Correctly handle unpersisted events when calculating auth chain difference. (#8827)

We do state res with unpersisted events when calculating the new current state of the room, so that should be the only thing impacted. I don't think this is tooooo big of a deal as:

1. the next time a state event happens in the room the current state should correct itself;
2. in the common case all the unpersisted events' auth events will be pulled in by other state, so will still return the correct result (or one which is sufficiently close to not affect the result); and
3. we mostly use the state at an event to do important operations, which isn't affected by this.
This commit is contained in:
Erik Johnston 2020-12-02 15:22:37 +00:00 committed by GitHub
parent 0fed46ebe5
commit c5b6abd53d
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4 changed files with 216 additions and 5 deletions

1
changelog.d/8827.bugfix Normal file
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@ -0,0 +1 @@
Fix bug where we might not correctly calculate the current state for rooms with multiple extremities.

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@ -38,7 +38,7 @@ from synapse.api.constants import EventTypes
from synapse.api.errors import AuthError
from synapse.api.room_versions import KNOWN_ROOM_VERSIONS
from synapse.events import EventBase
from synapse.types import MutableStateMap, StateMap
from synapse.types import Collection, MutableStateMap, StateMap
from synapse.util import Clock
logger = logging.getLogger(__name__)
@ -252,9 +252,88 @@ async def _get_auth_chain_difference(
Set of event IDs
"""
difference = await state_res_store.get_auth_chain_difference(
[set(state_set.values()) for state_set in state_sets]
)
# The `StateResolutionStore.get_auth_chain_difference` function assumes that
# all events passed to it (and their auth chains) have been persisted
# previously. This is not the case for any events in the `event_map`, and so
# we need to manually handle those events.
#
# We do this by:
# 1. calculating the auth chain difference for the state sets based on the
# events in `event_map` alone
# 2. replacing any events in the state_sets that are also in `event_map`
# with their auth events (recursively), and then calling
# `store.get_auth_chain_difference` as normal
# 3. adding the results of 1 and 2 together.
# Map from event ID in `event_map` to their auth event IDs, and their auth
# event IDs if they appear in the `event_map`. This is the intersection of
# the event's auth chain with the events in the `event_map` *plus* their
# auth event IDs.
events_to_auth_chain = {} # type: Dict[str, Set[str]]
for event in event_map.values():
chain = {event.event_id}
events_to_auth_chain[event.event_id] = chain
to_search = [event]
while to_search:
for auth_id in to_search.pop().auth_event_ids():
chain.add(auth_id)
auth_event = event_map.get(auth_id)
if auth_event:
to_search.append(auth_event)
# We now a) calculate the auth chain difference for the unpersisted events
# and b) work out the state sets to pass to the store.
#
# Note: If the `event_map` is empty (which is the common case), we can do a
# much simpler calculation.
if event_map:
# The list of state sets to pass to the store, where each state set is a set
# of the event ids making up the state. This is similar to `state_sets`,
# except that (a) we only have event ids, not the complete
# ((type, state_key)->event_id) mappings; and (b) we have stripped out
# unpersisted events and replaced them with the persisted events in
# their auth chain.
state_sets_ids = [] # type: List[Set[str]]
# For each state set, the unpersisted event IDs reachable (by their auth
# chain) from the events in that set.
unpersisted_set_ids = [] # type: List[Set[str]]
for state_set in state_sets:
set_ids = set() # type: Set[str]
state_sets_ids.append(set_ids)
unpersisted_ids = set() # type: Set[str]
unpersisted_set_ids.append(unpersisted_ids)
for event_id in state_set.values():
event_chain = events_to_auth_chain.get(event_id)
if event_chain is not None:
# We have an event in `event_map`. We add all the auth
# events that it references (that aren't also in `event_map`).
set_ids.update(e for e in event_chain if e not in event_map)
# We also add the full chain of unpersisted event IDs
# referenced by this state set, so that we can work out the
# auth chain difference of the unpersisted events.
unpersisted_ids.update(e for e in event_chain if e in event_map)
else:
set_ids.add(event_id)
# The auth chain difference of the unpersisted events of the state sets
# is calculated by taking the difference between the union and
# intersections.
union = unpersisted_set_ids[0].union(*unpersisted_set_ids[1:])
intersection = unpersisted_set_ids[0].intersection(*unpersisted_set_ids[1:])
difference_from_event_map = union - intersection # type: Collection[str]
else:
difference_from_event_map = ()
state_sets_ids = [set(state_set.values()) for state_set in state_sets]
difference = await state_res_store.get_auth_chain_difference(state_sets_ids)
difference.update(difference_from_event_map)
return difference

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@ -24,7 +24,11 @@ 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.state.v2 import (
_get_auth_chain_difference,
lexicographical_topological_sort,
resolve_events_with_store,
)
from synapse.types import EventID
from tests import unittest
@ -587,6 +591,128 @@ class SimpleParamStateTestCase(unittest.TestCase):
self.assert_dict(self.expected_combined_state, state)
class AuthChainDifferenceTestCase(unittest.TestCase):
"""We test that `_get_auth_chain_difference` correctly handles unpersisted
events.
"""
def test_simple(self):
# Test getting the auth difference for a simple chain with a single
# unpersisted event:
#
# Unpersisted | Persisted
# |
# C -|-> B -> A
a = FakeEvent(
id="A", sender=ALICE, type=EventTypes.Member, state_key="", content={},
).to_event([], [])
b = FakeEvent(
id="B", sender=ALICE, type=EventTypes.Member, state_key="", content={},
).to_event([a.event_id], [])
c = FakeEvent(
id="C", sender=ALICE, type=EventTypes.Member, state_key="", content={},
).to_event([b.event_id], [])
persisted_events = {a.event_id: a, b.event_id: b}
unpersited_events = {c.event_id: c}
state_sets = [{"a": a.event_id, "b": b.event_id}, {"c": c.event_id}]
store = TestStateResolutionStore(persisted_events)
diff_d = _get_auth_chain_difference(state_sets, unpersited_events, store)
difference = self.successResultOf(defer.ensureDeferred(diff_d))
self.assertEqual(difference, {c.event_id})
def test_multiple_unpersisted_chain(self):
# Test getting the auth difference for a simple chain with multiple
# unpersisted events:
#
# Unpersisted | Persisted
# |
# D -> C -|-> B -> A
a = FakeEvent(
id="A", sender=ALICE, type=EventTypes.Member, state_key="", content={},
).to_event([], [])
b = FakeEvent(
id="B", sender=ALICE, type=EventTypes.Member, state_key="", content={},
).to_event([a.event_id], [])
c = FakeEvent(
id="C", sender=ALICE, type=EventTypes.Member, state_key="", content={},
).to_event([b.event_id], [])
d = FakeEvent(
id="D", sender=ALICE, type=EventTypes.Member, state_key="", content={},
).to_event([c.event_id], [])
persisted_events = {a.event_id: a, b.event_id: b}
unpersited_events = {c.event_id: c, d.event_id: d}
state_sets = [
{"a": a.event_id, "b": b.event_id},
{"c": c.event_id, "d": d.event_id},
]
store = TestStateResolutionStore(persisted_events)
diff_d = _get_auth_chain_difference(state_sets, unpersited_events, store)
difference = self.successResultOf(defer.ensureDeferred(diff_d))
self.assertEqual(difference, {d.event_id, c.event_id})
def test_unpersisted_events_different_sets(self):
# Test getting the auth difference for with multiple unpersisted events
# in different branches:
#
# Unpersisted | Persisted
# |
# D --> C -|-> B -> A
# E ----^ -|---^
# |
a = FakeEvent(
id="A", sender=ALICE, type=EventTypes.Member, state_key="", content={},
).to_event([], [])
b = FakeEvent(
id="B", sender=ALICE, type=EventTypes.Member, state_key="", content={},
).to_event([a.event_id], [])
c = FakeEvent(
id="C", sender=ALICE, type=EventTypes.Member, state_key="", content={},
).to_event([b.event_id], [])
d = FakeEvent(
id="D", sender=ALICE, type=EventTypes.Member, state_key="", content={},
).to_event([c.event_id], [])
e = FakeEvent(
id="E", sender=ALICE, type=EventTypes.Member, state_key="", content={},
).to_event([c.event_id, b.event_id], [])
persisted_events = {a.event_id: a, b.event_id: b}
unpersited_events = {c.event_id: c, d.event_id: d, e.event_id: e}
state_sets = [
{"a": a.event_id, "b": b.event_id, "e": e.event_id},
{"c": c.event_id, "d": d.event_id},
]
store = TestStateResolutionStore(persisted_events)
diff_d = _get_auth_chain_difference(state_sets, unpersited_events, store)
difference = self.successResultOf(defer.ensureDeferred(diff_d))
self.assertEqual(difference, {d.event_id, e.event_id})
def pairwise(iterable):
"s -> (s0,s1), (s1,s2), (s2, s3), ..."
a, b = itertools.tee(iterable)

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@ -216,6 +216,11 @@ class EventFederationWorkerStoreTestCase(tests.unittest.HomeserverTestCase):
)
self.assertSetEqual(difference, {"a", "b", "c"})
difference = self.get_success(
self.store.get_auth_chain_difference([{"a", "c"}, {"b", "c"}])
)
self.assertSetEqual(difference, {"a", "b"})
difference = self.get_success(
self.store.get_auth_chain_difference([{"a"}, {"b"}, {"d"}])
)