bomb lab

作者: hjx_zju | 来源:发表于2018-07-28 23:24 被阅读0次

    概述

    这个实验是有名的二进制拆弹实验。这是实验指导书实验源程序。通过阅读汇编代码来判断能够“拆弹”的目标字符串。通过这个实验,学到了怎样读懂x86-64汇编和用gdb来调试汇编代码。

    实验内容

    给的文档有三个文件,分别是bomb 、bomb.c、README。

    首先通过objdump -d bomb > bomb.s获得可执行程序bomb的汇编代码。实验共有6个phase,也就是通过6种不同的方法寻找目标字符串,难度逐步增加。

    1. phase_1

    下面这段汇编通过调用strings_not_equal函数来判断输入字符串(首地址在%rdi中)和目标字符串(首地址在%rsi中)是否不等来判断是否解开炸弹。mov $0x402400,%esi直接指明目标字符串位置,十分简单。

    0000000000400ee0 <phase_1>:
      400ee0:   48 83 ec 08             sub    $0x8,%rsp
      400ee4:   be 00 24 40 00          mov    $0x402400,%esi
      400ee9:   e8 4a 04 00 00          callq  401338 <strings_not_equal>
      400eee:   85 c0                   test   %eax,%eax
      400ef0:   74 05                   je     400ef7 <phase_1+0x17>
      400ef2:   e8 43 05 00 00          callq  40143a <explode_bomb>
      400ef7:   48 83 c4 08             add    $0x8,%rsp
      400efb:   c3                      retq   
    

    2. phase_2

    这段汇编代码首先 read_six_numbers到寄存器%rsp,%rsp+4,%rsp+8,%rsp+12,%rsp+16,%rsp+20上,然后检测它们是否与1,2,4,8,16,32分别相当。说白了这就是一个公比为2的等比数列。从
    400f1a: 01 c0 add %eax,%eax; 400f1c: 39 03 cmp %eax,(%rbx)中可以琢磨些端倪。

    0000000000400efc <phase_2>:
      400efc:   55                      push   %rbp
      400efd:   53                      push   %rbx
      400efe:   48 83 ec 28             sub    $0x28,%rsp
      400f02:   48 89 e6                mov    %rsp,%rsi
      400f05:   e8 52 05 00 00          callq  40145c <read_six_numbers>
      400f0a:   83 3c 24 01             cmpl   $0x1,(%rsp)
      400f0e:   74 20                   je     400f30 <phase_2+0x34>
      400f10:   e8 25 05 00 00          callq  40143a <explode_bomb>
      400f15:   eb 19                   jmp    400f30 <phase_2+0x34>
      400f17:   8b 43 fc                mov    -0x4(%rbx),%eax
      400f1a:   01 c0                   add    %eax,%eax
      400f1c:   39 03                   cmp    %eax,(%rbx)
      400f1e:   74 05                   je     400f25 <phase_2+0x29>
      400f20:   e8 15 05 00 00          callq  40143a <explode_bomb>
      400f25:   48 83 c3 04             add    $0x4,%rbx
      400f29:   48 39 eb                cmp    %rbp,%rbx
      400f2c:   75 e9                   jne    400f17 <phase_2+0x1b>
      400f2e:   eb 0c                   jmp    400f3c <phase_2+0x40>
      400f30:   48 8d 5c 24 04          lea    0x4(%rsp),%rbx
      400f35:   48 8d 6c 24 18          lea    0x18(%rsp),%rbp
      400f3a:   eb db                   jmp    400f17 <phase_2+0x1b>
      400f3c:   48 83 c4 28             add    $0x28,%rsp
      400f40:   5b                      pop    %rbx
      400f41:   5d                      pop    %rbp
      400f42:   c3                      retq   
    

    3. phase_3

    查看地址0x4025cf存的什么,发现是"%d %d",从后续的sscanf函数的调用来看,应该是要求用户输入两个整数。


    通过后文奇怪的跳转jmpq *0x402470(,%rax,8)和一系列的mov然后跳转可以想起这是switch语句结构。那么程序是将第一个数作为switch的key,然后调到特定的地址获得相应的value。查看0x402470对应的跳转表内容
    于是
    number1 number2
    0 0xcf
    1 0x137
    2 0x2c3
    3 0x100
    4 0x185
    5 0xce
    6 0x2aa
    7 0x147

    都可以通过,不过要记得输入十进制数。

    0000000000400f43 <phase_3>:
      400f43:   48 83 ec 18             sub    $0x18,%rsp
      400f47:   48 8d 4c 24 0c          lea    0xc(%rsp),%rcx
      400f4c:   48 8d 54 24 08          lea    0x8(%rsp),%rdx
      400f51:   be cf 25 40 00          mov    $0x4025cf,%esi
      400f56:   b8 00 00 00 00          mov    $0x0,%eax
      400f5b:   e8 90 fc ff ff          callq  400bf0 <__isoc99_sscanf@plt>
      400f60:   83 f8 01                cmp    $0x1,%eax
      400f63:   7f 05                   jg     400f6a <phase_3+0x27>
      400f65:   e8 d0 04 00 00          callq  40143a <explode_bomb>
      400f6a:   83 7c 24 08 07          cmpl   $0x7,0x8(%rsp)
      400f6f:   77 3c                   ja     400fad <phase_3+0x6a>
      400f71:   8b 44 24 08             mov    0x8(%rsp),%eax
      400f75:   ff 24 c5 70 24 40 00    jmpq   *0x402470(,%rax,8)
      400f7c:   b8 cf 00 00 00          mov    $0xcf,%eax
      400f81:   eb 3b                   jmp    400fbe <phase_3+0x7b>
      400f83:   b8 c3 02 00 00          mov    $0x2c3,%eax
      400f88:   eb 34                   jmp    400fbe <phase_3+0x7b>
      400f8a:   b8 00 01 00 00          mov    $0x100,%eax
      400f8f:   eb 2d                   jmp    400fbe <phase_3+0x7b>
      400f91:   b8 85 01 00 00          mov    $0x185,%eax
      400f96:   eb 26                   jmp    400fbe <phase_3+0x7b>
      400f98:   b8 ce 00 00 00          mov    $0xce,%eax
      400f9d:   eb 1f                   jmp    400fbe <phase_3+0x7b>
      400f9f:   b8 aa 02 00 00          mov    $0x2aa,%eax
      400fa4:   eb 18                   jmp    400fbe <phase_3+0x7b>
      400fa6:   b8 47 01 00 00          mov    $0x147,%eax
      400fab:   eb 11                   jmp    400fbe <phase_3+0x7b>
      400fad:   e8 88 04 00 00          callq  40143a <explode_bomb>
      400fb2:   b8 00 00 00 00          mov    $0x0,%eax
      400fb7:   eb 05                   jmp    400fbe <phase_3+0x7b>
      400fb9:   b8 37 01 00 00          mov    $0x137,%eax
      400fbe:   3b 44 24 0c             cmp    0xc(%rsp),%eax
      400fc2:   74 05                   je     400fc9 <phase_3+0x86>
      400fc4:   e8 71 04 00 00          callq  40143a <explode_bomb>
      400fc9:   48 83 c4 18             add    $0x18,%rsp
      400fcd:   c3                      retq   
    

    4. phase_4

    在这个phase中也是读入两个数,且第一个数小于<=0xe,第二个数为0。第一个数调用函数func4,然后func4里面又是奇怪的递归,最后可用的结果是

    number1 number2
    1 0
    3 0
    7 0

    兴许是满足X(i+1) = 2X(i)+1这种关系的序列。

    000000000040100c <phase_4>:
      40100c:   48 83 ec 18             sub    $0x18,%rsp
      401010:   48 8d 4c 24 0c          lea    0xc(%rsp),%rcx
      401015:   48 8d 54 24 08          lea    0x8(%rsp),%rdx
      40101a:   be cf 25 40 00          mov    $0x4025cf,%esi
      40101f:   b8 00 00 00 00          mov    $0x0,%eax
      401024:   e8 c7 fb ff ff          callq  400bf0 <__isoc99_sscanf@plt>
      401029:   83 f8 02                cmp    $0x2,%eax
      40102c:   75 07                   jne    401035 <phase_4+0x29>
      40102e:   83 7c 24 08 0e          cmpl   $0xe,0x8(%rsp)
      401033:   76 05                   jbe    40103a <phase_4+0x2e>
      401035:   e8 00 04 00 00          callq  40143a <explode_bomb>
      40103a:   ba 0e 00 00 00          mov    $0xe,%edx
      40103f:   be 00 00 00 00          mov    $0x0,%esi
      401044:   8b 7c 24 08             mov    0x8(%rsp),%edi
      401048:   e8 81 ff ff ff          callq  400fce <func4>
      40104d:   85 c0                   test   %eax,%eax
      40104f:   75 07                   jne    401058 <phase_4+0x4c>
      401051:   83 7c 24 0c 00          cmpl   $0x0,0xc(%rsp)
      401056:   74 05                   je     40105d <phase_4+0x51>
      401058:   e8 dd 03 00 00          callq  40143a <explode_bomb>
      40105d:   48 83 c4 18             add    $0x18,%rsp
      401061:   c3                      retq
    

    5. phase_5

    phase_5先验证输入字符串长度是否为6。然后通过取每个字符的ASCII码作为下标获得在指定字符串str1中的字符,新字符组成的字符串str2应该相等。

    str1为 str2为
    0000000000401062 <phase_5>:
      401062:   53                      push   %rbx
      401063:   48 83 ec 20             sub    $0x20,%rsp
      401067:   48 89 fb                mov    %rdi,%rbx
      40106a:   64 48 8b 04 25 28 00    mov    %fs:0x28,%rax
      401071:   00 00 
      401073:   48 89 44 24 18          mov    %rax,0x18(%rsp)
      401078:   31 c0                   xor    %eax,%eax
      40107a:   e8 9c 02 00 00          callq  40131b <string_length>
      40107f:   83 f8 06                cmp    $0x6,%eax
      401082:   74 4e                   je     4010d2 <phase_5+0x70>
      401084:   e8 b1 03 00 00          callq  40143a <explode_bomb>
      401089:   eb 47                   jmp    4010d2 <phase_5+0x70>
      40108b:   0f b6 0c 03             movzbl (%rbx,%rax,1),%ecx
      40108f:   88 0c 24                mov    %cl,(%rsp)
      401092:   48 8b 14 24             mov    (%rsp),%rdx
      401096:   83 e2 0f                and    $0xf,%edx
      401099:   0f b6 92 b0 24 40 00    movzbl 0x4024b0(%rdx),%edx
      4010a0:   88 54 04 10             mov    %dl,0x10(%rsp,%rax,1)
      4010a4:   48 83 c0 01             add    $0x1,%rax
      4010a8:   48 83 f8 06             cmp    $0x6,%rax
      4010ac:   75 dd                   jne    40108b <phase_5+0x29>
      4010ae:   c6 44 24 16 00          movb   $0x0,0x16(%rsp)
      4010b3:   be 5e 24 40 00          mov    $0x40245e,%esi
      4010b8:   48 8d 7c 24 10          lea    0x10(%rsp),%rdi
      4010bd:   e8 76 02 00 00          callq  401338 <strings_not_equal>
      4010c2:   85 c0                   test   %eax,%eax
      4010c4:   74 13                   je     4010d9 <phase_5+0x77>
      4010c6:   e8 6f 03 00 00          callq  40143a <explode_bomb>
      4010cb:   0f 1f 44 00 00          nopl   0x0(%rax,%rax,1)
      4010d0:   eb 07                   jmp    4010d9 <phase_5+0x77>
      4010d2:   b8 00 00 00 00          mov    $0x0,%eax
      4010d7:   eb b2                   jmp    40108b <phase_5+0x29>
      4010d9:   48 8b 44 24 18          mov    0x18(%rsp),%rax
      4010de:   64 48 33 04 25 28 00    xor    %fs:0x28,%rax
      4010e5:   00 00 
      4010e7:   74 05                   je     4010ee <phase_5+0x8c>
      4010e9:   e8 42 fa ff ff          callq  400b30 <__stack_chk_fail@plt>
      4010ee:   48 83 c4 20             add    $0x20,%rsp
      4010f2:   5b                      pop    %rbx
      4010f3:   c3                      retq   
    

    最后结果为"ionefg"。

    1. phase_6
      这个phase的汇编代码超级长,解析起来异常痛苦。大概过程是
    • 读取6个数,这6个数应该是1~6中的任一个,且互不相同
    • 然后7-x获得一个新数y
    • 新序列数y对应链表中的第y个数,按照输入数的顺序重排该链表
    • 重排后的链表应该是非递增的
      关键是找到链表中的元素,0x6032d0是链表的起始地址。查看链表为
      node1(0x14c)-->node2(0xa8)-->node3(0x39c)-->node4(0x2b3)-->node5(0x(1dd)-->node6(0x1bb)。按照降序排列应为node3-->node4-->node5-->node6-->node1-->node2。反推输入序列为为4 3 2 1 6 5
    00000000004010f4 <phase_6>:
      4010f4:   41 56                   push   %r14
      4010f6:   41 55                   push   %r13
      4010f8:   41 54                   push   %r12
      4010fa:   55                      push   %rbp
      4010fb:   53                      push   %rbx
      4010fc:   48 83 ec 50             sub    $0x50,%rsp
      401100:   49 89 e5                mov    %rsp,%r13
      401103:   48 89 e6                mov    %rsp,%rsi
      401106:   e8 51 03 00 00          callq  40145c <read_six_numbers>
      40110b:   49 89 e6                mov    %rsp,%r14
      40110e:   41 bc 00 00 00 00       mov    $0x0,%r12d
      401114:   4c 89 ed                mov    %r13,%rbp
      401117:   41 8b 45 00             mov    0x0(%r13),%eax
      40111b:   83 e8 01                sub    $0x1,%eax
      40111e:   83 f8 05                cmp    $0x5,%eax
      401121:   76 05                   jbe    401128 <phase_6+0x34>
      401123:   e8 12 03 00 00          callq  40143a <explode_bomb>
      401128:   41 83 c4 01             add    $0x1,%r12d
      40112c:   41 83 fc 06             cmp    $0x6,%r12d
      401130:   74 21                   je     401153 <phase_6+0x5f>
      401132:   44 89 e3                mov    %r12d,%ebx
      401135:   48 63 c3                movslq %ebx,%rax
      401138:   8b 04 84                mov    (%rsp,%rax,4),%eax
      40113b:   39 45 00                cmp    %eax,0x0(%rbp)
      40113e:   75 05                   jne    401145 <phase_6+0x51>
      401140:   e8 f5 02 00 00          callq  40143a <explode_bomb>
      401145:   83 c3 01                add    $0x1,%ebx
      401148:   83 fb 05                cmp    $0x5,%ebx
      40114b:   7e e8                   jle    401135 <phase_6+0x41>
      40114d:   49 83 c5 04             add    $0x4,%r13
      401151:   eb c1                   jmp    401114 <phase_6+0x20>
      401153:   48 8d 74 24 18          lea    0x18(%rsp),%rsi
      401158:   4c 89 f0                mov    %r14,%rax
      40115b:   b9 07 00 00 00          mov    $0x7,%ecx
      401160:   89 ca                   mov    %ecx,%edx
      401162:   2b 10                   sub    (%rax),%edx
      401164:   89 10                   mov    %edx,(%rax)
      401166:   48 83 c0 04             add    $0x4,%rax
      40116a:   48 39 f0                cmp    %rsi,%rax
      40116d:   75 f1                   jne    401160 <phase_6+0x6c>
      40116f:   be 00 00 00 00          mov    $0x0,%esi
      401174:   eb 21                   jmp    401197 <phase_6+0xa3>
      401176:   48 8b 52 08             mov    0x8(%rdx),%rdx
      40117a:   83 c0 01                add    $0x1,%eax
      40117d:   39 c8                   cmp    %ecx,%eax
      40117f:   75 f5                   jne    401176 <phase_6+0x82>
      401181:   eb 05                   jmp    401188 <phase_6+0x94>
      401183:   ba d0 32 60 00          mov    $0x6032d0,%edx
      401188:   48 89 54 74 20          mov    %rdx,0x20(%rsp,%rsi,2)
      40118d:   48 83 c6 04             add    $0x4,%rsi
      401191:   48 83 fe 18             cmp    $0x18,%rsi
      401195:   74 14                   je     4011ab <phase_6+0xb7>
      401197:   8b 0c 34                mov    (%rsp,%rsi,1),%ecx
      40119a:   83 f9 01                cmp    $0x1,%ecx
      40119d:   7e e4                   jle    401183 <phase_6+0x8f>
      40119f:   b8 01 00 00 00          mov    $0x1,%eax
      4011a4:   ba d0 32 60 00          mov    $0x6032d0,%edx
      4011a9:   eb cb                   jmp    401176 <phase_6+0x82>
      4011ab:   48 8b 5c 24 20          mov    0x20(%rsp),%rbx
      4011b0:   48 8d 44 24 28          lea    0x28(%rsp),%rax
      4011b5:   48 8d 74 24 50          lea    0x50(%rsp),%rsi
      4011ba:   48 89 d9                mov    %rbx,%rcx
      4011bd:   48 8b 10                mov    (%rax),%rdx
      4011c0:   48 89 51 08             mov    %rdx,0x8(%rcx)
      4011c4:   48 83 c0 08             add    $0x8,%rax
      4011c8:   48 39 f0                cmp    %rsi,%rax
      4011cb:   74 05                   je     4011d2 <phase_6+0xde>
      4011cd:   48 89 d1                mov    %rdx,%rcx
      4011d0:   eb eb                   jmp    4011bd <phase_6+0xc9>
      4011d2:   48 c7 42 08 00 00 00    movq   $0x0,0x8(%rdx)
      4011d9:   00 
      4011da:   bd 05 00 00 00          mov    $0x5,%ebp
      4011df:   48 8b 43 08             mov    0x8(%rbx),%rax
      4011e3:   8b 00                   mov    (%rax),%eax
      4011e5:   39 03                   cmp    %eax,(%rbx)
      4011e7:   7d 05                   jge    4011ee <phase_6+0xfa>
      4011e9:   e8 4c 02 00 00          callq  40143a <explode_bomb>
      4011ee:   48 8b 5b 08             mov    0x8(%rbx),%rbx
      4011f2:   83 ed 01                sub    $0x1,%ebp
      4011f5:   75 e8                   jne    4011df <phase_6+0xeb>
      4011f7:   48 83 c4 50             add    $0x50,%rsp
      4011fb:   5b                      pop    %rbx
      4011fc:   5d                      pop    %rbp
      4011fd:   41 5c                   pop    %r12
      4011ff:   41 5d                   pop    %r13
      401201:   41 5e                   pop    %r14
      401203:   c3                      retq   
    

    7. 结果展示

    看到最终的congratulations!还是蛮兴奋激动的,这个实验对阅读汇编代码要求真是不低,要有耐心!

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