"""Interact with modules. Modules are implemented by devices to encapsulate sets of functionality like Light, AutoOff, Firmware etc. >>> from kasa import Discover, Module >>> >>> dev = await Discover.discover_single( >>> "127.0.0.3", >>> username="user@example.com", >>> password="great_password" >>> ) >>> await dev.update() >>> print(dev.alias) Living Room Bulb To see whether a device supports functionality check for the existence of the module: >>> if light := dev.modules.get("Light"): >>> print(light.hsv) HSV(hue=0, saturation=100, value=100) If you know or expect the module to exist you can access by index: >>> light_preset = dev.modules["LightPreset"] >>> print(light_preset.preset_list) ['Not set', 'Light preset 1', 'Light preset 2', 'Light preset 3',\ 'Light preset 4', 'Light preset 5', 'Light preset 6', 'Light preset 7'] Modules support typing via the Module names in Module: >>> from typing import reveal_type, TYPE_CHECKING >>> light_effect = dev.modules.get("LightEffect") >>> light_effect_typed = dev.modules.get(Module.LightEffect) >>> if TYPE_CHECKING: >>> reveal_type(light_effect) # Static checker will reveal: str >>> reveal_type(light_effect_typed) # Static checker will reveal: LightEffect """ from __future__ import annotations import logging from abc import ABC, abstractmethod from collections.abc import Callable from functools import cache from typing import ( TYPE_CHECKING, Final, TypeVar, get_type_hints, ) from .exceptions import KasaException from .feature import Feature from .modulemapping import ModuleName if TYPE_CHECKING: from . import interfaces from .device import Device from .iot import modules as iot from .smart import modules as smart from .smartcam import modules as smartcam _LOGGER = logging.getLogger(__name__) ModuleT = TypeVar("ModuleT", bound="Module") class FeatureAttribute: """Class for annotating attributes bound to feature.""" class Module(ABC): """Base class implemention for all modules. The base classes should implement `query` to return the query they want to be executed during the regular update cycle. """ # Common Modules Energy: Final[ModuleName[interfaces.Energy]] = ModuleName("Energy") Fan: Final[ModuleName[interfaces.Fan]] = ModuleName("Fan") LightEffect: Final[ModuleName[interfaces.LightEffect]] = ModuleName("LightEffect") Led: Final[ModuleName[interfaces.Led]] = ModuleName("Led") Light: Final[ModuleName[interfaces.Light]] = ModuleName("Light") LightPreset: Final[ModuleName[interfaces.LightPreset]] = ModuleName("LightPreset") Time: Final[ModuleName[interfaces.Time]] = ModuleName("Time") # IOT only Modules IotAmbientLight: Final[ModuleName[iot.AmbientLight]] = ModuleName("ambient") IotAntitheft: Final[ModuleName[iot.Antitheft]] = ModuleName("anti_theft") IotCountdown: Final[ModuleName[iot.Countdown]] = ModuleName("countdown") IotMotion: Final[ModuleName[iot.Motion]] = ModuleName("motion") IotSchedule: Final[ModuleName[iot.Schedule]] = ModuleName("schedule") IotUsage: Final[ModuleName[iot.Usage]] = ModuleName("usage") IotCloud: Final[ModuleName[iot.Cloud]] = ModuleName("cloud") # SMART only Modules Alarm: Final[ModuleName[smart.Alarm]] = ModuleName("Alarm") AutoOff: Final[ModuleName[smart.AutoOff]] = ModuleName("AutoOff") BatterySensor: Final[ModuleName[smart.BatterySensor]] = ModuleName("BatterySensor") Brightness: Final[ModuleName[smart.Brightness]] = ModuleName("Brightness") ChildDevice: Final[ModuleName[smart.ChildDevice]] = ModuleName("ChildDevice") Cloud: Final[ModuleName[smart.Cloud]] = ModuleName("Cloud") Color: Final[ModuleName[smart.Color]] = ModuleName("Color") ColorTemperature: Final[ModuleName[smart.ColorTemperature]] = ModuleName( "ColorTemperature" ) ContactSensor: Final[ModuleName[smart.ContactSensor]] = ModuleName("ContactSensor") DeviceModule: Final[ModuleName[smart.DeviceModule]] = ModuleName("DeviceModule") Firmware: Final[ModuleName[smart.Firmware]] = ModuleName("Firmware") FrostProtection: Final[ModuleName[smart.FrostProtection]] = ModuleName( "FrostProtection" ) HumiditySensor: Final[ModuleName[smart.HumiditySensor]] = ModuleName( "HumiditySensor" ) LightTransition: Final[ModuleName[smart.LightTransition]] = ModuleName( "LightTransition" ) MotionSensor: Final[ModuleName[smart.MotionSensor]] = ModuleName("MotionSensor") ReportMode: Final[ModuleName[smart.ReportMode]] = ModuleName("ReportMode") SmartLightEffect: Final[ModuleName[smart.SmartLightEffect]] = ModuleName( "LightEffect" ) IotLightEffect: Final[ModuleName[iot.LightEffect]] = ModuleName("LightEffect") TemperatureSensor: Final[ModuleName[smart.TemperatureSensor]] = ModuleName( "TemperatureSensor" ) TemperatureControl: Final[ModuleName[smart.TemperatureControl]] = ModuleName( "TemperatureControl" ) WaterleakSensor: Final[ModuleName[smart.WaterleakSensor]] = ModuleName( "WaterleakSensor" ) ChildProtection: Final[ModuleName[smart.ChildProtection]] = ModuleName( "ChildProtection" ) TriggerLogs: Final[ModuleName[smart.TriggerLogs]] = ModuleName("TriggerLogs") # SMARTCAM only modules Camera: Final[ModuleName[smartcam.Camera]] = ModuleName("Camera") def __init__(self, device: Device, module: str) -> None: self._device = device self._module = module self._module_features: dict[str, Feature] = {} def has_feature(self, attribute: str | property | Callable) -> bool: """Return True if the module attribute feature is supported.""" return bool(self.get_feature(attribute)) def get_feature(self, attribute: str | property | Callable) -> Feature | None: """Get Feature for a module attribute or None if not supported.""" return _get_bound_feature(self, attribute) @abstractmethod def query(self) -> dict: """Query to execute during the update cycle. The inheriting modules implement this to include their wanted queries to the query that gets executed when Device.update() gets called. """ @property @abstractmethod def data(self) -> dict: """Return the module specific raw data from the last update.""" def _initialize_features(self) -> None: # noqa: B027 """Initialize features after the initial update. This can be implemented if features depend on module query responses. It will only be called once per module and will always be called after *_post_update_hook* has been called for every device module and its children's modules. """ async def _post_update_hook(self) -> None: # noqa: B027 """Perform actions after a device update. This can be implemented if a module needs to perform actions each time the device has updated like generating collections for property access. It will be called after every update and will be called prior to *_initialize_features* on the first update. """ def _add_feature(self, feature: Feature) -> None: """Add module feature.""" id_ = feature.id if id_ in self._module_features: raise KasaException(f"Duplicate id detected {id_}") self._module_features[id_] = feature def __repr__(self) -> str: return ( f"" ) def _is_bound_feature(attribute: property | Callable) -> bool: """Check if an attribute is bound to a feature with FeatureAttribute.""" if isinstance(attribute, property): hints = get_type_hints(attribute.fget, include_extras=True) else: hints = get_type_hints(attribute, include_extras=True) if (return_hints := hints.get("return")) and hasattr(return_hints, "__metadata__"): metadata = hints["return"].__metadata__ for meta in metadata: if isinstance(meta, FeatureAttribute): return True return False @cache def _get_bound_feature( module: Module, attribute: str | property | Callable ) -> Feature | None: """Get Feature for a bound property or None if not supported.""" if not isinstance(attribute, str): if isinstance(attribute, property): # Properties have __name__ in 3.13 so this could be simplified # when only 3.13 supported attribute_name = attribute.fget.__name__ # type: ignore[union-attr] else: attribute_name = attribute.__name__ attribute_callable = attribute else: if TYPE_CHECKING: assert isinstance(attribute, str) attribute_name = attribute attribute_callable = getattr(module.__class__, attribute, None) # type: ignore[assignment] if not attribute_callable: raise KasaException( f"No attribute named {attribute_name} in " f"module {module.__class__.__name__}" ) if not _is_bound_feature(attribute_callable): raise KasaException( f"Attribute {attribute_name} of module {module.__class__.__name__}" " is not bound to a feature" ) check = {attribute_name, attribute_callable} for feature in module._module_features.values(): if (getter := feature.attribute_getter) and getter in check: return feature if (setter := feature.attribute_setter) and setter in check: return feature return None