jellyfin-kodi/libraries/cheroot/ssl/pyopenssl.py
angelblue05 158a736360 Update webservice with cherrypy
Fix playback issues that was causing Kodi to hang up
2019-01-30 06:43:14 -06:00

267 lines
9.5 KiB
Python

"""
A library for integrating pyOpenSSL with Cheroot.
The OpenSSL module must be importable for SSL functionality.
You can obtain it from `here <https://launchpad.net/pyopenssl>`_.
To use this module, set HTTPServer.ssl_adapter to an instance of
ssl.Adapter. There are two ways to use SSL:
Method One
----------
* ``ssl_adapter.context``: an instance of SSL.Context.
If this is not None, it is assumed to be an SSL.Context instance,
and will be passed to SSL.Connection on bind(). The developer is
responsible for forming a valid Context object. This approach is
to be preferred for more flexibility, e.g. if the cert and key are
streams instead of files, or need decryption, or SSL.SSLv3_METHOD
is desired instead of the default SSL.SSLv23_METHOD, etc. Consult
the pyOpenSSL documentation for complete options.
Method Two (shortcut)
---------------------
* ``ssl_adapter.certificate``: the filename of the server SSL certificate.
* ``ssl_adapter.private_key``: the filename of the server's private key file.
Both are None by default. If ssl_adapter.context is None, but .private_key
and .certificate are both given and valid, they will be read, and the
context will be automatically created from them.
"""
from __future__ import absolute_import, division, print_function
__metaclass__ = type
import socket
import threading
import time
try:
from OpenSSL import SSL
from OpenSSL import crypto
except ImportError:
SSL = None
from . import Adapter
from .. import errors, server as cheroot_server
from ..makefile import MakeFile
class SSL_fileobject(MakeFile):
"""SSL file object attached to a socket object."""
ssl_timeout = 3
ssl_retry = .01
def _safe_call(self, is_reader, call, *args, **kwargs):
"""Wrap the given call with SSL error-trapping.
is_reader: if False EOF errors will be raised. If True, EOF errors
will return "" (to emulate normal sockets).
"""
start = time.time()
while True:
try:
return call(*args, **kwargs)
except SSL.WantReadError:
# Sleep and try again. This is dangerous, because it means
# the rest of the stack has no way of differentiating
# between a "new handshake" error and "client dropped".
# Note this isn't an endless loop: there's a timeout below.
time.sleep(self.ssl_retry)
except SSL.WantWriteError:
time.sleep(self.ssl_retry)
except SSL.SysCallError as e:
if is_reader and e.args == (-1, 'Unexpected EOF'):
return ''
errnum = e.args[0]
if is_reader and errnum in errors.socket_errors_to_ignore:
return ''
raise socket.error(errnum)
except SSL.Error as e:
if is_reader and e.args == (-1, 'Unexpected EOF'):
return ''
thirdarg = None
try:
thirdarg = e.args[0][0][2]
except IndexError:
pass
if thirdarg == 'http request':
# The client is talking HTTP to an HTTPS server.
raise errors.NoSSLError()
raise errors.FatalSSLAlert(*e.args)
if time.time() - start > self.ssl_timeout:
raise socket.timeout('timed out')
def recv(self, size):
"""Receive message of a size from the socket."""
return self._safe_call(True, super(SSL_fileobject, self).recv, size)
def sendall(self, *args, **kwargs):
"""Send whole message to the socket."""
return self._safe_call(False, super(SSL_fileobject, self).sendall,
*args, **kwargs)
def send(self, *args, **kwargs):
"""Send some part of message to the socket."""
return self._safe_call(False, super(SSL_fileobject, self).send,
*args, **kwargs)
class SSLConnection:
"""A thread-safe wrapper for an SSL.Connection.
``*args``: the arguments to create the wrapped ``SSL.Connection(*args)``.
"""
def __init__(self, *args):
"""Initialize SSLConnection instance."""
self._ssl_conn = SSL.Connection(*args)
self._lock = threading.RLock()
for f in ('get_context', 'pending', 'send', 'write', 'recv', 'read',
'renegotiate', 'bind', 'listen', 'connect', 'accept',
'setblocking', 'fileno', 'close', 'get_cipher_list',
'getpeername', 'getsockname', 'getsockopt', 'setsockopt',
'makefile', 'get_app_data', 'set_app_data', 'state_string',
'sock_shutdown', 'get_peer_certificate', 'want_read',
'want_write', 'set_connect_state', 'set_accept_state',
'connect_ex', 'sendall', 'settimeout', 'gettimeout'):
exec("""def %s(self, *args):
self._lock.acquire()
try:
return self._ssl_conn.%s(*args)
finally:
self._lock.release()
""" % (f, f))
def shutdown(self, *args):
"""Shutdown the SSL connection.
Ignore all incoming args since pyOpenSSL.socket.shutdown takes no args.
"""
self._lock.acquire()
try:
return self._ssl_conn.shutdown()
finally:
self._lock.release()
class pyOpenSSLAdapter(Adapter):
"""A wrapper for integrating pyOpenSSL with Cheroot."""
certificate = None
"""The filename of the server SSL certificate."""
private_key = None
"""The filename of the server's private key file."""
certificate_chain = None
"""Optional. The filename of CA's intermediate certificate bundle.
This is needed for cheaper "chained root" SSL certificates, and should be
left as None if not required."""
context = None
"""An instance of SSL.Context."""
ciphers = None
"""The ciphers list of SSL."""
def __init__(
self, certificate, private_key, certificate_chain=None,
ciphers=None):
"""Initialize OpenSSL Adapter instance."""
if SSL is None:
raise ImportError('You must install pyOpenSSL to use HTTPS.')
super(pyOpenSSLAdapter, self).__init__(
certificate, private_key, certificate_chain, ciphers)
self._environ = None
def bind(self, sock):
"""Wrap and return the given socket."""
if self.context is None:
self.context = self.get_context()
conn = SSLConnection(self.context, sock)
self._environ = self.get_environ()
return conn
def wrap(self, sock):
"""Wrap and return the given socket, plus WSGI environ entries."""
return sock, self._environ.copy()
def get_context(self):
"""Return an SSL.Context from self attributes."""
# See https://code.activestate.com/recipes/442473/
c = SSL.Context(SSL.SSLv23_METHOD)
c.use_privatekey_file(self.private_key)
if self.certificate_chain:
c.load_verify_locations(self.certificate_chain)
c.use_certificate_file(self.certificate)
return c
def get_environ(self):
"""Return WSGI environ entries to be merged into each request."""
ssl_environ = {
'HTTPS': 'on',
# pyOpenSSL doesn't provide access to any of these AFAICT
# 'SSL_PROTOCOL': 'SSLv2',
# SSL_CIPHER string The cipher specification name
# SSL_VERSION_INTERFACE string The mod_ssl program version
# SSL_VERSION_LIBRARY string The OpenSSL program version
}
if self.certificate:
# Server certificate attributes
cert = open(self.certificate, 'rb').read()
cert = crypto.load_certificate(crypto.FILETYPE_PEM, cert)
ssl_environ.update({
'SSL_SERVER_M_VERSION': cert.get_version(),
'SSL_SERVER_M_SERIAL': cert.get_serial_number(),
# 'SSL_SERVER_V_START':
# Validity of server's certificate (start time),
# 'SSL_SERVER_V_END':
# Validity of server's certificate (end time),
})
for prefix, dn in [('I', cert.get_issuer()),
('S', cert.get_subject())]:
# X509Name objects don't seem to have a way to get the
# complete DN string. Use str() and slice it instead,
# because str(dn) == "<X509Name object '/C=US/ST=...'>"
dnstr = str(dn)[18:-2]
wsgikey = 'SSL_SERVER_%s_DN' % prefix
ssl_environ[wsgikey] = dnstr
# The DN should be of the form: /k1=v1/k2=v2, but we must allow
# for any value to contain slashes itself (in a URL).
while dnstr:
pos = dnstr.rfind('=')
dnstr, value = dnstr[:pos], dnstr[pos + 1:]
pos = dnstr.rfind('/')
dnstr, key = dnstr[:pos], dnstr[pos + 1:]
if key and value:
wsgikey = 'SSL_SERVER_%s_DN_%s' % (prefix, key)
ssl_environ[wsgikey] = value
return ssl_environ
def makefile(self, sock, mode='r', bufsize=-1):
"""Return socket file object."""
if SSL and isinstance(sock, SSL.ConnectionType):
timeout = sock.gettimeout()
f = SSL_fileobject(sock, mode, bufsize)
f.ssl_timeout = timeout
return f
else:
return cheroot_server.CP_fileobject(sock, mode, bufsize)