django-rest-framework/docs/api-guide/authentication.md
2014-02-28 16:52:47 -06:00

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Authentication

Auth needs to be pluggable.

— Jacob Kaplan-Moss, "REST worst practices"

Authentication is the mechanism of associating an incoming request with a set of identifying credentials, such as the user the request came from, or the token that it was signed with. The permission and throttling policies can then use those credentials to determine if the request should be permitted.

REST framework provides a number of authentication schemes out of the box, and also allows you to implement custom schemes.

Authentication is always run at the very start of the view, before the permission and throttling checks occur, and before any other code is allowed to proceed.

The request.user property will typically be set to an instance of the contrib.auth package's User class.

The request.auth property is used for any additional authentication information, for example, it may be used to represent an authentication token that the request was signed with.


Note: Don't forget that authentication by itself won't allow or disallow an incoming request, it simply identifies the credentials that the request was made with.

For information on how to setup the permission polices for your API please see the permissions documentation.


How authentication is determined

The authentication schemes are always defined as a list of classes. REST framework will attempt to authenticate with each class in the list, and will set request.user and request.auth using the return value of the first class that successfully authenticates.

If no class authenticates, request.user will be set to an instance of django.contrib.auth.models.AnonymousUser, and request.auth will be set to None.

The value of request.user and request.auth for unauthenticated requests can be modified using the UNAUTHENTICATED_USER and UNAUTHENTICATED_TOKEN settings.

Setting the authentication scheme

The default authentication schemes may be set globally, using the DEFAULT_AUTHENTICATION setting. For example.

REST_FRAMEWORK = {
    'DEFAULT_AUTHENTICATION_CLASSES': (
        'rest_framework.authentication.BasicAuthentication',
        'rest_framework.authentication.SessionAuthentication',
    )
}

You can also set the authentication scheme on a per-view or per-viewset basis, using the APIView class based views.

from rest_framework.authentication import SessionAuthentication, BasicAuthentication
from rest_framework.permissions import IsAuthenticated
from rest_framework.response import Response
from rest_framework.views import APIView

class ExampleView(APIView):
    authentication_classes = (SessionAuthentication, BasicAuthentication)
    permission_classes = (IsAuthenticated,)

    def get(self, request, format=None):
        content = {
            'user': unicode(request.user),  # `django.contrib.auth.User` instance.
            'auth': unicode(request.auth),  # None
        }
        return Response(content)

Or, if you're using the @api_view decorator with function based views.

@api_view(['GET'])
@authentication_classes((SessionAuthentication, BasicAuthentication))
@permission_classes((IsAuthenticated,))
def example_view(request, format=None):
    content = {
        'user': unicode(request.user),  # `django.contrib.auth.User` instance.
        'auth': unicode(request.auth),  # None
    }
    return Response(content)

Unauthorized and Forbidden responses

When an unauthenticated request is denied permission there are two different error codes that may be appropriate.

HTTP 401 responses must always include a WWW-Authenticate header, that instructs the client how to authenticate. HTTP 403 responses do not include the WWW-Authenticate header.

The kind of response that will be used depends on the authentication scheme. Although multiple authentication schemes may be in use, only one scheme may be used to determine the type of response. The first authentication class set on the view is used when determining the type of response.

Note that when a request may successfully authenticate, but still be denied permission to perform the request, in which case a 403 Permission Denied response will always be used, regardless of the authentication scheme.

Apache mod_wsgi specific configuration

Note that if deploying to Apache using mod_wsgi, the authorization header is not passed through to a WSGI application by default, as it is assumed that authentication will be handled by Apache, rather than at an application level.

If you are deploying to Apache, and using any non-session based authentication, you will need to explicitly configure mod_wsgi to pass the required headers through to the application. This can be done by specifying the WSGIPassAuthorization directive in the appropriate context and setting it to 'On'.

# this can go in either server config, virtual host, directory or .htaccess
WSGIPassAuthorization On

API Reference

BasicAuthentication

This authentication scheme uses HTTP Basic Authentication, signed against a user's username and password. Basic authentication is generally only appropriate for testing.

If successfully authenticated, BasicAuthentication provides the following credentials.

  • request.user will be a Django User instance.
  • request.auth will be None.

Unauthenticated responses that are denied permission will result in an HTTP 401 Unauthorized response with an appropriate WWW-Authenticate header. For example:

WWW-Authenticate: Basic realm="api"

Note: If you use BasicAuthentication in production you must ensure that your API is only available over https. You should also ensure that your API clients will always re-request the username and password at login, and will never store those details to persistent storage.

TokenAuthentication

This authentication scheme uses a simple token-based HTTP Authentication scheme. Token authentication is appropriate for client-server setups, such as native desktop and mobile clients.

To use the TokenAuthentication scheme, include rest_framework.authtoken in your INSTALLED_APPS setting:

INSTALLED_APPS = (
    ...
    'rest_framework.authtoken'
)

Make sure to run manage.py syncdb after changing your settings. The authtoken database tables are managed by south (see Schema migrations below).

You'll also need to create tokens for your users.

from rest_framework.authtoken.models import Token

token = Token.objects.create(user=...)
print token.key

For clients to authenticate, the token key should be included in the Authorization HTTP header. The key should be prefixed by the string literal "Token", with whitespace separating the two strings. For example:

Authorization: Token 9944b09199c62bcf9418ad846dd0e4bbdfc6ee4b

If successfully authenticated, TokenAuthentication provides the following credentials.

  • request.user will be a Django User instance.
  • request.auth will be a rest_framework.authtoken.models.BasicToken instance.

Unauthenticated responses that are denied permission will result in an HTTP 401 Unauthorized response with an appropriate WWW-Authenticate header. For example:

WWW-Authenticate: Token

The curl command line tool may be useful for testing token authenticated APIs. For example:

curl -X GET http://127.0.0.1:8000/api/example/ -H 'Authorization: Token 9944b09199c62bcf9418ad846dd0e4bbdfc6ee4b'

Note: If you use TokenAuthentication in production you must ensure that your API is only available over https.


Generating Tokens

If you want every user to have an automatically generated Token, you can simply catch the User's post_save signal.

from django.contrib.auth import get_user_model
from django.db.models.signals import post_save
from django.dispatch import receiver
from rest_framework.authtoken.models import Token

@receiver(post_save, sender=get_user_model())
def create_auth_token(sender, instance=None, created=False, **kwargs):
    if created:
        Token.objects.create(user=instance)

Note that you'll want to ensure you place this code snippet in an installed models.py module, or some other location that will be imported by Django on startup.

If you've already created some users, you can generate tokens for all existing users like this:

from django.contrib.auth.models import User
from rest_framework.authtoken.models import Token

for user in User.objects.all():
    Token.objects.get_or_create(user=user)

When using TokenAuthentication, you may want to provide a mechanism for clients to obtain a token given the username and password. REST framework provides a built-in view to provide this behavior. To use it, add the obtain_auth_token view to your URLconf:

urlpatterns += patterns('',
    url(r'^api-token-auth/', 'rest_framework.authtoken.views.obtain_auth_token')
)

Note that the URL part of the pattern can be whatever you want to use.

The obtain_auth_token view will return a JSON response when valid username and password fields are POSTed to the view using form data or JSON:

{ 'token' : '9944b09199c62bcf9418ad846dd0e4bbdfc6ee4b' }

Note that the default obtain_auth_token view explicitly uses JSON requests and responses, rather than using default renderer and parser classes in your settings. If you need a customized version of the obtain_auth_token view, you can do so by overriding the ObtainAuthToken view class, and using that in your url conf instead.

Schema migrations

The rest_framework.authtoken app includes a south migration that will create the authtoken table.

If you're using a custom user model you'll need to make sure that any initial migration that creates the user table runs before the authtoken table is created.

You can do so by inserting a needed_by attribute in your user migration:

class Migration:

    needed_by = (
        ('authtoken', '0001_initial'),
    )

    def forwards(self):
        ...

For more details, see the south documentation on dependencies.

Also note that if you're using a post_save signal to create tokens, then the first time you create the database tables, you'll need to ensure any migrations are run prior to creating any superusers. For example:

python manage.py syncdb --noinput  # Won't create a superuser just yet, due to `--noinput`.
python manage.py migrate
python manage.py createsuperuser

SessionAuthentication

This authentication scheme uses Django's default session backend for authentication. Session authentication is appropriate for AJAX clients that are running in the same session context as your website.

If successfully authenticated, SessionAuthentication provides the following credentials.

  • request.user will be a Django User instance.
  • request.auth will be None.

Unauthenticated responses that are denied permission will result in an HTTP 403 Forbidden response.

If you're using an AJAX style API with SessionAuthentication, you'll need to make sure you include a valid CSRF token for any "unsafe" HTTP method calls, such as PUT, PATCH, POST or DELETE requests. See the Django CSRF documentation for more details.

OAuthAuthentication

This authentication uses OAuth 1.0a authentication scheme. OAuth 1.0a provides signature validation which provides a reasonable level of security over plain non-HTTPS connections. However, it may also be considered more complicated than OAuth2, as it requires clients to sign their requests.

This authentication class depends on the optional django-oauth-plus and oauth2 packages. In order to make it work you must install these packages and add oauth_provider to your INSTALLED_APPS:

INSTALLED_APPS = (
    ...
    `oauth_provider`,
)

Don't forget to run syncdb once you've added the package.

python manage.py syncdb

Getting started with django-oauth-plus

The OAuthAuthentication class only provides token verification and signature validation for requests. It doesn't provide authorization flow for your clients. You still need to implement your own views for accessing and authorizing tokens.

The django-oauth-plus package provides simple foundation for classic 'three-legged' oauth flow. Please refer to the documentation for more details.

OAuth2Authentication

This authentication uses OAuth 2.0 authentication scheme. OAuth2 is more simple to work with than OAuth1, and provides much better security than simple token authentication. It is an unauthenticated scheme, and requires you to use an HTTPS connection.

This authentication class depends on the optional django-oauth2-provider project. In order to make it work you must install this package and add provider and provider.oauth2 to your INSTALLED_APPS:

INSTALLED_APPS = (
    ...
    'provider',
    'provider.oauth2',
)

Then add OAuth2Authentication to your global DEFAULT_AUTHENTICATION setting:

'DEFAULT_AUTHENTICATION_CLASSES': (
    'rest_framework.authentication.OAuth2Authentication',
),

You must also include the following in your root urls.py module:

url(r'^oauth2/', include('provider.oauth2.urls', namespace='oauth2')),

Note that the namespace='oauth2' argument is required.

Finally, sync your database.

python manage.py syncdb
python manage.py migrate

Note: If you use OAuth2Authentication in production you must ensure that your API is only available over https.


Getting started with django-oauth2-provider

The OAuth2Authentication class only provides token verification for requests. It doesn't provide authorization flow for your clients.

The OAuth 2 authorization flow is taken care by the django-oauth2-provider dependency. A walkthrough is given here, but for more details you should refer to the documentation.

To get started:

1. Create a client

You can create a client, either through the shell, or by using the Django admin.

Go to the admin panel and create a new Provider.Client entry. It will create the client_id and client_secret properties for you.

2. Request an access token

To request an access token, submit a POST request to the url /oauth2/access_token with the following fields:

  • client_id the client id you've just configured at the previous step.
  • client_secret again configured at the previous step.
  • username the username with which you want to log in.
  • password well, that speaks for itself.

You can use the command line to test that your local configuration is working:

curl -X POST -d "client_id=YOUR_CLIENT_ID&client_secret=YOUR_CLIENT_SECRET&grant_type=password&username=YOUR_USERNAME&password=YOUR_PASSWORD" http://localhost:8000/oauth2/access_token/

You should get a response that looks something like this:

{"access_token": "<your-access-token>", "scope": "read", "expires_in": 86399, "refresh_token": "<your-refresh-token>"}
3. Access the API

The only thing needed to make the OAuth2Authentication class work is to insert the access_token you've received in the Authorization request header.

The command line to test the authentication looks like:

curl -H "Authorization: Bearer <your-access-token>" http://localhost:8000/api/

Alternative OAuth 2 implementations

Note that Django OAuth Toolkit is an alternative external package that also includes OAuth 2.0 support for REST framework.


Custom authentication

To implement a custom authentication scheme, subclass BaseAuthentication and override the .authenticate(self, request) method. The method should return a two-tuple of (user, auth) if authentication succeeds, or None otherwise.

In some circumstances instead of returning None, you may want to raise an AuthenticationFailed exception from the .authenticate() method.

Typically the approach you should take is:

  • If authentication is not attempted, return None. Any other authentication schemes also in use will still be checked.
  • If authentication is attempted but fails, raise a AuthenticationFailed exception. An error response will be returned immediately, regardless of any permissions checks, and without checking any other authentication schemes.

You may also override the .authenticate_header(self, request) method. If implemented, it should return a string that will be used as the value of the WWW-Authenticate header in a HTTP 401 Unauthorized response.

If the .authenticate_header() method is not overridden, the authentication scheme will return HTTP 403 Forbidden responses when an unauthenticated request is denied access.

Example

The following example will authenticate any incoming request as the user given by the username in a custom request header named 'X_USERNAME'.

from django.contrib.auth.models import User
from rest_framework import authentication
from rest_framework import exceptions

class ExampleAuthentication(authentication.BaseAuthentication):
    def authenticate(self, request):
        username = request.META.get('X_USERNAME')
        if not username:
            return None

        try:
            user = User.objects.get(username=username)
        except User.DoesNotExist:
            raise exceptions.AuthenticationFailed('No such user')

        return (user, None)

Third party packages

The following third party packages are also available.

Digest Authentication

HTTP digest authentication is a widely implemented scheme that was intended to replace HTTP basic authentication, and which provides a simple encrypted authentication mechanism. Juan Riaza maintains the djangorestframework-digestauth package which provides HTTP digest authentication support for REST framework.

Django OAuth Toolkit

The Django OAuth Toolkit package provides OAuth 2.0 support, and works with Python 2.7 and Python 3.3+. The package is maintained by Evonove and uses the excelllent OAuthLib. The package is well documented, and comes as a recommended alternative for OAuth 2.0 support.

Django OAuth2 Consumer

The Django OAuth2 Consumer library from Rediker Software is another package that provides OAuth 2.0 support for REST framework. The package includes token scoping permissions on tokens, which allows finer-grained access to your API.

JSON Web Token Authentication

JSON Web Token is a fairly new standard which can be used for token-based authentication. Unlike the built-in TokenAuthentication scheme, JWT Authentication doesn't need to use a database to validate a token. Blimp maintains the djangorestframework-jwt package which provides a JWT Authentication class as well as a mechanism for clients to obtain a JWT given the username and password.

Hawk HTTP Authentication

The HawkREST library builds on the Mohawk library to let you work with Hawk signed requests and responses in your API. Hawk lets two parties securely communicate with each other using messages signed by a shared key. It is based on HTTP MAC access authentication (which was based on parts of OAuth 1.0).

HTTP Signature Authentication

HTTP Signature (currently a IETF draft) provides a way to achieve origin authentication and message integrity for HTTP messages. Similar to Amazon's HTTP Signature scheme, used by many of its services, it permits stateless, per-request authentication. Elvio Toccalino maintains the djangorestframework-httpsignature package which provides an easy to use HTTP Signature Authentication mechanism.