# Copyright (c) 2022 Tulir Asokan # # This Source Code Form is subject to the terms of the Mozilla Public # License, v. 2.0. If a copy of the MPL was not distributed with this # file, You can obtain one at http://mozilla.org/MPL/2.0/. from __future__ import annotations from typing import Any, Awaitable, Iterable, TypeVar from urllib.parse import quote as urllib_quote from mautrix.api import Method, Path from mautrix.client import ClientAPI, StoreUpdatingAPI from mautrix.errors import ( IntentError, MAlreadyJoined, MatrixRequestError, MBadState, MForbidden, MNotFound, MUserInUse, ) from mautrix.types import ( JSON, BatchID, BatchSendEvent, BatchSendResponse, BatchSendStateEvent, BeeperBatchSendResponse, ContentURI, EventContent, EventID, EventType, JoinRule, JoinRulesStateEventContent, Member, Membership, PowerLevelStateEventContent, PresenceState, RoomAvatarStateEventContent, RoomID, RoomNameStateEventContent, RoomPinnedEventsStateEventContent, RoomTopicStateEventContent, StateEventContent, UserID, ) from mautrix.util.logging import TraceLogger from .. import api as as_api, state_store as ss def quote(*args, **kwargs): return urllib_quote(*args, **kwargs, safe="") _bridgebot = object() ENSURE_REGISTERED_METHODS = ( # Room methods ClientAPI.create_room, ClientAPI.add_room_alias, ClientAPI.remove_room_alias, ClientAPI.resolve_room_alias, ClientAPI.get_joined_rooms, StoreUpdatingAPI.join_room_by_id, StoreUpdatingAPI.join_room, StoreUpdatingAPI.leave_room, ClientAPI.set_room_directory_visibility, ClientAPI.forget_room, # User data methods ClientAPI.search_users, ClientAPI.set_displayname, ClientAPI.set_avatar_url, ClientAPI.beeper_update_profile, ClientAPI.create_mxc, ClientAPI.upload_media, ClientAPI.send_receipt, ClientAPI.set_fully_read_marker, ) ENSURE_JOINED_METHODS = ( # Room methods StoreUpdatingAPI.invite_user, # Event methods ClientAPI.get_event, StoreUpdatingAPI.get_state_event, StoreUpdatingAPI.get_state, ClientAPI.get_joined_members, ClientAPI.get_messages, StoreUpdatingAPI.send_state_event, ClientAPI.send_message_event, ClientAPI.redact, ) DOUBLE_PUPPET_SOURCE_KEY = "fi.mau.double_puppet_source" T = TypeVar("T") class IntentAPI(StoreUpdatingAPI): """ IntentAPI is a high-level wrapper around the AppServiceAPI that provides many easy-to-use functions for accessing the client-server API. It is designed for appservices and will automatically handle many things like missing invites using the appservice bot. """ api: as_api.AppServiceAPI state_store: ss.ASStateStore bot: IntentAPI log: TraceLogger def __init__( self, mxid: UserID, api: as_api.AppServiceAPI, bot: IntentAPI = None, state_store: ss.ASStateStore = None, ) -> None: super().__init__(mxid=mxid, api=api, state_store=state_store) self.bot = bot if bot is not None: self.versions_cache = bot.versions_cache self.log = api.base_log.getChild("intent") for method in ENSURE_REGISTERED_METHODS: method = getattr(self, method.__name__) async def wrapper(*args, __self=self, __method=method, **kwargs): await __self.ensure_registered() return await __method(*args, **kwargs) setattr(self, method.__name__, wrapper) for method in ENSURE_JOINED_METHODS: method = getattr(self, method.__name__) async def wrapper(*args, __self=self, __method=method, **kwargs): room_id = kwargs.get("room_id", None) if not room_id: room_id = args[0] ensure_joined = kwargs.pop("ensure_joined", True) if ensure_joined: await __self.ensure_joined(room_id) return await __method(*args, **kwargs) setattr(self, method.__name__, wrapper) def user( self, user_id: UserID, token: str | None = None, base_url: str | None = None, as_token: bool = False, ) -> IntentAPI: """ Get the intent API for a specific user. This is just a proxy to :meth:`AppServiceAPI.intent`. You should only call this method for the bot user. Calling it with child intent APIs will result in a warning log. Args: user_id: The Matrix ID of the user whose intent API to get. token: The access token to use for the Matrix ID. base_url: An optional URL to use for API requests. as_token: Whether the provided token is actually another as_token (meaning the ``user_id`` query parameter needs to be used). Returns: The IntentAPI for the given user. """ if not self.bot: return self.api.intent(user_id, token, base_url, real_user_as_token=as_token) else: self.log.warning("Called IntentAPI#user() of child intent object.") return self.bot.api.intent(user_id, token, base_url, real_user_as_token=as_token) # region User actions async def set_presence( self, presence: PresenceState = PresenceState.ONLINE, status: str | None = None, ignore_cache: bool = False, ): """ Set the online status of the user. See also: `API reference `__ Args: presence: The online status of the user. status: The status message. ignore_cache: Whether to set presence even if the cache says the presence is already set to that value. """ await self.ensure_registered() if not ignore_cache and self.state_store.has_presence(self.mxid, status): return await super().set_presence(presence, status) self.state_store.set_presence(self.mxid, status) # endregion # region Room actions def _add_source_key(self, content: T = None) -> T: if self.api.is_real_user and self.api.bridge_name: if not content: content = {} content[DOUBLE_PUPPET_SOURCE_KEY] = self.api.bridge_name return content async def invite_user( self, room_id: RoomID, user_id: UserID, reason: str | None = None, check_cache: bool = False, extra_content: dict[str, Any] | None = None, ) -> None: """ Invite a user to participate in a particular room. They do not start participating in the room until they actually join the room. Only users currently in the room can invite other users to join that room. If the user was invited to the room, the homeserver will add a `m.room.member`_ event to the room. See also: `API reference `__ .. _m.room.member: https://spec.matrix.org/v1.1/client-server-api/#mroommember Args: room_id: The ID of the room to which to invite the user. user_id: The fully qualified user ID of the invitee. reason: The reason the user was invited. This will be supplied as the ``reason`` on the `m.room.member`_ event. check_cache: If ``True``, the function will first check the state store, and not do anything if the state store says the user is already invited or joined. extra_content: Additional properties for the invite event content. If a non-empty dict is passed, the invite event will be created using the ``PUT /state/m.room.member/...`` endpoint instead of ``POST /invite``. """ try: ok_states = (Membership.INVITE, Membership.JOIN) do_invite = not check_cache or ( await self.state_store.get_membership(room_id, user_id) not in ok_states ) if do_invite: extra_content = self._add_source_key(extra_content) await super().invite_user( room_id, user_id, reason=reason, extra_content=extra_content ) await self.state_store.invited(room_id, user_id) except MAlreadyJoined as e: await self.state_store.joined(room_id, user_id) except MatrixRequestError as e: # TODO remove this once MSC3848 is released and minimum spec version is bumped if e.errcode == "M_FORBIDDEN" and ( "already in the room" in e.message or "is already joined to room" in e.message ): await self.state_store.joined(room_id, user_id) else: raise async def kick_user( self, room_id: RoomID, user_id: UserID, reason: str = "", extra_content: dict[str, JSON] | None = None, ) -> None: extra_content = self._add_source_key(extra_content) await super().kick_user(room_id, user_id, reason=reason, extra_content=extra_content) async def ban_user( self, room_id: RoomID, user_id: UserID, reason: str = "", extra_content: dict[str, JSON] | None = None, ) -> None: extra_content = self._add_source_key(extra_content) await super().ban_user(room_id, user_id, reason=reason, extra_content=extra_content) async def unban_user( self, room_id: RoomID, user_id: UserID, reason: str = "", extra_content: dict[str, JSON] | None = None, ) -> None: extra_content = self._add_source_key(extra_content) await super().unban_user(room_id, user_id, reason=reason, extra_content=extra_content) async def join_room_by_id( self, room_id: RoomID, third_party_signed: JSON = None, extra_content: dict[str, JSON] | None = None, ) -> RoomID: extra_content = self._add_source_key(extra_content) return await super().join_room_by_id( room_id, third_party_signed=third_party_signed, extra_content=extra_content ) async def leave_room( self, room_id: RoomID, reason: str | None = None, extra_content: dict[str, JSON] | None = None, raise_not_in_room: bool = False, ) -> None: extra_content = self._add_source_key(extra_content) await super().leave_room(room_id, reason, extra_content, raise_not_in_room) def set_room_avatar( self, room_id: RoomID, avatar_url: ContentURI | None, **kwargs ) -> Awaitable[EventID]: content = RoomAvatarStateEventContent(url=avatar_url) content = self._add_source_key(content) return self.send_state_event(room_id, EventType.ROOM_AVATAR, content, **kwargs) def set_room_name(self, room_id: RoomID, name: str, **kwargs) -> Awaitable[EventID]: content = RoomNameStateEventContent(name=name) content = self._add_source_key(content) return self.send_state_event(room_id, EventType.ROOM_NAME, content, **kwargs) def set_room_topic(self, room_id: RoomID, topic: str, **kwargs) -> Awaitable[EventID]: content = RoomTopicStateEventContent(topic=topic) content = self._add_source_key(content) return self.send_state_event(room_id, EventType.ROOM_TOPIC, content, **kwargs) async def get_power_levels( self, room_id: RoomID, ignore_cache: bool = False, ensure_joined: bool = True ) -> PowerLevelStateEventContent: if ensure_joined: await self.ensure_joined(room_id) if not ignore_cache: levels = await self.state_store.get_power_levels(room_id) if levels: return levels try: levels = await self.get_state_event(room_id, EventType.ROOM_POWER_LEVELS) except MNotFound: levels = PowerLevelStateEventContent() except MForbidden: if not ensure_joined: return PowerLevelStateEventContent() raise await self.state_store.set_power_levels(room_id, levels) return levels async def set_power_levels( self, room_id: RoomID, content: PowerLevelStateEventContent, **kwargs ) -> EventID: content = self._add_source_key(content) response = await self.send_state_event( room_id, EventType.ROOM_POWER_LEVELS, content, **kwargs ) if response: await self.state_store.set_power_levels(room_id, content) return response async def get_pinned_messages(self, room_id: RoomID) -> list[EventID]: await self.ensure_joined(room_id) try: content = await self.get_state_event(room_id, EventType.ROOM_PINNED_EVENTS) except MNotFound: return [] return content["pinned"] def set_pinned_messages( self, room_id: RoomID, events: list[EventID], **kwargs ) -> Awaitable[EventID]: content = RoomPinnedEventsStateEventContent(pinned=events) content = self._add_source_key(content) return self.send_state_event(room_id, EventType.ROOM_PINNED_EVENTS, content, **kwargs) async def pin_message(self, room_id: RoomID, event_id: EventID) -> None: events = await self.get_pinned_messages(room_id) if event_id not in events: events.append(event_id) await self.set_pinned_messages(room_id, events) async def unpin_message(self, room_id: RoomID, event_id: EventID): events = await self.get_pinned_messages(room_id) if event_id in events: events.remove(event_id) await self.set_pinned_messages(room_id, events) async def set_join_rule(self, room_id: RoomID, join_rule: JoinRule, **kwargs): content = JoinRulesStateEventContent(join_rule=join_rule) content = self._add_source_key(content) await self.send_state_event(room_id, EventType.ROOM_JOIN_RULES, content, **kwargs) async def get_room_displayname( self, room_id: RoomID, user_id: UserID, ignore_cache=False ) -> str: return (await self.get_room_member_info(room_id, user_id, ignore_cache)).displayname async def get_room_avatar_url( self, room_id: RoomID, user_id: UserID, ignore_cache=False ) -> str: return (await self.get_room_member_info(room_id, user_id, ignore_cache)).avatar_url async def get_room_member_info( self, room_id: RoomID, user_id: UserID, ignore_cache=False ) -> Member: member = await self.state_store.get_member(room_id, user_id) if not member or not member.membership or ignore_cache: member = await self.get_state_event(room_id, EventType.ROOM_MEMBER, user_id) return member async def set_typing( self, room_id: RoomID, timeout: int = 0, ) -> None: await self.ensure_joined(room_id) await super().set_typing(room_id, timeout) async def error_and_leave( self, room_id: RoomID, text: str | None = None, html: str | None = None ) -> None: await self.ensure_joined(room_id) await self.send_notice(room_id, text, html=html) await self.leave_room(room_id) async def send_message_event( self, room_id: RoomID, event_type: EventType, content: EventContent, **kwargs ) -> EventID: await self._ensure_has_power_level_for(room_id, event_type) content = self._add_source_key(content) return await super().send_message_event(room_id, event_type, content, **kwargs) async def redact( self, room_id: RoomID, event_id: EventID, reason: str | None = None, extra_content: dict[str, JSON] | None = None, **kwargs, ) -> EventID: await self._ensure_has_power_level_for(room_id, EventType.ROOM_REDACTION) extra_content = self._add_source_key(extra_content) return await super().redact( room_id, event_id, reason, extra_content=extra_content, **kwargs ) async def send_state_event( self, room_id: RoomID, event_type: EventType, content: StateEventContent | dict[str, JSON], state_key: str = "", **kwargs, ) -> EventID: await self._ensure_has_power_level_for(room_id, event_type, state_key=state_key) content = self._add_source_key(content) return await super().send_state_event(room_id, event_type, content, state_key, **kwargs) async def get_room_members( self, room_id: RoomID, allowed_memberships: tuple[Membership, ...] = (Membership.JOIN,) ) -> list[UserID]: if len(allowed_memberships) == 1 and allowed_memberships[0] == Membership.JOIN: memberships = await self.get_joined_members(room_id) return list(memberships.keys()) member_events = await self.get_members(room_id) return [ UserID(evt.state_key) for evt in member_events if evt.content.membership in allowed_memberships ] async def mark_read( self, room_id: RoomID, event_id: EventID, extra_content: dict[str, JSON] | None = None ) -> None: if self.state_store.get_read(room_id, self.mxid) != event_id: if self.api.is_real_user and self.api.bridge_name: if not extra_content: extra_content = {} double_puppet_indicator = { DOUBLE_PUPPET_SOURCE_KEY: self.api.bridge_name, } extra_content.update( { "com.beeper.fully_read.extra": double_puppet_indicator, "com.beeper.read.extra": double_puppet_indicator, } ) await self.set_fully_read_marker( room_id, fully_read=event_id, read_receipt=event_id, extra_content=extra_content, ) self.state_store.set_read(room_id, self.mxid, event_id) async def appservice_ping(self, appservice_id: str, txn_id: str | None = None) -> int: resp = await self.api.request( Method.POST, Path.v1.appservice[appservice_id].ping, content={"transaction_id": txn_id} if txn_id is not None else {}, ) return resp.get("duration_ms") or -1 async def batch_send( self, room_id: RoomID, prev_event_id: EventID, *, batch_id: BatchID | None = None, events: Iterable[BatchSendEvent], state_events_at_start: Iterable[BatchSendStateEvent] = (), beeper_new_messages: bool = False, beeper_mark_read_by: UserID | None = None, ) -> BatchSendResponse: """ Send a batch of historical events into a room. See `MSC2716`_ for more info. .. _MSC2716: https://github.com/matrix-org/matrix-doc/pull/2716 .. versionadded:: v0.12.5 .. deprecated:: v0.20.3 MSC2716 was abandoned by upstream and Beeper has forked the endpoint. Args: room_id: The room ID to send the events to. prev_event_id: The anchor event. The batch will be inserted immediately after this event. batch_id: The batch ID for sending a continuation of an earlier batch. If provided, the new batch will be inserted between the prev event and the previous batch. events: The events to send. state_events_at_start: The state events to send at the start of the batch. These will be sent as outlier events, which means they won't be a part of the actual room state. beeper_new_messages: Custom flag to tell the server that the messages can be sent to the end of the room as normal messages instead of history. Returns: All the event IDs generated, plus a batch ID that can be passed back to this method. """ path = Path.unstable["org.matrix.msc2716"].rooms[room_id].batch_send query: JSON = {"prev_event_id": prev_event_id} if batch_id: query["batch_id"] = batch_id if beeper_new_messages: query["com.beeper.new_messages"] = "true" if beeper_mark_read_by: query["com.beeper.mark_read_by"] = beeper_mark_read_by resp = await self.api.request( Method.POST, path, query_params=query, content={ "events": [evt.serialize() for evt in events], "state_events_at_start": [evt.serialize() for evt in state_events_at_start], }, ) return BatchSendResponse.deserialize(resp) async def beeper_batch_send( self, room_id: RoomID, events: Iterable[BatchSendEvent], *, forward: bool = False, forward_if_no_messages: bool = False, send_notification: bool = False, mark_read_by: UserID | None = None, ) -> BeeperBatchSendResponse: """ Send a batch of events into a room. Only for Beeper/hungryserv. .. versionadded:: v0.20.3 Args: room_id: The room ID to send the events to. events: The events to send. forward: Send events to the end of the room instead of the beginning forward_if_no_messages: Send events to the end of the room, but only if there are no messages in the room. If there are messages, send the new messages to the beginning. send_notification: Send a push notification for the new messages. Only applies when sending to the end of the room. mark_read_by: Send a read receipt from the given user ID atomically. Returns: All the event IDs generated. """ body = { "events": [evt.serialize() for evt in events], } if forward: body["forward"] = forward elif forward_if_no_messages: body["forward_if_no_messages"] = forward_if_no_messages if send_notification: body["send_notification"] = send_notification if mark_read_by: body["mark_read_by"] = mark_read_by resp = await self.api.request( Method.POST, Path.unstable["com.beeper.backfill"].rooms[room_id].batch_send, content=body, ) return BeeperBatchSendResponse.deserialize(resp) async def beeper_delete_room(self, room_id: RoomID) -> None: versions = await self.versions() if not versions.supports("com.beeper.room_yeeting"): raise RuntimeError("Homeserver does not support yeeting rooms") await self.api.request(Method.POST, Path.unstable["com.beeper.yeet"].rooms[room_id].delete) # endregion # region Ensure functions async def ensure_joined( self, room_id: RoomID, ignore_cache: bool = False, bot: IntentAPI | None = _bridgebot ) -> bool: """ Ensure the user controlled by this intent is joined to the given room. If the user is not in the room and the room is invite-only or the user is banned, this will first invite and/or unban the user using the bridge bot account. Args: room_id: The room to join. ignore_cache: Should the Matrix state store be checked first? If ``False`` and the store says the user is in the room, no requests will be made. bot: An optional override account to use as the bridge bot. This is useful if you know the bridge bot is not an admin in the room, but some other ghost user is. Returns: ``False`` if the cache said the user is already in the room, ``True`` if the user was successfully added to the room just now. """ if not room_id: raise ValueError("Room ID not given") if not ignore_cache and await self.state_store.is_joined(room_id, self.mxid): return False if bot is _bridgebot: bot = self.bot if bot is self: bot = None await self.ensure_registered() try: await self.join_room(room_id, max_retries=0) await self.state_store.joined(room_id, self.mxid) except MForbidden as e: if not bot: raise IntentError(f"Failed to join room {room_id} as {self.mxid}") from e try: await bot.invite_user(room_id, self.mxid) await self.join_room(room_id, max_retries=0) await self.state_store.joined(room_id, self.mxid) except MatrixRequestError as e2: raise IntentError(f"Failed to join room {room_id} as {self.mxid}") from e2 except MBadState as e: if not bot: raise IntentError(f"Failed to join room {room_id} as {self.mxid}") from e try: await bot.unban_user(room_id, self.mxid) await bot.invite_user(room_id, self.mxid) await self.join_room(room_id, max_retries=0) await self.state_store.joined(room_id, self.mxid) except MatrixRequestError as e2: raise IntentError(f"Failed to join room {room_id} as {self.mxid}") from e2 except MatrixRequestError as e: raise IntentError(f"Failed to join room {room_id} as {self.mxid}") from e return True def _register(self) -> Awaitable[dict]: content = { "username": self.localpart, "type": "m.login.application_service", "inhibit_login": True, } query_params = {"kind": "user"} return self.api.request(Method.POST, Path.v3.register, content, query_params=query_params) async def ensure_registered(self) -> None: """ Ensure the user controlled by this intent has been registered on the homeserver. This will always check the state store first, but the ``M_USER_IN_USE`` error will also be silently ignored, so it's fine if the state store isn't accurate. However, if using double puppeting, the state store should always return ``True`` for those users. """ if await self.state_store.is_registered(self.mxid): return try: await self._register() except MUserInUse: pass await self.state_store.registered(self.mxid) async def _ensure_has_power_level_for( self, room_id: RoomID, event_type: EventType, state_key: str = "" ) -> None: if not room_id: raise ValueError("Room ID not given") elif not event_type: raise ValueError("Event type not given") if event_type == EventType.ROOM_MEMBER: # TODO: if state_key doesn't equal self.mxid, check invite/kick/ban permissions return if not await self.state_store.has_power_levels_cached(room_id): # TODO add option to not try to fetch power levels from server await self.get_power_levels(room_id, ignore_cache=True, ensure_joined=False) if not await self.state_store.has_power_level(room_id, self.mxid, event_type): # TODO implement something better raise IntentError( f"Power level of {self.mxid} is not enough for {event_type} in {room_id}" ) # self.log.warning( # f"Power level of {self.mxid} is not enough for {event_type} in {room_id}") # endregion