import struct, socket, select, errno, re import compat.ssubprocess as ssubprocess import helpers, ssnet, ssh from ssnet import SockWrapper, Handler, Proxy, Mux, MuxWrapper from helpers import * def original_dst(sock): try: SO_ORIGINAL_DST = 80 SOCKADDR_MIN = 16 sockaddr_in = sock.getsockopt(socket.SOL_IP, SO_ORIGINAL_DST, SOCKADDR_MIN) (proto, port, a,b,c,d) = struct.unpack('!HHBBBB', sockaddr_in[:8]) assert(socket.htons(proto) == socket.AF_INET) ip = '%d.%d.%d.%d' % (a,b,c,d) return (ip,port) except socket.error, e: if e.args[0] == errno.ENOPROTOOPT: return sock.getsockname() raise class FirewallClient: def __init__(self, port, subnets_include, subnets_exclude): self.port = port self.auto_nets = [] self.subnets_include = subnets_include self.subnets_exclude = subnets_exclude argvbase = ([sys.argv[0]] + ['-v'] * (helpers.verbose or 0) + ['--firewall', str(port)]) argv_tries = [ ['sudo', '-p', '[local sudo] Password: '] + argvbase, ['su', '-c', ' '.join(argvbase)], argvbase ] # we can't use stdin/stdout=subprocess.PIPE here, as we normally would, # because stupid Linux 'su' requires that stdin be attached to a tty. # Instead, attach a *bidirectional* socket to its stdout, and use # that for talking in both directions. (s1,s2) = socket.socketpair() def setup(): # run in the child process s2.close() e = None if os.getuid() == 0: argv_tries = argv_tries[-1:] # last entry only for argv in argv_tries: try: if argv[0] == 'su': sys.stderr.write('[local su] ') self.p = ssubprocess.Popen(argv, stdout=s1, preexec_fn=setup) e = None break except OSError, e: pass self.argv = argv s1.close() self.pfile = s2.makefile('wb+') if e: log('Spawning firewall manager: %r\n' % self.argv) raise Fatal(e) line = self.pfile.readline() self.check() if line != 'READY\n': raise Fatal('%r expected READY, got %r' % (self.argv, line)) def check(self): rv = self.p.poll() if rv: raise Fatal('%r returned %d' % (self.argv, rv)) def start(self): self.pfile.write('ROUTES\n') for (ip,width) in self.subnets_include+self.auto_nets: self.pfile.write('%d,0,%s\n' % (width, ip)) for (ip,width) in self.subnets_exclude: self.pfile.write('%d,1,%s\n' % (width, ip)) self.pfile.write('GO\n') self.pfile.flush() line = self.pfile.readline() self.check() if line != 'STARTED\n': raise Fatal('%r expected STARTED, got %r' % (self.argv, line)) def sethostip(self, hostname, ip): assert(not re.search(r'[^-\w]', hostname)) assert(not re.search(r'[^0-9.]', ip)) self.pfile.write('HOST %s,%s\n' % (hostname, ip)) self.pfile.flush() def done(self): self.pfile.close() rv = self.p.wait() if rv: raise Fatal('cleanup: %r returned %d' % (self.argv, rv)) def _main(listener, fw, remotename, python, seed_hosts, auto_nets): handlers = [] if helpers.verbose >= 1: helpers.logprefix = 'c : ' else: helpers.logprefix = 'client: ' debug1('connecting to server...\n') try: (serverproc, serversock) = ssh.connect(remotename, python) except socket.error, e: if e.errno == errno.EPIPE: raise Fatal("failed to establish ssh session") else: raise mux = Mux(serversock, serversock) handlers.append(mux) expected = 'SSHUTTLE0001' initstring = serversock.recv(len(expected)) rv = serverproc.poll() if rv: raise Fatal('server died with error code %d' % rv) if initstring != expected: raise Fatal('expected server init string %r; got %r' % (expected, initstring)) debug1('connected.\n') def onroutes(routestr): if auto_nets: for line in routestr.strip().split('\n'): (ip,width) = line.split(',', 1) fw.auto_nets.append((ip,int(width))) # we definitely want to do this *after* starting ssh, or we might end # up intercepting the ssh connection! # # Moreover, now that we have the --auto-nets option, we have to wait # for the server to send us that message anyway. Even if we haven't # set --auto-nets, we might as well wait for the message first, then # ignore its contents. mux.got_routes = None fw.start() mux.got_routes = onroutes def onhostlist(hostlist): debug2('got host list: %r\n' % hostlist) for line in hostlist.strip().split(): if line: name,ip = line.split(',', 1) fw.sethostip(name, ip) mux.got_host_list = onhostlist def onaccept(): sock,srcip = listener.accept() dstip = original_dst(sock) debug1('Accept: %r:%r -> %r:%r.\n' % (srcip[0],srcip[1], dstip[0],dstip[1])) if dstip == listener.getsockname(): debug1("-- ignored: that's my address!\n") sock.close() return chan = mux.next_channel() mux.send(chan, ssnet.CMD_CONNECT, '%s,%s' % dstip) outwrap = MuxWrapper(mux, chan) handlers.append(Proxy(SockWrapper(sock, sock), outwrap)) handlers.append(Handler([listener], onaccept)) if seed_hosts != None: debug1('seed_hosts: %r\n' % seed_hosts) mux.send(0, ssnet.CMD_HOST_REQ, '\n'.join(seed_hosts)) while 1: rv = serverproc.poll() if rv: raise Fatal('server died with error code %d' % rv) ssnet.runonce(handlers, mux) mux.callback() mux.check_fullness() def main(listenip, remotename, python, seed_hosts, auto_nets, subnets_include, subnets_exclude): debug1('Starting sshuttle proxy.\n') listener = socket.socket() listener.setsockopt(socket.SOL_SOCKET, socket.SO_REUSEADDR, 1) if listenip[1]: ports = [listenip[1]] else: ports = xrange(12300,9000,-1) last_e = None bound = False debug2('Binding:') for port in ports: debug2(' %d' % port) try: listener.bind((listenip[0], port)) bound = True break except socket.error, e: last_e = e debug2('\n') if not bound: assert(last_e) raise last_e listener.listen(10) listenip = listener.getsockname() debug1('Listening on %r.\n' % (listenip,)) fw = FirewallClient(listenip[1], subnets_include, subnets_exclude) try: return _main(listener, fw, remotename, python, seed_hosts, auto_nets) finally: fw.done()