Re: [PATCH] refcount: provide same memory ordering guarantees as in atomic_t

From: Alan Stern
Date: Thu Nov 02 2017 - 11:40:42 EST


On Thu, 2 Nov 2017, Peter Zijlstra wrote:

> > Lock functions such as refcount_dec_and_lock() &
> > refcount_dec_and_mutex_lock() Provide exactly the same guarantees as
> > they atomic counterparts.
>
> Nope. The atomic_dec_and_lock() provides smp_mb() while
> refcount_dec_and_lock() merely orders all prior load/store's against all
> later load/store's.

In fact there is no guaranteed ordering when refcount_dec_and_lock()
returns false; it provides ordering only if the return value is true.
In which case it provides acquire ordering (thanks to the spin_lock),
and both release ordering and a control dependency (thanks to the
refcount_dec_and_test).

> The difference is subtle and involves at least 3 CPUs. I can't seem to
> write up anything simple, keeps turning into monsters :/ Will, Paul,
> have you got anything simple around?

The combination of acquire + release is not the same as smp_mb, because
they allow things to pass by in one direction. Example:

C C-refcount-vs-atomic-dec-and-lock

{
}

P0(int *x, int *y, refcount_t *r)
{
refcount_set(r, 1);
WRITE_ONCE(*x, 1);
smp_wmb();
WRITE_ONCE(*y, 1);
}

P1(int *x, int *y, refcount_t *r, spinlock_t *s)
{
int rx, ry;
bool r1;

ry = READ_ONCE(*y);
r1 = refcount_dec_and_lock(r, s);
if (r1)
rx = READ_ONCE(*x);
}

exists (1:ry=1 /\ 1:r1=1 /\ 1:rx=0)

This is allowed. The idea is that the CPU can take:

Read y
Acquire
Release
Read x

and execute the first read after the Acquire and the second read before
the Release:

Acquire
Read y
Read x
Release

and then the CPU can reorder the reads:

Acquire
Read x
Read y
Release

If the program had used atomic_dec_and_lock() instead, which provides a
full smp_mb barrier, this outcome would not be possible.

Alan Stern