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SubjectRe: [PATCH RFC] v7 expedited "big hammer" RCU grace periods
On Wed, May 27, 2009 at 10:45:54AM -0400, Mathieu Desnoyers wrote:
> * Paul E. McKenney (paulmck@linux.vnet.ibm.com) wrote:
> > On Tue, May 26, 2009 at 09:47:26PM -0400, Mathieu Desnoyers wrote:
> > > * Paul E. McKenney (paulmck@linux.vnet.ibm.com) wrote:
> > > > On Tue, May 26, 2009 at 12:41:29PM -0400, Mathieu Desnoyers wrote:
> > > > > * Paul E. McKenney (paulmck@linux.vnet.ibm.com) wrote:
> > > > > > On Mon, May 25, 2009 at 06:28:43PM -0700, Paul E. McKenney wrote:
> > > > > > > On Tue, May 26, 2009 at 09:03:55AM +0800, Lai Jiangshan wrote:
> > > > > > > > Paul E. McKenney wrote:
> > > > > > > > >
> > > > > > > > > Good point -- I should at the very least add a comment to
> > > > > > > > > synchronize_sched_expedited() stating that it cannot be called holding
> > > > > > > > > any lock that is acquired in a CPU hotplug notifier. If this restriction
> > > > > > > > > causes any problems, then your approach seems like a promising fix.
> > > > > > > >
> > > > > > > > Reviewed-by: Lai Jiangshan <laijs@cn.fujitsu.com>
> > > > > > >
> > > > > > > Thank you very much for your review and comments!!!
> > > > > > >
> > > > > > > > >> The coupling of synchronize_sched_expedited() and migration_req
> > > > > > > > >> is largely increased:
> > > > > > > > >>
> > > > > > > > >> 1) The offline cpu's per_cpu(rcu_migration_req, cpu) is handled.
> > > > > > > > >> See migration_call::CPU_DEAD
> > > > > > > > >
> > > > > > > > > Good. ;-)
> > > > > > > > >
> > > > > > > > >> 2) migration_call() is the highest priority of cpu notifiers,
> > > > > > > > >> So even any other cpu notifier calls synchronize_sched_expedited(),
> > > > > > > > >> It'll not cause DEADLOCK.
> > > > > > > > >
> > > > > > > > > You mean if using your preempt_disable() approach, right? Unless I am
> > > > > > > > > missing something, the current get_online_cpus() approach would deadlock
> > > > > > > > > in this case.
> > > > > > > >
> > > > > > > > Yes, I mean if using my preempt_disable() approach. The current
> > > > > > > > get_online_cpus() approach would NOT deadlock in this case also,
> > > > > > > > we can require get_online_cpus() in cpu notifiers.
> > > > > > >
> > > > > > > I have added the comment for the time being, but should people need to
> > > > > > > use this in CPU-hotplug notifiers, then again your preempt_disable()
> > > > > > > approach looks to be a promising fix.
> > > > > >
> > > > > > I looked more closely at your preempt_disable() suggestion, which you
> > > > > > presented earlier as follows:
> > > > > >
> > > > > > > I think we can reuse req->dest_cpu and remove get_online_cpus().
> > > > > > > (and use preempt_disable() and for_each_possible_cpu())
> > > > > > >
> > > > > > > req->dest_cpu = -2 means @req is not queued
> > > > > > > req->dest_cpu = -1 means @req is queued
> > > > > > >
> > > > > > > a little like this code:
> > > > > > >
> > > > > > > mutex_lock(&rcu_sched_expedited_mutex);
> > > > > > > for_each_possible_cpu(cpu) {
> > > > > > > preempt_disable()
> > > > > > > if (cpu is not online)
> > > > > > > just set req->dest_cpu to -2;
> > > > > > > else
> > > > > > > init and queue req, and wake_up_process().
> > > > > > > preempt_enable()
> > > > > > > }
> > > > > > > for_each_possible_cpu(cpu) {
> > > > > > > if (req is queued)
> > > > > > > wait_for_completion().
> > > > > > > }
> > > > > > > mutex_unlock(&rcu_sched_expedited_mutex);
> > > > > >
> > > > > > I am concerned about the following sequence of events:
> > > > > >
> > > > > > o synchronize_sched_expedited() disables preemption, thus blocking
> > > > > > offlining operations.
> > > > > >
> > > > > > o CPU 1 starts offlining CPU 0. It acquires the CPU-hotplug lock,
> > > > > > and proceeds, and is now waiting for preemption to be enabled.
> > > > > >
> > > > > > o synchronize_sched_expedited() disables preemption, sees
> > > > > > that CPU 0 is online, so initializes and queues a request,
> > > > > > does a wake-up-process(), and finally does a preempt_enable().
> > > > > >
> > > > > > o CPU 0 is currently running a high-priority real-time process,
> > > > > > so the wakeup does not immediately happen.
> > > > > >
> > > > > > o The offlining process completes, including the kthread_stop()
> > > > > > to the migration task.
> > > > > >
> > > > > > o The migration task wakes up, sees kthread_should_stop(),
> > > > > > and so exits without checking its queue.
> > > > > >
> > > > > > o synchronize_sched_expedited() waits forever for CPU 0 to respond.
> > > > > >
> > > > > > I suppose that one way to handle this would be to check for the CPU
> > > > > > going offline before doing the wait_for_completion(), but I am concerned
> > > > > > about races affecting this check as well.
> > > > > >
> > > > > > Or is there something in the CPU-offline process that makes the above
> > > > > > sequence of events impossible?
> > > > > >
> > > > >
> > > > > I think you are right, there is a problem there. The simple fact that
> > > > > this needs to disable preemption to protect against cpu hotplug seems a
> > > > > bit strange. If I may propose an alternate solution, which assumes that
> > > > > threads pinned to a CPU are migrated to a different CPU when a CPU goes
> > > > > offline (and will therefore execute anyway), and that a CPU brought
> > > > > online after the first iteration on online cpus was already quiescent
> > > > > (hopefully my assumptions are right). Preemption is left enabled during
> > > > > all the critical section.
> > > > >
> > > > > It looks a lot like Lai's approach, except that I use a cpumask (I
> > > > > thought it looked cleaner and typically involves less operations than
> > > > > looping on each possible cpu). I also don't disable preemption and
> > > > > assume that cpu hotplug can happen at any point during this critical
> > > > > section.
> > > > >
> > > > > Something along the lines of :
> > > > >
> > > > > static DECLARE_BITMAP(cpu_wait_expedited_bits, CONFIG_NR_CPUS);
> > > > > const struct cpumask *const cpu_wait_expedited_mask =
> > > > > to_cpumask(cpu_wait_expedited_bits);
> > > > >
> > > > > mutex_lock(&rcu_sched_expedited_mutex);
> > > > > cpumask_clear(cpu_wait_expedited_mask);
> > > > > for_each_online_cpu(cpu) {
> > > > > init and queue cpu req, and wake_up_process().
> > > > > cpumask_set_cpu(cpu, cpu_wait_expedited_mask);
> > > > > }
> > > > > for_each_cpu_mask(cpu, cpu_wait_expedited_mask) {
> > > > > wait_for_completion(cpu req);
> > > > > }
> > > > > mutex_unlock(&rcu_sched_expedited_mutex);
> > > > >
> > > > > There is one concern with this approach : if a CPU is hotunplugged and
> > > > > hotplugged during the critical section, I think the scheduler would
> > > > > migrate the thread to a different CPU (upon hotunplug) and let the
> > > > > thread run on this other CPU. If the target CPU is hotplugged again,
> > > > > this would mean the thread would have run on a different CPU than the
> > > > > target. I think we can argue that a CPU going offline and online again
> > > > > will meet quiescent state requirements, so this should not be a problem.
> > > >
> > > > Having the task runnable on some other CPU is very scary to me. If the
> > > > CPU comes back online, and synchronize_sched_expedited() manages to
> > > > run before the task gets migrated back onto that CPU, then the grace
> > > > period could be ended too soon.
> > > >
> > >
> > > Well, the idea is that we want all in-flight preempt off sections (as
> > > seen at the beginning of synchronize_sched_expedited()) to be over
> > > before we consider the grace period as ended, right ?
> > >
> > > Let's say we read the cpu online mask at a given time (potentially non
> > > atomically, we don't really care).
> > >
> > > If, at any point in time while we read the cpu online mask, a CPU
> > > appears to be offline, this means that it cannot hold any in-flight
> > > preempt off section.
> > >
> > > Even if that specific CPU comes back online after this moment, and
> > > starts scheduling threads again, these threads cannot ever possibly be
> > > in-flight in the old grace period.
> > >
> > > Therefore, my argument is that for rcu_sched (classic rcu), a CPU going
> > > back online while we wait for quiescent state cannot possibly ever start
> > > running a thread in the previous grace period.
> > >
> > > My second argument is that if a CPU is hotunplugging while we wait for
> > > QS, either :
> > >
> > > - It lets the completion thread run before it goes offline. That's fine
> > > - It goes offline and the completion thread is migrated to another CPU.
> > > This will just make synchronize_sched_expedited() wait for one more
> > > completion that will execute on the CPU the thread has migrated to.
> > > Again, we don't care.
> > > - It goes offline/online/offline/online/... : We go back to my first
> > > argument, which states that if a CPU is out of the cpu online mask at
> > > any given time after we started the synchronize_sched_expedited()
> > > execution, it cannot possibly hold an in-flight preempt off section
> > > belonging to the old GP.
> > >
> > > Or am I missing something ?
> >
> > I am worried (perhaps unnecessarily) about the CPU coming online,
> > its kthread still running on some other CPU, someone doing a
> > synchronize_sched_expedited(), which then might possibly complete before
> > the kthread migrates back where it belongs. If the newly onlined CPU is
> > in an extended RCU read-side critical section, we might end the expedited
> > grace period too soon.
> >
> > My turn. Am I missing something? ;-)
> >
>
> If the completion kthreads only live within the boundary of the
> rcu_sched_expedited_mutex critical section, we never face this problem.
>
> Therefore, all kthreads created for a given expedited grace period
> should be waited for before the rcu_sched_expedited_mutex is released.

True, but the overhead of creating (say) 100 kthreads is not so consistent
with the "expedited" in synchronize_sched_expedited().

> Here, I don't know the specific behavior of the threads you are willing
> to use, but I see two possibilities when facing cpu hotplug :
>
> - Either those threads are always active in the system, _really_ tied to
> a CPU and the hotunplug event kills them and sends their completion.
> (this is I think what Lai described)

Yep. And this is what v7 of the patch did. Lai would like me to get
rid of the get_online_cpus(), replacing it with preempt_disable().
Which I find to be incredibly scary, given the possibility of the
kthread somehow executing on some other CPU, thus breaking RCU.

But see my next reply to Lai.

> - Or we create them while holding the rcu_sched_expedited_mutex, pin
> them to a CPU. They are less strictly bound to a CPU and get migrated
> to a different CPU upon hotunplug. Note that their life-span is
> limited to the rcu_sched_expedited_mutex section, because we expect
> them to die after completion. This implies a thread creation overhead.

And the thread-creation/destruction overhead is fatal, I believe.

> Hopefully one of the solutions I describe above match the current
> implementation. :)

#1. ;-)

Thanx, Paul

> Mathieu
>
>
>
> > Thanx, Paul
> >
> > > Mathieu
> > >
> > >
> > > > All of this is intended to make synchronize_sched_expedited() be able to
> > > > run in a CPU hotplug notifier. Do we have an example where someone
> > > > really wants to do this? If not, I am really starting to like v7 of
> > > > the patch. ;-)
> > > >
> > > > If someone really does need to run synchronize_sched_expedited() from a
> > > > CPU hotplug notifier, perhaps a simpler approach is to have something
> > > > like a try_get_online_cpus(), and just invoke synchronize_sched() upon
> > > > failure:
> > > >
> > > > void synchronize_sched_expedited(void)
> > > > {
> > > > int cpu;
> > > > unsigned long flags;
> > > > struct rq *rq;
> > > > struct migration_req *req;
> > > >
> > > > mutex_lock(&rcu_sched_expedited_mutex);
> > > > if (!try_get_online_cpus()) {
> > > > synchronize_sched();
> > > > return;
> > > > }
> > > >
> > > > /* rest of synchronize_sched_expedited()... */
> > > >
> > > > But I would want to see a real need for this beforehand.
> > > >
> > > > Thanx, Paul
> > >
> > > --
> > > Mathieu Desnoyers
> > > OpenPGP key fingerprint: 8CD5 52C3 8E3C 4140 715F BA06 3F25 A8FE 3BAE 9A68
> > > --
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>
> --
> Mathieu Desnoyers
> OpenPGP key fingerprint: 8CD5 52C3 8E3C 4140 715F BA06 3F25 A8FE 3BAE 9A68
> --
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