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SubjectRe: [PATCH v4 00/14] Implement call_rcu_lazy() and miscellaneous fixes
On Mon, Aug 29, 2022 at 01:31:31PM -0700, Paul E. McKenney wrote:
> On Mon, Aug 29, 2022 at 09:46:22PM +0200, Frederic Weisbecker wrote:
> > It's really sad that this is the first time I hear about that. I've been working
> > on this code for years now without this usecase in mind. And yet it's fundamental.
> >
> > I asked several times around about other usecases of rcu_nocbs than nohz_full=
> > and nobody reported that. I can hardly even google a significant link
> > between power saving and rcu_nocbs=
> >
> > If this is really used that way for a long time then it's a cruel disconnection
> > between users and developers.
>
> Knowing me, you probably asked about rcu_nocbs and I probably thought
> you were asking about nohz_full. :-/

Can't remember but no big deal, now we know about it and we can move forward
with that in mind.

>
> > > > 2) NOCB implies performance issues.
> > >
> > > Which kinds of? There is slightly worse boot times, but I'm guessing that's do
> > > with the extra scheduling overhead of the extra threads which is usually not a
> > > problem except that RCU is used in the critical path of boot up (on ChromeOS).
> >
> > I never measured it myself but executing callbacks on another CPUs, with
> > context switches and locking can only involve significant performance issues if callbacks
> > are frequent. So it's a tradeoff between power and performance.
>
> It has indeed been a problem for some workloads in the past. But I don't
> know of any recent measurements. And NOCB has gotten at least somewhat
> faster over the years.

I should try a comparison on a simple kernel build someday.

>
> > > > 3) We are mixing up two very different things in a single list of callbacks:
> > > > lazy callbacks and flooding callbacks, as a result we are adding lots of
> > > > off-topic corner cases all around:
> > > > * a seperate lazy len field to struct rcu_cblist whose purpose is much more
> > > > general than just bypass/lazy
> > > > * "lazy" specialized parameters to general purpose cblist management
> > > > functions
> > >
> > > I think just 1 or 2 functions have a new lazy param. It didn't seem too
> > > intrusive to me.
> >
> > What bothers me is that struct cblist has a general purpose and we are adding a field
> > and a parameter that is relevant to only one specialized user.
>
> This does sound like a bad idea, now that you mention it. Joel, if
> this is still in place, can it be moved near the rcu_data structure's
> bypass-related fields?
>
> And by the way, thank you for reviewing this patch series!

I'll go into a deeper review if we proceed.

> > > > So here is a proposal: how about forgetting NOCB for now and instead add a new
> > > > RCU_LAZY_TAIL segment in the struct rcu_segcblist right after RCU_NEXT_TAIL?
> > > > Then ignore that segment until some timer expiry has been met or the CPU is
> > > > known to be busy? Probably some tiny bits need to be tweaked in segcblist
> > > > management functions but probably not that much. And also make sure that entrain()
> > > > queues to RCU_LAZY_TAIL.
> > > >
> > > > Then the only difference in the case of NOCB is that we add a new timer to the
> > > > nocb group leader instead of a local timer in !NOCB.
> > >
> > > It sounds reasonable, but I'll go with Paul on the usecase argument - who would
> > > actually care about lazy CBs outside of power, and would those guys ever use
> > > !NO_CB if they cared about power / battery?
> >
> > _Everybody_ cares about power. Those who don't yet will very soon ;-)
>
> Apparently not enough to use CONFIG_RCU_FAST_NO_HZ. Though to be fair,
> that option had its own performance issues. And it would not reduce
> grace periods anywhere near as much as call_rcu_lazy(). But the problem
> was that last I checked on server workloads, the callbacks were mostly
> those that could not reasonably be lazy.

Right, but like I said, even servers can sometimes find a moment to think about
their good life.

> > And given the numbers you provided with your measurements, I bet this will
> > be significant with !NOCB as well. This is not only delaying callbacks execution,
> > this also reduces the frequency of grace periods, and that impact should be
> > quite visible.
> >
> > Note I'm not stricly opposed to the current approach. But I can't say I'm
> > comfortable with it.
> >
> > Can we do a simple test? Would it be possible to affine every rcuo%c/%d kthread
> > to the corresponding CPU%d? For example affine rcuop/1 to CPU 1, rcuop/2 to
> > CPU2, etc... And then relaunch your measurements on top of that?
> >
> > The point is that having the callback kthreads affined to their corresponding
> > CPUs should elude the power saving advantages of rcu_nocbs=, back to roughly
> > a !NOCB behaviour powerwise (except we have context switches). If you find good
> > numbers with this setup then you'll find good numbers with !NOCB.
>
> Another test would be to look at which callbacks are being invoked
> on each grace period. We have to have a substantial number of grace
> periods having all lazy callbacks before call_rcu_lazy() has any chance
> of helping. This would need to happen on a server platform because
> Android and ChromeOS data might or might not carry over.

Also that yes.

Thanks.

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