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Python port of ShadowsocksR
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shadowsocksr/shadowsocks/obfsplugin/verify.py

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#!/usr/bin/env python
#
# Copyright 2015-2015 breakwa11
#
# 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
#
# http://www.apache.org/licenses/LICENSE-2.0
#
# 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.
from __future__ import absolute_import, division, print_function, \
with_statement
import os
import sys
import hashlib
import logging
import binascii
import base64
import time
import datetime
import random
import struct
import zlib
import hmac
import hashlib
import shadowsocks
from shadowsocks import common
from shadowsocks.obfsplugin import plain
from shadowsocks.common import to_bytes, to_str, ord, chr
def create_verify_obfs(method):
return verify_simple(method)
def create_verify_deflate(method):
return verify_deflate(method)
def create_verify_sha1(method):
return verify_sha1(method)
def create_auth_obfs(method):
return auth_simple(method)
obfs_map = {
'verify_simple': (create_verify_obfs,),
'verify_deflate': (create_verify_deflate,),
'verify_sha1': (create_verify_sha1,),
'verify_sha1_compatible': (create_verify_sha1,),
}
def match_begin(str1, str2):
if len(str1) >= len(str2):
if str1[:len(str2)] == str2:
return True
return False
class obfs_verify_data(object):
def __init__(self):
pass
class verify_base(plain.plain):
def __init__(self, method):
super(verify_base, self).__init__(method)
self.method = method
def init_data(self):
return obfs_verify_data()
def set_server_info(self, server_info):
self.server_info = server_info
def client_encode(self, buf):
return buf
def client_decode(self, buf):
return (buf, False)
def server_encode(self, buf):
return buf
def server_decode(self, buf):
return (buf, True, False)
class verify_simple(verify_base):
def __init__(self, method):
super(verify_simple, self).__init__(method)
self.recv_buf = b''
self.unit_len = 8100
self.decrypt_packet_num = 0
self.raw_trans = False
def pack_data(self, buf):
if len(buf) == 0:
return b''
rnd_data = os.urandom(common.ord(os.urandom(1)[0]) % 16)
data = common.chr(len(rnd_data) + 1) + rnd_data + buf
data = struct.pack('>H', len(data) + 6) + data
crc = (0xffffffff - binascii.crc32(data)) & 0xffffffff
data += struct.pack('<I', crc)
return data
def client_pre_encrypt(self, buf):
ret = b''
while len(buf) > self.unit_len:
ret += self.pack_data(buf[:self.unit_len])
buf = buf[self.unit_len:]
ret += self.pack_data(buf)
return ret
def client_post_decrypt(self, buf):
if self.raw_trans:
return buf
self.recv_buf += buf
out_buf = b''
while len(self.recv_buf) > 2:
length = struct.unpack('>H', self.recv_buf[:2])[0]
if length >= 8192 or length < 7:
self.raw_trans = True
self.recv_buf = b''
raise Exception('client_post_decrypt data error')
if length > len(self.recv_buf):
break
if (binascii.crc32(self.recv_buf[:length]) & 0xffffffff) != 0xffffffff:
self.raw_trans = True
self.recv_buf = b''
raise Exception('client_post_decrypt data uncorrect CRC32')
pos = common.ord(self.recv_buf[2]) + 2
out_buf += self.recv_buf[pos:length - 4]
self.recv_buf = self.recv_buf[length:]
if out_buf:
self.decrypt_packet_num += 1
return out_buf
def server_pre_encrypt(self, buf):
ret = b''
while len(buf) > self.unit_len:
ret += self.pack_data(buf[:self.unit_len])
buf = buf[self.unit_len:]
ret += self.pack_data(buf)
return ret
def server_post_decrypt(self, buf):
if self.raw_trans:
return (buf, False)
self.recv_buf += buf
out_buf = b''
while len(self.recv_buf) > 2:
length = struct.unpack('>H', self.recv_buf[:2])[0]
if length >= 8192 or length < 7:
self.raw_trans = True
self.recv_buf = b''
if self.decrypt_packet_num == 0:
return (b'E', False)
else:
raise Exception('server_post_decrype data error')
if length > len(self.recv_buf):
break
if (binascii.crc32(self.recv_buf[:length]) & 0xffffffff) != 0xffffffff:
self.raw_trans = True
self.recv_buf = b''
if self.decrypt_packet_num == 0:
return (b'E', False)
else:
raise Exception('server_post_decrype data uncorrect CRC32')
pos = common.ord(self.recv_buf[2]) + 2
out_buf += self.recv_buf[pos:length - 4]
self.recv_buf = self.recv_buf[length:]
if out_buf:
self.decrypt_packet_num += 1
return (out_buf, False)
class verify_deflate(verify_base):
def __init__(self, method):
super(verify_deflate, self).__init__(method)
self.recv_buf = b''
self.unit_len = 32700
self.decrypt_packet_num = 0
self.raw_trans = False
def pack_data(self, buf):
if len(buf) == 0:
return b''
data = zlib.compress(buf)
data = struct.pack('>H', len(data)) + data[2:]
return data
def client_pre_encrypt(self, buf):
ret = b''
while len(buf) > self.unit_len:
ret += self.pack_data(buf[:self.unit_len])
buf = buf[self.unit_len:]
ret += self.pack_data(buf)
return ret
def client_post_decrypt(self, buf):
if self.raw_trans:
return buf
self.recv_buf += buf
out_buf = b''
while len(self.recv_buf) > 2:
length = struct.unpack('>H', self.recv_buf[:2])[0]
if length >= 32768 or length < 6:
self.raw_trans = True
self.recv_buf = b''
raise Exception('client_post_decrypt data error')
if length > len(self.recv_buf):
break
out_buf += zlib.decompress(b'x\x9c' + self.recv_buf[2:length])
self.recv_buf = self.recv_buf[length:]
if out_buf:
self.decrypt_packet_num += 1
return out_buf
def server_pre_encrypt(self, buf):
ret = b''
while len(buf) > self.unit_len:
ret += self.pack_data(buf[:self.unit_len])
buf = buf[self.unit_len:]
ret += self.pack_data(buf)
return ret
def server_post_decrypt(self, buf):
if self.raw_trans:
return (buf, False)
self.recv_buf += buf
out_buf = b''
while len(self.recv_buf) > 2:
length = struct.unpack('>H', self.recv_buf[:2])[0]
if length >= 32768 or length < 6:
self.raw_trans = True
self.recv_buf = b''
if self.decrypt_packet_num == 0:
return (b'E'*64, False)
else:
raise Exception('server_post_decrype data error')
if length > len(self.recv_buf):
break
out_buf += zlib.decompress(b'\x78\x9c' + self.recv_buf[2:length])
self.recv_buf = self.recv_buf[length:]
if out_buf:
self.decrypt_packet_num += 1
return (out_buf, False)
class verify_sha1(verify_base):
def __init__(self, method):
super(verify_sha1, self).__init__(method)
self.recv_buf = b''
self.unit_len = 8100
self.raw_trans = False
self.pack_id = 0
self.recv_id = 0
self.has_sent_header = False
self.has_recv_header = False
def pack_data(self, buf):
if len(buf) == 0:
return b''
sha1data = hmac.new(self.server_info.iv + struct.pack('>I', self.pack_id), buf, hashlib.sha1).digest()
data = struct.pack('>H', len(buf)) + sha1data[:10] + buf
self.pack_id += 1
return data
def pack_auth_data(self, buf):
data = chr(ord(buf[0]) | 0x10) + buf[1:]
data += hmac.new(self.server_info.iv + self.server_info.key, data, hashlib.sha1).digest()[:10]
return data
def client_pre_encrypt(self, buf):
ret = b''
if not self.has_sent_header:
datalen = self.get_head_size(buf, 30)
ret += self.pack_auth_data(buf[:datalen])
buf = buf[datalen:]
self.has_sent_header = True
while len(buf) > self.unit_len:
ret += self.pack_data(buf[:self.unit_len])
buf = buf[self.unit_len:]
ret += self.pack_data(buf)
return ret
def client_post_decrypt(self, buf):
return buf
def server_pre_encrypt(self, buf):
return buf
def not_match_return(self, buf):
self.raw_trans = True
if self.method == 'verify_sha1':
return (b'E'*64, False)
return (buf, False)
def server_post_decrypt(self, buf):
if self.raw_trans:
return (buf, False)
self.recv_buf += buf
out_buf = b''
if not self.has_recv_header:
if len(self.recv_buf) < 2:
return (b'', False)
if (ord(self.recv_buf[0]) & 0x10) != 0x10:
return self.not_match_return(self.recv_buf)
head_size = self.get_head_size(self.recv_buf, 65536)
if len(self.recv_buf) < head_size + 10:
return self.not_match_return(self.recv_buf)
sha1data = hmac.new(self.server_info.recv_iv + self.server_info.key, self.recv_buf[:head_size], hashlib.sha1).digest()[:10]
if sha1data != self.recv_buf[head_size:head_size + 10]:
logging.error('server_post_decrype data uncorrect auth HMAC-SHA1')
return self.not_match_return(self.recv_buf)
out_buf = to_bytes(chr(ord(self.recv_buf[0]) & 0xEF)) + self.recv_buf[1:head_size]
self.recv_buf = self.recv_buf[head_size + 10:]
self.has_recv_header = True
while len(self.recv_buf) > 2:
length = struct.unpack('>H', self.recv_buf[:2])[0] + 12
if length > len(self.recv_buf):
break
data = self.recv_buf[12:length]
sha1data = hmac.new(self.server_info.recv_iv + struct.pack('>I', self.recv_id), data, hashlib.sha1).digest()[:10]
if sha1data != self.recv_buf[2:12]:
raise Exception('server_post_decrype data uncorrect chunk HMAC-SHA1')
self.recv_id = (self.recv_id + 1) & 0xFFFFFFFF
out_buf += data
self.recv_buf = self.recv_buf[length:]
return (out_buf, False)
def client_udp_pre_encrypt(self, buf):
ret = self.pack_auth_data(buf)
return chr(ord(buf[0]) | 0x10) + buf[1:]
def server_udp_post_decrypt(self, buf):
if buf and ((ord(buf[0]) & 0x10) == 0x10):
if len(buf) <= 11:
return b'E'
sha1data = hmac.new(self.server_info.recv_iv + self.server_info.key, buf[:-10], hashlib.sha1).digest()[:10]
if sha1data != buf[-10:]:
logging.error('server_udp_post_decrypt data uncorrect auth HMAC-SHA1')
return b'E'
return to_bytes(chr(ord(buf[0]) & 0xEF)) + buf[1:-10]
else:
return buf