On Thu, Feb 07, 2013 at 07:49:47PM -0200, Marcelo Tosatti wrote:
> On Thu, Feb 07, 2013 at 04:01:11PM +0200, Gleb Natapov wrote:
> > On Wed, Feb 06, 2013 at 08:49:23PM -0200, Marcelo Tosatti wrote:
> > > > Second is that interrupt may be
> > > > reported as delivered, but it will be coalesced (possible only with the self
> > > > IPI with the same vector):
> > > >
> > > > Starting condition: PIR=0, IRR=0 vcpu is in a guest mode
> > > >
> > > > io thread | vcpu
> > > > accept_apic_interrupt() |
> > > > PIR and IRR is zero |
> > > > set PIR |
> > > > return delivered |
> > > > | self IPI
> > > > | set IRR
> > > > | merge PIR to IRR (*)
> > > >
> > > > At (*) interrupt that was reported as delivered is coalesced.
> > >
> > > Only vcpu itself should send self-IPI, so its fine.
> > >
> > It is fine only because this is not happening in practice (I hope) for single interrupt
> > we care about. Otherwise this is serious problem.
>
> Coalesced information is only interesting for non IPI cases, that
> is, device emulation (at the moment, at least).
>
And incorrect result will be returned for an interrupt injected by an emulated device
in the scenario above.
> The above cause can happen when loading APIC registers, but delivered
> is not interesting in that case. Good to document, however.
>
> > > > > 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).
> > > > > }
> > > > >
> > > > This can report interrupt as coalesced, but it will be eventually delivered
> > > > as separate interrupt:
> > > >
> > > > Starting condition: PIR=0, IRR=1 vcpu is in a guest mode
> > > >
> > > > io thread | vcpu
> > > > |
> > > > accept_apic_interrupt() |
> > > > ORIG_PIR=0, ORIG_IRR=1 |
> > > > | EOI
> > > > | clear IRR, set ISR
> > > > set PIR |
> > > > return coalesced |
> > > > | clear PIR, set IRR
> > > > | EOI
> > > > | clear IRR, set ISR (*)
> > > >
> > > > At (*) interrupt that was reported as coalesced is delivered.
> > > >
> > > >
> > > > So still no perfect solution. But first one has much less serious
> > > > problems for our practical needs.
> > > >
> > > > > Two or more concurrent set_irq can race with each other, though. Can
> > > > > either document the race or add a lock.
> > > > >
> > > >
> > > > --
> > > > Gleb.
> > >
> > > Ok, then:
> > >
> > > accept_apic_irq:
> > > 1. coalesced = test_and_set_bit(PIR)
> > > 2. set KVM_REQ_EVENT bit (*)
> > > 3. if (vcpu->in_guest_mode)
> > > 4. if (test_and_set_bit(pir notification bit))
> > > 5. send PIR IPI
> > > 6. return coalesced
> > Do not see how it will help.
> >
> > Starting condition: PIR=0, IRR=1 vcpu is in a guest mode
> >
> > io thread | vcpu
> > accept_apic_interrupt() |
> > coalesced = 0, PIR=1 |
> > vcpu in a guest mode: |
> > send PIR IPI |
> > | receive PIR IPI
> > | merge PIR to IRR (*)
> > return not coalesced |
> >
> > At (*) interrupt that was reported as delivered is coalesced.
>
> Of course!
>
> > The point is that we need to check PIR and IRR atomically and this is
> > impossible.
>
> Ok, next try:
>
> 1. orig_irr = read irr from vapic page
> 2. if (orig_irr == 0)
> 3. return test_and_test_bit(pir)
> 4. return 0
>
I think this is exactly same solution we are discussing above:
apic_accept_interrupt() {
if (PIR || IRR)
return coalesced;
else
set PIR;
}
with the same self-IPI problem. IMO this is the best we can do and will
work correctly for RTC interrupt re-injection case.
--
Gleb.
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