terrariumI2CSensor.py

# -*- coding: utf-8 -*-
# Sources: https://github.com/iotify/custom-lab/blob/master/sht2x.py
import terrariumLogging
logger = terrariumLogging.logging.getLogger(__name__)

import smbus
import sys
#import time
import Adafruit_SHT31

from terrariumSensor import terrariumSensorSource
from terrariumUtils import terrariumUtils

# Dirty hack to include someone his code... to lazy to make it myself :)
# https://github.com/ageir/chirp-rpi
sys.path.insert(0, './chirp-rpi')
import chirp

from gevent import monkey, sleep
monkey.patch_all()

class terrariumI2CSensor(terrariumSensorSource):
  TYPE = None
  VALID_SENSOR_TYPES = ['temperature','humidity']

  # control constants
  SOFTRESET = 0xFE
  SOFTRESET_TIMEOUT = 0.1

  TRIGGER_TEMPERATURE_NO_HOLD = 0xF3
  TEMPERATURE_WAIT_TIME = 0.1

  TRIGGER_HUMIDITY_NO_HOLD = 0xF5
  HUMIDITY_WAIT_TIME = 0.1

  def load_data(self):
    self.i2c_bus = None

    data = None
    if self.open():
      data = self.load_raw_data()
      self.close()

    return data

  def open(self):
    try:
      gpio_pins = self.get_address().split(',')
      logger.debug('Open sensor type \'{}\' with address {}'.format(self.get_type(),gpio_pins))
      logger.debug('Send soft reset command \'{}\' with a timeout of {} seconds'.format(self.SOFTRESET,self.SOFTRESET_TIMEOUT * 2.0))
      #Datasheet recommend do Soft Reset before measurment:
      self.i2c_bus = smbus.SMBus(1 if len(gpio_pins) == 1 else int(gpio_pins[1]))
      if self.SOFTRESET_TIMEOUT > 0.0:
        self.i2c_bus.write_byte(int('0x' + gpio_pins[0],16), self.SOFTRESET)
        sleep(self.SOFTRESET_TIMEOUT * 2.0)

    except Exception as ex:
      logger.warning('Error opening {} sensor \'{}\'. Error message: {}'.format(self.get_type(),self.get_name(),ex))
      return False

    return True

  def get_raw_data(self,trigger,timeout):
    gpio_pins = self.get_address().split(',')
    self.i2c_bus.write_byte(int('0x' + gpio_pins[0],16), trigger)
    sleep(timeout * 2.0)
    data1 = self.i2c_bus.read_byte(int('0x' + gpio_pins[0],16))
    try:
      data2 = self.i2c_bus.read_byte(int('0x' + gpio_pins[0],16))
    except Exception as ex:
      data2 = data1
      logger.exception('Error getting second part of data in bytes from sensor \'%s\' at device %s with address %s with error: %s',(self.__class__.__name__,self.__device_number,self.__address,ex))

    return (data1,data2)

  def load_raw_data(self):
    data = None

    try:
      data = {}
      bytedata = self.get_raw_data(self.TRIGGER_TEMPERATURE_NO_HOLD,self.TEMPERATURE_WAIT_TIME)
      data['temperature'] = ((bytedata[0]*256.0+bytedata[1])*175.72/65536.0)-46.85
    except Exception as ex:
      print('load_raw_data temp:')
      print(ex)

    try:
      if data is None:
        data = {}
      bytedata = self.get_raw_data(self.TRIGGER_HUMIDITY_NO_HOLD,self.HUMIDITY_WAIT_TIME)
      data['humidity'] = ((bytedata[0]*256.0+bytedata[1])*125.0/65536.0)-6.0
    except Exception as ex:
      print('load_raw_data humid:')
      print(ex)

    return data

  def close(self):
    try:
      self.i2c_bus.close()

    except Exception as ex:
      logger.warning('Error closing {} sensor \'{}\'. Error message: {}'.format(self.get_type(),self.get_name(),ex))

class terrariumSHT2XSensor(terrariumI2CSensor):
  TYPE = 'sht2x'
  # SHT2XX - 3.3 Volt VCC
  # 黄 = Yellow = DATA
  # 蓝 = Blue   = CLK
  # 黑 = Black  = GND
  # 棕 = Brown  = VCC

  # datasheet (v4), page 9, table 7, thanks to Martin Milata
  # for suggesting the use of these better values
  # code copied from https://github.com/mmilata/growd
  # http://www.farnell.com/datasheets/1780639.pdf
  # https://cdn-shop.adafruit.com/datasheets/Sensirion_Humidity_SHT1x_Datasheet_V5.pdf
  TEMPERATURE_WAIT_TIME = 0.086  # (datasheet: typical=66, max=85 in ms)
  HUMIDITY_WAIT_TIME = 0.030     # (datasheet: typical=22, max=29 in ms)
  SOFTRESET_TIMEOUT = 0.016      # (datasheet: typical=??, max=15 in ms)

class terrariumSHT3XSensor(terrariumSensorSource):
  TYPE = 'sht3x'
  VALID_SENSOR_TYPES = ['temperature','humidity']

  # Datasheet: https://cdn-shop.adafruit.com/product-files/2857/Sensirion_Humidity_SHT3x_Datasheet_digital-767294.pdf
  def load_data(self):
    data = None
    try:
      data = {}
      gpio_pins = self.get_address().split(',')
      sensor = Adafruit_SHT31.SHT31(int('0x' + gpio_pins[0],16))

      data['temperature'] = float(sensor.read_temperature())
      data['humidity'] = float(sensor.read_humidity())

    except Exception as ex:
      print(ex)

    return data

class terrariumHTU21DSensor(terrariumI2CSensor):
  TYPE = 'htu21d'

  # Datasheet - https://datasheet.octopart.com/HPP845E131R5-TE-Connectivity-datasheet-15137552.pdf
  TEMPERATURE_WAIT_TIME = 0.059  # (datasheet: typ=44, max=58 in ms)
  HUMIDITY_WAIT_TIME = 0.019     # (datasheet: typ=14, max=18 in ms)
  SOFTRESET_TIMEOUT = 0.016      # (datasheet: typ=??, max=15 in ms)

class terrariumSi7021Sensor(terrariumI2CSensor):
  TYPE = 'si7021'

  # Datasheet - https://www.silabs.com/documents/public/data-sheets/Si7021-A20.pdf
  TEMPERATURE_WAIT_TIME = 0.012  # (datasheet: typ=7, max=10.8 in ms)
  HUMIDITY_WAIT_TIME = 0.07     # (datasheet: typ=10, max=12 in ms) -> Not correct??
  SOFTRESET_TIMEOUT = 0.016      # (datasheet: typ=5, max=15 in ms)

class terrariumBME280Sensor(terrariumI2CSensor):
  TYPE = 'bme280'
  VALID_SENSOR_TYPES = ['temperature','humidity','altitude','presure']

  # Datasheet: https://ae-bst.resource.bosch.com/media/_tech/media/datasheets/BST-BME280_DS001-12.pdf
  SOFTRESET = 0xFE
  SOFTRESET_TIMEOUT = 0.002  # (datasheet: typ=??, max=2 in ms)

  TEMPERATURE_WAIT_TIME = 0.5
  HUMIDITY_WAIT_TIME = 0.5

  def load_raw_data(self):
    sensor_data = None

    try:
      has_humidity = False
      sensor_data = {}
      gpio_pins = self.get_address().split(',')

      #Address of BME280 on bus "0x76", but also some sensors uses 0x77.
      #See in "i2cdetect -y 0" (where "0" - needed bus, standart bus - "1").
      #0x88..0x9F - temperature(dig_T1..dig_T3) and pressure(dig_P1..dig_p9).
      #Read "compensation parameter storage" from 0x88, 24 bytes. Table 16, 18 in datasheet.
      b1 = self.i2c_bus.read_i2c_block_data(int('0x' + gpio_pins[0],16), 0x88, 24)

      # Convert "compensation word"=16 bit=2 bytes -> MSB*256+LSB. 4.2.2 in datasheet.
      # Temp coefficients.
      dig_T1 = b1[1] * 256 + b1[0]
      dig_T2 = b1[3] * 256 + b1[2]
      if dig_T2 > 32767 :
          dig_T2 -= 65536
      dig_T3 = b1[5] * 256 + b1[4]
      if dig_T3 > 32767 :
          dig_T3 -= 65536

      #And again with pressure.
      # Pressure coefficients.
      dig_P1 = b1[7] * 256 + b1[6]
      dig_P2 = b1[9] * 256 + b1[8]
      if dig_P2 > 32767 :
          dig_P2 -= 65536
      dig_P3 = b1[11] * 256 + b1[10]
      if dig_P3 > 32767 :
          dig_P3 -= 65536
      dig_P4 = b1[13] * 256 + b1[12]
      if dig_P4 > 32767 :
          dig_P4 -= 65536
      dig_P5 = b1[15] * 256 + b1[14]
      if dig_P5 > 32767 :
          dig_P5 -= 65536
      dig_P6 = b1[17] * 256 + b1[16]
      if dig_P6 > 32767 :
          dig_P6 -= 65536
      dig_P7 = b1[19] * 256 + b1[18]
      if dig_P7 > 32767 :
          dig_P7 -= 65536
      dig_P8 = b1[21] * 256 + b1[20]
      if dig_P8 > 32767 :
          dig_P8 -= 65536
      dig_P9 = b1[23] * 256 + b1[22]
      if dig_P9 > 32767 :
          dig_P9 -= 65536

      #Datasheet table 16, table 18.
      #0xA1 - humidity(dig_H1).
      #Read "compensation parameter storage" from 0xA1, 1 byte.
      try:
        dig_H1 = self.i2c_bus.read_byte_data(int('0x' + gpio_pins[0],16), 0xA1)#Comment this and this work on BMP280.
        has_humidity = True
      except Exception as ex:
        has_humidity = False

      #Datasheet table 16, table 18.
      #0xE1..0xE7 - humidity(dig_H2..dig_H6).
      #Read "compensation parameter storage" from 0xE1, 7 bytes.
      if has_humidity:
        b1 = self.i2c_bus.read_i2c_block_data(int('0x' + gpio_pins[0],16), 0xE1, 7)#Comment this and this work on BMP280.

        #And again...
        #Humidity coefficients.
        #Comment this and this work on BMP280.
        dig_H2 = b1[1] * 256 + b1[0]
        if dig_H2 > 32767 :
            dig_H2 -= 65536
        dig_H3 = (b1[2] &  0xFF)
        dig_H4 = (b1[3] * 16) + (b1[4] & 0xF)
        if dig_H4 > 32767 :
            dig_H4 -= 65536
        dig_H5 = (b1[4] / 16) + (b1[5] * 16)
        if dig_H5 > 32767 :
            dig_H5 -= 65536
        dig_H6 = b1[6]
        if dig_H6 > 127 :
            dig_H6 -= 256

        #Select control humidity register, 0xF2
        #Humidity Oversampling = 1(001 in datasheet table 20) -> in HEX = 01.
        self.i2c_bus.write_byte_data(int('0x' + gpio_pins[0],16), 0xF2, 0x01)#Comment this and this work on BMP280.

      # Select Control measurement register, 0xF4.
      #Temperature + Pressure + Select Mode (Table 22,23,24,25 in datasheet).
      #7,6,5 bits for oversampling temp, 4,3,2 bit for oversampling pressure and 1,0 bit for select mode.
      #Temp oversampling 001, pressure oversampling 001, normal mode 11 -> 001 001 11 -> in HEX = 27.
      self.i2c_bus.write_byte_data(int('0x' + gpio_pins[0],16), 0xF4, 0x27)

      #Select Configuration register, 0xF5(Table 26, 27, 28 in datasheet)
      #Stand_by time = 1000 ms -> 101(datasheet) -> in HEX =A0
      self.i2c_bus.write_byte_data(int('0x' + gpio_pins[0],16), 0xF5, 0xA0)

      sleep(self.TEMPERATURE_WAIT_TIME * 2.0)

      # Read data back from 0xF7(247), 8 bytes
      # Pressure MSB, LSB, xLSB, Temperature MSB, LSB, xLSB, Humidity MSB, LSB
      #Table 18, 29, 30, 31
      data = self.i2c_bus.read_i2c_block_data(int('0x' + gpio_pins[0],16), 0xF7, 8)

      # Convert pressure and temperature data to 19-bits
      adc_p = ((data[0] * 65536) + (data[1] * 256) + (data[2] & 0xF0)) / 16
      adc_t = ((data[3] * 65536) + (data[4] * 256) + (data[5] & 0xF0)) / 16

      # Convert the humidity data
      if has_humidity:
        adc_h = data[6] * 256 + data[7]#Comment this and this work on BMP280.

      #Formulas from Appendix in datasheet.
      # Temperature offset calculations
      var1 = ((adc_t) / 16384.0 - (dig_T1) / 1024.0) * (dig_T2)
      var2 = (((adc_t) / 131072.0 - (dig_T1) / 8192.0) * ((adc_t)/131072.0 - (dig_T1)/8192.0)) * (dig_T3)
      t_fine = (var1 + var2)
      sensor_data['temperature'] = (var1 + var2) / 5120.0

      #Formulas from Appendix in datasheet.
      # Pressure offset calculations
      var1 = (t_fine / 2.0) - 64000.0
      var2 = var1 * var1 * (dig_P6) / 32768.0
      var2 = var2 + var1 * (dig_P5) * 2.0
      var2 = (var2 / 4.0) + ((dig_P4) * 65536.0)
      var1 = ((dig_P3) * var1 * var1 / 524288.0 + ( dig_P2) * var1) / 524288.0
      var1 = (1.0 + var1 / 32768.0) * (dig_P1)
      p = 1048576.0 - adc_p
      p = (p - (var2 / 4096.0)) * 6250.0 / var1
      var1 = (dig_P9) * p * p / 2147483648.0
      var2 = p * (dig_P8) / 32768.0
      sensor_data['presure'] = (p + (var1 + var2 + (dig_P7)) / 16.0) / 100.0

      #Formulas from Appendix in datasheet.
      # Humidity offset calculations
      #Comment this and this work on BMP280.
      if has_humidity:
        var_H = ((t_fine) - 76800.0)
        var_H = (adc_h - (dig_H4 * 64.0 + dig_H5 / 16384.0 * var_H)) * (dig_H2 / 65536.0 * (1.0 + dig_H6 / 67108864.0 * var_H * (1.0 + dig_H3 / 67108864.0 * var_H)))
        sensor_data['humidity'] = var_H * (1.0 -  dig_H1 * var_H / 524288.0)
        #self.__current_humidity = var_H * (1.0 -  dig_H1 * var_H / 524288.0)
        if sensor_data['humidity'] > 100.0 :
          sensor_data['humidity'] = 100.0
        elif sensor_data['humidity'] < 0.0 :
          sensor_data['humidity'] = 0.0

      # https://github.com/avislab/sensorstest/blob/master/BME280/BME280.py#L176
      sensor_data['altitude'] = sensor_data['presure']/101325.0
      sensor_data['altitude'] = 1 - pow(sensor_data['altitude'], 0.19029)
      sensor_data['altitude'] = round(44330.0*sensor_data['altitude'], 3)

    except Exception as ex:
      print('load_raw_data temp:')
      print(ex)

    return sensor_data

class terrariumVEML6075Sensor(terrariumI2CSensor):
  TYPE = 'veml6075'
  VALID_SENSOR_TYPES = ['uva','uvb']

  # Disable the I2C softreset
  SOFTRESET_TIMEOUT = 0

  # Rewritten based on https://github.com/alexhla/uva-uvb-sensor-veml6075-driver/
  # Register Addresses
  __REGISTER_CONF = 0x00
  __REGISTER_UVA = 0x07
  __REGISTER_UVB = 0x09
  __REGISTER_VISIBLE_NOISE = 0x0A
  __REGISTER_IR_NOISE = 0x0B

  # Config Register Bit Masks
  __POWER_ON = 0x00
  __POWER_OFF = 0x01
  __SENSITIVITY_NORMAL_DYNAMIC = 0x00
  __SENSITIVITY_HIGH_DYNAMIC = 0x08
  __SENSITIVITY_INTEGRATION_800 = 0x40
  __SENSITIVITY_INTEGRATION_400 = 0x30
  __SENSITIVITY_INTEGRATION_200 = 0x20
  __SENSITIVITY_INTEGRATION_100 = 0x10
  __SENSITIVITY_INTEGRATION_50 = 0x00

  # UV Coefficents, Responsivity
  __UV_COEFFICENT_UVA_VISIBLE = 2.22
  __UV_COEFFICENT_UVA_IR = 1.33
  __UV_COEFFICENT_UVB_VISIBLE = 2.95
  __UV_COEFFICENT_UVB_IR = 1.74

  # Conversion Factors (VEML6075 Datasheet Rev. 1.2, 23-Nov-16)
  __UVA_COUNTS_PER_UWCM = 0.93
  __UVB_COUNTS_PER_UWCM = 2.10

  __SENSITIVITY_MODE = 0

  def __set_sensitivity(self):
    if terrariumVEML6075Sensor.__SENSITIVITY_MODE == 0:
      self.__integTimeSelect = terrariumVEML6075Sensor.__SENSITIVITY_INTEGRATION_800  # Most Sensitive
      self.__dynamicSelect = terrariumVEML6075Sensor.__SENSITIVITY_NORMAL_DYNAMIC
      self.__wait_time = 1.920
      self.__divisor = 16.0
    elif terrariumVEML6075Sensor.__SENSITIVITY_MODE == 1:
      self.__integTimeSelect = terrariumVEML6075Sensor.__SENSITIVITY_INTEGRATION_400
      self.__dynamicSelect = terrariumVEML6075Sensor.__SENSITIVITY_NORMAL_DYNAMIC
      self.__wait_time = 0.960
      self.__divisor = 8.0
    elif terrariumVEML6075Sensor.__SENSITIVITY_MODE == 2:
      self.__integTimeSelect = terrariumVEML6075Sensor.__SENSITIVITY_INTEGRATION_200
      self.__dynamicSelect = terrariumVEML6075Sensor.__SENSITIVITY_NORMAL_DYNAMIC
      self.__wait_time = 0.480
      self.__divisor = 4.0
    elif terrariumVEML6075Sensor.__SENSITIVITY_MODE == 3:
      self.__integTimeSelect = terrariumVEML6075Sensor.__SENSITIVITY_INTEGRATION_100
      self.__dynamicSelect = terrariumVEML6075Sensor.__SENSITIVITY_NORMAL_DYNAMIC
      self.__wait_time = 0.240
      self.__divisor = 2.0
    elif terrariumVEML6075Sensor.__SENSITIVITY_MODE == 4:
      self.__integTimeSelect = terrariumVEML6075Sensor.__SENSITIVITY_INTEGRATION_50
      self.__dynamicSelect = terrariumVEML6075Sensor.__SENSITIVITY_NORMAL_DYNAMIC
      self.__wait_time = 0.120
      self.__divisor = 1.0
    elif terrariumVEML6075Sensor.__SENSITIVITY_MODE == 5:
      self.__integTimeSelect = terrariumVEML6075Sensor.__SENSITIVITY_INTEGRATION_800
      self.__dynamicSelect = terrariumVEML6075Sensor.__SENSITIVITY_HIGH_DYNAMIC
      self.__wait_time = 1.920
      self.__divisor = 16.0
    elif terrariumVEML6075Sensor.__SENSITIVITY_MODE == 6:
      self.__integTimeSelect = terrariumVEML6075Sensor.__SENSITIVITY_INTEGRATION_400
      self.__dynamicSelect = terrariumVEML6075Sensor.__SENSITIVITY_HIGH_DYNAMIC
      self.__wait_time = 0.960
      self.__divisor = 8.0
    elif terrariumVEML6075Sensor.__SENSITIVITY_MODE == 7:
      self.__integTimeSelect = terrariumVEML6075Sensor.__SENSITIVITY_INTEGRATION_200
      self.__dynamicSelect = terrariumVEML6075Sensor.__SENSITIVITY_HIGH_DYNAMIC
      self.__wait_time = 0.480
      self.__divisor = 4.0
    elif terrariumVEML6075Sensor.__SENSITIVITY_MODE == 8:
      self.__integTimeSelect = terrariumVEML6075Sensor.__SENSITIVITY_INTEGRATION_100
      self.__dynamicSelect = terrariumVEML6075Sensor.__SENSITIVITY_HIGH_DYNAMIC
      self.__wait_time = 0.240
      self.__divisor = 2.0
    elif terrariumVEML6075Sensor.__SENSITIVITY_MODE == 9:
      self.__integTimeSelect = terrariumVEML6075Sensor.__SENSITIVITY_INTEGRATION_50  # Least Sensitive
      self.__dynamicSelect = terrariumVEML6075Sensor.__SENSITIVITY_HIGH_DYNAMIC
      self.__wait_time = 0.120
      self.__divisor = 1.0

  def load_raw_data(self):
    data = None

    try:
      data = {}
      gpio_pins = self.get_address().split(',')

      self.__set_sensitivity()
      # Write Dynamic and Integration Time Settings to Sensor
      self.i2c_bus.write_byte_data(int('0x' + gpio_pins[0],16), terrariumVEML6075Sensor.__REGISTER_CONF, self.__integTimeSelect|self.__dynamicSelect|terrariumVEML6075Sensor.__POWER_ON)
      # Wait for ADC to finish first and second conversions, discarding the first
      sleep(self.__wait_time)
      # Power OFF
      self.i2c_bus.write_byte_data(int('0x' + gpio_pins[0],16), terrariumVEML6075Sensor.__REGISTER_CONF, terrariumVEML6075Sensor.__POWER_OFF)

      value_uva = float(self.i2c_bus.read_word_data(int('0x' + gpio_pins[0],16),terrariumVEML6075Sensor.__REGISTER_UVA))
      value_uvb = float(self.i2c_bus.read_word_data(int('0x' + gpio_pins[0],16),terrariumVEML6075Sensor.__REGISTER_UVB))

      compensate_visible_light = float(self.i2c_bus.read_word_data(int('0x' + gpio_pins[0],16),terrariumVEML6075Sensor.__REGISTER_VISIBLE_NOISE))  # visible noise
      compensate_ir_light = float(self.i2c_bus.read_word_data(int('0x' + gpio_pins[0],16),terrariumVEML6075Sensor.__REGISTER_IR_NOISE))  # infrared noise

      # Scale down
      value_uva /= self.__divisor
      value_uvb /= self.__divisor
      compensate_visible_light /= self.__divisor
      compensate_ir_light /= self.__divisor

      # Compensate
      value_uva = value_uva - (terrariumVEML6075Sensor.__UV_COEFFICENT_UVA_VISIBLE * compensate_visible_light) - (terrariumVEML6075Sensor.__UV_COEFFICENT_UVA_IR * compensate_ir_light)
      value_uvb = value_uvb - (terrariumVEML6075Sensor.__UV_COEFFICENT_UVB_VISIBLE * compensate_visible_light) - (terrariumVEML6075Sensor.__UV_COEFFICENT_UVB_IR * compensate_ir_light)

      # Convert to  uW/cm^2
      value_uva /= terrariumVEML6075Sensor.__UVA_COUNTS_PER_UWCM
      value_uvb /= terrariumVEML6075Sensor.__UVB_COUNTS_PER_UWCM

      data['uva'] = value_uva if value_uva > 0.0 else 0.0
      data['uvb'] = value_uvb if value_uvb > 0.0 else 0.0

    except Exception as ex:
      print('load_raw_data temp:')
      print(ex)

    return data

class terrariumChirpSensor(terrariumSensorSource):
  TYPE = 'chirp'
  VALID_SENSOR_TYPES = ['temperature','moisture','light']

  # Datasheet: https://wemakethings.net/chirp/
  def __init__(self, sensor_id, sensor_type, address, name = '', callback_indicator = None):
    self.set_min_moist_calibration(160)
    self.set_max_moist_calibration(720)
    self.set_temperature_offset_calibration(2)

    if sensor_type in ['light']:
      self.set_limit_max(1000)

    super(terrariumChirpSensor,self).__init__(sensor_id, sensor_type, address, name, callback_indicator)

  def set_min_moist_calibration(self,limit):
    self.__min_moist = float(limit)

  def get_min_moist_calibration(self):
    return self.__min_moist

  def set_max_moist_calibration(self,limit):
    self.__max_moist = float(limit)

  def get_max_moist_calibration(self):
    return self.__max_moist

  def set_temperature_offset_calibration(self,limit):
    self.__temp_offset = float(limit)

  def get_temperature_offset_calibration(self):
    return self.__temp_offset

  def load_data(self):
    data = None
    try:
      data = {}
      gpio_pins = self.get_address().split(',')
      sensor = chirp.Chirp(bus=1 if len(gpio_pins) == 1 else int(gpio_pins[1]),
                           address=int('0x' + gpio_pins[0],16),
                           read_moist=True,
                           read_temp=True,
                           read_light=True,
                           min_moist=self.get_min_moist_calibration(),
                           max_moist=self.get_max_moist_calibration(),
                           temp_scale='celsius',
                           temp_offset=self.get_temperature_offset_calibration())

      sensor.trigger()
      data['temperature'] = float(sensor.temp)
      data['moisture'] = float(sensor.moist_percent)
      data['light'] = 100.0 - ((float(sensor.light) / 65536.0) * 100.0)

    except Exception as ex:
      print(ex)

    return data

  def get_data(self):
    data = super(terrariumChirpSensor,self).get_data()
    data['min_moist'] = self.get_min_moist_calibration()
    data['max_moist']  = self.get_max_moist_calibration()
    data['temp_offset']  = self.get_temperature_offset_calibration()

    return data