bazarr/libs/requests_toolbelt/adapters/x509.py

179 lines
7.1 KiB
Python

# -*- coding: utf-8 -*-
"""A X509Adapter for use with the requests library.
This file contains an implementation of the X509Adapter that will
allow users to authenticate a request using an arbitrary
X.509 certificate without needing to convert it to a .pem file
"""
from OpenSSL.crypto import PKey, X509
from cryptography import x509
from cryptography.hazmat.primitives.serialization import (load_pem_private_key,
load_der_private_key)
from cryptography.hazmat.primitives.serialization import Encoding
from cryptography.hazmat.backends import default_backend
from datetime import datetime
from requests.adapters import HTTPAdapter
import requests
from .._compat import PyOpenSSLContext
from .. import exceptions as exc
"""
importing the protocol constants from _ssl instead of ssl because only the
constants are needed and to handle issues caused by importing from ssl on
the 2.7.x line.
"""
try:
from _ssl import PROTOCOL_TLS as PROTOCOL
except ImportError:
from _ssl import PROTOCOL_SSLv23 as PROTOCOL
class X509Adapter(HTTPAdapter):
r"""Adapter for use with X.509 certificates.
Provides an interface for Requests sessions to contact HTTPS urls and
authenticate with an X.509 cert by implementing the Transport Adapter
interface. This class will need to be manually instantiated and mounted
to the session
:param pool_connections: The number of urllib3 connection pools to
cache.
:param pool_maxsize: The maximum number of connections to save in the
pool.
:param max_retries: The maximum number of retries each connection
should attempt. Note, this applies only to failed DNS lookups,
socket connections and connection timeouts, never to requests where
data has made it to the server. By default, Requests does not retry
failed connections. If you need granular control over the
conditions under which we retry a request, import urllib3's
``Retry`` class and pass that instead.
:param pool_block: Whether the connection pool should block for
connections.
:param bytes cert_bytes:
bytes object containing contents of a cryptography.x509Certificate
object using the encoding specified by the ``encoding`` parameter.
:param bytes pk_bytes:
bytes object containing contents of a object that implements
``cryptography.hazmat.primitives.serialization.PrivateFormat``
using the encoding specified by the ``encoding`` parameter.
:param password:
string or utf8 encoded bytes containing the passphrase used for the
private key. None if unencrypted. Defaults to None.
:param encoding:
Enumeration detailing the encoding method used on the ``cert_bytes``
parameter. Can be either PEM or DER. Defaults to PEM.
:type encoding:
:class: `cryptography.hazmat.primitives.serialization.Encoding`
Usage::
>>> import requests
>>> from requests_toolbelt.adapters.x509 import X509Adapter
>>> s = requests.Session()
>>> a = X509Adapter(max_retries=3,
cert_bytes=b'...', pk_bytes=b'...', encoding='...'
>>> s.mount('https://', a)
"""
def __init__(self, *args, **kwargs):
self._check_version()
cert_bytes = kwargs.pop('cert_bytes', None)
pk_bytes = kwargs.pop('pk_bytes', None)
password = kwargs.pop('password', None)
encoding = kwargs.pop('encoding', Encoding.PEM)
password_bytes = None
if cert_bytes is None or not isinstance(cert_bytes, bytes):
raise ValueError('Invalid cert content provided. '
'You must provide an X.509 cert '
'formatted as a byte array.')
if pk_bytes is None or not isinstance(pk_bytes, bytes):
raise ValueError('Invalid private key content provided. '
'You must provide a private key '
'formatted as a byte array.')
if isinstance(password, bytes):
password_bytes = password
elif password:
password_bytes = password.encode('utf8')
self.ssl_context = create_ssl_context(cert_bytes, pk_bytes,
password_bytes, encoding)
super(X509Adapter, self).__init__(*args, **kwargs)
def init_poolmanager(self, *args, **kwargs):
if self.ssl_context:
kwargs['ssl_context'] = self.ssl_context
return super(X509Adapter, self).init_poolmanager(*args, **kwargs)
def proxy_manager_for(self, *args, **kwargs):
if self.ssl_context:
kwargs['ssl_context'] = self.ssl_context
return super(X509Adapter, self).proxy_manager_for(*args, **kwargs)
def _check_version(self):
if PyOpenSSLContext is None:
raise exc.VersionMismatchError(
"The X509Adapter requires at least Requests 2.12.0 to be "
"installed. Version {} was found instead.".format(
requests.__version__
)
)
def check_cert_dates(cert):
"""Verify that the supplied client cert is not invalid."""
now = datetime.utcnow()
if cert.not_valid_after < now or cert.not_valid_before > now:
raise ValueError('Client certificate expired: Not After: '
'{:%Y-%m-%d %H:%M:%SZ} '
'Not Before: {:%Y-%m-%d %H:%M:%SZ}'
.format(cert.not_valid_after, cert.not_valid_before))
def create_ssl_context(cert_byes, pk_bytes, password=None,
encoding=Encoding.PEM):
"""Create an SSL Context with the supplied cert/password.
:param cert_bytes array of bytes containing the cert encoded
using the method supplied in the ``encoding`` parameter
:param pk_bytes array of bytes containing the private key encoded
using the method supplied in the ``encoding`` parameter
:param password array of bytes containing the passphrase to be used
with the supplied private key. None if unencrypted.
Defaults to None.
:param encoding ``cryptography.hazmat.primitives.serialization.Encoding``
details the encoding method used on the ``cert_bytes`` and
``pk_bytes`` parameters. Can be either PEM or DER.
Defaults to PEM.
"""
backend = default_backend()
cert = None
key = None
if encoding == Encoding.PEM:
cert = x509.load_pem_x509_certificate(cert_byes, backend)
key = load_pem_private_key(pk_bytes, password, backend)
elif encoding == Encoding.DER:
cert = x509.load_der_x509_certificate(cert_byes, backend)
key = load_der_private_key(pk_bytes, password, backend)
else:
raise ValueError('Invalid encoding provided: Must be PEM or DER')
if not (cert and key):
raise ValueError('Cert and key could not be parsed from '
'provided data')
check_cert_dates(cert)
ssl_context = PyOpenSSLContext(PROTOCOL)
ssl_context._ctx.use_certificate(X509.from_cryptography(cert))
ssl_context._ctx.use_privatekey(PKey.from_cryptography_key(key))
return ssl_context