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Add an approximate difference method to StateFilters (#10825)

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reivilibre 2021-10-12 10:44:59 +01:00 committed by GitHub
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3 changed files with 683 additions and 3 deletions
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1
changelog.d/10825.misc Normal file
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@ -0,0 +1 @@
Add an 'approximate difference' method to `StateFilter`.

172
synapse/storage/state.py
View File

@ -15,9 +15,11 @@ import logging
from typing import ( from typing import (
TYPE_CHECKING, TYPE_CHECKING,
Awaitable, Awaitable,
Collection,
Dict, Dict,
Iterable, Iterable,
List, List,
Mapping,
Optional, Optional,
Set, Set,
Tuple, Tuple,
@ -29,7 +31,7 @@ from frozendict import frozendict
from synapse.api.constants import EventTypes from synapse.api.constants import EventTypes
from synapse.events import EventBase from synapse.events import EventBase
from synapse.types import MutableStateMap, StateMap from synapse.types import MutableStateMap, StateKey, StateMap
if TYPE_CHECKING: if TYPE_CHECKING:
from typing import FrozenSet # noqa: used within quoted type hint; flake8 sad from typing import FrozenSet # noqa: used within quoted type hint; flake8 sad
@ -134,6 +136,23 @@ class StateFilter:
include_others=True, include_others=True,
) )
@staticmethod
def freeze(types: Mapping[str, Optional[Collection[str]]], include_others: bool):
"""
Returns a (frozen) StateFilter with the same contents as the parameters
specified here, which can be made of mutable types.
"""
types_with_frozen_values: Dict[str, Optional[FrozenSet[str]]] = {}
for state_types, state_keys in types.items():
if state_keys is not None:
types_with_frozen_values[state_types] = frozenset(state_keys)
else:
types_with_frozen_values[state_types] = None
return StateFilter(
frozendict(types_with_frozen_values), include_others=include_others
)
def return_expanded(self) -> "StateFilter": def return_expanded(self) -> "StateFilter":
"""Creates a new StateFilter where type wild cards have been removed """Creates a new StateFilter where type wild cards have been removed
(except for memberships). The returned filter is a superset of the (except for memberships). The returned filter is a superset of the
@ -356,6 +375,157 @@ class StateFilter:
return member_filter, non_member_filter return member_filter, non_member_filter
def _decompose_into_four_parts(
self,
) -> Tuple[Tuple[bool, Set[str]], Tuple[Set[str], Set[StateKey]]]:
"""
Decomposes this state filter into 4 constituent parts, which can be
thought of as this:
all? - minus_wildcards + plus_wildcards + plus_state_keys
where
* all represents ALL state
* minus_wildcards represents entire state types to remove
* plus_wildcards represents entire state types to add
* plus_state_keys represents individual state keys to add
See `recompose_from_four_parts` for the other direction of this
correspondence.
"""
is_all = self.include_others
excluded_types: Set[str] = {t for t in self.types if is_all}
wildcard_types: Set[str] = {t for t, s in self.types.items() if s is None}
concrete_keys: Set[StateKey] = set(self.concrete_types())
return (is_all, excluded_types), (wildcard_types, concrete_keys)
@staticmethod
def _recompose_from_four_parts(
all_part: bool,
minus_wildcards: Set[str],
plus_wildcards: Set[str],
plus_state_keys: Set[StateKey],
) -> "StateFilter":
"""
Recomposes a state filter from 4 parts.
See `decompose_into_four_parts` (the other direction of this
correspondence) for descriptions on each of the parts.
"""
# {state type -> set of state keys OR None for wildcard}
# (The same structure as that of a StateFilter.)
new_types: Dict[str, Optional[Set[str]]] = {}
# if we start with all, insert the excluded statetypes as empty sets
# to prevent them from being included
if all_part:
new_types.update({state_type: set() for state_type in minus_wildcards})
# insert the plus wildcards
new_types.update({state_type: None for state_type in plus_wildcards})
# insert the specific state keys
for state_type, state_key in plus_state_keys:
if state_type in new_types:
entry = new_types[state_type]
if entry is not None:
entry.add(state_key)
elif not all_part:
# don't insert if the entire type is already included by
# include_others as this would actually shrink the state allowed
# by this filter.
new_types[state_type] = {state_key}
return StateFilter.freeze(new_types, include_others=all_part)
def approx_difference(self, other: "StateFilter") -> "StateFilter":
"""
Returns a state filter which represents `self - other`.
This is useful for determining what state remains to be pulled out of the
database if we want the state included by `self` but already have the state
included by `other`.
The returned state filter
- MUST include all state events that are included by this filter (`self`)
unless they are included by `other`;
- MUST NOT include state events not included by this filter (`self`); and
- MAY be an over-approximation: the returned state filter
MAY additionally include some state events from `other`.
This implementation attempts to return the narrowest such state filter.
In the case that `self` contains wildcards for state types where
`other` contains specific state keys, an approximation must be made:
the returned state filter keeps the wildcard, as state filters are not
able to express 'all state keys except some given examples'.
e.g.
StateFilter(m.room.member -> None (wildcard))
minus
StateFilter(m.room.member -> {'@wombat:example.org'})
is approximated as
StateFilter(m.room.member -> None (wildcard))
"""
# We first transform self and other into an alternative representation:
# - whether or not they include all events to begin with ('all')
# - if so, which event types are excluded? ('excludes')
# - which entire event types to include ('wildcards')
# - which concrete state keys to include ('concrete state keys')
(self_all, self_excludes), (
self_wildcards,
self_concrete_keys,
) = self._decompose_into_four_parts()
(other_all, other_excludes), (
other_wildcards,
other_concrete_keys,
) = other._decompose_into_four_parts()
# Start with an estimate of the difference based on self
new_all = self_all
# Wildcards from the other can be added to the exclusion filter
new_excludes = self_excludes | other_wildcards
# We remove wildcards that appeared as wildcards in the other
new_wildcards = self_wildcards - other_wildcards
# We filter out the concrete state keys that appear in the other
# as wildcards or concrete state keys.
new_concrete_keys = {
(state_type, state_key)
for (state_type, state_key) in self_concrete_keys
if state_type not in other_wildcards
} - other_concrete_keys
if other_all:
if self_all:
# If self starts with all, then we add as wildcards any
# types which appear in the other's exclusion filter (but
# aren't in the self exclusion filter). This is as the other
# filter will return everything BUT the types in its exclusion, so
# we need to add those excluded types that also match the self
# filter as wildcard types in the new filter.
new_wildcards |= other_excludes.difference(self_excludes)
# If other is an `include_others` then the difference isn't.
new_all = False
# (We have no need for excludes when we don't start with all, as there
# is nothing to exclude.)
new_excludes = set()
# We also filter out all state types that aren't in the exclusion
# list of the other.
new_wildcards &= other_excludes
new_concrete_keys = {
(state_type, state_key)
for (state_type, state_key) in new_concrete_keys
if state_type in other_excludes
}
# Transform our newly-constructed state filter from the alternative
# representation back into the normal StateFilter representation.
return StateFilter._recompose_from_four_parts(
new_all, new_excludes, new_wildcards, new_concrete_keys
)
class StateGroupStorage: class StateGroupStorage:
"""High level interface to fetching state for event.""" """High level interface to fetching state for event."""

513
tests/storage/test_state.py
View File

@ -21,7 +21,7 @@ from synapse.api.room_versions import RoomVersions
from synapse.storage.state import StateFilter from synapse.storage.state import StateFilter
from synapse.types import RoomID, UserID from synapse.types import RoomID, UserID
from tests.unittest import HomeserverTestCase from tests.unittest import HomeserverTestCase, TestCase
logger = logging.getLogger(__name__) logger = logging.getLogger(__name__)
@ -105,7 +105,6 @@ class StateStoreTestCase(HomeserverTestCase):
self.assertEqual({ev.event_id for ev in state_list}, {e1.event_id, e2.event_id}) self.assertEqual({ev.event_id for ev in state_list}, {e1.event_id, e2.event_id})
def test_get_state_for_event(self): def test_get_state_for_event(self):
# this defaults to a linear DAG as each new injection defaults to whatever # this defaults to a linear DAG as each new injection defaults to whatever
# forward extremities are currently in the DB for this room. # forward extremities are currently in the DB for this room.
e1 = self.inject_state_event(self.room, self.u_alice, EventTypes.Create, "", {}) e1 = self.inject_state_event(self.room, self.u_alice, EventTypes.Create, "", {})
@ -483,3 +482,513 @@ class StateStoreTestCase(HomeserverTestCase):
self.assertEqual(is_all, True) self.assertEqual(is_all, True)
self.assertDictEqual({(e5.type, e5.state_key): e5.event_id}, state_dict) self.assertDictEqual({(e5.type, e5.state_key): e5.event_id}, state_dict)
class StateFilterDifferenceTestCase(TestCase):
def assert_difference(
self, minuend: StateFilter, subtrahend: StateFilter, expected: StateFilter
):
self.assertEqual(
minuend.approx_difference(subtrahend),
expected,
f"StateFilter difference not correct:\n\n\t{minuend!r}\nminus\n\t{subtrahend!r}\nwas\n\t{minuend.approx_difference(subtrahend)}\nexpected\n\t{expected}",
)
def test_state_filter_difference_no_include_other_minus_no_include_other(self):
"""
Tests the StateFilter.approx_difference method
where, in a.approx_difference(b), both a and b do not have the
include_others flag set.
"""
# (wildcard on state keys) - (wildcard on state keys):
self.assert_difference(
StateFilter.freeze(
{EventTypes.Member: None, EventTypes.Create: None},
include_others=False,
),
StateFilter.freeze(
{EventTypes.Member: None, EventTypes.CanonicalAlias: None},
include_others=False,
),
StateFilter.freeze({EventTypes.Create: None}, include_others=False),
)
# (wildcard on state keys) - (specific state keys)
# This one is an over-approximation because we can't represent
# 'all state keys except a few named examples'
self.assert_difference(
StateFilter.freeze({EventTypes.Member: None}, include_others=False),
StateFilter.freeze(
{EventTypes.Member: {"@wombat:spqr"}},
include_others=False,
),
StateFilter.freeze({EventTypes.Member: None}, include_others=False),
)
# (wildcard on state keys) - (no state keys)
self.assert_difference(
StateFilter.freeze(
{EventTypes.Member: None},
include_others=False,
),
StateFilter.freeze(
{
EventTypes.Member: set(),
},
include_others=False,
),
StateFilter.freeze(
{EventTypes.Member: None},
include_others=False,
),
)
# (specific state keys) - (wildcard on state keys):
self.assert_difference(
StateFilter.freeze(
{
EventTypes.Member: {"@wombat:spqr", "@spqr:spqr"},
EventTypes.CanonicalAlias: {""},
},
include_others=False,
),
StateFilter.freeze(
{EventTypes.Member: None},
include_others=False,
),
StateFilter.freeze(
{EventTypes.CanonicalAlias: {""}},
include_others=False,
),
)
# (specific state keys) - (specific state keys)
self.assert_difference(
StateFilter.freeze(
{
EventTypes.Member: {"@wombat:spqr", "@spqr:spqr"},
EventTypes.CanonicalAlias: {""},
},
include_others=False,
),
StateFilter.freeze(
{
EventTypes.Member: {"@wombat:spqr"},
},
include_others=False,
),
StateFilter.freeze(
{
EventTypes.Member: {"@spqr:spqr"},
EventTypes.CanonicalAlias: {""},
},
include_others=False,
),
)
# (specific state keys) - (no state keys)
self.assert_difference(
StateFilter.freeze(
{
EventTypes.Member: {"@wombat:spqr", "@spqr:spqr"},
EventTypes.CanonicalAlias: {""},
},
include_others=False,
),
StateFilter.freeze(
{
EventTypes.Member: set(),
},
include_others=False,
),
StateFilter.freeze(
{
EventTypes.Member: {"@wombat:spqr", "@spqr:spqr"},
EventTypes.CanonicalAlias: {""},
},
include_others=False,
),
)
def test_state_filter_difference_include_other_minus_no_include_other(self):
"""
Tests the StateFilter.approx_difference method
where, in a.approx_difference(b), only a has the include_others flag set.
"""
# (wildcard on state keys) - (wildcard on state keys):
self.assert_difference(
StateFilter.freeze(
{EventTypes.Member: None, EventTypes.Create: None},
include_others=True,
),
StateFilter.freeze(
{EventTypes.Member: None, EventTypes.CanonicalAlias: None},
include_others=False,
),
StateFilter.freeze(
{
EventTypes.Create: None,
EventTypes.Member: set(),
EventTypes.CanonicalAlias: set(),
},
include_others=True,
),
)
# (wildcard on state keys) - (specific state keys)
# This one is an over-approximation because we can't represent
# 'all state keys except a few named examples'
# This also shows that the resultant state filter is normalised.
self.assert_difference(
StateFilter.freeze({EventTypes.Member: None}, include_others=True),
StateFilter.freeze(
{
EventTypes.Member: {"@wombat:spqr"},
EventTypes.Create: {""},
},
include_others=False,
),
StateFilter(types=frozendict(), include_others=True),
)
# (wildcard on state keys) - (no state keys)
self.assert_difference(
StateFilter.freeze(
{EventTypes.Member: None},
include_others=True,
),
StateFilter.freeze(
{
EventTypes.Member: set(),
},
include_others=False,
),
StateFilter(
types=frozendict(),
include_others=True,
),
)
# (specific state keys) - (wildcard on state keys):
self.assert_difference(
StateFilter.freeze(
{
EventTypes.Member: {"@wombat:spqr", "@spqr:spqr"},
EventTypes.CanonicalAlias: {""},
},
include_others=True,
),
StateFilter.freeze(
{EventTypes.Member: None},
include_others=False,
),
StateFilter.freeze(
{
EventTypes.CanonicalAlias: {""},
EventTypes.Member: set(),
},
include_others=True,
),
)
# (specific state keys) - (specific state keys)
self.assert_difference(
StateFilter.freeze(
{
EventTypes.Member: {"@wombat:spqr", "@spqr:spqr"},
EventTypes.CanonicalAlias: {""},
},
include_others=True,
),
StateFilter.freeze(
{
EventTypes.Member: {"@wombat:spqr"},
},
include_others=False,
),
StateFilter.freeze(
{
EventTypes.Member: {"@spqr:spqr"},
EventTypes.CanonicalAlias: {""},
},
include_others=True,
),
)
# (specific state keys) - (no state keys)
self.assert_difference(
StateFilter.freeze(
{
EventTypes.Member: {"@wombat:spqr", "@spqr:spqr"},
EventTypes.CanonicalAlias: {""},
},
include_others=True,
),
StateFilter.freeze(
{
EventTypes.Member: set(),
},
include_others=False,
),
StateFilter.freeze(
{
EventTypes.Member: {"@wombat:spqr", "@spqr:spqr"},
EventTypes.CanonicalAlias: {""},
},
include_others=True,
),
)
def test_state_filter_difference_include_other_minus_include_other(self):
"""
Tests the StateFilter.approx_difference method
where, in a.approx_difference(b), both a and b have the include_others
flag set.
"""
# (wildcard on state keys) - (wildcard on state keys):
self.assert_difference(
StateFilter.freeze(
{EventTypes.Member: None, EventTypes.Create: None},
include_others=True,
),
StateFilter.freeze(
{EventTypes.Member: None, EventTypes.CanonicalAlias: None},
include_others=True,
),
StateFilter(types=frozendict(), include_others=False),
)
# (wildcard on state keys) - (specific state keys)
# This one is an over-approximation because we can't represent
# 'all state keys except a few named examples'
self.assert_difference(
StateFilter.freeze({EventTypes.Member: None}, include_others=True),
StateFilter.freeze(
{
EventTypes.Member: {"@wombat:spqr"},
EventTypes.CanonicalAlias: {""},
},
include_others=True,
),
StateFilter.freeze(
{EventTypes.Member: None, EventTypes.CanonicalAlias: None},
include_others=False,
),
)
# (wildcard on state keys) - (no state keys)
self.assert_difference(
StateFilter.freeze(
{EventTypes.Member: None},
include_others=True,
),
StateFilter.freeze(
{
EventTypes.Member: set(),
},
include_others=True,
),
StateFilter.freeze(
{EventTypes.Member: None},
include_others=False,
),
)
# (specific state keys) - (wildcard on state keys):
self.assert_difference(
StateFilter.freeze(
{
EventTypes.Member: {"@wombat:spqr", "@spqr:spqr"},
EventTypes.CanonicalAlias: {""},
},
include_others=True,
),
StateFilter.freeze(
{EventTypes.Member: None},
include_others=True,
),
StateFilter(
types=frozendict(),
include_others=False,
),
)
# (specific state keys) - (specific state keys)
# This one is an over-approximation because we can't represent
# 'all state keys except a few named examples'
self.assert_difference(
StateFilter.freeze(
{
EventTypes.Member: {"@wombat:spqr", "@spqr:spqr"},
EventTypes.CanonicalAlias: {""},
EventTypes.Create: {""},
},
include_others=True,
),
StateFilter.freeze(
{
EventTypes.Member: {"@wombat:spqr"},
EventTypes.Create: set(),
},
include_others=True,
),
StateFilter.freeze(
{
EventTypes.Member: {"@spqr:spqr"},
EventTypes.Create: {""},
},
include_others=False,
),
)
# (specific state keys) - (no state keys)
self.assert_difference(
StateFilter.freeze(
{
EventTypes.Member: {"@wombat:spqr", "@spqr:spqr"},
EventTypes.CanonicalAlias: {""},
},
include_others=True,
),
StateFilter.freeze(
{
EventTypes.Member: set(),
},
include_others=True,
),
StateFilter.freeze(
{
EventTypes.Member: {"@wombat:spqr", "@spqr:spqr"},
},
include_others=False,
),
)
def test_state_filter_difference_no_include_other_minus_include_other(self):
"""
Tests the StateFilter.approx_difference method
where, in a.approx_difference(b), only b has the include_others flag set.
"""
# (wildcard on state keys) - (wildcard on state keys):
self.assert_difference(
StateFilter.freeze(
{EventTypes.Member: None, EventTypes.Create: None},
include_others=False,
),
StateFilter.freeze(
{EventTypes.Member: None, EventTypes.CanonicalAlias: None},
include_others=True,
),
StateFilter(types=frozendict(), include_others=False),
)
# (wildcard on state keys) - (specific state keys)
# This one is an over-approximation because we can't represent
# 'all state keys except a few named examples'
self.assert_difference(
StateFilter.freeze({EventTypes.Member: None}, include_others=False),
StateFilter.freeze(
{EventTypes.Member: {"@wombat:spqr"}},
include_others=True,
),
StateFilter.freeze({EventTypes.Member: None}, include_others=False),
)
# (wildcard on state keys) - (no state keys)
self.assert_difference(
StateFilter.freeze(
{EventTypes.Member: None},
include_others=False,
),
StateFilter.freeze(
{
EventTypes.Member: set(),
},
include_others=True,
),
StateFilter.freeze(
{EventTypes.Member: None},
include_others=False,
),
)
# (specific state keys) - (wildcard on state keys):
self.assert_difference(
StateFilter.freeze(
{
EventTypes.Member: {"@wombat:spqr", "@spqr:spqr"},
EventTypes.CanonicalAlias: {""},
},
include_others=False,
),
StateFilter.freeze(
{EventTypes.Member: None},
include_others=True,
),
StateFilter(
types=frozendict(),
include_others=False,
),
)
# (specific state keys) - (specific state keys)
# This one is an over-approximation because we can't represent
# 'all state keys except a few named examples'
self.assert_difference(
StateFilter.freeze(
{
EventTypes.Member: {"@wombat:spqr", "@spqr:spqr"},
EventTypes.CanonicalAlias: {""},
},
include_others=False,
),
StateFilter.freeze(
{
EventTypes.Member: {"@wombat:spqr"},
},
include_others=True,
),
StateFilter.freeze(
{
EventTypes.Member: {"@spqr:spqr"},
},
include_others=False,
),
)
# (specific state keys) - (no state keys)
self.assert_difference(
StateFilter.freeze(
{
EventTypes.Member: {"@wombat:spqr", "@spqr:spqr"},
EventTypes.CanonicalAlias: {""},
},
include_others=False,
),
StateFilter.freeze(
{
EventTypes.Member: set(),
},
include_others=True,
),
StateFilter.freeze(
{
EventTypes.Member: {"@wombat:spqr", "@spqr:spqr"},
},
include_others=False,
),
)
def test_state_filter_difference_simple_cases(self):
"""
Tests some very simple cases of the StateFilter approx_difference,
that are not explicitly tested by the more in-depth tests.
"""
self.assert_difference(StateFilter.all(), StateFilter.all(), StateFilter.none())
self.assert_difference(
StateFilter.all(),
StateFilter.none(),
StateFilter.all(),
)