gajim-plural/src/common/socks5.py

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# -*- coding:utf-8 -*-
## src/common/socks5.py
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##
## Copyright (C) 2005-2006 Dimitur Kirov <dkirov AT gmail.com>
## Nikos Kouremenos <kourem AT gmail.com>
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## Copyright (C) 2005-2012 Yann Leboulanger <asterix AT lagaule.org>
## Copyright (C) 2006-2008 Jean-Marie Traissard <jim AT lapin.org>
## Copyright (C) 2008 Jonathan Schleifer <js-gajim AT webkeks.org>
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##
## This file is part of Gajim.
##
## Gajim is free software; you can redistribute it and/or modify
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## it under the terms of the GNU General Public License as published
## by the Free Software Foundation; version 3 only.
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##
## Gajim is distributed in the hope that it will be useful,
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## but WITHOUT ANY WARRANTY; without even the implied warranty of
## MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
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## GNU General Public License for more details.
##
## You should have received a copy of the GNU General Public License
## along with Gajim. If not, see <http://www.gnu.org/licenses/>.
##
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import socket
import struct
import hashlib
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import os
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from errno import EWOULDBLOCK
from errno import ENOBUFS
from errno import EINTR
from errno import EISCONN
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from errno import EINPROGRESS
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from errno import EAFNOSUPPORT
from xmpp.idlequeue import IdleObject
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from file_props import FilesProp
import jingle_xtls
if jingle_xtls.PYOPENSSL_PRESENT:
import OpenSSL
import logging
log = logging.getLogger('gajim.c.socks5')
MAX_BUFF_LEN = 65536
# after foo seconds without activity label transfer as 'stalled'
STALLED_TIMEOUT = 10
# after foo seconds of waiting to connect, disconnect from
# streamhost and try next one
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CONNECT_TIMEOUT = 30
# nothing received for the last foo seconds - stop transfer
# if it is 0, then transfer will wait forever
READ_TIMEOUT = 180
# nothing sent for the last foo seconds - stop transfer
# if it is 0, then transfer will wait forever
SEND_TIMEOUT = 180
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class SocksQueue:
"""
Queue for all file requests objects
"""
def __init__(self, idlequeue, complete_transfer_cb=None,
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progress_transfer_cb=None, error_cb=None):
self.connected = 0
self.readers = {}
self.senders = {}
self.idx = 1
self.listener = None
self.sha_handlers = {}
# handle all io events in the global idle queue, instead of processing
# each foo seconds
self.idlequeue = idlequeue
self.complete_transfer_cb = complete_transfer_cb
self.progress_transfer_cb = progress_transfer_cb
self.error_cb = error_cb
self.on_success = {} # {id: cb}
self.on_failure = {} # {id: cb}
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def start_listener(self, port, sha_str, sha_handler, file_props, fingerprint=None,
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type='sender'):
"""
Start waiting for incomming connections on (host, port) and do a socks5
authentication using sid for generated SHA
"""
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sid = file_props.sid
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self.type = type # It says whether we are sending or receiving
self.sha_handlers[sha_str] = (sha_handler, sid)
if self.listener is None or self.listener.connections == []:
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self.listener = Socks5Listener(self.idlequeue, port, file_props,
fingerprint=fingerprint)
self.listener.queue = self
self.listener.bind()
else:
# There is already a listener, we update the file's information
# on the new connection.
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self.listener.file_props = file_props
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self.connected += 1
return self.listener
def send_success_reply(self, file_props, streamhost):
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if file_props.streamhost_used == True:
for proxy in file_props.proxyhosts:
if proxy['host'] == streamhost['host']:
self.on_success[file_props.sid](proxy)
return 1
return 0
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for host in file_props.streamhosts:
if streamhost['state'] == 1:
return 0
streamhost['state'] = 1
self.on_success[file_props.sid](streamhost)
return 1
def connect_to_hosts(self, account, sid, on_success=None, on_failure=None,
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fingerprint=None, receiving=True):
self.on_success[sid] = on_success
self.on_failure[sid] = on_failure
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file_props = FilesProp.getFileProp(account, sid)
file_props.failure_cb = on_failure
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if not file_props.streamhosts:
on_failure(file_props.sid)
# add streamhosts to the queue
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for streamhost in file_props.streamhosts:
if 'type' in streamhost and streamhost['type'] == 'proxy':
fp = None
else:
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fp = fingerprint
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if receiving:
self.type = 'receiver'
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socks5obj = Socks5ReceiverClient(self.idlequeue, streamhost, sid,
file_props, fingerprint=fp)
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self.add_sockobj(account, socks5obj)
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else:
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if file_props.sha_str:
idx = file_props.sha_str
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else:
idx = self.idx
self.idx = self.idx + 1
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self.type = 'sender'
if 'type' in streamhost and streamhost['type'] == 'proxy':
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file_props.is_a_proxy = True
file_props.proxy_sender = streamhost['target']
file_props.proxy_receiver = streamhost['initiator']
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socks5obj = Socks5SenderClient(self.idlequeue, idx,
self, _sock=None,host=str(streamhost['host']),
port=int(streamhost['port']),fingerprint=fp,
connected=False, file_props=file_props)
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socks5obj.streamhost = streamhost
self.add_sockobj(account, socks5obj, type='sender')
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streamhost['idx'] = socks5obj.queue_idx
def _socket_connected(self, streamhost, file_props):
"""
Called when there is a host connected to one of the senders's
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streamhosts. Stop other attempts for connections
"""
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for host in file_props.streamhosts:
if host != streamhost and 'idx' in host:
if host['state'] == 1:
# remove current
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if self.type == 'sender':
self.remove_sender(streamhost['idx'], False)
else:
self.remove_receiver(streamhost['idx'])
return
# set state -2, meaning that this streamhost is stopped,
# but it may be connectected later
if host['state'] >= 0:
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if self.type == 'sender':
self.remove_sender(host['idx'], False)
else:
self.remove_receiver(host['idx'])
host['idx'] = -1
host['state'] = -2
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def reconnect_client(self, client, streamhost):
"""
Check the state of all streamhosts and if all has failed, then emit
connection failure cb. If there are some which are still not connected
try to establish connection to one of them
"""
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self.idlequeue.remove_timeout(client.fd)
self.idlequeue.unplug_idle(client.fd)
file_props = client.file_props
streamhost['state'] = -1
# boolean, indicates that there are hosts, which are not tested yet
unused_hosts = False
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for host in file_props.streamhosts:
if 'idx' in host:
if host['state'] >= 0:
return
elif host['state'] == -2:
unused_hosts = True
if unused_hosts:
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for host in file_props.streamhosts:
if host['state'] == -2:
host['state'] = 0
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# FIXME: make the sender reconnect also
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client = Socks5ReceiverClient(self.idlequeue, host, host['sid'],
file_props)
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self.add_sockobj(client.account, client)
host['idx'] = client.queue_idx
# we still have chances to connect
return
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if file_props.received_len == 0:
# there are no other streamhosts and transfer hasn't started
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self._connection_refused(streamhost, file_props, client.queue_idx)
else:
# transfer stopped, it is most likely stopped from sender
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client.disconnect()
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file_props.error = -1
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self.process_result(-1, client)
def _connection_refused(self, streamhost, file_props, idx):
"""
Called when we loose connection during transfer
"""
if file_props is None:
return
streamhost['state'] = -1
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# FIXME: should only the receiver be remove? what if we are sending?
self.remove_receiver(idx, False)
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for host in file_props.streamhosts:
if host['state'] != -1:
return
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self.readers = {}
# failure_cb exists - this means that it has never been called
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if file_props.failure_cb:
file_props.failure_cb(file_props.sid)
file_props.failure_cb = None
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def add_sockobj(self, account, sockobj, type='receiver'):
"""
Add new file a sockobj type receiver or sender, and use it to connect
to server
"""
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if type == 'receiver':
self._add(sockobj, self.readers, sockobj.file_props, self.idx)
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else:
self._add(sockobj, self.senders, sockobj.file_props, self.idx)
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sockobj.queue_idx = self.idx
sockobj.queue = self
sockobj.account = account
self.idx += 1
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result = sockobj.connect()
self.connected += 1
if result is not None:
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result = sockobj.main()
self.process_result(result, sockobj)
return 1
return None
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def _add(self, sockobj, sockobjects, file_props, hash_):
'''
Adds the sockobj to the current list of sockobjects
'''
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keys = (file_props.sid, file_props.name, hash_)
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sockobjects[keys] = sockobj
def result_sha(self, sha_str, idx):
if sha_str in self.sha_handlers:
props = self.sha_handlers[sha_str]
props[0](props[1], idx)
def activate_proxy(self, idx):
if not self.isHashInSockObjs(self.readers, idx):
return
for key in self.readers.keys():
if idx in key:
reader = self.readers[key]
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if reader.file_props.type_ != 's':
return
if reader.state != 5:
return
reader.state = 6
if reader.connected:
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reader.file_props.error = 0
reader.file_props.disconnect_cb = reader.disconnect
reader.file_props.started = True
reader.file_props.completed = False
reader.file_props.paused = False
reader.file_props.stalled = False
reader.file_props.elapsed_time = 0
reader.file_props.last_time = self.idlequeue.current_time()
reader.file_props.received_len = 0
reader.pauses = 0
# start sending file to proxy
self.idlequeue.set_read_timeout(reader.fd, STALLED_TIMEOUT)
self.idlequeue.plug_idle(reader, True, False)
result = reader.write_next()
self.process_result(result, reader)
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def send_file(self, file_props, account, mode):
for key in self.senders.keys():
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if self.senders == {}:
# Python acts very weird with this. When there is no keys
# in the dictionary It says that it has a key.
# Maybe it is my machine. Without this there is a KeyError
# traceback.
return
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if file_props.name in key and file_props.sid in key \
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and self.senders[key].mode == mode:
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log.info("socks5: sending file")
sender = self.senders[key]
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file_props.streamhost_used = True
sender.account = account
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sender.file_props = file_props
result = sender.send_file()
self.process_result(result, sender)
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def remove_file_props(self, account, sid):
fp = FilesProp.getFileProp(account, sid)
if not fp:
log.warning('trying to remove a file props that doesnt exist ' +
'from account ' + str(account) + ' and sid ' + str(sid))
return
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if sid in self.on_success:
del self.on_success[fp.sid]
if sid in self.on_failure:
del self.on_failure[fp.sid]
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FilesProp.deleteFileProp(fp)
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if len(FilesProp.getFilePropByAccount(account)) == 0:
self.connected = 0
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def isHashInSockObjs(self, sockobjs, hash):
'''
It tells wether there is a particular hash in sockobjs or not
'''
for key in sockobjs:
if hash in key:
return True
return False
def on_connection_accepted(self, sock, listener):
sock_hash = sock.__hash__()
if self.type == 'sender' and \
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not self.isHashInSockObjs(self.senders, sock_hash):
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sockobj = Socks5SenderServer(self.idlequeue, sock_hash, self,
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sock[0], sock[1][0], sock[1][1], fingerprint='server',
file_props=listener.file_props)
self._add(sockobj, self.senders, listener.file_props, sock_hash)
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# Start waiting for data
self.idlequeue.plug_idle(sockobj, False, True)
self.connected += 1
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if self.type == 'receiver' and \
not self.isHashInSockObjs(self.readers, sock_hash):
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sh = {}
sh['host'] = sock[1][0]
sh['port'] = sock[1][1]
sh['initiator'] = None
sh['target'] = None
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sockobj = Socks5ReceiverServer(idlequeue=self.idlequeue,
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streamhost=sh,sid=None, file_props=listener.file_props,
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fingerprint='server')
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self._add(sockobj, self.readers, listener.file_props, sock_hash)
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sockobj.set_sock(sock[0])
sockobj.queue = self
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self.connected += 1
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def process_result(self, result, actor):
"""
Take appropriate actions upon the result:
[ 0, - 1 ] complete/end transfer
[ > 0 ] send progress message
[ None ] do nothing
"""
if result is None:
return
if result in (0, -1) and self.complete_transfer_cb is not None:
account = actor.account
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if account is None and actor.file_props.tt_account:
account = actor.file_props.tt_account
self.complete_transfer_cb(account, actor.file_props)
elif self.progress_transfer_cb is not None:
self.progress_transfer_cb(actor.account, actor.file_props)
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def remove_receiver(self, idx, do_disconnect=True, remove_all=False):
"""
Remove reciver from the list and decrease the number of active
connections with 1
"""
if idx != -1:
for key in self.readers.keys():
if idx in key:
reader = self.readers[key]
self.idlequeue.unplug_idle(reader.fd)
self.idlequeue.remove_timeout(reader.fd)
if do_disconnect:
reader.disconnect()
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if not remove_all:
break
else:
if reader.streamhost is not None:
reader.streamhost['state'] = -1
del(self.readers[key])
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if not remove_all:
break
def remove_sender(self, idx, do_disconnect=True, remove_all=False):
"""
Remove sender from the list of senders and decrease the number of active
connections with 1
"""
if idx != -1:
for key in self.senders.keys():
if idx in key:
sender = self.senders[key]
if do_disconnect:
sender.disconnect()
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if not remove_all:
break
else:
self.idlequeue.unplug_idle(sender.fd)
self.idlequeue.remove_timeout(sender.fd)
del(self.senders[key])
if self.connected > 0:
self.connected -= 1
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if not remove_all:
break
if len(self.senders) == 0 and self.listener is not None:
self.listener.disconnect()
self.listener = None
self.connected -= 1
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class Socks5:
def __init__(self, idlequeue, host, port, initiator, target, sid):
if host is not None:
try:
self.host = host
self.ais = socket.getaddrinfo(host, port, socket.AF_UNSPEC,
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socket.SOCK_STREAM)
except socket.gaierror:
self.ais = None
self.idlequeue = idlequeue
self.fd = -1
self.port = port
self.initiator = initiator
self.target = target
self.sid = sid
self._sock = None
self.account = None
self.state = 0 # not connected
self.pauses = 0
self.size = 0
self.remaining_buff = ''
self.file = None
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self.connected = False
self.type = ''
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self.mode = ''
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def _is_connected(self):
if self.state < 5:
return False
return True
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def connect(self):
"""
Create the socket and plug it to the idlequeue
"""
if self.ais is None:
return None
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for ai in self.ais:
try:
self._sock = socket.socket(*ai[:3])
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if not self.fingerprint is None:
self._sock = OpenSSL.SSL.Connection(
jingle_xtls.get_context('client'), self._sock)
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# this will not block the GUI
self._sock.setblocking(False)
self._server = ai[4]
break
except socket.error, e:
if not isinstance(e, basestring) and e[0] == EINPROGRESS:
break
# for all other errors, we try other addresses
continue
self.fd = self._sock.fileno()
self.state = 0 # about to be connected
self.idlequeue.plug_idle(self, True, False)
self.do_connect()
self.idlequeue.set_read_timeout(self.fd, CONNECT_TIMEOUT)
return None
def do_connect(self):
try:
#self._sock.setblocking(True)
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self._sock.connect(self._server)
self._sock.setblocking(False)
self._send=self._sock.send
self._recv=self._sock.recv
except Exception, ee:
errnum = ee[0]
self.connect_timeout += 1
if errnum == 111 or self.connect_timeout > 1000:
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self.queue._connection_refused(self.streamhost, self.file_props,
self.queue_idx)
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self.connected = False
return None
# win32 needs this
elif errnum not in (10056, EISCONN) or self.state != 0:
return None
else: # socket is already connected
self._sock.setblocking(False)
self._send=self._sock.send
self._recv=self._sock.recv
self.buff = ''
self.connected = True
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self.file_props.connected = True
self.file_props.disconnect_cb = self.disconnect
self.file_props.paused = False
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self.state = 1 # connected
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# stop all others connections to sender's streamhosts
self.queue._socket_connected(self.streamhost, self.file_props)
self.idlequeue.plug_idle(self, True, False)
return 1 # we are connected
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def read_timeout(self):
self.idlequeue.remove_timeout(self.fd)
if self.state > 5:
# no activity for foo seconds
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if self.file_props.stalled == False:
self.file_props.stalled = True
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self.queue.process_result(-1, self)
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if not self.file_props.received_len:
self.file_props.received_len = 0
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if SEND_TIMEOUT > 0:
self.idlequeue.set_read_timeout(self.fd, SEND_TIMEOUT)
else:
# stop transfer, there is no error code for this
self.pollend()
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else:
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if self.mode == 'client':
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self.queue.reconnect_client(self, self.streamhost)
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def open_file_for_reading(self):
if self.file is None:
try:
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self.file = open(self.file_props.file_name, 'rb')
if self.file_props.offset:
self.size = self.file_props.offset
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self.file.seek(self.size)
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self.file_props.received_len = self.size
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except IOError, e:
self.close_file()
raise IOError, e
def close_file(self):
if self.file:
if not self.file.closed:
try:
self.file.close()
except Exception:
pass
self.file = None
def get_fd(self):
"""
Test if file is already open and return its fd, or just open the file and
return the fd
"""
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if self.file_props.fd:
fd = self.file_props.fd
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else:
offset = 0
opt = 'wb'
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if self.file_props.offset:
offset = self.file_props.offset
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opt = 'ab'
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fd = open(self.file_props.file_name, opt)
self.file_props.fd = fd
self.file_props.elapsed_time = 0
self.file_props.last_time = self.idlequeue.current_time()
self.file_props.received_len = offset
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return fd
def rem_fd(self, fd):
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if self.file_props.fd:
self.file_props.fd = None
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try:
fd.close()
except Exception:
pass
def receive(self):
"""
Read small chunks of data. Call owner's disconnected() method if
appropriate
"""
received = ''
try:
add = self._recv(64)
except (OpenSSL.SSL.WantReadError, OpenSSL.SSL.WantWriteError,
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OpenSSL.SSL.WantX509LookupError), e:
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log.info('SSL rehandshake request : ' + repr(e))
raise e
except Exception:
add = ''
received += add
if len(add) == 0:
self.disconnect()
return add
def send_raw(self, raw_data):
"""
Write raw outgoing data
"""
try:
self._send(raw_data)
except (OpenSSL.SSL.WantReadError, OpenSSL.SSL.WantWriteError,
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OpenSSL.SSL.WantX509LookupError), e:
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log.info('SSL rehandshake request :' + repr(e))
raise e
except Exception, e:
self.disconnect()
return len(raw_data)
def write_next(self):
if self.remaining_buff != '':
buff = self.remaining_buff
self.remaining_buff = ''
else:
try:
self.open_file_for_reading()
except IOError, e:
self.state = 8 # end connection
self.disconnect()
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self.file_props.error = -7 # unable to read from file
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return -1
buff = self.file.read(MAX_BUFF_LEN)
if len(buff) > 0:
lenn = 0
try:
lenn = self._send(buff)
except (OpenSSL.SSL.WantReadError, OpenSSL.SSL.WantWriteError,
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OpenSSL.SSL.WantX509LookupError), e:
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log.info('SSL rehandshake request :' + repr(e))
raise e
except Exception, e:
if e.args[0] not in (EINTR, ENOBUFS, EWOULDBLOCK):
# peer stopped reading
self.state = 8 # end connection
self.disconnect()
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self.file_props.error = -1
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return -1
self.size += lenn
current_time = self.idlequeue.current_time()
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self.file_props.elapsed_time += current_time - \
self.file_props.last_time
self.file_props.last_time = current_time
self.file_props.received_len = self.size
if self.size >= int(self.file_props.size):
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self.state = 8 # end connection
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self.file_props.error = 0
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self.disconnect()
return -1
if lenn != len(buff):
self.remaining_buff = buff[lenn:]
else:
self.remaining_buff = ''
self.state = 7 # continue to write in the socket
if lenn == 0:
return None
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self.file_props.stalled = False
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return lenn
else:
self.state = 8 # end connection
self.disconnect()
return -1
def get_file_contents(self, timeout):
"""
Read file contents from socket and write them to file
"""
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if self.file_props is None or not self.file_props.file_name:
self.file_props.error = -2
return None
fd = None
if self.remaining_buff != '':
try:
fd = self.get_fd()
except IOError, e:
self.disconnect(False)
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self.file_props.error = -6 # file system error
return 0
fd.write(self.remaining_buff)
lenn = len(self.remaining_buff)
current_time = self.idlequeue.current_time()
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self.file_props.elapsed_time += current_time - \
self.file_props.last_time
self.file_props.last_time = current_time
self.file_props.received_len += lenn
self.remaining_buff = ''
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if self.file_props.received_len == int(self.file_props.size):
self.rem_fd(fd)
self.disconnect()
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self.file_props.error = 0
self.file_props.completed = True
return 0
else:
try:
fd = self.get_fd()
except IOError, e:
self.disconnect(False)
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self.file_props.error = -6 # file system error
return 0
try:
buff = self._recv(MAX_BUFF_LEN)
except (OpenSSL.SSL.WantReadError, OpenSSL.SSL.WantWriteError,
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OpenSSL.SSL.WantX509LookupError), e:
log.info('SSL rehandshake request :' + repr(e))
raise e
except Exception:
buff = ''
current_time = self.idlequeue.current_time()
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self.file_props.elapsed_time += current_time - \
self.file_props.last_time
self.file_props.last_time = current_time
self.file_props.received_len += len(buff)
if len(buff) == 0:
# Transfer stopped somehow:
# reset, paused or network error
self.rem_fd(fd)
self.disconnect()
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self.file_props.error = -1
return 0
try:
fd.write(buff)
except IOError, e:
self.rem_fd(fd)
self.disconnect()
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self.file_props.error = -6 # file system error
return 0
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if self.file_props.received_len >= int(self.file_props.size):
# transfer completed
self.rem_fd(fd)
self.disconnect()
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self.file_props.error = 0
self.file_props.completed = True
return 0
# return number of read bytes. It can be used in progressbar
if fd is not None:
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self.file_props.stalled = False
if fd is None and self.file_props.stalled is False:
return None
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if self.file_props.received_len:
if self.file_props.received_len != 0:
return self.file_props.received_len
return None
def disconnect(self):
"""
Close open descriptors and remover socket descr. from idleque
"""
# be sure that we don't leave open file
self.close_file()
self.idlequeue.remove_timeout(self.fd)
self.idlequeue.unplug_idle(self.fd)
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if self.mode == 'server':
try:
self.queue.listener.connections.remove(self._sock)
except ValueError:
pass # Not in list
if self.queue.listener.connections == []:
self.queue.listener.disconnect()
try:
self._sock.shutdown(socket.SHUT_RDWR)
self._sock.close()
except Exception:
# socket is already closed
pass
self.connected = False
self.fd = -1
self.state = -1
def _get_auth_buff(self):
"""
Message, that we support 1 one auth mechanism: the 'no auth' mechanism
"""
return struct.pack('!BBB', 0x05, 0x01, 0x00)
def _parse_auth_buff(self, buff):
"""
Parse the initial message and create a list of auth mechanisms
"""
auth_mechanisms = []
try:
num_auth = struct.unpack('!xB', buff[:2])[0]
for i in xrange(num_auth):
mechanism, = struct.unpack('!B', buff[1 + i])
auth_mechanisms.append(mechanism)
except Exception:
return None
return auth_mechanisms
def _get_auth_response(self):
"""
Socks version(5), number of extra auth methods (we send 0x00 - no auth)
"""
return struct.pack('!BB', 0x05, 0x00)
def _get_connect_buff(self):
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"""
Connect request by domain name
"""
buff = struct.pack('!BBBBB%dsBB' % len(self.host),
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0x05, 0x01, 0x00, 0x03, len(self.host), self.host, self.port >> 8,
self.port & 0xff)
return buff
def _get_request_buff(self, msg, command = 0x01):
"""
Connect request by domain name, sid sha, instead of domain name (jep
0096)
"""
buff = struct.pack('!BBBBB%dsBB' % len(msg),
0x05, command, 0x00, 0x03, len(msg), msg, 0, 0)
return buff
def _parse_request_buff(self, buff):
try: # don't trust on what comes from the outside
req_type, host_type, = struct.unpack('!xBxB', buff[:4])
if host_type == 0x01:
host_arr = struct.unpack('!iiii', buff[4:8])
host, = '.'.join(str(s) for s in host_arr)
host_len = len(host)
elif host_type == 0x03:
host_len, = struct.unpack('!B', buff[4])
host, = struct.unpack('!%ds' % host_len, buff[5:5 + host_len])
portlen = len(buff[host_len + 5:])
if portlen == 1:
port, = struct.unpack('!B', buff[host_len + 5])
elif portlen == 2:
port, = struct.unpack('!H', buff[host_len + 5:])
# file data, comes with auth message (Gaim bug)
else:
port, = struct.unpack('!H', buff[host_len + 5: host_len + 7])
self.remaining_buff = buff[host_len + 7:]
except Exception:
return (None, None, None)
return (req_type, host, port)
def read_connect(self):
"""
Connect response: version, auth method
"""
try:
buff = self._recv()
except (SSL.WantReadError, SSL.WantWriteError,
SSL.WantX509LookupError), e:
log.info("SSL rehandshake request : " + repr(e))
raise e
try:
version, method = struct.unpack('!BB', buff)
except Exception:
version, method = None, None
if version != 0x05 or method == 0xff:
self.disconnect()
def continue_paused_transfer(self):
if self.state < 5:
return
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if self.file_props.type_ == 'r':
self.idlequeue.plug_idle(self, False, True)
else:
self.idlequeue.plug_idle(self, True, False)
def _get_sha1_auth(self):
"""
Get sha of sid + Initiator jid + Target jid
"""
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if self.file_props.is_a_proxy:
self.file_props.is_a_proxy = None # Is this necesary?
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return hashlib.sha1('%s%s%s' % (self.sid,
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self.file_props.proxy_sender,
self.file_props.proxy_receiver)).hexdigest()
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return hashlib.sha1('%s%s%s' % (self.sid, self.initiator, self.target)).\
hexdigest()
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class Socks5Sender(IdleObject):
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"""
Class for sending file to socket over socks5
"""
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def __init__(self, idlequeue, sock_hash, parent, _sock, host=None,
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port=None, fingerprint = None, connected=True, file_props={}):
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self.fingerprint = fingerprint
self.queue_idx = sock_hash
self.queue = parent
self.file_props = file_props
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self.proxy = False
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self._sock = _sock
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if _sock is not None:
if self.fingerprint is not None:
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self._sock = OpenSSL.SSL.Connection(
jingle_xtls.get_context('server'), _sock)
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else:
self._sock.setblocking(False)
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self.fd = _sock.fileno()
self._recv = _sock.recv
self._send = _sock.send
self.connected = connected
self.state = 1 # waiting for first bytes
self.connect_timeout = 0
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self.file_props.error = 0
self.file_props.disconnect_cb = self.disconnect
self.file_props.started = True
self.file_props.completed = False
self.file_props.paused = False
self.file_props.continue_cb = self.continue_paused_transfer
self.file_props.stalled = False
self.file_props.connected = True
self.file_props.elapsed_time = 0
self.file_props.last_time = self.idlequeue.current_time()
self.file_props.received_len = 0
self.type = 'sender'
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def start_transfer(self):
"""
Send the file
"""
return self.write_next()
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def set_connection_sock(self, _sock):
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self._sock = _sock
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if self.fingerprint is not None:
self._sock = OpenSSL.SSL.Connection(
jingle_xtls.get_context('client'), self._sock)
else:
self._sock.setblocking(False)
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self.fd = _sock.fileno()
self._recv = _sock.recv
self._send = _sock.send
self.connected = True
self.state = 1 # waiting for first bytes
self.file_props = None
# start waiting for data
self.idlequeue.plug_idle(self, False, True)
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def send_file(self):
"""
Start sending the file over verified connection
"""
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self.pauses = 0
self.state = 7
# plug for writing
self.idlequeue.plug_idle(self, True, False)
return self.write_next() # initial for nl byte
def disconnect(self, cb=True):
"""
Close the socket
"""
# close connection and remove us from the queue
Socks5.disconnect(self)
if self.file_props is not None:
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self.file_props.connected = False
self.file_props.disconnect_cb = None
if self.queue is not None:
self.queue.remove_sender(self.queue_idx, False)
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class Socks5Receiver(IdleObject):
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def __init__(self, idlequeue, streamhost, sid, file_props = None,
fingerprint=None):
"""
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fingerprint: fingerprint of certificates we shall use, set to None if
TLS connection not desired
"""
self.queue_idx = -1
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self.streamhost = streamhost
self.queue = None
self.fingerprint = fingerprint
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self.connect_timeout = 0
self.connected = False
self.pauses = 0
self.file_props = file_props
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self.file_props.disconnect_cb = self.disconnect
self.file_props.error = 0
self.file_props.started = True
self.file_props.completed = False
self.file_props.paused = False
self.file_props.continue_cb = self.continue_paused_transfer
self.file_props.stalled = False
self.file_props.received_len = 0
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def receive_file(self):
"""
Start receiving the file over verified connection
"""
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if self.file_props.started:
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return
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self.file_props.error = 0
self.file_props.disconnect_cb = self.disconnect
self.file_props.started = True
self.file_props.completed = False
self.file_props.paused = False
self.file_props.continue_cb = self.continue_paused_transfer
self.file_props.stalled = False
self.file_props.connected = True
self.file_props.elapsed_time = 0
self.file_props.last_time = self.idlequeue.current_time()
self.file_props.received_len = 0
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self.pauses = 0
self.state = 7
# plug for reading
self.idlequeue.plug_idle(self, False, True)
return self.get_file_contents(0) # initial for nl byte
def start_transfer(self):
"""
Receive the file
"""
return self.get_file_contents(0)
def set_sock(self, _sock):
self._sock = _sock
self._sock.setblocking(False)
self.fd = _sock.fileno()
self._recv = _sock.recv
self._send = _sock.send
self.connected = True
self.state = 1 # waiting for first bytes
# start waiting for data
self.idlequeue.plug_idle(self, False, True)
def disconnect(self, cb=True):
"""
Close the socket. Remove self from queue if cb is True
"""
# close connection
Socks5.disconnect(self)
if cb is True:
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self.file_props.disconnect_cb = None
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if self.queue is not None:
self.queue.remove_receiver(self.queue_idx, False)
class Socks5Server(Socks5):
def __init__(self, idlequeue, host, port, initiator, target, sid):
Socks5.__init__(self, idlequeue, host, port, initiator, target, sid)
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self.mode = 'server'
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def main(self):
"""
Initial requests for verifying the connection
"""
if self.state == 1: # initial read
buff = self.receive()
if not self.connected:
return -1
mechs = self._parse_auth_buff(buff)
if mechs is None:
return -1 # invalid auth methods received
elif self.state == 3: # get next request
buff = self.receive()
req_type, self.sha_msg = self._parse_request_buff(buff)[:2]
if req_type != 0x01:
return -1 # request is not of type 'connect'
self.state += 1 # go to the next step
# unplug & plug for writing
self.idlequeue.plug_idle(self, True, False)
return None
def pollin(self):
self.idlequeue.remove_timeout(self.fd)
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if self.connected:
try:
if self.state < 5:
result = self.main()
if self.state == 4:
self.queue.result_sha(self.sha_msg, self.queue_idx)
if result == -1:
self.disconnect()
elif self.state == 5:
self.state = 7
if self.type == 'sender':
# We wait for the end of the negotiation to
# send the file
self.idlequeue.plug_idle(self, False, False)
else:
# We plug for reading
self.idlequeue.plug_idle(self, False, True)
return
elif self.state == 7:
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if self.file_props.paused:
self.file_props.continue_cb = self.continue_paused_transfer
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self.idlequeue.plug_idle(self, False, False)
return
self.idlequeue.set_read_timeout(self.fd, STALLED_TIMEOUT)
result = self.start_transfer() # send
self.queue.process_result(result, self)
except (OpenSSL.SSL.WantReadError, OpenSSL.SSL.WantWriteError,
OpenSSL.SSL.WantX509LookupError), e:
log.info('caught SSL exception, ignored')
else:
self.disconnect()
def pollend(self):
self.state = 8 # end connection
self.disconnect()
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self.file_props.error = -1
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self.queue.process_result(-1, self)
def pollout(self):
if not self.connected:
self.disconnect()
return
self.idlequeue.remove_timeout(self.fd)
if self.state == 2: # send reply with desired auth type
self.send_raw(self._get_auth_response())
elif self.state == 4: # send positive response to the 'connect'
self.send_raw(self._get_request_buff(self.sha_msg, 0x00))
elif self.state == 7:
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if self.file_props.paused:
self.file_props.continue_cb = self.continue_paused_transfer
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self.idlequeue.plug_idle(self, False, False)
return
result = self.start_transfer() # send
self.queue.process_result(result, self)
if result is None or result <= 0:
self.disconnect()
return
self.idlequeue.set_read_timeout(self.fd, STALLED_TIMEOUT)
elif self.state == 8:
self.disconnect()
return
else:
self.disconnect()
if self.state < 5:
self.state += 1
# unplug and plug this time for reading
self.idlequeue.plug_idle(self, False, True)
class Socks5Client(Socks5):
def __init__(self, idlequeue, host, port, initiator, target, sid):
Socks5.__init__(self, idlequeue, host, port, initiator, target, sid)
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self.mode = 'client'
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def main(self, timeout=0):
"""
Begin negotiation. on success 'address' != 0
"""
result = 1
buff = self.receive()
if buff == '':
# end connection
self.pollend()
return
if self.state == 2: # read auth response
if buff is None or len(buff) != 2:
return None
version, method = struct.unpack('!BB', buff[:2])
if version != 0x05 or method == 0xff:
self.disconnect()
elif self.state == 4: # get approve of our request
if buff is None:
return None
sub_buff = buff[:4]
if len(sub_buff) < 4:
return None
version, address_type = struct.unpack('!BxxB', buff[:4])
addrlen = 0
if address_type == 0x03:
addrlen = ord(buff[4])
address = struct.unpack('!%ds' % addrlen, buff[5:addrlen + 5])
portlen = len(buff[addrlen + 5:])
if portlen == 1:
port, = struct.unpack('!B', buff[addrlen + 5])
elif portlen == 2:
port, = struct.unpack('!H', buff[addrlen + 5:])
else: # Gaim bug :)
port, = struct.unpack('!H', buff[addrlen + 5:addrlen + 7])
self.remaining_buff = buff[addrlen + 7:]
self.state = 5 # for senders: init file_props and send '\n'
if self.queue.on_success:
result = self.queue.send_success_reply(self.file_props,
self.streamhost)
if self.type == 'sender' and self.proxy:
self.queue.process_result( self.send_file()
, self)
return
if result == 0:
self.state = 8
self.disconnect()
# for senders: init file_props
if result == 1 and self.state == 5:
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if self.file_props.type_ == 's':
self.file_props.error = 0
self.file_props.disconnect_cb = self.disconnect
self.file_props.started = True
self.file_props.completed = False
self.file_props.paused = False
self.file_props.stalled = False
self.file_props.elapsed_time = 0
self.file_props.last_time = self.idlequeue.current_time()
self.file_props.received_len = 0
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self.pauses = 0
# start sending file contents to socket
#self.idlequeue.set_read_timeout(self.fd, STALLED_TIMEOUT)
#self.idlequeue.plug_idle(self, True, False)
self.idlequeue.plug_idle(self, False, False)
else:
# receiving file contents from socket
self.idlequeue.plug_idle(self, False, True)
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self.file_props.continue_cb = self.continue_paused_transfer
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# we have set up the connection, next - retrieve file
self.state = 6
if self.state < 5:
self.idlequeue.plug_idle(self, True, False)
self.state += 1
return None
def pollin(self):
self.idlequeue.remove_timeout(self.fd)
if self.connected:
try:
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if self.file_props.paused:
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self.idlequeue.plug_idle(self, False, False)
return
if self.state < 5:
self.idlequeue.set_read_timeout(self.fd, CONNECT_TIMEOUT)
result = self.main(0)
self.queue.process_result(result, self)
elif self.state == 5: # wait for proxy reply
pass
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elif self.file_props.type_ == 'r':
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self.idlequeue.set_read_timeout(self.fd, STALLED_TIMEOUT)
result = self.start_transfer() # receive
self.queue.process_result(result, self)
except (OpenSSL.SSL.WantReadError, OpenSSL.SSL.WantWriteError,
OpenSSL.SSL.WantX509LookupError), e:
log.info('caught SSL exception, ignored')
return
else:
self.disconnect()
def pollout(self):
self.idlequeue.remove_timeout(self.fd)
try:
if self.state == 0:
self.do_connect()
return
elif self.state == 1: # send initially: version and auth types
self.send_raw(self._get_auth_buff())
elif self.state == 3: # send 'connect' request
self.send_raw(self._get_request_buff(self._get_sha1_auth()))
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elif self.file_props.type_ != 'r':
if self.file_props.paused:
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self.idlequeue.plug_idle(self, False, False)
return
result = self.start_transfer() # send
self.queue.process_result(result, self)
return
except (OpenSSL.SSL.WantReadError, OpenSSL.SSL.WantWriteError,
OpenSSL.SSL.WantX509LookupError), e:
log.info('caught SSL exception, ignored')
return
self.state += 1
# unplug and plug for reading
self.idlequeue.plug_idle(self, False, True)
self.idlequeue.set_read_timeout(self.fd, CONNECT_TIMEOUT)
def pollend(self):
if self.state >= 5:
# error during transfer
self.disconnect()
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self.file_props.error = -1
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self.queue.process_result(-1, self)
else:
self.queue.reconnect_client(self, self.streamhost)
class Socks5SenderClient(Socks5Client, Socks5Sender):
def __init__(self, idlequeue, sock_hash, parent,_sock, host=None,
port=None, fingerprint = None, connected=True, file_props={}):
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Socks5Client.__init__(self, idlequeue, host, port, None, None,
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file_props.sid)
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Socks5Sender.__init__(self,idlequeue, sock_hash, parent,_sock,
host, port, fingerprint , connected, file_props)
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class Socks5SenderServer(Socks5Server, Socks5Sender):
def __init__(self, idlequeue, sock_hash, parent,_sock, host=None,
port=None, fingerprint = None, connected=True, file_props={}):
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Socks5Server.__init__(self, idlequeue, host, port, None, None,
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file_props.sid)
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Socks5Sender.__init__(self,idlequeue, sock_hash, parent, _sock,
host, port, fingerprint , connected, file_props)
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class Socks5ReceiverClient(Socks5Client, Socks5Receiver):
def __init__(self, idlequeue, streamhost, sid, file_props = None,
fingerprint=None):
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Socks5Client.__init__(self, idlequeue, streamhost['host'],
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int(streamhost['port']), streamhost['initiator'],
streamhost['target'], sid)
Socks5Receiver.__init__(self, idlequeue, streamhost, sid, file_props,
fingerprint)
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class Socks5ReceiverServer(Socks5Server, Socks5Receiver):
def __init__(self, idlequeue, streamhost, sid, file_props = None,
fingerprint=None):
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Socks5Server.__init__(self, idlequeue, streamhost['host'],
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int(streamhost['port']), streamhost['initiator'],
streamhost['target'], sid)
Socks5Receiver.__init__(self, idlequeue, streamhost, sid, file_props,
fingerprint)
class Socks5Listener(IdleObject):
def __init__(self, idlequeue, port, fp, fingerprint=None):
"""
Handle all incomming connections on (0.0.0.0, port)
This class implements IdleObject, but we will expect
only pollin events though
fingerprint: fingerprint of certificates we shall use, set to None if
TLS connection not desired
"""
self.port = port
self.ais = socket.getaddrinfo(None, port, socket.AF_UNSPEC,
socket.SOCK_STREAM, socket.SOL_TCP, socket.AI_PASSIVE)
self.ais.sort(reverse=True) # Try IPv6 first
self.queue_idx = -1
self.idlequeue = idlequeue
self.queue = None
self.started = False
self._sock = None
self.fd = -1
self.fingerprint = fingerprint
self.file_props = fp
self.connections = []
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def bind(self):
for ai in self.ais:
# try the different possibilities (ipv6, ipv4, etc.)
try:
self._serv = socket.socket(*ai[:3])
if self.fingerprint is not None:
self._serv = OpenSSL.SSL.Connection(
jingle_xtls.get_context('server'), self._serv)
except socket.error, e:
if e.args[0] == EAFNOSUPPORT:
self.ai = None
continue
raise
self._serv.setsockopt(socket.SOL_SOCKET, socket.SO_REUSEADDR, 1)
self._serv.setsockopt(socket.SOL_SOCKET, socket.SO_KEEPALIVE, 1)
self._serv.setsockopt(socket.IPPROTO_TCP, socket.TCP_NODELAY, 1)
# Under windows Vista, we need that to listen on ipv6 AND ipv4
# Doesn't work under windows XP
if os.name == 'nt':
ver = os.sys.getwindowsversion()
if (ver[3], ver[0], ver[1]) == (2, 6, 0):
# 27 is socket.IPV6_V6ONLY under windows, but not defined ...
self._serv.setsockopt(socket.IPPROTO_IPV6, 27, 1)
# will fail when port as busy, or we don't have rights to bind
try:
self._serv.bind(ai[4])
f = ai[4]
self.ai = ai
break
except Exception:
self.ai = None
continue
if not self.ai:
log.error('unable to bind to port ' + str(self.port))
return None
self._serv.listen(socket.SOMAXCONN)
self._serv.setblocking(False)
self.fd = self._serv.fileno()
self.idlequeue.plug_idle(self, False, True)
self.started = True
def pollend(self):
"""
Called when we stop listening on (host, port)
"""
self.disconnect()
def pollin(self):
"""
Accept a new incomming connection and notify queue
"""
sock = self.accept_conn()
self.queue.on_connection_accepted(sock, self)
def disconnect(self):
"""
Free all resources, we are not listening anymore
"""
self.idlequeue.remove_timeout(self.fd)
self.idlequeue.unplug_idle(self.fd)
self.fd = -1
self.state = -1
self.started = False
try:
self._serv.close()
except Exception:
pass
def accept_conn(self):
"""
Accept a new incomming connection
"""
_sock = self._serv.accept()
_sock[0].setblocking(False)
self.connections.append(_sock[0])
return _sock
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