anonymousland-synapse/synapse/handlers/federation.py
Erik Johnston 3dfc4a08dc
Fix performance regression in get_users_in_room (#13972)
Fixes #13942. Introduced in #13575.

Basically, let's only get the ordered set of hosts out of the DB if we need an ordered set of hosts. Since we split the function up the caching won't be as good, but I think it will still be fine as e.g. multiple backfill requests for the same room will hit the cache.
2022-09-30 13:15:32 +01:00

1744 lines
70 KiB
Python

# Copyright 2014-2022 The Matrix.org Foundation C.I.C.
# Copyright 2020 Sorunome
#
# 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.
"""Contains handlers for federation events."""
import enum
import itertools
import logging
from enum import Enum
from http import HTTPStatus
from typing import (
TYPE_CHECKING,
Collection,
Dict,
Iterable,
List,
Optional,
Tuple,
Union,
)
import attr
from prometheus_client import Histogram
from signedjson.key import decode_verify_key_bytes
from signedjson.sign import verify_signed_json
from unpaddedbase64 import decode_base64
from synapse import event_auth
from synapse.api.constants import MAX_DEPTH, EventContentFields, EventTypes, Membership
from synapse.api.errors import (
AuthError,
CodeMessageException,
Codes,
FederationDeniedError,
FederationError,
HttpResponseException,
LimitExceededError,
NotFoundError,
RequestSendFailed,
SynapseError,
)
from synapse.api.room_versions import KNOWN_ROOM_VERSIONS, RoomVersion
from synapse.crypto.event_signing import compute_event_signature
from synapse.event_auth import validate_event_for_room_version
from synapse.events import EventBase
from synapse.events.snapshot import EventContext
from synapse.events.validator import EventValidator
from synapse.federation.federation_client import InvalidResponseError
from synapse.http.servlet import assert_params_in_dict
from synapse.logging.context import nested_logging_context
from synapse.logging.opentracing import SynapseTags, set_tag, tag_args, trace
from synapse.metrics.background_process_metrics import run_as_background_process
from synapse.module_api import NOT_SPAM
from synapse.replication.http.federation import (
ReplicationCleanRoomRestServlet,
ReplicationStoreRoomOnOutlierMembershipRestServlet,
)
from synapse.storage.databases.main.events import PartialStateConflictError
from synapse.storage.databases.main.events_worker import EventRedactBehaviour
from synapse.storage.state import StateFilter
from synapse.types import JsonDict, get_domain_from_id
from synapse.util.async_helpers import Linearizer
from synapse.util.retryutils import NotRetryingDestination
from synapse.visibility import filter_events_for_server
if TYPE_CHECKING:
from synapse.server import HomeServer
logger = logging.getLogger(__name__)
# Added to debug performance and track progress on optimizations
backfill_processing_before_timer = Histogram(
"synapse_federation_backfill_processing_before_time_seconds",
"sec",
[],
buckets=(
0.1,
0.5,
1.0,
2.5,
5.0,
7.5,
10.0,
15.0,
20.0,
30.0,
40.0,
60.0,
80.0,
"+Inf",
),
)
class _BackfillPointType(Enum):
# a regular backwards extremity (ie, an event which we don't yet have, but which
# is referred to by other events in the DAG)
BACKWARDS_EXTREMITY = enum.auto()
# an MSC2716 "insertion event"
INSERTION_PONT = enum.auto()
@attr.s(slots=True, auto_attribs=True, frozen=True)
class _BackfillPoint:
"""A potential point we might backfill from"""
event_id: str
depth: int
type: _BackfillPointType
class FederationHandler:
"""Handles general incoming federation requests
Incoming events are *not* handled here, for which see FederationEventHandler.
"""
def __init__(self, hs: "HomeServer"):
self.hs = hs
self.clock = hs.get_clock()
self.store = hs.get_datastores().main
self._storage_controllers = hs.get_storage_controllers()
self._state_storage_controller = self._storage_controllers.state
self.federation_client = hs.get_federation_client()
self.state_handler = hs.get_state_handler()
self.server_name = hs.hostname
self.keyring = hs.get_keyring()
self.is_mine_id = hs.is_mine_id
self.spam_checker = hs.get_spam_checker()
self.event_creation_handler = hs.get_event_creation_handler()
self.event_builder_factory = hs.get_event_builder_factory()
self._event_auth_handler = hs.get_event_auth_handler()
self._server_notices_mxid = hs.config.servernotices.server_notices_mxid
self.config = hs.config
self.http_client = hs.get_proxied_blacklisted_http_client()
self._replication = hs.get_replication_data_handler()
self._federation_event_handler = hs.get_federation_event_handler()
self._device_handler = hs.get_device_handler()
self._bulk_push_rule_evaluator = hs.get_bulk_push_rule_evaluator()
self._clean_room_for_join_client = ReplicationCleanRoomRestServlet.make_client(
hs
)
if hs.config.worker.worker_app:
self._maybe_store_room_on_outlier_membership = (
ReplicationStoreRoomOnOutlierMembershipRestServlet.make_client(hs)
)
else:
self._maybe_store_room_on_outlier_membership = (
self.store.maybe_store_room_on_outlier_membership
)
self._room_backfill = Linearizer("room_backfill")
self.third_party_event_rules = hs.get_third_party_event_rules()
# if this is the main process, fire off a background process to resume
# any partial-state-resync operations which were in flight when we
# were shut down.
if not hs.config.worker.worker_app:
run_as_background_process(
"resume_sync_partial_state_room", self._resume_sync_partial_state_room
)
@trace
async def maybe_backfill(
self, room_id: str, current_depth: int, limit: int
) -> bool:
"""Checks the database to see if we should backfill before paginating,
and if so do.
Args:
room_id
current_depth: The depth from which we're paginating from. This is
used to decide if we should backfill and what extremities to
use.
limit: The number of events that the pagination request will
return. This is used as part of the heuristic to decide if we
should back paginate.
"""
# Starting the processing time here so we can include the room backfill
# linearizer lock queue in the timing
processing_start_time = self.clock.time_msec()
async with self._room_backfill.queue(room_id):
return await self._maybe_backfill_inner(
room_id,
current_depth,
limit,
processing_start_time=processing_start_time,
)
async def _maybe_backfill_inner(
self,
room_id: str,
current_depth: int,
limit: int,
*,
processing_start_time: Optional[int],
) -> bool:
"""
Checks whether the `current_depth` is at or approaching any backfill
points in the room and if so, will backfill. We only care about
checking backfill points that happened before the `current_depth`
(meaning less than or equal to the `current_depth`).
Args:
room_id: The room to backfill in.
current_depth: The depth to check at for any upcoming backfill points.
limit: The max number of events to request from the remote federated server.
processing_start_time: The time when `maybe_backfill` started processing.
Only used for timing. If `None`, no timing observation will be made.
"""
backwards_extremities = [
_BackfillPoint(event_id, depth, _BackfillPointType.BACKWARDS_EXTREMITY)
for event_id, depth in await self.store.get_backfill_points_in_room(
room_id=room_id,
current_depth=current_depth,
# We only need to end up with 5 extremities combined with the
# insertion event extremities to make the `/backfill` request
# but fetch an order of magnitude more to make sure there is
# enough even after we filter them by whether visible in the
# history. This isn't fool-proof as all backfill points within
# our limit could be filtered out but seems like a good amount
# to try with at least.
limit=50,
)
]
insertion_events_to_be_backfilled: List[_BackfillPoint] = []
if self.hs.config.experimental.msc2716_enabled:
insertion_events_to_be_backfilled = [
_BackfillPoint(event_id, depth, _BackfillPointType.INSERTION_PONT)
for event_id, depth in await self.store.get_insertion_event_backward_extremities_in_room(
room_id=room_id,
current_depth=current_depth,
# We only need to end up with 5 extremities combined with
# the backfill points to make the `/backfill` request ...
# (see the other comment above for more context).
limit=50,
)
]
logger.debug(
"_maybe_backfill_inner: backwards_extremities=%s insertion_events_to_be_backfilled=%s",
backwards_extremities,
insertion_events_to_be_backfilled,
)
# we now have a list of potential places to backpaginate from. We prefer to
# start with the most recent (ie, max depth), so let's sort the list.
sorted_backfill_points: List[_BackfillPoint] = sorted(
itertools.chain(
backwards_extremities,
insertion_events_to_be_backfilled,
),
key=lambda e: -int(e.depth),
)
logger.debug(
"_maybe_backfill_inner: room_id: %s: current_depth: %s, limit: %s, "
"backfill points (%d): %s",
room_id,
current_depth,
limit,
len(sorted_backfill_points),
sorted_backfill_points,
)
# If we have no backfill points lower than the `current_depth` then
# either we can a) bail or b) still attempt to backfill. We opt to try
# backfilling anyway just in case we do get relevant events.
if not sorted_backfill_points and current_depth != MAX_DEPTH:
logger.debug(
"_maybe_backfill_inner: all backfill points are *after* current depth. Trying again with later backfill points."
)
return await self._maybe_backfill_inner(
room_id=room_id,
# We use `MAX_DEPTH` so that we find all backfill points next
# time (all events are below the `MAX_DEPTH`)
current_depth=MAX_DEPTH,
limit=limit,
# We don't want to start another timing observation from this
# nested recursive call. The top-most call can record the time
# overall otherwise the smaller one will throw off the results.
processing_start_time=None,
)
# Even after recursing with `MAX_DEPTH`, we didn't find any
# backward extremities to backfill from.
if not sorted_backfill_points:
logger.debug(
"_maybe_backfill_inner: Not backfilling as no backward extremeties found."
)
return False
# If we're approaching an extremity we trigger a backfill, otherwise we
# no-op.
#
# We chose twice the limit here as then clients paginating backwards
# will send pagination requests that trigger backfill at least twice
# using the most recent extremity before it gets removed (see below). We
# chose more than one times the limit in case of failure, but choosing a
# much larger factor will result in triggering a backfill request much
# earlier than necessary.
max_depth_of_backfill_points = sorted_backfill_points[0].depth
if current_depth - 2 * limit > max_depth_of_backfill_points:
logger.debug(
"Not backfilling as we don't need to. %d < %d - 2 * %d",
max_depth_of_backfill_points,
current_depth,
limit,
)
return False
# For performance's sake, we only want to paginate from a particular extremity
# if we can actually see the events we'll get. Otherwise, we'd just spend a lot
# of resources to get redacted events. We check each extremity in turn and
# ignore those which users on our server wouldn't be able to see.
#
# Additionally, we limit ourselves to backfilling from at most 5 extremities,
# for two reasons:
#
# - The check which determines if we can see an extremity's events can be
# expensive (we load the full state for the room at each of the backfill
# points, or (worse) their successors)
# - We want to avoid the server-server API request URI becoming too long.
#
# *Note*: the spec wants us to keep backfilling until we reach the start
# of the room in case we are allowed to see some of the history. However,
# in practice that causes more issues than its worth, as (a) it's
# relatively rare for there to be any visible history and (b) even when
# there is it's often sufficiently long ago that clients would stop
# attempting to paginate before backfill reached the visible history.
extremities_to_request: List[str] = []
for bp in sorted_backfill_points:
if len(extremities_to_request) >= 5:
break
# For regular backwards extremities, we don't have the extremity events
# themselves, so we need to actually check the events that reference them -
# their "successor" events.
#
# TODO: Correctly handle the case where we are allowed to see the
# successor event but not the backward extremity, e.g. in the case of
# initial join of the server where we are allowed to see the join
# event but not anything before it. This would require looking at the
# state *before* the event, ignoring the special casing certain event
# types have.
if bp.type == _BackfillPointType.INSERTION_PONT:
event_ids_to_check = [bp.event_id]
else:
event_ids_to_check = await self.store.get_successor_events(bp.event_id)
events_to_check = await self.store.get_events_as_list(
event_ids_to_check,
redact_behaviour=EventRedactBehaviour.as_is,
get_prev_content=False,
)
# We set `check_history_visibility_only` as we might otherwise get false
# positives from users having been erased.
filtered_extremities = await filter_events_for_server(
self._storage_controllers,
self.server_name,
events_to_check,
redact=False,
check_history_visibility_only=True,
)
if filtered_extremities:
extremities_to_request.append(bp.event_id)
else:
logger.debug(
"_maybe_backfill_inner: skipping extremity %s as it would not be visible",
bp,
)
if not extremities_to_request:
logger.debug(
"_maybe_backfill_inner: found no extremities which would be visible"
)
return False
logger.debug(
"_maybe_backfill_inner: extremities_to_request %s", extremities_to_request
)
set_tag(
SynapseTags.RESULT_PREFIX + "extremities_to_request",
str(extremities_to_request),
)
set_tag(
SynapseTags.RESULT_PREFIX + "extremities_to_request.length",
str(len(extremities_to_request)),
)
# Now we need to decide which hosts to hit first.
# First we try hosts that are already in the room.
# TODO: HEURISTIC ALERT.
likely_domains = (
await self._storage_controllers.state.get_current_hosts_in_room_ordered(
room_id
)
)
async def try_backfill(domains: Collection[str]) -> bool:
# TODO: Should we try multiple of these at a time?
# Number of contacted remote homeservers that have denied our backfill
# request with a 4xx code.
denied_count = 0
# Maximum number of contacted remote homeservers that can deny our
# backfill request with 4xx codes before we give up.
max_denied_count = 5
for dom in domains:
# We don't want to ask our own server for information we don't have
if dom == self.server_name:
continue
try:
await self._federation_event_handler.backfill(
dom, room_id, limit=100, extremities=extremities_to_request
)
# If this succeeded then we probably already have the
# appropriate stuff.
# TODO: We can probably do something more intelligent here.
return True
except (SynapseError, InvalidResponseError) as e:
logger.info("Failed to backfill from %s because %s", dom, e)
continue
except HttpResponseException as e:
if 400 <= e.code < 500:
logger.warning(
"Backfill denied from %s because %s [%d/%d]",
dom,
e,
denied_count,
max_denied_count,
)
denied_count += 1
if denied_count >= max_denied_count:
return False
continue
logger.info("Failed to backfill from %s because %s", dom, e)
continue
except CodeMessageException as e:
if 400 <= e.code < 500:
logger.warning(
"Backfill denied from %s because %s [%d/%d]",
dom,
e,
denied_count,
max_denied_count,
)
denied_count += 1
if denied_count >= max_denied_count:
return False
continue
logger.info("Failed to backfill from %s because %s", dom, e)
continue
except NotRetryingDestination as e:
logger.info(str(e))
continue
except RequestSendFailed as e:
logger.info("Failed to get backfill from %s because %s", dom, e)
continue
except FederationDeniedError as e:
logger.info(e)
continue
except Exception as e:
logger.exception("Failed to backfill from %s because %s", dom, e)
continue
return False
# If we have the `processing_start_time`, then we can make an
# observation. We wouldn't have the `processing_start_time` in the case
# where `_maybe_backfill_inner` is recursively called to find any
# backfill points regardless of `current_depth`.
if processing_start_time is not None:
processing_end_time = self.clock.time_msec()
backfill_processing_before_timer.observe(
(processing_end_time - processing_start_time) / 1000
)
success = await try_backfill(likely_domains)
if success:
return True
# TODO: we could also try servers which were previously in the room, but
# are no longer.
return False
async def send_invite(self, target_host: str, event: EventBase) -> EventBase:
"""Sends the invite to the remote server for signing.
Invites must be signed by the invitee's server before distribution.
"""
try:
pdu = await self.federation_client.send_invite(
destination=target_host,
room_id=event.room_id,
event_id=event.event_id,
pdu=event,
)
except RequestSendFailed:
raise SynapseError(502, f"Can't connect to server {target_host}")
return pdu
async def on_event_auth(self, event_id: str) -> List[EventBase]:
event = await self.store.get_event(event_id)
auth = await self.store.get_auth_chain(
event.room_id, list(event.auth_event_ids()), include_given=True
)
return list(auth)
async def do_invite_join(
self, target_hosts: Iterable[str], room_id: str, joinee: str, content: JsonDict
) -> Tuple[str, int]:
"""Attempts to join the `joinee` to the room `room_id` via the
servers contained in `target_hosts`.
This first triggers a /make_join/ request that returns a partial
event that we can fill out and sign. This is then sent to the
remote server via /send_join/ which responds with the state at that
event and the auth_chains.
We suspend processing of any received events from this room until we
have finished processing the join.
Args:
target_hosts: List of servers to attempt to join the room with.
room_id: The ID of the room to join.
joinee: The User ID of the joining user.
content: The event content to use for the join event.
"""
# TODO: We should be able to call this on workers, but the upgrading of
# room stuff after join currently doesn't work on workers.
# TODO: Before we relax this condition, we need to allow re-syncing of
# partial room state to happen on workers.
assert self.config.worker.worker_app is None
logger.debug("Joining %s to %s", joinee, room_id)
origin, event, room_version_obj = await self._make_and_verify_event(
target_hosts,
room_id,
joinee,
"join",
content,
params={"ver": KNOWN_ROOM_VERSIONS},
)
# This shouldn't happen, because the RoomMemberHandler has a
# linearizer lock which only allows one operation per user per room
# at a time - so this is just paranoia.
assert room_id not in self._federation_event_handler.room_queues
self._federation_event_handler.room_queues[room_id] = []
await self._clean_room_for_join(room_id)
try:
# Try the host we successfully got a response to /make_join/
# request first.
host_list = list(target_hosts)
try:
host_list.remove(origin)
host_list.insert(0, origin)
except ValueError:
pass
ret = await self.federation_client.send_join(
host_list, event, room_version_obj
)
event = ret.event
origin = ret.origin
state = ret.state
auth_chain = ret.auth_chain
auth_chain.sort(key=lambda e: e.depth)
logger.debug("do_invite_join auth_chain: %s", auth_chain)
logger.debug("do_invite_join state: %s", state)
logger.debug("do_invite_join event: %s", event)
# if this is the first time we've joined this room, it's time to add
# a row to `rooms` with the correct room version. If there's already a
# row there, we should override it, since it may have been populated
# based on an invite request which lied about the room version.
#
# federation_client.send_join has already checked that the room
# version in the received create event is the same as room_version_obj,
# so we can rely on it now.
#
await self.store.upsert_room_on_join(
room_id=room_id,
room_version=room_version_obj,
state_events=state,
)
if ret.partial_state:
# Mark the room as having partial state.
# The background process is responsible for unmarking this flag,
# even if the join fails.
await self.store.store_partial_state_room(
room_id=room_id,
servers=ret.servers_in_room,
device_lists_stream_id=self.store.get_device_stream_token(),
)
try:
max_stream_id = (
await self._federation_event_handler.process_remote_join(
origin,
room_id,
auth_chain,
state,
event,
room_version_obj,
partial_state=ret.partial_state,
)
)
except PartialStateConflictError as e:
# The homeserver was already in the room and it is no longer partial
# stated. We ought to be doing a local join instead. Turn the error into
# a 429, as a hint to the client to try again.
# TODO(faster_joins): `_should_perform_remote_join` suggests that we may
# do a remote join for restricted rooms even if we have full state.
logger.error(
"Room %s was un-partial stated while processing remote join.",
room_id,
)
raise LimitExceededError(msg=e.msg, errcode=e.errcode, retry_after_ms=0)
else:
# Record the join event id for future use (when we finish the full
# join). We have to do this after persisting the event to keep foreign
# key constraints intact.
if ret.partial_state:
await self.store.write_partial_state_rooms_join_event_id(
room_id, event.event_id
)
finally:
# Always kick off the background process that asynchronously fetches
# state for the room.
# If the join failed, the background process is responsible for
# cleaning up — including unmarking the room as a partial state room.
if ret.partial_state:
# Kick off the process of asynchronously fetching the state for this
# room.
run_as_background_process(
desc="sync_partial_state_room",
func=self._sync_partial_state_room,
initial_destination=origin,
other_destinations=ret.servers_in_room,
room_id=room_id,
)
# We wait here until this instance has seen the events come down
# replication (if we're using replication) as the below uses caches.
await self._replication.wait_for_stream_position(
self.config.worker.events_shard_config.get_instance(room_id),
"events",
max_stream_id,
)
# Check whether this room is the result of an upgrade of a room we already know
# about. If so, migrate over user information
predecessor = await self.store.get_room_predecessor(room_id)
if not predecessor or not isinstance(predecessor.get("room_id"), str):
return event.event_id, max_stream_id
old_room_id = predecessor["room_id"]
logger.debug(
"Found predecessor for %s during remote join: %s", room_id, old_room_id
)
# We retrieve the room member handler here as to not cause a cyclic dependency
member_handler = self.hs.get_room_member_handler()
await member_handler.transfer_room_state_on_room_upgrade(
old_room_id, room_id
)
logger.debug("Finished joining %s to %s", joinee, room_id)
return event.event_id, max_stream_id
finally:
room_queue = self._federation_event_handler.room_queues[room_id]
del self._federation_event_handler.room_queues[room_id]
# we don't need to wait for the queued events to be processed -
# it's just a best-effort thing at this point. We do want to do
# them roughly in order, though, otherwise we'll end up making
# lots of requests for missing prev_events which we do actually
# have. Hence we fire off the background task, but don't wait for it.
run_as_background_process(
"handle_queued_pdus", self._handle_queued_pdus, room_queue
)
async def do_knock(
self,
target_hosts: List[str],
room_id: str,
knockee: str,
content: JsonDict,
) -> Tuple[str, int]:
"""Sends the knock to the remote server.
This first triggers a make_knock request that returns a partial
event that we can fill out and sign. This is then sent to the
remote server via send_knock.
Knock events must be signed by the knockee's server before distributing.
Args:
target_hosts: A list of hosts that we want to try knocking through.
room_id: The ID of the room to knock on.
knockee: The ID of the user who is knocking.
content: The content of the knock event.
Returns:
A tuple of (event ID, stream ID).
Raises:
SynapseError: If the chosen remote server returns a 3xx/4xx code.
RuntimeError: If no servers were reachable.
"""
logger.debug("Knocking on room %s on behalf of user %s", room_id, knockee)
# Inform the remote server of the room versions we support
supported_room_versions = list(KNOWN_ROOM_VERSIONS.keys())
# Ask the remote server to create a valid knock event for us. Once received,
# we sign the event
params: Dict[str, Iterable[str]] = {"ver": supported_room_versions}
origin, event, event_format_version = await self._make_and_verify_event(
target_hosts, room_id, knockee, Membership.KNOCK, content, params=params
)
# Mark the knock as an outlier as we don't yet have the state at this point in
# the DAG.
event.internal_metadata.outlier = True
# ... but tell /sync to send it to clients anyway.
event.internal_metadata.out_of_band_membership = True
# Record the room ID and its version so that we have a record of the room
await self._maybe_store_room_on_outlier_membership(
room_id=event.room_id, room_version=event_format_version
)
# Initially try the host that we successfully called /make_knock on
try:
target_hosts.remove(origin)
target_hosts.insert(0, origin)
except ValueError:
pass
# Send the signed event back to the room, and potentially receive some
# further information about the room in the form of partial state events
stripped_room_state = await self.federation_client.send_knock(
target_hosts, event
)
# Store any stripped room state events in the "unsigned" key of the event.
# This is a bit of a hack and is cribbing off of invites. Basically we
# store the room state here and retrieve it again when this event appears
# in the invitee's sync stream. It is stripped out for all other local users.
event.unsigned["knock_room_state"] = stripped_room_state["knock_state_events"]
context = EventContext.for_outlier(self._storage_controllers)
stream_id = await self._federation_event_handler.persist_events_and_notify(
event.room_id, [(event, context)]
)
return event.event_id, stream_id
async def _handle_queued_pdus(
self, room_queue: List[Tuple[EventBase, str]]
) -> None:
"""Process PDUs which got queued up while we were busy send_joining.
Args:
room_queue: list of PDUs to be processed and the servers that sent them
"""
for p, origin in room_queue:
try:
logger.info(
"Processing queued PDU %s which was received while we were joining",
p,
)
with nested_logging_context(p.event_id):
await self._federation_event_handler.on_receive_pdu(origin, p)
except Exception as e:
logger.warning(
"Error handling queued PDU %s from %s: %s", p.event_id, origin, e
)
async def on_make_join_request(
self, origin: str, room_id: str, user_id: str
) -> EventBase:
"""We've received a /make_join/ request, so we create a partial
join event for the room and return that. We do *not* persist or
process it until the other server has signed it and sent it back.
Args:
origin: The (verified) server name of the requesting server.
room_id: Room to create join event in
user_id: The user to create the join for
"""
if get_domain_from_id(user_id) != origin:
logger.info(
"Got /make_join request for user %r from different origin %s, ignoring",
user_id,
origin,
)
raise SynapseError(403, "User not from origin", Codes.FORBIDDEN)
# checking the room version will check that we've actually heard of the room
# (and return a 404 otherwise)
room_version = await self.store.get_room_version(room_id)
if await self.store.is_partial_state_room(room_id):
# If our server is still only partially joined, we can't give a complete
# response to /make_join, so return a 404 as we would if we weren't in the
# room at all.
# The main reason we can't respond properly is that we need to know about
# the auth events for the join event that we would return.
# We also should not bother entertaining the /make_join since we cannot
# handle the /send_join.
logger.info(
"Rejecting /make_join to %s because it's a partial state room", room_id
)
raise SynapseError(
404,
"Unable to handle /make_join right now; this server is not fully joined.",
errcode=Codes.NOT_FOUND,
)
# now check that we are *still* in the room
is_in_room = await self._event_auth_handler.is_host_in_room(
room_id, self.server_name
)
if not is_in_room:
logger.info(
"Got /make_join request for room %s we are no longer in",
room_id,
)
raise NotFoundError("Not an active room on this server")
event_content = {"membership": Membership.JOIN}
# If the current room is using restricted join rules, additional information
# may need to be included in the event content in order to efficiently
# validate the event.
#
# Note that this requires the /send_join request to come back to the
# same server.
if room_version.msc3083_join_rules:
state_ids = await self._state_storage_controller.get_current_state_ids(
room_id
)
if await self._event_auth_handler.has_restricted_join_rules(
state_ids, room_version
):
prev_member_event_id = state_ids.get((EventTypes.Member, user_id), None)
# If the user is invited or joined to the room already, then
# no additional info is needed.
include_auth_user_id = True
if prev_member_event_id:
prev_member_event = await self.store.get_event(prev_member_event_id)
include_auth_user_id = prev_member_event.membership not in (
Membership.JOIN,
Membership.INVITE,
)
if include_auth_user_id:
event_content[
EventContentFields.AUTHORISING_USER
] = await self._event_auth_handler.get_user_which_could_invite(
room_id,
state_ids,
)
builder = self.event_builder_factory.for_room_version(
room_version,
{
"type": EventTypes.Member,
"content": event_content,
"room_id": room_id,
"sender": user_id,
"state_key": user_id,
},
)
try:
event, context = await self.event_creation_handler.create_new_client_event(
builder=builder
)
except SynapseError as e:
logger.warning("Failed to create join to %s because %s", room_id, e)
raise
# Ensure the user can even join the room.
await self._federation_event_handler.check_join_restrictions(context, event)
# The remote hasn't signed it yet, obviously. We'll do the full checks
# when we get the event back in `on_send_join_request`
await self._event_auth_handler.check_auth_rules_from_context(event, context)
return event
async def on_invite_request(
self, origin: str, event: EventBase, room_version: RoomVersion
) -> EventBase:
"""We've got an invite event. Process and persist it. Sign it.
Respond with the now signed event.
"""
if event.state_key is None:
raise SynapseError(400, "The invite event did not have a state key")
is_blocked = await self.store.is_room_blocked(event.room_id)
if is_blocked:
raise SynapseError(403, "This room has been blocked on this server")
if self.hs.config.server.block_non_admin_invites:
raise SynapseError(403, "This server does not accept room invites")
spam_check = await self.spam_checker.user_may_invite(
event.sender, event.state_key, event.room_id
)
if spam_check != NOT_SPAM:
raise SynapseError(
403,
"This user is not permitted to send invites to this server/user",
errcode=spam_check[0],
additional_fields=spam_check[1],
)
membership = event.content.get("membership")
if event.type != EventTypes.Member or membership != Membership.INVITE:
raise SynapseError(400, "The event was not an m.room.member invite event")
sender_domain = get_domain_from_id(event.sender)
if sender_domain != origin:
raise SynapseError(
400, "The invite event was not from the server sending it"
)
if not self.is_mine_id(event.state_key):
raise SynapseError(400, "The invite event must be for this server")
# block any attempts to invite the server notices mxid
if event.state_key == self._server_notices_mxid:
raise SynapseError(HTTPStatus.FORBIDDEN, "Cannot invite this user")
# We retrieve the room member handler here as to not cause a cyclic dependency
member_handler = self.hs.get_room_member_handler()
# We don't rate limit based on room ID, as that should be done by
# sending server.
await member_handler.ratelimit_invite(None, None, event.state_key)
# keep a record of the room version, if we don't yet know it.
# (this may get overwritten if we later get a different room version in a
# join dance).
await self._maybe_store_room_on_outlier_membership(
room_id=event.room_id, room_version=room_version
)
event.internal_metadata.outlier = True
event.internal_metadata.out_of_band_membership = True
event.signatures.update(
compute_event_signature(
room_version,
event.get_pdu_json(),
self.hs.hostname,
self.hs.signing_key,
)
)
context = EventContext.for_outlier(self._storage_controllers)
await self._bulk_push_rule_evaluator.action_for_event_by_user(event, context)
try:
await self._federation_event_handler.persist_events_and_notify(
event.room_id, [(event, context)]
)
except Exception:
await self.store.remove_push_actions_from_staging(event.event_id)
raise
return event
async def do_remotely_reject_invite(
self, target_hosts: Iterable[str], room_id: str, user_id: str, content: JsonDict
) -> Tuple[EventBase, int]:
origin, event, room_version = await self._make_and_verify_event(
target_hosts, room_id, user_id, "leave", content=content
)
# Mark as outlier as we don't have any state for this event; we're not
# even in the room.
event.internal_metadata.outlier = True
event.internal_metadata.out_of_band_membership = True
# Try the host that we successfully called /make_leave/ on first for
# the /send_leave/ request.
host_list = list(target_hosts)
try:
host_list.remove(origin)
host_list.insert(0, origin)
except ValueError:
pass
await self.federation_client.send_leave(host_list, event)
context = EventContext.for_outlier(self._storage_controllers)
stream_id = await self._federation_event_handler.persist_events_and_notify(
event.room_id, [(event, context)]
)
return event, stream_id
async def _make_and_verify_event(
self,
target_hosts: Iterable[str],
room_id: str,
user_id: str,
membership: str,
content: JsonDict,
params: Optional[Dict[str, Union[str, Iterable[str]]]] = None,
) -> Tuple[str, EventBase, RoomVersion]:
(
origin,
event,
room_version,
) = await self.federation_client.make_membership_event(
target_hosts, room_id, user_id, membership, content, params=params
)
logger.debug("Got response to make_%s: %s", membership, event)
# We should assert some things.
# FIXME: Do this in a nicer way
assert event.type == EventTypes.Member
assert event.user_id == user_id
assert event.state_key == user_id
assert event.room_id == room_id
return origin, event, room_version
async def on_make_leave_request(
self, origin: str, room_id: str, user_id: str
) -> EventBase:
"""We've received a /make_leave/ request, so we create a partial
leave event for the room and return that. We do *not* persist or
process it until the other server has signed it and sent it back.
Args:
origin: The (verified) server name of the requesting server.
room_id: Room to create leave event in
user_id: The user to create the leave for
"""
if get_domain_from_id(user_id) != origin:
logger.info(
"Got /make_leave request for user %r from different origin %s, ignoring",
user_id,
origin,
)
raise SynapseError(403, "User not from origin", Codes.FORBIDDEN)
room_version_obj = await self.store.get_room_version(room_id)
builder = self.event_builder_factory.for_room_version(
room_version_obj,
{
"type": EventTypes.Member,
"content": {"membership": Membership.LEAVE},
"room_id": room_id,
"sender": user_id,
"state_key": user_id,
},
)
event, context = await self.event_creation_handler.create_new_client_event(
builder=builder
)
try:
# The remote hasn't signed it yet, obviously. We'll do the full checks
# when we get the event back in `on_send_leave_request`
await self._event_auth_handler.check_auth_rules_from_context(event, context)
except AuthError as e:
logger.warning("Failed to create new leave %r because %s", event, e)
raise e
return event
async def on_make_knock_request(
self, origin: str, room_id: str, user_id: str
) -> EventBase:
"""We've received a make_knock request, so we create a partial
knock event for the room and return that. We do *not* persist or
process it until the other server has signed it and sent it back.
Args:
origin: The (verified) server name of the requesting server.
room_id: The room to create the knock event in.
user_id: The user to create the knock for.
Returns:
The partial knock event.
"""
if get_domain_from_id(user_id) != origin:
logger.info(
"Get /make_knock request for user %r from different origin %s, ignoring",
user_id,
origin,
)
raise SynapseError(403, "User not from origin", Codes.FORBIDDEN)
room_version_obj = await self.store.get_room_version(room_id)
builder = self.event_builder_factory.for_room_version(
room_version_obj,
{
"type": EventTypes.Member,
"content": {"membership": Membership.KNOCK},
"room_id": room_id,
"sender": user_id,
"state_key": user_id,
},
)
event, context = await self.event_creation_handler.create_new_client_event(
builder=builder
)
event_allowed, _ = await self.third_party_event_rules.check_event_allowed(
event, context
)
if not event_allowed:
logger.warning("Creation of knock %s forbidden by third-party rules", event)
raise SynapseError(
403, "This event is not allowed in this context", Codes.FORBIDDEN
)
try:
# The remote hasn't signed it yet, obviously. We'll do the full checks
# when we get the event back in `on_send_knock_request`
await self._event_auth_handler.check_auth_rules_from_context(event, context)
except AuthError as e:
logger.warning("Failed to create new knock %r because %s", event, e)
raise e
return event
@trace
@tag_args
async def get_state_ids_for_pdu(self, room_id: str, event_id: str) -> List[str]:
"""Returns the state at the event. i.e. not including said event."""
event = await self.store.get_event(event_id, check_room_id=room_id)
if event.internal_metadata.outlier:
raise NotFoundError("State not known at event %s" % (event_id,))
state_groups = await self._state_storage_controller.get_state_groups_ids(
room_id, [event_id]
)
# get_state_groups_ids should return exactly one result
assert len(state_groups) == 1
state_map = next(iter(state_groups.values()))
state_key = event.get_state_key()
if state_key is not None:
# the event was not rejected (get_event raises a NotFoundError for rejected
# events) so the state at the event should include the event itself.
assert (
state_map.get((event.type, state_key)) == event.event_id
), "State at event did not include event itself"
# ... but we need the state *before* that event
if "replaces_state" in event.unsigned:
prev_id = event.unsigned["replaces_state"]
state_map[(event.type, state_key)] = prev_id
else:
del state_map[(event.type, state_key)]
return list(state_map.values())
async def on_backfill_request(
self, origin: str, room_id: str, pdu_list: List[str], limit: int
) -> List[EventBase]:
await self._event_auth_handler.assert_host_in_room(room_id, origin)
# Synapse asks for 100 events per backfill request. Do not allow more.
limit = min(limit, 100)
events = await self.store.get_backfill_events(room_id, pdu_list, limit)
logger.debug(
"on_backfill_request: backfill events=%s",
[
"event_id=%s,depth=%d,body=%s,prevs=%s\n"
% (
event.event_id,
event.depth,
event.content.get("body", event.type),
event.prev_event_ids(),
)
for event in events
],
)
events = await filter_events_for_server(
self._storage_controllers, origin, events
)
return events
async def get_persisted_pdu(
self, origin: str, event_id: str
) -> Optional[EventBase]:
"""Get an event from the database for the given server.
Args:
origin: hostname of server which is requesting the event; we
will check that the server is allowed to see it.
event_id: id of the event being requested
Returns:
None if we know nothing about the event; otherwise the (possibly-redacted) event.
Raises:
AuthError if the server is not currently in the room
"""
event = await self.store.get_event(
event_id, allow_none=True, allow_rejected=True
)
if not event:
return None
await self._event_auth_handler.assert_host_in_room(event.room_id, origin)
events = await filter_events_for_server(
self._storage_controllers, origin, [event]
)
event = events[0]
return event
async def on_get_missing_events(
self,
origin: str,
room_id: str,
earliest_events: List[str],
latest_events: List[str],
limit: int,
) -> List[EventBase]:
await self._event_auth_handler.assert_host_in_room(room_id, origin)
# Only allow up to 20 events to be retrieved per request.
limit = min(limit, 20)
missing_events = await self.store.get_missing_events(
room_id=room_id,
earliest_events=earliest_events,
latest_events=latest_events,
limit=limit,
)
missing_events = await filter_events_for_server(
self._storage_controllers, origin, missing_events
)
return missing_events
async def exchange_third_party_invite(
self, sender_user_id: str, target_user_id: str, room_id: str, signed: JsonDict
) -> None:
third_party_invite = {"signed": signed}
event_dict = {
"type": EventTypes.Member,
"content": {
"membership": Membership.INVITE,
"third_party_invite": third_party_invite,
},
"room_id": room_id,
"sender": sender_user_id,
"state_key": target_user_id,
}
if await self._event_auth_handler.is_host_in_room(room_id, self.hs.hostname):
room_version_obj = await self.store.get_room_version(room_id)
builder = self.event_builder_factory.for_room_version(
room_version_obj, event_dict
)
EventValidator().validate_builder(builder)
event, context = await self.event_creation_handler.create_new_client_event(
builder=builder
)
event, context = await self.add_display_name_to_third_party_invite(
room_version_obj, event_dict, event, context
)
EventValidator().validate_new(event, self.config)
# We need to tell the transaction queue to send this out, even
# though the sender isn't a local user.
event.internal_metadata.send_on_behalf_of = self.hs.hostname
try:
validate_event_for_room_version(event)
await self._event_auth_handler.check_auth_rules_from_context(
event, context
)
except AuthError as e:
logger.warning("Denying new third party invite %r because %s", event, e)
raise e
await self._check_signature(event, context)
# We retrieve the room member handler here as to not cause a cyclic dependency
member_handler = self.hs.get_room_member_handler()
await member_handler.send_membership_event(None, event, context)
else:
destinations = {x.split(":", 1)[-1] for x in (sender_user_id, room_id)}
try:
await self.federation_client.forward_third_party_invite(
destinations, room_id, event_dict
)
except (RequestSendFailed, HttpResponseException):
raise SynapseError(502, "Failed to forward third party invite")
async def on_exchange_third_party_invite_request(
self, event_dict: JsonDict
) -> None:
"""Handle an exchange_third_party_invite request from a remote server
The remote server will call this when it wants to turn a 3pid invite
into a normal m.room.member invite.
Args:
event_dict: Dictionary containing the event body.
"""
assert_params_in_dict(event_dict, ["room_id"])
room_version_obj = await self.store.get_room_version(event_dict["room_id"])
# NB: event_dict has a particular specced format we might need to fudge
# if we change event formats too much.
builder = self.event_builder_factory.for_room_version(
room_version_obj, event_dict
)
event, context = await self.event_creation_handler.create_new_client_event(
builder=builder
)
event, context = await self.add_display_name_to_third_party_invite(
room_version_obj, event_dict, event, context
)
try:
validate_event_for_room_version(event)
await self._event_auth_handler.check_auth_rules_from_context(event, context)
except AuthError as e:
logger.warning("Denying third party invite %r because %s", event, e)
raise e
await self._check_signature(event, context)
# We need to tell the transaction queue to send this out, even
# though the sender isn't a local user.
event.internal_metadata.send_on_behalf_of = get_domain_from_id(event.sender)
# We retrieve the room member handler here as to not cause a cyclic dependency
member_handler = self.hs.get_room_member_handler()
await member_handler.send_membership_event(None, event, context)
async def add_display_name_to_third_party_invite(
self,
room_version_obj: RoomVersion,
event_dict: JsonDict,
event: EventBase,
context: EventContext,
) -> Tuple[EventBase, EventContext]:
key = (
EventTypes.ThirdPartyInvite,
event.content["third_party_invite"]["signed"]["token"],
)
original_invite = None
prev_state_ids = await context.get_prev_state_ids(
StateFilter.from_types([(EventTypes.ThirdPartyInvite, None)])
)
original_invite_id = prev_state_ids.get(key)
if original_invite_id:
original_invite = await self.store.get_event(
original_invite_id, allow_none=True
)
if original_invite:
# If the m.room.third_party_invite event's content is empty, it means the
# invite has been revoked. In this case, we don't have to raise an error here
# because the auth check will fail on the invite (because it's not able to
# fetch public keys from the m.room.third_party_invite event's content, which
# is empty).
display_name = original_invite.content.get("display_name")
event_dict["content"]["third_party_invite"]["display_name"] = display_name
else:
logger.info(
"Could not find invite event for third_party_invite: %r", event_dict
)
# We don't discard here as this is not the appropriate place to do
# auth checks. If we need the invite and don't have it then the
# auth check code will explode appropriately.
builder = self.event_builder_factory.for_room_version(
room_version_obj, event_dict
)
EventValidator().validate_builder(builder)
event, context = await self.event_creation_handler.create_new_client_event(
builder=builder
)
EventValidator().validate_new(event, self.config)
return event, context
async def _check_signature(self, event: EventBase, context: EventContext) -> None:
"""
Checks that the signature in the event is consistent with its invite.
Args:
event: The m.room.member event to check
context:
Raises:
AuthError: if signature didn't match any keys, or key has been
revoked,
SynapseError: if a transient error meant a key couldn't be checked
for revocation.
"""
signed = event.content["third_party_invite"]["signed"]
token = signed["token"]
prev_state_ids = await context.get_prev_state_ids(
StateFilter.from_types([(EventTypes.ThirdPartyInvite, None)])
)
invite_event_id = prev_state_ids.get((EventTypes.ThirdPartyInvite, token))
invite_event = None
if invite_event_id:
invite_event = await self.store.get_event(invite_event_id, allow_none=True)
if not invite_event:
raise AuthError(403, "Could not find invite")
logger.debug("Checking auth on event %r", event.content)
last_exception: Optional[Exception] = None
# for each public key in the 3pid invite event
for public_key_object in event_auth.get_public_keys(invite_event):
try:
# for each sig on the third_party_invite block of the actual invite
for server, signature_block in signed["signatures"].items():
for key_name in signature_block.keys():
if not key_name.startswith("ed25519:"):
continue
logger.debug(
"Attempting to verify sig with key %s from %r "
"against pubkey %r",
key_name,
server,
public_key_object,
)
try:
public_key = public_key_object["public_key"]
verify_key = decode_verify_key_bytes(
key_name, decode_base64(public_key)
)
verify_signed_json(signed, server, verify_key)
logger.debug(
"Successfully verified sig with key %s from %r "
"against pubkey %r",
key_name,
server,
public_key_object,
)
except Exception:
logger.info(
"Failed to verify sig with key %s from %r "
"against pubkey %r",
key_name,
server,
public_key_object,
)
raise
try:
if "key_validity_url" in public_key_object:
await self._check_key_revocation(
public_key, public_key_object["key_validity_url"]
)
except Exception:
logger.info(
"Failed to query key_validity_url %s",
public_key_object["key_validity_url"],
)
raise
return
except Exception as e:
last_exception = e
if last_exception is None:
# we can only get here if get_public_keys() returned an empty list
# TODO: make this better
raise RuntimeError("no public key in invite event")
raise last_exception
async def _check_key_revocation(self, public_key: str, url: str) -> None:
"""
Checks whether public_key has been revoked.
Args:
public_key: base-64 encoded public key.
url: Key revocation URL.
Raises:
AuthError: if they key has been revoked.
SynapseError: if a transient error meant a key couldn't be checked
for revocation.
"""
try:
response = await self.http_client.get_json(url, {"public_key": public_key})
except Exception:
raise SynapseError(502, "Third party certificate could not be checked")
if "valid" not in response or not response["valid"]:
raise AuthError(403, "Third party certificate was invalid")
async def _clean_room_for_join(self, room_id: str) -> None:
"""Called to clean up any data in DB for a given room, ready for the
server to join the room.
Args:
room_id
"""
if self.config.worker.worker_app:
await self._clean_room_for_join_client(room_id)
else:
await self.store.clean_room_for_join(room_id)
async def get_room_complexity(
self, remote_room_hosts: List[str], room_id: str
) -> Optional[dict]:
"""
Fetch the complexity of a remote room over federation.
Args:
remote_room_hosts (list[str]): The remote servers to ask.
room_id (str): The room ID to ask about.
Returns:
Dict contains the complexity
metric versions, while None means we could not fetch the complexity.
"""
for host in remote_room_hosts:
res = await self.federation_client.get_room_complexity(host, room_id)
# We got a result, return it.
if res:
return res
# We fell off the bottom, couldn't get the complexity from anyone. Oh
# well.
return None
async def _resume_sync_partial_state_room(self) -> None:
"""Resumes resyncing of all partial-state rooms after a restart."""
assert not self.config.worker.worker_app
partial_state_rooms = await self.store.get_partial_state_rooms_and_servers()
for room_id, servers_in_room in partial_state_rooms.items():
run_as_background_process(
desc="sync_partial_state_room",
func=self._sync_partial_state_room,
initial_destination=None,
other_destinations=servers_in_room,
room_id=room_id,
)
async def _sync_partial_state_room(
self,
initial_destination: Optional[str],
other_destinations: Collection[str],
room_id: str,
) -> None:
"""Background process to resync the state of a partial-state room
Args:
initial_destination: the initial homeserver to pull the state from
other_destinations: other homeservers to try to pull the state from, if
`initial_destination` is unavailable
room_id: room to be resynced
"""
assert not self.config.worker.worker_app
# TODO(faster_joins): do we need to lock to avoid races? What happens if other
# worker processes kick off a resync in parallel? Perhaps we should just elect
# a single worker to do the resync.
# https://github.com/matrix-org/synapse/issues/12994
#
# TODO(faster_joins): what happens if we leave the room during a resync? if we
# really leave, that might mean we have difficulty getting the room state over
# federation.
# https://github.com/matrix-org/synapse/issues/12802
#
# TODO(faster_joins): we need some way of prioritising which homeservers in
# `other_destinations` to try first, otherwise we'll spend ages trying dead
# homeservers for large rooms.
# https://github.com/matrix-org/synapse/issues/12999
if initial_destination is None and len(other_destinations) == 0:
raise ValueError(
f"Cannot resync state of {room_id}: no destinations provided"
)
# Make an infinite iterator of destinations to try. Once we find a working
# destination, we'll stick with it until it flakes.
destinations: Collection[str]
if initial_destination is not None:
# Move `initial_destination` to the front of the list.
destinations = list(other_destinations)
if initial_destination in destinations:
destinations.remove(initial_destination)
destinations = [initial_destination] + destinations
else:
destinations = other_destinations
destination_iter = itertools.cycle(destinations)
# `destination` is the current remote homeserver we're pulling from.
destination = next(destination_iter)
logger.info("Syncing state for room %s via %s", room_id, destination)
# we work through the queue in order of increasing stream ordering.
while True:
batch = await self.store.get_partial_state_events_batch(room_id)
if not batch:
# all the events are updated, so we can update current state and
# clear the lazy-loading flag.
logger.info("Updating current state for %s", room_id)
# TODO(faster_joins): notify workers in notify_room_un_partial_stated
# https://github.com/matrix-org/synapse/issues/12994
await self.state_handler.update_current_state(room_id)
logger.info("Handling any pending device list updates")
await self._device_handler.handle_room_un_partial_stated(room_id)
logger.info("Clearing partial-state flag for %s", room_id)
success = await self.store.clear_partial_state_room(room_id)
if success:
logger.info("State resync complete for %s", room_id)
self._storage_controllers.state.notify_room_un_partial_stated(
room_id
)
# TODO(faster_joins) update room stats and user directory?
# https://github.com/matrix-org/synapse/issues/12814
# https://github.com/matrix-org/synapse/issues/12815
return
# we raced against more events arriving with partial state. Go round
# the loop again. We've already logged a warning, so no need for more.
continue
events = await self.store.get_events_as_list(
batch,
redact_behaviour=EventRedactBehaviour.as_is,
allow_rejected=True,
)
for event in events:
for attempt in itertools.count():
try:
await self._federation_event_handler.update_state_for_partial_state_event(
destination, event
)
break
except FederationError as e:
if attempt == len(destinations) - 1:
# We have tried every remote server for this event. Give up.
# TODO(faster_joins) giving up isn't the right thing to do
# if there's a temporary network outage. retrying
# indefinitely is also not the right thing to do if we can
# reach all homeservers and they all claim they don't have
# the state we want.
# https://github.com/matrix-org/synapse/issues/13000
logger.error(
"Failed to get state for %s at %s from %s because %s, "
"giving up!",
room_id,
event,
destination,
e,
)
raise
# Try the next remote server.
logger.info(
"Failed to get state for %s at %s from %s because %s",
room_id,
event,
destination,
e,
)
destination = next(destination_iter)
logger.info(
"Syncing state for room %s via %s instead",
room_id,
destination,
)