# -*- coding: utf-8 -*- # # Copyright (C) 2017 Marcos Pereira # # This program is free software: you can redistribute it and/or modify # it under the terms of the GNU Lesser General Public License as published by # the Free Software Foundation, either version 3 of the License, or # (at your option) any later version. # # This program is distributed in the hope that it will be useful, # but WITHOUT ANY WARRANTY; without even the implied warranty of # MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the # GNU Lesser General Public License for more details. # # You should have received a copy of the GNU Lesser General Public License # along with this program. If not, see . from .exceptions import raise_error_from_response, KeycloakGetError, KeycloakSecretNotFound, \ KeycloakRPTNotFound from .urls_patterns import URL_AUTH, URL_TOKEN, URL_USERINFO, URL_WELL_KNOWN, URL_LOGOUT, \ URL_CERTS, URL_ENTITLEMENT, URL_INTROSPECT from .connection import ConnectionManager import jwt class Keycloak: def __init__(self, server_url, client_id, realm_name, client_secret_key=None): self.__client_id = client_id self.__client_secret_key = client_secret_key self.__realm_name = realm_name self.__connection = ConnectionManager(base_url=server_url, headers={}, timeout=60) def __add_secret_key(self, payload): """ Add secret key if exist. :param payload: :return: """ if self.__client_secret_key: payload.update({"client_secret": self.__client_secret_key}) return payload def well_know(self): """ The most important endpoint to understand is the well-known configuration endpoint. It lists endpoints and other configuration options relevant to the OpenID Connect implementation in Keycloak. :return It lists endpoints and other configuration options relevant. """ params_path = {"realm-name": self.__realm_name} data_raw = self.__connection.raw_get(URL_WELL_KNOWN.format(**params_path)) return raise_error_from_response(data_raw, KeycloakGetError) def auth_url(self, redirect_uri): """ http://openid.net/specs/openid-connect-core-1_0.html#AuthorizationEndpoint :return: """ return NotImplemented def token(self, username, password, grant_type=["password",]): """ The token endpoint is used to obtain tokens. Tokens can either be obtained by exchanging an authorization code or by supplying credentials directly depending on what flow is used. The token endpoint is also used to obtain new access tokens when they expire. http://openid.net/specs/openid-connect-core-1_0.html#TokenEndpoint :param username: :param password: :param grant_type: :return: """ params_path = {"realm-name": self.__realm_name} payload = {"username": username, "password": password, "client_id": self.__client_id, "grant_type": grant_type} payload = self.__add_secret_key(payload) data_raw = self.__connection.raw_post(URL_TOKEN.format(**params_path), data=payload) return raise_error_from_response(data_raw, KeycloakGetError) def userinfo(self, token): """ The userinfo endpoint returns standard claims about the authenticated user, and is protected by a bearer token. http://openid.net/specs/openid-connect-core-1_0.html#UserInfo :param token: :return: """ self.__connection.add_param_headers("Authorization", "Bearer " + token) params_path = {"realm-name": self.__realm_name} data_raw = self.__connection.raw_get(URL_USERINFO.format(**params_path)) return raise_error_from_response(data_raw, KeycloakGetError) def logout(self, refresh_token): """ The logout endpoint logs out the authenticated user. :param refresh_token: :return: """ params_path = {"realm-name": self.__realm_name} payload = {"client_id": self.__client_id, "refresh_token": refresh_token} payload = self.__add_secret_key(payload) data_raw = self.__connection.raw_post(URL_LOGOUT.format(**params_path), data=payload) return raise_error_from_response(data_raw, KeycloakGetError, expected_code=204) def certs(self): """ The certificate endpoint returns the public keys enabled by the realm, encoded as a JSON Web Key (JWK). Depending on the realm settings there can be one or more keys enabled for verifying tokens. https://tools.ietf.org/html/rfc7517 :return: """ params_path = {"realm-name": self.__realm_name} data_raw = self.__connection.raw_get(URL_CERTS.format(**params_path)) return raise_error_from_response(data_raw, KeycloakGetError) def entitlement(self, token, resource_server_id): """ Client applications can use a specific endpoint to obtain a special security token called a requesting party token (RPT). This token consists of all the entitlements (or permissions) for a user as a result of the evaluation of the permissions and authorization policies associated with the resources being requested. With an RPT, client applications can gain access to protected resources at the resource server. :return: """ self.__connection.add_param_headers("Authorization", "Bearer " + token) params_path = {"realm-name": self.__realm_name, "resource-server-id": resource_server_id} data_raw = self.__connection.raw_get(URL_ENTITLEMENT.format(**params_path)) return raise_error_from_response(data_raw, KeycloakGetError) def instropect(self, token, rpt=None, token_type_hint=None): """ The introspection endpoint is used to retrieve the active state of a token. It is can only be invoked by confidential clients. https://tools.ietf.org/html/rfc7662 :param token: :param rpt: :param token_type_hint: :return: """ params_path = {"realm-name": self.__realm_name} payload = {"client_id": self.__client_id, "token": token} if token_type_hint == 'requesting_party_token': if rpt: payload.update({"token": rpt, "token_type_hint": token_type_hint}) self.__connection.add_param_headers("Authorization", "Bearer " + token) else: raise KeycloakRPTNotFound("Can't found RPT.") payload = self.__add_secret_key(payload) data_raw = self.__connection.raw_post(URL_INTROSPECT.format(**params_path), data=payload) return raise_error_from_response(data_raw, KeycloakGetError) def decode_token(self, token, secret='', verify=False, algorithms=['RS256']): """ A JSON Web Key (JWK) is a JavaScript Object Notation (JSON) data structure that represents a cryptographic key. This specification also defines a JWK Set JSON data structure that represents a set of JWKs. Cryptographic algorithms and identifiers for use with this specification are described in the separate JSON Web Algorithms (JWA) specification and IANA registries established by that specification. https://tools.ietf.org/html/rfc7517 :param token: :param secret: :param verify: :param algorithms: :return: """ if verify: if secret: return jwt.decode(token, secret=secret, verify=verify, algorithms=algorithms) raise KeycloakSecretNotFound("Can't found secret key.") return jwt.decode(token, verify=verify, algorithms=algorithms)