123456789101112131415161718192021222324252627282930313233343536373839404142434445464748495051525354555657585960616263646566676869707172737475767778798081828384858687888990919293949596979899100101102103104105106107108109110111112113114115116117118119120121122123124125126127128129130131132133134135136137138139140141142143144145146147148149150151152153154155156157158159160161162163164165166167168169170171172173174175176177178179180181182183184185186187188189190191192193194195196197198199200201202203204205206207208209210211212213214215216217218219220221222223224225226227228229230231232233234235236237238239240241242243244245246247248249250251252253254255256257258259260261262263264265266267268269270271272273274275276277278279280281282283284285286287288289290291292293294295296297298299300301302303304305306307308309310311312313314315316317318319320321322323324325326327328329330331332333334335336337338339340341342343344345346347348349350351352353354355356357358359360361362363364365366367368369370371372373374375376377378379380381382383384385386387388389390391392393394395396397398399400401402403404405406407408409410411412413414415416417418419420421422423424425426427428429430431432433434435436437438439440441442443444445446447448449450451452453454455456457458459460461462463464465466467468469470471472473474475476477478479480481482483484485486487488489490491492493494495496497498499500501502503504505506507508509510511512513514515516517518519520521522523524525526527528529530531532533534535536537538539540541542543544545546547548549550551552553554555556557558559560561562563564565566567568569570571572573574575576577578579580581582583584585586587588589590591592593594595596597598599600601602603604605606607608609610611612613614615616617618619620621622623624625626627628629630631632633634635636637638639640641642643644645646647648649650651652653654 |
- # -*- coding: utf-8 -*-
- # Copyright 2018 New Vector Ltd
- #
- # 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
- from typing import List
- import attr
- from twisted.internet import defer
- from synapse.api.constants import EventTypes, JoinRules, Membership
- from synapse.api.room_versions import RoomVersions
- from synapse.event_auth import auth_types_for_event
- from synapse.events import make_event_from_dict
- from synapse.state.v2 import lexicographical_topological_sort, resolve_events_with_store
- from synapse.types import EventID
- from tests import unittest
- ALICE = "@alice:example.com"
- BOB = "@bob:example.com"
- CHARLIE = "@charlie:example.com"
- EVELYN = "@evelyn:example.com"
- ZARA = "@zara:example.com"
- ROOM_ID = "!test:example.com"
- MEMBERSHIP_CONTENT_JOIN = {"membership": Membership.JOIN}
- MEMBERSHIP_CONTENT_BAN = {"membership": Membership.BAN}
- ORIGIN_SERVER_TS = 0
- class FakeClock:
- def sleep(self, msec):
- return defer.succeed(None)
- class FakeEvent:
- """A fake event we use as a convenience.
- NOTE: Again as a convenience we use "node_ids" rather than event_ids to
- refer to events. The event_id has node_id as localpart and example.com
- as domain.
- """
- def __init__(self, id, sender, type, state_key, content):
- self.node_id = id
- self.event_id = EventID(id, "example.com").to_string()
- self.sender = sender
- self.type = type
- self.state_key = state_key
- self.content = content
- self.room_id = ROOM_ID
- def to_event(self, auth_events, prev_events):
- """Given the auth_events and prev_events, convert to a Frozen Event
- Args:
- auth_events (list[str]): list of event_ids
- prev_events (list[str]): list of event_ids
- Returns:
- FrozenEvent
- """
- global ORIGIN_SERVER_TS
- ts = ORIGIN_SERVER_TS
- ORIGIN_SERVER_TS = ORIGIN_SERVER_TS + 1
- event_dict = {
- "auth_events": [(a, {}) for a in auth_events],
- "prev_events": [(p, {}) for p in prev_events],
- "event_id": self.node_id,
- "sender": self.sender,
- "type": self.type,
- "content": self.content,
- "origin_server_ts": ts,
- "room_id": ROOM_ID,
- }
- if self.state_key is not None:
- event_dict["state_key"] = self.state_key
- return make_event_from_dict(event_dict)
- # All graphs start with this set of events
- INITIAL_EVENTS = [
- FakeEvent(
- id="CREATE",
- sender=ALICE,
- type=EventTypes.Create,
- state_key="",
- content={"creator": ALICE},
- ),
- FakeEvent(
- id="IMA",
- sender=ALICE,
- type=EventTypes.Member,
- state_key=ALICE,
- content=MEMBERSHIP_CONTENT_JOIN,
- ),
- FakeEvent(
- id="IPOWER",
- sender=ALICE,
- type=EventTypes.PowerLevels,
- state_key="",
- content={"users": {ALICE: 100}},
- ),
- FakeEvent(
- id="IJR",
- sender=ALICE,
- type=EventTypes.JoinRules,
- state_key="",
- content={"join_rule": JoinRules.PUBLIC},
- ),
- FakeEvent(
- id="IMB",
- sender=BOB,
- type=EventTypes.Member,
- state_key=BOB,
- content=MEMBERSHIP_CONTENT_JOIN,
- ),
- FakeEvent(
- id="IMC",
- sender=CHARLIE,
- type=EventTypes.Member,
- state_key=CHARLIE,
- content=MEMBERSHIP_CONTENT_JOIN,
- ),
- FakeEvent(
- id="IMZ",
- sender=ZARA,
- type=EventTypes.Member,
- state_key=ZARA,
- content=MEMBERSHIP_CONTENT_JOIN,
- ),
- FakeEvent(
- id="START", sender=ZARA, type=EventTypes.Message, state_key=None, content={}
- ),
- FakeEvent(
- id="END", sender=ZARA, type=EventTypes.Message, state_key=None, content={}
- ),
- ]
- INITIAL_EDGES = ["START", "IMZ", "IMC", "IMB", "IJR", "IPOWER", "IMA", "CREATE"]
- class StateTestCase(unittest.TestCase):
- def test_ban_vs_pl(self):
- events = [
- FakeEvent(
- id="PA",
- sender=ALICE,
- type=EventTypes.PowerLevels,
- state_key="",
- content={"users": {ALICE: 100, BOB: 50}},
- ),
- FakeEvent(
- id="MA",
- sender=ALICE,
- type=EventTypes.Member,
- state_key=ALICE,
- content={"membership": Membership.JOIN},
- ),
- FakeEvent(
- id="MB",
- sender=ALICE,
- type=EventTypes.Member,
- state_key=BOB,
- content={"membership": Membership.BAN},
- ),
- FakeEvent(
- id="PB",
- sender=BOB,
- type=EventTypes.PowerLevels,
- state_key="",
- content={"users": {ALICE: 100, BOB: 50}},
- ),
- ]
- edges = [["END", "MB", "MA", "PA", "START"], ["END", "PB", "PA"]]
- expected_state_ids = ["PA", "MA", "MB"]
- self.do_check(events, edges, expected_state_ids)
- def test_join_rule_evasion(self):
- events = [
- FakeEvent(
- id="JR",
- sender=ALICE,
- type=EventTypes.JoinRules,
- state_key="",
- content={"join_rules": JoinRules.PRIVATE},
- ),
- FakeEvent(
- id="ME",
- sender=EVELYN,
- type=EventTypes.Member,
- state_key=EVELYN,
- content={"membership": Membership.JOIN},
- ),
- ]
- edges = [["END", "JR", "START"], ["END", "ME", "START"]]
- expected_state_ids = ["JR"]
- self.do_check(events, edges, expected_state_ids)
- def test_offtopic_pl(self):
- events = [
- FakeEvent(
- id="PA",
- sender=ALICE,
- type=EventTypes.PowerLevels,
- state_key="",
- content={"users": {ALICE: 100, BOB: 50}},
- ),
- FakeEvent(
- id="PB",
- sender=BOB,
- type=EventTypes.PowerLevels,
- state_key="",
- content={"users": {ALICE: 100, BOB: 50, CHARLIE: 50}},
- ),
- FakeEvent(
- id="PC",
- sender=CHARLIE,
- type=EventTypes.PowerLevels,
- state_key="",
- content={"users": {ALICE: 100, BOB: 50, CHARLIE: 0}},
- ),
- ]
- edges = [["END", "PC", "PB", "PA", "START"], ["END", "PA"]]
- expected_state_ids = ["PC"]
- self.do_check(events, edges, expected_state_ids)
- def test_topic_basic(self):
- events = [
- FakeEvent(
- id="T1", sender=ALICE, type=EventTypes.Topic, state_key="", content={}
- ),
- FakeEvent(
- id="PA1",
- sender=ALICE,
- type=EventTypes.PowerLevels,
- state_key="",
- content={"users": {ALICE: 100, BOB: 50}},
- ),
- FakeEvent(
- id="T2", sender=ALICE, type=EventTypes.Topic, state_key="", content={}
- ),
- FakeEvent(
- id="PA2",
- sender=ALICE,
- type=EventTypes.PowerLevels,
- state_key="",
- content={"users": {ALICE: 100, BOB: 0}},
- ),
- FakeEvent(
- id="PB",
- sender=BOB,
- type=EventTypes.PowerLevels,
- state_key="",
- content={"users": {ALICE: 100, BOB: 50}},
- ),
- FakeEvent(
- id="T3", sender=BOB, type=EventTypes.Topic, state_key="", content={}
- ),
- ]
- edges = [["END", "PA2", "T2", "PA1", "T1", "START"], ["END", "T3", "PB", "PA1"]]
- expected_state_ids = ["PA2", "T2"]
- self.do_check(events, edges, expected_state_ids)
- def test_topic_reset(self):
- events = [
- FakeEvent(
- id="T1", sender=ALICE, type=EventTypes.Topic, state_key="", content={}
- ),
- FakeEvent(
- id="PA",
- sender=ALICE,
- type=EventTypes.PowerLevels,
- state_key="",
- content={"users": {ALICE: 100, BOB: 50}},
- ),
- FakeEvent(
- id="T2", sender=BOB, type=EventTypes.Topic, state_key="", content={}
- ),
- FakeEvent(
- id="MB",
- sender=ALICE,
- type=EventTypes.Member,
- state_key=BOB,
- content={"membership": Membership.BAN},
- ),
- ]
- edges = [["END", "MB", "T2", "PA", "T1", "START"], ["END", "T1"]]
- expected_state_ids = ["T1", "MB", "PA"]
- self.do_check(events, edges, expected_state_ids)
- def test_topic(self):
- events = [
- FakeEvent(
- id="T1", sender=ALICE, type=EventTypes.Topic, state_key="", content={}
- ),
- FakeEvent(
- id="PA1",
- sender=ALICE,
- type=EventTypes.PowerLevels,
- state_key="",
- content={"users": {ALICE: 100, BOB: 50}},
- ),
- FakeEvent(
- id="T2", sender=ALICE, type=EventTypes.Topic, state_key="", content={}
- ),
- FakeEvent(
- id="PA2",
- sender=ALICE,
- type=EventTypes.PowerLevels,
- state_key="",
- content={"users": {ALICE: 100, BOB: 0}},
- ),
- FakeEvent(
- id="PB",
- sender=BOB,
- type=EventTypes.PowerLevels,
- state_key="",
- content={"users": {ALICE: 100, BOB: 50}},
- ),
- FakeEvent(
- id="T3", sender=BOB, type=EventTypes.Topic, state_key="", content={}
- ),
- FakeEvent(
- id="MZ1",
- sender=ZARA,
- type=EventTypes.Message,
- state_key=None,
- content={},
- ),
- FakeEvent(
- id="T4", sender=ALICE, type=EventTypes.Topic, state_key="", content={}
- ),
- ]
- edges = [
- ["END", "T4", "MZ1", "PA2", "T2", "PA1", "T1", "START"],
- ["END", "MZ1", "T3", "PB", "PA1"],
- ]
- expected_state_ids = ["T4", "PA2"]
- self.do_check(events, edges, expected_state_ids)
- def do_check(self, events, edges, expected_state_ids):
- """Take a list of events and edges and calculate the state of the
- graph at END, and asserts it matches `expected_state_ids`
- Args:
- events (list[FakeEvent])
- edges (list[list[str]]): A list of chains of event edges, e.g.
- `[[A, B, C]]` are edges A->B and B->C.
- expected_state_ids (list[str]): The expected state at END, (excluding
- the keys that haven't changed since START).
- """
- # We want to sort the events into topological order for processing.
- graph = {}
- # node_id -> FakeEvent
- fake_event_map = {}
- for ev in itertools.chain(INITIAL_EVENTS, events):
- graph[ev.node_id] = set()
- fake_event_map[ev.node_id] = ev
- for a, b in pairwise(INITIAL_EDGES):
- graph[a].add(b)
- for edge_list in edges:
- for a, b in pairwise(edge_list):
- graph[a].add(b)
- # event_id -> FrozenEvent
- event_map = {}
- # node_id -> state
- state_at_event = {}
- # We copy the map as the sort consumes the graph
- graph_copy = {k: set(v) for k, v in graph.items()}
- for node_id in lexicographical_topological_sort(graph_copy, key=lambda e: e):
- fake_event = fake_event_map[node_id]
- event_id = fake_event.event_id
- prev_events = list(graph[node_id])
- if len(prev_events) == 0:
- state_before = {}
- elif len(prev_events) == 1:
- state_before = dict(state_at_event[prev_events[0]])
- else:
- state_d = resolve_events_with_store(
- FakeClock(),
- ROOM_ID,
- RoomVersions.V2.identifier,
- [state_at_event[n] for n in prev_events],
- event_map=event_map,
- state_res_store=TestStateResolutionStore(event_map),
- )
- state_before = self.successResultOf(defer.ensureDeferred(state_d))
- state_after = dict(state_before)
- if fake_event.state_key is not None:
- state_after[(fake_event.type, fake_event.state_key)] = event_id
- auth_types = set(auth_types_for_event(fake_event))
- auth_events = []
- for key in auth_types:
- if key in state_before:
- auth_events.append(state_before[key])
- event = fake_event.to_event(auth_events, prev_events)
- state_at_event[node_id] = state_after
- event_map[event_id] = event
- expected_state = {}
- for node_id in expected_state_ids:
- # expected_state_ids are node IDs rather than event IDs,
- # so we have to convert
- event_id = EventID(node_id, "example.com").to_string()
- event = event_map[event_id]
- key = (event.type, event.state_key)
- expected_state[key] = event_id
- start_state = state_at_event["START"]
- end_state = {
- key: value
- for key, value in state_at_event["END"].items()
- if key in expected_state or start_state.get(key) != value
- }
- self.assertEqual(expected_state, end_state)
- class LexicographicalTestCase(unittest.TestCase):
- def test_simple(self):
- graph = {"l": {"o"}, "m": {"n", "o"}, "n": {"o"}, "o": set(), "p": {"o"}}
- res = list(lexicographical_topological_sort(graph, key=lambda x: x))
- self.assertEqual(["o", "l", "n", "m", "p"], res)
- class SimpleParamStateTestCase(unittest.TestCase):
- def setUp(self):
- # We build up a simple DAG.
- event_map = {}
- create_event = FakeEvent(
- id="CREATE",
- sender=ALICE,
- type=EventTypes.Create,
- state_key="",
- content={"creator": ALICE},
- ).to_event([], [])
- event_map[create_event.event_id] = create_event
- alice_member = FakeEvent(
- id="IMA",
- sender=ALICE,
- type=EventTypes.Member,
- state_key=ALICE,
- content=MEMBERSHIP_CONTENT_JOIN,
- ).to_event([create_event.event_id], [create_event.event_id])
- event_map[alice_member.event_id] = alice_member
- join_rules = FakeEvent(
- id="IJR",
- sender=ALICE,
- type=EventTypes.JoinRules,
- state_key="",
- content={"join_rule": JoinRules.PUBLIC},
- ).to_event(
- auth_events=[create_event.event_id, alice_member.event_id],
- prev_events=[alice_member.event_id],
- )
- event_map[join_rules.event_id] = join_rules
- # Bob and Charlie join at the same time, so there is a fork
- bob_member = FakeEvent(
- id="IMB",
- sender=BOB,
- type=EventTypes.Member,
- state_key=BOB,
- content=MEMBERSHIP_CONTENT_JOIN,
- ).to_event(
- auth_events=[create_event.event_id, join_rules.event_id],
- prev_events=[join_rules.event_id],
- )
- event_map[bob_member.event_id] = bob_member
- charlie_member = FakeEvent(
- id="IMC",
- sender=CHARLIE,
- type=EventTypes.Member,
- state_key=CHARLIE,
- content=MEMBERSHIP_CONTENT_JOIN,
- ).to_event(
- auth_events=[create_event.event_id, join_rules.event_id],
- prev_events=[join_rules.event_id],
- )
- event_map[charlie_member.event_id] = charlie_member
- self.event_map = event_map
- self.create_event = create_event
- self.alice_member = alice_member
- self.join_rules = join_rules
- self.bob_member = bob_member
- self.charlie_member = charlie_member
- self.state_at_bob = {
- (e.type, e.state_key): e.event_id
- for e in [create_event, alice_member, join_rules, bob_member]
- }
- self.state_at_charlie = {
- (e.type, e.state_key): e.event_id
- for e in [create_event, alice_member, join_rules, charlie_member]
- }
- self.expected_combined_state = {
- (e.type, e.state_key): e.event_id
- for e in [
- create_event,
- alice_member,
- join_rules,
- bob_member,
- charlie_member,
- ]
- }
- def test_event_map_none(self):
- # Test that we correctly handle passing `None` as the event_map
- state_d = resolve_events_with_store(
- FakeClock(),
- ROOM_ID,
- RoomVersions.V2.identifier,
- [self.state_at_bob, self.state_at_charlie],
- event_map=None,
- state_res_store=TestStateResolutionStore(self.event_map),
- )
- state = self.successResultOf(defer.ensureDeferred(state_d))
- self.assert_dict(self.expected_combined_state, state)
- def pairwise(iterable):
- "s -> (s0,s1), (s1,s2), (s2, s3), ..."
- a, b = itertools.tee(iterable)
- next(b, None)
- return zip(a, b)
- @attr.s
- class TestStateResolutionStore:
- event_map = attr.ib()
- def get_events(self, event_ids, allow_rejected=False):
- """Get events from the database
- Args:
- event_ids (list): The event_ids of the events to fetch
- allow_rejected (bool): If True return rejected events.
- Returns:
- Deferred[dict[str, FrozenEvent]]: Dict from event_id to event.
- """
- return defer.succeed(
- {eid: self.event_map[eid] for eid in event_ids if eid in self.event_map}
- )
- def _get_auth_chain(self, event_ids: List[str]) -> List[str]:
- """Gets the full auth chain for a set of events (including rejected
- events).
- Includes the given event IDs in the result.
- Note that:
- 1. All events must be state events.
- 2. For v1 rooms this may not have the full auth chain in the
- presence of rejected events
- Args:
- event_ids: The event IDs of the events to fetch the auth
- chain for. Must be state events.
- Returns:
- List of event IDs of the auth chain.
- """
- # Simple DFS for auth chain
- result = set()
- stack = list(event_ids)
- while stack:
- event_id = stack.pop()
- if event_id in result:
- continue
- result.add(event_id)
- event = self.event_map[event_id]
- for aid in event.auth_event_ids():
- stack.append(aid)
- return list(result)
- def get_auth_chain_difference(self, auth_sets):
- chains = [frozenset(self._get_auth_chain(a)) for a in auth_sets]
- common = set(chains[0]).intersection(*chains[1:])
- return defer.succeed(set(chains[0]).union(*chains[1:]) - common)
|