# Copyright 2016 OpenMarket Ltd # Copyright 2021 The Matrix.org Foundation C.I.C. # # Licensed under the Apache License, Version 2.0 (the "License"); # you may not use this file except in compliance with the License. # You may obtain a copy of the License at # # http://www.apache.org/licenses/LICENSE-2.0 # # Unless required by applicable law or agreed to in writing, software # distributed under the License is distributed on an "AS IS" BASIS, # WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. # See the License for the specific language governing permissions and # limitations under the License. import logging from typing import ( TYPE_CHECKING, Collection, Dict, Iterable, List, Optional, Set, Tuple, cast, ) from synapse.api.constants import EventContentFields from synapse.logging import issue9533_logger from synapse.logging.opentracing import ( SynapseTags, log_kv, set_tag, start_active_span, trace, ) from synapse.replication.tcp.streams import ToDeviceStream from synapse.storage._base import SQLBaseStore, db_to_json from synapse.storage.database import ( DatabasePool, LoggingDatabaseConnection, LoggingTransaction, make_in_list_sql_clause, ) from synapse.storage.engines import PostgresEngine from synapse.storage.util.id_generators import ( AbstractStreamIdGenerator, MultiWriterIdGenerator, StreamIdGenerator, ) from synapse.types import JsonDict from synapse.util import json_encoder from synapse.util.caches.expiringcache import ExpiringCache from synapse.util.caches.stream_change_cache import StreamChangeCache if TYPE_CHECKING: from synapse.server import HomeServer logger = logging.getLogger(__name__) class DeviceInboxWorkerStore(SQLBaseStore): def __init__( self, database: DatabasePool, db_conn: LoggingDatabaseConnection, hs: "HomeServer", ): super().__init__(database, db_conn, hs) self._instance_name = hs.get_instance_name() # Map of (user_id, device_id) to the last stream_id that has been # deleted up to. This is so that we can no op deletions. self._last_device_delete_cache: ExpiringCache[ Tuple[str, Optional[str]], int ] = ExpiringCache( cache_name="last_device_delete_cache", clock=self._clock, max_len=10000, expiry_ms=30 * 60 * 1000, ) if isinstance(database.engine, PostgresEngine): self._can_write_to_device = ( self._instance_name in hs.config.worker.writers.to_device ) self._device_inbox_id_gen: AbstractStreamIdGenerator = ( MultiWriterIdGenerator( db_conn=db_conn, db=database, notifier=hs.get_replication_notifier(), stream_name="to_device", instance_name=self._instance_name, tables=[("device_inbox", "instance_name", "stream_id")], sequence_name="device_inbox_sequence", writers=hs.config.worker.writers.to_device, ) ) else: self._can_write_to_device = True self._device_inbox_id_gen = StreamIdGenerator( db_conn, hs.get_replication_notifier(), "device_inbox", "stream_id" ) max_device_inbox_id = self._device_inbox_id_gen.get_current_token() device_inbox_prefill, min_device_inbox_id = self.db_pool.get_cache_dict( db_conn, "device_inbox", entity_column="user_id", stream_column="stream_id", max_value=max_device_inbox_id, limit=1000, ) self._device_inbox_stream_cache = StreamChangeCache( "DeviceInboxStreamChangeCache", min_device_inbox_id, prefilled_cache=device_inbox_prefill, ) # The federation outbox and the local device inbox uses the same # stream_id generator. device_outbox_prefill, min_device_outbox_id = self.db_pool.get_cache_dict( db_conn, "device_federation_outbox", entity_column="destination", stream_column="stream_id", max_value=max_device_inbox_id, limit=1000, ) self._device_federation_outbox_stream_cache = StreamChangeCache( "DeviceFederationOutboxStreamChangeCache", min_device_outbox_id, prefilled_cache=device_outbox_prefill, ) def process_replication_rows( self, stream_name: str, instance_name: str, token: int, rows: Iterable[ToDeviceStream.ToDeviceStreamRow], ) -> None: if stream_name == ToDeviceStream.NAME: # If replication is happening than postgres must be being used. assert isinstance(self._device_inbox_id_gen, MultiWriterIdGenerator) self._device_inbox_id_gen.advance(instance_name, token) for row in rows: if row.entity.startswith("@"): self._device_inbox_stream_cache.entity_has_changed( row.entity, token ) else: self._device_federation_outbox_stream_cache.entity_has_changed( row.entity, token ) return super().process_replication_rows(stream_name, instance_name, token, rows) def process_replication_position( self, stream_name: str, instance_name: str, token: int ) -> None: if stream_name == ToDeviceStream.NAME: self._device_inbox_id_gen.advance(instance_name, token) super().process_replication_position(stream_name, instance_name, token) def get_to_device_stream_token(self) -> int: return self._device_inbox_id_gen.get_current_token() async def get_messages_for_user_devices( self, user_ids: Collection[str], from_stream_id: int, to_stream_id: int, ) -> Dict[Tuple[str, str], List[JsonDict]]: """ Retrieve to-device messages for a given set of users. Only to-device messages with stream ids between the given boundaries (from < X <= to) are returned. Args: user_ids: The users to retrieve to-device messages for. from_stream_id: The lower boundary of stream id to filter with (exclusive). to_stream_id: The upper boundary of stream id to filter with (inclusive). Returns: A dictionary of (user id, device id) -> list of to-device messages. """ # We expect the stream ID returned by _get_device_messages to always # be to_stream_id. So, no need to return it from this function. ( user_id_device_id_to_messages, last_processed_stream_id, ) = await self._get_device_messages( user_ids=user_ids, from_stream_id=from_stream_id, to_stream_id=to_stream_id, ) assert ( last_processed_stream_id == to_stream_id ), "Expected _get_device_messages to process all to-device messages up to `to_stream_id`" return user_id_device_id_to_messages async def get_messages_for_device( self, user_id: str, device_id: str, from_stream_id: int, to_stream_id: int, limit: int = 100, ) -> Tuple[List[JsonDict], int]: """ Retrieve to-device messages for a single user device. Only to-device messages with stream ids between the given boundaries (from < X <= to) are returned. Args: user_id: The ID of the user to retrieve messages for. device_id: The ID of the device to retrieve to-device messages for. from_stream_id: The lower boundary of stream id to filter with (exclusive). to_stream_id: The upper boundary of stream id to filter with (inclusive). limit: A limit on the number of to-device messages returned. Returns: A tuple containing: * A list of to-device messages within the given stream id range intended for the given user / device combo. * The last-processed stream ID. Subsequent calls of this function with the same device should pass this value as 'from_stream_id'. """ ( user_id_device_id_to_messages, last_processed_stream_id, ) = await self._get_device_messages( user_ids=[user_id], device_id=device_id, from_stream_id=from_stream_id, to_stream_id=to_stream_id, limit=limit, ) if not user_id_device_id_to_messages: # There were no messages! return [], to_stream_id # Extract the messages, no need to return the user and device ID again to_device_messages = user_id_device_id_to_messages.get((user_id, device_id), []) return to_device_messages, last_processed_stream_id async def _get_device_messages( self, user_ids: Collection[str], from_stream_id: int, to_stream_id: int, device_id: Optional[str] = None, limit: Optional[int] = None, ) -> Tuple[Dict[Tuple[str, str], List[JsonDict]], int]: """ Retrieve pending to-device messages for a collection of user devices. Only to-device messages with stream ids between the given boundaries (from < X <= to) are returned. Note that a stream ID can be shared by multiple copies of the same message with different recipient devices. Stream IDs are only unique in the context of a single user ID / device ID pair. Thus, applying a limit (of messages to return) when working with a sliding window of stream IDs is only possible when querying messages of a single user device. Finally, note that device IDs are not unique across users. Args: user_ids: The user IDs to filter device messages by. from_stream_id: The lower boundary of stream id to filter with (exclusive). to_stream_id: The upper boundary of stream id to filter with (inclusive). device_id: A device ID to query to-device messages for. If not provided, to-device messages from all device IDs for the given user IDs will be queried. May not be provided if `user_ids` contains more than one entry. limit: The maximum number of to-device messages to return. Can only be used when passing a single user ID / device ID tuple. Returns: A tuple containing: * A dict of (user_id, device_id) -> list of to-device messages * The last-processed stream ID. If this is less than `to_stream_id`, then there may be more messages to retrieve. If `limit` is not set, then this is always equal to 'to_stream_id'. """ if not user_ids: logger.warning("No users provided upon querying for device IDs") return {}, to_stream_id # Prevent a query for one user's device also retrieving another user's device with # the same device ID (device IDs are not unique across users). if len(user_ids) > 1 and device_id is not None: raise AssertionError( "Programming error: 'device_id' cannot be supplied to " "_get_device_messages when >1 user_id has been provided" ) # A limit can only be applied when querying for a single user ID / device ID tuple. # See the docstring of this function for more details. if limit is not None and device_id is None: raise AssertionError( "Programming error: _get_device_messages was passed 'limit' " "without a specific user_id/device_id" ) user_ids_to_query: Set[str] = set() device_ids_to_query: Set[str] = set() # Note that a device ID could be an empty str if device_id is not None: # If a device ID was passed, use it to filter results. # Otherwise, device IDs will be derived from the given collection of user IDs. device_ids_to_query.add(device_id) # Determine which users have devices with pending messages for user_id in user_ids: if self._device_inbox_stream_cache.has_entity_changed( user_id, from_stream_id ): # This user has new messages sent to them. Query messages for them user_ids_to_query.add(user_id) if not user_ids_to_query: return {}, to_stream_id def get_device_messages_txn( txn: LoggingTransaction, ) -> Tuple[Dict[Tuple[str, str], List[JsonDict]], int]: # Build a query to select messages from any of the given devices that # are between the given stream id bounds. # If a list of device IDs was not provided, retrieve all devices IDs # for the given users. We explicitly do not query hidden devices, as # hidden devices should not receive to-device messages. # Note that this is more efficient than just dropping `device_id` from the query, # since device_inbox has an index on `(user_id, device_id, stream_id)` if not device_ids_to_query: user_device_dicts = self.db_pool.simple_select_many_txn( txn, table="devices", column="user_id", iterable=user_ids_to_query, keyvalues={"user_id": user_id, "hidden": False}, retcols=("device_id",), ) device_ids_to_query.update( {row["device_id"] for row in user_device_dicts} ) if not device_ids_to_query: # We've ended up with no devices to query. return {}, to_stream_id # We include both user IDs and device IDs in this query, as we have an index # (device_inbox_user_stream_id) for them. user_id_many_clause_sql, user_id_many_clause_args = make_in_list_sql_clause( self.database_engine, "user_id", user_ids_to_query ) ( device_id_many_clause_sql, device_id_many_clause_args, ) = make_in_list_sql_clause( self.database_engine, "device_id", device_ids_to_query ) sql = f""" SELECT stream_id, user_id, device_id, message_json FROM device_inbox WHERE {user_id_many_clause_sql} AND {device_id_many_clause_sql} AND ? < stream_id AND stream_id <= ? ORDER BY stream_id ASC """ sql_args = ( *user_id_many_clause_args, *device_id_many_clause_args, from_stream_id, to_stream_id, ) # If a limit was provided, limit the data retrieved from the database if limit is not None: sql += "LIMIT ?" sql_args += (limit,) txn.execute(sql, sql_args) # Create and fill a dictionary of (user ID, device ID) -> list of messages # intended for each device. last_processed_stream_pos = to_stream_id recipient_device_to_messages: Dict[Tuple[str, str], List[JsonDict]] = {} rowcount = 0 for row in txn: rowcount += 1 last_processed_stream_pos = row[0] recipient_user_id = row[1] recipient_device_id = row[2] message_dict = db_to_json(row[3]) # Store the device details recipient_device_to_messages.setdefault( (recipient_user_id, recipient_device_id), [] ).append(message_dict) # start a new span for each message, so that we can tag each separately with start_active_span("get_to_device_message"): set_tag(SynapseTags.TO_DEVICE_TYPE, message_dict["type"]) set_tag(SynapseTags.TO_DEVICE_SENDER, message_dict["sender"]) set_tag(SynapseTags.TO_DEVICE_RECIPIENT, recipient_user_id) set_tag(SynapseTags.TO_DEVICE_RECIPIENT_DEVICE, recipient_device_id) set_tag( SynapseTags.TO_DEVICE_MSGID, message_dict["content"].get(EventContentFields.TO_DEVICE_MSGID), ) if limit is not None and rowcount == limit: # We ended up bumping up against the message limit. There may be more messages # to retrieve. Return what we have, as well as the last stream position that # was processed. # # The caller is expected to set this as the lower (exclusive) bound # for the next query of this device. return recipient_device_to_messages, last_processed_stream_pos # The limit was not reached, thus we know that recipient_device_to_messages # contains all to-device messages for the given device and stream id range. # # We return to_stream_id, which the caller should then provide as the lower # (exclusive) bound on the next query of this device. return recipient_device_to_messages, to_stream_id return await self.db_pool.runInteraction( "get_device_messages", get_device_messages_txn ) @trace async def delete_messages_for_device( self, user_id: str, device_id: Optional[str], up_to_stream_id: int ) -> int: """ Args: user_id: The recipient user_id. device_id: The recipient device_id. up_to_stream_id: Where to delete messages up to. Returns: The number of messages deleted. """ # If we have cached the last stream id we've deleted up to, we can # check if there is likely to be anything that needs deleting last_deleted_stream_id = self._last_device_delete_cache.get( (user_id, device_id), None ) set_tag("last_deleted_stream_id", str(last_deleted_stream_id)) if last_deleted_stream_id: has_changed = self._device_inbox_stream_cache.has_entity_changed( user_id, last_deleted_stream_id ) if not has_changed: log_kv({"message": "No changes in cache since last check"}) return 0 def delete_messages_for_device_txn(txn: LoggingTransaction) -> int: sql = ( "DELETE FROM device_inbox" " WHERE user_id = ? AND device_id = ?" " AND stream_id <= ?" ) txn.execute(sql, (user_id, device_id, up_to_stream_id)) return txn.rowcount count = await self.db_pool.runInteraction( "delete_messages_for_device", delete_messages_for_device_txn ) log_kv({"message": f"deleted {count} messages for device", "count": count}) # Update the cache, ensuring that we only ever increase the value updated_last_deleted_stream_id = self._last_device_delete_cache.get( (user_id, device_id), 0 ) self._last_device_delete_cache[(user_id, device_id)] = max( updated_last_deleted_stream_id, up_to_stream_id ) return count @trace async def get_new_device_msgs_for_remote( self, destination: str, last_stream_id: int, current_stream_id: int, limit: int ) -> Tuple[List[JsonDict], int]: """ Args: destination: The name of the remote server. last_stream_id: The last position of the device message stream that the server sent up to. current_stream_id: The current position of the device message stream. Returns: A list of messages for the device and where in the stream the messages got to. """ set_tag("destination", destination) set_tag("last_stream_id", last_stream_id) set_tag("current_stream_id", current_stream_id) set_tag("limit", limit) has_changed = self._device_federation_outbox_stream_cache.has_entity_changed( destination, last_stream_id ) if not has_changed or last_stream_id == current_stream_id: log_kv({"message": "No new messages in stream"}) return [], current_stream_id if limit <= 0: # This can happen if we run out of room for EDUs in the transaction. return [], last_stream_id @trace def get_new_messages_for_remote_destination_txn( txn: LoggingTransaction, ) -> Tuple[List[JsonDict], int]: sql = ( "SELECT stream_id, messages_json FROM device_federation_outbox" " WHERE destination = ?" " AND ? < stream_id AND stream_id <= ?" " ORDER BY stream_id ASC" " LIMIT ?" ) txn.execute(sql, (destination, last_stream_id, current_stream_id, limit)) messages = [] stream_pos = current_stream_id for row in txn: stream_pos = row[0] messages.append(db_to_json(row[1])) # If the limit was not reached we know that there's no more data for this # user/device pair up to current_stream_id. if len(messages) < limit: log_kv({"message": "Set stream position to current position"}) stream_pos = current_stream_id return messages, stream_pos return await self.db_pool.runInteraction( "get_new_device_msgs_for_remote", get_new_messages_for_remote_destination_txn, ) @trace async def delete_device_msgs_for_remote( self, destination: str, up_to_stream_id: int ) -> None: """Used to delete messages when the remote destination acknowledges their receipt. Args: destination: The destination server_name up_to_stream_id: Where to delete messages up to. """ def delete_messages_for_remote_destination_txn(txn: LoggingTransaction) -> None: sql = ( "DELETE FROM device_federation_outbox" " WHERE destination = ?" " AND stream_id <= ?" ) txn.execute(sql, (destination, up_to_stream_id)) await self.db_pool.runInteraction( "delete_device_msgs_for_remote", delete_messages_for_remote_destination_txn ) async def get_all_new_device_messages( self, instance_name: str, last_id: int, current_id: int, limit: int ) -> Tuple[List[Tuple[int, tuple]], int, bool]: """Get updates for to device 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_all_new_device_messages_txn( txn: LoggingTransaction, ) -> Tuple[List[Tuple[int, tuple]], int, bool]: # We limit like this as we might have multiple rows per stream_id, and # we want to make sure we always get all entries for any stream_id # we return. upper_pos = min(current_id, last_id + limit) sql = ( "SELECT max(stream_id), user_id" " FROM device_inbox" " WHERE ? < stream_id AND stream_id <= ?" " GROUP BY user_id" ) txn.execute(sql, (last_id, upper_pos)) updates = [(row[0], row[1:]) for row in txn] sql = ( "SELECT max(stream_id), destination" " FROM device_federation_outbox" " WHERE ? < stream_id AND stream_id <= ?" " GROUP BY destination" ) txn.execute(sql, (last_id, upper_pos)) updates.extend((row[0], row[1:]) for row in txn) # Order by ascending stream ordering updates.sort() 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_all_new_device_messages", get_all_new_device_messages_txn ) @trace async def add_messages_to_device_inbox( self, local_messages_by_user_then_device: Dict[str, Dict[str, JsonDict]], remote_messages_by_destination: Dict[str, JsonDict], ) -> int: """Used to send messages from this server. Args: local_messages_by_user_then_device: Dictionary of recipient user_id to recipient device_id to message. remote_messages_by_destination: Dictionary of destination server_name to the EDU JSON to send. Returns: The new stream_id. """ assert self._can_write_to_device def add_messages_txn( txn: LoggingTransaction, now_ms: int, stream_id: int ) -> None: # Add the local messages directly to the local inbox. self._add_messages_to_local_device_inbox_txn( txn, stream_id, local_messages_by_user_then_device ) # Add the remote messages to the federation outbox. # We'll send them to a remote server when we next send a # federation transaction to that destination. self.db_pool.simple_insert_many_txn( txn, table="device_federation_outbox", keys=( "destination", "stream_id", "queued_ts", "messages_json", "instance_name", ), values=[ ( destination, stream_id, now_ms, json_encoder.encode(edu), self._instance_name, ) for destination, edu in remote_messages_by_destination.items() ], ) for destination, edu in remote_messages_by_destination.items(): if issue9533_logger.isEnabledFor(logging.DEBUG): issue9533_logger.debug( "Queued outgoing to-device messages with " "stream_id %i, EDU message_id %s, type %s for %s: %s", stream_id, edu["message_id"], edu["type"], destination, [ f"{user_id}/{device_id} (msgid " f"{msg.get(EventContentFields.TO_DEVICE_MSGID)})" for (user_id, messages_by_device) in edu["messages"].items() for (device_id, msg) in messages_by_device.items() ], ) for user_id, messages_by_device in edu["messages"].items(): for device_id, msg in messages_by_device.items(): with start_active_span("store_outgoing_to_device_message"): set_tag(SynapseTags.TO_DEVICE_EDU_ID, edu["sender"]) set_tag(SynapseTags.TO_DEVICE_EDU_ID, edu["message_id"]) set_tag(SynapseTags.TO_DEVICE_TYPE, edu["type"]) set_tag(SynapseTags.TO_DEVICE_RECIPIENT, user_id) set_tag(SynapseTags.TO_DEVICE_RECIPIENT_DEVICE, device_id) set_tag( SynapseTags.TO_DEVICE_MSGID, msg.get(EventContentFields.TO_DEVICE_MSGID), ) async with self._device_inbox_id_gen.get_next() as stream_id: now_ms = self._clock.time_msec() await self.db_pool.runInteraction( "add_messages_to_device_inbox", add_messages_txn, now_ms, stream_id ) for user_id in local_messages_by_user_then_device.keys(): self._device_inbox_stream_cache.entity_has_changed(user_id, stream_id) for destination in remote_messages_by_destination.keys(): self._device_federation_outbox_stream_cache.entity_has_changed( destination, stream_id ) return self._device_inbox_id_gen.get_current_token() async def add_messages_from_remote_to_device_inbox( self, origin: str, message_id: str, local_messages_by_user_then_device: Dict[str, Dict[str, JsonDict]], ) -> int: assert self._can_write_to_device def add_messages_txn( txn: LoggingTransaction, now_ms: int, stream_id: int ) -> None: # Check if we've already inserted a matching message_id for that # origin. This can happen if the origin doesn't receive our # acknowledgement from the first time we received the message. already_inserted = self.db_pool.simple_select_one_txn( txn, table="device_federation_inbox", keyvalues={"origin": origin, "message_id": message_id}, retcols=("message_id",), allow_none=True, ) if already_inserted is not None: return # Add an entry for this message_id so that we know we've processed # it. self.db_pool.simple_insert_txn( txn, table="device_federation_inbox", values={ "origin": origin, "message_id": message_id, "received_ts": now_ms, }, ) # Add the messages to the appropriate local device inboxes so that # they'll be sent to the devices when they next sync. self._add_messages_to_local_device_inbox_txn( txn, stream_id, local_messages_by_user_then_device ) async with self._device_inbox_id_gen.get_next() as stream_id: now_ms = self._clock.time_msec() await self.db_pool.runInteraction( "add_messages_from_remote_to_device_inbox", add_messages_txn, now_ms, stream_id, ) for user_id in local_messages_by_user_then_device.keys(): self._device_inbox_stream_cache.entity_has_changed(user_id, stream_id) return stream_id def _add_messages_to_local_device_inbox_txn( self, txn: LoggingTransaction, stream_id: int, messages_by_user_then_device: Dict[str, Dict[str, JsonDict]], ) -> None: assert self._can_write_to_device local_by_user_then_device = {} for user_id, messages_by_device in messages_by_user_then_device.items(): messages_json_for_user = {} devices = list(messages_by_device.keys()) if len(devices) == 1 and devices[0] == "*": # Handle wildcard device_ids. # We exclude hidden devices (such as cross-signing keys) here as they are # not expected to receive to-device messages. devices = self.db_pool.simple_select_onecol_txn( txn, table="devices", keyvalues={"user_id": user_id, "hidden": False}, retcol="device_id", ) message_json = json_encoder.encode(messages_by_device["*"]) for device_id in devices: # Add the message for all devices for this user on this # server. messages_json_for_user[device_id] = message_json else: if not devices: continue # We exclude hidden devices (such as cross-signing keys) here as they are # not expected to receive to-device messages. rows = self.db_pool.simple_select_many_txn( txn, table="devices", keyvalues={"user_id": user_id, "hidden": False}, column="device_id", iterable=devices, retcols=("device_id",), ) for row in rows: # Only insert into the local inbox if the device exists on # this server device_id = row["device_id"] with start_active_span("serialise_to_device_message"): msg = messages_by_device[device_id] set_tag(SynapseTags.TO_DEVICE_TYPE, msg["type"]) set_tag(SynapseTags.TO_DEVICE_SENDER, msg["sender"]) set_tag(SynapseTags.TO_DEVICE_RECIPIENT, user_id) set_tag(SynapseTags.TO_DEVICE_RECIPIENT_DEVICE, device_id) set_tag( SynapseTags.TO_DEVICE_MSGID, msg["content"].get(EventContentFields.TO_DEVICE_MSGID), ) message_json = json_encoder.encode(msg) messages_json_for_user[device_id] = message_json if messages_json_for_user: local_by_user_then_device[user_id] = messages_json_for_user if not local_by_user_then_device: return self.db_pool.simple_insert_many_txn( txn, table="device_inbox", keys=("user_id", "device_id", "stream_id", "message_json", "instance_name"), values=[ (user_id, device_id, stream_id, message_json, self._instance_name) for user_id, messages_by_device in local_by_user_then_device.items() for device_id, message_json in messages_by_device.items() ], ) if issue9533_logger.isEnabledFor(logging.DEBUG): issue9533_logger.debug( "Stored to-device messages with stream_id %i: %s", stream_id, [ f"{user_id}/{device_id} (msgid " f"{msg['content'].get(EventContentFields.TO_DEVICE_MSGID)})" for ( user_id, messages_by_device, ) in messages_by_user_then_device.items() for (device_id, msg) in messages_by_device.items() ], ) class DeviceInboxBackgroundUpdateStore(SQLBaseStore): DEVICE_INBOX_STREAM_ID = "device_inbox_stream_drop" REMOVE_DEAD_DEVICES_FROM_INBOX = "remove_dead_devices_from_device_inbox" def __init__( self, database: DatabasePool, db_conn: LoggingDatabaseConnection, hs: "HomeServer", ): super().__init__(database, db_conn, hs) self.db_pool.updates.register_background_index_update( "device_inbox_stream_index", index_name="device_inbox_stream_id_user_id", table="device_inbox", columns=["stream_id", "user_id"], ) self.db_pool.updates.register_background_update_handler( self.DEVICE_INBOX_STREAM_ID, self._background_drop_index_device_inbox ) self.db_pool.updates.register_background_update_handler( self.REMOVE_DEAD_DEVICES_FROM_INBOX, self._remove_dead_devices_from_device_inbox, ) async def _background_drop_index_device_inbox( self, progress: JsonDict, batch_size: int ) -> int: def reindex_txn(conn: LoggingDatabaseConnection) -> None: txn = conn.cursor() txn.execute("DROP INDEX IF EXISTS device_inbox_stream_id") txn.close() await self.db_pool.runWithConnection(reindex_txn) await self.db_pool.updates._end_background_update(self.DEVICE_INBOX_STREAM_ID) return 1 async def _remove_dead_devices_from_device_inbox( self, progress: JsonDict, batch_size: int, ) -> int: """A background update to remove devices that were either deleted or hidden from the device_inbox table. Args: progress: The update's progress dict. batch_size: The batch size for this update. Returns: The number of rows deleted. """ def _remove_dead_devices_from_device_inbox_txn( txn: LoggingTransaction, ) -> Tuple[int, bool]: if "max_stream_id" in progress: max_stream_id = progress["max_stream_id"] else: txn.execute("SELECT max(stream_id) FROM device_inbox") # There's a type mismatch here between how we want to type the row and # what fetchone says it returns, but we silence it because we know that # res can't be None. res = cast(Tuple[Optional[int]], txn.fetchone()) if res[0] is None: # this can only happen if the `device_inbox` table is empty, in which # case we have no work to do. return 0, True else: max_stream_id = res[0] start = progress.get("stream_id", 0) stop = start + batch_size # delete rows in `device_inbox` which do *not* correspond to a known, # unhidden device. sql = """ DELETE FROM device_inbox WHERE stream_id >= ? AND stream_id < ? AND NOT EXISTS ( SELECT * FROM devices d WHERE d.device_id=device_inbox.device_id AND d.user_id=device_inbox.user_id AND NOT hidden ) """ txn.execute(sql, (start, stop)) self.db_pool.updates._background_update_progress_txn( txn, self.REMOVE_DEAD_DEVICES_FROM_INBOX, { "stream_id": stop, "max_stream_id": max_stream_id, }, ) return stop > max_stream_id finished = await self.db_pool.runInteraction( "_remove_devices_from_device_inbox_txn", _remove_dead_devices_from_device_inbox_txn, ) if finished: await self.db_pool.updates._end_background_update( self.REMOVE_DEAD_DEVICES_FROM_INBOX, ) return batch_size class DeviceInboxStore(DeviceInboxWorkerStore, DeviceInboxBackgroundUpdateStore): pass