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I have two macros, one is written in assembly and the other in C. The second macro uses the first macro. However, I also want to write the second macro in assembly with volatile, so I can control its placement in the code. And please note that tid is a runtime value, not a constant like n.

What is a good way to write that in assembly? Also, is it possible to control placement of a C code like assembly with volatile?

#define SAVE_SP(n) __asm__ __volatile__ ("movq %rsp, msp"#n";" \
     "movq ts"#n", %rsp;" \
     )

#define SAVE_STACK_POINTER( tid ) \
    switch( tid ) \
    { \
        case 0: \
            SAVE_SP( 0 ); \
            break; \
        case 1: \
            SAVE_SP( 1 ); \
            break; \
        case 2: \
            SAVE_SP( 2 ); \
            break; \
        case 3: \
            SAVE_SP( 3 ); \
            break; \
    }
share|improve this question
    
tid is a runtime value, not a constant like n. – MetallicPriest Nov 25 '11 at 16:38
    
(Never mind, that was nonsense.) – Kerrek SB Nov 25 '11 at 16:38
1  
Is it possible to store the tsp<n> and msp<n> values in an array? – Brett Hale Nov 25 '11 at 16:44
3  
Which compiler/assembler are you using? For which processor? Inline assembler is not standardized, so the syntax to use C variables in inline assembly is highly dependent on those choices. – Johan Bezem Nov 25 '11 at 16:45
    
Why is SAVE_STACK_POINTER called at all, instead of calling SAVE_SP directly? – Jim Clay Nov 25 '11 at 16:52
up vote 6 down vote accepted

You can ask gcc its idea of how to write your code in assembly: gcc -S foo.c or gcc -Wa,-alh=foo.s -c foo.c. You may want to improve on the results, of course. You will need to do a little extra: use %0 for the parameter that you pass for the assembly chunk, and declare the registers that you've clobbered. Look up Assembler Instructions with C Expression Operands in the GCC manual if you aren't familiar. Here's how this might look like (warning, typed directly into the browser, and don't really know x86 assembly syntax).

#define SAVE_STACK_POINTER(tid) __asm__ __volatile__ (" \
        cmpl $0, %0                                   \n\
        je .SAVE_STACK_POINTER_0                      \n\
        cmpl $1, %0                                   \n\
        je .SAVE_STACK_POINTER_1                      \n\
        cmpl $2, %0                                   \n\
        je .SAVE_STACK_POINTER_2                      \n\
        cmpl $3, %0                                   \n\
        je .SAVE_STACK_POINTER_3                      \n\
        jmp .SAVE_STACK_POINTER_done                  \n\
      .SAVE_STACK_POINTER_0:                          \n\
        movq %%rsp, msp0                              \n\
        movq ts0, %%rsp                               \n\
        jmp SAVE_STACK_POINTER_done                   \n\
      .SAVE_STACK_POINTER_1:                          \n\
        movq %%rsp, msp1                              \n\
        movq ts1, %%rsp                               \n\
        jmp SAVE_STACK_POINTER_done                   \n\
      .SAVE_STACK_POINTER_2:                          \n\
        movq %%rsp, msp2                              \n\
        movq ts2, %%rsp                               \n\
        jmp SAVE_STACK_POINTER_done                   \n\
      .SAVE_STACK_POINTER_3:                          \n\
        movq %%rsp, msp3                              \n\
        movq ts3, %%rsp                               \n\
      .SAVE_STACK_POINTER_done:                       \n\
    " : : "r" (tid))

A fancier method would involve figuring out how many bytes each movq-movq-jmp block takes (note: I haven't checked, I use 8) and making a computed jump into it; something like

__asm__("                        \n\
    movl %0, %eax                \n\
    mul  8, %eax                 \n\
    add  4, %eax                 \n\
    jmp . + %eax                 \n\
    movq %%rsp, msp0             \n\
    movq ts0, %%rsp              \n\
    jmp .SAVE_STACK_POINTER_done \n\
    …
  .SAVE_STACK_POINTER_done:      \n\
" : : "r" (tid) : "%eax")
share|improve this answer

Assuming you're using GCC, you could try to use a GNU extension to map the stack pointer register to a C variable:

static register int stack_pointer0 asm("msp0");

void myfn () {
  ......
  saved_stack_pointer = stack_pointer0;
  ......
}

OK, that probably doesn't do what your original code did (it wasn't clear to me what the goal was), but you should be able to figure out the rest from that.

I think I got the syntax right, but apologies if not. I know this works for general registers, and I'm pretty confident GCC knows what to do for special registers, but you never know.

Hope that helps.

share|improve this answer

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