NodeManager.cpp 47 KB
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/*
 * NodeManager
 */

#include "NodeManager.h"

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/*
 * Constants
 */

const char* BATTERY = "BATTERY";
const char* AWAKE = "AWAKE";
const char* REBOOT = "REBOOT";
const char* CLEAR = "CLEAR";
const char* WAKEUP = "WAKEUP";
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const char* STARTED = "STARTED";
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/***************************************
   PowerManager
*/

// set the vcc and ground pin the sensor is connected to
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void PowerManager::setPowerPins(int ground_pin, int vcc_pin, long wait) {
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  #if DEBUG == 1
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    Serial.print("PWR G=");
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    Serial.print(ground_pin);
    Serial.print(" V=");
    Serial.println(vcc_pin);
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  #endif
  // configure the vcc pin as output and initialize to low (power off)
  _vcc_pin = vcc_pin;
  pinMode(_vcc_pin, OUTPUT);
  digitalWrite(_vcc_pin, LOW);
  // configure the ground pin as output and initialize to low
  _ground_pin = ground_pin;
  pinMode(_ground_pin, OUTPUT);
  digitalWrite(_ground_pin, LOW);
  _wait = wait;
}

// return true if power pins have been configured
bool PowerManager::_hasPowerManager() {
  if (_vcc_pin != -1 && _ground_pin != -1) return true;
  return false;
}

// turn on the sensor by activating its power pins
void PowerManager::powerOn() {
  if (! _hasPowerManager()) return;
  #if DEBUG == 1
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    Serial.print("ON P=");
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    Serial.println(_vcc_pin);
  #endif
  // power on the sensor by turning high the vcc pin
  digitalWrite(_vcc_pin, HIGH);
  // wait a bit for the device to settle down
  if (_wait > 0) sleep(_wait);
}

// turn off the sensor
void PowerManager::powerOff() {
  if (! _hasPowerManager()) return;
  #if DEBUG == 1
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    Serial.print("OFF P=");
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    Serial.println(_vcc_pin);
  #endif
  // power off the sensor by turning low the vcc pin
  digitalWrite(_vcc_pin, LOW);
}

/******************************************
    Sensors
*/

/*
   Sensor class
*/
// constructor
Sensor::Sensor(int child_id, int pin) {
  _child_id = child_id;
  _pin = pin;
  _msg = MyMessage(_child_id, _type);
}

// setter/getter
void Sensor::setPin(int value) {
  _pin = value;
}
int Sensor::getPin() {
  return _pin;
}
void Sensor::setChildId(int value) {
  _child_id = value;
}
int Sensor::getChildId() {
  return _child_id;
}
void Sensor::setPresentation(int value) {
  _presentation = value;
}
int Sensor::getPresentation() {
  return _presentation;
}
void Sensor::setType(int value) {
  _type = value;
  _msg.setType(_type);
}
int Sensor::getType() {
  return _type;
}
void Sensor::setRetries(int value) {
  _retries = value;
}
void Sensor::setSamples(int value) {
  _samples = value;
}
void Sensor::setSamplesInterval(int value) {
  _samples_interval = value;
}
void Sensor::setTackLastValue(bool value) {
  _track_last_value = value;
}
void Sensor::setForceUpdate(int value) {
  _force_update = value;
}
void Sensor::setValueType(int value) {
  _value_type = value;
}
void Sensor::setFloatPrecision(int value) {
  _float_precision = value;
}
#if POWER_MANAGER == 1
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    void Sensor::setPowerPins(int ground_pin, int vcc_pin, long wait) {
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      _powerManager.setPowerPins(ground_pin, vcc_pin, wait);
    }
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    void Sensor::setAutoPowerPins(bool value) {
      _auto_power_pins = value;
    }
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    void Sensor::powerOn() {
      _powerManager.powerOn();
    }
    void Sensor::powerOff() {
      _powerManager.powerOff();
    }
#endif
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void Sensor::setSleepBetweenSend(int value) {
  _sleep_between_send = value;
}
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// present the sensor to the gateway and controller
void Sensor::presentation() {
  #if DEBUG == 1
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    Serial.print("PRES I=");
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    Serial.print(_child_id);
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    Serial.print(" T=");
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    Serial.println(_presentation);
  #endif
  present(_child_id, _presentation);
}

// call the sensor-specific implementation of before
void Sensor::before() {
  if (_pin == -1) return;
  onBefore();
}

// call the sensor-specific implementation of loop
void Sensor::loop(const MyMessage & message) {
  if (_pin == -1) return;
  #if POWER_MANAGER == 1
    // turn the sensor on
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    if (_auto_power_pins) powerOn();
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  #endif
  // for numeric sensor requiring multiple samples, keep track of the total
  float total = 0;
  // keep track of the number of cycles since the last update
  _cycles++;
  // collect multiple samples if needed
  for (int i = 0; i < _samples; i++) {
    // call the sensor-specific implementation of the main task which will store the result in the _value variable
    if (message.sender == 0 && message.sensor == 0 && message.getCommand() == 0 && message.type == 0) {
      // empty message, we'be been called from loop()
      onLoop();
    }
    else {
      // we've been called from receive(), pass the message along
      onReceive(message);
    }
    // for integers and floats, keep track of the total
    if (_value_type == TYPE_INTEGER) total += (float)_value_int;
    else if (_value_type == TYPE_FLOAT) total += _value_float;
    // wait between samples
    if (_samples_interval > 0) sleep(_samples_interval);
  }
  // process the result and send a response back. 
  if (_value_type == TYPE_INTEGER && total > -1) {
    // if the value is an integer, calculate the average value of the samples
    int avg = (int) (total / _samples);
    // if track last value is disabled or if enabled and the current value is different then the old value, send it back
    if (! _track_last_value || (_track_last_value && avg != _last_value_int) || (_track_last_value && _force_update > 0 && _cycles > _force_update)) {
      _cycles = 0;
      _last_value_int = avg;
      _send(_msg.set(avg));
    }
  }
  // process a float value
  else if (_value_type == TYPE_FLOAT && total > -1) {
    // calculate the average value of the samples
    float avg = total / _samples;
    // if track last value is disabled or if enabled and the current value is different then the old value, send it back
    if (! _track_last_value || (_track_last_value && avg != _last_value_float) || (_track_last_value && _cycles >= _force_update)) {
      _cycles = 0;
      _last_value_float = avg;
      _send(_msg.set(avg, _float_precision));
    }
  }
  // process a string value
  else if (_value_type == TYPE_STRING) {
    // if track last value is disabled or if enabled and the current value is different then the old value, send it back
    if (! _track_last_value || (_track_last_value && strcmp(_value_string, _last_value_string) != 0) || (_track_last_value && _cycles >= _force_update)) {
      _cycles = 0;
      _last_value_string = _value_string;
      _send(_msg.set(_value_string));
    }
  }
  // turn the sensor off
  #if POWER_MANAGER == 1
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    if (_auto_power_pins) powerOff();
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  #endif
}

// receive a message from the radio network
void Sensor::receive(const MyMessage &message) {
  // return if not for this sensor
  if (message.sensor != _child_id || message.type != _type) return;
  // a request would make the sensor executing its main task
  loop(message);
}

// send a message to the network
void Sensor::_send(MyMessage & message) {
  // send the message, multiple times if requested
  for (int i = 0; i < _retries; i++) {
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    // if configured, sleep beetween each send
    if (_sleep_between_send > 0) sleep(_sleep_between_send);
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    #if DEBUG == 1
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      Serial.print("SEND D=");
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      Serial.print(message.destination);
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      Serial.print(" I=");
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      Serial.print(message.sensor);
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      Serial.print(" C=");
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      Serial.print(message.getCommand());
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      Serial.print(" T=");
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      Serial.print(message.type);
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      Serial.print(" S=");
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      Serial.print(message.getString());
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      Serial.print(" N=");
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      Serial.print(message.getInt());
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      Serial.print(" F=");
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      Serial.println(message.getFloat());
    #endif
    send(message);
  }
}

/*
   SensorAnalogInput
*/

// contructor
SensorAnalogInput::SensorAnalogInput(int child_id, int pin): Sensor(child_id, pin) {
}

// setter/getter
void SensorAnalogInput::setReference(int value) {
  _reference = value;
}
void SensorAnalogInput::setReverse(bool value) {
  _reverse = value;
}
void SensorAnalogInput::setOutputPercentage(bool value) {
  _output_percentage = value;
}
void SensorAnalogInput::setRangeMin(int value) {
  _range_min = value;
}
void SensorAnalogInput::setRangeMax(int value) {
  _range_max = value;
}

// what do to during setup
void SensorAnalogInput::onBefore() {
  // prepare the pin for input
  pinMode(_pin, INPUT);
}

// what do to during loop
void SensorAnalogInput::onLoop() {
  // read the input
  int adc = _getAnalogRead();
  // calculate the percentage
  int percentage = 0;
  if (_output_percentage) percentage = _getPercentage(adc);
  #if DEBUG == 1
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    Serial.print("A-IN I=");
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    Serial.print(_child_id);
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    Serial.print(" V=");
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    Serial.print(adc);
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    Serial.print(" %=");
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    Serial.println(percentage);
  #endif
  // store the result
  _value_int = _output_percentage ? percentage : adc;
}

// what do to during loop
void SensorAnalogInput::onReceive(const MyMessage & message) {
  onLoop();
}

// read the analog input
int SensorAnalogInput::_getAnalogRead() {
  // set the reference
  if (_reference != -1) {
    analogReference(_reference);
    sleep(100);
  }
  // read and return the value
  int value = analogRead(_pin);
  if (_reverse) value = _range_max - value;
  return value;
}

// return a percentage from an analog value
int SensorAnalogInput::_getPercentage(int adc) {
  float value = (float)adc;
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  // restore the original value
  if (_reverse) value = 1024 - value;
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  // scale the percentage based on the range provided
  float percentage = ((value - _range_min) / (_range_max - _range_min)) * 100;
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  if (_reverse) percentage = 100 - percentage;
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  if (percentage > 100) percentage = 100;
  if (percentage < 0) percentage = 0;
  return (int)percentage;
}

/*
   SensorLDR
*/

// contructor
SensorLDR::SensorLDR(int child_id, int pin): SensorAnalogInput(child_id, pin) {
  // set presentation and type and reverse (0: no light, 100: max light)
  setPresentation(S_LIGHT_LEVEL);
  setType(V_LIGHT_LEVEL);
  setReverse(true);
}

/*
   SensorThermistor
*/

// contructor
SensorThermistor::SensorThermistor(int child_id, int pin): Sensor(child_id, pin) {
  // set presentation, type and value type
  setPresentation(S_TEMP);
  setType(V_TEMP);
  setValueType(TYPE_FLOAT);
}

// setter/getter
void SensorThermistor::setNominalResistor(int value) {
  _nominal_resistor = value;
}
void SensorThermistor::setNominalTemperature(int value) {
  _nominal_temperature = value;
}
void SensorThermistor::setBCoefficient(int value) {
  _b_coefficient = value;
}
void SensorThermistor::setSeriesResistor(int value) {
  _series_resistor = value;
}
void SensorThermistor::setOffset(float value) {
  _offset = value;
}

// what do to during setup
void SensorThermistor::onBefore() {
  // set the pin as input
  pinMode(_pin, INPUT);
}

// what do to during loop
void SensorThermistor::onLoop() {
  // read the voltage across the thermistor
  float adc = analogRead(_pin);
  // calculate the temperature
  float reading = (1023 / adc)  - 1;
  reading = _series_resistor / reading;
  float temperature;
  temperature = reading / _nominal_resistor;     // (R/Ro)
  temperature = log(temperature);                  // ln(R/Ro)
  temperature /= _b_coefficient;                   // 1/B * ln(R/Ro)
  temperature += 1.0 / (_nominal_temperature + 273.15); // + (1/To)
  temperature = 1.0 / temperature;                 // Invert
  temperature -= 273.15;                         // convert to C
  if (! getControllerConfig().isMetric) temperature = temperature * 1.8 + 32;
  #if DEBUG == 1
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    Serial.print("THER I=");
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    Serial.print(_child_id);
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    Serial.print(" V=");
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    Serial.print(adc);
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    Serial.print(" T=");
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    Serial.println(temperature);
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    Serial.print(" M=");
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    Serial.println(getControllerConfig().isMetric);
  #endif
  // store the value
  _value_float = temperature;
}

// what do to as the main task when receiving a message
void SensorThermistor::onReceive(const MyMessage & message) {
  onLoop();
}

/*
   SensorDigitalInput
*/

// contructor
SensorDigitalInput::SensorDigitalInput(int child_id, int pin): Sensor(child_id, pin) {
}

// what do to during setup
void SensorDigitalInput::onBefore() {
  // set the pin for input
  pinMode(_pin, INPUT);
}

// what do to during loop
void SensorDigitalInput::onLoop() {
  // read the value
  int value = digitalRead(_pin);
  #if DEBUG == 1
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    Serial.print("D-IN I=");
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    Serial.print(_child_id);
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    Serial.print(" P=");
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    Serial.print(_pin);
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    Serial.print(" V=");
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    Serial.println(value);
  #endif
  // store the value
  _value_int = value;
}

// what do to as the main task when receiving a message
void SensorDigitalInput::onReceive(const MyMessage & message) {
  onLoop();
}


/*
   SensorDigitalOutput
*/

// contructor
SensorDigitalOutput::SensorDigitalOutput(int child_id, int pin): Sensor(child_id, pin) {
}

void SensorDigitalOutput::onBefore() {
  // set the pin as output and initialize it accordingly
  pinMode(_pin, OUTPUT);
  digitalWrite(_pin, _initial_value == LOW ? LOW : HIGH);
  // the initial value is now the current value
  _value_int = _initial_value;
}

// setter/getter
void SensorDigitalOutput::setInitialValue(int value) {
  _initial_value = value;
}
void SensorDigitalOutput::setPulseWidth(int value) {
  _pulse_width = value;
}

// main task
void SensorDigitalOutput::onLoop() {
  // do nothing on loop
}

// what do to as the main task when receiving a message
void SensorDigitalOutput::onReceive(const MyMessage & message) {
  // retrieve from the message the value to set
  int value = message.getInt();
  if (value != 0 && value != 1) return;
  #if DEBUG == 1
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    Serial.print("DOUT I=");
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    Serial.print(_child_id);
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    Serial.print(" P=");
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    Serial.print(_pin);
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    Serial.print(" S=");
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    Serial.print(_initial_value);
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    Serial.print(" V=");
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    Serial.print(value);
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    Serial.print(" P=");
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    Serial.println(_pulse_width);
  #endif
  // set the value
  digitalWrite(_pin, value);
  if (_pulse_width > 0) {
    // if this is a pulse output, restore the value to the original value after the pulse
    sleep(_pulse_width);
    digitalWrite(_pin, value == 0 ? HIGH: LOW);
  }
  // store the current value
  _value_int = value;
}

/*
   SensorRelay
*/

// contructor
SensorRelay::SensorRelay(int child_id, int pin): SensorDigitalOutput(child_id, pin) {
  // set presentation and type
  setPresentation(S_BINARY);
  setType(V_STATUS);
}

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// define what to do during loop
void SensorRelay::onLoop() {
    // set the value to -1 so to avoid reporting to the gateway during loop
    _value_int = -1;
}

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/*
   SensorLatchingRelay
*/

// contructor
SensorLatchingRelay::SensorLatchingRelay(int child_id, int pin): SensorRelay(child_id, pin) {
  // like a sensor with a default pulse set
  setPulseWidth(50);
}

/*
   SensorDHT
*/
#if MODULE_DHT == 1
// contructor
SensorDHT::SensorDHT(int child_id, int pin, DHT* dht, int sensor_type, int dht_type): Sensor(child_id, pin) {
  // store the dht object
  _dht = dht;
  // store the sensor type (0: temperature, 1: humidity)
  _sensor_type = sensor_type;
  _dht_type = dht_type;
  if (_sensor_type == 0) {
    // temperature sensor
    setPresentation(S_TEMP);
    setType(V_TEMP);
    setValueType(TYPE_FLOAT);
  }
  else if (_sensor_type == 1) {
    // humidity sensor
    setPresentation(S_HUM);
    setType(V_HUM);
    setValueType(TYPE_FLOAT);
  }
}

// what do to during setup
void SensorDHT::onBefore() {
    // initialize the dht library
    _dht->begin();
}

// what do to during loop
void SensorDHT::onLoop() {
  // temperature sensor
  if (_sensor_type == 0) {
    // read the temperature
    float temperature = _dht->readTemperature();
    // convert it
    if (! getControllerConfig().isMetric) temperature = temperature * 1.8 + 32;
    #if DEBUG == 1
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      Serial.print("DHT I=");
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      Serial.print(_child_id);
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      Serial.print(" T=");
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      Serial.println(temperature);
    #endif
    // store the value
    if (! isnan(temperature)) _value_float = temperature;
  }
  // humidity sensor
  else if (_sensor_type == 1) {
    // read humidity
    float humidity = _dht->readHumidity();
    if (isnan(humidity)) return;
    #if DEBUG == 1
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      Serial.print("DHT I=");
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      Serial.print(_child_id);
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      Serial.print(" H=");
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      Serial.println(humidity);
    #endif
    // store the value
    if (! isnan(humidity)) _value_float = humidity;
  }
}

// what do to as the main task when receiving a message
void SensorDHT::onReceive(const MyMessage & message) {
  onLoop();
}
#endif

/*
   SensorSHT21
*/
#if MODULE_SHT21 == 1
// contructor
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SensorSHT21::SensorSHT21(int child_id, int sensor_type): Sensor(child_id,A2) {
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  // store the sensor type (0: temperature, 1: humidity)
  _sensor_type = sensor_type;
  if (_sensor_type == 0) {
    // temperature sensor
    setPresentation(S_TEMP);
    setType(V_TEMP);
    setValueType(TYPE_FLOAT);
  }
  else if (_sensor_type == 1) {
    // humidity sensor
    setPresentation(S_HUM);
    setType(V_HUM);
    setValueType(TYPE_FLOAT);
  }
}

// what do to during setup
void SensorSHT21::onBefore() {
  // initialize the library
  Wire.begin();
}

// what do to during loop
void SensorSHT21::onLoop() {
  // temperature sensor
  if (_sensor_type == 0) {
    // read the temperature
    float temperature = SHT2x.GetTemperature();
    // convert it
    if (! getControllerConfig().isMetric) temperature = temperature * 1.8 + 32;
    #if DEBUG == 1
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      Serial.print("SHT I=");
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      Serial.print(_child_id);
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      Serial.print(" T=");
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      Serial.println(temperature);
    #endif
    // store the value
    if (! isnan(temperature)) _value_float = temperature;
  }
  // Humidity Sensor
  else if (_sensor_type == 1) {
    // read humidity
    float humidity = SHT2x.GetHumidity();
    if (isnan(humidity)) return;
    #if DEBUG == 1
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      Serial.print("SHT I=");
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      Serial.print(_child_id);
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      Serial.print(" H=");
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      Serial.println(humidity);
    #endif
    // store the value
    if (! isnan(humidity)) _value_float = humidity;
  }
}

// what do to as the main task when receiving a message
void SensorSHT21::onReceive(const MyMessage & message) {
  onLoop();
}
#endif

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/*
 * SensorHTU21D
 */
 #if MODULE_SHT21 == 1
// constructor
SensorHTU21D::SensorHTU21D(int child_id, int pin): SensorSHT21(child_id, pin) {
}
#endif 

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/*
 * SensorSwitch
 */
SensorSwitch::SensorSwitch(int child_id, int pin): Sensor(child_id,pin) {
  setType(V_TRIPPED);
}

// setter/getter
void SensorSwitch::setMode(int value) {
  _mode = value;
}
int SensorSwitch::getMode() {
  return _mode;
}
void SensorSwitch::setDebounce(int value) {
  _debounce = value;
}
void SensorSwitch::setTriggerTime(int value) {
  _trigger_time = value;
}
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void SensorSwitch::setInitial(int value) {
  _initial = value;
}
int SensorSwitch::getInitial() {
  return _initial;
}
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// what do to during setup
void SensorSwitch::onBefore() {
  // initialize the value
  if (_mode == RISING) _value_int = LOW;
  else if (_mode == FALLING) _value_int = HIGH;
}

// what do to during loop
void SensorSwitch::onLoop() {
  // wait to ensure the the input is not floating
  if (_debounce > 0) sleep(_debounce);
  // read the value of the pin
  int value = digitalRead(_pin);
  // process the value
  if ( (_mode == RISING && value == HIGH ) || (_mode == FALLING && value == LOW) || (_mode == CHANGE) )  {
    #if DEBUG == 1
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      Serial.print("SWITCH I=");
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      Serial.print(_child_id);
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      Serial.print(" P=");
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      Serial.print(_pin);
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      Serial.print(" V=");
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      Serial.println(value);
    #endif
    _value_int = value;
    // allow the signal to be restored to its normal value
    if (_trigger_time > 0) sleep(_trigger_time);
  } else {
    // invalid
    _value_int = -1;
  }
}
// what do to as the main task when receiving a message
void SensorSwitch::onReceive(const MyMessage & message) {
  onLoop();
}

/*
 * SensorDoor
 */
SensorDoor::SensorDoor(int child_id, int pin): SensorSwitch(child_id,pin) {
  setPresentation(S_DOOR);
}

/*
 * SensorMotion
 */
SensorMotion::SensorMotion(int child_id, int pin): SensorSwitch(child_id,pin) {
  setPresentation(S_MOTION);
  // capture only when it triggers
  setMode(RISING);
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  // set initial value to LOW
  setInitial(LOW);
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}

/*
   SensorDs18b20
*/
#if MODULE_DS18B20 == 1
// contructor
SensorDs18b20::SensorDs18b20(int child_id, int pin, DallasTemperature* sensors, int index): Sensor(child_id, pin) {
  setPresentation(S_TEMP);
  setType(V_TEMP);
  setValueType(TYPE_FLOAT);
  _index = index;
  _sensors = sensors;
}

// what do to during setup
void SensorDs18b20::onBefore() {
}

// what do to during loop
void SensorDs18b20::onLoop() {
  // request the temperature
  _sensors->requestTemperaturesByIndex(_index);
  // read the temperature
  float temperature = _sensors->getTempCByIndex(_index);
  // convert it
  if (! getControllerConfig().isMetric) temperature = temperature * 1.8 + 32;
  #if DEBUG == 1
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    Serial.print("DS18 I=");
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    Serial.print(_child_id);
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    Serial.print(" T=");
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    Serial.println(temperature);
  #endif
  // store the value
  _value_float = temperature;
}

// what do to as the main task when receiving a message
void SensorDs18b20::onReceive(const MyMessage & message) {
  onLoop();
}
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#endif

/*
   SensorBH1750
*/
#if MODULE_BH1750 == 1
// contructor
SensorBH1750::SensorBH1750(int child_id): Sensor(child_id,A4) {
  setPresentation(S_LIGHT_LEVEL);
  setType(V_LEVEL);
  _lightSensor = new BH1750();
}

// what do to during setup
void SensorBH1750::onBefore() {
  _lightSensor->begin();
}

// what do to during loop
void SensorBH1750::onLoop() {
  // request the light level
  _value_int = _lightSensor->readLightLevel();
  #if DEBUG == 1
    Serial.print("BH1 I=");
    Serial.print(_child_id);
    Serial.print(" L=");
    Serial.println(_value_int);
  #endif
}

// what do to as the main task when receiving a message
void SensorBH1750::onReceive(const MyMessage & message) {
  onLoop();
}
#endif

/*
   SensorMLX90614
*/
#if MODULE_MLX90614 == 1
// contructor
SensorMLX90614::SensorMLX90614(int child_id, Adafruit_MLX90614* mlx, int sensor_type): Sensor(child_id,A4) {
  // store the sensor type (0: ambient, 1: object)
  _sensor_type = sensor_type;
  _mlx = mlx;
  // set presentation and type
  setPresentation(S_TEMP);
  setType(V_TEMP);
  setValueType(TYPE_FLOAT);
}
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// what do to during setup
void SensorMLX90614::onBefore() {
  // initialize the library
  _mlx->begin();
}

// what do to during loop
void SensorMLX90614::onLoop() {
  float temperature = _sensor_type == 0 ? _mlx->readAmbientTempC() : _mlx->readObjectTempC();
  // convert it
  if (! getControllerConfig().isMetric) temperature = temperature * 1.8 + 32;
  #if DEBUG == 1
    Serial.print("MLX I=");
    Serial.print(_child_id);
    Serial.print(" T=");
    Serial.println(temperature);
  #endif
  if (! isnan(temperature)) _value_float = temperature;
}
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// what do to as the main task when receiving a message
void SensorMLX90614::onReceive(const MyMessage & message) {
  onLoop();
}
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#endif

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/*
   SensorBME280
*/
#if MODULE_BME280 == 1
// contructor
SensorBME280::SensorBME280(int child_id, Adafruit_BME280* bme, int sensor_type): Sensor(child_id,A4) {
  // store the sensor type (0: temperature, 1: humidity, 2: pressure)
  _sensor_type = sensor_type;
  if (_sensor_type == 0) {
    // temperature sensor
    setPresentation(S_TEMP);
    setType(V_TEMP);
    setValueType(TYPE_FLOAT);
  }
  else if (_sensor_type == 1) {
    // humidity sensor
    setPresentation(S_HUM);
    setType(V_HUM);
    setValueType(TYPE_FLOAT);
  }
  else if (_sensor_type == 2) {
    // pressure sensor
    setPresentation(S_BARO);
    setType(V_PRESSURE);
    setValueType(TYPE_FLOAT);
  }
}

// what do to during setup
void SensorBME280::onBefore() {
  // initialize the library
}

// what do to during loop
void SensorBME280::onLoop() {
  // temperature sensor
  if (_sensor_type == 0) {
    // read the temperature
    float temperature = _bme->readTemperature();
    // convert it
    if (! getControllerConfig().isMetric) temperature = temperature * 1.8 + 32;
    #if DEBUG == 1
      Serial.print("BME I=");
      Serial.print(_child_id);
      Serial.print(" T=");
      Serial.println(temperature);
    #endif
    // store the value
    if (! isnan(temperature)) _value_float = temperature;
  }
  // Humidity Sensor
  else if (_sensor_type == 1) {
    // read humidity
    float humidity = _bme->readHumidity();
    if (isnan(humidity)) return;
    #if DEBUG == 1
      Serial.print("BME I=");
      Serial.print(_child_id);
      Serial.print(" H=");
      Serial.println(humidity);
    #endif
    // store the value
    if (! isnan(humidity)) _value_float = humidity;
  }
  // Pressure Sensor
  else if (_sensor_type == 2) {
    // read humidity
    float pressure = _bme->readPressure() / 100.0F;
    if (isnan(pressure)) return;
    #if DEBUG == 1
      Serial.print("BME I=");
      Serial.print(_child_id);
      Serial.print(" P=");
      Serial.println(pressure);
    #endif
    // store the value
    if (! isnan(pressure)) _value_float = pressure;
  }
}

// what do to as the main task when receiving a message
void SensorBME280::onReceive(const MyMessage & message) {
  onLoop();
}
#endif

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/*******************************************
   NodeManager
*/

// initialize the node manager
NodeManager::NodeManager() {
  // setup the service message container
  _msg = MyMessage(CONFIGURATION_CHILD_ID, V_CUSTOM);
}

// setter/getter
void NodeManager::setRebootPin(int value) {
    _reboot_pin = value;
}
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void NodeManager::setRetries(int value) {
  _retries = value;
}
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#if BATTERY_MANAGER == 1
  void NodeManager::setBatteryMin(float value) {
    _battery_min = value;
  }
  void NodeManager::setBatteryMax(float value) {
    _battery_max = value;
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