Re: [PATCH v2 2/2] tools/memory-model: Make ppo a subrelation of po
From: Alan Stern
Date: Sun Jan 29 2023 - 11:03:53 EST
On Sat, Jan 28, 2023 at 09:17:34PM -0800, Paul E. McKenney wrote:
> On Sat, Jan 28, 2023 at 05:59:52PM -0500, Alan Stern wrote:
> > On Sat, Jan 28, 2023 at 11:14:17PM +0100, Andrea Parri wrote:
> > > > Evidently the plain-coherence check rules out x=1 at the
> > > > end, because when I relax that check, x=1 becomes a possible result.
> > > > Furthermore, the graphical output confirms that this execution has a
> > > > ww-incoh edge from Wx=2 to Wx=1. But there is no ww-vis edge from Wx=1
> > > > to Wx=2! How can this be possible? It seems like a bug in herd7.
> > >
> > > By default, herd7 performs some edges removal when generating the
> > > graphical outputs. The option -showraw can be useful to increase
> > > the "verbosity", for example,
> > >
> > > [with "exists (x=2)", output in /tmp/T.dot]
> > > $ herd7 -conf linux-kernel.cfg T.litmus -show prop -o /tmp -skipchecks plain-coherence -doshow ww-vis -showraw ww-vis
> >
> > Okay, thanks, that helps a lot.
> >
> > So here's what we've got. The litmus test:
> >
> >
> > C hb-and-int
> > {}
> >
> > P0(int *x, int *y)
> > {
> > *x = 1;
> > smp_store_release(y, 1);
> > }
> >
> > P1(int *x, int *y, int *dx, int *dy, spinlock_t *l)
> > {
> > spin_lock(l);
> > int r1 = READ_ONCE(*dy);
> > if (r1==1)
> > spin_unlock(l);
> >
> > int r0 = smp_load_acquire(y);
> > if (r0 == 1) {
> > WRITE_ONCE(*dx,1);
> > }
>
> The lack of a spin_unlock() when r1!=1 is intentional?
I assume so.
> It is admittedly a cute way to prevent P3 from doing anything
> when r1!=1. And P1 won't do anything if P3 runs first.
Right.
> > }
> >
> > P2(int *dx, int *dy)
> > {
> > WRITE_ONCE(*dy,READ_ONCE(*dx));
> > }
> >
> >
> > P3(int *x, spinlock_t *l)
> > {
> > spin_lock(l);
> > smp_mb__after_unlock_lock();
> > *x = 2;
> > }
> >
> > exists (x=2)
> >
> >
> > The reason why Wx=1 ->ww-vis Wx=2:
> >
> > 0:Wx=1 ->po-rel 0:Wy=1 and po-rel < fence < ww-post-bounded.
> >
> > 0:Wy=1 ->rfe 1:Ry=1 ->(hb* & int) 1:Rdy=1 and
> > (rfe ; hb* & int) <= (rfe ; xbstar & int) <= vis.
> >
> > 1:Rdy=1 ->po 1:unlock ->rfe 3:lock ->po 3:Wx=2
> > so 1:Rdy=1 ->po-unlock-lock-po 3:Wx=2
> > and po-unlock-lock-po <= mb <= fence <= w-pre-bounded.
> >
> > Finally, w-post-bounded ; vis ; w-pre-bounded <= ww-vis.
> >
> > This explains why the memory model says there isn't a data race. This
> > doesn't use the smp_mb__after_unlock_lock at all.
>
> You lost me on this one.
>
> Suppose that P3 starts first, then P0. P1 is then stuck at the
> spin_lock() because P3 does not release that lock. P2 goes out for a
> pizza.
That wouldn't be a valid execution. One of the rules in lock.cat says
that a spin_lock() call must read from a spin_unlock() or from an
initial write, which rules out executions in which P3 acquires the lock
first.
> Why can't the two stores to x by P0 and P3 conflict, resulting in a
> data race?
That can't happen in executions where P1 acquires the lock first for the
reason outlined above (P0's store to x propagates to P3 before P3 writes
to x). And there are no other executions -- basically, herd7 ignores
deadlock scenarios.
Alan