mirror of https://github.com/zulip/zulip.git
233 lines
10 KiB
Markdown
233 lines
10 KiB
Markdown
# Life of a Request
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It can sometimes be confusing to figure out how to write a new feature,
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or debug an existing one. Let us try to follow a request through the
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Zulip codebase, and dive deep into how each part works.
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We will use as our example the creation of users through the API, but we
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will also highlight how alternative requests are handled.
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## A request is sent to the server, and handled by [Nginx](http://nginx.org/en/docs/)
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When Zulip is deployed in production, all requests go through nginx.
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For the most part we don't need to know how this works, except for when
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it isn't working. Nginx does the first level of routing--deciding which
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application will serve the request (or deciding to serve the request
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itself for static content).
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In development, `tools/run-dev.py` fills the role of nginx. Static files
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are in your git checkout under `static`, and are served unminified.
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## Nginx secures traffic with [SSL](https://zulip.readthedocs.io/en/latest/prod-install.html)
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If you visit your Zulip server in your browser and discover that your
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traffic isn't being properly encrypted, an [nginx misconfiguration](https://github.com/zulip/zulip/blob/master/puppet/zulip/files/nginx/sites-available/zulip-enterprise) is the
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likely culprit.
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## Static files are [served directly](https://github.com/zulip/zulip/blob/master/puppet/zulip/files/nginx/zulip-include-frontend/app) by Nginx
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Static files include JavaScript, css, static assets (like emoji, avatars),
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and user uploads (if stored locally and not on S3).
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```
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location /static/ {
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alias /home/zulip/prod-static/;
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error_page 404 /static/html/404.html;
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}
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```
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## Nginx routes other requests [between tornado and django](http://zulip.readthedocs.io/en/latest/architecture-overview.html?highlight=tornado#tornado-and-django)
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All our connected clients hold open long-polling connections so that
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they can recieve events (messages, presence notifications, and so on) in
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real-time. Events are served by Zulip's `tornado` application.
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Nearly every other kind of request is served by the `zerver` Django
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application.
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[Here is the relevant nginx routing configuration.](https://github.com/zulip/zulip/blob/master/puppet/zulip/files/nginx/zulip-include-frontend/app)
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## Django routes the request to a view in urls.py files
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There are various [urls.py](https://docs.djangoproject.com/en/1.8/topics/http/urls/) files throughout the server codebase, which are
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covered in more detail in [the directory structure doc](http://zulip.readthedocs.io/en/latest/directory-structure.html).
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The main Zulip Django app is `zerver`. The routes are found in
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```
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zproject/urls.py
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zproject/legacy_urls.py
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```
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There are HTML-serving, REST API, legacy, and webhook url patterns. We
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will look at how each of these types of requests are handled, and focus
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on how the REST API handles our user creation example.
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## Views serving HTML are internationalized by server path
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If we look in [zproject/urls.py](https://github.com/zulip/zulip/blob/master/zproject/urls.py), we can see something called
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`i18n_urls`. These urls show up in the address bar of the browser, and
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serve HTML.
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For example, the `/hello` page (preview [here](https://zulip.com/hello/))
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gets translated in Chinese at `zh-cn/hello/` (preview [here](https://zulip.com/zh-cn/hello/)).
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Note the `zh-cn` prefix--that url pattern gets added by `i18n_patterns`.
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## API endpoints use [REST](http://www.ics.uci.edu/~fielding/pubs/dissertation/rest_arch_style.htm)
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Our example is a REST API endpoint. It's a PUT to `/users`.
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With the exception of Webhooks (which we do not usually control the
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format of), legacy endpoints, and logged-out endpoints, Zulip uses REST
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for its API. This means that we use:
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* POST for creating something new where we don't have a unique ID. Also used as a catch-all if no other verb is appropriate.
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* PUT for creating something for which we have a unique ID.
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* DELETE for deleting something
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* PATCH for updating or editing attributes of something.
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* GET to get something (read-only)
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* HEAD to check the existence of something to GET, without getting it;
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useful to check a link without downloading a potentially large link
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* OPTIONS (handled automatically, see more below)
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Of these, PUT, DELETE, HEAD, OPTIONS, and GET are *idempotent*, which
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means that we can send the request multiple times and get the same
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state on the server. You might get a different response after the first
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request, as we like to give our clients an error so they know that no
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new change was made by the extra requests.
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POST is not idempotent--if I send a message multiple times, Zulip will
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show my message multiple times. PATCH is special--it can be
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idempotent, and we like to write API endpoints in an idempotent fashion,
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as much as possible.
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This [cookbook](http://restcookbook.com/) and [tutorial](http://www.restapitutorial.com/) can be helpful if you are new to REST web applications.
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### PUT is only for creating new things
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If you're used to using PUT to update or modify resources, you might
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find our convention a little strange.
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We use PUT to create resources with unique identifiers, POST to create
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resources without unique identifiers (like sending a message with the
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same content multiple times), and PATCH to modify resources.
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In our example, `create_user_backend` uses PUT, because there's a unique
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identifier, the user's email.
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### OPTIONS
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The OPTIONS method will yield the allowed methods.
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This request:
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`OPTIONS https://zulip.tabbott.net/api/v1/users`
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yields a response with this HTTP header:
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`Allow: PUT, GET`
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We can see this reflected in [zproject/urls.py](https://github.com/zulip/zulip/blob/master/zproject/urls.py):
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url(r'^users$', 'zerver.lib.rest.rest_dispatch',
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{'GET': 'zerver.views.users.get_members_backend',
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'PUT': 'zerver.views.users.create_user_backend'}),
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In this way, the API is partially self-documenting.
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### Legacy endpoints are used by the web client
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The endpoints from the legacy JSON API are written without REST in
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mind. They are used extensively by the web client, and use POST.
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You can see them in [zproject/legacy_urls.py](https://github.com/zulip/zulip/blob/master/zproject/legacy_urls.py).
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### Webhook integrations may not be RESTful
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Zulip endpoints that are called by other services for integrations have
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to conform to the service's request format. They are likely to use
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only POST.
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Some integrations will only provide an API key for their webhooks. For
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these integrations, we use the `api_key_only_webhook_view` decorator,
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to fill in the `user_profile` and `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, client,
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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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The `client` will be the result of `get_client("ZulipPagerDutyWebhook")`
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in this example.
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## Django calls rest_dispatch for REST endpoints, and authenticates
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For requests that correspond to a REST url pattern, Zulip configures its
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url patterns (see [zerver/lib/rest.py](https://github.com/zulip/zulip/blob/master/zerver/lib/rest.py)) so that the action called is
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`rest_dispatch`. This method will authenticate the user, either through
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a session token from a cookie, or from an `email:api-key` string given
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via HTTP Basic Auth for API clients.
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It will then look up what HTTP verb was used (GET, POST, etc) to make
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the request, and then figure out which view to show from that.
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In our example,
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```
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{'GET': 'zerver.views.users.get_members_backend',
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'PUT': 'zerver.views.users.create_user_backend'}
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```
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is supplied as an argument to `rest_dispatch`, along with the [HTTPRequest](https://docs.djangoproject.com/en/1.8/ref/request-response/).
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The request has the HTTP verb `PUT`, which `rest_dispatch` can use to
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find the correct view to show: `zerver.views.users.create_user_backend`.
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## The view will authorize the user, extract request variables, and validate them
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There are some special decorators we may use for a given view. Our
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example uses `require_realm_admin` and `has_request_variables`:
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``` py
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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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```
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`require_realm_admin` checks the authorization of the given
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`user_profile` to make sure it belongs to a realm admin and thus has
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permission to create a user.
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We can see a special `REQ()` in the keyword arguments to `create_user_backend`.
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The body of a request is expected to be in JSON format, so this is used
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in conjunction with the `has_request_variables` decorator to unpack the
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variables in the JSON string for use in the function. The implementation
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of `has_request_variables` is documented heavily in [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))`
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will check that the `msg_ids` request variable is a list of integers,
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marshalled as JSON.
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See [zerver/lib/validator.py](https://github.com/zulip/zulip/blob/master/zerver/lib/validator.py) for more validators and their documentation.
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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`.
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## Results are given as JSON
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Our API works on JSON requests and responses. Every API endpoint should
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return `json_error` in the case of an error, which gives a JSON string:
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`{'result': 'error', 'msg': <some error message>}`
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in a [HTTP Response](https://docs.djangoproject.com/en/1.8/ref/request-response/) with a content type of 'application/json'.
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To pass back data from the server to the calling client, in the event of
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a successfully handled request, we use `json_success(data=<some python object which can be converted to a JSON string>`.
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This will result in a JSON string:
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`{'result': 'success', 'msg': '', 'data'='{'var_name1': 'var_value1', 'var_name2': 'var_value2'...}`
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with a HTTP 200 status and a content type of 'application/json'.
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That's it!
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