"""Module for a SMART device.""" import base64 import logging from datetime import datetime, timedelta, timezone from typing import TYPE_CHECKING, Any, Dict, List, Optional, Sequence, cast from ..aestransport import AesTransport from ..device import Device, WifiNetwork from ..device_type import DeviceType from ..deviceconfig import DeviceConfig from ..emeterstatus import EmeterStatus from ..exceptions import AuthenticationException, SmartDeviceException from ..feature import Feature, FeatureType from ..smartprotocol import SmartProtocol _LOGGER = logging.getLogger(__name__) if TYPE_CHECKING: from .smartchilddevice import SmartChildDevice class SmartDevice(Device): """Base class to represent a SMART protocol based device.""" def __init__( self, host: str, *, config: Optional[DeviceConfig] = None, protocol: Optional[SmartProtocol] = None, ) -> None: _protocol = protocol or SmartProtocol( transport=AesTransport(config=config or DeviceConfig(host=host)), ) super().__init__(host=host, config=config, protocol=_protocol) self.protocol: SmartProtocol self._components_raw: Optional[Dict[str, Any]] = None self._components: Dict[str, int] = {} self._children: Dict[str, "SmartChildDevice"] = {} self._energy: Dict[str, Any] = {} self._state_information: Dict[str, Any] = {} self._time: Dict[str, Any] = {} async def _initialize_children(self): """Initialize children for power strips.""" children = self._last_update["child_info"]["child_device_list"] # TODO: Use the type information to construct children, # as hubs can also have them. from .smartchilddevice import SmartChildDevice self._children = { child["device_id"]: SmartChildDevice( parent=self, child_id=child["device_id"] ) for child in children } self._device_type = DeviceType.Strip @property def children(self) -> Sequence["SmartDevice"]: """Return list of children.""" return list(self._children.values()) async def update(self, update_children: bool = True): """Update the device.""" if self.credentials is None and self.credentials_hash is None: raise AuthenticationException("Tapo plug requires authentication.") if self._components_raw is None: resp = await self.protocol.query("component_nego") self._components_raw = resp["component_nego"] self._components = { comp["id"]: int(comp["ver_code"]) for comp in self._components_raw["component_list"] } await self._initialize_modules() extra_reqs: Dict[str, Any] = {} if "child_device" in self._components: extra_reqs = {**extra_reqs, "get_child_device_list": None} if "energy_monitoring" in self._components: extra_reqs = { **extra_reqs, "get_energy_usage": None, "get_current_power": None, } if self._components["device"] >= 2: extra_reqs = { **extra_reqs, "get_device_usage": None, } req = { "get_device_info": None, "get_device_time": None, **extra_reqs, } resp = await self.protocol.query(req) self._info = resp["get_device_info"] self._time = resp["get_device_time"] # Device usage is not available on older firmware versions self._usage = resp.get("get_device_usage", {}) # Emeter is not always available, but we set them still for now. self._energy = resp.get("get_energy_usage", {}) self._emeter = resp.get("get_current_power", {}) self._last_update = { "components": self._components_raw, "info": self._info, "usage": self._usage, "time": self._time, "energy": self._energy, "emeter": self._emeter, "child_info": resp.get("get_child_device_list", {}), } if child_info := self._last_update.get("child_info"): if not self.children: await self._initialize_children() for info in child_info["child_device_list"]: self._children[info["device_id"]].update_internal_state(info) # We can first initialize the features after the first update. # We make here an assumption that every device has at least a single feature. if not self._features: await self._initialize_features() _LOGGER.debug("Got an update: %s", self._last_update) async def _initialize_modules(self): """Initialize modules based on component negotiation response.""" if "energy_monitoring" in self._components: self.emeter_type = "emeter" async def _initialize_features(self): """Initialize device features.""" self._add_feature( Feature( self, "Signal Level", attribute_getter=lambda x: x._info["signal_level"], icon="mdi:signal", ) ) self._add_feature( Feature( self, "RSSI", attribute_getter=lambda x: x._info["rssi"], icon="mdi:signal", ) ) self._add_feature( Feature(device=self, name="SSID", attribute_getter="ssid", icon="mdi:wifi") ) if "overheated" in self._info: self._add_feature( Feature( self, "Overheated", attribute_getter=lambda x: x._info["overheated"], icon="mdi:heat-wave", type=FeatureType.BinarySensor, ) ) # We check for the key available, and not for the property truthiness, # as the value is falsy when the device is off. if "on_time" in self._info: self._add_feature( Feature( device=self, name="On since", attribute_getter="on_since", icon="mdi:clock", ) ) @property def sys_info(self) -> Dict[str, Any]: """Returns the device info.""" return self._info # type: ignore @property def model(self) -> str: """Returns the device model.""" return str(self._info.get("model")) @property def alias(self) -> Optional[str]: """Returns the device alias or nickname.""" if self._info and (nickname := self._info.get("nickname")): return base64.b64decode(nickname).decode() else: return None @property def time(self) -> datetime: """Return the time.""" td = timedelta(minutes=cast(float, self._time.get("time_diff"))) if self._time.get("region"): tz = timezone(td, str(self._time.get("region"))) else: # in case the device returns a blank region this will result in the # tzname being a UTC offset tz = timezone(td) return datetime.fromtimestamp( cast(float, self._time.get("timestamp")), tz=tz, ) @property def timezone(self) -> Dict: """Return the timezone and time_difference.""" ti = self.time return {"timezone": ti.tzname()} @property def hw_info(self) -> Dict: """Return hardware info for the device.""" return { "sw_ver": self._info.get("fw_ver"), "hw_ver": self._info.get("hw_ver"), "mac": self._info.get("mac"), "type": self._info.get("type"), "hwId": self._info.get("device_id"), "dev_name": self.alias, "oemId": self._info.get("oem_id"), } @property def location(self) -> Dict: """Return the device location.""" loc = { "latitude": cast(float, self._info.get("latitude", 0)) / 10_000, "longitude": cast(float, self._info.get("longitude", 0)) / 10_000, } return loc @property def rssi(self) -> Optional[int]: """Return the rssi.""" rssi = self._info.get("rssi") return int(rssi) if rssi else None @property def mac(self) -> str: """Return the mac formatted with colons.""" return str(self._info.get("mac")).replace("-", ":") @property def device_id(self) -> str: """Return the device id.""" return str(self._info.get("device_id")) @property def internal_state(self) -> Any: """Return all the internal state data.""" return self._last_update async def _query_helper( self, method: str, params: Optional[Dict] = None, child_ids=None ) -> Any: res = await self.protocol.query({method: params}) return res @property def ssid(self) -> str: """Return ssid of the connected wifi ap.""" ssid = self._info.get("ssid") ssid = base64.b64decode(ssid).decode() if ssid else "No SSID" return ssid @property def state_information(self) -> Dict[str, Any]: """Return the key state information.""" return { "overheated": self._info.get("overheated"), "signal_level": self._info.get("signal_level"), "SSID": self.ssid, } @property def has_emeter(self) -> bool: """Return if the device has emeter.""" return "energy_monitoring" in self._components @property def is_on(self) -> bool: """Return true if the device is on.""" return bool(self._info.get("device_on")) async def turn_on(self, **kwargs): """Turn on the device.""" await self.protocol.query({"set_device_info": {"device_on": True}}) async def turn_off(self, **kwargs): """Turn off the device.""" await self.protocol.query({"set_device_info": {"device_on": False}}) def update_from_discover_info(self, info): """Update state from info from the discover call.""" self._discovery_info = info self._info = info async def get_emeter_realtime(self) -> EmeterStatus: """Retrieve current energy readings.""" self._verify_emeter() resp = await self.protocol.query("get_energy_usage") self._energy = resp["get_energy_usage"] return self.emeter_realtime def _convert_energy_data(self, data, scale) -> Optional[float]: """Return adjusted emeter information.""" return data if not data else data * scale def _verify_emeter(self) -> None: """Raise an exception if there is no emeter.""" if not self.has_emeter: raise SmartDeviceException("Device has no emeter") if self.emeter_type not in self._last_update: raise SmartDeviceException("update() required prior accessing emeter") @property def emeter_realtime(self) -> EmeterStatus: """Get the emeter status.""" return EmeterStatus( { "power_mw": self._energy.get("current_power"), "total": self._convert_energy_data( self._energy.get("today_energy"), 1 / 1000 ), } ) @property def emeter_this_month(self) -> Optional[float]: """Get the emeter value for this month.""" return self._convert_energy_data(self._energy.get("month_energy"), 1 / 1000) @property def emeter_today(self) -> Optional[float]: """Get the emeter value for today.""" return self._convert_energy_data(self._energy.get("today_energy"), 1 / 1000) @property def on_since(self) -> Optional[datetime]: """Return the time that the device was turned on or None if turned off.""" if ( not self._info.get("device_on") or (on_time := self._info.get("on_time")) is None ): return None on_time = cast(float, on_time) return datetime.now().replace(microsecond=0) - timedelta(seconds=on_time) async def wifi_scan(self) -> List[WifiNetwork]: """Scan for available wifi networks.""" def _net_for_scan_info(res): return WifiNetwork( ssid=base64.b64decode(res["ssid"]).decode(), cipher_type=res["cipher_type"], key_type=res["key_type"], channel=res["channel"], signal_level=res["signal_level"], bssid=res["bssid"], ) async def _query_networks(networks=None, start_index=0): _LOGGER.debug("Querying networks using start_index=%s", start_index) if networks is None: networks = [] resp = await self.protocol.query( {"get_wireless_scan_info": {"start_index": start_index}} ) network_list = [ _net_for_scan_info(net) for net in resp["get_wireless_scan_info"]["ap_list"] ] networks.extend(network_list) if resp["get_wireless_scan_info"].get("sum", 0) > start_index + 10: return await _query_networks(networks, start_index=start_index + 10) return networks return await _query_networks() async def wifi_join(self, ssid: str, password: str, keytype: str = "wpa2_psk"): """Join the given wifi network. This method returns nothing as the device tries to activate the new settings immediately instead of responding to the request. If joining the network fails, the device will return to the previous state after some delay. """ if not self.credentials: raise AuthenticationException("Device requires authentication.") payload = { "account": { "username": base64.b64encode( self.credentials.username.encode() ).decode(), "password": base64.b64encode( self.credentials.password.encode() ).decode(), }, "wireless": { "key_type": keytype, "password": base64.b64encode(password.encode()).decode(), "ssid": base64.b64encode(ssid.encode()).decode(), }, "time": self.internal_state["time"], } # The device does not respond to the request but changes the settings # immediately which causes us to timeout. # Thus, We limit retries and suppress the raised exception as useless. try: return await self.protocol.query({"set_qs_info": payload}, retry_count=0) except SmartDeviceException as ex: if ex.error_code: # Re-raise on device-reported errors raise _LOGGER.debug("Received an expected for wifi join, but this is expected") async def update_credentials(self, username: str, password: str): """Update device credentials. This will replace the existing authentication credentials on the device. """ t = self.internal_state["time"] payload = { "account": { "username": base64.b64encode(username.encode()).decode(), "password": base64.b64encode(password.encode()).decode(), }, "time": t, } return await self.protocol.query({"set_qs_info": payload}) async def set_alias(self, alias: str): """Set the device name (alias).""" return await self.protocol.query( {"set_device_info": {"nickname": base64.b64encode(alias.encode()).decode()}} ) async def reboot(self, delay: int = 1) -> None: """Reboot the device. Note that giving a delay of zero causes this to block, as the device reboots immediately without responding to the call. """ await self.protocol.query({"device_reboot": {"delay": delay}}) async def factory_reset(self) -> None: """Reset device back to factory settings. Note, this does not downgrade the firmware. """ await self.protocol.query("device_reset")