Re: [PATCH 2/3] rcu: Equip sleepable RCU with lockdep dependency graph checks

From: Boqun Feng
Date: Sat Jan 14 2023 - 19:19:33 EST

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On Sat, Jan 14, 2023 at 06:26:59PM +0800, Hillf Danton wrote:
> On Fri, 13 Jan 2023 23:32:01 -0800 Boqun Feng <boqun.feng@xxxxxxxxx>
> > On Sat, Jan 14, 2023 at 03:18:32PM +0800, Hillf Danton wrote:
> > >
> > > task X task Y
> > > --- ---
> > > mutex_lock(A);
> > > srcu_read_lock(B);
> > > srcu_lock_acquire(&B->dep_map);
> > > a) lock_map_acquire_read(&B->dep_map);
> > > synchronze_srcu(B);
> > > __synchronize_srcu(B);
> > > srcu_lock_sync(&B->dep_map);
> > > lock_map_sync(&B->dep_map);
> > > lock_sync(&B->dep_map);
> > > __lock_acquire(&B->dep_map);
> >
> > At this time, lockdep add dependency A -> B in the dependency graph.
> >
> > > b) lock_map_acquire_read(&B->dep_map);
> > > __lock_release(&B->dep_map);
> > > c) lock_map_acquire_read(&B->dep_map);
> > > mutex_lock(A);
> >
> > and here, lockdep will try to add dependency B -> A into the dependency
> > graph, and find that A -> B -> A will form a circle (with strong
> > dependency), therefore lockdep knows it's a deadlock.
>
> Is the strong dependency applying to mode c)?
> If yes then deadlock should be also detected in the following locking
> pattern that has no deadlock.
>
> cpu0 cpu1
> --- ---
> mutex_lock A
> mutex_lock B
> mutex_unlock B
> mutex_lock B
> mutex_lock A

Well, of course, this is how lockdep works. Lockdep detects the
*potential* deadlocks rather than detects the deadlocks when they
really happen. Otherwise lockdep is useless.

The execution in your example shows the potential deadlocks, i.e. one
task acquires A and then acquires B, the other task acquires B and then
acquires A. Potential deadlocks mean given a correct timing, a deadlock
may happen.

Regards,
Boqun

> >
> > >
> > > No deadlock could be detected if taskY takes mutexA after taskX releases B,
> >
> > The timing that taskX releases B doesn't master, since lockdep uses
> > graph to detect deadlocks rather than after-fact detection.
> >
> > > and how taskY acquires B does not matter as per the a), b) and c) modes in
> > > the above chart, again because releasing lock can break deadlock in general.
> >
> > I have test cases showing the above deadlock can be detected, so if you
> > think there is a deadlock that may dodge from my change, feel free to
> > add a test case in lib/locking-selftest.c ;-)
> >
> > Regards,
> > Boqun

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