3

I have some code from a function

subl $24, %esp
movl 8(%ebp), %eax
cmpl 12(%ebp), %eax

Before the code is just the 'ENTER' command and afterwards there's an if statement to return 1 if ebp > eax or 0 if it's less. I'm assuming cmpl means compare, but I can't tell what the concrete values are. Can anyone tell me what's happening?

3 Answers 3

18

Yes cmpl means compare (with 4-byte arguments). Suppose the piece of code is followed by a jg <addr>:

movl 8(%ebp), %eax
cmpl 12(%ebp), %eax
jg <addr>

Then the code is similar to

eax = ebp[8];
if (eax > ebp[12])
   goto <addr>;
1
  • For those who want to do a quick cheat. Just it in this order: 1) Read the right operand of cmpl, 2) read the second letter of the jump instruction, and 3) read the left operand of the compare instruction. So in this case: if (%eax is [l]ess than ebp[12]). Should help you read code quickly Oct 17, 2014 at 22:51
2

Your code fragment resembles the entry code used by some processors and compilers. The entry code is assembly code that a compiler issues when entering a function.

Entry code is responsible for saving function parameters and allocating space for local variables and optionally initializing them. The entry code uses pointers to the storage area of the variables. Some processors use a combination of the EBP and ESP registers to point to the location of the local variables (and function parameters).

Since the compiler knows where the variables (and function parameters) are stored, it drops the variable names and uses numerical indexing. For example, the line:

movl 8(%ebp), %eax

would either move the contents of the 8th local variable into the register EAX, or move the value at 8 bytes from the start of the local area (assuming the the EBP register pointers to the start of the local variable area).

The instruction:

subl $24, %esp

implies that the compiler is reserving 24 bytes on the stack. This could be to protect some information in the function calling convention. The function would be able to use the area after this for its own usage. This reserved area may contain function parameters.

The code fragment you supplied looks like it is comparing two local variables inside a function:

void Unknown_Function(long param1, long param2, long param3)
{
  unsigned int local_variable_1;
  unsigned int local_variable_2;
  unsigned int local_variable_3;

  if (local_variable_2 < local_variable_3)
  {
   //...
  }
}

Try disassembling the above function and see how close it matches your code fragment.

0

This is a comparison between (EBP + 8) and (EBP + 12). Based on the comparison result, the cmpl instruction sets flags that are used by following jump instructions.

In Mac OS X 32 bit ABI EBP + 8 is the first function parameter, and EBP + 12 is the second parameter.

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