Re: [PATCH 1/1] Reduce synchronize_rcu() waiting time
From: Joel Fernandes
Date: Thu Mar 30 2023 - 11:11:01 EST
On Tue, Mar 28, 2023 at 08:26:13AM -0700, Paul E. McKenney wrote:
> On Mon, Mar 27, 2023 at 10:29:31PM -0400, Joel Fernandes wrote:
> > Hello,
> >
> > > On Mar 27, 2023, at 9:06 PM, Paul E. McKenney <paulmck@xxxxxxxxxx> wrote:
> > >
> > > On Mon, Mar 27, 2023 at 11:21:23AM +0000, Zhang, Qiang1 wrote:
> > >>>> From: Uladzislau Rezki (Sony) <urezki@xxxxxxxxx>
> > >>>> Sent: Tuesday, March 21, 2023 6:28 PM
> > >>>> [...]
> > >>>> Subject: [PATCH 1/1] Reduce synchronize_rcu() waiting time
> > >>>>
> > >>>> A call to a synchronize_rcu() can be expensive from time point of view.
> > >>>> Different workloads can be affected by this especially the ones which use this
> > >>>> API in its time critical sections.
> > >>>>
> > >>>
> > >>> This is interesting and meaningful research. ;-)
> > >>>
> > >>>> For example in case of NOCB scenario the wakeme_after_rcu() callback
> > >>>> invocation depends on where in a nocb-list it is located. Below is an example
> > >>>> when it was the last out of ~3600 callbacks:
> > >>>
> > >>
> > >>
> > >>
> > >> Can it be implemented separately as follows? it seems that the code is simpler
> > >> (only personal opinion) 😊.
> > >>
> > >> But I didn't test whether this reduce synchronize_rcu() waiting time
> > >>
> > >> +static void rcu_poll_wait_gp(struct rcu_tasks *rtp)
> > >> +{
> > >> + unsigned long gp_snap;
> > >> +
> > >> + gp_snap = start_poll_synchronize_rcu();
> > >> + while (!poll_state_synchronize_rcu(gp_snap))
> > >> + schedule_timeout_idle(1);
> > >
> > > I could be wrong, but my guess is that the guys working with
> > > battery-powered devices are not going to be very happy with this loop.
> > >
> > > All those wakeups by all tasks waiting for a grace period end up
> > > consuming a surprisingly large amount of energy.
> >
> > Is that really the common case? On the general topic of wake-ups:
> > Most of the time there should be only one
> > task waiting synchronously on a GP to end. If that is
> > true, then it feels like waking
> > up nocb Kthreads which indirectly wake other threads is doing more work than usual?
>
> A good question, and the number of outstanding synchronize_rcu()
> calls will of course be limited by the number of tasks in the system.
> But I myself have raised the ire of battery-powered embedded folks with
> a rather small number of wakeups, so...
But unless I am missing something, even if there is single synchronize_rcu(),
you have a flurry of potential wakeups right now, instead of the bare minimum
I think. I have not measured how many wake ups, but I'd love to when I get
time. Maybe Vlad has some numbers.
> And on larger systems there can be a tradeoff between contention on
> the one hand and number of wakeups on the other.
>
> The original nocb implementation in fact had the grace-period kthead
> waking up all of what are now called rcuoc kthreads. The indirect scheme
> reduced the total number of wakeups by up to 50% and also reduced the
> CPU consumption of the grace-period kthread, which otherwise would have
> become a bottleneck on large systems.
Thanks for the background.
> And also, a scheme that directly wakes tasks waiting in synchronize_rcu()
> might well use the same ->nocb_gp_wq[] waitqueues that are used by the
> rcuog kthreads, if that is what you were getting at.
Yes that's what I was getting at. I thought Vlad was going for doing direct
wake ups from the main RCU GP thread that orchestates RCU grace period
cycles.
> > I am curious to measure how much does Vlad patch reduce wakeups in the common case.
>
> Sounds like a good thing to measure!
Ok. At the moment I am preparing 2 talks I am giving at OSPM for real-time and
timers. Plus preparing the PR, so I'm fully booked. :( [and the LWN article..].
>
> > I was also wondering how Vlad patch effects RCU-barrier ordering. I guess
> > we want the wake up to happen in the order of
> > other callbacks also waiting.
>
> OK, I will bite. Why would rcu_barrier() need to care about the
> synchronize_rcu() invocations if they no longer used call_rcu()?
Hm, I was just going for the fact that it is a behavioral change. Not
illuding that it would certainly cause an issue. As we know, Linux kernel
developers have interesting ways of using RCU APIs. :-)
But yes, it may not be an issue considering expedited synchronize_rcu() also
has such behavior anyway, if I'm not mistaken.
> > One last note, most battery powered systems are perhaps already using expedited RCU ;-)
>
> Good point. And that does raise the question of exactly what workloads
> and systems want faster wakeups from synchronize_rcu() and cannot get
> this effect from expedited grace periods.
Maybe the kind of workloads that don't need GP completion very quickly, but
just want to reduce wakeups. The wakeups do have a cost, the scheduler can
wake up several idle CPUs to "spread the awakened load" and cause wastage
power. And also contend on locks during the wake up.
thanks,
- Joel
> > - Joel
> >
> > >
> > > Thanx, Paul
> > >
> > >> +}
> > >> +
> > >> +void call_rcu_poll(struct rcu_head *rhp, rcu_callback_t func);
> > >> +DEFINE_RCU_TASKS(rcu_poll, rcu_poll_wait_gp, call_rcu_poll,
> > >> + "RCU Poll");
> > >> +void call_rcu_poll(struct rcu_head *rhp, rcu_callback_t func)
> > >> +{
> > >> + call_rcu_tasks_generic(rhp, func, &rcu_poll);
> > >> +}
> > >> +EXPORT_SYMBOL_GPL(call_rcu_poll);
> > >> +
> > >> +void synchronize_rcu_poll(void)
> > >> +{
> > >> + synchronize_rcu_tasks_generic(&rcu_poll);
> > >> +}
> > >> +EXPORT_SYMBOL_GPL(synchronize_rcu_poll);
> > >> +
> > >> +static int __init rcu_spawn_poll_kthread(void)
> > >> +{
> > >> + cblist_init_generic(&rcu_poll);
> > >> + rcu_poll.gp_sleep = HZ / 10;
> > >> + rcu_spawn_tasks_kthread_generic(&rcu_poll);
> > >> + return 0;
> > >> +}
> > >>
> > >> Thanks
> > >> Zqiang
> > >>
> > >>
> > >>>>
> > >>>> <snip>
> > >>>> <...>-29 [001] d..1. 21950.145313: rcu_batch_start: rcu_preempt
> > >>>> CBs=3613 bl=28
> > >>>> ...
> > >>>> <...>-29 [001] ..... 21950.152578: rcu_invoke_callback: rcu_preempt
> > >>>> rhp=00000000b2d6dee8 func=__free_vm_area_struct.cfi_jt
> > >>>> <...>-29 [001] ..... 21950.152579: rcu_invoke_callback: rcu_preempt
> > >>>> rhp=00000000a446f607 func=__free_vm_area_struct.cfi_jt
> > >>>> <...>-29 [001] ..... 21950.152580: rcu_invoke_callback: rcu_preempt
> > >>>> rhp=00000000a5cab03b func=__free_vm_area_struct.cfi_jt
> > >>>> <...>-29 [001] ..... 21950.152581: rcu_invoke_callback: rcu_preempt
> > >>>> rhp=0000000013b7e5ee func=__free_vm_area_struct.cfi_jt
> > >>>> <...>-29 [001] ..... 21950.152582: rcu_invoke_callback: rcu_preempt
> > >>>> rhp=000000000a8ca6f9 func=__free_vm_area_struct.cfi_jt
> > >>>> <...>-29 [001] ..... 21950.152583: rcu_invoke_callback: rcu_preempt
> > >>>> rhp=000000008f162ca8 func=wakeme_after_rcu.cfi_jt
> > >>>> <...>-29 [001] d..1. 21950.152625: rcu_batch_end: rcu_preempt CBs-
> > >>>> invoked=3612 idle=....
> > >>>> <snip>
> > >>>>
> > >>>
> > >>> Did the results above tell us that CBs-invoked=3612 during the time 21950.145313 ~ 21950.152625?
> > >>>
> > >>> Yes.
> > >>>
> > >>>
> > >>> If possible, may I know the steps, commands, and related parameters to produce the results above?
> > >>> Thank you!
> > >>>
> > >>> Build the kernel with CONFIG_RCU_TRACE configuration. Update your "set_event"
> > >>> file with appropriate traces:
> > >>>
> > >>> <snip>
> > >>> XQ-DQ54:/sys/kernel/tracing # echo rcu:rcu_batch_start rcu:rcu_batch_end rcu:rcu_invoke_callback > set_event
> > >>>
> > >>> XQ-DQ54:/sys/kernel/tracing # cat set_event
> > >>> rcu:rcu_batch_start
> > >>> rcu:rcu_invoke_callback
> > >>> rcu:rcu_batch_end
> > >>> XQ-DQ54:/sys/kernel/tracing #
> > >>> <snip>
> > >>>
> > >>> Collect traces as much as you want: XQ-DQ54:/sys/kernel/tracing # echo 1 > tracing_on; sleep 10; echo 0 > tracing_on
> > >>> Next problem is how to parse it. Of course you will not be able to parse
> > >>> megabytes of traces. For that purpose i use a special C trace parser.
> > >>> If you need an example please let me know i can show here.
> > >>>
> > >>> --
> > >>> Uladzislau Rezki