""" The :mod:`authentication` module provides a set of pluggable authentication classes. Authentication behavior is provided by mixing the :class:`mixins.RequestMixin` class into a :class:`View` class. """ from django.contrib.auth import authenticate from rest_framework.compat import CsrfViewMiddleware from rest_framework.authtoken.models import Token import base64 class BaseAuthentication(object): """ All authentication classes should extend BaseAuthentication. """ def authenticate(self, request): """ Authenticate the :obj:`request` and return a :obj:`User` or :const:`None`. [*]_ .. [*] The authentication context *will* typically be a :obj:`User`, but it need not be. It can be any user-like object so long as the permissions classes (see the :mod:`permissions` module) on the view can handle the object and use it to determine if the request has the required permissions or not. This can be an important distinction if you're implementing some token based authentication mechanism, where the authentication context may be more involved than simply mapping to a :obj:`User`. """ return None class BasicAuthentication(BaseAuthentication): """ Base class for HTTP Basic authentication. Subclasses should implement `.authenticate_credentials()`. """ def authenticate(self, request): """ Returns a `User` if a correct username and password have been supplied using HTTP Basic authentication. Otherwise returns `None`. """ from django.utils.encoding import smart_unicode, DjangoUnicodeDecodeError if 'HTTP_AUTHORIZATION' in request.META: auth = request.META['HTTP_AUTHORIZATION'].split() if len(auth) == 2 and auth[0].lower() == "basic": try: auth_parts = base64.b64decode(auth[1]).partition(':') except TypeError: return None try: userid, password = smart_unicode(auth_parts[0]), smart_unicode(auth_parts[2]) except DjangoUnicodeDecodeError: return None return self.authenticate_credentials(userid, password) def authenticate_credentials(self, userid, password): """ Given the Basic authentication userid and password, authenticate and return a user instance. """ raise NotImplementedError('.authenticate_credentials() must be overridden') class UserBasicAuthentication(BasicAuthentication): def authenticate_credentials(self, userid, password): """ Authenticate the userid and password against username and password. """ user = authenticate(username=userid, password=password) if user is not None and user.is_active: return (user, None) class SessionAuthentication(BaseAuthentication): """ Use Django's session framework for authentication. """ def authenticate(self, request): """ Returns a :obj:`User` if the request session currently has a logged in user. Otherwise returns :const:`None`. """ # Get the underlying HttpRequest object http_request = request._request user = getattr(http_request, 'user', None) if user and user.is_active: # Enforce CSRF validation for session based authentication. resp = CsrfViewMiddleware().process_view(http_request, None, (), {}) if resp is None: # csrf passed return (user, None) class TokenAuthentication(BaseAuthentication): """ Simple token based authentication. Clients should authenticate by passing the token key in the "Authorization" HTTP header, prepended with the string "Token ". For example: Authorization: Token 401f7ac837da42b97f613d789819ff93537bee6a """ model = Token """ A custom token model may be used, but must have the following properties. * key -- The string identifying the token * user -- The user to which the token belongs """ def authenticate(self, request): auth = request.META.get('HTTP_AUTHORIZATION', '').split() if len(auth) == 2 and auth[0].lower() == "token": key = auth[1] try: token = self.model.objects.get(key=key) except self.model.DoesNotExist: return None if token.user.is_active: return (token.user, token) # TODO: OAuthAuthentication