forked-synapse/synapse/handlers/room_summary.py

1172 lines
44 KiB
Python
Raw Blame History

This file contains ambiguous Unicode characters

This file contains Unicode characters that might be confused with other characters. If you think that this is intentional, you can safely ignore this warning. Use the Escape button to reveal them.

# Copyright 2021 The Matrix.org Foundation C.I.C.
#
# Licensed under the Apache License, Version 2.0 (the "License");
# you may not use this file except in compliance with the License.
# You may obtain a copy of the License at
#
# http://www.apache.org/licenses/LICENSE-2.0
#
# Unless required by applicable law or agreed to in writing, software
# distributed under the License is distributed on an "AS IS" BASIS,
# WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
# See the License for the specific language governing permissions and
# limitations under the License.
import itertools
import logging
import re
from collections import deque
from typing import TYPE_CHECKING, Dict, Iterable, List, Optional, Sequence, Set, Tuple
import attr
from synapse.api.constants import (
EventContentFields,
EventTypes,
HistoryVisibility,
JoinRules,
Membership,
RoomTypes,
)
from synapse.api.errors import AuthError, Codes, NotFoundError, SynapseError
from synapse.events import EventBase
from synapse.events.utils import format_event_for_client_v2
from synapse.types import JsonDict
from synapse.util.caches.response_cache import ResponseCache
from synapse.util.stringutils import random_string
if TYPE_CHECKING:
from synapse.server import HomeServer
logger = logging.getLogger(__name__)
# number of rooms to return. We'll stop once we hit this limit.
MAX_ROOMS = 50
# max number of events to return per room.
MAX_ROOMS_PER_SPACE = 50
# max number of federation servers to hit per room
MAX_SERVERS_PER_SPACE = 3
@attr.s(slots=True, frozen=True, auto_attribs=True)
class _PaginationKey:
"""The key used to find unique pagination session."""
# The first three entries match the request parameters (and cannot change
# during a pagination session).
room_id: str
suggested_only: bool
max_depth: Optional[int]
# The randomly generated token.
token: str
@attr.s(slots=True, frozen=True, auto_attribs=True)
class _PaginationSession:
"""The information that is stored for pagination."""
# The time the pagination session was created, in milliseconds.
creation_time_ms: int
# The queue of rooms which are still to process.
room_queue: List["_RoomQueueEntry"]
# A set of rooms which have been processed.
processed_rooms: Set[str]
class RoomSummaryHandler:
# The time a pagination session remains valid for.
_PAGINATION_SESSION_VALIDITY_PERIOD_MS = 5 * 60 * 1000
def __init__(self, hs: "HomeServer"):
self._clock = hs.get_clock()
self._event_auth_handler = hs.get_event_auth_handler()
self._store = hs.get_datastore()
self._event_serializer = hs.get_event_client_serializer()
self._server_name = hs.hostname
self._federation_client = hs.get_federation_client()
# A map of query information to the current pagination state.
#
# TODO Allow for multiple workers to share this data.
# TODO Expire pagination tokens.
self._pagination_sessions: Dict[_PaginationKey, _PaginationSession] = {}
# If a user tries to fetch the same page multiple times in quick succession,
# only process the first attempt and return its result to subsequent requests.
self._pagination_response_cache: ResponseCache[
Tuple[str, bool, Optional[int], Optional[int], Optional[str]]
] = ResponseCache(
hs.get_clock(),
"get_room_hierarchy",
)
def _expire_pagination_sessions(self):
"""Expire pagination session which are old."""
expire_before = (
self._clock.time_msec() - self._PAGINATION_SESSION_VALIDITY_PERIOD_MS
)
to_expire = []
for key, value in self._pagination_sessions.items():
if value.creation_time_ms < expire_before:
to_expire.append(key)
for key in to_expire:
logger.debug("Expiring pagination session id %s", key)
del self._pagination_sessions[key]
async def get_space_summary(
self,
requester: str,
room_id: str,
suggested_only: bool = False,
max_rooms_per_space: Optional[int] = None,
) -> JsonDict:
"""
Implementation of the space summary C-S API
Args:
requester: user id of the user making this request
room_id: room id to start the summary at
suggested_only: whether we should only return children with the "suggested"
flag set.
max_rooms_per_space: an optional limit on the number of child rooms we will
return. This does not apply to the root room (ie, room_id), and
is overridden by MAX_ROOMS_PER_SPACE.
Returns:
summary dict to return
"""
# First of all, check that the room is accessible.
if not await self._is_local_room_accessible(room_id, requester):
raise AuthError(
403,
"User %s not in room %s, and room previews are disabled"
% (requester, room_id),
)
# the queue of rooms to process
room_queue = deque((_RoomQueueEntry(room_id, ()),))
# rooms we have already processed
processed_rooms: Set[str] = set()
# events we have already processed. We don't necessarily have their event ids,
# so instead we key on (room id, state key)
processed_events: Set[Tuple[str, str]] = set()
rooms_result: List[JsonDict] = []
events_result: List[JsonDict] = []
while room_queue and len(rooms_result) < MAX_ROOMS:
queue_entry = room_queue.popleft()
room_id = queue_entry.room_id
if room_id in processed_rooms:
# already done this room
continue
logger.debug("Processing room %s", room_id)
is_in_room = await self._store.is_host_joined(room_id, self._server_name)
# The client-specified max_rooms_per_space limit doesn't apply to the
# room_id specified in the request, so we ignore it if this is the
# first room we are processing.
max_children = max_rooms_per_space if processed_rooms else None
if is_in_room:
room_entry = await self._summarize_local_room(
requester, None, room_id, suggested_only, max_children
)
events: Sequence[JsonDict] = []
if room_entry:
rooms_result.append(room_entry.room)
events = room_entry.children_state_events
logger.debug(
"Query of local room %s returned events %s",
room_id,
["%s->%s" % (ev["room_id"], ev["state_key"]) for ev in events],
)
else:
fed_rooms = await self._summarize_remote_room(
queue_entry,
suggested_only,
max_children,
exclude_rooms=processed_rooms,
)
# The results over federation might include rooms that the we,
# as the requesting server, are allowed to see, but the requesting
# user is not permitted see.
#
# Filter the returned results to only what is accessible to the user.
events = []
for room_entry in fed_rooms:
room = room_entry.room
fed_room_id = room_entry.room_id
# The user can see the room, include it!
if await self._is_remote_room_accessible(
requester, fed_room_id, room
):
# Before returning to the client, remove the allowed_room_ids
# and allowed_spaces keys.
room.pop("allowed_room_ids", None)
room.pop("allowed_spaces", None)
rooms_result.append(room)
events.extend(room_entry.children_state_events)
# All rooms returned don't need visiting again (even if the user
# didn't have access to them).
processed_rooms.add(fed_room_id)
logger.debug(
"Query of %s returned rooms %s, events %s",
room_id,
[room_entry.room.get("room_id") for room_entry in fed_rooms],
["%s->%s" % (ev["room_id"], ev["state_key"]) for ev in events],
)
# the room we queried may or may not have been returned, but don't process
# it again, anyway.
processed_rooms.add(room_id)
# XXX: is it ok that we blindly iterate through any events returned by
# a remote server, whether or not they actually link to any rooms in our
# tree?
for ev in events:
# remote servers might return events we have already processed
# (eg, Dendrite returns inward pointers as well as outward ones), so
# we need to filter them out, to avoid returning duplicate links to the
# client.
ev_key = (ev["room_id"], ev["state_key"])
if ev_key in processed_events:
continue
events_result.append(ev)
# add the child to the queue. we have already validated
# that the vias are a list of server names.
room_queue.append(
_RoomQueueEntry(ev["state_key"], ev["content"]["via"])
)
processed_events.add(ev_key)
return {"rooms": rooms_result, "events": events_result}
async def get_room_hierarchy(
self,
requester: str,
requested_room_id: str,
suggested_only: bool = False,
max_depth: Optional[int] = None,
limit: Optional[int] = None,
from_token: Optional[str] = None,
) -> JsonDict:
"""
Implementation of the room hierarchy C-S API.
Args:
requester: The user ID of the user making this request.
requested_room_id: The room ID to start the hierarchy at (the "root" room).
suggested_only: Whether we should only return children with the "suggested"
flag set.
max_depth: The maximum depth in the tree to explore, must be a
non-negative integer.
0 would correspond to just the root room, 1 would include just
the root room's children, etc.
limit: An optional limit on the number of rooms to return per
page. Must be a positive integer.
from_token: An optional pagination token.
Returns:
The JSON hierarchy dictionary.
"""
# If a user tries to fetch the same page multiple times in quick succession,
# only process the first attempt and return its result to subsequent requests.
#
# This is due to the pagination process mutating internal state, attempting
# to process multiple requests for the same page will result in errors.
return await self._pagination_response_cache.wrap(
(requested_room_id, suggested_only, max_depth, limit, from_token),
self._get_room_hierarchy,
requester,
requested_room_id,
suggested_only,
max_depth,
limit,
from_token,
)
async def _get_room_hierarchy(
self,
requester: str,
requested_room_id: str,
suggested_only: bool = False,
max_depth: Optional[int] = None,
limit: Optional[int] = None,
from_token: Optional[str] = None,
) -> JsonDict:
"""See docstring for SpaceSummaryHandler.get_room_hierarchy."""
# First of all, check that the room is accessible.
if not await self._is_local_room_accessible(requested_room_id, requester):
raise AuthError(
403,
"User %s not in room %s, and room previews are disabled"
% (requester, requested_room_id),
)
# If this is continuing a previous session, pull the persisted data.
if from_token:
self._expire_pagination_sessions()
pagination_key = _PaginationKey(
requested_room_id, suggested_only, max_depth, from_token
)
if pagination_key not in self._pagination_sessions:
raise SynapseError(400, "Unknown pagination token", Codes.INVALID_PARAM)
# Load the previous state.
pagination_session = self._pagination_sessions[pagination_key]
room_queue = pagination_session.room_queue
processed_rooms = pagination_session.processed_rooms
else:
# The queue of rooms to process, the next room is last on the stack.
room_queue = [_RoomQueueEntry(requested_room_id, ())]
# Rooms we have already processed.
processed_rooms = set()
rooms_result: List[JsonDict] = []
# Cap the limit to a server-side maximum.
if limit is None:
limit = MAX_ROOMS
else:
limit = min(limit, MAX_ROOMS)
# Iterate through the queue until we reach the limit or run out of
# rooms to include.
while room_queue and len(rooms_result) < limit:
queue_entry = room_queue.pop()
room_id = queue_entry.room_id
current_depth = queue_entry.depth
if room_id in processed_rooms:
# already done this room
continue
logger.debug("Processing room %s", room_id)
# A map of summaries for children rooms that might be returned over
# federation. The rationale for caching these and *maybe* using them
# is to prefer any information local to the homeserver before trusting
# data received over federation.
children_room_entries: Dict[str, JsonDict] = {}
# A set of room IDs which are children that did not have information
# returned over federation and are known to be inaccessible to the
# current server. We should not reach out over federation to try to
# summarise these rooms.
inaccessible_children: Set[str] = set()
# If the room is known locally, summarise it!
is_in_room = await self._store.is_host_joined(room_id, self._server_name)
if is_in_room:
room_entry = await self._summarize_local_room(
requester,
None,
room_id,
suggested_only,
# TODO Handle max children.
max_children=None,
)
# Otherwise, attempt to use information for federation.
else:
# A previous call might have included information for this room.
# It can be used if either:
#
# 1. The room is not a space.
# 2. The maximum depth has been achieved (since no children
# information is needed).
if queue_entry.remote_room and (
queue_entry.remote_room.get("room_type") != RoomTypes.SPACE
or (max_depth is not None and current_depth >= max_depth)
):
room_entry = _RoomEntry(
queue_entry.room_id, queue_entry.remote_room
)
# If the above isn't true, attempt to fetch the room
# information over federation.
else:
(
room_entry,
children_room_entries,
inaccessible_children,
) = await self._summarize_remote_room_hierarchy(
queue_entry,
suggested_only,
)
# Ensure this room is accessible to the requester (and not just
# the homeserver).
if room_entry and not await self._is_remote_room_accessible(
requester, queue_entry.room_id, room_entry.room
):
room_entry = None
# This room has been processed and should be ignored if it appears
# elsewhere in the hierarchy.
processed_rooms.add(room_id)
# There may or may not be a room entry based on whether it is
# inaccessible to the requesting user.
if room_entry:
# Add the room (including the stripped m.space.child events).
rooms_result.append(room_entry.as_json())
# If this room is not at the max-depth, check if there are any
# children to process.
if max_depth is None or current_depth < max_depth:
# The children get added in reverse order so that the next
# room to process, according to the ordering, is the last
# item in the list.
room_queue.extend(
_RoomQueueEntry(
ev["state_key"],
ev["content"]["via"],
current_depth + 1,
children_room_entries.get(ev["state_key"]),
)
for ev in reversed(room_entry.children_state_events)
if ev["type"] == EventTypes.SpaceChild
and ev["state_key"] not in inaccessible_children
)
result: JsonDict = {"rooms": rooms_result}
# If there's additional data, generate a pagination token (and persist state).
if room_queue:
next_batch = random_string(24)
result["next_batch"] = next_batch
pagination_key = _PaginationKey(
requested_room_id, suggested_only, max_depth, next_batch
)
self._pagination_sessions[pagination_key] = _PaginationSession(
self._clock.time_msec(), room_queue, processed_rooms
)
return result
async def federation_space_summary(
self,
origin: str,
room_id: str,
suggested_only: bool,
max_rooms_per_space: Optional[int],
exclude_rooms: Iterable[str],
) -> JsonDict:
"""
Implementation of the space summary Federation API
Args:
origin: The server requesting the spaces summary.
room_id: room id to start the summary at
suggested_only: whether we should only return children with the "suggested"
flag set.
max_rooms_per_space: an optional limit on the number of child rooms we will
return. Unlike the C-S API, this applies to the root room (room_id).
It is clipped to MAX_ROOMS_PER_SPACE.
exclude_rooms: a list of rooms to skip over (presumably because the
calling server has already seen them).
Returns:
summary dict to return
"""
# the queue of rooms to process
room_queue = deque((room_id,))
# the set of rooms that we should not walk further. Initialise it with the
# excluded-rooms list; we will add other rooms as we process them so that
# we do not loop.
processed_rooms: Set[str] = set(exclude_rooms)
rooms_result: List[JsonDict] = []
events_result: List[JsonDict] = []
while room_queue and len(rooms_result) < MAX_ROOMS:
room_id = room_queue.popleft()
if room_id in processed_rooms:
# already done this room
continue
room_entry = await self._summarize_local_room(
None, origin, room_id, suggested_only, max_rooms_per_space
)
processed_rooms.add(room_id)
if room_entry:
rooms_result.append(room_entry.room)
events_result.extend(room_entry.children_state_events)
# add any children to the queue
room_queue.extend(
edge_event["state_key"]
for edge_event in room_entry.children_state_events
)
return {"rooms": rooms_result, "events": events_result}
async def get_federation_hierarchy(
self,
origin: str,
requested_room_id: str,
suggested_only: bool,
):
"""
Implementation of the room hierarchy Federation API.
This is similar to get_room_hierarchy, but does not recurse into the space.
It also considers whether anyone on the server may be able to access the
room, as opposed to whether a specific user can.
Args:
origin: The server requesting the spaces summary.
requested_room_id: The room ID to start the hierarchy at (the "root" room).
suggested_only: whether we should only return children with the "suggested"
flag set.
Returns:
The JSON hierarchy dictionary.
"""
root_room_entry = await self._summarize_local_room(
None, origin, requested_room_id, suggested_only, max_children=None
)
if root_room_entry is None:
# Room is inaccessible to the requesting server.
raise SynapseError(404, "Unknown room: %s" % (requested_room_id,))
children_rooms_result: List[JsonDict] = []
inaccessible_children: List[str] = []
# Iterate through each child and potentially add it, but not its children,
# to the response.
for child_room in root_room_entry.children_state_events:
room_id = child_room.get("state_key")
assert isinstance(room_id, str)
# If the room is unknown, skip it.
if not await self._store.is_host_joined(room_id, self._server_name):
continue
room_entry = await self._summarize_local_room(
None, origin, room_id, suggested_only, max_children=0
)
# If the room is accessible, include it in the results.
#
# Note that only the room summary (without information on children)
# is included in the summary.
if room_entry:
children_rooms_result.append(room_entry.room)
# Otherwise, note that the requesting server shouldn't bother
# trying to summarize this room - they do not have access to it.
else:
inaccessible_children.append(room_id)
return {
# Include the requested room (including the stripped children events).
"room": root_room_entry.as_json(),
"children": children_rooms_result,
"inaccessible_children": inaccessible_children,
}
async def _summarize_local_room(
self,
requester: Optional[str],
origin: Optional[str],
room_id: str,
suggested_only: bool,
max_children: Optional[int],
) -> Optional["_RoomEntry"]:
"""
Generate a room entry and a list of event entries for a given room.
Args:
requester:
The user requesting the summary, if it is a local request. None
if this is a federation request.
origin:
The server requesting the summary, if it is a federation request.
None if this is a local request.
room_id: The room ID to summarize.
suggested_only: True if only suggested children should be returned.
Otherwise, all children are returned.
max_children:
The maximum number of children rooms to include. This is capped
to a server-set limit.
Returns:
A room entry if the room should be returned. None, otherwise.
"""
if not await self._is_local_room_accessible(room_id, requester, origin):
return None
room_entry = await self._build_room_entry(room_id, for_federation=bool(origin))
# If the room is not a space or the children don't matter, return just
# the room information.
if room_entry.get("room_type") != RoomTypes.SPACE or max_children == 0:
return _RoomEntry(room_id, room_entry)
# Otherwise, look for child rooms/spaces.
child_events = await self._get_child_events(room_id)
if suggested_only:
# we only care about suggested children
child_events = filter(_is_suggested_child_event, child_events)
if max_children is None or max_children > MAX_ROOMS_PER_SPACE:
max_children = MAX_ROOMS_PER_SPACE
now = self._clock.time_msec()
events_result: List[JsonDict] = []
for edge_event in itertools.islice(child_events, max_children):
events_result.append(
await self._event_serializer.serialize_event(
edge_event,
time_now=now,
event_format=format_event_for_client_v2,
)
)
return _RoomEntry(room_id, room_entry, events_result)
async def _summarize_remote_room(
self,
room: "_RoomQueueEntry",
suggested_only: bool,
max_children: Optional[int],
exclude_rooms: Iterable[str],
) -> Iterable["_RoomEntry"]:
"""
Request room entries and a list of event entries for a given room by querying a remote server.
Args:
room: The room to summarize.
suggested_only: True if only suggested children should be returned.
Otherwise, all children are returned.
max_children:
The maximum number of children rooms to include. This is capped
to a server-set limit.
exclude_rooms:
Rooms IDs which do not need to be summarized.
Returns:
An iterable of room entries.
"""
room_id = room.room_id
logger.info("Requesting summary for %s via %s", room_id, room.via)
# we need to make the exclusion list json-serialisable
exclude_rooms = list(exclude_rooms)
via = itertools.islice(room.via, MAX_SERVERS_PER_SPACE)
try:
res = await self._federation_client.get_space_summary(
via,
room_id,
suggested_only=suggested_only,
max_rooms_per_space=max_children,
exclude_rooms=exclude_rooms,
)
except Exception as e:
logger.warning(
"Unable to get summary of %s via federation: %s",
room_id,
e,
exc_info=logger.isEnabledFor(logging.DEBUG),
)
return ()
# Group the events by their room.
children_by_room: Dict[str, List[JsonDict]] = {}
for ev in res.events:
if ev.event_type == EventTypes.SpaceChild:
children_by_room.setdefault(ev.room_id, []).append(ev.data)
# Generate the final results.
results = []
for fed_room in res.rooms:
fed_room_id = fed_room.get("room_id")
if not fed_room_id or not isinstance(fed_room_id, str):
continue
results.append(
_RoomEntry(
fed_room_id,
fed_room,
children_by_room.get(fed_room_id, []),
)
)
return results
async def _summarize_remote_room_hierarchy(
self, room: "_RoomQueueEntry", suggested_only: bool
) -> Tuple[Optional["_RoomEntry"], Dict[str, JsonDict], Set[str]]:
"""
Request room entries and a list of event entries for a given room by querying a remote server.
Args:
room: The room to summarize.
suggested_only: True if only suggested children should be returned.
Otherwise, all children are returned.
Returns:
A tuple of:
The room entry.
Partial room data return over federation.
A set of inaccessible children room IDs.
"""
room_id = room.room_id
logger.info("Requesting summary for %s via %s", room_id, room.via)
via = itertools.islice(room.via, MAX_SERVERS_PER_SPACE)
try:
(
room_response,
children,
inaccessible_children,
) = await self._federation_client.get_room_hierarchy(
via,
room_id,
suggested_only=suggested_only,
)
except Exception as e:
logger.warning(
"Unable to get hierarchy of %s via federation: %s",
room_id,
e,
exc_info=logger.isEnabledFor(logging.DEBUG),
)
return None, {}, set()
# Map the children to their room ID.
children_by_room_id = {
c["room_id"]: c
for c in children
if "room_id" in c and isinstance(c["room_id"], str)
}
return (
_RoomEntry(room_id, room_response, room_response.pop("children_state", ())),
children_by_room_id,
set(inaccessible_children),
)
async def _is_local_room_accessible(
self, room_id: str, requester: Optional[str], origin: Optional[str] = None
) -> bool:
"""
Calculate whether the room should be shown to the requester.
It should return true if:
* The requester is joined or can join the room (per MSC3173).
* The origin server has any user that is joined or can join the room.
* The history visibility is set to world readable.
Args:
room_id: The room ID to check accessibility of.
requester:
The user making the request, if it is a local request.
None if this is a federation request.
origin:
The server making the request, if it is a federation request.
None if this is a local request.
Returns:
True if the room is accessible to the requesting user or server.
"""
state_ids = await self._store.get_current_state_ids(room_id)
# If there's no state for the room, it isn't known.
if not state_ids:
# The user might have a pending invite for the room.
if requester and await self._store.get_invite_for_local_user_in_room(
requester, room_id
):
return True
logger.info("room %s is unknown, omitting from summary", room_id)
return False
room_version = await self._store.get_room_version(room_id)
# Include the room if it has join rules of public or knock.
join_rules_event_id = state_ids.get((EventTypes.JoinRules, ""))
if join_rules_event_id:
join_rules_event = await self._store.get_event(join_rules_event_id)
join_rule = join_rules_event.content.get("join_rule")
if join_rule == JoinRules.PUBLIC or (
room_version.msc2403_knocking and join_rule == JoinRules.KNOCK
):
return True
# Include the room if it is peekable.
hist_vis_event_id = state_ids.get((EventTypes.RoomHistoryVisibility, ""))
if hist_vis_event_id:
hist_vis_ev = await self._store.get_event(hist_vis_event_id)
hist_vis = hist_vis_ev.content.get("history_visibility")
if hist_vis == HistoryVisibility.WORLD_READABLE:
return True
# Otherwise we need to check information specific to the user or server.
# If we have an authenticated requesting user, check if they are a member
# of the room (or can join the room).
if requester:
member_event_id = state_ids.get((EventTypes.Member, requester), None)
# If they're in the room they can see info on it.
if member_event_id:
member_event = await self._store.get_event(member_event_id)
if member_event.membership in (Membership.JOIN, Membership.INVITE):
return True
# Otherwise, check if they should be allowed access via membership in a space.
if await self._event_auth_handler.has_restricted_join_rules(
state_ids, room_version
):
allowed_rooms = (
await self._event_auth_handler.get_rooms_that_allow_join(state_ids)
)
if await self._event_auth_handler.is_user_in_rooms(
allowed_rooms, requester
):
return True
# If this is a request over federation, check if the host is in the room or
# has a user who could join the room.
elif origin:
if await self._event_auth_handler.check_host_in_room(
room_id, origin
) or await self._store.is_host_invited(room_id, origin):
return True
# Alternately, if the host has a user in any of the spaces specified
# for access, then the host can see this room (and should do filtering
# if the requester cannot see it).
if await self._event_auth_handler.has_restricted_join_rules(
state_ids, room_version
):
allowed_rooms = (
await self._event_auth_handler.get_rooms_that_allow_join(state_ids)
)
for space_id in allowed_rooms:
if await self._event_auth_handler.check_host_in_room(
space_id, origin
):
return True
logger.info(
"room %s is unpeekable and requester %s is not a member / not allowed to join, omitting from summary",
room_id,
requester or origin,
)
return False
async def _is_remote_room_accessible(
self, requester: str, room_id: str, room: JsonDict
) -> bool:
"""
Calculate whether the room received over federation should be shown to the requester.
It should return true if:
* The requester is joined or can join the room (per MSC3173).
* The history visibility is set to world readable.
Note that the local server is not in the requested room (which is why the
remote call was made in the first place), but the user could have access
due to an invite, etc.
Args:
requester: The user requesting the summary.
room_id: The room ID returned over federation.
room: The summary of the room returned over federation.
Returns:
True if the room is accessible to the requesting user.
"""
# The API doesn't return the room version so assume that a
# join rule of knock is valid.
if (
room.get("join_rules") in (JoinRules.PUBLIC, JoinRules.KNOCK)
or room.get("world_readable") is True
):
return True
# Check if the user is a member of any of the allowed spaces
# from the response.
allowed_rooms = room.get("allowed_room_ids") or room.get("allowed_spaces")
if allowed_rooms and isinstance(allowed_rooms, list):
if await self._event_auth_handler.is_user_in_rooms(
allowed_rooms, requester
):
return True
# Finally, check locally if we can access the room. The user might
# already be in the room (if it was a child room), or there might be a
# pending invite, etc.
return await self._is_local_room_accessible(room_id, requester)
async def _build_room_entry(self, room_id: str, for_federation: bool) -> JsonDict:
"""
Generate en entry summarising a single room.
Args:
room_id: The room ID to summarize.
for_federation: True if this is a summary requested over federation
(which includes additional fields).
Returns:
The JSON dictionary for the room.
"""
stats = await self._store.get_room_with_stats(room_id)
# currently this should be impossible because we call
# _is_local_room_accessible on the room before we get here, so
# there should always be an entry
assert stats is not None, "unable to retrieve stats for %s" % (room_id,)
current_state_ids = await self._store.get_current_state_ids(room_id)
create_event = await self._store.get_event(
current_state_ids[(EventTypes.Create, "")]
)
entry = {
"room_id": stats["room_id"],
"name": stats["name"],
"topic": stats["topic"],
"canonical_alias": stats["canonical_alias"],
"num_joined_members": stats["joined_members"],
"avatar_url": stats["avatar"],
"join_rules": stats["join_rules"],
"world_readable": (
stats["history_visibility"] == HistoryVisibility.WORLD_READABLE
),
"guest_can_join": stats["guest_access"] == "can_join",
"creation_ts": create_event.origin_server_ts,
"room_type": create_event.content.get(EventContentFields.ROOM_TYPE),
}
# Federation requests need to provide additional information so the
# requested server is able to filter the response appropriately.
if for_federation:
room_version = await self._store.get_room_version(room_id)
if await self._event_auth_handler.has_restricted_join_rules(
current_state_ids, room_version
):
allowed_rooms = (
await self._event_auth_handler.get_rooms_that_allow_join(
current_state_ids
)
)
if allowed_rooms:
entry["allowed_room_ids"] = allowed_rooms
# TODO Remove this key once the API is stable.
entry["allowed_spaces"] = allowed_rooms
# Filter out Nones rather omit the field altogether
room_entry = {k: v for k, v in entry.items() if v is not None}
return room_entry
async def _get_child_events(self, room_id: str) -> Iterable[EventBase]:
"""
Get the child events for a given room.
The returned results are sorted for stability.
Args:
room_id: The room id to get the children of.
Returns:
An iterable of sorted child events.
"""
# look for child rooms/spaces.
current_state_ids = await self._store.get_current_state_ids(room_id)
events = await self._store.get_events_as_list(
[
event_id
for key, event_id in current_state_ids.items()
if key[0] == EventTypes.SpaceChild
]
)
# filter out any events without a "via" (which implies it has been redacted),
# and order to ensure we return stable results.
return sorted(filter(_has_valid_via, events), key=_child_events_comparison_key)
async def get_room_summary(
self,
requester: Optional[str],
room_id: str,
remote_room_hosts: Optional[List[str]] = None,
) -> JsonDict:
"""
Implementation of the room summary C-S API from MSC3266
Args:
requester: user id of the user making this request, will be None
for unauthenticated requests
room_id: room id to summarise.
remote_room_hosts: a list of homeservers to try fetching data through
if we don't know it ourselves
Returns:
summary dict to return
"""
is_in_room = await self._store.is_host_joined(room_id, self._server_name)
if is_in_room:
room_entry = await self._summarize_local_room(
requester,
None,
room_id,
# Suggested-only doesn't matter since no children are requested.
suggested_only=False,
max_children=0,
)
if not room_entry:
raise NotFoundError("Room not found or is not accessible")
room_summary = room_entry.room
# If there was a requester, add their membership.
if requester:
(
membership,
_,
) = await self._store.get_local_current_membership_for_user_in_room(
requester, room_id
)
room_summary["membership"] = membership or "leave"
else:
# TODO federation API, descoped from initial unstable implementation
# as MSC needs more maturing on that side.
raise SynapseError(400, "Federation is not currently supported.")
return room_summary
@attr.s(frozen=True, slots=True, auto_attribs=True)
class _RoomQueueEntry:
# The room ID of this entry.
room_id: str
# The server to query if the room is not known locally.
via: Sequence[str]
# The minimum number of hops necessary to get to this room (compared to the
# originally requested room).
depth: int = 0
# The room summary for this room returned via federation. This will only be
# used if the room is not known locally (and is not a space).
remote_room: Optional[JsonDict] = None
@attr.s(frozen=True, slots=True, auto_attribs=True)
class _RoomEntry:
room_id: str
# The room summary for this room.
room: JsonDict
# An iterable of the sorted, stripped children events for children of this room.
#
# This may not include all children.
children_state_events: Sequence[JsonDict] = ()
def as_json(self) -> JsonDict:
"""
Returns a JSON dictionary suitable for the room hierarchy endpoint.
It returns the room summary including the stripped m.space.child events
as a sub-key.
"""
result = dict(self.room)
result["children_state"] = self.children_state_events
return result
def _has_valid_via(e: EventBase) -> bool:
via = e.content.get("via")
if not via or not isinstance(via, Sequence):
return False
for v in via:
if not isinstance(v, str):
logger.debug("Ignoring edge event %s with invalid via entry", e.event_id)
return False
return True
def _is_suggested_child_event(edge_event: EventBase) -> bool:
suggested = edge_event.content.get("suggested")
if isinstance(suggested, bool) and suggested:
return True
logger.debug("Ignorning not-suggested child %s", edge_event.state_key)
return False
# Order may only contain characters in the range of \x20 (space) to \x7E (~) inclusive.
_INVALID_ORDER_CHARS_RE = re.compile(r"[^\x20-\x7E]")
def _child_events_comparison_key(child: EventBase) -> Tuple[bool, Optional[str], str]:
"""
Generate a value for comparing two child events for ordering.
The rules for ordering are supposed to be:
1. The 'order' key, if it is valid.
2. The 'origin_server_ts' of the 'm.room.create' event.
3. The 'room_id'.
But we skip step 2 since we may not have any state from the room.
Args:
child: The event for generating a comparison key.
Returns:
The comparison key as a tuple of:
False if the ordering is valid.
The ordering field.
The room ID.
"""
order = child.content.get("order")
# If order is not a string or doesn't meet the requirements, ignore it.
if not isinstance(order, str):
order = None
elif len(order) > 50 or _INVALID_ORDER_CHARS_RE.search(order):
order = None
# Items without an order come last.
return (order is None, order, child.room_id)