# # This file is licensed under the Affero General Public License (AGPL) version 3. # # Copyright 2019, 2022 The Matrix.org Foundation C.I.C. # Copyright 2014-2016 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 from enum import Enum from typing import ( TYPE_CHECKING, AbstractSet, Any, Collection, Dict, List, Mapping, Optional, Set, Tuple, Union, cast, ) import attr from synapse.api.constants import ( Direction, EventContentFields, EventTypes, JoinRules, PublicRoomsFilterFields, ) from synapse.api.errors import StoreError from synapse.api.room_versions import RoomVersion, RoomVersions from synapse.config.homeserver import HomeServerConfig from synapse.events import EventBase from synapse.replication.tcp.streams.partial_state import UnPartialStatedRoomStream from synapse.storage._base import db_to_json, make_in_list_sql_clause from synapse.storage.database import ( DatabasePool, LoggingDatabaseConnection, LoggingTransaction, ) from synapse.storage.databases.main.cache import CacheInvalidationWorkerStore from synapse.storage.types import Cursor from synapse.storage.util.id_generators import ( AbstractStreamIdGenerator, IdGenerator, MultiWriterIdGenerator, ) from synapse.types import JsonDict, RetentionPolicy, StrCollection, ThirdPartyInstanceID from synapse.util import json_encoder from synapse.util.caches.descriptors import cached, cachedList from synapse.util.stringutils import MXC_REGEX if TYPE_CHECKING: from synapse.server import HomeServer logger = logging.getLogger(__name__) @attr.s(slots=True, frozen=True, auto_attribs=True) class RatelimitOverride: messages_per_second: int burst_count: int @attr.s(slots=True, frozen=True, auto_attribs=True) class LargestRoomStats: room_id: str name: Optional[str] canonical_alias: Optional[str] joined_members: int join_rules: Optional[str] guest_access: Optional[str] history_visibility: Optional[str] state_events: int avatar: Optional[str] topic: Optional[str] room_type: Optional[str] @attr.s(slots=True, frozen=True, auto_attribs=True) class RoomStats(LargestRoomStats): joined_local_members: int version: Optional[str] creator: Optional[str] encryption: Optional[str] federatable: bool public: bool class RoomSortOrder(Enum): """ Enum to define the sorting method used when returning rooms with get_rooms_paginate NAME = sort rooms alphabetically by name JOINED_MEMBERS = sort rooms by membership size, highest to lowest """ # ALPHABETICAL and SIZE are deprecated. # ALPHABETICAL is the same as NAME. ALPHABETICAL = "alphabetical" # SIZE is the same as JOINED_MEMBERS. SIZE = "size" NAME = "name" CANONICAL_ALIAS = "canonical_alias" JOINED_MEMBERS = "joined_members" JOINED_LOCAL_MEMBERS = "joined_local_members" VERSION = "version" CREATOR = "creator" ENCRYPTION = "encryption" FEDERATABLE = "federatable" PUBLIC = "public" JOIN_RULES = "join_rules" GUEST_ACCESS = "guest_access" HISTORY_VISIBILITY = "history_visibility" STATE_EVENTS = "state_events" @attr.s(slots=True, frozen=True, auto_attribs=True) class PartialStateResyncInfo: joined_via: Optional[str] servers_in_room: Set[str] = attr.ib(factory=set) class RoomWorkerStore(CacheInvalidationWorkerStore): def __init__( self, database: DatabasePool, db_conn: LoggingDatabaseConnection, hs: "HomeServer", ): super().__init__(database, db_conn, hs) self.config: HomeServerConfig = hs.config self._un_partial_stated_rooms_stream_id_gen: AbstractStreamIdGenerator self._un_partial_stated_rooms_stream_id_gen = MultiWriterIdGenerator( db_conn=db_conn, db=database, notifier=hs.get_replication_notifier(), stream_name="un_partial_stated_room_stream", instance_name=self._instance_name, tables=[("un_partial_stated_room_stream", "instance_name", "stream_id")], sequence_name="un_partial_stated_room_stream_sequence", # TODO(faster_joins, multiple writers) Support multiple writers. writers=["master"], ) def process_replication_position( self, stream_name: str, instance_name: str, token: int ) -> None: if stream_name == UnPartialStatedRoomStream.NAME: self._un_partial_stated_rooms_stream_id_gen.advance(instance_name, token) return super().process_replication_position(stream_name, instance_name, token) async def store_room( self, room_id: str, room_creator_user_id: str, is_public: bool, room_version: RoomVersion, ) -> None: """Stores a room. Args: room_id: The desired room ID, can be None. room_creator_user_id: The user ID of the room creator. is_public: True to indicate that this room should appear in public room lists. room_version: The version of the room Raises: StoreError if the room could not be stored. """ try: await self.db_pool.simple_insert( "rooms", { "room_id": room_id, "creator": room_creator_user_id, "is_public": is_public, "room_version": room_version.identifier, "has_auth_chain_index": True, }, desc="store_room", ) except Exception as e: logger.error("store_room with room_id=%s failed: %s", room_id, e) raise StoreError(500, "Problem creating room.") async def get_room(self, room_id: str) -> Optional[Tuple[bool, bool]]: """Retrieve a room. Args: room_id: The ID of the room to retrieve. Returns: A tuple containing the room information: * True if the room is public * True if the room has an auth chain index or None if the room is unknown. """ row = cast( Optional[Tuple[Optional[Union[int, bool]], Optional[Union[int, bool]]]], await self.db_pool.simple_select_one( table="rooms", keyvalues={"room_id": room_id}, retcols=("is_public", "has_auth_chain_index"), desc="get_room", allow_none=True, ), ) if row is None: return row return bool(row[0]), bool(row[1]) async def get_room_with_stats(self, room_id: str) -> Optional[RoomStats]: """Retrieve room with statistics. Args: room_id: The ID of the room to retrieve. Returns: A dict containing the room information, or None if the room is unknown. """ def get_room_with_stats_txn( txn: LoggingTransaction, room_id: str ) -> Optional[RoomStats]: sql = """ SELECT room_id, state.name, state.canonical_alias, curr.joined_members, curr.local_users_in_room AS joined_local_members, rooms.room_version AS version, rooms.creator, state.encryption, state.is_federatable AS federatable, rooms.is_public AS public, state.join_rules, state.guest_access, state.history_visibility, curr.current_state_events AS state_events, state.avatar, state.topic, state.room_type FROM rooms LEFT JOIN room_stats_state state USING (room_id) LEFT JOIN room_stats_current curr USING (room_id) WHERE room_id = ? """ txn.execute(sql, [room_id]) row = txn.fetchone() if not row: return None return RoomStats( room_id=row[0], name=row[1], canonical_alias=row[2], joined_members=row[3], joined_local_members=row[4], version=row[5], creator=row[6], encryption=row[7], federatable=bool(row[8]), public=bool(row[9]), join_rules=row[10], guest_access=row[11], history_visibility=row[12], state_events=row[13], avatar=row[14], topic=row[15], room_type=row[16], ) return await self.db_pool.runInteraction( "get_room_with_stats", get_room_with_stats_txn, room_id ) async def get_public_room_ids(self) -> List[str]: return await self.db_pool.simple_select_onecol( table="rooms", keyvalues={"is_public": True}, retcol="room_id", desc="get_public_room_ids", ) def _construct_room_type_where_clause( self, room_types: Union[List[Union[str, None]], None] ) -> Tuple[Union[str, None], list]: if not room_types: return None, [] # Since None is used to represent a room without a type, care needs to # be taken into account when constructing the where clause. clauses = [] args: list = [] room_types_set = set(room_types) # We use None to represent a room without a type. if None in room_types_set: clauses.append("room_type IS NULL") room_types_set.remove(None) # If there are other room types, generate the proper clause. if room_types: list_clause, args = make_in_list_sql_clause( self.database_engine, "room_type", room_types_set ) clauses.append(list_clause) return f"({' OR '.join(clauses)})", args async def count_public_rooms( self, network_tuple: Optional[ThirdPartyInstanceID], ignore_non_federatable: bool, search_filter: Optional[dict], ) -> int: """Counts the number of public rooms as tracked in the room_stats_current and room_stats_state table. Args: network_tuple ignore_non_federatable: If true filters out non-federatable rooms search_filter """ def _count_public_rooms_txn(txn: LoggingTransaction) -> int: query_args = [] if network_tuple: if network_tuple.appservice_id: published_sql = """ SELECT room_id from appservice_room_list WHERE appservice_id = ? AND network_id = ? """ query_args.append(network_tuple.appservice_id) assert network_tuple.network_id is not None query_args.append(network_tuple.network_id) else: published_sql = """ SELECT room_id FROM rooms WHERE is_public """ else: published_sql = """ SELECT room_id FROM rooms WHERE is_public UNION SELECT room_id from appservice_room_list """ room_type_clause, args = self._construct_room_type_where_clause( search_filter.get(PublicRoomsFilterFields.ROOM_TYPES, None) if search_filter else None ) room_type_clause = f" AND {room_type_clause}" if room_type_clause else "" query_args += args sql = f""" SELECT COUNT(*) FROM ( {published_sql} ) published INNER JOIN room_stats_state USING (room_id) INNER JOIN room_stats_current USING (room_id) WHERE ( join_rules = '{JoinRules.PUBLIC}' OR join_rules = '{JoinRules.KNOCK}' OR join_rules = '{JoinRules.KNOCK_RESTRICTED}' OR history_visibility = 'world_readable' ) {room_type_clause} AND joined_members > 0 """ txn.execute(sql, query_args) return cast(Tuple[int], txn.fetchone())[0] return await self.db_pool.runInteraction( "count_public_rooms", _count_public_rooms_txn ) async def get_room_count(self) -> int: """Retrieve the total number of rooms.""" def f(txn: LoggingTransaction) -> int: sql = "SELECT count(*) FROM rooms" txn.execute(sql) row = cast(Tuple[int], txn.fetchone()) return row[0] return await self.db_pool.runInteraction("get_rooms", f) async def get_largest_public_rooms( self, network_tuple: Optional[ThirdPartyInstanceID], search_filter: Optional[dict], limit: Optional[int], bounds: Optional[Tuple[int, str]], forwards: bool, ignore_non_federatable: bool = False, ) -> List[LargestRoomStats]: """Gets the largest public rooms (where largest is in terms of joined members, as tracked in the statistics table). Args: network_tuple search_filter limit: Maxmimum number of rows to return, unlimited otherwise. bounds: An uppoer or lower bound to apply to result set if given, consists of a joined member count and room_id (these are excluded from result set). forwards: true iff going forwards, going backwards otherwise ignore_non_federatable: If true filters out non-federatable rooms. Returns: Rooms in order: biggest number of joined users first. We then arbitrarily use the room_id as a tie breaker. """ where_clauses = [] query_args: List[Union[str, int]] = [] if network_tuple: if network_tuple.appservice_id: published_sql = """ SELECT room_id from appservice_room_list WHERE appservice_id = ? AND network_id = ? """ query_args.append(network_tuple.appservice_id) assert network_tuple.network_id is not None query_args.append(network_tuple.network_id) else: published_sql = """ SELECT room_id FROM rooms WHERE is_public """ else: published_sql = """ SELECT room_id FROM rooms WHERE is_public UNION SELECT room_id from appservice_room_list """ # Work out the bounds if we're given them, these bounds look slightly # odd, but are designed to help query planner use indices by pulling # out a common bound. if bounds: last_joined_members, last_room_id = bounds if forwards: where_clauses.append( """ joined_members <= ? AND ( joined_members < ? OR room_id < ? ) """ ) else: where_clauses.append( """ joined_members >= ? AND ( joined_members > ? OR room_id > ? ) """ ) query_args += [last_joined_members, last_joined_members, last_room_id] if ignore_non_federatable: where_clauses.append("is_federatable") if search_filter and search_filter.get( PublicRoomsFilterFields.GENERIC_SEARCH_TERM, None ): search_term = ( "%" + search_filter[PublicRoomsFilterFields.GENERIC_SEARCH_TERM] + "%" ) where_clauses.append( """ ( LOWER(name) LIKE ? OR LOWER(topic) LIKE ? OR LOWER(canonical_alias) LIKE ? ) """ ) query_args += [ search_term.lower(), search_term.lower(), search_term.lower(), ] room_type_clause, args = self._construct_room_type_where_clause( search_filter.get(PublicRoomsFilterFields.ROOM_TYPES, None) if search_filter else None ) if room_type_clause: where_clauses.append(room_type_clause) query_args += args where_clause = "" if where_clauses: where_clause = " AND " + " AND ".join(where_clauses) dir = "DESC" if forwards else "ASC" sql = f""" SELECT room_id, name, topic, canonical_alias, joined_members, avatar, history_visibility, guest_access, join_rules, room_type FROM ( {published_sql} ) published INNER JOIN room_stats_state USING (room_id) INNER JOIN room_stats_current USING (room_id) WHERE ( join_rules = '{JoinRules.PUBLIC}' OR join_rules = '{JoinRules.KNOCK}' OR join_rules = '{JoinRules.KNOCK_RESTRICTED}' OR history_visibility = 'world_readable' ) AND joined_members > 0 {where_clause} ORDER BY joined_members {dir}, room_id {dir} """ if limit is not None: query_args.append(limit) sql += """ LIMIT ? """ def _get_largest_public_rooms_txn( txn: LoggingTransaction, ) -> List[LargestRoomStats]: txn.execute(sql, query_args) results = [ LargestRoomStats( room_id=r[0], name=r[1], canonical_alias=r[3], joined_members=r[4], join_rules=r[8], guest_access=r[7], history_visibility=r[6], state_events=0, avatar=r[5], topic=r[2], room_type=r[9], ) for r in txn ] if not forwards: results.reverse() return results return await self.db_pool.runInteraction( "get_largest_public_rooms", _get_largest_public_rooms_txn ) @cached(max_entries=10000) async def is_room_blocked(self, room_id: str) -> Optional[bool]: return await self.db_pool.simple_select_one_onecol( table="blocked_rooms", keyvalues={"room_id": room_id}, retcol="1", allow_none=True, desc="is_room_blocked", ) async def room_is_blocked_by(self, room_id: str) -> Optional[str]: """ Function to retrieve user who has blocked the room. user_id is non-nullable It returns None if the room is not blocked. """ return await self.db_pool.simple_select_one_onecol( table="blocked_rooms", keyvalues={"room_id": room_id}, retcol="user_id", allow_none=True, desc="room_is_blocked_by", ) async def get_rooms_paginate( self, start: int, limit: int, order_by: str, reverse_order: bool, search_term: Optional[str], ) -> Tuple[List[Dict[str, Any]], int]: """Function to retrieve a paginated list of rooms as json. Args: start: offset in the list limit: maximum amount of rooms to retrieve order_by: the sort order of the returned list reverse_order: whether to reverse the room list search_term: a string to filter room names, canonical alias and room ids by. Room ID must match exactly. Canonical alias must match a substring of the local part. Returns: A list of room dicts and an integer representing the total number of rooms that exist given this query """ # Filter room names by a string where_statement = "" search_pattern: List[object] = [] if search_term: where_statement = """ WHERE LOWER(state.name) LIKE ? OR LOWER(state.canonical_alias) LIKE ? OR state.room_id = ? """ # Our postgres db driver converts ? -> %s in SQL strings as that's the # placeholder for postgres. # HOWEVER, if you put a % into your SQL then everything goes wibbly. # To get around this, we're going to surround search_term with %'s # before giving it to the database in python instead search_pattern = [ "%" + search_term.lower() + "%", "#%" + search_term.lower() + "%:%", search_term, ] # Set ordering if RoomSortOrder(order_by) == RoomSortOrder.SIZE: # Deprecated in favour of RoomSortOrder.JOINED_MEMBERS order_by_column = "curr.joined_members" order_by_asc = False elif RoomSortOrder(order_by) == RoomSortOrder.ALPHABETICAL: # Deprecated in favour of RoomSortOrder.NAME order_by_column = "state.name" order_by_asc = True elif RoomSortOrder(order_by) == RoomSortOrder.NAME: order_by_column = "state.name" order_by_asc = True elif RoomSortOrder(order_by) == RoomSortOrder.CANONICAL_ALIAS: order_by_column = "state.canonical_alias" order_by_asc = True elif RoomSortOrder(order_by) == RoomSortOrder.JOINED_MEMBERS: order_by_column = "curr.joined_members" order_by_asc = False elif RoomSortOrder(order_by) == RoomSortOrder.JOINED_LOCAL_MEMBERS: order_by_column = "curr.local_users_in_room" order_by_asc = False elif RoomSortOrder(order_by) == RoomSortOrder.VERSION: order_by_column = "rooms.room_version" order_by_asc = False elif RoomSortOrder(order_by) == RoomSortOrder.CREATOR: order_by_column = "rooms.creator" order_by_asc = True elif RoomSortOrder(order_by) == RoomSortOrder.ENCRYPTION: order_by_column = "state.encryption" order_by_asc = True elif RoomSortOrder(order_by) == RoomSortOrder.FEDERATABLE: order_by_column = "state.is_federatable" order_by_asc = True elif RoomSortOrder(order_by) == RoomSortOrder.PUBLIC: order_by_column = "rooms.is_public" order_by_asc = True elif RoomSortOrder(order_by) == RoomSortOrder.JOIN_RULES: order_by_column = "state.join_rules" order_by_asc = True elif RoomSortOrder(order_by) == RoomSortOrder.GUEST_ACCESS: order_by_column = "state.guest_access" order_by_asc = True elif RoomSortOrder(order_by) == RoomSortOrder.HISTORY_VISIBILITY: order_by_column = "state.history_visibility" order_by_asc = True elif RoomSortOrder(order_by) == RoomSortOrder.STATE_EVENTS: order_by_column = "curr.current_state_events" order_by_asc = False else: raise StoreError( 500, "Incorrect value for order_by provided: %s" % order_by ) # Whether to return the list in reverse order if reverse_order: # Flip the boolean order_by_asc = not order_by_asc # Create one query for getting the limited number of events that the user asked # for, and another query for getting the total number of events that could be # returned. Thus allowing us to see if there are more events to paginate through info_sql = """ SELECT state.room_id, state.name, state.canonical_alias, curr.joined_members, curr.local_users_in_room, rooms.room_version, rooms.creator, state.encryption, state.is_federatable, rooms.is_public, state.join_rules, state.guest_access, state.history_visibility, curr.current_state_events, state.room_type FROM room_stats_state state INNER JOIN room_stats_current curr USING (room_id) INNER JOIN rooms USING (room_id) {where} ORDER BY {order_by} {direction}, state.room_id {direction} LIMIT ? OFFSET ? """.format( where=where_statement, order_by=order_by_column, direction="ASC" if order_by_asc else "DESC", ) # Use a nested SELECT statement as SQL can't count(*) with an OFFSET count_sql = """ SELECT count(*) FROM ( SELECT room_id FROM room_stats_state state {where} ) AS get_room_ids """.format( where=where_statement, ) def _get_rooms_paginate_txn( txn: LoggingTransaction, ) -> Tuple[List[Dict[str, Any]], int]: # Add the search term into the WHERE clause # and execute the data query txn.execute(info_sql, search_pattern + [limit, start]) # Refactor room query data into a structured dictionary rooms = [] for room in txn: rooms.append( { "room_id": room[0], "name": room[1], "canonical_alias": room[2], "joined_members": room[3], "joined_local_members": room[4], "version": room[5], "creator": room[6], "encryption": room[7], # room_stats_state.federatable is an integer on sqlite. "federatable": bool(room[8]), # rooms.is_public is an integer on sqlite. "public": bool(room[9]), "join_rules": room[10], "guest_access": room[11], "history_visibility": room[12], "state_events": room[13], "room_type": room[14], } ) # Execute the count query # Add the search term into the WHERE clause if present txn.execute(count_sql, search_pattern) room_count = cast(Tuple[int], txn.fetchone()) return rooms, room_count[0] return await self.db_pool.runInteraction( "get_rooms_paginate", _get_rooms_paginate_txn, ) @cached(max_entries=10000) async def get_ratelimit_for_user(self, user_id: str) -> Optional[RatelimitOverride]: """Check if there are any overrides for ratelimiting for the given user Args: user_id: user ID of the user Returns: RatelimitOverride if there is an override, else None. If the contents of RatelimitOverride are None or 0 then ratelimitng has been disabled for that user entirely. """ row = await self.db_pool.simple_select_one( table="ratelimit_override", keyvalues={"user_id": user_id}, retcols=("messages_per_second", "burst_count"), allow_none=True, desc="get_ratelimit_for_user", ) if row: return RatelimitOverride(messages_per_second=row[0], burst_count=row[1]) else: return None async def set_ratelimit_for_user( self, user_id: str, messages_per_second: int, burst_count: int ) -> None: """Sets whether a user is set an overridden ratelimit. Args: user_id: user ID of the user messages_per_second: The number of actions that can be performed in a second. burst_count: How many actions that can be performed before being limited. """ def set_ratelimit_txn(txn: LoggingTransaction) -> None: self.db_pool.simple_upsert_txn( txn, table="ratelimit_override", keyvalues={"user_id": user_id}, values={ "messages_per_second": messages_per_second, "burst_count": burst_count, }, ) self._invalidate_cache_and_stream( txn, self.get_ratelimit_for_user, (user_id,) ) await self.db_pool.runInteraction("set_ratelimit", set_ratelimit_txn) async def delete_ratelimit_for_user(self, user_id: str) -> None: """Delete an overridden ratelimit for a user. Args: user_id: user ID of the user """ def delete_ratelimit_txn(txn: LoggingTransaction) -> None: row = self.db_pool.simple_select_one_txn( txn, table="ratelimit_override", keyvalues={"user_id": user_id}, retcols=["user_id"], allow_none=True, ) if not row: return # They are there, delete them. self.db_pool.simple_delete_one_txn( txn, "ratelimit_override", keyvalues={"user_id": user_id} ) self._invalidate_cache_and_stream( txn, self.get_ratelimit_for_user, (user_id,) ) await self.db_pool.runInteraction("delete_ratelimit", delete_ratelimit_txn) @cached() async def get_retention_policy_for_room(self, room_id: str) -> RetentionPolicy: """Get the retention policy for a given room. If no retention policy has been found for this room, returns a policy defined by the configured default policy (which has None as both the 'min_lifetime' and the 'max_lifetime' if no default policy has been defined in the server's configuration). If support for retention policies is disabled, a policy with a 'min_lifetime' and 'max_lifetime' of None is returned. Args: room_id: The ID of the room to get the retention policy of. Returns: A dict containing "min_lifetime" and "max_lifetime" for this room. """ # If the room retention feature is disabled, return a policy with no minimum nor # maximum. This prevents incorrectly filtering out events when sending to # the client. if not self.config.retention.retention_enabled: return RetentionPolicy() def get_retention_policy_for_room_txn( txn: LoggingTransaction, ) -> Optional[Tuple[Optional[int], Optional[int]]]: txn.execute( """ SELECT min_lifetime, max_lifetime FROM room_retention INNER JOIN current_state_events USING (event_id, room_id) WHERE room_id = ?; """, (room_id,), ) return cast(Optional[Tuple[Optional[int], Optional[int]]], txn.fetchone()) ret = await self.db_pool.runInteraction( "get_retention_policy_for_room", get_retention_policy_for_room_txn, ) # If we don't know this room ID, ret will be None, in this case return the default # policy. if not ret: return RetentionPolicy( min_lifetime=self.config.retention.retention_default_min_lifetime, max_lifetime=self.config.retention.retention_default_max_lifetime, ) min_lifetime, max_lifetime = ret # If one of the room's policy's attributes isn't defined, use the matching # attribute from the default policy. # The default values will be None if no default policy has been defined, or if one # of the attributes is missing from the default policy. if min_lifetime is None: min_lifetime = self.config.retention.retention_default_min_lifetime if max_lifetime is None: max_lifetime = self.config.retention.retention_default_max_lifetime return RetentionPolicy( min_lifetime=min_lifetime, max_lifetime=max_lifetime, ) async def get_media_mxcs_in_room(self, room_id: str) -> Tuple[List[str], List[str]]: """Retrieves all the local and remote media MXC URIs in a given room Args: room_id Returns: The local and remote media as a lists of the media IDs. """ def _get_media_mxcs_in_room_txn( txn: LoggingTransaction, ) -> Tuple[List[str], List[str]]: local_mxcs, remote_mxcs = self._get_media_mxcs_in_room_txn(txn, room_id) local_media_mxcs = [] remote_media_mxcs = [] # Convert the IDs to MXC URIs for media_id in local_mxcs: local_media_mxcs.append("mxc://%s/%s" % (self.hs.hostname, media_id)) for hostname, media_id in remote_mxcs: remote_media_mxcs.append("mxc://%s/%s" % (hostname, media_id)) return local_media_mxcs, remote_media_mxcs return await self.db_pool.runInteraction( "get_media_ids_in_room", _get_media_mxcs_in_room_txn ) async def quarantine_media_ids_in_room( self, room_id: str, quarantined_by: str ) -> int: """For a room loops through all events with media and quarantines the associated media """ logger.info("Quarantining media in room: %s", room_id) def _quarantine_media_in_room_txn(txn: LoggingTransaction) -> int: local_mxcs, remote_mxcs = self._get_media_mxcs_in_room_txn(txn, room_id) return self._quarantine_media_txn( txn, local_mxcs, remote_mxcs, quarantined_by ) return await self.db_pool.runInteraction( "quarantine_media_in_room", _quarantine_media_in_room_txn ) def _get_media_mxcs_in_room_txn( self, txn: LoggingTransaction, room_id: str ) -> Tuple[List[str], List[Tuple[str, str]]]: """Retrieves all the local and remote media MXC URIs in a given room Returns: The local and remote media as a lists of tuples where the key is the hostname and the value is the media ID. """ sql = """ SELECT stream_ordering, json FROM events JOIN event_json USING (room_id, event_id) WHERE room_id = ? %(where_clause)s AND contains_url = TRUE AND outlier = FALSE ORDER BY stream_ordering DESC LIMIT ? """ txn.execute(sql % {"where_clause": ""}, (room_id, 100)) local_media_mxcs = [] remote_media_mxcs = [] while True: next_token = None for stream_ordering, content_json in txn: next_token = stream_ordering event_json = db_to_json(content_json) content = event_json["content"] content_url = content.get("url") info = content.get("info") if isinstance(info, dict): thumbnail_url = info.get("thumbnail_url") else: thumbnail_url = None for url in (content_url, thumbnail_url): if not url: continue matches = MXC_REGEX.match(url) if matches: hostname = matches.group(1) media_id = matches.group(2) if hostname == self.hs.hostname: local_media_mxcs.append(media_id) else: remote_media_mxcs.append((hostname, media_id)) if next_token is None: # We've gone through the whole room, so we're finished. break txn.execute( sql % {"where_clause": "AND stream_ordering < ?"}, (room_id, next_token, 100), ) return local_media_mxcs, remote_media_mxcs async def quarantine_media_by_id( self, server_name: str, media_id: str, quarantined_by: Optional[str], ) -> int: """quarantines or unquarantines a single local or remote media id Args: server_name: The name of the server that holds this media media_id: The ID of the media to be quarantined quarantined_by: The user ID that initiated the quarantine request If it is `None` media will be removed from quarantine """ logger.info("Quarantining media: %s/%s", server_name, media_id) is_local = self.hs.is_mine_server_name(server_name) def _quarantine_media_by_id_txn(txn: LoggingTransaction) -> int: local_mxcs = [media_id] if is_local else [] remote_mxcs = [(server_name, media_id)] if not is_local else [] return self._quarantine_media_txn( txn, local_mxcs, remote_mxcs, quarantined_by ) return await self.db_pool.runInteraction( "quarantine_media_by_user", _quarantine_media_by_id_txn ) async def quarantine_media_ids_by_user( self, user_id: str, quarantined_by: str ) -> int: """quarantines all local media associated with a single user Args: user_id: The ID of the user to quarantine media of quarantined_by: The ID of the user who made the quarantine request """ def _quarantine_media_by_user_txn(txn: LoggingTransaction) -> int: local_media_ids = self._get_media_ids_by_user_txn(txn, user_id) return self._quarantine_media_txn(txn, local_media_ids, [], quarantined_by) return await self.db_pool.runInteraction( "quarantine_media_by_user", _quarantine_media_by_user_txn ) def _get_media_ids_by_user_txn( self, txn: LoggingTransaction, user_id: str, filter_quarantined: bool = True ) -> List[str]: """Retrieves local media IDs by a given user Args: txn (cursor) user_id: The ID of the user to retrieve media IDs of Returns: The local and remote media as a lists of tuples where the key is the hostname and the value is the media ID. """ # Local media sql = """ SELECT media_id FROM local_media_repository WHERE user_id = ? """ if filter_quarantined: sql += "AND quarantined_by IS NULL" txn.execute(sql, (user_id,)) local_media_ids = [row[0] for row in txn] # TODO: Figure out all remote media a user has referenced in a message return local_media_ids def _quarantine_media_txn( self, txn: LoggingTransaction, local_mxcs: List[str], remote_mxcs: List[Tuple[str, str]], quarantined_by: Optional[str], ) -> int: """Quarantine and unquarantine local and remote media items Args: txn (cursor) local_mxcs: A list of local mxc URLs remote_mxcs: A list of (remote server, media id) tuples representing remote mxc URLs quarantined_by: The ID of the user who initiated the quarantine request If it is `None` media will be removed from quarantine Returns: The total number of media items quarantined """ # Update all the tables to set the quarantined_by flag sql = """ UPDATE local_media_repository SET quarantined_by = ? WHERE media_id = ? """ # set quarantine if quarantined_by is not None: sql += "AND safe_from_quarantine = FALSE" txn.executemany( sql, [(quarantined_by, media_id) for media_id in local_mxcs] ) # remove from quarantine else: txn.executemany( sql, [(quarantined_by, media_id) for media_id in local_mxcs] ) # Note that a rowcount of -1 can be used to indicate no rows were affected. total_media_quarantined = txn.rowcount if txn.rowcount > 0 else 0 txn.executemany( """ UPDATE remote_media_cache SET quarantined_by = ? WHERE media_origin = ? AND media_id = ? """, ((quarantined_by, origin, media_id) for origin, media_id in remote_mxcs), ) total_media_quarantined += txn.rowcount if txn.rowcount > 0 else 0 return total_media_quarantined async def get_rooms_for_retention_period_in_range( self, min_ms: Optional[int], max_ms: Optional[int], include_null: bool = False ) -> Dict[str, RetentionPolicy]: """Retrieves all of the rooms within the given retention range. Optionally includes the rooms which don't have a retention policy. Args: min_ms: Duration in milliseconds that define the lower limit of the range to handle (exclusive). If None, doesn't set a lower limit. max_ms: Duration in milliseconds that define the upper limit of the range to handle (inclusive). If None, doesn't set an upper limit. include_null: Whether to include rooms which retention policy is NULL in the returned set. Returns: The rooms within this range, along with their retention policy. The key is "room_id", and maps to a dict describing the retention policy associated with this room ID. The keys for this nested dict are "min_lifetime" (int|None), and "max_lifetime" (int|None). """ def get_rooms_for_retention_period_in_range_txn( txn: LoggingTransaction, ) -> Dict[str, RetentionPolicy]: range_conditions = [] args = [] if min_ms is not None: range_conditions.append("max_lifetime > ?") args.append(min_ms) if max_ms is not None: range_conditions.append("max_lifetime <= ?") args.append(max_ms) # Do a first query which will retrieve the rooms that have a retention policy # in their current state. sql = """ SELECT room_id, min_lifetime, max_lifetime FROM room_retention INNER JOIN current_state_events USING (event_id, room_id) """ if len(range_conditions): sql += " WHERE (" + " AND ".join(range_conditions) + ")" if include_null: sql += " OR max_lifetime IS NULL" txn.execute(sql, args) rooms_dict = { room_id: RetentionPolicy( min_lifetime=min_lifetime, max_lifetime=max_lifetime, ) for room_id, min_lifetime, max_lifetime in txn } if include_null: # If required, do a second query that retrieves all of the rooms we know # of so we can handle rooms with no retention policy. sql = "SELECT DISTINCT room_id FROM current_state_events" txn.execute(sql) # If a room isn't already in the dict (i.e. it doesn't have a retention # policy in its state), add it with a null policy. for (room_id,) in txn: if room_id not in rooms_dict: rooms_dict[room_id] = RetentionPolicy() return rooms_dict return await self.db_pool.runInteraction( "get_rooms_for_retention_period_in_range", get_rooms_for_retention_period_in_range_txn, ) async def get_partial_state_servers_at_join( self, room_id: str ) -> Optional[AbstractSet[str]]: """Gets the set of servers in a partial state room at the time we joined it. Returns: The `servers_in_room` list from the `/send_join` response for partial state rooms. May not be accurate or complete, as it comes from a remote homeserver. `None` for full state rooms. """ servers_in_room = await self._get_partial_state_servers_at_join(room_id) if len(servers_in_room) == 0: return None return servers_in_room @cached(iterable=True) async def _get_partial_state_servers_at_join( self, room_id: str ) -> AbstractSet[str]: return frozenset( await self.db_pool.simple_select_onecol( "partial_state_rooms_servers", keyvalues={"room_id": room_id}, retcol="server_name", desc="get_partial_state_servers_at_join", ) ) async def get_partial_state_room_resync_info( self, ) -> Mapping[str, PartialStateResyncInfo]: """Get all rooms containing events with partial state, and the information needed to restart a "resync" of those rooms. Returns: A dictionary of rooms with partial state, with room IDs as keys and lists of servers in rooms as values. """ room_servers: Dict[str, PartialStateResyncInfo] = {} rows = cast( List[Tuple[str, str]], await self.db_pool.simple_select_list( table="partial_state_rooms", keyvalues={}, retcols=("room_id", "joined_via"), desc="get_server_which_served_partial_join", ), ) for room_id, joined_via in rows: room_servers[room_id] = PartialStateResyncInfo(joined_via=joined_via) rows = cast( List[Tuple[str, str]], await self.db_pool.simple_select_list( "partial_state_rooms_servers", keyvalues=None, retcols=("room_id", "server_name"), desc="get_partial_state_rooms", ), ) for room_id, server_name in rows: entry = room_servers.get(room_id) if entry is None: # There is a foreign key constraint which enforces that every room_id in # partial_state_rooms_servers appears in partial_state_rooms. So we # expect `entry` to be non-null. (This reasoning fails if we've # partial-joined between the two SELECTs, but this is unlikely to happen # in practice.) continue entry.servers_in_room.add(server_name) return room_servers @cached(max_entries=10000) async def is_partial_state_room(self, room_id: str) -> bool: """Checks if this room has partial state. Returns true if this is a "partial-state" room, which means that the state at events in the room, and `current_state_events`, may not yet be complete. """ entry = await self.db_pool.simple_select_one_onecol( table="partial_state_rooms", keyvalues={"room_id": room_id}, retcol="room_id", allow_none=True, desc="is_partial_state_room", ) return entry is not None @cachedList(cached_method_name="is_partial_state_room", list_name="room_ids") async def is_partial_state_room_batched( self, room_ids: StrCollection ) -> Mapping[str, bool]: """Checks if the given rooms have partial state. Returns true for "partial-state" rooms, which means that the state at events in the room, and `current_state_events`, may not yet be complete. """ rows = cast( List[Tuple[str]], await self.db_pool.simple_select_many_batch( table="partial_state_rooms", column="room_id", iterable=room_ids, retcols=("room_id",), desc="is_partial_state_room_batched", ), ) partial_state_rooms = {row[0] for row in rows} return {room_id: room_id in partial_state_rooms for room_id in room_ids} async def get_join_event_id_and_device_lists_stream_id_for_partial_state( self, room_id: str ) -> Tuple[str, int]: """Get the event ID of the initial join that started the partial join, and the device list stream ID at the point we started the partial join. """ return cast( Tuple[str, int], await self.db_pool.simple_select_one( table="partial_state_rooms", keyvalues={"room_id": room_id}, retcols=("join_event_id", "device_lists_stream_id"), desc="get_join_event_id_for_partial_state", ), ) def get_un_partial_stated_rooms_token(self, instance_name: str) -> int: return self._un_partial_stated_rooms_stream_id_gen.get_current_token_for_writer( instance_name ) async def get_un_partial_stated_rooms_between( self, last_id: int, current_id: int, room_ids: Collection[str] ) -> Set[str]: """Get all rooms that got un partial stated between `last_id` exclusive and `current_id` inclusive. Returns: The list of room ids. """ if last_id == current_id: return set() def _get_un_partial_stated_rooms_between_txn( txn: LoggingTransaction, ) -> Set[str]: sql = """ SELECT DISTINCT room_id FROM un_partial_stated_room_stream WHERE ? < stream_id AND stream_id <= ? AND """ clause, args = make_in_list_sql_clause( self.database_engine, "room_id", room_ids ) txn.execute(sql + clause, [last_id, current_id] + args) return {r[0] for r in txn} return await self.db_pool.runInteraction( "get_un_partial_stated_rooms_between", _get_un_partial_stated_rooms_between_txn, ) async def get_un_partial_stated_rooms_from_stream( self, instance_name: str, last_id: int, current_id: int, limit: int ) -> Tuple[List[Tuple[int, Tuple[str]]], int, bool]: """Get updates for un partial stated rooms replication stream. Args: instance_name: The writer we want to fetch updates from. Unused here since there is only ever one writer. last_id: The token to fetch updates from. Exclusive. current_id: The token to fetch updates up to. Inclusive. limit: The requested limit for the number of rows to return. The function may return more or fewer rows. Returns: A tuple consisting of: the updates, a token to use to fetch subsequent updates, and whether we returned fewer rows than exists between the requested tokens due to the limit. The token returned can be used in a subsequent call to this function to get further updatees. The updates are a list of 2-tuples of stream ID and the row data """ if last_id == current_id: return [], current_id, False def get_un_partial_stated_rooms_from_stream_txn( txn: LoggingTransaction, ) -> Tuple[List[Tuple[int, Tuple[str]]], int, bool]: sql = """ SELECT stream_id, room_id FROM un_partial_stated_room_stream WHERE ? < stream_id AND stream_id <= ? AND instance_name = ? ORDER BY stream_id ASC LIMIT ? """ txn.execute(sql, (last_id, current_id, instance_name, limit)) updates = [(row[0], (row[1],)) for row in txn] limited = False upto_token = current_id if len(updates) >= limit: upto_token = updates[-1][0] limited = True return updates, upto_token, limited return await self.db_pool.runInteraction( "get_un_partial_stated_rooms_from_stream", get_un_partial_stated_rooms_from_stream_txn, ) async def get_event_report(self, report_id: int) -> Optional[Dict[str, Any]]: """Retrieve an event report Args: report_id: ID of reported event in database Returns: JSON dict of information from an event report or None if the report does not exist. """ def _get_event_report_txn( txn: LoggingTransaction, report_id: int ) -> Optional[Dict[str, Any]]: sql = """ SELECT er.id, er.received_ts, er.room_id, er.event_id, er.user_id, er.content, events.sender, room_stats_state.canonical_alias, room_stats_state.name, event_json.json AS event_json FROM event_reports AS er LEFT JOIN events ON events.event_id = er.event_id JOIN event_json ON event_json.event_id = er.event_id JOIN room_stats_state ON room_stats_state.room_id = er.room_id WHERE er.id = ? """ txn.execute(sql, [report_id]) row = txn.fetchone() if not row: return None event_report = { "id": row[0], "received_ts": row[1], "room_id": row[2], "event_id": row[3], "user_id": row[4], "score": db_to_json(row[5]).get("score"), "reason": db_to_json(row[5]).get("reason"), "sender": row[6], "canonical_alias": row[7], "name": row[8], "event_json": db_to_json(row[9]), } return event_report return await self.db_pool.runInteraction( "get_event_report", _get_event_report_txn, report_id ) async def get_event_reports_paginate( self, start: int, limit: int, direction: Direction = Direction.BACKWARDS, user_id: Optional[str] = None, room_id: Optional[str] = None, ) -> Tuple[List[Dict[str, Any]], int]: """Retrieve a paginated list of event reports Args: start: event offset to begin the query from limit: number of rows to retrieve direction: Whether to fetch the most recent first (backwards) or the oldest first (forwards) user_id: search for user_id. Ignored if user_id is None room_id: search for room_id. Ignored if room_id is None Returns: Tuple of: json list of event reports total number of event reports matching the filter criteria """ def _get_event_reports_paginate_txn( txn: LoggingTransaction, ) -> Tuple[List[Dict[str, Any]], int]: filters = [] args: List[object] = [] if user_id: filters.append("er.user_id LIKE ?") args.extend(["%" + user_id + "%"]) if room_id: filters.append("er.room_id LIKE ?") args.extend(["%" + room_id + "%"]) if direction == Direction.BACKWARDS: order = "DESC" else: order = "ASC" where_clause = "WHERE " + " AND ".join(filters) if len(filters) > 0 else "" # We join on room_stats_state despite not using any columns from it # because the join can influence the number of rows returned; # e.g. a room that doesn't have state, maybe because it was deleted. # The query returning the total count should be consistent with # the query returning the results. sql = """ SELECT COUNT(*) as total_event_reports FROM event_reports AS er JOIN room_stats_state ON room_stats_state.room_id = er.room_id {} """.format( where_clause ) txn.execute(sql, args) count = cast(Tuple[int], txn.fetchone())[0] sql = """ SELECT er.id, er.received_ts, er.room_id, er.event_id, er.user_id, er.content, events.sender, room_stats_state.canonical_alias, room_stats_state.name FROM event_reports AS er LEFT JOIN events ON events.event_id = er.event_id JOIN room_stats_state ON room_stats_state.room_id = er.room_id {where_clause} ORDER BY er.received_ts {order} LIMIT ? OFFSET ? """.format( where_clause=where_clause, order=order, ) args += [limit, start] txn.execute(sql, args) event_reports = [] for row in txn: try: s = db_to_json(row[5]).get("score") r = db_to_json(row[5]).get("reason") except Exception: logger.error("Unable to parse json from event_reports: %s", row[0]) continue event_reports.append( { "id": row[0], "received_ts": row[1], "room_id": row[2], "event_id": row[3], "user_id": row[4], "score": s, "reason": r, "sender": row[6], "canonical_alias": row[7], "name": row[8], } ) return event_reports, count return await self.db_pool.runInteraction( "get_event_reports_paginate", _get_event_reports_paginate_txn ) async def delete_event_report(self, report_id: int) -> bool: """Remove an event report from database. Args: report_id: Report to delete Returns: Whether the report was successfully deleted or not. """ try: await self.db_pool.simple_delete_one( table="event_reports", keyvalues={"id": report_id}, desc="delete_event_report", ) except StoreError: # Deletion failed because report does not exist return False return True async def set_room_is_public(self, room_id: str, is_public: bool) -> None: await self.db_pool.simple_update_one( table="rooms", keyvalues={"room_id": room_id}, updatevalues={"is_public": is_public}, desc="set_room_is_public", ) async def set_room_is_public_appservice( self, room_id: str, appservice_id: str, network_id: str, is_public: bool ) -> None: """Edit the appservice/network specific public room list. Each appservice can have a number of published room lists associated with them, keyed off of an appservice defined `network_id`, which basically represents a single instance of a bridge to a third party network. Args: room_id appservice_id network_id is_public: Whether to publish or unpublish the room from the list. """ if is_public: await self.db_pool.simple_upsert( table="appservice_room_list", keyvalues={ "appservice_id": appservice_id, "network_id": network_id, "room_id": room_id, }, values={}, insertion_values={ "appservice_id": appservice_id, "network_id": network_id, "room_id": room_id, }, desc="set_room_is_public_appservice_true", ) else: await self.db_pool.simple_delete( table="appservice_room_list", keyvalues={ "appservice_id": appservice_id, "network_id": network_id, "room_id": room_id, }, desc="set_room_is_public_appservice_false", ) class _BackgroundUpdates: REMOVE_TOMESTONED_ROOMS_BG_UPDATE = "remove_tombstoned_rooms_from_directory" ADD_ROOMS_ROOM_VERSION_COLUMN = "add_rooms_room_version_column" POPULATE_ROOM_DEPTH_MIN_DEPTH2 = "populate_room_depth_min_depth2" REPLACE_ROOM_DEPTH_MIN_DEPTH = "replace_room_depth_min_depth" POPULATE_ROOMS_CREATOR_COLUMN = "populate_rooms_creator_column" ADD_ROOM_TYPE_COLUMN = "add_room_type_column" _REPLACE_ROOM_DEPTH_SQL_COMMANDS = ( "DROP TRIGGER populate_min_depth2_trigger ON room_depth", "DROP FUNCTION populate_min_depth2()", "ALTER TABLE room_depth DROP COLUMN min_depth", "ALTER TABLE room_depth RENAME COLUMN min_depth2 TO min_depth", ) class RoomBackgroundUpdateStore(RoomWorkerStore): def __init__( self, database: DatabasePool, db_conn: LoggingDatabaseConnection, hs: "HomeServer", ): super().__init__(database, db_conn, hs) self.db_pool.updates.register_background_update_handler( "insert_room_retention", self._background_insert_retention, ) self.db_pool.updates.register_background_update_handler( _BackgroundUpdates.REMOVE_TOMESTONED_ROOMS_BG_UPDATE, self._remove_tombstoned_rooms_from_directory, ) self.db_pool.updates.register_background_update_handler( _BackgroundUpdates.ADD_ROOMS_ROOM_VERSION_COLUMN, self._background_add_rooms_room_version_column, ) self.db_pool.updates.register_background_update_handler( _BackgroundUpdates.ADD_ROOM_TYPE_COLUMN, self._background_add_room_type_column, ) # BG updates to change the type of room_depth.min_depth self.db_pool.updates.register_background_update_handler( _BackgroundUpdates.POPULATE_ROOM_DEPTH_MIN_DEPTH2, self._background_populate_room_depth_min_depth2, ) self.db_pool.updates.register_background_update_handler( _BackgroundUpdates.REPLACE_ROOM_DEPTH_MIN_DEPTH, self._background_replace_room_depth_min_depth, ) self.db_pool.updates.register_background_update_handler( _BackgroundUpdates.POPULATE_ROOMS_CREATOR_COLUMN, self._background_populate_rooms_creator_column, ) async def _background_insert_retention( self, progress: JsonDict, batch_size: int ) -> int: """Retrieves a list of all rooms within a range and inserts an entry for each of them into the room_retention table. NULLs the property's columns if missing from the retention event in the room's state (or NULLs all of them if there's no retention event in the room's state), so that we fall back to the server's retention policy. """ last_room = progress.get("room_id", "") def _background_insert_retention_txn(txn: LoggingTransaction) -> bool: txn.execute( """ SELECT state.room_id, state.event_id, events.json FROM current_state_events as state LEFT JOIN event_json AS events ON (state.event_id = events.event_id) WHERE state.room_id > ? AND state.type = '%s' ORDER BY state.room_id ASC LIMIT ?; """ % EventTypes.Retention, (last_room, batch_size), ) rows = txn.fetchall() if not rows: return True for room_id, event_id, json in rows: if not json: retention_policy = {} else: ev = db_to_json(json) retention_policy = ev["content"] self.db_pool.simple_insert_txn( txn=txn, table="room_retention", values={ "room_id": room_id, "event_id": event_id, "min_lifetime": retention_policy.get("min_lifetime"), "max_lifetime": retention_policy.get("max_lifetime"), }, ) logger.info("Inserted %d rows into room_retention", len(rows)) self.db_pool.updates._background_update_progress_txn( txn, "insert_room_retention", {"room_id": rows[-1][0]} ) if batch_size > len(rows): return True else: return False end = await self.db_pool.runInteraction( "insert_room_retention", _background_insert_retention_txn, ) if end: await self.db_pool.updates._end_background_update("insert_room_retention") return batch_size async def _background_add_rooms_room_version_column( self, progress: JsonDict, batch_size: int ) -> int: """Background update to go and add room version information to `rooms` table from `current_state_events` table. """ last_room_id = progress.get("room_id", "") def _background_add_rooms_room_version_column_txn( txn: LoggingTransaction, ) -> bool: sql = """ SELECT room_id, json FROM current_state_events INNER JOIN event_json USING (room_id, event_id) WHERE room_id > ? AND type = 'm.room.create' AND state_key = '' ORDER BY room_id LIMIT ? """ txn.execute(sql, (last_room_id, batch_size)) updates = [] for room_id, event_json in txn: event_dict = db_to_json(event_json) room_version_id = event_dict.get("content", {}).get( "room_version", RoomVersions.V1.identifier ) creator = event_dict.get("content").get("creator") updates.append((room_id, creator, room_version_id)) if not updates: return True new_last_room_id = "" for room_id, creator, room_version_id in updates: # We upsert here just in case we don't already have a row, # mainly for paranoia as much badness would happen if we don't # insert the row and then try and get the room version for the # room. self.db_pool.simple_upsert_txn( txn, table="rooms", keyvalues={"room_id": room_id}, values={"room_version": room_version_id}, insertion_values={"is_public": False, "creator": creator}, ) new_last_room_id = room_id self.db_pool.updates._background_update_progress_txn( txn, _BackgroundUpdates.ADD_ROOMS_ROOM_VERSION_COLUMN, {"room_id": new_last_room_id}, ) return False end = await self.db_pool.runInteraction( "_background_add_rooms_room_version_column", _background_add_rooms_room_version_column_txn, ) if end: await self.db_pool.updates._end_background_update( _BackgroundUpdates.ADD_ROOMS_ROOM_VERSION_COLUMN ) return batch_size async def _remove_tombstoned_rooms_from_directory( self, progress: JsonDict, batch_size: int ) -> int: """Removes any rooms with tombstone events from the room directory Nowadays this is handled by the room upgrade handler, but we may have some that got left behind """ last_room = progress.get("room_id", "") def _get_rooms(txn: LoggingTransaction) -> List[str]: txn.execute( """ SELECT room_id FROM rooms r INNER JOIN current_state_events cse USING (room_id) WHERE room_id > ? AND r.is_public AND cse.type = '%s' AND cse.state_key = '' ORDER BY room_id ASC LIMIT ?; """ % EventTypes.Tombstone, (last_room, batch_size), ) return [row[0] for row in txn] rooms = await self.db_pool.runInteraction( "get_tombstoned_directory_rooms", _get_rooms ) if not rooms: await self.db_pool.updates._end_background_update( _BackgroundUpdates.REMOVE_TOMESTONED_ROOMS_BG_UPDATE ) return 0 for room_id in rooms: logger.info("Removing tombstoned room %s from the directory", room_id) await self.set_room_is_public(room_id, False) await self.db_pool.updates._background_update_progress( _BackgroundUpdates.REMOVE_TOMESTONED_ROOMS_BG_UPDATE, {"room_id": rooms[-1]} ) return len(rooms) async def has_auth_chain_index(self, room_id: str) -> bool: """Check if the room has (or can have) a chain cover index. Defaults to True if we don't have an entry in `rooms` table nor any events for the room. """ has_auth_chain_index = await self.db_pool.simple_select_one_onecol( table="rooms", keyvalues={"room_id": room_id}, retcol="has_auth_chain_index", desc="has_auth_chain_index", allow_none=True, ) if has_auth_chain_index: return True # It's possible that we already have events for the room in our DB # without a corresponding room entry. If we do then we don't want to # mark the room as having an auth chain cover index. max_ordering = await self.db_pool.simple_select_one_onecol( table="events", keyvalues={"room_id": room_id}, retcol="MAX(stream_ordering)", allow_none=True, desc="has_auth_chain_index_fallback", ) return max_ordering is None async def _background_populate_room_depth_min_depth2( self, progress: JsonDict, batch_size: int ) -> int: """Populate room_depth.min_depth2 This is to deal with the fact that min_depth was initially created as a 32-bit integer field. """ def process(txn: LoggingTransaction) -> int: last_room = progress.get("last_room", "") txn.execute( """ UPDATE room_depth SET min_depth2=min_depth WHERE room_id IN ( SELECT room_id FROM room_depth WHERE room_id > ? ORDER BY room_id LIMIT ? ) RETURNING room_id; """, (last_room, batch_size), ) row_count = txn.rowcount if row_count == 0: return 0 last_room = max(row[0] for row in txn) logger.info("populated room_depth up to %s", last_room) self.db_pool.updates._background_update_progress_txn( txn, _BackgroundUpdates.POPULATE_ROOM_DEPTH_MIN_DEPTH2, {"last_room": last_room}, ) return row_count result = await self.db_pool.runInteraction( "_background_populate_min_depth2", process ) if result != 0: return result await self.db_pool.updates._end_background_update( _BackgroundUpdates.POPULATE_ROOM_DEPTH_MIN_DEPTH2 ) return 0 async def _background_replace_room_depth_min_depth( self, progress: JsonDict, batch_size: int ) -> int: """Drop the old 'min_depth' column and rename 'min_depth2' into its place.""" def process(txn: Cursor) -> None: for sql in _REPLACE_ROOM_DEPTH_SQL_COMMANDS: logger.info("completing room_depth migration: %s", sql) txn.execute(sql) await self.db_pool.runInteraction("_background_replace_room_depth", process) await self.db_pool.updates._end_background_update( _BackgroundUpdates.REPLACE_ROOM_DEPTH_MIN_DEPTH, ) return 0 async def _background_populate_rooms_creator_column( self, progress: JsonDict, batch_size: int ) -> int: """Background update to go and add creator information to `rooms` table from `current_state_events` table. """ last_room_id = progress.get("room_id", "") def _background_populate_rooms_creator_column_txn( txn: LoggingTransaction, ) -> bool: sql = """ SELECT room_id, json FROM event_json INNER JOIN rooms AS room USING (room_id) INNER JOIN current_state_events AS state_event USING (room_id, event_id) WHERE room_id > ? AND (room.creator IS NULL OR room.creator = '') AND state_event.type = 'm.room.create' AND state_event.state_key = '' ORDER BY room_id LIMIT ? """ txn.execute(sql, (last_room_id, batch_size)) room_id_to_create_event_results = txn.fetchall() new_last_room_id = "" for room_id, event_json in room_id_to_create_event_results: event_dict = db_to_json(event_json) # The creator property might not exist in newer room versions, but # for those versions the creator column should be properly populate # during room creation. creator = event_dict.get("content").get(EventContentFields.ROOM_CREATOR) self.db_pool.simple_update_txn( txn, table="rooms", keyvalues={"room_id": room_id}, updatevalues={"creator": creator}, ) new_last_room_id = room_id if new_last_room_id == "": return True self.db_pool.updates._background_update_progress_txn( txn, _BackgroundUpdates.POPULATE_ROOMS_CREATOR_COLUMN, {"room_id": new_last_room_id}, ) return False end = await self.db_pool.runInteraction( "_background_populate_rooms_creator_column", _background_populate_rooms_creator_column_txn, ) if end: await self.db_pool.updates._end_background_update( _BackgroundUpdates.POPULATE_ROOMS_CREATOR_COLUMN ) return batch_size async def _background_add_room_type_column( self, progress: JsonDict, batch_size: int ) -> int: """Background update to go and add room_type information to `room_stats_state` table from `event_json` table. """ last_room_id = progress.get("room_id", "") def _background_add_room_type_column_txn( txn: LoggingTransaction, ) -> bool: sql = """ SELECT state.room_id, json FROM event_json INNER JOIN current_state_events AS state USING (event_id) WHERE state.room_id > ? AND type = 'm.room.create' ORDER BY state.room_id LIMIT ? """ txn.execute(sql, (last_room_id, batch_size)) room_id_to_create_event_results = txn.fetchall() new_last_room_id = None for room_id, event_json in room_id_to_create_event_results: event_dict = db_to_json(event_json) room_type = event_dict.get("content", {}).get( EventContentFields.ROOM_TYPE, None ) if isinstance(room_type, str): self.db_pool.simple_update_txn( txn, table="room_stats_state", keyvalues={"room_id": room_id}, updatevalues={"room_type": room_type}, ) new_last_room_id = room_id if new_last_room_id is None: return True self.db_pool.updates._background_update_progress_txn( txn, _BackgroundUpdates.ADD_ROOM_TYPE_COLUMN, {"room_id": new_last_room_id}, ) return False end = await self.db_pool.runInteraction( "_background_add_room_type_column", _background_add_room_type_column_txn, ) if end: await self.db_pool.updates._end_background_update( _BackgroundUpdates.ADD_ROOM_TYPE_COLUMN ) return batch_size class RoomStore(RoomBackgroundUpdateStore, RoomWorkerStore): def __init__( self, database: DatabasePool, db_conn: LoggingDatabaseConnection, hs: "HomeServer", ): super().__init__(database, db_conn, hs) self._event_reports_id_gen = IdGenerator(db_conn, "event_reports", "id") self._room_reports_id_gen = IdGenerator(db_conn, "room_reports", "id") self._instance_name = hs.get_instance_name() async def upsert_room_on_join( self, room_id: str, room_version: RoomVersion, state_events: List[EventBase] ) -> None: """Ensure that the room is stored in the table Called when we join a room over federation, and overwrites any room version currently in the table. """ # It's possible that we already have events for the room in our DB # without a corresponding room entry. If we do then we don't want to # mark the room as having an auth chain cover index. has_auth_chain_index = await self.has_auth_chain_index(room_id) create_event = None for e in state_events: if (e.type, e.state_key) == (EventTypes.Create, ""): create_event = e break if create_event is None: # If the state doesn't have a create event then the room is # invalid, and it would fail auth checks anyway. raise StoreError(400, "No create event in state") # Before MSC2175, the room creator was a separate field. if not room_version.implicit_room_creator: room_creator = create_event.content.get(EventContentFields.ROOM_CREATOR) if not isinstance(room_creator, str): # If the create event does not have a creator then the room is # invalid, and it would fail auth checks anyway. raise StoreError(400, "No creator defined on the create event") else: room_creator = create_event.sender await self.db_pool.simple_upsert( desc="upsert_room_on_join", table="rooms", keyvalues={"room_id": room_id}, values={"room_version": room_version.identifier}, insertion_values={ "is_public": False, "creator": room_creator, "has_auth_chain_index": has_auth_chain_index, }, ) async def store_partial_state_room( self, room_id: str, servers: AbstractSet[str], device_lists_stream_id: int, joined_via: str, ) -> None: """Mark the given room as containing events with partial state. We also store additional data that describes _when_ we first partial-joined this room, which helps us to keep other homeservers in sync when we finally fully join this room. We do not include a `join_event_id` here---we need to wait for the join event to be persisted first. Args: room_id: the ID of the room servers: other servers known to be in the room. must include `joined_via`. device_lists_stream_id: the device_lists stream ID at the time when we first joined the room. joined_via: the server name we requested a partial join from. """ assert joined_via in servers await self.db_pool.runInteraction( "store_partial_state_room", self._store_partial_state_room_txn, room_id, servers, device_lists_stream_id, joined_via, ) def _store_partial_state_room_txn( self, txn: LoggingTransaction, room_id: str, servers: AbstractSet[str], device_lists_stream_id: int, joined_via: str, ) -> None: DatabasePool.simple_insert_txn( txn, table="partial_state_rooms", values={ "room_id": room_id, "device_lists_stream_id": device_lists_stream_id, # To be updated later once the join event is persisted. "join_event_id": None, "joined_via": joined_via, }, ) DatabasePool.simple_insert_many_txn( txn, table="partial_state_rooms_servers", keys=("room_id", "server_name"), values=[(room_id, s) for s in servers], ) self._invalidate_cache_and_stream(txn, self.is_partial_state_room, (room_id,)) self._invalidate_cache_and_stream( txn, self._get_partial_state_servers_at_join, (room_id,) ) async def write_partial_state_rooms_join_event_id( self, room_id: str, join_event_id: str, ) -> None: """Record the join event which resulted from a partial join. We do this separately to `store_partial_state_room` because we need to wait for the join event to be persisted. Otherwise we violate a foreign key constraint. """ await self.db_pool.runInteraction( "write_partial_state_rooms_join_event_id", self._write_partial_state_rooms_join_event_id, room_id, join_event_id, ) def _write_partial_state_rooms_join_event_id( self, txn: LoggingTransaction, room_id: str, join_event_id: str, ) -> None: DatabasePool.simple_update_txn( txn, table="partial_state_rooms", keyvalues={"room_id": room_id}, updatevalues={"join_event_id": join_event_id}, ) async def maybe_store_room_on_outlier_membership( self, room_id: str, room_version: RoomVersion ) -> None: """ When we receive an invite or any other event over federation that may relate to a room we are not in, store the version of the room if we don't already know the room version. """ # It's possible that we already have events for the room in our DB # without a corresponding room entry. If we do then we don't want to # mark the room as having an auth chain cover index. has_auth_chain_index = await self.has_auth_chain_index(room_id) await self.db_pool.simple_upsert( desc="maybe_store_room_on_outlier_membership", table="rooms", keyvalues={"room_id": room_id}, values={}, insertion_values={ "room_version": room_version.identifier, "is_public": False, # We don't worry about setting the `creator` here because # we don't process any messages in a room while a user is # invited (only after the join). "creator": "", "has_auth_chain_index": has_auth_chain_index, }, ) async def add_event_report( self, room_id: str, event_id: str, user_id: str, reason: Optional[str], content: JsonDict, received_ts: int, ) -> int: """Add an event report Args: room_id: Room that contains the reported event. event_id: The reported event. user_id: User who reports the event. reason: Description that the user specifies. content: Report request body (score and reason). received_ts: Time when the user submitted the report (milliseconds). Returns: Id of the event report. """ next_id = self._event_reports_id_gen.get_next() await self.db_pool.simple_insert( table="event_reports", values={ "id": next_id, "received_ts": received_ts, "room_id": room_id, "event_id": event_id, "user_id": user_id, "reason": reason, "content": json_encoder.encode(content), }, desc="add_event_report", ) return next_id async def add_room_report( self, room_id: str, user_id: str, reason: str, received_ts: int, ) -> int: """Add a room report Args: room_id: The room ID being reported. user_id: User who reports the room. reason: Description that the user specifies. received_ts: Time when the user submitted the report (milliseconds). Returns: Id of the room report. """ next_id = self._room_reports_id_gen.get_next() await self.db_pool.simple_insert( table="room_reports", values={ "id": next_id, "received_ts": received_ts, "room_id": room_id, "user_id": user_id, "reason": reason, }, desc="add_room_report", ) return next_id async def block_room(self, room_id: str, user_id: str) -> None: """Marks the room as blocked. Can be called multiple times (though we'll only track the last user to block this room). Can be called on a room unknown to this homeserver. Args: room_id: Room to block user_id: Who blocked it """ await self.db_pool.simple_upsert( table="blocked_rooms", keyvalues={"room_id": room_id}, values={}, insertion_values={"user_id": user_id}, desc="block_room", ) await self.db_pool.runInteraction( "block_room_invalidation", self._invalidate_cache_and_stream, self.is_room_blocked, (room_id,), ) async def unblock_room(self, room_id: str) -> None: """Remove the room from blocking list. Args: room_id: Room to unblock """ await self.db_pool.simple_delete( table="blocked_rooms", keyvalues={"room_id": room_id}, desc="unblock_room", ) await self.db_pool.runInteraction( "block_room_invalidation", self._invalidate_cache_and_stream, self.is_room_blocked, (room_id,), ) async def clear_partial_state_room(self, room_id: str) -> Optional[int]: """Clears the partial state flag for a room. Args: room_id: The room whose partial state flag is to be cleared. Returns: The corresponding stream id for the un-partial-stated rooms stream. `None` if the partial state flag could not be cleared because the room still contains events with partial state. """ try: async with self._un_partial_stated_rooms_stream_id_gen.get_next() as un_partial_state_room_stream_id: await self.db_pool.runInteraction( "clear_partial_state_room", self._clear_partial_state_room_txn, room_id, un_partial_state_room_stream_id, ) return un_partial_state_room_stream_id except self.db_pool.engine.module.IntegrityError as e: # Assume that any `IntegrityError`s are due to partial state events. logger.info( "Exception while clearing lazy partial-state-room %s, retrying: %s", room_id, e, ) return None def _clear_partial_state_room_txn( self, txn: LoggingTransaction, room_id: str, un_partial_state_room_stream_id: int, ) -> None: DatabasePool.simple_delete_txn( txn, table="partial_state_rooms_servers", keyvalues={"room_id": room_id}, ) DatabasePool.simple_delete_one_txn( txn, table="partial_state_rooms", keyvalues={"room_id": room_id}, ) self._invalidate_cache_and_stream(txn, self.is_partial_state_room, (room_id,)) self._invalidate_cache_and_stream( txn, self._get_partial_state_servers_at_join, (room_id,) ) DatabasePool.simple_insert_txn( txn, "un_partial_stated_room_stream", { "stream_id": un_partial_state_room_stream_id, "instance_name": self._instance_name, "room_id": room_id, }, ) # We now delete anything from `device_lists_remote_pending` with a # stream ID less than the minimum # `partial_state_rooms.device_lists_stream_id`, as we no longer need them. device_lists_stream_id = DatabasePool.simple_select_one_onecol_txn( txn, table="partial_state_rooms", keyvalues={}, retcol="MIN(device_lists_stream_id)", allow_none=True, ) if device_lists_stream_id is None: # There are no rooms being currently partially joined, so we delete everything. txn.execute("DELETE FROM device_lists_remote_pending") else: sql = """ DELETE FROM device_lists_remote_pending WHERE stream_id <= ? """ txn.execute(sql, (device_lists_stream_id,))