mirror of https://github.com/zulip/zulip.git
371 lines
14 KiB
Markdown
371 lines
14 KiB
Markdown
# Writing views in Zulip
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## What this covers
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This page documents how views work in Zulip. You may want to read the
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[new feature tutorial](new-feature-tutorial.html)
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or the [integration guide](integration-guide.html),
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and treat this as a reference.
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If you have experience with Django, much of this will be familiar, but
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you may want to read about how REST requests are dispatched, and how
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request authentication works.
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This document supplements the [new feature tutorial](new-feature-tutorial.html)
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and the [testing](testing.html)
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documentation.
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## What is a view?
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A view in Zulip is everything that helps implement a server endpoint.
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Every path that the Zulip server supports (doesn't show a 404 page
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for) is a view. The obvious ones are those you can visit in your
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browser, for example
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[/integrations](https://zulipchat.com/integrations/), which shows the
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integration documentation. These paths show up in the address bar of
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the browser. There are other views that are only seen by software,
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namely the API views. They are used to build the various clients that
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Zulip has, namely the web client (which is also used by the desktop
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client) and the mobile clients.
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## Modifying urls.py
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A view is anything with an entry in the appropriate urls.py, usually
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`zproject/urls.py`. Zulip views either serve HTML (pages for browsers)
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or JSON (data for Zulip clients on all platforms, custom bots, and
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integrations).
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The format of the URL patterns in Django is [documented
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here](https://docs.djangoproject.com/en/1.8/topics/http/urls/), and
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the Zulip specific details for these are discussed in detail in the
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[life of a request doc](life-of-a-request.html#options).
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We have two Zulip-specific conventions we use for internationalization and for
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our REST API, respectively.
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## Writing human-readable views
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If you're writing a new page for the website, make sure to add it
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to `i18n_urls` in `zproject/urls.py`
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```diff
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i18n_urls = [
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...
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+ url(r'^quote-of-the-day/$', TemplateView.as_view(template_name='zerver/qotd.html')),
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+ url(r'^postcards/$', 'zerver.views.postcards'),
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]
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```
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As an example, if a request comes in for Spanish, language code `es`,
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the server path will be something like: `es/features/`.
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### Decorators used for webpage views
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This section documents a few simple decorators that we use for webpage
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views, as an introduction to view decorators.
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`require_post`:
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```py
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@require_post
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def accounts_register(request):
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# type: (HttpRequest) -> HttpResponse
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```
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This decorator ensures that the requst was a POST--here, we're
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checking that the registration submission page is requested with a
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post, and inside the function, we'll check the form data. If you
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request this page with GET, you'll get a HTTP 405 METHOD NOT ALLOWED
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error.
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`zulip_login_required`:
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This decorator verifies that the browser is logged in (i.e. has a
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valid session cookie) before providing the view for this route, or
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redirects the browser to a login page. This is used in the root path
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(`/`) of the website for the web client. If a request comes from a
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browser without a valid session cookie, they are redirected to a login
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page. It is a small fork of Django's
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[login_required][login-required-link], adding a few extra checks
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specific to Zulip.
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```py
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@zulip_login_required
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def home(request):
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# type: (HttpRequest) -> HttpResponse
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```
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[login-required-link]: https://docs.djangoproject.com/en/1.8/topics/auth/default/#django.contrib.auth.decorators.login_required
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### Writing a template
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Templates for the main website are found in
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[templates/zerver](https://github.com/zulip/zulip/blob/master/templates/zerver).
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## Writing API REST endpoints
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These are code-parseable views that take x-www-form-urlencoded or JSON
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request bodies, and return JSON-string responses. Almost all Zulip
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view code is in the implementations of API REST endpoints.
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The REST API does authentication of the user through `rest_dispatch`,
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which is documented in detail at
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[zerver/lib/rest.py](https://github.com/zulip/zulip/blob/master/zerver/lib/rest.py).
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This method will authenticate the user either through a session token
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from a cookie on the browser, or from a base64 encoded `email:api-key`
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string given via HTTP Basic Auth for API clients.
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``` py
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>>> import requests
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>>> r = requests.get('https://api.github.com/user', auth=('hello@example.com', '0123456789abcdeFGHIJKLmnopQRSTUV'))
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>>> r.status_code
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-> 200
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```
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### Request variables
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Most API views will have some arguments that are passed as part of the
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request to control the behavior of the view. In any well-engineered
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view, you need to write code to parse and validate that the arguments
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exist and have the correct form. For many applications, this leads to
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one of several bad outcomes:
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* The code isn't written, so arguments aren't validated, leading to
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bugs and confusing error messages for users of the API.
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* Every function starts with a long list of semi-redundant validation
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code, usually with highly inconsistent error messages.
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* Every view function comes with another function that does the
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validation that has the problems from the last bullet point.
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In Zulip, we solve this problem with a the special decorator called
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`has_request_variables` which allows a developer to declare the
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arguments a view function takes and validate their types all within
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the `def` line of the function. We like this framework because we
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have found it makes the validation code compact, readable, and
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conveniently located in the same place as the method it is validating
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arguments for.
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Here's an example:
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``` py
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from zerver.decorator import require_realm_admin
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from zerver.lib.request import has_request_variables, REQ
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@require_realm_admin
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@has_request_variables
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def create_user_backend(request, user_profile, email=REQ(), password=REQ(),
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full_name=REQ(), short_name=REQ()):
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# ... code here
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```
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You will notice the special `REQ()` in the keyword arguments to
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`create_user_backend`. `has_request_variables` parses the declared
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keyword arguments of the decorated function, and for each that has an
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instance of `REQ` as the default value, it extracts the HTTP parameter
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with that name from the request, parses it as JSON, and passes it to
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the function. It will return an nicely JSON formatted HTTP 400 error
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in the event that an argument is missing, doesn't parse as JSON, or
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otherwise is invalid.
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`require_realm_admin` is another decorator which checks the
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authorization of the given `user_profile` to make sure it belongs to a
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realm administrator (and thus has permission to create a user); we
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show it here primarily to show how `has_request_variables` should be
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the inner decorator.
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The implementation of `has_request_variables` is documented in detail
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in
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[zerver/lib/request.py](https://github.com/zulip/zulip/blob/master/zerver/lib/request.py))
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REQ also helps us with request variable validation. For example:
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* `msg_ids = REQ(validator=check_list(check_int))` will check that the
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`msg_ids` HTTP parameter is a list of integers, marshalled as JSON,
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and pass it into the function as the `msg_ids` Python keyword
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argument.
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* `streams_raw = REQ("subscriptions",
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validator=check_list(check_string))` will check that the
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"subscriptions" HTTP parameter is a list of strings, marshalled as
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JSON, and pass it into the function with the Python keyword argument
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`streams_raw`.
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* `message_id=REQ(converter=to_non_negative_int)` will check that the
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`message_id` HTTP parameter is a string containing a non-negative
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integer (`converter` differs from `validator` in that it does not
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automatically marshall the input from JSON).
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See
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[zerver/lib/validator.py](https://github.com/zulip/zulip/blob/master/zerver/lib/validator.py)
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for more validators and their documentation.
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### Deciding which HTTP verb to use
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When writing a new API view, you should writing a view to do just one
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type of thing. Usually that's either a read or write operation.
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If you're reading data, GET is the best option. Other read-only verbs
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are HEAD, which should be used for testing if a resource is available to
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be read with GET, without the expense of the full GET. OPTIONS is also
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read-only, and used by clients to determine which HTTP verbs are
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available for a given path. This isn't something you need to write, as
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it happens automatically in the implementation of `rest_dispatch`--see
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[zerver/lib/rest.py](https://github.com/zulip/zulip/blob/master/zerver/lib/rest.py)
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for more.
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If you're creating new data, try to figure out if the thing you are
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creating is uniquely identifiable. For example, if you're creating a
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user, there's only one user per email. If you can find a unique ID,
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you should use PUT for the view. If you want to create the data multiple
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times for multiple requests (for example, requesting the send_message
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view multiple times with the same content should send multiple
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messages), you should use POST.
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If you're updating existing data, use PATCH.
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If you're removing data, use DELETE.
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### Idempotency
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When writing a new API endpoint, with the exception of things like
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sending messages, requests should be safe to repeat, without impacting
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the state of the server. This is *idempotency*.
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You will often want to return an error if a request to change
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something would do nothing because the state is already as desired, to
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make debugging Zulip clients easier. This means that the response for
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repeated requests may not be the same, but the repeated requests won't
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change the server more than once or cause unwanted side effects.
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### Making changes to the database
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If the view does any modification to the database, that change is done
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in a helper function in `zerver/lib/actions.py`. Those functions are
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responsible for doing a complete update to the state of the server,
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which often entails both updating the database and sending any events
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to notify clients about the state change. When possible, we prefer to
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design a clean boundary between the view function and the actions
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function is such that all user input validation happens in the view
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code (i.e. all 400 type errors are thrown there), and the actions code
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is responsible for atomically executing the change (this is usually
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signalled by having the actions function have a name starting with
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`do_`. So in most cases, errors in an actions function will be the
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result of an operational problem (e.g. lost connection to the
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database) and lead to a 500 error. If an actions function is
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responsible for validation as well, it should have a name starting
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with `check_`.
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For example, in [zerver/views/realm.py](https://github.com/zulip/zulip/blob/master/zerver/views/realm.py):
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```py
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@require_realm_admin
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@has_request_variables
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def update_realm(request, user_profile, name=REQ(validator=check_string, default=None), ...)):
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# type: (HttpRequest, UserProfile, ...) -> HttpResponse
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realm = user_profile.realm
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data = {} # type: Dict[str, Any]
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if name is not None and realm.name != name:
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do_set_realm_name(realm, name)
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data['name'] = 'updated'
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```
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and in [zerver/lib/actions.py](https://github.com/zulip/zulip/blob/master/zerver/lib/actions.py):
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```py
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def do_set_realm_name(realm, name):
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# type: (Realm, Text) -> None
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realm.name = name
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realm.save(update_fields=['name'])
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event = dict(
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type="realm",
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op="update",
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property='name',
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value=name,
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)
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send_event(event, active_user_ids(realm))
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```
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`realm.save()` actually saves the changes to the realm to the
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database, and `send_event` sends the event to active clients belonging
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to the provided list of users (in this case, all altive users in the
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Zulip realm).
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### Calling from the web application
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You should always use channel.<method> to make an `HTTP <method>` call
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to the Zulip JSON API. As an example, in
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[static/js/admin.js](https://github.com/zulip/zulip/blob/master/static/js/admin.js)
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```js
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var url = "/json/realm";
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var data = {
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name: JSON.stringify(new_name),
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}
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channel.patch({
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url: url,
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data: data,
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success: function (response_data) {
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if (response_data.name !== undefined) {
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ui_report.success(i18n.t("Name changed!"), name_status);
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}
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...
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```
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### Calling from an API client
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Here's how you might manually make a call from python:
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```py
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payload = {'name': new_name}
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# email and API key
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api_auth = ('hello@example.com', '0123456789abcdeFGHIJKLmnopQRSTUV')
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r = requests.patch(SERVER_URL + 'api/v1/realm',
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data=json.dumps(payload),
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auth=api_auth,
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)
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```
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This is simply an illustration; we recommend making use of the [Zulip
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Python API bindings](https://www.zulipchat.com/api) since they provide
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a nice interface for accessing the API.
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## Legacy endpoints used by the web client
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New features should conform the REST API style. The legacy, web-only
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endpoints can't effectively enforce usage of a browser, so they aren't
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preferable from a security perspective, and it is generally a good idea
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to make your feature available to other clients, especially the mobile
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clients.
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These endpoints make use of some older authentication decorators,
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`authenticated_json_api_view`, `authenticated_json_post_view`, and
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`authenticated_json_view`, so you may see them in the code.
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## Webhook integration endpoints
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Webhooks are called by other services, often to send a message as part
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of those services' integrations. They are most often POST requests, and
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often there is very little you can customize about them. Usually you can
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expect that the webhook for a service will allow specification for the
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target server for the webhook, and an API key.
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If the webhook does not have an option to provide a bot email, use the
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`api_key_only_webhook_view` decorator, to fill in the `user_profile` and
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`request.client` fields of a request:
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``` py
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@api_key_only_webhook_view('PagerDuty')
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@has_request_variables
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def api_pagerduty_webhook(request, user_profile,
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payload=REQ(argument_type='body'),
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stream=REQ(default='pagerduty'),
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topic=REQ(default=None)):
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```
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`request.client` will be the result of `get_client("ZulipPagerDutyWebhook")`
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in this example and it will be passed to `check_send_stream_message`. For
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more information, see [Clients in Zulip](client.html).
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