# -*- coding: utf-8 -*- """async_upnp_client.profiles.profile module.""" import asyncio import logging import time from datetime import timedelta from typing import Any, Dict, FrozenSet, List, Optional, Sequence, Set, Union from async_upnp_client.client import ( EventCallbackType, UpnpAction, UpnpDevice, UpnpService, UpnpStateVariable, UpnpValueError, ) from async_upnp_client.const import AddressTupleVXType from async_upnp_client.event_handler import UpnpEventHandler from async_upnp_client.exceptions import ( UpnpConnectionError, UpnpError, UpnpResponseError, ) from async_upnp_client.search import async_search from async_upnp_client.ssdp import SSDP_MX from async_upnp_client.utils import CaseInsensitiveDict _LOGGER = logging.getLogger(__name__) SUBSCRIBE_TIMEOUT = timedelta(minutes=9) RESUBSCRIBE_TOLERANCE = timedelta(minutes=1) RESUBSCRIBE_TOLERANCE_SECS = RESUBSCRIBE_TOLERANCE.total_seconds() def find_device_of_type(device: UpnpDevice, device_types: List[str]) -> UpnpDevice: """Find the (embedded) UpnpDevice of any of the device types.""" for device_ in device.all_devices: if device_.device_type in device_types: return device_ raise UpnpError(f"Could not find device of type: {device_types}") class UpnpProfileDevice: """ Base class for UpnpProfileDevices. Override _SERVICE_TYPES for aliases. Override SERVICE_IDS for required service_id values. """ DEVICE_TYPES: List[str] = [] SERVICE_IDS: FrozenSet[str] = frozenset() _SERVICE_TYPES: Dict[str, Set[str]] = {} @classmethod async def async_search( cls, source: Optional[AddressTupleVXType] = None, timeout: int = SSDP_MX ) -> Set[CaseInsensitiveDict]: """ Search for this device type. This only returns search info, not a profile itself. :param source_ip Source IP to scan from :param timeout Timeout to use :return: Set of devices (dicts) found """ responses = set() async def on_response(data: CaseInsensitiveDict) -> None: if "st" in data and data["st"] in cls.DEVICE_TYPES: responses.add(data) await async_search(async_callback=on_response, source=source, timeout=timeout) return responses @classmethod async def async_discover(cls) -> Set[CaseInsensitiveDict]: """Alias for async_search.""" return await cls.async_search() @classmethod def is_profile_device(cls, device: UpnpDevice) -> bool: """Check for device's support of the profile defined in this (sub)class. The device must be (or have an embedded device) that matches the class device type, and it must provide all services that are defined by this class. """ try: profile_device = find_device_of_type(device, cls.DEVICE_TYPES) except UpnpError: return False # Check that every service required by the subclass is declared by the device device_service_ids = { service.service_id for service in profile_device.all_services } if not cls.SERVICE_IDS.issubset(device_service_ids): return False return True def __init__( self, device: UpnpDevice, event_handler: Optional[UpnpEventHandler] ) -> None: """Initialize.""" self.device = device self.profile_device = find_device_of_type(device, self.DEVICE_TYPES) self._event_handler = event_handler self.on_event: Optional[EventCallbackType] = None self._icon: Optional[str] = None # Map of SID to renewal timestamp (monotonic clock seconds) self._subscriptions: Dict[str, float] = {} self._resubscriber_task: Optional[asyncio.Task] = None @property def name(self) -> str: """Get the name of the device.""" return self.profile_device.name @property def manufacturer(self) -> str: """Get the manufacturer of this device.""" return self.profile_device.manufacturer @property def model_description(self) -> Optional[str]: """Get the model description of this device.""" return self.profile_device.model_description @property def model_name(self) -> str: """Get the model name of this device.""" return self.profile_device.model_name @property def model_number(self) -> Optional[str]: """Get the model number of this device.""" return self.profile_device.model_number @property def serial_number(self) -> Optional[str]: """Get the serial number of this device.""" return self.profile_device.serial_number @property def udn(self) -> str: """Get the UDN of the device.""" return self.profile_device.udn @property def device_type(self) -> str: """Get the device type of this device.""" return self.profile_device.device_type @property def icon(self) -> Optional[str]: """Get a URL for the biggest icon for this device.""" if not self.profile_device.icons: return None if not self._icon: icon_mime_preference = {"image/png": 3, "image/jpeg": 2, "image/gif": 1} icons = [icon for icon in self.profile_device.icons if icon.url] icons = sorted( icons, # Sort by area, then colour depth, then preferred mimetype key=lambda icon: ( icon.width * icon.height, icon.depth, icon_mime_preference.get(icon.mimetype, 0), ), reverse=True, ) self._icon = icons[0].url return self._icon def _service(self, service_type_abbreviation: str) -> Optional[UpnpService]: """Get UpnpService by service_type or alias.""" if not self.profile_device: return None if service_type_abbreviation not in self._SERVICE_TYPES: return None for service_type in self._SERVICE_TYPES[service_type_abbreviation]: service = self.profile_device.find_service(service_type) if service: return service return None def _state_variable( self, service_name: str, state_variable_name: str ) -> Optional[UpnpStateVariable]: """Get state_variable from service.""" service = self._service(service_name) if not service: return None if not service.has_state_variable(state_variable_name): return None return service.state_variable(state_variable_name) def _action(self, service_name: str, action_name: str) -> Optional[UpnpAction]: """Check if service has action.""" service = self._service(service_name) if not service: return None if not service.has_action(action_name): return None return service.action(action_name) def _interesting_service(self, service: UpnpService) -> bool: """Check if service is a service we're interested in.""" service_type = service.service_type for service_types in self._SERVICE_TYPES.values(): if service_type in service_types: return True return False async def _async_resubscribe_services( self, now: Optional[float] = None, notify_errors: bool = False ) -> None: """Renew existing subscriptions. :param now: time.monotonic reference for current time :param notify_errors: Call on_event in case of error instead of raising """ assert self._event_handler if now is None: now = time.monotonic() renewal_threshold = now - RESUBSCRIBE_TOLERANCE_SECS _LOGGER.debug("Resubscribing to services with threshold %f", renewal_threshold) for sid, renewal_time in list(self._subscriptions.items()): if renewal_time < renewal_threshold: _LOGGER.debug("Skipping %s with renewal_time %f", sid, renewal_time) continue _LOGGER.debug("Resubscribing to %s with renewal_time %f", sid, renewal_time) # Subscription is going to be changed, no matter what del self._subscriptions[sid] # Determine service for on_event call in case of failure service = self._event_handler.service_for_sid(sid) if not service: _LOGGER.error("Subscription for %s was lost", sid) continue try: new_sid, timeout = await self._event_handler.async_resubscribe( sid, timeout=SUBSCRIBE_TIMEOUT ) except UpnpError as err: if isinstance(err, UpnpConnectionError): # Device has gone offline self.profile_device.available = False _LOGGER.warning("Failed (re-)subscribing to: %s, reason: %r", sid, err) if notify_errors: # Notify event listeners that something has changed self._on_event(service, []) else: raise else: self._subscriptions[new_sid] = now + timeout.total_seconds() async def _resubscribe_loop(self) -> None: """Periodically resubscribes to current subscriptions.""" _LOGGER.debug("_resubscribe_loop started") while self._subscriptions: next_renewal = min(self._subscriptions.values()) wait_time = next_renewal - time.monotonic() - RESUBSCRIBE_TOLERANCE_SECS _LOGGER.debug("Resubscribing in %f seconds", wait_time) if wait_time > 0: await asyncio.sleep(wait_time) await self._async_resubscribe_services(notify_errors=True) _LOGGER.debug("_resubscribe_loop ended because of no subscriptions") async def _update_resubscriber_task(self) -> None: """Start or stop the resubscriber task, depending on having subscriptions.""" # Clear out done task to make later logic easier if self._resubscriber_task and self._resubscriber_task.cancelled(): self._resubscriber_task = None if self._subscriptions and not self._resubscriber_task: _LOGGER.debug("Creating resubscribe_task") # pylint: disable=fixme self._resubscriber_task = asyncio.create_task( self._resubscribe_loop(), name=f"UpnpProfileDevice({self.name})._resubscriber_task", ) if not self._subscriptions and self._resubscriber_task: _LOGGER.debug("Cancelling resubscribe_task") self._resubscriber_task.cancel() try: await self._resubscriber_task except asyncio.CancelledError: pass self._resubscriber_task = None async def async_subscribe_services( self, auto_resubscribe: bool = False ) -> Optional[timedelta]: """(Re-)Subscribe to services. :param auto_resubscribe: Automatically resubscribe to subscriptions before they expire. If this is enabled, failure to resubscribe will be indicated by on_event being called with the failed service and an empty state_variables list. :return: time until this next needs to be called, or None if manual resubscription is not needed. :raise UpnpResponseError: Device rejected subscription request. State variables will need to be polled. :raise UpnpError or subclass: Failed to subscribe to all interesting services. """ if not self._event_handler: _LOGGER.info("No event_handler, event handling disabled") return None # Using time.monotonic to avoid problems with system clock changes now = time.monotonic() try: if self._subscriptions: # Resubscribe existing subscriptions await self._async_resubscribe_services(now) else: # Subscribe to services we are interested in for service in self.profile_device.all_services: if not self._interesting_service(service): continue _LOGGER.debug("Subscribing to service: %s", service) service.on_event = self._on_event new_sid, timeout = await self._event_handler.async_subscribe( service, timeout=SUBSCRIBE_TIMEOUT ) self._subscriptions[new_sid] = now + timeout.total_seconds() except UpnpError as err: if isinstance(err, UpnpResponseError) and not self._subscriptions: _LOGGER.info("Device rejected subscription request: %r", err) else: _LOGGER.warning("Failed subscribing to service: %r", err) # Unsubscribe anything that was subscribed, no half-done subscriptions try: await self.async_unsubscribe_services() except UpnpError: pass raise if not self._subscriptions: return None if auto_resubscribe: await self._update_resubscriber_task() return None lowest_timeout_delta = min(self._subscriptions.values()) - now resubcription_timeout = ( timedelta(seconds=lowest_timeout_delta) - RESUBSCRIBE_TOLERANCE ) return max(resubcription_timeout, timedelta(seconds=0)) async def _async_unsubscribe_service(self, sid: str) -> None: """Unsubscribe from one service, handling possible exceptions.""" assert self._event_handler try: await self._event_handler.async_unsubscribe(sid) except UpnpError as err: _LOGGER.debug("Failed unsubscribing from: %s, reason: %r", sid, err) except KeyError: _LOGGER.warning( "%s was already unsubscribed. AiohttpNotifyServer was " "probably stopped before we could unsubscribe.", sid, ) async def async_unsubscribe_services(self) -> None: """Unsubscribe from all of our subscribed services.""" # Delete list of subscriptions and cancel renewal before unsubscribing # to avoid unsub-resub race. sids = list(self._subscriptions) self._subscriptions.clear() await self._update_resubscriber_task() await asyncio.gather(*(self._async_unsubscribe_service(sid) for sid in sids)) @property def is_subscribed(self) -> bool: """Get current service subscription state.""" return bool(self._subscriptions) async def _async_poll_state_variables( self, service_name: str, action_names: Union[str, Sequence[str]], **in_args: Any ) -> None: """Update state variables by polling actions that return their values. Assumes that the actions's relatedStateVariable names the correct state variable for updating. """ service = self._service(service_name) if not service: _LOGGER.debug("Can't poll missing service %s", service_name) return if isinstance(action_names, str): action_names = [action_names] changed_state_variables: List[UpnpStateVariable] = [] for action_name in action_names: try: action = service.action(action_name) except KeyError: _LOGGER.debug( "Can't poll missing action %s:%s for state variables", service_name, action_name, ) continue try: result = await action.async_call(**in_args) except UpnpResponseError as err: _LOGGER.debug( "Failed to call action %s:%s for state variables: %r", service_name, action_name, err, ) continue for arg in action.arguments: if arg.direction != "out": continue if arg.name not in result: continue if arg.related_state_variable.value == arg.value: continue try: arg.related_state_variable.value = arg.value except UpnpValueError: continue changed_state_variables.append(arg.related_state_variable) if changed_state_variables: self._on_event(service, changed_state_variables) def _on_event( self, service: UpnpService, state_variables: Sequence[UpnpStateVariable] ) -> None: """ State variable(s) changed. Override to handle events. :param service Service which sent the event. :param state_variables State variables which have been changed. """ if self.on_event: self.on_event(service, state_variables) # pylint: disable=not-callable