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We all know that in x86 arch, the data and code is mixed in the memory or disk. But how to tell them?

The method is needed for paper, I wouldn't expect a 100% accuracy. 80%'s just ok, even some ideas would be fine:)

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Have you tried trial decoding yet? Have you tried anything at all? –  dmckee Aug 19 '12 at 14:51
    
Trial decoding can have problems if the code is self-mutating. How do you execute commands which are read from memory (which might not be part of the binary sequence)? –  ronalchn Aug 19 '12 at 14:56
    
@ronalchn Sure, trial decoding is only step one, but if hsluoyz hasn't even gotten that far we need to know. And we probably start to wonder at his or her commitment to this problem. –  dmckee Aug 19 '12 at 15:05
    
@dmckee, if you mean disassembly by "decoding", I promiss I have got that far. To make it clear, here's an example: –  hsluoyz Aug 20 '12 at 6:16
    
This is a real x86 code :77834110 > 57 push edi 77834111 8B7C24 0C mov edi,dword ptr ss:[esp+0xC] 77834115 8B5424 08 mov edx,dword ptr ss:[esp+0x8] 77834119 C702 00000000 mov dword ptr ds:[edx],0x0 7783411F 897A 04 mov dword ptr ds:[edx+0x4],edi 77834122 0BFF or edi,edi 77834124 74 1E je Xntdll.77834144 77834126 83C9 FF or ecx,0xFFFFFFFF 77834129 33C0 xor eax,eax –  hsluoyz Aug 20 '12 at 6:23
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2 Answers 2

up vote 4 down vote accepted

Statistically determine which commands are common in executables.

Eg. some commands may be add/subtract etc.

For the unknown binary sequence, treat it like machine code, and look at the frequency of the various commands used (here you can probably assume commands start correctly at byte boundaries).

If an invalid command is used, obviously it is not machine code.

Otherwise, see whether the percentage frequency of commands used matches what would be usual.


Also, when a command is used which accepts addresses (eg. registers or memory/data locations), record them. Then check if the same locations are being accessed nearby.

This can be done by sorting any data locations used by frequency of usage descending, and seeing of the shape of the decreasing frequency somewhat matches what might be usual.


Data (non-machine code) is unlikely to match these statistical tests.

Do note that when I say fit, you can check for very loose fits. Even if it is quite a bit off what is normal, it probably still is code, unless there is almost no correlation statistically.

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In addition, you can analyze jumps to see if they are consistent with your instruction decoding - i.e. that there is no jump into a middle of an instruction. –  onon15 Aug 19 '12 at 15:00
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And function calls will have one of a small number of templates on each platform in machine generated code. As will many looping constructs. –  dmckee Aug 19 '12 at 15:03
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@onon15 that can be perfectly valid though. It even occurs in practice (rarely), usually as a branch to the dword in nop [dword]. –  harold Aug 19 '12 at 15:11
    
@harold that's cool! Didn't know this was done except for manually when trying to fool decompilers. –  onon15 Aug 19 '12 at 15:15
    
@onon15 it's only of limited usefullness, of course. An other variant (which takes less space but can't universally be used) is jumping to the 32bit offset in a jcc where the cc is guaranteed to be false. I've never heard of compilers using either trick. –  harold Aug 19 '12 at 15:25
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See Is all data valid x86 16-bit machine code?.

  1. Put your data in a file
  2. Run ndisasm -m 32 > program.dump (use 16, 32 or 64 when applicable of course)
  3. Remove addresses and machine code in hex: cut -b29- < program.dump > program.dump2
  4. If you used 64-bits above, large instructions will break the line and we'll need to remove those empty lines now: grep -v '^$' < program.dump2 > program.asm
  5. (The file is now assemble-able)
  6. To determine if it consists of only instructions, run grep -l '^db' < program.asm > /dev/null; echo $?
  7. If you see 0, it is not all instructions (grep found something). If you don't, it is :)
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