mirror of https://github.com/zulip/zulip.git
150 lines
7.9 KiB
Markdown
150 lines
7.9 KiB
Markdown
# Email
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This page has developer documentation on the Zulip email system. If you're
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trying to configure your server to send email, you might be looking for our
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guide to [sending outgoing email](../production/email.md). If you're trying to
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configure an email integration to receive incoming email (e.g. so that users
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can reply to missed message emails via email), you might be interested in
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our instructions for
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[setting up an email integration](https://zulip.com/integrations/doc/email).
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On to the documentation. Zulip's email system is fairly straightforward,
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with only a few things you need to know to get started.
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* All email templates are in `templates/zerver/emails/`. Each email has three
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template files: `<template_prefix>.subject.txt`, `<template_prefix>.txt`, and
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`<template_prefix>.source.html`. Email templates, along with all other templates
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in the `templates/` directory, are Jinja2 templates.
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* Most of the CSS and HTML layout for emails is in `email_base.html`. Note
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that email has to ship with all of its CSS and HTML, so nothing in
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`static/` is useful for an email. If you're adding new CSS or HTML for an
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email, there's a decent chance it should go in `email_base.html`.
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* All email is eventually sent by `zerver.lib.send_email.send_email`. There
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are several other functions in `zerver.lib.send_email`, but all of them
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eventually call the `send_email` function. The most interesting one is
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`send_future_email`. The `ScheduledEmail` entries are eventually processed
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by a supervisor job that runs `zerver/management/commands/deliver_email.py`.
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* Always use `user_profile.delivery_email`, not `user_profile.email`,
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when passing data into the `send_email` library. The
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`user_profile.email` field may not always be valid.
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* A good way to find a bunch of example email pathways is to `git grep` for
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`zerver/emails` in the `zerver/` directory.
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One slightly complicated decision you may have to make when adding an email
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is figuring out how to schedule it. There are 3 ways to schedule email.
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* Send it immediately, in the current Django process, e.g. by calling
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`send_email` directly. An example of this is the `confirm_registration`
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email.
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* Add it to a queue. An example is the `invitation` email.
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* Send it (approximately) at a specified time in the future, using
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`send_future_email`. An example is the `followup_day2` email.
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Email takes about a quarter second per email to process and send. Generally
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speaking, if you're sending just one email, doing it in the current process
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is fine. If you're sending emails in a loop, you probably want to send it
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from a queue. Documentation on our queueing system is available
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[here](../subsystems/queuing.md).
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## Development and testing
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All the emails sent in the development environment can be accessed by
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visiting `/emails` in the browser. The way that this works is that
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we've set the email backend (aka what happens when you call the email
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`.send()` method in Django) in the development environment to be our
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our custom backend, `EmailLogBackEnd`. It does the following:
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* Logs any sent emails to `var/log/email_content.log`. This log is
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displayed by the `/emails` endpoint
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(e.g. http://zulip.zulipdev.com:9991/emails).
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* Print a friendly message on console advertising `/emails` to make
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this nice and discoverable.
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You can also forward all the emails sent in the development environment
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to an email id of your choice by clicking on **Forward emails to a mail
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account** in `/emails` page. This feature can be used for testing how
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emails gets rendered by different email clients. Before enabling this
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you have to first configure the following SMTP settings.
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* The hostname `EMAIL_HOST` in `zproject/dev_settings.py`
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* The username `EMAIL_HOST_USER` in `zproject/dev_settings.py`.
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* The password `email_password` in `zproject/dev-secrets.conf`.
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See [this](../production/email.html#free-outgoing-email-services)
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section for instructions on obtaining SMTP details.
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**Note: The base_image_uri of the images in forwarded emails would be replaced
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with `https://chat.zulip.org/static/images/emails` inorder for the email clients
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to render the images. See `zproject/email_backends.py` for more details.**
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While running the backend test suite, we use
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`django.core.mail.backends.locmem.EmailBackend` as the email
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backend. The `locmem` backend stores messages in a special attribute
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of the django.core.mail module, "outbox". The outbox attribute is
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created when the first message is sent. It’s a list with an
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EmailMessage instance for each message that would be sent.
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Other notes:
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* After changing any HTML email or `email_base.html`, you need to run
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`scripts/setup/inline_email_css.py` for the changes to be reflected in the dev
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environment. The script generates files like
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`templates/zerver/emails/compiled/<template_prefix>.html`.
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## Email templates
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Zulip's email templates live under `templates/zerver/emails`. Email
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templates are a messy problem, because on the one hand, you want nice,
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readable markup and styling, but on the other, email clients have very
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limited CSS support and generally require us to inject any CSS we're
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using in the emails into the email as inline styles. And then you
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also need both plain-text and HTML emails. We solve these problems
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using a combination of the
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[premailer](https://github.com/peterbe/premailer) library and having
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two copies of each email (plain-text and HTML).
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So for each email, there are two source templates: the `.txt` version
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(for plain-text format) as well as a `.source.html` template. The
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`.txt` version is used directly; while the `.source.html` template is
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processed by `scripts/setup/inline_email_css.py` (generating a `.html` template
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under `templates/zerver/emails/compiled`); that tool (powered by
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`premailer`) injects the CSS we use for styling our emails
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(`templates/zerver/emails/email.css`) into the templates inline.
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What this means is that when you're editing emails, **you need to run
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`scripts/setup/inline_email_css.py`** after making changes to see the changes
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take effect. Our tooling automatically runs this as part of
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`tools/provision` and production deployments; but you should bump
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`PROVISION_VERSION` when making changes to emails that change test
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behavior, or other developers will get test failures until they
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provision.
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While this model is great for the markup side, it isn't ideal for
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[translations](../translating/translating.md). The Django
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translation system works with exact strings, and having different new
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markup can require translators to re-translate strings, which can
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result in problems like needing 2 copies of each string (one for
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plain-text, one for HTML) and/or needing to re-translate a bunch of
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strings after making a CSS tweak. Re-translating these strings is
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relatively easy in Transifex, but annoying.
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So when writing email templates, we try to translate individual
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sentences that are shared between the plain-text and HTML content
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rather than larger blocks that might contain markup; this allows
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translators to not have to deal with multiple versions of each string
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in our emails.
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One can test whether you did the translating part right by running
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`scripts/setup/inline_email_css.py && manage.py makemessages` and then searching
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for the strings in `locale/en/LC_MESSAGES/django.po`; if there
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are multiple copies or they contain CSS colors, you did it wrong.
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A final note for translating emails is that strings that are sent to
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user accounts (where we know the user's language) are higher-priority
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to translate than things sent to an email address (where we don't).
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E.g. for password reset emails, it makes sense for the code path for
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people with an actual account can be tagged for translation, while the
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code path for the "you don't have an account email" might not be,
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since we might not know what language to use in the second case.
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Future work in this space could be to actually generate the plain-text
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versions of emails from the `.source.html` markup, so that we don't
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need to maintain two copies of each email's text.
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