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core/homeassistant/components/xiaomi_miio/fan.py

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"""Support for Xiaomi Mi Air Purifier and Xiaomi Mi Air Humidifier."""
import asyncio
from enum import Enum
from functools import partial
import logging
from miio import ( # pylint: disable=import-error
AirFresh,
AirHumidifier,
AirPurifier,
AirPurifierMiot,
Device,
DeviceException,
)
from miio.airfresh import ( # pylint: disable=import-error, import-error
LedBrightness as AirfreshLedBrightness,
OperationMode as AirfreshOperationMode,
)
from miio.airhumidifier import ( # pylint: disable=import-error, import-error
LedBrightness as AirhumidifierLedBrightness,
OperationMode as AirhumidifierOperationMode,
)
from miio.airpurifier import ( # pylint: disable=import-error, import-error
LedBrightness as AirpurifierLedBrightness,
OperationMode as AirpurifierOperationMode,
)
from miio.airpurifier_miot import ( # pylint: disable=import-error, import-error
LedBrightness as AirpurifierMiotLedBrightness,
OperationMode as AirpurifierMiotOperationMode,
)
import voluptuous as vol
from homeassistant.components.fan import PLATFORM_SCHEMA, SUPPORT_SET_SPEED, FanEntity
from homeassistant.const import (
ATTR_ENTITY_ID,
ATTR_MODE,
CONF_HOST,
CONF_NAME,
CONF_TOKEN,
)
from homeassistant.exceptions import PlatformNotReady
import homeassistant.helpers.config_validation as cv
from .const import (
DOMAIN,
SERVICE_RESET_FILTER,
SERVICE_SET_AUTO_DETECT_OFF,
SERVICE_SET_AUTO_DETECT_ON,
SERVICE_SET_BUZZER_OFF,
SERVICE_SET_BUZZER_ON,
SERVICE_SET_CHILD_LOCK_OFF,
SERVICE_SET_CHILD_LOCK_ON,
SERVICE_SET_DRY_OFF,
SERVICE_SET_DRY_ON,
SERVICE_SET_EXTRA_FEATURES,
SERVICE_SET_FAN_LED_OFF,
SERVICE_SET_FAN_LED_ON,
SERVICE_SET_FAN_LEVEL,
SERVICE_SET_FAVORITE_LEVEL,
SERVICE_SET_LEARN_MODE_OFF,
SERVICE_SET_LEARN_MODE_ON,
SERVICE_SET_LED_BRIGHTNESS,
SERVICE_SET_TARGET_HUMIDITY,
SERVICE_SET_VOLUME,
)
_LOGGER = logging.getLogger(__name__)
DEFAULT_NAME = "Xiaomi Miio Device"
DATA_KEY = "fan.xiaomi_miio"
CONF_MODEL = "model"
MODEL_AIRPURIFIER_V1 = "zhimi.airpurifier.v1"
MODEL_AIRPURIFIER_V2 = "zhimi.airpurifier.v2"
MODEL_AIRPURIFIER_V3 = "zhimi.airpurifier.v3"
MODEL_AIRPURIFIER_V5 = "zhimi.airpurifier.v5"
MODEL_AIRPURIFIER_PRO = "zhimi.airpurifier.v6"
MODEL_AIRPURIFIER_PRO_V7 = "zhimi.airpurifier.v7"
MODEL_AIRPURIFIER_M1 = "zhimi.airpurifier.m1"
MODEL_AIRPURIFIER_M2 = "zhimi.airpurifier.m2"
MODEL_AIRPURIFIER_MA1 = "zhimi.airpurifier.ma1"
MODEL_AIRPURIFIER_MA2 = "zhimi.airpurifier.ma2"
MODEL_AIRPURIFIER_SA1 = "zhimi.airpurifier.sa1"
MODEL_AIRPURIFIER_SA2 = "zhimi.airpurifier.sa2"
MODEL_AIRPURIFIER_2S = "zhimi.airpurifier.mc1"
MODEL_AIRPURIFIER_3 = "zhimi.airpurifier.ma4"
MODEL_AIRPURIFIER_3H = "zhimi.airpurifier.mb3"
MODEL_AIRHUMIDIFIER_V1 = "zhimi.humidifier.v1"
MODEL_AIRHUMIDIFIER_CA1 = "zhimi.humidifier.ca1"
MODEL_AIRHUMIDIFIER_CB1 = "zhimi.humidifier.cb1"
MODEL_AIRFRESH_VA2 = "zhimi.airfresh.va2"
PLATFORM_SCHEMA = PLATFORM_SCHEMA.extend(
{
vol.Required(CONF_HOST): cv.string,
vol.Required(CONF_TOKEN): vol.All(cv.string, vol.Length(min=32, max=32)),
vol.Optional(CONF_NAME, default=DEFAULT_NAME): cv.string,
vol.Optional(CONF_MODEL): vol.In(
[
MODEL_AIRPURIFIER_V1,
MODEL_AIRPURIFIER_V2,
MODEL_AIRPURIFIER_V3,
MODEL_AIRPURIFIER_V5,
MODEL_AIRPURIFIER_PRO,
MODEL_AIRPURIFIER_PRO_V7,
MODEL_AIRPURIFIER_M1,
MODEL_AIRPURIFIER_M2,
MODEL_AIRPURIFIER_MA1,
MODEL_AIRPURIFIER_MA2,
MODEL_AIRPURIFIER_SA1,
MODEL_AIRPURIFIER_SA2,
MODEL_AIRPURIFIER_2S,
MODEL_AIRPURIFIER_3,
MODEL_AIRPURIFIER_3H,
MODEL_AIRHUMIDIFIER_V1,
MODEL_AIRHUMIDIFIER_CA1,
MODEL_AIRHUMIDIFIER_CB1,
MODEL_AIRFRESH_VA2,
]
),
}
)
ATTR_MODEL = "model"
# Air Purifier
ATTR_TEMPERATURE = "temperature"
ATTR_HUMIDITY = "humidity"
ATTR_AIR_QUALITY_INDEX = "aqi"
ATTR_FILTER_HOURS_USED = "filter_hours_used"
ATTR_FILTER_LIFE = "filter_life_remaining"
ATTR_FAVORITE_LEVEL = "favorite_level"
ATTR_BUZZER = "buzzer"
ATTR_CHILD_LOCK = "child_lock"
ATTR_LED = "led"
ATTR_LED_BRIGHTNESS = "led_brightness"
ATTR_MOTOR_SPEED = "motor_speed"
ATTR_AVERAGE_AIR_QUALITY_INDEX = "average_aqi"
ATTR_PURIFY_VOLUME = "purify_volume"
ATTR_BRIGHTNESS = "brightness"
ATTR_LEVEL = "level"
ATTR_FAN_LEVEL = "fan_level"
ATTR_MOTOR2_SPEED = "motor2_speed"
ATTR_ILLUMINANCE = "illuminance"
ATTR_FILTER_RFID_PRODUCT_ID = "filter_rfid_product_id"
ATTR_FILTER_RFID_TAG = "filter_rfid_tag"
ATTR_FILTER_TYPE = "filter_type"
ATTR_LEARN_MODE = "learn_mode"
ATTR_SLEEP_TIME = "sleep_time"
ATTR_SLEEP_LEARN_COUNT = "sleep_mode_learn_count"
ATTR_EXTRA_FEATURES = "extra_features"
ATTR_FEATURES = "features"
ATTR_TURBO_MODE_SUPPORTED = "turbo_mode_supported"
ATTR_AUTO_DETECT = "auto_detect"
ATTR_SLEEP_MODE = "sleep_mode"
ATTR_VOLUME = "volume"
ATTR_USE_TIME = "use_time"
ATTR_BUTTON_PRESSED = "button_pressed"
# Air Humidifier
ATTR_TARGET_HUMIDITY = "target_humidity"
ATTR_TRANS_LEVEL = "trans_level"
ATTR_HARDWARE_VERSION = "hardware_version"
# Air Humidifier CA
# ATTR_MOTOR_SPEED = "motor_speed"
ATTR_DEPTH = "depth"
ATTR_DRY = "dry"
# Air Fresh
ATTR_CO2 = "co2"
PURIFIER_MIOT = [MODEL_AIRPURIFIER_3, MODEL_AIRPURIFIER_3H]
# Map attributes to properties of the state object
AVAILABLE_ATTRIBUTES_AIRPURIFIER_COMMON = {
ATTR_TEMPERATURE: "temperature",
ATTR_HUMIDITY: "humidity",
ATTR_AIR_QUALITY_INDEX: "aqi",
ATTR_MODE: "mode",
ATTR_FILTER_HOURS_USED: "filter_hours_used",
ATTR_FILTER_LIFE: "filter_life_remaining",
ATTR_FAVORITE_LEVEL: "favorite_level",
ATTR_CHILD_LOCK: "child_lock",
ATTR_LED: "led",
ATTR_MOTOR_SPEED: "motor_speed",
ATTR_AVERAGE_AIR_QUALITY_INDEX: "average_aqi",
ATTR_LEARN_MODE: "learn_mode",
ATTR_EXTRA_FEATURES: "extra_features",
ATTR_TURBO_MODE_SUPPORTED: "turbo_mode_supported",
ATTR_BUTTON_PRESSED: "button_pressed",
}
AVAILABLE_ATTRIBUTES_AIRPURIFIER = {
**AVAILABLE_ATTRIBUTES_AIRPURIFIER_COMMON,
ATTR_PURIFY_VOLUME: "purify_volume",
ATTR_SLEEP_TIME: "sleep_time",
ATTR_SLEEP_LEARN_COUNT: "sleep_mode_learn_count",
ATTR_AUTO_DETECT: "auto_detect",
ATTR_USE_TIME: "use_time",
ATTR_BUZZER: "buzzer",
ATTR_LED_BRIGHTNESS: "led_brightness",
ATTR_SLEEP_MODE: "sleep_mode",
}
AVAILABLE_ATTRIBUTES_AIRPURIFIER_PRO = {
**AVAILABLE_ATTRIBUTES_AIRPURIFIER_COMMON,
ATTR_PURIFY_VOLUME: "purify_volume",
ATTR_USE_TIME: "use_time",
ATTR_FILTER_RFID_PRODUCT_ID: "filter_rfid_product_id",
ATTR_FILTER_RFID_TAG: "filter_rfid_tag",
ATTR_FILTER_TYPE: "filter_type",
ATTR_ILLUMINANCE: "illuminance",
ATTR_MOTOR2_SPEED: "motor2_speed",
ATTR_VOLUME: "volume",
# perhaps supported but unconfirmed
ATTR_AUTO_DETECT: "auto_detect",
ATTR_SLEEP_TIME: "sleep_time",
ATTR_SLEEP_LEARN_COUNT: "sleep_mode_learn_count",
}
AVAILABLE_ATTRIBUTES_AIRPURIFIER_PRO_V7 = {
**AVAILABLE_ATTRIBUTES_AIRPURIFIER_COMMON,
ATTR_FILTER_RFID_PRODUCT_ID: "filter_rfid_product_id",
ATTR_FILTER_RFID_TAG: "filter_rfid_tag",
ATTR_FILTER_TYPE: "filter_type",
ATTR_ILLUMINANCE: "illuminance",
ATTR_MOTOR2_SPEED: "motor2_speed",
ATTR_VOLUME: "volume",
}
AVAILABLE_ATTRIBUTES_AIRPURIFIER_2S = {
**AVAILABLE_ATTRIBUTES_AIRPURIFIER_COMMON,
ATTR_BUZZER: "buzzer",
ATTR_FILTER_RFID_PRODUCT_ID: "filter_rfid_product_id",
ATTR_FILTER_RFID_TAG: "filter_rfid_tag",
ATTR_FILTER_TYPE: "filter_type",
ATTR_ILLUMINANCE: "illuminance",
}
AVAILABLE_ATTRIBUTES_AIRPURIFIER_3 = {
ATTR_TEMPERATURE: "temperature",
ATTR_HUMIDITY: "humidity",
ATTR_AIR_QUALITY_INDEX: "aqi",
ATTR_MODE: "mode",
ATTR_FILTER_HOURS_USED: "filter_hours_used",
ATTR_FILTER_LIFE: "filter_life_remaining",
ATTR_FAVORITE_LEVEL: "favorite_level",
ATTR_CHILD_LOCK: "child_lock",
ATTR_LED: "led",
ATTR_MOTOR_SPEED: "motor_speed",
ATTR_AVERAGE_AIR_QUALITY_INDEX: "average_aqi",
ATTR_PURIFY_VOLUME: "purify_volume",
ATTR_USE_TIME: "use_time",
ATTR_BUZZER: "buzzer",
ATTR_LED_BRIGHTNESS: "led_brightness",
ATTR_FILTER_RFID_PRODUCT_ID: "filter_rfid_product_id",
ATTR_FILTER_RFID_TAG: "filter_rfid_tag",
ATTR_FILTER_TYPE: "filter_type",
ATTR_FAN_LEVEL: "fan_level",
}
AVAILABLE_ATTRIBUTES_AIRPURIFIER_V3 = {
# Common set isn't used here. It's a very basic version of the device.
ATTR_AIR_QUALITY_INDEX: "aqi",
ATTR_MODE: "mode",
ATTR_LED: "led",
ATTR_BUZZER: "buzzer",
ATTR_CHILD_LOCK: "child_lock",
ATTR_ILLUMINANCE: "illuminance",
ATTR_FILTER_HOURS_USED: "filter_hours_used",
ATTR_FILTER_LIFE: "filter_life_remaining",
ATTR_MOTOR_SPEED: "motor_speed",
# perhaps supported but unconfirmed
ATTR_AVERAGE_AIR_QUALITY_INDEX: "average_aqi",
ATTR_VOLUME: "volume",
ATTR_MOTOR2_SPEED: "motor2_speed",
ATTR_FILTER_RFID_PRODUCT_ID: "filter_rfid_product_id",
ATTR_FILTER_RFID_TAG: "filter_rfid_tag",
ATTR_FILTER_TYPE: "filter_type",
ATTR_PURIFY_VOLUME: "purify_volume",
ATTR_LEARN_MODE: "learn_mode",
ATTR_SLEEP_TIME: "sleep_time",
ATTR_SLEEP_LEARN_COUNT: "sleep_mode_learn_count",
ATTR_EXTRA_FEATURES: "extra_features",
ATTR_AUTO_DETECT: "auto_detect",
ATTR_USE_TIME: "use_time",
ATTR_BUTTON_PRESSED: "button_pressed",
}
AVAILABLE_ATTRIBUTES_AIRHUMIDIFIER_COMMON = {
ATTR_TEMPERATURE: "temperature",
ATTR_HUMIDITY: "humidity",
ATTR_MODE: "mode",
ATTR_BUZZER: "buzzer",
ATTR_CHILD_LOCK: "child_lock",
ATTR_TARGET_HUMIDITY: "target_humidity",
ATTR_LED_BRIGHTNESS: "led_brightness",
ATTR_USE_TIME: "use_time",
ATTR_HARDWARE_VERSION: "hardware_version",
}
AVAILABLE_ATTRIBUTES_AIRHUMIDIFIER = {
**AVAILABLE_ATTRIBUTES_AIRHUMIDIFIER_COMMON,
ATTR_TRANS_LEVEL: "trans_level",
ATTR_BUTTON_PRESSED: "button_pressed",
}
AVAILABLE_ATTRIBUTES_AIRHUMIDIFIER_CA_AND_CB = {
**AVAILABLE_ATTRIBUTES_AIRHUMIDIFIER_COMMON,
ATTR_MOTOR_SPEED: "motor_speed",
ATTR_DEPTH: "depth",
ATTR_DRY: "dry",
}
AVAILABLE_ATTRIBUTES_AIRFRESH = {
ATTR_TEMPERATURE: "temperature",
ATTR_AIR_QUALITY_INDEX: "aqi",
ATTR_AVERAGE_AIR_QUALITY_INDEX: "average_aqi",
ATTR_CO2: "co2",
ATTR_HUMIDITY: "humidity",
ATTR_MODE: "mode",
ATTR_LED: "led",
ATTR_LED_BRIGHTNESS: "led_brightness",
ATTR_BUZZER: "buzzer",
ATTR_CHILD_LOCK: "child_lock",
ATTR_FILTER_LIFE: "filter_life_remaining",
ATTR_FILTER_HOURS_USED: "filter_hours_used",
ATTR_USE_TIME: "use_time",
ATTR_MOTOR_SPEED: "motor_speed",
ATTR_EXTRA_FEATURES: "extra_features",
}
OPERATION_MODES_AIRPURIFIER = ["Auto", "Silent", "Favorite", "Idle"]
OPERATION_MODES_AIRPURIFIER_PRO = ["Auto", "Silent", "Favorite"]
OPERATION_MODES_AIRPURIFIER_PRO_V7 = OPERATION_MODES_AIRPURIFIER_PRO
OPERATION_MODES_AIRPURIFIER_2S = ["Auto", "Silent", "Favorite"]
OPERATION_MODES_AIRPURIFIER_3 = ["Auto", "Silent", "Favorite", "Fan"]
OPERATION_MODES_AIRPURIFIER_V3 = [
"Auto",
"Silent",
"Favorite",
"Idle",
"Medium",
"High",
"Strong",
]
OPERATION_MODES_AIRFRESH = ["Auto", "Silent", "Interval", "Low", "Middle", "Strong"]
SUCCESS = ["ok"]
FEATURE_SET_BUZZER = 1
FEATURE_SET_LED = 2
FEATURE_SET_CHILD_LOCK = 4
FEATURE_SET_LED_BRIGHTNESS = 8
FEATURE_SET_FAVORITE_LEVEL = 16
FEATURE_SET_AUTO_DETECT = 32
FEATURE_SET_LEARN_MODE = 64
FEATURE_SET_VOLUME = 128
FEATURE_RESET_FILTER = 256
FEATURE_SET_EXTRA_FEATURES = 512
FEATURE_SET_TARGET_HUMIDITY = 1024
FEATURE_SET_DRY = 2048
FEATURE_SET_FAN_LEVEL = 4096
FEATURE_FLAGS_AIRPURIFIER = (
FEATURE_SET_BUZZER
| FEATURE_SET_CHILD_LOCK
| FEATURE_SET_LED
| FEATURE_SET_LED_BRIGHTNESS
| FEATURE_SET_FAVORITE_LEVEL
| FEATURE_SET_LEARN_MODE
| FEATURE_RESET_FILTER
| FEATURE_SET_EXTRA_FEATURES
)
FEATURE_FLAGS_AIRPURIFIER_PRO = (
FEATURE_SET_CHILD_LOCK
| FEATURE_SET_LED
| FEATURE_SET_FAVORITE_LEVEL
| FEATURE_SET_AUTO_DETECT
| FEATURE_SET_VOLUME
)
FEATURE_FLAGS_AIRPURIFIER_PRO_V7 = (
FEATURE_SET_CHILD_LOCK
| FEATURE_SET_LED
| FEATURE_SET_FAVORITE_LEVEL
| FEATURE_SET_VOLUME
)
FEATURE_FLAGS_AIRPURIFIER_2S = (
FEATURE_SET_BUZZER
| FEATURE_SET_CHILD_LOCK
| FEATURE_SET_LED
| FEATURE_SET_FAVORITE_LEVEL
)
FEATURE_FLAGS_AIRPURIFIER_3 = (
FEATURE_SET_BUZZER
| FEATURE_SET_CHILD_LOCK
| FEATURE_SET_LED
| FEATURE_SET_FAVORITE_LEVEL
| FEATURE_SET_FAN_LEVEL
| FEATURE_SET_LED_BRIGHTNESS
)
FEATURE_FLAGS_AIRPURIFIER_V3 = (
FEATURE_SET_BUZZER | FEATURE_SET_CHILD_LOCK | FEATURE_SET_LED
)
FEATURE_FLAGS_AIRHUMIDIFIER = (
FEATURE_SET_BUZZER
| FEATURE_SET_CHILD_LOCK
| FEATURE_SET_LED
| FEATURE_SET_LED_BRIGHTNESS
| FEATURE_SET_TARGET_HUMIDITY
)
FEATURE_FLAGS_AIRHUMIDIFIER_CA_AND_CB = FEATURE_FLAGS_AIRHUMIDIFIER | FEATURE_SET_DRY
FEATURE_FLAGS_AIRFRESH = (
FEATURE_SET_BUZZER
| FEATURE_SET_CHILD_LOCK
| FEATURE_SET_LED
| FEATURE_SET_LED_BRIGHTNESS
| FEATURE_RESET_FILTER
| FEATURE_SET_EXTRA_FEATURES
)
AIRPURIFIER_SERVICE_SCHEMA = vol.Schema({vol.Optional(ATTR_ENTITY_ID): cv.entity_ids})
SERVICE_SCHEMA_LED_BRIGHTNESS = AIRPURIFIER_SERVICE_SCHEMA.extend(
{vol.Required(ATTR_BRIGHTNESS): vol.All(vol.Coerce(int), vol.Clamp(min=0, max=2))}
)
SERVICE_SCHEMA_FAVORITE_LEVEL = AIRPURIFIER_SERVICE_SCHEMA.extend(
{vol.Required(ATTR_LEVEL): vol.All(vol.Coerce(int), vol.Clamp(min=0, max=17))}
)
SERVICE_SCHEMA_FAN_LEVEL = AIRPURIFIER_SERVICE_SCHEMA.extend(
{vol.Required(ATTR_LEVEL): vol.All(vol.Coerce(int), vol.Clamp(min=1, max=3))}
)
SERVICE_SCHEMA_VOLUME = AIRPURIFIER_SERVICE_SCHEMA.extend(
{vol.Required(ATTR_VOLUME): vol.All(vol.Coerce(int), vol.Clamp(min=0, max=100))}
)
SERVICE_SCHEMA_EXTRA_FEATURES = AIRPURIFIER_SERVICE_SCHEMA.extend(
{vol.Required(ATTR_FEATURES): vol.All(vol.Coerce(int), vol.Range(min=0))}
)
SERVICE_SCHEMA_TARGET_HUMIDITY = AIRPURIFIER_SERVICE_SCHEMA.extend(
{
vol.Required(ATTR_HUMIDITY): vol.All(
vol.Coerce(int), vol.In([30, 40, 50, 60, 70, 80])
)
}
)
SERVICE_TO_METHOD = {
SERVICE_SET_BUZZER_ON: {"method": "async_set_buzzer_on"},
SERVICE_SET_BUZZER_OFF: {"method": "async_set_buzzer_off"},
SERVICE_SET_FAN_LED_ON: {"method": "async_set_led_on"},
SERVICE_SET_FAN_LED_OFF: {"method": "async_set_led_off"},
SERVICE_SET_CHILD_LOCK_ON: {"method": "async_set_child_lock_on"},
SERVICE_SET_CHILD_LOCK_OFF: {"method": "async_set_child_lock_off"},
SERVICE_SET_AUTO_DETECT_ON: {"method": "async_set_auto_detect_on"},
SERVICE_SET_AUTO_DETECT_OFF: {"method": "async_set_auto_detect_off"},
SERVICE_SET_LEARN_MODE_ON: {"method": "async_set_learn_mode_on"},
SERVICE_SET_LEARN_MODE_OFF: {"method": "async_set_learn_mode_off"},
SERVICE_RESET_FILTER: {"method": "async_reset_filter"},
SERVICE_SET_LED_BRIGHTNESS: {
"method": "async_set_led_brightness",
"schema": SERVICE_SCHEMA_LED_BRIGHTNESS,
},
SERVICE_SET_FAVORITE_LEVEL: {
"method": "async_set_favorite_level",
"schema": SERVICE_SCHEMA_FAVORITE_LEVEL,
},
SERVICE_SET_FAN_LEVEL: {
"method": "async_set_fan_level",
"schema": SERVICE_SCHEMA_FAN_LEVEL,
},
SERVICE_SET_VOLUME: {"method": "async_set_volume", "schema": SERVICE_SCHEMA_VOLUME},
SERVICE_SET_EXTRA_FEATURES: {
"method": "async_set_extra_features",
"schema": SERVICE_SCHEMA_EXTRA_FEATURES,
},
SERVICE_SET_TARGET_HUMIDITY: {
"method": "async_set_target_humidity",
"schema": SERVICE_SCHEMA_TARGET_HUMIDITY,
},
SERVICE_SET_DRY_ON: {"method": "async_set_dry_on"},
SERVICE_SET_DRY_OFF: {"method": "async_set_dry_off"},
}
async def async_setup_platform(hass, config, async_add_entities, discovery_info=None):
"""Set up the miio fan device from config."""
if DATA_KEY not in hass.data:
hass.data[DATA_KEY] = {}
host = config[CONF_HOST]
token = config[CONF_TOKEN]
name = config[CONF_NAME]
model = config.get(CONF_MODEL)
_LOGGER.info("Initializing with host %s (token %s...)", host, token[:5])
unique_id = None
if model is None:
try:
miio_device = Device(host, token)
device_info = await hass.async_add_executor_job(miio_device.info)
model = device_info.model
unique_id = f"{model}-{device_info.mac_address}"
_LOGGER.info(
"%s %s %s detected",
model,
device_info.firmware_version,
device_info.hardware_version,
)
except DeviceException as ex:
raise PlatformNotReady from ex
if model in PURIFIER_MIOT:
air_purifier = AirPurifierMiot(host, token)
device = XiaomiAirPurifierMiot(name, air_purifier, model, unique_id)
elif model.startswith("zhimi.airpurifier."):
air_purifier = AirPurifier(host, token)
device = XiaomiAirPurifier(name, air_purifier, model, unique_id)
elif model.startswith("zhimi.humidifier."):
air_humidifier = AirHumidifier(host, token, model=model)
device = XiaomiAirHumidifier(name, air_humidifier, model, unique_id)
elif model.startswith("zhimi.airfresh."):
air_fresh = AirFresh(host, token)
device = XiaomiAirFresh(name, air_fresh, model, unique_id)
else:
_LOGGER.error(
"Unsupported device found! Please create an issue at "
"https://github.com/syssi/xiaomi_airpurifier/issues "
"and provide the following data: %s",
model,
)
return False
hass.data[DATA_KEY][host] = device
async_add_entities([device], update_before_add=True)
async def async_service_handler(service):
"""Map services to methods on XiaomiAirPurifier."""
method = SERVICE_TO_METHOD.get(service.service)
params = {
key: value for key, value in service.data.items() if key != ATTR_ENTITY_ID
}
entity_ids = service.data.get(ATTR_ENTITY_ID)
if entity_ids:
devices = [
device
for device in hass.data[DATA_KEY].values()
if device.entity_id in entity_ids
]
else:
devices = hass.data[DATA_KEY].values()
update_tasks = []
for device in devices:
if not hasattr(device, method["method"]):
continue
await getattr(device, method["method"])(**params)
update_tasks.append(device.async_update_ha_state(True))
if update_tasks:
await asyncio.wait(update_tasks)
for air_purifier_service in SERVICE_TO_METHOD:
schema = SERVICE_TO_METHOD[air_purifier_service].get(
"schema", AIRPURIFIER_SERVICE_SCHEMA
)
hass.services.async_register(
DOMAIN, air_purifier_service, async_service_handler, schema=schema
)
class XiaomiGenericDevice(FanEntity):
"""Representation of a generic Xiaomi device."""
def __init__(self, name, device, model, unique_id):
"""Initialize the generic Xiaomi device."""
self._name = name
self._device = device
self._model = model
self._unique_id = unique_id
self._available = False
self._state = None
self._state_attrs = {ATTR_MODEL: self._model}
self._device_features = FEATURE_SET_CHILD_LOCK
self._skip_update = False
@property
def supported_features(self):
"""Flag supported features."""
return SUPPORT_SET_SPEED
@property
def should_poll(self):
"""Poll the device."""
return True
@property
def unique_id(self):
"""Return an unique ID."""
return self._unique_id
@property
def name(self):
"""Return the name of the device if any."""
return self._name
@property
def available(self):
"""Return true when state is known."""
return self._available
@property
def device_state_attributes(self):
"""Return the state attributes of the device."""
return self._state_attrs
@property
def is_on(self):
"""Return true if device is on."""
return self._state
@staticmethod
def _extract_value_from_attribute(state, attribute):
value = getattr(state, attribute)
if isinstance(value, Enum):
return value.value
return value
async def _try_command(self, mask_error, func, *args, **kwargs):
"""Call a miio device command handling error messages."""
try:
result = await self.hass.async_add_executor_job(
partial(func, *args, **kwargs)
)
_LOGGER.debug("Response received from miio device: %s", result)
return result == SUCCESS
except DeviceException as exc:
_LOGGER.error(mask_error, exc)
self._available = False
return False
async def async_turn_on(self, speed: str = None, **kwargs) -> None:
"""Turn the device on."""
if speed:
# If operation mode was set the device must not be turned on.
result = await self.async_set_speed(speed)
else:
result = await self._try_command(
"Turning the miio device on failed.", self._device.on
)
if result:
self._state = True
self._skip_update = True
async def async_turn_off(self, **kwargs) -> None:
"""Turn the device off."""
result = await self._try_command(
"Turning the miio device off failed.", self._device.off
)
if result:
self._state = False
self._skip_update = True
async def async_set_buzzer_on(self):
"""Turn the buzzer on."""
if self._device_features & FEATURE_SET_BUZZER == 0:
return
await self._try_command(
"Turning the buzzer of the miio device on failed.",
self._device.set_buzzer,
True,
)
async def async_set_buzzer_off(self):
"""Turn the buzzer off."""
if self._device_features & FEATURE_SET_BUZZER == 0:
return
await self._try_command(
"Turning the buzzer of the miio device off failed.",
self._device.set_buzzer,
False,
)
async def async_set_child_lock_on(self):
"""Turn the child lock on."""
if self._device_features & FEATURE_SET_CHILD_LOCK == 0:
return
await self._try_command(
"Turning the child lock of the miio device on failed.",
self._device.set_child_lock,
True,
)
async def async_set_child_lock_off(self):
"""Turn the child lock off."""
if self._device_features & FEATURE_SET_CHILD_LOCK == 0:
return
await self._try_command(
"Turning the child lock of the miio device off failed.",
self._device.set_child_lock,
False,
)
class XiaomiAirPurifier(XiaomiGenericDevice):
"""Representation of a Xiaomi Air Purifier."""
def __init__(self, name, device, model, unique_id):
"""Initialize the plug switch."""
super().__init__(name, device, model, unique_id)
if self._model == MODEL_AIRPURIFIER_PRO:
self._device_features = FEATURE_FLAGS_AIRPURIFIER_PRO
self._available_attributes = AVAILABLE_ATTRIBUTES_AIRPURIFIER_PRO
self._speed_list = OPERATION_MODES_AIRPURIFIER_PRO
elif self._model == MODEL_AIRPURIFIER_PRO_V7:
self._device_features = FEATURE_FLAGS_AIRPURIFIER_PRO_V7
self._available_attributes = AVAILABLE_ATTRIBUTES_AIRPURIFIER_PRO_V7
self._speed_list = OPERATION_MODES_AIRPURIFIER_PRO_V7
elif self._model == MODEL_AIRPURIFIER_2S:
self._device_features = FEATURE_FLAGS_AIRPURIFIER_2S
self._available_attributes = AVAILABLE_ATTRIBUTES_AIRPURIFIER_2S
self._speed_list = OPERATION_MODES_AIRPURIFIER_2S
elif self._model == MODEL_AIRPURIFIER_3 or self._model == MODEL_AIRPURIFIER_3H:
self._device_features = FEATURE_FLAGS_AIRPURIFIER_3
self._available_attributes = AVAILABLE_ATTRIBUTES_AIRPURIFIER_3
self._speed_list = OPERATION_MODES_AIRPURIFIER_3
elif self._model == MODEL_AIRPURIFIER_V3:
self._device_features = FEATURE_FLAGS_AIRPURIFIER_V3
self._available_attributes = AVAILABLE_ATTRIBUTES_AIRPURIFIER_V3
self._speed_list = OPERATION_MODES_AIRPURIFIER_V3
else:
self._device_features = FEATURE_FLAGS_AIRPURIFIER
self._available_attributes = AVAILABLE_ATTRIBUTES_AIRPURIFIER
self._speed_list = OPERATION_MODES_AIRPURIFIER
self._state_attrs.update(
{attribute: None for attribute in self._available_attributes}
)
async def async_update(self):
"""Fetch state from the device."""
# On state change the device doesn't provide the new state immediately.
if self._skip_update:
self._skip_update = False
return
try:
state = await self.hass.async_add_executor_job(self._device.status)
_LOGGER.debug("Got new state: %s", state)
self._available = True
self._state = state.is_on
self._state_attrs.update(
{
key: self._extract_value_from_attribute(state, value)
for key, value in self._available_attributes.items()
}
)
except DeviceException as ex:
self._available = False
_LOGGER.error("Got exception while fetching the state: %s", ex)
@property
def speed_list(self) -> list:
"""Get the list of available speeds."""
return self._speed_list
@property
def speed(self):
"""Return the current speed."""
if self._state:
return AirpurifierOperationMode(self._state_attrs[ATTR_MODE]).name
return None
async def async_set_speed(self, speed: str) -> None:
"""Set the speed of the fan."""
if self.supported_features & SUPPORT_SET_SPEED == 0:
return
_LOGGER.debug("Setting the operation mode to: %s", speed)
await self._try_command(
"Setting operation mode of the miio device failed.",
self._device.set_mode,
AirpurifierOperationMode[speed.title()],
)
async def async_set_led_on(self):
"""Turn the led on."""
if self._device_features & FEATURE_SET_LED == 0:
return
await self._try_command(
"Turning the led of the miio device off failed.", self._device.set_led, True
)
async def async_set_led_off(self):
"""Turn the led off."""
if self._device_features & FEATURE_SET_LED == 0:
return
await self._try_command(
"Turning the led of the miio device off failed.",
self._device.set_led,
False,
)
async def async_set_led_brightness(self, brightness: int = 2):
"""Set the led brightness."""
if self._device_features & FEATURE_SET_LED_BRIGHTNESS == 0:
return
await self._try_command(
"Setting the led brightness of the miio device failed.",
self._device.set_led_brightness,
AirpurifierLedBrightness(brightness),
)
async def async_set_favorite_level(self, level: int = 1):
"""Set the favorite level."""
if self._device_features & FEATURE_SET_FAVORITE_LEVEL == 0:
return
await self._try_command(
"Setting the favorite level of the miio device failed.",
self._device.set_favorite_level,
level,
)
async def async_set_fan_level(self, level: int = 1):
"""Set the favorite level."""
if self._device_features & FEATURE_SET_FAN_LEVEL == 0:
return
await self._try_command(
"Setting the fan level of the miio device failed.",
self._device.set_fan_level,
level,
)
async def async_set_auto_detect_on(self):
"""Turn the auto detect on."""
if self._device_features & FEATURE_SET_AUTO_DETECT == 0:
return
await self._try_command(
"Turning the auto detect of the miio device on failed.",
self._device.set_auto_detect,
True,
)
async def async_set_auto_detect_off(self):
"""Turn the auto detect off."""
if self._device_features & FEATURE_SET_AUTO_DETECT == 0:
return
await self._try_command(
"Turning the auto detect of the miio device off failed.",
self._device.set_auto_detect,
False,
)
async def async_set_learn_mode_on(self):
"""Turn the learn mode on."""
if self._device_features & FEATURE_SET_LEARN_MODE == 0:
return
await self._try_command(
"Turning the learn mode of the miio device on failed.",
self._device.set_learn_mode,
True,
)
async def async_set_learn_mode_off(self):
"""Turn the learn mode off."""
if self._device_features & FEATURE_SET_LEARN_MODE == 0:
return
await self._try_command(
"Turning the learn mode of the miio device off failed.",
self._device.set_learn_mode,
False,
)
async def async_set_volume(self, volume: int = 50):
"""Set the sound volume."""
if self._device_features & FEATURE_SET_VOLUME == 0:
return
await self._try_command(
"Setting the sound volume of the miio device failed.",
self._device.set_volume,
volume,
)
async def async_set_extra_features(self, features: int = 1):
"""Set the extra features."""
if self._device_features & FEATURE_SET_EXTRA_FEATURES == 0:
return
await self._try_command(
"Setting the extra features of the miio device failed.",
self._device.set_extra_features,
features,
)
async def async_reset_filter(self):
"""Reset the filter lifetime and usage."""
if self._device_features & FEATURE_RESET_FILTER == 0:
return
await self._try_command(
"Resetting the filter lifetime of the miio device failed.",
self._device.reset_filter,
)
class XiaomiAirPurifierMiot(XiaomiAirPurifier):
"""Representation of a Xiaomi Air Purifier (MiOT protocol)."""
@property
def speed(self):
"""Return the current speed."""
if self._state:
return AirpurifierMiotOperationMode(self._state_attrs[ATTR_MODE]).name
return None
async def async_set_speed(self, speed: str) -> None:
"""Set the speed of the fan."""
if self.supported_features & SUPPORT_SET_SPEED == 0:
return
_LOGGER.debug("Setting the operation mode to: %s", speed)
await self._try_command(
"Setting operation mode of the miio device failed.",
self._device.set_mode,
AirpurifierMiotOperationMode[speed.title()],
)
async def async_set_led_brightness(self, brightness: int = 2):
"""Set the led brightness."""
if self._device_features & FEATURE_SET_LED_BRIGHTNESS == 0:
return
await self._try_command(
"Setting the led brightness of the miio device failed.",
self._device.set_led_brightness,
AirpurifierMiotLedBrightness(brightness),
)
class XiaomiAirHumidifier(XiaomiGenericDevice):
"""Representation of a Xiaomi Air Humidifier."""
def __init__(self, name, device, model, unique_id):
"""Initialize the plug switch."""
super().__init__(name, device, model, unique_id)
if self._model in [MODEL_AIRHUMIDIFIER_CA1, MODEL_AIRHUMIDIFIER_CB1]:
self._device_features = FEATURE_FLAGS_AIRHUMIDIFIER_CA_AND_CB
self._available_attributes = AVAILABLE_ATTRIBUTES_AIRHUMIDIFIER_CA_AND_CB
self._speed_list = [
mode.name
for mode in AirhumidifierOperationMode
if mode is not AirhumidifierOperationMode.Strong
]
else:
self._device_features = FEATURE_FLAGS_AIRHUMIDIFIER
self._available_attributes = AVAILABLE_ATTRIBUTES_AIRHUMIDIFIER
self._speed_list = [
mode.name
for mode in AirhumidifierOperationMode
if mode is not AirhumidifierOperationMode.Auto
]
self._state_attrs.update(
{attribute: None for attribute in self._available_attributes}
)
async def async_update(self):
"""Fetch state from the device."""
# On state change the device doesn't provide the new state immediately.
if self._skip_update:
self._skip_update = False
return
try:
state = await self.hass.async_add_executor_job(self._device.status)
_LOGGER.debug("Got new state: %s", state)
self._available = True
self._state = state.is_on
self._state_attrs.update(
{
key: self._extract_value_from_attribute(state, value)
for key, value in self._available_attributes.items()
}
)
except DeviceException as ex:
self._available = False
_LOGGER.error("Got exception while fetching the state: %s", ex)
@property
def speed_list(self) -> list:
"""Get the list of available speeds."""
return self._speed_list
@property
def speed(self):
"""Return the current speed."""
if self._state:
return AirhumidifierOperationMode(self._state_attrs[ATTR_MODE]).name
return None
async def async_set_speed(self, speed: str) -> None:
"""Set the speed of the fan."""
if self.supported_features & SUPPORT_SET_SPEED == 0:
return
_LOGGER.debug("Setting the operation mode to: %s", speed)
await self._try_command(
"Setting operation mode of the miio device failed.",
self._device.set_mode,
AirhumidifierOperationMode[speed.title()],
)
async def async_set_led_brightness(self, brightness: int = 2):
"""Set the led brightness."""
if self._device_features & FEATURE_SET_LED_BRIGHTNESS == 0:
return
await self._try_command(
"Setting the led brightness of the miio device failed.",
self._device.set_led_brightness,
AirhumidifierLedBrightness(brightness),
)
async def async_set_target_humidity(self, humidity: int = 40):
"""Set the target humidity."""
if self._device_features & FEATURE_SET_TARGET_HUMIDITY == 0:
return
await self._try_command(
"Setting the target humidity of the miio device failed.",
self._device.set_target_humidity,
humidity,
)
async def async_set_dry_on(self):
"""Turn the dry mode on."""
if self._device_features & FEATURE_SET_DRY == 0:
return
await self._try_command(
"Turning the dry mode of the miio device off failed.",
self._device.set_dry,
True,
)
async def async_set_dry_off(self):
"""Turn the dry mode off."""
if self._device_features & FEATURE_SET_DRY == 0:
return
await self._try_command(
"Turning the dry mode of the miio device off failed.",
self._device.set_dry,
False,
)
class XiaomiAirFresh(XiaomiGenericDevice):
"""Representation of a Xiaomi Air Fresh."""
def __init__(self, name, device, model, unique_id):
"""Initialize the miio device."""
super().__init__(name, device, model, unique_id)
self._device_features = FEATURE_FLAGS_AIRFRESH
self._available_attributes = AVAILABLE_ATTRIBUTES_AIRFRESH
self._speed_list = OPERATION_MODES_AIRFRESH
self._state_attrs.update(
{attribute: None for attribute in self._available_attributes}
)
async def async_update(self):
"""Fetch state from the device."""
# On state change the device doesn't provide the new state immediately.
if self._skip_update:
self._skip_update = False
return
try:
state = await self.hass.async_add_executor_job(self._device.status)
_LOGGER.debug("Got new state: %s", state)
self._available = True
self._state = state.is_on
self._state_attrs.update(
{
key: self._extract_value_from_attribute(state, value)
for key, value in self._available_attributes.items()
}
)
except DeviceException as ex:
self._available = False
_LOGGER.error("Got exception while fetching the state: %s", ex)
@property
def speed_list(self) -> list:
"""Get the list of available speeds."""
return self._speed_list
@property
def speed(self):
"""Return the current speed."""
if self._state:
return AirfreshOperationMode(self._state_attrs[ATTR_MODE]).name
return None
async def async_set_speed(self, speed: str) -> None:
"""Set the speed of the fan."""
if self.supported_features & SUPPORT_SET_SPEED == 0:
return
_LOGGER.debug("Setting the operation mode to: %s", speed)
await self._try_command(
"Setting operation mode of the miio device failed.",
self._device.set_mode,
AirfreshOperationMode[speed.title()],
)
async def async_set_led_on(self):
"""Turn the led on."""
if self._device_features & FEATURE_SET_LED == 0:
return
await self._try_command(
"Turning the led of the miio device off failed.", self._device.set_led, True
)
async def async_set_led_off(self):
"""Turn the led off."""
if self._device_features & FEATURE_SET_LED == 0:
return
await self._try_command(
"Turning the led of the miio device off failed.",
self._device.set_led,
False,
)
async def async_set_led_brightness(self, brightness: int = 2):
"""Set the led brightness."""
if self._device_features & FEATURE_SET_LED_BRIGHTNESS == 0:
return
await self._try_command(
"Setting the led brightness of the miio device failed.",
self._device.set_led_brightness,
AirfreshLedBrightness(brightness),
)
async def async_set_extra_features(self, features: int = 1):
"""Set the extra features."""
if self._device_features & FEATURE_SET_EXTRA_FEATURES == 0:
return
await self._try_command(
"Setting the extra features of the miio device failed.",
self._device.set_extra_features,
features,
)
async def async_reset_filter(self):
"""Reset the filter lifetime and usage."""
if self._device_features & FEATURE_RESET_FILTER == 0:
return
await self._try_command(
"Resetting the filter lifetime of the miio device failed.",
self._device.reset_filter,
)
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