# # This file is licensed under the Affero General Public License (AGPL) version 3. # # Copyright 2022 The Matrix.org Foundation C.I.C. # Copyright 2015, 2016 OpenMarket Ltd # Copyright (C) 2023 New Vector, Ltd # # This program is free software: you can redistribute it and/or modify # it under the terms of the GNU Affero General Public License as # published by the Free Software Foundation, either version 3 of the # License, or (at your option) any later version. # # See the GNU Affero General Public License for more details: # . # # Originally licensed under the Apache License, Version 2.0: # . # # [This file includes modifications made by New Vector Limited] # # import logging import re from enum import Enum from typing import TYPE_CHECKING, Dict, Iterable, List, Optional, Pattern, Sequence import attr from netaddr import IPSet from synapse.api.constants import EventTypes from synapse.events import EventBase from synapse.types import DeviceListUpdates, JsonDict, JsonMapping, UserID from synapse.util.caches.descriptors import _CacheContext, cached if TYPE_CHECKING: from synapse.appservice.api import ApplicationServiceApi from synapse.storage.databases.main import DataStore logger = logging.getLogger(__name__) # Type for the `device_one_time_keys_count` field in an appservice transaction # user ID -> {device ID -> {algorithm -> count}} TransactionOneTimeKeysCount = Dict[str, Dict[str, Dict[str, int]]] # Type for the `device_unused_fallback_key_types` field in an appservice transaction # user ID -> {device ID -> [algorithm]} TransactionUnusedFallbackKeys = Dict[str, Dict[str, List[str]]] class ApplicationServiceState(Enum): DOWN = "down" UP = "up" @attr.s(slots=True, frozen=True, auto_attribs=True) class Namespace: exclusive: bool regex: Pattern[str] class ApplicationService: """Defines an application service. This definition is mostly what is provided to the /register AS API. Provides methods to check if this service is "interested" in events. """ NS_USERS = "users" NS_ALIASES = "aliases" NS_ROOMS = "rooms" # The ordering here is important as it is used to map database values (which # are stored as ints representing the position in this list) to namespace # values. NS_LIST = [NS_USERS, NS_ALIASES, NS_ROOMS] def __init__( self, token: str, id: str, sender: str, url: Optional[str] = None, namespaces: Optional[JsonDict] = None, hs_token: Optional[str] = None, protocols: Optional[Iterable[str]] = None, rate_limited: bool = True, ip_range_whitelist: Optional[IPSet] = None, supports_ephemeral: bool = False, msc3202_transaction_extensions: bool = False, ): self.token = token self.url = ( url.rstrip("/") if isinstance(url, str) else None ) # url must not end with a slash self.hs_token = hs_token # The full Matrix ID for this application service's sender. self.sender = sender self.namespaces = self._check_namespaces(namespaces) self.id = id self.ip_range_whitelist = ip_range_whitelist self.supports_ephemeral = supports_ephemeral self.msc3202_transaction_extensions = msc3202_transaction_extensions if "|" in self.id: raise Exception("application service ID cannot contain '|' character") # .protocols is a publicly visible field if protocols: self.protocols = set(protocols) else: self.protocols = set() self.rate_limited = rate_limited def _check_namespaces( self, namespaces: Optional[JsonDict] ) -> Dict[str, List[Namespace]]: # Sanity check that it is of the form: # { # users: [ {regex: "[A-z]+.*", exclusive: true}, ...], # aliases: [ {regex: "[A-z]+.*", exclusive: true}, ...], # rooms: [ {regex: "[A-z]+.*", exclusive: true}, ...], # } if namespaces is None: namespaces = {} result: Dict[str, List[Namespace]] = {} for ns in ApplicationService.NS_LIST: result[ns] = [] if ns not in namespaces: continue if not isinstance(namespaces[ns], list): raise ValueError("Bad namespace value for '%s'" % ns) for regex_obj in namespaces[ns]: if not isinstance(regex_obj, dict): raise ValueError("Expected dict regex for ns '%s'" % ns) exclusive = regex_obj.get("exclusive") if not isinstance(exclusive, bool): raise ValueError("Expected bool for 'exclusive' in ns '%s'" % ns) regex = regex_obj.get("regex") if not isinstance(regex, str): raise ValueError("Expected string for 'regex' in ns '%s'" % ns) # Pre-compile regex. result[ns].append(Namespace(exclusive, re.compile(regex))) return result def _matches_regex( self, namespace_key: str, test_string: str ) -> Optional[Namespace]: for namespace in self.namespaces[namespace_key]: if namespace.regex.match(test_string): return namespace return None def _is_exclusive(self, namespace_key: str, test_string: str) -> bool: namespace = self._matches_regex(namespace_key, test_string) if namespace: return namespace.exclusive return False @cached(num_args=1, cache_context=True) async def _matches_user_in_member_list( self, room_id: str, store: "DataStore", cache_context: _CacheContext, ) -> bool: """Check if this service is interested a room based upon its membership Args: room_id: The room to check. store: The datastore to query. Returns: True if this service would like to know about this room. """ # We can use `get_local_users_in_room(...)` here because an application service # can only be interested in local users of the server it's on (ignore any remote # users that might match the user namespace regex). # # In the future, we can consider re-using # `store.get_app_service_users_in_room` which is very similar to this # function but has a slightly worse performance than this because we # have an early escape-hatch if we find a single user that the # appservice is interested in. The juice would be worth the squeeze if # `store.get_app_service_users_in_room` was used in more places besides # an experimental MSC. But for now we can avoid doing more work and # barely using it later. local_user_ids = await store.get_local_users_in_room( room_id, on_invalidate=cache_context.invalidate ) # check joined member events for user_id in local_user_ids: if self.is_interested_in_user(user_id): return True return False def is_interested_in_user( self, user_id: str, ) -> bool: """ Returns whether the application is interested in a given user ID. The appservice is considered to be interested in a user if either: the user ID is in the appservice's user namespace, or if the user is the appservice's configured sender_localpart. Args: user_id: The ID of the user to check. Returns: True if the application service is interested in the user, False if not. """ return ( # User is the appservice's configured sender_localpart user user_id == self.sender # User is in the appservice's user namespace or self.is_user_in_namespace(user_id) ) @cached(num_args=1, cache_context=True) async def is_interested_in_room( self, room_id: str, store: "DataStore", cache_context: _CacheContext, ) -> bool: """ Returns whether the application service is interested in a given room ID. The appservice is considered to be interested in the room if either: the ID or one of the aliases of the room is in the appservice's room ID or alias namespace respectively, or if one of the members of the room fall into the appservice's user namespace. Args: room_id: The ID of the room to check. store: The homeserver's datastore class. Returns: True if the application service is interested in the room, False if not. """ # Check if we have interest in this room ID if self.is_room_id_in_namespace(room_id): return True # likewise with the room's aliases (if it has any) alias_list = await store.get_aliases_for_room( room_id, on_invalidate=cache_context.invalidate ) for alias in alias_list: if self.is_room_alias_in_namespace(alias): return True # And finally, perform an expensive check on whether any of the # users in the room match the appservice's user namespace return await self._matches_user_in_member_list( room_id, store, on_invalidate=cache_context.invalidate ) @cached(num_args=1, cache_context=True) async def is_interested_in_event( self, event_id: str, event: EventBase, store: "DataStore", cache_context: _CacheContext, ) -> bool: """Check if this service is interested in this event. Args: event_id: The ID of the event to check. This is purely used for simplifying the caching of calls to this method. event: The event to check. store: The datastore to query. Returns: True if this service would like to know about this event, otherwise False. """ # Check if we're interested in this event's sender by namespace (or if they're the # sender_localpart user) if self.is_interested_in_user(event.sender): return True # additionally, if this is a membership event, perform the same checks on # the user it references if event.type == EventTypes.Member and self.is_interested_in_user( event.state_key ): return True # This will check the datastore, so should be run last if await self.is_interested_in_room( event.room_id, store, on_invalidate=cache_context.invalidate ): return True return False @cached(num_args=1, cache_context=True) async def is_interested_in_presence( self, user_id: UserID, store: "DataStore", cache_context: _CacheContext ) -> bool: """Check if this service is interested a user's presence Args: user_id: The user to check. store: The datastore to query. Returns: True if this service would like to know about presence for this user. """ # Find all the rooms the sender is in if self.is_interested_in_user(user_id.to_string()): return True room_ids = await store.get_rooms_for_user( user_id.to_string(), on_invalidate=cache_context.invalidate ) # Then find out if the appservice is interested in any of those rooms for room_id in room_ids: if await self.is_interested_in_room( room_id, store, on_invalidate=cache_context.invalidate ): return True return False def is_user_in_namespace(self, user_id: str) -> bool: return bool(self._matches_regex(ApplicationService.NS_USERS, user_id)) def is_room_alias_in_namespace(self, alias: str) -> bool: return bool(self._matches_regex(ApplicationService.NS_ALIASES, alias)) def is_room_id_in_namespace(self, room_id: str) -> bool: return bool(self._matches_regex(ApplicationService.NS_ROOMS, room_id)) def is_exclusive_user(self, user_id: str) -> bool: return ( self._is_exclusive(ApplicationService.NS_USERS, user_id) or user_id == self.sender ) def is_interested_in_protocol(self, protocol: str) -> bool: return protocol in self.protocols def is_exclusive_alias(self, alias: str) -> bool: return self._is_exclusive(ApplicationService.NS_ALIASES, alias) def is_exclusive_room(self, room_id: str) -> bool: return self._is_exclusive(ApplicationService.NS_ROOMS, room_id) def get_exclusive_user_regexes(self) -> List[Pattern[str]]: """Get the list of regexes used to determine if a user is exclusively registered by the AS """ return [ namespace.regex for namespace in self.namespaces[ApplicationService.NS_USERS] if namespace.exclusive ] def is_rate_limited(self) -> bool: return self.rate_limited def __str__(self) -> str: # copy dictionary and redact token fields so they don't get logged dict_copy = self.__dict__.copy() dict_copy["token"] = "" dict_copy["hs_token"] = "" return "ApplicationService: %s" % (dict_copy,) class AppServiceTransaction: """Represents an application service transaction.""" def __init__( self, service: ApplicationService, id: int, events: Sequence[EventBase], ephemeral: List[JsonMapping], to_device_messages: List[JsonMapping], one_time_keys_count: TransactionOneTimeKeysCount, unused_fallback_keys: TransactionUnusedFallbackKeys, device_list_summary: DeviceListUpdates, ): self.service = service self.id = id self.events = events self.ephemeral = ephemeral self.to_device_messages = to_device_messages self.one_time_keys_count = one_time_keys_count self.unused_fallback_keys = unused_fallback_keys self.device_list_summary = device_list_summary async def send(self, as_api: "ApplicationServiceApi") -> bool: """Sends this transaction using the provided AS API interface. Args: as_api: The API to use to send. Returns: True if the transaction was sent. """ return await as_api.push_bulk( service=self.service, events=self.events, ephemeral=self.ephemeral, to_device_messages=self.to_device_messages, one_time_keys_count=self.one_time_keys_count, unused_fallback_keys=self.unused_fallback_keys, device_list_summary=self.device_list_summary, txn_id=self.id, ) async def complete(self, store: "DataStore") -> None: """Completes this transaction as successful. Marks this transaction ID on the application service and removes the transaction contents from the database. Args: store: The database store to operate on. """ await store.complete_appservice_txn(service=self.service, txn_id=self.id)