Re: [PATCH RFC V11 15/18] kvm : Paravirtual ticketlocks support forlinux guests running on KVM hypervisor

From: Raghavendra K T
Date: Thu Aug 01 2013 - 03:34:57 EST

On 07/31/2013 11:54 AM, Gleb Natapov wrote:
On Tue, Jul 30, 2013 at 10:13:12PM +0530, Raghavendra K T wrote:
On 07/25/2013 03:08 PM, Raghavendra K T wrote:
On 07/25/2013 02:45 PM, Gleb Natapov wrote:
On Thu, Jul 25, 2013 at 02:47:37PM +0530, Raghavendra K T wrote:
On 07/24/2013 06:06 PM, Raghavendra K T wrote:
On 07/24/2013 05:36 PM, Gleb Natapov wrote:
On Wed, Jul 24, 2013 at 05:30:20PM +0530, Raghavendra K T wrote:
On 07/24/2013 04:09 PM, Gleb Natapov wrote:
On Wed, Jul 24, 2013 at 03:15:50PM +0530, Raghavendra K T wrote:
On 07/23/2013 08:37 PM, Gleb Natapov wrote:
On Mon, Jul 22, 2013 at 11:50:16AM +0530, Raghavendra K T wrote:
+static void kvm_lock_spinning(struct arch_spinlock *lock,
__ticket_t want)
+ /*
+ * halt until it's our turn and kicked. Note that we do safe
+ * for irq enabled case to avoid hang when lock info is
+ * in irq spinlock slowpath and no spurious interrupt occur
to save us.
+ */
+ if (arch_irqs_disabled_flags(flags))
+ halt();
+ else
+ safe_halt();
So here now interrupts can be either disabled or enabled. Previous
version disabled interrupts here, so are we sure it is safe to
have them
enabled at this point? I do not see any problem yet, will keep

If we enable interrupt here, then

+ cpumask_clear_cpu(cpu, &waiting_cpus);

and if we start serving lock for an interrupt that came here,
cpumask clear and w->lock=null may not happen atomically.
if irq spinlock does not take slow path we would have non null
for lock, but with no information in waitingcpu.

I am still thinking what would be problem with that.

Exactly, for kicker waiting_cpus and w->lock updates are
non atomic anyway.

+ w->lock = NULL;
+ local_irq_restore(flags);
+ spin_time_accum_blocked(start);
+/* Kick vcpu waiting on @lock->head to reach value @ticket */
+static void kvm_unlock_kick(struct arch_spinlock *lock,
__ticket_t ticket)
+ int cpu;
+ add_stats(RELEASED_SLOW, 1);
+ for_each_cpu(cpu, &waiting_cpus) {
+ const struct kvm_lock_waiting *w =
&per_cpu(lock_waiting, cpu);
+ if (ACCESS_ONCE(w->lock) == lock &&
+ ACCESS_ONCE(w->want) == ticket) {
+ add_stats(RELEASED_SLOW_KICKED, 1);
+ kvm_kick_cpu(cpu);
What about using NMI to wake sleepers? I think it was
discussed, but
forgot why it was dismissed.

I think I have missed that discussion. 'll go back and check. so
what is the idea here? we can easily wake up the halted vcpus that
have interrupt disabled?
We can of course. IIRC the objection was that NMI handling path
is very
fragile and handling NMI on each wakeup will be more expensive then
waking up a guest without injecting an event, but it is still
to see the numbers.

Haam, now I remember, We had tried request based mechanism. (new
request like REQ_UNHALT) and process that. It had worked, but had
complex hacks in vcpu_enter_guest to avoid guest hang in case of
request cleared. So had left it there..

But I do not remember performance impact though.
No, this is something different. Wakeup with NMI does not need KVM
changes at
all. Instead of kvm_kick_cpu(cpu) in kvm_unlock_kick you send NMI IPI.

True. It was not NMI.
just to confirm, are you talking about something like this to be
tried ?

apic->send_IPI_mask(cpumask_of(cpu), APIC_DM_NMI);

When I started benchmark, I started seeing
"Dazed and confused, but trying to continue" from unknown nmi error
Did I miss anything (because we did not register any NMI handler)? or
is it that spurious NMIs are trouble because we could get spurious NMIs
if next waiter already acquired the lock.
There is a default NMI handler that tries to detect the reason why NMI
happened (which is no so easy on x86) and prints this message if it
fails. You need to add logic to detect spinlock slow path there. Check
bit in waiting_cpus for instance.

aha.. Okay. will check that.

yes. Thanks.. that did the trick.

I did like below in unknown_nmi_error():
if (cpumask_test_cpu(smp_processor_id(), &waiting_cpus))

But I believe you asked NMI method only for experimental purpose to
check the upperbound. because as I doubted above, for spurious NMI
(i.e. when unlocker kicks when waiter already got the lock), we would
still hit unknown NMI error.

I had hit spurious NMI over 1656 times over entire benchmark run.
along with
INFO: NMI handler (arch_trigger_all_cpu_backtrace_handler) took too
long to run: 24.886 msecs etc...

I wonder why this happens.

(and we cannot get away with that too because it means we bypass the
unknown NMI error even in genuine cases too)

Here was the result for the my dbench test( 32 core machine with 32
vcpu guest HT off)

---------- % improvement --------------
pvspinlock pvspin_ipi pvpsin_nmi
dbench_1x 0.9016 0.7442 0.7522
dbench_2x 14.7513 18.0164 15.9421
dbench_3x 14.7571 17.0793 13.3572
dbench_4x 6.3625 8.7897 5.3800

So I am seeing over 2-4% improvement with IPI method.

Yeah, this was expected.

do you think the current series looks good to you? [one patch I
have resent with in_nmi() check] or do you think I have to respin the
series with IPI method etc. or is there any concerns that I have to
address. Please let me know..

The current code looks fine to me.


Shall I consider this as an ack for kvm part?


Do you have any concerns reg this series? please let me know if this looks good now to you.

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