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6a6e1e8c07
* Introduce a test for the old behaviour which we want to restore * Reintroduce the old behaviour in a simpler way * Newsfile Signed-off-by: Olivier Wilkinson (reivilibre) <oliverw@matrix.org> * Use 1 credit instead of 2 for creating a room: be more lenient than before Notably, the UI in Element Web was still broken after restoring to prior behaviour. After discussion, we agreed that it would be sensible to increase the limit. Signed-off-by: Olivier Wilkinson (reivilibre) <oliverw@matrix.org>
401 lines
17 KiB
Python
401 lines
17 KiB
Python
# Copyright 2014-2016 OpenMarket Ltd
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# Copyright 2020 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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from collections import OrderedDict
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from typing import Hashable, Optional, Tuple
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from synapse.api.errors import LimitExceededError
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from synapse.config.ratelimiting import RatelimitSettings
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from synapse.storage.databases.main import DataStore
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from synapse.types import Requester
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from synapse.util import Clock
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class Ratelimiter:
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"""
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Ratelimit actions marked by arbitrary keys.
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(Note that the source code speaks of "actions" and "burst_count" rather than
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"tokens" and a "bucket_size".)
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This is a "leaky bucket as a meter". For each key to be tracked there is a bucket
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containing some number 0 <= T <= `burst_count` of tokens corresponding to previously
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permitted requests for that key. Each bucket starts empty, and gradually leaks
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tokens at a rate of `rate_hz`.
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Upon an incoming request, we must determine:
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- the key that this request falls under (which bucket to inspect), and
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- the cost C of this request in tokens.
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Then, if there is room in the bucket for C tokens (T + C <= `burst_count`),
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the request is permitted and `cost` tokens are added to the bucket.
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Otherwise the request is denied, and the bucket continues to hold T tokens.
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This means that the limiter enforces an average request frequency of `rate_hz`,
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while accumulating a buffer of up to `burst_count` requests which can be consumed
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instantaneously.
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The tricky bit is the leaking. We do not want to have a periodic process which
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leaks every bucket! Instead, we track
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- the time point when the bucket was last completely empty, and
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- how many tokens have added to the bucket permitted since then.
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Then for each incoming request, we can calculate how many tokens have leaked
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since this time point, and use that to decide if we should accept or reject the
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request.
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Args:
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clock: A homeserver clock, for retrieving the current time
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rate_hz: The long term number of actions that can be performed in a second.
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burst_count: How many actions that can be performed before being limited.
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"""
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def __init__(
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self, store: DataStore, clock: Clock, rate_hz: float, burst_count: int
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):
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self.clock = clock
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self.rate_hz = rate_hz
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self.burst_count = burst_count
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self.store = store
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# An ordered dictionary representing the token buckets tracked by this rate
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# limiter. Each entry maps a key of arbitrary type to a tuple representing:
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# * The number of tokens currently in the bucket,
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# * The time point when the bucket was last completely empty, and
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# * The rate_hz (leak rate) of this particular bucket.
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self.actions: OrderedDict[Hashable, Tuple[float, float, float]] = OrderedDict()
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def _get_key(
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self, requester: Optional[Requester], key: Optional[Hashable]
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) -> Hashable:
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"""Use the requester's MXID as a fallback key if no key is provided."""
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if key is None:
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if not requester:
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raise ValueError("Must supply at least one of `requester` or `key`")
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key = requester.user.to_string()
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return key
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def _get_action_counts(
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self, key: Hashable, time_now_s: float
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) -> Tuple[float, float, float]:
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"""Retrieve the action counts, with a fallback representing an empty bucket."""
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return self.actions.get(key, (0.0, time_now_s, 0.0))
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async def can_do_action(
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self,
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requester: Optional[Requester],
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key: Optional[Hashable] = None,
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rate_hz: Optional[float] = None,
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burst_count: Optional[int] = None,
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update: bool = True,
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n_actions: int = 1,
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_time_now_s: Optional[float] = None,
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) -> Tuple[bool, float]:
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"""Can the entity (e.g. user or IP address) perform the action?
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Checks if the user has ratelimiting disabled in the database by looking
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for null/zero values in the `ratelimit_override` table. (Non-zero
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values aren't honoured, as they're specific to the event sending
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ratelimiter, rather than all ratelimiters)
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Args:
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requester: The requester that is doing the action, if any. Used to check
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if the user has ratelimits disabled in the database.
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key: An arbitrary key used to classify an action. Defaults to the
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requester's user ID.
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rate_hz: The long term number of actions that can be performed in a second.
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Overrides the value set during instantiation if set.
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burst_count: How many actions that can be performed before being limited.
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Overrides the value set during instantiation if set.
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update: Whether to count this check as performing the action
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n_actions: The number of times the user wants to do this action. If the user
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cannot do all of the actions, the user's action count is not incremented
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at all.
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_time_now_s: The current time. Optional, defaults to the current time according
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to self.clock. Only used by tests.
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Returns:
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A tuple containing:
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* A bool indicating if they can perform the action now
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* The reactor timestamp for when the action can be performed next.
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-1 if rate_hz is less than or equal to zero
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"""
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key = self._get_key(requester, key)
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if requester:
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# Disable rate limiting of users belonging to any AS that is configured
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# not to be rate limited in its registration file (rate_limited: true|false).
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if requester.app_service and not requester.app_service.is_rate_limited():
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return True, -1.0
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# Check if ratelimiting has been disabled for the user.
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#
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# Note that we don't use the returned rate/burst count, as the table
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# is specifically for the event sending ratelimiter. Instead, we
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# only use it to (somewhat cheekily) infer whether the user should
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# be subject to any rate limiting or not.
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override = await self.store.get_ratelimit_for_user(
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requester.authenticated_entity
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)
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if override and not override.messages_per_second:
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return True, -1.0
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# Override default values if set
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time_now_s = _time_now_s if _time_now_s is not None else self.clock.time()
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rate_hz = rate_hz if rate_hz is not None else self.rate_hz
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burst_count = burst_count if burst_count is not None else self.burst_count
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# Remove any expired entries
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self._prune_message_counts(time_now_s)
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# Check if there is an existing count entry for this key
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action_count, time_start, _ = self._get_action_counts(key, time_now_s)
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# Check whether performing another action is allowed
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time_delta = time_now_s - time_start
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performed_count = action_count - time_delta * rate_hz
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if performed_count < 0:
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performed_count = 0
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# Reset the start time and forgive all actions
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action_count = 0
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time_start = time_now_s
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# This check would be easier read as performed_count + n_actions > burst_count,
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# but performed_count might be a very precise float (with lots of numbers
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# following the point) in which case Python might round it up when adding it to
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# n_actions. Writing it this way ensures it doesn't happen.
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if performed_count > burst_count - n_actions:
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# Deny, we have exceeded our burst count
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allowed = False
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else:
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# We haven't reached our limit yet
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allowed = True
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action_count = action_count + n_actions
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if update:
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self.actions[key] = (action_count, time_start, rate_hz)
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if rate_hz > 0:
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# Find out when the count of existing actions expires
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time_allowed = time_start + (action_count - burst_count + 1) / rate_hz
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# Don't give back a time in the past
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if time_allowed < time_now_s:
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time_allowed = time_now_s
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else:
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# XXX: Why is this -1? This seems to only be used in
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# self.ratelimit. I guess so that clients get a time in the past and don't
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# feel afraid to try again immediately
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time_allowed = -1
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return allowed, time_allowed
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def record_action(
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self,
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requester: Optional[Requester],
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key: Optional[Hashable] = None,
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n_actions: int = 1,
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_time_now_s: Optional[float] = None,
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) -> None:
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"""Record that an action(s) took place, even if they violate the rate limit.
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This is useful for tracking the frequency of events that happen across
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federation which we still want to impose local rate limits on. For instance, if
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we are alice.com monitoring a particular room, we cannot prevent bob.com
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from joining users to that room. However, we can track the number of recent
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joins in the room and refuse to serve new joins ourselves if there have been too
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many in the room across both homeservers.
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Args:
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requester: The requester that is doing the action, if any.
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key: An arbitrary key used to classify an action. Defaults to the
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requester's user ID.
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n_actions: The number of times the user wants to do this action. If the user
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cannot do all of the actions, the user's action count is not incremented
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at all.
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_time_now_s: The current time. Optional, defaults to the current time according
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to self.clock. Only used by tests.
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"""
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key = self._get_key(requester, key)
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time_now_s = _time_now_s if _time_now_s is not None else self.clock.time()
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action_count, time_start, rate_hz = self._get_action_counts(key, time_now_s)
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self.actions[key] = (action_count + n_actions, time_start, rate_hz)
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def _prune_message_counts(self, time_now_s: float) -> None:
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"""Remove message count entries that have not exceeded their defined
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rate_hz limit
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Args:
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time_now_s: The current time
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"""
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# We create a copy of the key list here as the dictionary is modified during
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# the loop
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for key in list(self.actions.keys()):
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action_count, time_start, rate_hz = self.actions[key]
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# Rate limit = "seconds since we started limiting this action" * rate_hz
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# If this limit has not been exceeded, wipe our record of this action
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time_delta = time_now_s - time_start
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if action_count - time_delta * rate_hz > 0:
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continue
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else:
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del self.actions[key]
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async def ratelimit(
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self,
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requester: Optional[Requester],
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key: Optional[Hashable] = None,
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rate_hz: Optional[float] = None,
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burst_count: Optional[int] = None,
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update: bool = True,
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n_actions: int = 1,
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_time_now_s: Optional[float] = None,
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) -> None:
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"""Checks if an action can be performed. If not, raises a LimitExceededError
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Checks if the user has ratelimiting disabled in the database by looking
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for null/zero values in the `ratelimit_override` table. (Non-zero
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values aren't honoured, as they're specific to the event sending
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ratelimiter, rather than all ratelimiters)
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Args:
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requester: The requester that is doing the action, if any. Used to check for
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if the user has ratelimits disabled.
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key: An arbitrary key used to classify an action. Defaults to the
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requester's user ID.
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rate_hz: The long term number of actions that can be performed in a second.
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Overrides the value set during instantiation if set.
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burst_count: How many actions that can be performed before being limited.
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Overrides the value set during instantiation if set.
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update: Whether to count this check as performing the action
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n_actions: The number of times the user wants to do this action. If the user
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cannot do all of the actions, the user's action count is not incremented
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at all.
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_time_now_s: The current time. Optional, defaults to the current time according
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to self.clock. Only used by tests.
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Raises:
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LimitExceededError: If an action could not be performed, along with the time in
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milliseconds until the action can be performed again
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"""
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time_now_s = _time_now_s if _time_now_s is not None else self.clock.time()
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allowed, time_allowed = await self.can_do_action(
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requester,
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key,
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rate_hz=rate_hz,
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burst_count=burst_count,
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update=update,
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n_actions=n_actions,
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_time_now_s=time_now_s,
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)
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if not allowed:
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raise LimitExceededError(
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retry_after_ms=int(1000 * (time_allowed - time_now_s))
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)
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class RequestRatelimiter:
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def __init__(
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self,
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store: DataStore,
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clock: Clock,
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rc_message: RatelimitSettings,
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rc_admin_redaction: Optional[RatelimitSettings],
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):
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self.store = store
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self.clock = clock
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# The rate_hz and burst_count are overridden on a per-user basis
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self.request_ratelimiter = Ratelimiter(
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store=self.store, clock=self.clock, rate_hz=0, burst_count=0
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)
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self._rc_message = rc_message
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# Check whether ratelimiting room admin message redaction is enabled
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# by the presence of rate limits in the config
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if rc_admin_redaction:
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self.admin_redaction_ratelimiter: Optional[Ratelimiter] = Ratelimiter(
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store=self.store,
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clock=self.clock,
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rate_hz=rc_admin_redaction.per_second,
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burst_count=rc_admin_redaction.burst_count,
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)
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else:
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self.admin_redaction_ratelimiter = None
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async def ratelimit(
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self,
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requester: Requester,
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update: bool = True,
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is_admin_redaction: bool = False,
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n_actions: int = 1,
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) -> None:
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"""Ratelimits requests.
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Args:
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requester
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update: Whether to record that a request is being processed.
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Set to False when doing multiple checks for one request (e.g.
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to check up front if we would reject the request), and set to
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True for the last call for a given request.
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is_admin_redaction: Whether this is a room admin/moderator
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redacting an event. If so then we may apply different
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ratelimits depending on config.
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n_actions: Multiplier for the number of actions to apply to the
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rate limiter at once.
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Raises:
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LimitExceededError if the request should be ratelimited
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"""
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user_id = requester.user.to_string()
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# The AS user itself is never rate limited.
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app_service = self.store.get_app_service_by_user_id(user_id)
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if app_service is not None:
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return # do not ratelimit app service senders
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messages_per_second = self._rc_message.per_second
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burst_count = self._rc_message.burst_count
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# Check if there is a per user override in the DB.
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override = await self.store.get_ratelimit_for_user(user_id)
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if override:
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# If overridden with a null Hz then ratelimiting has been entirely
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# disabled for the user
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if not override.messages_per_second:
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return
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messages_per_second = override.messages_per_second
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burst_count = override.burst_count
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if is_admin_redaction and self.admin_redaction_ratelimiter:
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# If we have separate config for admin redactions, use a separate
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# ratelimiter as to not have user_ids clash
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await self.admin_redaction_ratelimiter.ratelimit(
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requester, update=update, n_actions=n_actions
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)
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else:
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# Override rate and burst count per-user
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await self.request_ratelimiter.ratelimit(
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requester,
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rate_hz=messages_per_second,
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burst_count=burst_count,
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update=update,
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n_actions=n_actions,
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)
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