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Date: Sun, 10 Jun 2018 10:40:17 -0700
From: Shakeel Butt <shakeelb@...gle.com>
To: paulmck@...ux.vnet.ibm.com
Cc: Vladimir Davydov <vdavydov.dev@...il.com>,
Michal Hocko <mhocko@...nel.org>,
Christoph Lameter <cl@...ux.com>,
Pekka Enberg <penberg@...nel.org>,
David Rientjes <rientjes@...gle.com>,
Joonsoo Kim <iamjoonsoo.kim@....com>,
Andrew Morton <akpm@...ux-foundation.org>,
Greg Thelen <gthelen@...gle.com>,
Johannes Weiner <hannes@...xchg.org>,
Tejun Heo <tj@...nel.org>, Linux MM <linux-mm@...ck.org>,
Cgroups <cgroups@...r.kernel.org>,
LKML <linux-kernel@...r.kernel.org>
Subject: Re: [PATCH v3] mm: fix race between kmem_cache destroy, create and deactivate
On Sun, Jun 10, 2018 at 9:32 AM Paul E. McKenney
<paulmck@...ux.vnet.ibm.com> wrote:
>
> On Sun, Jun 10, 2018 at 07:52:50AM -0700, Shakeel Butt wrote:
> > On Sat, Jun 9, 2018 at 3:20 AM Vladimir Davydov <vdavydov.dev@...il.com> wrote:
> > >
> > > On Tue, May 29, 2018 at 05:12:04PM -0700, Shakeel Butt wrote:
> > > > The memcg kmem cache creation and deactivation (SLUB only) is
> > > > asynchronous. If a root kmem cache is destroyed whose memcg cache is in
> > > > the process of creation or deactivation, the kernel may crash.
> > > >
> > > > Example of one such crash:
> > > > general protection fault: 0000 [#1] SMP PTI
> > > > CPU: 1 PID: 1721 Comm: kworker/14:1 Not tainted 4.17.0-smp
> > > > ...
> > > > Workqueue: memcg_kmem_cache kmemcg_deactivate_workfn
> > > > RIP: 0010:has_cpu_slab
> > > > ...
> > > > Call Trace:
> > > > ? on_each_cpu_cond
> > > > __kmem_cache_shrink
> > > > kmemcg_cache_deact_after_rcu
> > > > kmemcg_deactivate_workfn
> > > > process_one_work
> > > > worker_thread
> > > > kthread
> > > > ret_from_fork+0x35/0x40
> > > >
> > > > To fix this race, on root kmem cache destruction, mark the cache as
> > > > dying and flush the workqueue used for memcg kmem cache creation and
> > > > deactivation.
> > >
> > > > @@ -845,6 +862,8 @@ void kmem_cache_destroy(struct kmem_cache *s)
> > > > if (unlikely(!s))
> > > > return;
> > > >
> > > > + flush_memcg_workqueue(s);
> > > > +
> > >
> > > This should definitely help against async memcg_kmem_cache_create(),
> > > but I'm afraid it doesn't eliminate the race with async destruction,
> > > unfortunately, because the latter uses call_rcu_sched():
> > >
> > > memcg_deactivate_kmem_caches
> > > __kmem_cache_deactivate
> > > slab_deactivate_memcg_cache_rcu_sched
> > > call_rcu_sched
> > > kmem_cache_destroy
> > > shutdown_memcg_caches
> > > shutdown_cache
> > > memcg_deactivate_rcufn
> > > <dereference destroyed cache>
> > >
> > > Can we somehow flush those pending rcu requests?
> >
> > You are right and thanks for catching that. Now I am wondering if
> > synchronize_sched() just before flush_workqueue() should be enough.
> > Otherwise we might have to replace call_sched_rcu with
> > synchronize_sched() in kmemcg_deactivate_workfn which I would not
> > prefer as that would holdup the kmem_cache workqueue.
> >
> > +Paul
> >
> > Paul, we have a situation something similar to the following pseudo code.
> >
> > CPU0:
> > lock(l)
> > if (!flag)
> > call_rcu_sched(callback);
> > unlock(l)
> > ------
> > CPU1:
> > lock(l)
> > flag = true
> > unlock(l)
> > synchronize_sched()
> > ------
> >
> > If CPU0 has called already called call_rchu_sched(callback) then later
> > if CPU1 calls synchronize_sched(). Is there any guarantee that on
> > return from synchronize_sched(), the rcu callback scheduled by CPU0
> > has already been executed?
>
> No. There is no such guarantee.
>
> You instead want rcu_barrier_sched(), which waits for the callbacks from
> all prior invocations of call_rcu_sched() to be invoked.
>
> Please note that synchronize_sched() is -not- sufficient. It is only
> guaranteed to wait for a grace period, not necessarily for all prior
> callbacks. This goes both directions because if there are no callbacks
> in the system, then rcu_barrier_sched() is within its rights to return
> immediately.
>
> So please make sure you use each of synchronize_sched() and
> rcu_barrier_sched() to do the job that it was intended to do! ;-)
>
> If your lock(l) is shorthand for spin_lock(&l), it looks to me like you
> actually only need rcu_barrier_sched():
>
> CPU0:
> spin_lock(&l);
> if (!flag)
> call_rcu_sched(callback);
> spin_unlock(&l);
>
> CPU1:
> spin_lock(&l);
> flag = true;
> spin_unlock(&l);
> /* At this point, no more callbacks will be registered. */
> rcu_barrier_sched();
> /* At this point, all registered callbacks will have been invoked. */
>
> On the other hand, if your "lock(l)" was instead shorthand for
> rcu_read_lock_sched(), then you need -both- synchronize_sched() -and-
> rcu_barrier(). And even then, you will be broken in -rt kernels.
> (Which might or might not be a concern, depending on whether your code
> matters to -rt kernels.
>
> Make sense?
>
Thanks a lot, that was really helpful. The lock is actually
mutex_lock. So, I think rcu_barrier_sched() should be sufficient.
Shakeel
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