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- import threading
- import socket
- import struct
- import codecs
- import time
- import sys
- import os
- # Fix OpenWRT Python codecs issues:
- # Always fallback to ASCII when specified codec is not available.
- try:
- codecs.lookup('idna')
- codecs.lookup('utf-8')
- except LookupError:
- def search_codec(_):
- return codecs.CodecInfo(codecs.ascii_encode, codecs.ascii_decode, name='ascii')
- codecs.register(search_codec)
- class Logger(object):
- DEBUG = 1
- INFO = 2
- WARNING = 3
- ERROR = 4
- def __init__(self, level = INFO):
- self.level = level
- def debug(self, msg):
- if self.level <= Logger.DEBUG:
- sys.stdout.write("[DEBUG] - " + str(msg) + "\n")
- sys.stdout.flush()
- def info(self, msg):
- if self.level <= Logger.INFO:
- sys.stdout.write("[INFO] - " + str(msg) + "\n")
- sys.stdout.flush()
- def warning(self, msg):
- if self.level <= Logger.WARNING:
- sys.stderr.write("[WARNING] - " + str(msg) + "\n")
- sys.stderr.flush()
- def error(self, msg):
- if self.level <= Logger.ERROR:
- sys.stderr.write("[ERROR] - " + str(msg) + "\n")
- sys.stderr.flush()
- class StunClient(object):
- # Note: IPv4 Only.
- # Reference:
- # https://www.rfc-editor.org/rfc/rfc3489
- # https://www.rfc-editor.org/rfc/rfc5389
- # https://www.rfc-editor.org/rfc/rfc8489
- # Servers in this list must be compatible with rfc5389 or rfc8489
- stun_server_tcp = [
- "fwa.lifesizecloud.com",
- "stun.isp.net.au",
- "stun.freeswitch.org",
- "stun.voip.blackberry.com",
- "stun.nextcloud.com",
- "stun.stunprotocol.org",
- "stun.sipnet.com",
- "stun.radiojar.com",
- "stun.sonetel.com",
- "stun.voipgate.com"
- ]
- # Servers in this list must be compatible with rfc3489, with "change IP" and "change port" functions available
- stun_server_udp = [
- "stun.miwifi.com",
- "stun.qq.com"
- ]
- MTU = 1500
- STUN_PORT = 3478
- MAGIC_COOKIE = 0x2112a442
- BIND_REQUEST = 0x0001
- BIND_RESPONSE = 0x0101
- FAMILY_IPV4 = 0x01
- FAMILY_IPV6 = 0x02
- CHANGE_PORT = 0x0002
- CHANGE_IP = 0x0004
- ATTRIB_MAPPED_ADDRESS = 0x0001
- ATTRIB_CHANGE_REQUEST = 0x0003
- ATTRIB_XOR_MAPPED_ADDRESS = 0x0020
- NAT_OPEN_INTERNET = 0
- NAT_FULL_CONE = 1
- NAT_RESTRICTED = 2
- NAT_PORT_RESTRICTED = 3
- NAT_SYMMETRIC = 4
- NAT_SYM_UDP_FIREWALL = 5
- def __init__(self, source_ip = "0.0.0.0", log_level = Logger.INFO):
- self.logger = Logger(log_level)
- self.source_ip = source_ip
- self.stun_ip_tcp = []
- self.stun_ip_udp = []
- if not self.check_reuse_ability():
- raise OSError("This OS or Python does not support reusing ports!")
- self.logger.info("Getting STUN server IP...")
- for hostname in self.stun_server_tcp:
- self.stun_ip_tcp.extend(self.resolve_hostname(hostname))
- for hostname in self.stun_server_udp:
- self.stun_ip_udp.extend(self.resolve_hostname(hostname))
- if not self.stun_ip_tcp or not self.stun_ip_udp:
- raise Exception("No public STUN server is avaliable. Please check your Internet connection.")
- def get_free_port(self, udp=False):
- if udp:
- sock = socket.socket(socket.AF_INET, socket.SOCK_DGRAM)
- else:
- sock = socket.socket(socket.AF_INET, socket.SOCK_STREAM)
- sock.setsockopt(socket.SOL_SOCKET, socket.SO_REUSEADDR, 1)
- if 'SO_REUSEPORT' in dir(socket):
- sock.setsockopt(socket.SOL_SOCKET, socket.SO_REUSEPORT, 1)
- sock.bind(('', 0))
- ret = sock.getsockname()[1]
- sock.close()
- return ret
- def check_reuse_ability(self):
- try:
- test_port = self.get_free_port()
- s1 = socket.socket(socket.AF_INET, socket.SOCK_STREAM)
- s1.setsockopt(socket.SOL_SOCKET, socket.SO_REUSEADDR, 1)
- if 'SO_REUSEPORT' in dir(socket):
- s1.setsockopt(socket.SOL_SOCKET, socket.SO_REUSEPORT, 1)
- s1.bind(("0.0.0.0", test_port))
- s1.listen(1)
- s2 = socket.socket(socket.AF_INET, socket.SOCK_STREAM)
- s2.setsockopt(socket.SOL_SOCKET, socket.SO_REUSEADDR, 1)
- if 'SO_REUSEPORT' in dir(socket):
- s2.setsockopt(socket.SOL_SOCKET, socket.SO_REUSEPORT, 1)
- s2.bind(("0.0.0.0", test_port))
- s2.listen(1)
- s1.close()
- s2.close()
- return True
- except OSError as e:
- self.logger.debug("%s: %s" % (e.__class__.__name__, e))
- return False
- def resolve_hostname(self, hostname):
- self.logger.debug("Resolving hostname [%s]..." % hostname)
- try:
- host, alias, ip_addresses = socket.gethostbyname_ex(hostname)
- return ip_addresses
- except Exception as e:
- self.logger.debug("%s: %s" % (e.__class__.__name__, e))
- return []
- def random_tran_id(self, use_magic_cookie = False):
- if use_magic_cookie:
- # Compatible with rfc3489, rfc5389 and rfc8489
- return struct.pack("!L", self.MAGIC_COOKIE) + os.urandom(12)
- else:
- # Compatible with rfc3489
- return os.urandom(16)
- def pack_stun_message(self, msg_type, tran_id, payload = b""):
- return struct.pack("!HH", msg_type, len(payload)) + tran_id + payload
- def unpack_stun_message(self, data):
- msg_type, msg_length = struct.unpack("!HH", data[:4])
- tran_id = data[4:20]
- payload = data[20:20 + msg_length]
- return msg_type, tran_id, payload
- def get_mapped_addr(self, payload):
- while payload:
- attrib_type, attrib_length = struct.unpack("!HH", payload[:4])
- attrib_value = payload[4:4 + attrib_length]
- payload = payload[4 + attrib_length:]
- if attrib_type == self.ATTRIB_MAPPED_ADDRESS:
- _, family, port = struct.unpack("!BBH", attrib_value[:4])
- if family == self.FAMILY_IPV4:
- ip = socket.inet_ntoa(attrib_value[4:8])
- return ip, port
- elif attrib_type == self.ATTRIB_XOR_MAPPED_ADDRESS:
- # rfc5389 and rfc8489
- _, family, xor_port = struct.unpack("!BBH", attrib_value[:4])
- if family == self.FAMILY_IPV4:
- xor_iip, = struct.unpack("!L", attrib_value[4:8])
- ip = socket.inet_ntoa(struct.pack("!L", self.MAGIC_COOKIE ^ xor_iip))
- port = (self.MAGIC_COOKIE >> 16) ^ xor_port
- return ip, port
- return None
- def tcp_test(self, stun_host, source_port, timeout = 1):
- # rfc5389 and rfc8489 only
- self.logger.debug("Trying TCP STUN: %s" % stun_host)
- tran_id = self.random_tran_id(use_magic_cookie = True)
- sock = socket.socket(socket.AF_INET, socket.SOCK_STREAM)
- try:
- sock.setsockopt(socket.IPPROTO_TCP, socket.TCP_NODELAY, 1)
- sock.setsockopt(socket.SOL_SOCKET, socket.SO_REUSEADDR, 1)
- if 'SO_REUSEPORT' in dir(socket):
- sock.setsockopt(socket.SOL_SOCKET, socket.SO_REUSEPORT, 1)
- sock.settimeout(timeout)
- sock.bind((self.source_ip, source_port))
- sock.connect((stun_host, self.STUN_PORT))
- data = self.pack_stun_message(self.BIND_REQUEST, tran_id)
- sock.sendall(data)
- buf = sock.recv(self.MTU)
- msg_type, msg_id, payload = self.unpack_stun_message(buf)
- if tran_id == msg_id and msg_type == self.BIND_RESPONSE:
- source_addr = sock.getsockname()
- mapped_addr = self.get_mapped_addr(payload)
- ret = source_addr, mapped_addr
- self.logger.debug("(TCP) %s says: %s" % (stun_host, mapped_addr))
- else:
- ret = None
- sock.shutdown(socket.SHUT_RDWR)
- sock.close()
- except Exception as e:
- self.logger.debug("%s: %s" % (e.__class__.__name__, e))
- sock.close()
- ret = None
- return ret
- def udp_test(self, stun_host, source_port, change_ip = False, change_port = False, timeout = 1, repeat = 3):
- # Note:
- # Assuming STUN is being multiplexed with other protocols,
- # the packet must be inspected to check if it is a STUN packet.
- self.logger.debug("Trying UDP STUN: %s (change ip:%d/port:%d)" % (stun_host, change_ip, change_port))
- time_start = time.time()
- tran_id = self.random_tran_id()
- sock = socket.socket(socket.AF_INET, socket.SOCK_DGRAM)
- try:
- sock.setsockopt(socket.SOL_SOCKET, socket.SO_REUSEADDR, 1)
- if 'SO_REUSEPORT' in dir(socket):
- sock.setsockopt(socket.SOL_SOCKET, socket.SO_REUSEPORT, 1)
- sock.settimeout(timeout)
- sock.bind((self.source_ip, source_port))
- flags = 0
- if change_ip:
- flags |= self.CHANGE_IP
- if change_port:
- flags |= self.CHANGE_PORT
- if flags:
- payload = struct.pack("!HHL", self.ATTRIB_CHANGE_REQUEST, 0x4, flags)
- data = self.pack_stun_message(self.BIND_REQUEST, tran_id, payload)
- else:
- data = self.pack_stun_message(self.BIND_REQUEST, tran_id)
- # Send packets repeatedly to avoid packet loss.
- for _ in range(repeat):
- sock.sendto(data, (stun_host, self.STUN_PORT))
- while True:
- time_left = time_start + timeout - time.time()
- if time_left <= 0:
- raise socket.timeout("timed out")
- sock.settimeout(time_left)
- buf, recv_addr = sock.recvfrom(self.MTU)
- recv_host, recv_port = recv_addr
- # check STUN packet
- if len(buf) < 20:
- continue
- msg_type, msg_id, payload = self.unpack_stun_message(buf)
- if tran_id != msg_id or msg_type != self.BIND_RESPONSE:
- continue
- source_addr = sock.getsockname()
- mapped_addr = self.get_mapped_addr(payload)
- ip_changed = (recv_host != self.STUN_PORT)
- port_changed = (recv_port != self.STUN_PORT)
- self.logger.debug("(UDP) %s says: %s" % (recv_addr, mapped_addr))
- return source_addr, mapped_addr, ip_changed, port_changed
- except Exception as e:
- self.logger.debug("%s: %s" % (e.__class__.__name__, e))
- return None
- finally:
- sock.close()
- def get_tcp_mapping(self, source_port):
- server_ip = first = self.stun_ip_tcp[0]
- while True:
- ret = self.tcp_test(server_ip, source_port)
- if ret is None:
- # server unavailable, put it at the end of the list
- self.stun_ip_tcp.append(self.stun_ip_tcp.pop(0))
- server_ip = self.stun_ip_tcp[0]
- if server_ip == first:
- raise Exception("No public STUN server is avaliable. Please check your Internet connection.")
- else:
- source_addr, mapped_addr = ret
- return source_addr, mapped_addr
- def get_udp_mapping(self, source_port):
- server_ip = first = self.stun_ip_udp[0]
- while True:
- ret = self.udp_test(server_ip, source_port)
- if ret is None:
- # server unavailable, put it at the end of the list
- self.stun_ip_udp.append(self.stun_ip_udp.pop(0))
- server_ip = self.stun_ip_udp[0]
- if server_ip == first:
- raise Exception("No public STUN server is avaliable. Please check your Internet connection.")
- else:
- source_addr, mapped_addr, ip_changed, port_changed = ret
- return source_addr, mapped_addr
- def check_nat_type(self, source_port = 0):
- # Like classic STUN (rfc3489). Detect NAT behavior for UDP.
- # Modified from rfc3489. Requires at least two STUN servers.
- ret_test1_1 = None
- ret_test1_2 = None
- ret_test2 = None
- ret_test3 = None
- if source_port == 0:
- source_port = self.get_free_port(udp=True)
- for server_ip in self.stun_ip_udp:
- ret = self.udp_test(server_ip, source_port, change_ip=False, change_port=False)
- if ret is None:
- self.logger.debug("No response. Trying another STUN server...")
- continue
- if ret_test1_1 is None:
- ret_test1_1 = ret
- continue
- ret_test1_2 = ret
- ret = self.udp_test(server_ip, source_port, change_ip=True, change_port=True)
- if ret is not None:
- source_addr, mapped_addr, ip_changed, port_changed = ret
- if not ip_changed or not port_changed:
- self.logger.debug("Trying another STUN server because current server do not have another available IP or port...")
- continue
- ret_test2 = ret
- ret_test3 = self.udp_test(server_ip, source_port, change_ip=False, change_port=True)
- break
- else:
- raise Exception("UDP Blocked or not enough STUN servers available.")
- source_addr_1_1, mapped_addr_1_1, _, _ = ret_test1_1
- source_addr_1_2, mapped_addr_1_2, _, _ = ret_test1_2
- if mapped_addr_1_1 != mapped_addr_1_2:
- return StunClient.NAT_SYMMETRIC
- if source_addr_1_1 == mapped_addr_1_1:
- if ret_test2 is not None:
- return StunClient.NAT_OPEN_INTERNET
- else:
- return StunClient.NAT_SYM_UDP_FIREWALL
- else:
- if ret_test2 is not None:
- return StunClient.NAT_FULL_CONE
- else:
- if ret_test3 is not None:
- return StunClient.NAT_RESTRICTED
- else:
- return StunClient.NAT_PORT_RESTRICTED
- def is_tcp_cone(self, source_port = 0):
- # Detect NAT behavior for TCP. Requires at least three STUN servers for accuracy.
- if source_port == 0:
- source_port = self.get_free_port()
- mapped_addr_first = None
- count = 0
- for server_ip in self.stun_ip_tcp:
- if count >= 3:
- return True
- ret = self.tcp_test(server_ip, source_port)
- if ret is not None:
- source_addr, mapped_addr = ret
- if mapped_addr_first is not None and mapped_addr != mapped_addr_first:
- return False
- mapped_addr_first = ret[1]
- count += 1
- raise Exception("Not enough STUN servers available.")
- class HttpTestServer(object):
- # HTTP Server for testing purpose
- # On success, you can see the text "It works!".
- def __init__(self, listen_addr):
- self.running = False
- self.listen_addr = listen_addr
- self.sock = socket.socket(socket.AF_INET, socket.SOCK_STREAM)
- self.sock.setsockopt(socket.SOL_SOCKET, socket.SO_REUSEADDR, 1)
- if 'SO_REUSEPORT' in dir(socket):
- self.sock.setsockopt(socket.SOL_SOCKET, socket.SO_REUSEPORT, 1)
- def run(self):
- self.running = True
- self.sock.bind(self.listen_addr)
- self.sock.listen(1)
- while self.running:
- try:
- conn, addr = self.sock.accept()
- except Exception:
- return
- try:
- conn.recv(4096)
- conn.sendall(b"HTTP/1.1 200 OK\r\n")
- conn.sendall(b"Content-Type: text/html\r\n")
- conn.sendall(b"\r\n")
- conn.sendall(b"<h1>It works!</h1><hr/>Natter\r\n")
- conn.shutdown(socket.SHUT_RDWR)
- except Exception:
- pass
- finally:
- conn.close()
- def start(self):
- threading.Thread(target=self.run).start()
- def stop(self):
- self.running = False
- sock = socket.socket(socket.AF_INET, socket.SOCK_STREAM)
- sock.settimeout(0.1)
- result = sock.connect_ex(self.listen_addr)
- sock.close()
- self.sock.close()
- class Natter(object):
- def __init__(self, source_ip, source_port, test_http = False,
- keep_alive_host = "www.qq.com", keep_alive_interval = 10, retry_sec = 3, log_level = Logger.INFO):
- self.logger = Logger(log_level)
- self.source_ip = source_ip
- self.source_port = source_port
- self.test_http = test_http
- self.keep_alive_host = keep_alive_host
- self.keep_alive_interval = keep_alive_interval
- self.retry_sec = retry_sec
- self.stun_client = StunClient(source_ip, log_level = log_level)
- self.keep_alive_sock = self._init_keep_alive_sock()
- self.http_test_server = HttpTestServer((source_ip, source_port))
- def _init_keep_alive_sock(self):
- s = socket.socket(socket.AF_INET, socket.SOCK_STREAM)
- s.setsockopt(socket.IPPROTO_TCP, socket.TCP_NODELAY, 1)
- s.setsockopt(socket.SOL_SOCKET, socket.SO_REUSEADDR, 1)
- if 'SO_REUSEPORT' in dir(socket):
- s.setsockopt(socket.SOL_SOCKET, socket.SO_REUSEPORT, 1)
- s.bind((self.source_ip, self.source_port))
- s.connect((self.keep_alive_host, 80))
- s.settimeout(self.keep_alive_interval)
- return s
- def _keep_alive(self):
- s = self.keep_alive_sock
- try:
- s.sendall(b"GET /~ HTTP/1.1\r\n")
- s.sendall(b"Host: %s\r\n" % self.keep_alive_host.encode())
- s.sendall(b"Connection: keep-alive\r\n")
- s.sendall(b"\r\n")
- except Exception as e:
- self.logger.debug("%s: %s" % (e.__class__.__name__, e))
- return False
- try:
- while s.recv(4096):
- self.logger.debug("[%s] Keep-Alive OK!" % time.asctime())
- self.logger.debug("Server closed connection")
- return False
- except socket.timeout:
- return True
- except Exception as e:
- self.logger.debug("%s: %s" % (e.__class__.__name__, e))
- return False
- def test_port_open(self, dst_addr, timeout = 3):
- sock = socket.socket(socket.AF_INET, socket.SOCK_STREAM)
- sock.settimeout(timeout)
- result = sock.connect_ex(dst_addr)
- sock.close()
- return result == 0
- def tcp_punch(self):
- self.logger.info("Checking NAT Type for UDP...")
- nat_type = self.stun_client.check_nat_type()
- if nat_type == StunClient.NAT_OPEN_INTERNET:
- nat_type_txt = "Open Internet"
- elif nat_type == StunClient.NAT_SYM_UDP_FIREWALL:
- nat_type_txt = "Symmetric UDP firewall"
- elif nat_type == StunClient.NAT_FULL_CONE:
- nat_type_txt = "Full cone (NAT 1)"
- elif nat_type == StunClient.NAT_RESTRICTED:
- nat_type_txt = "Restricted (NAT 2)"
- elif nat_type == StunClient.NAT_PORT_RESTRICTED:
- nat_type_txt = "Port restricted (NAT 3)"
- elif nat_type == StunClient.NAT_SYMMETRIC:
- nat_type_txt = "Symmetric (NAT 4)"
- else:
- nat_type_txt = "Unknown"
- self.logger.info("NAT Type for UDP: [ %s ]" % nat_type_txt)
- if nat_type == StunClient.NAT_OPEN_INTERNET:
- self.logger.warning("It looks like you are not in a NAT network, so there is no need to use this tool.")
- elif nat_type != StunClient.NAT_FULL_CONE:
- self.logger.warning("The NAT type of your network is not full cone (NAT 1). TCP hole punching may fail.")
- self.logger.info("Checking NAT Type for TCP...")
- if self.stun_client.is_tcp_cone():
- self.logger.info("NAT Type for TCP: [ Cone NAT ]")
- else:
- self.logger.info("NAT Type for TCP: [ Symmetric ]")
- self.logger.error("You cannot perform TCP hole punching in a symmetric NAT network.")
- return
- self.logger.info("Start punching...")
- self.http_test_server.start()
- source_addr, mapped_addr = self.stun_client.get_tcp_mapping(self.source_port)
- if not self.test_port_open(source_addr):
- self.logger.error("Local address %s is not available. Check your firewall settings." % source_addr)
- return
- if self.test_port_open(mapped_addr):
- self.logger.info(
- "The TCP hole punching appears to be successful. "
- "Please test this address from another network: %s" % str(mapped_addr)
- )
- print("\n================================\n %s\n================================\n"% str(mapped_addr))
- if self.test_http:
- print("HTTP test server is enabled. Please check [ http://%s:%d/ ]\n" % mapped_addr)
- else:
- self.logger.warning(
- "TCP hole punching seems to fail. Maybe you are behind a firewall. "
- "However, you may check this address from another network: %s" % str(mapped_addr)
- )
- if not self.test_http:
- self.http_test_server.stop()
- # Keep alive
- self.logger.info("TCP keep-alive...")
- while True:
- ok = self._keep_alive()
- if not ok:
- self.keep_alive_sock.close()
- time.sleep(self.retry_sec)
- self.keep_alive_sock = self._init_keep_alive_sock()
- self._keep_alive()
- source_addr, mapped_addr = self.stun_client.get_tcp_mapping(self.source_port)
- self.logger.info("Mapped address: %s" % str(mapped_addr))
-
- def close(self):
- try:
- self.keep_alive_sock.shutdown(socket.SHUT_RDWR)
- except Exception:
- pass
- self.keep_alive_sock.close()
- self.http_test_server.stop()
- def main():
- try:
- src_host = "0.0.0.0"
- src_port = -1
- verbose = False
- test_http = False
- l = []
- for arg in sys.argv[1:]:
- if arg[0] == "-":
- if arg == "-v":
- verbose = True
- elif arg == "-t":
- test_http = True
- else:
- raise ValueError
- else:
- l.append(arg)
- if len(l) == 1:
- src_port = int(l[0])
- elif len(l) == 2:
- src_host = l[0]
- src_port = int(l[1])
- else:
- raise ValueError
- except ValueError:
- print("Usage: python natter.py [-v] [-t] [SRC_HOST] SRC_PORT\n")
- return
-
- if verbose:
- log_level=Logger.DEBUG
- else:
- log_level=Logger.INFO
- natter = Natter(src_host, src_port, test_http=test_http, log_level=log_level)
- try:
- natter.tcp_punch()
- except KeyboardInterrupt:
- print("\nExiting...\n")
- natter.close()
- if __name__ == '__main__':
- main()
|
