I'm analysing a c++ function compiled with vc++ (probably vs10) and I never saw this prologue pattern before.

It seems to be a stdcall but the prologue is a little bit different:

stdcall usually starts the function with the following prologue pattern:

push   ebp
mov    ebp, esp
sub    esp, const

However the prologue of this function I'm analysing is the following:

push   ebp
lea    ebp, [esp - 0x4C]
sub    esp, 0x80

Analysing other functions in the same PE that uses the same prologue/epilogue it seems the RETN always come after a LEAVE instruction, just another thing I never saw in a regular cdecl function.

I'm wondering about why the compiler did that. It appears to open space on ESP (by sub esp, const), so why it opens another block of stack by lea ebp, [esp - const]?

Does anyone know why the compiler does that? Is that a different call convention from stdcall?

I did some research on the net as well as studied this specific assembly code to find out but didn't discover the need of that.

Thanks in advance!

EDIT with screens of the prologue/epilogue:

Prologue enter image description here

Epilogue enter image description here

A call to the function enter image description here

  • 2
    That lea doesn't reserve anything, it just offsets the frame pointer. You can use this to be able to address more of the stack frame with an sbyte offset. – harold Aug 20 '16 at 16:42
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    The ret with an argument is used because the calling convention is stdcall – harold Aug 20 '16 at 16:58
  • 3
    I don't really understand what you're asking regarding leave. The frame pointer offsetting is just a trick for code density, avoiding having to code 32bit displacements. – harold Aug 20 '16 at 17:04
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    On top of what harold said (about offsetting the frame pointer for code density), I was curious in the screenshot if there was more to the epilogue code. You'll see that three things are done in the epilogue. const is added back to EBP, leave and then ret. – Michael Petch Aug 20 '16 at 17:08
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    The entire idea here of course as Harold is trying to say is that if you offset EBP in the prologue and can get most stack accesses to fit withing a signed byte (+127 to -128) then the instructions accessesing stack variables can be shortened by using 1 byte displacement rather than 4 byte displacement. – Michael Petch Aug 20 '16 at 17:22

As no one in the comments wrote an answer here we go...

The reason of that difference in the prologue/epilogue between the "usual" stdcall and the one I talk in the topic is compiler optmization for code density.

Offsetting EBP in the prologue the compiler is able to shorten the instructions in the function that accesses some stack variables. It can now access a larger chunk of stack memory (depending on how long the prologue offset EBP) with a single byte displacement - using EBP + N and EBP - M to access local variables (where N and M are a const between -128 and + 127). Of course instructions that access variables beyond that EBP's offset will use 4 bytes displacement, but the overall code of that function will be shorter using this optimization trick.

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