mirror of https://github.com/django/django.git
838 lines
32 KiB
Plaintext
838 lines
32 KiB
Plaintext
===================
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How to use sessions
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===================
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.. module:: django.contrib.sessions
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:synopsis: Provides session management for Django projects.
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Django provides full support for anonymous sessions. The session framework
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lets you store and retrieve arbitrary data on a per-site-visitor basis. It
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stores data on the server side and abstracts the sending and receiving of
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cookies. Cookies contain a session ID -- not the data itself (unless you're
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using the :ref:`cookie based backend<cookie-session-backend>`).
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Enabling sessions
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=================
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Sessions are implemented via a piece of :doc:`middleware </ref/middleware>`.
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To enable session functionality, do the following:
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* Edit the :setting:`MIDDLEWARE` setting and make sure it contains
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``'django.contrib.sessions.middleware.SessionMiddleware'``. The default
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``settings.py`` created by ``django-admin startproject`` has
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``SessionMiddleware`` activated.
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If you don't want to use sessions, you might as well remove the
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``SessionMiddleware`` line from :setting:`MIDDLEWARE` and
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``'django.contrib.sessions'`` from your :setting:`INSTALLED_APPS`.
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It'll save you a small bit of overhead.
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.. _configuring-sessions:
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Configuring the session engine
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==============================
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By default, Django stores sessions in your database (using the model
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``django.contrib.sessions.models.Session``). Though this is convenient, in
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some setups it's faster to store session data elsewhere, so Django can be
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configured to store session data on your filesystem or in your cache.
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Using database-backed sessions
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------------------------------
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If you want to use a database-backed session, you need to add
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``'django.contrib.sessions'`` to your :setting:`INSTALLED_APPS` setting.
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Once you have configured your installation, run ``manage.py migrate``
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to install the single database table that stores session data.
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.. _cached-sessions-backend:
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Using cached sessions
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---------------------
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For better performance, you may want to use a cache-based session backend.
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To store session data using Django's cache system, you'll first need to make
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sure you've configured your cache; see the :doc:`cache documentation
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</topics/cache>` for details.
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.. warning::
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You should only use cache-based sessions if you're using the Memcached
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cache backend. The local-memory cache backend doesn't retain data long
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enough to be a good choice, and it'll be faster to use file or database
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sessions directly instead of sending everything through the file or
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database cache backends. Additionally, the local-memory cache backend is
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NOT multi-process safe, therefore probably not a good choice for production
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environments.
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If you have multiple caches defined in :setting:`CACHES`, Django will use the
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default cache. To use another cache, set :setting:`SESSION_CACHE_ALIAS` to the
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name of that cache.
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Once your cache is configured, you've got two choices for how to store data in
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the cache:
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* Set :setting:`SESSION_ENGINE` to
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``"django.contrib.sessions.backends.cache"`` for a simple caching session
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store. Session data will be stored directly in your cache. However, session
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data may not be persistent: cached data can be evicted if the cache fills
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up or if the cache server is restarted.
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* For persistent, cached data, set :setting:`SESSION_ENGINE` to
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``"django.contrib.sessions.backends.cached_db"``. This uses a
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write-through cache -- every write to the cache will also be written to
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the database. Session reads only use the database if the data is not
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already in the cache.
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Both session stores are quite fast, but the simple cache is faster because it
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disregards persistence. In most cases, the ``cached_db`` backend will be fast
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enough, but if you need that last bit of performance, and are willing to let
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session data be expunged from time to time, the ``cache`` backend is for you.
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If you use the ``cached_db`` session backend, you also need to follow the
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configuration instructions for the `using database-backed sessions`_.
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Using file-based sessions
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-------------------------
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To use file-based sessions, set the :setting:`SESSION_ENGINE` setting to
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``"django.contrib.sessions.backends.file"``.
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You might also want to set the :setting:`SESSION_FILE_PATH` setting (which
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defaults to output from ``tempfile.gettempdir()``, most likely ``/tmp``) to
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control where Django stores session files. Be sure to check that your Web
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server has permissions to read and write to this location.
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.. _cookie-session-backend:
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Using cookie-based sessions
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---------------------------
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To use cookies-based sessions, set the :setting:`SESSION_ENGINE` setting to
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``"django.contrib.sessions.backends.signed_cookies"``. The session data will be
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stored using Django's tools for :doc:`cryptographic signing </topics/signing>`
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and the :setting:`SECRET_KEY` setting.
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.. note::
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It's recommended to leave the :setting:`SESSION_COOKIE_HTTPONLY` setting
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on ``True`` to prevent access to the stored data from JavaScript.
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.. warning::
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**If the SECRET_KEY is not kept secret and you are using the**
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:class:`~django.contrib.sessions.serializers.PickleSerializer`, **this can
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lead to arbitrary remote code execution.**
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An attacker in possession of the :setting:`SECRET_KEY` can not only
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generate falsified session data, which your site will trust, but also
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remotely execute arbitrary code, as the data is serialized using pickle.
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If you use cookie-based sessions, pay extra care that your secret key is
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always kept completely secret, for any system which might be remotely
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accessible.
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**The session data is signed but not encrypted**
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When using the cookies backend the session data can be read by the client.
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A MAC (Message Authentication Code) is used to protect the data against
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changes by the client, so that the session data will be invalidated when being
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tampered with. The same invalidation happens if the client storing the
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cookie (e.g. your user's browser) can't store all of the session cookie and
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drops data. Even though Django compresses the data, it's still entirely
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possible to exceed the `common limit of 4096 bytes`_ per cookie.
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**No freshness guarantee**
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Note also that while the MAC can guarantee the authenticity of the data
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(that it was generated by your site, and not someone else), and the
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integrity of the data (that it is all there and correct), it cannot
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guarantee freshness i.e. that you are being sent back the last thing you
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sent to the client. This means that for some uses of session data, the
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cookie backend might open you up to `replay attacks`_. Unlike other session
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backends which keep a server-side record of each session and invalidate it
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when a user logs out, cookie-based sessions are not invalidated when a user
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logs out. Thus if an attacker steals a user's cookie, they can use that
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cookie to login as that user even if the user logs out. Cookies will only
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be detected as 'stale' if they are older than your
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:setting:`SESSION_COOKIE_AGE`.
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**Performance**
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Finally, the size of a cookie can have an impact on the `speed of your site`_.
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.. _`common limit of 4096 bytes`: https://tools.ietf.org/html/rfc2965#section-5.3
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.. _`replay attacks`: https://en.wikipedia.org/wiki/Replay_attack
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.. _`speed of your site`: http://yuiblog.com/blog/2007/03/01/performance-research-part-3/
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Using sessions in views
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=======================
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When ``SessionMiddleware`` is activated, each :class:`~django.http.HttpRequest`
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object -- the first argument to any Django view function -- will have a
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``session`` attribute, which is a dictionary-like object.
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You can read it and write to ``request.session`` at any point in your view.
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You can edit it multiple times.
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.. class:: backends.base.SessionBase
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This is the base class for all session objects. It has the following
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standard dictionary methods:
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.. method:: __getitem__(key)
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Example: ``fav_color = request.session['fav_color']``
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.. method:: __setitem__(key, value)
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Example: ``request.session['fav_color'] = 'blue'``
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.. method:: __delitem__(key)
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Example: ``del request.session['fav_color']``. This raises ``KeyError``
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if the given ``key`` isn't already in the session.
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.. method:: __contains__(key)
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Example: ``'fav_color' in request.session``
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.. method:: get(key, default=None)
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Example: ``fav_color = request.session.get('fav_color', 'red')``
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.. method:: pop(key, default=__not_given)
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Example: ``fav_color = request.session.pop('fav_color', 'blue')``
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.. method:: keys()
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.. method:: items()
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.. method:: setdefault()
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.. method:: clear()
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It also has these methods:
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.. method:: flush()
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Deletes the current session data from the session and deletes the session
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cookie. This is used if you want to ensure that the previous session data
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can't be accessed again from the user's browser (for example, the
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:func:`django.contrib.auth.logout()` function calls it).
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.. method:: set_test_cookie()
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Sets a test cookie to determine whether the user's browser supports
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cookies. Due to the way cookies work, you won't be able to test this
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until the user's next page request. See `Setting test cookies`_ below for
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more information.
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.. method:: test_cookie_worked()
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Returns either ``True`` or ``False``, depending on whether the user's
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browser accepted the test cookie. Due to the way cookies work, you'll
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have to call ``set_test_cookie()`` on a previous, separate page request.
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See `Setting test cookies`_ below for more information.
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.. method:: delete_test_cookie()
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Deletes the test cookie. Use this to clean up after yourself.
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.. method:: set_expiry(value)
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Sets the expiration time for the session. You can pass a number of
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different values:
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* If ``value`` is an integer, the session will expire after that
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many seconds of inactivity. For example, calling
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``request.session.set_expiry(300)`` would make the session expire
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in 5 minutes.
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* If ``value`` is a ``datetime`` or ``timedelta`` object, the
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session will expire at that specific date/time. Note that ``datetime``
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and ``timedelta`` values are only serializable if you are using the
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:class:`~django.contrib.sessions.serializers.PickleSerializer`.
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* If ``value`` is ``0``, the user's session cookie will expire
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when the user's Web browser is closed.
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* If ``value`` is ``None``, the session reverts to using the global
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session expiry policy.
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Reading a session is not considered activity for expiration
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purposes. Session expiration is computed from the last time the
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session was *modified*.
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.. method:: get_expiry_age()
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Returns the number of seconds until this session expires. For sessions
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with no custom expiration (or those set to expire at browser close), this
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will equal :setting:`SESSION_COOKIE_AGE`.
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This function accepts two optional keyword arguments:
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- ``modification``: last modification of the session, as a
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:class:`~datetime.datetime` object. Defaults to the current time.
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- ``expiry``: expiry information for the session, as a
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:class:`~datetime.datetime` object, an :class:`int` (in seconds), or
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``None``. Defaults to the value stored in the session by
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:meth:`set_expiry`, if there is one, or ``None``.
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.. method:: get_expiry_date()
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Returns the date this session will expire. For sessions with no custom
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expiration (or those set to expire at browser close), this will equal the
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date :setting:`SESSION_COOKIE_AGE` seconds from now.
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This function accepts the same keyword arguments as :meth:`get_expiry_age`.
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.. method:: get_expire_at_browser_close()
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Returns either ``True`` or ``False``, depending on whether the user's
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session cookie will expire when the user's Web browser is closed.
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.. method:: clear_expired()
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Removes expired sessions from the session store. This class method is
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called by :djadmin:`clearsessions`.
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.. method:: cycle_key()
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Creates a new session key while retaining the current session data.
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:func:`django.contrib.auth.login()` calls this method to mitigate against
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session fixation.
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.. _session_serialization:
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Session serialization
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---------------------
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By default, Django serializes session data using JSON. You can use the
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:setting:`SESSION_SERIALIZER` setting to customize the session serialization
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format. Even with the caveats described in :ref:`custom-serializers`, we highly
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recommend sticking with JSON serialization *especially if you are using the
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cookie backend*.
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For example, here's an attack scenario if you use :mod:`pickle` to serialize
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session data. If you're using the :ref:`signed cookie session backend
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<cookie-session-backend>` and :setting:`SECRET_KEY` is known by an attacker
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(there isn't an inherent vulnerability in Django that would cause it to leak),
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the attacker could insert a string into their session which, when unpickled,
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executes arbitrary code on the server. The technique for doing so is simple and
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easily available on the internet. Although the cookie session storage signs the
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cookie-stored data to prevent tampering, a :setting:`SECRET_KEY` leak
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immediately escalates to a remote code execution vulnerability.
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Bundled serializers
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~~~~~~~~~~~~~~~~~~~
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.. class:: serializers.JSONSerializer
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A wrapper around the JSON serializer from :mod:`django.core.signing`. Can
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only serialize basic data types.
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In addition, as JSON supports only string keys, note that using non-string
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keys in ``request.session`` won't work as expected::
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>>> # initial assignment
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>>> request.session[0] = 'bar'
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>>> # subsequent requests following serialization & deserialization
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>>> # of session data
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>>> request.session[0] # KeyError
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>>> request.session['0']
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'bar'
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Similarly, data that can't be encoded in JSON, such as non-UTF8 bytes like
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``'\xd9'`` (which raises :exc:`UnicodeDecodeError`), can't be stored.
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See the :ref:`custom-serializers` section for more details on limitations
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of JSON serialization.
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.. class:: serializers.PickleSerializer
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Supports arbitrary Python objects, but, as described above, can lead to a
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remote code execution vulnerability if :setting:`SECRET_KEY` becomes known
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by an attacker.
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.. _custom-serializers:
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Write your own serializer
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~~~~~~~~~~~~~~~~~~~~~~~~~
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Note that unlike :class:`~django.contrib.sessions.serializers.PickleSerializer`,
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the :class:`~django.contrib.sessions.serializers.JSONSerializer` cannot handle
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arbitrary Python data types. As is often the case, there is a trade-off between
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convenience and security. If you wish to store more advanced data types
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including ``datetime`` and ``Decimal`` in JSON backed sessions, you will need
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to write a custom serializer (or convert such values to a JSON serializable
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object before storing them in ``request.session``). While serializing these
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values is fairly straightforward
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(:class:`~django.core.serializers.json.DjangoJSONEncoder` may be helpful),
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writing a decoder that can reliably get back the same thing that you put in is
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more fragile. For example, you run the risk of returning a ``datetime`` that
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was actually a string that just happened to be in the same format chosen for
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``datetime``\s).
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Your serializer class must implement two methods,
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``dumps(self, obj)`` and ``loads(self, data)``, to serialize and deserialize
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the dictionary of session data, respectively.
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Session object guidelines
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-------------------------
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* Use normal Python strings as dictionary keys on ``request.session``. This
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is more of a convention than a hard-and-fast rule.
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* Session dictionary keys that begin with an underscore are reserved for
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internal use by Django.
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* Don't override ``request.session`` with a new object, and don't access or
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set its attributes. Use it like a Python dictionary.
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Examples
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--------
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This simplistic view sets a ``has_commented`` variable to ``True`` after a user
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posts a comment. It doesn't let a user post a comment more than once::
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def post_comment(request, new_comment):
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if request.session.get('has_commented', False):
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return HttpResponse("You've already commented.")
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c = comments.Comment(comment=new_comment)
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c.save()
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request.session['has_commented'] = True
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return HttpResponse('Thanks for your comment!')
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This simplistic view logs in a "member" of the site::
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def login(request):
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m = Member.objects.get(username=request.POST['username'])
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if m.password == request.POST['password']:
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request.session['member_id'] = m.id
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return HttpResponse("You're logged in.")
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else:
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return HttpResponse("Your username and password didn't match.")
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...And this one logs a member out, according to ``login()`` above::
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def logout(request):
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try:
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del request.session['member_id']
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except KeyError:
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pass
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return HttpResponse("You're logged out.")
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The standard :meth:`django.contrib.auth.logout` function actually does a bit
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more than this to prevent inadvertent data leakage. It calls the
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:meth:`~backends.base.SessionBase.flush` method of ``request.session``.
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We are using this example as a demonstration of how to work with session
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objects, not as a full ``logout()`` implementation.
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Setting test cookies
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====================
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As a convenience, Django provides an easy way to test whether the user's
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browser accepts cookies. Just call the
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:meth:`~backends.base.SessionBase.set_test_cookie` method of
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``request.session`` in a view, and call
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:meth:`~backends.base.SessionBase.test_cookie_worked` in a subsequent view --
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not in the same view call.
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This awkward split between ``set_test_cookie()`` and ``test_cookie_worked()``
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is necessary due to the way cookies work. When you set a cookie, you can't
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actually tell whether a browser accepted it until the browser's next request.
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It's good practice to use
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:meth:`~backends.base.SessionBase.delete_test_cookie()` to clean up after
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yourself. Do this after you've verified that the test cookie worked.
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Here's a typical usage example::
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from django.http import HttpResponse
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from django.shortcuts import render
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def login(request):
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if request.method == 'POST':
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if request.session.test_cookie_worked():
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request.session.delete_test_cookie()
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return HttpResponse("You're logged in.")
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else:
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return HttpResponse("Please enable cookies and try again.")
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request.session.set_test_cookie()
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return render(request, 'foo/login_form.html')
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Using sessions out of views
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===========================
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.. note::
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The examples in this section import the ``SessionStore`` object directly
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from the ``django.contrib.sessions.backends.db`` backend. In your own code,
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you should consider importing ``SessionStore`` from the session engine
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designated by :setting:`SESSION_ENGINE`, as below:
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>>> from importlib import import_module
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>>> from django.conf import settings
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>>> SessionStore = import_module(settings.SESSION_ENGINE).SessionStore
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An API is available to manipulate session data outside of a view::
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>>> from django.contrib.sessions.backends.db import SessionStore
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>>> s = SessionStore()
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>>> # stored as seconds since epoch since datetimes are not serializable in JSON.
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>>> s['last_login'] = 1376587691
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>>> s.create()
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>>> s.session_key
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'2b1189a188b44ad18c35e113ac6ceead'
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>>> s = SessionStore(session_key='2b1189a188b44ad18c35e113ac6ceead')
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>>> s['last_login']
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1376587691
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``SessionStore.create()`` is designed to create a new session (i.e. one not
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loaded from the session store and with ``session_key=None``). ``save()`` is
|
||
designed to save an existing session (i.e. one loaded from the session store).
|
||
Calling ``save()`` on a new session may also work but has a small chance of
|
||
generating a ``session_key`` that collides with an existing one. ``create()``
|
||
calls ``save()`` and loops until an unused ``session_key`` is generated.
|
||
|
||
If you're using the ``django.contrib.sessions.backends.db`` backend, each
|
||
session is just a normal Django model. The ``Session`` model is defined in
|
||
``django/contrib/sessions/models.py``. Because it's a normal model, you can
|
||
access sessions using the normal Django database API::
|
||
|
||
>>> from django.contrib.sessions.models import Session
|
||
>>> s = Session.objects.get(pk='2b1189a188b44ad18c35e113ac6ceead')
|
||
>>> s.expire_date
|
||
datetime.datetime(2005, 8, 20, 13, 35, 12)
|
||
|
||
Note that you'll need to call
|
||
:meth:`~base_session.AbstractBaseSession.get_decoded()` to get the session
|
||
dictionary. This is necessary because the dictionary is stored in an encoded
|
||
format::
|
||
|
||
>>> s.session_data
|
||
'KGRwMQpTJ19hdXRoX3VzZXJfaWQnCnAyCkkxCnMuMTExY2ZjODI2Yj...'
|
||
>>> s.get_decoded()
|
||
{'user_id': 42}
|
||
|
||
When sessions are saved
|
||
=======================
|
||
|
||
By default, Django only saves to the session database when the session has been
|
||
modified -- that is if any of its dictionary values have been assigned or
|
||
deleted::
|
||
|
||
# Session is modified.
|
||
request.session['foo'] = 'bar'
|
||
|
||
# Session is modified.
|
||
del request.session['foo']
|
||
|
||
# Session is modified.
|
||
request.session['foo'] = {}
|
||
|
||
# Gotcha: Session is NOT modified, because this alters
|
||
# request.session['foo'] instead of request.session.
|
||
request.session['foo']['bar'] = 'baz'
|
||
|
||
In the last case of the above example, we can tell the session object
|
||
explicitly that it has been modified by setting the ``modified`` attribute on
|
||
the session object::
|
||
|
||
request.session.modified = True
|
||
|
||
To change this default behavior, set the :setting:`SESSION_SAVE_EVERY_REQUEST`
|
||
setting to ``True``. When set to ``True``, Django will save the session to the
|
||
database on every single request.
|
||
|
||
Note that the session cookie is only sent when a session has been created or
|
||
modified. If :setting:`SESSION_SAVE_EVERY_REQUEST` is ``True``, the session
|
||
cookie will be sent on every request.
|
||
|
||
Similarly, the ``expires`` part of a session cookie is updated each time the
|
||
session cookie is sent.
|
||
|
||
The session is not saved if the response's status code is 500.
|
||
|
||
.. _browser-length-vs-persistent-sessions:
|
||
|
||
Browser-length sessions vs. persistent sessions
|
||
===============================================
|
||
|
||
You can control whether the session framework uses browser-length sessions vs.
|
||
persistent sessions with the :setting:`SESSION_EXPIRE_AT_BROWSER_CLOSE`
|
||
setting.
|
||
|
||
By default, :setting:`SESSION_EXPIRE_AT_BROWSER_CLOSE` is set to ``False``,
|
||
which means session cookies will be stored in users' browsers for as long as
|
||
:setting:`SESSION_COOKIE_AGE`. Use this if you don't want people to have to
|
||
log in every time they open a browser.
|
||
|
||
If :setting:`SESSION_EXPIRE_AT_BROWSER_CLOSE` is set to ``True``, Django will
|
||
use browser-length cookies -- cookies that expire as soon as the user closes
|
||
their browser. Use this if you want people to have to log in every time they
|
||
open a browser.
|
||
|
||
This setting is a global default and can be overwritten at a per-session level
|
||
by explicitly calling the :meth:`~backends.base.SessionBase.set_expiry` method
|
||
of ``request.session`` as described above in `using sessions in views`_.
|
||
|
||
.. note::
|
||
|
||
Some browsers (Chrome, for example) provide settings that allow users to
|
||
continue browsing sessions after closing and re-opening the browser. In
|
||
some cases, this can interfere with the
|
||
:setting:`SESSION_EXPIRE_AT_BROWSER_CLOSE` setting and prevent sessions
|
||
from expiring on browser close. Please be aware of this while testing
|
||
Django applications which have the
|
||
:setting:`SESSION_EXPIRE_AT_BROWSER_CLOSE` setting enabled.
|
||
|
||
Clearing the session store
|
||
==========================
|
||
|
||
As users create new sessions on your website, session data can accumulate in
|
||
your session store. If you're using the database backend, the
|
||
``django_session`` database table will grow. If you're using the file backend,
|
||
your temporary directory will contain an increasing number of files.
|
||
|
||
To understand this problem, consider what happens with the database backend.
|
||
When a user logs in, Django adds a row to the ``django_session`` database
|
||
table. Django updates this row each time the session data changes. If the user
|
||
logs out manually, Django deletes the row. But if the user does *not* log out,
|
||
the row never gets deleted. A similar process happens with the file backend.
|
||
|
||
Django does *not* provide automatic purging of expired sessions. Therefore,
|
||
it's your job to purge expired sessions on a regular basis. Django provides a
|
||
clean-up management command for this purpose: :djadmin:`clearsessions`. It's
|
||
recommended to call this command on a regular basis, for example as a daily
|
||
cron job.
|
||
|
||
Note that the cache backend isn't vulnerable to this problem, because caches
|
||
automatically delete stale data. Neither is the cookie backend, because the
|
||
session data is stored by the users' browsers.
|
||
|
||
Settings
|
||
========
|
||
|
||
A few :ref:`Django settings <settings-sessions>` give you control over session
|
||
behavior:
|
||
|
||
* :setting:`SESSION_CACHE_ALIAS`
|
||
* :setting:`SESSION_COOKIE_AGE`
|
||
* :setting:`SESSION_COOKIE_DOMAIN`
|
||
* :setting:`SESSION_COOKIE_HTTPONLY`
|
||
* :setting:`SESSION_COOKIE_NAME`
|
||
* :setting:`SESSION_COOKIE_PATH`
|
||
* :setting:`SESSION_COOKIE_SECURE`
|
||
* :setting:`SESSION_ENGINE`
|
||
* :setting:`SESSION_EXPIRE_AT_BROWSER_CLOSE`
|
||
* :setting:`SESSION_FILE_PATH`
|
||
* :setting:`SESSION_SAVE_EVERY_REQUEST`
|
||
* :setting:`SESSION_SERIALIZER`
|
||
|
||
.. _topics-session-security:
|
||
|
||
Session security
|
||
================
|
||
|
||
Subdomains within a site are able to set cookies on the client for the whole
|
||
domain. This makes session fixation possible if cookies are permitted from
|
||
subdomains not controlled by trusted users.
|
||
|
||
For example, an attacker could log into ``good.example.com`` and get a valid
|
||
session for their account. If the attacker has control over ``bad.example.com``,
|
||
they can use it to send their session key to you since a subdomain is permitted
|
||
to set cookies on ``*.example.com``. When you visit ``good.example.com``,
|
||
you'll be logged in as the attacker and might inadvertently enter your
|
||
sensitive personal data (e.g. credit card info) into the attackers account.
|
||
|
||
Another possible attack would be if ``good.example.com`` sets its
|
||
:setting:`SESSION_COOKIE_DOMAIN` to ``".example.com"`` which would cause
|
||
session cookies from that site to be sent to ``bad.example.com``.
|
||
|
||
Technical details
|
||
=================
|
||
|
||
* The session dictionary accepts any :mod:`json` serializable value when using
|
||
:class:`~django.contrib.sessions.serializers.JSONSerializer` or any
|
||
picklable Python object when using
|
||
:class:`~django.contrib.sessions.serializers.PickleSerializer`. See the
|
||
:mod:`pickle` module for more information.
|
||
|
||
* Session data is stored in a database table named ``django_session`` .
|
||
|
||
* Django only sends a cookie if it needs to. If you don't set any session
|
||
data, it won't send a session cookie.
|
||
|
||
The ``SessionStore`` object
|
||
---------------------------
|
||
|
||
When working with sessions internally, Django uses a session store object from
|
||
the corresponding session engine. By convention, the session store object class
|
||
is named ``SessionStore`` and is located in the module designated by
|
||
:setting:`SESSION_ENGINE`.
|
||
|
||
All ``SessionStore`` classes available in Django inherit from
|
||
:class:`~backends.base.SessionBase` and implement data manipulation methods,
|
||
namely:
|
||
|
||
* ``exists()``
|
||
* ``create()``
|
||
* ``save()``
|
||
* ``delete()``
|
||
* ``load()``
|
||
* :meth:`~backends.base.SessionBase.clear_expired`
|
||
|
||
In order to build a custom session engine or to customize an existing one, you
|
||
may create a new class inheriting from :class:`~backends.base.SessionBase` or
|
||
any other existing ``SessionStore`` class.
|
||
|
||
Extending most of the session engines is quite straightforward, but doing so
|
||
with database-backed session engines generally requires some extra effort (see
|
||
the next section for details).
|
||
|
||
.. _extending-database-backed-session-engines:
|
||
|
||
Extending database-backed session engines
|
||
=========================================
|
||
|
||
Creating a custom database-backed session engine built upon those included in
|
||
Django (namely ``db`` and ``cached_db``) may be done by inheriting
|
||
:class:`~base_session.AbstractBaseSession` and either ``SessionStore`` class.
|
||
|
||
``AbstractBaseSession`` and ``BaseSessionManager`` are importable from
|
||
``django.contrib.sessions.base_session`` so that they can be imported without
|
||
including ``django.contrib.sessions`` in :setting:`INSTALLED_APPS`.
|
||
|
||
.. class:: base_session.AbstractBaseSession
|
||
|
||
|
||
The abstract base session model.
|
||
|
||
.. attribute:: session_key
|
||
|
||
Primary key. The field itself may contain up to 40 characters. The
|
||
current implementation generates a 32-character string (a random
|
||
sequence of digits and lowercase ASCII letters).
|
||
|
||
.. attribute:: session_data
|
||
|
||
A string containing an encoded and serialized session dictionary.
|
||
|
||
.. attribute:: expire_date
|
||
|
||
A datetime designating when the session expires.
|
||
|
||
Expired sessions are not available to a user, however, they may still
|
||
be stored in the database until the :djadmin:`clearsessions` management
|
||
command is run.
|
||
|
||
.. classmethod:: get_session_store_class()
|
||
|
||
Returns a session store class to be used with this session model.
|
||
|
||
.. method:: get_decoded()
|
||
|
||
Returns decoded session data.
|
||
|
||
Decoding is performed by the session store class.
|
||
|
||
You can also customize the model manager by subclassing
|
||
:class:`~django.contrib.sessions.base_session.BaseSessionManager`:
|
||
|
||
.. class:: base_session.BaseSessionManager
|
||
|
||
.. method:: encode(session_dict)
|
||
|
||
Returns the given session dictionary serialized and encoded as a string.
|
||
|
||
Encoding is performed by the session store class tied to a model class.
|
||
|
||
.. method:: save(session_key, session_dict, expire_date)
|
||
|
||
Saves session data for a provided session key, or deletes the session
|
||
in case the data is empty.
|
||
|
||
Customization of ``SessionStore`` classes is achieved by overriding methods
|
||
and properties described below:
|
||
|
||
.. class:: backends.db.SessionStore
|
||
|
||
Implements database-backed session store.
|
||
|
||
.. classmethod:: get_model_class()
|
||
|
||
Override this method to return a custom session model if you need one.
|
||
|
||
.. method:: create_model_instance(data)
|
||
|
||
Returns a new instance of the session model object, which represents
|
||
the current session state.
|
||
|
||
Overriding this method provides the ability to modify session model
|
||
data before it's saved to database.
|
||
|
||
.. class:: backends.cached_db.SessionStore
|
||
|
||
Implements cached database-backed session store.
|
||
|
||
.. attribute:: cache_key_prefix
|
||
|
||
A prefix added to a session key to build a cache key string.
|
||
|
||
Example
|
||
-------
|
||
|
||
The example below shows a custom database-backed session engine that includes
|
||
an additional database column to store an account ID (thus providing an option
|
||
to query the database for all active sessions for an account)::
|
||
|
||
from django.contrib.sessions.backends.db import SessionStore as DBStore
|
||
from django.contrib.sessions.base_session import AbstractBaseSession
|
||
from django.db import models
|
||
|
||
class CustomSession(AbstractBaseSession):
|
||
account_id = models.IntegerField(null=True, db_index=True)
|
||
|
||
@classmethod
|
||
def get_session_store_class(cls):
|
||
return SessionStore
|
||
|
||
class SessionStore(DBStore):
|
||
@classmethod
|
||
def get_model_class(cls):
|
||
return CustomSession
|
||
|
||
def create_model_instance(self, data):
|
||
obj = super(SessionStore, self).create_model_instance(data)
|
||
try:
|
||
account_id = int(data.get('_auth_user_id'))
|
||
except (ValueError, TypeError):
|
||
account_id = None
|
||
obj.account_id = account_id
|
||
return obj
|
||
|
||
If you are migrating from the Django's built-in ``cached_db`` session store to
|
||
a custom one based on ``cached_db``, you should override the cache key prefix
|
||
in order to prevent a namespace clash::
|
||
|
||
class SessionStore(CachedDBStore):
|
||
cache_key_prefix = 'mysessions.custom_cached_db_backend'
|
||
|
||
# ...
|
||
|
||
Session IDs in URLs
|
||
===================
|
||
|
||
The Django sessions framework is entirely, and solely, cookie-based. It does
|
||
not fall back to putting session IDs in URLs as a last resort, as PHP does.
|
||
This is an intentional design decision. Not only does that behavior make URLs
|
||
ugly, it makes your site vulnerable to session-ID theft via the "Referer"
|
||
header.
|