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SubjectRe: [PATCH v17 09/12] PCI/AER: Allow clearing Error Status Register in FF mode
On Wed, Mar 11, 2020 at 05:27:35PM +0000, Austin.Bolen@dell.com wrote:
> On 3/11/2020 12:12 PM, Bjorn Helgaas wrote:
> >
> > [EXTERNAL EMAIL]
> >
> <SNIP>
> >
> > I'm probably missing your intent, but that sounds like "the OS can
> > read/write AER bits whenever it wants, regardless of ownership."
> >
> > That doesn't sound practical to me, and I don't think it's really
> > similar to DPC, where it's pretty clear that the OS can touch DPC bits
> > it doesn't own but only *during the EDR processing window*.
>
> Yes, by treating AER bits like DPC bits I meant I'd define the specific
> time windows when OS can touch the AER status bits similar to how it's
> done for DPC in the current ECN.

Makes sense, thanks.

> >>>> For the normative text describing when OS clears the AER bits
> >>>> following the informative flow chart, it could say that OS clears
> >>>> AER as soon as possible after OST returns and before OS processes
> >>>> _HPX and loading drivers. Open to other suggestions as well.
> >>>
> >>> I'm not sure what to do with "as soon as possible" either. That
> >>> doesn't seem like something firmware and the OS can agree on.
> >>
> >> I can just state that it's done after OST returns but before _HPX or
> >> driver is loaded. Any time in that range is fine. I can't get super
> >> specific here because different OSes do different things. Even for
> >> a given OS they change over time. And I need something generic
> >> enough to support a wide variety of OS implementations.
> >
> > Yeah. I don't know how to solve this.
> >
> > Linux doesn't actually unload and reload drivers for the child devices
> > (Sathy, correct me if I'm wrong here) even though DPC containment
> > takes the link down and effectively unplugs and replugs the device. I
> > would *like* to handle it like hotplug, but some higher-level software
> > doesn't deal well with things like storage devices disappearing and
> > reappearing.
> >
> > Since Linux doesn't actually re-enumerate the child devices, it
> > wouldn't evaluate _HPX again. It would probably be cleaner if it did,
> > but it's all tied up with the whole unplug/replug problem.
>
> DPC resets everything below it and so to get it back up and running it
> would mean that all buses and resources need to be assigned, _HPX
> evaluated, and drivers reloaded. If those things don't happen then the
> whole hierarchy below the port that triggered DPC will be inaccessible.

Hmm, I think I might be confusing this with another situation. Sathy,
can you help me understand this? I don't have a way to actually
exercise this EDR path. Is there some way the pciehp hotplug driver
gets involved here?

Here's how this seems to work as far as I can tell:

- Linux does not have DPC or AER control

- Linux installs EDR notify handler

- Linux evaluates DPC Enable _DSM

- DPC containment event occurs

- Firmware fields DPC interrupt

- DPC event is not a surprise remove

- Firmware sends EDR notification

- Linux EDR notify handler evaluates Locate _DSM

- Linux reads and logs DPC and AER error information for port in
containment mode. [If it was an RP PIO error, Linux clears RP PIO
error status, which is an asymmetry with the non-RP PIO path.]

- Linux clears AER error status (pci_aer_raw_clear_status())

- Linux calls driver .error_detected() methods for all child devices
of the port in containment mode (pcie_do_recovery()). These
devices are inaccessible because the link is down.

- Linux clears DPC Trigger Status (dpc_reset_link() from
pcie_do_recovery()).

- Linux calls driver .mmio_enabled() methods for all child devices.

This is where I get lost. These child devices are now accessible, but
they've been reset, so I don't know how their config space got
restored. Did pciehp enumerate them? Did we do something like
pci_restore_state()? I don't see where either of these happens.

> For higher level software not handling storage device disappearing due
> to hot-plug, they will have the same problem with DPC since DPC holds
> the port in the disabled state (and hence will be inaccessible). And
> once DPC is released the devices will be unconfigured and so still
> inaccessible to upper-level software. A lot of upper-level storage
> software I've seen can already handle this gracefully.
>
> >>> For child devices of that port, obviously it's impossible to
> >>> access AER registers until DPC Trigger Status is cleared, and the
> >>> flowchart says the OS shouldn't access them until after _OST.
> >>>
> >>> I'm actually not sure we currently do *anything* with child device
> >>> AER info in the EDR path. pcie_do_recovery() does walk the
> >>> sub-hierarchy of child devices, but it only calls error handling
> >>> callbacks in the child drivers; it doesn't do anything with the
> >>> child AER registers itself. And of course, this happens before
> >>> _OST, so it would be too early in any case. But maybe I'm missing
> >>> something here.
> >>
> >> My understanding is that the OS read/clears AER in the case where OS
> >> has native control of AER. Feedback from OSVs is they wanted to
> >> continue to do that to keep the native OS controlled AER and FF
> >> mechanism similar. The other way we could have done it would be to
> >> have the firmware read/clear AER and report them to OS via APEI.
> >
> > When Linux has native control of AER, it reads/clears AER status.
> > The flowchart is for the case where firmware has AER control, so I
> > guess Linux would not field AER interrupts and wouldn't expect to
> > read/clear AER status. So I *guess* Linux would assume APEI? But
> > that doesn't seem to be what the flowchart assumes.
>
> Correct on the flowchart. The OSVs we talked with did not want to use
> APEI. They wanted to read and clear AER themselves and hence the
> flowchart is written that way.

So they want to basically do native AER handling even though firmware
owns AER? My head hurts.

Bjorn

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