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https://mau.dev/maunium/synapse.git
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424 lines
17 KiB
Python
424 lines
17 KiB
Python
import logging
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from typing import TYPE_CHECKING, List, Tuple
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from synapse.api.constants import EventContentFields, EventTypes
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from synapse.appservice import ApplicationService
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from synapse.http.servlet import assert_params_in_dict
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from synapse.types import JsonDict, Requester, UserID, create_requester
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from synapse.util.stringutils import random_string
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if TYPE_CHECKING:
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from synapse.server import HomeServer
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logger = logging.getLogger(__name__)
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class RoomBatchHandler:
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def __init__(self, hs: "HomeServer"):
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self.hs = hs
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self.store = hs.get_datastore()
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self.state_store = hs.get_storage().state
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self.event_creation_handler = hs.get_event_creation_handler()
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self.room_member_handler = hs.get_room_member_handler()
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self.auth = hs.get_auth()
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async def inherit_depth_from_prev_ids(self, prev_event_ids: List[str]) -> int:
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"""Finds the depth which would sort it after the most-recent
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prev_event_id but before the successors of those events. If no
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successors are found, we assume it's an historical extremity part of the
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current batch and use the same depth of the prev_event_ids.
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Args:
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prev_event_ids: List of prev event IDs
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Returns:
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Inherited depth
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"""
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(
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most_recent_prev_event_id,
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most_recent_prev_event_depth,
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) = await self.store.get_max_depth_of(prev_event_ids)
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# We want to insert the historical event after the `prev_event` but before the successor event
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#
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# We inherit depth from the successor event instead of the `prev_event`
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# because events returned from `/messages` are first sorted by `topological_ordering`
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# which is just the `depth` and then tie-break with `stream_ordering`.
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#
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# We mark these inserted historical events as "backfilled" which gives them a
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# negative `stream_ordering`. If we use the same depth as the `prev_event`,
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# then our historical event will tie-break and be sorted before the `prev_event`
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# when it should come after.
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#
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# We want to use the successor event depth so they appear after `prev_event` because
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# it has a larger `depth` but before the successor event because the `stream_ordering`
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# is negative before the successor event.
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successor_event_ids = await self.store.get_successor_events(
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[most_recent_prev_event_id]
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)
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# If we can't find any successor events, then it's a forward extremity of
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# historical messages and we can just inherit from the previous historical
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# event which we can already assume has the correct depth where we want
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# to insert into.
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if not successor_event_ids:
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depth = most_recent_prev_event_depth
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else:
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(
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_,
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oldest_successor_depth,
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) = await self.store.get_min_depth_of(successor_event_ids)
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depth = oldest_successor_depth
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return depth
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def create_insertion_event_dict(
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self, sender: str, room_id: str, origin_server_ts: int
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) -> JsonDict:
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"""Creates an event dict for an "insertion" event with the proper fields
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and a random batch ID.
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Args:
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sender: The event author MXID
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room_id: The room ID that the event belongs to
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origin_server_ts: Timestamp when the event was sent
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Returns:
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The new event dictionary to insert.
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"""
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next_batch_id = random_string(8)
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insertion_event = {
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"type": EventTypes.MSC2716_INSERTION,
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"sender": sender,
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"room_id": room_id,
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"content": {
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EventContentFields.MSC2716_NEXT_BATCH_ID: next_batch_id,
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EventContentFields.MSC2716_HISTORICAL: True,
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},
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"origin_server_ts": origin_server_ts,
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}
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return insertion_event
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async def create_requester_for_user_id_from_app_service(
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self, user_id: str, app_service: ApplicationService
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) -> Requester:
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"""Creates a new requester for the given user_id
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and validates that the app service is allowed to control
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the given user.
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Args:
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user_id: The author MXID that the app service is controlling
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app_service: The app service that controls the user
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Returns:
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Requester object
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"""
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await self.auth.validate_appservice_can_control_user_id(app_service, user_id)
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return create_requester(user_id, app_service=app_service)
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async def get_most_recent_auth_event_ids_from_event_id_list(
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self, event_ids: List[str]
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) -> List[str]:
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"""Find the most recent auth event ids (derived from state events) that
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allowed that message to be sent. We will use this as a base
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to auth our historical messages against.
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Args:
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event_ids: List of event ID's to look at
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Returns:
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List of event ID's
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"""
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(
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most_recent_prev_event_id,
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_,
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) = await self.store.get_max_depth_of(event_ids)
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# mapping from (type, state_key) -> state_event_id
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prev_state_map = await self.state_store.get_state_ids_for_event(
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most_recent_prev_event_id
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)
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# List of state event ID's
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prev_state_ids = list(prev_state_map.values())
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auth_event_ids = prev_state_ids
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return auth_event_ids
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async def persist_state_events_at_start(
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self,
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state_events_at_start: List[JsonDict],
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room_id: str,
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initial_auth_event_ids: List[str],
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app_service_requester: Requester,
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) -> List[str]:
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"""Takes all `state_events_at_start` event dictionaries and creates/persists
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them as floating state events which don't resolve into the current room state.
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They are floating because they reference a fake prev_event which doesn't connect
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to the normal DAG at all.
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Args:
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state_events_at_start:
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room_id: Room where you want the events persisted in.
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initial_auth_event_ids: These will be the auth_events for the first
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state event created. Each event created afterwards will be
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added to the list of auth events for the next state event
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created.
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app_service_requester: The requester of an application service.
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Returns:
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List of state event ID's we just persisted
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"""
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assert app_service_requester.app_service
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state_event_ids_at_start = []
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auth_event_ids = initial_auth_event_ids.copy()
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for state_event in state_events_at_start:
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assert_params_in_dict(
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state_event, ["type", "origin_server_ts", "content", "sender"]
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)
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logger.debug(
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"RoomBatchSendEventRestServlet inserting state_event=%s, auth_event_ids=%s",
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state_event,
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auth_event_ids,
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)
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event_dict = {
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"type": state_event["type"],
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"origin_server_ts": state_event["origin_server_ts"],
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"content": state_event["content"],
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"room_id": room_id,
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"sender": state_event["sender"],
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"state_key": state_event["state_key"],
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}
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# Mark all events as historical
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event_dict["content"][EventContentFields.MSC2716_HISTORICAL] = True
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# Make the state events float off on their own so we don't have a
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# bunch of `@mxid joined the room` noise between each batch
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fake_prev_event_id = "$" + random_string(43)
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# TODO: This is pretty much the same as some other code to handle inserting state in this file
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if event_dict["type"] == EventTypes.Member:
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membership = event_dict["content"].get("membership", None)
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event_id, _ = await self.room_member_handler.update_membership(
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await self.create_requester_for_user_id_from_app_service(
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state_event["sender"], app_service_requester.app_service
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),
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target=UserID.from_string(event_dict["state_key"]),
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room_id=room_id,
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action=membership,
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content=event_dict["content"],
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outlier=True,
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prev_event_ids=[fake_prev_event_id],
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# Make sure to use a copy of this list because we modify it
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# later in the loop here. Otherwise it will be the same
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# reference and also update in the event when we append later.
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auth_event_ids=auth_event_ids.copy(),
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)
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else:
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# TODO: Add some complement tests that adds state that is not member joins
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# and will use this code path. Maybe we only want to support join state events
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# and can get rid of this `else`?
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(
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event,
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_,
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) = await self.event_creation_handler.create_and_send_nonmember_event(
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await self.create_requester_for_user_id_from_app_service(
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state_event["sender"], app_service_requester.app_service
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),
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event_dict,
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outlier=True,
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prev_event_ids=[fake_prev_event_id],
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# Make sure to use a copy of this list because we modify it
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# later in the loop here. Otherwise it will be the same
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# reference and also update in the event when we append later.
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auth_event_ids=auth_event_ids.copy(),
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)
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event_id = event.event_id
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state_event_ids_at_start.append(event_id)
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auth_event_ids.append(event_id)
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return state_event_ids_at_start
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async def persist_historical_events(
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self,
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events_to_create: List[JsonDict],
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room_id: str,
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initial_prev_event_ids: List[str],
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inherited_depth: int,
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auth_event_ids: List[str],
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app_service_requester: Requester,
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) -> List[str]:
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"""Create and persists all events provided sequentially. Handles the
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complexity of creating events in chronological order so they can
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reference each other by prev_event but still persists in
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reverse-chronoloical order so they have the correct
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(topological_ordering, stream_ordering) and sort correctly from
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/messages.
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Args:
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events_to_create: List of historical events to create in JSON
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dictionary format.
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room_id: Room where you want the events persisted in.
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initial_prev_event_ids: These will be the prev_events for the first
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event created. Each event created afterwards will point to the
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previous event created.
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inherited_depth: The depth to create the events at (you will
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probably by calling inherit_depth_from_prev_ids(...)).
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auth_event_ids: Define which events allow you to create the given
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event in the room.
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app_service_requester: The requester of an application service.
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Returns:
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List of persisted event IDs
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"""
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assert app_service_requester.app_service
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prev_event_ids = initial_prev_event_ids.copy()
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event_ids = []
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events_to_persist = []
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for ev in events_to_create:
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assert_params_in_dict(ev, ["type", "origin_server_ts", "content", "sender"])
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event_dict = {
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"type": ev["type"],
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"origin_server_ts": ev["origin_server_ts"],
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"content": ev["content"],
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"room_id": room_id,
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"sender": ev["sender"], # requester.user.to_string(),
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"prev_events": prev_event_ids.copy(),
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}
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# Mark all events as historical
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event_dict["content"][EventContentFields.MSC2716_HISTORICAL] = True
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event, context = await self.event_creation_handler.create_event(
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await self.create_requester_for_user_id_from_app_service(
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ev["sender"], app_service_requester.app_service
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),
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event_dict,
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prev_event_ids=event_dict.get("prev_events"),
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auth_event_ids=auth_event_ids,
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historical=True,
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depth=inherited_depth,
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)
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logger.debug(
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"RoomBatchSendEventRestServlet inserting event=%s, prev_event_ids=%s, auth_event_ids=%s",
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event,
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prev_event_ids,
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auth_event_ids,
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)
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assert self.hs.is_mine_id(event.sender), "User must be our own: %s" % (
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event.sender,
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)
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events_to_persist.append((event, context))
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event_id = event.event_id
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event_ids.append(event_id)
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prev_event_ids = [event_id]
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# Persist events in reverse-chronological order so they have the
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# correct stream_ordering as they are backfilled (which decrements).
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# Events are sorted by (topological_ordering, stream_ordering)
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# where topological_ordering is just depth.
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for (event, context) in reversed(events_to_persist):
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await self.event_creation_handler.handle_new_client_event(
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await self.create_requester_for_user_id_from_app_service(
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event["sender"], app_service_requester.app_service
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),
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event=event,
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context=context,
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)
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return event_ids
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async def handle_batch_of_events(
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self,
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events_to_create: List[JsonDict],
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room_id: str,
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batch_id_to_connect_to: str,
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initial_prev_event_ids: List[str],
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inherited_depth: int,
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auth_event_ids: List[str],
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app_service_requester: Requester,
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) -> Tuple[List[str], str]:
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"""
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Handles creating and persisting all of the historical events as well
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as insertion and batch meta events to make the batch navigable in the DAG.
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Args:
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events_to_create: List of historical events to create in JSON
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dictionary format.
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room_id: Room where you want the events created in.
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batch_id_to_connect_to: The batch_id from the insertion event you
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want this batch to connect to.
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initial_prev_event_ids: These will be the prev_events for the first
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event created. Each event created afterwards will point to the
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previous event created.
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inherited_depth: The depth to create the events at (you will
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probably by calling inherit_depth_from_prev_ids(...)).
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auth_event_ids: Define which events allow you to create the given
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event in the room.
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app_service_requester: The requester of an application service.
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Returns:
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Tuple containing a list of created events and the next_batch_id
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"""
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# Connect this current batch to the insertion event from the previous batch
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last_event_in_batch = events_to_create[-1]
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batch_event = {
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"type": EventTypes.MSC2716_BATCH,
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"sender": app_service_requester.user.to_string(),
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"room_id": room_id,
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"content": {
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EventContentFields.MSC2716_BATCH_ID: batch_id_to_connect_to,
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EventContentFields.MSC2716_HISTORICAL: True,
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},
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# Since the batch event is put at the end of the batch,
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# where the newest-in-time event is, copy the origin_server_ts from
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# the last event we're inserting
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"origin_server_ts": last_event_in_batch["origin_server_ts"],
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}
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# Add the batch event to the end of the batch (newest-in-time)
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events_to_create.append(batch_event)
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# Add an "insertion" event to the start of each batch (next to the oldest-in-time
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# event in the batch) so the next batch can be connected to this one.
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insertion_event = self.create_insertion_event_dict(
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sender=app_service_requester.user.to_string(),
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room_id=room_id,
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# Since the insertion event is put at the start of the batch,
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# where the oldest-in-time event is, copy the origin_server_ts from
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# the first event we're inserting
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origin_server_ts=events_to_create[0]["origin_server_ts"],
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)
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next_batch_id = insertion_event["content"][
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EventContentFields.MSC2716_NEXT_BATCH_ID
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]
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# Prepend the insertion event to the start of the batch (oldest-in-time)
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events_to_create = [insertion_event] + events_to_create
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# Create and persist all of the historical events
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event_ids = await self.persist_historical_events(
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events_to_create=events_to_create,
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room_id=room_id,
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initial_prev_event_ids=initial_prev_event_ids,
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inherited_depth=inherited_depth,
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auth_event_ids=auth_event_ids,
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app_service_requester=app_service_requester,
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)
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return event_ids, next_batch_id
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