## tls_nb.py ## based on transports_nb.py ## ## Copyright (C) 2003-2004 Alexey "Snake" Nezhdanov ## modified by Dimitur Kirov ## modified by Tomas Karasek ## ## This program is free software; you can redistribute it and/or modify ## it under the terms of the GNU General Public License as published by ## the Free Software Foundation; either version 2, 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 General Public License for more details. import socket from plugin import PlugIn import sys import os import time import traceback import logging log = logging.getLogger('gajim.c.x.tls_nb') USE_PYOPENSSL = False PYOPENSSL = 'PYOPENSSL' PYSTDLIB = 'PYSTDLIB' try: #raise ImportError("Manually disabled PyOpenSSL") import OpenSSL.SSL import OpenSSL.crypto USE_PYOPENSSL = True log.info("PyOpenSSL loaded") except ImportError: log.debug("Import of PyOpenSSL failed:", exc_info=True) # FIXME: Remove these prints before release, replace with a warning dialog. print >> sys.stderr, "=" * 79 print >> sys.stderr, "PyOpenSSL not found, falling back to Python builtin SSL objects (insecure)." print >> sys.stderr, "=" * 79 def gattr(obj, attr, default=None): try: return getattr(obj, attr) except AttributeError: return default class SSLWrapper: """ Abstract SSLWrapper base class """ class Error(IOError): """ Generic SSL Error Wrapper """ def __init__(self, sock=None, exc=None, errno=None, strerror=None, peer=None): self.parent = IOError errno = errno or gattr(exc, 'errno') or exc[0] strerror = strerror or gattr(exc, 'strerror') or gattr(exc, 'args') if not isinstance(strerror, basestring): strerror = repr(strerror) self.sock = sock self.exc = exc self.peer = peer self.exc_name = None self.exc_args = None self.exc_str = None self.exc_repr = None if self.exc is not None: self.exc_name = str(self.exc.__class__) self.exc_args = gattr(self.exc, 'args') self.exc_str = str(self.exc) self.exc_repr = repr(self.exc) if not errno: try: if isinstance(exc, OpenSSL.SSL.SysCallError): if self.exc_args[0] > 0: errno = self.exc_args[0] strerror = self.exc_args[1] except: pass self.parent.__init__(self, errno, strerror) if self.peer is None and sock is not None: try: ppeer = self.sock.getpeername() if len(ppeer) == 2 and isinstance(ppeer[0], basestring) \ and isinstance(ppeer[1], int): self.peer = ppeer except: pass def __str__(self): s = str(self.__class__) if self.peer: s += " for %s:%d" % self.peer if self.errno is not None: s += ": [Errno: %d]" % self.errno if self.strerror: s += " (%s)" % self.strerror if self.exc_name: s += ", Caused by %s" % self.exc_name if self.exc_str: if self.strerror: s += "(%s)" % self.exc_str else: s += "(%s)" % str(self.exc_args) return s def __init__(self, sslobj, sock=None): self.sslobj = sslobj self.sock = sock log.debug("%s.__init__ called with %s", self.__class__, sslobj) def recv(self, data, flags=None): """ Receive wrapper for SSL object We can return None out of this function to signal that no data is available right now. Better than an exception, which differs depending on which SSL lib we're using. Unfortunately returning '' can indicate that the socket has been closed, so to be sure, we avoid this by returning None. """ raise NotImplementedError def send(self, data, flags=None, now=False): """ Send wrapper for SSL object """ raise NotImplementedError class PyOpenSSLWrapper(SSLWrapper): """ Wrapper class for PyOpenSSL's recv() and send() methods """ def __init__(self, *args): self.parent = SSLWrapper self.parent.__init__(self, *args) def is_numtoolarge(self, e): ''' Magic methods don't need documentation ''' t = ('asn1 encoding routines', 'a2d_ASN1_OBJECT', 'first num too large') return (isinstance(e.args, (list, tuple)) and len(e.args) == 1 and isinstance(e.args[0], (list, tuple)) and len(e.args[0]) == 2 and e.args[0][0] == e.args[0][1] == t) def recv(self, bufsize, flags=None): retval = None try: if flags is None: retval = self.sslobj.recv(bufsize) else: retval = self.sslobj.recv(bufsize, flags) except (OpenSSL.SSL.WantReadError, OpenSSL.SSL.WantWriteError), e: log.debug("Recv: Want-error: " + repr(e)) except OpenSSL.SSL.SysCallError, e: log.debug("Recv: Got OpenSSL.SSL.SysCallError: " + repr(e), exc_info=True) raise SSLWrapper.Error(self.sock or self.sslobj, e) except OpenSSL.SSL.ZeroReturnError, e: # end-of-connection raises ZeroReturnError instead of having the # connection's .recv() method return a zero-sized result. raise SSLWrapper.Error(self.sock or self.sslobj, e, -1) except OpenSSL.SSL.Error, e: if self.is_numtoolarge(e): # warn, but ignore this exception log.warning("Recv: OpenSSL: asn1enc: first num too large (ignored)") else: log.debug("Recv: Caught OpenSSL.SSL.Error:", exc_info=True) raise SSLWrapper.Error(self.sock or self.sslobj, e) return retval def send(self, data, flags=None, now=False): try: if flags is None: return self.sslobj.send(data) else: return self.sslobj.send(data, flags) except (OpenSSL.SSL.WantReadError, OpenSSL.SSL.WantWriteError), e: #log.debug("Send: " + repr(e)) time.sleep(0.1) # prevent 100% CPU usage except OpenSSL.SSL.SysCallError, e: log.error("Send: Got OpenSSL.SSL.SysCallError: " + repr(e), exc_info=True) raise SSLWrapper.Error(self.sock or self.sslobj, e) except OpenSSL.SSL.Error, e: if self.is_numtoolarge(e): # warn, but ignore this exception log.warning("Send: OpenSSL: asn1enc: first num too large (ignored)") else: log.error("Send: Caught OpenSSL.SSL.Error:", exc_info=True) raise SSLWrapper.Error(self.sock or self.sslobj, e) return 0 class StdlibSSLWrapper(SSLWrapper): """ Wrapper class for Python socket.ssl read() and write() methods """ def __init__(self, *args): self.parent = SSLWrapper self.parent.__init__(self, *args) def recv(self, bufsize, flags=None): # we simply ignore flags since ssl object doesn't support it try: return self.sslobj.read(bufsize) except socket.sslerror, e: log.debug("Recv: Caught socket.sslerror: " + repr(e), exc_info=True) if e.args[0] not in (socket.SSL_ERROR_WANT_READ, socket.SSL_ERROR_WANT_WRITE): raise SSLWrapper.Error(self.sock or self.sslobj, e) return None def send(self, data, flags=None, now=False): # we simply ignore flags since ssl object doesn't support it try: return self.sslobj.write(data) except socket.sslerror, e: log.debug("Send: Caught socket.sslerror:", exc_info=True) if e.args[0] not in (socket.SSL_ERROR_WANT_READ, socket.SSL_ERROR_WANT_WRITE): raise SSLWrapper.Error(self.sock or self.sslobj, e) return 0 class NonBlockingTLS(PlugIn): """ TLS connection used to encrypts already estabilished tcp connection Can be plugged into NonBlockingTCP and will make use of StdlibSSLWrapper or PyOpenSSLWrapper. """ def __init__(self, cacerts, mycerts): """ :param cacerts: path to pem file with certificates of known XMPP servers :param mycerts: path to pem file with certificates of user trusted servers """ PlugIn.__init__(self) self.cacerts = cacerts self.mycerts = mycerts # from ssl.h (partial extract) ssl_h_bits = { "SSL_ST_CONNECT": 0x1000, "SSL_ST_ACCEPT": 0x2000, "SSL_CB_LOOP": 0x01, "SSL_CB_EXIT": 0x02, "SSL_CB_READ": 0x04, "SSL_CB_WRITE": 0x08, "SSL_CB_ALERT": 0x4000, "SSL_CB_HANDSHAKE_START": 0x10, "SSL_CB_HANDSHAKE_DONE": 0x20} def plugin(self, owner): """ Use to PlugIn TLS into transport and start establishing immediately. Returns True if TLS/SSL was established correctly, otherwise False """ log.info('Starting TLS estabilishing') try: res = self._startSSL() except Exception, e: log.error("PlugIn: while trying _startSSL():", exc_info=True) return False return res def _dumpX509(self, cert, stream=sys.stderr): print >> stream, "Digest (SHA-1):", cert.digest("sha1") print >> stream, "Digest (MD5):", cert.digest("md5") print >> stream, "Serial #:", cert.get_serial_number() print >> stream, "Version:", cert.get_version() print >> stream, "Expired:", ("Yes" if cert.has_expired() else "No") print >> stream, "Subject:" self._dumpX509Name(cert.get_subject(), stream) print >> stream, "Issuer:" self._dumpX509Name(cert.get_issuer(), stream) self._dumpPKey(cert.get_pubkey(), stream) def _dumpX509Name(self, name, stream=sys.stderr): print >> stream, "X509Name:", str(name) def _dumpPKey(self, pkey, stream=sys.stderr): typedict = {OpenSSL.crypto.TYPE_RSA: "RSA", OpenSSL.crypto.TYPE_DSA: "DSA"} print >> stream, "PKey bits:", pkey.bits() print >> stream, "PKey type: %s (%d)" % (typedict.get(pkey.type(), "Unknown"), pkey.type()) def _startSSL(self): """ Immediatedly switch socket to TLS mode. Used internally """ log.debug("_startSSL called") if USE_PYOPENSSL: result = self._startSSL_pyOpenSSL() else: result = self._startSSL_stdlib() if result: log.debug('Synchronous handshake completed') return True else: return False def _load_cert_file(self, cert_path, cert_store, logg=True): if not os.path.isfile(cert_path): return try: f = open(cert_path) except IOError, e: log.warning('Unable to open certificate file %s: %s' % \ (cert_path, str(e))) return lines = f.readlines() i = 0 begin = -1 for line in lines: if 'BEGIN CERTIFICATE' in line: begin = i elif 'END CERTIFICATE' in line and begin > -1: cert = ''.join(lines[begin:i+2]) try: x509cert = OpenSSL.crypto.load_certificate( OpenSSL.crypto.FILETYPE_PEM, cert) cert_store.add_cert(x509cert) except OpenSSL.crypto.Error, exception_obj: if logg: log.warning('Unable to load a certificate from file %s: %s' %\ (cert_path, exception_obj.args[0][0][2])) except: log.warning('Unknown error while loading certificate from file ' '%s' % cert_path) begin = -1 i += 1 def _startSSL_pyOpenSSL(self): log.debug("_startSSL_pyOpenSSL called") tcpsock = self._owner # NonBlockingHTTPBOSH instance has no attribute _owner if hasattr(tcpsock, '_owner') and tcpsock._owner._caller.client_cert \ and os.path.exists(tcpsock._owner._caller.client_cert): conn = tcpsock._owner._caller # FIXME make a checkbox for Client Cert / SSLv23 / TLSv1 # If we are going to use a client cert/key pair for authentication, # we choose TLSv1 method. tcpsock._sslContext = OpenSSL.SSL.Context(OpenSSL.SSL.TLSv1_METHOD) log.debug('Using client cert and key from %s' % conn.client_cert) try: p12 = OpenSSL.crypto.load_pkcs12(open(conn.client_cert).read(), conn.client_cert_passphrase) except OpenSSL.crypto.Error, exception_obj: log.warning('Unable to load client pkcs12 certificate from ' 'file %s: %s ... Is it a valid PKCS12 cert?' % \ (conn.client_cert, exception_obj.args)) except: log.warning('Unknown error while loading certificate from file ' '%s' % conn.client_cert) else: log.info('PKCS12 Client cert loaded OK') try: tcpsock._sslContext.use_certificate(p12.get_certificate()) tcpsock._sslContext.use_privatekey(p12.get_privatekey()) log.info('p12 cert and key loaded') except OpenSSL.crypto.Error, exception_obj: log.warning('Unable to extract client certificate from ' 'file %s' % conn.client_cert) except Exception, msg: log.warning('Unknown error extracting client certificate ' 'from file %s: %s' % (conn.client_cert, msg)) else: log.info('client cert and key loaded OK') else: # See http://docs.python.org/dev/library/ssl.html tcpsock._sslContext = OpenSSL.SSL.Context(OpenSSL.SSL.SSLv23_METHOD) flags = OpenSSL.SSL.OP_NO_SSLv2 try: flags |= OpenSSL.SSL.OP_NO_TICKET except AttributeError, e: # py-OpenSSL < 0.9 or old OpenSSL flags |= 16384 tcpsock._sslContext.set_options(flags) tcpsock.ssl_errnum = 0 tcpsock._sslContext.set_verify(OpenSSL.SSL.VERIFY_PEER, self._ssl_verify_callback) try: tcpsock._sslContext.load_verify_locations(self.cacerts) except: log.warning('Unable to load SSL certificates from file %s' % \ os.path.abspath(self.cacerts)) store = tcpsock._sslContext.get_cert_store() self._load_cert_file(self.mycerts, store) if os.path.isdir('/etc/ssl/certs'): for f in os.listdir('/etc/ssl/certs'): # We don't logg because there is a lot a duplicated certs in this # folder self._load_cert_file(os.path.join('/etc/ssl/certs', f), store, logg=False) tcpsock._sslObj = OpenSSL.SSL.Connection(tcpsock._sslContext, tcpsock._sock) tcpsock._sslObj.set_connect_state() # set to client mode wrapper = PyOpenSSLWrapper(tcpsock._sslObj) tcpsock._recv = wrapper.recv tcpsock._send = wrapper.send log.debug("Initiating handshake...") tcpsock._sslObj.setblocking(True) try: tcpsock._sslObj.do_handshake() except: log.error('Error while TLS handshake: ', exc_info=True) return False tcpsock._sslObj.setblocking(False) self._owner.ssl_lib = PYOPENSSL return True def _startSSL_stdlib(self): log.debug("_startSSL_stdlib called") tcpsock=self._owner try: tcpsock._sock.setblocking(True) tcpsock._sslObj = socket.ssl(tcpsock._sock, None, None) tcpsock._sock.setblocking(False) tcpsock._sslIssuer = tcpsock._sslObj.issuer() tcpsock._sslServer = tcpsock._sslObj.server() wrapper = StdlibSSLWrapper(tcpsock._sslObj, tcpsock._sock) tcpsock._recv = wrapper.recv tcpsock._send = wrapper.send except: log.error("Exception caught in _startSSL_stdlib:", exc_info=True) return False self._owner.ssl_lib = PYSTDLIB return True def _ssl_verify_callback(self, sslconn, cert, errnum, depth, ok): # Exceptions can't propagate up through this callback, so print them here. try: self._owner.ssl_fingerprint_sha1 = cert.digest('sha1') self._owner.ssl_certificate = cert if errnum == 0: return True self._owner.ssl_errnum = errnum self._owner.ssl_cert_pem = OpenSSL.crypto.dump_certificate( OpenSSL.crypto.FILETYPE_PEM, cert) return True except: log.error("Exception caught in _ssl_info_callback:", exc_info=True) # Make sure something is printed, even if log is disabled. traceback.print_exc()