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427 lines
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427 lines
18 KiB
Plaintext
==========
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Middleware
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==========
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Middleware is a framework of hooks into Django's request/response processing.
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It's a light, low-level "plugin" system for globally altering Django's input
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or output.
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Each middleware component is responsible for doing some specific function. For
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example, Django includes a middleware component,
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:class:`~django.contrib.auth.middleware.AuthenticationMiddleware`, that
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associates users with requests using sessions.
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This document explains how middleware works, how you activate middleware, and
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how to write your own middleware. Django ships with some built-in middleware
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you can use right out of the box. They're documented in the :doc:`built-in
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middleware reference </ref/middleware>`.
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Writing your own middleware
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===========================
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A middleware factory is a callable that takes a ``get_response`` callable and
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returns a middleware. A middleware is a callable that takes a request and
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returns a response, just like a view.
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A middleware can be written as a function that looks like this::
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def simple_middleware(get_response):
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# One-time configuration and initialization.
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def middleware(request):
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# Code to be executed for each request before
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# the view (and later middleware) are called.
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response = get_response(request)
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# Code to be executed for each request/response after
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# the view is called.
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return response
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return middleware
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Or it can be written as a class whose instances are callable, like this::
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class SimpleMiddleware:
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def __init__(self, get_response):
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self.get_response = get_response
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# One-time configuration and initialization.
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def __call__(self, request):
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# Code to be executed for each request before
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# the view (and later middleware) are called.
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response = self.get_response(request)
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# Code to be executed for each request/response after
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# the view is called.
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return response
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The ``get_response`` callable provided by Django might be the actual view (if
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this is the last listed middleware) or it might be the next middleware in the
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chain. The current middleware doesn't need to know or care what exactly it is,
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just that it represents whatever comes next.
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The above is a slight simplification -- the ``get_response`` callable for the
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last middleware in the chain won't be the actual view but rather a wrapper
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method from the handler which takes care of applying :ref:`view middleware
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<view-middleware>`, calling the view with appropriate URL arguments, and
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applying :ref:`template-response <template-response-middleware>` and
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:ref:`exception <exception-middleware>` middleware.
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Middleware can either support only synchronous Python (the default), only
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asynchronous Python, or both. See :ref:`async-middleware` for details of how to
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advertise what you support, and know what kind of request you are getting.
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Middleware can live anywhere on your Python path.
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``__init__(get_response)``
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--------------------------
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Middleware factories must accept a ``get_response`` argument. You can also
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initialize some global state for the middleware. Keep in mind a couple of
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caveats:
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* Django initializes your middleware with only the ``get_response`` argument,
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so you can't define ``__init__()`` as requiring any other arguments.
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* Unlike the ``__call__()`` method which is called once per request,
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``__init__()`` is called only *once*, when the web server starts.
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Marking middleware as unused
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----------------------------
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It's sometimes useful to determine at startup time whether a piece of
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middleware should be used. In these cases, your middleware's ``__init__()``
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method may raise :exc:`~django.core.exceptions.MiddlewareNotUsed`. Django will
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then remove that middleware from the middleware process and log a debug message
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to the :ref:`django-request-logger` logger when :setting:`DEBUG` is ``True``.
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Activating middleware
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=====================
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To activate a middleware component, add it to the :setting:`MIDDLEWARE` list in
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your Django settings.
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In :setting:`MIDDLEWARE`, each middleware component is represented by a string:
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the full Python path to the middleware factory's class or function name. For
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example, here's the default value created by :djadmin:`django-admin
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startproject <startproject>`::
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MIDDLEWARE = [
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'django.middleware.security.SecurityMiddleware',
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'django.contrib.sessions.middleware.SessionMiddleware',
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'django.middleware.common.CommonMiddleware',
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'django.middleware.csrf.CsrfViewMiddleware',
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'django.contrib.auth.middleware.AuthenticationMiddleware',
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'django.contrib.messages.middleware.MessageMiddleware',
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'django.middleware.clickjacking.XFrameOptionsMiddleware',
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]
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A Django installation doesn't require any middleware — :setting:`MIDDLEWARE`
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can be empty, if you'd like — but it's strongly suggested that you at least use
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:class:`~django.middleware.common.CommonMiddleware`.
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The order in :setting:`MIDDLEWARE` matters because a middleware can depend on
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other middleware. For instance,
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:class:`~django.contrib.auth.middleware.AuthenticationMiddleware` stores the
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authenticated user in the session; therefore, it must run after
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:class:`~django.contrib.sessions.middleware.SessionMiddleware`. See
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:ref:`middleware-ordering` for some common hints about ordering of Django
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middleware classes.
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Middleware order and layering
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=============================
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During the request phase, before calling the view, Django applies middleware in
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the order it's defined in :setting:`MIDDLEWARE`, top-down.
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You can think of it like an onion: each middleware class is a "layer" that
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wraps the view, which is in the core of the onion. If the request passes
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through all the layers of the onion (each one calls ``get_response`` to pass
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the request in to the next layer), all the way to the view at the core, the
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response will then pass through every layer (in reverse order) on the way back
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out.
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If one of the layers decides to short-circuit and return a response without
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ever calling its ``get_response``, none of the layers of the onion inside that
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layer (including the view) will see the request or the response. The response
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will only return through the same layers that the request passed in through.
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Other middleware hooks
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======================
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Besides the basic request/response middleware pattern described earlier, you
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can add three other special methods to class-based middleware:
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.. _view-middleware:
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``process_view()``
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------------------
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.. method:: process_view(request, view_func, view_args, view_kwargs)
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``request`` is an :class:`~django.http.HttpRequest` object. ``view_func`` is
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the Python function that Django is about to use. (It's the actual function
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object, not the name of the function as a string.) ``view_args`` is a list of
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positional arguments that will be passed to the view, and ``view_kwargs`` is a
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dictionary of keyword arguments that will be passed to the view. Neither
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``view_args`` nor ``view_kwargs`` include the first view argument
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(``request``).
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``process_view()`` is called just before Django calls the view.
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It should return either ``None`` or an :class:`~django.http.HttpResponse`
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object. If it returns ``None``, Django will continue processing this request,
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executing any other ``process_view()`` middleware and, then, the appropriate
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view. If it returns an :class:`~django.http.HttpResponse` object, Django won't
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bother calling the appropriate view; it'll apply response middleware to that
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:class:`~django.http.HttpResponse` and return the result.
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.. note::
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Accessing :attr:`request.POST <django.http.HttpRequest.POST>` inside
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middleware before the view runs or in ``process_view()`` will prevent any
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view running after the middleware from being able to :ref:`modify the
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upload handlers for the request <modifying_upload_handlers_on_the_fly>`,
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and should normally be avoided.
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The :class:`~django.middleware.csrf.CsrfViewMiddleware` class can be
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considered an exception, as it provides the
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:func:`~django.views.decorators.csrf.csrf_exempt` and
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:func:`~django.views.decorators.csrf.csrf_protect` decorators which allow
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views to explicitly control at what point the CSRF validation should occur.
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.. _exception-middleware:
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``process_exception()``
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-----------------------
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.. method:: process_exception(request, exception)
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``request`` is an :class:`~django.http.HttpRequest` object. ``exception`` is an
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``Exception`` object raised by the view function.
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Django calls ``process_exception()`` when a view raises an exception.
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``process_exception()`` should return either ``None`` or an
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:class:`~django.http.HttpResponse` object. If it returns an
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:class:`~django.http.HttpResponse` object, the template response and response
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middleware will be applied and the resulting response returned to the
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browser. Otherwise, :ref:`default exception handling <error-views>` kicks in.
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Again, middleware are run in reverse order during the response phase, which
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includes ``process_exception``. If an exception middleware returns a response,
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the ``process_exception`` methods of the middleware classes above that
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middleware won't be called at all.
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.. _template-response-middleware:
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``process_template_response()``
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-------------------------------
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.. method:: process_template_response(request, response)
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``request`` is an :class:`~django.http.HttpRequest` object. ``response`` is
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the :class:`~django.template.response.TemplateResponse` object (or equivalent)
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returned by a Django view or by a middleware.
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``process_template_response()`` is called just after the view has finished
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executing, if the response instance has a ``render()`` method, indicating that
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it is a :class:`~django.template.response.TemplateResponse` or equivalent.
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It must return a response object that implements a ``render`` method. It could
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alter the given ``response`` by changing ``response.template_name`` and
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``response.context_data``, or it could create and return a brand-new
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:class:`~django.template.response.TemplateResponse` or equivalent.
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You don't need to explicitly render responses -- responses will be
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automatically rendered once all template response middleware has been
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called.
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Middleware are run in reverse order during the response phase, which
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includes ``process_template_response()``.
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Dealing with streaming responses
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================================
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Unlike :class:`~django.http.HttpResponse`,
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:class:`~django.http.StreamingHttpResponse` does not have a ``content``
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attribute. As a result, middleware can no longer assume that all responses
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will have a ``content`` attribute. If they need access to the content, they
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must test for streaming responses and adjust their behavior accordingly::
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if response.streaming:
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response.streaming_content = wrap_streaming_content(response.streaming_content)
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else:
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response.content = alter_content(response.content)
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.. note::
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``streaming_content`` should be assumed to be too large to hold in memory.
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Response middleware may wrap it in a new generator, but must not consume
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it. Wrapping is typically implemented as follows::
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def wrap_streaming_content(content):
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for chunk in content:
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yield alter_content(chunk)
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Exception handling
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==================
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Django automatically converts exceptions raised by the view or by middleware
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into an appropriate HTTP response with an error status code. :ref:`Certain
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exceptions <error-views>` are converted to 4xx status codes, while an unknown
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exception is converted to a 500 status code.
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This conversion takes place before and after each middleware (you can think of
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it as the thin film in between each layer of the onion), so that every
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middleware can always rely on getting some kind of HTTP response back from
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calling its ``get_response`` callable. Middleware don't need to worry about
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wrapping their call to ``get_response`` in a ``try/except`` and handling an
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exception that might have been raised by a later middleware or the view. Even
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if the very next middleware in the chain raises an
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:class:`~django.http.Http404` exception, for example, your middleware won't see
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that exception; instead it will get an :class:`~django.http.HttpResponse`
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object with a :attr:`~django.http.HttpResponse.status_code` of 404.
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You can set :setting:`DEBUG_PROPAGATE_EXCEPTIONS` to ``True`` to skip this
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conversion and propagate exceptions upward.
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.. _async-middleware:
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Asynchronous support
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====================
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Middleware can support any combination of synchronous and asynchronous
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requests. Django will adapt requests to fit the middleware's requirements if it
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cannot support both, but at a performance penalty.
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By default, Django assumes that your middleware is capable of handling only
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synchronous requests. To change these assumptions, set the following attributes
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on your middleware factory function or class:
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* ``sync_capable`` is a boolean indicating if the middleware can handle
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synchronous requests. Defaults to ``True``.
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* ``async_capable`` is a boolean indicating if the middleware can handle
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asynchronous requests. Defaults to ``False``.
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If your middleware has both ``sync_capable = True`` and
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``async_capable = True``, then Django will pass it the request without
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converting it. In this case, you can work out if your middleware will receive
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async requests by checking if the ``get_response`` object you are passed is a
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coroutine function, using :py:func:`asyncio.iscoroutinefunction`.
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The ``django.utils.decorators`` module contains
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:func:`~django.utils.decorators.sync_only_middleware`,
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:func:`~django.utils.decorators.async_only_middleware`, and
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:func:`~django.utils.decorators.sync_and_async_middleware` decorators that
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allow you to apply these flags to middleware factory functions.
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The returned callable must match the sync or async nature of the
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``get_response`` method. If you have an asynchronous ``get_response``, you must
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return a coroutine function (``async def``).
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``process_view``, ``process_template_response`` and ``process_exception``
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methods, if they are provided, should also be adapted to match the sync/async
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mode. However, Django will individually adapt them as required if you do not,
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at an additional performance penalty.
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Here's an example of how to create a middleware function that supports both::
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import asyncio
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from django.utils.decorators import sync_and_async_middleware
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@sync_and_async_middleware
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def simple_middleware(get_response):
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# One-time configuration and initialization goes here.
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if asyncio.iscoroutinefunction(get_response):
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async def middleware(request):
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# Do something here!
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response = await get_response(request)
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return response
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else:
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def middleware(request):
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# Do something here!
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response = get_response(request)
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return response
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return middleware
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.. note::
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If you declare a hybrid middleware that supports both synchronous and
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asynchronous calls, the kind of call you get may not match the underlying
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view. Django will optimize the middleware call stack to have as few
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sync/async transitions as possible.
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Thus, even if you are wrapping an async view, you may be called in sync
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mode if there is other, synchronous middleware between you and the view.
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.. _upgrading-middleware:
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Upgrading pre-Django 1.10-style middleware
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==========================================
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.. class:: django.utils.deprecation.MiddlewareMixin
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:module:
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Django provides ``django.utils.deprecation.MiddlewareMixin`` to ease creating
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middleware classes that are compatible with both :setting:`MIDDLEWARE` and the
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old ``MIDDLEWARE_CLASSES``, and support synchronous and asynchronous requests.
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All middleware classes included with Django are compatible with both settings.
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The mixin provides an ``__init__()`` method that requires a ``get_response``
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argument and stores it in ``self.get_response``.
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The ``__call__()`` method:
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#. Calls ``self.process_request(request)`` (if defined).
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#. Calls ``self.get_response(request)`` to get the response from later
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middleware and the view.
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#. Calls ``self.process_response(request, response)`` (if defined).
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#. Returns the response.
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If used with ``MIDDLEWARE_CLASSES``, the ``__call__()`` method will
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never be used; Django calls ``process_request()`` and ``process_response()``
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directly.
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In most cases, inheriting from this mixin will be sufficient to make an
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old-style middleware compatible with the new system with sufficient
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backwards-compatibility. The new short-circuiting semantics will be harmless or
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even beneficial to the existing middleware. In a few cases, a middleware class
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may need some changes to adjust to the new semantics.
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These are the behavioral differences between using :setting:`MIDDLEWARE` and
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``MIDDLEWARE_CLASSES``:
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#. Under ``MIDDLEWARE_CLASSES``, every middleware will always have its
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``process_response`` method called, even if an earlier middleware
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short-circuited by returning a response from its ``process_request``
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method. Under :setting:`MIDDLEWARE`, middleware behaves more like an onion:
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the layers that a response goes through on the way out are the same layers
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that saw the request on the way in. If a middleware short-circuits, only
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that middleware and the ones before it in :setting:`MIDDLEWARE` will see the
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response.
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#. Under ``MIDDLEWARE_CLASSES``, ``process_exception`` is applied to
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exceptions raised from a middleware ``process_request`` method. Under
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:setting:`MIDDLEWARE`, ``process_exception`` applies only to exceptions
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raised from the view (or from the ``render`` method of a
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:class:`~django.template.response.TemplateResponse`). Exceptions raised from
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a middleware are converted to the appropriate HTTP response and then passed
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to the next middleware.
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#. Under ``MIDDLEWARE_CLASSES``, if a ``process_response`` method raises
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an exception, the ``process_response`` methods of all earlier middleware are
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skipped and a ``500 Internal Server Error`` HTTP response is always
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returned (even if the exception raised was e.g. an
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:class:`~django.http.Http404`). Under :setting:`MIDDLEWARE`, an exception
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raised from a middleware will immediately be converted to the appropriate
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HTTP response, and then the next middleware in line will see that
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response. Middleware are never skipped due to a middleware raising an
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exception.
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