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django/docs/howto/custom-file-storage.txt
2014-08-26 09:44:24 -04:00

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Writing a custom storage system
===============================
.. currentmodule:: django.core.files.storage
If you need to provide custom file storage -- a common example is storing files
on some remote system -- you can do so by defining a custom storage class.
You'll need to follow these steps:
#. Your custom storage system must be a subclass of
``django.core.files.storage.Storage``::
from django.core.files.storage import Storage
class MyStorage(Storage):
...
#. Django must be able to instantiate your storage system without any arguments.
This means that any settings should be taken from ``django.conf.settings``::
from django.conf import settings
from django.core.files.storage import Storage
class MyStorage(Storage):
def __init__(self, option=None):
if not option:
option = settings.CUSTOM_STORAGE_OPTIONS
...
#. Your storage class must implement the :meth:`_open()` and :meth:`_save()`
methods, along with any other methods appropriate to your storage class. See
below for more on these methods.
In addition, if your class provides local file storage, it must override
the ``path()`` method.
#. Your storage class must be :ref:`deconstructible <custom-deconstruct-method>`
so it can be serialized when it's used on a field in a migration. As long
as your field has arguments that are themselves
:ref:`serializable <migration-serializing>`, you can use the
``django.utils.deconstruct.deconstructible`` class decorator for this
(that's what Django uses on FileSystemStorage).
Your custom storage system may override any of the storage methods explained in
:doc:`/ref/files/storage`, but you **must** implement the following methods:
* :meth:`Storage.delete`
* :meth:`Storage.exists`
* :meth:`Storage.listdir`
* :meth:`Storage.size`
* :meth:`Storage.url`
You'll also usually want to use hooks specifically designed for custom storage
objects. These are:
.. method:: _open(name, mode='rb')
**Required**.
Called by ``Storage.open()``, this is the actual mechanism the storage class
uses to open the file. This must return a ``File`` object, though in most cases,
you'll want to return some subclass here that implements logic specific to the
backend storage system.
.. method:: _save(name, content)
Called by ``Storage.save()``. The ``name`` will already have gone through
``get_valid_name()`` and ``get_available_name()``, and the ``content`` will be a
``File`` object itself.
Should return the actual name of name of the file saved (usually the ``name``
passed in, but if the storage needs to change the file name return the new name
instead).
.. method:: get_valid_name(name)
Returns a filename suitable for use with the underlying storage system. The
``name`` argument passed to this method is the original filename sent to the
server, after having any path information removed. Override this to customize
how non-standard characters are converted to safe filenames.
The code provided on ``Storage`` retains only alpha-numeric characters, periods
and underscores from the original filename, removing everything else.
.. method:: get_available_name(name)
Returns a filename that is available in the storage mechanism, possibly taking
the provided filename into account. The ``name`` argument passed to this method
will have already cleaned to a filename valid for the storage system, according
to the ``get_valid_name()`` method described above.
.. versionchanged:: 1.7
If a file with ``name`` already exists, an underscore plus a random 7
character alphanumeric string is appended to the filename before the
extension.
Previously, an underscore followed by a number (e.g. ``"_1"``, ``"_2"``,
etc.) was appended to the filename until an available name in the destination
directory was found. A malicious user could exploit this deterministic
algorithm to create a denial-of-service attack. This change was also made
in Django 1.6.6, 1.5.9, and 1.4.14.