""" Platform to prsent any Tuya DP as a binary sensor. Sample config yaml sensor: - platform: localtuya host: 192.168.0.1 local_key: 1234567891234567 device_id: 12345678912345671234 friendly_name: Current protocol_version: 3.3 id: 18 state_on: "true" (optional, default is "true") state_off: "false" (optional, default is "false") device_class: current """ import logging from time import time, sleep from threading import Lock import voluptuous as vol from homeassistant.components.binary_sensor import ( DOMAIN, PLATFORM_SCHEMA, DEVICE_CLASSES_SCHEMA, BinarySensorEntity, ) from homeassistant.const import ( CONF_ID, CONF_DEVICE_CLASS, CONF_FRIENDLY_NAME, ) from . import ( BASE_PLATFORM_SCHEMA, LocalTuyaEntity, prepare_setup_entities, import_from_yaml, ) _LOGGER = logging.getLogger(__name__) CONF_STATE_ON = "state_on" CONF_STATE_OFF = "state_off" PLATFORM_SCHEMA = PLATFORM_SCHEMA.extend(BASE_PLATFORM_SCHEMA) def flow_schema(dps): """Return schema used in config flow.""" return { vol.Required(CONF_STATE_ON, default="True"): str, vol.Required(CONF_STATE_OFF, default="False"): str, vol.Optional(CONF_DEVICE_CLASS): DEVICE_CLASSES_SCHEMA, } async def async_setup_entry(hass, config_entry, async_add_entities): """Set up a Tuya sensor based on a config entry.""" device, entities_to_setup = prepare_setup_entities(config_entry, DOMAIN) if not entities_to_setup: return sensors = [] for device_config in entities_to_setup: sensors.append( LocaltuyaBinarySensor( TuyaCache(device, config_entry.data[CONF_FRIENDLY_NAME]), config_entry, device_config[CONF_ID], ) ) async_add_entities(sensors, True) def setup_platform(hass, config, add_devices, discovery_info=None): """Set up of the Tuya sensor.""" return import_from_yaml(hass, config, DOMAIN) class TuyaCache: """Cache wrapper for pytuya.TuyaDevice.""" def __init__(self, device, friendly_name): """Initialize the cache.""" self._cached_status = "" self._cached_status_time = 0 self._device = device self._friendly_name = friendly_name self._lock = Lock() @property def unique_id(self): """Return unique device identifier.""" return self._device.id def __get_status(self): for i in range(5): try: status = self._device.status() return status except Exception: print( "Failed to update status of device [{}]".format( self._device.address ) ) sleep(1.0) if i + 1 == 3: _LOGGER.error( "Failed to update status of device %s", self._device.address ) # return None raise ConnectionError("Failed to update status .") def set_dps(self, state, dps_index): """Change the Tuya sensor status and clear the cache.""" self._cached_status = "" self._cached_status_time = 0 for i in range(5): try: return self._device.set_dps(state, dps_index) except Exception: print( "Failed to set status of device [{}]".format(self._device.address) ) if i + 1 == 3: _LOGGER.error( "Failed to set status of device %s", self._device.address ) return # raise ConnectionError("Failed to set status.") def status(self): """Get state of Tuya sensor and cache the results.""" self._lock.acquire() try: now = time() if not self._cached_status or now - self._cached_status_time > 15: sleep(0.5) self._cached_status = self.__get_status() self._cached_status_time = time() return self._cached_status finally: self._lock.release() class LocaltuyaBinarySensor(LocalTuyaEntity, BinarySensorEntity): """Representation of a Tuya binary sensor.""" def __init__( self, device, config_entry, sensorid, **kwargs, ): """Initialize the Tuya binary sensor.""" super().__init__(device, config_entry, sensorid, **kwargs) self._is_on = False @property def is_on(self): """Return sensor state.""" return self._is_on @property def device_class(self): """Return the class of this device.""" return self._config.get(CONF_DEVICE_CLASS) def status_updated(self): """Device status was updated.""" state = str(self.dps(self._dps_id)).lower() if state == self._config[CONF_STATE_ON].lower(): self._is_on = True elif state == self._config[CONF_STATE_OFF].lower(): self._is_on = False else: _LOGGER.warning( "State for entity %s did not match state patterns", self.entity_id )