sshuttle/ssnet.py

338 lines
9.5 KiB
Python
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import struct, socket, errno, select
from helpers import *
HDR_LEN = 8
CMD_EXIT = 0x4200
CMD_PING = 0x4201
CMD_PONG = 0x4202
CMD_CONNECT = 0x4203
CMD_CLOSE = 0x4204
CMD_EOF = 0x4205
CMD_DATA = 0x4206
cmd_to_name = {
CMD_EXIT: 'EXIT',
CMD_PING: 'PING',
CMD_PONG: 'PONG',
CMD_CONNECT: 'CONNECT',
CMD_CLOSE: 'CLOSE',
CMD_EOF: 'EOF',
CMD_DATA: 'DATA',
}
def _nb_clean(func, *args):
try:
return func(*args)
except OSError, e:
if e.errno not in (errno.EWOULDBLOCK, errno.EAGAIN):
raise
else:
return None
def _try_peername(sock):
try:
pn = sock.getpeername()
if pn:
return '%s:%s' % (pn[0], pn[1])
except socket.error, e:
if e.args[0] not in (errno.ENOTCONN, errno.ENOTSOCK):
raise
return 'unknown'
class SockWrapper:
def __init__(self, rsock, wsock, peername=None):
self.exc = None
self.rsock = rsock
self.wsock = wsock
self.shut_read = self.shut_write = False
self.buf = []
self.peername = peername or _try_peername(self.rsock)
def __del__(self):
log('%r: deleting\n' % self)
if self.exc:
log('%r: error was: %r\n' % (self, self.exc))
def __repr__(self):
return 'SW:%s' % (self.peername,)
def seterr(self, e):
if not self.exc:
self.exc = e
def noread(self):
if not self.shut_read:
log('%r: done reading\n' % self)
self.shut_read = True
#self.rsock.shutdown(socket.SHUT_RD) # doesn't do anything anyway
def nowrite(self):
if not self.shut_write:
log('%r: done writing\n' % self)
self.shut_write = True
try:
self.wsock.shutdown(socket.SHUT_WR)
except socket.error, e:
self.seterr(e)
def uwrite(self, buf):
self.wsock.setblocking(False)
try:
return _nb_clean(os.write, self.wsock.fileno(), buf)
except OSError, e:
# unexpected error... stream is dead
self.seterr(e)
self.nowrite()
self.noread()
return 0
def write(self, buf):
assert(buf)
return self.uwrite(buf)
def uread(self):
if self.shut_read:
return
self.rsock.setblocking(False)
try:
return _nb_clean(os.read, self.rsock.fileno(), 65536)
except OSError, e:
self.seterr(e)
return '' # unexpected error... we'll call it EOF
def fill(self):
if self.buf:
return
rb = self.uread()
if rb:
self.buf.append(rb)
if rb == '': # empty string means EOF; None means temporarily empty
self.noread()
def copy_to(self, outwrap):
if self.buf and self.buf[0]:
wrote = outwrap.write(self.buf[0])
self.buf[0] = self.buf[0][wrote:]
while self.buf and not self.buf[0]:
self.buf[0:1] = []
if not self.buf and self.shut_read:
outwrap.nowrite()
class Handler:
def __init__(self, socks = None, callback = None):
self.ok = True
self.socks = set(socks or [])
if callback:
self.callback = callback
def pre_select(self, r, w, x):
r |= self.socks
def callback(self):
log('--no callback defined-- %r\n' % self)
(r,w,x) = select.select(self.socks, [], [], 0)
for s in r:
v = s.recv(4096)
if not v:
log('--closed-- %r\n' % self)
self.socks = set()
self.ok = False
class Proxy(Handler):
def __init__(self, wrap1, wrap2):
Handler.__init__(self, [wrap1.rsock, wrap1.wsock,
wrap2.rsock, wrap2.wsock])
self.wrap1 = wrap1
self.wrap2 = wrap2
def pre_select(self, r, w, x):
if self.wrap1.buf:
w.add(self.wrap2.wsock)
elif not self.wrap1.shut_read:
r.add(self.wrap1.rsock)
if self.wrap2.buf:
w.add(self.wrap1.wsock)
elif not self.wrap2.shut_read:
r.add(self.wrap2.rsock)
def callback(self):
self.wrap1.fill()
self.wrap2.fill()
self.wrap1.copy_to(self.wrap2)
self.wrap2.copy_to(self.wrap1)
if (self.wrap1.shut_read and self.wrap2.shut_read and
not self.wrap1.buf and not self.wrap2.buf):
self.ok = False
class Mux(Handler):
def __init__(self, rsock, wsock):
Handler.__init__(self, [rsock, wsock])
self.rsock = rsock
self.wsock = wsock
self.new_channel = None
self.channels = {}
self.chani = 0
self.want = 0
self.inbuf = ''
self.outbuf = []
self.send(0, CMD_PING, 'chicken')
def next_channel(self):
# channel 0 is special, so we never allocate it
for timeout in xrange(1024):
self.chani += 1
if self.chani > 65535:
self.chani = 1
if not self.channels.get(self.chani):
return self.chani
def send(self, channel, cmd, data):
data = str(data)
assert(len(data) <= 65535)
p = struct.pack('!ccHHH', 'S', 'S', channel, cmd, len(data)) + data
self.outbuf.append(p)
log(' > channel=%d cmd=%s len=%d\n'
% (channel, cmd_to_name[cmd], len(data)))
#log('Mux: send queue is %d/%d\n'
# % (len(self.outbuf), sum(len(b) for b in self.outbuf)))
def got_packet(self, channel, cmd, data):
log('< channel=%d cmd=%s len=%d\n'
% (channel, cmd_to_name[cmd], len(data)))
if cmd == CMD_PING:
self.send(0, CMD_PONG, data)
elif cmd == CMD_PONG:
log('received PING response\n')
elif cmd == CMD_EXIT:
self.ok = False
elif cmd == CMD_CONNECT:
assert(not self.channels.get(channel))
if self.new_channel:
self.new_channel(channel, data)
else:
callback = self.channels[channel]
callback(cmd, data)
def flush(self):
self.wsock.setblocking(False)
if self.outbuf and self.outbuf[0]:
wrote = _nb_clean(os.write, self.wsock.fileno(), self.outbuf[0])
if wrote:
self.outbuf[0] = self.outbuf[0][wrote:]
while self.outbuf and not self.outbuf[0]:
self.outbuf[0:1] = []
def fill(self):
self.rsock.setblocking(False)
b = _nb_clean(os.read, self.rsock.fileno(), 32768)
#log('<<< %r\n' % b)
if b == '': # EOF
self.ok = False
if b:
self.inbuf += b
def handle(self):
self.fill()
#log('inbuf is: (%d,%d) %r\n'
# % (self.want, len(self.inbuf), self.inbuf))
while 1:
if len(self.inbuf) >= (self.want or HDR_LEN):
(s1,s2,channel,cmd,datalen) = \
struct.unpack('!ccHHH', self.inbuf[:HDR_LEN])
assert(s1 == 'S')
assert(s2 == 'S')
self.want = datalen + HDR_LEN
if self.want and len(self.inbuf) >= self.want:
data = self.inbuf[HDR_LEN:self.want]
self.inbuf = self.inbuf[self.want:]
self.want = 0
self.got_packet(channel, cmd, data)
else:
break
def pre_select(self, r, w, x):
r.add(self.rsock)
if self.outbuf:
w.add(self.wsock)
def callback(self):
(r,w,x) = select.select([self.rsock], [self.wsock], [], 0)
if self.rsock in r:
self.handle()
if self.outbuf and self.wsock in w:
self.flush()
class MuxWrapper(SockWrapper):
def __init__(self, mux, channel):
SockWrapper.__init__(self, mux.rsock, mux.wsock)
self.mux = mux
self.channel = channel
self.mux.channels[channel] = self.got_packet
log('new channel: %d\n' % channel)
def __del__(self):
self.nowrite()
SockWrapper.__del__(self)
def __repr__(self):
return 'SW%r:Mux#%d' % (self.peername,self.channel)
def noread(self):
if not self.shut_read:
self.shut_read = True
def nowrite(self):
if not self.shut_write:
self.shut_write = True
self.mux.send(self.channel, CMD_EOF, '')
def uwrite(self, buf):
if len(buf) > 65535:
buf = buf[:32768]
self.mux.send(self.channel, CMD_DATA, buf)
return len(buf)
def uread(self):
if self.shut_read:
return '' # EOF
else:
return None # no data available right now
def got_packet(self, cmd, data):
if cmd == CMD_CLOSE:
self.noread()
self.nowrite()
elif cmd == CMD_EOF:
self.noread()
elif cmd == CMD_DATA:
self.buf.append(data)
else:
raise Exception('unknown command %d (%d bytes)'
% (cmd, len(data)))
def connect_dst(ip, port):
log('Connecting to %s:%d\n' % (ip, port))
outsock = socket.socket()
outsock.setsockopt(socket.SOL_IP, socket.IP_TTL, 42)
e = None
try:
outsock.connect((ip,port))
except socket.error, e:
if e.args[0] not in [errno.ECONNREFUSED]:
raise
sw = SockWrapper(outsock, outsock, peername = '%s:%d' % (ip,port))
if e:
sw.seterr(e)
return sw