On 3/15/22 10:14 AM, Eric Badger wrote:
>> # Prep injection data for a correctable error.
>> $ cd /sys/kernel/debug/apei/einj
>> $ echo 0x00000040 > error_type
>> $ echo 0x4 > flags
>> $ echo 0x891000 > param4
>>
>> # Root Error Status is initially clear
>> $ setpci -s <Dev ID> ECAP0001+0x30.w
>> 0000
>>
>> # Inject one error
>> $ echo 1 > error_inject
>>
>> # Interrupt received
>> pcieport <Dev ID>: AER: Root Error Status 0001
>>
>> # Inject another error (within 5 seconds)
>> $ echo 1 > error_inject
>>
>> # No interrupt received, but "multiple ERR_COR" is now set
>> $ setpci -s <Dev ID> ECAP0001+0x30.w
>> 0003
>>
>> # Wait for a while, then clear ERR_COR. A new interrupt immediately
>> fires.
>> $ setpci -s <Dev ID> ECAP0001+0x30.w=0x1
>> pcieport <Dev ID>: AER: Root Error Status 0002
>>
>> Currently, the above issue has been only reproduced in the ICL server
>> platform.
>>
>> [Eric: proposed reproducing steps]
> Hmm, this differs from the procedure I described on v1, and I don't
> think will work as described here.
I have attempted to modify the steps to reproduce it without returning
IRQ_NONE for all cases (which will break the functionality). But I
think I did not correct the last few steps.
How about replacing the last 3 steps with following?
# Inject another error (within 5 seconds)
$ echo 1 > error_inject
# You will get a new IRQ with only multiple ERR_COR bit set
pcieport <Dev ID>: AER: Root Error Status 0002
--
Sathyanarayanan Kuppuswamy
Linux Kernel Developer
On Tue, Mar 15, 2022 at 10:26:46AM -0700, Sathyanarayanan Kuppuswamy wrote:
> On 3/15/22 10:14 AM, Eric Badger wrote:
> > > # Prep injection data for a correctable error.
> > > $ cd /sys/kernel/debug/apei/einj
> > > $ echo 0x00000040 > error_type
> > > $ echo 0x4 > flags
> > > $ echo 0x891000 > param4
> > >
> > > # Root Error Status is initially clear
> > > $ setpci -s <Dev ID> ECAP0001+0x30.w
> > > 0000
> > >
> > > # Inject one error
> > > $ echo 1 > error_inject
> > >
> > > # Interrupt received
> > > pcieport <Dev ID>: AER: Root Error Status 0001
> > >
> > > # Inject another error (within 5 seconds)
> > > $ echo 1 > error_inject
> > >
> > > # No interrupt received, but "multiple ERR_COR" is now set
> > > $ setpci -s <Dev ID> ECAP0001+0x30.w
> > > 0003
> > >
> > > # Wait for a while, then clear ERR_COR. A new interrupt immediately
> > > fires.
> > > $ setpci -s <Dev ID> ECAP0001+0x30.w=0x1
> > > pcieport <Dev ID>: AER: Root Error Status 0002
> > >
> > > Currently, the above issue has been only reproduced in the ICL server
> > > platform.
> > >
> > > [Eric: proposed reproducing steps]
> > Hmm, this differs from the procedure I described on v1, and I don't
> > think will work as described here.
>
> I have attempted to modify the steps to reproduce it without returning
> IRQ_NONE for all cases (which will break the functionality). But I
> think I did not correct the last few steps.
Well, the thinking in always returning IRQ_NONE was so that only setpci
modified the register and we could clearly see how writes to the
register affect interrupt generation.
> How about replacing the last 3 steps with following?
>
> # Inject another error (within 5 seconds)
> $ echo 1 > error_inject
>
> # You will get a new IRQ with only multiple ERR_COR bit set
> pcieport <Dev ID>: AER: Root Error Status 0002
This seems accurate. Though it does muddy a detail that I think was
clearer in the original procedure: was the second interrupt triggered by
the second error, or by the write of 0x1 to Root Error Status?
Also, in terms of practically running the test, I find the mdelay() can
block other interrupts and can make running the test sort of confusing
("is it not printing because the interrupt didn't fire, or because it's
spinning and blocking my NIC driver?" :).
Cheers,
Eric