On Thu, Sep 22, 2016 at 01:44:46PM +0100, Lorenzo Pieralisi wrote:
On Thu, Sep 22, 2016 at 11:10:13AM +0000, Gabriele Paoloni wrote:
Hi Lorenzo, Bjorn
-----Original Message----- From: Lorenzo Pieralisi [mailto:lorenzo.pieralisi@arm.com] Sent: 22 September 2016 10:50 To: Bjorn Helgaas Cc: Ard Biesheuvel; Tomasz Nowicki; David Daney; Will Deacon; Catalin Marinas; Rafael Wysocki; Arnd Bergmann; Hanjun Guo; Sinan Kaya; Jayachandran C; Christopher Covington; Duc Dang; Robert Richter; Marcin Wojtas; Liviu Dudau; Wangyijing; Mark Salter; linux- pci@vger.kernel.org; linux-arm-kernel@lists.infradead.org; Linaro ACPI Mailman List; Jon Masters; Andrea Gallo; Jeremy Linton; liudongdong (C); Gabriele Paoloni; Jeff Hugo; linux-acpi@vger.kernel.org; linux- kernel@vger.kernel.org; Rafael J. Wysocki Subject: Re: [PATCH V6 3/5] PCI: thunder-pem: Allow to probe PEM- specific register range for ACPI case
On Wed, Sep 21, 2016 at 01:04:57PM -0500, Bjorn Helgaas wrote:
On Wed, Sep 21, 2016 at 03:05:49PM +0100, Lorenzo Pieralisi wrote:
On Tue, Sep 20, 2016 at 02:17:44PM -0500, Bjorn Helgaas wrote:
On Tue, Sep 20, 2016 at 04:09:25PM +0100, Ard Biesheuvel wrote:
[...]
> None of these platforms can be fixed entirely in software, and
given
> that we will not be adding quirks for new broken hardware, we
should
> ask ourselves whether having two versions of a quirk, i.e., one
for
> broken hardware + currently shipping firmware, and one for the
same
> broken hardware with fixed firmware is really an improvement
over what
> has been proposed here.
We're talking about two completely different types of quirks:
- MCFG quirks to use memory-mapped config space that doesn't
quite
conform to the ECAM model in the PCIe spec, and
- Some yet-to-be-determined method to describe address space consumed by a bridge.
The first two patches of this series are a nice implementation
for 1).
The third patch (ThunderX-specific) is one possibility for 2),
but I
don't like it because there's no way for generic software like
the
ACPI core to discover these resources.
Ok, so basically this means that to implement (2) we need to assign some sort of _HID to these quirky PCI bridges (so that we know what device they represent and we can retrieve their _CRS). I take from this discussion that the goal is to make sure that all non-config resources have to be declared through _CRS device objects, which is fine but that requires a FW update (unless we can fabricate ACPI devices and corresponding _CRS in the kernel whenever we match a given MCFG table signature).
All resources consumed by ACPI devices should be declared through _CRS. If you want to fabricate ACPI devices or _CRS via kernel quirks, that's fine with me. This could be triggered via MCFG signature, DMI info, host bridge _HID, etc.
I think the PNP quirk approach + PNP0c02 resource put forward by Gab is enough.
Great thanks as we take a final decision I will ask Dogndgong to submit another RFC based on this approach
We discussed this already and I think we should make a decision:
March/414722.html
> > I'd like to step back and come up with some understanding of
how
> > non-broken firmware *should* deal with this issue. Then, if
we *do*
> > work around this particular broken firmware in the kernel, it
would be
> > nice to do it in a way that fits in with that understanding. > > > > For example, if a companion ACPI device is the preferred
solution, an
> > ACPI quirk could fabricate a device with the required
resources. That
> > would address the problem closer to the source and make it
more likely
> > that the rest of the system will work correctly: /proc/iomem
could
> > make sense, things that look at _CRS generically would work
(e.g,
> > /sys/, an admittedly hypothetical "lsacpi", etc.) > > > > Hard-coding stuff in drivers is a point solution that doesn't
provide
> > any guidance for future platforms and makes it likely that
the hack
> > will get copied into even more drivers. > > > > OK, I see. But the guidance for future platforms should be 'do
not
> rely on quirks', and what I am arguing here is that the more we
polish
> up this code and make it clean and reusable, the more likely it
is
> that will end up getting abused by new broken hardware that we
set out
> to reject entirely in the first place. > > So of course, if the quirk involves claiming resources, let's
make
> sure that this occurs in the cleanest and most compliant way
possible.
> But any factoring/reuse concerns other than for the current
crop of
> broken hardware should be avoided imo.
If future hardware is completely ECAM-compliant and we don't need
any
more MCFG quirks, that would be great.
Yes.
But we'll still need to describe that memory-mapped config space somewhere. If that's done with PNP0C02 or similar devices (as is
done
on my x86 laptop), we'd be all set.
I am not sure I understand what you mean here. Are you referring to MCFG regions reported as PNP0c02 resources through its _CRS ?
Yes. PCI Firmware Spec r3.0, Table 4-2, note 2 says address ranges reported via MCFG or _CBA should be reserved by _CRS of a PNP0C02 device.
Ok, that's agreed. It goes without saying that since you are quoting the PCI spec, if FW fails to report MCFG regions in a PNP0c02 device _CRS I will consider that a FW bug.
IIUC PNP0C02 is a reservation mechanism, but it does not help us associate its _CRS to a specific PCI host bridge instance, right ?
Gab proposed a hierarchy that *would* associate a PNP0C02 device with a PCI bridge:
Device (PCI1) { Name (_HID, "HISI0080") // PCI Express Root Bridge Name (_CID, "PNP0A03") // Compatible PCI Root Bridge Method (_CRS, 0, Serialized) { // Root complex resources
(windows) }
Device (RES0) { Name (_HID, "HISI0081") // HiSi PCIe RC config base address Name (_CID, "PNP0C02") // Motherboard reserved resource Name (_CRS, ResourceTemplate () { ... } }
}
That's a possibility. The PCI Firmware Spec suggests putting RES0 at the root (under _SB), but I don't know why.
Putting it at the root means we couldn't generically associate it
with
a bridge, although I could imagine something like this:
Device (RES1) { Name (_HID, "HISI0081") // HiSi PCIe RC config base address Name (_CID, "PNP0C02") // Motherboard reserved resource Name (_CRS, ResourceTemplate () { ... } Method (BRDG) { "PCI1" } // hand-wavy ASL } Device (PCI1) { Name (_HID, "HISI0080") // PCI Express Root Bridge Name (_CID, "PNP0A03") // Compatible PCI Root Bridge Method (_CRS, 0, Serialized) { // Root complex resources
(windows) }
}
Where you could search PNP0C02 devices for a cookie that matched the host bridge.o
Ok, I am fine with both and I think we are converging, but the way to solve this problem has to be uniform for all ARM partners (and not only ARM). Two points here:
- Adding a device/subdevice allows people to add a _CRS reporting the non-window bridge resources. Fine. It also allows people to chuck in there all sorts of _DSD properties to describe their PCI host bridge as it is done with DT properties (those _DSD can contain eg clocks etc.), this may be tempting (so that they can reuse the same DT driver and do not have to update their firmware) but I want to be clear here: that must not happen. So, a subdevice with a _CRS to report resources, yes, but it will stop there.
- It is unclear to me how to formalize the above. People should not write FW by reading the PCI mailing list, so these guidelines have
to be written, somehow. I do not want to standardize quirks, I want to prevent random ACPI table content, which is different. Should I report this to the ACPI spec working group ? If we do not do that everyone will go solve this problem as they deem fit.
Do we really need to formalize this?
As we discussed in the Linaro call at the moment we have few vendors that need quirks and we want to avoid promoting/accepting quirks for the future.
At the time of the call I think we decided to informally accept a set of quirks for the current platforms and reject any other quirk coming after a certain date/kernel version (this to be decided).
I am not sure if there is a way to document/formalize a temporary exception from the rule...
- (1) will be enforced.
I'm not sure it's necessary or possible to enforce a "no future quirks" rule. For one thing, there's already a pretty strong incentive to avoid quirks: if your hardware doesn't require quirks, it works with OSes already in the field.
MCFG quirks allow us to use the generic ACPI pci_root.c driver even if the hardware doesn't support ECAM quite according to the spec.
PNP0C02 usage is a workaround for the failure of the Consumer/Producer bit. PNP0C02 quirks compensate for firmware that doesn't describe resource usage accurately. It's possible the ACPI spec folks could come up with a better Consumer/Producer workaround, if that's needed. Apparently x86 hasn't needed it yet.
If people add _DSD methods for clocks or whatnot, the hardware won't work with the generic pci_root.c driver, so there's already an incentive for avoiding them. x86 has managed without such methods; arm64 should be able to do the same.
- We do not know whether PNP0c02 can be used in non-root devices _CRS
- Are we sure (given that we are implementing this to make sure we are able to validate resources) that it is valid to have a subdevice with a _CRS whose resources are not contained in its parent _CRS address space (because that's exactly the case for these quirks) ?
That's what I mean by formalizing, I want to know how PNP0c02 should be used. We all want platforms with quirks to be enabled asap but only if we stick to the ACPI specifications. On top of that, with the bindings above, the kernel would end up creating a platform device for the "fake" device with a _CRS approach, which is questionable.
[...]
For FW that is immutable I really do not see what we can do apart from hardcoding the non-config resources (consumed by a bridge), somehow.
Right. Well, I assume you mean we should hard-code "non-window resources consumed directly by a bridge". If firmware in the field
is
broken, we should work around it, and that may mean hard-coding some resources.
My point is that the hard-coding should not be buried in a driver where it's invisible to the rest of the kernel. If we hard-code it
in
a quirk that adds _CRS entries, then the kernel will work just like
it
would if the firmware had been correct in the first place. The resource will appear in /sys/devices/pnp*/*/resources and
/proc/iomem,
and if we ever used _SRS to assign or move ACPI devices, we would
know
to avoid the bridge resource.
We are in complete agreement here.
Thanks, Lorenzo