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.section .bss
        .lcomm stack, 4

.section .text

.globl _start
_start:
nop

movl %eip,$stack   --> How i can move ESP or any other registers value which will actually be ADDRESS , into STACK variable?

movl $4, %eax
movl $1, %ebx
movl $stack, %ecx
movl $4, %edx
int $0x80

movl $1, %eax
movl $0, %ebx
int $0x80

Actually I want to print current ESP value using WRITE system call, as I will use this in my C program as inline assembly.

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You have to convert it to a hex string first. –  Jonathon Reinhart Dec 9 '12 at 19:21
    
any Idea how i can proceed with this code? –  littlejack Dec 9 '12 at 19:43

1 Answer 1

This GNU C/C++ code (GNU because of the style of inline assembly it uses to retrieve the current stackpointer value) will print the current value of the stackpointer (in hex)

static __inline__ void printESP(void) {
    static const hexdigit[] = "0123456789ABCDEF\n";
    uintptr_t SP;

    __asm__ __volatile__("mov %%esp, %0\n\t" : "=r"(SP));

    write(1, &hexdigit[SP >> 28], 1);
    write(1, &hexdigit[0xf & SP >> 24], 1);
    write(1, &hexdigit[0xf & SP >> 20], 1);
    write(1, &hexdigit[0xf & SP >> 16], 1);
    write(1, &hexdigit[0xf & SP >> 12], 1);
    write(1, &hexdigit[0xf & SP >> 8], 1);
    write(1, &hexdigit[0xf & SP >> 4], 1);
    write(1, &hexdigit[0xf & SP], 1);
    write(1, &hexdigit[16], 1);
}

Due to the static __inline__, gcc in most circumstances (except, really, if you use a function pointer) will actually not create this function but embed the code directly at the callsite.

You could construct a more elaborate piece that'd do something like:

static __inline__ printESP(void)
{
    static const char hexdigit[] = "0123456789ABCDEF\n";
    uintptr_t SP;
    char buf[9];

    __asm__ __volatile__("mov %%esp, %0\n\t" : "=r"(SP));

    buf[0] = hexdigit[SP >> 28];
    buf[1] = hexdigit[0xf & SP >> 24];
    buf[2] = hexdigit[0xf & SP >> 20];
    buf[3] = hexdigit[0xf & SP >> 16];
    buf[4] = hexdigit[0xf & SP >> 12];
    buf[5] = hexdigit[0xf & SP >> 8];
    buf[6] = hexdigit[0xf & SP >> 4];
    buf[7] = hexdigit[0xf & SP];
    buf[8] = hexdigit[16];
    write(1, buf, 9);
}

This constructs a temporary buffer on the stack and invokes the write() just exactly once.

The disadvantage of the second piece code is that it actually consumes stackspace, which means if you invoke it, say, from a function that'd overflowed its stack and/or corrupted its stackpointer, it'll crash. The trivial first one emitting the address character-by-character might still work.

Note on your initial assembly code: That's using a global buffer and is therefore not thread-safe; if you invoke it from multiple threads at the same time, they'll corrupt the variable and you'll get garbage. So no, I won't help "fix" that one.

General note on the approach: Personally, I think that's what debuggers are for. This specific type of runtime instrumentation (in this fashion - by printing values directly) is rather not useful; if runtime instrumentation, then better log to an in-memory trace buffer, where you can record extended information like (partial) stacktraces, thread IDs, timestamps, other register values etc. as well as just the stackpointer. Using an in-memory (ring)buffer doesn't rely on a special meaning for filedescriptor 1, and allows "contextual" information more descriptive of what's going on than a stackpointer value only.

Also, if the value doesn't have to be 100% exact, you could use gcc builtins, uintptr_t SP = (uintptr_t)__builtin_frame_address(0) instead. You wouldn't need the inline assembly at all. The difference is that it'll give you the stackpointer at entry to the function, not the current one at callsite, i.e. it doesn't account for stack usage by local variables and other "temporaries".

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