On Sun, 18 May 2003, Peter T. Breuer wrote:
> This is essentially the same struct as mine. I used the pid of the task,
> where you use the address of the task. You use an atomic count, whereas
> I used an ordinary int, guarded by the embedded spinlock.
>
>
> > #define nestlock_lock(snl) \
> > do { \
> > if ((snl)->uniq == current) { \
>
> That would be able to read uniq while it is being written by something
> else (which it can, according to the code below). It needs protection.
No it does not, look better.
> > atomic_inc(&(snl)->count); \
>
> OK, that's the same.
>
> > } else { \
> > spin_lock(&(snl)->lock); \
> > atomic_inc(&(snl)->count); \
> > (snl)->uniq = current; \
>
> Hmm .. else we wait for the lock, and then set count and uniq, while
> somebody else may have entered and be reading it :-). You exit with
Nope, think about a case were it breaks. False negatives are not possible
because it is set by the same task and false positives either.
> Well, it's not assembler either, but at least it's easily comparable
> with the nonrecursive version. It's essentially got an extra if and
> an inc in the lock. That's all.
Well, there's a little difference. In case of contention, you loop with
your custom try lock while I used the optimized asm code inside spin_lock.
But again, I believe we didn't lose anything with the removal of this code
(nested/recursive locks) from the kernel.
- Davide
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This archive was generated by hypermail 2b29 : Fri May 23 2003 - 22:00:31 EST