Re: [PATCH 1/4] spinlock: Document memory barrier rules
From: Manfred Spraul
Date: Thu Sep 01 2016 - 07:04:36 EST
Hi,
On 09/01/2016 10:44 AM, Peter Zijlstra wrote:
On Wed, Aug 31, 2016 at 08:32:18PM +0200, Manfred Spraul wrote:
On 08/31/2016 06:40 PM, Will Deacon wrote:
The litmus test then looks a bit like:
CPUm:
LOCK(x)
smp_mb();
RyAcq=0
CPUn:
Wy=1
smp_mb();
UNLOCK_WAIT(x)
Correct.
which I think can be simplified to:
LOCK(x)
I thought that here a barrier is required, because Ry=0 could be before
store of the lock.
Ry=0
RyAcq instead of Ry would required due to the unlock at the end of the
critical section
CpuN: <...>
WyRelease=0
for the litmus test irrelevant.
Wy=1
smp_mb(); // Note that this is implied by spin_unlock_wait on PPC and arm64
LOCK(x) // spin_unlock_wait behaves like lock; unlock
UNLOCK(x)
[I've removed a bunch of barriers here, that I don't think are necessary
for the guarantees you're after]
and the question is "Can both CPUs proceed?".
Looking at the above, then I don't think that they can. Whilst CPUm can
indeed speculate the Ry=0 before successfully taking the lock, if CPUn
observes CPUm's read, then it must also observe the lock being held wrt
the spin_lock API. That is because a successful LOCK operation by CPUn
would force CPUm to replay its LL/SC loop and therefore discard its
speculation of y.
What am I missing? The code snippet seems to have too many barriers to me!
spin_unlock_wait() is not necessarily lock()+unlock().
It can be a simple Rx, or now RxAcq.
Can be, normally, yes. But on power and arm64, the only architectures on
which the ACQUIRE is 'funny' they do the 'pointless' ll/sc cycle in
spin_unlock_wait() to 'fix' things.
So for both power and arm64, you can in fact model spin_unlock_wait()
as LOCK+UNLOCK.
Is this consensus?
If I understand it right, the rules are:
1. spin_unlock_wait() must behave like spin_lock();spin_unlock();
2. spin_is_locked() must behave like spin_trylock() ? spin_unlock(),TRUE
: FALSE
3. the ACQUIRE during spin_lock applies to the lock load, not to the store.
sem.c and nf_conntrack.c need only rule 1 now, but I would document the
rest as well, ok?
I'll update the patches.
--
Manfred