Exemple #1
0
    def _create_ssl_connection(self, ip_port):
        if not connect_control.allow_connect():
            time.sleep(10)
            return False

        sock = None
        ssl_sock = None
        ip = ip_port[0]

        connect_control.start_connect_register(high_prior=True)

        handshake_time = 0
        time_begin = time.time()
        try:
            if config.PROXY_ENABLE:
                sock = socks.socksocket(socket.AF_INET if ':' not in
                                        ip else socket.AF_INET6)
            else:
                sock = socket.socket(socket.AF_INET if ':' not in
                                     ip else socket.AF_INET6)
            # set reuseaddr option to avoid 10048 socket error
            sock.setsockopt(socket.SOL_SOCKET, socket.SO_REUSEADDR, 1)
            # set struct linger{l_onoff=1,l_linger=0} to avoid 10048 socket error
            sock.setsockopt(socket.SOL_SOCKET, socket.SO_LINGER,
                            struct.pack('ii', 1, 0))
            # resize socket recv buffer 8K->32K to improve browser releated application performance
            sock.setsockopt(socket.SOL_SOCKET, socket.SO_RCVBUF, 64 * 1024)
            # disable negal algorithm to send http request quickly.
            sock.setsockopt(socket.SOL_TCP, socket.TCP_NODELAY, True)
            # set a short timeout to trigger timeout retry more quickly.

            sock.settimeout(self.timeout)

            ssl_sock = SSLConnection(self.openssl_context, sock, ip,
                                     google_ip.ssl_closed)
            ssl_sock.set_connect_state()

            ssl_sock.connect(ip_port)
            time_connected = time.time()
            ssl_sock.do_handshake()
            time_handshaked = time.time()

            def verify_SSL_certificate_issuer(ssl_sock):
                #cert = ssl_sock.get_peer_certificate()
                #if not cert:
                #    #google_ip.report_bad_ip(ssl_sock.ip)
                #    #connect_control.fall_into_honeypot()
                #    raise socket.error(' certficate is none')

                #issuer_commonname = next((v for k, v in cert.get_issuer().get_components() if k == 'CN'), '')
                #if not issuer_commonname.startswith('Google'):
                #    google_ip.report_connect_fail(ip, force_remove=True)
                #    raise socket.error(' certficate is issued by %r, not Google' % ( issuer_commonname))
                certs = ssl_sock.get_peer_cert_chain()
                if not certs:
                    #google_ip.report_bad_ip(ssl_sock.ip)
                    #connect_control.fall_into_honeypot()
                    raise socket.error(' certficate is none')
                if len(certs) < 3:
                    google_ip.report_connect_fail(ip, force_remove=True)
                    raise socket.error('No intermediate CA was found.')

                if hasattr(OpenSSL.crypto, "dump_publickey"):
                    # old OpenSSL not support this function.
                    if OpenSSL.crypto.dump_publickey(
                            OpenSSL.crypto.FILETYPE_PEM,
                            certs[1].get_pubkey()) not in GoogleG23PKP:
                        google_ip.report_connect_fail(ip, force_remove=True)
                        raise socket.error(
                            'The intermediate CA is mismatching.')

                issuer_commonname = next(
                    (v for k, v in certs[0].get_issuer().get_components()
                     if k == 'CN'), '')
                if not issuer_commonname.startswith('Google'):
                    google_ip.report_connect_fail(ip, force_remove=True)
                    raise socket.error(
                        ' certficate is issued by %r, not Google' %
                        (issuer_commonname))

            verify_SSL_certificate_issuer(ssl_sock)

            handshake_time = int((time_handshaked - time_connected) * 1000)

            try:
                h2 = ssl_sock.get_alpn_proto_negotiated()
                if h2 == "h2":
                    ssl_sock.h2 = True
                    # xlog.debug("ip:%s http/2", ip)
                else:
                    ssl_sock.h2 = False

                #xlog.deubg("alpn h2:%s", h2)
            except:
                if hasattr(ssl_sock._connection,
                           "protos") and ssl_sock._connection.protos == "h2":
                    ssl_sock.h2 = True
                    # xlog.debug("ip:%s http/2", ip)
                else:
                    ssl_sock.h2 = False
                    # xlog.debug("ip:%s http/1.1", ip)

            google_ip.update_ip(ip, handshake_time)
            xlog.debug("create_ssl update ip:%s time:%d h2:%d", ip,
                       handshake_time, ssl_sock.h2)
            ssl_sock.fd = sock.fileno()
            ssl_sock.create_time = time_begin
            ssl_sock.last_use_time = time_begin
            ssl_sock.received_size = 0
            ssl_sock.load = 0
            ssl_sock.handshake_time = handshake_time
            ssl_sock.host = ''

            connect_control.report_connect_success()
            return ssl_sock
        except Exception as e:
            time_cost = time.time() - time_begin
            if time_cost < self.timeout - 1:
                xlog.debug("connect %s fail:%s cost:%d h:%d", ip, e,
                           time_cost * 1000, handshake_time)
            else:
                xlog.debug("%s fail:%r", ip, e)

            google_ip.report_connect_fail(ip)
            connect_control.report_connect_fail()

            if ssl_sock:
                ssl_sock.close()
            if sock:
                sock.close()
            return False
        finally:
            connect_control.end_connect_register(high_prior=True)
Exemple #2
0
    def _create_ssl_connection(self, ip_port):
        if not connect_control.allow_connect():
            time.sleep(10)
            return False

        sock = None
        ssl_sock = None
        ip = ip_port[0]

        connect_control.start_connect_register(high_prior=True)

        handshake_time = 0
        time_begin = time.time()
        try:
            if config.PROXY_ENABLE:
                sock = socks.socksocket(socket.AF_INET if ':' not in
                                        ip else socket.AF_INET6)
            else:
                sock = socket.socket(socket.AF_INET if ':' not in
                                     ip else socket.AF_INET6)
            # set reuseaddr option to avoid 10048 socket error
            sock.setsockopt(socket.SOL_SOCKET, socket.SO_REUSEADDR, 1)
            # set struct linger{l_onoff=1,l_linger=0} to avoid 10048 socket error
            sock.setsockopt(socket.SOL_SOCKET, socket.SO_LINGER,
                            struct.pack('ii', 1, 0))
            # resize socket recv buffer 8K->32K to improve browser releated application performance
            sock.setsockopt(socket.SOL_SOCKET, socket.SO_RCVBUF, 64 * 1024)
            # disable negal algorithm to send http request quickly.
            sock.setsockopt(socket.SOL_TCP, socket.TCP_NODELAY, True)
            # set a short timeout to trigger timeout retry more quickly.

            sock.settimeout(self.connect_timeout)

            ssl_sock = SSLConnection(self.openssl_context, sock, ip,
                                     ip_manager.ssl_closed)
            ssl_sock.set_connect_state()

            host = random.choice(ns)
            ssl_sock.set_tlsext_host_name(host)

            ssl_sock.connect(ip_port)
            time_connected = time.time()
            ssl_sock.do_handshake()
            time_handshaked = time.time()

            def verify_SSL_certificate_issuer(ssl_sock):
                cert = ssl_sock.get_peer_certificate()
                if not cert:
                    #ip_manager.report_bad_ip(ssl_sock.ip)
                    #connect_control.fall_into_honeypot()
                    raise socket.error(' certficate is none')

                issuer_commonname = next(
                    (v for k, v in cert.get_issuer().get_components()
                     if k == 'CN'), '')
                if not issuer_commonname.startswith('COMODO'):
                    ip_manager.report_connect_fail(ip, force_remove=True)
                    raise socket.error(
                        ' certficate is issued by %r, not COMODO' %
                        (issuer_commonname))

            verify_SSL_certificate_issuer(ssl_sock)

            handshake_time = int((time_handshaked - time_connected) * 1000)

            try:
                h2 = ssl_sock.get_alpn_proto_negotiated()
                if h2 == "h2":
                    ssl_sock.h2 = True
                    # xlog.debug("ip:%s http/2", ip)
                else:
                    ssl_sock.h2 = False

                #xlog.deubg("alpn h2:%s", h2)
            except:
                if hasattr(ssl_sock._connection,
                           "protos") and ssl_sock._connection.protos == "h2":
                    ssl_sock.h2 = True
                    # xlog.debug("ip:%s http/2", ip)
                else:
                    ssl_sock.h2 = False
                    # xlog.debug("ip:%s http/1.1", ip)

            # ip_manager.update_ip(ip, handshake_time)
            # handshake time is not the response time,
            # cloudflare don't have global back-bond network like google.
            # the reasonable response RTT time should be the HTTP test RTT.

            xlog.debug("create_ssl update ip:%s time:%d h2:%d", ip,
                       handshake_time, ssl_sock.h2)
            ssl_sock.fd = sock.fileno()
            ssl_sock.create_time = time_begin
            ssl_sock.last_use_time = time.time()
            ssl_sock.received_size = 0
            ssl_sock.load = 0
            ssl_sock.handshake_time = handshake_time
            ssl_sock.host = self.host

            connect_control.report_connect_success()
            return ssl_sock
        except Exception as e:
            time_cost = time.time() - time_begin
            if time_cost < self.connect_timeout - 1:
                xlog.debug("connect %s fail:%s cost:%d h:%d", ip, e,
                           time_cost * 1000, handshake_time)
            else:
                xlog.debug("%s fail:%r", ip, e)

            ip_manager.report_connect_fail(ip)
            connect_control.report_connect_fail()

            if ssl_sock:
                ssl_sock.close()
            if sock:
                sock.close()
            return False
        finally:
            connect_control.end_connect_register(high_prior=True)
Exemple #3
0
    def _create_ssl_connection(self, ip_port):
        if not connect_control.allow_connect():
            time.sleep(10)
            return False

        sock = None
        ssl_sock = None
        ip = ip_port[0]

        connect_control.start_connect_register(high_prior=True)

        connect_time = 0
        handshake_time = 0
        time_begin = time.time()
        try:
            if config.PROXY_ENABLE:
                sock = socks.socksocket(socket.AF_INET if ':' not in ip else socket.AF_INET6)
            else:
                sock = socket.socket(socket.AF_INET if ':' not in ip else socket.AF_INET6)
            # set reuseaddr option to avoid 10048 socket error
            sock.setsockopt(socket.SOL_SOCKET, socket.SO_REUSEADDR, 1)
            # set struct linger{l_onoff=1,l_linger=0} to avoid 10048 socket error
            sock.setsockopt(socket.SOL_SOCKET, socket.SO_LINGER, struct.pack('ii', 1, 0))
            # resize socket recv buffer 8K->32K to improve browser releated application performance
            sock.setsockopt(socket.SOL_SOCKET, socket.SO_RCVBUF, 64*1024)
            # disable negal algorithm to send http request quickly.
            sock.setsockopt(socket.SOL_TCP, socket.TCP_NODELAY, True)
            # set a short timeout to trigger timeout retry more quickly.

            sock.settimeout(self.timeout)

            ssl_sock = SSLConnection(self.openssl_context, sock, ip, google_ip.ssl_closed)
            ssl_sock.set_connect_state()

            ssl_sock.connect(ip_port)
            time_connected = time.time()
            ssl_sock.do_handshake()
            time_handshaked = time.time()

            connect_time = int((time_connected - time_begin) * 1000)
            handshake_time = int((time_handshaked - time_connected) * 1000)

            try:
                h2 = ssl_sock.get_alpn_proto_negotiated()
                if h2 == "h2":
                    ssl_sock.h2 = True
                    # xlog.debug("ip:%s http/2", ip)
                else:
                    ssl_sock.h2 = False

                #xlog.deubg("alpn h2:%s", h2)
            except:
                if hasattr(ssl_sock._connection, "protos") and ssl_sock._connection.protos == "h2":
                    ssl_sock.h2 = True
                    # xlog.debug("ip:%s http/2", ip)
                else:
                    ssl_sock.h2 = False
                    # xlog.debug("ip:%s http/1.1", ip)

            google_ip.update_ip(ip, handshake_time)
            xlog.debug("create_ssl update ip:%s time:%d h2:%d", ip, handshake_time, ssl_sock.h2)
            ssl_sock.fd = sock.fileno()
            ssl_sock.create_time = time_begin
            ssl_sock.received_size = 0
            ssl_sock.load = 0
            ssl_sock.handshake_time = handshake_time
            ssl_sock.host = ''

            def verify_SSL_certificate_issuer(ssl_sock):
                cert = ssl_sock.get_peer_certificate()
                if not cert:
                    #google_ip.report_bad_ip(ssl_sock.ip)
                    #connect_control.fall_into_honeypot()
                    raise socket.error(' certficate is none')

                issuer_commonname = next((v for k, v in cert.get_issuer().get_components() if k == 'CN'), '')
                if not issuer_commonname.startswith('Google'):
                    google_ip.report_connect_fail(ip, force_remove=True)
                    raise socket.error(' certficate is issued by %r, not Google' % ( issuer_commonname))

            verify_SSL_certificate_issuer(ssl_sock)

            connect_control.report_connect_success()
            return ssl_sock
        except Exception as e:
            time_cost = time.time() - time_begin
            if time_cost < self.timeout - 1:
                xlog.debug("connect %s fail:%s cost:%d h:%d", ip, e, time_cost * 1000, handshake_time)
            else:
                xlog.debug("%s fail:%r", ip, e)

            google_ip.report_connect_fail(ip)
            connect_control.report_connect_fail()

            if ssl_sock:
                ssl_sock.close()
            if sock:
                sock.close()
            return False
        finally:
            connect_control.end_connect_register(high_prior=True)