# -*- coding: utf-8 -*- # import uuid import time from django.core.cache import cache from django.utils.translation import ugettext as _ from django.utils.six import text_type from django.contrib.auth import get_user_model from django.contrib.auth.backends import ModelBackend from rest_framework import HTTP_HEADER_ENCODING from rest_framework import authentication, exceptions from common.auth import signature from common.utils import get_object_or_none, make_signature, http_to_unixtime from ..models import AccessKey, PrivateToken def get_request_date_header(request): date = request.META.get('HTTP_DATE', b'') if isinstance(date, text_type): # Work around django test client oddness date = date.encode(HTTP_HEADER_ENCODING) return date class AccessKeyAuthentication(authentication.BaseAuthentication): """App使用Access key进行签名认证, 目前签名算法比较简单, app注册或者手动建立后,会生成 access_key_id 和 access_key_secret, 然后使用 如下算法生成签名: Signature = md5(access_key_secret + '\n' + Date) example: Signature = md5('d32d2b8b-9a10-4b8d-85bb-1a66976f6fdc' + '\n' + 'Thu, 12 Jan 2017 08:19:41 GMT') 请求时设置请求header header['Authorization'] = 'Sign access_key_id:Signature' 如: header['Authorization'] = 'Sign d32d2b8b-9a10-4b8d-85bb-1a66976f6fdc:OKOlmdxgYPZ9+SddnUUDbQ==' 验证时根据相同算法进行验证, 取到access_key_id对应的access_key_id, 从request headers取到Date, 然后进行md5, 判断得到的结果是否相同, 如果是认证通过, 否则 认证 失败 """ keyword = 'Sign' def authenticate(self, request): auth = authentication.get_authorization_header(request).split() if not auth or auth[0].lower() != self.keyword.lower().encode(): return None if len(auth) == 1: msg = _('Invalid signature header. No credentials provided.') raise exceptions.AuthenticationFailed(msg) elif len(auth) > 2: msg = _('Invalid signature header. Signature ' 'string should not contain spaces.') raise exceptions.AuthenticationFailed(msg) try: sign = auth[1].decode().split(':') if len(sign) != 2: msg = _('Invalid signature header. ' 'Format like AccessKeyId:Signature') raise exceptions.AuthenticationFailed(msg) except UnicodeError: msg = _('Invalid signature header. ' 'Signature string should not contain invalid characters.') raise exceptions.AuthenticationFailed(msg) access_key_id = sign[0] try: uuid.UUID(access_key_id) except ValueError: raise exceptions.AuthenticationFailed('Access key id invalid') request_signature = sign[1] return self.authenticate_credentials( request, access_key_id, request_signature ) @staticmethod def authenticate_credentials(request, access_key_id, request_signature): access_key = get_object_or_none(AccessKey, id=access_key_id) request_date = get_request_date_header(request) if access_key is None or not access_key.user: raise exceptions.AuthenticationFailed(_('Invalid signature.')) access_key_secret = access_key.secret try: request_unix_time = http_to_unixtime(request_date) except ValueError: raise exceptions.AuthenticationFailed( _('HTTP header: Date not provide ' 'or not %a, %d %b %Y %H:%M:%S GMT')) if int(time.time()) - request_unix_time > 15 * 60: raise exceptions.AuthenticationFailed( _('Expired, more than 15 minutes')) signature = make_signature(access_key_secret, request_date) if not signature == request_signature: raise exceptions.AuthenticationFailed(_('Invalid signature.')) if not access_key.user.is_active: raise exceptions.AuthenticationFailed(_('User disabled.')) return access_key.user, None def authenticate_header(self, request): return 'Sign access_key_id:Signature' class AccessTokenAuthentication(authentication.BaseAuthentication): keyword = 'Bearer' # expiration = settings.TOKEN_EXPIRATION or 3600 model = get_user_model() def authenticate(self, request): auth = authentication.get_authorization_header(request).split() if not auth or auth[0].lower() != self.keyword.lower().encode(): return None if len(auth) == 1: msg = _('Invalid token header. No credentials provided.') raise exceptions.AuthenticationFailed(msg) elif len(auth) > 2: msg = _('Invalid token header. Sign string ' 'should not contain spaces.') raise exceptions.AuthenticationFailed(msg) try: token = auth[1].decode() except UnicodeError: msg = _('Invalid token header. Sign string ' 'should not contain invalid characters.') raise exceptions.AuthenticationFailed(msg) return self.authenticate_credentials(token) def authenticate_credentials(self, token): model = get_user_model() user_id = cache.get(token) user = get_object_or_none(model, id=user_id) if not user: msg = _('Invalid token or cache refreshed.') raise exceptions.AuthenticationFailed(msg) return user, None def authenticate_header(self, request): return self.keyword class PrivateTokenAuthentication(authentication.TokenAuthentication): model = PrivateToken class SessionAuthentication(authentication.SessionAuthentication): def authenticate(self, request): """ Returns a `User` if the request session currently has a logged in user. Otherwise returns `None`. """ # Get the session-based user from the underlying HttpRequest object user = getattr(request._request, 'user', None) # Unauthenticated, CSRF validation not required if not user or not user.is_active: return None try: self.enforce_csrf(request) except exceptions.AuthenticationFailed: return None # CSRF passed with authenticated user return user, None class SignatureAuthentication(signature.SignatureAuthentication): # The HTTP header used to pass the consumer key ID. # A method to fetch (User instance, user_secret_string) from the # consumer key ID, or None in case it is not found. Algorithm # will be what the client has sent, in the case that both RSA # and HMAC are supported at your site (and also for expansion). model = get_user_model() def fetch_user_data(self, key_id, algorithm="hmac-sha256"): # ... # example implementation: try: key = AccessKey.objects.get(id=key_id) if not key.is_active: return None, None user, secret = key.user, str(key.secret) return user, secret except AccessKey.DoesNotExist: return None, None class SSOAuthentication(ModelBackend): """ 什么也不做呀😺 """ def authenticate(self, request, sso_token=None, **kwargs): pass