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I've been trying to use 'thunking' so I can use member functions to legacy APIs which expects a C function. I'm trying to use a similar solution to this. This is my thunk structure so far:

struct Thunk
    byte mov;   // ↓
    uint value; // mov esp, 'value' <-- replace the return address with 'this' (since this thunk was called with 'call', we can replace the 'pushed' return address with 'this')

    byte call;  // ↓
    int offset; // call 'offset' <-- we want to return here for ESP alignment, so we use call instead of 'jmp'

    byte sub;   // ↓
    byte esp;   // ↓
    byte num;   // sub esp, 4 <-- pop the 'this' pointer from the stack

    //perhaps I should use 'ret' here as well/instead?
} __attribute__((packed));

The following code is a test of mine which uses this thunk structure (but it does not yet work):

#include <iostream>
#include <sys/mman.h>
#include <cstdio>

typedef unsigned char byte;
typedef unsigned short ushort;
typedef unsigned int uint;
typedef unsigned long ulong;

#include "thunk.h"

template<typename Target, typename Source>
inline Target brute_cast(const Source s)
    static_assert(sizeof(Source) == sizeof(Target));

    union { Target t; Source s; } u;
    u.s = s;
    return u.t;

void Callback(void (*cb)(int, int))
    std::cout << "Calling...\n";
    cb(34, 71);
    std::cout << "Called!\n";

struct Test
    int m_x = 15;

    void Hi(int x, int y)
        printf("X: %d | Y: %d | M: %d\n", x, y, m_x);

int main(int argc, char * argv[])
    std::cout << "Begin Execution...\n";

    Test test;

    Thunk * thunk = static_cast<Thunk*>(mmap(nullptr, sizeof(Thunk),

    thunk->mov = 0xBC; // mov esp
    thunk->value = reinterpret_cast<uint>(&test);

    thunk->call = 0xE8; // call
    thunk->offset = brute_cast<uint>(&Test::Hi) - reinterpret_cast<uint>(thunk);
    thunk->offset -= 10; // Adjust the relative call

    thunk->sub = 0x83; // sub
    thunk->esp = 0xEC; // esp
    thunk->num = 0x04; // 'num'

    // Call the function
    Callback(reinterpret_cast<void (*)(int, int)>(thunk));
    std::cout << "End execution\n";

If I use that code; I receive a segmentation fault within the Test::Hi function. The reason is obvious (once you analyze the stack in GDB) but I do not know how to fix this. The stack is not aligned properly.

The x argument contains garbage but the y argument contains the this pointer (see the Thunk code). That means the stack is misaligned by 8 bytes, but I still don't know why this is the case. Can anyone tell why this is happening? x and y should contain 34 and 71 respectively.

NOTE: I'm aware of the fact that this is does not work in all scenarios (such as MI and VC++ thiscall convention) but I want to see if I can get this work, since I would benefit from it a lot!

EDIT: Obviously I also know that I can use static functions, but I see this more as a challenge...

share|improve this question
I suppose you want mov [esp], this_param instead of mov esp, this_param. But that will cause a problem because it overwrites the return address. – interjay Jul 22 '12 at 17:01
So, you would like to benefit from UBs? – BЈовић Jul 22 '12 at 17:09
@interjay Correct me if I'm wrong (I'm not experienced with assembly) but that still wouldn't explain why the stack is misaligned by 8 bytes (i.e why both x and y has invalid values)? – Elliott Darfink Jul 22 '12 at 17:27
@BЈовић What do you mean by UBs? This would be useful in cases where you work with legacy C APIs which doesn't allow user data to be passed. – Elliott Darfink Jul 22 '12 at 17:27
If it doesn't allow data to be passed, it must be with a reason. I am not that proficient in assembly to answer your question, but casting something to function pointer to UB. What works on your PC, might not work somewhere else. – BЈовић Jul 22 '12 at 18:55
up vote 2 down vote accepted

Suppose you have a standalone (non-member, or maybe static) cdecl function:

void Hi_cdecl(int x, int y)
    printf("X: %d | Y: %d | M: %d\n", x, y, m_x);

Another function calls it this way:

push 71
push 36
push (return-address)
call (address-of-hi)
add esp, 8 (stack cleanup)

You want to replace this by the following:

push 71
push 36
push this
push (return-address)
call (address-of-hi)
add esp, 4 (cleanup of this from stack)
add esp, 8 (stack cleanup)

For this, you have to read the return-address from the stack, push this, and then, push the return-address. And for the cleanup, add 4 (not subtract) to esp.

Regarding the return address - since the thunk must do some cleanup after the callee returns, it must store the original return-address somewhere, and push the return-address of the cleanup part of the thunk. So, where to store the original return-address?

  • In a global variable - might be an acceptable hack (since you probably don't need your solution to be reentrant)
  • On the stack - requires moving the whole block of parameters (using a machine-language equivalent of memmove), whose length is pretty much unknown

Please also note that the resulting stack is not 16-byte-aligned; this can lead to crashes if the function uses certain types (those that require 8-byte and 16-byte alignment - the SSE ones, for example; also maybe double).

share|improve this answer
Great answer! I'll try to see if I can fix this now. But about the 'return' issue, why can't I just use malloc? Since I use inline assembly that should be a breeze? Or would it be issues with freeing that memory...? – Elliott Darfink Jul 22 '12 at 18:37
Using malloc to store a single number doesn't help: you then have to store the pointer that malloc returns; in normal functions you use local variables for that – anatolyg Jul 22 '12 at 18:46
@antaloyg Damn it... Well I guess I'll use member variables in that case. Anyhow I got it working now with that explanation of yours, I only need to solve the 'return' issue now. If I use a global (or member) variable, should I use the absolute address (the one returned from the '&' operand) or must it also be relative? And since I can't use 'mov' between two memory addresses directly, would it be safe to do: mov eax, [esp] -> mov DWORD ['address'], eax or is there something else I should take in consideration? – Elliott Darfink Jul 22 '12 at 18:57
Global variable has an absolute address; member variable has address relative to this. As for registers - apparently there is no problem in using eax as a temporary register. – anatolyg Jul 22 '12 at 19:32

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