forked-synapse/synapse/events/snapshot.py

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# Copyright 2014-2016 OpenMarket Ltd
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#
# 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 abc import ABC, abstractmethod
from typing import TYPE_CHECKING, Dict, List, Optional, Tuple
import attr
from immutabledict import immutabledict
from synapse.appservice import ApplicationService
from synapse.events import EventBase
from synapse.logging.opentracing import tag_args, trace
from synapse.types import JsonDict, StateMap
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if TYPE_CHECKING:
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from synapse.storage.controllers import StorageControllers
from synapse.storage.databases import StateGroupDataStore
from synapse.storage.databases.main import DataStore
from synapse.types.state import StateFilter
class UnpersistedEventContextBase(ABC):
"""
This is a base class for EventContext and UnpersistedEventContext, objects which
hold information relevant to storing an associated event. Note that an
UnpersistedEventContexts must be converted into an EventContext before it is
suitable to send to the db with its associated event.
Attributes:
_storage: storage controllers for interfacing with the database
app_service: If the associated event is being sent by a (local) application service, that
app service.
"""
def __init__(self, storage_controller: "StorageControllers"):
self._storage: "StorageControllers" = storage_controller
self.app_service: Optional[ApplicationService] = None
@abstractmethod
async def persist(
self,
event: EventBase,
) -> "EventContext":
"""
A method to convert an UnpersistedEventContext to an EventContext, suitable for
sending to the database with the associated event.
"""
@abstractmethod
async def get_prev_state_ids(
self, state_filter: Optional["StateFilter"] = None
) -> StateMap[str]:
"""
Gets the room state at the event (ie not including the event if the event is a
state event).
Args:
state_filter: specifies the type of state event to fetch from DB, example:
EventTypes.JoinRules
"""
@attr.s(slots=True, auto_attribs=True)
class EventContext(UnpersistedEventContextBase):
"""
Holds information relevant to persisting an event
Attributes:
rejected: A rejection reason if the event was rejected, else None
_state_group: The ID of the state group for this event. Note that state events
are persisted with a state group which includes the new event, so this is
effectively the state *after* the event in question.
For a *rejected* state event, where the state of the rejected event is
ignored, this state_group should never make it into the
event_to_state_groups table. Indeed, inspecting this value for a rejected
state event is almost certainly incorrect.
For an outlier, where we don't have the state at the event, this will be
None.
Note that this is a private attribute: it should be accessed via
the ``state_group`` property.
state_group_before_event: The ID of the state group representing the state
of the room before this event.
If this is a non-state event, this will be the same as ``state_group``. If
it's a state event, it will be the same as ``prev_group``.
If ``state_group`` is None (ie, the event is an outlier),
``state_group_before_event`` will always also be ``None``.
state_delta_due_to_event: If `state_group` and `state_group_before_event` are not None
then this is the delta of the state between the two groups.
state_group_deltas: If not empty, this is a dict collecting a mapping of the state
difference between state groups.
The keys are a tuple of two integers: the initial group and final state group.
The corresponding value is a state map representing the state delta between
these state groups.
The dictionary is expected to have at most two entries with state groups of:
1. The state group before the event and after the event.
2. The state group preceding the state group before the event and the
state group before the event.
This information is collected and stored as part of an optimization for persisting
events.
partial_state: if True, we may be storing this event with a temporary,
incomplete state.
"""
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_storage: "StorageControllers"
state_group_deltas: Dict[Tuple[int, int], StateMap[str]]
rejected: Optional[str] = None
_state_group: Optional[int] = None
state_group_before_event: Optional[int] = None
_state_delta_due_to_event: Optional[StateMap[str]] = None
app_service: Optional[ApplicationService] = None
partial_state: bool = False
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@staticmethod
def with_state(
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storage: "StorageControllers",
state_group: Optional[int],
state_group_before_event: Optional[int],
state_delta_due_to_event: Optional[StateMap[str]],
partial_state: bool,
state_group_deltas: Dict[Tuple[int, int], StateMap[str]],
) -> "EventContext":
return EventContext(
storage=storage,
state_group=state_group,
state_group_before_event=state_group_before_event,
state_delta_due_to_event=state_delta_due_to_event,
state_group_deltas=state_group_deltas,
partial_state=partial_state,
)
@staticmethod
def for_outlier(
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storage: "StorageControllers",
) -> "EventContext":
"""Return an EventContext instance suitable for persisting an outlier event"""
return EventContext(storage=storage, state_group_deltas={})
async def persist(self, event: EventBase) -> "EventContext":
return self
async def serialize(self, event: EventBase, store: "DataStore") -> JsonDict:
"""Converts self to a type that can be serialized as JSON, and then
deserialized by `deserialize`
Args:
event: The event that this context relates to
Returns:
The serialized event.
"""
return {
"state_group": self._state_group,
"state_group_before_event": self.state_group_before_event,
"rejected": self.rejected,
"state_group_deltas": _encode_state_group_delta(self.state_group_deltas),
"state_delta_due_to_event": _encode_state_dict(
self._state_delta_due_to_event
),
"app_service_id": self.app_service.id if self.app_service else None,
"partial_state": self.partial_state,
}
@staticmethod
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def deserialize(storage: "StorageControllers", input: JsonDict) -> "EventContext":
"""Converts a dict that was produced by `serialize` back into a
EventContext.
Args:
storage: Used to convert AS ID to AS object and fetch state.
input: A dict produced by `serialize`
Returns:
The event context.
"""
context = EventContext(
# We use the state_group and prev_state_id stuff to pull the
# current_state_ids out of the DB and construct prev_state_ids.
storage=storage,
state_group=input["state_group"],
state_group_before_event=input["state_group_before_event"],
state_group_deltas=_decode_state_group_delta(input["state_group_deltas"]),
state_delta_due_to_event=_decode_state_dict(
input["state_delta_due_to_event"]
),
rejected=input["rejected"],
partial_state=input.get("partial_state", False),
)
app_service_id = input["app_service_id"]
if app_service_id:
context.app_service = storage.main.get_app_service_by_id(app_service_id)
return context
@property
def state_group(self) -> Optional[int]:
"""The ID of the state group for this event.
Note that state events are persisted with a state group which includes the new
event, so this is effectively the state *after* the event in question.
For an outlier, where we don't have the state at the event, this will be None.
It is an error to access this for a rejected event, since rejected state should
not make it into the room state. Accessing this property will raise an exception
if ``rejected`` is set.
"""
if self.rejected:
raise RuntimeError("Attempt to access state_group of rejected event")
return self._state_group
@trace
@tag_args
async def get_current_state_ids(
self, state_filter: Optional["StateFilter"] = None
) -> Optional[StateMap[str]]:
"""
Gets the room state map, including this event - ie, the state in ``state_group``
It is an error to access this for a rejected event, since rejected state should
not make it into the room state. This method will raise an exception if
``rejected`` is set.
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Arg:
state_filter: specifies the type of state event to fetch from DB, example: EventTypes.JoinRules
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Returns:
Returns None if state_group is None, which happens when the associated
event is an outlier.
Maps a (type, state_key) to the event ID of the state event matching
this tuple.
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"""
if self.rejected:
raise RuntimeError("Attempt to access state_ids of rejected event")
assert self._state_delta_due_to_event is not None
prev_state_ids = await self.get_prev_state_ids(state_filter)
if self._state_delta_due_to_event:
prev_state_ids = dict(prev_state_ids)
prev_state_ids.update(self._state_delta_due_to_event)
return prev_state_ids
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@trace
@tag_args
async def get_prev_state_ids(
self, state_filter: Optional["StateFilter"] = None
) -> StateMap[str]:
"""
Gets the room state map, excluding this event.
For a non-state event, this will be the same as get_current_state_ids().
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Args:
state_filter: specifies the type of state event to fetch from DB, example: EventTypes.JoinRules
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Returns:
Returns {} if state_group is None, which happens when the associated
event is an outlier.
Maps a (type, state_key) to the event ID of the state event matching
this tuple.
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"""
assert self.state_group_before_event is not None
return await self._storage.state.get_state_ids_for_group(
self.state_group_before_event, state_filter
)
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@attr.s(slots=True, auto_attribs=True)
class UnpersistedEventContext(UnpersistedEventContextBase):
"""
The event context holds information about the state groups for an event. It is important
to remember that an event technically has two state groups: the state group before the
event, and the state group after the event. If the event is not a state event, the state
group will not change (ie the state group before the event will be the same as the state
group after the event), but if it is a state event the state group before the event
will differ from the state group after the event.
This is a version of an EventContext before the new state group (if any) has been
computed and stored. It contains information about the state before the event (which
also may be the information after the event, if the event is not a state event). The
UnpersistedEventContext must be converted into an EventContext by calling the method
'persist' on it before it is suitable to be sent to the DB for processing.
state_group_after_event:
The state group after the event. This will always be None until it is persisted.
If the event is not a state event, this will be the same as
state_group_before_event.
state_group_before_event:
The ID of the state group representing the state of the room before this event.
state_delta_due_to_event:
If the event is a state event, then this is the delta of the state between
`state_group` and `state_group_before_event`
prev_group_for_state_group_before_event:
If it is known, ``state_group_before_event``'s previous state group.
delta_ids_to_state_group_before_event:
If ``prev_group_for_state_group_before_event`` is not None, the state delta
between ``prev_group_for_state_group_before_event`` and ``state_group_before_event``.
partial_state:
Whether the event has partial state.
state_map_before_event:
A map of the state before the event, i.e. the state at `state_group_before_event`
"""
_storage: "StorageControllers"
state_group_before_event: Optional[int]
state_group_after_event: Optional[int]
state_delta_due_to_event: Optional[StateMap[str]]
prev_group_for_state_group_before_event: Optional[int]
delta_ids_to_state_group_before_event: Optional[StateMap[str]]
partial_state: bool
state_map_before_event: Optional[StateMap[str]] = None
@classmethod
async def batch_persist_unpersisted_contexts(
cls,
events_and_context: List[Tuple[EventBase, "UnpersistedEventContextBase"]],
room_id: str,
last_known_state_group: int,
datastore: "StateGroupDataStore",
) -> List[Tuple[EventBase, EventContext]]:
"""
Takes a list of events and their associated unpersisted contexts and persists
the unpersisted contexts, returning a list of events and persisted contexts.
Note that all the events must be in a linear chain (ie a <- b <- c).
Args:
events_and_context: A list of events and their unpersisted contexts
room_id: the room_id for the events
last_known_state_group: the last persisted state group
datastore: a state datastore
"""
amended_events_and_context = await datastore.store_state_deltas_for_batched(
events_and_context, room_id, last_known_state_group
)
events_and_persisted_context = []
for event, unpersisted_context in amended_events_and_context:
state_group_deltas = unpersisted_context._build_state_group_deltas()
context = EventContext(
storage=unpersisted_context._storage,
state_group=unpersisted_context.state_group_after_event,
state_group_before_event=unpersisted_context.state_group_before_event,
state_delta_due_to_event=unpersisted_context.state_delta_due_to_event,
partial_state=unpersisted_context.partial_state,
state_group_deltas=state_group_deltas,
)
events_and_persisted_context.append((event, context))
return events_and_persisted_context
async def get_prev_state_ids(
self, state_filter: Optional["StateFilter"] = None
) -> StateMap[str]:
"""
Gets the room state map, excluding this event.
Args:
state_filter: specifies the type of state event to fetch from DB
Returns:
Maps a (type, state_key) to the event ID of the state event matching
this tuple.
"""
if self.state_map_before_event:
return self.state_map_before_event
assert self.state_group_before_event is not None
return await self._storage.state.get_state_ids_for_group(
self.state_group_before_event, state_filter
)
async def persist(self, event: EventBase) -> EventContext:
"""
Creates a full `EventContext` for the event, persisting any referenced state that
has not yet been persisted.
Args:
event: event that the EventContext is associated with.
Returns: An EventContext suitable for sending to the database with the event
for persisting
"""
assert self.partial_state is not None
# If we have a full set of state for before the event but don't have a state
# group for that state, we need to get one
if self.state_group_before_event is None:
assert self.state_map_before_event
state_group_before_event = await self._storage.state.store_state_group(
event.event_id,
event.room_id,
prev_group=self.prev_group_for_state_group_before_event,
delta_ids=self.delta_ids_to_state_group_before_event,
current_state_ids=self.state_map_before_event,
)
self.state_group_before_event = state_group_before_event
# if the event isn't a state event the state group doesn't change
if not self.state_delta_due_to_event:
self.state_group_after_event = self.state_group_before_event
# otherwise if it is a state event we need to get a state group for it
else:
self.state_group_after_event = await self._storage.state.store_state_group(
event.event_id,
event.room_id,
prev_group=self.state_group_before_event,
delta_ids=self.state_delta_due_to_event,
current_state_ids=None,
)
state_group_deltas = self._build_state_group_deltas()
return EventContext.with_state(
storage=self._storage,
state_group=self.state_group_after_event,
state_group_before_event=self.state_group_before_event,
state_delta_due_to_event=self.state_delta_due_to_event,
state_group_deltas=state_group_deltas,
partial_state=self.partial_state,
)
def _build_state_group_deltas(self) -> Dict[Tuple[int, int], StateMap]:
"""
Collect deltas between the state groups associated with this context
"""
state_group_deltas = {}
# if we know the state group before the event and after the event, add them and the
# state delta between them to state_group_deltas
if self.state_group_before_event and self.state_group_after_event:
# if we have the state groups we should have the delta
assert self.state_delta_due_to_event is not None
state_group_deltas[
(
self.state_group_before_event,
self.state_group_after_event,
)
] = self.state_delta_due_to_event
# the state group before the event may also have a state group which precedes it, if
# we have that and the state group before the event, add them and the state
# delta between them to state_group_deltas
if (
self.prev_group_for_state_group_before_event
and self.state_group_before_event
):
# if we have both state groups we should have the delta between them
assert self.delta_ids_to_state_group_before_event is not None
state_group_deltas[
(
self.prev_group_for_state_group_before_event,
self.state_group_before_event,
)
] = self.delta_ids_to_state_group_before_event
return state_group_deltas
def _encode_state_group_delta(
state_group_delta: Dict[Tuple[int, int], StateMap[str]]
) -> List[Tuple[int, int, Optional[List[Tuple[str, str, str]]]]]:
if not state_group_delta:
return []
state_group_delta_encoded = []
for key, value in state_group_delta.items():
state_group_delta_encoded.append((key[0], key[1], _encode_state_dict(value)))
return state_group_delta_encoded
def _decode_state_group_delta(
input: List[Tuple[int, int, List[Tuple[str, str, str]]]]
) -> Dict[Tuple[int, int], StateMap[str]]:
if not input:
return {}
state_group_deltas = {}
for state_group_1, state_group_2, state_dict in input:
state_map = _decode_state_dict(state_dict)
assert state_map is not None
state_group_deltas[(state_group_1, state_group_2)] = state_map
return state_group_deltas
def _encode_state_dict(
state_dict: Optional[StateMap[str]],
) -> Optional[List[Tuple[str, str, str]]]:
"""Since dicts of (type, state_key) -> event_id cannot be serialized in
JSON we need to convert them to a form that can.
"""
if state_dict is None:
return None
return [(etype, state_key, v) for (etype, state_key), v in state_dict.items()]
def _decode_state_dict(
input: Optional[List[Tuple[str, str, str]]]
) -> Optional[StateMap[str]]:
"""Decodes a state dict encoded using `_encode_state_dict` above"""
if input is None:
return None
return immutabledict({(etype, state_key): v for etype, state_key, v in input})