django/docs/topics/auth/customizing.txt

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====================================
Customizing authentication in Django
====================================
The authentication that comes with Django is good enough for most common cases,
but you may have needs not met by the out-of-the-box defaults. To customize
authentication to your projects needs involves understanding what points of the
provided system are extensible or replaceable. This document provides details
about how the auth system can be customized.
:ref:`Authentication backends <authentication-backends>` provide an extensible
system for when a username and password stored with the user model need to be
authenticated against a different service than Django's default.
You can give your models :ref:`custom permissions <custom-permissions>` that
can be checked through Django's authorization system.
You can :ref:`extend <extending-user>` the default ``User`` model, or
:ref:`substitute <auth-custom-user>` a completely customized model.
.. _authentication-backends:
Other authentication sources
============================
There may be times you have the need to hook into another authentication source
-- that is, another source of usernames and passwords or authentication
methods.
For example, your company may already have an LDAP setup that stores a username
and password for every employee. It'd be a hassle for both the network
administrator and the users themselves if users had separate accounts in LDAP
and the Django-based applications.
So, to handle situations like this, the Django authentication system lets you
plug in other authentication sources. You can override Django's default
database-based scheme, or you can use the default system in tandem with other
systems.
See the :ref:`authentication backend reference
<authentication-backends-reference>` for information on the authentication
backends included with Django.
Specifying authentication backends
----------------------------------
Behind the scenes, Django maintains a list of "authentication backends" that it
checks for authentication. When somebody calls
:func:`django.contrib.auth.authenticate()` -- as described in :ref:`How to log
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a user in <how-to-log-a-user-in>` -- Django tries authenticating across
all of its authentication backends. If the first authentication method fails,
Django tries the second one, and so on, until all backends have been attempted.
The list of authentication backends to use is specified in the
:setting:`AUTHENTICATION_BACKENDS` setting. This should be a list of Python
path names that point to Python classes that know how to authenticate. These
classes can be anywhere on your Python path.
By default, :setting:`AUTHENTICATION_BACKENDS` is set to::
['django.contrib.auth.backends.ModelBackend']
That's the basic authentication backend that checks the Django users database
and queries the built-in permissions. It does not provide protection against
brute force attacks via any rate limiting mechanism. You may either implement
your own rate limiting mechanism in a custom auth backend, or use the
mechanisms provided by most Web servers.
The order of :setting:`AUTHENTICATION_BACKENDS` matters, so if the same
username and password is valid in multiple backends, Django will stop
processing at the first positive match.
If a backend raises a :class:`~django.core.exceptions.PermissionDenied`
exception, authentication will immediately fail. Django won't check the
backends that follow.
.. note::
Once a user has authenticated, Django stores which backend was used to
authenticate the user in the user's session, and re-uses the same backend
for the duration of that session whenever access to the currently
authenticated user is needed. This effectively means that authentication
sources are cached on a per-session basis, so if you change
:setting:`AUTHENTICATION_BACKENDS`, you'll need to clear out session data if
you need to force users to re-authenticate using different methods. A simple
way to do that is simply to execute ``Session.objects.all().delete()``.
Writing an authentication backend
---------------------------------
An authentication backend is a class that implements two required methods:
``get_user(user_id)`` and ``authenticate(request, **credentials)``, as well as
a set of optional permission related :ref:`authorization methods
<authorization_methods>`.
The ``get_user`` method takes a ``user_id`` -- which could be a username,
database ID or whatever, but has to be the primary key of your user object --
and returns a user object.
The ``authenticate`` method takes a ``request`` argument and credentials as
keyword arguments. Most of the time, it'll just look like this::
class MyBackend:
def authenticate(self, request, username=None, password=None):
# Check the username/password and return a user.
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...
But it could also authenticate a token, like so::
class MyBackend:
def authenticate(self, request, token=None):
# Check the token and return a user.
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...
Either way, ``authenticate()`` should check the credentials it gets and return
a user object that matches those credentials if the credentials are valid. If
they're not valid, it should return ``None``.
``request`` is an :class:`~django.http.HttpRequest` and may be ``None`` if it
wasn't provided to :func:`~django.contrib.auth.authenticate` (which passes it
on to the backend).
The Django admin is tightly coupled to the Django :ref:`User object
<user-objects>`. The best way to deal with this is to create a Django ``User``
object for each user that exists for your backend (e.g., in your LDAP
directory, your external SQL database, etc.) You can either write a script to
do this in advance, or your ``authenticate`` method can do it the first time a
user logs in.
Here's an example backend that authenticates against a username and password
variable defined in your ``settings.py`` file and creates a Django ``User``
object the first time a user authenticates::
from django.conf import settings
from django.contrib.auth.hashers import check_password
from django.contrib.auth.models import User
class SettingsBackend:
"""
Authenticate against the settings ADMIN_LOGIN and ADMIN_PASSWORD.
Use the login name and a hash of the password. For example:
ADMIN_LOGIN = 'admin'
ADMIN_PASSWORD = 'pbkdf2_sha256$30000$Vo0VlMnkR4Bk$qEvtdyZRWTcOsCnI/oQ7fVOu1XAURIZYoOZ3iq8Dr4M='
"""
def authenticate(self, request, username=None, password=None):
login_valid = (settings.ADMIN_LOGIN == username)
pwd_valid = check_password(password, settings.ADMIN_PASSWORD)
if login_valid and pwd_valid:
try:
user = User.objects.get(username=username)
except User.DoesNotExist:
# Create a new user. There's no need to set a password
# because only the password from settings.py is checked.
user = User(username=username)
user.is_staff = True
user.is_superuser = True
user.save()
return user
return None
def get_user(self, user_id):
try:
return User.objects.get(pk=user_id)
except User.DoesNotExist:
return None
.. _authorization_methods:
Handling authorization in custom backends
-----------------------------------------
Custom auth backends can provide their own permissions.
The user model will delegate permission lookup functions
(:meth:`~django.contrib.auth.models.User.get_group_permissions()`,
:meth:`~django.contrib.auth.models.User.get_all_permissions()`,
:meth:`~django.contrib.auth.models.User.has_perm()`, and
:meth:`~django.contrib.auth.models.User.has_module_perms()`) to any
authentication backend that implements these functions.
The permissions given to the user will be the superset of all permissions
returned by all backends. That is, Django grants a permission to a user that
any one backend grants.
If a backend raises a :class:`~django.core.exceptions.PermissionDenied`
exception in :meth:`~django.contrib.auth.models.User.has_perm()` or
:meth:`~django.contrib.auth.models.User.has_module_perms()`, the authorization
will immediately fail and Django won't check the backends that follow.
The simple backend above could implement permissions for the magic admin
fairly simply::
class SettingsBackend:
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...
def has_perm(self, user_obj, perm, obj=None):
return user_obj.username == settings.ADMIN_LOGIN
This gives full permissions to the user granted access in the above example.
Notice that in addition to the same arguments given to the associated
:class:`django.contrib.auth.models.User` functions, the backend auth functions
all take the user object, which may be an anonymous user, as an argument.
A full authorization implementation can be found in the ``ModelBackend`` class
in `django/contrib/auth/backends.py`_, which is the default backend and queries
the ``auth_permission`` table most of the time. If you wish to provide
custom behavior for only part of the backend API, you can take advantage of
Python inheritance and subclass ``ModelBackend`` instead of implementing the
complete API in a custom backend.
.. _django/contrib/auth/backends.py: https://github.com/django/django/blob/master/django/contrib/auth/backends.py
.. _anonymous_auth:
Authorization for anonymous users
~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
An anonymous user is one that is not authenticated i.e. they have provided no
valid authentication details. However, that does not necessarily mean they are
not authorized to do anything. At the most basic level, most websites
authorize anonymous users to browse most of the site, and many allow anonymous
posting of comments etc.
Django's permission framework does not have a place to store permissions for
anonymous users. However, the user object passed to an authentication backend
may be an :class:`django.contrib.auth.models.AnonymousUser` object, allowing
the backend to specify custom authorization behavior for anonymous users. This
is especially useful for the authors of re-usable apps, who can delegate all
questions of authorization to the auth backend, rather than needing settings,
for example, to control anonymous access.
.. _inactive_auth:
Authorization for inactive users
~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
An inactive user is one that has its
:attr:`~django.contrib.auth.models.User.is_active` field set to ``False``. The
:class:`~django.contrib.auth.backends.ModelBackend` and
:class:`~django.contrib.auth.backends.RemoteUserBackend` authentication
backends prohibits these users from authenticating. If a custom user model
doesn't have an :attr:`~django.contrib.auth.models.CustomUser.is_active` field,
all users will be allowed to authenticate.
You can use :class:`~django.contrib.auth.backends.AllowAllUsersModelBackend`
or :class:`~django.contrib.auth.backends.AllowAllUsersRemoteUserBackend` if you
want to allow inactive users to authenticate.
The support for anonymous users in the permission system allows for a scenario
where anonymous users have permissions to do something while inactive
authenticated users do not.
Do not forget to test for the ``is_active`` attribute of the user in your own
backend permission methods.
Handling object permissions
~~~~~~~~~~~~~~~~~~~~~~~~~~~
Django's permission framework has a foundation for object permissions, though
there is no implementation for it in the core. That means that checking for
object permissions will always return ``False`` or an empty list (depending on
the check performed). An authentication backend will receive the keyword
parameters ``obj`` and ``user_obj`` for each object related authorization
method and can return the object level permission as appropriate.
.. _custom-permissions:
Custom permissions
==================
To create custom permissions for a given model object, use the ``permissions``
:ref:`model Meta attribute <meta-options>`.
This example Task model creates three custom permissions, i.e., actions users
can or cannot do with Task instances, specific to your application::
class Task(models.Model):
...
class Meta:
permissions = (
("view_task", "Can see available tasks"),
("change_task_status", "Can change the status of tasks"),
("close_task", "Can remove a task by setting its status as closed"),
)
The only thing this does is create those extra permissions when you run
:djadmin:`manage.py migrate <migrate>` (the function that creates permissions
is connected to the :data:`~django.db.models.signals.post_migrate` signal).
Your code is in charge of checking the value of these permissions when a user
is trying to access the functionality provided by the application (viewing
tasks, changing the status of tasks, closing tasks.) Continuing the above
example, the following checks if a user may view tasks::
user.has_perm('app.view_task')
.. _extending-user:
Extending the existing ``User`` model
=====================================
There are two ways to extend the default
:class:`~django.contrib.auth.models.User` model without substituting your own
model. If the changes you need are purely behavioral, and don't require any
change to what is stored in the database, you can create a :ref:`proxy model
<proxy-models>` based on :class:`~django.contrib.auth.models.User`. This
allows for any of the features offered by proxy models including default
ordering, custom managers, or custom model methods.
If you wish to store information related to ``User``, you can use a
:class:`~django.db.models.OneToOneField` to a model containing the fields for
additional information. This one-to-one model is often called a profile model,
as it might store non-auth related information about a site user. For example
you might create an Employee model::
from django.contrib.auth.models import User
class Employee(models.Model):
user = models.OneToOneField(User, on_delete=models.CASCADE)
department = models.CharField(max_length=100)
Assuming an existing Employee Fred Smith who has both a User and Employee
model, you can access the related information using Django's standard related
model conventions::
>>> u = User.objects.get(username='fsmith')
>>> freds_department = u.employee.department
To add a profile model's fields to the user page in the admin, define an
:class:`~django.contrib.admin.InlineModelAdmin` (for this example, we'll use a
:class:`~django.contrib.admin.StackedInline`) in your app's ``admin.py`` and
add it to a ``UserAdmin`` class which is registered with the
:class:`~django.contrib.auth.models.User` class::
from django.contrib import admin
from django.contrib.auth.admin import UserAdmin as BaseUserAdmin
from django.contrib.auth.models import User
from my_user_profile_app.models import Employee
# Define an inline admin descriptor for Employee model
# which acts a bit like a singleton
class EmployeeInline(admin.StackedInline):
model = Employee
can_delete = False
verbose_name_plural = 'employee'
# Define a new User admin
class UserAdmin(BaseUserAdmin):
inlines = (EmployeeInline, )
# Re-register UserAdmin
admin.site.unregister(User)
admin.site.register(User, UserAdmin)
These profile models are not special in any way - they are just Django models
that happen to have a one-to-one link with a user model. As such, they aren't
auto created when a user is created, but
a :attr:`django.db.models.signals.post_save` could be used to create or update
related models as appropriate.
Using related models results in additional queries or joins to retrieve the
related data. Depending on your needs, a custom user model that includes the
related fields may be your better option, however, existing relations to the
default user model within your project's apps may justify the extra database
load.
.. _auth-custom-user:
Substituting a custom ``User`` model
====================================
Some kinds of projects may have authentication requirements for which Django's
built-in :class:`~django.contrib.auth.models.User` model is not always
appropriate. For instance, on some sites it makes more sense to use an email
address as your identification token instead of a username.
Django allows you to override the default user model by providing a value for
the :setting:`AUTH_USER_MODEL` setting that references a custom model::
AUTH_USER_MODEL = 'myapp.MyUser'
This dotted pair describes the name of the Django app (which must be in your
:setting:`INSTALLED_APPS`), and the name of the Django model that you wish to
use as your user model.
Using a custom user model when starting a project
-------------------------------------------------
If you're starting a new project, it's highly recommended to set up a custom
user model, even if the default :class:`~django.contrib.auth.models.User` model
is sufficient for you. This model behaves identically to the default user
model, but you'll be able to customize it in the future if the need arises::
from django.contrib.auth.models import AbstractUser
class User(AbstractUser):
pass
Don't forget to point :setting:`AUTH_USER_MODEL` to it. Do this before creating
any migrations or running ``manage.py migrate`` for the first time.
Also, register the model in the app's ``admin.py``::
from django.contrib import admin
from django.contrib.auth.admin import UserAdmin
from .models import User
admin.site.register(User, UserAdmin)
Changing to a custom user model mid-project
-------------------------------------------
Changing :setting:`AUTH_USER_MODEL` after you've created database tables is
significantly more difficult since it affects foreign keys and many-to-many
relationships, for example.
This change can't be done automatically and requires manually fixing your
schema, moving your data from the old user table, and possibly manually
reapplying some migrations. See :ticket:`25313` for an outline of the steps.
Due to limitations of Django's dynamic dependency feature for swappable
models, the model referenced by :setting:`AUTH_USER_MODEL` must be created in
the first migration of its app (usually called ``0001_initial``); otherwise,
you'll have dependency issues.
In addition, you may run into a ``CircularDependencyError`` when running your
migrations as Django won't be able to automatically break the dependency loop
due to the dynamic dependency. If you see this error, you should break the loop
by moving the models depended on by your user model into a second migration.
(You can try making two normal models that have a ``ForeignKey`` to each other
and seeing how ``makemigrations`` resolves that circular dependency if you want
to see how it's usually done.)
Reusable apps and ``AUTH_USER_MODEL``
-------------------------------------
Reusable apps shouldn't implement a custom user model. A project may use many
apps, and two reusable apps that implemented a custom user model couldn't be
used together. If you need to store per user information in your app, use
a :class:`~django.db.models.ForeignKey` or
:class:`~django.db.models.OneToOneField` to ``settings.AUTH_USER_MODEL``
as described below.
Referencing the ``User`` model
------------------------------
.. currentmodule:: django.contrib.auth
If you reference :class:`~django.contrib.auth.models.User` directly (for
example, by referring to it in a foreign key), your code will not work in
projects where the :setting:`AUTH_USER_MODEL` setting has been changed to a
different user model.
.. function:: get_user_model()
Instead of referring to :class:`~django.contrib.auth.models.User` directly,
you should reference the user model using
``django.contrib.auth.get_user_model()``. This method will return the
currently active user model -- the custom user model if one is specified, or
:class:`~django.contrib.auth.models.User` otherwise.
When you define a foreign key or many-to-many relations to the user model,
you should specify the custom model using the :setting:`AUTH_USER_MODEL`
setting. For example::
from django.conf import settings
from django.db import models
class Article(models.Model):
author = models.ForeignKey(
settings.AUTH_USER_MODEL,
on_delete=models.CASCADE,
)
When connecting to signals sent by the user model, you should specify
the custom model using the :setting:`AUTH_USER_MODEL` setting. For example::
from django.conf import settings
from django.db.models.signals import post_save
def post_save_receiver(sender, instance, created, **kwargs):
pass
post_save.connect(post_save_receiver, sender=settings.AUTH_USER_MODEL)
Generally speaking, it's easiest to refer to the user model with the
:setting:`AUTH_USER_MODEL` setting in code that's executed at import time,
however, it's also possible to call ``get_user_model()`` while Django
is importing models, so you could use
``models.ForeignKey(get_user_model(), ...)``.
If your app is tested with multiple user models, using
``@override_settings(AUTH_USER_MODEL=...)`` for example, and you cache the
result of ``get_user_model()`` in a module-level variable, you may need to
listen to the :data:`~django.test.signals.setting_changed` signal to clear
the cache. For example::
from django.apps import apps
from django.contrib.auth import get_user_model
from django.core.signals import setting_changed
from django.dispatch import receiver
@receiver(setting_changed)
def user_model_swapped(**kwargs):
if kwargs['setting'] == 'AUTH_USER_MODEL':
apps.clear_cache()
from myapp import some_module
some_module.UserModel = get_user_model()
.. _specifying-custom-user-model:
Specifying a custom user model
------------------------------
.. admonition:: Model design considerations
Think carefully before handling information not directly related to
authentication in your custom user model.
It may be better to store app-specific user information in a model
that has a relation with the user model. That allows each app to specify
its own user data requirements without risking conflicts with other
apps. On the other hand, queries to retrieve this related information
will involve a database join, which may have an effect on performance.
Django expects your custom user model to meet some minimum requirements.
If you use the default authentication backend, then your model must have a
single unique field that can be used for identification purposes. This can
be a username, an email address, or any other unique attribute. A non-unique
username field is allowed if you use a custom authentication backend that
can support it.
The easiest way to construct a compliant custom user model is to inherit from
:class:`~django.contrib.auth.models.AbstractBaseUser`.
:class:`~django.contrib.auth.models.AbstractBaseUser` provides the core
implementation of a user model, including hashed passwords and tokenized
password resets. You must then provide some key implementation details:
.. currentmodule:: django.contrib.auth
.. class:: models.CustomUser
.. attribute:: USERNAME_FIELD
A string describing the name of the field on the user model that is
used as the unique identifier. This will usually be a username of some
kind, but it can also be an email address, or any other unique
identifier. The field *must* be unique (i.e., have ``unique=True`` set
in its definition), unless you use a custom authentication backend that
can support non-unique usernames.
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In the following example, the field ``identifier`` is used
as the identifying field::
class MyUser(AbstractBaseUser):
identifier = models.CharField(max_length=40, unique=True)
...
USERNAME_FIELD = 'identifier'
:attr:`USERNAME_FIELD` now supports
:class:`~django.db.models.ForeignKey`\s. Since there is no way to pass
model instances during the :djadmin:`createsuperuser` prompt, expect the
user to enter the value of :attr:`~django.db.models.ForeignKey.to_field`
value (the :attr:`~django.db.models.Field.primary_key` by default) of an
existing instance.
.. attribute:: EMAIL_FIELD
A string describing the name of the email field on the ``User`` model.
This value is returned by
:meth:`~models.AbstractBaseUser.get_email_field_name`.
.. attribute:: REQUIRED_FIELDS
A list of the field names that will be prompted for when creating a
user via the :djadmin:`createsuperuser` management command. The user
will be prompted to supply a value for each of these fields. It must
include any field for which :attr:`~django.db.models.Field.blank` is
``False`` or undefined and may include additional fields you want
prompted for when a user is created interactively.
``REQUIRED_FIELDS`` has no effect in other parts of Django, like
creating a user in the admin.
For example, here is the partial definition for a user model that
defines two required fields - a date of birth and height::
class MyUser(AbstractBaseUser):
...
date_of_birth = models.DateField()
height = models.FloatField()
...
REQUIRED_FIELDS = ['date_of_birth', 'height']
.. note::
``REQUIRED_FIELDS`` must contain all required fields on your user
model, but should *not* contain the ``USERNAME_FIELD`` or
``password`` as these fields will always be prompted for.
:attr:`REQUIRED_FIELDS` now supports
:class:`~django.db.models.ForeignKey`\s. Since there is no way to pass
model instances during the :djadmin:`createsuperuser` prompt, expect the
user to enter the value of :attr:`~django.db.models.ForeignKey.to_field`
value (the :attr:`~django.db.models.Field.primary_key` by default) of an
existing instance.
.. attribute:: is_active
A boolean attribute that indicates whether the user is considered
"active". This attribute is provided as an attribute on
``AbstractBaseUser`` defaulting to ``True``. How you choose to
implement it will depend on the details of your chosen auth backends.
See the documentation of the :attr:`is_active attribute on the built-in
user model <django.contrib.auth.models.User.is_active>` for details.
.. method:: get_full_name()
Optional. A longer formal identifier for the user such as their full
name. If implemented, this appears alongside the username in an
object's history in :mod:`django.contrib.admin`.
.. method:: get_short_name()
Optional. A short, informal identifier for the user such as their
first name. If implemented, this replaces the username in the greeting
to the user in the header of :mod:`django.contrib.admin`.
.. versionchanged:: 2.0
In older versions, subclasses are required to implement
``get_short_name()`` and ``get_full_name()`` as ``AbstractBaseUser``
has implementations that raise ``NotImplementedError``.
.. admonition:: Importing ``AbstractBaseUser``
``AbstractBaseUser`` and ``BaseUserManager`` are importable from
``django.contrib.auth.base_user`` so that they can be imported without
including ``django.contrib.auth`` in :setting:`INSTALLED_APPS`.
The following attributes and methods are available on any subclass of
:class:`~django.contrib.auth.models.AbstractBaseUser`:
.. class:: models.AbstractBaseUser
.. method:: get_username()
Returns the value of the field nominated by ``USERNAME_FIELD``.
.. method:: clean()
Normalizes the username by calling :meth:`normalize_username`. If you
override this method, be sure to call ``super()`` to retain the
normalization.
.. classmethod:: get_email_field_name()
Returns the name of the email field specified by the
:attr:`~models.CustomUser.EMAIL_FIELD` attribute. Defaults to
``'email'`` if ``EMAIL_FIELD`` isn't specified.
.. classmethod:: normalize_username(username)
Applies NFKC Unicode normalization to usernames so that visually
identical characters with different Unicode code points are considered
identical.
.. attribute:: models.AbstractBaseUser.is_authenticated
Read-only attribute which is always ``True`` (as opposed to
``AnonymousUser.is_authenticated`` which is always ``False``).
This is a way to tell if the user has been authenticated. This does not
imply any permissions and doesn't check if the user is active or has
a valid session. Even though normally you will check this attribute on
``request.user`` to find out whether it has been populated by the
:class:`~django.contrib.auth.middleware.AuthenticationMiddleware`
(representing the currently logged-in user), you should know this
attribute is ``True`` for any :class:`~models.User` instance.
.. attribute:: models.AbstractBaseUser.is_anonymous
Read-only attribute which is always ``False``. This is a way of
differentiating :class:`~models.User` and :class:`~models.AnonymousUser`
objects. Generally, you should prefer using
:attr:`~models.User.is_authenticated` to this attribute.
.. method:: models.AbstractBaseUser.set_password(raw_password)
Sets the user's password to the given raw string, taking care of the
password hashing. Doesn't save the
:class:`~django.contrib.auth.models.AbstractBaseUser` object.
When the raw_password is ``None``, the password will be set to an
unusable password, as if
:meth:`~django.contrib.auth.models.AbstractBaseUser.set_unusable_password()`
were used.
.. method:: models.AbstractBaseUser.check_password(raw_password)
Returns ``True`` if the given raw string is the correct password for
the user. (This takes care of the password hashing in making the
comparison.)
.. method:: models.AbstractBaseUser.set_unusable_password()
Marks the user as having no password set. This isn't the same as
having a blank string for a password.
:meth:`~django.contrib.auth.models.AbstractBaseUser.check_password()` for this user
will never return ``True``. Doesn't save the
:class:`~django.contrib.auth.models.AbstractBaseUser` object.
You may need this if authentication for your application takes place
against an existing external source such as an LDAP directory.
.. method:: models.AbstractBaseUser.has_usable_password()
Returns ``False`` if
:meth:`~django.contrib.auth.models.AbstractBaseUser.set_unusable_password()` has
been called for this user.
.. method:: models.AbstractBaseUser.get_session_auth_hash()
Returns an HMAC of the password field. Used for
:ref:`session-invalidation-on-password-change`.
:class:`~models.AbstractUser` subclasses :class:`~models.AbstractBaseUser`:
.. class:: models.AbstractUser
.. method:: clean()
Normalizes the email by calling
:meth:`.BaseUserManager.normalize_email`. If you override this method,
be sure to call ``super()`` to retain the normalization.
You should also define a custom manager for your user model. If your user model
defines ``username``, ``email``, ``is_staff``, ``is_active``, ``is_superuser``,
``last_login``, and ``date_joined`` fields the same as Django's default user,
you can just install Django's :class:`~django.contrib.auth.models.UserManager`;
however, if your user model defines different fields, you'll need to define a
custom manager that extends :class:`~django.contrib.auth.models.BaseUserManager`
providing two additional methods:
.. class:: models.CustomUserManager
.. method:: models.CustomUserManager.create_user(*username_field*, password=None, \**other_fields)
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The prototype of ``create_user()`` should accept the username field,
plus all required fields as arguments. For example, if your user model
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uses ``email`` as the username field, and has ``date_of_birth`` as a
required field, then ``create_user`` should be defined as::
def create_user(self, email, date_of_birth, password=None):
# create user here
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...
.. method:: models.CustomUserManager.create_superuser(*username_field*, password, \**other_fields)
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The prototype of ``create_superuser()`` should accept the username
field, plus all required fields as arguments. For example, if your user
model uses ``email`` as the username field, and has ``date_of_birth``
as a required field, then ``create_superuser`` should be defined as::
def create_superuser(self, email, date_of_birth, password):
# create superuser here
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...
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Unlike ``create_user()``, ``create_superuser()`` *must* require the
caller to provide a password.
:class:`~django.contrib.auth.models.BaseUserManager` provides the following
utility methods:
.. class:: models.BaseUserManager
.. classmethod:: models.BaseUserManager.normalize_email(email)
Normalizes email addresses by lowercasing the domain portion of the
email address.
.. method:: models.BaseUserManager.get_by_natural_key(username)
Retrieves a user instance using the contents of the field
nominated by ``USERNAME_FIELD``.
.. method:: models.BaseUserManager.make_random_password(length=10, allowed_chars='abcdefghjkmnpqrstuvwxyzABCDEFGHJKLMNPQRSTUVWXYZ23456789')
Returns a random password with the given length and given string of
allowed characters. Note that the default value of ``allowed_chars``
doesn't contain letters that can cause user confusion, including:
* ``i``, ``l``, ``I``, and ``1`` (lowercase letter i, lowercase
letter L, uppercase letter i, and the number one)
* ``o``, ``O``, and ``0`` (lowercase letter o, uppercase letter o,
and zero)
Extending Django's default ``User``
-----------------------------------
If you're entirely happy with Django's :class:`~django.contrib.auth.models.User`
model and you just want to add some additional profile information, you could
simply subclass :class:`django.contrib.auth.models.AbstractUser` and add your
custom profile fields, although we'd recommend a separate model as described in
the "Model design considerations" note of :ref:`specifying-custom-user-model`.
``AbstractUser`` provides the full implementation of the default
:class:`~django.contrib.auth.models.User` as an :ref:`abstract model
<abstract-base-classes>`.
.. _custom-users-and-the-built-in-auth-forms:
Custom users and the built-in auth forms
----------------------------------------
Django's built-in :ref:`forms <built-in-auth-forms>` and :ref:`views
<built-in-auth-views>` make certain assumptions about the user model that they
are working with.
The following forms are compatible with any subclass of
:class:`~django.contrib.auth.models.AbstractBaseUser`:
* :class:`~django.contrib.auth.forms.AuthenticationForm`: Uses the username
field specified by :attr:`~models.CustomUser.USERNAME_FIELD`.
* :class:`~django.contrib.auth.forms.SetPasswordForm`
* :class:`~django.contrib.auth.forms.PasswordChangeForm`
* :class:`~django.contrib.auth.forms.AdminPasswordChangeForm`
The following forms make assumptions about the user model and can be used as-is
if those assumptions are met:
* :class:`~django.contrib.auth.forms.PasswordResetForm`: Assumes that the user
model has a field that stores the user's email address with the name returned
by :meth:`~models.AbstractBaseUser.get_email_field_name` (``email`` by
default) that can be used to identify the user and a boolean field named
``is_active`` to prevent password resets for inactive users.
Finally, the following forms are tied to
:class:`~django.contrib.auth.models.User` and need to be rewritten or extended
to work with a custom user model:
* :class:`~django.contrib.auth.forms.UserCreationForm`
* :class:`~django.contrib.auth.forms.UserChangeForm`
If your custom user model is a simple subclass of ``AbstractUser``, then you
can extend these forms in this manner::
from django.contrib.auth.forms import UserCreationForm
from myapp.models import CustomUser
class CustomUserCreationForm(UserCreationForm):
class Meta(UserCreationForm.Meta):
model = CustomUser
fields = UserCreationForm.Meta.fields + ('custom_field',)
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Custom users and :mod:`django.contrib.admin`
--------------------------------------------
If you want your custom user model to also work with the admin, your user model
must define some additional attributes and methods. These methods allow the
admin to control access of the user to admin content:
.. class:: models.CustomUser
.. attribute:: is_staff
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Returns ``True`` if the user is allowed to have access to the admin site.
.. attribute:: is_active
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Returns ``True`` if the user account is currently active.
.. method:: has_perm(perm, obj=None):
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Returns ``True`` if the user has the named permission. If ``obj`` is
provided, the permission needs to be checked against a specific object
instance.
.. method:: has_module_perms(app_label):
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Returns ``True`` if the user has permission to access models in
the given app.
You will also need to register your custom user model with the admin. If
your custom user model extends ``django.contrib.auth.models.AbstractUser``,
you can use Django's existing ``django.contrib.auth.admin.UserAdmin``
class. However, if your user model extends
:class:`~django.contrib.auth.models.AbstractBaseUser`, you'll need to define
a custom ``ModelAdmin`` class. It may be possible to subclass the default
``django.contrib.auth.admin.UserAdmin``; however, you'll need to
override any of the definitions that refer to fields on
``django.contrib.auth.models.AbstractUser`` that aren't on your
custom user class.
Custom users and permissions
----------------------------
To make it easy to include Django's permission framework into your own user
class, Django provides :class:`~django.contrib.auth.models.PermissionsMixin`.
This is an abstract model you can include in the class hierarchy for your user
model, giving you all the methods and database fields necessary to support
Django's permission model.
:class:`~django.contrib.auth.models.PermissionsMixin` provides the following
methods and attributes:
.. class:: models.PermissionsMixin
.. attribute:: models.PermissionsMixin.is_superuser
Boolean. Designates that this user has all permissions without
explicitly assigning them.
.. method:: models.PermissionsMixin.get_group_permissions(obj=None)
Returns a set of permission strings that the user has, through their
groups.
If ``obj`` is passed in, only returns the group permissions for
this specific object.
.. method:: models.PermissionsMixin.get_all_permissions(obj=None)
Returns a set of permission strings that the user has, both through
group and user permissions.
If ``obj`` is passed in, only returns the permissions for this
specific object.
.. method:: models.PermissionsMixin.has_perm(perm, obj=None)
Returns ``True`` if the user has the specified permission, where
``perm`` is in the format ``"<app label>.<permission codename>"`` (see
:ref:`permissions <topic-authorization>`). If the user is inactive, this method will
always return ``False``.
If ``obj`` is passed in, this method won't check for a permission for
the model, but for this specific object.
.. method:: models.PermissionsMixin.has_perms(perm_list, obj=None)
Returns ``True`` if the user has each of the specified permissions,
where each perm is in the format
``"<app label>.<permission codename>"``. If the user is inactive,
this method will always return ``False``.
If ``obj`` is passed in, this method won't check for permissions for
the model, but for the specific object.
.. method:: models.PermissionsMixin.has_module_perms(package_name)
Returns ``True`` if the user has any permissions in the given package
(the Django app label). If the user is inactive, this method will
always return ``False``.
.. admonition:: ``PermissionsMixin`` and ``ModelBackend``
If you don't include the
:class:`~django.contrib.auth.models.PermissionsMixin`, you must ensure you
don't invoke the permissions methods on ``ModelBackend``. ``ModelBackend``
assumes that certain fields are available on your user model. If your user
model doesn't provide those fields, you'll receive database errors when
you check permissions.
Custom users and proxy models
-----------------------------
One limitation of custom user models is that installing a custom user model
will break any proxy model extending :class:`~django.contrib.auth.models.User`.
Proxy models must be based on a concrete base class; by defining a custom user
model, you remove the ability of Django to reliably identify the base class.
If your project uses proxy models, you must either modify the proxy to extend
the user model that's in use in your project, or merge your proxy's behavior
into your :class:`~django.contrib.auth.models.User` subclass.
A full example
--------------
Here is an example of an admin-compliant custom user app. This user model uses
an email address as the username, and has a required date of birth; it
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provides no permission checking, beyond a simple ``admin`` flag on the user
account. This model would be compatible with all the built-in auth forms and
views, except for the user creation forms. This example illustrates how most of
the components work together, but is not intended to be copied directly into
projects for production use.
This code would all live in a ``models.py`` file for a custom
authentication app::
from django.db import models
from django.contrib.auth.models import (
BaseUserManager, AbstractBaseUser
)
class MyUserManager(BaseUserManager):
def create_user(self, email, date_of_birth, password=None):
"""
Creates and saves a User with the given email, date of
birth and password.
"""
if not email:
raise ValueError('Users must have an email address')
user = self.model(
email=self.normalize_email(email),
date_of_birth=date_of_birth,
)
user.set_password(password)
user.save(using=self._db)
return user
def create_superuser(self, email, date_of_birth, password):
"""
Creates and saves a superuser with the given email, date of
birth and password.
"""
user = self.create_user(
email,
password=password,
date_of_birth=date_of_birth,
)
user.is_admin = True
user.save(using=self._db)
return user
class MyUser(AbstractBaseUser):
email = models.EmailField(
verbose_name='email address',
max_length=255,
unique=True,
)
date_of_birth = models.DateField()
is_active = models.BooleanField(default=True)
is_admin = models.BooleanField(default=False)
objects = MyUserManager()
USERNAME_FIELD = 'email'
REQUIRED_FIELDS = ['date_of_birth']
def __str__(self):
return self.email
def has_perm(self, perm, obj=None):
"Does the user have a specific permission?"
# Simplest possible answer: Yes, always
return True
def has_module_perms(self, app_label):
"Does the user have permissions to view the app `app_label`?"
# Simplest possible answer: Yes, always
return True
@property
def is_staff(self):
"Is the user a member of staff?"
# Simplest possible answer: All admins are staff
return self.is_admin
Then, to register this custom user model with Django's admin, the following
code would be required in the app's ``admin.py`` file::
from django import forms
from django.contrib import admin
from django.contrib.auth.models import Group
from django.contrib.auth.admin import UserAdmin as BaseUserAdmin
from django.contrib.auth.forms import ReadOnlyPasswordHashField
from customauth.models import MyUser
class UserCreationForm(forms.ModelForm):
"""A form for creating new users. Includes all the required
fields, plus a repeated password."""
password1 = forms.CharField(label='Password', widget=forms.PasswordInput)
password2 = forms.CharField(label='Password confirmation', widget=forms.PasswordInput)
class Meta:
model = MyUser
fields = ('email', 'date_of_birth')
def clean_password2(self):
# Check that the two password entries match
password1 = self.cleaned_data.get("password1")
password2 = self.cleaned_data.get("password2")
if password1 and password2 and password1 != password2:
raise forms.ValidationError("Passwords don't match")
return password2
def save(self, commit=True):
# Save the provided password in hashed format
user = super().save(commit=False)
user.set_password(self.cleaned_data["password1"])
if commit:
user.save()
return user
class UserChangeForm(forms.ModelForm):
"""A form for updating users. Includes all the fields on
the user, but replaces the password field with admin's
password hash display field.
"""
password = ReadOnlyPasswordHashField()
class Meta:
model = MyUser
fields = ('email', 'password', 'date_of_birth', 'is_active', 'is_admin')
def clean_password(self):
# Regardless of what the user provides, return the initial value.
# This is done here, rather than on the field, because the
# field does not have access to the initial value
return self.initial["password"]
class UserAdmin(BaseUserAdmin):
# The forms to add and change user instances
form = UserChangeForm
add_form = UserCreationForm
# The fields to be used in displaying the User model.
# These override the definitions on the base UserAdmin
# that reference specific fields on auth.User.
list_display = ('email', 'date_of_birth', 'is_admin')
list_filter = ('is_admin',)
fieldsets = (
(None, {'fields': ('email', 'password')}),
('Personal info', {'fields': ('date_of_birth',)}),
('Permissions', {'fields': ('is_admin',)}),
)
# add_fieldsets is not a standard ModelAdmin attribute. UserAdmin
# overrides get_fieldsets to use this attribute when creating a user.
add_fieldsets = (
(None, {
'classes': ('wide',),
'fields': ('email', 'date_of_birth', 'password1', 'password2')}
),
)
search_fields = ('email',)
ordering = ('email',)
filter_horizontal = ()
# Now register the new UserAdmin...
admin.site.register(MyUser, UserAdmin)
# ... and, since we're not using Django's built-in permissions,
# unregister the Group model from admin.
admin.site.unregister(Group)
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Finally, specify the custom model as the default user model for your project
using the :setting:`AUTH_USER_MODEL` setting in your ``settings.py``::
AUTH_USER_MODEL = 'customauth.MyUser'