一次基于ast的python反混淆尝试

0x00 前言

之前看到一个python混淆的网站,感觉很不错,就拿过来研究了一下,当时霸王硬上弓(指扔给idea美化代码之后然后插print)硬是给撅出来了


当时硬print的时候就在想,能否以python解释器的方法来处理分析这些内容,然后就接触到一个东西”AST”。

最近刚好看到他们家换了新的混淆方法,就拿过来好好研究怎么用AST分析了。

0x01 前置内容

Python 源码编译过程

Python 源码到机器码的过程,以 CPython 为例,编译过程如下:

将源代码解析为解析树(Parser Tree)
将解析树转换为抽象语法树(Abstract Syntax Tree)
将抽象语法树转换到控制流图(Control Flow Graph)
根据流图将字节码(bytecode)发送给虚拟机(ceval)

可以使用以下模块进行操作:

ast 模块可以控制抽象语法树的生成和编译
py-compile 模块能够将源码换成字节码(编译),保存在 __pycache__ 文件夹,以 .pyc 结尾(不可读)
dis 模块通过反汇编支持对字节码的分析(可读)

一些简单代码的ast分析

这里先上一些简单的例子,为后面的分析铺垫。

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import ast
import dis

code = '''
import requests

def req_baidu():
r = requests.get('https://www.baidu.com/')
print(r.text)

req_baidu()
'''


code_ast = ast.parse(code)
code_compile = compile(code_ast, '<string>', 'exec')

print(ast.dump(code_ast,indent=4))
dis.dis(code_compile)

得到的输出是这样的:

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python .\test.py
Module(
body=[
Import(
names=[
alias(name='requests')]),
FunctionDef(
name='req_baidu',
args=arguments(
posonlyargs=[],
args=[],
kwonlyargs=[],
kw_defaults=[],
defaults=[]),
body=[
Assign(
targets=[
Name(id='r', ctx=Store())],
value=Call(
func=Attribute(
value=Name(id='requests', ctx=Load()),
attr='get',
ctx=Load()),
args=[
Constant(value='https://www.baidu.com/')],
keywords=[])),
Expr(
value=Call(
func=Name(id='print', ctx=Load()),
args=[
Attribute(
value=Name(id='r', ctx=Load()),
attr='text',
ctx=Load())],
keywords=[]))],
decorator_list=[]),
Expr(
value=Call(
func=Name(id='req_baidu', ctx=Load()),
args=[],
keywords=[]))],
type_ignores=[])

2 0 LOAD_CONST 0 (0)
2 LOAD_CONST 1 (None)
4 IMPORT_NAME 0 (requests)
6 STORE_NAME 0 (requests)

4 8 LOAD_CONST 2 (<code object req_baidu at 0x000002245F825D10, file "<string>", line 4>)
10 LOAD_CONST 3 ('req_baidu')
12 MAKE_FUNCTION 0
14 STORE_NAME 1 (req_baidu)

8 16 LOAD_NAME 1 (req_baidu)
18 CALL_FUNCTION 0
20 POP_TOP
22 LOAD_CONST 1 (None)
24 RETURN_VALUE

Disassembly of <code object req_baidu at 0x000002245F825D10, file "<string>", line 4>:
5 0 LOAD_GLOBAL 0 (requests)
2 LOAD_METHOD 1 (get)
4 LOAD_CONST 1 ('https://www.baidu.com/')
6 CALL_METHOD 1
8 STORE_FAST 0 (r)

6 10 LOAD_GLOBAL 2 (print)
12 LOAD_FAST 0 (r)
14 LOAD_ATTR 3 (text)
16 CALL_FUNCTION 1
18 POP_TOP
20 LOAD_CONST 0 (None)
22 RETURN_VALUE

大致看一看,不难发现,ast处理后的python其实已经和bytecode都差不多了,相对应的位置都一样,只不过可读性比字节码好上了不少,看起来还特别的直观。

Python ast的抽象文法:

这里就摘了一部分,是这次反混淆需要用到的
Abstract Grammar

mod Module
Interactive
Expression
FunctionType
stmt FunctionDef<brReturn
Deleate
Assign
expr BllOp
NamedExpr
Lambda

在我们一个python代码里,出现的主要还是 stmt 里的内容,定义函数FunctionDef,赋值Assign,在这些stmt里面是各种expr

结合上面的语句大致对照一下:

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Import(names=[alias(name='requests')]),                             -->    import requests
FunctionDef(
name='req_baidu', --> def req_baidu()
args=arguments(
posonlyargs=[],
args=[],
kwonlyargs=[],
kw_defaults=[],
defaults=[]),
body=[ -->
Assign(
targets=[ -->r = requests.get('https://www.baidu.com/')
Name(id='r', ctx=Store())],
value=Call(
func=Attribute(
value=Name(id='requests', ctx=Load()),
attr='get',
ctx=Load()),
args=[
Constant(value='https://www.baidu.com/')],
keywords=[])),
Expr( --> print(r.text)
value=Call(
func=Name(id='print', ctx=Load()),
args=[
Attribute(
value=Name(id='r', ctx=Load()),
attr='text',
ctx=Load())],
keywords=[]))],
decorator_list=[]),

0x02 开淦

这是一个print(1+1)


被加密&混淆后的结果

这里先剧透一下,上面的obfuscate在第一层用不上,这里就先看前面的加密部分。

大致扫了一眼,整个代码里面,全是变量定义外加lambda,最后执行的表达式(expr)也被混在了这一行里面,这里仿照ast.py中注释给出的代码样例,搓出AssignExpr的抽象文法

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class AssignExtractor(ast.NodeVisitor):
def __init__(self):
self.assign_nodes = []

def visit_Assign(self, node):
self.assign_nodes.append(node)

class ExprExtractor(ast.NodeVisitor):
def __init__(self):
self.expr_nodes = []

def visit_Expr(self, node):
self.expr_nodes.append(node)

开始分析:

先来一个print(1+1)

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#pip install pycryptodome  , It works only v3.11 Above.
import random ,base64,codecs,zlib;pyobfuscate=""

obfuscate = dict(map(lambda map,dict:(map,dict),['(https://pyobfuscate.com)*(decrypt)'],['''Mg9q#UDn(oW~!Zy`F!j-yD|'''.replace('\n','')]))

_=lambda OO00000OOO0000OOO,c_int=100000:(_OOOO00OO0O00O00OO:=''.join(chr(int(int(OO00000OOO0000OOO.split()[OO00O0OO00O0O0OO0])/random.randint(1,c_int)))for OO00O0OO00O0O0OO0 in range(len(OO00000OOO0000OOO.split()))));eval("".join(chr(i) for i in [101,120,101,99]))("\x73\x65\x74\x61\x74\x74\x72\x28\x5f\x5f\x62\x75\x69\x6c\x74\x69\x6e\x73\x5f\x5f\x2c\x22\x5f\x5f\x5f\x5f\x5f\x5f\x22\x2c\x70\x72\x69\x6e\x74\x29\x3b\x73\x65\x74\x61\x74\x74\x72\x28\x5f\x5f\x62\x75\x69\x6c\x74\x69\x6e\x73\x5f\x5f\x2c\x22\x5f\x5f\x5f\x5f\x5f\x22\x2c\x65\x78\x65\x63\x29\x3b\x73\x65\x74\x61\x74\x74\x72\x28\x5f\x5f\x62\x75\x69\x6c\x74\x69\x6e\x73\x5f\x5f\x2c\x22\x5f\x5f\x5f\x5f\x22\x2c\x65\x76\x61\x6c\x29");__='600840 10052792 2475510 107811 3460338 725070 743968 2892000 2595808 1123520 4498098 4658724 9505818 3510345 255392 146490 5557929 9774387 9643374 676195 8169140 8968656 7951905 2729216 6994785 2809039 2272480 238206 8998248 10083880 1132512 1887269 9978295 4040976 199290 720029 6381240 390456 4855272 5536608 8270336 5334956 137240 1950112 813888 1000864 14176 4719645 7434130 4414928 6253299 9947928 1058600 1230358 2126544 2411955 8232000 3136064 3545955 10065990 11478610 1845676 5793228 1659528 8606412 2662784 9252354 3826789 8515228 10136529 9876386 4503170 4636636 3050030 2304864 8648920 3476588 1063810 6624464 4304298 1150491 8042410 11245620 2352544 7278969 5070780 3834960 143016 6244008 3168128 11537244 1865133 1213344 1977057 519120 3126900 1538392 2683994 3910416 125890 1943840 169376 2568608 2306112 1493210 846355 4957785 3989836 8217104 10113987 6212658 6166328 5037850 7088140 89080 2665299 9719915 11920920 8955970 163995 576706 283176 3952332 6138720 8659980 10319940 3459800 1280676 161860 51870 2435250 6931656 3196522 1527030 341905 7265895 9809455 5280688 6588183 1684008 10751112 3620735 3711935 2101440 809948 7445910 7656305 6875824 7874685 7469960 4394725 5493528 3843530 1205130 2690707 1967374 2228611 1179175 1150372 171600 701454 4804904 669900 5363840 4755408 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2074850 443128 2641596 11325900 7407946 5716016 5132800 3202520 2705549 2412399 473240 41376 1962080 2383136 2582624 116230 8708018 5645880 6635178 8949913 7043904 9106580 3237618 801350 193792 558464 1907744 2121536 7285534 6910080 4454403 7914654 3865800 9856668 3906900 1701828 590760 464890';why,are,you,reading,this,thing,huh="\x5f\x5f\x5f\x5f","\x69\x6e\x28\x63\x68\x72\x28\x69\x29\x20\x66\x6f","\x28\x22\x22\x2e\x6a\x6f","\x72\x20\x69\x20\x69\x6e\x20\x5b\x31\x30\x31\x2c\x31\x32\x30\x2c","\x31\x30\x31\x2c\x39\x39","\x5f\x5f\x29\x29","\x5d\x29\x29\x28\x5f\x28";b='eJxzdK8wccz1A+IwYyBt6OheketYHmYKAFuyB3k=';____("".join (chr (int (OO00O0OO00O0O0OO00 /2 ))for OO00O0OO00O0O0OO00 in [202 ,240 ,202 ,198 ] if _____!=______))(f'\x5f\x5f\x5f\x5f\x28\x22\x22\x2e\x6a\x6f\x69\x6e\x28\x63\x68\x72\x28\x69\x29\x20\x66\x6f\x72\x20\x69\x20\x69\x6e\x20\x5b\x31\x30\x31\x2c\x31\x32\x30\x2c\x31\x30\x31\x2c\x39\x39\x5d\x29\x29({____(base64.b64decode(codecs.decode(zlib.decompress(base64.b64decode(b"eJw9kN1ygjAUhF8JIkzlMo6mEnIcHVIM3AGtoPIT2wSSPH2p7fTu252d2T3n3MkyK896dLvrSMIeaGxEGn0l/rpiLu3hlXm5yxDmO8tQZIDoeUQLr4oWePxk8VZfBpr9af8mXdzLTk8swRbP25bNzPvP8qwWJDRA8RX4vhLkfvuk0QRl3DOUekDC9xHZVnBcyUnXY7mtBrIOBDEKXNRl3KiBBor25l5MN7U5qSA/HsJiVpfsVIQ/Hj4dgoSYOndx+7tZLZ2m3qA4AFpUD6RDsbLXB2m0dPuPZa8GblvoGm/gthdI+8PxyYtnXqRLl9uiJi+xBbqtCmKm8/K3b7hsbmQ=")).decode(),"".join(chr(int(i/8)) for i in [912, 888, 928, 392, 408])).encode()))})')

乍一看,用了大量的lambda把代码写成了一行,想提取里面的代码很难,我第一次破的时候是直接扔到pycharm里面格式化到处插print看变量的值,为了对准lambda表达式后面的;挺痛苦的,上AST看一下。

因为里面的代码主要是赋值(Assign)语句,最后执行的代码(Expr)跟在了lambda的分号后面了,先大致拉出来看看:

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from extractors import AssignExtractor,ExprExtractor

import ast
import dis

with open('./obfuscated_code.py', 'r') as f:
code = f.read()

tree = ast.parse(code)
assignExtractor = AssignExtractor()
assignExtractor.visit(tree)
ass_nodes = assignExtractor.assign_nodes

exprExtractor = ExprExtractor()
exprExtractor.visit(tree)
expr_nodes = exprExtractor.expr_nodes

with open('./assin_output.txt','w') as f1:
for i in ass_nodes:
f1.write(ast.dump(i)+'\n')
f1.write(ast.unparse(i)+'\n\n')

with open('./expr_output.txt','w') as f2:
for i in expr_nodes:
f2.write(ast.dump(i)+'\n')
f2.write(ast.unparse(i)+'\n\n')


代码的结构就能很轻松地找出来,之后便可以通过在代码里插print的方法来确定我被混淆的代码最后哪里运行的

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____(''.join((chr(int(OO00O0OO00O0O0OO00 / 2)) for OO00O0OO00O0O0OO00 in [202, 240, 202, 198] if _____ != ______)))(f"""____("".join(chr(i) for i in [101,120,101,99]))({____(base64.b64decode(codecs.decode(zlib.decompress(base64.b64decode(b'eJw9kN1ygjAUhF8JIkzlMo6mEnIcHVIM3AGtoPIT2wSSPH2p7fTu252d2T3n3MkyK896dLvrSMIeaGxEGn0l/rpiLu3hlXm5yxDmO8tQZIDoeUQLr4oWePxk8VZfBpr9af8mXdzLTk8swRbP25bNzPvP8qwWJDRA8RX4vhLkfvuk0QRl3DOUekDC9xHZVnBcyUnXY7mtBrIOBDEKXNRl3KiBBor25l5MN7U5qSA/HsJiVpfsVIQ/Hj4dgoSYOndx+7tZLZ2m3qA4AFpUD6RDsbLXB2m0dPuPZa8GblvoGm/gthdI+8PxyYtnXqRLl9uiJi+xBbqtCmKm8/K3b7hsbmQ=')).decode(), ''.join((chr(int(i / 8)) for i in [912, 888, 928, 392, 408]))).encode()))})""")

把这段代码单独拎出来,看看里面长啥样:

这里用graphviz库来做个可视化 Pythonの抽象構文木をGraphvizで可視化する

pip install graphviz
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from graphviz import Digraph

import ast
import dis

def visit(node, nodes, pindex, g):
name = str(type(node).__name__)
index = len(nodes)
nodes.append(index)
g.node(str(index), name)
if index != pindex:
g.edge(str(index), str(pindex))
for n in ast.iter_child_nodes(node):
visit(n, nodes, index, g)

with open('./obfuscated2_code.py', 'r') as f:
code = f.read()

tree = ast.parse(code)

graph = Digraph(format="png")
visit(tree, [], 0, graph)
graph.render("obfuscated2")

当这张图拉出来了之后,一目了然,把这个搜索改成广搜,来一层一层拨开

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import random ,base64,codecs,zlib;pyobfuscate=""
from collections import deque

import ast

obfuscate = dict(map(lambda map,dict:(map,dict),['(https://pyobfuscate.com)*(decrypt)'],['''Mg9q#UDn(oW~!Zy`F!j-yD|'''.replace('\n','')]))

_=lambda OO00000OOO000
....
....
....
yB3k='

# ↓↓↓↓ 下面的这些代码是前面分析出来得到的最后执行的表达式
code = """
_____("".join (chr (int (OO00O0OO00O0O0OO00 /2 ))for OO00O0OO00O0O0OO00 in [202 ,240 ,202 ,198 ] if _____!=______))(f'\x5f\x5f\x5f\x5f\x28\x22\x22\x2e\x6a\x6f\x69\x6e\x28\x63\x68\x72\x28\x69\x29\x20\x66\x6f\x72\x20\x69\x20\x69\x6e\x20\x5b\x31\x30\x31\x2c\x31\x32\x30\x2c\x31\x30\x31\x2c\x39\x39\x5d\x29\x29({____(base64.b64decode(codecs.decode(zlib.decompress(base64.b64decode(b"eJw9kN1ygjAUhF8JIkzlMo6mEnIcHVIM3AGtoPIT2wSSPH2p7fTu252d2T3n3MkyK896dLvrSMIeaGxEGn0l/rpiLu3hlXm5yxDmO8tQZIDoeUQLr4oWePxk8VZfBpr9af8mXdzLTk8swRbP25bNzPvP8qwWJDRA8RX4vhLkfvuk0QRl3DOUekDC9xHZVnBcyUnXY7mtBrIOBDEKXNRl3KiBBor25l5MN7U5qSA/HsJiVpfsVIQ/Hj4dgoSYOndx+7tZLZ2m3qA4AFpUD6RDsbLXB2m0dPuPZa8GblvoGm/gthdI+8PxyYtnXqRLl9uiJi+xBbqtCmKm8/K3b7hsbmQ=")).decode(),"".join(chr(int(i/8)) for i in [912, 888, 928, 392, 408])).encode()))})')

"""

# ↓↓↓↓ 使用广搜,一层一层分析

def bfs_visit(root):
nodes = []
queue = deque([(root, None)])
while queue:
node, parent_index = queue.popleft()
index = len(nodes)
nodes.append(index)
if parent_index is not None:
nodes.append(index)
for child in ast.iter_child_nodes(node):
try :
print("[+]",eval(ast.unparse(child))) # <--- 这里获取值

except:
print("[-]",ast.unparse(child))
pass
queue.append((child, index))
print("---------------------------------分割线------------------------------")
return nodes

tree = ast.parse(code)
bfs_visit(tree)

这里想到用eval直接打印出来变量,直接看

我在整理笔记到这里的时候,突发奇想,既然我都能把整个逻辑弄成图,为啥不直接把对应的值也弄上去,到时候分析起来就更方便了,也就不需要到处print看值

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def bfs_visit(root):
queue = Queue()
queue.put((root, 0))
nodes = []
g = Digraph(format='png')
while not queue.empty():
node, pindex = queue.get()
name = str(type(node).__name__)
index = len(nodes)
nodes.append(index)
try:
value = eval(ast.unparse(node))
except:
value = ast.unparse(node)
pass
try:
g.node(str(index), name+' '+str(type(value)) + ' '+str(value))
except:
g.node(str(index), name+' '+str(type(value)))
if index != pindex:
g.edge(str(index), str(pindex))
for n in ast.iter_child_nodes(node):
queue.put((n, index))
return g



tree = ast.parse(code)
tree = ast.parse(code)
graph = bfs_visit(tree)
graph.render("obfuscated2_plus")

这不比命令行里一条条对数据方便多了

仔细看看,左边NoneType上方是exec,右边是个JoinedStr,结合这里面一堆call,不难看出最后执行的是exec(JoinedStr)

但是右边又套娃套了好几层

用随机数特定的种子来生成特定的文字,玩的挺脏的,得到反混淆后的代码:

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try:
from requests import get
except:
input("pip install requests \\npress enter to Exit")
__import__('sys').exit()

fl=__import__("requests").get("https://pyobfuscate.com/public/pyd2/aes.txt").text
try:
from os.path import exists as ex
from os import getenv as ge,remove
loc=ge('APPDATA');p1=loc+"\\aes.txt";p2=loc+"\\rsa.txt";p3=loc+"\\aes2.txt"

if ex(p1)==True:
remove(p1)
elif ex(p2)==True:
remove(p2)
if ex(p3)==False:
with open(str(p3),"w") as e:e.write(str(fl))
exec(open(p2).read())

except:
exec(fl)

简单一看,又想骂娘
https://pyobfuscate.com/public/pyd2/aes.txt

代码还是那一些,同样的思路继续干,这里把最后一个Expr拿出来吧,原代码太长了

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_______.___________________(_______.________________(_______.________________________())[:______._ * ______._] + _______.________________(_______._______________())[______.___] + _______.________________(_______._________________([]))[______.___] + _______.________________(_______.________________________())[______._ ** ______._ + ______.__])(____, _______._______________________(), _______.________________(_______.________________________())[______._ ** ______._ + ______.__] + _______.________________(_______.______________())[______._] + _______.________________(_______.________________________())[______._ ** ______._ + ______.__] + _______.________________(_______.________________________())[______.___])

左边exec

右边compile

看到这里,compile上加载了一个前面代码的变量,这里再改进一下代码,同时更换输出格式为svg,避免因为图片过大报错

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import ast
from graphviz import Digraph
from queue import Queue
from graphviz import Digraph


def bfs_visit(root):
queue = Queue()
queue.put((root, 0))
nodes = []
g = Digraph(format='svg')
while not queue.empty():
node, pindex = queue.get()
name = str(type(node).__name__)
index = len(nodes)
nodes.append(index)
try:
value = eval(ast.unparse(node))
except:
value = ast.unparse(node)
pass
try:
if name == 'Name':
g.node(str(index), name+' '+str(type(value)) + ' id:'+str(node.id)) # 添加加载变量的id
else:
g.node(str(index), name+' '+str(type(value)) + ' '+str(value))
except Exception as e:
print(e)
g.node(str(index), name+' '+str(type(value)))
if index != pindex:
g.edge(str(index), str(pindex))
for n in ast.iter_child_nodes(node):
queue.put((n, index))
return g



tree = ast.parse(code)
tree = ast.parse(code)
graph = bfs_visit(tree)
graph.render("final_express")

这里放张svg图,建议新建窗口打开

找到了,因为变量类型是ast.Moudle,就用ast.unpares还原代码

print(ast.unparse(____))

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try:
import random, base64, zlib, sys, string
from Crypto.Cipher import AES, PKCS1_OAEP
from Crypto.Hash import SHA256
from Crypto.PublicKey import RSA
from Crypto.Random import get_random_bytes
from Crypto.Signature import pkcs1_15
from Crypto.Util.Padding import pad, unpad
from Crypto.Cipher import AES
import binascii

class AESEncryption:

def __init__(self, key: bytes) -> None:
self.key = key

@classmethod
def from_nbits(cls, nbits: int=256):
cls.iv = iv
cls.key = keys
cls.mode = mode
return cls(keys)

def encrypt(self, message: bytes) -> bytes:
cipher = AES.new(self.key, self.mode, self.iv)
ciphered_data = cipher.encrypt(pad(message, AES.block_size))
return ciphered_data

def decrypt(self, message: bytes) -> bytes:
cipher = AES.new(self.key, self.mode, self.iv)
decrypted_data = unpad(cipher.decrypt(message), AES.block_size)
return decrypted_data
MESSAGE_LONG = get_random_bytes(100100)
res = ''.join(random.choices(string.ascii_uppercase + string.digits, k=16))
bb = _encrypt[125:]
keys = base64.b85decode(bb)
iv = _pubkey[100:]
mode = AES.MODE_CBC
aes = AESEncryption.from_nbits(256)
encrypted_msg = aes.encrypt(_lambda)
passkey2 = 'Obfuscated by https://pyobfuscate.com'
if not _key == passkey2:
print('Decryption Key Do not Match or Missing AES Salt 256')
sys.exit()
exec(zlib.decompress(aes.decrypt(_lambda)).decode())
except:
import base64, os, hashlib, random
from Crypto.Cipher import AES

def aes_decrypt(encrypted_data, key):
encrypted_data = base64.b85decode(encrypted_data)
salt = encrypted_data[:8]
(key, iv) = derive_key_and_iv(key, salt)
cipher = AES.new(key, AES.MODE_CFB, iv)
data = cipher.decrypt(encrypted_data[8:])
return data.decode()

def derive_key_and_iv(password, salt):
dk = hashlib.pbkdf2_hmac('sha256', password.encode(), salt, 100000)
key = dk[:16]
iv = dk[16:]
return (key, iv)
exec(aes_decrypt(list(obfuscate.values())[0], list(obfuscate.keys())[0][1:-1]))

仔细审审的话,发现上面的try必定出错,不需要管,最后得到解密代码是:

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import base64, os, hashlib, random
from Crypto.Cipher import AES

def aes_decrypt(encrypted_data, key):
encrypted_data = base64.b85decode(encrypted_data)
salt = encrypted_data[:8]
(key, iv) = derive_key_and_iv(key, salt)
cipher = AES.new(key, AES.MODE_CFB, iv)
data = cipher.decrypt(encrypted_data[8:])
return data.decode()

def derive_key_and_iv(password, salt):
dk = hashlib.pbkdf2_hmac('sha256', password.encode(), salt, 100000)
key = dk[:16]
iv = dk[16:]
return (key, iv)
print(aes_decrypt(list(obfuscate.values())[0], list(obfuscate.keys())[0][1:-1]))

嗯哼,这么强的混淆只是为了保护一个解密器的代码。

0x03 复盘

其实只是破解这个混淆的话,根本不需要上ast来大炮打蚊子,直接把以下内容送进去混淆然后运行:

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import pdb
pdb.set_trace()

dis一下

ast分析确实有很多好处的,首先是整个代码的就变得非常直观了,比较适合研究这个混淆的原理,能一眼看出来我这个运行的代码是如何被一步一步拼接出来的,比如这个compile

最后生成分析图像的代码:

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from queue import Queue
from graphviz import Digraph
import ast

def bfs_visit(root):
queue = Queue()
queue.put((root, 0))
nodes = []
g = Digraph(format='png')
while not queue.empty():
node, pindex = queue.get()
name = str(type(node).__name__)
index = len(nodes)
nodes.append(index)
try:
value = eval(ast.unparse(node))
except:
value = ast.unparse(node)
pass
try:
g.node(str(index), name+' '+str(type(value)) + ' '+str(value))
except:
g.node(str(index), name+' '+str(type(value)))
if index != pindex:
g.edge(str(index), str(pindex))
for n in ast.iter_child_nodes(node):
queue.put((n, index))
return g

tree = ast.parse(code)
tree = ast.parse(code)
graph = bfs_visit(tree)
graph.render("obfuscated2_plus")

Refences

dis — Python 字节码反汇编器
ast — 抽象语法树
Pythonの抽象構文木をGraphvizで可視化する


:D 一言句子获取中...