In C I have:

struct segv_ctrl {
    _Bool volatile*volatile rfaulted_eh_ptr;
    _Bool volatile*volatile wfaulted_eh_ptr;
_Thread_local struct segv_ctrl segv_ctrl;
_Bool rfaulted_eh(char volatile*Ptr)
    _Bool volatile faulted=0;
    char c; _Bool r;
    segv_ctrl.rfaulted_eh_ptr = &faulted;
    #if 1
    r = faulted;
    //I'd like this to produce the same code as the #if block above
    //but I obviously have no idea what I'm doing :D
    __asm__ __volatile__ (
        "mov (%2),%0;\n"
        "mov %3,%1;\n"
        : "=r"(c), "=r"(r)
        : "r" (Ptr), "r"(faulted)

    return r;
_Bool wfaulted_eh(char volatile*Ptr)
    _Bool volatile faulted=0;
    _Bool r;
    segv_ctrl.wfaulted_eh_ptr = &faulted;
    #if 1
    r = faulted;
    return r;

With clang -O1 to -O3 on x86-64 it very reliably generates:

c.o:     file format elf64-x86-64

Disassembly of section .text:

0000000000000000 <rfaulted_eh>:
   0:   c6 44 24 ff 00          movb   $0x0,-0x1(%rsp)
   5:   48 8d 44 24 ff          lea    -0x1(%rsp),%rax
   a:   64 48 89 04 25 00 00    mov    %rax,%fs:0x0
  11:   00 00 
  13:   8a 07                   mov    (%rdi),%al
  15:   8a 44 24 ff             mov    -0x1(%rsp),%al
  19:   c3                      retq   
  1a:   66 0f 1f 44 00 00       nopw   0x0(%rax,%rax,1)

0000000000000020 <wfaulted_eh>:
  20:   c6 44 24 ff 00          movb   $0x0,-0x1(%rsp)
  25:   48 8d 44 24 ff          lea    -0x1(%rsp),%rax
  2a:   64 48 89 04 25 00 00    mov    %rax,%fs:0x0
  31:   00 00 
  33:   c6 07 00                movb   $0x0,(%rdi)
  36:   8a 44 24 ff             mov    -0x1(%rsp),%al
  3a:   c3                      retq   

I'd like to take the

mov    (%rdi),%al
mov    -0x1(%rsp),%al

part and the

movb   $0x0,(%rdi)
mov    -0x1(%rsp),%al

part and turn them into reusable, inlinable assembly snippets.

My very unsuccessful attempt is shown in the elided #if block above. Can you please explain why it's wrong and it's possible to make this work with inline assembly?

(I'm using this to detect segfaults cheaply (if there wouldn't be a segfault). If I know the length of the possibly segfaulting instruction, I can skip right past it in my SIGSEGV handler without having to have made a relatively expensive sigsetjmp, but gcc isn't generating such reliable code so I'd like to force it to.)

  • How can you jump past the faulting instruction without knowing the length? FWIW I tried to figure out what you were doing here. But it's difficult for me to given I'm used to Intel assembly (-masm=intel). Also, have you considered simply writing the entire function in assembly?
    – Micrified
    Feb 6, 2019 at 15:04
  • @Micrified You can't. That's why I'm trying to generate known instructions. Feb 6, 2019 at 15:06
  • 1
    (Actually you can do it by disassembling the current instruction in the sigsegv handler - something I've done before :)).
    – Micrified
    Feb 6, 2019 at 15:06
  • @Micrified That's definitely an adequate and easy to implement solution, but I though I'd try and figure out how to do it with inline assembly. Reading up more on it now. Feb 6, 2019 at 15:07
  • @Micrified Interesting approach. Feb 6, 2019 at 15:08

1 Answer 1


The second line is just loading the faulted from the stack, you don't need that in asm and it won't ever fault (assuming the previous initialization didn't fault). You can use

"mov (%1), %0" : "=a" (c) : "D" (Ptr)


"movb $0, (%1)" : "=m" (*Ptr): "D" (Ptr)

where a is the appropriately sized sub-register of rax, which is al for 8 bits. D is the rdi register. = means output. m is a generic memory operand used to tell the compiler the asm is writing into memory at *Ptr. Could be omitted here since your Ptr is volatile so the compiler will not cache the value, but it doesn't hurt.


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