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author | Richard van der Hoff <1389908+richvdh@users.noreply.github.com> | 2020-07-16 15:49:37 +0100 |
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committer | GitHub <noreply@github.com> | 2020-07-16 15:49:37 +0100 |
commit | e5300063ede787414e23295767e3279097d7befa (patch) | |
tree | 3dbaeb4dffd3f69b705e2e7c2394814d1575cd2c /synapse/replication | |
parent | Reject attempts to join empty rooms over federation (#7859) (diff) | |
download | synapse-e5300063ede787414e23295767e3279097d7befa.tar.xz |
Optimise queueing of inbound replication commands (#7861)
When we get behind on replication, we tend to stack up background processes behind a linearizer. Bg processes are heavy (particularly with respect to prometheus metrics) and linearizers aren't terribly efficient once the queue gets long either. A better approach is to maintain a queue of requests to be processed, and nominate a single process to work its way through the queue. Fixes: #7444
Diffstat (limited to 'synapse/replication')
-rw-r--r-- | synapse/replication/tcp/handler.py | 331 |
1 files changed, 215 insertions, 116 deletions
diff --git a/synapse/replication/tcp/handler.py b/synapse/replication/tcp/handler.py index 30d8de48fa..f88e0a2e40 100644 --- a/synapse/replication/tcp/handler.py +++ b/synapse/replication/tcp/handler.py @@ -14,9 +14,21 @@ # See the License for the specific language governing permissions and # limitations under the License. import logging -from typing import Any, Dict, Iterable, Iterator, List, Optional, Set, Tuple, TypeVar +from typing import ( + Any, + Dict, + Iterable, + Iterator, + List, + Optional, + Set, + Tuple, + TypeVar, + Union, +) from prometheus_client import Counter +from typing_extensions import Deque from twisted.internet.protocol import ReconnectingClientFactory @@ -44,7 +56,6 @@ from synapse.replication.tcp.streams import ( Stream, TypingStream, ) -from synapse.util.async_helpers import Linearizer logger = logging.getLogger(__name__) @@ -62,6 +73,12 @@ invalidate_cache_counter = Counter( user_ip_cache_counter = Counter("synapse_replication_tcp_resource_user_ip_cache", "") +# the type of the entries in _command_queues_by_stream +_StreamCommandQueue = Deque[ + Tuple[Union[RdataCommand, PositionCommand], AbstractConnection] +] + + class ReplicationCommandHandler: """Handles incoming commands from replication as well as sending commands back out to connections. @@ -116,10 +133,6 @@ class ReplicationCommandHandler: self._streams_to_replicate.append(stream) - self._position_linearizer = Linearizer( - "replication_position", clock=self._clock - ) - # Map of stream name to batched updates. See RdataCommand for info on # how batching works. self._pending_batches = {} # type: Dict[str, List[Any]] @@ -131,10 +144,6 @@ class ReplicationCommandHandler: # outgoing replication commands to.) self._connections = [] # type: List[AbstractConnection] - # For each connection, the incoming stream names that are coming from - # that connection. - self._streams_by_connection = {} # type: Dict[AbstractConnection, Set[str]] - LaterGauge( "synapse_replication_tcp_resource_total_connections", "", @@ -142,6 +151,32 @@ class ReplicationCommandHandler: lambda: len(self._connections), ) + # When POSITION or RDATA commands arrive, we stick them in a queue and process + # them in order in a separate background process. + + # the streams which are currently being processed by _unsafe_process_stream + self._processing_streams = set() # type: Set[str] + + # for each stream, a queue of commands that are awaiting processing, and the + # connection that they arrived on. + self._command_queues_by_stream = { + stream_name: _StreamCommandQueue() for stream_name in self._streams + } + + # For each connection, the incoming stream names that have received a POSITION + # from that connection. + self._streams_by_connection = {} # type: Dict[AbstractConnection, Set[str]] + + LaterGauge( + "synapse_replication_tcp_command_queue", + "Number of inbound RDATA/POSITION commands queued for processing", + ["stream_name"], + lambda: { + (stream_name,): len(queue) + for stream_name, queue in self._command_queues_by_stream.items() + }, + ) + self._is_master = hs.config.worker_app is None self._federation_sender = None @@ -152,6 +187,64 @@ class ReplicationCommandHandler: if self._is_master: self._server_notices_sender = hs.get_server_notices_sender() + async def _add_command_to_stream_queue( + self, conn: AbstractConnection, cmd: Union[RdataCommand, PositionCommand] + ) -> None: + """Queue the given received command for processing + + Adds the given command to the per-stream queue, and processes the queue if + necessary + """ + stream_name = cmd.stream_name + queue = self._command_queues_by_stream.get(stream_name) + if queue is None: + logger.error("Got %s for unknown stream: %s", cmd.NAME, stream_name) + return + + # if we're already processing this stream, stick the new command in the + # queue, and we're done. + if stream_name in self._processing_streams: + queue.append((cmd, conn)) + return + + # otherwise, process the new command. + + # arguably we should start off a new background process here, but nothing + # will be too upset if we don't return for ages, so let's save the overhead + # and use the existing logcontext. + + self._processing_streams.add(stream_name) + try: + # might as well skip the queue for this one, since it must be empty + assert not queue + await self._process_command(cmd, conn, stream_name) + + # now process any other commands that have built up while we were + # dealing with that one. + while queue: + cmd, conn = queue.popleft() + try: + await self._process_command(cmd, conn, stream_name) + except Exception: + logger.exception("Failed to handle command %s", cmd) + + finally: + self._processing_streams.discard(stream_name) + + async def _process_command( + self, + cmd: Union[PositionCommand, RdataCommand], + conn: AbstractConnection, + stream_name: str, + ) -> None: + if isinstance(cmd, PositionCommand): + await self._process_position(stream_name, conn, cmd) + elif isinstance(cmd, RdataCommand): + await self._process_rdata(stream_name, conn, cmd) + else: + # This shouldn't be possible + raise Exception("Unrecognised command %s in stream queue", cmd.NAME) + def start_replication(self, hs): """Helper method to start a replication connection to the remote server using TCP. @@ -285,63 +378,71 @@ class ReplicationCommandHandler: stream_name = cmd.stream_name inbound_rdata_count.labels(stream_name).inc() - try: - row = STREAMS_MAP[stream_name].parse_row(cmd.row) - except Exception: - logger.exception("Failed to parse RDATA: %r %r", stream_name, cmd.row) - raise - - # We linearize here for two reasons: + # We put the received command into a queue here for two reasons: # 1. so we don't try and concurrently handle multiple rows for the # same stream, and # 2. so we don't race with getting a POSITION command and fetching # missing RDATA. - with await self._position_linearizer.queue(cmd.stream_name): - # make sure that we've processed a POSITION for this stream *on this - # connection*. (A POSITION on another connection is no good, as there - # is no guarantee that we have seen all the intermediate updates.) - sbc = self._streams_by_connection.get(conn) - if not sbc or stream_name not in sbc: - # Let's drop the row for now, on the assumption we'll receive a - # `POSITION` soon and we'll catch up correctly then. - logger.debug( - "Discarding RDATA for unconnected stream %s -> %s", - stream_name, - cmd.token, - ) - return - - if cmd.token is None: - # I.e. this is part of a batch of updates for this stream (in - # which case batch until we get an update for the stream with a non - # None token). - self._pending_batches.setdefault(stream_name, []).append(row) - else: - # Check if this is the last of a batch of updates - rows = self._pending_batches.pop(stream_name, []) - rows.append(row) - - stream = self._streams.get(stream_name) - if not stream: - logger.error("Got RDATA for unknown stream: %s", stream_name) - return - - # Find where we previously streamed up to. - current_token = stream.current_token(cmd.instance_name) - - # Discard this data if this token is earlier than the current - # position. Note that streams can be reset (in which case you - # expect an earlier token), but that must be preceded by a - # POSITION command. - if cmd.token <= current_token: - logger.debug( - "Discarding RDATA from stream %s at position %s before previous position %s", - stream_name, - cmd.token, - current_token, - ) - else: - await self.on_rdata(stream_name, cmd.instance_name, cmd.token, rows) + + await self._add_command_to_stream_queue(conn, cmd) + + async def _process_rdata( + self, stream_name: str, conn: AbstractConnection, cmd: RdataCommand + ) -> None: + """Process an RDATA command + + Called after the command has been popped off the queue of inbound commands + """ + try: + row = STREAMS_MAP[stream_name].parse_row(cmd.row) + except Exception as e: + raise Exception( + "Failed to parse RDATA: %r %r" % (stream_name, cmd.row) + ) from e + + # make sure that we've processed a POSITION for this stream *on this + # connection*. (A POSITION on another connection is no good, as there + # is no guarantee that we have seen all the intermediate updates.) + sbc = self._streams_by_connection.get(conn) + if not sbc or stream_name not in sbc: + # Let's drop the row for now, on the assumption we'll receive a + # `POSITION` soon and we'll catch up correctly then. + logger.debug( + "Discarding RDATA for unconnected stream %s -> %s", + stream_name, + cmd.token, + ) + return + + if cmd.token is None: + # I.e. this is part of a batch of updates for this stream (in + # which case batch until we get an update for the stream with a non + # None token). + self._pending_batches.setdefault(stream_name, []).append(row) + return + + # Check if this is the last of a batch of updates + rows = self._pending_batches.pop(stream_name, []) + rows.append(row) + + stream = self._streams[stream_name] + + # Find where we previously streamed up to. + current_token = stream.current_token(cmd.instance_name) + + # Discard this data if this token is earlier than the current + # position. Note that streams can be reset (in which case you + # expect an earlier token), but that must be preceded by a + # POSITION command. + if cmd.token <= current_token: + logger.debug( + "Discarding RDATA from stream %s at position %s before previous position %s", + stream_name, + cmd.token, + current_token, + ) + else: + await self.on_rdata(stream_name, cmd.instance_name, cmd.token, rows) async def on_rdata( self, stream_name: str, instance_name: str, token: int, rows: list @@ -367,67 +468,65 @@ class ReplicationCommandHandler: logger.info("Handling '%s %s'", cmd.NAME, cmd.to_line()) - stream_name = cmd.stream_name - stream = self._streams.get(stream_name) - if not stream: - logger.error("Got POSITION for unknown stream: %s", stream_name) - return + await self._add_command_to_stream_queue(conn, cmd) - # We protect catching up with a linearizer in case the replication - # connection reconnects under us. - with await self._position_linearizer.queue(stream_name): - # We're about to go and catch up with the stream, so remove from set - # of connected streams. - for streams in self._streams_by_connection.values(): - streams.discard(stream_name) - - # We clear the pending batches for the stream as the fetching of the - # missing updates below will fetch all rows in the batch. - self._pending_batches.pop(stream_name, []) - - # Find where we previously streamed up to. - current_token = stream.current_token(cmd.instance_name) - - # If the position token matches our current token then we're up to - # date and there's nothing to do. Otherwise, fetch all updates - # between then and now. - missing_updates = cmd.token != current_token - while missing_updates: - logger.info( - "Fetching replication rows for '%s' between %i and %i", - stream_name, - current_token, - cmd.token, - ) - ( - updates, - current_token, - missing_updates, - ) = await stream.get_updates_since( - cmd.instance_name, current_token, cmd.token - ) + async def _process_position( + self, stream_name: str, conn: AbstractConnection, cmd: PositionCommand + ) -> None: + """Process a POSITION command - # TODO: add some tests for this + Called after the command has been popped off the queue of inbound commands + """ + stream = self._streams[stream_name] - # Some streams return multiple rows with the same stream IDs, - # which need to be processed in batches. + # We're about to go and catch up with the stream, so remove from set + # of connected streams. + for streams in self._streams_by_connection.values(): + streams.discard(stream_name) - for token, rows in _batch_updates(updates): - await self.on_rdata( - stream_name, - cmd.instance_name, - token, - [stream.parse_row(row) for row in rows], - ) + # We clear the pending batches for the stream as the fetching of the + # missing updates below will fetch all rows in the batch. + self._pending_batches.pop(stream_name, []) - logger.info("Caught up with stream '%s' to %i", stream_name, cmd.token) + # Find where we previously streamed up to. + current_token = stream.current_token(cmd.instance_name) - # We've now caught up to position sent to us, notify handler. - await self._replication_data_handler.on_position( - cmd.stream_name, cmd.instance_name, cmd.token + # If the position token matches our current token then we're up to + # date and there's nothing to do. Otherwise, fetch all updates + # between then and now. + missing_updates = cmd.token != current_token + while missing_updates: + logger.info( + "Fetching replication rows for '%s' between %i and %i", + stream_name, + current_token, + cmd.token, + ) + (updates, current_token, missing_updates) = await stream.get_updates_since( + cmd.instance_name, current_token, cmd.token ) - self._streams_by_connection.setdefault(conn, set()).add(stream_name) + # TODO: add some tests for this + + # Some streams return multiple rows with the same stream IDs, + # which need to be processed in batches. + + for token, rows in _batch_updates(updates): + await self.on_rdata( + stream_name, + cmd.instance_name, + token, + [stream.parse_row(row) for row in rows], + ) + + logger.info("Caught up with stream '%s' to %i", stream_name, cmd.token) + + # We've now caught up to position sent to us, notify handler. + await self._replication_data_handler.on_position( + cmd.stream_name, cmd.instance_name, cmd.token + ) + + self._streams_by_connection.setdefault(conn, set()).add(stream_name) async def on_REMOTE_SERVER_UP( self, conn: AbstractConnection, cmd: RemoteServerUpCommand |