On 12/13, Srivatsa S. Bhat wrote:

On 12/13/2012 09:47 PM, Oleg Nesterov wrote:

quoted

On 12/13, Srivatsa S. Bhat wrote:

quoted

On 12/13/2012 12:42 AM, Srivatsa S. Bhat wrote:

quoted

Even I don't spot anything wrong with it. But I'll give it some more
thought..

Since an interrupt handler can also run get_online_cpus_atomic(), we
cannot use the __this_cpu_* versions for modifying reader_percpu_refcnt,
right?

Hmm. I thought that __this_cpu_* must be safe under preempt_disable().
IOW, I thought that, say, this_cpu_inc() is "equal" to preempt_disable +
__this_cpu_inc() correctness-wise.

And. I thought that this_cpu_inc() is safe wrt interrupt, like local_t.

But when I try to read the comments percpu.h, I am starting to think that
even this_cpu_inc() is not safe if irq handler can do the same?

The comment seems to say that its not safe wrt interrupts. But looking at
the code in include/linux/percpu.h, IIUC, that is true only about
this_cpu_read() because it only disables preemption.

However, this_cpu_inc() looks safe wrt interrupts because it wraps the
increment within raw_local_irqsave()/restore().

You mean _this_cpu_generic_to_op() I guess. So yes, I think you are right,
this_cpu_* should be irq-safe, but __this_cpu_* is not.

Thanks.

At least on x86 there is no difference between this_ and __this_, both do
percpu_add_op() without local_irq_disable/enable. But it seems that most
of architectures use generic code.

Oleg.