import re from django.utils.translation import ugettext_lazy as _ from rest_framework import exceptions from rest_framework.compat import unicode_http_header from rest_framework.reverse import _reverse from rest_framework.settings import api_settings from rest_framework.templatetags.rest_framework import replace_query_param from rest_framework.utils.mediatypes import _MediaType class BaseVersioning: default_version = api_settings.DEFAULT_VERSION allowed_versions = api_settings.ALLOWED_VERSIONS version_param = api_settings.VERSION_PARAM def determine_version(self, request, *args, **kwargs): msg = '{cls}.determine_version() must be implemented.' raise NotImplementedError(msg.format( cls=self.__class__.__name__ )) def reverse(self, viewname, args=None, kwargs=None, request=None, format=None, **extra): return _reverse(viewname, args, kwargs, request, format, **extra) def is_allowed_version(self, version): if not self.allowed_versions: return True return ((version is not None and version == self.default_version) or (version in self.allowed_versions)) class AcceptHeaderVersioning(BaseVersioning): """ GET /something/ HTTP/1.1 Host: example.com Accept: application/json; version=1.0 """ invalid_version_message = _('Invalid version in "Accept" header.') def determine_version(self, request, *args, **kwargs): media_type = _MediaType(request.accepted_media_type) version = media_type.params.get(self.version_param, self.default_version) version = unicode_http_header(version) if not self.is_allowed_version(version): raise exceptions.NotAcceptable(self.invalid_version_message) return version # We don't need to implement `reverse`, as the versioning is based # on the `Accept` header, not on the request URL. class URLPathVersioning(BaseVersioning): """ To the client this is the same style as `NamespaceVersioning`. The difference is in the backend - this implementation uses Django's URL keyword arguments to determine the version. An example URL conf for two views that accept two different versions. urlpatterns = [ url(r'^(?P[v1|v2]+)/users/$', users_list, name='users-list'), url(r'^(?P[v1|v2]+)/users/(?P[0-9]+)/$', users_detail, name='users-detail') ] GET /1.0/something/ HTTP/1.1 Host: example.com Accept: application/json """ invalid_version_message = _('Invalid version in URL path.') def determine_version(self, request, *args, **kwargs): version = kwargs.get(self.version_param, self.default_version) if version is None: version = self.default_version if not self.is_allowed_version(version): raise exceptions.NotFound(self.invalid_version_message) return version def reverse(self, viewname, args=None, kwargs=None, request=None, format=None, **extra): if request.version is not None: kwargs = {} if (kwargs is None) else kwargs kwargs[self.version_param] = request.version return super().reverse( viewname, args, kwargs, request, format, **extra ) class NamespaceVersioning(BaseVersioning): """ To the client this is the same style as `URLPathVersioning`. The difference is in the backend - this implementation uses Django's URL namespaces to determine the version. An example URL conf that is namespaced into two separate versions # users/urls.py urlpatterns = [ url(r'^/users/$', users_list, name='users-list'), url(r'^/users/(?P[0-9]+)/$', users_detail, name='users-detail') ] # urls.py urlpatterns = [ url(r'^v1/', include('users.urls', namespace='v1')), url(r'^v2/', include('users.urls', namespace='v2')) ] GET /1.0/something/ HTTP/1.1 Host: example.com Accept: application/json """ invalid_version_message = _('Invalid version in URL path. Does not match any version namespace.') def determine_version(self, request, *args, **kwargs): resolver_match = getattr(request, 'resolver_match', None) if resolver_match is None or not resolver_match.namespace: return self.default_version # Allow for possibly nested namespaces. possible_versions = resolver_match.namespace.split(':') for version in possible_versions: if self.is_allowed_version(version): return version raise exceptions.NotFound(self.invalid_version_message) def reverse(self, viewname, args=None, kwargs=None, request=None, format=None, **extra): if request.version is not None: viewname = self.get_versioned_viewname(viewname, request) return super().reverse( viewname, args, kwargs, request, format, **extra ) def get_versioned_viewname(self, viewname, request): return request.version + ':' + viewname class HostNameVersioning(BaseVersioning): """ GET /something/ HTTP/1.1 Host: v1.example.com Accept: application/json """ hostname_regex = re.compile(r'^([a-zA-Z0-9]+)\.[a-zA-Z0-9]+\.[a-zA-Z0-9]+$') invalid_version_message = _('Invalid version in hostname.') def determine_version(self, request, *args, **kwargs): hostname, separator, port = request.get_host().partition(':') match = self.hostname_regex.match(hostname) if not match: return self.default_version version = match.group(1) if not self.is_allowed_version(version): raise exceptions.NotFound(self.invalid_version_message) return version # We don't need to implement `reverse`, as the hostname will already be # preserved as part of the REST framework `reverse` implementation. class QueryParameterVersioning(BaseVersioning): """ GET /something/?version=0.1 HTTP/1.1 Host: example.com Accept: application/json """ invalid_version_message = _('Invalid version in query parameter.') def determine_version(self, request, *args, **kwargs): version = request.query_params.get(self.version_param, self.default_version) if not self.is_allowed_version(version): raise exceptions.NotFound(self.invalid_version_message) return version def reverse(self, viewname, args=None, kwargs=None, request=None, format=None, **extra): url = super().reverse( viewname, args, kwargs, request, format, **extra ) if request.version is not None: return replace_query_param(url, self.version_param, request.version) return url