On Tue, Feb 05, 2013 at 01:40:44PM +0000, Zhang, Yang Z wrote:
> Gleb Natapov wrote on 2013-02-05:
> > On Tue, Feb 05, 2013 at 01:26:42PM +0000, Zhang, Yang Z wrote:
> >> Gleb Natapov wrote on 2013-02-05:
> >>> On Tue, Feb 05, 2013 at 10:58:28AM +0000, Zhang, Yang Z wrote:
> >>>> Gleb Natapov wrote on 2013-02-05:
> >>>>> On Tue, Feb 05, 2013 at 10:35:55AM +0000, Zhang, Yang Z wrote:
> >>>>>> Gleb Natapov wrote on 2013-02-05:
> >>>>>>> On Tue, Feb 05, 2013 at 05:57:14AM +0000, Zhang, Yang Z wrote:
> >>>>>>>> Marcelo Tosatti wrote on 2013-02-05:
> >>>>>>>>> On Mon, Feb 04, 2013 at 05:59:52PM -0200, Marcelo Tosatti wrote:
> >>>>>>>>>> On Mon, Feb 04, 2013 at 07:13:01PM +0200, Gleb Natapov wrote:
> >>>>>>>>>>> On Mon, Feb 04, 2013 at 12:43:45PM -0200, Marcelo Tosatti wrote:
> >>>>>>>>>>>>>> Any example how software relies on such
> >>>>>>>>> two-interrupts-queued-in-IRR/ISR behaviour?
> >>>>>>>>>>>>> Don't know about guests, but KVM relies on it to detect
> >>>>>>>>>>>>> interrupt coalescing. So if interrupt is set in IRR but not in
> >>>>>>>>>>>>> PIR interrupt will not be reported as coalesced, but it will
> >>>>>>>>>>>>> be coalesced during PIR->IRR merge.
> >>>>>>>>>>>>
> >>>>>>>>>>>> Yes, so:
> >>>>>>>>>>>>
> >>>>>>>>>>>> 1. IRR=1, ISR=0, PIR=0. Event: set_irq, coalesced=no.
> >>>>>>>>>>>> 2. IRR=0, ISR=1, PIR=0. Event: IRR->ISR transfer.
> >>>>>>>>>>>> 3. vcpu outside of guest mode.
> >>>>>>>>>>>> 4. IRR=1, ISR=1, PIR=0. Event: set_irq, coalesced=no.
> >>>>>>>>>>>> 5. vcpu enters guest mode.
> >>>>>>>>>>>> 6. IRR=1, ISR=1, PIR=1. Event: set_irq, coalesced=no.
> >>>>>>>>>>>> 7. HW transfers PIR into IRR.
> >>>>>>>>>>>>
> >>>>>>>>>>>> set_irq return value at 7 is incorrect, interrupt event was _not_
> >>>>>>>>>>>> queued.
> >>>>>>>>>>> Not sure I understand the flow of events in your description
> >>>>>>>>>>> correctly. As I understand it at 4 set_irq() will return incorrect
> >>>>>>>>>>> result. Basically when PIR is set to 1 while IRR has 1 for the
> >>>>>>>>>>> vector the value of set_irq() will be incorrect.
> >>>>>>>>>>
> >>>>>>>>>> At 4 it has not been coalesced: it has been queued to IRR.
> >>>>>>>>>> At 6 it has been coalesced: PIR bit merged into IRR bit.
> >>>>>>>>>>
> >>>>>>>>>>> Frankly I do not see how it can be fixed
> >>>>>>>>>>> without any race with present HW PIR design.
> >>>>>>>>>>
> >>>>>>>>>> At kvm_accept_apic_interrupt, check IRR before setting PIR bit,
> >>>>>>>>>> if IRR already set, don't set PIR.
> >>>>>>>>>
> >>>>>>>>> Or:
> >>>>>>>>>
> >>>>>>>>> apic_accept_interrupt() {
> >>>>>>>>>
> >>>>>>>>> 1. Read ORIG_PIR=PIR, ORIG_IRR=IRR.
> >>>>>>>>> Never set IRR when HWAPIC enabled, even if outside of guest mode.
> >>>>>>>>> 2. Set PIR and let HW or SW VM-entry transfer it to IRR.
> >>>>>>>>> 3. set_irq return value: (ORIG_PIR or ORIG_IRR set).
> >>>>>>>>> }
> >>>>>>>>>
> >>>>>>>>> Two or more concurrent set_irq can race with each other, though. Can
> >>>>>>>>> either document the race or add a lock.
> >>>>>>>> According the SDM, software should not touch the IRR when target
> > vcpu
> >>> is
> >>>>>>> running. Instead, use locked way to access PIR. So your solution may
> >>>>>>> wrong. Then your apicv patches are broken, because they do exactly
> >>>>>>> that.
> >>>>>> Which code is broken?
> >>>>>>
> >>>>> The one that updates IRR directly on the apic page.
> >>>> No, all the updates are ensuring the target vcpu is not running. So
> >>>> it's safe to touch IRR.
> >>>>
> >>> Not at all. Read the code.
> >> Sorry. I still cannot figure out which code is wrong. All the places
> >> call sync_pir_to_irr() are on target vcpu. Can you point out the code?
> >> Thanks.
> >>
> > I am taking about vapic patches which are already in, not pir patches.
> Yes, but the issue will be fixed with pir patches. With posted interrupt, it will touch PIR instead IRR and access PIR is allowed by HW.
>
So the current code is broken?
--
Gleb.
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