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SubjectRe: [PATCH rcu 04/18] rcu: Weaken ->dynticks accesses and updates
On Thu, Jul 29, 2021 at 12:53:31PM +0200, Frederic Weisbecker wrote:
> On Thu, Jul 29, 2021 at 03:58:04PM +0800, Boqun Feng wrote:
> > > The following litmus test, also adapted from the one supplied off-list
> > > by Frederic Weisbecker, models the RCU grace-period kthread detecting
> > > a non-idle CPU that is concurrently transitioning to idle:
> > >
> > > C dynticks-into-idle
> > >
> > > {
> > > DYNTICKS=1; (* Initially non-idle. *)
> > > }
> > >
> > > P0(int *X, int *DYNTICKS)
> > > {
> > > int dynticks;
> > >
> > > // Non-idle.
> > > WRITE_ONCE(*X, 1);
> > > dynticks = READ_ONCE(*DYNTICKS);
> > > smp_store_release(DYNTICKS, dynticks + 1);
> > > smp_mb();
> >
> > this smp_mb() is not needed, as we rely on the release-acquire pair to
> > provide the ordering.
> >
> > This means that if we use different implementations (one w/ smp_mb(),
> > another w/o) rcu_dynticks_inc() for idle-to-nonidle and nonidle-to-idle,
> > we could save a smp_mb(). Thoughts?
>
> That's exactly what I wanted to propose but everybody was sober. Namely order
> only the RCU read side critical sections before/after idle together:
>
> READ side critical section
> //enter idle
> //exit idle
> smp_mb()
> READ side critical section
>
> instead of ordering the RCU read side critical section before idle - with the RCU
> idle extended quiescent state - with the RCU read side critical section after idle:
>
> READ side critical section
> //enter idle
> smp_mb();
> //exit idle
> smp_mb()
> READ side critical section
>
> So the side effect now is that if the write side waits for the reader to
> report a quiescent state and scans its dynticks state and see it's not yet in
> RCU idle mode, then later on when the read side enters in RCU idle mode we
> expect it to see the write side updates.
> But after the barrier removal the reader will only see the write side update
> once we exit RCU idle mode.
>
> So the following may happen:
>
> P0(int *X, int *Y, int *DYNTICKS)
> {
> int y;
>
> WRITE_ONCE(*X, 1);
> smp_store_release(DYNTICKS, 1); // rcu_eqs_enter
> //smp_mb() not there anymore
> y = READ_ONCE(*Y);
> smp_store_release(DYNTICKS, 2); // rcu_eqs_exit()
> smp_mb();
> }
>
> P1(int *X, int *Y, int *DYNTICKS)
> {
> int x;
> int dynticks;
>
> WRITE_ONCE(*Y, 1);
> smp_mb();
> dynticks = smp_load_acquire(DYNTICKS);
> x = READ_ONCE(*X);
> }
>
> exists (1:x=0 /\ 0:y=0)
>

Thanks for the detailed explanation ;-)

> Theoretically it shouldn't matter because the RCU idle mode isn't
> supposed to perform RCU reads. But theoretically again once a CPU

Right, in LOCKDEP=y kernel, rcu_read_lock_held() requires
rcu_is_watching(), so rcu_dereference() is not allowed in idle mode,
unless using RCU_NONIDLE() or rcu_irq_enter_irqson() to temporarily exit
the idle mode.

> has reported a quiescent state, any further read is expected to see
> the latest updates from the write side.

Yes, but in your above case, doesn't P0 already reach to a quiescent
state even before WRITE_ONCE()? IOW, that case is similar to the
following:

P0(int *X, int *Y)
{
// in QS

WRITE_ONCE(*X, 1);
y = READ_ONCE(*Y);
}

P1(int *X, int *Y)
{
WRITE_ONCE(*Y, 1);
synchronize_rcu();
x = READ_ONCE(*X);
}

exists (1:x=0 /\ 0:y=0)

And RCU doesn't guarantee the READ_ONCE() on P0 sees the WRITE_ONCE() on
P1.

>
> So I don't know what to think. In practice I believe it's not a big deal
> because RCU idle mode code is usually a fragile path that just handles
> cpuidle code to put the CPU in/out low power mode. But what about dragons...

My current thought is that if the cpuidle code requires some ordering
with synchronize_rcu(), RCU_NONIDLE() should be used, and ordering can
be guaranteed in this case (RCU_NONIDLE() has a rcu_eqs_exit() in it).
Otherwise, it's a bug.

So looks like we can drop that smp_mb() in rcu_eqs_enter()? At least, we
can say something in the doc to prevent people from relying on the
ordering between normal reads in RCU idle mode and synchronize_rcu().

Thoughts?

Regards,
Boqun

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