Python port of ShadowsocksR
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#!/usr/bin/env python
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# Copyright (c) 2014 clowwindy
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#
# Permission is hereby granted, free of charge, to any person obtaining a copy
# of this software and associated documentation files (the "Software"), to deal
# in the Software without restriction, including without limitation the rights
# to use, copy, modify, merge, publish, distribute, sublicense, and/or sell
# copies of the Software, and to permit persons to whom the Software is
# furnished to do so, subject to the following conditions:
#
# The above copyright notice and this permission notice shall be included in
# all copies or substantial portions of the Software.
#
# THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
# IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
# FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE
# AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
# LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM,
# OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE
# SOFTWARE.
from __future__ import absolute_import, division, print_function, \
with_statement
import os
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import sys
import hashlib
import logging
from shadowsocks.crypto import m2, rc4_md5, salsa20_ctr,\
ctypes_openssl, ctypes_libsodium, table
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method_supported = {}
method_supported.update(rc4_md5.ciphers)
method_supported.update(salsa20_ctr.ciphers)
method_supported.update(ctypes_openssl.ciphers)
method_supported.update(ctypes_libsodium.ciphers)
# let M2Crypto override ctypes_openssl
method_supported.update(m2.ciphers)
method_supported.update(table.ciphers)
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def random_string(length):
try:
import M2Crypto.Rand
return M2Crypto.Rand.rand_bytes(length)
except ImportError:
return os.urandom(length)
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cached_keys = {}
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def try_cipher(key, method=None):
Encryptor(key, method)
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def EVP_BytesToKey(password, key_len, iv_len):
# equivalent to OpenSSL's EVP_BytesToKey() with count 1
# so that we make the same key and iv as nodejs version
if hasattr(password, 'encode'):
password = password.encode('utf-8')
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r = cached_keys.get(password, None)
if r:
return r
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m = []
i = 0
while len(b''.join(m)) < (key_len + iv_len):
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md5 = hashlib.md5()
data = password
if i > 0:
data = m[i - 1] + password
md5.update(data)
m.append(md5.digest())
i += 1
ms = b''.join(m)
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key = ms[:key_len]
iv = ms[key_len:key_len + iv_len]
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cached_keys[password] = (key, iv)
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return key, iv
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class Encryptor(object):
def __init__(self, key, method):
self.key = key
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self.method = method
self.iv = None
self.iv_sent = False
self.cipher_iv = b''
self.decipher = None
method = method.lower()
self._method_info = self.get_method_info(method)
if self._method_info:
self.cipher = self.get_cipher(key, method, 1,
random_string(self._method_info[1]))
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else:
logging.error('method %s not supported' % method)
sys.exit(1)
def get_method_info(self, method):
method = method.lower()
m = method_supported.get(method)
return m
def iv_len(self):
return len(self.cipher_iv)
def get_cipher(self, password, method, op, iv):
if hasattr(password, 'encode'):
password = password.encode('utf-8')
m = self._method_info
if m[0] > 0:
key, iv_ = EVP_BytesToKey(password, m[0], m[1])
else:
# key_length == 0 indicates we should use the key directly
key, iv = password, b''
iv = iv[:m[1]]
if op == 1:
# this iv is for cipher not decipher
self.cipher_iv = iv[:m[1]]
return m[2](method, key, iv, op)
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def encrypt(self, buf):
if len(buf) == 0:
return buf
if self.iv_sent:
return self.cipher.update(buf)
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else:
self.iv_sent = True
return self.cipher_iv + self.cipher.update(buf)
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def decrypt(self, buf):
if len(buf) == 0:
return buf
if self.decipher is None:
decipher_iv_len = self._method_info[1]
decipher_iv = buf[:decipher_iv_len]
self.decipher = self.get_cipher(self.key, self.method, 0,
iv=decipher_iv)
buf = buf[decipher_iv_len:]
if len(buf) == 0:
return buf
return self.decipher.update(buf)
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def encrypt_all(password, method, op, data):
result = []
method = method.lower()
(key_len, iv_len, m) = method_supported[method]
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if key_len > 0:
key, _ = EVP_BytesToKey(password, key_len, iv_len)
else:
key = password
if op:
iv = random_string(iv_len)
result.append(iv)
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else:
iv = data[:iv_len]
data = data[iv_len:]
cipher = m(method, key, iv, op)
result.append(cipher.update(data))
return b''.join(result)