Python port of ShadowsocksR
You can not select more than 25 topics Topics must start with a letter or number, can include dashes ('-') and can be up to 35 characters long.

1503 lines
59 KiB

11 years ago
#!/usr/bin/python
# -*- coding: utf-8 -*-
#
# Copyright 2015 clowwindy
#
# Licensed under the Apache License, Version 2.0 (the "License"); you may
# not use this file except in compliance with the License. You may obtain
# a copy of the License at
11 years ago
#
# http://www.apache.org/licenses/LICENSE-2.0
11 years ago
#
# Unless required by applicable law or agreed to in writing, software
# distributed under the License is distributed on an "AS IS" BASIS, WITHOUT
# WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. See the
# License for the specific language governing permissions and limitations
# under the License.
11 years ago
# SOCKS5 UDP Request
# +----+------+------+----------+----------+----------+
# |RSV | FRAG | ATYP | DST.ADDR | DST.PORT | DATA |
# +----+------+------+----------+----------+----------+
# | 2 | 1 | 1 | Variable | 2 | Variable |
# +----+------+------+----------+----------+----------+
# SOCKS5 UDP Response
# +----+------+------+----------+----------+----------+
# |RSV | FRAG | ATYP | DST.ADDR | DST.PORT | DATA |
# +----+------+------+----------+----------+----------+
# | 2 | 1 | 1 | Variable | 2 | Variable |
# +----+------+------+----------+----------+----------+
# shadowsocks UDP Request (before encrypted)
# +------+----------+----------+----------+
# | ATYP | DST.ADDR | DST.PORT | DATA |
# +------+----------+----------+----------+
# | 1 | Variable | 2 | Variable |
# +------+----------+----------+----------+
# shadowsocks UDP Response (before encrypted)
# +------+----------+----------+----------+
# | ATYP | DST.ADDR | DST.PORT | DATA |
# +------+----------+----------+----------+
# | 1 | Variable | 2 | Variable |
# +------+----------+----------+----------+
# shadowsocks UDP Request and Response (after encrypted)
# +-------+--------------+
# | IV | PAYLOAD |
# +-------+--------------+
# | Fixed | Variable |
# +-------+--------------+
# HOW TO NAME THINGS
# ------------------
# `dest` means destination server, which is from DST fields in the SOCKS5
# request
# `local` means local server of shadowsocks
# `remote` means remote server of shadowsocks
# `client` means UDP clients that connects to other servers
11 years ago
# `server` means the UDP server that handles user requests
11 years ago
from __future__ import absolute_import, division, print_function, \
with_statement
11 years ago
11 years ago
import time
11 years ago
import socket
11 years ago
import logging
import struct
11 years ago
import errno
import random
import binascii
import traceback
import threading
from shadowsocks import encrypt, obfs, eventloop, lru_cache, common, shell
from shadowsocks.common import pre_parse_header, parse_header, pack_addr
11 years ago
# we clear at most TIMEOUTS_CLEAN_SIZE timeouts each time
TIMEOUTS_CLEAN_SIZE = 512
# for each handler, we have 2 stream directions:
# upstream: from client to server direction
# read local and write to remote
# downstream: from server to client direction
# read remote and write to local
STREAM_UP = 0
STREAM_DOWN = 1
# for each stream, it's waiting for reading, or writing, or both
WAIT_STATUS_INIT = 0
WAIT_STATUS_READING = 1
WAIT_STATUS_WRITING = 2
WAIT_STATUS_READWRITING = WAIT_STATUS_READING | WAIT_STATUS_WRITING
11 years ago
BUF_SIZE = 65536
DOUBLE_SEND_BEG_IDS = 16
POST_MTU_MIN = 500
POST_MTU_MAX = 1400
SENDING_WINDOW_SIZE = 8192
STAGE_INIT = 0
STAGE_RSP_ID = 1
STAGE_DNS = 2
STAGE_CONNECTING = 3
STAGE_STREAM = 4
STAGE_DESTROYED = -1
CMD_CONNECT = 0
CMD_RSP_CONNECT = 1
CMD_CONNECT_REMOTE = 2
CMD_RSP_CONNECT_REMOTE = 3
CMD_POST = 4
CMD_SYN_STATUS = 5
CMD_POST_64 = 6
CMD_SYN_STATUS_64 = 7
CMD_DISCONNECT = 8
CMD_VER_STR = b"\x08"
RSP_STATE_EMPTY = b""
RSP_STATE_REJECT = b"\x00"
RSP_STATE_CONNECTED = b"\x01"
RSP_STATE_CONNECTEDREMOTE = b"\x02"
RSP_STATE_ERROR = b"\x03"
RSP_STATE_DISCONNECT = b"\x04"
RSP_STATE_REDIRECT = b"\x05"
class UDPLocalAddress(object):
def __init__(self, addr):
self.addr = addr
self.last_activity = time.time()
def is_timeout(self):
return time.time() - self.last_activity > 30
class PacketInfo(object):
def __init__(self, data):
self.data = data
self.time = time.time()
class SendingQueue(object):
def __init__(self):
self.queue = {}
self.begin_id = 0
self.end_id = 1
self.interval = 0.5
def append(self, data):
self.queue[self.end_id] = PacketInfo(data)
self.end_id += 1
return self.end_id - 1
def empty(self):
return self.begin_id + 1 == self.end_id
def size(self):
return self.end_id - self.begin_id - 1
def get_begin_id(self):
return self.begin_id
def get_end_id(self):
return self.end_id
def get_data_list(self, pack_id_base, pack_id_list):
ret_list = []
curtime = time.time()
for pack_id in pack_id_list:
offset = pack_id_base + pack_id
if offset <= self.begin_id or self.end_id <= offset:
continue
ret_data = self.queue[offset]
if curtime - ret_data.time > self.interval:
ret_data.time = curtime
ret_list.append( (offset, ret_data.data) )
return ret_list
def set_finish(self, begin_id, done_list):
while self.begin_id < begin_id:
self.begin_id += 1
del self.queue[self.begin_id]
class RecvQueue(object):
def __init__(self):
self.queue = {}
self.miss_queue = set()
self.begin_id = 0
self.end_id = 1
def empty(self):
return self.begin_id + 1 == self.end_id
def insert(self, pack_id, data):
if (pack_id not in self.queue) and pack_id > self.begin_id:
self.queue[pack_id] = PacketInfo(data)
if self.end_id == pack_id:
self.end_id = pack_id + 1
elif self.end_id < pack_id:
eid = self.end_id
while eid < pack_id:
self.miss_queue.add(eid)
eid += 1
self.end_id = pack_id + 1
else:
self.miss_queue.remove(pack_id)
def set_end(self, end_id):
if end_id > self.end_id:
eid = self.end_id
while eid < end_id:
self.miss_queue.add(eid)
eid += 1
self.end_id = end_id
def get_begin_id(self):
return self.begin_id
def has_data(self):
return (self.begin_id + 1) in self.queue
def get_data(self):
if (self.begin_id + 1) in self.queue:
self.begin_id += 1
pack_id = self.begin_id
ret_data = self.queue[pack_id]
del self.queue[pack_id]
return (pack_id, ret_data.data)
def get_missing_id(self, begin_id):
missing = []
if begin_id == 0:
begin_id = self.begin_id
for i in self.miss_queue:
if i - begin_id > 32768:
break
missing.append(i - begin_id)
return (begin_id, missing)
class AddressMap(object):
def __init__(self):
self._queue = []
self._addr_map = {}
def add(self, addr):
if addr in self._addr_map:
self._addr_map[addr] = UDPLocalAddress(addr)
else:
self._addr_map[addr] = UDPLocalAddress(addr)
self._queue.append(addr)
def keys(self):
return self._queue
def get(self):
if self._queue:
while True:
if len(self._queue) == 1:
return self._queue[0]
index = random.randint(0, len(self._queue) - 1)
addr = self._queue[index]
if self._addr_map[addr].is_timeout():
self._queue[index] = self._queue[len(self._queue) - 1]
del self._queue[len(self._queue) - 1]
del self._addr_map[addr]
else:
break
return addr
else:
return None
class TCPRelayHandler(object):
def __init__(self, server, reqid_to_handlers, fd_to_handlers, loop,
local_sock, local_id, client_param, config,
dns_resolver, is_local):
self._server = server
self._reqid_to_handlers = reqid_to_handlers
self._fd_to_handlers = fd_to_handlers
self._loop = loop
self._local_sock = local_sock
self._remote_sock = None
self._remote_udp = False
self._config = config
self._dns_resolver = dns_resolver
self._local_id = local_id
self._is_local = is_local
self._stage = STAGE_INIT
self._password = config['password']
self._method = config['method']
self._fastopen_connected = False
self._data_to_write_to_local = []
self._data_to_write_to_remote = []
self._upstream_status = WAIT_STATUS_READING
self._downstream_status = WAIT_STATUS_INIT
self._request_id = 0
self._client_address = AddressMap()
self._remote_address = None
self._sendingqueue = SendingQueue()
self._recvqueue = RecvQueue()
if 'forbidden_ip' in config:
self._forbidden_iplist = config['forbidden_ip']
else:
self._forbidden_iplist = None
if 'forbidden_port' in config:
self._forbidden_portset = config['forbidden_port']
else:
self._forbidden_portset = None
#fd_to_handlers[local_sock.fileno()] = self
#local_sock.setblocking(False)
#loop.add(local_sock, eventloop.POLL_IN | eventloop.POLL_ERR)
self.last_activity = 0
self._update_activity()
self._random_mtu_size = [random.randint(POST_MTU_MIN, POST_MTU_MAX) for i in range(1024)]
self._random_mtu_index = 0
self._rand_data = b"\x01\x02\x03\x04\x05\x06\x07\x08\x09\x0a\x0b\x0c\x0d\x0e\x0f\x10" * 4
def __hash__(self):
# default __hash__ is id / 16
# we want to eliminate collisions
return id(self)
@property
def remote_address(self):
return self._remote_address
def add_local_address(self, addr):
self._client_address.add(addr)
def get_local_address(self):
return self._client_address.get()
def _update_activity(self):
# tell the TCP Relay we have activities recently
# else it will think we are inactive and timed out
self._server.update_activity(self)
def _update_stream(self, stream, status):
# update a stream to a new waiting status
# check if status is changed
# only update if dirty
dirty = False
if stream == STREAM_DOWN:
if self._downstream_status != status:
self._downstream_status = status
dirty = True
elif stream == STREAM_UP:
if self._upstream_status != status:
self._upstream_status = status
dirty = True
if dirty:
'''
if self._local_sock:
event = eventloop.POLL_ERR
if self._downstream_status & WAIT_STATUS_WRITING:
event |= eventloop.POLL_OUT
if self._upstream_status & WAIT_STATUS_READING:
event |= eventloop.POLL_IN
self._loop.modify(self._local_sock, event)
'''
if self._remote_sock:
event = eventloop.POLL_ERR
if self._downstream_status & WAIT_STATUS_READING:
event |= eventloop.POLL_IN
if self._upstream_status & WAIT_STATUS_WRITING:
event |= eventloop.POLL_OUT
self._loop.modify(self._remote_sock, event)
def _write_to_sock(self, data, sock, addr = None):
# write data to sock
# if only some of the data are written, put remaining in the buffer
# and update the stream to wait for writing
if not data or not sock:
return False
uncomplete = False
retry = 0
if sock == self._local_sock:
data = encrypt.encrypt_all(self._password, self._method, 1, data)
if addr is None:
return False
try:
self._server.write_to_server_socket(data, addr)
except (OSError, IOError) as e:
error_no = eventloop.errno_from_exception(e)
uncomplete = True
if error_no in (errno.EAGAIN, errno.EINPROGRESS,
errno.EWOULDBLOCK):
pass
else:
#traceback.print_exc()
shell.print_exception(e)
self.destroy()
return False
else:
try:
l = len(data)
s = sock.send(data)
if s < l:
data = data[s:]
uncomplete = True
except (OSError, IOError) as e:
error_no = eventloop.errno_from_exception(e)
if error_no in (errno.EAGAIN, errno.EINPROGRESS,
errno.EWOULDBLOCK):
uncomplete = True
else:
#logging.error(traceback.extract_stack())
#traceback.print_exc()
shell.print_exception(e)
self.destroy()
return False
if uncomplete:
if sock == self._local_sock:
self._update_stream(STREAM_DOWN, WAIT_STATUS_WRITING)
elif sock == self._remote_sock:
self._data_to_write_to_remote.append(data)
self._update_stream(STREAM_UP, WAIT_STATUS_WRITING)
else:
logging.error('write_all_to_sock:unknown socket')
else:
if sock == self._local_sock:
if self._sendingqueue.size() > SENDING_WINDOW_SIZE:
self._update_stream(STREAM_DOWN, WAIT_STATUS_WRITING)
else:
self._update_stream(STREAM_DOWN, WAIT_STATUS_READING)
elif sock == self._remote_sock:
self._update_stream(STREAM_UP, WAIT_STATUS_READING)
else:
logging.error('write_all_to_sock:unknown socket')
return True
def _create_remote_socket(self, ip, port):
addrs = socket.getaddrinfo(ip, port, 0, socket.SOCK_STREAM, socket.SOL_TCP)
if len(addrs) == 0:
raise Exception("getaddrinfo failed for %s:%d" % (ip, port))
af, socktype, proto, canonname, sa = addrs[0]
if self._forbidden_iplist:
if common.to_str(sa[0]) in self._forbidden_iplist:
raise Exception('IP %s is in forbidden list, reject' %
common.to_str(sa[0]))
remote_sock = socket.socket(af, socktype, proto)
self._remote_sock = remote_sock
self._fd_to_handlers[remote_sock.fileno()] = self
remote_sock.setblocking(False)
remote_sock.setsockopt(socket.SOL_TCP, socket.TCP_NODELAY, 1)
return remote_sock
def _handle_dns_resolved(self, result, error):
if error:
self._log_error(error)
self.destroy()
return
if result:
ip = result[1]
if ip:
try:
self._stage = STAGE_CONNECTING
remote_addr = ip
remote_port = self._remote_address[1]
logging.info("connect to %s : %d" % (remote_addr, remote_port))
remote_sock = self._create_remote_socket(remote_addr,
remote_port)
try:
remote_sock.connect((remote_addr, remote_port))
except (OSError, IOError) as e:
if eventloop.errno_from_exception(e) in (errno.EINPROGRESS,
errno.EWOULDBLOCK):
pass # always goto here
else:
raise e
self._loop.add(remote_sock,
eventloop.POLL_ERR | eventloop.POLL_OUT,
self._server)
self._update_stream(STREAM_UP, WAIT_STATUS_READWRITING)
self._update_stream(STREAM_DOWN, WAIT_STATUS_READING)
self._stage = STAGE_STREAM
addr = self.get_local_address()
for i in range(2):
rsp_data = self._pack_rsp_data(CMD_RSP_CONNECT_REMOTE, RSP_STATE_CONNECTEDREMOTE)
self._write_to_sock(rsp_data, self._local_sock, addr)
return
except Exception as e:
shell.print_exception(e)
if self._config['verbose']:
traceback.print_exc()
self.destroy()
def _on_local_read(self):
# handle all local read events and dispatch them to methods for
# each stage
self._update_activity()
if not self._local_sock:
return
data = None
try:
data = self._local_sock.recv(BUF_SIZE)
except (OSError, IOError) as e:
if eventloop.errno_from_exception(e) in \
(errno.ETIMEDOUT, errno.EAGAIN, errno.EWOULDBLOCK):
return
if not data:
self.destroy()
return
if not data:
return
self._server.server_transfer_ul += len(data)
#TODO ============================================================
if self._stage == STAGE_STREAM:
self._write_to_sock(data, self._remote_sock)
return
11 years ago
def _on_remote_read(self):
# handle all remote read events
self._update_activity()
data = None
try:
data = self._remote_sock.recv(BUF_SIZE)
except (OSError, IOError) as e:
if eventloop.errno_from_exception(e) in \
(errno.ETIMEDOUT, errno.EAGAIN, errno.EWOULDBLOCK, 10035): #errno.WSAEWOULDBLOCK
return
if not data:
self.destroy()
return
try:
self._server.server_transfer_dl += len(data)
recv_data = data
beg_pos = 0
max_len = len(recv_data)
while beg_pos < max_len:
if beg_pos + POST_MTU_MAX >= max_len:
split_pos = max_len
else:
split_pos = beg_pos + self._random_mtu_size[self._random_mtu_index]
self._random_mtu_index = (self._random_mtu_index + 1) & 0x3ff
#split_pos = beg_pos + random.randint(POST_MTU_MIN, POST_MTU_MAX)
data = recv_data[beg_pos:split_pos]
beg_pos = split_pos
pack_id = self._sendingqueue.append(data)
post_data = self._pack_post_data(CMD_POST, pack_id, data)
addr = self.get_local_address()
self._write_to_sock(post_data, self._local_sock, addr)
if pack_id <= DOUBLE_SEND_BEG_IDS:
post_data = self._pack_post_data(CMD_POST, pack_id, data)
self._write_to_sock(post_data, self._local_sock, addr)
except Exception as e:
shell.print_exception(e)
if self._config['verbose']:
traceback.print_exc()
# TODO use logging when debug completed
self.destroy()
def _on_local_write(self):
# handle local writable event
if self._data_to_write_to_local:
data = b''.join(self._data_to_write_to_local)
self._data_to_write_to_local = []
self._write_to_sock(data, self._local_sock)
else:
self._update_stream(STREAM_DOWN, WAIT_STATUS_READING)
def _on_remote_write(self):
# handle remote writable event
self._stage = STAGE_STREAM
if self._data_to_write_to_remote:
data = b''.join(self._data_to_write_to_remote)
self._data_to_write_to_remote = []
self._write_to_sock(data, self._remote_sock)
else:
self._update_stream(STREAM_UP, WAIT_STATUS_READING)
def _on_local_error(self):
logging.debug('got local error')
if self._local_sock:
logging.error(eventloop.get_sock_error(self._local_sock))
self.destroy()
def _on_remote_error(self):
logging.debug('got remote error')
if self._remote_sock:
logging.error(eventloop.get_sock_error(self._remote_sock))
self.destroy()
def _pack_rsp_data(self, cmd, data):
reqid_str = struct.pack(">H", self._request_id)
return b''.join([CMD_VER_STR, common.chr(cmd), reqid_str, data, self._rand_data[:random.randint(0, len(self._rand_data))], reqid_str])
def _pack_rnd_data(self, data):
length = random.randint(0, len(self._rand_data))
if length == 0:
return data
elif length == 1:
return b"\x81" + data
elif length < 256:
return b"\x80" + common.chr(length) + self._rand_data[:length - 2] + data
else:
return b"\x82" + struct.pack(">H", length) + self._rand_data[:length - 3] + data
def _pack_post_data(self, cmd, pack_id, data):
reqid_str = struct.pack(">H", self._request_id)
recv_id = self._recvqueue.get_begin_id()
rsp_data = b''.join([CMD_VER_STR, common.chr(cmd), reqid_str, struct.pack(">I", recv_id), struct.pack(">I", pack_id), data, reqid_str])
return rsp_data
def _pack_post_data_64(self, cmd, send_id, pack_id, data):
reqid_str = struct.pack(">H", self._request_id)
recv_id = self._recvqueue.get_begin_id()
rsp_data = b''.join([CMD_VER_STR, common.chr(cmd), reqid_str, struct.pack(">Q", recv_id), struct.pack(">Q", pack_id), data, reqid_str])
return rsp_data
def sweep_timeout(self):
logging.info("sweep_timeout")
if self._stage == STAGE_STREAM:
pack_id, missing = self._recvqueue.get_missing_id(0)
logging.info("sweep_timeout %s %s" % (pack_id, missing))
data = b''
for pid in missing:
data += struct.pack(">H", pid)
rsp_data = self._pack_post_data(CMD_SYN_STATUS, pack_id, data)
addr = self.get_local_address()
self._write_to_sock(rsp_data, self._local_sock, addr)
def handle_stream_sync_status(self, addr, cmd, request_id, pack_id, max_send_id, data):
missing_list = []
while len(data) >= 2:
pid = struct.unpack(">H", data[0:2])[0]
data = data[2:]
missing_list.append(pid)
done_list = []
self._recvqueue.set_end(max_send_id)
self._sendingqueue.set_finish(pack_id, done_list)
if self._stage == STAGE_DESTROYED and self._sendingqueue.empty():
self.destroy_local()
return
# post CMD_SYN_STATUS
send_id = self._sendingqueue.get_end_id()
post_pack_id, missing = self._recvqueue.get_missing_id(0)
pack_ids_data = b''
for pid in missing:
pack_ids_data += struct.pack(">H", pid)
rsp_data = self._pack_rnd_data(self._pack_post_data(CMD_SYN_STATUS, send_id, pack_ids_data))
self._write_to_sock(rsp_data, self._local_sock, addr)
send_list = self._sendingqueue.get_data_list(pack_id, missing_list)
for post_pack_id, post_data in send_list:
rsp_data = self._pack_post_data(CMD_POST, post_pack_id, post_data)
self._write_to_sock(rsp_data, self._local_sock, addr)
if post_pack_id <= DOUBLE_SEND_BEG_IDS:
rsp_data = self._pack_post_data(CMD_POST, post_pack_id, post_data)
self._write_to_sock(rsp_data, self._local_sock, addr)
def handle_client(self, addr, cmd, request_id, data):
self.add_local_address(addr)
if cmd == CMD_DISCONNECT:
rsp_data = self._pack_rsp_data(CMD_DISCONNECT, RSP_STATE_EMPTY)
self._write_to_sock(rsp_data, self._local_sock, addr)
self.destroy()
self.destroy_local()
return
if self._stage == STAGE_INIT:
if cmd == CMD_CONNECT:
self._request_id = request_id
self._stage = STAGE_RSP_ID
return
if self._request_id != request_id:
return
if self._stage == STAGE_RSP_ID:
if cmd == CMD_CONNECT:
for i in range(2):
rsp_data = self._pack_rsp_data(CMD_RSP_CONNECT, RSP_STATE_CONNECTED)
self._write_to_sock(rsp_data, self._local_sock, addr)
elif cmd == CMD_CONNECT_REMOTE:
local_id = data[0:4]
if self._local_id == local_id:
data = data[4:]
header_result = parse_header(data)
if header_result is None:
return
connecttype, remote_addr, remote_port, header_length = header_result
self._remote_address = (common.to_str(remote_addr), remote_port)
self._stage = STAGE_DNS
self._dns_resolver.resolve(remote_addr,
self._handle_dns_resolved)
common.connect_log('TCPonUDP connect %s:%d from %s:%d' % (remote_addr, remote_port, addr[0], addr[1]))
else:
# ileagal request
rsp_data = self._pack_rsp_data(CMD_DISCONNECT, RSP_STATE_EMPTY)
self._write_to_sock(rsp_data, self._local_sock, addr)
elif self._stage == STAGE_CONNECTING:
if cmd == CMD_CONNECT_REMOTE:
local_id = data[0:4]
if self._local_id == local_id:
for i in range(2):
rsp_data = self._pack_rsp_data(CMD_RSP_CONNECT_REMOTE, RSP_STATE_CONNECTEDREMOTE)
self._write_to_sock(rsp_data, self._local_sock, addr)
else:
# ileagal request
rsp_data = self._pack_rsp_data(CMD_DISCONNECT, RSP_STATE_EMPTY)
self._write_to_sock(rsp_data, self._local_sock, addr)
elif self._stage == STAGE_STREAM:
if len(data) < 4:
# ileagal request
rsp_data = self._pack_rsp_data(CMD_DISCONNECT, RSP_STATE_EMPTY)
self._write_to_sock(rsp_data, self._local_sock, addr)
return
local_id = data[0:4]
if self._local_id != local_id:
# ileagal request
rsp_data = self._pack_rsp_data(CMD_DISCONNECT, RSP_STATE_EMPTY)
self._write_to_sock(rsp_data, self._local_sock, addr)
return
else:
data = data[4:]
if cmd == CMD_CONNECT_REMOTE:
rsp_data = self._pack_rsp_data(CMD_RSP_CONNECT_REMOTE, RSP_STATE_CONNECTEDREMOTE)
self._write_to_sock(rsp_data, self._local_sock, addr)
elif cmd == CMD_POST:
recv_id = struct.unpack(">I", data[0:4])[0]
pack_id = struct.unpack(">I", data[4:8])[0]
self._recvqueue.insert(pack_id, data[8:])
self._sendingqueue.set_finish(recv_id, [])
elif cmd == CMD_POST_64:
recv_id = struct.unpack(">Q", data[0:8])[0]
pack_id = struct.unpack(">Q", data[8:16])[0]
self._recvqueue.insert(pack_id, data[16:])
self._sendingqueue.set_finish(recv_id, [])
elif cmd == CMD_DISCONNECT:
rsp_data = self._pack_rsp_data(CMD_DISCONNECT, RSP_STATE_EMPTY)
self._write_to_sock(rsp_data, self._local_sock, addr)
self.destroy()
self.destroy_local()
return
elif cmd == CMD_SYN_STATUS:
pack_id = struct.unpack(">I", data[0:4])[0]
max_send_id = struct.unpack(">I", data[4:8])[0]
data = data[8:]
self.handle_stream_sync_status(addr, cmd, request_id, pack_id, max_send_id, data)
elif cmd == CMD_SYN_STATUS_64:
pack_id = struct.unpack(">Q", data[0:8])[0]
max_send_id = struct.unpack(">Q", data[8:16])[0]
data = data[16:]
self.handle_stream_sync_status(addr, cmd, request_id, pack_id, max_send_id, data)
while self._recvqueue.has_data():
pack_id, post_data = self._recvqueue.get_data()
self._write_to_sock(post_data, self._remote_sock)
elif self._stage == STAGE_DESTROYED:
local_id = data[0:4]
if self._local_id != local_id:
# ileagal request
rsp_data = self._pack_rsp_data(CMD_DISCONNECT, RSP_STATE_EMPTY)
self._write_to_sock(rsp_data, self._local_sock, addr)
return
else:
data = data[4:]
if cmd == CMD_SYN_STATUS:
pack_id = struct.unpack(">I", data[0:4])[0]
max_send_id = struct.unpack(">I", data[4:8])[0]
data = data[8:]
self.handle_stream_sync_status(addr, cmd, request_id, pack_id, max_send_id, data)
elif cmd == CMD_SYN_STATUS_64:
pack_id = struct.unpack(">Q", data[0:8])[0]
max_send_id = struct.unpack(">Q", data[8:16])[0]
data = data[16:]
self.handle_stream_sync_status(addr, cmd, request_id, pack_id, max_send_id, data)
def handle_event(self, sock, event):
# handle all events in this handler and dispatch them to methods
handle = False
if self._stage == STAGE_DESTROYED:
logging.debug('ignore handle_event: destroyed')
return True
# order is important
if sock == self._remote_sock:
if event & eventloop.POLL_ERR:
handle = True
self._on_remote_error()
if self._stage == STAGE_DESTROYED:
return True
if event & (eventloop.POLL_IN | eventloop.POLL_HUP):
handle = True
self._on_remote_read()
if self._stage == STAGE_DESTROYED:
return True
if event & eventloop.POLL_OUT:
handle = True
self._on_remote_write()
elif sock == self._local_sock:
if event & eventloop.POLL_ERR:
handle = True
self._on_local_error()
if self._stage == STAGE_DESTROYED:
return True
if event & (eventloop.POLL_IN | eventloop.POLL_HUP):
handle = True
self._on_local_read()
if self._stage == STAGE_DESTROYED:
return True
if event & eventloop.POLL_OUT:
handle = True
self._on_local_write()
else:
logging.warn('unknown socket')
return handle
def _log_error(self, e):
logging.error('%s when handling connection from %s' %
(e, self._client_address.keys()))
def destroy(self):
# destroy the handler and release any resources
# promises:
# 1. destroy won't make another destroy() call inside
# 2. destroy releases resources so it prevents future call to destroy
# 3. destroy won't raise any exceptions
# if any of the promises are broken, it indicates a bug has been
# introduced! mostly likely memory leaks, etc
#logging.info('tcp destroy called')
if self._stage == STAGE_DESTROYED:
# this couldn't happen
logging.debug('already destroyed')
return
self._stage = STAGE_DESTROYED
if self._remote_address:
logging.debug('destroy: %s:%d' %
self._remote_address)
else:
logging.debug('destroy')
if self._remote_sock:
logging.debug('destroying remote')
self._loop.remove(self._remote_sock)
try:
del self._fd_to_handlers[self._remote_sock.fileno()]
except Exception as e:
pass
self._remote_sock.close()
self._remote_sock = None
if self._sendingqueue.empty():
self.destroy_local()
self._dns_resolver.remove_callback(self._handle_dns_resolved)
def destroy_local(self):
if self._local_sock:
logging.debug('disconnect local')
rsp_data = self._pack_rsp_data(CMD_DISCONNECT, RSP_STATE_EMPTY)
addr = None
addr = self.get_local_address()
self._write_to_sock(rsp_data, self._local_sock, addr)
self._local_sock = None
try:
del self._reqid_to_handlers[self._request_id]
except Exception as e:
pass
self._server.remove_handler(self)
11 years ago
9 years ago
def client_key(source_addr, server_af):
# notice this is server af, not dest af
return '%s:%s:%d' % (source_addr[0], source_addr[1], server_af)
11 years ago
class UDPRelay(object):
def __init__(self, config, dns_resolver, is_local, stat_callback=None, stat_counter=None):
self._config = config
if config.get('connect_verbose_info', 0) > 0:
common.connect_log = logging.info
11 years ago
if is_local:
self._listen_addr = config['local_address']
self._listen_port = config['local_port']
self._remote_addr = config['server']
self._remote_port = config['server_port']
else:
self._listen_addr = config['server']
self._listen_port = config['server_port']
self._remote_addr = None
self._remote_port = None
11 years ago
self._dns_resolver = dns_resolver
self._password = common.to_bytes(config['password'])
11 years ago
self._method = config['method']
self._timeout = config['timeout']
11 years ago
self._is_local = is_local
9 years ago
self._udp_cache_size = config['udp_cache']
self._cache = lru_cache.LRUCache(timeout=config['udp_timeout'],
close_callback=self._close_client_pair)
self._cache_dns_client = lru_cache.LRUCache(timeout=10,
close_callback=self._close_client_pair)
self._client_fd_to_server_addr = {}
8 years ago
self._dns_cache = lru_cache.LRUCache(timeout=1800)
11 years ago
self._eventloop = None
11 years ago
self._closed = False
self.server_transfer_ul = 0
self.server_transfer_dl = 0
self.server_users = {}
self.server_user_transfer_ul = {}
self.server_user_transfer_dl = {}
if common.to_bytes(config['protocol']) in [b"auth_aes128_md5", b"auth_aes128_sha1"]:
self._update_users(None, None)
self.protocol_data = obfs.obfs(config['protocol']).init_data()
self._protocol = obfs.obfs(config['protocol'])
server_info = obfs.server_info(self.protocol_data)
server_info.host = self._listen_addr
server_info.port = self._listen_port
server_info.users = self.server_users
server_info.protocol_param = config['protocol_param']
server_info.obfs_param = ''
server_info.iv = b''
server_info.recv_iv = b''
server_info.key_str = common.to_bytes(config['password'])
server_info.key = encrypt.encrypt_key(self._password, self._method)
server_info.head_len = 30
server_info.tcp_mss = 1440
server_info.buffer_size = BUF_SIZE
self._protocol.set_server_info(server_info)
11 years ago
self._sockets = set()
self._fd_to_handlers = {}
self._reqid_to_hd = {}
self._data_to_write_to_server_socket = []
self._timeout_cache = lru_cache.LRUCache(timeout=self._timeout,
close_callback=self._close_tcp_client)
self._bind = config.get('out_bind', '')
self._bindv6 = config.get('out_bindv6', '')
self._ignore_bind_list = config.get('ignore_bind', [])
if 'forbidden_ip' in config:
self._forbidden_iplist = config['forbidden_ip']
else:
self._forbidden_iplist = None
if 'forbidden_port' in config:
self._forbidden_portset = config['forbidden_port']
else:
self._forbidden_portset = None
11 years ago
11 years ago
addrs = socket.getaddrinfo(self._listen_addr, self._listen_port, 0,
socket.SOCK_DGRAM, socket.SOL_UDP)
if len(addrs) == 0:
raise Exception("can't get addrinfo for %s:%d" %
(self._listen_addr, self._listen_port))
af, socktype, proto, canonname, sa = addrs[0]
server_socket = socket.socket(af, socktype, proto)
server_socket.bind((self._listen_addr, self._listen_port))
server_socket.setblocking(False)
self._server_socket = server_socket
self._stat_callback = stat_callback
11 years ago
def _get_a_server(self):
server = self._config['server']
server_port = self._config['server_port']
if type(server_port) == list:
server_port = random.choice(server_port)
if type(server) == list:
server = random.choice(server)
logging.debug('chosen server: %s:%d', server, server_port)
return server, server_port
def get_ud(self):
return (self.server_transfer_ul, self.server_transfer_dl)
def get_users_ud(self):
ret = (self.server_user_transfer_ul.copy(), self.server_user_transfer_dl.copy())
return ret
def _update_users(self, protocol_param, acl):
if protocol_param is None:
protocol_param = self._config['protocol_param']
param = common.to_bytes(protocol_param).split(b'#')
if len(param) == 2:
user_list = param[1].split(b',')
if user_list:
for user in user_list:
items = user.split(b':')
if len(items) == 2:
user_int_id = int(items[0])
uid = struct.pack('<I', user_int_id)
if acl is not None and user_int_id not in acl:
self.del_user(uid)
else:
passwd = items[1]
self.add_user(uid, passwd)
def update_user(self, id, passwd):
uid = struct.pack('<I', id)
self.add_user(uid, passwd)
def update_users(self, users):
for uid in list(self.server_users.keys()):
id = struct.unpack('<I', uid)[0]
if id not in users:
self.del_user(uid)
for id in users:
uid = struct.pack('<I', id)
self.add_user(uid, users[id])
def add_user(self, user, passwd): # user: binstr[4], passwd: str
self.server_users[user] = common.to_bytes(passwd)
def del_user(self, user):
if user in self.server_users:
del self.server_users[user]
def add_transfer_u(self, user, transfer):
if user is None:
self.server_transfer_ul += transfer
else:
if user not in self.server_user_transfer_ul:
self.server_user_transfer_ul[user] = 0
self.server_user_transfer_ul[user] += transfer + self.server_transfer_ul
self.server_transfer_ul = 0
def add_transfer_d(self, user, transfer):
if user is None:
self.server_transfer_dl += transfer
else:
if user not in self.server_user_transfer_dl:
self.server_user_transfer_dl[user] = 0
self.server_user_transfer_dl[user] += transfer + self.server_transfer_dl
self.server_transfer_dl = 0
def _close_client_pair(self, client_pair):
client, uid = client_pair
self._close_client(client)
11 years ago
def _close_client(self, client):
if hasattr(client, 'close'):
if not self._is_local:
if client.fileno() in self._client_fd_to_server_addr:
logging.debug('close_client: %s' %
(self._client_fd_to_server_addr[client.fileno()],))
else:
client.info('close_client')
11 years ago
self._sockets.remove(client.fileno())
11 years ago
self._eventloop.remove(client)
del self._client_fd_to_server_addr[client.fileno()]
11 years ago
client.close()
else:
# just an address
client.info('close_client pass %s' % client)
11 years ago
pass
def _pre_parse_udp_header(self, data):
if data is None:
return
datatype = common.ord(data[0])
if datatype == 0x8:
if len(data) >= 8:
crc = binascii.crc32(data) & 0xffffffff
if crc != 0xffffffff:
logging.warn('uncorrect CRC32, maybe wrong password or '
'encryption method')
return None
cmd = common.ord(data[1])
request_id = struct.unpack('>H', data[2:4])[0]
data = data[4:-4]
return (cmd, request_id, data)
elif len(data) >= 6 and common.ord(data[1]) == 0x0:
crc = binascii.crc32(data) & 0xffffffff
if crc != 0xffffffff:
logging.warn('uncorrect CRC32, maybe wrong password or '
'encryption method')
return None
cmd = common.ord(data[1])
data = data[2:-4]
return (cmd, 0, data)
else:
logging.warn('header too short, maybe wrong password or '
'encryption method')
return None
return data
def _pack_rsp_data(self, cmd, request_id, data):
_rand_data = b"123456789abcdefghijklmnopqrstuvwxyz" * 2
reqid_str = struct.pack(">H", request_id)
return b''.join([CMD_VER_STR, common.chr(cmd), reqid_str, data, _rand_data[:random.randint(0, len(_rand_data))], reqid_str])
def _handel_protocol_error(self, client_address, ogn_data):
#raise Exception('can not parse header')
logging.warn("Protocol ERROR, UDP ogn data %s from %s:%d" % (binascii.hexlify(ogn_data), client_address[0], client_address[1]))
def _socket_bind_addr(self, sock, af):
bind_addr = ''
if self._bind and af == socket.AF_INET:
bind_addr = self._bind
elif self._bindv6 and af == socket.AF_INET6:
bind_addr = self._bindv6
bind_addr = bind_addr.replace("::ffff:", "")
if bind_addr in self._ignore_bind_list:
bind_addr = None
if bind_addr:
8 years ago
local_addrs = socket.getaddrinfo(bind_addr, 0, 0, socket.SOCK_DGRAM, socket.SOL_UDP)
if local_addrs[0][0] == af:
logging.debug("bind %s" % (bind_addr,))
8 years ago
try:
sock.bind((bind_addr, 0))
except Exception as e:
logging.warn("bind %s fail" % (bind_addr,))
11 years ago
def _handle_server(self):
server = self._server_socket
data, r_addr = server.recvfrom(BUF_SIZE)
ogn_data = data
11 years ago
if not data:
logging.debug('UDP handle_server: data is empty')
if self._stat_callback:
self._stat_callback(self._listen_port, len(data))
uid = None
11 years ago
if self._is_local:
frag = common.ord(data[2])
11 years ago
if frag != 0:
logging.warn('drop a message since frag is not 0')
return
11 years ago
else:
data = data[3:]
else:
ref_iv = [0]
data = encrypt.encrypt_all_iv(self._protocol.obfs.server_info.key, self._method, 0, data, ref_iv)
11 years ago
# decrypt data
if not data:
11 years ago
logging.debug('UDP handle_server: data is empty after decrypt')
return
self._protocol.obfs.server_info.recv_iv = ref_iv[0]
data, uid = self._protocol.server_udp_post_decrypt(data)
10 years ago
#logging.info("UDP data %s" % (binascii.hexlify(data),))
10 years ago
if not self._is_local:
data = pre_parse_header(data)
data = self._pre_parse_udp_header(data)
10 years ago
if data is None:
return
if type(data) is tuple:
return
#return self._handle_tcp_over_udp(data, r_addr)
try:
header_result = parse_header(data)
except:
self._handel_protocol_error(r_addr, ogn_data)
return
if header_result is None:
self._handel_protocol_error(r_addr, ogn_data)
return
connecttype, dest_addr, dest_port, header_length = header_result
if self._is_local:
8 years ago
connecttype = 3
server_addr, server_port = self._get_a_server()
else:
server_addr, server_port = dest_addr, dest_port
8 years ago
if (connecttype & 7) == 3:
addrs = self._dns_cache.get(server_addr, None)
if addrs is None:
# TODO async getaddrinfo
addrs = socket.getaddrinfo(server_addr, server_port, 0,
socket.SOCK_DGRAM, socket.SOL_UDP)
if not addrs:
# drop
return
else:
self._dns_cache[server_addr] = addrs
else:
addrs = socket.getaddrinfo(server_addr, server_port, 0,
socket.SOCK_DGRAM, socket.SOL_UDP)
9 years ago
if not addrs:
# drop
return
9 years ago
af, socktype, proto, canonname, sa = addrs[0]
key = client_key(r_addr, af)
client_pair = self._cache.get(key, None)
if not client_pair:
client_pair = self._cache_dns_client.get(key, None)
if not client_pair:
9 years ago
if self._forbidden_iplist:
if common.to_str(sa[0]) in self._forbidden_iplist:
logging.debug('IP %s is in forbidden list, drop' %
common.to_str(sa[0]))
# drop
return
if self._forbidden_portset:
if sa[1] in self._forbidden_portset:
logging.debug('Port %d is in forbidden list, reject' %
sa[1])
# drop
return
9 years ago
client = socket.socket(af, socktype, proto)
client_uid = uid
9 years ago
client.setblocking(False)
self._socket_bind_addr(client, af)
is_dns = False
9 years ago
if len(data) > 20 and data[11:19] == b"\x00\x01\x00\x00\x00\x00\x00\x00":
is_dns = True
else:
pass
#logging.info("unknown data %s" % (binascii.hexlify(data),))
if sa[1] == 53 and is_dns: #DNS
logging.debug("DNS query %s from %s:%d" % (common.to_str(sa[0]), r_addr[0], r_addr[1]))
self._cache_dns_client[key] = (client, uid)
else:
self._cache[key] = (client, uid)
self._client_fd_to_server_addr[client.fileno()] = (r_addr, af)
9 years ago
11 years ago
self._sockets.add(client.fileno())
self._eventloop.add(client, eventloop.POLL_IN, self)
11 years ago
logging.debug('UDP port %5d sockets %d' % (self._listen_port, len(self._sockets)))
8 years ago
if uid is None:
user_id = self._listen_port
else:
user_id = struct.unpack('<I', client_uid)[0]
common.connect_log('UDP data to %s:%d via port %d by UID %d' %
(common.to_str(server_addr), server_port,
8 years ago
self._listen_port, user_id))
else:
client, client_uid = client_pair
9 years ago
self._cache.clear(self._udp_cache_size)
self._cache_dns_client.clear(16)
if self._is_local:
ref_iv = [encrypt.encrypt_new_iv(self._method)]
self._protocol.obfs.server_info.iv = ref_iv[0]
data = self._protocol.client_udp_pre_encrypt(data)
#logging.debug("%s" % (binascii.hexlify(data),))
data = encrypt.encrypt_all_iv(self._protocol.obfs.server_info.key, self._method, 1, data, ref_iv)
if not data:
return
else:
data = data[header_length:]
if not data:
return
11 years ago
try:
#logging.info('UDP handle_server sendto %s:%d %d bytes' % (common.to_str(server_addr), server_port, len(data)))
11 years ago
client.sendto(data, (server_addr, server_port))
self.add_transfer_u(client_uid, len(data))
11 years ago
except IOError as e:
err = eventloop.errno_from_exception(e)
if err in (errno.EINPROGRESS, errno.EAGAIN):
pass
else:
shell.print_exception(e)
11 years ago
def _handle_tcp_over_udp(self, data, r_addr):
#(cmd, request_id, data)
#logging.info("UDP data %d %d %s" % (data[0], data[1], binascii.hexlify(data[2])))
try:
self.server_transfer_ul += len(data[2])
if data[0] == 0:
if len(data[2]) >= 4:
for i in range(64):
req_id = random.randint(1, 65535)
if req_id not in self._reqid_to_hd:
break
if req_id in self._reqid_to_hd:
for i in range(64):
req_id = random.randint(1, 65535)
if type(self._reqid_to_hd[req_id]) is tuple:
break
# return req id
self._reqid_to_hd[req_id] = (data[2][0:4], None)
rsp_data = self._pack_rsp_data(CMD_RSP_CONNECT, req_id, RSP_STATE_CONNECTED)
data_to_send = encrypt.encrypt_all(self._password, self._method, 1, rsp_data)
self.write_to_server_socket(data_to_send, r_addr)
elif data[0] == CMD_CONNECT_REMOTE:
if len(data[2]) > 4 and data[1] in self._reqid_to_hd:
# create
if type(self._reqid_to_hd[data[1]]) is tuple:
if data[2][0:4] == self._reqid_to_hd[data[1]][0]:
handle = TCPRelayHandler(self, self._reqid_to_hd, self._fd_to_handlers,
self._eventloop, self._server_socket,
self._reqid_to_hd[data[1]][0], self._reqid_to_hd[data[1]][1],
self._config, self._dns_resolver, self._is_local)
self._reqid_to_hd[data[1]] = handle
handle.handle_client(r_addr, CMD_CONNECT, data[1], data[2])
handle.handle_client(r_addr, *data)
self.update_activity(handle)
else:
# disconnect
rsp_data = self._pack_rsp_data(CMD_DISCONNECT, data[1], RSP_STATE_EMPTY)
data_to_send = encrypt.encrypt_all(self._password, self._method, 1, rsp_data)
self.write_to_server_socket(data_to_send, r_addr)
else:
self.update_activity(self._reqid_to_hd[data[1]])
self._reqid_to_hd[data[1]].handle_client(r_addr, *data)
else:
# disconnect
rsp_data = self._pack_rsp_data(CMD_DISCONNECT, data[1], RSP_STATE_EMPTY)
data_to_send = encrypt.encrypt_all(self._password, self._method, 1, rsp_data)
self.write_to_server_socket(data_to_send, r_addr)
elif data[0] > CMD_CONNECT_REMOTE and data[0] <= CMD_DISCONNECT:
if data[1] in self._reqid_to_hd:
if type(self._reqid_to_hd[data[1]]) is tuple:
pass
else:
self.update_activity(self._reqid_to_hd[data[1]])
self._reqid_to_hd[data[1]].handle_client(r_addr, *data)
else:
# disconnect
rsp_data = self._pack_rsp_data(CMD_DISCONNECT, data[1], RSP_STATE_EMPTY)
data_to_send = encrypt.encrypt_all(self._password, self._method, 1, rsp_data)
self.write_to_server_socket(data_to_send, r_addr)
return
except Exception as e:
trace = traceback.format_exc()
logging.error(trace)
return
11 years ago
def _handle_client(self, sock):
data, r_addr = sock.recvfrom(BUF_SIZE)
11 years ago
if not data:
logging.debug('UDP handle_client: data is empty')
return
if self._stat_callback:
self._stat_callback(self._listen_port, len(data))
if not self._is_local:
addrlen = len(r_addr[0])
if addrlen > 255:
# drop
return
data = pack_addr(r_addr[0]) + struct.pack('>H', r_addr[1]) + data
ref_iv = [encrypt.encrypt_new_iv(self._method)]
self._protocol.obfs.server_info.iv = ref_iv[0]
data = self._protocol.server_udp_pre_encrypt(data)
response = encrypt.encrypt_all_iv(self._protocol.obfs.server_info.key, self._method, 1,
data, ref_iv)
if not response:
return
else:
ref_iv = [0]
data = encrypt.encrypt_all_iv(self._protocol.obfs.server_info.key, self._method, 0,
data, ref_iv)
if not data:
return
self._protocol.obfs.server_info.recv_iv = ref_iv[0]
data = self._protocol.client_udp_post_decrypt(data)
header_result = parse_header(data)
if header_result is None:
return
#connecttype, dest_addr, dest_port, header_length = header_result
#logging.debug('UDP handle_client %s:%d to %s:%d' % (common.to_str(r_addr[0]), r_addr[1], dest_addr, dest_port))
10 years ago
response = b'\x00\x00\x00' + data
11 years ago
client_addr = self._client_fd_to_server_addr.get(sock.fileno())
if client_addr:
key = client_key(client_addr[0], client_addr[1])
client_pair = self._cache.get(key, None)
client_dns_pair = self._cache_dns_client.get(key, None)
if client_pair:
client, client_uid = client_pair
self.add_transfer_d(client_uid, len(response))
elif client_dns_pair:
client, client_uid = client_dns_pair
self.add_transfer_d(client_uid, len(response))
else:
self.server_transfer_dl += len(response)
self.write_to_server_socket(response, client_addr[0])
if client_dns_pair:
logging.debug("remove dns client %s:%d" % (client_addr[0][0], client_addr[0][1]))
del self._cache_dns_client[key]
self._close_client(client_dns_pair[0])
else:
11 years ago
# this packet is from somewhere else we know
# simply drop that packet
pass
11 years ago
def write_to_server_socket(self, data, addr):
uncomplete = False
retry = 0
try:
self._server_socket.sendto(data, addr)
data = None
while self._data_to_write_to_server_socket:
data_buf = self._data_to_write_to_server_socket[0]
retry = data_buf[1] + 1
del self._data_to_write_to_server_socket[0]
data, addr = data_buf[0]
self._server_socket.sendto(data, addr)
except (OSError, IOError) as e:
error_no = eventloop.errno_from_exception(e)
uncomplete = True
if error_no in (errno.EWOULDBLOCK,):
pass
else:
shell.print_exception(e)
return False
#if uncomplete and data is not None and retry < 3:
# self._data_to_write_to_server_socket.append([(data, addr), retry])
#'''
11 years ago
def add_to_loop(self, loop):
11 years ago
if self._eventloop:
raise Exception('already add to loop')
11 years ago
if self._closed:
11 years ago
raise Exception('already closed')
self._eventloop = loop
server_socket = self._server_socket
self._eventloop.add(server_socket,
eventloop.POLL_IN | eventloop.POLL_ERR, self)
loop.add_periodic(self.handle_periodic)
def remove_handler(self, client):
if hash(client) in self._timeout_cache:
del self._timeout_cache[hash(client)]
def update_activity(self, client):
self._timeout_cache[hash(client)] = client
def _sweep_timeout(self):
self._timeout_cache.sweep()
def _close_tcp_client(self, client):
if client.remote_address:
logging.debug('timed out: %s:%d' %
client.remote_address)
else:
logging.debug('timed out')
client.destroy()
client.destroy_local()
def handle_event(self, sock, fd, event):
if sock == self._server_socket:
if event & eventloop.POLL_ERR:
logging.error('UDP server_socket err')
try:
self._handle_server()
except Exception as e:
shell.print_exception(e)
if self._config['verbose']:
traceback.print_exc()
elif sock and (fd in self._sockets):
if event & eventloop.POLL_ERR:
logging.error('UDP client_socket err')
try:
self._handle_client(sock)
except Exception as e:
shell.print_exception(e)
if self._config['verbose']:
traceback.print_exc()
else:
if sock:
handler = self._fd_to_handlers.get(fd, None)
if handler:
handler.handle_event(sock, event)
else:
logging.warn('poll removed fd')
def handle_periodic(self):
if self._closed:
self._cache.clear(0)
self._cache_dns_client.clear(0)
self._dns_cache.sweep()
if self._eventloop:
self._eventloop.remove_periodic(self.handle_periodic)
self._eventloop.remove(self._server_socket)
if self._server_socket:
self._server_socket.close()
self._server_socket = None
logging.info('closed UDP port %d', self._listen_port)
else:
before_sweep_size = len(self._sockets)
self._cache.sweep()
self._cache_dns_client.sweep()
self._dns_cache.sweep()
if before_sweep_size != len(self._sockets):
logging.debug('UDP port %5d sockets %d' % (self._listen_port, len(self._sockets)))
self._sweep_timeout()
11 years ago
def close(self, next_tick=False):
logging.debug('UDP close')
11 years ago
self._closed = True
if not next_tick:
if self._eventloop:
self._eventloop.remove_periodic(self.handle_periodic)
self._eventloop.remove(self._server_socket)
self._server_socket.close()
self._cache.clear(0)
self._cache_dns_client.clear(0)