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A program has three sections: text, data and stack. The function body lives in the text section. Can we let a function body live on heap? Because we can manipulate memory on heap more freely, we may gain more freedom to manipulate functions.

In the following C code, I copy the text of hello function onto heap and then point a function pointer to it. The program compiles fine by gcc but gives "Segmentation fault" when running.

Could you tell me why? If my program can not be repaired, could you provide a way to let a function live on heap? Thanks!


#include "stdio.h"
#include "stdlib.h"
#include "string.h"

    printf( "Hello World!\n");

int main(void)
    void (*fp)();

    int size = 10000;     //  large enough to contain hello()
    char* buffer;
    buffer = (char*) malloc ( size );
    memcpy( buffer,(char*)hello,size );
    fp = buffer;
    free (buffer);

    return 0;
share|improve this question
Trying to outsmart the compiler is never a good idea. – Jesus Ramos Mar 18 '11 at 20:18

I can imagine that this might work on a very simple architecture or with a compiler designed to make it easy.

A few of the many requirements for this work:

  • All memory references would need to be absolute ... no pc-relative addresses, except . . .
  • Certain control transfers would need to be pc-relative (so your copied function's local branches work) but it would be nice if other ones would just happen to be absolute, so your module's external control transfers, like printf(), would work.

There are more requirements. Add to this the wierdness of doing this in what is likely to already be a highly complex dynamically linked environment (did you static link it?) and you simply are not ever going to get this to work.

And as Adam points out, there are security mechanisms in place, at least for the stack, to prevent dynamically constructed code from executing at all. You may need to figure out how to turn these off.

You might also be getting clobbered with the memcpy().

You might learn something by tracing this through step-by-step and watching it shoot itself in the head. If the memcpy hack is the problem, perhaps try something like:

f() { 

g() {

memcpy(dst, f, (intptr_t)g - (intptr_t)f)
share|improve this answer
And let's not forget that the heap is probably not executable by default. – Adam Rosenfield Mar 18 '11 at 20:24

In principle in concept it is doable. However... You are copying from "hello" which basically contains assembly instructions that possibly call or reference or jump to other addresses. Some of these addresses get fixed up when the application loads. Just copying that and calling into it would then crash. Also some systems like windows have data execution protection that would prevent code in data form being executed, as a security measure. Also, how large is "hello"? Trying to copy past the end of it would likely also crash. And you are also dependent on how the compiler implements "hallo". Needless to say, this would be very compiler and platform dependent, if it worked.

share|improve this answer
Even if I erase the printf sentence inside hello(), the code still produces Segmentation fault. – user666639 Mar 18 '11 at 20:34

After malloc you should check that the pointer is not null buffer = (char*) malloc ( size ); memcpy( buffer,(char*)hello,size ); and it might be your problem since you try to allocate a big area in memory. can you check that?

share|improve this answer
Not as part of the question / answer, but might interest you:… – MByD Mar 18 '11 at 20:26
The simplest code is given to be easily seen where is wrong. The following test tells the contents pointed by all three pointer are same and hence buffer is not empty. for( i = 0; i < 8; i ++ ) printf( "buffer + %d: %d\n", i, ((short int)buffer + i) ); for( i = 0; i < 8; i ++ ) printf( "hello + %d: %d\n", i, ((short int)hello + i) ); for( i = 0; i < 8; i ++ ) printf( "fp + %d: %d\n", i, ((short int)fp + i) ); – user666639 Mar 18 '11 at 20:29
Sorry, but I don't understand your comment – MByD Mar 18 '11 at 20:34

You program is segfaulting because you're memcpy'ing more than just "hello"; that functions is not 10000 bytes long, so as soon as you get past hello itself, you segfault because you're accessing memory that doesn't belong to you.

You probably also need to use mmap() at some point to make sure the memory location you're trying to call is actually executable.

There are many systems that do what you seem to want (e.g., Java's JIT compiler creates native code in the heap and executes it), but your example will be way more complicated than that because there's no easy way to know the size of your function at runtime (and it's even harder at compile time, when the compiler hasn't yet decide what optimizations to apply). You can probably do what objdump does and read the executable at runtime to find the right "size", but I don't think that's what you're actually trying to achieve here.

share|improve this answer
memcpy( buffer,(char*)hello,size );

hello is not a source get copied to buffer. You are cheating the compiler and it is taking it's revenge at run-time. By typecasting hello to char*, the program is making the compiler to believe it so, which is not the case actually. Never out-smart the compiler.

share|improve this answer
I have tried to printf the contents pointed by hello, buffer and fp. They all give the same result. – user666639 Mar 18 '11 at 20:24
source means some where stored in the memory so that it can actually copy the contents from. What is printf(...) has to do anything with it ? – Mahesh Mar 18 '11 at 20:25

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