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I'm trying to understand a little code:

jg 0x00000047
dec esp
inc esi
add [ecx],eax

What is the value of eax? These are the four first sentences of the program and i don't know if there is a default value or if the previous sentences add something to eax.

My OS is Linux and the executable is compiled by gcc4.3 from a C source code (gcc file.c exec)

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1  
Not is, but are. –  leppie Nov 10 '10 at 8:37
    
If you provide some info about your platform (OS, executable format) I'm sure someone can tell you what eax is set to at program entry point. –  Edmund Nov 10 '10 at 8:49
    
Edited, thank you for the suggestion. –  Vaul Nov 10 '10 at 8:55

4 Answers 4

up vote 2 down vote accepted

Some instructions implicitly update the registers, even if the destinations aren't listed explicitly in the code. Some examples:

  • cpuid returns values in eax, ebx, ecx and edx
  • loop decrements ecx
  • rep string instructions change ecx, edi and esi
  • rdmsr changes eax and edx
  • mul and div change eax and edx

And there are many other examples.

You can't assume just by seeing that eax isn't listed in the code that it's not changed.

Even assuming you know which registers are affected by which instructions, the only times you have any guarantee for a value are:

  • after an instruction that you know updates it
  • immediately after hardware reset

At any other time, you can never make assumptions on the values.

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So we would say that eax has a random(at least random for me) value? –  Vaul Nov 10 '10 at 8:47
1  
@Vaul: yes, we would –  Nathan Fellman Nov 10 '10 at 9:38

Depends on the platform, language, and/or calling convention. But yeah, the code before this normally should have set EAX to some value. EAX is one of those registers that's modified so often that it's not normally used for keeping stuff around in.

The instructions look kinda random. In particular, the "dec esp" is normally a huge no-no, as the stack should always be dword-aligned. Are you sure this is actual code? The instruction bytes translate to "\x7fELF" if i'm translating right, which suggests to me that this is just the header bytes of a Linux program, not actual code bytes.

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I disassembled a little program code written by me in C trying to understand the asm code, i suppose that they are not random instructions. As i say there are no previous sentences, so eax might have a random value. Thank you. –  Vaul Nov 10 '10 at 8:52
    
How are you disassembling the code? Keep in mind that an executable is rarely just raw code. (The only format i know of that is is .com files, and those have been obsolete for like 10+ years.) There's a whole kinda complex format to executables in most 32-bit OSes. –  cHao Nov 10 '10 at 8:59
    
Using x86dis, is that ok? –  Vaul Nov 10 '10 at 9:06
3  
if x86dis knows how to disassemble an ELF program, maybe. But it's kinda looking like it's not that smart. –  cHao Nov 10 '10 at 9:08
    
So that's my problem now, thank you. I'll try to disassemble It better. –  Vaul Nov 10 '10 at 9:14

It doesn't seem to be valid code. Are you sure it wasn't text?

Decoding it as 32bit x86 gives string ELF :

00: 7F 45  // 0x7F E
02: 4C     // L
03: 46     // F
04: 01 01  // ?? ??

Try opening the file as ELF file and not as just binary.

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I think what you are really asking about is calling convention, which describes how subroutines in a program pass information to one another, and how the operating system passes information to the program, and in general what the different registers are supposed to mean.

For example, the cdecl calling convention on the x86, which is used by most C compilers, says that when a function returns, the return value value goes on the eax register. So if you have a function int foo(), you know that after foo executes its ret opcode, eax will contain that int that foo returned.

By contrast, the PowerPC processor (usually) has (at least) 32 registers, simply named r0, r1, ... r31. The AIX calling convention for this chip says that the stack pointer goes on r1, that function parameters get passed on r3 through r11, that return values come back on r3, and so on.

It is important to remember that a calling convention is sort of like an agreement between the functions in a program, or between libraries. It isn't part of the hardware, or a law, and there are usually many different calling conventions that may be used on a platform. This is why sometimes you will see code like

struct CFoo {  void __stdcall method(); };

That is an instruction to MSVC, which usually likes to use the fastcall convention, telling it to use a different convention for that one function. This is important if eg the function is defined in a library that was built by some other compiler which uses stdcall instead.

When we talk about how the operating system passes information to a program (or the hardware to the operating system), we usually call it an ABI instead of a calling convention, but it is the same idea. So in the case of your program, it was written assuming that the OS would pass it some particular piece of information on eax. That assumption would be particular to the operating system, the compiler, and possibly even the individual program.

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Thank you very much, this gives me a nice point to understand ASM. –  Vaul Nov 10 '10 at 9:13

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