I have a question about mutex implementation in Linux kernel on an ARM platform.

__mutex_fastpath_lock(atomic_t *count, void (*fail_fn)(atomic_t *))
    int __ex_flag, __res;

    __asm__ (

             "ldrex  %0, [%2]        \n\t"
             "sub    %0, %0, #1      \n\t"
             "strex  %1, %0, [%2]    "  //for ARMv6+ ,kernel use ldrex/strex implement mutex lock.

              : "=&r" (__res), "=&r" (__ex_flag)
              : "r" (&(count)->counter)
              : "cc","memory" );

             __res |= __ex_flag;    //How can we know the "strex" operation is successfully finished or not? 
                                    //The status of (atomic_t *count) is different in these two cases. 
                                    //I wonder this is a bug ,or I did not understand the lock mechanism so well.

      if (unlikely(__res != 0))

Thank you very much for your suggestion or answer to this question. Anything will be appreciated.

For more information about the source code, please refer to ; http://lxr.oss.org.cn/source/arch/arm/include/asm/mutex.h?v=3.5.2;a=arm

The file path is:


__res is zero if successful

STREX{cond} Rd, Rm, [Rn] Store to address in Rn and flag if successful in Rd (Rd = 0 if successful)

Note that __res is or'd with __ex_flag

 __res |= __ex_flag;

So if either of the ldrex or strex operations has failed the check fails.

Note: if the value was accessed after ldrex the exclusive access fails; strex fails and the value will not be stored. There's more information about this in the info center:

The STREX instruction performs a conditional store of a word to memory. If the exclusive monitor(s) permit the store, the operation updates the memory location and returns the value 0 in the destination register, indicating that the operation succeeded. If the exclusive monitor(s) do not permit the store, the operation does not update the memory location and returns the value 1 in the destination register.

The point is that if the exclusive access fails, either on load or store the kernel will know about it because __ex_flags=1 or __res=1, if it doesn't fail, but the mutex was already locked we will still know about it because __res=0xFFFFFFFF at that point it doesn't matter if the exclusive access has failed or not because the mutex was locked.

Now, the only problem I see is that it will store 0xFFFFFFFF into count, but that will probably be incremented again when whoever locked the mutex unlocks it, which means it could be a way for more than one thread to wait on the mutex. This is from the comments in your link:

If once decremented it isn't zero, or if its store-back fails due to a dispute on the exclusive store, we simply bail out immediately through the slow path where the lock will be reattempted until it succeeds.

  • Thank you for your reply. But ,you see the problem ,kernel does not check %1(__ex_flag) , so we do not know whether the result is stored or not. – Dongguo Nov 12 '12 at 10:35
  • @user1296994 it does because it's or'd with __res so if either of them is true the operation failed. – iabdalkader Nov 12 '12 at 10:38
  • The difference is ; 1. if strex is successful, lock is decreased by 1. 2. if not ,lock is not decreased by 1. so the result is different. – Dongguo Nov 12 '12 at 10:40
  • @user1296994 ah I see what you mean, but no it's not stored if strex fails – iabdalkader Nov 12 '12 at 10:45
  • Consider this two cases; If %0 is not zero in ("sub %0, %0, #1 \n\t") Case 1: strex succeeds, so the lock_counter is decreased by 1. Case 2: strex fails, the lock_counter is not decreased. The results are different ,but kernel do not know that .I wonder how kernel can handle these two different cases. – Dongguo Nov 12 '12 at 10:51

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