|
|
- /*
-
- SENSOR MODULE
-
- Copyright (C) 2016-2019 by Xose Pérez <xose dot perez at gmail dot com>
-
- */
-
- #if SENSOR_SUPPORT
-
- #include <vector>
- #include "filters/LastFilter.h"
- #include "filters/MaxFilter.h"
- #include "filters/MedianFilter.h"
- #include "filters/MovingAverageFilter.h"
- #include "sensors/BaseSensor.h"
-
- #include <float.h>
-
- struct sensor_magnitude_t {
- BaseSensor * sensor; // Sensor object
- BaseFilter * filter; // Filter object
- unsigned char local; // Local index in its provider
- unsigned char type; // Type of measurement
- unsigned char decimals; // Number of decimals in textual representation
- unsigned char global; // Global index in its type
- double last; // Last raw value from sensor (unfiltered)
- double reported; // Last reported value
- double min_change; // Minimum value change to report
- double max_change; // Maximum value change to report
- };
-
- std::vector<BaseSensor *> _sensors;
- std::vector<sensor_magnitude_t> _magnitudes;
- bool _sensors_ready = false;
-
- unsigned char _counts[MAGNITUDE_MAX];
- bool _sensor_realtime = API_REAL_TIME_VALUES;
- unsigned long _sensor_read_interval = 1000 * SENSOR_READ_INTERVAL;
- unsigned char _sensor_report_every = SENSOR_REPORT_EVERY;
- unsigned char _sensor_save_every = SENSOR_SAVE_EVERY;
- unsigned char _sensor_power_units = SENSOR_POWER_UNITS;
- unsigned char _sensor_energy_units = SENSOR_ENERGY_UNITS;
- unsigned char _sensor_temperature_units = SENSOR_TEMPERATURE_UNITS;
- double _sensor_temperature_correction = SENSOR_TEMPERATURE_CORRECTION;
- double _sensor_humidity_correction = SENSOR_HUMIDITY_CORRECTION;
- double _sensor_lux_correction = SENSOR_LUX_CORRECTION;
-
- #if PZEM004T_SUPPORT
- PZEM004TSensor *pzem004t_sensor;
- #endif
-
- String _sensor_energy_reset_ts = String();
-
- // -----------------------------------------------------------------------------
- // Private
- // -----------------------------------------------------------------------------
-
- unsigned char _magnitudeDecimals(unsigned char type) {
-
- // Hardcoded decimals (these should be linked to the unit, instead of the magnitude)
-
- if (type == MAGNITUDE_ANALOG) return ANALOG_DECIMALS;
- if (type == MAGNITUDE_ENERGY ||
- type == MAGNITUDE_ENERGY_DELTA) {
- _sensor_energy_units = getSetting("eneUnits", SENSOR_ENERGY_UNITS).toInt();
- if (_sensor_energy_units == ENERGY_KWH) return 3;
- }
- if (type == MAGNITUDE_POWER_ACTIVE ||
- type == MAGNITUDE_POWER_APPARENT ||
- type == MAGNITUDE_POWER_REACTIVE) {
- if (_sensor_power_units == POWER_KILOWATTS) return 3;
- }
- if (type < MAGNITUDE_MAX) return pgm_read_byte(magnitude_decimals + type);
- return 0;
-
- }
-
- double _magnitudeProcess(unsigned char type, unsigned char decimals, double value) {
-
- // Hardcoded conversions (these should be linked to the unit, instead of the magnitude)
-
- if (type == MAGNITUDE_TEMPERATURE) {
- if (_sensor_temperature_units == TMP_FAHRENHEIT) value = value * 1.8 + 32;
- value = value + _sensor_temperature_correction;
- }
-
- if (type == MAGNITUDE_HUMIDITY) {
- value = constrain(value + _sensor_humidity_correction, 0, 100);
- }
-
- if (type == MAGNITUDE_LUX) {
- value = value + _sensor_lux_correction;
- }
-
- if (type == MAGNITUDE_ENERGY ||
- type == MAGNITUDE_ENERGY_DELTA) {
- if (_sensor_energy_units == ENERGY_KWH) value = value / 3600000;
- }
- if (type == MAGNITUDE_POWER_ACTIVE ||
- type == MAGNITUDE_POWER_APPARENT ||
- type == MAGNITUDE_POWER_REACTIVE) {
- if (_sensor_power_units == POWER_KILOWATTS) value = value / 1000;
- }
-
- return roundTo(value, decimals);
-
- }
-
- // -----------------------------------------------------------------------------
-
- #if WEB_SUPPORT
-
- //void _sensorWebSocketMagnitudes(JsonObject& root, const String& ws_name, const String& conf_name) {
- template<typename T> void _sensorWebSocketMagnitudes(JsonObject& root, T prefix) {
-
- // ws produces flat list <prefix>Magnitudes
- const String ws_name = String(prefix) + "Magnitudes";
-
- // config uses <prefix>Magnitude<index> (cut 's')
- const String conf_name = ws_name.substring(0, ws_name.length() - 1);
-
- JsonObject& list = root.createNestedObject(ws_name);
- list["size"] = magnitudeCount();
-
- //JsonArray& name = list.createNestedArray("name");
- JsonArray& type = list.createNestedArray("type");
- JsonArray& index = list.createNestedArray("index");
- JsonArray& idx = list.createNestedArray("idx");
-
- for (unsigned char i=0; i<magnitudeCount(); ++i) {
- //name.add(magnitudeName(i));
- type.add(magnitudeType(i));
- index.add(magnitudeIndex(i));
- idx.add(getSetting(conf_name, i, 0).toInt());
- }
- }
-
- /*
- template<typename T> void _sensorWebSocketMagnitudes(JsonObject& root, T prefix) {
-
- // ws produces flat list <prefix>Magnitudes
- const String ws_name = String(prefix) + "Magnitudes";
-
- // config uses <prefix>Magnitude<index> (cut 's')
- const String conf_name = ws_name.substring(0, ws_name.length() - 1);
-
- _sensorWebSocketMagnitudes(root, ws_name, conf_name);
-
- }
- */
-
- bool _sensorWebSocketOnKeyCheck(const char * key, JsonVariant& value) {
- if (strncmp(key, "pwr", 3) == 0) return true;
- if (strncmp(key, "sns", 3) == 0) return true;
- if (strncmp(key, "tmp", 3) == 0) return true;
- if (strncmp(key, "hum", 3) == 0) return true;
- if (strncmp(key, "ene", 3) == 0) return true;
- if (strncmp(key, "lux", 3) == 0) return true;
- return false;
- }
-
- void _sensorWebSocketOnVisible(JsonObject& root) {
-
- root["snsVisible"] = 1;
-
- for (auto& magnitude : _magnitudes) {
- if (magnitude.type == MAGNITUDE_TEMPERATURE) root["temperatureVisible"] = 1;
- if (magnitude.type == MAGNITUDE_HUMIDITY) root["humidityVisible"] = 1;
- #if MICS2710_SUPPORT || MICS5525_SUPPORT
- if (magnitude.type == MAGNITUDE_CO || magnitude.type == MAGNITUDE_NO2) root["micsVisible"] = 1;
- #endif
- }
-
- }
-
- void _sensorWebSocketMagnitudesConfig(JsonObject& root) {
-
- JsonObject& magnitudes = root.createNestedObject("magnitudesConfig");
- uint8_t size = 0;
-
- JsonArray& index = magnitudes.createNestedArray("index");
- JsonArray& type = magnitudes.createNestedArray("type");
- JsonArray& units = magnitudes.createNestedArray("units");
- JsonArray& description = magnitudes.createNestedArray("description");
-
- for (unsigned char i=0; i<magnitudeCount(); i++) {
-
- sensor_magnitude_t magnitude = _magnitudes[i];
- if (magnitude.type == MAGNITUDE_EVENT) continue;
- ++size;
-
- index.add<uint8_t>(magnitude.global);
- type.add<uint8_t>(magnitude.type);
- units.add(magnitudeUnits(magnitude.type));
-
- if (magnitude.type == MAGNITUDE_ENERGY) {
- if (_sensor_energy_reset_ts.length() == 0) _sensorResetTS();
- description.add(magnitude.sensor->slot(magnitude.local) + String(" (since ") + _sensor_energy_reset_ts + String(")"));
- } else {
- description.add(magnitude.sensor->slot(magnitude.local));
- }
-
- }
-
- magnitudes["size"] = size;
-
- }
-
- void _sensorWebSocketSendData(JsonObject& root) {
-
- char buffer[64];
-
- JsonObject& magnitudes = root.createNestedObject("magnitudes");
- uint8_t size = 0;
-
- JsonArray& value = magnitudes.createNestedArray("value");
- JsonArray& error = magnitudes.createNestedArray("error");
-
- for (unsigned char i=0; i<magnitudeCount(); i++) {
- sensor_magnitude_t magnitude = _magnitudes[i];
- if (magnitude.type == MAGNITUDE_EVENT) continue;
- ++size;
-
- double value_show = _magnitudeProcess(magnitude.type, magnitude.decimals, magnitude.last);
- dtostrf(value_show, 1, magnitude.decimals, buffer);
-
- value.add(buffer);
- error.add(magnitude.sensor->error());
- }
-
- magnitudes["size"] = size;
-
- }
-
- void _sensorWebSocketOnConnected(JsonObject& root) {
-
- for (unsigned char i=0; i<_sensors.size(); i++) {
-
- BaseSensor * sensor = _sensors[i];
- UNUSED(sensor);
-
- #if EMON_ANALOG_SUPPORT
- if (sensor->getID() == SENSOR_EMON_ANALOG_ID) {
- root["emonVisible"] = 1;
- root["pwrVisible"] = 1;
- root["pwrVoltage"] = ((EmonAnalogSensor *) sensor)->getVoltage();
- }
- #endif
-
- #if HLW8012_SUPPORT
- if (sensor->getID() == SENSOR_HLW8012_ID) {
- root["hlwVisible"] = 1;
- root["pwrVisible"] = 1;
- }
- #endif
-
- #if CSE7766_SUPPORT
- if (sensor->getID() == SENSOR_CSE7766_ID) {
- root["cseVisible"] = 1;
- root["pwrVisible"] = 1;
- }
- #endif
-
- #if V9261F_SUPPORT
- if (sensor->getID() == SENSOR_V9261F_ID) {
- root["pwrVisible"] = 1;
- }
- #endif
-
- #if ECH1560_SUPPORT
- if (sensor->getID() == SENSOR_ECH1560_ID) {
- root["pwrVisible"] = 1;
- }
- #endif
-
- #if PZEM004T_SUPPORT
- if (sensor->getID() == SENSOR_PZEM004T_ID) {
- root["pzemVisible"] = 1;
- root["pwrVisible"] = 1;
- }
- #endif
-
- #if PULSEMETER_SUPPORT
- if (sensor->getID() == SENSOR_PULSEMETER_ID) {
- root["pmVisible"] = 1;
- root["pwrRatioE"] = ((PulseMeterSensor *) sensor)->getEnergyRatio();
- }
- #endif
-
- }
-
- if (magnitudeCount()) {
- //root["apiRealTime"] = _sensor_realtime;
- root["pwrUnits"] = _sensor_power_units;
- root["eneUnits"] = _sensor_energy_units;
- root["tmpUnits"] = _sensor_temperature_units;
- root["tmpCorrection"] = _sensor_temperature_correction;
- root["humCorrection"] = _sensor_humidity_correction;
- root["snsRead"] = _sensor_read_interval / 1000;
- root["snsReport"] = _sensor_report_every;
- root["snsSave"] = _sensor_save_every;
- _sensorWebSocketMagnitudesConfig(root);
- }
-
- /*
- // Sensors manifest
- JsonArray& manifest = root.createNestedArray("manifest");
- #if BMX280_SUPPORT
- BMX280Sensor::manifest(manifest);
- #endif
-
- // Sensors configuration
- JsonArray& sensors = root.createNestedArray("sensors");
- for (unsigned char i; i<_sensors.size(); i++) {
- JsonObject& sensor = sensors.createNestedObject();
- sensor["index"] = i;
- sensor["id"] = _sensors[i]->getID();
- _sensors[i]->getConfig(sensor);
- }
- */
-
- }
-
- #endif // WEB_SUPPORT
-
- #if API_SUPPORT
-
- void _sensorAPISetup() {
-
- for (unsigned char magnitude_id=0; magnitude_id<_magnitudes.size(); magnitude_id++) {
-
- sensor_magnitude_t magnitude = _magnitudes[magnitude_id];
-
- String topic = magnitudeTopic(magnitude.type);
- if (SENSOR_USE_INDEX || (_counts[magnitude.type] > 1)) topic = topic + "/" + String(magnitude.global);
-
- apiRegister(topic.c_str(), [magnitude_id](char * buffer, size_t len) {
- sensor_magnitude_t magnitude = _magnitudes[magnitude_id];
- double value = _sensor_realtime ? magnitude.last : magnitude.reported;
- dtostrf(value, 1, magnitude.decimals, buffer);
- });
-
- }
-
- }
-
- #endif // API_SUPPORT
-
- #if TERMINAL_SUPPORT
-
- void _sensorInitCommands() {
- terminalRegisterCommand(F("MAGNITUDES"), [](Embedis* e) {
- for (unsigned char i=0; i<_magnitudes.size(); i++) {
- sensor_magnitude_t magnitude = _magnitudes[i];
- DEBUG_MSG_P(PSTR("[SENSOR] * %2d: %s @ %s (%s/%d)\n"),
- i,
- magnitudeTopic(magnitude.type).c_str(),
- magnitude.sensor->slot(magnitude.local).c_str(),
- magnitudeTopic(magnitude.type).c_str(),
- magnitude.global
- );
- }
- terminalOK();
- });
- #if PZEM004T_SUPPORT
- terminalRegisterCommand(F("PZ.ADDRESS"), [](Embedis* e) {
- if (e->argc == 1) {
- DEBUG_MSG_P(PSTR("[SENSOR] PZEM004T\n"));
- unsigned char dev_count = pzem004t_sensor->getAddressesCount();
- for(unsigned char dev = 0; dev < dev_count; dev++) {
- DEBUG_MSG_P(PSTR("Device %d/%s\n"), dev, pzem004t_sensor->getAddress(dev).c_str());
- }
- terminalOK();
- } else if(e->argc == 2) {
- IPAddress addr;
- if (addr.fromString(String(e->argv[1]))) {
- if(pzem004t_sensor->setDeviceAddress(&addr)) {
- terminalOK();
- }
- } else {
- terminalError(F("Invalid address argument"));
- }
- } else {
- terminalError(F("Wrong arguments"));
- }
- });
- terminalRegisterCommand(F("PZ.RESET"), [](Embedis* e) {
- if(e->argc > 2) {
- terminalError(F("Wrong arguments"));
- } else {
- unsigned char init = e->argc == 2 ? String(e->argv[1]).toInt() : 0;
- unsigned char limit = e->argc == 2 ? init +1 : pzem004t_sensor->getAddressesCount();
- DEBUG_MSG_P(PSTR("[SENSOR] PZEM004T\n"));
- for(unsigned char dev = init; dev < limit; dev++) {
- float offset = pzem004t_sensor->resetEnergy(dev);
- _sensorEnergyTotal(dev, offset);
- DEBUG_MSG_P(PSTR("Device %d/%s - Offset: %s\n"), dev, pzem004t_sensor->getAddress(dev).c_str(), String(offset).c_str());
- }
- terminalOK();
- }
- });
- terminalRegisterCommand(F("PZ.VALUE"), [](Embedis* e) {
- if(e->argc > 2) {
- terminalError(F("Wrong arguments"));
- } else {
- unsigned char init = e->argc == 2 ? String(e->argv[1]).toInt() : 0;
- unsigned char limit = e->argc == 2 ? init +1 : pzem004t_sensor->getAddressesCount();
- DEBUG_MSG_P(PSTR("[SENSOR] PZEM004T\n"));
- for(unsigned char dev = init; dev < limit; dev++) {
- DEBUG_MSG_P(PSTR("Device %d/%s - Current: %s Voltage: %s Power: %s Energy: %s\n"), //
- dev,
- pzem004t_sensor->getAddress(dev).c_str(),
- String(pzem004t_sensor->value(dev * PZ_MAGNITUDE_CURRENT_INDEX)).c_str(),
- String(pzem004t_sensor->value(dev * PZ_MAGNITUDE_VOLTAGE_INDEX)).c_str(),
- String(pzem004t_sensor->value(dev * PZ_MAGNITUDE_POWER_ACTIVE_INDEX)).c_str(),
- String(pzem004t_sensor->value(dev * PZ_MAGNITUDE_ENERGY_INDEX)).c_str());
- }
- terminalOK();
- }
- });
- #endif
- }
-
- #endif
-
- void _sensorTick() {
- for (unsigned char i=0; i<_sensors.size(); i++) {
- _sensors[i]->tick();
- }
- }
-
- void _sensorPre() {
- for (unsigned char i=0; i<_sensors.size(); i++) {
- _sensors[i]->pre();
- if (!_sensors[i]->status()) {
- DEBUG_MSG_P(PSTR("[SENSOR] Error reading data from %s (error: %d)\n"),
- _sensors[i]->description().c_str(),
- _sensors[i]->error()
- );
- }
- }
- }
-
- void _sensorPost() {
- for (unsigned char i=0; i<_sensors.size(); i++) {
- _sensors[i]->post();
- }
- }
-
- void _sensorResetTS() {
- #if NTP_SUPPORT
- if (ntpSynced()) {
- if (_sensor_energy_reset_ts.length() == 0) {
- _sensor_energy_reset_ts = ntpDateTime(now() - millis() / 1000);
- } else {
- _sensor_energy_reset_ts = ntpDateTime(now());
- }
- } else {
- _sensor_energy_reset_ts = String();
- }
- setSetting("snsResetTS", _sensor_energy_reset_ts);
- #endif
- }
-
- double _sensorEnergyTotal(unsigned int index) {
- double value = 0;
-
- if (rtcmemStatus() && (index < (sizeof(Rtcmem->energy) / sizeof(*Rtcmem->energy)))) {
- value = Rtcmem->energy[index];
- } else {
- value = (_sensor_save_every > 0) ? getSetting("eneTotal", index, 0).toInt() : 0;
- }
-
- return value;
- }
-
- double _sensorEnergyTotal() {
- return _sensorEnergyTotal(0);
- }
-
- void _sensorEnergyTotal(unsigned int index, double value) {
- static unsigned long save_count = 0;
-
- // Save to EEPROM every '_sensor_save_every' readings
- if (_sensor_save_every > 0) {
- save_count = (save_count + 1) % _sensor_save_every;
- if (0 == save_count) {
- setSetting("eneTotal", index, value);
- saveSettings();
- }
- }
-
- // Always save to RTCMEM
- if (index < (sizeof(Rtcmem->energy) / sizeof(*Rtcmem->energy))) {
- Rtcmem->energy[index] = value;
- }
- }
-
- // -----------------------------------------------------------------------------
- // Sensor initialization
- // -----------------------------------------------------------------------------
-
- void _sensorLoad() {
-
- /*
-
- This is temporal, in the future sensors will be initialized based on
- soft configuration (data stored in EEPROM config) so you will be able
- to define and configure new sensors on the fly
-
- At the time being, only enabled sensors (those with *_SUPPORT to 1) are being
- loaded and initialized here. If you want to add new sensors of the same type
- just duplicate the block and change the arguments for the set* methods.
- Check the DHT block below for an example
-
- */
-
- #if AM2320_SUPPORT
- {
- AM2320Sensor * sensor = new AM2320Sensor();
- sensor->setAddress(AM2320_ADDRESS);
- _sensors.push_back(sensor);
- }
- #endif
-
- #if ANALOG_SUPPORT
- {
- AnalogSensor * sensor = new AnalogSensor();
- sensor->setSamples(ANALOG_SAMPLES);
- sensor->setDelay(ANALOG_DELAY);
- //CICM For analog scaling
- sensor->setFactor(ANALOG_FACTOR);
- sensor->setOffset(ANALOG_OFFSET);
- _sensors.push_back(sensor);
- }
- #endif
-
- #if BH1750_SUPPORT
- {
- BH1750Sensor * sensor = new BH1750Sensor();
- sensor->setAddress(BH1750_ADDRESS);
- sensor->setMode(BH1750_MODE);
- _sensors.push_back(sensor);
- }
- #endif
-
- #if BMP180_SUPPORT
- {
- BMP180Sensor * sensor = new BMP180Sensor();
- sensor->setAddress(BMP180_ADDRESS);
- _sensors.push_back(sensor);
- }
- #endif
-
- #if BMX280_SUPPORT
- {
- // Support up to two sensors with full auto-discovery.
- const unsigned char number = constrain(getSetting("bmx280Number", BMX280_NUMBER).toInt(), 1, 2);
-
- // For second sensor, if BMX280_ADDRESS is 0x00 then auto-discover
- // otherwise choose the other unnamed sensor address
- const unsigned char first = getSetting("bmx280Address", BMX280_ADDRESS).toInt();
- const unsigned char second = (first == 0x00) ? 0x00 : (0x76 + 0x77 - first);
-
- const unsigned char address_map[2] = { first, second };
-
- for (unsigned char n=0; n < number; ++n) {
- BMX280Sensor * sensor = new BMX280Sensor();
- sensor->setAddress(address_map[n]);
- _sensors.push_back(sensor);
- }
- }
- #endif
-
- #if CSE7766_SUPPORT
- {
- CSE7766Sensor * sensor = new CSE7766Sensor();
- sensor->setRX(CSE7766_PIN);
- _sensors.push_back(sensor);
- }
- #endif
-
- #if DALLAS_SUPPORT
- {
- DallasSensor * sensor = new DallasSensor();
- sensor->setGPIO(DALLAS_PIN);
- _sensors.push_back(sensor);
- }
- #endif
-
- #if DHT_SUPPORT
- {
- DHTSensor * sensor = new DHTSensor();
- sensor->setGPIO(DHT_PIN);
- sensor->setType(DHT_TYPE);
- _sensors.push_back(sensor);
- }
- #endif
-
- /*
- // Example on how to add a second DHT sensor
- // DHT2_PIN and DHT2_TYPE should be defined in sensors.h file
- #if DHT_SUPPORT
- {
- DHTSensor * sensor = new DHTSensor();
- sensor->setGPIO(DHT2_PIN);
- sensor->setType(DHT2_TYPE);
- _sensors.push_back(sensor);
- }
- #endif
- */
-
- #if DIGITAL_SUPPORT
- {
- #if (DIGITAL1_PIN != GPIO_NONE)
- {
- DigitalSensor * sensor = new DigitalSensor();
- sensor->setGPIO(DIGITAL1_PIN);
- sensor->setMode(DIGITAL1_PIN_MODE);
- sensor->setDefault(DIGITAL1_DEFAULT_STATE);
- _sensors.push_back(sensor);
- }
- #endif
-
- #if (DIGITAL2_PIN != GPIO_NONE)
- {
- DigitalSensor * sensor = new DigitalSensor();
- sensor->setGPIO(DIGITAL2_PIN);
- sensor->setMode(DIGITAL2_PIN_MODE);
- sensor->setDefault(DIGITAL2_DEFAULT_STATE);
- _sensors.push_back(sensor);
- }
- #endif
-
- #if (DIGITAL3_PIN != GPIO_NONE)
- {
- DigitalSensor * sensor = new DigitalSensor();
- sensor->setGPIO(DIGITAL3_PIN);
- sensor->setMode(DIGITAL3_PIN_MODE);
- sensor->setDefault(DIGITAL3_DEFAULT_STATE);
- _sensors.push_back(sensor);
- }
- #endif
-
- #if (DIGITAL4_PIN != GPIO_NONE)
- {
- DigitalSensor * sensor = new DigitalSensor();
- sensor->setGPIO(DIGITAL4_PIN);
- sensor->setMode(DIGITAL4_PIN_MODE);
- sensor->setDefault(DIGITAL4_DEFAULT_STATE);
- _sensors.push_back(sensor);
- }
- #endif
-
- #if (DIGITAL5_PIN != GPIO_NONE)
- {
- DigitalSensor * sensor = new DigitalSensor();
- sensor->setGPIO(DIGITAL5_PIN);
- sensor->setMode(DIGITAL5_PIN_MODE);
- sensor->setDefault(DIGITAL5_DEFAULT_STATE);
- _sensors.push_back(sensor);
- }
- #endif
-
- #if (DIGITAL6_PIN != GPIO_NONE)
- {
- DigitalSensor * sensor = new DigitalSensor();
- sensor->setGPIO(DIGITAL6_PIN);
- sensor->setMode(DIGITAL6_PIN_MODE);
- sensor->setDefault(DIGITAL6_DEFAULT_STATE);
- _sensors.push_back(sensor);
- }
- #endif
-
- #if (DIGITAL7_PIN != GPIO_NONE)
- {
- DigitalSensor * sensor = new DigitalSensor();
- sensor->setGPIO(DIGITAL7_PIN);
- sensor->setMode(DIGITAL7_PIN_MODE);
- sensor->setDefault(DIGITAL7_DEFAULT_STATE);
- _sensors.push_back(sensor);
- }
- #endif
-
- #if (DIGITAL8_PIN != GPIO_NONE)
- {
- DigitalSensor * sensor = new DigitalSensor();
- sensor->setGPIO(DIGITAL8_PIN);
- sensor->setMode(DIGITAL8_PIN_MODE);
- sensor->setDefault(DIGITAL8_DEFAULT_STATE);
- _sensors.push_back(sensor);
- }
- #endif
- }
- #endif
-
- #if ECH1560_SUPPORT
- {
- ECH1560Sensor * sensor = new ECH1560Sensor();
- sensor->setCLK(ECH1560_CLK_PIN);
- sensor->setMISO(ECH1560_MISO_PIN);
- sensor->setInverted(ECH1560_INVERTED);
- _sensors.push_back(sensor);
- }
- #endif
-
- #if EMON_ADC121_SUPPORT
- {
- EmonADC121Sensor * sensor = new EmonADC121Sensor();
- sensor->setAddress(EMON_ADC121_I2C_ADDRESS);
- sensor->setVoltage(EMON_MAINS_VOLTAGE);
- sensor->setReference(EMON_REFERENCE_VOLTAGE);
- sensor->setCurrentRatio(0, EMON_CURRENT_RATIO);
- _sensors.push_back(sensor);
- }
- #endif
-
- #if EMON_ADS1X15_SUPPORT
- {
- EmonADS1X15Sensor * sensor = new EmonADS1X15Sensor();
- sensor->setAddress(EMON_ADS1X15_I2C_ADDRESS);
- sensor->setType(EMON_ADS1X15_TYPE);
- sensor->setMask(EMON_ADS1X15_MASK);
- sensor->setGain(EMON_ADS1X15_GAIN);
- sensor->setVoltage(EMON_MAINS_VOLTAGE);
- sensor->setCurrentRatio(0, EMON_CURRENT_RATIO);
- sensor->setCurrentRatio(1, EMON_CURRENT_RATIO);
- sensor->setCurrentRatio(2, EMON_CURRENT_RATIO);
- sensor->setCurrentRatio(3, EMON_CURRENT_RATIO);
- _sensors.push_back(sensor);
- }
- #endif
-
- #if EMON_ANALOG_SUPPORT
- {
- EmonAnalogSensor * sensor = new EmonAnalogSensor();
- sensor->setVoltage(EMON_MAINS_VOLTAGE);
- sensor->setReference(EMON_REFERENCE_VOLTAGE);
- sensor->setCurrentRatio(0, EMON_CURRENT_RATIO);
- _sensors.push_back(sensor);
- }
- #endif
-
- #if EVENTS_SUPPORT
- {
- #if (EVENTS1_PIN != GPIO_NONE)
- {
- EventSensor * sensor = new EventSensor();
- sensor->setGPIO(EVENTS1_PIN);
- sensor->setTrigger(EVENTS1_TRIGGER);
- sensor->setPinMode(EVENTS1_PIN_MODE);
- sensor->setDebounceTime(EVENTS1_DEBOUNCE);
- sensor->setInterruptMode(EVENTS1_INTERRUPT_MODE);
- _sensors.push_back(sensor);
- }
- #endif
-
- #if (EVENTS2_PIN != GPIO_NONE)
- {
- EventSensor * sensor = new EventSensor();
- sensor->setGPIO(EVENTS2_PIN);
- sensor->setTrigger(EVENTS2_TRIGGER);
- sensor->setPinMode(EVENTS2_PIN_MODE);
- sensor->setDebounceTime(EVENTS2_DEBOUNCE);
- sensor->setInterruptMode(EVENTS2_INTERRUPT_MODE);
- _sensors.push_back(sensor);
- }
- #endif
-
- #if (EVENTS3_PIN != GPIO_NONE)
- {
- EventSensor * sensor = new EventSensor();
- sensor->setGPIO(EVENTS3_PIN);
- sensor->setTrigger(EVENTS3_TRIGGER);
- sensor->setPinMode(EVENTS3_PIN_MODE);
- sensor->setDebounceTime(EVENTS3_DEBOUNCE);
- sensor->setInterruptMode(EVENTS3_INTERRUPT_MODE);
- _sensors.push_back(sensor);
- }
- #endif
-
- #if (EVENTS4_PIN != GPIO_NONE)
- {
- EventSensor * sensor = new EventSensor();
- sensor->setGPIO(EVENTS4_PIN);
- sensor->setTrigger(EVENTS4_TRIGGER);
- sensor->setPinMode(EVENTS4_PIN_MODE);
- sensor->setDebounceTime(EVENTS4_DEBOUNCE);
- sensor->setInterruptMode(EVENTS4_INTERRUPT_MODE);
- _sensors.push_back(sensor);
- }
- #endif
-
- #if (EVENTS5_PIN != GPIO_NONE)
- {
- EventSensor * sensor = new EventSensor();
- sensor->setGPIO(EVENTS5_PIN);
- sensor->setTrigger(EVENTS5_TRIGGER);
- sensor->setPinMode(EVENTS5_PIN_MODE);
- sensor->setDebounceTime(EVENTS5_DEBOUNCE);
- sensor->setInterruptMode(EVENTS5_INTERRUPT_MODE);
- _sensors.push_back(sensor);
- }
- #endif
-
- #if (EVENTS6_PIN != GPIO_NONE)
- {
- EventSensor * sensor = new EventSensor();
- sensor->setGPIO(EVENTS6_PIN);
- sensor->setTrigger(EVENTS6_TRIGGER);
- sensor->setPinMode(EVENTS6_PIN_MODE);
- sensor->setDebounceTime(EVENTS6_DEBOUNCE);
- sensor->setInterruptMode(EVENTS6_INTERRUPT_MODE);
- _sensors.push_back(sensor);
- }
- #endif
-
- #if (EVENTS7_PIN != GPIO_NONE)
- {
- EventSensor * sensor = new EventSensor();
- sensor->setGPIO(EVENTS7_PIN);
- sensor->setTrigger(EVENTS7_TRIGGER);
- sensor->setPinMode(EVENTS7_PIN_MODE);
- sensor->setDebounceTime(EVENTS7_DEBOUNCE);
- sensor->setInterruptMode(EVENTS7_INTERRUPT_MODE);
- _sensors.push_back(sensor);
- }
- #endif
-
- #if (EVENTS8_PIN != GPIO_NONE)
- {
- EventSensor * sensor = new EventSensor();
- sensor->setGPIO(EVENTS8_PIN);
- sensor->setTrigger(EVENTS8_TRIGGER);
- sensor->setPinMode(EVENTS8_PIN_MODE);
- sensor->setDebounceTime(EVENTS8_DEBOUNCE);
- sensor->setInterruptMode(EVENTS8_INTERRUPT_MODE);
- _sensors.push_back(sensor);
- }
- #endif
- }
- #endif
-
- #if GEIGER_SUPPORT
- {
- GeigerSensor * sensor = new GeigerSensor(); // Create instance of thr Geiger module.
- sensor->setGPIO(GEIGER_PIN); // Interrupt pin of the attached geiger counter board.
- sensor->setMode(GEIGER_PIN_MODE); // This pin is an input.
- sensor->setDebounceTime(GEIGER_DEBOUNCE); // Debounce time 25ms, because https://github.com/Trickx/espurna/wiki/Geiger-counter
- sensor->setInterruptMode(GEIGER_INTERRUPT_MODE); // Interrupt triggering: edge detection rising.
- sensor->setCPM2SievertFactor(GEIGER_CPM2SIEVERT); // Conversion factor from counts per minute to µSv/h
- _sensors.push_back(sensor);
- }
- #endif
-
- #if GUVAS12SD_SUPPORT
- {
- GUVAS12SDSensor * sensor = new GUVAS12SDSensor();
- sensor->setGPIO(GUVAS12SD_PIN);
- _sensors.push_back(sensor);
- }
- #endif
-
- #if SONAR_SUPPORT
- {
- SonarSensor * sensor = new SonarSensor();
- sensor->setEcho(SONAR_ECHO);
- sensor->setIterations(SONAR_ITERATIONS);
- sensor->setMaxDistance(SONAR_MAX_DISTANCE);
- sensor->setTrigger(SONAR_TRIGGER);
- _sensors.push_back(sensor);
- }
- #endif
-
- #if HLW8012_SUPPORT
- {
- HLW8012Sensor * sensor = new HLW8012Sensor();
- sensor->setSEL(HLW8012_SEL_PIN);
- sensor->setCF(HLW8012_CF_PIN);
- sensor->setCF1(HLW8012_CF1_PIN);
- sensor->setSELCurrent(HLW8012_SEL_CURRENT);
- _sensors.push_back(sensor);
- }
- #endif
-
- #if LDR_SUPPORT
- {
- LDRSensor * sensor = new LDRSensor();
- sensor->setSamples(LDR_SAMPLES);
- sensor->setDelay(LDR_DELAY);
- sensor->setType(LDR_TYPE);
- sensor->setPhotocellPositionOnGround(LDR_ON_GROUND);
- sensor->setResistor(LDR_RESISTOR);
- sensor->setPhotocellParameters(LDR_MULTIPLICATION, LDR_POWER);
- _sensors.push_back(sensor);
- }
- #endif
-
- #if MHZ19_SUPPORT
- {
- MHZ19Sensor * sensor = new MHZ19Sensor();
- sensor->setRX(MHZ19_RX_PIN);
- sensor->setTX(MHZ19_TX_PIN);
- if (getSetting("mhz19CalibrateAuto", 0).toInt() == 1)
- sensor->setCalibrateAuto(true);
- _sensors.push_back(sensor);
- }
- #endif
-
- #if MICS2710_SUPPORT
- {
- MICS2710Sensor * sensor = new MICS2710Sensor();
- sensor->setAnalogGPIO(MICS2710_NOX_PIN);
- sensor->setPreHeatGPIO(MICS2710_PRE_PIN);
- sensor->setRL(MICS2710_RL);
- _sensors.push_back(sensor);
- }
- #endif
-
- #if MICS5525_SUPPORT
- {
- MICS5525Sensor * sensor = new MICS5525Sensor();
- sensor->setAnalogGPIO(MICS5525_RED_PIN);
- sensor->setRL(MICS5525_RL);
- _sensors.push_back(sensor);
- }
- #endif
-
- #if NTC_SUPPORT
- {
- NTCSensor * sensor = new NTCSensor();
- sensor->setSamples(NTC_SAMPLES);
- sensor->setDelay(NTC_DELAY);
- sensor->setUpstreamResistor(NTC_R_UP);
- sensor->setDownstreamResistor(NTC_R_DOWN);
- sensor->setBeta(NTC_BETA);
- sensor->setR0(NTC_R0);
- sensor->setT0(NTC_T0);
- _sensors.push_back(sensor);
- }
- #endif
-
- #if PMSX003_SUPPORT
- {
- PMSX003Sensor * sensor = new PMSX003Sensor();
- #if PMS_USE_SOFT
- sensor->setRX(PMS_RX_PIN);
- sensor->setTX(PMS_TX_PIN);
- #else
- sensor->setSerial(& PMS_HW_PORT);
- #endif
- sensor->setType(PMS_TYPE);
- _sensors.push_back(sensor);
- }
- #endif
-
- #if PULSEMETER_SUPPORT
- {
-
- PulseMeterSensor * sensor = new PulseMeterSensor();
- sensor->setGPIO(PULSEMETER_PIN);
- sensor->setEnergyRatio(PULSEMETER_ENERGY_RATIO);
- sensor->setInterruptMode(PULSEMETER_INTERRUPT_ON);
- sensor->setDebounceTime(PULSEMETER_DEBOUNCE);
- _sensors.push_back(sensor);
- }
- #endif
-
- #if PZEM004T_SUPPORT
- {
- String addresses = getSetting("pzemAddr", PZEM004T_ADDRESSES);
- if (!addresses.length()) {
- DEBUG_MSG_P(PSTR("[SENSOR] PZEM004T Error: no addresses are configured\n"));
- return;
- }
-
- PZEM004TSensor * sensor = pzem004t_sensor = new PZEM004TSensor();
- sensor->setAddresses(addresses.c_str());
-
- if (getSetting("pzemSoft", PZEM004T_USE_SOFT).toInt() == 1) {
- sensor->setRX(getSetting("pzemRX", PZEM004T_RX_PIN).toInt());
- sensor->setTX(getSetting("pzemTX", PZEM004T_TX_PIN).toInt());
- } else {
- sensor->setSerial(& PZEM004T_HW_PORT);
- }
-
- // Read saved energy offset
- unsigned char dev_count = sensor->getAddressesCount();
- for(unsigned char dev = 0; dev < dev_count; dev++) {
- float value = _sensorEnergyTotal(dev);
- if (value > 0) sensor->resetEnergy(dev, value);
- }
- _sensors.push_back(sensor);
- }
- #endif
-
- #if SENSEAIR_SUPPORT
- {
- SenseAirSensor * sensor = new SenseAirSensor();
- sensor->setRX(SENSEAIR_RX_PIN);
- sensor->setTX(SENSEAIR_TX_PIN);
- _sensors.push_back(sensor);
- }
- #endif
-
- #if SDS011_SUPPORT
- {
- SDS011Sensor * sensor = new SDS011Sensor();
- sensor->setRX(SDS011_RX_PIN);
- sensor->setTX(SDS011_TX_PIN);
- _sensors.push_back(sensor);
- }
- #endif
-
- #if SHT3X_I2C_SUPPORT
- {
- SHT3XI2CSensor * sensor = new SHT3XI2CSensor();
- sensor->setAddress(SHT3X_I2C_ADDRESS);
- _sensors.push_back(sensor);
- }
- #endif
-
- #if SI7021_SUPPORT
- {
- SI7021Sensor * sensor = new SI7021Sensor();
- sensor->setAddress(SI7021_ADDRESS);
- _sensors.push_back(sensor);
- }
- #endif
-
- #if TMP3X_SUPPORT
- {
- TMP3XSensor * sensor = new TMP3XSensor();
- sensor->setType(TMP3X_TYPE);
- _sensors.push_back(sensor);
- }
- #endif
-
- #if V9261F_SUPPORT
- {
- V9261FSensor * sensor = new V9261FSensor();
- sensor->setRX(V9261F_PIN);
- sensor->setInverted(V9261F_PIN_INVERSE);
- _sensors.push_back(sensor);
- }
- #endif
-
- #if MAX6675_SUPPORT
- {
- MAX6675Sensor * sensor = new MAX6675Sensor();
- sensor->setCS(MAX6675_CS_PIN);
- sensor->setSO(MAX6675_SO_PIN);
- sensor->setSCK(MAX6675_SCK_PIN);
- _sensors.push_back(sensor);
- }
- #endif
-
- #if VEML6075_SUPPORT
- {
- VEML6075Sensor * sensor = new VEML6075Sensor();
- sensor->setIntegrationTime(VEML6075_INTEGRATION_TIME);
- sensor->setDynamicMode(VEML6075_DYNAMIC_MODE);
- _sensors.push_back(sensor);
- }
- #endif
-
- #if VL53L1X_SUPPORT
- {
- VL53L1XSensor * sensor = new VL53L1XSensor();
- sensor->setInterMeasurementPeriod(VL53L1X_INTER_MEASUREMENT_PERIOD);
- sensor->setDistanceMode(VL53L1X_DISTANCE_MODE);
- sensor->setMeasurementTimingBudget(VL53L1X_MEASUREMENT_TIMING_BUDGET);
- _sensors.push_back(sensor);
- }
- #endif
-
- #if EZOPH_SUPPORT
- {
- EZOPHSensor * sensor = new EZOPHSensor();
- sensor->setRX(EZOPH_RX_PIN);
- sensor->setTX(EZOPH_TX_PIN);
- _sensors.push_back(sensor);
- }
- #endif
-
- #if ADE7953_SUPPORT
- {
- ADE7953Sensor * sensor = new ADE7953Sensor();
- sensor->setAddress(ADE7953_ADDRESS);
- _sensors.push_back(sensor);
- }
- #endif
- }
-
- void _sensorCallback(unsigned char i, unsigned char type, double value) {
-
- DEBUG_MSG_P(PSTR("[SENSOR] Sensor #%u callback, type %u, payload: '%s'\n"), i, type, String(value).c_str());
-
- for (unsigned char k=0; k<_magnitudes.size(); k++) {
- if ((_sensors[i] == _magnitudes[k].sensor) && (type == _magnitudes[k].type)) {
- _sensorReport(k, value);
- return;
- }
- }
-
- }
-
- void _sensorInit() {
-
- _sensors_ready = true;
- _sensor_save_every = getSetting("snsSave", 0).toInt();
-
- for (unsigned char i=0; i<_sensors.size(); i++) {
-
- // Do not process an already initialized sensor
- if (_sensors[i]->ready()) continue;
- DEBUG_MSG_P(PSTR("[SENSOR] Initializing %s\n"), _sensors[i]->description().c_str());
-
- // Force sensor to reload config
- _sensors[i]->begin();
- if (!_sensors[i]->ready()) {
- if (_sensors[i]->error() != 0) DEBUG_MSG_P(PSTR("[SENSOR] -> ERROR %d\n"), _sensors[i]->error());
- _sensors_ready = false;
- continue;
- }
-
- // Initialize magnitudes
- for (unsigned char k=0; k<_sensors[i]->count(); k++) {
-
- unsigned char type = _sensors[i]->type(k);
- signed char decimals = _sensors[i]->decimals(type);
- if (decimals < 0) decimals = _magnitudeDecimals(type);
-
- sensor_magnitude_t new_magnitude;
- new_magnitude.sensor = _sensors[i];
- new_magnitude.local = k;
- new_magnitude.type = type;
- new_magnitude.decimals = (unsigned char) decimals;
- new_magnitude.global = _counts[type];
- new_magnitude.last = 0;
- new_magnitude.reported = 0;
- new_magnitude.min_change = 0;
- new_magnitude.max_change = 0;
-
- // TODO: find a proper way to extend this to min/max of any magnitude
- if (MAGNITUDE_ENERGY == type) {
- new_magnitude.max_change = getSetting("eneMaxDelta", ENERGY_MAX_CHANGE).toFloat();
- } else if (MAGNITUDE_TEMPERATURE == type) {
- new_magnitude.min_change = getSetting("tmpMinDelta", TEMPERATURE_MIN_CHANGE).toFloat();
- } else if (MAGNITUDE_HUMIDITY == type) {
- new_magnitude.min_change = getSetting("humMinDelta", HUMIDITY_MIN_CHANGE).toFloat();
- }
-
- if (MAGNITUDE_ENERGY == type) {
- new_magnitude.filter = new LastFilter();
- } else if (MAGNITUDE_DIGITAL == type) {
- new_magnitude.filter = new MaxFilter();
- } else if (MAGNITUDE_COUNT == type || MAGNITUDE_GEIGER_CPM == type || MAGNITUDE_GEIGER_SIEVERT == type) { // For geiger counting moving average filter is the most appropriate if needed at all.
- new_magnitude.filter = new MovingAverageFilter();
- } else {
- new_magnitude.filter = new MedianFilter();
- }
- new_magnitude.filter->resize(_sensor_report_every);
-
- _magnitudes.push_back(new_magnitude);
-
- DEBUG_MSG_P(PSTR("[SENSOR] -> %s:%d\n"), magnitudeTopic(type).c_str(), _counts[type]);
-
- _counts[type] = _counts[type] + 1;
-
- }
-
- // Hook callback
- _sensors[i]->onEvent([i](unsigned char type, double value) {
- _sensorCallback(i, type, value);
- });
-
- // Custom initializations
-
- #if MICS2710_SUPPORT
- if (_sensors[i]->getID() == SENSOR_MICS2710_ID) {
- MICS2710Sensor * sensor = (MICS2710Sensor *) _sensors[i];
- sensor->setR0(getSetting("snsR0", MICS2710_R0).toInt());
- }
- #endif // MICS2710_SUPPORT
-
- #if MICS5525_SUPPORT
- if (_sensors[i]->getID() == SENSOR_MICS5525_ID) {
- MICS5525Sensor * sensor = (MICS5525Sensor *) _sensors[i];
- sensor->setR0(getSetting("snsR0", MICS5525_R0).toInt());
- }
- #endif // MICS5525_SUPPORT
-
- #if EMON_ANALOG_SUPPORT
-
- if (_sensors[i]->getID() == SENSOR_EMON_ANALOG_ID) {
- EmonAnalogSensor * sensor = (EmonAnalogSensor *) _sensors[i];
- sensor->setCurrentRatio(0, getSetting("pwrRatioC", EMON_CURRENT_RATIO).toFloat());
- sensor->setVoltage(getSetting("pwrVoltage", EMON_MAINS_VOLTAGE).toInt());
-
- double value = _sensorEnergyTotal();
-
- if (value > 0) sensor->resetEnergy(0, value);
- }
-
- #endif // EMON_ANALOG_SUPPORT
-
- #if HLW8012_SUPPORT
-
- if (_sensors[i]->getID() == SENSOR_HLW8012_ID) {
-
- HLW8012Sensor * sensor = (HLW8012Sensor *) _sensors[i];
-
- double value;
-
- value = getSetting("pwrRatioC", HLW8012_CURRENT_RATIO).toFloat();
- if (value > 0) sensor->setCurrentRatio(value);
-
- value = getSetting("pwrRatioV", HLW8012_VOLTAGE_RATIO).toFloat();
- if (value > 0) sensor->setVoltageRatio(value);
-
- value = getSetting("pwrRatioP", HLW8012_POWER_RATIO).toFloat();
- if (value > 0) sensor->setPowerRatio(value);
-
- value = _sensorEnergyTotal();
- if (value > 0) sensor->resetEnergy(value);
-
- }
-
- #endif // HLW8012_SUPPORT
-
- #if ADE7953_SUPPORT
-
- if (_sensors[i]->getID() == SENSOR_ADE7953_ID) {
- ADE7953Sensor * sensor = (ADE7953Sensor *) _sensors[i];
- unsigned int dev_count = sensor->getTotalDevices();
- for(unsigned char dev = 0; dev < dev_count; dev++) {
- double value = _sensorEnergyTotal(dev);
- if (value > 0) sensor->resetEnergy(dev, value);
- }
- }
-
- #endif // ADE7953_SUPPORT
-
- #if CSE7766_SUPPORT
-
- if (_sensors[i]->getID() == SENSOR_CSE7766_ID) {
-
- CSE7766Sensor * sensor = (CSE7766Sensor *) _sensors[i];
-
- double value;
-
- value = getSetting("pwrRatioC", 0).toFloat();
- if (value > 0) sensor->setCurrentRatio(value);
-
- value = getSetting("pwrRatioV", 0).toFloat();
- if (value > 0) sensor->setVoltageRatio(value);
-
- value = getSetting("pwrRatioP", 0).toFloat();
- if (value > 0) sensor->setPowerRatio(value);
-
- value = _sensorEnergyTotal();
- if (value > 0) sensor->resetEnergy(value);
-
- }
-
- #endif // CSE7766_SUPPORT
-
- #if PULSEMETER_SUPPORT
- if (_sensors[i]->getID() == SENSOR_PULSEMETER_ID) {
- PulseMeterSensor * sensor = (PulseMeterSensor *) _sensors[i];
- sensor->setEnergyRatio(getSetting("pwrRatioE", sensor->getEnergyRatio()).toInt());
- }
- #endif // PULSEMETER_SUPPORT
-
- }
-
- }
-
- void _sensorConfigure() {
-
- // General sensor settings
- _sensor_read_interval = 1000 * constrain(getSetting("snsRead", SENSOR_READ_INTERVAL).toInt(), SENSOR_READ_MIN_INTERVAL, SENSOR_READ_MAX_INTERVAL);
- _sensor_report_every = constrain(getSetting("snsReport", SENSOR_REPORT_EVERY).toInt(), SENSOR_REPORT_MIN_EVERY, SENSOR_REPORT_MAX_EVERY);
- _sensor_save_every = getSetting("snsSave", SENSOR_SAVE_EVERY).toInt();
- _sensor_realtime = getSetting("apiRealTime", API_REAL_TIME_VALUES).toInt() == 1;
- _sensor_power_units = getSetting("pwrUnits", SENSOR_POWER_UNITS).toInt();
- _sensor_energy_units = getSetting("eneUnits", SENSOR_ENERGY_UNITS).toInt();
- _sensor_temperature_units = getSetting("tmpUnits", SENSOR_TEMPERATURE_UNITS).toInt();
- _sensor_temperature_correction = getSetting("tmpCorrection", SENSOR_TEMPERATURE_CORRECTION).toFloat();
- _sensor_humidity_correction = getSetting("humCorrection", SENSOR_HUMIDITY_CORRECTION).toFloat();
- _sensor_energy_reset_ts = getSetting("snsResetTS", "");
- _sensor_lux_correction = getSetting("luxCorrection", SENSOR_LUX_CORRECTION).toFloat();
-
- // Specific sensor settings
- for (unsigned char i=0; i<_sensors.size(); i++) {
-
- #if MICS2710_SUPPORT
-
- if (_sensors[i]->getID() == SENSOR_MICS2710_ID) {
- if (getSetting("snsResetCalibration", 0).toInt() == 1) {
- MICS2710Sensor * sensor = (MICS2710Sensor *) _sensors[i];
- sensor->calibrate();
- setSetting("snsR0", sensor->getR0());
- }
- }
-
- #endif // MICS2710_SUPPORT
-
- #if MICS5525_SUPPORT
-
- if (_sensors[i]->getID() == SENSOR_MICS5525_ID) {
- if (getSetting("snsResetCalibration", 0).toInt() == 1) {
- MICS5525Sensor * sensor = (MICS5525Sensor *) _sensors[i];
- sensor->calibrate();
- setSetting("snsR0", sensor->getR0());
- }
- }
-
- #endif // MICS5525_SUPPORT
-
- #if EMON_ANALOG_SUPPORT
-
- if (_sensors[i]->getID() == SENSOR_EMON_ANALOG_ID) {
-
- double value;
- EmonAnalogSensor * sensor = (EmonAnalogSensor *) _sensors[i];
-
- if ((value = getSetting("pwrExpectedP", 0).toInt())) {
- sensor->expectedPower(0, value);
- setSetting("pwrRatioC", sensor->getCurrentRatio(0));
- }
-
- if (getSetting("pwrResetCalibration", 0).toInt() == 1) {
- sensor->setCurrentRatio(0, EMON_CURRENT_RATIO);
- delSetting("pwrRatioC");
- }
-
- if (getSetting("pwrResetE", 0).toInt() == 1) {
- sensor->resetEnergy();
- delSetting("eneTotal", 0);
- _sensorResetTS();
- }
-
- sensor->setVoltage(getSetting("pwrVoltage", EMON_MAINS_VOLTAGE).toInt());
-
- }
-
- #endif // EMON_ANALOG_SUPPORT
-
- #if EMON_ADC121_SUPPORT
- if (_sensors[i]->getID() == SENSOR_EMON_ADC121_ID) {
- EmonADC121Sensor * sensor = (EmonADC121Sensor *) _sensors[i];
- if (getSetting("pwrResetE", 0).toInt() == 1) {
- sensor->resetEnergy();
- delSetting("eneTotal", 0);
- _sensorResetTS();
- }
- }
- #endif
-
- #if EMON_ADS1X15_SUPPORT
- if (_sensors[i]->getID() == SENSOR_EMON_ADS1X15_ID) {
- EmonADS1X15Sensor * sensor = (EmonADS1X15Sensor *) _sensors[i];
- if (getSetting("pwrResetE", 0).toInt() == 1) {
- sensor->resetEnergy();
- delSetting("eneTotal", 0);
- _sensorResetTS();
- }
- }
- #endif
-
- #if HLW8012_SUPPORT
-
-
- if (_sensors[i]->getID() == SENSOR_HLW8012_ID) {
-
- double value;
- HLW8012Sensor * sensor = (HLW8012Sensor *) _sensors[i];
-
- if ((value = getSetting("pwrExpectedC", 0).toFloat())) {
- sensor->expectedCurrent(value);
- setSetting("pwrRatioC", sensor->getCurrentRatio());
- }
-
- if ((value = getSetting("pwrExpectedV", 0).toInt())) {
- sensor->expectedVoltage(value);
- setSetting("pwrRatioV", sensor->getVoltageRatio());
- }
-
- if ((value = getSetting("pwrExpectedP", 0).toInt())) {
- sensor->expectedPower(value);
- setSetting("pwrRatioP", sensor->getPowerRatio());
- }
-
- if (getSetting("pwrResetE", 0).toInt() == 1) {
- sensor->resetEnergy();
- delSetting("eneTotal", 0);
- _sensorResetTS();
- }
-
- if (getSetting("pwrResetCalibration", 0).toInt() == 1) {
- sensor->resetRatios();
- delSetting("pwrRatioC");
- delSetting("pwrRatioV");
- delSetting("pwrRatioP");
- }
-
- }
-
- #endif // HLW8012_SUPPORT
-
- #if CSE7766_SUPPORT
-
- if (_sensors[i]->getID() == SENSOR_CSE7766_ID) {
-
- double value;
- CSE7766Sensor * sensor = (CSE7766Sensor *) _sensors[i];
-
- if ((value = getSetting("pwrExpectedC", 0).toFloat())) {
- sensor->expectedCurrent(value);
- setSetting("pwrRatioC", sensor->getCurrentRatio());
- }
-
- if ((value = getSetting("pwrExpectedV", 0).toInt())) {
- sensor->expectedVoltage(value);
- setSetting("pwrRatioV", sensor->getVoltageRatio());
- }
-
- if ((value = getSetting("pwrExpectedP", 0).toInt())) {
- sensor->expectedPower(value);
- setSetting("pwrRatioP", sensor->getPowerRatio());
- }
-
- if (getSetting("pwrResetE", 0).toInt() == 1) {
- sensor->resetEnergy();
- delSetting("eneTotal", 0);
- _sensorResetTS();
- }
-
- if (getSetting("pwrResetCalibration", 0).toInt() == 1) {
- sensor->resetRatios();
- delSetting("pwrRatioC");
- delSetting("pwrRatioV");
- delSetting("pwrRatioP");
- }
-
- }
-
- #endif // CSE7766_SUPPORT
-
- #if PULSEMETER_SUPPORT
- if (_sensors[i]->getID() == SENSOR_PULSEMETER_ID) {
- PulseMeterSensor * sensor = (PulseMeterSensor *) _sensors[i];
- if (getSetting("pwrResetE", 0).toInt() == 1) {
- sensor->resetEnergy();
- delSetting("eneTotal", 0);
- _sensorResetTS();
- }
-
- sensor->setEnergyRatio(getSetting("pwrRatioE", sensor->getEnergyRatio()).toInt());
- }
- #endif // PULSEMETER_SUPPORT
-
- #if PZEM004T_SUPPORT
-
- if (_sensors[i]->getID() == SENSOR_PZEM004T_ID) {
- PZEM004TSensor * sensor = (PZEM004TSensor *) _sensors[i];
- if (getSetting("pwrResetE", 0).toInt() == 1) {
- unsigned char dev_count = sensor->getAddressesCount();
- for(unsigned char dev = 0; dev < dev_count; dev++) {
- sensor->resetEnergy(dev, 0);
- delSetting("eneTotal", dev);
- }
- _sensorResetTS();
- }
- }
-
- #endif // PZEM004T_SUPPORT
-
- #if ADE7953_SUPPORT
-
- if (_sensors[i]->getID() == SENSOR_ADE7953_ID) {
- ADE7953Sensor * sensor = (ADE7953Sensor *) _sensors[i];
- if (getSetting("pwrResetE", 0).toInt() == 1) {
- unsigned char dev_count = sensor->getTotalDevices();
- for(unsigned char dev = 0; dev < dev_count; dev++) {
- sensor->resetEnergy(dev);
- delSetting("eneTotal", dev);
- }
- _sensorResetTS();
- }
- }
-
- #endif // ADE7953_SUPPORT
-
- }
-
- // Update filter sizes and reset energy if needed
- {
- const bool reset_saved_energy = 0 == _sensor_save_every;
- for (unsigned char i=0; i<_magnitudes.size(); i++) {
- _magnitudes[i].filter->resize(_sensor_report_every);
- if ((_magnitudes[i].type == MAGNITUDE_ENERGY) && reset_saved_energy) {
- delSetting("eneTotal", _magnitudes[i].global);
- }
- }
- }
-
- // Remove calibration values
- // TODO: do not use settings for one-shot calibration
- delSetting("snsResetCalibration");
- delSetting("pwrExpectedP");
- delSetting("pwrExpectedC");
- delSetting("pwrExpectedV");
- delSetting("pwrResetCalibration");
- delSetting("pwrResetE");
- saveSettings();
-
- }
-
- void _sensorReport(unsigned char index, double value) {
-
- sensor_magnitude_t magnitude = _magnitudes[index];
- unsigned char decimals = magnitude.decimals;
-
- // XXX: ensure that the received 'value' will fit here
- // dtostrf 2nd arg only controls leading zeroes and the
- // 3rd is only for the part after the dot
- char buffer[64];
- dtostrf(value, 1, decimals, buffer);
-
- #if BROKER_SUPPORT
- brokerPublish(BROKER_MSG_TYPE_SENSOR ,magnitudeTopic(magnitude.type).c_str(), magnitude.local, buffer);
- #endif
-
- #if MQTT_SUPPORT
-
- mqttSend(magnitudeTopicIndex(index).c_str(), buffer);
-
- #if SENSOR_PUBLISH_ADDRESSES
- char topic[32];
- snprintf(topic, sizeof(topic), "%s/%s", SENSOR_ADDRESS_TOPIC, magnitudeTopic(magnitude.type).c_str());
- if (SENSOR_USE_INDEX || (_counts[magnitude.type] > 1)) {
- mqttSend(topic, magnitude.global, magnitude.sensor->address(magnitude.local).c_str());
- } else {
- mqttSend(topic, magnitude.sensor->address(magnitude.local).c_str());
- }
- #endif // SENSOR_PUBLISH_ADDRESSES
-
- #endif // MQTT_SUPPORT
-
- #if THINGSPEAK_SUPPORT
- tspkEnqueueMeasurement(index, buffer);
- #endif
-
- #if DOMOTICZ_SUPPORT
- {
- char key[15];
- snprintf_P(key, sizeof(key), PSTR("dczMagnitude%d"), index);
- if (magnitude.type == MAGNITUDE_HUMIDITY) {
- int status;
- if (value > 70) {
- status = HUMIDITY_WET;
- } else if (value > 45) {
- status = HUMIDITY_COMFORTABLE;
- } else if (value > 30) {
- status = HUMIDITY_NORMAL;
- } else {
- status = HUMIDITY_DRY;
- }
- char status_buf[5];
- itoa(status, status_buf, 10);
- domoticzSend(key, buffer, status_buf);
- } else {
- domoticzSend(key, 0, buffer);
- }
- }
- #endif // DOMOTICZ_SUPPORT
-
- }
-
- // -----------------------------------------------------------------------------
- // Public
- // -----------------------------------------------------------------------------
-
- unsigned char sensorCount() {
- return _sensors.size();
- }
-
- unsigned char magnitudeCount() {
- return _magnitudes.size();
- }
-
- String magnitudeName(unsigned char index) {
- if (index < _magnitudes.size()) {
- sensor_magnitude_t magnitude = _magnitudes[index];
- return magnitude.sensor->slot(magnitude.local);
- }
- return String();
- }
-
- unsigned char magnitudeType(unsigned char index) {
- if (index < _magnitudes.size()) {
- return int(_magnitudes[index].type);
- }
- return MAGNITUDE_NONE;
- }
-
- double magnitudeValue(unsigned char index) {
- if (index < _magnitudes.size()) {
- return _sensor_realtime ? _magnitudes[index].last : _magnitudes[index].reported;
- }
- return DBL_MIN;
- }
-
- unsigned char magnitudeIndex(unsigned char index) {
- if (index < _magnitudes.size()) {
- return int(_magnitudes[index].global);
- }
- return 0;
- }
-
- String magnitudeTopic(unsigned char type) {
- char buffer[16] = {0};
- if (type < MAGNITUDE_MAX) strncpy_P(buffer, magnitude_topics[type], sizeof(buffer));
- return String(buffer);
- }
-
- String magnitudeTopicIndex(unsigned char index) {
- char topic[32] = {0};
- if (index < _magnitudes.size()) {
- sensor_magnitude_t magnitude = _magnitudes[index];
- if (SENSOR_USE_INDEX || (_counts[magnitude.type] > 1)) {
- snprintf(topic, sizeof(topic), "%s/%u", magnitudeTopic(magnitude.type).c_str(), magnitude.global);
- } else {
- snprintf(topic, sizeof(topic), "%s", magnitudeTopic(magnitude.type).c_str());
- }
- }
- return String(topic);
- }
-
-
- String magnitudeUnits(unsigned char type) {
- char buffer[8] = {0};
- if (type < MAGNITUDE_MAX) {
- if ((type == MAGNITUDE_TEMPERATURE) && (_sensor_temperature_units == TMP_FAHRENHEIT)) {
- strncpy_P(buffer, magnitude_fahrenheit, sizeof(buffer));
- } else if (
- (type == MAGNITUDE_ENERGY || type == MAGNITUDE_ENERGY_DELTA) &&
- (_sensor_energy_units == ENERGY_KWH)) {
- strncpy_P(buffer, magnitude_kwh, sizeof(buffer));
- } else if (
- (type == MAGNITUDE_POWER_ACTIVE || type == MAGNITUDE_POWER_APPARENT || type == MAGNITUDE_POWER_REACTIVE) &&
- (_sensor_power_units == POWER_KILOWATTS)) {
- strncpy_P(buffer, magnitude_kw, sizeof(buffer));
- } else {
- strncpy_P(buffer, magnitude_units[type], sizeof(buffer));
- }
- }
- return String(buffer);
- }
-
- // -----------------------------------------------------------------------------
-
- void sensorSetup() {
-
- // Backwards compatibility
- moveSetting("eneTotal", "eneTotal0");
- moveSetting("powerUnits", "pwrUnits");
- moveSetting("energyUnits", "eneUnits");
-
- // Update PZEM004T energy total across multiple devices
- moveSettings("pzEneTotal", "eneTotal");
-
- // Load sensors
- _sensorLoad();
- _sensorInit();
-
- // Configure stored values
- _sensorConfigure();
-
- // Websockets
- #if WEB_SUPPORT
- wsRegister()
- .onVisible(_sensorWebSocketOnVisible)
- .onConnected(_sensorWebSocketOnConnected)
- .onData(_sensorWebSocketSendData)
- .onKeyCheck(_sensorWebSocketOnKeyCheck);
- #endif
-
- // API
- #if API_SUPPORT
- _sensorAPISetup();
- #endif
-
- // Terminal
- #if TERMINAL_SUPPORT
- _sensorInitCommands();
- #endif
-
- // Main callbacks
- espurnaRegisterLoop(sensorLoop);
- espurnaRegisterReload(_sensorConfigure);
-
- }
-
- void sensorLoop() {
-
- // Check if we still have uninitialized sensors
- static unsigned long last_init = 0;
- if (!_sensors_ready) {
- if (millis() - last_init > SENSOR_INIT_INTERVAL) {
- last_init = millis();
- _sensorInit();
- }
- }
-
- if (_magnitudes.size() == 0) return;
-
- // Tick hook
- _sensorTick();
-
- // Check if we should read new data
- static unsigned long last_update = 0;
- static unsigned long report_count = 0;
- if (millis() - last_update > _sensor_read_interval) {
-
- last_update = millis();
- report_count = (report_count + 1) % _sensor_report_every;
-
- double value_raw; // holds the raw value as the sensor returns it
- double value_show; // holds the processed value applying units and decimals
- double value_filtered; // holds the processed value applying filters, and the units and decimals
-
- // Pre-read hook
- _sensorPre();
-
- // Get the first relay state
- #if SENSOR_POWER_CHECK_STATUS
- bool relay_off = (relayCount() == 1) && (relayStatus(0) == 0);
- #endif
-
- // Get readings
- for (unsigned char i=0; i<_magnitudes.size(); i++) {
-
- sensor_magnitude_t magnitude = _magnitudes[i];
-
- if (magnitude.sensor->status()) {
-
- // -------------------------------------------------------------
- // Instant value
- // -------------------------------------------------------------
-
- value_raw = magnitude.sensor->value(magnitude.local);
-
- // Completely remove spurious values if relay is OFF
- #if SENSOR_POWER_CHECK_STATUS
- if (relay_off) {
- if (magnitude.type == MAGNITUDE_POWER_ACTIVE ||
- magnitude.type == MAGNITUDE_POWER_REACTIVE ||
- magnitude.type == MAGNITUDE_POWER_APPARENT ||
- magnitude.type == MAGNITUDE_CURRENT ||
- magnitude.type == MAGNITUDE_ENERGY_DELTA
- ) {
- value_raw = 0;
- }
- }
- #endif
-
- _magnitudes[i].last = value_raw;
-
- // -------------------------------------------------------------
- // Processing (filters)
- // -------------------------------------------------------------
-
- magnitude.filter->add(value_raw);
-
- // Special case for MovingAverageFilter
- if (MAGNITUDE_COUNT == magnitude.type ||
- MAGNITUDE_GEIGER_CPM ==magnitude. type ||
- MAGNITUDE_GEIGER_SIEVERT == magnitude.type) {
- value_raw = magnitude.filter->result();
- }
-
- // -------------------------------------------------------------
- // Procesing (units and decimals)
- // -------------------------------------------------------------
-
- value_show = _magnitudeProcess(magnitude.type, magnitude.decimals, value_raw);
-
- // -------------------------------------------------------------
- // Debug
- // -------------------------------------------------------------
-
- #if SENSOR_DEBUG
- {
- char buffer[64];
- dtostrf(value_show, 1, magnitude.decimals, buffer);
- DEBUG_MSG_P(PSTR("[SENSOR] %s - %s: %s%s\n"),
- magnitude.sensor->slot(magnitude.local).c_str(),
- magnitudeTopic(magnitude.type).c_str(),
- buffer,
- magnitudeUnits(magnitude.type).c_str()
- );
- }
- #endif // SENSOR_DEBUG
-
- // -------------------------------------------------------------
- // Report
- // (we do it every _sensor_report_every readings)
- // -------------------------------------------------------------
-
- bool report = (0 == report_count);
- if ((MAGNITUDE_ENERGY == magnitude.type) && (magnitude.max_change > 0)) {
- // for MAGNITUDE_ENERGY, filtered value is last value
- report = (fabs(value_show - magnitude.reported) >= magnitude.max_change);
- } // if ((MAGNITUDE_ENERGY == magnitude.type) && (magnitude.max_change > 0))
-
- if (report) {
-
- value_filtered = magnitude.filter->result();
- value_filtered = _magnitudeProcess(magnitude.type, magnitude.decimals, value_filtered);
- magnitude.filter->reset();
-
- // Check if there is a minimum change threshold to report
- if (fabs(value_filtered - magnitude.reported) >= magnitude.min_change) {
- _magnitudes[i].reported = value_filtered;
- _sensorReport(i, value_filtered);
- } // if (fabs(value_filtered - magnitude.reported) >= magnitude.min_change)
-
- // Persist total energy value
- if (MAGNITUDE_ENERGY == magnitude.type) {
- _sensorEnergyTotal(magnitude.global, value_raw);
- }
-
- } // if (report_count == 0)
-
- } // if (magnitude.sensor->status())
- } // for (unsigned char i=0; i<_magnitudes.size(); i++)
-
- // Post-read hook
- _sensorPost();
-
- #if WEB_SUPPORT
- wsPost(_sensorWebSocketSendData);
- #endif
-
- #if THINGSPEAK_SUPPORT
- if (report_count == 0) tspkFlush();
- #endif
-
- }
-
- }
-
- #endif // SENSOR_SUPPORT
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