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- # Copyright 2014-2016 OpenMarket 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.
- from typing import (
- Any,
- Collection,
- Dict,
- Generator,
- Iterable,
- Iterator,
- List,
- Optional,
- Set,
- Tuple,
- cast,
- )
- from unittest.mock import Mock
- from twisted.internet import defer
- from synapse.api.auth import Auth
- from synapse.api.constants import EventTypes, Membership
- from synapse.api.room_versions import RoomVersions
- from synapse.events import EventBase, make_event_from_dict
- from synapse.events.snapshot import EventContext
- from synapse.state import StateHandler, StateResolutionHandler, _make_state_cache_entry
- from synapse.types import MutableStateMap, StateMap
- from synapse.types.state import StateFilter
- from synapse.util import Clock
- from synapse.util.macaroons import MacaroonGenerator
- from tests import unittest
- from .utils import MockClock, default_config
- _next_event_id = 1000
- def create_event(
- name: Optional[str] = None,
- type: Optional[str] = None,
- state_key: Optional[str] = None,
- depth: int = 2,
- event_id: Optional[str] = None,
- prev_events: Optional[List[Tuple[str, dict]]] = None,
- **kwargs: Any,
- ) -> EventBase:
- global _next_event_id
- if not event_id:
- _next_event_id += 1
- event_id = "$%s:test" % (_next_event_id,)
- if not name:
- if state_key is not None:
- name = "<%s-%s, %s>" % (type, state_key, event_id)
- else:
- name = "<%s, %s>" % (type, event_id)
- d = {
- "event_id": event_id,
- "type": type,
- "sender": "@user_id:example.com",
- "room_id": "!room_id:example.com",
- "depth": depth,
- "prev_events": prev_events or [],
- }
- if state_key is not None:
- d["state_key"] = state_key
- d.update(kwargs)
- return make_event_from_dict(d)
- class _DummyStore:
- def __init__(self) -> None:
- self._event_to_state_group: Dict[str, int] = {}
- self._group_to_state: Dict[int, MutableStateMap[str]] = {}
- self._event_id_to_event: Dict[str, EventBase] = {}
- self._next_group = 1
- async def get_state_groups_ids(
- self, room_id: str, event_ids: Collection[str]
- ) -> Dict[int, MutableStateMap[str]]:
- groups = {}
- for event_id in event_ids:
- group = self._event_to_state_group.get(event_id)
- if group:
- groups[group] = self._group_to_state[group]
- return groups
- async def get_state_ids_for_group(
- self, state_group: int, state_filter: Optional[StateFilter] = None
- ) -> MutableStateMap[str]:
- return self._group_to_state[state_group]
- async def store_state_group(
- self,
- event_id: str,
- room_id: str,
- prev_group: Optional[int],
- delta_ids: Optional[StateMap[str]],
- current_state_ids: Optional[StateMap[str]],
- ) -> int:
- state_group = self._next_group
- self._next_group += 1
- if current_state_ids is None:
- assert prev_group is not None
- assert delta_ids is not None
- current_state_ids = dict(self._group_to_state[prev_group])
- current_state_ids.update(delta_ids)
- self._group_to_state[state_group] = dict(current_state_ids)
- return state_group
- async def get_events(
- self, event_ids: Collection[str], **kwargs: Any
- ) -> Dict[str, EventBase]:
- return {
- e_id: self._event_id_to_event[e_id]
- for e_id in event_ids
- if e_id in self._event_id_to_event
- }
- async def get_partial_state_events(
- self, event_ids: Collection[str]
- ) -> Dict[str, bool]:
- return {e: False for e in event_ids}
- async def get_state_group_delta(
- self, name: str
- ) -> Tuple[Optional[int], Optional[StateMap[str]]]:
- return None, None
- def register_events(self, events: Iterable[EventBase]) -> None:
- for e in events:
- self._event_id_to_event[e.event_id] = e
- def register_event_context(self, event: EventBase, context: EventContext) -> None:
- assert context.state_group is not None
- self._event_to_state_group[event.event_id] = context.state_group
- def register_event_id_state_group(self, event_id: str, state_group: int) -> None:
- self._event_to_state_group[event_id] = state_group
- async def get_room_version_id(self, room_id: str) -> str:
- return RoomVersions.V1.identifier
- async def get_state_group_for_events(
- self, event_ids: Collection[str], await_full_state: bool = True
- ) -> Dict[str, int]:
- res = {}
- for event in event_ids:
- res[event] = self._event_to_state_group[event]
- return res
- async def get_state_for_groups(
- self, groups: Collection[int]
- ) -> Dict[int, MutableStateMap[str]]:
- res = {}
- for group in groups:
- state = self._group_to_state[group]
- res[group] = state
- return res
- class DictObj(dict):
- def __init__(self, **kwargs: Any) -> None:
- super().__init__(kwargs)
- self.__dict__ = self
- class Graph:
- def __init__(self, nodes: Dict[str, DictObj], edges: Dict[str, List[str]]):
- events: Dict[str, EventBase] = {}
- clobbered: Set[str] = set()
- for event_id, fields in nodes.items():
- refs = edges.get(event_id)
- if refs:
- clobbered.difference_update(refs)
- prev_events: List[Tuple[str, dict]] = [(r, {}) for r in refs]
- else:
- prev_events = []
- events[event_id] = create_event(
- event_id=event_id, prev_events=prev_events, **fields
- )
- self._leaves = clobbered
- self._events = sorted(events.values(), key=lambda e: e.depth)
- def walk(self) -> Iterator[EventBase]:
- return iter(self._events)
- class StateTestCase(unittest.TestCase):
- def setUp(self) -> None:
- self.dummy_store = _DummyStore()
- storage_controllers = Mock(main=self.dummy_store, state=self.dummy_store)
- hs = Mock(
- spec_set=[
- "config",
- "get_datastores",
- "get_storage_controllers",
- "get_auth",
- "get_state_handler",
- "get_clock",
- "get_state_resolution_handler",
- "get_account_validity_handler",
- "get_macaroon_generator",
- "get_instance_name",
- "get_simple_http_client",
- "get_replication_client",
- "hostname",
- ]
- )
- clock = cast(Clock, MockClock())
- hs.config = default_config("tesths", True)
- hs.get_datastores.return_value = Mock(main=self.dummy_store)
- hs.get_state_handler.return_value = None
- hs.get_clock.return_value = clock
- hs.get_macaroon_generator.return_value = MacaroonGenerator(
- clock, "tesths", b"verysecret"
- )
- hs.get_auth.return_value = Auth(hs)
- hs.get_state_resolution_handler = lambda: StateResolutionHandler(hs)
- hs.get_storage_controllers.return_value = storage_controllers
- self.state = StateHandler(hs)
- self.event_id = 0
- @defer.inlineCallbacks
- def test_branch_no_conflict(self) -> Generator[defer.Deferred, Any, None]:
- graph = Graph(
- nodes={
- "START": DictObj(
- type=EventTypes.Create, state_key="", content={}, depth=1
- ),
- "A": DictObj(type=EventTypes.Message, depth=2),
- "B": DictObj(type=EventTypes.Message, depth=3),
- "C": DictObj(type=EventTypes.Name, state_key="", depth=3),
- "D": DictObj(type=EventTypes.Message, depth=4),
- },
- edges={"A": ["START"], "B": ["A"], "C": ["A"], "D": ["B", "C"]},
- )
- self.dummy_store.register_events(graph.walk())
- context_store: dict[str, EventContext] = {}
- for event in graph.walk():
- context = yield defer.ensureDeferred(
- self.state.compute_event_context(event)
- )
- self.dummy_store.register_event_context(event, context)
- context_store[event.event_id] = context
- ctx_c = context_store["C"]
- ctx_d = context_store["D"]
- prev_state_ids: StateMap[str]
- prev_state_ids = yield defer.ensureDeferred(ctx_d.get_prev_state_ids())
- self.assertEqual(2, len(prev_state_ids))
- self.assertEqual(ctx_c.state_group, ctx_d.state_group_before_event)
- self.assertEqual(ctx_d.state_group_before_event, ctx_d.state_group)
- @defer.inlineCallbacks
- def test_branch_basic_conflict(
- self,
- ) -> Generator["defer.Deferred[object]", Any, None]:
- graph = Graph(
- nodes={
- "START": DictObj(
- type=EventTypes.Create,
- state_key="",
- content={"creator": "@user_id:example.com"},
- depth=1,
- ),
- "A": DictObj(
- type=EventTypes.Member,
- state_key="@user_id:example.com",
- content={"membership": Membership.JOIN},
- membership=Membership.JOIN,
- depth=2,
- ),
- "B": DictObj(type=EventTypes.Name, state_key="", depth=3),
- "C": DictObj(type=EventTypes.Name, state_key="", depth=4),
- "D": DictObj(type=EventTypes.Message, depth=5),
- },
- edges={"A": ["START"], "B": ["A"], "C": ["A"], "D": ["B", "C"]},
- )
- self.dummy_store.register_events(graph.walk())
- context_store: Dict[str, EventContext] = {}
- for event in graph.walk():
- context = yield defer.ensureDeferred(
- self.state.compute_event_context(event)
- )
- self.dummy_store.register_event_context(event, context)
- context_store[event.event_id] = context
- # C ends up winning the resolution between B and C
- ctx_c = context_store["C"]
- ctx_d = context_store["D"]
- prev_state_ids: StateMap[str]
- prev_state_ids = yield defer.ensureDeferred(ctx_d.get_prev_state_ids())
- self.assertSetEqual({"START", "A", "C"}, set(prev_state_ids.values()))
- self.assertEqual(ctx_c.state_group, ctx_d.state_group_before_event)
- self.assertEqual(ctx_d.state_group_before_event, ctx_d.state_group)
- @defer.inlineCallbacks
- def test_branch_have_banned_conflict(
- self,
- ) -> Generator["defer.Deferred[object]", Any, None]:
- graph = Graph(
- nodes={
- "START": DictObj(
- type=EventTypes.Create,
- state_key="",
- content={"creator": "@user_id:example.com"},
- depth=1,
- ),
- "A": DictObj(
- type=EventTypes.Member,
- state_key="@user_id:example.com",
- content={"membership": Membership.JOIN},
- membership=Membership.JOIN,
- depth=2,
- ),
- "B": DictObj(type=EventTypes.Name, state_key="", depth=3),
- "C": DictObj(
- type=EventTypes.Member,
- state_key="@user_id_2:example.com",
- content={"membership": Membership.BAN},
- membership=Membership.BAN,
- depth=4,
- ),
- "D": DictObj(
- type=EventTypes.Name,
- state_key="",
- depth=4,
- sender="@user_id_2:example.com",
- ),
- "E": DictObj(type=EventTypes.Message, depth=5),
- },
- edges={"A": ["START"], "B": ["A"], "C": ["B"], "D": ["B"], "E": ["C", "D"]},
- )
- self.dummy_store.register_events(graph.walk())
- context_store: Dict[str, EventContext] = {}
- for event in graph.walk():
- context = yield defer.ensureDeferred(
- self.state.compute_event_context(event)
- )
- self.dummy_store.register_event_context(event, context)
- context_store[event.event_id] = context
- # C ends up winning the resolution between C and D because bans win over other
- # changes
- ctx_c = context_store["C"]
- ctx_e = context_store["E"]
- prev_state_ids: StateMap[str]
- prev_state_ids = yield defer.ensureDeferred(ctx_e.get_prev_state_ids())
- self.assertSetEqual({"START", "A", "B", "C"}, set(prev_state_ids.values()))
- self.assertEqual(ctx_c.state_group, ctx_e.state_group_before_event)
- self.assertEqual(ctx_e.state_group_before_event, ctx_e.state_group)
- @defer.inlineCallbacks
- def test_branch_have_perms_conflict(
- self,
- ) -> Generator["defer.Deferred[object]", Any, None]:
- userid1 = "@user_id:example.com"
- userid2 = "@user_id2:example.com"
- nodes = {
- "A1": DictObj(
- type=EventTypes.Create,
- state_key="",
- content={"creator": userid1},
- depth=1,
- ),
- "A2": DictObj(
- type=EventTypes.Member,
- state_key=userid1,
- content={"membership": Membership.JOIN},
- membership=Membership.JOIN,
- ),
- "A3": DictObj(
- type=EventTypes.Member,
- state_key=userid2,
- content={"membership": Membership.JOIN},
- membership=Membership.JOIN,
- ),
- "A4": DictObj(
- type=EventTypes.PowerLevels,
- state_key="",
- content={
- "events": {"m.room.name": 50},
- "users": {userid1: 100, userid2: 60},
- },
- ),
- "A5": DictObj(type=EventTypes.Name, state_key=""),
- "B": DictObj(
- type=EventTypes.PowerLevels,
- state_key="",
- content={"events": {"m.room.name": 50}, "users": {userid2: 30}},
- ),
- "C": DictObj(type=EventTypes.Name, state_key="", sender=userid2),
- "D": DictObj(type=EventTypes.Message),
- }
- edges = {
- "A2": ["A1"],
- "A3": ["A2"],
- "A4": ["A3"],
- "A5": ["A4"],
- "B": ["A5"],
- "C": ["A5"],
- "D": ["B", "C"],
- }
- self._add_depths(nodes, edges)
- graph = Graph(nodes, edges)
- self.dummy_store.register_events(graph.walk())
- context_store: Dict[str, EventContext] = {}
- for event in graph.walk():
- context = yield defer.ensureDeferred(
- self.state.compute_event_context(event)
- )
- self.dummy_store.register_event_context(event, context)
- context_store[event.event_id] = context
- # B ends up winning the resolution between B and C because power levels
- # win over other changes.
- ctx_b = context_store["B"]
- ctx_d = context_store["D"]
- prev_state_ids: StateMap[str]
- prev_state_ids = yield defer.ensureDeferred(ctx_d.get_prev_state_ids())
- self.assertSetEqual({"A1", "A2", "A3", "A5", "B"}, set(prev_state_ids.values()))
- self.assertEqual(ctx_b.state_group, ctx_d.state_group_before_event)
- self.assertEqual(ctx_d.state_group_before_event, ctx_d.state_group)
- def _add_depths(
- self, nodes: Dict[str, DictObj], edges: Dict[str, List[str]]
- ) -> None:
- def _get_depth(ev: str) -> int:
- node = nodes[ev]
- if "depth" not in node:
- prevs = edges[ev]
- depth = max(_get_depth(prev) for prev in prevs) + 1
- node["depth"] = depth
- return node["depth"]
- for n in nodes:
- _get_depth(n)
- @defer.inlineCallbacks
- def test_annotate_with_old_message(
- self,
- ) -> Generator["defer.Deferred[object]", Any, None]:
- event = create_event(type="test_message", name="event")
- old_state = [
- create_event(type="test1", state_key="1"),
- create_event(type="test1", state_key="2"),
- create_event(type="test2", state_key=""),
- ]
- context: EventContext
- context = yield defer.ensureDeferred(
- self.state.compute_event_context(
- event,
- state_ids_before_event={
- (e.type, e.state_key): e.event_id for e in old_state
- },
- partial_state=False,
- )
- )
- prev_state_ids: StateMap[str]
- prev_state_ids = yield defer.ensureDeferred(context.get_prev_state_ids())
- self.assertCountEqual((e.event_id for e in old_state), prev_state_ids.values())
- current_state_ids: StateMap[str]
- current_state_ids = yield defer.ensureDeferred(context.get_current_state_ids())
- self.assertCountEqual(
- (e.event_id for e in old_state), current_state_ids.values()
- )
- self.assertIsNotNone(context.state_group_before_event)
- self.assertEqual(context.state_group_before_event, context.state_group)
- @defer.inlineCallbacks
- def test_annotate_with_old_state(
- self,
- ) -> Generator["defer.Deferred[object]", Any, None]:
- event = create_event(type="state", state_key="", name="event")
- old_state = [
- create_event(type="test1", state_key="1"),
- create_event(type="test1", state_key="2"),
- create_event(type="test2", state_key=""),
- ]
- context: EventContext
- context = yield defer.ensureDeferred(
- self.state.compute_event_context(
- event,
- state_ids_before_event={
- (e.type, e.state_key): e.event_id for e in old_state
- },
- partial_state=False,
- )
- )
- prev_state_ids: StateMap[str]
- prev_state_ids = yield defer.ensureDeferred(context.get_prev_state_ids())
- self.assertCountEqual((e.event_id for e in old_state), prev_state_ids.values())
- current_state_ids: StateMap[str]
- current_state_ids = yield defer.ensureDeferred(context.get_current_state_ids())
- self.assertCountEqual(
- (e.event_id for e in old_state + [event]), current_state_ids.values()
- )
- self.assertIsNotNone(context.state_group_before_event)
- self.assertNotEqual(context.state_group_before_event, context.state_group)
- self.assertEqual(context.state_group_before_event, context.prev_group)
- self.assertEqual({("state", ""): event.event_id}, context.delta_ids)
- @defer.inlineCallbacks
- def test_trivial_annotate_message(
- self,
- ) -> Generator["defer.Deferred[object]", Any, None]:
- prev_event_id = "prev_event_id"
- event = create_event(
- type="test_message", name="event2", prev_events=[(prev_event_id, {})]
- )
- old_state = [
- create_event(type="test1", state_key="1"),
- create_event(type="test1", state_key="2"),
- create_event(type="test2", state_key=""),
- ]
- group_name = yield defer.ensureDeferred(
- self.dummy_store.store_state_group(
- prev_event_id,
- event.room_id,
- None,
- None,
- {(e.type, e.state_key): e.event_id for e in old_state},
- )
- )
- self.dummy_store.register_event_id_state_group(prev_event_id, group_name)
- context: EventContext
- context = yield defer.ensureDeferred(self.state.compute_event_context(event))
- current_state_ids: StateMap[str]
- current_state_ids = yield defer.ensureDeferred(context.get_current_state_ids())
- self.assertEqual(
- {e.event_id for e in old_state}, set(current_state_ids.values())
- )
- self.assertEqual(group_name, context.state_group)
- @defer.inlineCallbacks
- def test_trivial_annotate_state(
- self,
- ) -> Generator["defer.Deferred[object]", Any, None]:
- prev_event_id = "prev_event_id"
- event = create_event(
- type="state", state_key="", name="event2", prev_events=[(prev_event_id, {})]
- )
- old_state = [
- create_event(type="test1", state_key="1"),
- create_event(type="test1", state_key="2"),
- create_event(type="test2", state_key=""),
- ]
- group_name = yield defer.ensureDeferred(
- self.dummy_store.store_state_group(
- prev_event_id,
- event.room_id,
- None,
- None,
- {(e.type, e.state_key): e.event_id for e in old_state},
- )
- )
- self.dummy_store.register_event_id_state_group(prev_event_id, group_name)
- context: EventContext
- context = yield defer.ensureDeferred(self.state.compute_event_context(event))
- prev_state_ids: StateMap[str]
- prev_state_ids = yield defer.ensureDeferred(context.get_prev_state_ids())
- self.assertEqual({e.event_id for e in old_state}, set(prev_state_ids.values()))
- self.assertIsNotNone(context.state_group)
- @defer.inlineCallbacks
- def test_resolve_message_conflict(
- self,
- ) -> Generator["defer.Deferred[Any]", Any, None]:
- prev_event_id1 = "event_id1"
- prev_event_id2 = "event_id2"
- event = create_event(
- type="test_message",
- name="event3",
- prev_events=[(prev_event_id1, {}), (prev_event_id2, {})],
- )
- creation = create_event(type=EventTypes.Create, state_key="")
- old_state_1 = [
- creation,
- create_event(type="test1", state_key="1"),
- create_event(type="test1", state_key="2"),
- create_event(type="test2", state_key=""),
- ]
- old_state_2 = [
- creation,
- create_event(type="test1", state_key="1"),
- create_event(type="test3", state_key="2"),
- create_event(type="test4", state_key=""),
- ]
- self.dummy_store.register_events(old_state_1)
- self.dummy_store.register_events(old_state_2)
- context: EventContext
- context = yield self._get_context(
- event, prev_event_id1, old_state_1, prev_event_id2, old_state_2
- )
- current_state_ids: StateMap[str]
- current_state_ids = yield defer.ensureDeferred(context.get_current_state_ids())
- self.assertEqual(len(current_state_ids), 6)
- self.assertIsNotNone(context.state_group)
- @defer.inlineCallbacks
- def test_resolve_state_conflict(
- self,
- ) -> Generator["defer.Deferred[Any]", Any, None]:
- prev_event_id1 = "event_id1"
- prev_event_id2 = "event_id2"
- event = create_event(
- type="test4",
- state_key="",
- name="event",
- prev_events=[(prev_event_id1, {}), (prev_event_id2, {})],
- )
- creation = create_event(type=EventTypes.Create, state_key="")
- old_state_1 = [
- creation,
- create_event(type="test1", state_key="1"),
- create_event(type="test1", state_key="2"),
- create_event(type="test2", state_key=""),
- ]
- old_state_2 = [
- creation,
- create_event(type="test1", state_key="1"),
- create_event(type="test3", state_key="2"),
- create_event(type="test4", state_key=""),
- ]
- store = _DummyStore()
- store.register_events(old_state_1)
- store.register_events(old_state_2)
- self.dummy_store.get_events = store.get_events # type: ignore[assignment]
- context: EventContext
- context = yield self._get_context(
- event, prev_event_id1, old_state_1, prev_event_id2, old_state_2
- )
- current_state_ids: StateMap[str]
- current_state_ids = yield defer.ensureDeferred(context.get_current_state_ids())
- self.assertEqual(len(current_state_ids), 6)
- self.assertIsNotNone(context.state_group)
- @defer.inlineCallbacks
- def test_standard_depth_conflict(
- self,
- ) -> Generator["defer.Deferred[Any]", Any, None]:
- prev_event_id1 = "event_id1"
- prev_event_id2 = "event_id2"
- event = create_event(
- type="test4",
- name="event",
- prev_events=[(prev_event_id1, {}), (prev_event_id2, {})],
- )
- member_event = create_event(
- type=EventTypes.Member,
- state_key="@user_id:example.com",
- content={"membership": Membership.JOIN},
- )
- power_levels = create_event(
- type=EventTypes.PowerLevels,
- state_key="",
- content={"users": {"@foo:bar": "100", "@user_id:example.com": "100"}},
- )
- creation = create_event(
- type=EventTypes.Create, state_key="", content={"creator": "@foo:bar"}
- )
- old_state_1 = [
- creation,
- power_levels,
- member_event,
- create_event(type="test1", state_key="1", depth=1),
- ]
- old_state_2 = [
- creation,
- power_levels,
- member_event,
- create_event(type="test1", state_key="1", depth=2),
- ]
- store = _DummyStore()
- store.register_events(old_state_1)
- store.register_events(old_state_2)
- self.dummy_store.get_events = store.get_events # type: ignore[assignment]
- context: EventContext
- context = yield self._get_context(
- event, prev_event_id1, old_state_1, prev_event_id2, old_state_2
- )
- current_state_ids: StateMap[str]
- current_state_ids = yield defer.ensureDeferred(context.get_current_state_ids())
- self.assertEqual(old_state_2[3].event_id, current_state_ids[("test1", "1")])
- # Reverse the depth to make sure we are actually using the depths
- # during state resolution.
- old_state_1 = [
- creation,
- power_levels,
- member_event,
- create_event(type="test1", state_key="1", depth=2),
- ]
- old_state_2 = [
- creation,
- power_levels,
- member_event,
- create_event(type="test1", state_key="1", depth=1),
- ]
- store.register_events(old_state_1)
- store.register_events(old_state_2)
- context = yield self._get_context(
- event, prev_event_id1, old_state_1, prev_event_id2, old_state_2
- )
- current_state_ids = yield defer.ensureDeferred(context.get_current_state_ids())
- self.assertEqual(old_state_1[3].event_id, current_state_ids[("test1", "1")])
- @defer.inlineCallbacks
- def _get_context(
- self,
- event: EventBase,
- prev_event_id_1: str,
- old_state_1: Collection[EventBase],
- prev_event_id_2: str,
- old_state_2: Collection[EventBase],
- ) -> Generator["defer.Deferred[object]", Any, EventContext]:
- sg1: int
- sg1 = yield defer.ensureDeferred(
- self.dummy_store.store_state_group(
- prev_event_id_1,
- event.room_id,
- None,
- None,
- {(e.type, e.state_key): e.event_id for e in old_state_1},
- )
- )
- self.dummy_store.register_event_id_state_group(prev_event_id_1, sg1)
- sg2: int
- sg2 = yield defer.ensureDeferred(
- self.dummy_store.store_state_group(
- prev_event_id_2,
- event.room_id,
- None,
- None,
- {(e.type, e.state_key): e.event_id for e in old_state_2},
- )
- )
- self.dummy_store.register_event_id_state_group(prev_event_id_2, sg2)
- result = yield defer.ensureDeferred(self.state.compute_event_context(event))
- return result
- def test_make_state_cache_entry(self) -> None:
- "Test that calculating a prev_group and delta is correct"
- new_state = {
- ("a", ""): "E",
- ("b", ""): "E",
- ("c", ""): "E",
- ("d", ""): "E",
- }
- # old_state_1 has fewer differences to new_state than old_state_2, but
- # the delta involves deleting a key, which isn't allowed in the deltas,
- # so we should pick old_state_2 as the prev_group.
- # `old_state_1` has two differences: `a` and `e`
- old_state_1 = {
- ("a", ""): "F",
- ("b", ""): "E",
- ("c", ""): "E",
- ("d", ""): "E",
- ("e", ""): "E",
- }
- # `old_state_2` has three differences: `a`, `c` and `d`
- old_state_2 = {
- ("a", ""): "F",
- ("b", ""): "E",
- ("c", ""): "F",
- ("d", ""): "F",
- }
- entry = _make_state_cache_entry(new_state, {1: old_state_1, 2: old_state_2})
- self.assertEqual(entry.prev_group, 2)
- # There are three changes from `old_state_2` to `new_state`
- self.assertEqual(
- entry.delta_ids, {("a", ""): "E", ("c", ""): "E", ("d", ""): "E"}
- )
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