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Here is my implementation of a spin lock, but it seems it can not protect the critical code. Is there something wrong with my implementation?

static __inline__ int xchg_asm(int* lock, int val) 
  int ret; 
  __asm__ __volatile__(
    LOCK "movl (%1),%%eax; 
    xchg (%1),%2; 
    movl %%eax, %0" :"=m" (ret) :"d"(lock), "c"(val)
  return ret; 
void spin_init(spinlock_t* sl) 
  sl->val = 0; 
void spin_lock(spinlock_t* sl) 
  int ret; 
  do { 
    ret = xchg_asm(&(sl->val), 1); 
  } while ( ret==0 ); 

void spin_unlock(spinlock_t* sl) 
  xchg_asm(&(sl->val), 0);
share|improve this question
my addition is above. – venus.w Jul 17 '12 at 2:12
Excellent; it probably isn't the bug, but it seems very odd to me for the spin_destroy() function to free memory that was not allocated by spin_init(). (Is there a spin_alloc() function too?) – sarnold Jul 17 '12 at 2:15
spin_destory is excess maybe. – venus.w Jul 17 '12 at 2:26
Perhaps it is excessive. But providing a matched _init() and _destroy() function is nice, especially if you want to modify anything in the future. – sarnold Jul 17 '12 at 2:27
up vote 10 down vote accepted

Your code equals to:

static __inline__ int xchg_asm(int* lock, int val) {
   int save_old_value_at_eax;

   save_old_value_at_eax = *lock;        /* with a wrong lock prefix */
   xchg *lock with val and discard the original value of *lock.
   return save_old_value_at_eax;           /* but it not the real original value of *lock */

You can see from the code, save_old_value_at_eax is no the real original value while the cpu perform xchg. You should get the old/original value by the xchg instruction, not by saving it before perform xchg. ("it is not the real old/original value" means, if another CPU takes the lock after this CPU saves the value but before this CPU performs the xchg instruction, this CPU will get the wrong old value, and it think it took the lock successful, thus, two CPUs enter the C.S. at the same time). You have separated a read-modify-write instruction to three instructions, the whole three instructions are not atomically(even you move the lock prefix to xchg).

I guess you thought the lock prefix will lock the WHOLE three instructions, but actually lock prefix can only be used for the only instruction which it is attached(not all instructions can be attached) And we don't need lock prefix on SMP for xchg. Quote from linux_kernel_src/arch/x86//include/asm/cmpxchg.h

 * Note: no "lock" prefix even on SMP: xchg always implies lock anyway.
 * Since this is generally used to protect other memory information, we
 * use "asm volatile" and "memory" clobbers to prevent gcc from moving
 * information around.

My suggestions:

  1. DON'T REPEAT YOURSELF, please use the spin lock of the linux kernel.
  2. DON'T REPEAT YOURSELF, please use the xchg(), cmpxchg() of the linux kernel if you do want to implement a spin lock.
  3. learn more about instructions. you can also find out how the linux kernel implement it.
share|improve this answer

I believe the problem is that the lock instruction prefix only applies to the following instruction, so your exchange is not atomic. See this other answer on SO for more details: What does the "lock" instruction mean in x86 assembly?

I think if you move the lock instruction prefix to the xchg, it will work.

edit: This might be useful (example atomic exchange in gcc assembly):

Note that I think my original answer is actually wrong, further googling shows that xchg is locked if memory is referenced automatically since 386.

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