| # Copyright 2016 The Chromium Authors |
| # Use of this source code is governed by a BSD-style license that can be |
| # found in the LICENSE file. |
| |
| """Utility routines for avoiding cross-site-request-forgery.""" |
| from __future__ import print_function |
| from __future__ import division |
| from __future__ import absolute_import |
| |
| import base64 |
| import hashlib |
| import hmac |
| import six |
| import time |
| |
| # This is a file in the top-level directory that you must edit before deploying |
| from framework import framework_constants |
| from services import secrets_svc |
| |
| # This is how long tokens are valid. |
| TOKEN_TIMEOUT_SEC = 2 * framework_constants.SECS_PER_HOUR |
| |
| # The token refresh servlet accepts old tokens to generate new ones, but |
| # we still impose a limit on how old they can be. |
| REFRESH_TOKEN_TIMEOUT_SEC = 10 * framework_constants.SECS_PER_DAY |
| |
| # When the JS on a page decides whether or not it needs to refresh the |
| # XSRF token before submitting a form, there could be some clock skew, |
| # so we subtract a little time to avoid having the JS use an existing |
| # token that the server might consider expired already. |
| TOKEN_TIMEOUT_MARGIN_SEC = 5 * framework_constants.SECS_PER_MINUTE |
| |
| # When checking that the token is not from the future, allow a little |
| # margin for the possibliity that the clock of the GAE instance that |
| # generated the token could be a little ahead of the one checking. |
| CLOCK_SKEW_SEC = 5 |
| |
| # Form tokens and issue stars are limited to only work with the specific |
| # servlet path for the servlet that processes them. There are several |
| # XHR handlers that mainly read data without making changes, so we just |
| # use 'xhr' with all of them. |
| XHR_SERVLET_PATH = 'xhr' |
| |
| |
| DELIMITER = b':' |
| |
| |
| def GenerateToken(user_id, servlet_path, token_time=None): |
| """Return a security token specifically for the given user. |
| |
| Args: |
| user_id: int user ID of the user viewing an HTML form. |
| servlet_path: string URI path to limit the use of the token. |
| token_time: Time at which the token is generated in seconds since the epoch. |
| |
| Returns: |
| A url-safe security token. The token is a string with the digest |
| the user_id and time, followed by plain-text copy of the time that is |
| used in validation. |
| |
| Raises: |
| ValueError: if the XSRF secret was not configured. |
| """ |
| token_time = token_time or int(time.time()) |
| digester = hmac.new(secrets_svc.GetXSRFKey(), digestmod=hashlib.md5) |
| digester.update(six.ensure_binary(str(user_id))) |
| digester.update(DELIMITER) |
| digester.update(six.ensure_binary(servlet_path)) |
| digester.update(DELIMITER) |
| digester.update(six.ensure_binary(str(token_time))) |
| digest = digester.digest() |
| |
| token = base64.urlsafe_b64encode(b'%s%s%d' % (digest, DELIMITER, token_time)) |
| return six.ensure_str(token) |
| |
| |
| def ValidateToken( |
| token, user_id, servlet_path, timeout=TOKEN_TIMEOUT_SEC): |
| """Return True if the given token is valid for the given scope. |
| |
| Args: |
| token: String token that was presented by the user. |
| user_id: int user ID. |
| servlet_path: string URI path to limit the use of the token. |
| |
| Raises: |
| TokenIncorrect: if the token is missing or invalid. |
| """ |
| if not token: |
| raise TokenIncorrect('missing token') |
| |
| try: |
| decoded = base64.urlsafe_b64decode(six.ensure_binary(token)) |
| token_time = int(decoded.split(DELIMITER)[-1]) |
| except (TypeError, ValueError): |
| raise TokenIncorrect('could not decode token') |
| now = int(time.time()) |
| |
| # The given token should match the generated one with the same time. |
| expected_token = GenerateToken(user_id, servlet_path, token_time=token_time) |
| if len(token) != len(expected_token): |
| raise TokenIncorrect('presented token is wrong size') |
| |
| # Perform constant time comparison to avoid timing attacks |
| different = 0 |
| # In Python 3, zip(bytes, bytes) gives ints, but in Python 2, |
| # zip(str, str) gives strs. We need to call ord() in Python 2 only. |
| if isinstance(token, six.string_types): |
| token = list(map(ord, token)) |
| if isinstance(expected_token, six.string_types): |
| expected_token = list(map(ord, expected_token)) |
| for x, y in zip(token, expected_token): |
| different |= x ^ y |
| if different: |
| raise TokenIncorrect( |
| 'presented token does not match expected token: %r != %r' % ( |
| token, expected_token)) |
| |
| # We reject tokens from the future. |
| if token_time > now + CLOCK_SKEW_SEC: |
| raise TokenIncorrect('token is from future') |
| |
| # We check expiration last so that we only raise the expriration error |
| # if the token would have otherwise been valid. |
| if now - token_time > timeout: |
| raise TokenIncorrect('token has expired') |
| |
| |
| def TokenExpiresSec(): |
| """Return timestamp when current tokens will expire, minus a safety margin.""" |
| now = int(time.time()) |
| return now + TOKEN_TIMEOUT_SEC - TOKEN_TIMEOUT_MARGIN_SEC |
| |
| |
| class Error(Exception): |
| """Base class for errors from this module.""" |
| pass |
| |
| |
| # Caught separately in servlet.py |
| class TokenIncorrect(Error): |
| """The POST body has an incorrect URL Command Attack token.""" |
| pass |