forked-synapse/synapse/visibility.py

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#
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# This file is licensed under the Affero General Public License (AGPL) version 3.
#
# Copyright (C) The Matrix.org Foundation C.I.C. 2022
# Copyright 2014 - 2016 OpenMarket Ltd
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# Copyright (C) 2023 New Vector, Ltd
#
# This program is free software: you can redistribute it and/or modify
# it under the terms of the GNU Affero General Public License as
# published by the Free Software Foundation, either version 3 of the
# License, or (at your option) any later version.
#
# See the GNU Affero General Public License for more details:
# <https://www.gnu.org/licenses/agpl-3.0.html>.
#
# Originally licensed under the Apache License, Version 2.0:
# <http://www.apache.org/licenses/LICENSE-2.0>.
#
# [This file includes modifications made by New Vector Limited]
#
#
import logging
from enum import Enum, auto
from typing import (
Collection,
Dict,
Final,
FrozenSet,
List,
Mapping,
Optional,
Sequence,
Set,
Tuple,
)
import attr
from synapse.api.constants import (
EventTypes,
EventUnsignedContentFields,
HistoryVisibility,
Membership,
)
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from synapse.events import EventBase
from synapse.events.snapshot import EventContext
from synapse.events.utils import clone_event, prune_event
from synapse.logging.opentracing import trace
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from synapse.storage.controllers import StorageControllers
from synapse.storage.databases.main import DataStore
from synapse.types import RetentionPolicy, StateMap, StrCollection, get_domain_from_id
from synapse.types.state import StateFilter
from synapse.util import Clock
logger = logging.getLogger(__name__)
filtered_event_logger = logging.getLogger("synapse.visibility.filtered_event_debug")
VISIBILITY_PRIORITY = (
HistoryVisibility.WORLD_READABLE,
HistoryVisibility.SHARED,
HistoryVisibility.INVITED,
HistoryVisibility.JOINED,
)
MEMBERSHIP_PRIORITY = (
Membership.JOIN,
Membership.INVITE,
Membership.KNOCK,
Membership.LEAVE,
Membership.BAN,
)
_HISTORY_VIS_KEY: Final[Tuple[str, str]] = (EventTypes.RoomHistoryVisibility, "")
@trace
async def filter_events_for_client(
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storage: StorageControllers,
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user_id: str,
events: List[EventBase],
is_peeking: bool = False,
always_include_ids: FrozenSet[str] = frozenset(),
filter_send_to_client: bool = True,
) -> List[EventBase]:
"""
Check which events a user is allowed to see. If the user can see the event but its
sender asked for their data to be erased, prune the content of the event.
Args:
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storage
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user_id: user id to be checked
events: sequence of events to be checked
is_peeking: should be True if:
* the user is not currently a member of the room, and:
* the user has not been a member of the room since the given
events
always_include_ids: set of event ids to specifically include, if present
in events (unless sender is ignored)
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filter_send_to_client: Whether we're checking an event that's going to be
sent to a client. This might not always be the case since this function can
also be called to check whether a user can see the state at a given point.
Returns:
The filtered events. The `unsigned` data is annotated with the membership state
of `user_id` at each event.
"""
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# Filter out events that have been soft failed so that we don't relay them
# to clients.
events_before_filtering = events
events = [e for e in events if not e.internal_metadata.is_soft_failed()]
if len(events_before_filtering) != len(events):
if filtered_event_logger.isEnabledFor(logging.DEBUG):
filtered_event_logger.debug(
"filter_events_for_client: Filtered out soft-failed events: Before=%s, After=%s",
[event.event_id for event in events_before_filtering],
[event.event_id for event in events],
)
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types = (_HISTORY_VIS_KEY, (EventTypes.Member, user_id))
# we exclude outliers at this point, and then handle them separately later
event_id_to_state = await storage.state.get_state_for_events(
frozenset(e.event_id for e in events if not e.internal_metadata.outlier),
state_filter=StateFilter.from_types(types),
)
# Get the users who are ignored by the requesting user.
ignore_list = await storage.main.ignored_users(user_id)
erased_senders = await storage.main.are_users_erased(e.sender for e in events)
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if filter_send_to_client:
room_ids = {e.room_id for e in events}
retention_policies: Dict[str, RetentionPolicy] = {}
for room_id in room_ids:
retention_policies[
room_id
] = await storage.main.get_retention_policy_for_room(room_id)
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def allowed(event: EventBase) -> Optional[EventBase]:
state_after_event = event_id_to_state.get(event.event_id)
filtered = _check_client_allowed_to_see_event(
user_id=user_id,
event=event,
clock=storage.main.clock,
filter_send_to_client=filter_send_to_client,
sender_ignored=event.sender in ignore_list,
always_include_ids=always_include_ids,
Wrong retention policy being used when filtering events (lint `ControlVarUsedAfterBlockViolation` `WPS441`) (#17272) Fix loop var being used outside block. Before this change, we were always using the last room_id's retention policy for all events being filtered. I found this bug with the [new lint rule, `ControlVarUsedAfterBlockViolation` `WPS441`](https://github.com/astral-sh/ruff/pull/11769), that I re-implemented in `ruff`. Shout-out to @reivilibre for all the help in the beginning! ### Pull Request Checklist <!-- Please read https://element-hq.github.io/synapse/latest/development/contributing_guide.html before submitting your pull request --> * [x] Pull request is based on the develop branch * [x] Pull request includes a [changelog file](https://element-hq.github.io/synapse/latest/development/contributing_guide.html#changelog). The entry should: - Be a short description of your change which makes sense to users. "Fixed a bug that prevented receiving messages from other servers." instead of "Moved X method from `EventStore` to `EventWorkerStore`.". - Use markdown where necessary, mostly for `code blocks`. - End with either a period (.) or an exclamation mark (!). - Start with a capital letter. - Feel free to credit yourself, by adding a sentence "Contributed by @github_username." or "Contributed by [Your Name]." to the end of the entry. * [x] [Code style](https://element-hq.github.io/synapse/latest/code_style.html) is correct (run the [linters](https://element-hq.github.io/synapse/latest/development/contributing_guide.html#run-the-linters))
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retention_policy=retention_policies[event.room_id],
state=state_after_event,
is_peeking=is_peeking,
sender_erased=erased_senders.get(event.sender, False),
)
if filtered is None:
return None
# Annotate the event with the user's membership after the event.
#
# Normally we just look in `state_after_event`, but if the event is an outlier
# we won't have such a state. The only outliers that are returned here are the
# user's own membership event, so we can just inspect that.
user_membership_event: Optional[EventBase]
if event.type == EventTypes.Member and event.state_key == user_id:
user_membership_event = event
elif state_after_event is not None:
user_membership_event = state_after_event.get((EventTypes.Member, user_id))
else:
# unreachable!
raise Exception("Missing state for event that is not user's own membership")
user_membership = (
user_membership_event.membership
if user_membership_event
else Membership.LEAVE
)
# Copy the event before updating the unsigned data: this shouldn't be persisted
# to the cache!
cloned = clone_event(filtered)
cloned.unsigned[EventUnsignedContentFields.MEMBERSHIP] = user_membership
return cloned
# Check each event: gives an iterable of None or (a modified) EventBase.
filtered_events = map(allowed, events)
# Turn it into a list and remove None entries before returning.
return [ev for ev in filtered_events if ev]
async def filter_event_for_clients_with_state(
store: DataStore,
user_ids: StrCollection,
event: EventBase,
context: EventContext,
is_peeking: bool = False,
filter_send_to_client: bool = True,
) -> StrCollection:
"""
Checks to see if an event is visible to the users in the list at the time of
the event.
Note: This does *not* check if the sender of the event was erased.
Args:
store: databases
user_ids: user_ids to be checked
event: the event to be checked
context: EventContext for the event to be checked
is_peeking: Whether the users are peeking into the room, ie not
currently joined
filter_send_to_client: Whether we're checking an event that's going to be
sent to a client. This might not always be the case since this function can
also be called to check whether a user can see the state at a given point.
Returns:
Collection of user IDs for whom the event is visible
"""
# None of the users should see the event if it is soft_failed
if event.internal_metadata.is_soft_failed():
return []
# Fast path if we don't have any user IDs to check.
if not user_ids:
return ()
# Make a set for all user IDs that haven't been filtered out by a check.
allowed_user_ids = set(user_ids)
# Only run some checks if these events aren't about to be sent to clients. This is
# because, if this is not the case, we're probably only checking if the users can
# see events in the room at that point in the DAG, and that shouldn't be decided
# on those checks.
if filter_send_to_client:
ignored_by = await store.ignored_by(event.sender)
retention_policy = await store.get_retention_policy_for_room(event.room_id)
for user_id in user_ids:
if (
_check_filter_send_to_client(
event,
store.clock,
retention_policy,
sender_ignored=user_id in ignored_by,
)
== _CheckFilter.DENIED
):
allowed_user_ids.discard(user_id)
if event.internal_metadata.outlier:
# Normally these can't be seen by clients, but we make an exception for
# for out-of-band membership events (eg, incoming invites, or rejections of
# said invite) for the user themselves.
if event.type == EventTypes.Member and event.state_key in allowed_user_ids:
logger.debug("Returning out-of-band-membership event %s", event)
return {event.state_key}
return set()
# First we get just the history visibility in case its shared/world-readable
# room.
visibility_state_map = await _get_state_map(
store, event, context, StateFilter.from_types([_HISTORY_VIS_KEY])
)
visibility = get_effective_room_visibility_from_state(visibility_state_map)
if (
_check_history_visibility(event, visibility, is_peeking=is_peeking)
== _CheckVisibility.ALLOWED
):
return allowed_user_ids
# The history visibility isn't lax, so we now need to fetch the membership
# events of all the users.
filter_list = []
for user_id in allowed_user_ids:
filter_list.append((EventTypes.Member, user_id))
filter_list.append((EventTypes.RoomHistoryVisibility, ""))
state_filter = StateFilter.from_types(filter_list)
state_map = await _get_state_map(store, event, context, state_filter)
# Now we check whether the membership allows each user to see the event.
return {
user_id
for user_id in allowed_user_ids
if _check_membership(user_id, event, visibility, state_map, is_peeking).allowed
}
async def _get_state_map(
store: DataStore, event: EventBase, context: EventContext, state_filter: StateFilter
) -> StateMap[EventBase]:
"""Helper function for getting a `StateMap[EventBase]` from an `EventContext`"""
state_map = await context.get_prev_state_ids(state_filter)
# Use events rather than event ids as content from the events are needed in
# _check_visibility
event_map = await store.get_events(state_map.values(), get_prev_content=False)
updated_state_map = {}
for state_key, event_id in state_map.items():
state_event = event_map.get(event_id)
if state_event:
updated_state_map[state_key] = state_event
if event.is_state():
current_state_key = (event.type, event.state_key)
# Add current event to updated_state_map, we need to do this here as it
# may not have been persisted to the db yet
updated_state_map[current_state_key] = event
return updated_state_map
def _check_client_allowed_to_see_event(
user_id: str,
event: EventBase,
clock: Clock,
filter_send_to_client: bool,
is_peeking: bool,
always_include_ids: FrozenSet[str],
sender_ignored: bool,
retention_policy: RetentionPolicy,
state: Optional[StateMap[EventBase]],
sender_erased: bool,
) -> Optional[EventBase]:
"""Check with the given user is allowed to see the given event
See `filter_events_for_client` for details about args
Args:
user_id
event
clock
filter_send_to_client
is_peeking
always_include_ids
sender_ignored: Whether the user is ignoring the event sender
retention_policy: The retention policy of the room
state: The state at the event, unless its an outlier
sender_erased: Whether the event sender has been marked as "erased"
Returns:
None if the user cannot see this event at all
a redacted copy of the event if they can only see a redacted
version
the original event if they can see it as normal.
"""
# Only run some checks if these events aren't about to be sent to clients. This is
# because, if this is not the case, we're probably only checking if the users can
# see events in the room at that point in the DAG, and that shouldn't be decided
# on those checks.
if filter_send_to_client:
if (
_check_filter_send_to_client(event, clock, retention_policy, sender_ignored)
== _CheckFilter.DENIED
):
filtered_event_logger.debug(
"_check_client_allowed_to_see_event(event=%s): Filtered out event because `_check_filter_send_to_client` returned `_CheckFilter.DENIED`",
event.event_id,
)
return None
if event.event_id in always_include_ids:
return event
# we need to handle outliers separately, since we don't have the room state.
if event.internal_metadata.outlier:
# Normally these can't be seen by clients, but we make an exception for
# for out-of-band membership events (eg, incoming invites, or rejections of
# said invite) for the user themselves.
if event.type == EventTypes.Member and event.state_key == user_id:
logger.debug(
"_check_client_allowed_to_see_event(event=%s): Returning out-of-band-membership event %s",
event.event_id,
event,
)
return event
filtered_event_logger.debug(
"_check_client_allowed_to_see_event(event=%s): Filtered out event because it's an outlier",
event.event_id,
)
return None
if state is None:
raise Exception("Missing state for non-outlier event")
# get the room_visibility at the time of the event.
visibility = get_effective_room_visibility_from_state(state)
# Check if the room has lax history visibility, allowing us to skip
# membership checks.
#
# We can only do this check if the sender has *not* been erased, as if they
# have we need to check the user's membership.
if (
not sender_erased
and _check_history_visibility(event, visibility, is_peeking)
== _CheckVisibility.ALLOWED
):
return event
membership_result = _check_membership(user_id, event, visibility, state, is_peeking)
if not membership_result.allowed:
filtered_event_logger.debug(
"_check_client_allowed_to_see_event(event=%s): Filtered out event because the user can't see the event because of their membership, membership_result.allowed=%s membership_result.joined=%s",
event.event_id,
membership_result.allowed,
membership_result.joined,
)
return None
# If the sender has been erased and the user was not joined at the time, we
# must only return the redacted form.
if sender_erased and not membership_result.joined:
filtered_event_logger.debug(
"_check_client_allowed_to_see_event(event=%s): Returning pruned event because `sender_erased` and the user was not joined at the time",
event.event_id,
)
event = prune_event(event)
return event
@attr.s(frozen=True, slots=True, auto_attribs=True)
class _CheckMembershipReturn:
"""Return value of `_check_membership`.
Attributes:
allowed: Whether the user should be allowed to see the event.
joined: Whether the user was joined to the room at the event.
"""
allowed: bool
joined: bool
def _check_membership(
user_id: str,
event: EventBase,
visibility: str,
state: StateMap[EventBase],
is_peeking: bool,
) -> _CheckMembershipReturn:
"""Check whether the user can see the event due to their membership"""
# If the event is the user's own membership event, use the 'most joined'
# membership
membership = None
if event.type == EventTypes.Member and event.state_key == user_id:
membership = event.content.get("membership", None)
if membership not in MEMBERSHIP_PRIORITY:
membership = "leave"
prev_content = event.unsigned.get("prev_content", {})
prev_membership = prev_content.get("membership", None)
if prev_membership not in MEMBERSHIP_PRIORITY:
prev_membership = "leave"
# Always allow the user to see their own leave events, otherwise
# they won't see the room disappear if they reject the invite
#
# (Note this doesn't work for out-of-band invite rejections, which don't
# have prev_state populated. They are handled above in the outlier code.)
if membership == "leave" and (
prev_membership == "join" or prev_membership == "invite"
):
return _CheckMembershipReturn(True, False)
new_priority = MEMBERSHIP_PRIORITY.index(membership)
old_priority = MEMBERSHIP_PRIORITY.index(prev_membership)
if old_priority < new_priority:
membership = prev_membership
# otherwise, get the user's membership at the time of the event.
if membership is None:
membership_event = state.get((EventTypes.Member, user_id), None)
if membership_event:
membership = membership_event.membership
# if the user was a member of the room at the time of the event,
# they can see it.
if membership == Membership.JOIN:
return _CheckMembershipReturn(True, True)
# otherwise, it depends on the room visibility.
if visibility == HistoryVisibility.JOINED:
# we weren't a member at the time of the event, so we can't
# see this event.
return _CheckMembershipReturn(False, False)
elif visibility == HistoryVisibility.INVITED:
# user can also see the event if they were *invited* at the time
# of the event.
return _CheckMembershipReturn(membership == Membership.INVITE, False)
elif visibility == HistoryVisibility.SHARED and is_peeking:
# if the visibility is shared, users cannot see the event unless
# they have *subsequently* joined the room (or were members at the
# time, of course)
#
# XXX: if the user has subsequently joined and then left again,
# ideally we would share history up to the point they left. But
# we don't know when they left. We just treat it as though they
# never joined, and restrict access.
return _CheckMembershipReturn(False, False)
# The visibility is either shared or world_readable, and the user was
# not a member at the time. We allow it.
return _CheckMembershipReturn(True, False)
class _CheckFilter(Enum):
MAYBE_ALLOWED = auto()
DENIED = auto()
def _check_filter_send_to_client(
event: EventBase,
clock: Clock,
retention_policy: RetentionPolicy,
sender_ignored: bool,
) -> _CheckFilter:
"""Apply checks for sending events to client
Returns:
True if might be allowed to be sent to clients, False if definitely not.
"""
if event.type == EventTypes.Dummy:
return _CheckFilter.DENIED
if not event.is_state() and sender_ignored:
return _CheckFilter.DENIED
# Until MSC2261 has landed we can't redact malicious alias events, so for
# now we temporarily filter out m.room.aliases entirely to mitigate
# abuse, while we spec a better solution to advertising aliases
# on rooms.
if event.type == EventTypes.Aliases:
return _CheckFilter.DENIED
# Don't try to apply the room's retention policy if the event is a state
# event, as MSC1763 states that retention is only considered for non-state
# events.
if not event.is_state():
max_lifetime = retention_policy.max_lifetime
if max_lifetime is not None:
oldest_allowed_ts = clock.time_msec() - max_lifetime
if event.origin_server_ts < oldest_allowed_ts:
return _CheckFilter.DENIED
return _CheckFilter.MAYBE_ALLOWED
class _CheckVisibility(Enum):
ALLOWED = auto()
MAYBE_DENIED = auto()
def _check_history_visibility(
event: EventBase, visibility: str, is_peeking: bool
) -> _CheckVisibility:
"""Check if event is allowed to be seen due to lax history visibility.
Returns:
True if user can definitely see the event, False if maybe not.
"""
# Always allow history visibility events on boundaries. This is done
# by setting the effective visibility to the least restrictive
# of the old vs new.
if event.type == EventTypes.RoomHistoryVisibility:
prev_content = event.unsigned.get("prev_content", {})
prev_visibility = prev_content.get("history_visibility", None)
if prev_visibility not in VISIBILITY_PRIORITY:
prev_visibility = HistoryVisibility.SHARED
new_priority = VISIBILITY_PRIORITY.index(visibility)
old_priority = VISIBILITY_PRIORITY.index(prev_visibility)
if old_priority < new_priority:
visibility = prev_visibility
if visibility == HistoryVisibility.SHARED and not is_peeking:
return _CheckVisibility.ALLOWED
elif visibility == HistoryVisibility.WORLD_READABLE:
return _CheckVisibility.ALLOWED
return _CheckVisibility.MAYBE_DENIED
def get_effective_room_visibility_from_state(state: StateMap[EventBase]) -> str:
"""Get the actual history vis, from a state map including the history_visibility event
Handles missing and invalid history visibility events.
"""
visibility_event = state.get(_HISTORY_VIS_KEY, None)
if not visibility_event:
return HistoryVisibility.SHARED
visibility = visibility_event.content.get(
"history_visibility", HistoryVisibility.SHARED
)
if visibility not in VISIBILITY_PRIORITY:
visibility = HistoryVisibility.SHARED
return visibility
async def filter_events_for_server(
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storage: StorageControllers,
target_server_name: str,
local_server_name: str,
events: Sequence[EventBase],
*,
redact: bool,
filter_out_erased_senders: bool,
filter_out_remote_partial_state_events: bool,
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) -> List[EventBase]:
"""Filter a list of events based on whether the target server is allowed to
see them.
For a fully stated room, the target server is allowed to see an event E if:
- the state at E has world readable or shared history vis, OR
- the state at E says that the target server is in the room.
For a partially stated room, the target server is allowed to see E if:
- E was created by this homeserver, AND:
- the partial state at E has world readable or shared history vis, OR
- the partial state at E says that the target server is in the room.
TODO: state before or state after?
Args:
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storage
target_server_name
local_server_name
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events
redact: Controls what to do with events which have been filtered out.
If True, include their redacted forms; if False, omit them entirely.
filter_out_erased_senders: If true, also filter out events whose sender has been
erased. This is used e.g. during pagination to decide whether to
backfill or not.
filter_out_remote_partial_state_events: If True, also filter out events in
partial state rooms created by other homeservers.
Returns
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The filtered events.
"""
def is_sender_erased(event: EventBase, erased_senders: Mapping[str, bool]) -> bool:
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if erased_senders and erased_senders[event.sender]:
logger.info("Sender of %s has been erased, redacting", event.event_id)
return True
return False
def check_event_is_visible(
visibility: str, memberships: StateMap[EventBase]
) -> bool:
if visibility not in (HistoryVisibility.INVITED, HistoryVisibility.JOINED):
return True
# We now loop through all membership events looking for
# membership states for the requesting server to determine
# if the server is either in the room or has been invited
# into the room.
for ev in memberships.values():
assert get_domain_from_id(ev.state_key) == target_server_name
memtype = ev.membership
if memtype == Membership.JOIN:
return True
elif memtype == Membership.INVITE:
if visibility == HistoryVisibility.INVITED:
return True
# server has no users in the room: redact
return False
if filter_out_erased_senders:
erased_senders = await storage.main.are_users_erased(e.sender for e in events)
else:
# We don't want to check whether users are erased, which is equivalent
# to no users having been erased.
erased_senders = {}
# Filter out non-local events when we are in the middle of a partial join, since our servers
# list can be out of date and we could leak events to servers not in the room anymore.
# This can also be true for local events but we consider it to be an acceptable risk.
# We do this check as a first step and before retrieving membership events because
# otherwise a room could be fully joined after we retrieve those, which would then bypass
# this check but would base the filtering on an outdated view of the membership events.
partial_state_invisible_event_ids: Set[str] = set()
if filter_out_remote_partial_state_events:
for e in events:
sender_domain = get_domain_from_id(e.sender)
if (
sender_domain != local_server_name
and await storage.main.is_partial_state_room(e.room_id)
):
partial_state_invisible_event_ids.add(e.event_id)
# Let's check to see if all the events have a history visibility
# of "shared" or "world_readable". If that's the case then we don't
# need to check membership (as we know the server is in the room).
event_to_history_vis = await _event_to_history_vis(storage, events)
# for any with restricted vis, we also need the memberships
event_to_memberships = await _event_to_memberships(
storage,
[
e
for e in events
if event_to_history_vis[e.event_id]
not in (HistoryVisibility.SHARED, HistoryVisibility.WORLD_READABLE)
],
target_server_name,
)
def include_event_in_output(e: EventBase) -> bool:
erased = is_sender_erased(e, erased_senders)
visible = check_event_is_visible(
event_to_history_vis[e.event_id], event_to_memberships.get(e.event_id, {})
)
if e.event_id in partial_state_invisible_event_ids:
visible = False
return visible and not erased
to_return = []
for e in events:
if include_event_in_output(e):
to_return.append(e)
elif redact:
to_return.append(prune_event(e))
return to_return
async def _event_to_history_vis(
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storage: StorageControllers, events: Collection[EventBase]
) -> Dict[str, str]:
"""Get the history visibility at each of the given events
Returns a map from event id to history_visibility setting
"""
# outliers get special treatment here. We don't have the state at that point in the
# room (and attempting to look it up will raise an exception), so all we can really
# do is assume that the requesting server is allowed to see the event. That's
# equivalent to there not being a history_visibility event, so we just exclude
# any outliers from the query.
event_to_state_ids = await storage.state.get_state_ids_for_events(
frozenset(e.event_id for e in events if not e.internal_metadata.is_outlier()),
state_filter=StateFilter.from_types(types=(_HISTORY_VIS_KEY,)),
)
visibility_ids = {
vis_event_id
for vis_event_id in (
state_ids.get(_HISTORY_VIS_KEY) for state_ids in event_to_state_ids.values()
)
if vis_event_id
}
vis_events = await storage.main.get_events(visibility_ids)
result: Dict[str, str] = {}
for event in events:
vis = HistoryVisibility.SHARED
state_ids = event_to_state_ids.get(event.event_id)
# if we didn't find any state for this event, it's an outlier, and we assume
# it's open
visibility_id = None
if state_ids:
visibility_id = state_ids.get(_HISTORY_VIS_KEY)
if visibility_id:
vis_event = vis_events[visibility_id]
vis = vis_event.content.get("history_visibility", HistoryVisibility.SHARED)
assert isinstance(vis, str)
result[event.event_id] = vis
return result
async def _event_to_memberships(
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storage: StorageControllers, events: Collection[EventBase], server_name: str
) -> Dict[str, StateMap[EventBase]]:
"""Get the remote membership list at each of the given events
Returns a map from event id to state map, which will contain only membership events
for the given server.
"""
if not events:
return {}
# for each event, get the event_ids of the membership state at those events.
#
# TODO: this means that we request the entire membership list. If there are only
# one or two users on this server, and the room is huge, this is very wasteful
# (it means more db work, and churns the *stateGroupMembersCache*).
# It might be that we could extend StateFilter to specify "give me keys matching
# *:<server_name>", to avoid this.
event_to_state_ids = await storage.state.get_state_ids_for_events(
frozenset(e.event_id for e in events),
state_filter=StateFilter.from_types(types=((EventTypes.Member, None),)),
)
# We only want to pull out member events that correspond to the
# server's domain.
#
# event_to_state_ids contains lots of duplicates, so it turns out to be
# cheaper to build a complete event_id => (type, state_key) dict, and then
# filter out the ones we don't want
#
event_id_to_state_key = {
event_id: key
for key_to_eid in event_to_state_ids.values()
for key, event_id in key_to_eid.items()
}
def include(state_key: str) -> bool:
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# we avoid using get_domain_from_id here for efficiency.
idx = state_key.find(":")
if idx == -1:
return False
return state_key[idx + 1 :] == server_name
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event_map = await storage.main.get_events(
[
e_id
for e_id, (_, state_key) in event_id_to_state_key.items()
if include(state_key)
]
)
return {
e_id: {
key: event_map[inner_e_id]
for key, inner_e_id in key_to_eid.items()
if inner_e_id in event_map
}
for e_id, key_to_eid in event_to_state_ids.items()
}