On 23/11/2018 09:37, Michael Mueller wrote:
On 22.11.18 18:33, Pierre Morel wrote:
On 22/11/2018 17:38, David Hildenbrand wrote:
On 22.11.18 12:21, Michael Mueller wrote:
On 21.11.18 22:05, Halil Pasic wrote:
On Tue, 20 Nov 2018 13:00:03 +0100
David Hildenbrand <david@xxxxxxxxxx> wrote:
On 20.11.18 12:33, Cornelia Huck wrote:
On Mon, 19 Nov 2018 18:25:25 +0100
Michael Mueller <mimu@xxxxxxxxxxxxx> wrote:
Do not call __deliver_io() for adapter interruptions already
pending in the IPM. That is a double effort. They will
be processed as soon the vcpu control is given to SIE.
Signed-off-by: Michael Mueller <mimu@xxxxxxxxxxxxx>
---
arch/s390/kvm/interrupt.c | 54
++++++++++++++++++++++------------------------- 1 file changed, 25
insertions(+), 29 deletions(-)
I think this patch does what it says on the tin, but I'm a bit lost
as to the why. (Might make more sense with the gib.)
Currently, we are trying to process any I/O interrupts, even if we'd
get them delivered via the gisa, when we're out of the SIE anyway.
IIRC, while this looks a bit like a belt-and-suspenders approach, it
also prevented performance problems when the vcpu did not go back
into the SIE immediately (it even may exit to userspace).
Also, if you're ignoring the I/O interrupts pending in the ipm, you
may end up delivering interrupts with a lower priority (higher isc)
first. I'm not sure that's what we want.
But maybe I'm just missing another bit of the code that makes this
safe. Can you elaborate a bit?
For interrupt priorities to work at least somewhat predictable, we
should always try to inject all interrupts even if the HW would be
doing it for us. In the order of priority.
But we don't have the same thing for external calls injected via SCA.
I remember that I once had a patch lying around a couple of years ago
to fix that ... it went missing :)
IO interrupt almost have lowest priority, so letting the HW inject
them could be problematic when mixing IO interrupt priorities between
SW and HW injected ones (hat Conny described).
There are other corner cases if a e.g. a RESTART interrupt is pending
for that CPU. We would deliver eventually the RESTART interrupt
before
delivering the IO interrupt, which would be wrong.
I do share David's concern. Could somebody try to explain why this
RESTART scenario David described is not actually a problem -- AFAIU it
is a problem.
Regards,
Halil
Before I start arguing why this is *not* a problem I ask you both why
you consider
this being a problem. We are talking about the CPU restart here,
right?
When sending a restart interrupt to a running CPU (e.g. system_reset) an
IO interrupt might remain pending and not delivered.
One could make a guess how bad that is (depending on the type of guest
and use case), however it is guest observable difference to what is
documented in the PoP. Restart interrupt has (almost) lowest priority.
I do not see the priority as a problem.
RESET and IO IRQ are asynchronous from each other anyway.
But there I see another issue that your question point.
Generally, on system RESET all peripheral also get a RESET and all
interrupt are cleared.
This is the case for AP VFIO devices.
This is the case for local interrupts.
I miss the GISA reset code to avoid that the adapter IO IRQ is cleared
on RESET.
May be I did not look at the right place.
See kvm_s390_clear_float_irqs() and how it as called.
right, thanks.
Regards,
Pierre
--
Pierre Morel
Linux/KVM/QEMU in Böblingen - Germany