Test cases for sync of state from DAG branches

This commit is contained in:
Hugh Nimmo-Smith 2024-10-25 15:52:08 +01:00
parent 69e9b75373
commit 96425d4071

View file

@ -710,11 +710,300 @@ class SyncTestCase(tests.unittest.HomeserverTestCase):
[e.event_id for e in room_sync.timeline.events],
[e4_event, e5_event],
)
def test_state_after_on_branches_winner_at_end_of_timeline(self) -> None:
r"""Test `state` and `state_after` where not all information is in `state` + `timeline`.
-----|---------- initial sync
|
unrelated state event
|
S1
-----|---------- incremental sync 1
| S2
--|------|------ incremental sync 2
E3 E4
--|------|------ incremental sync 3
| |
\ S2 wins
E5
-----|---------- incremental sync 4
The "interesting" sync is sync 3. At the end of sync 3 the server doesn't know which branch will win.
"""
alice = self.register_user("alice", "password")
alice_tok = self.login(alice, "password")
alice_requester = create_requester(alice)
room_id = self.helper.create_room_as(alice, is_public=True, tok=alice_tok)
# Do an initial sync to get a known starting point.
initial_sync_result = self.get_success(
self.sync_handler.wait_for_sync_for_user(
alice_requester,
generate_sync_config(alice),
sync_version=SyncVersion.SYNC_V2,
request_key=generate_request_key(),
)
)
# Send an unrelated state event which doesn't change across the branches
unrelated_state_event = self.helper.send_state(
room_id, "m.something.else", {"node": "S1"}, tok=alice_tok
)["event_id"]
# Send S1
s1_event = self.helper.send_state(
room_id, "m.call.member", {"node": "S1"}, tok=alice_tok
)["event_id"]
# Incremental sync 1
incremental_sync = self.get_success(
self.sync_handler.wait_for_sync_for_user(
alice_requester,
generate_sync_config(alice),
sync_version=SyncVersion.SYNC_V2,
request_key=generate_request_key(),
since_token=initial_sync_result.next_batch,
)
)
room_sync = incremental_sync.joined[0]
self.assertEqual(room_sync.room_id, room_id)
self.assertEqual(room_sync.state, {})
self.assertEqual(
[e.event_id for e in room_sync.timeline.events],
[unrelated_state_event, s1_event],
)
# Send S2 -> S1
s2_event = self.helper.send_state(
room_id, "m.call.member", {"node": "S2"}, tok=alice_tok
)["event_id"]
# Incremental sync 2
incremental_sync = self.get_success(
self.sync_handler.wait_for_sync_for_user(
alice_requester,
generate_sync_config(alice),
sync_version=SyncVersion.SYNC_V2,
request_key=generate_request_key(),
since_token=incremental_sync.next_batch,
)
)
room_sync = incremental_sync.joined[0]
self.assertEqual(room_sync.room_id, room_id)
self.assertEqual(room_sync.state, {})
self.assertEqual(
[e.event_id for e in room_sync.timeline.events],
[s2_event],
)
# Send two regular events on different branches:
# E3 -> S1
# E4 -> S2
with self._patch_get_latest_events([s1_event]):
e3_event = self.helper.send(room_id, "E3", tok=alice_tok)["event_id"]
with self._patch_get_latest_events([s2_event]):
e4_event = self.helper.send(room_id, "E4", tok=alice_tok)["event_id"]
# Incremental sync 3
incremental_sync = self.get_success(
self.sync_handler.wait_for_sync_for_user(
alice_requester,
generate_sync_config(alice),
sync_version=SyncVersion.SYNC_V2,
request_key=generate_request_key(),
since_token=incremental_sync.next_batch,
)
)
room_sync = incremental_sync.joined[0]
self.assertEqual(room_sync.room_id, room_id)
self.assertEqual(
[e.event_id for e in room_sync.state.values()],
[
s1_event
], # S1 is repeated because it is the state at the start of the timeline (before E3)
)
self.assertEqual(
[e.event_id for e in room_sync.timeline.events],
[
e3_event,
e4_event,
], # We have two events from different timelines neither of which are state events
)
# Send E5 which resolves the branches
e5_event = self.helper.send(room_id, "E5", tok=alice_tok)["event_id"]
# Incremental sync 4
incremental_sync = self.get_success(
self.sync_handler.wait_for_sync_for_user(
alice_requester,
generate_sync_config(alice),
sync_version=SyncVersion.SYNC_V2,
request_key=generate_request_key(),
since_token=incremental_sync.next_batch,
)
)
room_sync = incremental_sync.joined[0]
self.assertEqual(room_sync.room_id, room_id)
self.assertEqual(room_sync.state, {})
self.assertEqual(
[e.event_id for e in room_sync.timeline.events],
[e5_event],
)
# Problem: S2 is the winning state event but the last state event the client saw was S1.
def test_state_after_on_branches_winner_at_start_of_timeline(self) -> None:
r"""Test `state` and `state_after` where not all information is in `state` + `timeline`.
-----|---------- initial sync
|
S1
-----|---------- incremental sync 1
| S2
--|------|------ incremental sync 2
S3 E4
--|------|------ incremental sync 3
| |
/ S3 wins
E5
-----|---------- incremental sync 4
The "interesting" sync is sync 3. At the end of sync 3 the server doesn't know which branch will win.
"""
alice = self.register_user("alice", "password")
alice_tok = self.login(alice, "password")
alice_requester = create_requester(alice)
room_id = self.helper.create_room_as(alice, is_public=True, tok=alice_tok)
# Do an initial sync to get a known starting point.
initial_sync_result = self.get_success(
self.sync_handler.wait_for_sync_for_user(
alice_requester,
generate_sync_config(alice),
sync_version=SyncVersion.SYNC_V2,
request_key=generate_request_key(),
)
)
# Send an unrelated state event which doesn't change across the branches
unrelated_state_event = self.helper.send_state(
room_id, "m.something.else", {"node": "S1"}, tok=alice_tok
)["event_id"]
# Send S1
s1_event = self.helper.send_state(
room_id, "m.call.member", {"node": "S1"}, tok=alice_tok
)["event_id"]
# Incremental sync 1
incremental_sync = self.get_success(
self.sync_handler.wait_for_sync_for_user(
alice_requester,
generate_sync_config(alice),
sync_version=SyncVersion.SYNC_V2,
request_key=generate_request_key(),
since_token=initial_sync_result.next_batch,
)
)
room_sync = incremental_sync.joined[0]
self.assertEqual(room_sync.room_id, room_id)
self.assertEqual(room_sync.state, {})
self.assertEqual(
[e.event_id for e in room_sync.timeline.events],
[unrelated_state_event, s1_event],
)
# Send S2 -> S1
s2_event = self.helper.send_state(
room_id, "m.call.member", {"node": "S2"}, tok=alice_tok
)["event_id"]
# Incremental sync 2
incremental_sync = self.get_success(
self.sync_handler.wait_for_sync_for_user(
alice_requester,
generate_sync_config(alice),
sync_version=SyncVersion.SYNC_V2,
request_key=generate_request_key(),
since_token=incremental_sync.next_batch,
)
)
room_sync = incremental_sync.joined[0]
self.assertEqual(room_sync.room_id, room_id)
self.assertEqual(room_sync.state, {})
self.assertEqual(
[e.event_id for e in room_sync.timeline.events],
[s2_event],
)
# Send two events on different branches:
# S3 -> S1
# E4 -> S2
with self._patch_get_latest_events([s1_event]):
s3_event = self.helper.send_state(
room_id, "m.call.member", {"node": "S3"}, tok=alice_tok
)["event_id"]
with self._patch_get_latest_events([s2_event]):
e4_event = self.helper.send(room_id, "E4", tok=alice_tok)["event_id"]
# Incremental sync 3
incremental_sync = self.get_success(
self.sync_handler.wait_for_sync_for_user(
alice_requester,
generate_sync_config(alice),
sync_version=SyncVersion.SYNC_V2,
request_key=generate_request_key(),
since_token=incremental_sync.next_batch,
)
)
room_sync = incremental_sync.joined[0]
self.assertEqual(room_sync.room_id, room_id)
self.assertEqual(room_sync.state, {})
self.assertEqual(
[e.event_id for e in room_sync.timeline.events],
[
s3_event,
e4_event,
], # We have two events from different timelines
)
# Send E5 which resolves the branches with S3 winning
e5_event = self.helper.send(room_id, "E5", tok=alice_tok)["event_id"]
# Incremental sync 4
incremental_sync = self.get_success(
self.sync_handler.wait_for_sync_for_user(
alice_requester,
generate_sync_config(alice),
sync_version=SyncVersion.SYNC_V2,
request_key=generate_request_key(),
since_token=incremental_sync.next_batch,
)
)
room_sync = incremental_sync.joined[0]
self.assertEqual(room_sync.room_id, room_id)
self.assertEqual(
[e.event_id for e in room_sync.state.values()],
[s3_event], # S3 is the winning state event
)
self.assertEqual(
[e.event_id for e in room_sync.timeline.events],
[e5_event],
)
@parameterized.expand(
[
(False, False),