mirror of https://github.com/zulip/zulip.git
248 lines
10 KiB
Python
248 lines
10 KiB
Python
# Documented in https://zulip.readthedocs.io/en/latest/subsystems/queuing.html
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import logging
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import threading
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from collections import defaultdict
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from datetime import timedelta
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from typing import Any, Dict, Optional
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import sentry_sdk
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from django.db import transaction
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from django.db.utils import IntegrityError
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from django.utils.timezone import now as timezone_now
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from typing_extensions import override
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from zerver.lib.db import reset_queries
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from zerver.lib.email_notifications import MissedMessageData, handle_missedmessage_emails
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from zerver.lib.per_request_cache import flush_per_request_caches
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from zerver.models import ScheduledMessageNotificationEmail
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from zerver.models.users import get_user_profile_by_id
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from zerver.worker.base import QueueProcessingWorker, assign_queue
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logger = logging.getLogger(__name__)
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@assign_queue("missedmessage_emails")
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class MissedMessageWorker(QueueProcessingWorker):
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# Aggregate all messages received over the last several seconds
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# (configurable by each recipient) to let someone finish sending a
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# batch of messages and/or editing them before they are sent out
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# as emails to recipients.
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#
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# The batch interval is best-effort -- we poll at most every
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# CHECK_FREQUENCY_SECONDS, to avoid excessive activity.
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CHECK_FREQUENCY_SECONDS = 5
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worker_thread: Optional[threading.Thread] = None
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# This condition variable mediates the stopping and has_timeout
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# pieces of state, below it.
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cv = threading.Condition()
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stopping = False
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has_timeout = False
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# The main thread, which handles the RabbitMQ connection and creates
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# database rows from them.
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@override
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@sentry_sdk.trace
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def consume(self, event: Dict[str, Any]) -> None:
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logging.debug("Processing missedmessage_emails event: %s", event)
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# When we consume an event, check if there are existing pending emails
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# for that user, and if so use the same scheduled timestamp.
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user_profile_id: int = event["user_profile_id"]
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user_profile = get_user_profile_by_id(user_profile_id)
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batch_duration_seconds = user_profile.email_notifications_batching_period_seconds
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batch_duration = timedelta(seconds=batch_duration_seconds)
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try:
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pending_email = ScheduledMessageNotificationEmail.objects.filter(
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user_profile_id=user_profile_id
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)[0]
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scheduled_timestamp = pending_email.scheduled_timestamp
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except IndexError:
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scheduled_timestamp = timezone_now() + batch_duration
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with self.cv:
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# We now hold the lock, so there are three places the
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# worker thread can be:
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#
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# 1. In maybe_send_batched_emails, and will have to take
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# the lock (and thus block insertions of new rows
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# here) to decide if there are any rows and if it thus
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# needs a timeout.
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#
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# 2. In the cv.wait_for with a timeout because there were
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# rows already. There's nothing for us to do, since
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# the newly-inserted row will get checked upon that
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# timeout.
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#
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# 3. In the cv.wait_for without a timeout, because there
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# weren't any rows (which we're about to change).
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#
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# Notifying in (1) is irrelevant, since the thread is not
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# waiting. If we over-notify by doing so for both (2) and
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# (3), the behaviour is correct but slightly inefficient,
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# as the thread will be needlessly awoken and will just
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# re-wait. However, if we fail to awake case (3), the
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# worker thread will never wake up, and the
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# ScheduledMessageNotificationEmail internal queue will
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# back up.
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#
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# Use the self.has_timeout property (which is protected by
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# the lock) to determine which of cases (2) or (3) we are
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# in, and as such if we need to notify after making the
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# row.
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try:
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ScheduledMessageNotificationEmail.objects.create(
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user_profile_id=user_profile_id,
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message_id=event["message_id"],
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trigger=event["trigger"],
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scheduled_timestamp=scheduled_timestamp,
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mentioned_user_group_id=event.get("mentioned_user_group_id"),
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)
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if not self.has_timeout:
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self.cv.notify()
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except IntegrityError:
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logging.debug(
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"ScheduledMessageNotificationEmail row could not be created. The message may have been deleted. Skipping event."
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)
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@override
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def start(self) -> None:
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with self.cv:
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self.stopping = False
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self.worker_thread = threading.Thread(target=self.work)
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self.worker_thread.start()
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super().start()
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def work(self) -> None:
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while True:
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with sentry_sdk.start_transaction(
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op="task",
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name=f"{self.queue_name} worker thread",
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custom_sampling_context={"queue": self.queue_name},
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):
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flush_per_request_caches()
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reset_queries()
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try:
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finished = self.background_loop()
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if finished:
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break
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except Exception:
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logging.exception(
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"Exception in MissedMessage background worker; restarting the loop",
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stack_info=True,
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)
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def background_loop(self) -> bool:
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with self.cv:
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if self.stopping:
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return True
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# There are three conditions which we wait for:
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#
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# 1. We are being explicitly asked to stop; see the
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# notify() call in stop()
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#
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# 2. We have no ScheduledMessageNotificationEmail
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# objects currently (has_timeout = False) and the
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# first one was just enqueued; see the notify()
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# call in consume(). We break out so that we can
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# come back around the loop and re-wait with a
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# timeout (see next condition).
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#
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# 3. One or more ScheduledMessageNotificationEmail
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# exist in the database, so we need to re-check
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# them regularly; this happens by hitting the
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# timeout and calling maybe_send_batched_emails().
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# There is no explicit notify() for this.
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timeout: Optional[int] = None
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if ScheduledMessageNotificationEmail.objects.exists():
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timeout = self.CHECK_FREQUENCY_SECONDS
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self.has_timeout = timeout is not None
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def wait_condition() -> bool:
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if self.stopping:
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# Condition (1)
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return True
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if timeout is None:
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# Condition (2). We went to sleep with no
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# ScheduledMessageNotificationEmail existing,
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# and one has just been made. We re-check
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# that is still true now that we have the
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# lock, and if we see it, we stop waiting.
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return ScheduledMessageNotificationEmail.objects.exists()
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# This should only happen at the start or end of
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# the wait, when we haven't been notified, but are
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# re-checking the condition.
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return False
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with sentry_sdk.start_span(description="condvar wait") as span:
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span.set_data("timeout", timeout)
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was_notified = self.cv.wait_for(wait_condition, timeout=timeout)
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span.set_data("was_notified", was_notified)
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# Being notified means that we are in conditions (1) or
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# (2), above. In neither case do we need to look at if
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# there are batches to send -- (2) means that the
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# ScheduledMessageNotificationEmail was _just_ created, so
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# there is no need to check it now.
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if not was_notified:
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self.maybe_send_batched_emails()
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return False
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@sentry_sdk.trace
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def maybe_send_batched_emails(self) -> None:
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current_time = timezone_now()
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with transaction.atomic():
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events_to_process = ScheduledMessageNotificationEmail.objects.filter(
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scheduled_timestamp__lte=current_time
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).select_for_update()
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# Batch the entries by user
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events_by_recipient: Dict[int, Dict[int, MissedMessageData]] = defaultdict(dict)
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for event in events_to_process:
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events_by_recipient[event.user_profile_id][event.message_id] = MissedMessageData(
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trigger=event.trigger, mentioned_user_group_id=event.mentioned_user_group_id
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)
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for user_profile_id in events_by_recipient:
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events = events_by_recipient[user_profile_id]
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logging.info(
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"Batch-processing %s missedmessage_emails events for user %s",
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len(events),
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user_profile_id,
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)
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with sentry_sdk.start_span(
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description="sending missedmessage_emails to user"
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) as span:
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span.set_data("user_profile_id", user_profile_id)
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span.set_data("event_count", len(events))
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try:
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# Because we process events in batches, an
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# escaped exception here would lead to
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# duplicate messages being sent for other
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# users in the same events_to_process batch,
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# and no guarantee of forward progress.
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handle_missedmessage_emails(user_profile_id, events)
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except Exception:
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logging.exception(
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"Failed to process %d missedmessage_emails for user %s",
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len(events),
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user_profile_id,
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stack_info=True,
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)
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events_to_process.delete()
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@override
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def stop(self) -> None:
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with self.cv:
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self.stopping = True
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self.cv.notify()
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if self.worker_thread is not None:
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self.worker_thread.join()
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super().stop()
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