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synapse/tests/handlers/test_room_summary.py
Patrick Cloke 8e57584a58
Support spaces with > 50 rooms in the /hierarchy endpoint. (#11695)
By returning all of the m.space.child state of the space, not just
the first 50. The number of rooms returned is still capped at 50.

For the federation API this implies that the requesting server will
need to individually query for any other rooms it is not joined to.
2022-01-07 19:27:58 -05:00

1115 lines
40 KiB
Python

# 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.
from typing import Any, Iterable, List, Optional, Tuple
from unittest import mock
from twisted.internet.defer import ensureDeferred
from synapse.api.constants import (
EventContentFields,
EventTypes,
HistoryVisibility,
JoinRules,
Membership,
RestrictedJoinRuleTypes,
RoomTypes,
)
from synapse.api.errors import AuthError, NotFoundError, SynapseError
from synapse.api.room_versions import RoomVersions
from synapse.events import make_event_from_dict
from synapse.handlers.room_summary import _child_events_comparison_key, _RoomEntry
from synapse.rest import admin
from synapse.rest.client import login, room
from synapse.server import HomeServer
from synapse.types import JsonDict, UserID, create_requester
from tests import unittest
def _create_event(room_id: str, order: Optional[Any] = None, origin_server_ts: int = 0):
result = mock.Mock(name=room_id)
result.room_id = room_id
result.content = {}
result.origin_server_ts = origin_server_ts
if order is not None:
result.content["order"] = order
return result
def _order(*events):
return sorted(events, key=_child_events_comparison_key)
class TestSpaceSummarySort(unittest.TestCase):
def test_no_order_last(self):
"""An event with no ordering is placed behind those with an ordering."""
ev1 = _create_event("!abc:test")
ev2 = _create_event("!xyz:test", "xyz")
self.assertEqual([ev2, ev1], _order(ev1, ev2))
def test_order(self):
"""The ordering should be used."""
ev1 = _create_event("!abc:test", "xyz")
ev2 = _create_event("!xyz:test", "abc")
self.assertEqual([ev2, ev1], _order(ev1, ev2))
def test_order_origin_server_ts(self):
"""Origin server is a tie-breaker for ordering."""
ev1 = _create_event("!abc:test", origin_server_ts=10)
ev2 = _create_event("!xyz:test", origin_server_ts=30)
self.assertEqual([ev1, ev2], _order(ev1, ev2))
def test_order_room_id(self):
"""Room ID is a final tie-breaker for ordering."""
ev1 = _create_event("!abc:test")
ev2 = _create_event("!xyz:test")
self.assertEqual([ev1, ev2], _order(ev1, ev2))
def test_invalid_ordering_type(self):
"""Invalid orderings are considered the same as missing."""
ev1 = _create_event("!abc:test", 1)
ev2 = _create_event("!xyz:test", "xyz")
self.assertEqual([ev2, ev1], _order(ev1, ev2))
ev1 = _create_event("!abc:test", {})
self.assertEqual([ev2, ev1], _order(ev1, ev2))
ev1 = _create_event("!abc:test", [])
self.assertEqual([ev2, ev1], _order(ev1, ev2))
ev1 = _create_event("!abc:test", True)
self.assertEqual([ev2, ev1], _order(ev1, ev2))
def test_invalid_ordering_value(self):
"""Invalid orderings are considered the same as missing."""
ev1 = _create_event("!abc:test", "foo\n")
ev2 = _create_event("!xyz:test", "xyz")
self.assertEqual([ev2, ev1], _order(ev1, ev2))
ev1 = _create_event("!abc:test", "a" * 51)
self.assertEqual([ev2, ev1], _order(ev1, ev2))
class SpaceSummaryTestCase(unittest.HomeserverTestCase):
servlets = [
admin.register_servlets_for_client_rest_resource,
room.register_servlets,
login.register_servlets,
]
def prepare(self, reactor, clock, hs: HomeServer):
self.hs = hs
self.handler = self.hs.get_room_summary_handler()
# Create a user.
self.user = self.register_user("user", "pass")
self.token = self.login("user", "pass")
# Create a space and a child room.
self.space = self.helper.create_room_as(
self.user,
tok=self.token,
extra_content={
"creation_content": {EventContentFields.ROOM_TYPE: RoomTypes.SPACE}
},
)
self.room = self.helper.create_room_as(self.user, tok=self.token)
self._add_child(self.space, self.room, self.token)
def _add_child(
self, space_id: str, room_id: str, token: str, order: Optional[str] = None
) -> None:
"""Add a child room to a space."""
content: JsonDict = {"via": [self.hs.hostname]}
if order is not None:
content["order"] = order
self.helper.send_state(
space_id,
event_type=EventTypes.SpaceChild,
body=content,
tok=token,
state_key=room_id,
)
def _assert_rooms(
self, result: JsonDict, rooms_and_children: Iterable[Tuple[str, Iterable[str]]]
) -> None:
"""
Assert that the expected room IDs and events are in the response.
Args:
result: The result from the API call.
rooms_and_children: An iterable of tuples where each tuple is:
The expected room ID.
The expected IDs of any children rooms.
"""
room_ids = []
children_ids = []
for room_id, children in rooms_and_children:
room_ids.append(room_id)
if children:
children_ids.extend([(room_id, child_id) for child_id in children])
self.assertCountEqual(
[room.get("room_id") for room in result["rooms"]], room_ids
)
self.assertCountEqual(
[
(event.get("room_id"), event.get("state_key"))
for event in result["events"]
],
children_ids,
)
def _assert_hierarchy(
self, result: JsonDict, rooms_and_children: Iterable[Tuple[str, Iterable[str]]]
) -> None:
"""
Assert that the expected room IDs are in the response.
Args:
result: The result from the API call.
rooms_and_children: An iterable of tuples where each tuple is:
The expected room ID.
The expected IDs of any children rooms.
"""
result_room_ids = []
result_children_ids = []
for result_room in result["rooms"]:
result_room_ids.append(result_room["room_id"])
result_children_ids.append(
[
(cs["room_id"], cs["state_key"])
for cs in result_room.get("children_state")
]
)
room_ids = []
children_ids = []
for room_id, children in rooms_and_children:
room_ids.append(room_id)
children_ids.append([(room_id, child_id) for child_id in children])
# Note that order matters.
self.assertEqual(result_room_ids, room_ids)
self.assertEqual(result_children_ids, children_ids)
def _poke_fed_invite(self, room_id: str, from_user: str) -> None:
"""
Creates a invite (as if received over federation) for the room from the
given hostname.
Args:
room_id: The room ID to issue an invite for.
fed_hostname: The user to invite from.
"""
# Poke an invite over federation into the database.
fed_handler = self.hs.get_federation_handler()
fed_hostname = UserID.from_string(from_user).domain
event = make_event_from_dict(
{
"room_id": room_id,
"event_id": "!abcd:" + fed_hostname,
"type": EventTypes.Member,
"sender": from_user,
"state_key": self.user,
"content": {"membership": Membership.INVITE},
"prev_events": [],
"auth_events": [],
"depth": 1,
"origin_server_ts": 1234,
}
)
self.get_success(
fed_handler.on_invite_request(fed_hostname, event, RoomVersions.V6)
)
def test_simple_space(self):
"""Test a simple space with a single room."""
result = self.get_success(self.handler.get_space_summary(self.user, self.space))
# The result should have the space and the room in it, along with a link
# from space -> room.
expected = [(self.space, [self.room]), (self.room, ())]
self._assert_rooms(result, expected)
result = self.get_success(
self.handler.get_room_hierarchy(create_requester(self.user), self.space)
)
self._assert_hierarchy(result, expected)
def test_large_space(self):
"""Test a space with a large number of rooms."""
rooms = [self.room]
# Make at least 51 rooms that are part of the space.
for _ in range(55):
room = self.helper.create_room_as(self.user, tok=self.token)
self._add_child(self.space, room, self.token)
rooms.append(room)
result = self.get_success(self.handler.get_space_summary(self.user, self.space))
# The spaces result should have the space and the first 50 rooms in it,
# along with the links from space -> room for those 50 rooms.
expected = [(self.space, rooms[:50])] + [(room, []) for room in rooms[:49]]
self._assert_rooms(result, expected)
# The result should have the space and the rooms in it, along with the links
# from space -> room.
expected = [(self.space, rooms)] + [(room, []) for room in rooms]
# Make two requests to fully paginate the results.
result = self.get_success(
self.handler.get_room_hierarchy(create_requester(self.user), self.space)
)
result2 = self.get_success(
self.handler.get_room_hierarchy(
create_requester(self.user), self.space, from_token=result["next_batch"]
)
)
# Combine the results.
result["rooms"] += result2["rooms"]
self._assert_hierarchy(result, expected)
def test_visibility(self):
"""A user not in a space cannot inspect it."""
user2 = self.register_user("user2", "pass")
token2 = self.login("user2", "pass")
# The user can see the space since it is publicly joinable.
result = self.get_success(self.handler.get_space_summary(user2, self.space))
expected = [(self.space, [self.room]), (self.room, ())]
self._assert_rooms(result, expected)
result = self.get_success(
self.handler.get_room_hierarchy(create_requester(user2), self.space)
)
self._assert_hierarchy(result, expected)
# If the space is made invite-only, it should no longer be viewable.
self.helper.send_state(
self.space,
event_type=EventTypes.JoinRules,
body={"join_rule": JoinRules.INVITE},
tok=self.token,
)
self.get_failure(self.handler.get_space_summary(user2, self.space), AuthError)
self.get_failure(
self.handler.get_room_hierarchy(create_requester(user2), self.space),
AuthError,
)
# If the space is made world-readable it should return a result.
self.helper.send_state(
self.space,
event_type=EventTypes.RoomHistoryVisibility,
body={"history_visibility": HistoryVisibility.WORLD_READABLE},
tok=self.token,
)
result = self.get_success(self.handler.get_space_summary(user2, self.space))
self._assert_rooms(result, expected)
result = self.get_success(
self.handler.get_room_hierarchy(create_requester(user2), self.space)
)
self._assert_hierarchy(result, expected)
# Make it not world-readable again and confirm it results in an error.
self.helper.send_state(
self.space,
event_type=EventTypes.RoomHistoryVisibility,
body={"history_visibility": HistoryVisibility.JOINED},
tok=self.token,
)
self.get_failure(self.handler.get_space_summary(user2, self.space), AuthError)
self.get_failure(
self.handler.get_room_hierarchy(create_requester(user2), self.space),
AuthError,
)
# Join the space and results should be returned.
self.helper.invite(self.space, targ=user2, tok=self.token)
self.helper.join(self.space, user2, tok=token2)
result = self.get_success(self.handler.get_space_summary(user2, self.space))
self._assert_rooms(result, expected)
result = self.get_success(
self.handler.get_room_hierarchy(create_requester(user2), self.space)
)
self._assert_hierarchy(result, expected)
# Attempting to view an unknown room returns the same error.
self.get_failure(
self.handler.get_space_summary(user2, "#not-a-space:" + self.hs.hostname),
AuthError,
)
self.get_failure(
self.handler.get_room_hierarchy(
create_requester(user2), "#not-a-space:" + self.hs.hostname
),
AuthError,
)
def test_room_hierarchy_cache(self) -> None:
"""In-flight room hierarchy requests are deduplicated."""
# Run two `get_room_hierarchy` calls up until they block.
deferred1 = ensureDeferred(
self.handler.get_room_hierarchy(create_requester(self.user), self.space)
)
deferred2 = ensureDeferred(
self.handler.get_room_hierarchy(create_requester(self.user), self.space)
)
# Complete the two calls.
result1 = self.get_success(deferred1)
result2 = self.get_success(deferred2)
# Both `get_room_hierarchy` calls should return the same result.
expected = [(self.space, [self.room]), (self.room, ())]
self._assert_hierarchy(result1, expected)
self._assert_hierarchy(result2, expected)
self.assertIs(result1, result2)
# A subsequent `get_room_hierarchy` call should not reuse the result.
result3 = self.get_success(
self.handler.get_room_hierarchy(create_requester(self.user), self.space)
)
self._assert_hierarchy(result3, expected)
self.assertIsNot(result1, result3)
def test_room_hierarchy_cache_sharing(self) -> None:
"""Room hierarchy responses for different users are not shared."""
user2 = self.register_user("user2", "pass")
# Make the room within the space invite-only.
self.helper.send_state(
self.room,
event_type=EventTypes.JoinRules,
body={"join_rule": JoinRules.INVITE},
tok=self.token,
)
# Run two `get_room_hierarchy` calls for different users up until they block.
deferred1 = ensureDeferred(
self.handler.get_room_hierarchy(create_requester(self.user), self.space)
)
deferred2 = ensureDeferred(
self.handler.get_room_hierarchy(create_requester(user2), self.space)
)
# Complete the two calls.
result1 = self.get_success(deferred1)
result2 = self.get_success(deferred2)
# The `get_room_hierarchy` calls should return different results.
self._assert_hierarchy(result1, [(self.space, [self.room]), (self.room, ())])
self._assert_hierarchy(result2, [(self.space, [self.room])])
def _create_room_with_join_rule(
self, join_rule: str, room_version: Optional[str] = None, **extra_content
) -> str:
"""Create a room with the given join rule and add it to the space."""
room_id = self.helper.create_room_as(
self.user,
room_version=room_version,
tok=self.token,
extra_content={
"initial_state": [
{
"type": EventTypes.JoinRules,
"state_key": "",
"content": {
"join_rule": join_rule,
**extra_content,
},
}
]
},
)
self._add_child(self.space, room_id, self.token)
return room_id
def test_filtering(self):
"""
Rooms should be properly filtered to only include rooms the user has access to.
"""
user2 = self.register_user("user2", "pass")
token2 = self.login("user2", "pass")
# Create a few rooms which will have different properties.
public_room = self._create_room_with_join_rule(JoinRules.PUBLIC)
knock_room = self._create_room_with_join_rule(
JoinRules.KNOCK, room_version=RoomVersions.V7.identifier
)
not_invited_room = self._create_room_with_join_rule(JoinRules.INVITE)
invited_room = self._create_room_with_join_rule(JoinRules.INVITE)
self.helper.invite(invited_room, targ=user2, tok=self.token)
restricted_room = self._create_room_with_join_rule(
JoinRules.RESTRICTED,
room_version=RoomVersions.V8.identifier,
allow=[],
)
restricted_accessible_room = self._create_room_with_join_rule(
JoinRules.RESTRICTED,
room_version=RoomVersions.V8.identifier,
allow=[
{
"type": RestrictedJoinRuleTypes.ROOM_MEMBERSHIP,
"room_id": self.space,
"via": [self.hs.hostname],
}
],
)
world_readable_room = self._create_room_with_join_rule(JoinRules.INVITE)
self.helper.send_state(
world_readable_room,
event_type=EventTypes.RoomHistoryVisibility,
body={"history_visibility": HistoryVisibility.WORLD_READABLE},
tok=self.token,
)
joined_room = self._create_room_with_join_rule(JoinRules.INVITE)
self.helper.invite(joined_room, targ=user2, tok=self.token)
self.helper.join(joined_room, user2, tok=token2)
# Join the space.
self.helper.join(self.space, user2, tok=token2)
result = self.get_success(self.handler.get_space_summary(user2, self.space))
expected = [
(
self.space,
[
self.room,
public_room,
knock_room,
not_invited_room,
invited_room,
restricted_room,
restricted_accessible_room,
world_readable_room,
joined_room,
],
),
(self.room, ()),
(public_room, ()),
(knock_room, ()),
(invited_room, ()),
(restricted_accessible_room, ()),
(world_readable_room, ()),
(joined_room, ()),
]
self._assert_rooms(result, expected)
result = self.get_success(
self.handler.get_room_hierarchy(create_requester(user2), self.space)
)
self._assert_hierarchy(result, expected)
def test_complex_space(self):
"""
Create a "complex" space to see how it handles things like loops and subspaces.
"""
# Create an inaccessible room.
user2 = self.register_user("user2", "pass")
token2 = self.login("user2", "pass")
room2 = self.helper.create_room_as(user2, is_public=False, tok=token2)
# This is a bit odd as "user" is adding a room they don't know about, but
# it works for the tests.
self._add_child(self.space, room2, self.token)
# Create a subspace under the space with an additional room in it.
subspace = self.helper.create_room_as(
self.user,
tok=self.token,
extra_content={
"creation_content": {EventContentFields.ROOM_TYPE: RoomTypes.SPACE}
},
)
subroom = self.helper.create_room_as(self.user, tok=self.token)
self._add_child(self.space, subspace, token=self.token)
self._add_child(subspace, subroom, token=self.token)
# Also add the two rooms from the space into this subspace (causing loops).
self._add_child(subspace, self.room, token=self.token)
self._add_child(subspace, room2, self.token)
result = self.get_success(self.handler.get_space_summary(self.user, self.space))
# The result should include each room a single time and each link.
expected = [
(self.space, [self.room, room2, subspace]),
(self.room, ()),
(subspace, [subroom, self.room, room2]),
(subroom, ()),
]
self._assert_rooms(result, expected)
result = self.get_success(
self.handler.get_room_hierarchy(create_requester(self.user), self.space)
)
self._assert_hierarchy(result, expected)
def test_pagination(self):
"""Test simple pagination works."""
room_ids = []
for i in range(1, 10):
room = self.helper.create_room_as(self.user, tok=self.token)
self._add_child(self.space, room, self.token, order=str(i))
room_ids.append(room)
# The room created initially doesn't have an order, so comes last.
room_ids.append(self.room)
result = self.get_success(
self.handler.get_room_hierarchy(
create_requester(self.user), self.space, limit=7
)
)
# The result should have the space and all of the links, plus some of the
# rooms and a pagination token.
expected: List[Tuple[str, Iterable[str]]] = [(self.space, room_ids)]
expected += [(room_id, ()) for room_id in room_ids[:6]]
self._assert_hierarchy(result, expected)
self.assertIn("next_batch", result)
# Check the next page.
result = self.get_success(
self.handler.get_room_hierarchy(
create_requester(self.user),
self.space,
limit=5,
from_token=result["next_batch"],
)
)
# The result should have the space and the room in it, along with a link
# from space -> room.
expected = [(room_id, ()) for room_id in room_ids[6:]]
self._assert_hierarchy(result, expected)
self.assertNotIn("next_batch", result)
def test_invalid_pagination_token(self):
"""An invalid pagination token, or changing other parameters, shoudl be rejected."""
room_ids = []
for i in range(1, 10):
room = self.helper.create_room_as(self.user, tok=self.token)
self._add_child(self.space, room, self.token, order=str(i))
room_ids.append(room)
# The room created initially doesn't have an order, so comes last.
room_ids.append(self.room)
result = self.get_success(
self.handler.get_room_hierarchy(
create_requester(self.user), self.space, limit=7
)
)
self.assertIn("next_batch", result)
# Changing the room ID, suggested-only, or max-depth causes an error.
self.get_failure(
self.handler.get_room_hierarchy(
create_requester(self.user), self.room, from_token=result["next_batch"]
),
SynapseError,
)
self.get_failure(
self.handler.get_room_hierarchy(
create_requester(self.user),
self.space,
suggested_only=True,
from_token=result["next_batch"],
),
SynapseError,
)
self.get_failure(
self.handler.get_room_hierarchy(
create_requester(self.user),
self.space,
max_depth=0,
from_token=result["next_batch"],
),
SynapseError,
)
# An invalid token is ignored.
self.get_failure(
self.handler.get_room_hierarchy(
create_requester(self.user), self.space, from_token="foo"
),
SynapseError,
)
def test_max_depth(self):
"""Create a deep tree to test the max depth against."""
spaces = [self.space]
rooms = [self.room]
for _ in range(5):
spaces.append(
self.helper.create_room_as(
self.user,
tok=self.token,
extra_content={
"creation_content": {
EventContentFields.ROOM_TYPE: RoomTypes.SPACE
}
},
)
)
self._add_child(spaces[-2], spaces[-1], self.token)
rooms.append(self.helper.create_room_as(self.user, tok=self.token))
self._add_child(spaces[-1], rooms[-1], self.token)
# Test just the space itself.
result = self.get_success(
self.handler.get_room_hierarchy(
create_requester(self.user), self.space, max_depth=0
)
)
expected: List[Tuple[str, Iterable[str]]] = [(spaces[0], [rooms[0], spaces[1]])]
self._assert_hierarchy(result, expected)
# A single additional layer.
result = self.get_success(
self.handler.get_room_hierarchy(
create_requester(self.user), self.space, max_depth=1
)
)
expected += [
(rooms[0], ()),
(spaces[1], [rooms[1], spaces[2]]),
]
self._assert_hierarchy(result, expected)
# A few layers.
result = self.get_success(
self.handler.get_room_hierarchy(
create_requester(self.user), self.space, max_depth=3
)
)
expected += [
(rooms[1], ()),
(spaces[2], [rooms[2], spaces[3]]),
(rooms[2], ()),
(spaces[3], [rooms[3], spaces[4]]),
]
self._assert_hierarchy(result, expected)
def test_unknown_room_version(self):
"""
If an room with an unknown room version is encountered it should not cause
the entire summary to skip.
"""
# Poke the database and update the room version to an unknown one.
self.get_success(
self.hs.get_datastores().main.db_pool.simple_update(
"rooms",
keyvalues={"room_id": self.room},
updatevalues={"room_version": "unknown-room-version"},
desc="updated-room-version",
)
)
result = self.get_success(self.handler.get_space_summary(self.user, self.space))
# The result should have only the space, along with a link from space -> room.
expected = [(self.space, [self.room])]
self._assert_rooms(result, expected)
result = self.get_success(
self.handler.get_room_hierarchy(create_requester(self.user), self.space)
)
self._assert_hierarchy(result, expected)
def test_fed_complex(self):
"""
Return data over federation and ensure that it is handled properly.
"""
fed_hostname = self.hs.hostname + "2"
subspace = "#subspace:" + fed_hostname
subroom = "#subroom:" + fed_hostname
# Generate some good data, and some bad data:
#
# * Event *back* to the root room.
# * Unrelated events / rooms
# * Multiple levels of events (in a not-useful order, e.g. grandchild
# events before child events).
# Note that these entries are brief, but should contain enough info.
requested_room_entry = _RoomEntry(
subspace,
{
"room_id": subspace,
"world_readable": True,
"room_type": RoomTypes.SPACE,
},
[
{
"type": EventTypes.SpaceChild,
"room_id": subspace,
"state_key": subroom,
"content": {"via": [fed_hostname]},
}
],
)
child_room = {
"room_id": subroom,
"world_readable": True,
}
async def summarize_remote_room(
_self, room, suggested_only, max_children, exclude_rooms
):
return [
requested_room_entry,
_RoomEntry(
subroom,
{
"room_id": subroom,
"world_readable": True,
},
),
]
async def summarize_remote_room_hierarchy(_self, room, suggested_only):
return requested_room_entry, {subroom: child_room}, set()
# Add a room to the space which is on another server.
self._add_child(self.space, subspace, self.token)
with mock.patch(
"synapse.handlers.room_summary.RoomSummaryHandler._summarize_remote_room",
new=summarize_remote_room,
):
result = self.get_success(
self.handler.get_space_summary(self.user, self.space)
)
expected = [
(self.space, [self.room, subspace]),
(self.room, ()),
(subspace, [subroom]),
(subroom, ()),
]
self._assert_rooms(result, expected)
with mock.patch(
"synapse.handlers.room_summary.RoomSummaryHandler._summarize_remote_room_hierarchy",
new=summarize_remote_room_hierarchy,
):
result = self.get_success(
self.handler.get_room_hierarchy(create_requester(self.user), self.space)
)
self._assert_hierarchy(result, expected)
def test_fed_filtering(self):
"""
Rooms returned over federation should be properly filtered to only include
rooms the user has access to.
"""
fed_hostname = self.hs.hostname + "2"
subspace = "#subspace:" + fed_hostname
# Create a few rooms which will have different properties.
public_room = "#public:" + fed_hostname
knock_room = "#knock:" + fed_hostname
not_invited_room = "#not_invited:" + fed_hostname
invited_room = "#invited:" + fed_hostname
restricted_room = "#restricted:" + fed_hostname
restricted_accessible_room = "#restricted_accessible:" + fed_hostname
world_readable_room = "#world_readable:" + fed_hostname
joined_room = self.helper.create_room_as(self.user, tok=self.token)
# Poke an invite over federation into the database.
self._poke_fed_invite(invited_room, "@remote:" + fed_hostname)
# Note that these entries are brief, but should contain enough info.
children_rooms = (
(
public_room,
{
"room_id": public_room,
"world_readable": False,
"join_rules": JoinRules.PUBLIC,
},
),
(
knock_room,
{
"room_id": knock_room,
"world_readable": False,
"join_rules": JoinRules.KNOCK,
},
),
(
not_invited_room,
{
"room_id": not_invited_room,
"world_readable": False,
"join_rules": JoinRules.INVITE,
},
),
(
invited_room,
{
"room_id": invited_room,
"world_readable": False,
"join_rules": JoinRules.INVITE,
},
),
(
restricted_room,
{
"room_id": restricted_room,
"world_readable": False,
"join_rules": JoinRules.RESTRICTED,
"allowed_spaces": [],
},
),
(
restricted_accessible_room,
{
"room_id": restricted_accessible_room,
"world_readable": False,
"join_rules": JoinRules.RESTRICTED,
"allowed_spaces": [self.room],
},
),
(
world_readable_room,
{
"room_id": world_readable_room,
"world_readable": True,
"join_rules": JoinRules.INVITE,
},
),
(
joined_room,
{
"room_id": joined_room,
"world_readable": False,
"join_rules": JoinRules.INVITE,
},
),
)
subspace_room_entry = _RoomEntry(
subspace,
{
"room_id": subspace,
"world_readable": True,
},
# Place each room in the sub-space.
[
{
"type": EventTypes.SpaceChild,
"room_id": subspace,
"state_key": room_id,
"content": {"via": [fed_hostname]},
}
for room_id, _ in children_rooms
],
)
async def summarize_remote_room(
_self, room, suggested_only, max_children, exclude_rooms
):
return [subspace_room_entry] + [
# A copy is made of the room data since the allowed_spaces key
# is removed.
_RoomEntry(child_room[0], dict(child_room[1]))
for child_room in children_rooms
]
async def summarize_remote_room_hierarchy(_self, room, suggested_only):
return subspace_room_entry, dict(children_rooms), set()
# Add a room to the space which is on another server.
self._add_child(self.space, subspace, self.token)
with mock.patch(
"synapse.handlers.room_summary.RoomSummaryHandler._summarize_remote_room",
new=summarize_remote_room,
):
result = self.get_success(
self.handler.get_space_summary(self.user, self.space)
)
expected = [
(self.space, [self.room, subspace]),
(self.room, ()),
(
subspace,
[
public_room,
knock_room,
not_invited_room,
invited_room,
restricted_room,
restricted_accessible_room,
world_readable_room,
joined_room,
],
),
(public_room, ()),
(knock_room, ()),
(invited_room, ()),
(restricted_accessible_room, ()),
(world_readable_room, ()),
(joined_room, ()),
]
self._assert_rooms(result, expected)
with mock.patch(
"synapse.handlers.room_summary.RoomSummaryHandler._summarize_remote_room_hierarchy",
new=summarize_remote_room_hierarchy,
):
result = self.get_success(
self.handler.get_room_hierarchy(create_requester(self.user), self.space)
)
self._assert_hierarchy(result, expected)
def test_fed_invited(self):
"""
A room which the user was invited to should be included in the response.
This differs from test_fed_filtering in that the room itself is being
queried over federation, instead of it being included as a sub-room of
a space in the response.
"""
fed_hostname = self.hs.hostname + "2"
fed_room = "#subroom:" + fed_hostname
# Poke an invite over federation into the database.
self._poke_fed_invite(fed_room, "@remote:" + fed_hostname)
fed_room_entry = _RoomEntry(
fed_room,
{
"room_id": fed_room,
"world_readable": False,
"join_rules": JoinRules.INVITE,
},
)
async def summarize_remote_room(
_self, room, suggested_only, max_children, exclude_rooms
):
return [fed_room_entry]
async def summarize_remote_room_hierarchy(_self, room, suggested_only):
return fed_room_entry, {}, set()
# Add a room to the space which is on another server.
self._add_child(self.space, fed_room, self.token)
with mock.patch(
"synapse.handlers.room_summary.RoomSummaryHandler._summarize_remote_room",
new=summarize_remote_room,
):
result = self.get_success(
self.handler.get_space_summary(self.user, self.space)
)
expected = [
(self.space, [self.room, fed_room]),
(self.room, ()),
(fed_room, ()),
]
self._assert_rooms(result, expected)
with mock.patch(
"synapse.handlers.room_summary.RoomSummaryHandler._summarize_remote_room_hierarchy",
new=summarize_remote_room_hierarchy,
):
result = self.get_success(
self.handler.get_room_hierarchy(create_requester(self.user), self.space)
)
self._assert_hierarchy(result, expected)
class RoomSummaryTestCase(unittest.HomeserverTestCase):
servlets = [
admin.register_servlets_for_client_rest_resource,
room.register_servlets,
login.register_servlets,
]
def prepare(self, reactor, clock, hs: HomeServer):
self.hs = hs
self.handler = self.hs.get_room_summary_handler()
# Create a user.
self.user = self.register_user("user", "pass")
self.token = self.login("user", "pass")
# Create a simple room.
self.room = self.helper.create_room_as(self.user, tok=self.token)
self.helper.send_state(
self.room,
event_type=EventTypes.JoinRules,
body={"join_rule": JoinRules.INVITE},
tok=self.token,
)
def test_own_room(self):
"""Test a simple room created by the requester."""
result = self.get_success(self.handler.get_room_summary(self.user, self.room))
self.assertEqual(result.get("room_id"), self.room)
def test_visibility(self):
"""A user not in a private room cannot get its summary."""
user2 = self.register_user("user2", "pass")
token2 = self.login("user2", "pass")
# The user cannot see the room.
self.get_failure(self.handler.get_room_summary(user2, self.room), NotFoundError)
# If the room is made world-readable it should return a result.
self.helper.send_state(
self.room,
event_type=EventTypes.RoomHistoryVisibility,
body={"history_visibility": HistoryVisibility.WORLD_READABLE},
tok=self.token,
)
result = self.get_success(self.handler.get_room_summary(user2, self.room))
self.assertEqual(result.get("room_id"), self.room)
# Make it not world-readable again and confirm it results in an error.
self.helper.send_state(
self.room,
event_type=EventTypes.RoomHistoryVisibility,
body={"history_visibility": HistoryVisibility.JOINED},
tok=self.token,
)
self.get_failure(self.handler.get_room_summary(user2, self.room), NotFoundError)
# If the room is made public it should return a result.
self.helper.send_state(
self.room,
event_type=EventTypes.JoinRules,
body={"join_rule": JoinRules.PUBLIC},
tok=self.token,
)
result = self.get_success(self.handler.get_room_summary(user2, self.room))
self.assertEqual(result.get("room_id"), self.room)
# Join the space, make it invite-only again and results should be returned.
self.helper.join(self.room, user2, tok=token2)
self.helper.send_state(
self.room,
event_type=EventTypes.JoinRules,
body={"join_rule": JoinRules.INVITE},
tok=self.token,
)
result = self.get_success(self.handler.get_room_summary(user2, self.room))
self.assertEqual(result.get("room_id"), self.room)