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I need to write the implementation of __sync_fetch_and_sub atomic operation myself in assembly language based on GCC 3.4 which doesn't have __sync_fetch_and_sub builtins. But I know little about assembly.

Can anyone help me? Any help would be greatly appreciated!!

here is the implementation of __sync_fetch_and_add

inline unsigned int __sync_fetch_and_add(volatile unsigned int* p, unsigned int incr)
{

    unsigned int result;
    __asm__ _volatile_ ("lock; xadd %0, %1" :
            "=r"(result), "=m"(*p):
            "0"(incr), "m"(*p) :
            "memory");
    return result;
}

__sync_fetch_and_add(int *ptr, int a_count) is to atomically add a_count to the variable pointed by ptr. return the value that had previously in memory.

__sync_fetch_and_sub(int *ptr, int a_count) is to atomically subtract a_count from the variable pointed by ptr. return the value that had previously in memory.

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Wouldn't __sync_fetch_and_add(ptr, -a_count) do the job? –  Bo Persson Jan 10 '13 at 8:56
    
I thought this wouldn't work because the second parameter was unsigned int, so if we pass -a_count then the value passed will not be the one we want. But now I think this also works for this case. Thanks. But I mark the other one as the answer because I want to know how to implement it in assembly language. –  Steve Jan 14 '13 at 13:14
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1 Answer

up vote 3 down vote accepted

This snippet uses the atomic version of xadd: exchange and add: it atomically add the right operand to the left (here to memory) and returns the initial value in memory in the right operand. The lock statement before ensure the atomicity of the operation.

However, gcc uses the AT&T notation, so the left and right arguments in this explanation (taken from the intel manual) are reversed.

As there is no xsub instruction on intel architecture, the easiest way to emulate this is first to take the opposite of the number you want to substract and then add/exchange it atomically:

inline unsigned int __sync_fetch_and_sub(volatile unsigned int* p,
    unsigned int decr)
{
    unsigned int result;

    __asm__ __volatile__ ("lock; xadd %0, %1"
            :"=r"(result), "=m"(*p)
            :"0"(-decr), "m"(*p)
            :"memory");
    return result;
}

I also remove the unsigned properties, I don't find they are relevant in this case.

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Correct me if I'm wrong, but xadd is interlocked whether or not you give it a lock prefix, right? Also, why do you need the "memory" clobber? –  tmyklebu Jan 10 '13 at 6:28
    
@tmyklebu The intel manual reads "This instruction can be used with a LOCK prefix to allow the instruction to be executed atomically". I suppose the normal instruction is divided into multiples micro-ops and can cause non-atomic behavior in a multi-core context (not sure it's the only case though). As for the memory thingy I admit I've been lazy and took the OP's code as a starting point. I'll see if you can get rid of it. –  lbonn Jan 10 '13 at 6:39
    
@tmyklebu I looked up the clobber of memory and found this handy doc from osdev. gcc likes to optimize out inline assembly and it is advised to use _volatile_ and to clobber "memory" when doing something that writes on memory. Not sure if it's really vital here but better be safe than sorry I guess :). –  lbonn Jan 10 '13 at 7:01
1  
I'd leave things with unsigned. That has a clearly defined semantic for overflow, whereas signed is implementation defined. So a user of that code would always have to guess (or to look up if it is documented) what the behavior would be. –  Jens Gustedt Jan 10 '13 at 7:59
    
@JensGustedt thanks, I read about it and learned about the depth of this pitfall. I will correct that shortly. –  lbonn Jan 10 '13 at 8:32
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