"""Implement the Google Smart Home traits."""
from __future__ import annotations
import logging
from typing import Any, TypeVar
from homeassistant.components import (
alarm_control_panel,
binary_sensor,
button,
camera,
climate,
cover,
fan,
group,
humidifier,
input_boolean,
input_button,
input_select,
light,
lock,
media_player,
scene,
script,
select,
sensor,
switch,
vacuum,
)
from homeassistant.components.lock import STATE_JAMMED, STATE_UNLOCKING
from homeassistant.components.media_player import MediaType
from homeassistant.const import (
ATTR_ASSUMED_STATE,
ATTR_BATTERY_LEVEL,
ATTR_CODE,
ATTR_DEVICE_CLASS,
ATTR_ENTITY_ID,
ATTR_MODE,
ATTR_SUPPORTED_FEATURES,
ATTR_TEMPERATURE,
CAST_APP_ID_HOMEASSISTANT_MEDIA,
SERVICE_ALARM_ARM_AWAY,
SERVICE_ALARM_ARM_CUSTOM_BYPASS,
SERVICE_ALARM_ARM_HOME,
SERVICE_ALARM_ARM_NIGHT,
SERVICE_ALARM_DISARM,
SERVICE_ALARM_TRIGGER,
SERVICE_TURN_OFF,
SERVICE_TURN_ON,
STATE_ALARM_ARMED_AWAY,
STATE_ALARM_ARMED_CUSTOM_BYPASS,
STATE_ALARM_ARMED_HOME,
STATE_ALARM_ARMED_NIGHT,
STATE_ALARM_DISARMED,
STATE_ALARM_PENDING,
STATE_ALARM_TRIGGERED,
STATE_IDLE,
STATE_LOCKED,
STATE_OFF,
STATE_ON,
STATE_PAUSED,
STATE_PLAYING,
STATE_STANDBY,
STATE_UNAVAILABLE,
STATE_UNKNOWN,
UnitOfTemperature,
)
from homeassistant.core import DOMAIN as HA_DOMAIN
from homeassistant.helpers.network import get_url
from homeassistant.util import color as color_util, dt
from homeassistant.util.percentage import (
ordered_list_item_to_percentage,
percentage_to_ordered_list_item,
)
from homeassistant.util.unit_conversion import TemperatureConverter
from .const import (
CHALLENGE_ACK_NEEDED,
CHALLENGE_FAILED_PIN_NEEDED,
CHALLENGE_PIN_NEEDED,
ERR_ALREADY_ARMED,
ERR_ALREADY_DISARMED,
ERR_ALREADY_STOPPED,
ERR_CHALLENGE_NOT_SETUP,
ERR_FUNCTION_NOT_SUPPORTED,
ERR_NO_AVAILABLE_CHANNEL,
ERR_NOT_SUPPORTED,
ERR_UNSUPPORTED_INPUT,
ERR_VALUE_OUT_OF_RANGE,
FAN_SPEEDS,
)
from .error import ChallengeNeeded, SmartHomeError
_LOGGER = logging.getLogger(__name__)
PREFIX_TRAITS = "action.devices.traits."
TRAIT_CAMERA_STREAM = f"{PREFIX_TRAITS}CameraStream"
TRAIT_ONOFF = f"{PREFIX_TRAITS}OnOff"
TRAIT_DOCK = f"{PREFIX_TRAITS}Dock"
TRAIT_STARTSTOP = f"{PREFIX_TRAITS}StartStop"
TRAIT_BRIGHTNESS = f"{PREFIX_TRAITS}Brightness"
TRAIT_COLOR_SETTING = f"{PREFIX_TRAITS}ColorSetting"
TRAIT_SCENE = f"{PREFIX_TRAITS}Scene"
TRAIT_TEMPERATURE_SETTING = f"{PREFIX_TRAITS}TemperatureSetting"
TRAIT_TEMPERATURE_CONTROL = f"{PREFIX_TRAITS}TemperatureControl"
TRAIT_LOCKUNLOCK = f"{PREFIX_TRAITS}LockUnlock"
TRAIT_FANSPEED = f"{PREFIX_TRAITS}FanSpeed"
TRAIT_MODES = f"{PREFIX_TRAITS}Modes"
TRAIT_INPUTSELECTOR = f"{PREFIX_TRAITS}InputSelector"
TRAIT_OPENCLOSE = f"{PREFIX_TRAITS}OpenClose"
TRAIT_VOLUME = f"{PREFIX_TRAITS}Volume"
TRAIT_ARMDISARM = f"{PREFIX_TRAITS}ArmDisarm"
TRAIT_HUMIDITY_SETTING = f"{PREFIX_TRAITS}HumiditySetting"
TRAIT_TRANSPORT_CONTROL = f"{PREFIX_TRAITS}TransportControl"
TRAIT_MEDIA_STATE = f"{PREFIX_TRAITS}MediaState"
TRAIT_CHANNEL = f"{PREFIX_TRAITS}Channel"
TRAIT_LOCATOR = f"{PREFIX_TRAITS}Locator"
TRAIT_ENERGYSTORAGE = f"{PREFIX_TRAITS}EnergyStorage"
TRAIT_SENSOR_STATE = f"{PREFIX_TRAITS}SensorState"
PREFIX_COMMANDS = "action.devices.commands."
COMMAND_ONOFF = f"{PREFIX_COMMANDS}OnOff"
COMMAND_GET_CAMERA_STREAM = f"{PREFIX_COMMANDS}GetCameraStream"
COMMAND_DOCK = f"{PREFIX_COMMANDS}Dock"
COMMAND_STARTSTOP = f"{PREFIX_COMMANDS}StartStop"
COMMAND_PAUSEUNPAUSE = f"{PREFIX_COMMANDS}PauseUnpause"
COMMAND_BRIGHTNESS_ABSOLUTE = f"{PREFIX_COMMANDS}BrightnessAbsolute"
COMMAND_COLOR_ABSOLUTE = f"{PREFIX_COMMANDS}ColorAbsolute"
COMMAND_ACTIVATE_SCENE = f"{PREFIX_COMMANDS}ActivateScene"
COMMAND_THERMOSTAT_TEMPERATURE_SETPOINT = (
f"{PREFIX_COMMANDS}ThermostatTemperatureSetpoint"
)
COMMAND_THERMOSTAT_TEMPERATURE_SET_RANGE = (
f"{PREFIX_COMMANDS}ThermostatTemperatureSetRange"
)
COMMAND_THERMOSTAT_SET_MODE = f"{PREFIX_COMMANDS}ThermostatSetMode"
COMMAND_LOCKUNLOCK = f"{PREFIX_COMMANDS}LockUnlock"
COMMAND_FANSPEED = f"{PREFIX_COMMANDS}SetFanSpeed"
COMMAND_FANSPEEDRELATIVE = f"{PREFIX_COMMANDS}SetFanSpeedRelative"
COMMAND_MODES = f"{PREFIX_COMMANDS}SetModes"
COMMAND_INPUT = f"{PREFIX_COMMANDS}SetInput"
COMMAND_NEXT_INPUT = f"{PREFIX_COMMANDS}NextInput"
COMMAND_PREVIOUS_INPUT = f"{PREFIX_COMMANDS}PreviousInput"
COMMAND_OPENCLOSE = f"{PREFIX_COMMANDS}OpenClose"
COMMAND_OPENCLOSE_RELATIVE = f"{PREFIX_COMMANDS}OpenCloseRelative"
COMMAND_SET_VOLUME = f"{PREFIX_COMMANDS}setVolume"
COMMAND_VOLUME_RELATIVE = f"{PREFIX_COMMANDS}volumeRelative"
COMMAND_MUTE = f"{PREFIX_COMMANDS}mute"
COMMAND_ARMDISARM = f"{PREFIX_COMMANDS}ArmDisarm"
COMMAND_MEDIA_NEXT = f"{PREFIX_COMMANDS}mediaNext"
COMMAND_MEDIA_PAUSE = f"{PREFIX_COMMANDS}mediaPause"
COMMAND_MEDIA_PREVIOUS = f"{PREFIX_COMMANDS}mediaPrevious"
COMMAND_MEDIA_RESUME = f"{PREFIX_COMMANDS}mediaResume"
COMMAND_MEDIA_SEEK_RELATIVE = f"{PREFIX_COMMANDS}mediaSeekRelative"
COMMAND_MEDIA_SEEK_TO_POSITION = f"{PREFIX_COMMANDS}mediaSeekToPosition"
COMMAND_MEDIA_SHUFFLE = f"{PREFIX_COMMANDS}mediaShuffle"
COMMAND_MEDIA_STOP = f"{PREFIX_COMMANDS}mediaStop"
COMMAND_REVERSE = f"{PREFIX_COMMANDS}Reverse"
COMMAND_SET_HUMIDITY = f"{PREFIX_COMMANDS}SetHumidity"
COMMAND_SELECT_CHANNEL = f"{PREFIX_COMMANDS}selectChannel"
COMMAND_LOCATE = f"{PREFIX_COMMANDS}Locate"
COMMAND_CHARGE = f"{PREFIX_COMMANDS}Charge"
TRAITS: list[type[_Trait]] = []
FAN_SPEED_MAX_SPEED_COUNT = 5
_TraitT = TypeVar("_TraitT", bound="_Trait")
def register_trait(trait: type[_TraitT]) -> type[_TraitT]:
"""Decorate a class to register a trait."""
TRAITS.append(trait)
return trait
def _google_temp_unit(units):
"""Return Google temperature unit."""
if units == UnitOfTemperature.FAHRENHEIT:
return "F"
return "C"
def _next_selected(items: list[str], selected: str | None) -> str | None:
"""Return the next item in a item list starting at given value.
If selected is missing in items, None is returned
"""
if selected is None:
return None
try:
index = items.index(selected)
except ValueError:
return None
next_item = 0 if index == len(items) - 1 else index + 1
return items[next_item]
class _Trait:
"""Represents a Trait inside Google Assistant skill."""
commands: list[str] = []
@staticmethod
def might_2fa(domain, features, device_class):
"""Return if the trait might ask for 2FA."""
return False
def __init__(self, hass, state, config):
"""Initialize a trait for a state."""
self.hass = hass
self.state = state
self.config = config
def sync_attributes(self):
"""Return attributes for a sync request."""
raise NotImplementedError
def query_attributes(self):
"""Return the attributes of this trait for this entity."""
raise NotImplementedError
def can_execute(self, command, params):
"""Test if command can be executed."""
return command in self.commands
async def execute(self, command, data, params, challenge):
"""Execute a trait command."""
raise NotImplementedError
@register_trait
class BrightnessTrait(_Trait):
"""Trait to control brightness of a device.
https://developers.google.com/actions/smarthome/traits/brightness
"""
name = TRAIT_BRIGHTNESS
commands = [COMMAND_BRIGHTNESS_ABSOLUTE]
@staticmethod
def supported(domain, features, device_class, attributes):
"""Test if state is supported."""
if domain == light.DOMAIN:
color_modes = attributes.get(light.ATTR_SUPPORTED_COLOR_MODES)
return light.brightness_supported(color_modes)
return False
def sync_attributes(self):
"""Return brightness attributes for a sync request."""
return {}
def query_attributes(self):
"""Return brightness query attributes."""
domain = self.state.domain
response = {}
if domain == light.DOMAIN:
brightness = self.state.attributes.get(light.ATTR_BRIGHTNESS)
if brightness is not None:
response["brightness"] = round(100 * (brightness / 255))
return response
async def execute(self, command, data, params, challenge):
"""Execute a brightness command."""
if self.state.domain == light.DOMAIN:
await self.hass.services.async_call(
light.DOMAIN,
light.SERVICE_TURN_ON,
{
ATTR_ENTITY_ID: self.state.entity_id,
light.ATTR_BRIGHTNESS_PCT: params["brightness"],
},
blocking=not self.config.should_report_state,
context=data.context,
)
@register_trait
class CameraStreamTrait(_Trait):
"""Trait to stream from cameras.
https://developers.google.com/actions/smarthome/traits/camerastream
"""
name = TRAIT_CAMERA_STREAM
commands = [COMMAND_GET_CAMERA_STREAM]
stream_info: dict[str, str] | None = None
@staticmethod
def supported(domain, features, device_class, _):
"""Test if state is supported."""
if domain == camera.DOMAIN:
return features & camera.SUPPORT_STREAM
return False
def sync_attributes(self):
"""Return stream attributes for a sync request."""
return {
"cameraStreamSupportedProtocols": ["hls"],
"cameraStreamNeedAuthToken": False,
"cameraStreamNeedDrmEncryption": False,
}
def query_attributes(self):
"""Return camera stream attributes."""
return self.stream_info or {}
async def execute(self, command, data, params, challenge):
"""Execute a get camera stream command."""
url = await camera.async_request_stream(self.hass, self.state.entity_id, "hls")
self.stream_info = {
"cameraStreamAccessUrl": f"{get_url(self.hass)}{url}",
"cameraStreamReceiverAppId": CAST_APP_ID_HOMEASSISTANT_MEDIA,
}
@register_trait
class OnOffTrait(_Trait):
"""Trait to offer basic on and off functionality.
https://developers.google.com/actions/smarthome/traits/onoff
"""
name = TRAIT_ONOFF
commands = [COMMAND_ONOFF]
@staticmethod
def supported(domain, features, device_class, _):
"""Test if state is supported."""
return domain in (
group.DOMAIN,
input_boolean.DOMAIN,
switch.DOMAIN,
fan.DOMAIN,
light.DOMAIN,
media_player.DOMAIN,
humidifier.DOMAIN,
)
def sync_attributes(self):
"""Return OnOff attributes for a sync request."""
if self.state.attributes.get(ATTR_ASSUMED_STATE, False):
return {"commandOnlyOnOff": True}
return {}
def query_attributes(self):
"""Return OnOff query attributes."""
return {"on": self.state.state not in (STATE_OFF, STATE_UNKNOWN)}
async def execute(self, command, data, params, challenge):
"""Execute an OnOff command."""
if (domain := self.state.domain) == group.DOMAIN:
service_domain = HA_DOMAIN
service = SERVICE_TURN_ON if params["on"] else SERVICE_TURN_OFF
else:
service_domain = domain
service = SERVICE_TURN_ON if params["on"] else SERVICE_TURN_OFF
await self.hass.services.async_call(
service_domain,
service,
{ATTR_ENTITY_ID: self.state.entity_id},
blocking=not self.config.should_report_state,
context=data.context,
)
@register_trait
class ColorSettingTrait(_Trait):
"""Trait to offer color temperature functionality.
https://developers.google.com/actions/smarthome/traits/colortemperature
"""
name = TRAIT_COLOR_SETTING
commands = [COMMAND_COLOR_ABSOLUTE]
@staticmethod
def supported(domain, features, device_class, attributes):
"""Test if state is supported."""
if domain != light.DOMAIN:
return False
color_modes = attributes.get(light.ATTR_SUPPORTED_COLOR_MODES)
return light.color_temp_supported(color_modes) or light.color_supported(
color_modes
)
def sync_attributes(self):
"""Return color temperature attributes for a sync request."""
attrs = self.state.attributes
color_modes = attrs.get(light.ATTR_SUPPORTED_COLOR_MODES)
response = {}
if light.color_supported(color_modes):
response["colorModel"] = "hsv"
if light.color_temp_supported(color_modes):
# Max Kelvin is Min Mireds K = 1000000 / mireds
# Min Kelvin is Max Mireds K = 1000000 / mireds
response["colorTemperatureRange"] = {
"temperatureMaxK": color_util.color_temperature_mired_to_kelvin(
attrs.get(light.ATTR_MIN_MIREDS)
),
"temperatureMinK": color_util.color_temperature_mired_to_kelvin(
attrs.get(light.ATTR_MAX_MIREDS)
),
}
return response
def query_attributes(self):
"""Return color temperature query attributes."""
color_mode = self.state.attributes.get(light.ATTR_COLOR_MODE)
color = {}
if light.color_supported([color_mode]):
color_hs = self.state.attributes.get(light.ATTR_HS_COLOR)
brightness = self.state.attributes.get(light.ATTR_BRIGHTNESS, 1)
if color_hs is not None:
color["spectrumHsv"] = {
"hue": color_hs[0],
"saturation": color_hs[1] / 100,
"value": brightness / 255,
}
if light.color_temp_supported([color_mode]):
temp = self.state.attributes.get(light.ATTR_COLOR_TEMP)
# Some faulty integrations might put 0 in here, raising exception.
if temp == 0:
_LOGGER.warning(
"Entity %s has incorrect color temperature %s",
self.state.entity_id,
temp,
)
elif temp is not None:
color["temperatureK"] = color_util.color_temperature_mired_to_kelvin(
temp
)
response = {}
if color:
response["color"] = color
return response
async def execute(self, command, data, params, challenge):
"""Execute a color temperature command."""
if "temperature" in params["color"]:
temp = color_util.color_temperature_kelvin_to_mired(
params["color"]["temperature"]
)
min_temp = self.state.attributes[light.ATTR_MIN_MIREDS]
max_temp = self.state.attributes[light.ATTR_MAX_MIREDS]
if temp < min_temp or temp > max_temp:
raise SmartHomeError(
ERR_VALUE_OUT_OF_RANGE,
f"Temperature should be between {min_temp} and {max_temp}",
)
await self.hass.services.async_call(
light.DOMAIN,
SERVICE_TURN_ON,
{ATTR_ENTITY_ID: self.state.entity_id, light.ATTR_COLOR_TEMP: temp},
blocking=not self.config.should_report_state,
context=data.context,
)
elif "spectrumRGB" in params["color"]:
# Convert integer to hex format and left pad with 0's till length 6
hex_value = f"{params['color']['spectrumRGB']:06x}"
color = color_util.color_RGB_to_hs(
*color_util.rgb_hex_to_rgb_list(hex_value)
)
await self.hass.services.async_call(
light.DOMAIN,
SERVICE_TURN_ON,
{ATTR_ENTITY_ID: self.state.entity_id, light.ATTR_HS_COLOR: color},
blocking=not self.config.should_report_state,
context=data.context,
)
elif "spectrumHSV" in params["color"]:
color = params["color"]["spectrumHSV"]
saturation = color["saturation"] * 100
brightness = color["value"] * 255
await self.hass.services.async_call(
light.DOMAIN,
SERVICE_TURN_ON,
{
ATTR_ENTITY_ID: self.state.entity_id,
light.ATTR_HS_COLOR: [color["hue"], saturation],
light.ATTR_BRIGHTNESS: brightness,
},
blocking=not self.config.should_report_state,
context=data.context,
)
@register_trait
class SceneTrait(_Trait):
"""Trait to offer scene functionality.
https://developers.google.com/actions/smarthome/traits/scene
"""
name = TRAIT_SCENE
commands = [COMMAND_ACTIVATE_SCENE]
@staticmethod
def supported(domain, features, device_class, _):
"""Test if state is supported."""
return domain in (
button.DOMAIN,
input_button.DOMAIN,
scene.DOMAIN,
script.DOMAIN,
)
def sync_attributes(self):
"""Return scene attributes for a sync request."""
# None of the supported domains can support sceneReversible
return {}
def query_attributes(self):
"""Return scene query attributes."""
return {}
async def execute(self, command, data, params, challenge):
"""Execute a scene command."""
service = SERVICE_TURN_ON
if self.state.domain == button.DOMAIN:
service = button.SERVICE_PRESS
elif self.state.domain == input_button.DOMAIN:
service = input_button.SERVICE_PRESS
# Don't block for scripts or buttons, as they can be slow.
await self.hass.services.async_call(
self.state.domain,
service,
{ATTR_ENTITY_ID: self.state.entity_id},
blocking=(not self.config.should_report_state)
and self.state.domain
not in (button.DOMAIN, input_button.DOMAIN, script.DOMAIN),
context=data.context,
)
@register_trait
class DockTrait(_Trait):
"""Trait to offer dock functionality.
https://developers.google.com/actions/smarthome/traits/dock
"""
name = TRAIT_DOCK
commands = [COMMAND_DOCK]
@staticmethod
def supported(domain, features, device_class, _):
"""Test if state is supported."""
return domain == vacuum.DOMAIN
def sync_attributes(self):
"""Return dock attributes for a sync request."""
return {}
def query_attributes(self):
"""Return dock query attributes."""
return {"isDocked": self.state.state == vacuum.STATE_DOCKED}
async def execute(self, command, data, params, challenge):
"""Execute a dock command."""
await self.hass.services.async_call(
self.state.domain,
vacuum.SERVICE_RETURN_TO_BASE,
{ATTR_ENTITY_ID: self.state.entity_id},
blocking=not self.config.should_report_state,
context=data.context,
)
@register_trait
class LocatorTrait(_Trait):
"""Trait to offer locate functionality.
https://developers.google.com/actions/smarthome/traits/locator
"""
name = TRAIT_LOCATOR
commands = [COMMAND_LOCATE]
@staticmethod
def supported(domain, features, device_class, _):
"""Test if state is supported."""
return domain == vacuum.DOMAIN and features & vacuum.SUPPORT_LOCATE
def sync_attributes(self):
"""Return locator attributes for a sync request."""
return {}
def query_attributes(self):
"""Return locator query attributes."""
return {}
async def execute(self, command, data, params, challenge):
"""Execute a locate command."""
if params.get("silence", False):
raise SmartHomeError(
ERR_FUNCTION_NOT_SUPPORTED,
"Silencing a Locate request is not yet supported",
)
await self.hass.services.async_call(
self.state.domain,
vacuum.SERVICE_LOCATE,
{ATTR_ENTITY_ID: self.state.entity_id},
blocking=not self.config.should_report_state,
context=data.context,
)
@register_trait
class EnergyStorageTrait(_Trait):
"""Trait to offer EnergyStorage functionality.
https://developers.google.com/actions/smarthome/traits/energystorage
"""
name = TRAIT_ENERGYSTORAGE
commands = [COMMAND_CHARGE]
@staticmethod
def supported(domain, features, device_class, _):
"""Test if state is supported."""
return domain == vacuum.DOMAIN and features & vacuum.SUPPORT_BATTERY
def sync_attributes(self):
"""Return EnergyStorage attributes for a sync request."""
return {
"isRechargeable": True,
"queryOnlyEnergyStorage": True,
}
def query_attributes(self):
"""Return EnergyStorage query attributes."""
battery_level = self.state.attributes.get(ATTR_BATTERY_LEVEL)
if battery_level is None:
return {}
if battery_level == 100:
descriptive_capacity_remaining = "FULL"
elif 75 <= battery_level < 100:
descriptive_capacity_remaining = "HIGH"
elif 50 <= battery_level < 75:
descriptive_capacity_remaining = "MEDIUM"
elif 25 <= battery_level < 50:
descriptive_capacity_remaining = "LOW"
elif 0 <= battery_level < 25:
descriptive_capacity_remaining = "CRITICALLY_LOW"
return {
"descriptiveCapacityRemaining": descriptive_capacity_remaining,
"capacityRemaining": [{"rawValue": battery_level, "unit": "PERCENTAGE"}],
"capacityUntilFull": [
{"rawValue": 100 - battery_level, "unit": "PERCENTAGE"}
],
"isCharging": self.state.state == vacuum.STATE_DOCKED,
"isPluggedIn": self.state.state == vacuum.STATE_DOCKED,
}
async def execute(self, command, data, params, challenge):
"""Execute a dock command."""
raise SmartHomeError(
ERR_FUNCTION_NOT_SUPPORTED,
"Controlling charging of a vacuum is not yet supported",
)
@register_trait
class StartStopTrait(_Trait):
"""Trait to offer StartStop functionality.
https://developers.google.com/actions/smarthome/traits/startstop
"""
name = TRAIT_STARTSTOP
commands = [COMMAND_STARTSTOP, COMMAND_PAUSEUNPAUSE]
@staticmethod
def supported(domain, features, device_class, _):
"""Test if state is supported."""
if domain == vacuum.DOMAIN:
return True
if domain == cover.DOMAIN and features & cover.SUPPORT_STOP:
return True
return False
def sync_attributes(self):
"""Return StartStop attributes for a sync request."""
domain = self.state.domain
if domain == vacuum.DOMAIN:
return {
"pausable": self.state.attributes.get(ATTR_SUPPORTED_FEATURES, 0)
& vacuum.SUPPORT_PAUSE
!= 0
}
if domain == cover.DOMAIN:
return {}
def query_attributes(self):
"""Return StartStop query attributes."""
domain = self.state.domain
state = self.state.state
if domain == vacuum.DOMAIN:
return {
"isRunning": state == vacuum.STATE_CLEANING,
"isPaused": state == vacuum.STATE_PAUSED,
}
if domain == cover.DOMAIN:
return {"isRunning": state in (cover.STATE_CLOSING, cover.STATE_OPENING)}
async def execute(self, command, data, params, challenge):
"""Execute a StartStop command."""
domain = self.state.domain
if domain == vacuum.DOMAIN:
return await self._execute_vacuum(command, data, params, challenge)
if domain == cover.DOMAIN:
return await self._execute_cover(command, data, params, challenge)
async def _execute_vacuum(self, command, data, params, challenge):
"""Execute a StartStop command."""
if command == COMMAND_STARTSTOP:
if params["start"]:
await self.hass.services.async_call(
self.state.domain,
vacuum.SERVICE_START,
{ATTR_ENTITY_ID: self.state.entity_id},
blocking=not self.config.should_report_state,
context=data.context,
)
else:
await self.hass.services.async_call(
self.state.domain,
vacuum.SERVICE_STOP,
{ATTR_ENTITY_ID: self.state.entity_id},
blocking=not self.config.should_report_state,
context=data.context,
)
elif command == COMMAND_PAUSEUNPAUSE:
if params["pause"]:
await self.hass.services.async_call(
self.state.domain,
vacuum.SERVICE_PAUSE,
{ATTR_ENTITY_ID: self.state.entity_id},
blocking=not self.config.should_report_state,
context=data.context,
)
else:
await self.hass.services.async_call(
self.state.domain,
vacuum.SERVICE_START,
{ATTR_ENTITY_ID: self.state.entity_id},
blocking=not self.config.should_report_state,
context=data.context,
)
async def _execute_cover(self, command, data, params, challenge):
"""Execute a StartStop command."""
if command == COMMAND_STARTSTOP:
if params["start"] is False:
if self.state.state in (
cover.STATE_CLOSING,
cover.STATE_OPENING,
) or self.state.attributes.get(ATTR_ASSUMED_STATE):
await self.hass.services.async_call(
self.state.domain,
cover.SERVICE_STOP_COVER,
{ATTR_ENTITY_ID: self.state.entity_id},
blocking=not self.config.should_report_state,
context=data.context,
)
else:
raise SmartHomeError(
ERR_ALREADY_STOPPED, "Cover is already stopped"
)
else:
raise SmartHomeError(
ERR_NOT_SUPPORTED, "Starting a cover is not supported"
)
else:
raise SmartHomeError(
ERR_NOT_SUPPORTED, f"Command {command} is not supported"
)
@register_trait
class TemperatureControlTrait(_Trait):
"""Trait for devices (other than thermostats) that support controlling temperature. Workaround for Temperature sensors.
https://developers.google.com/assistant/smarthome/traits/temperaturecontrol
"""
name = TRAIT_TEMPERATURE_CONTROL
@staticmethod
def supported(domain, features, device_class, _):
"""Test if state is supported."""
return (
domain == sensor.DOMAIN
and device_class == sensor.SensorDeviceClass.TEMPERATURE
)
def sync_attributes(self):
"""Return temperature attributes for a sync request."""
return {
"temperatureUnitForUX": _google_temp_unit(
self.hass.config.units.temperature_unit
),
"queryOnlyTemperatureSetting": True,
"temperatureRange": {
"minThresholdCelsius": -100,
"maxThresholdCelsius": 100,
},
}
def query_attributes(self):
"""Return temperature states."""
response = {}
unit = self.hass.config.units.temperature_unit
current_temp = self.state.state
if current_temp not in (STATE_UNKNOWN, STATE_UNAVAILABLE):
temp = round(
TemperatureConverter.convert(
float(current_temp), unit, UnitOfTemperature.CELSIUS
),
1,
)
response["temperatureSetpointCelsius"] = temp
response["temperatureAmbientCelsius"] = temp
return response
async def execute(self, command, data, params, challenge):
"""Unsupported."""
raise SmartHomeError(ERR_NOT_SUPPORTED, "Execute is not supported by sensor")
@register_trait
class TemperatureSettingTrait(_Trait):
"""Trait to offer handling both temperature point and modes functionality.
https://developers.google.com/actions/smarthome/traits/temperaturesetting
"""
name = TRAIT_TEMPERATURE_SETTING
commands = [
COMMAND_THERMOSTAT_TEMPERATURE_SETPOINT,
COMMAND_THERMOSTAT_TEMPERATURE_SET_RANGE,
COMMAND_THERMOSTAT_SET_MODE,
]
# We do not support "on" as we are unable to know how to restore
# the last mode.
hvac_to_google = {
climate.HVACMode.HEAT: "heat",
climate.HVACMode.COOL: "cool",
climate.HVACMode.OFF: "off",
climate.HVACMode.AUTO: "auto",
climate.HVACMode.HEAT_COOL: "heatcool",
climate.HVACMode.FAN_ONLY: "fan-only",
climate.HVACMode.DRY: "dry",
}
google_to_hvac = {value: key for key, value in hvac_to_google.items()}
preset_to_google = {climate.PRESET_ECO: "eco"}
google_to_preset = {value: key for key, value in preset_to_google.items()}
@staticmethod
def supported(domain, features, device_class, _):
"""Test if state is supported."""
return domain == climate.DOMAIN
@property
def climate_google_modes(self):
"""Return supported Google modes."""
modes = []
attrs = self.state.attributes
for mode in attrs.get(climate.ATTR_HVAC_MODES, []):
google_mode = self.hvac_to_google.get(mode)
if google_mode and google_mode not in modes:
modes.append(google_mode)
for preset in attrs.get(climate.ATTR_PRESET_MODES, []):
google_mode = self.preset_to_google.get(preset)
if google_mode and google_mode not in modes:
modes.append(google_mode)
return modes
def sync_attributes(self):
"""Return temperature point and modes attributes for a sync request."""
response = {}
response["thermostatTemperatureUnit"] = _google_temp_unit(
self.hass.config.units.temperature_unit
)
modes = self.climate_google_modes
# Some integrations don't support modes (e.g. opentherm), but Google doesn't
# support changing the temperature if we don't have any modes. If there's
# only one Google doesn't support changing it, so the default mode here is
# only cosmetic.
if len(modes) == 0:
modes.append("heat")
if "off" in modes and any(
mode in modes for mode in ("heatcool", "heat", "cool")
):
modes.append("on")
response["availableThermostatModes"] = modes
return response
def query_attributes(self):
"""Return temperature point and modes query attributes."""
response = {}
attrs = self.state.attributes
unit = self.hass.config.units.temperature_unit
operation = self.state.state
preset = attrs.get(climate.ATTR_PRESET_MODE)
supported = attrs.get(ATTR_SUPPORTED_FEATURES, 0)
if preset in self.preset_to_google:
response["thermostatMode"] = self.preset_to_google[preset]
else:
response["thermostatMode"] = self.hvac_to_google.get(operation, "none")
current_temp = attrs.get(climate.ATTR_CURRENT_TEMPERATURE)
if current_temp is not None:
response["thermostatTemperatureAmbient"] = round(
TemperatureConverter.convert(
current_temp, unit, UnitOfTemperature.CELSIUS
),
1,
)
current_humidity = attrs.get(climate.ATTR_CURRENT_HUMIDITY)
if current_humidity is not None:
response["thermostatHumidityAmbient"] = current_humidity
if operation in (climate.HVACMode.AUTO, climate.HVACMode.HEAT_COOL):
if supported & climate.SUPPORT_TARGET_TEMPERATURE_RANGE:
response["thermostatTemperatureSetpointHigh"] = round(
TemperatureConverter.convert(
attrs[climate.ATTR_TARGET_TEMP_HIGH],
unit,
UnitOfTemperature.CELSIUS,
),
1,
)
response["thermostatTemperatureSetpointLow"] = round(
TemperatureConverter.convert(
attrs[climate.ATTR_TARGET_TEMP_LOW],
unit,
UnitOfTemperature.CELSIUS,
),
1,
)
else:
if (target_temp := attrs.get(ATTR_TEMPERATURE)) is not None:
target_temp = round(
TemperatureConverter.convert(
target_temp, unit, UnitOfTemperature.CELSIUS
),
1,
)
response["thermostatTemperatureSetpointHigh"] = target_temp
response["thermostatTemperatureSetpointLow"] = target_temp
else:
if (target_temp := attrs.get(ATTR_TEMPERATURE)) is not None:
response["thermostatTemperatureSetpoint"] = round(
TemperatureConverter.convert(
target_temp, unit, UnitOfTemperature.CELSIUS
),
1,
)
return response
async def execute(self, command, data, params, challenge):
"""Execute a temperature point or mode command."""
# All sent in temperatures are always in Celsius
unit = self.hass.config.units.temperature_unit
min_temp = self.state.attributes[climate.ATTR_MIN_TEMP]
max_temp = self.state.attributes[climate.ATTR_MAX_TEMP]
if command == COMMAND_THERMOSTAT_TEMPERATURE_SETPOINT:
temp = TemperatureConverter.convert(
params["thermostatTemperatureSetpoint"], UnitOfTemperature.CELSIUS, unit
)
if unit == UnitOfTemperature.FAHRENHEIT:
temp = round(temp)
if temp < min_temp or temp > max_temp:
raise SmartHomeError(
ERR_VALUE_OUT_OF_RANGE,
f"Temperature should be between {min_temp} and {max_temp}",
)
await self.hass.services.async_call(
climate.DOMAIN,
climate.SERVICE_SET_TEMPERATURE,
{ATTR_ENTITY_ID: self.state.entity_id, ATTR_TEMPERATURE: temp},
blocking=not self.config.should_report_state,
context=data.context,
)
elif command == COMMAND_THERMOSTAT_TEMPERATURE_SET_RANGE:
temp_high = TemperatureConverter.convert(
params["thermostatTemperatureSetpointHigh"],
UnitOfTemperature.CELSIUS,
unit,
)
if unit == UnitOfTemperature.FAHRENHEIT:
temp_high = round(temp_high)
if temp_high < min_temp or temp_high > max_temp:
raise SmartHomeError(
ERR_VALUE_OUT_OF_RANGE,
(
"Upper bound for temperature range should be between "
f"{min_temp} and {max_temp}"
),
)
temp_low = TemperatureConverter.convert(
params["thermostatTemperatureSetpointLow"],
UnitOfTemperature.CELSIUS,
unit,
)
if unit == UnitOfTemperature.FAHRENHEIT:
temp_low = round(temp_low)
if temp_low < min_temp or temp_low > max_temp:
raise SmartHomeError(
ERR_VALUE_OUT_OF_RANGE,
(
"Lower bound for temperature range should be between "
f"{min_temp} and {max_temp}"
),
)
supported = self.state.attributes.get(ATTR_SUPPORTED_FEATURES)
svc_data = {ATTR_ENTITY_ID: self.state.entity_id}
if supported & climate.SUPPORT_TARGET_TEMPERATURE_RANGE:
svc_data[climate.ATTR_TARGET_TEMP_HIGH] = temp_high
svc_data[climate.ATTR_TARGET_TEMP_LOW] = temp_low
else:
svc_data[ATTR_TEMPERATURE] = (temp_high + temp_low) / 2
await self.hass.services.async_call(
climate.DOMAIN,
climate.SERVICE_SET_TEMPERATURE,
svc_data,
blocking=not self.config.should_report_state,
context=data.context,
)
elif command == COMMAND_THERMOSTAT_SET_MODE:
target_mode = params["thermostatMode"]
supported = self.state.attributes.get(ATTR_SUPPORTED_FEATURES)
if target_mode == "on":
await self.hass.services.async_call(
climate.DOMAIN,
SERVICE_TURN_ON,
{ATTR_ENTITY_ID: self.state.entity_id},
blocking=not self.config.should_report_state,
context=data.context,
)
return
if target_mode == "off":
await self.hass.services.async_call(
climate.DOMAIN,
SERVICE_TURN_OFF,
{ATTR_ENTITY_ID: self.state.entity_id},
blocking=not self.config.should_report_state,
context=data.context,
)
return
if target_mode in self.google_to_preset:
await self.hass.services.async_call(
climate.DOMAIN,
climate.SERVICE_SET_PRESET_MODE,
{
climate.ATTR_PRESET_MODE: self.google_to_preset[target_mode],
ATTR_ENTITY_ID: self.state.entity_id,
},
blocking=not self.config.should_report_state,
context=data.context,
)
return
await self.hass.services.async_call(
climate.DOMAIN,
climate.SERVICE_SET_HVAC_MODE,
{
ATTR_ENTITY_ID: self.state.entity_id,
climate.ATTR_HVAC_MODE: self.google_to_hvac[target_mode],
},
blocking=not self.config.should_report_state,
context=data.context,
)
@register_trait
class HumiditySettingTrait(_Trait):
"""Trait to offer humidity setting functionality.
https://developers.google.com/actions/smarthome/traits/humiditysetting
"""
name = TRAIT_HUMIDITY_SETTING
commands = [COMMAND_SET_HUMIDITY]
@staticmethod
def supported(domain, features, device_class, _):
"""Test if state is supported."""
if domain == humidifier.DOMAIN:
return True
return (
domain == sensor.DOMAIN
and device_class == sensor.SensorDeviceClass.HUMIDITY
)
def sync_attributes(self):
"""Return humidity attributes for a sync request."""
response = {}
attrs = self.state.attributes
domain = self.state.domain
if domain == sensor.DOMAIN:
device_class = attrs.get(ATTR_DEVICE_CLASS)
if device_class == sensor.SensorDeviceClass.HUMIDITY:
response["queryOnlyHumiditySetting"] = True
elif domain == humidifier.DOMAIN:
response["humiditySetpointRange"] = {
"minPercent": round(
float(self.state.attributes[humidifier.ATTR_MIN_HUMIDITY])
),
"maxPercent": round(
float(self.state.attributes[humidifier.ATTR_MAX_HUMIDITY])
),
}
return response
def query_attributes(self):
"""Return humidity query attributes."""
response = {}
attrs = self.state.attributes
domain = self.state.domain
if domain == sensor.DOMAIN:
device_class = attrs.get(ATTR_DEVICE_CLASS)
if device_class == sensor.SensorDeviceClass.HUMIDITY:
current_humidity = self.state.state
if current_humidity not in (STATE_UNKNOWN, STATE_UNAVAILABLE):
response["humidityAmbientPercent"] = round(float(current_humidity))
elif domain == humidifier.DOMAIN:
target_humidity = attrs.get(humidifier.ATTR_HUMIDITY)
if target_humidity is not None:
response["humiditySetpointPercent"] = round(float(target_humidity))
return response
async def execute(self, command, data, params, challenge):
"""Execute a humidity command."""
if self.state.domain == sensor.DOMAIN:
raise SmartHomeError(
ERR_NOT_SUPPORTED, "Execute is not supported by sensor"
)
if command == COMMAND_SET_HUMIDITY:
await self.hass.services.async_call(
humidifier.DOMAIN,
humidifier.SERVICE_SET_HUMIDITY,
{
ATTR_ENTITY_ID: self.state.entity_id,
humidifier.ATTR_HUMIDITY: params["humidity"],
},
blocking=not self.config.should_report_state,
context=data.context,
)
@register_trait
class LockUnlockTrait(_Trait):
"""Trait to lock or unlock a lock.
https://developers.google.com/actions/smarthome/traits/lockunlock
"""
name = TRAIT_LOCKUNLOCK
commands = [COMMAND_LOCKUNLOCK]
@staticmethod
def supported(domain, features, device_class, _):
"""Test if state is supported."""
return domain == lock.DOMAIN
@staticmethod
def might_2fa(domain, features, device_class):
"""Return if the trait might ask for 2FA."""
return True
def sync_attributes(self):
"""Return LockUnlock attributes for a sync request."""
return {}
def query_attributes(self):
"""Return LockUnlock query attributes."""
if self.state.state == STATE_JAMMED:
return {"isJammed": True}
# If its unlocking its not yet unlocked so we consider is locked
return {"isLocked": self.state.state in (STATE_UNLOCKING, STATE_LOCKED)}
async def execute(self, command, data, params, challenge):
"""Execute an LockUnlock command."""
if params["lock"]:
service = lock.SERVICE_LOCK
else:
_verify_pin_challenge(data, self.state, challenge)
service = lock.SERVICE_UNLOCK
await self.hass.services.async_call(
lock.DOMAIN,
service,
{ATTR_ENTITY_ID: self.state.entity_id},
blocking=not self.config.should_report_state,
context=data.context,
)
@register_trait
class ArmDisArmTrait(_Trait):
"""Trait to Arm or Disarm a Security System.
https://developers.google.com/actions/smarthome/traits/armdisarm
"""
name = TRAIT_ARMDISARM
commands = [COMMAND_ARMDISARM]
state_to_service = {
STATE_ALARM_ARMED_HOME: SERVICE_ALARM_ARM_HOME,
STATE_ALARM_ARMED_AWAY: SERVICE_ALARM_ARM_AWAY,
STATE_ALARM_ARMED_NIGHT: SERVICE_ALARM_ARM_NIGHT,
STATE_ALARM_ARMED_CUSTOM_BYPASS: SERVICE_ALARM_ARM_CUSTOM_BYPASS,
STATE_ALARM_TRIGGERED: SERVICE_ALARM_TRIGGER,
}
state_to_support = {
STATE_ALARM_ARMED_HOME: alarm_control_panel.const.SUPPORT_ALARM_ARM_HOME,
STATE_ALARM_ARMED_AWAY: alarm_control_panel.const.SUPPORT_ALARM_ARM_AWAY,
STATE_ALARM_ARMED_NIGHT: alarm_control_panel.const.SUPPORT_ALARM_ARM_NIGHT,
STATE_ALARM_ARMED_CUSTOM_BYPASS: alarm_control_panel.const.SUPPORT_ALARM_ARM_CUSTOM_BYPASS,
STATE_ALARM_TRIGGERED: alarm_control_panel.const.SUPPORT_ALARM_TRIGGER,
}
@staticmethod
def supported(domain, features, device_class, _):
"""Test if state is supported."""
return domain == alarm_control_panel.DOMAIN
@staticmethod
def might_2fa(domain, features, device_class):
"""Return if the trait might ask for 2FA."""
return True
def _supported_states(self):
"""Return supported states."""
features = self.state.attributes.get(ATTR_SUPPORTED_FEATURES, 0)
return [
state
for state, required_feature in self.state_to_support.items()
if features & required_feature != 0
]
def sync_attributes(self):
"""Return ArmDisarm attributes for a sync request."""
response = {}
levels = []
for state in self._supported_states():
# level synonyms are generated from state names
# 'armed_away' becomes 'armed away' or 'away'
level_synonym = [state.replace("_", " ")]
if state != STATE_ALARM_TRIGGERED:
level_synonym.append(state.split("_")[1])
level = {
"level_name": state,
"level_values": [{"level_synonym": level_synonym, "lang": "en"}],
}
levels.append(level)
response["availableArmLevels"] = {"levels": levels, "ordered": False}
return response
def query_attributes(self):
"""Return ArmDisarm query attributes."""
armed_state = self.state.attributes.get("next_state", self.state.state)
response = {"isArmed": armed_state in self.state_to_service}
if response["isArmed"]:
response.update({"currentArmLevel": armed_state})
return response
async def execute(self, command, data, params, challenge):
"""Execute an ArmDisarm command."""
if params["arm"] and not params.get("cancel"):
# If no arm level given, we can only arm it if there is
# only one supported arm type. We never default to triggered.
if not (arm_level := params.get("armLevel")):
states = self._supported_states()
if STATE_ALARM_TRIGGERED in states:
states.remove(STATE_ALARM_TRIGGERED)
if len(states) != 1:
raise SmartHomeError(ERR_NOT_SUPPORTED, "ArmLevel missing")
arm_level = states[0]
if self.state.state == arm_level:
raise SmartHomeError(ERR_ALREADY_ARMED, "System is already armed")
if self.state.attributes["code_arm_required"]:
_verify_pin_challenge(data, self.state, challenge)
service = self.state_to_service[arm_level]
# disarm the system without asking for code when
# 'cancel' arming action is received while current status is pending
elif (
params["arm"]
and params.get("cancel")
and self.state.state == STATE_ALARM_PENDING
):
service = SERVICE_ALARM_DISARM
else:
if self.state.state == STATE_ALARM_DISARMED:
raise SmartHomeError(ERR_ALREADY_DISARMED, "System is already disarmed")
_verify_pin_challenge(data, self.state, challenge)
service = SERVICE_ALARM_DISARM
await self.hass.services.async_call(
alarm_control_panel.DOMAIN,
service,
{
ATTR_ENTITY_ID: self.state.entity_id,
ATTR_CODE: data.config.secure_devices_pin,
},
blocking=not self.config.should_report_state,
context=data.context,
)
def _get_fan_speed(speed_name: str) -> dict[str, Any]:
"""Return a fan speed synonyms for a speed name."""
speed_synonyms = FAN_SPEEDS.get(speed_name, [f"{speed_name}"])
return {
"speed_name": speed_name,
"speed_values": [
{
"speed_synonym": speed_synonyms,
"lang": "en",
}
],
}
@register_trait
class FanSpeedTrait(_Trait):
"""Trait to control speed of Fan.
https://developers.google.com/actions/smarthome/traits/fanspeed
"""
name = TRAIT_FANSPEED
commands = [COMMAND_FANSPEED, COMMAND_REVERSE]
def __init__(self, hass, state, config):
"""Initialize a trait for a state."""
super().__init__(hass, state, config)
if state.domain == fan.DOMAIN:
speed_count = min(
FAN_SPEED_MAX_SPEED_COUNT,
round(
100 / (self.state.attributes.get(fan.ATTR_PERCENTAGE_STEP) or 1.0)
),
)
self._ordered_speed = [
f"{speed}/{speed_count}" for speed in range(1, speed_count + 1)
]
@staticmethod
def supported(domain, features, device_class, _):
"""Test if state is supported."""
if domain == fan.DOMAIN:
return features & fan.SUPPORT_SET_SPEED
if domain == climate.DOMAIN:
return features & climate.SUPPORT_FAN_MODE
return False
def sync_attributes(self):
"""Return speed point and modes attributes for a sync request."""
domain = self.state.domain
speeds = []
result = {}
if domain == fan.DOMAIN:
reversible = bool(
self.state.attributes.get(ATTR_SUPPORTED_FEATURES, 0)
& fan.SUPPORT_DIRECTION
)
result.update(
{
"reversible": reversible,
"supportsFanSpeedPercent": True,
}
)
if self._ordered_speed:
result.update(
{
"availableFanSpeeds": {
"speeds": [
_get_fan_speed(speed) for speed in self._ordered_speed
],
"ordered": True,
},
}
)
elif domain == climate.DOMAIN:
modes = self.state.attributes.get(climate.ATTR_FAN_MODES) or []
for mode in modes:
speed = {
"speed_name": mode,
"speed_values": [{"speed_synonym": [mode], "lang": "en"}],
}
speeds.append(speed)
result.update(
{
"reversible": False,
"availableFanSpeeds": {"speeds": speeds, "ordered": True},
}
)
return result
def query_attributes(self):
"""Return speed point and modes query attributes."""
attrs = self.state.attributes
domain = self.state.domain
response = {}
if domain == climate.DOMAIN:
speed = attrs.get(climate.ATTR_FAN_MODE) or "off"
response["currentFanSpeedSetting"] = speed
if domain == fan.DOMAIN:
percent = attrs.get(fan.ATTR_PERCENTAGE) or 0
response["currentFanSpeedPercent"] = percent
response["currentFanSpeedSetting"] = percentage_to_ordered_list_item(
self._ordered_speed, percent
)
return response
async def execute_fanspeed(self, data, params):
"""Execute an SetFanSpeed command."""
domain = self.state.domain
if domain == climate.DOMAIN:
await self.hass.services.async_call(
climate.DOMAIN,
climate.SERVICE_SET_FAN_MODE,
{
ATTR_ENTITY_ID: self.state.entity_id,
climate.ATTR_FAN_MODE: params["fanSpeed"],
},
blocking=not self.config.should_report_state,
context=data.context,
)
if domain == fan.DOMAIN:
if fan_speed := params.get("fanSpeed"):
fan_speed_percent = ordered_list_item_to_percentage(
self._ordered_speed, fan_speed
)
else:
fan_speed_percent = params.get("fanSpeedPercent")
await self.hass.services.async_call(
fan.DOMAIN,
fan.SERVICE_SET_PERCENTAGE,
{
ATTR_ENTITY_ID: self.state.entity_id,
fan.ATTR_PERCENTAGE: fan_speed_percent,
},
blocking=not self.config.should_report_state,
context=data.context,
)
async def execute_reverse(self, data, params):
"""Execute a Reverse command."""
if self.state.domain == fan.DOMAIN:
if self.state.attributes.get(fan.ATTR_DIRECTION) == fan.DIRECTION_FORWARD:
direction = fan.DIRECTION_REVERSE
else:
direction = fan.DIRECTION_FORWARD
await self.hass.services.async_call(
fan.DOMAIN,
fan.SERVICE_SET_DIRECTION,
{ATTR_ENTITY_ID: self.state.entity_id, fan.ATTR_DIRECTION: direction},
blocking=not self.config.should_report_state,
context=data.context,
)
async def execute(self, command, data, params, challenge):
"""Execute a smart home command."""
if command == COMMAND_FANSPEED:
await self.execute_fanspeed(data, params)
elif command == COMMAND_REVERSE:
await self.execute_reverse(data, params)
@register_trait
class ModesTrait(_Trait):
"""Trait to set modes.
https://developers.google.com/actions/smarthome/traits/modes
"""
name = TRAIT_MODES
commands = [COMMAND_MODES]
SYNONYMS = {
"preset mode": ["preset mode", "mode", "preset"],
"sound mode": ["sound mode", "effects"],
"option": ["option", "setting", "mode", "value"],
}
@staticmethod
def supported(domain, features, device_class, _):
"""Test if state is supported."""
if domain == fan.DOMAIN and features & fan.SUPPORT_PRESET_MODE:
return True
if domain == input_select.DOMAIN:
return True
if domain == select.DOMAIN:
return True
if domain == humidifier.DOMAIN and features & humidifier.SUPPORT_MODES:
return True
if domain == light.DOMAIN and features & light.SUPPORT_EFFECT:
return True
if domain != media_player.DOMAIN:
return False
return features & media_player.SUPPORT_SELECT_SOUND_MODE
def _generate(self, name, settings):
"""Generate a list of modes."""
mode = {
"name": name,
"name_values": [
{"name_synonym": self.SYNONYMS.get(name, [name]), "lang": "en"}
],
"settings": [],
"ordered": False,
}
for setting in settings:
mode["settings"].append(
{
"setting_name": setting,
"setting_values": [
{
"setting_synonym": self.SYNONYMS.get(setting, [setting]),
"lang": "en",
}
],
}
)
return mode
def sync_attributes(self):
"""Return mode attributes for a sync request."""
modes = []
for domain, attr, name in (
(fan.DOMAIN, fan.ATTR_PRESET_MODES, "preset mode"),
(media_player.DOMAIN, media_player.ATTR_SOUND_MODE_LIST, "sound mode"),
(input_select.DOMAIN, input_select.ATTR_OPTIONS, "option"),
(select.DOMAIN, select.ATTR_OPTIONS, "option"),
(humidifier.DOMAIN, humidifier.ATTR_AVAILABLE_MODES, "mode"),
(light.DOMAIN, light.ATTR_EFFECT_LIST, "effect"),
):
if self.state.domain != domain:
continue
if (items := self.state.attributes.get(attr)) is not None:
modes.append(self._generate(name, items))
# Shortcut since all domains are currently unique
break
payload = {"availableModes": modes}
return payload
def query_attributes(self):
"""Return current modes."""
attrs = self.state.attributes
response = {}
mode_settings = {}
if self.state.domain == fan.DOMAIN:
if fan.ATTR_PRESET_MODES in attrs:
mode_settings["preset mode"] = attrs.get(fan.ATTR_PRESET_MODE)
elif self.state.domain == media_player.DOMAIN:
if media_player.ATTR_SOUND_MODE_LIST in attrs:
mode_settings["sound mode"] = attrs.get(media_player.ATTR_SOUND_MODE)
elif self.state.domain == input_select.DOMAIN:
mode_settings["option"] = self.state.state
elif self.state.domain == select.DOMAIN:
mode_settings["option"] = self.state.state
elif self.state.domain == humidifier.DOMAIN:
if ATTR_MODE in attrs:
mode_settings["mode"] = attrs.get(ATTR_MODE)
elif self.state.domain == light.DOMAIN and light.ATTR_EFFECT in attrs:
mode_settings["effect"] = attrs.get(light.ATTR_EFFECT)
if mode_settings:
response["on"] = self.state.state not in (STATE_OFF, STATE_UNKNOWN)
response["currentModeSettings"] = mode_settings
return response
async def execute(self, command, data, params, challenge):
"""Execute a SetModes command."""
settings = params.get("updateModeSettings")
if self.state.domain == fan.DOMAIN:
preset_mode = settings["preset mode"]
await self.hass.services.async_call(
fan.DOMAIN,
fan.SERVICE_SET_PRESET_MODE,
{
ATTR_ENTITY_ID: self.state.entity_id,
fan.ATTR_PRESET_MODE: preset_mode,
},
blocking=not self.config.should_report_state,
context=data.context,
)
return
if self.state.domain == input_select.DOMAIN:
option = settings["option"]
await self.hass.services.async_call(
input_select.DOMAIN,
input_select.SERVICE_SELECT_OPTION,
{
ATTR_ENTITY_ID: self.state.entity_id,
input_select.ATTR_OPTION: option,
},
blocking=not self.config.should_report_state,
context=data.context,
)
return
if self.state.domain == select.DOMAIN:
option = settings["option"]
await self.hass.services.async_call(
select.DOMAIN,
select.SERVICE_SELECT_OPTION,
{
ATTR_ENTITY_ID: self.state.entity_id,
select.ATTR_OPTION: option,
},
blocking=not self.config.should_report_state,
context=data.context,
)
return
if self.state.domain == humidifier.DOMAIN:
requested_mode = settings["mode"]
await self.hass.services.async_call(
humidifier.DOMAIN,
humidifier.SERVICE_SET_MODE,
{
ATTR_MODE: requested_mode,
ATTR_ENTITY_ID: self.state.entity_id,
},
blocking=not self.config.should_report_state,
context=data.context,
)
return
if self.state.domain == light.DOMAIN:
requested_effect = settings["effect"]
await self.hass.services.async_call(
light.DOMAIN,
SERVICE_TURN_ON,
{
ATTR_ENTITY_ID: self.state.entity_id,
light.ATTR_EFFECT: requested_effect,
},
blocking=not self.config.should_report_state,
context=data.context,
)
return
if self.state.domain == media_player.DOMAIN and (
sound_mode := settings.get("sound mode")
):
await self.hass.services.async_call(
media_player.DOMAIN,
media_player.SERVICE_SELECT_SOUND_MODE,
{
ATTR_ENTITY_ID: self.state.entity_id,
media_player.ATTR_SOUND_MODE: sound_mode,
},
blocking=not self.config.should_report_state,
context=data.context,
)
_LOGGER.info(
"Received an Options command for unrecognised domain %s",
self.state.domain,
)
return
@register_trait
class InputSelectorTrait(_Trait):
"""Trait to set modes.
https://developers.google.com/assistant/smarthome/traits/inputselector
"""
name = TRAIT_INPUTSELECTOR
commands = [COMMAND_INPUT, COMMAND_NEXT_INPUT, COMMAND_PREVIOUS_INPUT]
SYNONYMS: dict[str, list[str]] = {}
@staticmethod
def supported(domain, features, device_class, _):
"""Test if state is supported."""
if domain == media_player.DOMAIN and (
features & media_player.SUPPORT_SELECT_SOURCE
):
return True
return False
def sync_attributes(self):
"""Return mode attributes for a sync request."""
attrs = self.state.attributes
inputs = [
{"key": source, "names": [{"name_synonym": [source], "lang": "en"}]}
for source in attrs.get(media_player.ATTR_INPUT_SOURCE_LIST, [])
]
payload = {"availableInputs": inputs, "orderedInputs": True}
return payload
def query_attributes(self):
"""Return current modes."""
attrs = self.state.attributes
return {"currentInput": attrs.get(media_player.ATTR_INPUT_SOURCE, "")}
async def execute(self, command, data, params, challenge):
"""Execute an SetInputSource command."""
sources = self.state.attributes.get(media_player.ATTR_INPUT_SOURCE_LIST) or []
source = self.state.attributes.get(media_player.ATTR_INPUT_SOURCE)
if command == COMMAND_INPUT:
requested_source = params.get("newInput")
elif command == COMMAND_NEXT_INPUT:
requested_source = _next_selected(sources, source)
elif command == COMMAND_PREVIOUS_INPUT:
requested_source = _next_selected(list(reversed(sources)), source)
else:
raise SmartHomeError(ERR_NOT_SUPPORTED, "Unsupported command")
if requested_source not in sources:
raise SmartHomeError(ERR_UNSUPPORTED_INPUT, "Unsupported input")
await self.hass.services.async_call(
media_player.DOMAIN,
media_player.SERVICE_SELECT_SOURCE,
{
ATTR_ENTITY_ID: self.state.entity_id,
media_player.ATTR_INPUT_SOURCE: requested_source,
},
blocking=not self.config.should_report_state,
context=data.context,
)
@register_trait
class OpenCloseTrait(_Trait):
"""Trait to open and close a cover.
https://developers.google.com/actions/smarthome/traits/openclose
"""
# Cover device classes that require 2FA
COVER_2FA = (
cover.CoverDeviceClass.DOOR,
cover.CoverDeviceClass.GARAGE,
cover.CoverDeviceClass.GATE,
)
name = TRAIT_OPENCLOSE
commands = [COMMAND_OPENCLOSE, COMMAND_OPENCLOSE_RELATIVE]
@staticmethod
def supported(domain, features, device_class, _):
"""Test if state is supported."""
if domain == cover.DOMAIN:
return True
return domain == binary_sensor.DOMAIN and device_class in (
binary_sensor.BinarySensorDeviceClass.DOOR,
binary_sensor.BinarySensorDeviceClass.GARAGE_DOOR,
binary_sensor.BinarySensorDeviceClass.LOCK,
binary_sensor.BinarySensorDeviceClass.OPENING,
binary_sensor.BinarySensorDeviceClass.WINDOW,
)
@staticmethod
def might_2fa(domain, features, device_class):
"""Return if the trait might ask for 2FA."""
return domain == cover.DOMAIN and device_class in OpenCloseTrait.COVER_2FA
def sync_attributes(self):
"""Return opening direction."""
response = {}
features = self.state.attributes.get(ATTR_SUPPORTED_FEATURES, 0)
if self.state.domain == binary_sensor.DOMAIN:
response["queryOnlyOpenClose"] = True
response["discreteOnlyOpenClose"] = True
elif (
self.state.domain == cover.DOMAIN
and features & cover.SUPPORT_SET_POSITION == 0
):
response["discreteOnlyOpenClose"] = True
if (
features & cover.SUPPORT_OPEN == 0
and features & cover.SUPPORT_CLOSE == 0
):
response["queryOnlyOpenClose"] = True
if self.state.attributes.get(ATTR_ASSUMED_STATE):
response["commandOnlyOpenClose"] = True
return response
def query_attributes(self):
"""Return state query attributes."""
domain = self.state.domain
response = {}
# When it's an assumed state, we will return empty state
# This shouldn't happen because we set `commandOnlyOpenClose`
# but Google still queries. Erroring here will cause device
# to show up offline.
if self.state.attributes.get(ATTR_ASSUMED_STATE):
return response
if domain == cover.DOMAIN:
if self.state.state == STATE_UNKNOWN:
raise SmartHomeError(
ERR_NOT_SUPPORTED, "Querying state is not supported"
)
position = self.state.attributes.get(cover.ATTR_CURRENT_POSITION)
if position is not None:
response["openPercent"] = position
elif self.state.state != cover.STATE_CLOSED:
response["openPercent"] = 100
else:
response["openPercent"] = 0
elif domain == binary_sensor.DOMAIN:
if self.state.state == STATE_ON:
response["openPercent"] = 100
else:
response["openPercent"] = 0
return response
async def execute(self, command, data, params, challenge):
"""Execute an Open, close, Set position command."""
domain = self.state.domain
features = self.state.attributes.get(ATTR_SUPPORTED_FEATURES, 0)
if domain == cover.DOMAIN:
svc_params = {ATTR_ENTITY_ID: self.state.entity_id}
should_verify = False
if command == COMMAND_OPENCLOSE_RELATIVE:
position = self.state.attributes.get(cover.ATTR_CURRENT_POSITION)
if position is None:
raise SmartHomeError(
ERR_NOT_SUPPORTED,
"Current position not know for relative command",
)
position = max(0, min(100, position + params["openRelativePercent"]))
else:
position = params["openPercent"]
if position == 0:
service = cover.SERVICE_CLOSE_COVER
should_verify = False
elif position == 100:
service = cover.SERVICE_OPEN_COVER
should_verify = True
elif features & cover.SUPPORT_SET_POSITION:
service = cover.SERVICE_SET_COVER_POSITION
if position > 0:
should_verify = True
svc_params[cover.ATTR_POSITION] = position
else:
raise SmartHomeError(
ERR_NOT_SUPPORTED, "No support for partial open close"
)
if (
should_verify
and self.state.attributes.get(ATTR_DEVICE_CLASS)
in OpenCloseTrait.COVER_2FA
):
_verify_pin_challenge(data, self.state, challenge)
await self.hass.services.async_call(
cover.DOMAIN,
service,
svc_params,
blocking=not self.config.should_report_state,
context=data.context,
)
@register_trait
class VolumeTrait(_Trait):
"""Trait to control volume of a device.
https://developers.google.com/actions/smarthome/traits/volume
"""
name = TRAIT_VOLUME
commands = [COMMAND_SET_VOLUME, COMMAND_VOLUME_RELATIVE, COMMAND_MUTE]
@staticmethod
def supported(domain, features, device_class, _):
"""Test if trait is supported."""
if domain == media_player.DOMAIN:
return features & (
media_player.SUPPORT_VOLUME_SET | media_player.SUPPORT_VOLUME_STEP
)
return False
def sync_attributes(self):
"""Return volume attributes for a sync request."""
features = self.state.attributes.get(ATTR_SUPPORTED_FEATURES, 0)
return {
"volumeCanMuteAndUnmute": bool(features & media_player.SUPPORT_VOLUME_MUTE),
"commandOnlyVolume": self.state.attributes.get(ATTR_ASSUMED_STATE, False),
# Volume amounts in SET_VOLUME and VOLUME_RELATIVE are on a scale
# from 0 to this value.
"volumeMaxLevel": 100,
# Default change for queries like "Hey Google, volume up".
# 10% corresponds to the default behavior for the
# media_player.volume{up,down} services.
"levelStepSize": 10,
}
def query_attributes(self):
"""Return volume query attributes."""
response = {}
level = self.state.attributes.get(media_player.ATTR_MEDIA_VOLUME_LEVEL)
if level is not None:
# Convert 0.0-1.0 to 0-100
response["currentVolume"] = round(level * 100)
muted = self.state.attributes.get(media_player.ATTR_MEDIA_VOLUME_MUTED)
if muted is not None:
response["isMuted"] = bool(muted)
return response
async def _set_volume_absolute(self, data, level):
await self.hass.services.async_call(
media_player.DOMAIN,
media_player.SERVICE_VOLUME_SET,
{
ATTR_ENTITY_ID: self.state.entity_id,
media_player.ATTR_MEDIA_VOLUME_LEVEL: level,
},
blocking=not self.config.should_report_state,
context=data.context,
)
async def _execute_set_volume(self, data, params):
level = max(0, min(100, params["volumeLevel"]))
if not (
self.state.attributes.get(ATTR_SUPPORTED_FEATURES, 0)
& media_player.SUPPORT_VOLUME_SET
):
raise SmartHomeError(ERR_NOT_SUPPORTED, "Command not supported")
await self._set_volume_absolute(data, level / 100)
async def _execute_volume_relative(self, data, params):
relative = params["relativeSteps"]
features = self.state.attributes.get(ATTR_SUPPORTED_FEATURES, 0)
if features & media_player.SUPPORT_VOLUME_SET:
current = self.state.attributes.get(media_player.ATTR_MEDIA_VOLUME_LEVEL)
target = max(0.0, min(1.0, current + relative / 100))
await self._set_volume_absolute(data, target)
elif features & media_player.SUPPORT_VOLUME_STEP:
svc = media_player.SERVICE_VOLUME_UP
if relative < 0:
svc = media_player.SERVICE_VOLUME_DOWN
relative = -relative
for _ in range(relative):
await self.hass.services.async_call(
media_player.DOMAIN,
svc,
{ATTR_ENTITY_ID: self.state.entity_id},
blocking=not self.config.should_report_state,
context=data.context,
)
else:
raise SmartHomeError(ERR_NOT_SUPPORTED, "Command not supported")
async def _execute_mute(self, data, params):
mute = params["mute"]
if not (
self.state.attributes.get(ATTR_SUPPORTED_FEATURES, 0)
& media_player.SUPPORT_VOLUME_MUTE
):
raise SmartHomeError(ERR_NOT_SUPPORTED, "Command not supported")
await self.hass.services.async_call(
media_player.DOMAIN,
media_player.SERVICE_VOLUME_MUTE,
{
ATTR_ENTITY_ID: self.state.entity_id,
media_player.ATTR_MEDIA_VOLUME_MUTED: mute,
},
blocking=not self.config.should_report_state,
context=data.context,
)
async def execute(self, command, data, params, challenge):
"""Execute a volume command."""
if command == COMMAND_SET_VOLUME:
await self._execute_set_volume(data, params)
elif command == COMMAND_VOLUME_RELATIVE:
await self._execute_volume_relative(data, params)
elif command == COMMAND_MUTE:
await self._execute_mute(data, params)
else:
raise SmartHomeError(ERR_NOT_SUPPORTED, "Command not supported")
def _verify_pin_challenge(data, state, challenge):
"""Verify a pin challenge."""
if not data.config.should_2fa(state):
return
if not data.config.secure_devices_pin:
raise SmartHomeError(ERR_CHALLENGE_NOT_SETUP, "Challenge is not set up")
if not challenge:
raise ChallengeNeeded(CHALLENGE_PIN_NEEDED)
if challenge.get("pin") != data.config.secure_devices_pin:
raise ChallengeNeeded(CHALLENGE_FAILED_PIN_NEEDED)
def _verify_ack_challenge(data, state, challenge):
"""Verify an ack challenge."""
if not data.config.should_2fa(state):
return
if not challenge or not challenge.get("ack"):
raise ChallengeNeeded(CHALLENGE_ACK_NEEDED)
MEDIA_COMMAND_SUPPORT_MAPPING = {
COMMAND_MEDIA_NEXT: media_player.SUPPORT_NEXT_TRACK,
COMMAND_MEDIA_PAUSE: media_player.SUPPORT_PAUSE,
COMMAND_MEDIA_PREVIOUS: media_player.SUPPORT_PREVIOUS_TRACK,
COMMAND_MEDIA_RESUME: media_player.SUPPORT_PLAY,
COMMAND_MEDIA_SEEK_RELATIVE: media_player.SUPPORT_SEEK,
COMMAND_MEDIA_SEEK_TO_POSITION: media_player.SUPPORT_SEEK,
COMMAND_MEDIA_SHUFFLE: media_player.SUPPORT_SHUFFLE_SET,
COMMAND_MEDIA_STOP: media_player.SUPPORT_STOP,
}
MEDIA_COMMAND_ATTRIBUTES = {
COMMAND_MEDIA_NEXT: "NEXT",
COMMAND_MEDIA_PAUSE: "PAUSE",
COMMAND_MEDIA_PREVIOUS: "PREVIOUS",
COMMAND_MEDIA_RESUME: "RESUME",
COMMAND_MEDIA_SEEK_RELATIVE: "SEEK_RELATIVE",
COMMAND_MEDIA_SEEK_TO_POSITION: "SEEK_TO_POSITION",
COMMAND_MEDIA_SHUFFLE: "SHUFFLE",
COMMAND_MEDIA_STOP: "STOP",
}
@register_trait
class TransportControlTrait(_Trait):
"""Trait to control media playback.
https://developers.google.com/actions/smarthome/traits/transportcontrol
"""
name = TRAIT_TRANSPORT_CONTROL
commands = [
COMMAND_MEDIA_NEXT,
COMMAND_MEDIA_PAUSE,
COMMAND_MEDIA_PREVIOUS,
COMMAND_MEDIA_RESUME,
COMMAND_MEDIA_SEEK_RELATIVE,
COMMAND_MEDIA_SEEK_TO_POSITION,
COMMAND_MEDIA_SHUFFLE,
COMMAND_MEDIA_STOP,
]
@staticmethod
def supported(domain, features, device_class, _):
"""Test if state is supported."""
if domain == media_player.DOMAIN:
for feature in MEDIA_COMMAND_SUPPORT_MAPPING.values():
if features & feature:
return True
return False
def sync_attributes(self):
"""Return opening direction."""
response = {}
if self.state.domain == media_player.DOMAIN:
features = self.state.attributes.get(ATTR_SUPPORTED_FEATURES, 0)
support = []
for command, feature in MEDIA_COMMAND_SUPPORT_MAPPING.items():
if features & feature:
support.append(MEDIA_COMMAND_ATTRIBUTES[command])
response["transportControlSupportedCommands"] = support
return response
def query_attributes(self):
"""Return the attributes of this trait for this entity."""
return {}
async def execute(self, command, data, params, challenge):
"""Execute a media command."""
service_attrs = {ATTR_ENTITY_ID: self.state.entity_id}
if command == COMMAND_MEDIA_SEEK_RELATIVE:
service = media_player.SERVICE_MEDIA_SEEK
rel_position = params["relativePositionMs"] / 1000
seconds_since = 0 # Default to 0 seconds
if self.state.state == STATE_PLAYING:
now = dt.utcnow()
upd_at = self.state.attributes.get(
media_player.ATTR_MEDIA_POSITION_UPDATED_AT, now
)
seconds_since = (now - upd_at).total_seconds()
position = self.state.attributes.get(media_player.ATTR_MEDIA_POSITION, 0)
max_position = self.state.attributes.get(
media_player.ATTR_MEDIA_DURATION, 0
)
service_attrs[media_player.ATTR_MEDIA_SEEK_POSITION] = min(
max(position + seconds_since + rel_position, 0), max_position
)
elif command == COMMAND_MEDIA_SEEK_TO_POSITION:
service = media_player.SERVICE_MEDIA_SEEK
max_position = self.state.attributes.get(
media_player.ATTR_MEDIA_DURATION, 0
)
service_attrs[media_player.ATTR_MEDIA_SEEK_POSITION] = min(
max(params["absPositionMs"] / 1000, 0), max_position
)
elif command == COMMAND_MEDIA_NEXT:
service = media_player.SERVICE_MEDIA_NEXT_TRACK
elif command == COMMAND_MEDIA_PAUSE:
service = media_player.SERVICE_MEDIA_PAUSE
elif command == COMMAND_MEDIA_PREVIOUS:
service = media_player.SERVICE_MEDIA_PREVIOUS_TRACK
elif command == COMMAND_MEDIA_RESUME:
service = media_player.SERVICE_MEDIA_PLAY
elif command == COMMAND_MEDIA_SHUFFLE:
service = media_player.SERVICE_SHUFFLE_SET
# Google Assistant only supports enabling shuffle
service_attrs[media_player.ATTR_MEDIA_SHUFFLE] = True
elif command == COMMAND_MEDIA_STOP:
service = media_player.SERVICE_MEDIA_STOP
else:
raise SmartHomeError(ERR_NOT_SUPPORTED, "Command not supported")
await self.hass.services.async_call(
media_player.DOMAIN,
service,
service_attrs,
blocking=not self.config.should_report_state,
context=data.context,
)
@register_trait
class MediaStateTrait(_Trait):
"""Trait to get media playback state.
https://developers.google.com/actions/smarthome/traits/mediastate
"""
name = TRAIT_MEDIA_STATE
commands: list[str] = []
activity_lookup = {
STATE_OFF: "INACTIVE",
STATE_IDLE: "STANDBY",
STATE_PLAYING: "ACTIVE",
STATE_ON: "STANDBY",
STATE_PAUSED: "STANDBY",
STATE_STANDBY: "STANDBY",
STATE_UNAVAILABLE: "INACTIVE",
STATE_UNKNOWN: "INACTIVE",
}
playback_lookup = {
STATE_OFF: "STOPPED",
STATE_IDLE: "STOPPED",
STATE_PLAYING: "PLAYING",
STATE_ON: "STOPPED",
STATE_PAUSED: "PAUSED",
STATE_STANDBY: "STOPPED",
STATE_UNAVAILABLE: "STOPPED",
STATE_UNKNOWN: "STOPPED",
}
@staticmethod
def supported(domain, features, device_class, _):
"""Test if state is supported."""
return domain == media_player.DOMAIN
def sync_attributes(self):
"""Return attributes for a sync request."""
return {"supportActivityState": True, "supportPlaybackState": True}
def query_attributes(self):
"""Return the attributes of this trait for this entity."""
return {
"activityState": self.activity_lookup.get(self.state.state, "INACTIVE"),
"playbackState": self.playback_lookup.get(self.state.state, "STOPPED"),
}
@register_trait
class ChannelTrait(_Trait):
"""Trait to get media playback state.
https://developers.google.com/actions/smarthome/traits/channel
"""
name = TRAIT_CHANNEL
commands = [COMMAND_SELECT_CHANNEL]
@staticmethod
def supported(domain, features, device_class, _):
"""Test if state is supported."""
if (
domain == media_player.DOMAIN
and (features & media_player.SUPPORT_PLAY_MEDIA)
and device_class == media_player.MediaPlayerDeviceClass.TV
):
return True
return False
def sync_attributes(self):
"""Return attributes for a sync request."""
return {"availableChannels": [], "commandOnlyChannels": True}
def query_attributes(self):
"""Return channel query attributes."""
return {}
async def execute(self, command, data, params, challenge):
"""Execute an setChannel command."""
if command == COMMAND_SELECT_CHANNEL:
channel_number = params.get("channelNumber")
else:
raise SmartHomeError(ERR_NOT_SUPPORTED, "Unsupported command")
if not channel_number:
raise SmartHomeError(
ERR_NO_AVAILABLE_CHANNEL,
"Channel is not available",
)
await self.hass.services.async_call(
media_player.DOMAIN,
media_player.SERVICE_PLAY_MEDIA,
{
ATTR_ENTITY_ID: self.state.entity_id,
media_player.ATTR_MEDIA_CONTENT_ID: channel_number,
media_player.ATTR_MEDIA_CONTENT_TYPE: MediaType.CHANNEL,
},
blocking=not self.config.should_report_state,
context=data.context,
)
@register_trait
class SensorStateTrait(_Trait):
"""Trait to get sensor state.
https://developers.google.com/actions/smarthome/traits/sensorstate
"""
sensor_types = {
sensor.SensorDeviceClass.AQI: ("AirQuality", "AQI"),
sensor.SensorDeviceClass.CO: ("CarbonMonoxideLevel", "PARTS_PER_MILLION"),
sensor.SensorDeviceClass.CO2: ("CarbonDioxideLevel", "PARTS_PER_MILLION"),
sensor.SensorDeviceClass.PM25: ("PM2.5", "MICROGRAMS_PER_CUBIC_METER"),
sensor.SensorDeviceClass.PM10: ("PM10", "MICROGRAMS_PER_CUBIC_METER"),
sensor.SensorDeviceClass.VOLATILE_ORGANIC_COMPOUNDS: (
"VolatileOrganicCompounds",
"PARTS_PER_MILLION",
),
}
name = TRAIT_SENSOR_STATE
commands: list[str] = []
@classmethod
def supported(cls, domain, features, device_class, _):
"""Test if state is supported."""
return domain == sensor.DOMAIN and device_class in cls.sensor_types
def sync_attributes(self):
"""Return attributes for a sync request."""
device_class = self.state.attributes.get(ATTR_DEVICE_CLASS)
if (data := self.sensor_types.get(device_class)) is not None:
return {
"sensorStatesSupported": {
"name": data[0],
"numericCapabilities": {"rawValueUnit": data[1]},
}
}
def query_attributes(self):
"""Return the attributes of this trait for this entity."""
device_class = self.state.attributes.get(ATTR_DEVICE_CLASS)
if (data := self.sensor_types.get(device_class)) is not None:
return {
"currentSensorStateData": [
{"name": data[0], "rawValue": self.state.state}
]
}