilter; DHTesp dht; Adafruit_BMP280 bmp; Adafruit_Sensor *bmp_temp = bmp.getTemperatureSensor(); Adafruit_Sensor *bmp_pressure = bmp.getPressureSensor(); Adafruit_BME280 bme; Adafruit_Sensor *bme_temp = bme.getTemperatureSensor(); Adafruit_Sensor *bme_pressure = bme.getPressureSensor(); Adafruit_Sensor *bme_humidity = bme.getHumiditySensor(); const String perceptionStr(byte value); const String comfortStr(ComfortState value); void bmp280T_reading(); void sensors_init() { ts.add( SENSORS, 1000, [&](void *) { static int counter; counter++; #ifdef LEVEL_ENABLED if (sensors_reading_map[0] == 1) ultrasonic_reading(); #endif if (counter > 10) { counter = 0; #ifdef ANALOG_ENABLED if (sensors_reading_map[1] == 1) analog_reading1(); if (sensors_reading_map[2] == 1) analog_reading2(); #endif #ifdef DALLAS_ENABLED if (sensors_reading_map[3] == 1) dallas_reading(); #endif #ifdef DHT_ENABLED if (sensors_reading_map[4] == 1) dhtT_reading(); if (sensors_reading_map[5] == 1) dhtH_reading(); if (sensors_reading_map[6] == 1) dhtP_reading(); if (sensors_reading_map[7] == 1) dhtC_reading(); if (sensors_reading_map[8] == 1) dhtD_reading(); #endif #ifdef BMP_ENABLED if (sensors_reading_map[9] == 1) bmp280T_reading(); if (sensors_reading_map[10] == 1) bmp280P_reading(); #endif #ifdef BME_ENABLED if (sensors_reading_map[11] == 1) bme280T_reading(); if (sensors_reading_map[12] == 1) bme280P_reading(); if (sensors_reading_map[13] == 1) bme280H_reading(); if (sensors_reading_map[14] == 1) bme280A_reading(); #endif } }, nullptr, true); } //========================================================================================================================================= //=========================================Модуль измерения уровня в баке================================================================== #ifdef LEVEL_ENABLED //levelPr p 14 12 Вода#в#баке,#% Датчики fillgauge 125 20 1 void levelPr() { String value_name = sCmd.next(); String trig = sCmd.next(); String echo = sCmd.next(); String widget_name = sCmd.next(); String page_name = sCmd.next(); String type = sCmd.next(); String empty_level = sCmd.next(); String full_level = sCmd.next(); String page_number = sCmd.next(); levelPr_value_name = value_name; jsonWriteStr(configOptionJson, "e_lev", empty_level); jsonWriteStr(configOptionJson, "f_lev", full_level); jsonWriteStr(configOptionJson, "trig", trig); jsonWriteStr(configOptionJson, "echo", echo); pinMode(trig.toInt(), OUTPUT); pinMode(echo.toInt(), INPUT); createWidgetByType(widget_name, page_name, page_number, type, value_name); sensors_reading_map[0] = 1; } //ultrasonicCm cm 14 12 Дистанция,#см Датчики fillgauge 1 void ultrasonicCm() { String value_name = sCmd.next(); String trig = sCmd.next(); String echo = sCmd.next(); String widget_name = sCmd.next(); String page_name = sCmd.next(); String type = sCmd.next(); String empty_level = sCmd.next(); String full_level = sCmd.next(); String page_number = sCmd.next(); ultrasonicCm_value_name = value_name; jsonWriteStr(configOptionJson, "trig", trig); jsonWriteStr(configOptionJson, "echo", echo); pinMode(trig.toInt(), OUTPUT); pinMode(echo.toInt(), INPUT); createWidgetByType(widget_name, page_name, page_number, type, value_name); sensors_reading_map[0] = 1; } void ultrasonic_reading() { long duration_; int distance_cm; int level; static int counter; int trig = jsonReadInt(configOptionJson, "trig"); int echo = jsonReadInt(configOptionJson, "echo"); digitalWrite(trig, LOW); delayMicroseconds(2); digitalWrite(trig, HIGH); delayMicroseconds(10); digitalWrite(trig, LOW); duration_ = pulseIn(echo, HIGH, 30000); // 3000 µs = 50cm // 30000 µs = 5 m distance_cm = duration_ / 29 / 2; distance_cm = medianFilter.filtered(distance_cm); //отсечение промахов медианным фильтром counter++; if (counter > TANK_LEVEL_SAMPLES) { counter = 0; level = map(distance_cm, jsonReadInt(configOptionJson, "e_lev"), jsonReadInt(configOptionJson, "f_lev"), 0, 100); jsonWriteInt(configLiveJson, levelPr_value_name, level); eventGen(levelPr_value_name, ""); MqttClient::publishStatus(levelPr_value_name, String(level)); Serial.println("[I] sensor '" + levelPr_value_name + "' data: " + String(level)); jsonWriteInt(configLiveJson, ultrasonicCm_value_name, distance_cm); eventGen(ultrasonicCm_value_name, ""); MqttClient::publishStatus(ultrasonicCm_value_name, String(distance_cm)); Serial.println("[I] sensor '" + ultrasonicCm_value_name + "' data: " + String(distance_cm)); } } #endif //========================================================================================================================================= //=========================================Модуль аналогового сенсора====================================================================== #ifdef ANALOG_ENABLED //analog adc 0 Аналоговый#вход,#% Датчики any-data 1 1023 1 100 1 void analog() { String value_name = sCmd.next(); String pin = sCmd.next(); String widget_name = sCmd.next(); String page_name = sCmd.next(); String type = sCmd.next(); String analog_start = sCmd.next(); String analog_end = sCmd.next(); String analog_start_out = sCmd.next(); String analog_end_out = sCmd.next(); String page_number = sCmd.next(); analog_value_names_list += value_name + ","; enter_to_analog_counter++; jsonWriteStr(configOptionJson, value_name + "_st", analog_start); jsonWriteStr(configOptionJson, value_name + "_end", analog_end); jsonWriteStr(configOptionJson, value_name + "_st_out", analog_start_out); jsonWriteStr(configOptionJson, value_name + "_end_out", analog_end_out); createWidgetByType(widget_name, page_name, page_number, type, value_name); if (enter_to_analog_counter == 1) { sensors_reading_map[1] = 1; } if (enter_to_analog_counter == 2) { sensors_reading_map[2] = 1; } } void analog_reading1() { String value_name = selectFromMarkerToMarker(analog_value_names_list, ",", 0); #ifdef ESP32 int analog_in = analogRead(34); #endif #ifdef ESP8266 int analog_in = analogRead(A0); #endif int analog = map(analog_in, jsonReadInt(configOptionJson, value_name + "_st"), jsonReadInt(configOptionJson, value_name + "_end"), jsonReadInt(configOptionJson, value_name + "_st_out"), jsonReadInt(configOptionJson, value_name + "_end_out")); jsonWriteInt(configLiveJson, value_name, analog); eventGen(value_name, ""); MqttClient::publishStatus(value_name, String(analog)); Serial.println("[I] sensor '" + value_name + "' data: " + String(analog)); } void analog_reading2() { String value_name = selectFromMarkerToMarker(analog_value_names_list, ",", 1); #ifdef ESP32 int analog_in = analogRead(35); #endif #ifdef ESP8266 int analog_in = analogRead(A0); #endif int analog = map(analog_in, jsonReadInt(configOptionJson, value_name + "_st"), jsonReadInt(configOptionJson, value_name + "_end"), jsonReadInt(configOptionJson, value_name + "_st_out"), jsonReadInt(configOptionJson, value_name + "_end_out")); jsonWriteInt(configLiveJson, value_name, analog); eventGen(value_name, ""); MqttClient::publishStatus(value_name, String(analog)); Serial.println("[I] sensor '" + value_name + "' data: " + String(analog)); } #endif //========================================================================================================================================= //=========================================Модуль температурного сенсора ds18b20=========================================================== #ifdef DALLAS_ENABLED //dallas temp1 2 0x14 Температура Датчики anydata 1 //dallas temp2 2 0x14 Температура Датчики anydata 2 void dallas() { String value_name = sCmd.next(); uint8_t pin = (uint8_t)String(sCmd.next()).toInt(); String address = sCmd.next(); jsonWriteStr(configOptionJson, value_name + "_ds", address); String widget_name = sCmd.next(); String page_name = sCmd.next(); String type = sCmd.next(); String page_number = sCmd.next(); sensors.setOneWire(oneWireBus.get(pin)); sensors.begin(); sensors.setResolution(12); dallas_value_name += value_name + ";"; createWidgetByType(widget_name, page_name, page_number, type, value_name); sensors_reading_map[3] = 1; } void dallas_reading() { float temp = 0; byte num = sensors.getDS18Count(); String dallas_value_name_tmp_buf = dallas_value_name; sensors.requestTemperatures(); for (byte i = 0; i < num; i++) { temp = sensors.getTempCByIndex(i); String buf = selectToMarker(dallas_value_name_tmp_buf, ";"); dallas_value_name_tmp_buf = deleteBeforeDelimiter(dallas_value_name_tmp_buf, ";"); jsonWriteStr(configLiveJson, buf, String(temp)); eventGen(buf, ""); MqttClient::publishStatus(buf, String(temp)); Serial.println("[I] sensor '" + buf + "' send date " + String(temp)); } } #endif //========================================================================================================================================= //=========================================Модуль сенсоров DHT============================================================================= #ifdef DHT_ENABLED //dhtT t 2 dht11 Температура#DHT,#t°C Датчики any-data 1 void dhtT() { String value_name = sCmd.next(); String pin = sCmd.next(); String sensor_type = sCmd.next(); String widget_name = sCmd.next(); String page_name = sCmd.next(); String type = sCmd.next(); String page_number = sCmd.next(); dhtT_value_name = value_name; if (sensor_type == "dht11") { dht.setup(pin.toInt(), DHTesp::DHT11); } if (sensor_type == "dht22") { dht.setup(pin.toInt(), DHTesp::DHT22); } createWidgetByType(widget_name, page_name, page_number, type, value_name); sensors_reading_map[4] = 1; } void dhtT_reading() { float value = 0; static int counter; if (dht.getStatus() != 0 && counter < 5) { MqttClient::publishStatus(dhtT_value_name, String(dht.getStatusString())); counter++; } else { counter = 0; value = dht.getTemperature(); if (String(value) != "nan") { eventGen(dhtT_value_name, ""); jsonWriteStr(configLiveJson, dhtT_value_name, String(value)); MqttClient::publishStatus(dhtT_value_name, String(value)); Serial.println("[I] sensor '" + dhtT_value_name + "' data: " + String(value)); } } } //dhtH h 2 dht11 Влажность#DHT,#t°C Датчики any-data 1 void dhtH() { String value_name = sCmd.next(); String pin = sCmd.next(); String sensor_type = sCmd.next(); String widget_name = sCmd.next(); String page_name = sCmd.next(); String type = sCmd.next(); String page_number = sCmd.next(); dhtH_value_name = value_name; if (sensor_type == "dht11") { dht.setup(pin.toInt(), DHTesp::DHT11); } if (sensor_type == "dht22") { dht.setup(pin.toInt(), DHTesp::DHT22); } createWidgetByType(widget_name, page_name, page_number, type, value_name); sensors_reading_map[5] = 1; } void dhtH_reading() { float value = 0; static int counter; if (dht.getStatus() != 0 && counter < 5) { MqttClient::publishStatus(dhtH_value_name, String(dht.getStatusString())); counter++; } else { counter = 0; value = dht.getHumidity(); if (String(value) != "nan") { eventGen(dhtH_value_name, ""); jsonWriteStr(configLiveJson, dhtH_value_name, String(value)); MqttClient::publishStatus(dhtH_value_name, String(value)); Serial.println("[I] sensor '" + dhtH_value_name + "' data: " + String(value)); } } } //dhtPerception Восприятие: Датчики 4 void dhtP() { String widget_name = sCmd.next(); String page_name = sCmd.next(); String page_number = sCmd.next(); createWidgetByType(widget_name, page_name, page_number, "any-data", "dhtPerception"); sensors_reading_map[6] = 1; } void dhtP_reading() { byte value; if (dht.getStatus() != 0) { MqttClient::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); if (mqtt.connected()) { Serial.println("[I] sensor 'dhtPerception' data: " + final_line); } } } //dhtComfort Степень#комфорта: Датчики 3 void dhtC() { String widget_name = sCmd.next(); String page_name = sCmd.next(); String page_number = sCmd.next(); createWidgetByType(widget_name, page_name, page_number, "anydata", "dhtComfort"); sensors_reading_map[7] = 1; } void dhtC_reading() { ComfortState cf; if (dht.getStatus() != 0) { MqttClient::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); Serial.println("[I] sensor 'dhtComfort' send date " + final_line); } } const String perceptionStr(byte value) { String res; switch (value) { case 0: res = F("Сухой воздух"); break; case 1: res = F("Комфортно"); break; case 2: res = F("Уютно"); break; case 3: res = F("Хорошо"); break; case 4: res = F("Неудобно"); break; case 5: res = F("Довольно неудобно"); break; case 6: res = F("Очень неудобно"); break; case 7: res = F("Невыносимо"); default: res = F("Unknown"); break; } return res; } const String comfortStr(ComfortState value) { String res; switch (value) { case Comfort_OK: res = F("Отлично"); break; case Comfort_TooHot: res = F("Очень жарко"); break; case Comfort_TooCold: res = F("Очень холодно"); break; case Comfort_TooDry: res = F("Очень сухо"); break; case Comfort_TooHumid: res = F("Очень влажно"); break; case Comfort_HotAndHumid: res = F("Жарко и влажно"); break; case Comfort_HotAndDry: res = F("Жарко и сухо"); break; case Comfort_ColdAndHumid: res = F("Холодно и влажно"); break; case Comfort_ColdAndDry: res = F("Холодно и сухо"); break; default: res = F("Неизвестно"); break; }; return res; } //dhtDewpoint Точка#росы: Датчики 5 void dhtD() { String widget_name = sCmd.next(); String page_name = sCmd.next(); String page_number = sCmd.next(); createWidgetByType(widget_name, page_name, page_number, "anydata", "dhtDewpoint"); sensors_reading_map[8] = 1; } void dhtD_reading() { float value; if (dht.getStatus() != 0) { MqttClient::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)); Serial.println("[I] sensor 'dhtDewpoint' data: " + String(value)); } } #endif //=========================================i2c bus esp8266 scl-4 sda-5 ==================================================================== //========================================================================================================================================= //=========================================Модуль сенсоров bmp280========================================================================== //bmp280T temp1 0x76 Температура#bmp280 Датчики any-data 1 void bmp280T() { String value_name = sCmd.next(); String address = sCmd.next(); String widget_name = sCmd.next(); String page_name = sCmd.next(); String type = sCmd.next(); String page_number = sCmd.next(); bmp280T_value_name = value_name; createWidgetByType(widget_name, page_name, page_number, type, value_name); bmp.begin(hexStringToUint8(address)); bmp.setSampling(Adafruit_BMP280::MODE_NORMAL, /* Operating Mode. */ Adafruit_BMP280::SAMPLING_X2, /* Temp. oversampling */ Adafruit_BMP280::SAMPLING_X16, /* Pressure oversampling */ Adafruit_BMP280::FILTER_X16, /* Filtering. */ Adafruit_BMP280::STANDBY_MS_500); /* Standby time. */ //bmp_temp->printSensorDetails(); sensors_reading_map[9] = 1; } void bmp280T_reading() { float value = 0; sensors_event_t temp_event; bmp_temp->getEvent(&temp_event); value = temp_event.temperature; jsonWriteStr(configLiveJson, bmp280T_value_name, String(value)); eventGen(bmp280T_value_name, ""); MqttClient::publishStatus(bmp280T_value_name, String(value)); Serial.println("[I] sensor '" + bmp280T_value_name + "' data: " + String(value)); } //bmp280P press1 0x76 Давление#bmp280 Датчики any-data 2 void bmp280P() { String value_name = sCmd.next(); String address = sCmd.next(); String widget_name = sCmd.next(); String page_name = sCmd.next(); String type = sCmd.next(); String page_number = sCmd.next(); bmp280P_value_name = value_name; createWidgetByType(widget_name, page_name, page_number, type, value_name); bmp.begin(hexStringToUint8(address)); bmp.setSampling(Adafruit_BMP280::MODE_NORMAL, /* Operating Mode. */ Adafruit_BMP280::SAMPLING_X2, /* Temp. oversampling */ Adafruit_BMP280::SAMPLING_X16, /* Pressure oversampling */ Adafruit_BMP280::FILTER_X16, /* Filtering. */ Adafruit_BMP280::STANDBY_MS_500); /* Standby time. */ //bmp_temp->printSensorDetails(); sensors_reading_map[10] = 1; } void bmp280P_reading() { float value = 0; sensors_event_t pressure_event; bmp_pressure->getEvent(&pressure_event); value = pressure_event.pressure; value = value / 1.333224; jsonWriteStr(configLiveJson, bmp280P_value_name, String(value)); eventGen(bmp280P_value_name, ""); MqttClient::publishStatus(bmp280P_value_name, String(value)); Serial.println("[I] sensor '" + bmp280P_value_name + "' data: " + String(value)); } //========================================================================================================================================= //=============================================Модуль сенсоров bme280====================================================================== //bme280T temp1 0x76 Температура#bmp280 Датчики any-data 1 void bme280T() { String value_name = sCmd.next(); String address = sCmd.next(); String widget_name = sCmd.next(); String page_name = sCmd.next(); String type = sCmd.next(); String page_number = sCmd.next(); bme280T_value_name = value_name; createWidgetByType(widget_name, page_name, page_number, type, value_name); bme.begin(hexStringToUint8(address)); sensors_reading_map[11] = 1; } void bme280T_reading() { float value = 0; value = bme.readTemperature(); jsonWriteStr(configLiveJson, bme280T_value_name, String(value)); eventGen(bme280T_value_name, ""); MqttClient::publishStatus(bme280T_value_name, String(value)); Serial.println("[I] sensor '" + bme280T_value_name + "' data: " + String(value)); } //bme280P pres1 0x76 Давление#bmp280 Датчики any-data 1 void bme280P() { String value_name = sCmd.next(); String address = sCmd.next(); String widget_name = sCmd.next(); String page_name = sCmd.next(); String type = sCmd.next(); String page_number = sCmd.next(); bme280P_value_name = value_name; createWidgetByType(widget_name, page_name, page_number, type, value_name); bme.begin(hexStringToUint8(address)); sensors_reading_map[12] = 1; } void bme280P_reading() { float value = 0; value = bme.readPressure(); value = value / 1.333224; jsonWriteStr(configLiveJson, bme280P_value_name, String(value)); eventGen(bme280P_value_name, ""); MqttClient::publishStatus(bme280P_value_name, String(value)); Serial.println("[I] sensor '" + bme280P_value_name + "' data: " + String(value)); } //bme280H hum1 0x76 Влажность#bmp280 Датчики any-data 1 void bme280H() { String value_name = sCmd.next(); String address = sCmd.next(); String widget_name = sCmd.next(); String page_name = sCmd.next(); String type = sCmd.next(); String page_number = sCmd.next(); bme280H_value_name = value_name; createWidgetByType(widget_name, page_name, page_number, type, value_name); bme.begin(hexStringToUint8(address)); sensors_reading_map[13] = 1; } void bme280H_reading() { float value = 0; value = bme.readHumidity(); jsonWriteStr(configLiveJson, bme280H_value_name, String(value)); eventGen(bme280H_value_name, ""); MqttClient::publishStatus(bme280H_value_name, String(value)); Serial.println("[I] sensor '" + bme280H_value_name + "' data: " + String(value)); } //bme280A altit1 0x76 Высота#bmp280 Датчики any-data 1 void bme280A() { String value_name = sCmd.next(); String address = sCmd.next(); String widget_name = sCmd.next(); String page_name = sCmd.next(); String type = sCmd.next(); String page_number = sCmd.next(); bme280A_value_name = value_name; createWidgetByType(widget_name, page_name, page_number, type, value_name); bme.begin(hexStringToUint8(address)); sensors_reading_map[14] = 1; } void bme280A_reading() { float value = bme.readAltitude(1013.25); jsonWriteStr(configLiveJson, bme280A_value_name, String(value, 2)); eventGen(bme280A_value_name, ""); MqttClient::publishStatus(bme280A_value_name, String(value)); Serial.println("[I] sensor '" + bme280A_value_name + "' data: " + String(value)); }