# Copyright 2014 the Melange authors. # # Licensed under the Apache License, Version 2.0 (the "License"); # you may not use this file except in compliance with the License. # You may obtain a copy of the License at # # http://www.apache.org/licenses/LICENSE-2.0 # # Unless required by applicable law or agreed to in writing, software # distributed under the License is distributed on an "AS IS" BASIS, # WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. # See the License for the specific language governing permissions and # limitations under the License. """Helper methods for creating & verifying XSRF tokens.""" import base64 import binascii import hmac import time from oauth2client import _helpers from oauth2client import util __authors__ = [ '"Doug Coker" ', '"Joe Gregorio" ', ] # Delimiter character DELIMITER = b':' # 1 hour in seconds DEFAULT_TIMEOUT_SECS = 60 * 60 @util.positional(2) def generate_token(key, user_id, action_id='', when=None): """Generates a URL-safe token for the given user, action, time tuple. Args: key: secret key to use. user_id: the user ID of the authenticated user. action_id: a string identifier of the action they requested authorization for. when: the time in seconds since the epoch at which the user was authorized for this action. If not set the current time is used. Returns: A string XSRF protection token. """ digester = hmac.new(_helpers._to_bytes(key, encoding='utf-8')) digester.update(_helpers._to_bytes(str(user_id), encoding='utf-8')) digester.update(DELIMITER) digester.update(_helpers._to_bytes(action_id, encoding='utf-8')) digester.update(DELIMITER) when = _helpers._to_bytes(str(when or int(time.time())), encoding='utf-8') digester.update(when) digest = digester.digest() token = base64.urlsafe_b64encode(digest + DELIMITER + when) return token @util.positional(3) def validate_token(key, token, user_id, action_id="", current_time=None): """Validates that the given token authorizes the user for the action. Tokens are invalid if the time of issue is too old or if the token does not match what generateToken outputs (i.e. the token was forged). Args: key: secret key to use. token: a string of the token generated by generateToken. user_id: the user ID of the authenticated user. action_id: a string identifier of the action they requested authorization for. Returns: A boolean - True if the user is authorized for the action, False otherwise. """ if not token: return False try: decoded = base64.urlsafe_b64decode(token) token_time = int(decoded.split(DELIMITER)[-1]) except (TypeError, ValueError, binascii.Error): return False if current_time is None: current_time = time.time() # If the token is too old it's not valid. if current_time - token_time > DEFAULT_TIMEOUT_SECS: return False # The given token should match the generated one with the same time. expected_token = generate_token(key, user_id, action_id=action_id, when=token_time) if len(token) != len(expected_token): return False # Perform constant time comparison to avoid timing attacks different = 0 for x, y in zip(bytearray(token), bytearray(expected_token)): different |= x ^ y return not different