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This commit is contained in:
Dmitry Borisenko
2020-07-26 23:47:00 +02:00
parent f7f4e176b2
commit 4aa0dc39b9
236 changed files with 0 additions and 27262 deletions
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src/Sensors.cpp
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#include "Global.h"
OneWire *oneWire;
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
void dallas() {
String value_name = sCmd.next();
String pin = 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();
oneWire = new OneWire((uint8_t)pin.toInt());
sensors.setOneWire(oneWire);
sensors.begin();
sensors.setResolution(12);
createWidgetByType(widget_name, page_name, page_number, type, "dallas");
sensors_reading_map[3] = 1;
}
void dallas_reading() {
float temp = 0;
sensors.requestTemperatures();
temp = sensors.getTempCByIndex(0);
jsonWriteStr(configLiveJson, "dallas", String(temp));
eventGen("dallas", "");
MqttClient::publishStatus("dallas", String(temp));
Serial.println("[I] sensor 'dallas' 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));
}