mirror of
https://git.anonymousland.org/anonymousland/synapse-product.git
synced 2024-12-17 13:24:23 -05:00
707d5e4e48
Currently we use `JsonEncoder.iterencode` to write JSON responses, which ensures that we don't block the main reactor thread when encoding huge objects. The downside to this is that `iterencode` falls back to using a pure Python encoder that is *much* less efficient and can easily burn a lot of CPU for huge responses. To fix this, while still ensuring we don't block the reactor loop, we encode the JSON on a threadpool using the standard `JsonEncoder.encode` functions, which is backed by a C library. Doing so, however, requires `respond_with_json` to have access to the reactor, which it previously didn't. There are two ways of doing this: 1. threading through the reactor object, which is a bit fiddly as e.g. `DirectServeJsonResource` doesn't currently take a reactor, but is exposed to modules and so is a PITA to change; or 2. expose the reactor in `SynapseRequest`, which requires updating a bunch of servlet types. I went with the latter as that is just a mechanical change, and I think makes sense as a request already has a reactor associated with it (via its http channel).
324 lines
12 KiB
Python
324 lines
12 KiB
Python
# Copyright 2016 OpenMarket Ltd
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#
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# Licensed under the Apache License, Version 2.0 (the "License");
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# you may not use this file except in compliance with the License.
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# You may obtain a copy of the License at
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#
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# http://www.apache.org/licenses/LICENSE-2.0
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#
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# Unless required by applicable law or agreed to in writing, software
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# distributed under the License is distributed on an "AS IS" BASIS,
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# WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
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# See the License for the specific language governing permissions and
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# limitations under the License.
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import logging
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from typing import TYPE_CHECKING, Dict, List, Optional
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from twisted.internet.error import AlreadyCalled, AlreadyCancelled
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from twisted.internet.interfaces import IDelayedCall
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from synapse.metrics.background_process_metrics import run_as_background_process
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from synapse.push import Pusher, PusherConfig, PusherConfigException, ThrottleParams
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from synapse.push.mailer import Mailer
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from synapse.util.threepids import validate_email
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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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# The amount of time we always wait before ever emailing about a notification
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# (to give the user a chance to respond to other push or notice the window)
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DELAY_BEFORE_MAIL_MS = 10 * 60 * 1000
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# THROTTLE is the minimum time between mail notifications sent for a given room.
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# Each room maintains its own throttle counter, but each new mail notification
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# sends the pending notifications for all rooms.
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THROTTLE_START_MS = 10 * 60 * 1000
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THROTTLE_MAX_MS = 24 * 60 * 60 * 1000 # 24h
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# THROTTLE_MULTIPLIER = 6 # 10 mins, 1 hour, 6 hours, 24 hours
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THROTTLE_MULTIPLIER = 144 # 10 mins, 24 hours - i.e. jump straight to 1 day
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# If no event triggers a notification for this long after the previous,
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# the throttle is released.
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# 12 hours - a gap of 12 hours in conversation is surely enough to merit a new
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# notification when things get going again...
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THROTTLE_RESET_AFTER_MS = 12 * 60 * 60 * 1000
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# does each email include all unread notifs, or just the ones which have happened
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# since the last mail?
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# XXX: this is currently broken as it includes ones from parted rooms(!)
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INCLUDE_ALL_UNREAD_NOTIFS = False
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class EmailPusher(Pusher):
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"""
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A pusher that sends email notifications about events (approximately)
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when they happen.
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This shares quite a bit of code with httpusher: it would be good to
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factor out the common parts
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"""
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def __init__(self, hs: "HomeServer", pusher_config: PusherConfig, mailer: Mailer):
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super().__init__(hs, pusher_config)
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self.mailer = mailer
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self.store = self.hs.get_datastore()
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self.email = pusher_config.pushkey
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self.timed_call: Optional[IDelayedCall] = None
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self.throttle_params: Dict[str, ThrottleParams] = {}
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self._inited = False
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self._is_processing = False
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# Make sure that the email is valid.
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try:
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validate_email(self.email)
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except ValueError:
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raise PusherConfigException("Invalid email")
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def on_started(self, should_check_for_notifs: bool) -> None:
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"""Called when this pusher has been started.
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Args:
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should_check_for_notifs: Whether we should immediately
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check for push to send. Set to False only if it's known there
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is nothing to send
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"""
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if should_check_for_notifs and self.mailer is not None:
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self._start_processing()
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def on_stop(self) -> None:
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if self.timed_call:
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try:
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self.timed_call.cancel()
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except (AlreadyCalled, AlreadyCancelled):
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pass
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self.timed_call = None
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def on_new_receipts(self, min_stream_id: int, max_stream_id: int) -> None:
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# We could wake up and cancel the timer but there tend to be quite a
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# lot of read receipts so it's probably less work to just let the
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# timer fire
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pass
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def on_timer(self) -> None:
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self.timed_call = None
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self._start_processing()
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def _start_processing(self) -> None:
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if self._is_processing:
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return
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run_as_background_process("emailpush.process", self._process)
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def _pause_processing(self) -> None:
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"""Used by tests to temporarily pause processing of events.
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Asserts that its not currently processing.
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"""
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assert not self._is_processing
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self._is_processing = True
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def _resume_processing(self) -> None:
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"""Used by tests to resume processing of events after pausing."""
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assert self._is_processing
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self._is_processing = False
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self._start_processing()
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async def _process(self) -> None:
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# we should never get here if we are already processing
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assert not self._is_processing
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try:
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self._is_processing = True
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if not self._inited:
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# this is our first loop: load up the throttle params
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assert self.pusher_id is not None
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self.throttle_params = await self.store.get_throttle_params_by_room(
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self.pusher_id
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)
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self._inited = True
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# if the max ordering changes while we're running _unsafe_process,
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# call it again, and so on until we've caught up.
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while True:
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starting_max_ordering = self.max_stream_ordering
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try:
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await self._unsafe_process()
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except Exception:
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logger.exception("Exception processing notifs")
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if self.max_stream_ordering == starting_max_ordering:
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break
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finally:
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self._is_processing = False
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async def _unsafe_process(self) -> None:
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"""
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Main logic of the push loop without the wrapper function that sets
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up logging, measures and guards against multiple instances of it
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being run.
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"""
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start = 0 if INCLUDE_ALL_UNREAD_NOTIFS else self.last_stream_ordering
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unprocessed = (
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await self.store.get_unread_push_actions_for_user_in_range_for_email(
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self.user_id, start, self.max_stream_ordering
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)
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)
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soonest_due_at: Optional[int] = None
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if not unprocessed:
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await self.save_last_stream_ordering_and_success(self.max_stream_ordering)
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return
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for push_action in unprocessed:
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received_at = push_action["received_ts"]
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if received_at is None:
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received_at = 0
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notif_ready_at = received_at + DELAY_BEFORE_MAIL_MS
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room_ready_at = self.room_ready_to_notify_at(push_action["room_id"])
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should_notify_at = max(notif_ready_at, room_ready_at)
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if should_notify_at <= self.clock.time_msec():
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# one of our notifications is ready for sending, so we send
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# *one* email updating the user on their notifications,
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# we then consider all previously outstanding notifications
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# to be delivered.
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reason = {
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"room_id": push_action["room_id"],
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"now": self.clock.time_msec(),
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"received_at": received_at,
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"delay_before_mail_ms": DELAY_BEFORE_MAIL_MS,
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"last_sent_ts": self.get_room_last_sent_ts(push_action["room_id"]),
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"throttle_ms": self.get_room_throttle_ms(push_action["room_id"]),
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}
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await self.send_notification(unprocessed, reason)
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await self.save_last_stream_ordering_and_success(
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max(ea["stream_ordering"] for ea in unprocessed)
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)
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# we update the throttle on all the possible unprocessed push actions
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for ea in unprocessed:
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await self.sent_notif_update_throttle(ea["room_id"], ea)
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break
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else:
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if soonest_due_at is None or should_notify_at < soonest_due_at:
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soonest_due_at = should_notify_at
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if self.timed_call is not None:
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try:
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self.timed_call.cancel()
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except (AlreadyCalled, AlreadyCancelled):
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pass
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self.timed_call = None
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if soonest_due_at is not None:
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self.timed_call = self.hs.get_reactor().callLater(
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self.seconds_until(soonest_due_at), self.on_timer
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)
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async def save_last_stream_ordering_and_success(
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self, last_stream_ordering: int
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) -> None:
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self.last_stream_ordering = last_stream_ordering
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pusher_still_exists = (
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await self.store.update_pusher_last_stream_ordering_and_success(
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self.app_id,
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self.email,
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self.user_id,
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last_stream_ordering,
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self.clock.time_msec(),
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)
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)
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if not pusher_still_exists:
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# The pusher has been deleted while we were processing, so
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# lets just stop and return.
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self.on_stop()
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def seconds_until(self, ts_msec: int) -> float:
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secs = (ts_msec - self.clock.time_msec()) / 1000
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return max(secs, 0)
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def get_room_throttle_ms(self, room_id: str) -> int:
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if room_id in self.throttle_params:
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return self.throttle_params[room_id].throttle_ms
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else:
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return 0
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def get_room_last_sent_ts(self, room_id: str) -> int:
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if room_id in self.throttle_params:
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return self.throttle_params[room_id].last_sent_ts
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else:
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return 0
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def room_ready_to_notify_at(self, room_id: str) -> int:
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"""
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Determines whether throttling should prevent us from sending an email
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for the given room
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Returns:
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The timestamp when we are next allowed to send an email notif
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for this room
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"""
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last_sent_ts = self.get_room_last_sent_ts(room_id)
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throttle_ms = self.get_room_throttle_ms(room_id)
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may_send_at = last_sent_ts + throttle_ms
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return may_send_at
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async def sent_notif_update_throttle(
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self, room_id: str, notified_push_action: dict
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) -> None:
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# We have sent a notification, so update the throttle accordingly.
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# If the event that triggered the notif happened more than
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# THROTTLE_RESET_AFTER_MS after the previous one that triggered a
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# notif, we release the throttle. Otherwise, the throttle is increased.
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time_of_previous_notifs = await self.store.get_time_of_last_push_action_before(
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notified_push_action["stream_ordering"]
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)
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time_of_this_notifs = notified_push_action["received_ts"]
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if time_of_previous_notifs is not None and time_of_this_notifs is not None:
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gap = time_of_this_notifs - time_of_previous_notifs
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else:
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# if we don't know the arrival time of one of the notifs (it was not
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# stored prior to email notification code) then assume a gap of
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# zero which will just not reset the throttle
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gap = 0
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current_throttle_ms = self.get_room_throttle_ms(room_id)
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if gap > THROTTLE_RESET_AFTER_MS:
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new_throttle_ms = THROTTLE_START_MS
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else:
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if current_throttle_ms == 0:
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new_throttle_ms = THROTTLE_START_MS
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else:
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new_throttle_ms = min(
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current_throttle_ms * THROTTLE_MULTIPLIER, THROTTLE_MAX_MS
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)
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self.throttle_params[room_id] = ThrottleParams(
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self.clock.time_msec(),
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new_throttle_ms,
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)
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assert self.pusher_id is not None
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await self.store.set_throttle_params(
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self.pusher_id, room_id, self.throttle_params[room_id]
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)
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async def send_notification(self, push_actions: List[dict], reason: dict) -> None:
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logger.info("Sending notif email for user %r", self.user_id)
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await self.mailer.send_notification_mail(
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self.app_id, self.user_id, self.email, push_actions, reason
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)
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