# -*- coding: utf-8 -*- """async_upnp_client.client_factory module.""" import logging import urllib.parse from typing import Any, Callable, Dict, List, Mapping, Optional, Sequence from xml.etree import ElementTree as ET import defusedxml.ElementTree as DET import voluptuous as vol from async_upnp_client.client import ( UpnpAction, UpnpDevice, UpnpError, UpnpRequester, UpnpService, UpnpStateVariable, default_on_post_call_action, default_on_post_receive_device_spec, default_on_post_receive_service_spec, default_on_pre_call_action, default_on_pre_receive_device_spec, default_on_pre_receive_service_spec, ) from async_upnp_client.const import ( NS, STATE_VARIABLE_TYPE_MAPPING, ActionArgumentInfo, ActionInfo, DeviceIcon, DeviceInfo, HttpRequest, HttpResponse, ServiceInfo, StateVariableInfo, StateVariableTypeInfo, ) from async_upnp_client.exceptions import ( UpnpResponseError, UpnpXmlContentError, UpnpXmlParseError, ) from async_upnp_client.utils import absolute_url _LOGGER = logging.getLogger(__name__) class UpnpFactory: """ Factory for UpnpService and friends. Use UpnpFactory.async_create_device() to instantiate a UpnpDevice from a description URL. The description URL can be retrieved by searching for the UPnP device on the network, or by listening for advertisements. """ # pylint: disable=too-few-public-methods,too-many-instance-attributes def __init__( self, requester: UpnpRequester, non_strict: bool = False, on_pre_receive_device_spec: Callable[ [HttpRequest], HttpRequest ] = default_on_pre_receive_device_spec, on_post_receive_device_spec: Callable[ [HttpResponse], HttpResponse ] = default_on_post_receive_device_spec, on_pre_receive_service_spec: Callable[ [HttpRequest], HttpRequest ] = default_on_pre_receive_service_spec, on_post_receive_service_spec: Callable[ [HttpResponse], HttpResponse ] = default_on_post_receive_service_spec, on_pre_call_action: Callable[ [UpnpAction, Mapping[str, Any], HttpRequest], HttpRequest ] = default_on_pre_call_action, on_post_call_action: Callable[ [UpnpAction, HttpResponse], HttpResponse ] = default_on_post_call_action, ) -> None: """Initialize.""" # pylint: disable=too-many-arguments,too-many-positional-arguments self.requester = requester self._non_strict = non_strict self._on_pre_receive_device_spec = on_pre_receive_device_spec self._on_post_receive_device_spec = on_post_receive_device_spec self._on_pre_receive_service_spec = on_pre_receive_service_spec self._on_post_receive_service_spec = on_post_receive_service_spec self._on_pre_call_action = on_pre_call_action self._on_post_call_action = on_post_call_action async def async_create_device( self, description_url: str, ) -> UpnpDevice: """Create a UpnpDevice, with all of it UpnpServices.""" _LOGGER.debug("Creating device, description_url: %s", description_url) root_el = await self._async_get_device_spec(description_url) # get root device device_el = root_el.find("./device:device", NS) if device_el is None: raise UpnpXmlContentError("Could not find device element") return await self._async_create_device(device_el, description_url) async def _async_create_device( self, device_el: ET.Element, description_url: str ) -> UpnpDevice: """Create a device.""" device_info = self._parse_device_el(device_el, description_url) # get services services = [] for service_desc_el in device_el.findall( "./device:serviceList/device:service", NS ): service = await self._async_create_service(service_desc_el, description_url) services.append(service) embedded_devices = [] for embedded_device_el in device_el.findall( "./device:deviceList/device:device", NS ): embedded_device = await self._async_create_device( embedded_device_el, description_url ) embedded_devices.append(embedded_device) return UpnpDevice( self.requester, device_info, services, embedded_devices, self._on_pre_receive_device_spec, self._on_post_receive_device_spec, ) def _parse_device_el( self, device_desc_el: ET.Element, description_url: str ) -> DeviceInfo: """Parse device description XML.""" icons = [] for icon_el in device_desc_el.iterfind("./device:iconList/device:icon", NS): icon_url = icon_el.findtext("./device:url", "", NS) icon_url = absolute_url(description_url, icon_url) icon = DeviceIcon( mimetype=icon_el.findtext("./device:mimetype", "", NS), width=int(icon_el.findtext("./device:width", 0, NS)), height=int(icon_el.findtext("./device:height", 0, NS)), depth=int(icon_el.findtext("./device:depth", 0, NS)), url=icon_url, ) icons.append(icon) return DeviceInfo( device_type=device_desc_el.findtext("./device:deviceType", "", NS), friendly_name=device_desc_el.findtext("./device:friendlyName", "", NS), manufacturer=device_desc_el.findtext("./device:manufacturer", "", NS), manufacturer_url=device_desc_el.findtext( "./device:manufacturerURL", "", NS ), model_description=device_desc_el.findtext( "./device:modelDescription", None, NS ), model_name=device_desc_el.findtext("./device:modelName", "", NS), model_number=device_desc_el.findtext("./device:modelNumber", None, NS), model_url=device_desc_el.findtext("./device:modelURL", None, NS), serial_number=device_desc_el.findtext("./device:serialNumber", None, NS), udn=device_desc_el.findtext("./device:UDN", "", NS), upc=device_desc_el.findtext("./device:UPC", "", NS), presentation_url=device_desc_el.findtext( "./device:presentationURL", "", NS ), url=description_url, icons=icons, xml=device_desc_el, ) async def _async_create_service( self, service_description_el: ET.Element, base_url: str ) -> UpnpService: """Retrieve the SCPD for a service and create a UpnpService from it.""" scpd_url = service_description_el.findtext("device:SCPDURL", None, NS) scpd_url = urllib.parse.urljoin(base_url, scpd_url) try: scpd_el = await self._async_get_service_spec(scpd_url) except UpnpXmlParseError as err: if not self._non_strict: raise _LOGGER.debug("Ignoring bad XML document from URL %s: %s", scpd_url, err) scpd_el = ET.Element(f"{{{NS['service']}}}scpd") if not self._non_strict and scpd_el.tag != f"{{{NS['service']}}}scpd": raise UpnpXmlContentError(f"Invalid document root: {scpd_el.tag}") service_info = self._parse_service_el(service_description_el) state_vars = self._create_state_variables(scpd_el) actions = self._create_actions(scpd_el, state_vars) return UpnpService( self.requester, service_info, state_vars, actions, self._on_pre_call_action, self._on_post_call_action, ) def _parse_service_el(self, service_description_el: ET.Element) -> ServiceInfo: """Parse service description XML.""" return ServiceInfo( service_id=service_description_el.findtext("device:serviceId", "", NS), service_type=service_description_el.findtext("device:serviceType", "", NS), control_url=service_description_el.findtext("device:controlURL", "", NS), event_sub_url=service_description_el.findtext("device:eventSubURL", "", NS), scpd_url=service_description_el.findtext("device:SCPDURL", "", NS), xml=service_description_el, ) def _create_state_variables(self, scpd_el: ET.Element) -> List[UpnpStateVariable]: """Create UpnpStateVariables from scpd_el.""" service_state_table_el = scpd_el.find("./service:serviceStateTable", NS) if service_state_table_el is None: if self._non_strict: _LOGGER.debug("Could not find service state table element") return [] raise UpnpXmlContentError("Could not find service state table element") state_vars = [] for state_var_el in service_state_table_el.findall( "./service:stateVariable", NS ): state_var = self._create_state_variable(state_var_el) state_vars.append(state_var) return state_vars def _create_state_variable( self, state_variable_el: ET.Element ) -> UpnpStateVariable: """Create UpnpStateVariable from state_variable_el.""" state_variable_info = self._parse_state_variable_el(state_variable_el) type_info = state_variable_info.type_info schema = self._state_variable_create_schema(type_info) return UpnpStateVariable(state_variable_info, schema) def _parse_state_variable_el( self, state_variable_el: ET.Element ) -> StateVariableInfo: """Parse XML for state variable.""" # send events send_events = False if "sendEvents" in state_variable_el.attrib: send_events = state_variable_el.attrib["sendEvents"] == "yes" elif state_variable_el.find("service:sendEventsAttribute", NS) is not None: send_events = ( state_variable_el.findtext("service:sendEventsAttribute", None, NS) == "yes" ) else: _LOGGER.debug( "Invalid XML for state variable/send events: %s", ET.tostring(state_variable_el, encoding="unicode"), ) # data type data_type = state_variable_el.findtext("service:dataType", None, NS) if data_type is None or data_type not in STATE_VARIABLE_TYPE_MAPPING: raise UpnpError(f"Unsupported data type: {data_type}") data_type_mapping = STATE_VARIABLE_TYPE_MAPPING[data_type] # default value default_value = state_variable_el.findtext("service:defaultValue", None, NS) # allowed value ranges allowed_value_range: Dict[str, Optional[str]] = {} allowed_value_range_el = state_variable_el.find("service:allowedValueRange", NS) if allowed_value_range_el is not None: allowed_value_range = { "min": allowed_value_range_el.findtext("service:minimum", None, NS), "max": allowed_value_range_el.findtext("service:maximum", None, NS), "step": allowed_value_range_el.findtext("service:step", None, NS), } # allowed value list allowed_values: Optional[List[str]] = None allowed_value_list_el = state_variable_el.find("service:allowedValueList", NS) if allowed_value_list_el is not None: allowed_values = [ v.text for v in allowed_value_list_el.findall("service:allowedValue", NS) if v.text is not None ] type_info = StateVariableTypeInfo( data_type=data_type, data_type_mapping=data_type_mapping, default_value=default_value, allowed_value_range=allowed_value_range, allowed_values=allowed_values, xml=state_variable_el, ) name = state_variable_el.findtext("service:name", "", NS).strip() return StateVariableInfo( name=name, send_events=send_events, type_info=type_info, xml=state_variable_el, ) def _state_variable_create_schema( self, type_info: StateVariableTypeInfo ) -> vol.Schema: """Create schema.""" # construct validators validators = [] data_type_upnp = type_info.data_type data_type_mapping = STATE_VARIABLE_TYPE_MAPPING[data_type_upnp] data_type = data_type_mapping["type"] validators.append(data_type) data_type_validator = data_type_mapping.get("validator") if data_type_validator: validators.append(data_type_validator) if not self._non_strict: in_coercer = data_type_mapping["in"] if type_info.allowed_values: allowed_values = [ in_coercer(allowed_value) for allowed_value in type_info.allowed_values ] in_ = vol.In(allowed_values) validators.append(in_) if type_info.allowed_value_range: min_ = type_info.allowed_value_range.get("min", None) max_ = type_info.allowed_value_range.get("max", None) min_ = in_coercer(min_) if min_ else None max_ = in_coercer(max_) if max_ else None if min_ is not None or max_ is not None: range_ = vol.Range(min=min_, max=max_) validators.append(range_) # construct key key = vol.Required("value") if type_info.default_value is not None and type_info.default_value != "": default_value: Any = type_info.default_value if data_type == bool: default_value = default_value == "1" else: default_value = data_type(default_value) key.default = default_value return vol.Schema(vol.All(*validators)) def _create_actions( self, scpd_el: ET.Element, state_variables: Sequence[UpnpStateVariable] ) -> List[UpnpAction]: """Create UpnpActions from scpd_el.""" action_list_el = scpd_el.find("./service:actionList", NS) if action_list_el is None: return [] actions = [] for action_el in action_list_el.findall("./service:action", NS): action = self._create_action(action_el, state_variables) actions.append(action) return actions def _create_action( self, action_el: ET.Element, state_variables: Sequence[UpnpStateVariable] ) -> UpnpAction: """Create a UpnpAction from action_el.""" action_info = self._parse_action_el(action_el) svs = {sv.name: sv for sv in state_variables} arguments = [ UpnpAction.Argument(arg_info, svs[arg_info.state_variable_name]) for arg_info in action_info.arguments ] return UpnpAction(action_info, arguments, non_strict=self._non_strict) def _parse_action_el(self, action_el: ET.Element) -> ActionInfo: """Parse XML for action.""" # build arguments args: List[ActionArgumentInfo] = [] for argument_el in action_el.findall( "./service:argumentList/service:argument", NS ): argument_name = argument_el.findtext("service:name", None, NS) if argument_name is None: _LOGGER.debug("Caught Action Argument without a name, ignoring") continue direction = argument_el.findtext("service:direction", None, NS) if direction is None: _LOGGER.debug("Caught Action Argument without a direction, ignoring") continue state_variable_name = argument_el.findtext( "service:relatedStateVariable", None, NS ) if state_variable_name is None: _LOGGER.debug( "Caught Action Argument without a State Variable name, ignoring" ) continue argument_info = ActionArgumentInfo( name=argument_name, direction=direction, state_variable_name=state_variable_name, xml=argument_el, ) args.append(argument_info) action_name = action_el.findtext("service:name", None, NS) if action_name is None: _LOGGER.debug('Caught Action without a name, using default "nameless"') action_name = "nameless" return ActionInfo(name=action_name, arguments=args, xml=action_el) async def _async_get_device_spec(self, url: str) -> ET.Element: """Get a url.""" bare_request = HttpRequest("GET", url, {}, None) request = self._on_pre_receive_device_spec(bare_request) bare_response = await self.requester.async_http_request(request) response = self._on_post_receive_device_spec(bare_response) return self._read_spec_from_reponse(response) async def _async_get_service_spec(self, url: str) -> ET.Element: """Get a url.""" bare_request = HttpRequest("GET", url, {}, None) request = self._on_pre_receive_service_spec(bare_request) bare_response = await self.requester.async_http_request(request) response = self._on_post_receive_service_spec(bare_response) return self._read_spec_from_reponse(response) def _read_spec_from_reponse(self, response: HttpResponse) -> ET.Element: """Read XML specification from response.""" if response.status_code != 200: raise UpnpResponseError( status=response.status_code, headers=response.headers ) description: str = response.body or "" try: element: ET.Element = DET.fromstring(description) return element except ET.ParseError as err: _LOGGER.debug("Unable to parse XML: %s\nXML:\n%s", err, description) raise UpnpXmlParseError(err) from err