# -*- coding: utf-8 -*- # Copyright 2016 OpenMarket Ltd # # Licensed under the Apache License, Version 2.0 (the "License"); # you may not use this file except in compliance with the License. # You may obtain a copy of the License at # # http://www.apache.org/licenses/LICENSE-2.0 # # Unless required by applicable law or agreed to in writing, software # distributed under the License is distributed on an "AS IS" BASIS, # WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. # See the License for the specific language governing permissions and # limitations under the License. import logging from twisted.internet import defer from twisted.internet.error import AlreadyCalled, AlreadyCancelled from synapse.metrics.background_process_metrics import run_as_background_process logger = logging.getLogger(__name__) # The amount of time we always wait before ever emailing about a notification # (to give the user a chance to respond to other push or notice the window) DELAY_BEFORE_MAIL_MS = 10 * 60 * 1000 # THROTTLE is the minimum time between mail notifications sent for a given room. # Each room maintains its own throttle counter, but each new mail notification # sends the pending notifications for all rooms. THROTTLE_START_MS = 10 * 60 * 1000 THROTTLE_MAX_MS = 24 * 60 * 60 * 1000 # 24h # THROTTLE_MULTIPLIER = 6 # 10 mins, 1 hour, 6 hours, 24 hours THROTTLE_MULTIPLIER = 144 # 10 mins, 24 hours - i.e. jump straight to 1 day # If no event triggers a notification for this long after the previous, # the throttle is released. # 12 hours - a gap of 12 hours in conversation is surely enough to merit a new # notification when things get going again... THROTTLE_RESET_AFTER_MS = (12 * 60 * 60 * 1000) # does each email include all unread notifs, or just the ones which have happened # since the last mail? # XXX: this is currently broken as it includes ones from parted rooms(!) INCLUDE_ALL_UNREAD_NOTIFS = False class EmailPusher(object): """ A pusher that sends email notifications about events (approximately) when they happen. This shares quite a bit of code with httpusher: it would be good to factor out the common parts """ def __init__(self, hs, pusherdict, mailer): self.hs = hs self.mailer = mailer self.store = self.hs.get_datastore() self.clock = self.hs.get_clock() self.pusher_id = pusherdict['id'] self.user_id = pusherdict['user_name'] self.app_id = pusherdict['app_id'] self.email = pusherdict['pushkey'] self.last_stream_ordering = pusherdict['last_stream_ordering'] self.timed_call = None self.throttle_params = None # See httppusher self.max_stream_ordering = None self._is_processing = False def on_started(self): if self.mailer is not None: self._start_processing() def on_stop(self): if self.timed_call: try: self.timed_call.cancel() except (AlreadyCalled, AlreadyCancelled): pass self.timed_call = None def on_new_notifications(self, min_stream_ordering, max_stream_ordering): if self.max_stream_ordering: self.max_stream_ordering = max(max_stream_ordering, self.max_stream_ordering) else: self.max_stream_ordering = max_stream_ordering self._start_processing() def on_new_receipts(self, min_stream_id, max_stream_id): # We could wake up and cancel the timer but there tend to be quite a # lot of read receipts so it's probably less work to just let the # timer fire pass def on_timer(self): self.timed_call = None self._start_processing() def _start_processing(self): if self._is_processing: return run_as_background_process("emailpush.process", self._process) @defer.inlineCallbacks def _process(self): # we should never get here if we are already processing assert not self._is_processing try: self._is_processing = True if self.throttle_params is None: # this is our first loop: load up the throttle params self.throttle_params = yield self.store.get_throttle_params_by_room( self.pusher_id ) # if the max ordering changes while we're running _unsafe_process, # call it again, and so on until we've caught up. while True: starting_max_ordering = self.max_stream_ordering try: yield self._unsafe_process() except Exception: logger.exception("Exception processing notifs") if self.max_stream_ordering == starting_max_ordering: break finally: self._is_processing = False @defer.inlineCallbacks def _unsafe_process(self): """ Main logic of the push loop without the wrapper function that sets up logging, measures and guards against multiple instances of it being run. """ start = 0 if INCLUDE_ALL_UNREAD_NOTIFS else self.last_stream_ordering fn = self.store.get_unread_push_actions_for_user_in_range_for_email unprocessed = yield fn(self.user_id, start, self.max_stream_ordering) soonest_due_at = None if not unprocessed: yield self.save_last_stream_ordering_and_success(self.max_stream_ordering) return for push_action in unprocessed: received_at = push_action['received_ts'] if received_at is None: received_at = 0 notif_ready_at = received_at + DELAY_BEFORE_MAIL_MS room_ready_at = self.room_ready_to_notify_at( push_action['room_id'] ) should_notify_at = max(notif_ready_at, room_ready_at) if should_notify_at < self.clock.time_msec(): # one of our notifications is ready for sending, so we send # *one* email updating the user on their notifications, # we then consider all previously outstanding notifications # to be delivered. reason = { 'room_id': push_action['room_id'], 'now': self.clock.time_msec(), 'received_at': received_at, 'delay_before_mail_ms': DELAY_BEFORE_MAIL_MS, 'last_sent_ts': self.get_room_last_sent_ts(push_action['room_id']), 'throttle_ms': self.get_room_throttle_ms(push_action['room_id']), } yield self.send_notification(unprocessed, reason) yield self.save_last_stream_ordering_and_success(max([ ea['stream_ordering'] for ea in unprocessed ])) # we update the throttle on all the possible unprocessed push actions for ea in unprocessed: yield self.sent_notif_update_throttle( ea['room_id'], ea ) break else: if soonest_due_at is None or should_notify_at < soonest_due_at: soonest_due_at = should_notify_at if self.timed_call is not None: try: self.timed_call.cancel() except (AlreadyCalled, AlreadyCancelled): pass self.timed_call = None if soonest_due_at is not None: self.timed_call = self.hs.get_reactor().callLater( self.seconds_until(soonest_due_at), self.on_timer ) @defer.inlineCallbacks def save_last_stream_ordering_and_success(self, last_stream_ordering): self.last_stream_ordering = last_stream_ordering yield self.store.update_pusher_last_stream_ordering_and_success( self.app_id, self.email, self.user_id, last_stream_ordering, self.clock.time_msec() ) def seconds_until(self, ts_msec): secs = (ts_msec - self.clock.time_msec()) / 1000 return max(secs, 0) def get_room_throttle_ms(self, room_id): if room_id in self.throttle_params: return self.throttle_params[room_id]["throttle_ms"] else: return 0 def get_room_last_sent_ts(self, room_id): if room_id in self.throttle_params: return self.throttle_params[room_id]["last_sent_ts"] else: return 0 def room_ready_to_notify_at(self, room_id): """ Determines whether throttling should prevent us from sending an email for the given room Returns: The timestamp when we are next allowed to send an email notif for this room """ last_sent_ts = self.get_room_last_sent_ts(room_id) throttle_ms = self.get_room_throttle_ms(room_id) may_send_at = last_sent_ts + throttle_ms return may_send_at @defer.inlineCallbacks def sent_notif_update_throttle(self, room_id, notified_push_action): # We have sent a notification, so update the throttle accordingly. # If the event that triggered the notif happened more than # THROTTLE_RESET_AFTER_MS after the previous one that triggered a # notif, we release the throttle. Otherwise, the throttle is increased. time_of_previous_notifs = yield self.store.get_time_of_last_push_action_before( notified_push_action['stream_ordering'] ) time_of_this_notifs = notified_push_action['received_ts'] if time_of_previous_notifs is not None and time_of_this_notifs is not None: gap = time_of_this_notifs - time_of_previous_notifs else: # if we don't know the arrival time of one of the notifs (it was not # stored prior to email notification code) then assume a gap of # zero which will just not reset the throttle gap = 0 current_throttle_ms = self.get_room_throttle_ms(room_id) if gap > THROTTLE_RESET_AFTER_MS: new_throttle_ms = THROTTLE_START_MS else: if current_throttle_ms == 0: new_throttle_ms = THROTTLE_START_MS else: new_throttle_ms = min( current_throttle_ms * THROTTLE_MULTIPLIER, THROTTLE_MAX_MS ) self.throttle_params[room_id] = { "last_sent_ts": self.clock.time_msec(), "throttle_ms": new_throttle_ms } yield self.store.set_throttle_params( self.pusher_id, room_id, self.throttle_params[room_id] ) @defer.inlineCallbacks def send_notification(self, push_actions, reason): logger.info("Sending notif email for user %r", self.user_id) yield self.mailer.send_notification_mail( self.app_id, self.user_id, self.email, push_actions, reason )