从HGAME的pyc逆向来看手撸opcode – 作者:MoR03r

一次pyc文件恢复

红日安全:MoR03r

红日博客:http://sec-redclub.com/team/

Python Pyc的文件格式

[compile.h]

/* Bytecode object */

typedef struct {

    PyObject_HEAD

    int co_argcount;        /* #arguments, except *args */

    int co_nlocals;     /* #local variables */

    int co_stacksize;       /* #entries needed for evaluation stack */

    int co_flags;       /* CO_..., see below */

    PyObject *co_code;      /* instruction opcodes */

    PyObject *co_consts;    /* list (constants used) */

    PyObject *co_names;     /* list of strings (names used) */

    PyObject *co_varnames;  /* tuple of strings (local variable names) */

    PyObject *co_freevars;  /* tuple of strings (free variable names) */

    PyObject *co_cellvars;      /* tuple of strings (cell variable names) */

    /* The rest doesn't count for hash/cmp */

    PyObject *co_filename;  /* string (where it was loaded from) */

    PyObject *co_name;      /* string (name, for reference) */

    int co_firstlineno;     /* first source line number */

    PyObject *co_lnotab;    /* string (encoding addr<->lineno mapping) */

} PyCodeObject;

加载pyc co_code

In [1]: import dis,marshal

In [2]: f=open('third.pyc')

In [3]: f.read(4)

Out[3]: '\x03\xf3\r\n'

In [4]: f.read(4)

Out[4]: '\xf1\xe1S\\'

In [5]: code = marshal.load(f)

In [6]: code.co_consts

Out[6]: 

(-1,

 None,

 '+',

 '/',

 'FcjTCgD1EffEm2rPC3bTyL5Wu2bKBI9KAZrwFgrUygHN',

 <code object encode at 0x7f0420ee7f30, file "third.py", line 7>,

 "Welcome to Processor's Python Classroom Part 3&4!\n",

 'qi shi wo jiu shi lan cai ba liang dao ti fang zai yi qi.',

 "Now let's start the origin of Python!\n",

 'Plz Input Your Flag:\n',

 2,

 0,

 1,

 '',

 "You're right! ",

 "You're Wrong! ")

In [7]: code.co_varnames

Out[7]: ()

In [8]: code.co_names

Out[8]: 

('string',

 'list',

 'letters',

 'digits',

 'dec',

 'encode',

 'raw_input',

 'enc',

 'lst',

 'reverse',

 'len',

 'llen',

 'range',

 'i',

 'chr',

 'ord',

 'enc2',

 'join',

 'enc3')

In [9]: code.co_code

Out[9]: 'q\x03\x00q\t\x00d\x0f\x00q\x0e\x00Gdd\x00\x00d\x01\x00l\x00\x00Z\x00\x00e\x01\x00e\x00\x00j\x02\x00\x83\x01\x00e\x01\x00e\x00\x00j\x03\x00\x83\x01\x00\x17d\x02\x00d\x03\x00g\x02\x00\x17Z\x02\x00d\x04\x00Z\x04\x00d\x05\x00\x84\x00\x00Z\x05\x00d\x06\x00GHd\x07\x00GHd\x08\x00GHd\t\x00GHe\x06\x00\x83\x00\x00Z\x07\x00e\x01\x00e\x07\x00\x83\x01\x00Z\x08\x00e\x08\x00j\t\x00\x83\x00\x00\x01e\n\x00e\x08\x00\x83\x01\x00Z\x0b\x00xc\x00e\x0c\x00e\x0b\x00\x83\x01\x00D]U\x00Z\r\x00e\r\x00d\n\x00\x16d\x0b\x00k\x02\x00r\xc4\x00e\x0e\x00e\x0f\x00e\x08\x00e\r\x00\x19\x83\x01\x00d\n\x00\x18\x83\x01\x00e\x08\x00e\r\x00<n\x00\x00e\x0e\x00e\x0f\x00e\x08\x00e\r\x00\x19\x83\x01\x00d\x0c\x00\x17\x83\x01\x00e\x08\x00e\r\x00<q\x8d\x00Wd\r\x00Z\x10\x00e\x10\x00j\x11\x00e\x08\x00\x83\x01\x00Z\x10\x00e\x05\x00e\x10\x00\x83\x01\x00Z\x12\x00e\x12\x00e\x04\x00k\x02\x00r\x1b\x01d\x0e\x00GHn\x05\x00d\x0f\x00GHd\x01\x00S'

使用dis库对co_code进行解释

In [10]: dis.dis(code.co_code)

          0 JUMP_ABSOLUTE       3

    >>    3 JUMP_ABSOLUTE       9

          6 LOAD_CONST         15 (15)

    >>    9 JUMP_ABSOLUTE      14

         12 PRINT_ITEM     

         13 LOAD_CONST        100 (100)

         16 STOP_CODE      

         17 LOAD_CONST          1 (1)

         20 IMPORT_NAME         0 (0)

         23 STORE_NAME          0 (0)

         26 LOAD_NAME           1 (1)

         29 LOAD_NAME           0 (0)

         32 LOAD_ATTR           2 (2)

         35 CALL_FUNCTION       1

         38 LOAD_NAME           1 (1)

         41 LOAD_NAME           0 (0)

         44 LOAD_ATTR           3 (3)

         47 CALL_FUNCTION       1

         50 BINARY_ADD     

         51 LOAD_CONST          2 (2)

         54 LOAD_CONST          3 (3)

         57 BUILD_LIST          2

         60 BINARY_ADD     

         61 STORE_NAME          2 (2)

         64 LOAD_CONST          4 (4)

         67 STORE_NAME          4 (4)

         70 LOAD_CONST          5 (5)

         73 MAKE_FUNCTION       0

         76 STORE_NAME          5 (5)

         79 LOAD_CONST          6 (6)

         82 PRINT_ITEM     

         83 PRINT_NEWLINE  

         84 LOAD_CONST          7 (7)

         87 PRINT_ITEM     

         88 PRINT_NEWLINE  

         89 LOAD_CONST          8 (8)

         92 PRINT_ITEM     

         93 PRINT_NEWLINE  

         94 LOAD_CONST          9 (9)

         97 PRINT_ITEM     

         98 PRINT_NEWLINE  

         99 LOAD_NAME           6 (6)

        102 CALL_FUNCTION       0

        105 STORE_NAME          7 (7)

        108 LOAD_NAME           1 (1)

        111 LOAD_NAME           7 (7)

        114 CALL_FUNCTION       1

        117 STORE_NAME          8 (8)

        120 LOAD_NAME           8 (8)

        123 LOAD_ATTR           9 (9)

        126 CALL_FUNCTION       0

        129 POP_TOP        

        130 LOAD_NAME          10 (10)

        133 LOAD_NAME           8 (8)

        136 CALL_FUNCTION       1

        139 STORE_NAME         11 (11)

        142 SETUP_LOOP         99 (to 244)

        145 LOAD_NAME          12 (12)

        148 LOAD_NAME          11 (11)

        151 CALL_FUNCTION       1

        154 GET_ITER       

        155 FOR_ITER           85 (to 243)

        158 STORE_NAME         13 (13)

        161 LOAD_NAME          13 (13)

        164 LOAD_CONST         10 (10)

        167 BINARY_MODULO  

        168 LOAD_CONST         11 (11)

        171 COMPARE_OP          2 (==)

        174 POP_JUMP_IF_FALSE   196

        177 LOAD_NAME          14 (14)

        180 LOAD_NAME          15 (15)

        183 LOAD_NAME           8 (8)

        186 LOAD_NAME          13 (13)

        189 BINARY_SUBSCR  

        190 CALL_FUNCTION       1

        193 LOAD_CONST         10 (10)

    >>  196 BINARY_SUBTRACT

        197 CALL_FUNCTION       1

        200 LOAD_NAME           8 (8)

        203 LOAD_NAME          13 (13)

        206 STORE_SUBSCR   

        207 JUMP_FORWARD        0 (to 210)

    >>  210 LOAD_NAME          14 (14)

        213 LOAD_NAME          15 (15)

        216 LOAD_NAME           8 (8)

        219 LOAD_NAME          13 (13)

        222 BINARY_SUBSCR  

        223 CALL_FUNCTION       1

        226 LOAD_CONST         12 (12)

        229 BINARY_ADD     

        230 CALL_FUNCTION       1

        233 LOAD_NAME           8 (8)

        236 LOAD_NAME          13 (13)

        239 STORE_SUBSCR   

        240 JUMP_ABSOLUTE     141

    >>  243 POP_BLOCK      

    >>  244 LOAD_CONST         13 (13)

        247 STORE_NAME         16 (16)

        250 LOAD_NAME          16 (16)

        253 LOAD_ATTR          17 (17)

        256 LOAD_NAME           8 (8)

        259 CALL_FUNCTION       1

        262 STORE_NAME         16 (16)

        265 LOAD_NAME           5 (5)

        268 LOAD_NAME          16 (16)

        271 CALL_FUNCTION       1

        274 STORE_NAME         18 (18)

        277 LOAD_NAME          18 (18)

        280 LOAD_NAME           4 (4)

    >>  283 COMPARE_OP          2 (==)

        286 POP_JUMP_IF_FALSE   283

        289 LOAD_CONST         14 (14)

        292 PRINT_ITEM     

        293 PRINT_NEWLINE  

        294 JUMP_FORWARD        5 (to 302)

        297 LOAD_CONST         15 (15)

        300 PRINT_ITEM     

        301 PRINT_NEWLINE  

    >>  302 LOAD_CONST          1 (1)

        305 RETURN_VALUE

刚开始走了一些弯路,通读了opcode,结果发现并不需要,只要将反uncompyle2的部分去掉,修改co_code长度即可正常反编译,期望修改后的opcode首行为

0 LOAD_CONST 0(0)

1 LOAD_CONST 1(1)

...

使用hexdump查看文件

viewhd.png

0x64 操作为LOAD_CONST,用法举例:LOAD_CONST 1 HEX: 640100

0x71 操作为JUMP_ABSOLUTE,用法举例:JUMP_ABSOLUTE 14 HEX: 710e00

0x65 操作为LOAD_NAME,用法举例:LOAD_NAME 1 HEX: 650100

修改原始pyc

通过opcodehexdump可以确定,当前co_code长度为0x132(此处为小端显示,0x1a1b位置),0x1e0x2c(左闭右开)这部分为混淆代码,直接从16进制数据中删除,然后修改co_code长度为0x132-(0x2c-0x1e),即改为24 01,保存代码

In [1]: with open('third.pyc','r') as f:

   ...:     dt = f.read()

   ...:     

In [2]: dt = dt[:0x1a]+'\x24'+dt[0x1b:0x1e]+dt[0x2c:]

In [3]: with open('third_test2.pyc', 'w') as f:

   ...:     f.write(dt)

   ...:

然后使用uncompyle2 third_test2.pyc > third_source.py进行反编译

源码如下:

# 2019.02.16 14:17:20 CST

#Embedded file name: third.py

import string

letters = list(string.letters) + list(string.digits) + ['+', '/']

dec = 'FcjTCgD1EffEm2rPC3bTyL5Wu2bKBI9KAZrwFgrUygHN'

def encode(input_str):

    str_ascii_list = [ '{:0>8}'.format(str(bin(ord(i))).replace('0b', '')) for i in input_str ]

    output_str = ''

    equal_num = 0

    while str_ascii_list:

        temp_list = str_ascii_list[:3]

        if len(temp_list) != 3:

            while len(temp_list) < 3:

                equal_num += 1

                temp_list += ['00000000']

        temp_str = ''.join(temp_list)

        temp_str_list = [ temp_str[x:x + 6] for x in [0,

         6,

         12,

         18] ]

        temp_str_list = [ int(x, 2) for x in temp_str_list ]

        if equal_num:

            temp_str_list = temp_str_list[0:4 - equal_num]

        output_str += ''.join([ letters[x] for x in temp_str_list ])

        str_ascii_list = str_ascii_list[3:]

    output_str = output_str + '=' * equal_num

    return output_str

print "Welcome to Processor's Python Classroom Part 3&4!\n"

print 'qi shi wo jiu shi lan cai ba liang dao ti fang zai yi qi.'

print "Now let's start the origin of Python!\n"

print 'Plz Input Your Flag:\n'

enc = raw_input()

lst = list(enc)

lst.reverse()

llen = len(lst)

for i in range(llen):

    if i % 2 == 0:

        lst[i] = chr(ord(lst[i]) - 2)

    lst[i] = chr(ord(lst[i]) + 1)

enc2 = ''

enc2 = enc2.join(lst)

enc3 = encode(enc2)

if enc3 == dec:

    print "You're right! "

else:

    print "You're Wrong! "

# +++ okay decompyling third_test2.pyc 

# decompiled 1 files: 1 okay, 0 failed, 0 verify failed

# 2019.02.16 14:17:21 CST

至此,代码已经还原,剩下的题目就很简单了。

解读代码

encode函数实现了一个base64,这里有一点点坑,这里的base64编码范围为abcdefghijklmnopqrstuvwxyzABCDEFGHIJKLMNOPQRSTUVWXYZ0123456789+/,并非原生的ABCDEFGHIJKLMNOPQRSTUVWXYZabcdefghijklmnopqrstuvwxyz0123456789+/,直接转换一下就好

solve.py↓

#!/usr/bin/python

# -*- coding: utf-8 -*-

def decode(input_str):

    output_str = ''

    for i in input_str:

        if ord(i)>57 and ord(i)<91:

            output_str += i.lower()

        elif ord(i)>91:

            output_str += i.upper()

        else:

            output_str += i

    lst = list(output_str.decode('base64'))

    llen = len(lst)

    for i in range(llen):

        lst[i] = chr(ord(lst[i]) - 1)

        if i % 2 == 0:

            lst[i] = chr(ord(lst[i]) + 2)

    lst.reverse()

    return ''.join(lst)

if __name__ == '__main__':

dec = 'FcjTCgD1EffEm2rPC3bTyL5Wu2bKBI9KAZrwFgrUygHN'

print decode(dec)

参考文章

http://butian.360.cn/School/content?id=429)

https://0x48.pw/2017/03/20/0x2f

来源:freebuf.com 2019-04-02 09:15:12 by: MoR03r

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