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|
# Copyright 2016-2020 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.
import abc
import logging
import random
from http import HTTPStatus
from typing import TYPE_CHECKING, Any, Dict, Iterable, List, Optional, Set, Tuple
from synapse import types
from synapse.api.constants import (
AccountDataTypes,
EventContentFields,
EventTypes,
GuestAccess,
Membership,
)
from synapse.api.errors import (
AuthError,
Codes,
PartialStateConflictError,
ShadowBanError,
SynapseError,
)
from synapse.api.ratelimiting import Ratelimiter
from synapse.event_auth import get_named_level, get_power_level_event
from synapse.events import EventBase
from synapse.events.snapshot import EventContext
from synapse.handlers.profile import MAX_AVATAR_URL_LEN, MAX_DISPLAYNAME_LEN
from synapse.handlers.state_deltas import MatchChange, StateDeltasHandler
from synapse.logging import opentracing
from synapse.metrics import event_processing_positions
from synapse.metrics.background_process_metrics import run_as_background_process
from synapse.module_api import NOT_SPAM
from synapse.types import (
JsonDict,
Requester,
RoomAlias,
RoomID,
StateMap,
UserID,
create_requester,
get_domain_from_id,
)
from synapse.types.state import StateFilter
from synapse.util.async_helpers import Linearizer
from synapse.util.distributor import user_left_room
if TYPE_CHECKING:
from synapse.server import HomeServer
logger = logging.getLogger(__name__)
class NoKnownServersError(SynapseError):
"""No server already resident to the room was provided to the join/knock operation."""
def __init__(self, msg: str = "No known servers"):
super().__init__(404, msg)
class RoomMemberHandler(metaclass=abc.ABCMeta):
# TODO(paul): This handler currently contains a messy conflation of
# low-level API that works on UserID objects and so on, and REST-level
# API that takes ID strings and returns pagination chunks. These concerns
# ought to be separated out a lot better.
def __init__(self, hs: "HomeServer"):
self.hs = hs
self.store = hs.get_datastores().main
self._storage_controllers = hs.get_storage_controllers()
self.auth = hs.get_auth()
self.state_handler = hs.get_state_handler()
self.config = hs.config
self._server_name = hs.hostname
self.federation_handler = hs.get_federation_handler()
self.directory_handler = hs.get_directory_handler()
self.identity_handler = hs.get_identity_handler()
self.registration_handler = hs.get_registration_handler()
self.profile_handler = hs.get_profile_handler()
self.event_creation_handler = hs.get_event_creation_handler()
self.account_data_handler = hs.get_account_data_handler()
self.event_auth_handler = hs.get_event_auth_handler()
self.member_linearizer: Linearizer = Linearizer(name="member")
self.member_as_limiter = Linearizer(max_count=10, name="member_as_limiter")
self.clock = hs.get_clock()
self._spam_checker_module_callbacks = hs.get_module_api_callbacks().spam_checker
self.third_party_event_rules = hs.get_third_party_event_rules()
self._server_notices_mxid = self.config.servernotices.server_notices_mxid
self._enable_lookup = hs.config.registration.enable_3pid_lookup
self.allow_per_room_profiles = self.config.server.allow_per_room_profiles
self._join_rate_limiter_local = Ratelimiter(
store=self.store,
clock=self.clock,
rate_hz=hs.config.ratelimiting.rc_joins_local.per_second,
burst_count=hs.config.ratelimiting.rc_joins_local.burst_count,
)
# Tracks joins from local users to rooms this server isn't a member of.
# I.e. joins this server makes by requesting /make_join /send_join from
# another server.
self._join_rate_limiter_remote = Ratelimiter(
store=self.store,
clock=self.clock,
rate_hz=hs.config.ratelimiting.rc_joins_remote.per_second,
burst_count=hs.config.ratelimiting.rc_joins_remote.burst_count,
)
# TODO: find a better place to keep this Ratelimiter.
# It needs to be
# - written to by event persistence code
# - written to by something which can snoop on replication streams
# - read by the RoomMemberHandler to rate limit joins from local users
# - read by the FederationServer to rate limit make_joins and send_joins from
# other homeservers
# I wonder if a homeserver-wide collection of rate limiters might be cleaner?
self._join_rate_per_room_limiter = Ratelimiter(
store=self.store,
clock=self.clock,
rate_hz=hs.config.ratelimiting.rc_joins_per_room.per_second,
burst_count=hs.config.ratelimiting.rc_joins_per_room.burst_count,
)
# Ratelimiter for invites, keyed by room (across all issuers, all
# recipients).
self._invites_per_room_limiter = Ratelimiter(
store=self.store,
clock=self.clock,
rate_hz=hs.config.ratelimiting.rc_invites_per_room.per_second,
burst_count=hs.config.ratelimiting.rc_invites_per_room.burst_count,
)
# Ratelimiter for invites, keyed by recipient (across all rooms, all
# issuers).
self._invites_per_recipient_limiter = Ratelimiter(
store=self.store,
clock=self.clock,
rate_hz=hs.config.ratelimiting.rc_invites_per_user.per_second,
burst_count=hs.config.ratelimiting.rc_invites_per_user.burst_count,
)
# Ratelimiter for invites, keyed by issuer (across all rooms, all
# recipients).
self._invites_per_issuer_limiter = Ratelimiter(
store=self.store,
clock=self.clock,
rate_hz=hs.config.ratelimiting.rc_invites_per_issuer.per_second,
burst_count=hs.config.ratelimiting.rc_invites_per_issuer.burst_count,
)
self._third_party_invite_limiter = Ratelimiter(
store=self.store,
clock=self.clock,
rate_hz=hs.config.ratelimiting.rc_third_party_invite.per_second,
burst_count=hs.config.ratelimiting.rc_third_party_invite.burst_count,
)
self.request_ratelimiter = hs.get_request_ratelimiter()
hs.get_notifier().add_new_join_in_room_callback(self._on_user_joined_room)
self._msc3970_enabled = hs.config.experimental.msc3970_enabled
def _on_user_joined_room(self, event_id: str, room_id: str) -> None:
"""Notify the rate limiter that a room join has occurred.
Use this to inform the RoomMemberHandler about joins that have either
- taken place on another homeserver, or
- on another worker in this homeserver.
Joins actioned by this worker should use the usual `ratelimit` method, which
checks the limit and increments the counter in one go.
"""
self._join_rate_per_room_limiter.record_action(requester=None, key=room_id)
@abc.abstractmethod
async def _remote_join(
self,
requester: Requester,
remote_room_hosts: List[str],
room_id: str,
user: UserID,
content: dict,
) -> Tuple[str, int]:
"""Try and join a room that this server is not in
Args:
requester: The user making the request, according to the access token.
remote_room_hosts: List of servers that can be used to join via.
room_id: Room that we are trying to join
user: User who is trying to join
content: A dict that should be used as the content of the join event.
Raises:
NoKnownServersError: if remote_room_hosts does not contain a server joined to
the room.
"""
raise NotImplementedError()
@abc.abstractmethod
async def remote_knock(
self,
requester: Requester,
remote_room_hosts: List[str],
room_id: str,
user: UserID,
content: dict,
) -> Tuple[str, int]:
"""Try and knock on a room that this server is not in
Args:
remote_room_hosts: List of servers that can be used to knock via.
room_id: Room that we are trying to knock on.
user: User who is trying to knock.
content: A dict that should be used as the content of the knock event.
"""
raise NotImplementedError()
@abc.abstractmethod
async def remote_reject_invite(
self,
invite_event_id: str,
txn_id: Optional[str],
requester: Requester,
content: JsonDict,
) -> Tuple[str, int]:
"""
Rejects an out-of-band invite we have received from a remote server
Args:
invite_event_id: ID of the invite to be rejected
txn_id: optional transaction ID supplied by the client
requester: user making the rejection request, according to the access token
content: additional content to include in the rejection event.
Normally an empty dict.
Returns:
event id, stream_id of the leave event
"""
raise NotImplementedError()
@abc.abstractmethod
async def remote_rescind_knock(
self,
knock_event_id: str,
txn_id: Optional[str],
requester: Requester,
content: JsonDict,
) -> Tuple[str, int]:
"""Rescind a local knock made on a remote room.
Args:
knock_event_id: The ID of the knock event to rescind.
txn_id: An optional transaction ID supplied by the client.
requester: The user making the request, according to the access token.
content: The content of the generated leave event.
Returns:
A tuple containing (event_id, stream_id of the leave event).
"""
raise NotImplementedError()
@abc.abstractmethod
async def _user_left_room(self, target: UserID, room_id: str) -> None:
"""Notifies distributor on master process that the user has left the
room.
Args:
target
room_id
"""
raise NotImplementedError()
async def forget(self, user: UserID, room_id: str) -> None:
user_id = user.to_string()
member = await self._storage_controllers.state.get_current_state_event(
room_id=room_id, event_type=EventTypes.Member, state_key=user_id
)
membership = member.membership if member else None
if membership is not None and membership not in [
Membership.LEAVE,
Membership.BAN,
]:
raise SynapseError(400, "User %s in room %s" % (user_id, room_id))
# In normal case this call is only required if `membership` is not `None`.
# But: After the last member had left the room, the background update
# `_background_remove_left_rooms` is deleting rows related to this room from
# the table `current_state_events` and `get_current_state_events` is `None`.
await self.store.forget(user_id, room_id)
async def ratelimit_multiple_invites(
self,
requester: Optional[Requester],
room_id: Optional[str],
n_invites: int,
update: bool = True,
) -> None:
"""Ratelimit more than one invite sent by the given requester in the given room.
Args:
requester: The requester sending the invites.
room_id: The room the invites are being sent in.
n_invites: The amount of invites to ratelimit for.
update: Whether to update the ratelimiter's cache.
Raises:
LimitExceededError: The requester can't send that many invites in the room.
"""
await self._invites_per_room_limiter.ratelimit(
requester,
room_id,
update=update,
n_actions=n_invites,
)
async def ratelimit_invite(
self,
requester: Optional[Requester],
room_id: Optional[str],
invitee_user_id: str,
) -> None:
"""Ratelimit invites by room and by target user.
If room ID is missing then we just rate limit by target user.
"""
if room_id:
await self._invites_per_room_limiter.ratelimit(requester, room_id)
await self._invites_per_recipient_limiter.ratelimit(requester, invitee_user_id)
if requester is not None:
await self._invites_per_issuer_limiter.ratelimit(requester)
async def _local_membership_update(
self,
requester: Requester,
target: UserID,
room_id: str,
membership: str,
allow_no_prev_events: bool = False,
prev_event_ids: Optional[List[str]] = None,
state_event_ids: Optional[List[str]] = None,
depth: Optional[int] = None,
txn_id: Optional[str] = None,
ratelimit: bool = True,
content: Optional[dict] = None,
require_consent: bool = True,
outlier: bool = False,
historical: bool = False,
origin_server_ts: Optional[int] = None,
) -> Tuple[str, int]:
"""
Internal membership update function to get an existing event or create
and persist a new event for the new membership change.
Args:
requester:
target:
room_id:
membership:
allow_no_prev_events: Whether to allow this event to be created an empty
list of prev_events. Normally this is prohibited just because most
events should have a prev_event and we should only use this in special
cases like MSC2716.
prev_event_ids: The event IDs to use as the prev events
state_event_ids:
The full state at a given event. This is used particularly by the MSC2716
/batch_send endpoint. One use case is the historical `state_events_at_start`;
since each is marked as an `outlier`, the `EventContext.for_outlier()` won't
have any `state_ids` set and therefore can't derive any state even though the
prev_events are set so we need to set them ourself via this argument.
This should normally be left as None, which will cause the auth_event_ids
to be calculated based on the room state at the prev_events.
depth: Override the depth used to order the event in the DAG.
Should normally be set to None, which will cause the depth to be calculated
based on the prev_events.
txn_id:
ratelimit:
content:
require_consent:
outlier: Indicates whether the event is an `outlier`, i.e. if
it's from an arbitrary point and floating in the DAG as
opposed to being inline with the current DAG.
historical: Indicates whether the message is being inserted
back in time around some existing events. This is used to skip
a few checks and mark the event as backfilled.
origin_server_ts: The origin_server_ts to use if a new event is created. Uses
the current timestamp if set to None.
Returns:
Tuple of event ID and stream ordering position
"""
user_id = target.to_string()
if content is None:
content = {}
content["membership"] = membership
if requester.is_guest:
content["kind"] = "guest"
# Check if we already have an event with a matching transaction ID. (We
# do this check just before we persist an event as well, but may as well
# do it up front for efficiency.)
if txn_id:
existing_event_id = None
if self._msc3970_enabled and requester.device_id:
# When MSC3970 is enabled, we lookup for events sent by the same device
# first, and fallback to the old behaviour if none were found.
existing_event_id = (
await self.store.get_event_id_from_transaction_id_and_device_id(
room_id,
requester.user.to_string(),
requester.device_id,
txn_id,
)
)
if requester.access_token_id and not existing_event_id:
existing_event_id = (
await self.store.get_event_id_from_transaction_id_and_token_id(
room_id,
requester.user.to_string(),
requester.access_token_id,
txn_id,
)
)
if existing_event_id:
event_pos = await self.store.get_position_for_event(existing_event_id)
return existing_event_id, event_pos.stream
# Try several times, it could fail with PartialStateConflictError,
# in handle_new_client_event, cf comment in except block.
max_retries = 5
for i in range(max_retries):
try:
(
event,
unpersisted_context,
) = await self.event_creation_handler.create_event(
requester,
{
"type": EventTypes.Member,
"content": content,
"room_id": room_id,
"sender": requester.user.to_string(),
"state_key": user_id,
# For backwards compatibility:
"membership": membership,
"origin_server_ts": origin_server_ts,
},
txn_id=txn_id,
allow_no_prev_events=allow_no_prev_events,
prev_event_ids=prev_event_ids,
state_event_ids=state_event_ids,
depth=depth,
require_consent=require_consent,
outlier=outlier,
historical=historical,
)
context = await unpersisted_context.persist(event)
prev_state_ids = await context.get_prev_state_ids(
StateFilter.from_types([(EventTypes.Member, None)])
)
prev_member_event_id = prev_state_ids.get(
(EventTypes.Member, user_id), None
)
if event.membership == Membership.JOIN:
newly_joined = True
if prev_member_event_id:
prev_member_event = await self.store.get_event(
prev_member_event_id
)
newly_joined = prev_member_event.membership != Membership.JOIN
# Only rate-limit if the user actually joined the room, otherwise we'll end
# up blocking profile updates.
if newly_joined and ratelimit:
await self._join_rate_limiter_local.ratelimit(requester)
await self._join_rate_per_room_limiter.ratelimit(
requester, key=room_id, update=False
)
with opentracing.start_active_span("handle_new_client_event"):
result_event = (
await self.event_creation_handler.handle_new_client_event(
requester,
events_and_context=[(event, context)],
extra_users=[target],
ratelimit=ratelimit,
)
)
if event.membership == Membership.LEAVE:
if prev_member_event_id:
prev_member_event = await self.store.get_event(
prev_member_event_id
)
if prev_member_event.membership == Membership.JOIN:
await self._user_left_room(target, room_id)
break
except PartialStateConflictError as e:
# Persisting couldn't happen because the room got un-partial stated
# in the meantime and context needs to be recomputed, so let's do so.
if i == max_retries - 1:
raise e
pass
# we know it was persisted, so should have a stream ordering
assert result_event.internal_metadata.stream_ordering
return result_event.event_id, result_event.internal_metadata.stream_ordering
async def copy_room_tags_and_direct_to_room(
self, old_room_id: str, new_room_id: str, user_id: str
) -> None:
"""Copies the tags and direct room state from one room to another.
Args:
old_room_id: The room ID of the old room.
new_room_id: The room ID of the new room.
user_id: The user's ID.
"""
# Retrieve user account data for predecessor room
user_account_data = await self.store.get_global_account_data_for_user(user_id)
# Copy direct message state if applicable
direct_rooms = user_account_data.get(AccountDataTypes.DIRECT, {})
# Check which key this room is under
if isinstance(direct_rooms, dict):
for key, room_id_list in direct_rooms.items():
if old_room_id in room_id_list and new_room_id not in room_id_list:
# Add new room_id to this key
direct_rooms[key].append(new_room_id)
# Save back to user's m.direct account data
await self.account_data_handler.add_account_data_for_user(
user_id, AccountDataTypes.DIRECT, direct_rooms
)
break
# Copy room tags if applicable
room_tags = await self.store.get_tags_for_room(user_id, old_room_id)
# Copy each room tag to the new room
for tag, tag_content in room_tags.items():
await self.account_data_handler.add_tag_to_room(
user_id, new_room_id, tag, tag_content
)
async def update_membership(
self,
requester: Requester,
target: UserID,
room_id: str,
action: str,
txn_id: Optional[str] = None,
remote_room_hosts: Optional[List[str]] = None,
third_party_signed: Optional[dict] = None,
ratelimit: bool = True,
content: Optional[dict] = None,
new_room: bool = False,
require_consent: bool = True,
outlier: bool = False,
historical: bool = False,
allow_no_prev_events: bool = False,
prev_event_ids: Optional[List[str]] = None,
state_event_ids: Optional[List[str]] = None,
depth: Optional[int] = None,
origin_server_ts: Optional[int] = None,
) -> Tuple[str, int]:
"""Update a user's membership in a room.
Params:
requester: The user who is performing the update.
target: The user whose membership is being updated.
room_id: The room ID whose membership is being updated.
action: The membership change, see synapse.api.constants.Membership.
txn_id: The transaction ID, if given.
remote_room_hosts: Remote servers to send the update to.
third_party_signed: Information from a 3PID invite.
ratelimit: Whether to rate limit the request.
content: The content of the created event.
new_room: Whether the membership update is happening in the context of a room
creation.
require_consent: Whether consent is required.
outlier: Indicates whether the event is an `outlier`, i.e. if
it's from an arbitrary point and floating in the DAG as
opposed to being inline with the current DAG.
historical: Indicates whether the message is being inserted
back in time around some existing events. This is used to skip
a few checks and mark the event as backfilled.
allow_no_prev_events: Whether to allow this event to be created an empty
list of prev_events. Normally this is prohibited just because most
events should have a prev_event and we should only use this in special
cases like MSC2716.
prev_event_ids: The event IDs to use as the prev events
state_event_ids:
The full state at a given event. This is used particularly by the MSC2716
/batch_send endpoint. One use case is the historical `state_events_at_start`;
since each is marked as an `outlier`, the `EventContext.for_outlier()` won't
have any `state_ids` set and therefore can't derive any state even though the
prev_events are set so we need to set them ourself via this argument.
This should normally be left as None, which will cause the auth_event_ids
to be calculated based on the room state at the prev_events.
depth: Override the depth used to order the event in the DAG.
Should normally be set to None, which will cause the depth to be calculated
based on the prev_events.
origin_server_ts: The origin_server_ts to use if a new event is created. Uses
the current timestamp if set to None.
Returns:
A tuple of the new event ID and stream ID.
Raises:
ShadowBanError if a shadow-banned requester attempts to send an invite.
"""
if action == Membership.INVITE and requester.shadow_banned:
# We randomly sleep a bit just to annoy the requester.
await self.clock.sleep(random.randint(1, 10))
raise ShadowBanError()
key = (room_id,)
as_id = object()
if requester.app_service:
as_id = requester.app_service.id
# We first linearise by the application service (to try to limit concurrent joins
# by application services), and then by room ID.
async with self.member_as_limiter.queue(as_id):
async with self.member_linearizer.queue(key):
with opentracing.start_active_span("update_membership_locked"):
result = await self.update_membership_locked(
requester,
target,
room_id,
action,
txn_id=txn_id,
remote_room_hosts=remote_room_hosts,
third_party_signed=third_party_signed,
ratelimit=ratelimit,
content=content,
new_room=new_room,
require_consent=require_consent,
outlier=outlier,
historical=historical,
allow_no_prev_events=allow_no_prev_events,
prev_event_ids=prev_event_ids,
state_event_ids=state_event_ids,
depth=depth,
origin_server_ts=origin_server_ts,
)
return result
async def update_membership_locked(
self,
requester: Requester,
target: UserID,
room_id: str,
action: str,
txn_id: Optional[str] = None,
remote_room_hosts: Optional[List[str]] = None,
third_party_signed: Optional[dict] = None,
ratelimit: bool = True,
content: Optional[dict] = None,
new_room: bool = False,
require_consent: bool = True,
outlier: bool = False,
historical: bool = False,
allow_no_prev_events: bool = False,
prev_event_ids: Optional[List[str]] = None,
state_event_ids: Optional[List[str]] = None,
depth: Optional[int] = None,
origin_server_ts: Optional[int] = None,
) -> Tuple[str, int]:
"""Helper for update_membership.
Assumes that the membership linearizer is already held for the room.
Args:
requester:
target:
room_id:
action:
txn_id:
remote_room_hosts:
third_party_signed:
ratelimit:
content:
new_room: Whether the membership update is happening in the context of a room
creation.
require_consent:
outlier: Indicates whether the event is an `outlier`, i.e. if
it's from an arbitrary point and floating in the DAG as
opposed to being inline with the current DAG.
historical: Indicates whether the message is being inserted
back in time around some existing events. This is used to skip
a few checks and mark the event as backfilled.
allow_no_prev_events: Whether to allow this event to be created an empty
list of prev_events. Normally this is prohibited just because most
events should have a prev_event and we should only use this in special
cases like MSC2716.
prev_event_ids: The event IDs to use as the prev events
state_event_ids:
The full state at a given event. This is used particularly by the MSC2716
/batch_send endpoint. One use case is the historical `state_events_at_start`;
since each is marked as an `outlier`, the `EventContext.for_outlier()` won't
have any `state_ids` set and therefore can't derive any state even though the
prev_events are set so we need to set them ourself via this argument.
This should normally be left as None, which will cause the auth_event_ids
to be calculated based on the room state at the prev_events.
depth: Override the depth used to order the event in the DAG.
Should normally be set to None, which will cause the depth to be calculated
based on the prev_events.
origin_server_ts: The origin_server_ts to use if a new event is created. Uses
the current timestamp if set to None.
Returns:
A tuple of the new event ID and stream ID.
"""
content_specified = bool(content)
if content is None:
content = {}
else:
# We do a copy here as we potentially change some keys
# later on.
content = dict(content)
# allow the server notices mxid to set room-level profile
is_requester_server_notices_user = (
self._server_notices_mxid is not None
and requester.user.to_string() == self._server_notices_mxid
)
if (
not self.allow_per_room_profiles and not is_requester_server_notices_user
) or requester.shadow_banned:
# Strip profile data, knowing that new profile data will be added to the
# event's content in event_creation_handler.create_event() using the target's
# global profile.
content.pop("displayname", None)
content.pop("avatar_url", None)
if len(content.get("displayname") or "") > MAX_DISPLAYNAME_LEN:
raise SynapseError(
400,
f"Displayname is too long (max {MAX_DISPLAYNAME_LEN})",
errcode=Codes.BAD_JSON,
)
if len(content.get("avatar_url") or "") > MAX_AVATAR_URL_LEN:
raise SynapseError(
400,
f"Avatar URL is too long (max {MAX_AVATAR_URL_LEN})",
errcode=Codes.BAD_JSON,
)
if "avatar_url" in content and content.get("avatar_url") is not None:
if not await self.profile_handler.check_avatar_size_and_mime_type(
content["avatar_url"],
):
raise SynapseError(403, "This avatar is not allowed", Codes.FORBIDDEN)
# The event content should *not* include the authorising user as
# it won't be properly signed. Strip it out since it might come
# back from a client updating a display name / avatar.
#
# This only applies to restricted rooms, but there should be no reason
# for a client to include it. Unconditionally remove it.
content.pop(EventContentFields.AUTHORISING_USER, None)
effective_membership_state = action
if action in ["kick", "unban"]:
effective_membership_state = "leave"
# if this is a join with a 3pid signature, we may need to turn a 3pid
# invite into a normal invite before we can handle the join.
if third_party_signed is not None:
await self.federation_handler.exchange_third_party_invite(
third_party_signed["sender"],
target.to_string(),
room_id,
third_party_signed,
)
if not remote_room_hosts:
remote_room_hosts = []
if effective_membership_state not in ("leave", "ban"):
is_blocked = await self.store.is_room_blocked(room_id)
if is_blocked:
raise SynapseError(403, "This room has been blocked on this server")
if effective_membership_state == Membership.INVITE:
target_id = target.to_string()
if ratelimit:
await self.ratelimit_invite(requester, room_id, target_id)
# block any attempts to invite the server notices mxid
if target_id == self._server_notices_mxid:
raise SynapseError(HTTPStatus.FORBIDDEN, "Cannot invite this user")
block_invite_result = None
if (
self._server_notices_mxid is not None
and requester.user.to_string() == self._server_notices_mxid
):
# allow the server notices mxid to send invites
is_requester_admin = True
else:
is_requester_admin = await self.auth.is_server_admin(requester)
if not is_requester_admin:
if self.config.server.block_non_admin_invites:
logger.info(
"Blocking invite: user is not admin and non-admin "
"invites disabled"
)
block_invite_result = (Codes.FORBIDDEN, {})
spam_check = await self._spam_checker_module_callbacks.user_may_invite(
requester.user.to_string(), target_id, room_id
)
if spam_check != NOT_SPAM:
logger.info("Blocking invite due to spam checker")
block_invite_result = spam_check
if block_invite_result is not None:
raise SynapseError(
403,
"Invites have been disabled on this server",
errcode=block_invite_result[0],
additional_fields=block_invite_result[1],
)
# An empty prev_events list is allowed as long as the auth_event_ids are present
if prev_event_ids is not None:
return await self._local_membership_update(
requester=requester,
target=target,
room_id=room_id,
membership=effective_membership_state,
txn_id=txn_id,
ratelimit=ratelimit,
allow_no_prev_events=allow_no_prev_events,
prev_event_ids=prev_event_ids,
state_event_ids=state_event_ids,
depth=depth,
content=content,
require_consent=require_consent,
outlier=outlier,
historical=historical,
origin_server_ts=origin_server_ts,
)
latest_event_ids = await self.store.get_prev_events_for_room(room_id)
is_partial_state_room = await self.store.is_partial_state_room(room_id)
partial_state_before_join = await self.state_handler.compute_state_after_events(
room_id, latest_event_ids, await_full_state=False
)
# `is_partial_state_room` also indicates whether `partial_state_before_join` is
# partial.
is_host_in_room = await self._is_host_in_room(partial_state_before_join)
# if we are not in the room, we won't have the current state
if is_host_in_room:
# TODO: Refactor into dictionary of explicitly allowed transitions
# between old and new state, with specific error messages for some
# transitions and generic otherwise
old_state_id = partial_state_before_join.get(
(EventTypes.Member, target.to_string())
)
if old_state_id:
old_state = await self.store.get_event(old_state_id, allow_none=True)
old_membership = (
old_state.content.get("membership") if old_state else None
)
if action == "unban" and old_membership != "ban":
raise SynapseError(
403,
"Cannot unban user who was not banned"
" (membership=%s)" % old_membership,
errcode=Codes.BAD_STATE,
)
if old_membership == "ban" and action not in ["ban", "unban", "leave"]:
raise SynapseError(
403,
"Cannot %s user who was banned" % (action,),
errcode=Codes.BAD_STATE,
)
if old_state:
same_content = content == old_state.content
same_membership = old_membership == effective_membership_state
same_sender = requester.user.to_string() == old_state.sender
if same_sender and same_membership and same_content:
# duplicate event.
# we know it was persisted, so must have a stream ordering.
assert old_state.internal_metadata.stream_ordering
return (
old_state.event_id,
old_state.internal_metadata.stream_ordering,
)
if old_membership in ["ban", "leave"] and action == "kick":
raise AuthError(403, "The target user is not in the room")
# we don't allow people to reject invites to the server notice
# room, but they can leave it once they are joined.
if (
old_membership == Membership.INVITE
and effective_membership_state == Membership.LEAVE
):
is_blocked = await self.store.is_server_notice_room(room_id)
if is_blocked:
raise SynapseError(
HTTPStatus.FORBIDDEN,
"You cannot reject this invite",
errcode=Codes.CANNOT_LEAVE_SERVER_NOTICE_ROOM,
)
else:
if action == "kick":
raise AuthError(403, "The target user is not in the room")
if effective_membership_state == Membership.JOIN:
if requester.is_guest:
guest_can_join = await self._can_guest_join(partial_state_before_join)
if not guest_can_join:
# This should be an auth check, but guests are a local concept,
# so don't really fit into the general auth process.
raise AuthError(403, "Guest access not allowed")
# Figure out whether the user is a server admin to determine whether they
# should be able to bypass the spam checker.
if (
self._server_notices_mxid is not None
and requester.user.to_string() == self._server_notices_mxid
):
# allow the server notices mxid to join rooms
bypass_spam_checker = True
else:
bypass_spam_checker = await self.auth.is_server_admin(requester)
inviter = await self._get_inviter(target.to_string(), room_id)
if (
not bypass_spam_checker
# We assume that if the spam checker allowed the user to create
# a room then they're allowed to join it.
and not new_room
):
spam_check = (
await self._spam_checker_module_callbacks.user_may_join_room(
target.to_string(), room_id, is_invited=inviter is not None
)
)
if spam_check != NOT_SPAM:
raise SynapseError(
403,
"Not allowed to join this room",
errcode=spam_check[0],
additional_fields=spam_check[1],
)
# Check if a remote join should be performed.
remote_join, remote_room_hosts = await self._should_perform_remote_join(
target.to_string(),
room_id,
remote_room_hosts,
content,
is_partial_state_room,
is_host_in_room,
partial_state_before_join,
)
if remote_join:
if ratelimit:
await self._join_rate_limiter_remote.ratelimit(
requester,
)
await self._join_rate_per_room_limiter.ratelimit(
requester,
key=room_id,
update=False,
)
inviter = await self._get_inviter(target.to_string(), room_id)
if inviter and not self.hs.is_mine(inviter):
remote_room_hosts.append(inviter.domain)
content["membership"] = Membership.JOIN
try:
profile = self.profile_handler
if not content_specified:
content["displayname"] = await profile.get_displayname(target)
content["avatar_url"] = await profile.get_avatar_url(target)
except Exception as e:
logger.info(
"Failed to get profile information while processing remote join for %r: %s",
target,
e,
)
if requester.is_guest:
content["kind"] = "guest"
remote_join_response = await self._remote_join(
requester, remote_room_hosts, room_id, target, content
)
return remote_join_response
elif effective_membership_state == Membership.LEAVE:
if not is_host_in_room:
# Figure out the user's current membership state for the room
(
current_membership_type,
current_membership_event_id,
) = await self.store.get_local_current_membership_for_user_in_room(
target.to_string(), room_id
)
if not current_membership_type or not current_membership_event_id:
logger.info(
"%s sent a leave request to %s, but that is not an active room "
"on this server, or there is no pending invite or knock",
target,
room_id,
)
raise SynapseError(404, "Not a known room")
# perhaps we've been invited
if current_membership_type == Membership.INVITE:
invite = await self.store.get_event(current_membership_event_id)
logger.info(
"%s rejects invite to %s from %s",
target,
room_id,
invite.sender,
)
if not self.hs.is_mine_id(invite.sender):
# send the rejection to the inviter's HS (with fallback to
# local event)
return await self.remote_reject_invite(
invite.event_id,
txn_id,
requester,
content,
)
# the inviter was on our server, but has now left. Carry on
# with the normal rejection codepath, which will also send the
# rejection out to any other servers we believe are still in the room.
# thanks to overzealous cleaning up of event_forward_extremities in
# `delete_old_current_state_events`, it's possible to end up with no
# forward extremities here. If that happens, let's just hang the
# rejection off the invite event.
#
# see: https://github.com/matrix-org/synapse/issues/7139
if len(latest_event_ids) == 0:
latest_event_ids = [invite.event_id]
# or perhaps this is a remote room that a local user has knocked on
elif current_membership_type == Membership.KNOCK:
knock = await self.store.get_event(current_membership_event_id)
return await self.remote_rescind_knock(
knock.event_id, txn_id, requester, content
)
elif effective_membership_state == Membership.KNOCK:
if not is_host_in_room:
# The knock needs to be sent over federation instead
remote_room_hosts.append(get_domain_from_id(room_id))
content["membership"] = Membership.KNOCK
try:
profile = self.profile_handler
if "displayname" not in content:
content["displayname"] = await profile.get_displayname(target)
if "avatar_url" not in content:
content["avatar_url"] = await profile.get_avatar_url(target)
except Exception as e:
logger.info(
"Failed to get profile information while processing remote knock for %r: %s",
target,
e,
)
return await self.remote_knock(
requester, remote_room_hosts, room_id, target, content
)
return await self._local_membership_update(
requester=requester,
target=target,
room_id=room_id,
membership=effective_membership_state,
txn_id=txn_id,
ratelimit=ratelimit,
prev_event_ids=latest_event_ids,
state_event_ids=state_event_ids,
depth=depth,
content=content,
require_consent=require_consent,
outlier=outlier,
origin_server_ts=origin_server_ts,
)
async def _should_perform_remote_join(
self,
user_id: str,
room_id: str,
remote_room_hosts: List[str],
content: JsonDict,
is_partial_state_room: bool,
is_host_in_room: bool,
partial_state_before_join: StateMap[str],
) -> Tuple[bool, List[str]]:
"""
Check whether the server should do a remote join (as opposed to a local
join) for a user.
Generally a remote join is used if:
* The server is not yet in the room.
* The server is in the room, the room has restricted join rules, the user
is not joined or invited to the room, and the server does not have
another user who is capable of issuing invites.
Args:
user_id: The user joining the room.
room_id: The room being joined.
remote_room_hosts: A list of remote room hosts.
content: The content to use as the event body of the join. This may
be modified.
is_partial_state_room: `True` if the server currently doesn't hold the full
state of the room.
is_host_in_room: `True` if the host is in the room.
partial_state_before_join: The state before the join event (i.e. the
resolution of the states after its parent events). May be full or
partial state, depending on `is_partial_state_room`.
Returns:
A tuple of:
True if a remote join should be performed. False if the join can be
done locally.
A list of remote room hosts to use. This is an empty list if a
local join is to be done.
"""
# If the host isn't in the room, pass through the prospective hosts.
if not is_host_in_room:
return True, remote_room_hosts
prev_member_event_id = partial_state_before_join.get(
(EventTypes.Member, user_id), None
)
previous_membership = None
if prev_member_event_id:
prev_member_event = await self.store.get_event(prev_member_event_id)
previous_membership = prev_member_event.membership
# If we are not fully joined yet, and the target is not already in the room,
# let's do a remote join so another server with the full state can validate
# that the user has not been banned for example.
# We could just accept the join and wait for state res to resolve that later on
# but we would then leak room history to this person until then, which is pretty
# bad.
if is_partial_state_room and previous_membership != Membership.JOIN:
return True, remote_room_hosts
# If the host is in the room, but not one of the authorised hosts
# for restricted join rules, a remote join must be used.
room_version = await self.store.get_room_version(room_id)
# If restricted join rules are not being used, a local join can always
# be used.
if not await self.event_auth_handler.has_restricted_join_rules(
partial_state_before_join, room_version
):
return False, []
# If the user is invited to the room or already joined, the join
# event can always be issued locally.
if previous_membership in (Membership.JOIN, Membership.INVITE):
return False, []
# All the partial state cases are covered above. We have been given the full
# state of the room.
assert not is_partial_state_room
state_before_join = partial_state_before_join
# If the local host has a user who can issue invites, then a local
# join can be done.
#
# If not, generate a new list of remote hosts based on which
# can issue invites.
event_map = await self.store.get_events(state_before_join.values())
current_state = {
state_key: event_map[event_id]
for state_key, event_id in state_before_join.items()
}
allowed_servers = get_servers_from_users(
get_users_which_can_issue_invite(current_state)
)
# If the local server is not one of allowed servers, then a remote
# join must be done. Return the list of prospective servers based on
# which can issue invites.
if self.hs.hostname not in allowed_servers:
return True, list(allowed_servers)
# Ensure the member should be allowed access via membership in a room.
await self.event_auth_handler.check_restricted_join_rules(
state_before_join, room_version, user_id, previous_membership
)
# If this is going to be a local join, additional information must
# be included in the event content in order to efficiently validate
# the event.
content[
EventContentFields.AUTHORISING_USER
] = await self.event_auth_handler.get_user_which_could_invite(
room_id,
state_before_join,
)
return False, []
async def transfer_room_state_on_room_upgrade(
self, old_room_id: str, room_id: str
) -> None:
"""Upon our server becoming aware of an upgraded room, either by upgrading a room
ourselves or joining one, we can transfer over information from the previous room.
Copies user state (tags/push rules) for every local user that was in the old room, as
well as migrating the room directory state.
Args:
old_room_id: The ID of the old room
room_id: The ID of the new room
"""
logger.info("Transferring room state from %s to %s", old_room_id, room_id)
# Find all local users that were in the old room and copy over each user's state
local_users = await self.store.get_local_users_in_room(old_room_id)
await self.copy_user_state_on_room_upgrade(old_room_id, room_id, local_users)
# Add new room to the room directory if the old room was there
# Remove old room from the room directory
old_room = await self.store.get_room(old_room_id)
if old_room is not None and old_room["is_public"]:
await self.store.set_room_is_public(old_room_id, False)
await self.store.set_room_is_public(room_id, True)
# Transfer alias mappings in the room directory
await self.store.update_aliases_for_room(old_room_id, room_id)
async def copy_user_state_on_room_upgrade(
self, old_room_id: str, new_room_id: str, user_ids: Iterable[str]
) -> None:
"""Copy user-specific information when they join a new room when that new room is the
result of a room upgrade
Args:
old_room_id: The ID of upgraded room
new_room_id: The ID of the new room
user_ids: User IDs to copy state for
"""
logger.debug(
"Copying over room tags and push rules from %s to %s for users %s",
old_room_id,
new_room_id,
user_ids,
)
for user_id in user_ids:
try:
# It is an upgraded room. Copy over old tags
await self.copy_room_tags_and_direct_to_room(
old_room_id, new_room_id, user_id
)
# Copy over push rules
await self.store.copy_push_rules_from_room_to_room_for_user(
old_room_id, new_room_id, user_id
)
except Exception:
logger.exception(
"Error copying tags and/or push rules from rooms %s to %s for user %s. "
"Skipping...",
old_room_id,
new_room_id,
user_id,
)
continue
async def send_membership_event(
self,
requester: Optional[Requester],
event: EventBase,
context: EventContext,
ratelimit: bool = True,
) -> None:
"""
Change the membership status of a user in a room.
Args:
requester: The local user who requested the membership
event. If None, certain checks, like whether this homeserver can
act as the sender, will be skipped.
event: The membership event.
context: The context of the event.
ratelimit: Whether to rate limit this request.
Raises:
SynapseError if there was a problem changing the membership.
PartialStateConflictError: if attempting to persist a partial state event in
a room that has been un-partial stated.
"""
target_user = UserID.from_string(event.state_key)
room_id = event.room_id
if requester is not None:
sender = UserID.from_string(event.sender)
assert (
sender == requester.user
), "Sender (%s) must be same as requester (%s)" % (sender, requester.user)
assert self.hs.is_mine(sender), "Sender must be our own: %s" % (sender,)
else:
requester = types.create_requester(target_user)
prev_state_ids = await context.get_prev_state_ids(
StateFilter.from_types([(EventTypes.GuestAccess, None)])
)
if event.membership == Membership.JOIN:
if requester.is_guest:
guest_can_join = await self._can_guest_join(prev_state_ids)
if not guest_can_join:
# This should be an auth check, but guests are a local concept,
# so don't really fit into the general auth process.
raise AuthError(403, "Guest access not allowed")
if event.membership not in (Membership.LEAVE, Membership.BAN):
is_blocked = await self.store.is_room_blocked(room_id)
if is_blocked:
raise SynapseError(403, "This room has been blocked on this server")
event = await self.event_creation_handler.handle_new_client_event(
requester,
events_and_context=[(event, context)],
extra_users=[target_user],
ratelimit=ratelimit,
)
prev_member_event_id = prev_state_ids.get(
(EventTypes.Member, event.state_key), None
)
if event.membership == Membership.LEAVE:
if prev_member_event_id:
prev_member_event = await self.store.get_event(prev_member_event_id)
if prev_member_event.membership == Membership.JOIN:
await self._user_left_room(target_user, room_id)
async def _can_guest_join(self, partial_current_state_ids: StateMap[str]) -> bool:
"""
Returns whether a guest can join a room based on its current state.
Args:
partial_current_state_ids: The current state of the room. May be full or
partial state.
"""
guest_access_id = partial_current_state_ids.get(
(EventTypes.GuestAccess, ""), None
)
if not guest_access_id:
return False
guest_access = await self.store.get_event(guest_access_id)
return bool(
guest_access
and guest_access.content
and guest_access.content.get(EventContentFields.GUEST_ACCESS)
== GuestAccess.CAN_JOIN
)
async def kick_guest_users(self, current_state: Iterable[EventBase]) -> None:
"""Kick any local guest users from the room.
This is called when the room state changes from guests allowed to not-allowed.
Params:
current_state: the current state of the room. We will iterate this to look
for guest users to kick.
"""
for member_event in current_state:
try:
if member_event.type != EventTypes.Member:
continue
if not self.hs.is_mine_id(member_event.state_key):
continue
if member_event.content["membership"] not in {
Membership.JOIN,
Membership.INVITE,
}:
continue
if (
"kind" not in member_event.content
or member_event.content["kind"] != "guest"
):
continue
# We make the user choose to leave, rather than have the
# event-sender kick them. This is partially because we don't
# need to worry about power levels, and partially because guest
# users are a concept which doesn't hugely work over federation,
# and having homeservers have their own users leave keeps more
# of that decision-making and control local to the guest-having
# homeserver.
target_user = UserID.from_string(member_event.state_key)
requester = create_requester(
target_user, is_guest=True, authenticated_entity=self._server_name
)
handler = self.hs.get_room_member_handler()
await handler.update_membership(
requester,
target_user,
member_event.room_id,
"leave",
ratelimit=False,
require_consent=False,
)
except Exception as e:
logger.exception("Error kicking guest user: %s" % (e,))
async def lookup_room_alias(
self, room_alias: RoomAlias
) -> Tuple[RoomID, List[str]]:
"""
Get the room ID associated with a room alias.
Args:
room_alias: The alias to look up.
Returns:
A tuple of:
The room ID as a RoomID object.
Hosts likely to be participating in the room ([str]).
Raises:
SynapseError if room alias could not be found.
"""
directory_handler = self.directory_handler
mapping = await directory_handler.get_association(room_alias)
if not mapping:
raise SynapseError(404, "No such room alias")
room_id = mapping["room_id"]
servers = mapping["servers"]
# put the server which owns the alias at the front of the server list.
if room_alias.domain in servers:
servers.remove(room_alias.domain)
servers.insert(0, room_alias.domain)
return RoomID.from_string(room_id), servers
async def _get_inviter(self, user_id: str, room_id: str) -> Optional[UserID]:
invite = await self.store.get_invite_for_local_user_in_room(
user_id=user_id, room_id=room_id
)
if invite:
return UserID.from_string(invite.sender)
return None
async def do_3pid_invite(
self,
room_id: str,
inviter: UserID,
medium: str,
address: str,
id_server: str,
requester: Requester,
txn_id: Optional[str],
id_access_token: str,
prev_event_ids: Optional[List[str]] = None,
depth: Optional[int] = None,
) -> Tuple[str, int]:
"""Invite a 3PID to a room.
Args:
room_id: The room to invite the 3PID to.
inviter: The user sending the invite.
medium: The 3PID's medium.
address: The 3PID's address.
id_server: The identity server to use.
requester: The user making the request.
txn_id: The transaction ID this is part of, or None if this is not
part of a transaction.
id_access_token: Identity server access token.
depth: Override the depth used to order the event in the DAG.
prev_event_ids: The event IDs to use as the prev events
Should normally be set to None, which will cause the depth to be calculated
based on the prev_events.
Returns:
Tuple of event ID and stream ordering position
Raises:
ShadowBanError if the requester has been shadow-banned.
"""
if self.config.server.block_non_admin_invites:
is_requester_admin = await self.auth.is_server_admin(requester)
if not is_requester_admin:
raise SynapseError(
403, "Invites have been disabled on this server", Codes.FORBIDDEN
)
if requester.shadow_banned:
# We randomly sleep a bit just to annoy the requester.
await self.clock.sleep(random.randint(1, 10))
raise ShadowBanError()
# We need to rate limit *before* we send out any 3PID invites, so we
# can't just rely on the standard ratelimiting of events.
await self._third_party_invite_limiter.ratelimit(requester)
can_invite = await self.third_party_event_rules.check_threepid_can_be_invited(
medium, address, room_id
)
if not can_invite:
raise SynapseError(
403,
"This third-party identifier can not be invited in this room",
Codes.FORBIDDEN,
)
if not self._enable_lookup:
raise SynapseError(
403, "Looking up third-party identifiers is denied from this server"
)
invitee = await self.identity_handler.lookup_3pid(
id_server, medium, address, id_access_token
)
if invitee:
# Note that update_membership with an action of "invite" can raise
# a ShadowBanError, but this was done above already.
# We don't check the invite against the spamchecker(s) here (through
# user_may_invite) because we'll do it further down the line anyway (in
# update_membership_locked).
event_id, stream_id = await self.update_membership(
requester, UserID.from_string(invitee), room_id, "invite", txn_id=txn_id
)
else:
# Check if the spamchecker(s) allow this invite to go through.
spam_check = (
await self._spam_checker_module_callbacks.user_may_send_3pid_invite(
inviter_userid=requester.user.to_string(),
medium=medium,
address=address,
room_id=room_id,
)
)
if spam_check != NOT_SPAM:
raise SynapseError(
403,
"Cannot send threepid invite",
errcode=spam_check[0],
additional_fields=spam_check[1],
)
event, stream_id = await self._make_and_store_3pid_invite(
requester,
id_server,
medium,
address,
room_id,
inviter,
txn_id=txn_id,
id_access_token=id_access_token,
prev_event_ids=prev_event_ids,
depth=depth,
)
event_id = event.event_id
return event_id, stream_id
async def _make_and_store_3pid_invite(
self,
requester: Requester,
id_server: str,
medium: str,
address: str,
room_id: str,
user: UserID,
txn_id: Optional[str],
id_access_token: str,
prev_event_ids: Optional[List[str]] = None,
depth: Optional[int] = None,
) -> Tuple[EventBase, int]:
room_state = await self._storage_controllers.state.get_current_state(
room_id,
StateFilter.from_types(
[
(EventTypes.Member, user.to_string()),
(EventTypes.CanonicalAlias, ""),
(EventTypes.Name, ""),
(EventTypes.Create, ""),
(EventTypes.JoinRules, ""),
(EventTypes.RoomAvatar, ""),
]
),
)
inviter_display_name = ""
inviter_avatar_url = ""
member_event = room_state.get((EventTypes.Member, user.to_string()))
if member_event:
inviter_display_name = member_event.content.get("displayname", "")
inviter_avatar_url = member_event.content.get("avatar_url", "")
# if user has no display name, default to their MXID
if not inviter_display_name:
inviter_display_name = user.to_string()
canonical_room_alias = ""
canonical_alias_event = room_state.get((EventTypes.CanonicalAlias, ""))
if canonical_alias_event:
canonical_room_alias = canonical_alias_event.content.get("alias", "")
room_name = ""
room_name_event = room_state.get((EventTypes.Name, ""))
if room_name_event:
room_name = room_name_event.content.get("name", "")
room_type = None
room_create_event = room_state.get((EventTypes.Create, ""))
if room_create_event:
room_type = room_create_event.content.get(EventContentFields.ROOM_TYPE)
room_join_rules = ""
join_rules_event = room_state.get((EventTypes.JoinRules, ""))
if join_rules_event:
room_join_rules = join_rules_event.content.get("join_rule", "")
room_avatar_url = ""
room_avatar_event = room_state.get((EventTypes.RoomAvatar, ""))
if room_avatar_event:
room_avatar_url = room_avatar_event.content.get("url", "")
(
token,
public_keys,
fallback_public_key,
display_name,
) = await self.identity_handler.ask_id_server_for_third_party_invite(
requester=requester,
id_server=id_server,
medium=medium,
address=address,
room_id=room_id,
inviter_user_id=user.to_string(),
room_alias=canonical_room_alias,
room_avatar_url=room_avatar_url,
room_join_rules=room_join_rules,
room_name=room_name,
room_type=room_type,
inviter_display_name=inviter_display_name,
inviter_avatar_url=inviter_avatar_url,
id_access_token=id_access_token,
)
(
event,
stream_id,
) = await self.event_creation_handler.create_and_send_nonmember_event(
requester,
{
"type": EventTypes.ThirdPartyInvite,
"content": {
"display_name": display_name,
"public_keys": public_keys,
# For backwards compatibility:
"key_validity_url": fallback_public_key["key_validity_url"],
"public_key": fallback_public_key["public_key"],
},
"room_id": room_id,
"sender": user.to_string(),
"state_key": token,
},
ratelimit=False,
txn_id=txn_id,
prev_event_ids=prev_event_ids,
depth=depth,
)
return event, stream_id
async def _is_host_in_room(self, partial_current_state_ids: StateMap[str]) -> bool:
"""Returns whether the homeserver is in the room based on its current state.
Args:
partial_current_state_ids: The current state of the room. May be full or
partial state.
"""
# Have we just created the room, and is this about to be the very
# first member event?
create_event_id = partial_current_state_ids.get(("m.room.create", ""))
if len(partial_current_state_ids) == 1 and create_event_id:
# We can only get here if we're in the process of creating the room
return True
for etype, state_key in partial_current_state_ids:
if etype != EventTypes.Member or not self.hs.is_mine_id(state_key):
continue
event_id = partial_current_state_ids[(etype, state_key)]
event = await self.store.get_event(event_id, allow_none=True)
if not event:
continue
if event.membership == Membership.JOIN:
return True
return False
class RoomMemberMasterHandler(RoomMemberHandler):
def __init__(self, hs: "HomeServer"):
super().__init__(hs)
self.distributor = hs.get_distributor()
self.distributor.declare("user_left_room")
async def _is_remote_room_too_complex(
self, room_id: str, remote_room_hosts: List[str]
) -> Optional[bool]:
"""
Check if complexity of a remote room is too great.
Args:
room_id
remote_room_hosts
Returns: bool of whether the complexity is too great, or None
if unable to be fetched
"""
max_complexity = self.hs.config.server.limit_remote_rooms.complexity
complexity = await self.federation_handler.get_room_complexity(
remote_room_hosts, room_id
)
if complexity:
return complexity["v1"] > max_complexity
return None
async def _is_local_room_too_complex(self, room_id: str) -> bool:
"""
Check if the complexity of a local room is too great.
Args:
room_id: The room ID to check for complexity.
"""
max_complexity = self.hs.config.server.limit_remote_rooms.complexity
complexity = await self.store.get_room_complexity(room_id)
return complexity["v1"] > max_complexity
async def _remote_join(
self,
requester: Requester,
remote_room_hosts: List[str],
room_id: str,
user: UserID,
content: dict,
) -> Tuple[str, int]:
"""Implements RoomMemberHandler._remote_join"""
# filter ourselves out of remote_room_hosts: do_invite_join ignores it
# and if it is the only entry we'd like to return a 404 rather than a
# 500.
remote_room_hosts = [
host for host in remote_room_hosts if host != self.hs.hostname
]
if len(remote_room_hosts) == 0:
raise NoKnownServersError(
"Can't join remote room because no servers "
"that are in the room have been provided.",
)
check_complexity = self.hs.config.server.limit_remote_rooms.enabled
if (
check_complexity
and self.hs.config.server.limit_remote_rooms.admins_can_join
):
check_complexity = not await self.store.is_server_admin(user)
if check_complexity:
# Fetch the room complexity
too_complex = await self._is_remote_room_too_complex(
room_id, remote_room_hosts
)
if too_complex is True:
raise SynapseError(
code=400,
msg=self.hs.config.server.limit_remote_rooms.complexity_error,
errcode=Codes.RESOURCE_LIMIT_EXCEEDED,
)
# We don't do an auth check if we are doing an invite
# join dance for now, since we're kinda implicitly checking
# that we are allowed to join when we decide whether or not we
# need to do the invite/join dance.
event_id, stream_id = await self.federation_handler.do_invite_join(
remote_room_hosts, room_id, user.to_string(), content
)
# Check the room we just joined wasn't too large, if we didn't fetch the
# complexity of it before.
if check_complexity:
if too_complex is False:
# We checked, and we're under the limit.
return event_id, stream_id
# Check again, but with the local state events
too_complex = await self._is_local_room_too_complex(room_id)
if too_complex is False:
# We're under the limit.
return event_id, stream_id
# The room is too large. Leave.
requester = types.create_requester(
user, authenticated_entity=self._server_name
)
await self.update_membership(
requester=requester, target=user, room_id=room_id, action="leave"
)
raise SynapseError(
code=400,
msg=self.hs.config.server.limit_remote_rooms.complexity_error,
errcode=Codes.RESOURCE_LIMIT_EXCEEDED,
)
return event_id, stream_id
async def remote_reject_invite(
self,
invite_event_id: str,
txn_id: Optional[str],
requester: Requester,
content: JsonDict,
) -> Tuple[str, int]:
"""
Rejects an out-of-band invite received from a remote user
Implements RoomMemberHandler.remote_reject_invite
"""
invite_event = await self.store.get_event(invite_event_id)
room_id = invite_event.room_id
target_user = invite_event.state_key
# first of all, try doing a rejection via the inviting server
fed_handler = self.federation_handler
try:
inviter_id = UserID.from_string(invite_event.sender)
event, stream_id = await fed_handler.do_remotely_reject_invite(
[inviter_id.domain], room_id, target_user, content=content
)
return event.event_id, stream_id
except Exception as e:
# if we were unable to reject the invite, we will generate our own
# leave event.
#
# The 'except' clause is very broad, but we need to
# capture everything from DNS failures upwards
#
logger.warning("Failed to reject invite: %s", e)
return await self._generate_local_out_of_band_leave(
invite_event, txn_id, requester, content
)
async def remote_rescind_knock(
self,
knock_event_id: str,
txn_id: Optional[str],
requester: Requester,
content: JsonDict,
) -> Tuple[str, int]:
"""
Rescinds a local knock made on a remote room
Args:
knock_event_id: The ID of the knock event to rescind.
txn_id: The transaction ID to use.
requester: The originator of the request.
content: The content of the leave event.
Implements RoomMemberHandler.remote_rescind_knock
"""
# TODO: We don't yet support rescinding knocks over federation
# as we don't know which homeserver to send it to. An obvious
# candidate is the remote homeserver we originally knocked through,
# however we don't currently store that information.
# Just rescind the knock locally
knock_event = await self.store.get_event(knock_event_id)
return await self._generate_local_out_of_band_leave(
knock_event, txn_id, requester, content
)
async def _generate_local_out_of_band_leave(
self,
previous_membership_event: EventBase,
txn_id: Optional[str],
requester: Requester,
content: JsonDict,
) -> Tuple[str, int]:
"""Generate a local leave event for a room
This can be called after we e.g fail to reject an invite via a remote server.
It generates an out-of-band membership event locally.
Args:
previous_membership_event: the previous membership event for this user
txn_id: optional transaction ID supplied by the client
requester: user making the request, according to the access token
content: additional content to include in the leave event.
Normally an empty dict.
Returns:
A tuple containing (event_id, stream_id of the leave event)
"""
room_id = previous_membership_event.room_id
target_user = previous_membership_event.state_key
content["membership"] = Membership.LEAVE
event_dict = {
"type": EventTypes.Member,
"room_id": room_id,
"sender": target_user,
"content": content,
"state_key": target_user,
}
# the auth events for the new event are the same as that of the previous event, plus
# the event itself.
#
# the prev_events consist solely of the previous membership event.
prev_event_ids = [previous_membership_event.event_id]
auth_event_ids = (
list(previous_membership_event.auth_event_ids()) + prev_event_ids
)
# Try several times, it could fail with PartialStateConflictError
# in handle_new_client_event, cf comment in except block.
max_retries = 5
for i in range(max_retries):
try:
(
event,
unpersisted_context,
) = await self.event_creation_handler.create_event(
requester,
event_dict,
txn_id=txn_id,
prev_event_ids=prev_event_ids,
auth_event_ids=auth_event_ids,
outlier=True,
)
context = await unpersisted_context.persist(event)
event.internal_metadata.out_of_band_membership = True
result_event = (
await self.event_creation_handler.handle_new_client_event(
requester,
events_and_context=[(event, context)],
extra_users=[UserID.from_string(target_user)],
)
)
break
except PartialStateConflictError as e:
# Persisting couldn't happen because the room got un-partial stated
# in the meantime and context needs to be recomputed, so let's do so.
if i == max_retries - 1:
raise e
pass
# we know it was persisted, so must have a stream ordering
assert result_event.internal_metadata.stream_ordering
return result_event.event_id, result_event.internal_metadata.stream_ordering
async def remote_knock(
self,
requester: Requester,
remote_room_hosts: List[str],
room_id: str,
user: UserID,
content: dict,
) -> Tuple[str, int]:
"""Sends a knock to a room. Attempts to do so via one remote out of a given list.
Args:
remote_room_hosts: A list of homeservers to try knocking through.
room_id: The ID of the room to knock on.
user: The user to knock on behalf of.
content: The content of the knock event.
Returns:
A tuple of (event ID, stream ID).
"""
# filter ourselves out of remote_room_hosts
remote_room_hosts = [
host for host in remote_room_hosts if host != self.hs.hostname
]
if len(remote_room_hosts) == 0:
raise NoKnownServersError()
return await self.federation_handler.do_knock(
remote_room_hosts, room_id, user.to_string(), content=content
)
async def _user_left_room(self, target: UserID, room_id: str) -> None:
"""Implements RoomMemberHandler._user_left_room"""
user_left_room(self.distributor, target, room_id)
class RoomForgetterHandler(StateDeltasHandler):
"""Forgets rooms when they are left, when enabled in the homeserver config.
For the purposes of this feature, kicks, bans and "leaves" via state resolution
weirdness are all considered to be leaves.
Derived from `StatsHandler` and `UserDirectoryHandler`.
"""
def __init__(self, hs: "HomeServer"):
super().__init__(hs)
self._hs = hs
self._store = hs.get_datastores().main
self._storage_controllers = hs.get_storage_controllers()
self._clock = hs.get_clock()
self._notifier = hs.get_notifier()
self._room_member_handler = hs.get_room_member_handler()
# The current position in the current_state_delta stream
self.pos: Optional[int] = None
# Guard to ensure we only process deltas one at a time
self._is_processing = False
if hs.config.worker.run_background_tasks:
self._notifier.add_replication_callback(self.notify_new_event)
# We kick this off to pick up outstanding work from before the last restart.
self._clock.call_later(0, self.notify_new_event)
def notify_new_event(self) -> None:
"""Called when there may be more deltas to process"""
if self._is_processing:
return
self._is_processing = True
async def process() -> None:
try:
await self._unsafe_process()
finally:
self._is_processing = False
run_as_background_process("room_forgetter.notify_new_event", process)
async def _unsafe_process(self) -> None:
# If self.pos is None then means we haven't fetched it from DB
if self.pos is None:
self.pos = await self._store.get_room_forgetter_stream_pos()
room_max_stream_ordering = self._store.get_room_max_stream_ordering()
if self.pos > room_max_stream_ordering:
# apparently, we've processed more events than exist in the database!
# this can happen if events are removed with history purge or similar.
logger.warning(
"Event stream ordering appears to have gone backwards (%i -> %i): "
"rewinding room forgetter processor",
self.pos,
room_max_stream_ordering,
)
self.pos = room_max_stream_ordering
if not self._hs.config.room.forget_on_leave:
# Update the processing position, so that if the server admin turns the
# feature on at a later date, we don't decide to forget every room that
# has ever been left in the past.
self.pos = self._store.get_room_max_stream_ordering()
await self._store.update_room_forgetter_stream_pos(self.pos)
return
# Loop round handling deltas until we're up to date
while True:
# Be sure to read the max stream_ordering *before* checking if there are any outstanding
# deltas, since there is otherwise a chance that we could miss updates which arrive
# after we check the deltas.
room_max_stream_ordering = self._store.get_room_max_stream_ordering()
if self.pos == room_max_stream_ordering:
break
logger.debug(
"Processing room forgetting %s->%s", self.pos, room_max_stream_ordering
)
(
max_pos,
deltas,
) = await self._storage_controllers.state.get_current_state_deltas(
self.pos, room_max_stream_ordering
)
logger.debug("Handling %d state deltas", len(deltas))
await self._handle_deltas(deltas)
self.pos = max_pos
# Expose current event processing position to prometheus
event_processing_positions.labels("room_forgetter").set(max_pos)
await self._store.update_room_forgetter_stream_pos(max_pos)
async def _handle_deltas(self, deltas: List[Dict[str, Any]]) -> None:
"""Called with the state deltas to process"""
for delta in deltas:
typ = delta["type"]
state_key = delta["state_key"]
room_id = delta["room_id"]
event_id = delta["event_id"]
prev_event_id = delta["prev_event_id"]
if typ != EventTypes.Member:
continue
if not self._hs.is_mine_id(state_key):
continue
change = await self._get_key_change(
prev_event_id,
event_id,
key_name="membership",
public_value=Membership.JOIN,
)
is_leave = change is MatchChange.now_false
if is_leave:
try:
await self._room_member_handler.forget(
UserID.from_string(state_key), room_id
)
except SynapseError as e:
if e.code == 400:
# The user is back in the room.
pass
else:
raise
def get_users_which_can_issue_invite(auth_events: StateMap[EventBase]) -> List[str]:
"""
Return the list of users which can issue invites.
This is done by exploring the joined users and comparing their power levels
to the necessyar power level to issue an invite.
Args:
auth_events: state in force at this point in the room
Returns:
The users which can issue invites.
"""
invite_level = get_named_level(auth_events, "invite", 0)
users_default_level = get_named_level(auth_events, "users_default", 0)
power_level_event = get_power_level_event(auth_events)
# Custom power-levels for users.
if power_level_event:
users = power_level_event.content.get("users", {})
else:
users = {}
result = []
# Check which members are able to invite by ensuring they're joined and have
# the necessary power level.
for (event_type, state_key), event in auth_events.items():
if event_type != EventTypes.Member:
continue
if event.membership != Membership.JOIN:
continue
# Check if the user has a custom power level.
if users.get(state_key, users_default_level) >= invite_level:
result.append(state_key)
return result
def get_servers_from_users(users: List[str]) -> Set[str]:
"""
Resolve a list of users into their servers.
Args:
users: A list of users.
Returns:
A set of servers.
"""
servers = set()
for user in users:
try:
servers.add(get_domain_from_id(user))
except SynapseError:
pass
return servers
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