""" Support for the NetAtmo Weather Service. For more details about this platform, please refer to the documentation at https://home-assistant.io/components/sensor.netatmo/ """ import logging from datetime import timedelta import voluptuous as vol from homeassistant.components.sensor import PLATFORM_SCHEMA from homeassistant.const import TEMP_CELSIUS from homeassistant.helpers.entity import Entity from homeassistant.util import Throttle from homeassistant.loader import get_component import homeassistant.helpers.config_validation as cv _LOGGER = logging.getLogger(__name__) ATTR_MODULE = 'modules' CONF_MODULES = 'modules' CONF_STATION = 'station' DEPENDENCIES = ['netatmo'] # NetAtmo Data is uploaded to server every 10 minutes MIN_TIME_BETWEEN_UPDATES = timedelta(seconds=600) SENSOR_TYPES = { 'temperature': ['Temperature', TEMP_CELSIUS, 'mdi:thermometer'], 'co2': ['CO2', 'ppm', 'mdi:cloud'], 'pressure': ['Pressure', 'mbar', 'mdi:gauge'], 'noise': ['Noise', 'dB', 'mdi:volume-high'], 'humidity': ['Humidity', '%', 'mdi:water-percent'], 'rain': ['Rain', 'mm', 'mdi:weather-rainy'], 'sum_rain_1': ['sum_rain_1', 'mm', 'mdi:weather-rainy'], 'sum_rain_24': ['sum_rain_24', 'mm', 'mdi:weather-rainy'], 'battery_vp': ['Battery', '', 'mdi:battery'], 'battery_lvl': ['Battery_lvl', '', 'mdi:battery'], 'min_temp': ['Min Temp.', TEMP_CELSIUS, 'mdi:thermometer'], 'max_temp': ['Max Temp.', TEMP_CELSIUS, 'mdi:thermometer'], 'WindAngle': ['Angle', '', 'mdi:compass'], 'WindAngle_value': ['Angle Value', 'º', 'mdi:compass'], 'WindStrength': ['Strength', 'km/h', 'mdi:weather-windy'], 'GustAngle': ['Gust Angle', '', 'mdi:compass'], 'GustAngle_value': ['Gust Angle Value', 'º', 'mdi:compass'], 'GustStrength': ['Gust Strength', 'km/h', 'mdi:weather-windy'], 'rf_status': ['Radio', '', 'mdi:signal'], 'rf_status_lvl': ['Radio_lvl', '', 'mdi:signal'], 'wifi_status': ['Wifi', '', 'mdi:wifi'], 'wifi_status_lvl': ['Wifi_lvl', 'dBm', 'mdi:wifi'] } MODULE_SCHEMA = vol.Schema({ vol.Required(cv.string, default=[]): vol.All(cv.ensure_list, [vol.In(SENSOR_TYPES)]), }) PLATFORM_SCHEMA = PLATFORM_SCHEMA.extend({ vol.Optional(CONF_STATION): cv.string, vol.Optional(CONF_MODULES): MODULE_SCHEMA, }) def setup_platform(hass, config, add_devices, discovery_info=None): """Setup the available Netatmo weather sensors.""" netatmo = get_component('netatmo') data = NetAtmoData(netatmo.NETATMO_AUTH, config.get(CONF_STATION, None)) dev = [] import lnetatmo try: if CONF_MODULES in config: # Iterate each module for module_name, monitored_conditions in\ config[CONF_MODULES].items(): # Test if module exist """ if module_name not in data.get_module_names(): _LOGGER.error('Module name: "%s" not found', module_name) continue # Only create sensor for monitored """ for variable in monitored_conditions: dev.append(NetAtmoSensor(data, module_name, variable)) else: for module_name in data.get_module_names(): for variable in\ data.station_data.monitoredConditions(module_name): dev.append(NetAtmoSensor(data, module_name, variable)) except lnetatmo.NoDevice: return None add_devices(dev) class NetAtmoSensor(Entity): """Implementation of a Netatmo sensor.""" def __init__(self, netatmo_data, module_name, sensor_type): """Initialize the sensor.""" self._name = 'Netatmo {} {}'.format(module_name, SENSOR_TYPES[sensor_type][0]) self.netatmo_data = netatmo_data self.module_name = module_name self.type = sensor_type self._state = None self._unit_of_measurement = SENSOR_TYPES[sensor_type][1] module_id = self.netatmo_data.\ station_data.moduleByName(module=module_name)['_id'] self.module_id = module_id[1] self._unique_id = "Netatmo Sensor {0} - {1} ({2})".format(self._name, module_id, self.type) self.update() @property def name(self): """Return the name of the sensor.""" return self._name @property def unique_id(self): """Return the unique ID for this sensor.""" return self._unique_id @property def icon(self): """Icon to use in the frontend, if any.""" return SENSOR_TYPES[self.type][2] @property def state(self): """Return the state of the device.""" return self._state @property def unit_of_measurement(self): """Return the unit of measurement of this entity, if any.""" return self._unit_of_measurement def update(self): """Get the latest data from NetAtmo API and updates the states.""" self.netatmo_data.update() data = self.netatmo_data.data[self.module_name] if self.type == 'temperature': self._state = round(data['Temperature'], 1) elif self.type == 'humidity': self._state = data['Humidity'] elif self.type == 'rain': self._state = data['Rain'] elif self.type == 'sum_rain_1': self._state = data['sum_rain_1'] elif self.type == 'sum_rain_24': self._state = data['sum_rain_24'] elif self.type == 'noise': self._state = data['Noise'] elif self.type == 'co2': self._state = data['CO2'] elif self.type == 'pressure': self._state = round(data['Pressure'], 1) elif self.type == 'battery_lvl': self._state = data['battery_vp'] elif self.type == 'battery_vp' and self.module_id == '6': if data['battery_vp'] >= 5590: self._state = "Full" elif data['battery_vp'] >= 5180: self._state = "High" elif data['battery_vp'] >= 4770: self._state = "Medium" elif data['battery_vp'] >= 4360: self._state = "Low" elif data['battery_vp'] < 4360: self._state = "Very Low" elif self.type == 'battery_vp' and self.module_id == '5': if data['battery_vp'] >= 5500: self._state = "Full" elif data['battery_vp'] >= 5000: self._state = "High" elif data['battery_vp'] >= 4500: self._state = "Medium" elif data['battery_vp'] >= 4000: self._state = "Low" elif data['battery_vp'] < 4000: self._state = "Very Low" elif self.type == 'battery_vp' and self.module_id == '3': if data['battery_vp'] >= 5640: self._state = "Full" elif data['battery_vp'] >= 5280: self._state = "High" elif data['battery_vp'] >= 4920: self._state = "Medium" elif data['battery_vp'] >= 4560: self._state = "Low" elif data['battery_vp'] < 4560: self._state = "Very Low" elif self.type == 'battery_vp' and self.module_id == '2': if data['battery_vp'] >= 5500: self._state = "Full" elif data['battery_vp'] >= 5000: self._state = "High" elif data['battery_vp'] >= 4500: self._state = "Medium" elif data['battery_vp'] >= 4000: self._state = "Low" elif data['battery_vp'] < 4000: self._state = "Very Low" elif self.type == 'min_temp': self._state = data['min_temp'] elif self.type == 'max_temp': self._state = data['max_temp'] elif self.type == 'WindAngle_value': self._state = data['WindAngle'] elif self.type == 'WindAngle': if data['WindAngle'] >= 330: self._state = "North (%d\xb0)" % data['WindAngle'] elif data['WindAngle'] >= 300: self._state = "North-West (%d\xb0)" % data['WindAngle'] elif data['WindAngle'] >= 240: self._state = "West (%d\xb0)" % data['WindAngle'] elif data['WindAngle'] >= 210: self._state = "South-West (%d\xb0)" % data['WindAngle'] elif data['WindAngle'] >= 150: self._state = "South (%d\xb0)" % data['WindAngle'] elif data['WindAngle'] >= 120: self._state = "South-East (%d\xb0)" % data['WindAngle'] elif data['WindAngle'] >= 60: self._state = "East (%d\xb0)" % data['WindAngle'] elif data['WindAngle'] >= 30: self._state = "North-East (%d\xb0)" % data['WindAngle'] elif data['WindAngle'] >= 0: self._state = "North (%d\xb0)" % data['WindAngle'] elif self.type == 'WindStrength': self._state = data['WindStrength'] elif self.type == 'GustAngle_value': self._state = data['GustAngle'] elif self.type == 'GustAngle': if data['GustAngle'] >= 330: self._state = "North (%d\xb0)" % data['GustAngle'] elif data['GustAngle'] >= 300: self._state = "North-West (%d\xb0)" % data['GustAngle'] elif data['GustAngle'] >= 240: self._state = "West (%d\xb0)" % data['GustAngle'] elif data['GustAngle'] >= 210: self._state = "South-West (%d\xb0)" % data['GustAngle'] elif data['GustAngle'] >= 150: self._state = "South (%d\xb0)" % data['GustAngle'] elif data['GustAngle'] >= 120: self._state = "South-East (%d\xb0)" % data['GustAngle'] elif data['GustAngle'] >= 60: self._state = "East (%d\xb0)" % data['GustAngle'] elif data['GustAngle'] >= 30: self._state = "North-East (%d\xb0)" % data['GustAngle'] elif data['GustAngle'] >= 0: self._state = "North (%d\xb0)" % data['GustAngle'] elif self.type == 'GustStrength': self._state = data['GustStrength'] elif self.type == 'rf_status_lvl': self._state = data['rf_status'] elif self.type == 'rf_status': if data['rf_status'] >= 90: self._state = "Low" elif data['rf_status'] >= 76: self._state = "Medium" elif data['rf_status'] >= 60: self._state = "High" elif data['rf_status'] <= 59: self._state = "Full" elif self.type == 'wifi_status_lvl': self._state = data['wifi_status'] elif self.type == 'wifi_status': if data['wifi_status'] >= 86: self._state = "Low" elif data['wifi_status'] >= 71: self._state = "Medium" elif data['wifi_status'] >= 56: self._state = "High" elif data['wifi_status'] <= 55: self._state = "Full" class NetAtmoData(object): """Get the latest data from NetAtmo.""" def __init__(self, auth, station): """Initialize the data object.""" self.auth = auth self.data = None self.station_data = None self.station = station def get_module_names(self): """Return all module available on the API as a list.""" self.update() return self.data.keys() @Throttle(MIN_TIME_BETWEEN_UPDATES) def update(self): """Call the Netatmo API to update the data.""" import lnetatmo self.station_data = lnetatmo.WeatherStationData(self.auth) if self.station is not None: self.data = self.station_data.lastData(station=self.station, exclude=3600) else: self.data = self.station_data.lastData(exclude=3600)