I'm trying to call native machine-language code. Here's what I have so far (it gets a bus error):

char prog[] = {'\xc3'}; // x86 ret instruction

int main()
    typedef double (*dfunc)();

    dfunc d = (dfunc)(&prog[0]);
    return 0;

It does correctly call the function and it gets to the ret instruction. But when it tries to execute the ret instruction, it has a SIGBUS error. Is it because I'm executing code on a page that is not cleared for execution or something like that?

So what am I doing wrong here?

  • 1
    Incase it helps anyone: I've often found that SIGBUS is indicative of bad alignment.
    – Doddy
    Oct 5, 2016 at 11:18
  • 7
    @user Please post your solution as an answer instead of editing it into your question.
    – dandan78
    Oct 5, 2016 at 12:33
  • 3
    I reverted the changes to the code sample, so the question makes sense again. Please do what @dandan78 already suggested and accept an answer instead of updating your question, changing its meaning in the process.
    – You
    Oct 5, 2016 at 14:27
  • 3
    Would it be more practical to use the asm() function?
    – Stavr00
    Oct 5, 2016 at 14:46
  • 9
    Please, please, please, please, please, please, please use asm() (per @Stavr00's comment and Graham's answer) rather than any of the other approaches, especially if your code has any possibility of ever seeing the light of day on a piece of silicon that is in any way connected to the internet or has any possibility of interacting with anyone beyond yourself. Oct 5, 2016 at 21:40

6 Answers 6


One first problem might be that the location where the prog data is stored is not executable.

On Linux at least, the resulting binary will place the contents of global variables in the "data" segment or here, which is not executable in most normal cases.

The second problem might be that the code you are invoking is invalid in some way. There's a certain procedure to calling a method in C, called the calling convention (you might be using the "cdecl" one, for example). It might not be enough for the called function to just "ret". It might also need to do some stack cleanup etc. otherwise the program will behave unexpectedly. This might prove an issue once you get past the first problem.

  • 5
    This article goes into remarkably complete detail on how to embed and call machine code in C. It starts with the premise of turning main() into a char array.
    – event44
    Oct 6, 2016 at 13:49

You need to call memprotect in order to make the page where prog lives executable. The following code does make this call, and can execute the text in prog.

#include <unistd.h>
#include <stdio.h>
#include <malloc.h>
#include <stdlib.h>
#include <errno.h>
#include <sys/mman.h>

char prog[] = {
   0x55,             // push   %rbp
   0x48, 0x89, 0xe5, // mov    %rsp,%rbp
   0xf2, 0x0f, 0x10, 0x05, 0x00, 0x00, 0x00,
       //movsd  0x0(%rip),%xmm0        # c <x+0xc>
   0x5d,             // pop    %rbp
   0xc3,             // retq

int main()
    long pagesize = sysconf(_SC_PAGE_SIZE);
    long page_no = (long)prog/pagesize;
    int res = mprotect((void*)(page_no*pagesize), (long)page_no+sizeof(prog), PROT_EXEC|PROT_READ|PROT_WRITE);
        fprintf(stderr, "mprotect error:%d\n", res);
        return 1;
    typedef double (*dfunc)(void);

    dfunc d = (dfunc)(&prog[0]);
    double x = (*d)();
    printf("x=%f\n", x);
    return 0;
  • In this case, you can also declare the array const to let it be stored in the executable part of the process memory: stackoverflow.com/q/12446965/1025391
    – moooeeeep
    Oct 6, 2016 at 14:23
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    @moooeeeep You can't generally assume that the memory section for readonly data is executable, even if some shitty linkers do it like that. Oct 6, 2016 at 14:26
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    @CodesInChaos You can't generally assume that you can execute machine code stored in an array, yet the OP asked for it.
    – moooeeeep
    Oct 6, 2016 at 14:30
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    @moooeeeep: sometime in the last year or so, GNU ld started linking .rodata into its own ELF segment so it can be read-only without exec permission. Not part of the text segment like it used to do. So that simple trick no longer works. You could use an __attribute__((section(".text"))) on a const array, though, in GNU C. Jun 8, 2020 at 17:03
  • Your shellcode reads past the end of its array with movsd 0x0(%rip),%xmm0. That's an 8-byte load starting at the 0x5d byte (the byte after the movsd instruction because RIP+0). x86 is little-endian so the exponent field of the double will be from whatever garbage comes next. It looks like you naively copied objdump output for compiler-generated debug-mode code for a function that returns a double. It will of course load that constant from .rodata because x86 doesn't have FP immediate operands. But you didn't put the referenced double into the shellcode. Jun 8, 2020 at 17:05

As everyone already said, you must ensure prog[] is executable, however the proper way to do it, unless you're writing a JIT compiler, is to put the symbol in an executable area, either by using a linker script or by specifying the section in the C code if the compiler allows , e.g.:

const char prog[] __attribute__((section(".text"))) = {...}

Virtually all C compilers will let you do this by embedding regular assembly language in your code. Of course it's a non-standard extension to C, but compiler writers recognise that it's often necessary. As a non-standard extension, you'll have to read your compiler manual and check how to do it, but the GCC "asm" extension is a fairly standard approach.

 void DoCheck(uint32_t dwSomeValue)
    uint32_t dwRes;

    // Assumes dwSomeValue is not zero.
    asm ("bsfl %1,%0"
      : "=r" (dwRes)
      : "r" (dwSomeValue)
      : "cc");

    assert(dwRes > 3);

Since it's easy to trash the stack in assembler, compilers often also allow you to identify registers you'll use as part of your assembler. The compiler can then ensure the rest of that function steers clear of those registers.

If you're writing the assembler code yourself, there is no good reason to set up that assembler as an array of bytes. It's not just a code smell - I'd say it is a genuine error which could only happen by being unaware of the "asm" extension which is the right way to embed assembler in your C.

  • 7
    Good lord, how did five separate users answer this question without even mentioning asm? Bleeeeeeaaaaaaaarrrrrrrgggggghhhhh. Oct 5, 2016 at 21:37
  • 6
    @KyleStrand Maybe everyone else makes the distinction between machine language (what the user wants) and assembler. asm is for example less useful if you want to generate the code on-the-fly.
    – pipe
    Oct 5, 2016 at 22:29
  • 1
    Also you can't use true assembly in every C compiler. E.g. MSVC will treat its __asm codes as code in yet another high-level language: it will try to optimize it, and won't let you emit raw bytes (like with db directive in MASM).
    – Ruslan
    Oct 6, 2016 at 7:15
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    @pipe Except that he's setting up constant arrays with instruction byte codes. If he knows what instructions he wants, all he's doing is a complicated version of embedding an "asm" block.
    – Graham
    Oct 6, 2016 at 10:33
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    @KyleStrand I never mentioned const. I'm pretty sure that someone who's trying to execute machine language from C is aware of the asm() construct, and I'm glad that he reduced the example code snippet to the bare minimum that demonstrates the problem.
    – pipe
    Oct 6, 2016 at 18:48

Essentially this has been clamped down on because it was an open invitation to virus writers. But you can allocate and buffer and set it up with native machinecode in straight C - that's no problem. The issue is calling it. Whilst you can try setting up a function pointer with the address of the buffer and calling it, that's highly unlikely to work, and highly likely to break on the next version of the compiler if somehow you do manage to coax it into doing what you want. So the best bet is to simply resort to a bit of inline assembly, to set up the return and jump to the automatically generated code. But if the system protects against this, you'll have to find methods of circumventing the protection, as Rudi described in his answer (but very specific to one particular system).


One obvious error is that \xc3 is not returning the double that you claim it's returning.


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