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0x00:介绍
以下为一些简单的Windows逆向入门题目,帮助一些刚接触逆向又无法下手的朋友,如果对安卓逆向感兴趣的朋友可以看一下我的这一篇安卓逆向入门题目哦:
https://blog.csdn.net/CharlesGodX/article/details/86602958
<https://blog.csdn.net/CharlesGodX/article/details/86602958>
0x01:题目
1.Bugkuctf平台中的逆向题easy_vb:
打开文件发现需要输入注册码获取flag
话不多说先放入PEID看看,养成这个好习惯,发现是用VB6写的
我们载入IDA进行分析,用alt + t搜索字符串CTF,然后crtl + t搜索下一个字符串,直到看到flag
2.Bugkuctf平台中的逆向题Easy_Re:
先把文件下载下来载入PEID
运行文件发现有字符串flag,于是考虑用IDA打开文件用alt+F12查找字符串flag
来到这里发现xmmword后面有两串奇怪的字符串,我们将其选中按R键将其变成字符串发现flag
3.南邮CTF逆向题Hello,RE!
下载文件用PEID载入,无壳,运行一下发现让输入flag,老办法用IDA打开查找字符串flag
查找到之后用f5查看伪代码
看到如下结果,同样将v5~v11的结果用R改为字符串得到flag
4.实验吧 Just Click
下载文件用exeinfo这款软件查看发现程序用C#撰写
打开软件发现需要点击相应的数字才能发现flag
因为是用C#写的所以我们考虑用Reflector软件将其打开
找到MainWindow发现类似主函数的东西,分析发现需要按顺序点击8次就能出现flag
按这个顺序点击即出现flag。
5.南邮CTF py交易
链接:https://pan.baidu.com/s/1o8fVxkI <https://pan.baidu.com/s/1o8fVxkI>密码:kd37
下载文件发现是pyc格式,我们直接在网上找在线反编译python的网站:https://tool.lu/pyc/ <https://tool.lu/pyc/>
反编译后发现是这样的
分析算法:首先输入一段字符串,进入encode函数之后与字符串correct进行比较
encode函数就是将输入的字符串中每个字符ascii都与32进行异或运算,然后每个在加上16得到新的字符串,最后再将这个字符
串进行base64加密。
所以我们只需将"XlNkVmtUI1MgXWBZXCFeKY+AaXNt"进行base64解密,再将每个字符ascii码都减16,接着与32异或即可得
到flag
python代码如下:
import base64 correct ='XlNkVmtUI1MgXWBZXCFeKY+AaXNt' s =
base64.b64decode(correct) flag ='' for i in s: i = chr((ord(i)-16)^32) flag +=
i print flag
运行即可得到flag:nctf{d3c0mpil1n9_PyC}
6.Jarvis OJ :FindKey
下载文件发现是一个名字比较长的东西(大多数题目后缀名都比较长)
用一款叫做斯托夫文件格式分析器分析一下这个软件的类型
发现是python写的,将其后缀名改为.pyc然后放入在线反编译网站里得到如下
import sys lookup = [ 196,153, 149,206, 17,221, 10, 217, 167, 18, 36, 135,
103, 61, 111, 31, 92, 152, 21, 228, 105, 191, 173, 41, 2, 245, 23, 144, 1, 246,
89, 178, 182, 119, 38, 85, 48, 226, 165, 241, 166, 214, 71, 90, 151, 3, 109,
169, 150, 224, 69, 156, 158, 57, 181, 29, 200, 37, 51, 252, 227, 93, 65, 82,
66, 80, 170, 77, 49, 177, 81, 94, 202, 107, 25, 73, 148, 98, 129, 231, 212, 14,
84, 121, 174, 171, 64, 180, 233, 74, 140, 242, 75, 104, 253, 44, 39, 87, 86,
27, 68, 22, 55, 76, 35, 248, 96, 5, 56, 20, 161, 213, 238, 220, 72, 100, 247,
8, 63, 249, 145, 243, 155, 222, 122, 32, 43, 186, 0, 102, 216, 126, 15, 42,
115, 138, 240, 147, 229, 204, 117, 223, 141, 159, 131, 232, 124, 254, 60, 116,
46, 113, 79, 16, 128, 6, 251, 40, 205, 137, 199, 83, 54, 188, 19, 184, 201,
110, 255, 26, 91, 211, 132, 160, 168, 154, 185, 183, 244, 78, 33, 123, 28, 59,
12, 210, 218, 47, 163, 215, 209, 108, 235, 237, 118, 101, 24, 234, 106, 143,
88, 9, 136, 95, 30, 193, 176, 225, 198, 197, 194, 239, 134, 162, 192, 11, 70,
58, 187, 50, 67, 236, 230, 13, 99, 190, 208, 207, 7, 53, 219, 203, 62, 114,
127, 125, 164, 179, 175, 112, 172, 250, 133, 130, 52, 189, 97, 146, 34, 157,
120, 195, 45, 4, 142, 139] pwda = [188, 155, 11, 58, 251, 208, 204, 202, 150,
120, 206, 237, 114, 92, 126, 6, 42] pwdb = [53, 222, 230, 35, 67, 248, 226,
216, 17, 209, 32, 2, 181, 200, 171, 60, 108] flag = raw_input('Input your
Key:').strip() if len(flag) != 17: print 'Wrong Key!!' sys.exit(1) flag =
flag[::-1] for i in range(0, len(flag)): if ord(flag[i]) + pwda[i] & 255 !=
lookup[i + pwdb[i]]: print 'Wrong Key!!' sys.exit(1) print 'Congratulations!!'
下面写个脚本满足输出flag的条件就ok了
import sys lookup = [ 196,153, 149,206, 17,221, 10, 217, 167, 18, 36, 135,
103, 61, 111, 31, 92, 152, 21, 228, 105, 191, 173, 41, 2, 245, 23, 144, 1, 246,
89, 178, 182, 119, 38, 85, 48, 226, 165, 241, 166, 214, 71, 90, 151, 3, 109,
169, 150, 224, 69, 156, 158, 57, 181, 29, 200, 37, 51, 252, 227, 93, 65, 82,
66, 80, 170, 77, 49, 177, 81, 94, 202, 107, 25, 73, 148, 98, 129, 231, 212, 14,
84, 121, 174, 171, 64, 180, 233, 74, 140, 242, 75, 104, 253, 44, 39, 87, 86,
27, 68, 22, 55, 76, 35, 248, 96, 5, 56, 20, 161, 213, 238, 220, 72, 100, 247,
8, 63, 249, 145, 243, 155, 222, 122, 32, 43, 186, 0, 102, 216, 126, 15, 42,
115, 138, 240, 147, 229, 204, 117, 223, 141, 159, 131, 232, 124, 254, 60, 116,
46, 113, 79, 16, 128, 6, 251, 40, 205, 137, 199, 83, 54, 188, 19, 184, 201,
110, 255, 26, 91, 211, 132, 160, 168, 154, 185, 183, 244, 78, 33, 123, 28, 59,
12, 210, 218, 47, 163, 215, 209, 108, 235, 237, 118, 101, 24, 234, 106, 143,
88, 9, 136, 95, 30, 193, 176, 225, 198, 197, 194, 239, 134, 162, 192, 11, 70,
58, 187, 50, 67, 236, 230, 13, 99, 190, 208, 207, 7, 53, 219, 203, 62, 114,
127, 125, 164, 179, 175, 112, 172, 250, 133, 130, 52, 189, 97, 146, 34, 157,
120, 195, 45, 4, 142, 139] pwda = [188, 155, 11, 58, 251, 208, 204, 202, 150,
120, 206, 237, 114, 92, 126, 6, 42] pwdb = [53, 222, 230, 35, 67, 248, 226,
216, 17, 209, 32, 2, 181, 200, 171, 60, 108] flag = '' for i in range(0,17):
//这里就是要满足wrong key的条件才能得到正确的flag flag+=chr(lookup[i + pwdb[i]]-pwda[i] & 255)
flag=flag[::-1] print flag
运行一下就得到flag了
7.Jarvis OJ :stheasy
拿到题目下载了一个很复杂的文件,我们先放入斯托夫文件格式分析器分析,发现是ELF文件:
我们用IDA将其打开,很容易找到关键函数位置:
按下F5编译一下,观察到如下函数:
有一个sub_8048630函数决定了Flag的对错,所以我们只需要研究一下它:
这里我为了便于观察重新命名了a,b函数,我们双击a和b查找一下他们具体的值,将a这两排选中用shift + E快捷键选择第四个选项,用数组表示a如下,b同理:
研究完算法之后就可以写脚本了:
a = [ 0x48, 0x5D, 0x8D, 0x24, 0x84, 0x27, 0x99, 0x9F, 0x54, 0x18, 0x1E, 0x69,
0x7E, 0x33, 0x15, 0x72, 0x8D, 0x33, 0x24, 0x63, 0x21, 0x54, 0x0C, 0x78, 0x78,
0x78, 0x78, 0x78, 0x1B ] b = [ 0x6C, 0x6B, 0x32, 0x6A, 0x39, 0x47, 0x68, 0x7D,
0x41, 0x67, 0x66, 0x59, 0x34, 0x64, 0x73, 0x2D, 0x61, 0x36, 0x51, 0x57, 0x31,
0x23, 0x6B, 0x35, 0x45, 0x52, 0x5F, 0x54, 0x5B, 0x63, 0x76, 0x4C, 0x62, 0x56,
0x37, 0x6E, 0x4F, 0x6D, 0x33, 0x5A, 0x65, 0x58, 0x7B, 0x43, 0x4D, 0x74, 0x38,
0x53, 0x5A, 0x6F, 0x5D, 0x55, 0x00 ] flag = '' c = [] for i in range(0,len(a)):
c.append(a[i]/3-2) //append() 方法用于在列表末尾添加新的对象 c[i] = int(c[i])
//将数据转换为整形,不转换会出错 for j in range(0,len(a)): flag += chr(b[c[j]]) print(flag)
最后运行得到Flag:
0x02:总结
上面仅仅是一些入门的题目,如果是新手的话先把这些题目弄懂,弄透。熟悉各种工具的使用,不断的总结,逆向最重要的是分析,要自己多去分析。
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