mirror of https://github.com/zulip/zulip.git
167 lines
9.3 KiB
Markdown
167 lines
9.3 KiB
Markdown
# Notifications in Zulip
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This is a design document aiming to provide context for developers
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working on Zulip's email notifications and mobile push notifications
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code paths. We recommend first becoming familiar with [sending
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messages](sending-messages.md); this document expands on
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the details of the email/mobile push notifications code path.
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## Important corner cases
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Here we name a few corner cases worth understanding in designing this
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sort of notifications system:
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- The **idle desktop problem**: We don't want the presence of a
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desktop computer at the office to eat all notifications because the
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user has an "online" client that they may not have used in 3 days.
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- The **hard disconnect problem**: A client can lose its connection to
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the Internet (or be suspended, or whatever) at any time, and this
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happens routinely. We want to ensure that races where a user closes
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their laptop shortly after a notifiable message is sent does not
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result in the user never receiving a notification about a message
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(due to the system thinking that client received it).
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## The mobile/email notifications flow
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As a reminder, the relevant part of the flow for sending messages is
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as follows:
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- `do_send_messages` is the synchronous message-sending code path,
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and passing the following data in its `send_event` call:
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- Data about the message's content (E.g. mentions, wildcard
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mentions, and alert words) and encodes it into the `UserMessage`
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table's `flags` structure, which is in turn passed into
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`send_event` for each user receiving the message.
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- Data about user configuration relevant to the message, such as
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`online_push_user_ids` and `stream_notify_user_ids`, are included
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in the main event dictionary.
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- The `presence_idle_user_ids` set, containing the subset of
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recipient users who can potentially receive notifications, but have not
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interacted with a Zulip client in the last few minutes. (Users who
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have generally will not receive a notification unless the
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`enable_online_push_notifications` flag is enabled). This data
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structure ignores users for whom the message is not notifiable,
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which is important to avoid this being thousands of `user_ids` for
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messages to large streams with few currently active users.
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- The Tornado [event queue system](events-system.md)
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processes that data, as well as data about each user's active event
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queues, to (1) push an event to each queue needing that message and
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(2) for notifiable messages, pushing an event onto the
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`missedmessage_mobile_notifications` and/or `missedmessage_emails`
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queues. This important message-processing logic has notable extra
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logic not present when processing normal events, both for details
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like splicing `flags` to customize event payloads per-user, as well.
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- The Tornado system determines whether the user is "offline/idle".
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Zulip's email notifications are designed to not fire when the user
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is actively using Zulip to avoid spam, and this is where those
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checks are implemented.
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- Users in `presence_idle_user_ids` are always considered idle:
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the variable name means "users who are idle because of
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presence". This is how we solve the idle desktop problem; users
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with an idle desktop are treated the same as users who aren't
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logged in for this check.
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- However, that check does not handle the hard disconnect problem:
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if a user was present 1 minute before a message was sent, and then
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closed their laptop, the user will not be in
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`presence_idle_user_ids` (because it takes a
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[few minutes](presence.md) of being idle for Zulip
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clients to declare to the server that the user is actually idle),
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and so without an additional mechanism, messages sent shortly after
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a user leaves would never trigger a notification (!).
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- We solve that problem by also notifying if
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`receiver_is_off_zulip` returns `True`, which checks whether the user has any
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current events system clients registered to receive `message`
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events. This check is done immediately (handling soft disconnects,
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where E.g. the user closes their last Zulip tab and we get the
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`DELETE /events/{queue_id}` request).
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- The `receiver_is_off_zulip` check is effectively repeated when
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event queues are garbage-collected (in `missedmessage_hook`) by
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looking for whether the queue being garbage-collected was the only
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one; this second check solves the hard disconnect problem, resulting in
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notifications for these hard-disconnect cases usually coming 10
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minutes late.
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- We try to contain the "when to notify" business logic in the
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`zerver/lib/notification_data.py` class methods. The module has
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unit tests for all possible situations in
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`test_notification_data.py`.
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- The message-edit code path has parallel logic in
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`maybe_enqueue_notifications_for_message_update` for triggering
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notifications in cases like a mention added during message
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editing.
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- The notification sending logic for message edits
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inside Tornado has extensive automated test suites; e.g.
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`test_message_edit_notifications.py` covers all the cases around
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editing a message to add/remove a mention.
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- We may in the future want to add some sort of system for letting
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users see past notifications, to help with explaining and
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debugging this system, since it has so much complexity.
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- Desktop notifications are the simplest; they are implemented
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client-side by the web/desktop app's logic
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(`web/src/notifications.js`) inspecting the `flags` fields that
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were spliced into `message` events by the Tornado system, as well as
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the user's notification settings.
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- The queue processors for those queues make the final determination
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for whether to send a notification, and do the work to generate an
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email (`zerver/lib/email_notifications.py`) or mobile
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(`zerver/lib/push_notifications.py`) notification. We'll detail
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this process in more detail for each system below, but it's
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important to know that it's normal for a message to sit in these
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queues for minutes (and in the future, possibly hours).
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- Both queue processor code paths do additional filtering before
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sending a notification:
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- Messages that have already been marked as read by the user before
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the queue processor runs never trigger a notification.
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- Messages that were already deleted never trigger a notification.
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- The user-level settings for whether email/mobile notifications are
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disabled are rechecked, as the user may have disabled one of these
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settings during the queuing period.
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- The **Email notifications queue processor**, `MissedMessageWorker`,
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takes care to wait for 2 minutes (hopefully in the future this will be a
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configuration setting) and starts a thread to batch together multiple
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messages into a single email. These features are unnecessary
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for mobile push notifications, because we can live-update those
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details with a future notification, whereas emails cannot be readily
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updated once sent. Zulip's email notifications are styled similarly
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to GitHub's email notifications, with a clean, simple design that
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makes replying from an email client possible (using the [incoming
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email integration](../production/email-gateway.md)).
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- The **Push notifications queue processor**,
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`PushNotificationsWorker`, is a simple wrapper around the
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`push_notifications.py` code that actually sends the
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notification. This logic is somewhat complicated by having to track
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the number of unread push notifications to display on the mobile
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apps' badges, as well as using the [mobile push notifications
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service](../production/mobile-push-notifications.md) for self-hosted
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systems.
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The following important constraints are worth understanding about the
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structure of the system, when thinking about changes to it:
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- **Bulk database queries** are much more efficient for checking
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details from the database like "which users receiving this message
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are online".
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- **Thousands of users**. Zulip supports thousands of users, and we
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want to avoid `send_event()` pushing large amounts of per-user data
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to Tornado via RabbitMQ for scalability reasons.
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- **Tornado doesn't do database queries**. Because the Tornado system
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is an asynchronous event-driven framework, and our Django database
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library is synchronous, database queries are very expensive. So
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these queries need to be done in either `do_send_messages` or the
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queue processor logic. (For example, this means `presence` data
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should be checked in either `do_send_messages` or the queue
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processors, not in Tornado).
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- **Future configuration**. Notification settings are an area that we
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expect to only expand with time, with upcoming features like
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following a topic (to get notifications for messages only within
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that topic in a stream). There are a lot of different workflows
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possible with Zulip's threading, and it's important to make it easy
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for users to set up Zulip's notification to fit as many of those
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workflows as possible.
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- **Message editing**. Zulip supports editing messages, and that
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interacts with notifications in ways that require careful handling:
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Notifications should have
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the latest edited content (users often fix typos 30 seconds after
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sending a message), adding a mention when editing a message should
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send a notification to the newly mentioned user(s), and deleting a
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message should cancel any unsent notifications for it.
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