import socket import struct import logging from threading import Thread from network.info import local_ips, get_free_tcp_port from network.firewall import app as firewall from difflib import get_close_matches from network.tools import check_port_tcp from model import VictimHost import time __author__ = 'hoffer' LOG = logging.getLogger(__name__) MCAST_GROUP = '224.1.1.1' MCAST_PORT = 5007 BUFFER_READ = 1024 DEFAULT_TIMEOUT = 10 QUIT_TIMEOUT = 1200 #20 minutes def _set_multicast_socket(timeout=DEFAULT_TIMEOUT): sock = socket.socket(socket.AF_INET, socket.SOCK_DGRAM, socket.IPPROTO_UDP) sock.settimeout(timeout) sock.setsockopt(socket.SOL_SOCKET, socket.SO_REUSEADDR, 1) sock.bind(('', MCAST_PORT)) sock.setsockopt(socket.IPPROTO_IP, socket.IP_ADD_MEMBERSHIP, struct.pack("4sl", socket.inet_aton(MCAST_GROUP), socket.INADDR_ANY)) return sock def find_tunnel(default=None, attempts=3, timeout=DEFAULT_TIMEOUT): sock = _set_multicast_socket(timeout) l_ips = local_ips() for attempt in range(0, attempts): try: sock.sendto("?", (MCAST_GROUP, MCAST_PORT)) tunnels = [] if default: tunnels.append(default) while True: try: answer, address = sock.recvfrom(BUFFER_READ) if not answer in ['?', '+', '-']: tunnels.append(answer) except socket.timeout: break for tunnel in tunnels: if tunnel.find(':') != -1: address, port = tunnel.split(':', 1) if address in l_ips: continue LOG.debug("Checking tunnel %s:%s", address, port) is_open,_ = check_port_tcp(address, int(port)) if not is_open: LOG.debug("Could not connect to %s:%s", address, port) continue sock.sendto("+", (address, MCAST_PORT)) sock.close() return (address, port) except Exception, exc: LOG.debug("Caught exception in tunnel lookup: %s", exc) continue return None def quit_tunnel(address, timeout=DEFAULT_TIMEOUT): try: sock = _set_multicast_socket(timeout) sock.sendto("-", (address, MCAST_PORT)) sock.close() LOG.debug("Success quitting tunnel") except Exception, exc: LOG.debug("Exception quitting tunnel: %s", exc) return class MonkeyTunnel(Thread): def __init__(self, proxy_class, target_addr=None, target_port=None, timeout=DEFAULT_TIMEOUT): self._target_addr = target_addr self._target_port = target_port self._proxy_class = proxy_class self._broad_sock = None self._timeout = timeout self._stopped = False self._clients = [] self.local_port = None super(MonkeyTunnel, self).__init__() self.daemon = True def run(self): self._broad_sock = _set_multicast_socket(self._timeout) l_ips = local_ips() self.local_port = get_free_tcp_port() if not self.local_port: return if not firewall.listen_allowed(localport=self.local_port): LOG.info("Machine firewalled, listen not allowed, not running tunnel.") return proxy = self._proxy_class(local_port=self.local_port, dest_host=self._target_addr, dest_port=self._target_port) LOG.info("Running tunnel using proxy class: %s, on port %s", proxy.__class__.__name__, self.local_port) proxy.start() while not self._stopped: try: search, address = self._broad_sock.recvfrom(BUFFER_READ) if '?' == search: ip_match = get_close_matches(address[0], l_ips) or l_ips if ip_match: answer = '%s:%d' % (ip_match[0], self.local_port) LOG.debug("Got tunnel request from %s, answering with %s", address[0], answer) self._broad_sock.sendto(answer, (address[0], MCAST_PORT)) elif '+' == search: if not address[0] in self._clients: self._clients.append(address[0]) elif '-' == search: self._clients = [client for client in self._clients if client != address[0]] except socket.timeout: continue LOG.info("Stopping tunnel, waiting for clients") stop_time = time.time() while self._clients and (time.time() - stop_time < QUIT_TIMEOUT): try: search, address = self._broad_sock.recvfrom(BUFFER_READ) if '-' == search: self._clients = [client for client in self._clients if client != address[0]] except socket.timeout: continue LOG.info("Closing tunnel") self._broad_sock.close() proxy.stop() proxy.join() def set_tunnel_for_host(self, host): assert isinstance(host, VictimHost) ip_match = get_close_matches(host.ip_addr, local_ips()) or l_ips host.default_tunnel = '%s:%d' % (ip_match[0], self.local_port) def stop(self): self._stopped = True