#!/usr/bin/env python # -*- coding: utf-8 -*- # # 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 hashlib import logging import binascii import base64 import time import datetime import random import math import struct import hmac import bisect import shadowsocks from shadowsocks import common, lru_cache, encrypt from shadowsocks.obfsplugin import plain from shadowsocks.common import to_bytes, to_str, ord, chr from shadowsocks.crypto import openssl rand_bytes = openssl.rand_bytes def create_auth_chain_a(method): return auth_chain_a(method) def create_auth_chain_b(method): return auth_chain_b(method) def create_auth_chain_c(method): return auth_chain_c(method) def create_auth_chain_d(method): return auth_chain_d(method) def create_auth_chain_e(method): return auth_chain_e(method) def create_auth_chain_f(method): return auth_chain_f(method) obfs_map = { 'auth_chain_a': (create_auth_chain_a,), 'auth_chain_b': (create_auth_chain_b,), 'auth_chain_c': (create_auth_chain_c,), 'auth_chain_d': (create_auth_chain_d,), 'auth_chain_e': (create_auth_chain_e,), 'auth_chain_f': (create_auth_chain_f,), } class xorshift128plus(object): max_int = (1 << 64) - 1 mov_mask = (1 << (64 - 23)) - 1 def __init__(self): self.v0 = 0 self.v1 = 0 def next(self): x = self.v0 y = self.v1 self.v0 = y x ^= ((x & xorshift128plus.mov_mask) << 23) x ^= (y ^ (x >> 17) ^ (y >> 26)) self.v1 = x return (x + y) & xorshift128plus.max_int def init_from_bin(self, bin): if len(bin) < 16: bin += b'\0' * 16 self.v0 = struct.unpack('= len(str2): if str1[:len(str2)] == str2: return True return False class auth_base(plain.plain): def __init__(self, method): super(auth_base, self).__init__(method) self.method = method self.no_compatible_method = '' self.overhead = 4 def init_data(self): return '' def get_overhead(self, direction): # direction: true for c->s false for s->c return self.overhead 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) def not_match_return(self, buf): self.raw_trans = True self.overhead = 0 if self.method == self.no_compatible_method: return (b'E' * 2048, False) return (buf, False) class client_queue(object): def __init__(self, begin_id): self.front = begin_id - 64 self.back = begin_id + 1 self.alloc = {} self.enable = True self.last_update = time.time() self.ref = 0 def update(self): self.last_update = time.time() def addref(self): self.ref += 1 def delref(self): if self.ref > 0: self.ref -= 1 def is_active(self): return (self.ref > 0) and (time.time() - self.last_update < 60 * 10) def re_enable(self, connection_id): self.enable = True self.front = connection_id - 64 self.back = connection_id + 1 self.alloc = {} def insert(self, connection_id): if not self.enable: logging.warn('obfs auth: not enable') return False if not self.is_active(): self.re_enable(connection_id) self.update() if connection_id < self.front: logging.warn('obfs auth: deprecated id, someone replay attack') return False if connection_id > self.front + 0x4000: logging.warn('obfs auth: wrong id') return False if connection_id in self.alloc: logging.warn('obfs auth: duplicate id, someone replay attack') return False if self.back <= connection_id: self.back = connection_id + 1 self.alloc[connection_id] = 1 while (self.front in self.alloc) or self.front + 0x1000 < self.back: if self.front in self.alloc: del self.alloc[self.front] self.front += 1 self.addref() return True class obfs_auth_chain_data(object): def __init__(self, name): self.name = name self.user_id = {} self.local_client_id = b'' self.connection_id = 0 self.set_max_client(64) # max active client count def update(self, user_id, client_id, connection_id): if user_id not in self.user_id: self.user_id[user_id] = lru_cache.LRUCache() local_client_id = self.user_id[user_id] if client_id in local_client_id: local_client_id[client_id].update() def set_max_client(self, max_client): self.max_client = max_client self.max_buffer = max(self.max_client * 2, 1024) def insert(self, user_id, client_id, connection_id): if user_id not in self.user_id: self.user_id[user_id] = lru_cache.LRUCache() local_client_id = self.user_id[user_id] if local_client_id.get(client_id, None) is None or not local_client_id[client_id].enable: if local_client_id.first() is None or len(local_client_id) < self.max_client: if client_id not in local_client_id: # TODO: check local_client_id[client_id] = client_queue(connection_id) else: local_client_id[client_id].re_enable(connection_id) return local_client_id[client_id].insert(connection_id) if not local_client_id[local_client_id.first()].is_active(): del local_client_id[local_client_id.first()] if client_id not in local_client_id: # TODO: check local_client_id[client_id] = client_queue(connection_id) else: local_client_id[client_id].re_enable(connection_id) return local_client_id[client_id].insert(connection_id) logging.warn(self.name + ': no inactive client') return False else: return local_client_id[client_id].insert(connection_id) def remove(self, user_id, client_id): if user_id in self.user_id: local_client_id = self.user_id[user_id] if client_id in local_client_id: local_client_id[client_id].delref() class auth_chain_a(auth_base): def __init__(self, method): super(auth_chain_a, self).__init__(method) self.hashfunc = hashlib.md5 self.recv_buf = b'' self.unit_len = 2800 self.raw_trans = False self.has_sent_header = False self.has_recv_header = False self.client_id = 0 self.connection_id = 0 self.max_time_dif = 60 * 60 * 24 # time dif (second) setting self.salt = b"auth_chain_a" self.no_compatible_method = 'auth_chain_a' self.pack_id = 1 self.recv_id = 1 self.user_id = None self.user_id_num = 0 self.user_key = None self.overhead = 4 self.client_over_head = 4 self.last_client_hash = b'' self.last_server_hash = b'' self.random_client = xorshift128plus() self.random_server = xorshift128plus() self.encryptor = None def init_data(self): return obfs_auth_chain_data(self.method) def get_overhead(self, direction): # direction: true for c->s false for s->c return self.overhead def set_server_info(self, server_info): self.server_info = server_info try: max_client = int(server_info.protocol_param.split('#')[0]) except: max_client = 64 self.server_info.data.set_max_client(max_client) def trapezoid_random_float(self, d): if d == 0: return random.random() s = random.random() a = 1 - d return (math.sqrt(a * a + 4 * d * s) - a) / (2 * d) def trapezoid_random_int(self, max_val, d): v = self.trapezoid_random_float(d) return int(v * max_val) def rnd_data_len(self, buf_size, last_hash, random): if buf_size > 1440: return 0 random.init_from_bin_len(last_hash, buf_size) if buf_size > 1300: return random.next() % 31 if buf_size > 900: return random.next() % 127 if buf_size > 400: return random.next() % 521 return random.next() % 1021 def udp_rnd_data_len(self, last_hash, random): random.init_from_bin(last_hash) return random.next() % 127 def rnd_start_pos(self, rand_len, random): if rand_len > 0: return random.next() % 8589934609 % rand_len return 0 def rnd_data(self, buf_size, buf, last_hash, random): rand_len = self.rnd_data_len(buf_size, last_hash, random) rnd_data_buf = rand_bytes(rand_len) if buf_size == 0: return rnd_data_buf else: if rand_len > 0: start_pos = self.rnd_start_pos(rand_len, random) return rnd_data_buf[:start_pos] + buf + rnd_data_buf[start_pos:] else: return buf def pack_client_data(self, buf): buf = self.encryptor.encrypt(buf) data = self.rnd_data(len(buf), buf, self.last_client_hash, self.random_client) mac_key = self.user_key + struct.pack(' 0xFF000000: self.server_info.data.local_client_id = b'' if not self.server_info.data.local_client_id: self.server_info.data.local_client_id = rand_bytes(4) logging.debug("local_client_id %s" % (binascii.hexlify(self.server_info.data.local_client_id),)) self.server_info.data.connection_id = struct.unpack(' self.unit_len: ret += self.pack_client_data(buf[:self.unit_len]) buf = buf[self.unit_len:] ret += self.pack_client_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) > 4: mac_key = self.user_key + struct.pack('= 4096: self.raw_trans = True self.recv_buf = b'' raise Exception('client_post_decrypt data error') if length + 4 > len(self.recv_buf): break server_hash = hmac.new(mac_key, self.recv_buf[:length + 2], self.hashfunc).digest() if server_hash[:2] != self.recv_buf[length + 2: length + 4]: logging.info('%s: checksum error, data %s' % (self.no_compatible_method, binascii.hexlify(self.recv_buf[:length]))) self.raw_trans = True self.recv_buf = b'' raise Exception('client_post_decrypt data uncorrect checksum') pos = 2 if data_len > 0 and rand_len > 0: pos = 2 + self.rnd_start_pos(rand_len, self.random_server) out_buf += self.encryptor.decrypt(self.recv_buf[pos: data_len + pos]) self.last_server_hash = server_hash if self.recv_id == 1: self.server_info.tcp_mss = struct.unpack(' self.unit_len: ret += self.pack_server_data(buf[:self.unit_len]) buf = buf[self.unit_len:] ret += self.pack_server_data(buf) return ret def server_post_decrypt(self, buf): if self.raw_trans: return (buf, False) self.recv_buf += buf out_buf = b'' sendback = False if not self.has_recv_header: if len(self.recv_buf) >= 12 or len(self.recv_buf) in [7, 8]: recv_len = min(len(self.recv_buf), 12) mac_key = self.server_info.recv_iv + self.server_info.key md5data = hmac.new(mac_key, self.recv_buf[:4], self.hashfunc).digest() if md5data[:recv_len - 4] != self.recv_buf[4:recv_len]: return self.not_match_return(self.recv_buf) if len(self.recv_buf) < 12 + 24: return (b'', False) self.last_client_hash = md5data uid = struct.unpack(' self.max_time_dif: logging.info('%s: wrong timestamp, time_dif %d, data %s' % ( self.no_compatible_method, time_dif, binascii.hexlify(head) )) return self.not_match_return(self.recv_buf) elif self.server_info.data.insert(self.user_id, client_id, connection_id): self.has_recv_header = True self.client_id = client_id self.connection_id = connection_id else: logging.info('%s: auth fail, data %s' % (self.no_compatible_method, binascii.hexlify(out_buf))) return self.not_match_return(self.recv_buf) self.on_recv_auth_data(utc_time) self.encryptor = encrypt.Encryptor( to_bytes(base64.b64encode(self.user_key)) + to_bytes(base64.b64encode(self.last_client_hash)), 'rc4') self.recv_buf = self.recv_buf[36:] self.has_recv_header = True sendback = True while len(self.recv_buf) > 4: mac_key = self.user_key + struct.pack('= 4096: self.raw_trans = True self.recv_buf = b'' if self.recv_id == 1: logging.info(self.no_compatible_method + ': over size') return (b'E' * 2048, False) else: raise Exception('server_post_decrype data error') if length + 4 > len(self.recv_buf): break client_hash = hmac.new(mac_key, self.recv_buf[:length + 2], self.hashfunc).digest() if client_hash[:2] != self.recv_buf[length + 2: length + 4]: logging.info('%s: checksum error, data %s' % ( self.no_compatible_method, binascii.hexlify(self.recv_buf[:length]) )) self.raw_trans = True self.recv_buf = b'' if self.recv_id == 1: return (b'E' * 2048, False) else: raise Exception('server_post_decrype data uncorrect checksum') self.recv_id = (self.recv_id + 1) & 0xFFFFFFFF pos = 2 if data_len > 0 and rand_len > 0: pos = 2 + self.rnd_start_pos(rand_len, self.random_client) out_buf += self.encryptor.decrypt(self.recv_buf[pos: data_len + pos]) self.last_client_hash = client_hash self.recv_buf = self.recv_buf[length + 4:] if data_len == 0: sendback = True if out_buf: self.server_info.data.update(self.user_id, self.client_id, self.connection_id) return (out_buf, sendback) def client_udp_pre_encrypt(self, buf): if self.user_key is None: if b':' in to_bytes(self.server_info.protocol_param): try: items = to_bytes(self.server_info.protocol_param).split(':') self.user_key = self.hashfunc(items[1]).digest() self.user_id = struct.pack('= 1440: return 0 random.init_from_bin_len(last_hash, buf_size) pos = bisect.bisect_left(self.data_size_list, buf_size + self.server_info.overhead) final_pos = pos + random.next() % (len(self.data_size_list)) # 假设random均匀分布,则越长的原始数据长度越容易if false if final_pos < len(self.data_size_list): return self.data_size_list[final_pos] - buf_size - self.server_info.overhead # 上面if false后选择2号补全数组,此处有更精细的长度分段 pos = bisect.bisect_left(self.data_size_list2, buf_size + self.server_info.overhead) final_pos = pos + random.next() % (len(self.data_size_list2)) if final_pos < len(self.data_size_list2): return self.data_size_list2[final_pos] - buf_size - self.server_info.overhead # final_pos 总是分布在pos~(data_size_list2.len-1)之间 if final_pos < pos + len(self.data_size_list2) - 1: return 0 # 有1/len(self.data_size_list2)的概率不满足上一个if if buf_size > 1300: return random.next() % 31 if buf_size > 900: return random.next() % 127 if buf_size > 400: return random.next() % 521 return random.next() % 1021 class auth_chain_c(auth_chain_b): def __init__(self, method): super(auth_chain_c, self).__init__(method) self.salt = b"auth_chain_c" self.no_compatible_method = 'auth_chain_c' self.data_size_list0 = [] def init_data_size(self, key): if self.data_size_list0: self.data_size_list0 = [] random = xorshift128plus() random.init_from_bin(key) # 补全数组长为12~24-1 list_len = random.next() % (8 + 16) + (4 + 8) for i in range(0, list_len): self.data_size_list0.append((int)(random.next() % 2340 % 2040 % 1440)) self.data_size_list0.sort() def set_server_info(self, server_info): self.server_info = server_info try: max_client = int(server_info.protocol_param.split('#')[0]) except: max_client = 64 self.server_info.data.set_max_client(max_client) self.init_data_size(self.server_info.key) def rnd_data_len(self, buf_size, last_hash, random): other_data_size = buf_size + self.server_info.overhead # 一定要在random使用前初始化,以保证服务器与客户端同步,保证包大小验证结果正确 random.init_from_bin_len(last_hash, buf_size) # final_pos 总是分布在pos~(data_size_list0.len-1)之间 # 除非data_size_list0中的任何值均过小使其全部都无法容纳buf if other_data_size >= self.data_size_list0[-1]: if other_data_size >= 1440: return 0 if other_data_size > 1300: return random.next() % 31 if other_data_size > 900: return random.next() % 127 if other_data_size > 400: return random.next() % 521 return random.next() % 1021 pos = bisect.bisect_left(self.data_size_list0, other_data_size) # random select a size in the leftover data_size_list0 final_pos = pos + random.next() % (len(self.data_size_list0) - pos) return self.data_size_list0[final_pos] - other_data_size class auth_chain_d(auth_chain_b): def __init__(self, method): super(auth_chain_d, self).__init__(method) self.salt = b"auth_chain_d" self.no_compatible_method = 'auth_chain_d' self.data_size_list0 = [] def check_and_patch_data_size(self, random): # append new item # when the biggest item(first time) or the last append item(other time) are not big enough. # but set a limit size (64) to avoid stack overflow. if self.data_size_list0[-1] < 1300 and len(self.data_size_list0) < 64: self.data_size_list0.append((int)(random.next() % 2340 % 2040 % 1440)) self.check_and_patch_data_size(random) def init_data_size(self, key): if self.data_size_list0: self.data_size_list0 = [] random = xorshift128plus() random.init_from_bin(key) # 补全数组长为12~24-1 list_len = random.next() % (8 + 16) + (4 + 8) for i in range(0, list_len): self.data_size_list0.append((int)(random.next() % 2340 % 2040 % 1440)) self.data_size_list0.sort() old_len = len(self.data_size_list0) self.check_and_patch_data_size(random) # if check_and_patch_data_size are work, re-sort again. if old_len != len(self.data_size_list0): self.data_size_list0.sort() def set_server_info(self, server_info): self.server_info = server_info try: max_client = int(server_info.protocol_param.split('#')[0]) except: max_client = 64 self.server_info.data.set_max_client(max_client) self.init_data_size(self.server_info.key) def rnd_data_len(self, buf_size, last_hash, random): other_data_size = buf_size + self.server_info.overhead # if other_data_size > the bigest item in data_size_list0, not padding any data if other_data_size >= self.data_size_list0[-1]: return 0 random.init_from_bin_len(last_hash, buf_size) pos = bisect.bisect_left(self.data_size_list0, other_data_size) # random select a size in the leftover data_size_list0 final_pos = pos + random.next() % (len(self.data_size_list0) - pos) return self.data_size_list0[final_pos] - other_data_size class auth_chain_e(auth_chain_d): def __init__(self, method): super(auth_chain_e, self).__init__(method) self.salt = b"auth_chain_e" self.no_compatible_method = 'auth_chain_e' def rnd_data_len(self, buf_size, last_hash, random): other_data_size = buf_size + self.server_info.overhead # if other_data_size > the bigest item in data_size_list0, not padding any data if other_data_size >= self.data_size_list0[-1]: return 0 # use the mini size in the data_size_list0 pos = bisect.bisect_left(self.data_size_list0, other_data_size) return self.data_size_list0[pos] - other_data_size # auth_chain_f # when every connect create, generate size_list will different when every day or every custom time interval which set in the config class auth_chain_f(auth_chain_e): def __init__(self, method): super(auth_chain_f, self).__init__(method) self.salt = b"auth_chain_f" self.no_compatible_method = 'auth_chain_f' def set_server_info(self, server_info): self.server_info = server_info try: max_client = int(server_info.protocol_param.split('#')[0]) except: max_client = 64 self.server_info.data.set_max_client(max_client) try: self.key_change_interval = int(server_info.protocol_param.split('#')[1]) # config are in second except: self.key_change_interval = 60 * 60 * 24 # a day by second def on_recv_auth_data(self, utc_time): self.key_change_datetime_key = int(utc_time / self.key_change_interval) self.key_change_datetime_key_bytes = [] # big bit first list for i in range(7, -1, -1): # big-ending compare to c self.key_change_datetime_key_bytes.append((self.key_change_datetime_key >> (8 * i)) & 0xFF) self.init_data_size(self.server_info.key) def init_data_size(self, key): if self.data_size_list0: self.data_size_list0 = [] random = xorshift128plus() # key xor with key_change_datetime_key new_key = bytearray(key) new_key_str = '' for i in range(0, 8): new_key[i] ^= self.key_change_datetime_key_bytes[i] new_key_str += chr(new_key[i]) for i in range(8, len(new_key)): new_key_str += chr(new_key[i]) random.init_from_bin(to_bytes(new_key_str)) # 补全数组长为12~24-1 list_len = random.next() % (8 + 16) + (4 + 8) for i in range(0, list_len): self.data_size_list0.append(int(random.next() % 2340 % 2040 % 1440)) self.data_size_list0.sort() old_len = len(self.data_size_list0) self.check_and_patch_data_size(random) # if check_and_patch_data_size are work, re-sort again. if old_len != len(self.data_size_list0): self.data_size_list0.sort()