"""Support for Samsung Printers with SyncThru web interface.""" import logging import voluptuous as vol from homeassistant.const import ( CONF_RESOURCE, CONF_HOST, CONF_NAME, CONF_MONITORED_CONDITIONS) from homeassistant.helpers import aiohttp_client from homeassistant.helpers.entity import Entity import homeassistant.helpers.config_validation as cv from homeassistant.components.sensor import PLATFORM_SCHEMA _LOGGER = logging.getLogger(__name__) DEFAULT_NAME = 'Samsung Printer' COLORS = [ 'black', 'cyan', 'magenta', 'yellow' ] DRUM_COLORS = COLORS TONER_COLORS = COLORS TRAYS = range(1, 6) OUTPUT_TRAYS = range(0, 6) DEFAULT_MONITORED_CONDITIONS = [] DEFAULT_MONITORED_CONDITIONS.extend( ['toner_{}'.format(key) for key in TONER_COLORS] ) DEFAULT_MONITORED_CONDITIONS.extend( ['drum_{}'.format(key) for key in DRUM_COLORS] ) DEFAULT_MONITORED_CONDITIONS.extend( ['trays_{}'.format(key) for key in TRAYS] ) DEFAULT_MONITORED_CONDITIONS.extend( ['output_trays_{}'.format(key) for key in OUTPUT_TRAYS] ) PLATFORM_SCHEMA = PLATFORM_SCHEMA.extend({ vol.Required(CONF_RESOURCE): cv.url, vol.Optional(CONF_NAME, default=DEFAULT_NAME): cv.string, vol.Optional( CONF_MONITORED_CONDITIONS, default=DEFAULT_MONITORED_CONDITIONS ): vol.All(cv.ensure_list, [vol.In(DEFAULT_MONITORED_CONDITIONS)]) }) async def async_setup_platform(hass, config, async_add_entities, discovery_info=None): """Set up the SyncThru component.""" from pysyncthru import SyncThru if discovery_info is not None: _LOGGER.info("Discovered a new Samsung Printer at %s", discovery_info.get(CONF_HOST)) host = discovery_info.get(CONF_HOST) name = discovery_info.get(CONF_NAME, DEFAULT_NAME) # Main device, always added monitored = DEFAULT_MONITORED_CONDITIONS else: host = config.get(CONF_RESOURCE) name = config.get(CONF_NAME) monitored = config.get(CONF_MONITORED_CONDITIONS) session = aiohttp_client.async_get_clientsession(hass) printer = SyncThru(host, session) # Test if the discovered device actually is a syncthru printer # and fetch the available toner/drum/etc try: # No error is thrown when the device is off # (only after user added it manually) # therefore additional catches are inside the Sensor below await printer.update() supp_toner = printer.toner_status(filter_supported=True) supp_drum = printer.drum_status(filter_supported=True) supp_tray = printer.input_tray_status(filter_supported=True) supp_output_tray = printer.output_tray_status() except ValueError: # if an exception is thrown, printer does not support syncthru # and should not be set up # If the printer was discovered automatically, no warning or error # should be issued and printer should not be set up if discovery_info is not None: _LOGGER.info("Samsung printer at %s does not support SyncThru", host) return # Otherwise, emulate printer that supports everything supp_toner = TONER_COLORS supp_drum = DRUM_COLORS supp_tray = TRAYS supp_output_tray = OUTPUT_TRAYS devices = [SyncThruMainSensor(printer, name)] for key in supp_toner: if 'toner_{}'.format(key) in monitored: devices.append(SyncThruTonerSensor(printer, name, key)) for key in supp_drum: if 'drum_{}'.format(key) in monitored: devices.append(SyncThruDrumSensor(printer, name, key)) for key in supp_tray: if 'tray_{}'.format(key) in monitored: devices.append(SyncThruInputTraySensor(printer, name, key)) for key in supp_output_tray: if 'output_tray_{}'.format(key) in monitored: devices.append(SyncThruOutputTraySensor(printer, name, key)) async_add_entities(devices, True) class SyncThruSensor(Entity): """Implementation of an abstract Samsung Printer sensor platform.""" def __init__(self, syncthru, name): """Initialize the sensor.""" self.syncthru = syncthru self._attributes = {} self._state = None self._name = name self._icon = 'mdi:printer' self._unit_of_measurement = None self._id_suffix = '' @property def unique_id(self): """Return unique ID for the sensor.""" serial = self.syncthru.serial_number() return serial + self._id_suffix if serial else super().unique_id @property def name(self): """Return the name of the sensor.""" return self._name @property def state(self): """Return the state of the device.""" return self._state @property def icon(self): """Return the icon of the device.""" return self._icon @property def unit_of_measurement(self): """Return the unit of measuremnt.""" return self._unit_of_measurement @property def device_state_attributes(self): """Return the state attributes of the device.""" return self._attributes class SyncThruMainSensor(SyncThruSensor): """Implementation of the main sensor, conducting the actual polling.""" def __init__(self, syncthru, name): """Initialize the sensor.""" super().__init__(syncthru, name) self._id_suffix = '_main' self._active = True async def async_update(self): """Get the latest data from SyncThru and update the state.""" if not self._active: return try: await self.syncthru.update() except ValueError: # if an exception is thrown, printer does not support syncthru _LOGGER.warning( "Configured printer at %s does not support SyncThru. " "Consider changing your configuration", self.syncthru.url ) self._active = False self._state = self.syncthru.device_status() class SyncThruTonerSensor(SyncThruSensor): """Implementation of a Samsung Printer toner sensor platform.""" def __init__(self, syncthru, name, color): """Initialize the sensor.""" super().__init__(syncthru, name) self._name = "{} Toner {}".format(name, color) self._color = color self._unit_of_measurement = '%' self._id_suffix = '_toner_{}'.format(color) def update(self): """Get the latest data from SyncThru and update the state.""" # Data fetching is taken care of through the Main sensor if self.syncthru.is_online(): self._attributes = self.syncthru.toner_status( ).get(self._color, {}) self._state = self._attributes.get('remaining') class SyncThruDrumSensor(SyncThruSensor): """Implementation of a Samsung Printer toner sensor platform.""" def __init__(self, syncthru, name, color): """Initialize the sensor.""" super().__init__(syncthru, name) self._name = "{} Drum {}".format(name, color) self._color = color self._unit_of_measurement = '%' self._id_suffix = '_drum_{}'.format(color) def update(self): """Get the latest data from SyncThru and update the state.""" # Data fetching is taken care of through the Main sensor if self.syncthru.is_online(): self._attributes = self.syncthru.drum_status( ).get(self._color, {}) self._state = self._attributes.get('remaining') class SyncThruInputTraySensor(SyncThruSensor): """Implementation of a Samsung Printer input tray sensor platform.""" def __init__(self, syncthru, name, number): """Initialize the sensor.""" super().__init__(syncthru, name) self._name = "{} Tray {}".format(name, number) self._number = number self._id_suffix = '_tray_{}'.format(number) def update(self): """Get the latest data from SyncThru and update the state.""" # Data fetching is taken care of through the Main sensor if self.syncthru.is_online(): self._attributes = self.syncthru.input_tray_status( ).get(self._number, {}) self._state = self._attributes.get('newError') if self._state == '': self._state = 'Ready' class SyncThruOutputTraySensor(SyncThruSensor): """Implementation of a Samsung Printer input tray sensor platform.""" def __init__(self, syncthru, name, number): """Initialize the sensor.""" super().__init__(syncthru, name) self._name = "{} Output Tray {}".format(name, number) self._number = number self._id_suffix = '_output_tray_{}'.format(number) def update(self): """Get the latest data from SyncThru and update the state.""" # Data fetching is taken care of through the Main sensor if self.syncthru.is_online(): self._attributes = self.syncthru.output_tray_status( ).get(self._number, {}) self._state = self._attributes.get('status') if self._state == '': self._state = 'Ready'