On Tue, Feb 28, 2023 at 01:30:25AM +0000, Joel Fernandes wrote: > On Tue, Feb 28, 2023 at 12:40:38AM +0100, Frederic Weisbecker wrote: > > On Mon, Feb 27, 2023 at 03:05:02PM -0800, Paul E. McKenney wrote: > > > On Mon, Feb 27, 2023 at 02:10:30PM -0500, Joel Fernandes wrote: > > > > > > The combination of sysfs manipulated by userspace and a kernel failsafe > > > makes sense to me. Especially if by default triggering the failsafe > > > splats. That way, bugs where userspace fails to update the sysfs file > > > get caught. > > > > > > The non-default silent-failsafe mode is also useful to allow some power > > > savings in advance of userspace getting the sysfs updating in place. > > > And of course the default splatting setup can be used in internal testing > > > with the release software being more tolerant of userspace foibles. > > > > I'm wondering, this is all about CONFIG_RCU_LAZY, right? Or does also expedited > > GP turned off a bit early or late on boot matter for anybody in practice? > > Yes, if you provide 'rcu_normal_after_boot', then after the boot ends, it > switches expedited GPs to normal ones. > > It is the same issue for expedited, the kernel's version of what is 'boot' is > much shorter than what is actually boot. > > This is also the case with suspend/resume's rcu_pm_notify(). See the comment: > /* > * On non-huge systems, use expedited RCU grace periods to make suspend > * and hibernation run faster. > */ > > There also we turn on/off both lazy and expedited. I don't see why we > shouldn't do it for boot. Of course but I mean currently rcu_end_inkernel_boot() is called explicitly before the kernel calls init. From that point on, what is the source of the issue? Delaying lazy further would be enough or do we really need to delay forcing expedited as well? Or is it the reverse: delaying expedited further would matter and lazy doesn't play much role from there. It matters to know because if delaying expedited further is enough, then indeed we must delay the call to rcu_end_inkernel_boot() somehow. But if delaying expedited further doesn't matter and delaying lazy matter then it's possible that the issue is a callback that should be marked as call_rcu_hurry() and then the source of the problem is much broader. I think the confusion comes from the fact that your changelog doesn't state precisely what the problem exactly is. Also do we need to wait for the kernel boot completion? And if so what is missing from kernel boot after the current explicit call to rcu_end_inkernel_boot()? Or do we also need to wait for userspace to complete the boot? Different problems, different solutions. But in any case a countdown is not a way to go. Consider that rcu_lazy may be used by a larger audience than just chromium in the long run. You can not ask every admin to provide his own estimation per type of machine. You can't either rely on a long default value because that may have bad impact on workload assumptions launched right after boot. > > > So shouldn't we disable lazy callbacks by default when CONFIG_RCU_LAZY=y and then > > turn it on with "sysctl kernel.rcu.lazy=1" only whenever userspace feels ready > > about it? We can still keep the current call to rcu_end_inkernel_boot(). > > Hmm IMHO that would add more knobs for not much reason honestly. We already > have CONFIG_RCU_LAZY default disabled, I really don't want to add more > dependency (like user enables the config and does not see laziness). I don't know. Like I said, different problems, different solutions. Let's identify what the issue is precisely. For example can we expect that the issues on boot can be a problem also on some temporary workloads? Besides I'm currently testing a very hacky flavour of rcu_lazy and so far it shows many idle calls that would have been delayed if callbacks weren't queued as lazy. I have yet to do actual energy and performance measurements but if it happens to show improvements, I suspect distros will want a supported yet default disabled Kconfig that can be turned on on boot or later. Of course we are not there yet but things to keep in mind... Thanks.