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Back out in-flight state caching changes. (#12126)
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Deduplicate in-flight requests in `_get_state_for_groups`.
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Deduplicate in-flight requests in `_get_state_for_groups`.
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Deduplicate in-flight requests in `_get_state_for_groups`.
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Deduplicate in-flight requests in `_get_state_for_groups`.
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changelog.d/12126.removal
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changelog.d/12126.removal
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@ -0,0 +1 @@
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Back out in-flight state caching changes.
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@ -13,24 +13,11 @@
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# limitations under the License.
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import logging
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from typing import (
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TYPE_CHECKING,
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Collection,
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Dict,
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Iterable,
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Optional,
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Sequence,
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Set,
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Tuple,
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)
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from typing import TYPE_CHECKING, Collection, Dict, Iterable, List, Optional, Set, Tuple
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import attr
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from sortedcontainers import SortedDict
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from twisted.internet import defer
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from synapse.api.constants import EventTypes
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from synapse.logging.context import make_deferred_yieldable, run_in_background
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from synapse.storage._base import SQLBaseStore
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from synapse.storage.database import (
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DatabasePool,
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@ -42,12 +29,6 @@ from synapse.storage.state import StateFilter
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from synapse.storage.types import Cursor
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from synapse.storage.util.sequence import build_sequence_generator
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from synapse.types import MutableStateMap, StateKey, StateMap
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from synapse.util import unwrapFirstError
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from synapse.util.async_helpers import (
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AbstractObservableDeferred,
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ObservableDeferred,
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yieldable_gather_results,
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)
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from synapse.util.caches.descriptors import cached
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from synapse.util.caches.dictionary_cache import DictionaryCache
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@ -56,8 +37,8 @@ if TYPE_CHECKING:
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logger = logging.getLogger(__name__)
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MAX_STATE_DELTA_HOPS = 100
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MAX_INFLIGHT_REQUESTS_PER_GROUP = 5
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@attr.s(slots=True, frozen=True, auto_attribs=True)
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@ -73,24 +54,6 @@ class _GetStateGroupDelta:
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return len(self.delta_ids) if self.delta_ids else 0
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def state_filter_rough_priority_comparator(
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state_filter: StateFilter,
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) -> Tuple[int, int]:
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"""
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Returns a comparable value that roughly indicates the relative size of this
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state filter compared to others.
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'Larger' state filters should sort first when using ascending order, so
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this is essentially the opposite of 'size'.
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It should be treated as a rough guide only and should not be interpreted to
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have any particular meaning. The representation may also change
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The current implementation returns a tuple of the form:
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* -1 for include_others, 0 otherwise
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* -(number of entries in state_filter.types)
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"""
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return -int(state_filter.include_others), -len(state_filter.types)
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class StateGroupDataStore(StateBackgroundUpdateStore, SQLBaseStore):
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"""A data store for fetching/storing state groups."""
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@ -143,12 +106,6 @@ class StateGroupDataStore(StateBackgroundUpdateStore, SQLBaseStore):
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500000,
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)
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# Current ongoing get_state_for_groups in-flight requests
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# {group ID -> {StateFilter -> ObservableDeferred}}
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self._state_group_inflight_requests: Dict[
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int, SortedDict[StateFilter, AbstractObservableDeferred[StateMap[str]]]
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] = {}
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def get_max_state_group_txn(txn: Cursor) -> int:
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txn.execute("SELECT COALESCE(max(id), 0) FROM state_groups")
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return txn.fetchone()[0] # type: ignore
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@ -200,7 +157,7 @@ class StateGroupDataStore(StateBackgroundUpdateStore, SQLBaseStore):
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)
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async def _get_state_groups_from_groups(
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self, groups: Sequence[int], state_filter: StateFilter
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self, groups: List[int], state_filter: StateFilter
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) -> Dict[int, StateMap[str]]:
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"""Returns the state groups for a given set of groups from the
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database, filtering on types of state events.
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@ -271,170 +228,6 @@ class StateGroupDataStore(StateBackgroundUpdateStore, SQLBaseStore):
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return state_filter.filter_state(state_dict_ids), not missing_types
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def _get_state_for_group_gather_inflight_requests(
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self, group: int, state_filter_left_over: StateFilter
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) -> Tuple[Sequence[AbstractObservableDeferred[StateMap[str]]], StateFilter]:
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"""
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Attempts to gather in-flight requests and re-use them to retrieve state
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for the given state group, filtered with the given state filter.
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If there are more than MAX_INFLIGHT_REQUESTS_PER_GROUP in-flight requests,
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and there *still* isn't enough information to complete the request by solely
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reusing others, a full state filter will be requested to ensure that subsequent
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requests can reuse this request.
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Used as part of _get_state_for_group_using_inflight_cache.
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Returns:
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Tuple of two values:
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A sequence of ObservableDeferreds to observe
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A StateFilter representing what else needs to be requested to fulfill the request
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"""
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inflight_requests = self._state_group_inflight_requests.get(group)
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if inflight_requests is None:
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# no requests for this group, need to retrieve it all ourselves
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return (), state_filter_left_over
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# The list of ongoing requests which will help narrow the current request.
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reusable_requests = []
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# Iterate over existing requests in roughly biggest-first order.
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for request_state_filter in inflight_requests:
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request_deferred = inflight_requests[request_state_filter]
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new_state_filter_left_over = state_filter_left_over.approx_difference(
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request_state_filter
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)
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if new_state_filter_left_over == state_filter_left_over:
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# Reusing this request would not gain us anything, so don't bother.
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continue
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reusable_requests.append(request_deferred)
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state_filter_left_over = new_state_filter_left_over
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if state_filter_left_over == StateFilter.none():
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# we have managed to collect enough of the in-flight requests
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# to cover our StateFilter and give us the state we need.
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break
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if (
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state_filter_left_over != StateFilter.none()
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and len(inflight_requests) >= MAX_INFLIGHT_REQUESTS_PER_GROUP
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):
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# There are too many requests for this group.
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# To prevent even more from building up, we request the whole
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# state filter to guarantee that we can be reused by any subsequent
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# requests for this state group.
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return (), StateFilter.all()
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return reusable_requests, state_filter_left_over
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async def _get_state_for_group_fire_request(
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self, group: int, state_filter: StateFilter
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) -> StateMap[str]:
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"""
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Fires off a request to get the state at a state group,
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potentially filtering by type and/or state key.
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This request will be tracked in the in-flight request cache and automatically
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removed when it is finished.
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Used as part of _get_state_for_group_using_inflight_cache.
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Args:
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group: ID of the state group for which we want to get state
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state_filter: the state filter used to fetch state from the database
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"""
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cache_sequence_nm = self._state_group_cache.sequence
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cache_sequence_m = self._state_group_members_cache.sequence
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# Help the cache hit ratio by expanding the filter a bit
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db_state_filter = state_filter.return_expanded()
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async def _the_request() -> StateMap[str]:
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group_to_state_dict = await self._get_state_groups_from_groups(
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(group,), state_filter=db_state_filter
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)
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# Now let's update the caches
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self._insert_into_cache(
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group_to_state_dict,
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db_state_filter,
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cache_seq_num_members=cache_sequence_m,
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cache_seq_num_non_members=cache_sequence_nm,
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)
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# Remove ourselves from the in-flight cache
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group_request_dict = self._state_group_inflight_requests[group]
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del group_request_dict[db_state_filter]
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if not group_request_dict:
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# If there are no more requests in-flight for this group,
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# clean up the cache by removing the empty dictionary
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del self._state_group_inflight_requests[group]
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return group_to_state_dict[group]
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# We don't immediately await the result, so must use run_in_background
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# But we DO await the result before the current log context (request)
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# finishes, so don't need to run it as a background process.
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request_deferred = run_in_background(_the_request)
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observable_deferred = ObservableDeferred(request_deferred, consumeErrors=True)
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# Insert the ObservableDeferred into the cache
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group_request_dict = self._state_group_inflight_requests.setdefault(
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group, SortedDict(state_filter_rough_priority_comparator)
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)
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group_request_dict[db_state_filter] = observable_deferred
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return await make_deferred_yieldable(observable_deferred.observe())
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async def _get_state_for_group_using_inflight_cache(
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self, group: int, state_filter: StateFilter
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) -> MutableStateMap[str]:
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"""
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Gets the state at a state group, potentially filtering by type and/or
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state key.
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1. Calls _get_state_for_group_gather_inflight_requests to gather any
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ongoing requests which might overlap with the current request.
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2. Fires a new request, using _get_state_for_group_fire_request,
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for any state which cannot be gathered from ongoing requests.
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Args:
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group: ID of the state group for which we want to get state
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state_filter: the state filter used to fetch state from the database
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Returns:
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state map
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"""
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# first, figure out whether we can re-use any in-flight requests
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# (and if so, what would be left over)
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(
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reusable_requests,
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state_filter_left_over,
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) = self._get_state_for_group_gather_inflight_requests(group, state_filter)
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if state_filter_left_over != StateFilter.none():
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# Fetch remaining state
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remaining = await self._get_state_for_group_fire_request(
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group, state_filter_left_over
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)
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assembled_state: MutableStateMap[str] = dict(remaining)
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else:
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assembled_state = {}
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gathered = await make_deferred_yieldable(
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defer.gatherResults(
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(r.observe() for r in reusable_requests), consumeErrors=True
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)
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).addErrback(unwrapFirstError)
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# assemble our result.
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for result_piece in gathered:
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assembled_state.update(result_piece)
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# Filter out any state that may be more than what we asked for.
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return state_filter.filter_state(assembled_state)
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async def _get_state_for_groups(
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self, groups: Iterable[int], state_filter: Optional[StateFilter] = None
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) -> Dict[int, MutableStateMap[str]]:
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@ -476,17 +269,31 @@ class StateGroupDataStore(StateBackgroundUpdateStore, SQLBaseStore):
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if not incomplete_groups:
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return state
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async def get_from_cache(group: int, state_filter: StateFilter) -> None:
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state[group] = await self._get_state_for_group_using_inflight_cache(
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group, state_filter
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)
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cache_sequence_nm = self._state_group_cache.sequence
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cache_sequence_m = self._state_group_members_cache.sequence
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await yieldable_gather_results(
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get_from_cache,
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incomplete_groups,
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state_filter,
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# Help the cache hit ratio by expanding the filter a bit
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db_state_filter = state_filter.return_expanded()
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group_to_state_dict = await self._get_state_groups_from_groups(
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list(incomplete_groups), state_filter=db_state_filter
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)
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# Now lets update the caches
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self._insert_into_cache(
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group_to_state_dict,
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db_state_filter,
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cache_seq_num_members=cache_sequence_m,
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cache_seq_num_non_members=cache_sequence_nm,
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)
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# And finally update the result dict, by filtering out any extra
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# stuff we pulled out of the database.
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for group, group_state_dict in group_to_state_dict.items():
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# We just replace any existing entries, as we will have loaded
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# everything we need from the database anyway.
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state[group] = state_filter.filter_state(group_state_dict)
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return state
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def _get_state_for_groups_using_cache(
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@ -1,454 +0,0 @@
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# Copyright 2022 The Matrix.org Foundation C.I.C.
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#
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# Licensed under the Apache License, Version 2.0 (the "License");
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# you may not use this file except in compliance with the License.
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# You may obtain a copy of the License at
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#
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# http://www.apache.org/licenses/LICENSE-2.0
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#
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# Unless required by applicable law or agreed to in writing, software
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# distributed under the License is distributed on an "AS IS" BASIS,
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# WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
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# See the License for the specific language governing permissions and
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# limitations under the License.
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import typing
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from typing import Dict, List, Sequence, Tuple
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from unittest.mock import patch
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from parameterized import parameterized
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from twisted.internet.defer import Deferred, ensureDeferred
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from twisted.test.proto_helpers import MemoryReactor
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from synapse.api.constants import EventTypes
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from synapse.storage.databases.state.store import (
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MAX_INFLIGHT_REQUESTS_PER_GROUP,
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state_filter_rough_priority_comparator,
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)
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from synapse.storage.state import StateFilter
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from synapse.types import StateMap
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from synapse.util import Clock
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from tests.unittest import HomeserverTestCase
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if typing.TYPE_CHECKING:
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from synapse.server import HomeServer
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# StateFilter for ALL non-m.room.member state events
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ALL_NON_MEMBERS_STATE_FILTER = StateFilter.freeze(
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types={EventTypes.Member: set()},
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include_others=True,
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)
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FAKE_STATE = {
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(EventTypes.Member, "@alice:test"): "join",
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(EventTypes.Member, "@bob:test"): "leave",
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(EventTypes.Member, "@charlie:test"): "invite",
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("test.type", "a"): "AAA",
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("test.type", "b"): "BBB",
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("other.event.type", "state.key"): "123",
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}
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class StateGroupInflightCachingTestCase(HomeserverTestCase):
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def prepare(
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self, reactor: MemoryReactor, clock: Clock, homeserver: "HomeServer"
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) -> None:
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self.state_storage = homeserver.get_storage().state
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self.state_datastore = homeserver.get_datastores().state
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# Patch out the `_get_state_groups_from_groups`.
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# This is useful because it lets us pretend we have a slow database.
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get_state_groups_patch = patch.object(
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self.state_datastore,
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"_get_state_groups_from_groups",
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self._fake_get_state_groups_from_groups,
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)
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get_state_groups_patch.start()
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self.addCleanup(get_state_groups_patch.stop)
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self.get_state_group_calls: List[
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Tuple[Tuple[int, ...], StateFilter, Deferred[Dict[int, StateMap[str]]]]
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] = []
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def _fake_get_state_groups_from_groups(
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self, groups: Sequence[int], state_filter: StateFilter
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) -> "Deferred[Dict[int, StateMap[str]]]":
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d: Deferred[Dict[int, StateMap[str]]] = Deferred()
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self.get_state_group_calls.append((tuple(groups), state_filter, d))
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return d
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def _complete_request_fake(
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self,
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groups: Tuple[int, ...],
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state_filter: StateFilter,
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d: "Deferred[Dict[int, StateMap[str]]]",
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) -> None:
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"""
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Assemble a fake database response and complete the database request.
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"""
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# Return a filtered copy of the fake state
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d.callback({group: state_filter.filter_state(FAKE_STATE) for group in groups})
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def test_duplicate_requests_deduplicated(self) -> None:
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"""
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Tests that duplicate requests for state are deduplicated.
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This test:
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- requests some state (state group 42, 'all' state filter)
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- requests it again, before the first request finishes
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- checks to see that only one database query was made
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- completes the database query
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- checks that both requests see the same retrieved state
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"""
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req1 = ensureDeferred(
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self.state_datastore._get_state_for_group_using_inflight_cache(
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42, StateFilter.all()
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)
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)
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self.pump(by=0.1)
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# This should have gone to the database
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self.assertEqual(len(self.get_state_group_calls), 1)
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self.assertFalse(req1.called)
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req2 = ensureDeferred(
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self.state_datastore._get_state_for_group_using_inflight_cache(
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42, StateFilter.all()
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)
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)
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self.pump(by=0.1)
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# No more calls should have gone to the database
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self.assertEqual(len(self.get_state_group_calls), 1)
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self.assertFalse(req1.called)
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self.assertFalse(req2.called)
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groups, sf, d = self.get_state_group_calls[0]
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self.assertEqual(groups, (42,))
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self.assertEqual(sf, StateFilter.all())
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# Now we can complete the request
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self._complete_request_fake(groups, sf, d)
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self.assertEqual(self.get_success(req1), FAKE_STATE)
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self.assertEqual(self.get_success(req2), FAKE_STATE)
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def test_smaller_request_deduplicated(self) -> None:
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"""
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Tests that duplicate requests for state are deduplicated.
|
||||
|
||||
This test:
|
||||
- requests some state (state group 42, 'all' state filter)
|
||||
- requests a subset of that state, before the first request finishes
|
||||
- checks to see that only one database query was made
|
||||
- completes the database query
|
||||
- checks that both requests see the correct retrieved state
|
||||
"""
|
||||
req1 = ensureDeferred(
|
||||
self.state_datastore._get_state_for_group_using_inflight_cache(
|
||||
42, StateFilter.from_types((("test.type", None),))
|
||||
)
|
||||
)
|
||||
self.pump(by=0.1)
|
||||
|
||||
# This should have gone to the database
|
||||
self.assertEqual(len(self.get_state_group_calls), 1)
|
||||
self.assertFalse(req1.called)
|
||||
|
||||
req2 = ensureDeferred(
|
||||
self.state_datastore._get_state_for_group_using_inflight_cache(
|
||||
42, StateFilter.from_types((("test.type", "b"),))
|
||||
)
|
||||
)
|
||||
self.pump(by=0.1)
|
||||
|
||||
# No more calls should have gone to the database, because the second
|
||||
# request was already in the in-flight cache!
|
||||
self.assertEqual(len(self.get_state_group_calls), 1)
|
||||
self.assertFalse(req1.called)
|
||||
self.assertFalse(req2.called)
|
||||
|
||||
groups, sf, d = self.get_state_group_calls[0]
|
||||
self.assertEqual(groups, (42,))
|
||||
# The state filter is expanded internally for increased cache hit rate,
|
||||
# so we the database sees a wider state filter than requested.
|
||||
self.assertEqual(sf, ALL_NON_MEMBERS_STATE_FILTER)
|
||||
|
||||
# Now we can complete the request
|
||||
self._complete_request_fake(groups, sf, d)
|
||||
|
||||
self.assertEqual(
|
||||
self.get_success(req1),
|
||||
{("test.type", "a"): "AAA", ("test.type", "b"): "BBB"},
|
||||
)
|
||||
self.assertEqual(self.get_success(req2), {("test.type", "b"): "BBB"})
|
||||
|
||||
def test_partially_overlapping_request_deduplicated(self) -> None:
|
||||
"""
|
||||
Tests that partially-overlapping requests are partially deduplicated.
|
||||
|
||||
This test:
|
||||
- requests a single type of wildcard state
|
||||
(This is internally expanded to be all non-member state)
|
||||
- requests the entire state in parallel
|
||||
- checks to see that two database queries were made, but that the second
|
||||
one is only for member state.
|
||||
- completes the database queries
|
||||
- checks that both requests have the correct result.
|
||||
"""
|
||||
|
||||
req1 = ensureDeferred(
|
||||
self.state_datastore._get_state_for_group_using_inflight_cache(
|
||||
42, StateFilter.from_types((("test.type", None),))
|
||||
)
|
||||
)
|
||||
self.pump(by=0.1)
|
||||
|
||||
# This should have gone to the database
|
||||
self.assertEqual(len(self.get_state_group_calls), 1)
|
||||
self.assertFalse(req1.called)
|
||||
|
||||
req2 = ensureDeferred(
|
||||
self.state_datastore._get_state_for_group_using_inflight_cache(
|
||||
42, StateFilter.all()
|
||||
)
|
||||
)
|
||||
self.pump(by=0.1)
|
||||
|
||||
# Because it only partially overlaps, this also went to the database
|
||||
self.assertEqual(len(self.get_state_group_calls), 2)
|
||||
self.assertFalse(req1.called)
|
||||
self.assertFalse(req2.called)
|
||||
|
||||
# First request:
|
||||
groups, sf, d = self.get_state_group_calls[0]
|
||||
self.assertEqual(groups, (42,))
|
||||
# The state filter is expanded internally for increased cache hit rate,
|
||||
# so we the database sees a wider state filter than requested.
|
||||
self.assertEqual(sf, ALL_NON_MEMBERS_STATE_FILTER)
|
||||
self._complete_request_fake(groups, sf, d)
|
||||
|
||||
# Second request:
|
||||
groups, sf, d = self.get_state_group_calls[1]
|
||||
self.assertEqual(groups, (42,))
|
||||
# The state filter is narrowed to only request membership state, because
|
||||
# the remainder of the state is already being queried in the first request!
|
||||
self.assertEqual(
|
||||
sf, StateFilter.freeze({EventTypes.Member: None}, include_others=False)
|
||||
)
|
||||
self._complete_request_fake(groups, sf, d)
|
||||
|
||||
# Check the results are correct
|
||||
self.assertEqual(
|
||||
self.get_success(req1),
|
||||
{("test.type", "a"): "AAA", ("test.type", "b"): "BBB"},
|
||||
)
|
||||
self.assertEqual(self.get_success(req2), FAKE_STATE)
|
||||
|
||||
def test_in_flight_requests_stop_being_in_flight(self) -> None:
|
||||
"""
|
||||
Tests that in-flight request deduplication doesn't somehow 'hold on'
|
||||
to completed requests: once they're done, they're taken out of the
|
||||
in-flight cache.
|
||||
"""
|
||||
req1 = ensureDeferred(
|
||||
self.state_datastore._get_state_for_group_using_inflight_cache(
|
||||
42, StateFilter.all()
|
||||
)
|
||||
)
|
||||
self.pump(by=0.1)
|
||||
|
||||
# This should have gone to the database
|
||||
self.assertEqual(len(self.get_state_group_calls), 1)
|
||||
self.assertFalse(req1.called)
|
||||
|
||||
# Complete the request right away.
|
||||
self._complete_request_fake(*self.get_state_group_calls[0])
|
||||
self.assertTrue(req1.called)
|
||||
|
||||
# Send off another request
|
||||
req2 = ensureDeferred(
|
||||
self.state_datastore._get_state_for_group_using_inflight_cache(
|
||||
42, StateFilter.all()
|
||||
)
|
||||
)
|
||||
self.pump(by=0.1)
|
||||
|
||||
# It should have gone to the database again, because the previous request
|
||||
# isn't in-flight and therefore isn't available for deduplication.
|
||||
self.assertEqual(len(self.get_state_group_calls), 2)
|
||||
self.assertFalse(req2.called)
|
||||
|
||||
# Complete the request right away.
|
||||
self._complete_request_fake(*self.get_state_group_calls[1])
|
||||
self.assertTrue(req2.called)
|
||||
groups, sf, d = self.get_state_group_calls[0]
|
||||
|
||||
self.assertEqual(self.get_success(req1), FAKE_STATE)
|
||||
self.assertEqual(self.get_success(req2), FAKE_STATE)
|
||||
|
||||
def test_inflight_requests_capped(self) -> None:
|
||||
"""
|
||||
Tests that the number of in-flight requests is capped to 5.
|
||||
|
||||
- requests several pieces of state separately
|
||||
(5 to hit the limit, 1 to 'shunt out', another that comes after the
|
||||
group has been 'shunted out')
|
||||
- checks to see that the torrent of requests is shunted out by
|
||||
rewriting one of the filters as the 'all' state filter
|
||||
- requests after that one do not cause any additional queries
|
||||
"""
|
||||
# 5 at the time of writing.
|
||||
CAP_COUNT = MAX_INFLIGHT_REQUESTS_PER_GROUP
|
||||
|
||||
reqs = []
|
||||
|
||||
# Request 7 different keys (1 to 7) of the `some.state` type.
|
||||
for req_id in range(CAP_COUNT + 2):
|
||||
reqs.append(
|
||||
ensureDeferred(
|
||||
self.state_datastore._get_state_for_group_using_inflight_cache(
|
||||
42,
|
||||
StateFilter.freeze(
|
||||
{"some.state": {str(req_id + 1)}}, include_others=False
|
||||
),
|
||||
)
|
||||
)
|
||||
)
|
||||
self.pump(by=0.1)
|
||||
|
||||
# There should only be 6 calls to the database, not 7.
|
||||
self.assertEqual(len(self.get_state_group_calls), CAP_COUNT + 1)
|
||||
|
||||
# Assert that the first 5 are exact requests for the individual pieces
|
||||
# wanted
|
||||
for req_id in range(CAP_COUNT):
|
||||
groups, sf, d = self.get_state_group_calls[req_id]
|
||||
self.assertEqual(
|
||||
sf,
|
||||
StateFilter.freeze(
|
||||
{"some.state": {str(req_id + 1)}}, include_others=False
|
||||
),
|
||||
)
|
||||
|
||||
# The 6th request should be the 'all' state filter
|
||||
groups, sf, d = self.get_state_group_calls[CAP_COUNT]
|
||||
self.assertEqual(sf, StateFilter.all())
|
||||
|
||||
# Complete the queries and check which requests complete as a result
|
||||
for req_id in range(CAP_COUNT):
|
||||
# This request should not have been completed yet
|
||||
self.assertFalse(reqs[req_id].called)
|
||||
|
||||
groups, sf, d = self.get_state_group_calls[req_id]
|
||||
self._complete_request_fake(groups, sf, d)
|
||||
|
||||
# This should have only completed this one request
|
||||
self.assertTrue(reqs[req_id].called)
|
||||
|
||||
# Now complete the final query; the last 2 requests should complete
|
||||
# as a result
|
||||
self.assertFalse(reqs[CAP_COUNT].called)
|
||||
self.assertFalse(reqs[CAP_COUNT + 1].called)
|
||||
groups, sf, d = self.get_state_group_calls[CAP_COUNT]
|
||||
self._complete_request_fake(groups, sf, d)
|
||||
self.assertTrue(reqs[CAP_COUNT].called)
|
||||
self.assertTrue(reqs[CAP_COUNT + 1].called)
|
||||
|
||||
@parameterized.expand([(False,), (True,)])
|
||||
def test_ordering_of_request_reuse(self, reverse: bool) -> None:
|
||||
"""
|
||||
Tests that 'larger' in-flight requests are ordered first.
|
||||
|
||||
This is mostly a design decision in order to prevent a request from
|
||||
hanging on to multiple queries when it would have been sufficient to
|
||||
hang on to only one bigger query.
|
||||
|
||||
The 'size' of a state filter is a rough heuristic.
|
||||
|
||||
- requests two pieces of state, one 'larger' than the other, but each
|
||||
spawning a query
|
||||
- requests a third piece of state
|
||||
- completes the larger of the first two queries
|
||||
- checks that the third request gets completed (and doesn't needlessly
|
||||
wait for the other query)
|
||||
|
||||
Parameters:
|
||||
reverse: whether to reverse the order of the initial requests, to ensure
|
||||
that the effect doesn't depend on the order of request submission.
|
||||
"""
|
||||
|
||||
# We add in an extra state type to make sure that both requests spawn
|
||||
# queries which are not optimised out.
|
||||
state_filters = [
|
||||
StateFilter.freeze(
|
||||
{"state.type": {"A"}, "other.state.type": {"a"}}, include_others=False
|
||||
),
|
||||
StateFilter.freeze(
|
||||
{
|
||||
"state.type": None,
|
||||
"other.state.type": {"b"},
|
||||
# The current rough size comparator uses the number of state types
|
||||
# as an indicator of size.
|
||||
# To influence it to make this state filter bigger than the previous one,
|
||||
# we add another dummy state type.
|
||||
"extra.state.type": {"c"},
|
||||
},
|
||||
include_others=False,
|
||||
),
|
||||
]
|
||||
|
||||
if reverse:
|
||||
# For fairness, we perform one test run with the list reversed.
|
||||
state_filters.reverse()
|
||||
smallest_state_filter_idx = 1
|
||||
biggest_state_filter_idx = 0
|
||||
else:
|
||||
smallest_state_filter_idx = 0
|
||||
biggest_state_filter_idx = 1
|
||||
|
||||
# This assertion is for our own sanity more than anything else.
|
||||
self.assertLess(
|
||||
state_filter_rough_priority_comparator(
|
||||
state_filters[biggest_state_filter_idx]
|
||||
),
|
||||
state_filter_rough_priority_comparator(
|
||||
state_filters[smallest_state_filter_idx]
|
||||
),
|
||||
"Test invalid: bigger state filter is not actually bigger.",
|
||||
)
|
||||
|
||||
# Spawn the initial two requests
|
||||
for state_filter in state_filters:
|
||||
ensureDeferred(
|
||||
self.state_datastore._get_state_for_group_using_inflight_cache(
|
||||
42,
|
||||
state_filter,
|
||||
)
|
||||
)
|
||||
|
||||
# Spawn a third request
|
||||
req = ensureDeferred(
|
||||
self.state_datastore._get_state_for_group_using_inflight_cache(
|
||||
42,
|
||||
StateFilter.freeze(
|
||||
{
|
||||
"state.type": {"A"},
|
||||
},
|
||||
include_others=False,
|
||||
),
|
||||
)
|
||||
)
|
||||
self.pump(by=0.1)
|
||||
|
||||
self.assertFalse(req.called)
|
||||
|
||||
# Complete the largest request's query to make sure that the final request
|
||||
# only waits for that one (and doesn't needlessly wait for both queries)
|
||||
self._complete_request_fake(
|
||||
*self.get_state_group_calls[biggest_state_filter_idx]
|
||||
)
|
||||
|
||||
# That should have been sufficient to complete the third request
|
||||
self.assertTrue(req.called)
|
Loading…
Reference in New Issue
Block a user