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I have the next code:

Doit: mov eax, 4 ; for write system call
      push Dword, 0x44434241
      mov ebx, 1
      mov ecx, esp
      mov edx, 4
      int 0x80
      add esp, 4

As I check, It's print "ABCD", but why? AS I understood it, on the stack we have the next picture:

Low --- 0x41 0x42 0x43 0x44 -- esp,

i.e esp is point to 0x44. When we call 0x80. it should print "DCBA". What I missed?

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2 Answers 2

up vote 2 down vote accepted

Your stack picture is wrong. Because x86 is a little-endian architecture, ESP is equal to the address of the least-significant byte in the pushed value, or 0x41.

From Intel's priceless Architecture Developer's Manual:

When an item is pushed onto the stack, the processor decrements the ESP register, then writes the item at the new top of stack.

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So as I understood, we dec esp, and then push.. i.e the push instruction's start point would be esp, and for that we will get the next picture: esp -- 0x41 0x42 0x43 0x44 -- (esp before the push was taken). –  Adam Sh Mar 11 '12 at 15:22
This has nothing to do with the stack setup. Simply push the value: 0x41424344 for correct little-endian storage. –  Brett Hale Mar 11 '12 at 15:44
@BrettHale: You're right, I was trying to address the diagram showing "Low" and "esp" incorrectly, and apparently confused myself in the process. I corrected it. –  DCoder Mar 11 '12 at 15:55

This is just an endianness issue. You are simply pushing a 32-bit value onto the stack, which will be at the address ESP. x86 is little-endian, and stores the least-significant byte first:

ESP + 0 (0x41), ESP + 1 (0x42), ESP + 2 (0x43), ESP + 3 (0x44). When accessed as an array of bytes however, it starts at ESP and increments through memory.

There's nothing wrong with your use of the stack, it's just misunderstanding of word / dword / qword storage vs. byte access.

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