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837 lines
33 KiB
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837 lines
33 KiB
Plaintext
.. _topics-cache:
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========================
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Django's cache framework
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========================
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A fundamental trade-off in dynamic Web sites is, well, they're dynamic. Each
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time a user requests a page, the Web server makes all sorts of calculations --
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from database queries to template rendering to business logic -- to create the
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page that your site's visitor sees. This is a lot more expensive, from a
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processing-overhead perspective, than your standard
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read-a-file-off-the-filesystem server arrangement.
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For most Web applications, this overhead isn't a big deal. Most Web
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applications aren't washingtonpost.com or slashdot.org; they're simply small-
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to medium-sized sites with so-so traffic. But for medium- to high-traffic
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sites, it's essential to cut as much overhead as possible.
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That's where caching comes in.
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To cache something is to save the result of an expensive calculation so that
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you don't have to perform the calculation next time. Here's some pseudocode
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explaining how this would work for a dynamically generated Web page::
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given a URL, try finding that page in the cache
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if the page is in the cache:
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return the cached page
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else:
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generate the page
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save the generated page in the cache (for next time)
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return the generated page
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Django comes with a robust cache system that lets you save dynamic pages so
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they don't have to be calculated for each request. For convenience, Django
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offers different levels of cache granularity: You can cache the output of
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specific views, you can cache only the pieces that are difficult to produce, or
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you can cache your entire site.
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Django also works well with "upstream" caches, such as Squid
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(http://www.squid-cache.org/) and browser-based caches. These are the types of
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caches that you don't directly control but to which you can provide hints (via
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HTTP headers) about which parts of your site should be cached, and how.
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Setting up the cache
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====================
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The cache system requires a small amount of setup. Namely, you have to tell it
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where your cached data should live -- whether in a database, on the filesystem
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or directly in memory. This is an important decision that affects your cache's
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performance; yes, some cache types are faster than others.
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Your cache preference goes in the ``CACHE_BACKEND`` setting in your settings
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file. Here's an explanation of all available values for ``CACHE_BACKEND``.
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Memcached
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---------
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By far the fastest, most efficient type of cache available to Django, Memcached
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is an entirely memory-based cache framework originally developed to handle high
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loads at LiveJournal.com and subsequently open-sourced by Danga Interactive.
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It's used by sites such as Facebook and Wikipedia to reduce database access and
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dramatically increase site performance.
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Memcached is available for free at http://danga.com/memcached/ . It runs as a
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daemon and is allotted a specified amount of RAM. All it does is provide a
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fast interface for adding, retrieving and deleting arbitrary data in the cache.
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All data is stored directly in memory, so there's no overhead of database or
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filesystem usage.
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After installing Memcached itself, you'll need to install
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``python-memcached``, which provides Python bindings to Memcached.
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This is available at ftp://ftp.tummy.com/pub/python-memcached/
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.. versionchanged:: 1.2
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In Django 1.0 and 1.1, you could also use ``cmemcache`` as a binding.
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However, support for this library was deprecated in 1.2 due to
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a lack of maintenance on the ``cmemcache`` library itself. Support for
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``cmemcache`` will be removed completely in Django 1.4.
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To use Memcached with Django, set ``CACHE_BACKEND`` to
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``memcached://ip:port/``, where ``ip`` is the IP address of the Memcached
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daemon and ``port`` is the port on which Memcached is running.
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In this example, Memcached is running on localhost (127.0.0.1) port 11211::
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CACHE_BACKEND = 'memcached://127.0.0.1:11211/'
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One excellent feature of Memcached is its ability to share cache over multiple
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servers. This means you can run Memcached daemons on multiple machines, and the
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program will treat the group of machines as a *single* cache, without the need
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to duplicate cache values on each machine. To take advantage of this feature,
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include all server addresses in ``CACHE_BACKEND``, separated by semicolons.
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In this example, the cache is shared over Memcached instances running on IP
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address 172.19.26.240 and 172.19.26.242, both on port 11211::
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CACHE_BACKEND = 'memcached://172.19.26.240:11211;172.19.26.242:11211/'
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In the following example, the cache is shared over Memcached instances running
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on the IP addresses 172.19.26.240 (port 11211), 172.19.26.242 (port 11212), and
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172.19.26.244 (port 11213)::
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CACHE_BACKEND = 'memcached://172.19.26.240:11211;172.19.26.242:11212;172.19.26.244:11213/'
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A final point about Memcached is that memory-based caching has one
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disadvantage: Because the cached data is stored in memory, the data will be
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lost if your server crashes. Clearly, memory isn't intended for permanent data
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storage, so don't rely on memory-based caching as your only data storage.
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Without a doubt, *none* of the Django caching backends should be used for
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permanent storage -- they're all intended to be solutions for caching, not
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storage -- but we point this out here because memory-based caching is
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particularly temporary.
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Database caching
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----------------
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To use a database table as your cache backend, first create a cache table in
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your database by running this command::
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python manage.py createcachetable [cache_table_name]
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...where ``[cache_table_name]`` is the name of the database table to create.
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(This name can be whatever you want, as long as it's a valid table name that's
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not already being used in your database.) This command creates a single table
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in your database that is in the proper format that Django's database-cache
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system expects.
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Once you've created that database table, set your ``CACHE_BACKEND`` setting to
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``"db://tablename"``, where ``tablename`` is the name of the database table.
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In this example, the cache table's name is ``my_cache_table``::
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CACHE_BACKEND = 'db://my_cache_table'
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The database caching backend uses the same database as specified in your
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settings file. You can't use a different database backend for your cache table.
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Database caching works best if you've got a fast, well-indexed database server.
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Filesystem caching
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------------------
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To store cached items on a filesystem, use the ``"file://"`` cache type for
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``CACHE_BACKEND``. For example, to store cached data in ``/var/tmp/django_cache``,
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use this setting::
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CACHE_BACKEND = 'file:///var/tmp/django_cache'
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Note that there are three forward slashes toward the beginning of that example.
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The first two are for ``file://``, and the third is the first character of the
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directory path, ``/var/tmp/django_cache``. If you're on Windows, put the
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drive letter after the ``file://``, like this::
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file://c:/foo/bar
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The directory path should be absolute -- that is, it should start at the root
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of your filesystem. It doesn't matter whether you put a slash at the end of the
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setting.
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Make sure the directory pointed-to by this setting exists and is readable and
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writable by the system user under which your Web server runs. Continuing the
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above example, if your server runs as the user ``apache``, make sure the
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directory ``/var/tmp/django_cache`` exists and is readable and writable by the
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user ``apache``.
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Each cache value will be stored as a separate file whose contents are the
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cache data saved in a serialized ("pickled") format, using Python's ``pickle``
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module. Each file's name is the cache key, escaped for safe filesystem use.
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Local-memory caching
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--------------------
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If you want the speed advantages of in-memory caching but don't have the
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capability of running Memcached, consider the local-memory cache backend. This
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cache is multi-process and thread-safe. To use it, set ``CACHE_BACKEND`` to
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``"locmem://"``. For example::
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CACHE_BACKEND = 'locmem://'
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Note that each process will have its own private cache instance, which means no
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cross-process caching is possible. This obviously also means the local memory
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cache isn't particularly memory-efficient, so it's probably not a good choice
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for production environments. It's nice for development.
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Dummy caching (for development)
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-------------------------------
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Finally, Django comes with a "dummy" cache that doesn't actually cache -- it
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just implements the cache interface without doing anything.
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This is useful if you have a production site that uses heavy-duty caching in
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various places but a development/test environment where you don't want to cache
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and don't want to have to change your code to special-case the latter. To
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activate dummy caching, set ``CACHE_BACKEND`` like so::
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CACHE_BACKEND = 'dummy://'
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Using a custom cache backend
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----------------------------
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.. versionadded:: 1.0
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While Django includes support for a number of cache backends out-of-the-box,
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sometimes you might want to use a customized cache backend. To use an external
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cache backend with Django, use a Python import path as the scheme portion (the
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part before the initial colon) of the ``CACHE_BACKEND`` URI, like so::
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CACHE_BACKEND = 'path.to.backend://'
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If you're building your own backend, you can use the standard cache backends
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as reference implementations. You'll find the code in the
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``django/core/cache/backends/`` directory of the Django source.
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Note: Without a really compelling reason, such as a host that doesn't support
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them, you should stick to the cache backends included with Django. They've
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been well-tested and are easy to use.
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CACHE_BACKEND arguments
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-----------------------
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Each cache backend may take arguments. They're given in query-string style on
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the ``CACHE_BACKEND`` setting. Valid arguments are as follows:
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* ``timeout``: The default timeout, in seconds, to use for the cache.
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This argument defaults to 300 seconds (5 minutes).
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* ``max_entries``: For the ``locmem``, ``filesystem`` and ``database``
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backends, the maximum number of entries allowed in the cache before old
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values are deleted. This argument defaults to 300.
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* ``cull_frequency``: The fraction of entries that are culled when
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``max_entries`` is reached. The actual ratio is ``1/cull_frequency``, so
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set ``cull_frequency=2`` to cull half of the entries when ``max_entries``
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is reached.
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A value of ``0`` for ``cull_frequency`` means that the entire cache will
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be dumped when ``max_entries`` is reached. This makes culling *much*
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faster at the expense of more cache misses.
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In this example, ``timeout`` is set to ``60``::
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CACHE_BACKEND = "memcached://127.0.0.1:11211/?timeout=60"
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In this example, ``timeout`` is ``30`` and ``max_entries`` is ``400``::
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CACHE_BACKEND = "locmem://?timeout=30&max_entries=400"
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Invalid arguments are silently ignored, as are invalid values of known
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arguments.
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The per-site cache
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==================
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.. versionchanged:: 1.0
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(previous versions of Django only provided a single ``CacheMiddleware`` instead
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of the two pieces described below).
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Once the cache is set up, the simplest way to use caching is to cache your
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entire site. You'll need to add
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``'django.middleware.cache.UpdateCacheMiddleware'`` and
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``'django.middleware.cache.FetchFromCacheMiddleware'`` to your
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``MIDDLEWARE_CLASSES`` setting, as in this example::
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MIDDLEWARE_CLASSES = (
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'django.middleware.cache.UpdateCacheMiddleware',
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'django.middleware.common.CommonMiddleware',
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'django.middleware.cache.FetchFromCacheMiddleware',
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)
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.. note::
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No, that's not a typo: the "update" middleware must be first in the list,
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and the "fetch" middleware must be last. The details are a bit obscure, but
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see `Order of MIDDLEWARE_CLASSES`_ below if you'd like the full story.
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Then, add the following required settings to your Django settings file:
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* ``CACHE_MIDDLEWARE_SECONDS`` -- The number of seconds each page should be
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cached.
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* ``CACHE_MIDDLEWARE_KEY_PREFIX`` -- If the cache is shared across multiple
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sites using the same Django installation, set this to the name of the site,
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or some other string that is unique to this Django instance, to prevent key
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collisions. Use an empty string if you don't care.
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The cache middleware caches every page that doesn't have GET or POST
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parameters. Optionally, if the ``CACHE_MIDDLEWARE_ANONYMOUS_ONLY`` setting is
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``True``, only anonymous requests (i.e., not those made by a logged-in user)
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will be cached. This is a simple and effective way of disabling caching for any
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user-specific pages (include Django's admin interface). Note that if you use
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``CACHE_MIDDLEWARE_ANONYMOUS_ONLY``, you should make sure you've activated
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``AuthenticationMiddleware``.
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Additionally, the cache middleware automatically sets a few headers in each
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``HttpResponse``:
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* Sets the ``Last-Modified`` header to the current date/time when a fresh
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(uncached) version of the page is requested.
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* Sets the ``Expires`` header to the current date/time plus the defined
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``CACHE_MIDDLEWARE_SECONDS``.
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* Sets the ``Cache-Control`` header to give a max age for the page --
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again, from the ``CACHE_MIDDLEWARE_SECONDS`` setting.
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See :ref:`topics-http-middleware` for more on middleware.
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.. versionadded:: 1.0
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If a view sets its own cache expiry time (i.e. it has a ``max-age`` section in
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its ``Cache-Control`` header) then the page will be cached until the expiry
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time, rather than ``CACHE_MIDDLEWARE_SECONDS``. Using the decorators in
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``django.views.decorators.cache`` you can easily set a view's expiry time
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(using the ``cache_control`` decorator) or disable caching for a view (using
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the ``never_cache`` decorator). See the `using other headers`__ section for
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more on these decorators.
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.. _i18n-cache-key:
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.. versionadded:: 1.2
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If :setting:`USE_I18N` is set to ``True`` then the generated cache key will
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include the name of the active :term:`language<language code>`.
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This allows you to easily cache multilingual sites without having to create
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the cache key yourself.
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See :ref:`topics-i18n-deployment` for more on how Django discovers the active
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language.
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__ `Controlling cache: Using other headers`_
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The per-view cache
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==================
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A more granular way to use the caching framework is by caching the output of
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individual views. ``django.views.decorators.cache`` defines a ``cache_page``
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decorator that will automatically cache the view's response for you. It's easy
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to use::
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from django.views.decorators.cache import cache_page
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@cache_page(60 * 15)
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def my_view(request):
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...
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``cache_page`` takes a single argument: the cache timeout, in seconds. In the
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above example, the result of the ``my_view()`` view will be cached for 15
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minutes. (Note that we've written it as ``60 * 15`` for the purpose of
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readability. ``60 * 15`` will be evaluated to ``900`` -- that is, 15 minutes
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multiplied by 60 seconds per minute.)
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The per-view cache, like the per-site cache, is keyed off of the URL. If
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multiple URLs point at the same view, each URL will be cached separately.
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Continuing the ``my_view`` example, if your URLconf looks like this::
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urlpatterns = ('',
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(r'^foo/(\d{1,2})/$', my_view),
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)
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then requests to ``/foo/1/`` and ``/foo/23/`` will be cached separately, as
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you may expect. But once a particular URL (e.g., ``/foo/23/``) has been
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requested, subsequent requests to that URL will use the cache.
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``cache_page`` can also take an optional keyword argument, ``key_prefix``, which
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works in the same way as the ``CACHE_MIDDLEWARE_KEY_PREFIX`` setting for the
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middleware. It can be used like this::
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@cache_page(60 * 15, key_prefix="site1")
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def my_view(request):
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...
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Specifying per-view cache in the URLconf
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----------------------------------------
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The examples in the previous section have hard-coded the fact that the view is
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cached, because ``cache_page`` alters the ``my_view`` function in place. This
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approach couples your view to the cache system, which is not ideal for several
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reasons. For instance, you might want to reuse the view functions on another,
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cache-less site, or you might want to distribute the views to people who might
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want to use them without being cached. The solution to these problems is to
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specify the per-view cache in the URLconf rather than next to the view functions
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themselves.
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Doing so is easy: simply wrap the view function with ``cache_page`` when you
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refer to it in the URLconf. Here's the old URLconf from earlier::
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urlpatterns = ('',
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(r'^foo/(\d{1,2})/$', my_view),
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)
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Here's the same thing, with ``my_view`` wrapped in ``cache_page``::
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from django.views.decorators.cache import cache_page
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urlpatterns = ('',
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(r'^foo/(\d{1,2})/$', cache_page(my_view, 60 * 15)),
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)
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If you take this approach, don't forget to import ``cache_page`` within your
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URLconf.
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Template fragment caching
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=========================
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.. versionadded:: 1.0
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If you're after even more control, you can also cache template fragments using
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the ``cache`` template tag. To give your template access to this tag, put
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``{% load cache %}`` near the top of your template.
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The ``{% cache %}`` template tag caches the contents of the block for a given
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amount of time. It takes at least two arguments: the cache timeout, in seconds,
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and the name to give the cache fragment. For example:
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.. code-block:: html+django
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{% load cache %}
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{% cache 500 sidebar %}
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.. sidebar ..
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{% endcache %}
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Sometimes you might want to cache multiple copies of a fragment depending on
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some dynamic data that appears inside the fragment. For example, you might want a
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separate cached copy of the sidebar used in the previous example for every user
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of your site. Do this by passing additional arguments to the ``{% cache %}``
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template tag to uniquely identify the cache fragment:
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.. code-block:: html+django
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{% load cache %}
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{% cache 500 sidebar request.user.username %}
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.. sidebar for logged in user ..
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{% endcache %}
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It's perfectly fine to specify more than one argument to identify the fragment.
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Simply pass as many arguments to ``{% cache %}`` as you need.
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If :setting:`USE_I18N` is set to ``True`` the per-site middleware cache will
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:ref:`respect the active language<i18n-cache-key>`. For the ``cache`` template
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tag you could use one of the
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:ref:`translation-specific variables<template-translation-vars>` available in
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templates to archieve the same result:
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.. code-block:: html+django
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{% load i18n %}
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{% load cache %}
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{% get_current_language as LANGUAGE_CODE %}
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{% cache 600 welcome LANGUAGE_CODE %}
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{% trans "Welcome to example.com" %}
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{% endcache %}
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The cache timeout can be a template variable, as long as the template variable
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resolves to an integer value. For example, if the template variable
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``my_timeout`` is set to the value ``600``, then the following two examples are
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equivalent:
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.. code-block:: html+django
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{% cache 600 sidebar %} ... {% endcache %}
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{% cache my_timeout sidebar %} ... {% endcache %}
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This feature is useful in avoiding repetition in templates. You can set the
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timeout in a variable, in one place, and just reuse that value.
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The low-level cache API
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=======================
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.. highlight:: python
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Sometimes, caching an entire rendered page doesn't gain you very much and is,
|
|
in fact, inconvenient overkill.
|
|
|
|
Perhaps, for instance, your site includes a view whose results depend on
|
|
several expensive queries, the results of which change at different intervals.
|
|
In this case, it would not be ideal to use the full-page caching that the
|
|
per-site or per-view cache strategies offer, because you wouldn't want to
|
|
cache the entire result (since some of the data changes often), but you'd still
|
|
want to cache the results that rarely change.
|
|
|
|
For cases like this, Django exposes a simple, low-level cache API. You can use
|
|
this API to store objects in the cache with any level of granularity you like.
|
|
You can cache any Python object that can be pickled safely: strings,
|
|
dictionaries, lists of model objects, and so forth. (Most common Python objects
|
|
can be pickled; refer to the Python documentation for more information about
|
|
pickling.)
|
|
|
|
The cache module, ``django.core.cache``, has a ``cache`` object that's
|
|
automatically created from the ``CACHE_BACKEND`` setting::
|
|
|
|
>>> from django.core.cache import cache
|
|
|
|
The basic interface is ``set(key, value, timeout)`` and ``get(key)``::
|
|
|
|
>>> cache.set('my_key', 'hello, world!', 30)
|
|
>>> cache.get('my_key')
|
|
'hello, world!'
|
|
|
|
The ``timeout`` argument is optional and defaults to the ``timeout``
|
|
argument in the ``CACHE_BACKEND`` setting (explained above). It's the number of
|
|
seconds the value should be stored in the cache.
|
|
|
|
If the object doesn't exist in the cache, ``cache.get()`` returns ``None``::
|
|
|
|
# Wait 30 seconds for 'my_key' to expire...
|
|
|
|
>>> cache.get('my_key')
|
|
None
|
|
|
|
We advise against storing the literal value ``None`` in the cache, because you
|
|
won't be able to distinguish between your stored ``None`` value and a cache
|
|
miss signified by a return value of ``None``.
|
|
|
|
``cache.get()`` can take a ``default`` argument. This specifies which value to
|
|
return if the object doesn't exist in the cache::
|
|
|
|
>>> cache.get('my_key', 'has expired')
|
|
'has expired'
|
|
|
|
.. versionadded:: 1.0
|
|
|
|
To add a key only if it doesn't already exist, use the ``add()`` method.
|
|
It takes the same parameters as ``set()``, but it will not attempt to
|
|
update the cache if the key specified is already present::
|
|
|
|
>>> cache.set('add_key', 'Initial value')
|
|
>>> cache.add('add_key', 'New value')
|
|
>>> cache.get('add_key')
|
|
'Initial value'
|
|
|
|
If you need to know whether ``add()`` stored a value in the cache, you can
|
|
check the return value. It will return ``True`` if the value was stored,
|
|
``False`` otherwise.
|
|
|
|
There's also a ``get_many()`` interface that only hits the cache once.
|
|
``get_many()`` returns a dictionary with all the keys you asked for that
|
|
actually exist in the cache (and haven't expired)::
|
|
|
|
>>> cache.set('a', 1)
|
|
>>> cache.set('b', 2)
|
|
>>> cache.set('c', 3)
|
|
>>> cache.get_many(['a', 'b', 'c'])
|
|
{'a': 1, 'b': 2, 'c': 3}
|
|
|
|
.. versionadded:: 1.2
|
|
|
|
To set multiple values more efficiently, use ``set_many()`` to pass a dictionary
|
|
of key-value pairs::
|
|
|
|
>>> cache.set_many({'a': 1, 'b': 2, 'c': 3})
|
|
>>> cache.get_many(['a', 'b', 'c'])
|
|
{'a': 1, 'b': 2, 'c': 3}
|
|
|
|
Like ``cache.set()``, ``set_many()`` takes an optional ``timeout`` parameter.
|
|
|
|
You can delete keys explicitly with ``delete()``. This is an easy way of
|
|
clearing the cache for a particular object::
|
|
|
|
>>> cache.delete('a')
|
|
|
|
.. versionadded:: 1.2
|
|
|
|
If you want to clear a bunch of keys at once, ``delete_many()`` can take a list
|
|
of keys to be cleared::
|
|
|
|
>>> cache.delete_many(['a', 'b', 'c'])
|
|
|
|
.. versionadded:: 1.2
|
|
|
|
Finally, if you want to delete all the keys in the cache, use
|
|
``cache.clear()``. Be careful with this; ``clear()`` will remove *everything*
|
|
from the cache, not just the keys set by your application. ::
|
|
|
|
>>> cache.clear()
|
|
|
|
.. versionadded:: 1.1
|
|
|
|
You can also increment or decrement a key that already exists using the
|
|
``incr()`` or ``decr()`` methods, respectively. By default, the existing cache
|
|
value will incremented or decremented by 1. Other increment/decrement values
|
|
can be specified by providing an argument to the increment/decrement call. A
|
|
ValueError will be raised if you attempt to increment or decrement a
|
|
nonexistent cache key.::
|
|
|
|
>>> cache.set('num', 1)
|
|
>>> cache.incr('num')
|
|
2
|
|
>>> cache.incr('num', 10)
|
|
12
|
|
>>> cache.decr('num')
|
|
11
|
|
>>> cache.decr('num', 5)
|
|
6
|
|
|
|
.. note::
|
|
|
|
``incr()``/``decr()`` methods are not guaranteed to be atomic. On those
|
|
backends that support atomic increment/decrement (most notably, the
|
|
memcached backend), increment and decrement operations will be atomic.
|
|
However, if the backend doesn't natively provide an increment/decrement
|
|
operation, it will be implemented using a two-step retrieve/update.
|
|
|
|
Upstream caches
|
|
===============
|
|
|
|
So far, this document has focused on caching your *own* data. But another type
|
|
of caching is relevant to Web development, too: caching performed by "upstream"
|
|
caches. These are systems that cache pages for users even before the request
|
|
reaches your Web site.
|
|
|
|
Here are a few examples of upstream caches:
|
|
|
|
* Your ISP may cache certain pages, so if you requested a page from
|
|
http://example.com/, your ISP would send you the page without having to
|
|
access example.com directly. The maintainers of example.com have no
|
|
knowledge of this caching; the ISP sits between example.com and your Web
|
|
browser, handling all of the caching transparently.
|
|
|
|
* Your Django Web site may sit behind a *proxy cache*, such as Squid Web
|
|
Proxy Cache (http://www.squid-cache.org/), that caches pages for
|
|
performance. In this case, each request first would be handled by the
|
|
proxy, and it would be passed to your application only if needed.
|
|
|
|
* Your Web browser caches pages, too. If a Web page sends out the
|
|
appropriate headers, your browser will use the local cached copy for
|
|
subsequent requests to that page, without even contacting the Web page
|
|
again to see whether it has changed.
|
|
|
|
Upstream caching is a nice efficiency boost, but there's a danger to it:
|
|
Many Web pages' contents differ based on authentication and a host of other
|
|
variables, and cache systems that blindly save pages based purely on URLs could
|
|
expose incorrect or sensitive data to subsequent visitors to those pages.
|
|
|
|
For example, say you operate a Web e-mail system, and the contents of the
|
|
"inbox" page obviously depend on which user is logged in. If an ISP blindly
|
|
cached your site, then the first user who logged in through that ISP would have
|
|
his user-specific inbox page cached for subsequent visitors to the site. That's
|
|
not cool.
|
|
|
|
Fortunately, HTTP provides a solution to this problem. A number of HTTP headers
|
|
exist to instruct upstream caches to differ their cache contents depending on
|
|
designated variables, and to tell caching mechanisms not to cache particular
|
|
pages. We'll look at some of these headers in the sections that follow.
|
|
|
|
Using Vary headers
|
|
==================
|
|
|
|
The ``Vary`` header defines which request headers a cache
|
|
mechanism should take into account when building its cache key. For example, if
|
|
the contents of a Web page depend on a user's language preference, the page is
|
|
said to "vary on language."
|
|
|
|
By default, Django's cache system creates its cache keys using the requested
|
|
path (e.g., ``"/stories/2005/jun/23/bank_robbed/"``). This means every request
|
|
to that URL will use the same cached version, regardless of user-agent
|
|
differences such as cookies or language preferences. However, if this page
|
|
produces different content based on some difference in request headers -- such
|
|
as a cookie, or a language, or a user-agent -- you'll need to use the ``Vary``
|
|
header to tell caching mechanisms that the page output depends on those things.
|
|
|
|
To do this in Django, use the convenient ``vary_on_headers`` view decorator,
|
|
like so::
|
|
|
|
from django.views.decorators.vary import vary_on_headers
|
|
|
|
@vary_on_headers('User-Agent')
|
|
def my_view(request):
|
|
# ...
|
|
|
|
In this case, a caching mechanism (such as Django's own cache middleware) will
|
|
cache a separate version of the page for each unique user-agent.
|
|
|
|
The advantage to using the ``vary_on_headers`` decorator rather than manually
|
|
setting the ``Vary`` header (using something like
|
|
``response['Vary'] = 'user-agent'``) is that the decorator *adds* to the
|
|
``Vary`` header (which may already exist), rather than setting it from scratch
|
|
and potentially overriding anything that was already in there.
|
|
|
|
You can pass multiple headers to ``vary_on_headers()``::
|
|
|
|
@vary_on_headers('User-Agent', 'Cookie')
|
|
def my_view(request):
|
|
# ...
|
|
|
|
This tells upstream caches to vary on *both*, which means each combination of
|
|
user-agent and cookie will get its own cache value. For example, a request with
|
|
the user-agent ``Mozilla`` and the cookie value ``foo=bar`` will be considered
|
|
different from a request with the user-agent ``Mozilla`` and the cookie value
|
|
``foo=ham``.
|
|
|
|
Because varying on cookie is so common, there's a ``vary_on_cookie``
|
|
decorator. These two views are equivalent::
|
|
|
|
@vary_on_cookie
|
|
def my_view(request):
|
|
# ...
|
|
|
|
@vary_on_headers('Cookie')
|
|
def my_view(request):
|
|
# ...
|
|
|
|
The headers you pass to ``vary_on_headers`` are not case sensitive;
|
|
``"User-Agent"`` is the same thing as ``"user-agent"``.
|
|
|
|
You can also use a helper function, ``django.utils.cache.patch_vary_headers``,
|
|
directly. This function sets, or adds to, the ``Vary header``. For example::
|
|
|
|
from django.utils.cache import patch_vary_headers
|
|
|
|
def my_view(request):
|
|
# ...
|
|
response = render_to_response('template_name', context)
|
|
patch_vary_headers(response, ['Cookie'])
|
|
return response
|
|
|
|
``patch_vary_headers`` takes an ``HttpResponse`` instance as its first argument
|
|
and a list/tuple of case-insensitive header names as its second argument.
|
|
|
|
For more on Vary headers, see the `official Vary spec`_.
|
|
|
|
.. _`official Vary spec`: http://www.w3.org/Protocols/rfc2616/rfc2616-sec14.html#sec14.44
|
|
|
|
Controlling cache: Using other headers
|
|
======================================
|
|
|
|
Other problems with caching are the privacy of data and the question of where
|
|
data should be stored in a cascade of caches.
|
|
|
|
A user usually faces two kinds of caches: his or her own browser cache (a
|
|
private cache) and his or her provider's cache (a public cache). A public cache
|
|
is used by multiple users and controlled by someone else. This poses problems
|
|
with sensitive data--you don't want, say, your bank account number stored in a
|
|
public cache. So Web applications need a way to tell caches which data is
|
|
private and which is public.
|
|
|
|
The solution is to indicate a page's cache should be "private." To do this in
|
|
Django, use the ``cache_control`` view decorator. Example::
|
|
|
|
from django.views.decorators.cache import cache_control
|
|
|
|
@cache_control(private=True)
|
|
def my_view(request):
|
|
# ...
|
|
|
|
This decorator takes care of sending out the appropriate HTTP header behind the
|
|
scenes.
|
|
|
|
There are a few other ways to control cache parameters. For example, HTTP
|
|
allows applications to do the following:
|
|
|
|
* Define the maximum time a page should be cached.
|
|
|
|
* Specify whether a cache should always check for newer versions, only
|
|
delivering the cached content when there are no changes. (Some caches
|
|
might deliver cached content even if the server page changed, simply
|
|
because the cache copy isn't yet expired.)
|
|
|
|
In Django, use the ``cache_control`` view decorator to specify these cache
|
|
parameters. In this example, ``cache_control`` tells caches to revalidate the
|
|
cache on every access and to store cached versions for, at most, 3,600 seconds::
|
|
|
|
from django.views.decorators.cache import cache_control
|
|
|
|
@cache_control(must_revalidate=True, max_age=3600)
|
|
def my_view(request):
|
|
# ...
|
|
|
|
Any valid ``Cache-Control`` HTTP directive is valid in ``cache_control()``.
|
|
Here's a full list:
|
|
|
|
* ``public=True``
|
|
* ``private=True``
|
|
* ``no_cache=True``
|
|
* ``no_transform=True``
|
|
* ``must_revalidate=True``
|
|
* ``proxy_revalidate=True``
|
|
* ``max_age=num_seconds``
|
|
* ``s_maxage=num_seconds``
|
|
|
|
For explanation of Cache-Control HTTP directives, see the `Cache-Control spec`_.
|
|
|
|
(Note that the caching middleware already sets the cache header's max-age with
|
|
the value of the ``CACHE_MIDDLEWARE_SETTINGS`` setting. If you use a custom
|
|
``max_age`` in a ``cache_control`` decorator, the decorator will take
|
|
precedence, and the header values will be merged correctly.)
|
|
|
|
If you want to use headers to disable caching altogether,
|
|
``django.views.decorators.cache.never_cache`` is a view decorator that adds
|
|
headers to ensure the response won't be cached by browsers or other caches.
|
|
Example::
|
|
|
|
from django.views.decorators.cache import never_cache
|
|
|
|
@never_cache
|
|
def myview(request):
|
|
# ...
|
|
|
|
.. _`Cache-Control spec`: http://www.w3.org/Protocols/rfc2616/rfc2616-sec14.html#sec14.9
|
|
|
|
Other optimizations
|
|
===================
|
|
|
|
Django comes with a few other pieces of middleware that can help optimize your
|
|
site's performance:
|
|
|
|
* ``django.middleware.http.ConditionalGetMiddleware`` adds support for
|
|
modern browsers to conditionally GET responses based on the ``ETag``
|
|
and ``Last-Modified`` headers.
|
|
|
|
* ``django.middleware.gzip.GZipMiddleware`` compresses responses for all
|
|
moderns browsers, saving bandwidth and transfer time.
|
|
|
|
Order of MIDDLEWARE_CLASSES
|
|
===========================
|
|
|
|
If you use caching middleware, it's important to put each half in the right
|
|
place within the ``MIDDLEWARE_CLASSES`` setting. That's because the cache
|
|
middleware needs to know which headers by which to vary the cache storage.
|
|
Middleware always adds something to the ``Vary`` response header when it can.
|
|
|
|
``UpdateCacheMiddleware`` runs during the response phase, where middleware is
|
|
run in reverse order, so an item at the top of the list runs *last* during the
|
|
response phase. Thus, you need to make sure that ``UpdateCacheMiddleware``
|
|
appears *before* any other middleware that might add something to the ``Vary``
|
|
header. The following middleware modules do so:
|
|
|
|
* ``SessionMiddleware`` adds ``Cookie``
|
|
* ``GZipMiddleware`` adds ``Accept-Encoding``
|
|
* ``LocaleMiddleware`` adds ``Accept-Language``
|
|
|
|
``FetchFromCacheMiddleware``, on the other hand, runs during the request phase,
|
|
where middleware is applied first-to-last, so an item at the top of the list
|
|
runs *first* during the request phase. The ``FetchFromCacheMiddleware`` also
|
|
needs to run after other middleware updates the ``Vary`` header, so
|
|
``FetchFromCacheMiddleware`` must be *after* any item that does so.
|
|
|