using System;
using System.Collections.Generic;
using System.Device.I2c;
using System.Threading.Tasks;
using Iot.Device.Bmxx80;
using Iot.Device.Bmxx80.PowerMode;
using Microsoft.Extensions.Logging;
using Microsoft.Extensions.Options;
using NucuCar.Domain.Telemetry;
using NucuCarSensorsProto;
namespace NucuCar.Sensors.EnvironmentSensor
{
///
/// Abstraction for the BME680 sensor.
/// See: https://www.bosch-sensortec.com/bst/products/all_products/bme680
///
public class Bme680Sensor : IDisposable, ITelemeter
{
private readonly ILogger _logger;
private I2cConnectionSettings _i2CSettings;
private I2cDevice _i2CDevice;
private Bme680 _bme680;
private EnvironmentSensorMeasurement _lastMeasurement;
private SensorStateEnum _sensorStateEnum;
public Bme680Sensor()
{
}
public Bme680Sensor(ILogger logger, IOptions options)
{
_sensorStateEnum = SensorStateEnum.Uninitialized;
_logger = logger;
if (options.Value.ServiceEnabled)
{
InitializeSensor();
}
else
{
_logger?.LogInformation("BME680 Sensor is disabled!");
_sensorStateEnum = SensorStateEnum.Disabled;
}
}
// TODO Make more generic, Add interface and remove virtual
public virtual EnvironmentSensorMeasurement GetMeasurement()
{
return _lastMeasurement;
}
// TODO: Add interface and remove virtual
public virtual SensorStateEnum GetState()
{
return _sensorStateEnum;
}
public void Dispose()
{
_bme680?.Dispose();
}
public void InitializeSensor()
{
if (_sensorStateEnum == SensorStateEnum.Initialized)
{
return;
}
try
{
/* Connect to default i2c address 0x76 */
_i2CSettings = new I2cConnectionSettings(1, Bme680.DefaultI2cAddress);
_i2CDevice = I2cDevice.Create(_i2CSettings);
_bme680 = new Bme680(_i2CDevice);
/* Initialize measurement */
_lastMeasurement = new EnvironmentSensorMeasurement();
_bme680.Reset();
_bme680.SetHumiditySampling(Sampling.UltraLowPower);
_bme680.SetTemperatureSampling(Sampling.UltraHighResolution);
_bme680.SetPressureSampling(Sampling.UltraLowPower);
_sensorStateEnum = SensorStateEnum.Initialized;
_logger?.LogInformation($"{DateTimeOffset.Now}:BME680 Sensor initialization OK.");
}
catch (System.IO.IOException e)
{
_logger?.LogError($"{DateTimeOffset.Now}:BME680 Sensor initialization FAIL.");
_logger?.LogTrace(e.Message);
_sensorStateEnum = SensorStateEnum.Error;
}
}
public async Task TakeMeasurement()
{
if (_sensorStateEnum != SensorStateEnum.Initialized)
{
_logger?.LogWarning(
$"{DateTimeOffset.Now}:BME680: Attempting to take measurement while sensor is not initialized!");
return;
}
/* Force the sensor to take a measurement. */
_bme680.SetPowerMode(Bme680PowerMode.Forced);
_lastMeasurement.Temperature = (await _bme680.ReadTemperatureAsync()).Celsius;
_lastMeasurement.Pressure = await _bme680.ReadPressureAsync();
_lastMeasurement.Humidity = await _bme680.ReadHumidityAsync();
_logger?.LogInformation($"{DateTimeOffset.Now}:BME680: reading");
_logger?.LogInformation(
$"{_lastMeasurement.Temperature:N2} \u00B0C | {_lastMeasurement.Pressure:N2} hPa | {_lastMeasurement.Humidity:N2} %rH");
}
public string GetIdentifier()
{
return nameof(EnvironmentSensor);
}
public Dictionary GetTelemetryData()
{
Dictionary returnValue = null;
if (_lastMeasurement != null)
{
returnValue = new Dictionary
{
["temperature"] = _lastMeasurement.Temperature,
["humidity"] = _lastMeasurement.Humidity,
["pressure"] = _lastMeasurement.Pressure,
["voc"] = _lastMeasurement.VolatileOrganicCompound
};
}
return returnValue;
}
}
}