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For the sake of curiosity I'm trying to read the flag register and print it out in a nice way.

I've tried reading it using gcc's asm keyword, but i can't get it to work. Any hints how to do it? I'm running a Intel Core 2 Duo and Mac OS X. The following code is what I have. I hoped it would tell me if an overflow happened:

#include <stdio.h>

int main (void){
  int a=10, b=0, bold=0;
  __asm__ ("pushf\n\t"
   "movl 4(%%esp), %%eax\n\t"
   "movl %%eax , %0\n\t"
    printf("register changed \n %d\t to\t %d",bold , b);
  bold = b;

This gives a segmentation fault. When I run gdb on it I get this:

Program received signal EXC_BAD_ACCESS, Could not access memory.
Reason: KERN_INVALID_ADDRESS at address: 0x000000005fbfee5c
0x0000000100000eaf in main () at asm.c:9
9       asm ("pushf \n\t"
share|improve this question
For a pure assembly question see:… – Ciro Santilli 六四事件 法轮功 包卓轩 Apr 28 at 17:49

4 Answers 4

up vote 4 down vote accepted

You can use the PUSHF/PUSHFD/PUSHFQ instruction (see for details) to push the flag register onto the stack. From there on you can interpret it in C. Otherwise you can test directly (against the carry flag for unsigned arithmetic or the overflow flag for signed arithmetic) and branch.

(to be specific, to test for the overflow bit you can use JO (jump if set) and JNO (jump if not set) to branch -- it's bit #11 (0-based) in the register)

About the EFLAGS bit layout:

A very crude Visual C syntax test (just wham-bam / some jumps to debug flow), since I don't know about the GCC syntax:

int test2 = 2147483647; // max 32-bit signed int (0x7fffffff)
unsigned int flags_w_overflow, flags_wo_overflow;
    mov ebx, test2 // ebx = test value

    // test for no overflow
    xor eax, eax // eax = 0
    add eax, ebx // add ebx
    jno no_overflow // jump if no overflow

    // test for overflow
    xor ecx, ecx // ecx = 0
    inc ecx // ecx = 1
    add ecx, ebx // overflow!
    pushfd // store flags (32 bits)
    jo overflow // jump if overflow
    jmp done // jump if not overflown :(

    pushfd // store flags (32 bits)
    pop edx // edx = flags w/o overflow
    jmp testoverflow // back to next test

    jmp done // yeah we're done here :)

    pop eax // eax = flags w/overflow
    mov flags_w_overflow, eax // store
    mov flags_wo_overflow, edx // store

if (flags_w_overflow & (1 << 11)) __asm int 0x3 // overflow bit set correctly
if (flags_wo_overflow & (1 << 11)) __asm int 0x3 // overflow bit set incorrectly

return 0;
share|improve this answer
I changed the code (see above), but it still doesn't work. – Benedikt Wutzi Jul 29 '11 at 16:56
I must admit I can't really read GCC inline syntax but make sure you place the pushf instruction after the assignment. I'll test it in VCC. Oh also, use PUSHFD for full 32-bits. – nielsj Jul 29 '11 at 17:01
I can't use PUSHFD: it's not supported in 64-bit mode. At least thats what gcc tells me ;) . After which assignment should I push? – Benedikt Wutzi Jul 29 '11 at 17:05
I wouldn't know about that but there is also a 64-bit variant: PUSHFQ. Typically you put the push instruction after an arithmetic operation that would affect the bit you're after, as soon as possible. Just like with a conditional branch like JO I mentioned. Check my edit. – nielsj Jul 29 '11 at 17:12
@BenediktWutzi: move your increment to the inline asm block, written in assembly, if you want to do this hacks. – ninjalj Jul 29 '11 at 17:13

This maybe the case of the XY problem

To check for overflow you do not need to use the overflow flag, just checking the sign bits is enough

int a, b;
unsigned int r = (unsigned int)a + (unsigned int)b;    // do unsigned addition since signed addition do not overflow in C

int overflowed = ((~(a ^ b)) & (a ^ r)) & 0x80000000;  // if a and b have same sign and the result's sign is different from a and b then the addition was overflowed
int result     = (int)r;

This way it works portably and don't need to be on a x86. On MIPS there is no flag and all signed/unsigned overflow must be checked by software by analysing sign bits like that

For unsigned int it's much easier

unsigned int a, b, result = a + b;
int overflowed = (result < a);
share|improve this answer

Others have offered good alternate code and reasons why what you're trying to do probably doesn't give the result you want, but the actual bug in your code is that you corrupted the stack state by pushing without popping. I would rewrite the asm as:

pop %%0

But you could just add $4,%%esp at the end of your asm to fix the stack pointer if you prefer.

share|improve this answer
pushfd seems to be in order here? and yeah I'm going to do a bit of research on how to read that GCC syntax; it comes across as an eyesore but there's probably some good sense to it. – nielsj Jul 30 '11 at 9:38

The compiler can reorder instructions, so you cannot rely on your lahf being next to the increment. In fact, there may not be an increment at all. In your code, you don't use the value of a, so the compiler can completely optimize it out.

So, either write the increment + check in assembler, or write it in C.

Also, lahf loads only ah (8 bits) from eflags, and the Overflow flag is outside of that. Better use pushf; pop %eax.

Some tests:

#include <stdio.h>

int main (void){
    int a=2147483640, b=0, bold=0;
            __asm__ __volatile__ ("pushf \n\t"
                            "pop %%eax\n\t"
                            "movl %%eax, %0\n\t"
            if((b & 0x800) != (bold & 0x800)){
                    printf("register changed \n %x\t to\t %x\n",bold , b);
            bold = b;

$ gcc -Wall  -o ex2 ex2.c
$ ./ex2  # Works by sheer luck
register changed
 200206  to      200a96
register changed
 200a96  to      200282

$ gcc -Wall -O -o ex2 ex2.c
$ ./ex2  # Doesn't work, the compiler hasn't even optimized yet!
share|improve this answer
Much more applicable answer, nice :) I stupidly overlooked the LAHF (never really used that instruction either). – nielsj Jul 29 '11 at 17:15
I think #define overflow32(a,b,c) \ ( ( ((a)>>31)==((b)>>31) ) && ( ((a)>>31)!=((c)>>31) ) ) works for an overflow check after addition on C. – ninjalj Jul 29 '11 at 17:22
Looks okay. The whole issue makes me think: what kind of situation would you explicitly want to check this in? I mean sure it can happen but generally logic should strike preemptively to prevent this if not desired. Then again there are some very strict pieces of software (avionics et cetera) but they already have suites that generate C code after strenous testing against situations such as these. – nielsj Jul 29 '11 at 17:28
@nj: well, I took that from a MIPS emulation core I was working on, back in the jurassic times when I had spare time (MIPS has signed arithmetic that raise exceptions on overflow). – ninjalj Jul 29 '11 at 17:41
Yeah that makes good sense then - never wrote MIPS assembler nor much MIPS-targeted code anyway :) And x86 assembler has been 4 years at least as well. – nielsj Jul 29 '11 at 18:02

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