[PATCH v4 5/7] arm64: Unconditionally call unflatten_device_tree()
Herve Codina
herve.codina at bootlin.com
Thu Mar 7 07:09:40 PST 2024
Hi,
On Wed, 28 Feb 2024 10:26:47 -0600
Rob Herring <robh at kernel.org> wrote:
...
> > >
> > > Yes, that version unflattened the bootloader passed DT. Now within
> > > unflatten_devicetree(), the bootloader DT is ignored if ACPI is
> > > enabled and we unflatten an empty tree. That will prevent the kernel
> > > getting 2 h/w descriptions if/when a platform does such a thing. Also,
> > > kexec still uses the bootloader provided DT as before.
> >
> > That avoids the main instance of my concern, and means that this'll boot
> > without issue, but IIUC this opens the door to dynamically instantiating DT
> > devices atop an ACPI base system, which I think in general is something that's
> > liable to cause more problems than it solves.
> >
> > I understand that's desireable for the selftests, though I still don't believe
> > it's strictly necessary -- there are plenty of other things that only work if
> > the kernel is booted in a specific configuration.
>
> Why add to the test matrix if we don't have to?
>
> > Putting the selftests aside, why do we need to do this? Is there any other
> > reason to enable this?
>
> See my Plumbers talk...
>
> Or in short, there's 3 main usecases:
>
> - PCI FPGA card with devices instantiated in it
> - SoCs which expose their peripherals via a PCI endpoint.
> - Injecting test devices with QEMU (testing, but not what this series
> does. Jonathan Cameron's usecase)
>
> In all cases, drivers already exist for the devices, and they often only
> support DT. DT overlays is the natural solution for this, and there's
> now kernel support for it (dynamically generating PCI DT nodes when they
> don't exist). The intent is to do the same thing on ACPI systems.
>
> I don't see another solution other than 'go away, you're crazy'. There's
> ACPI overlays, but that's only a debug feature. Also, that would
> encourage more of the DT bindings in ACPI which I find worse than this
> mixture. There's swnodes, but that's just board files and platform_data
> 2.0.
>
> I share the concerns with mixing, but I don't see a better solution. The
> scope of what's possible is contained enough to avoid issues.
>
I tested on a x86 system.
My use case is 'SoCs which expose their peripherals via a PCI endpoint'
described by Rob.
Indeed, I have a Microchip Lan9662 board (the one mentioned by Rob in his
Plumbers talk) and the root DT node creation is obviously needed.
I have previously used Frank Rowan's patches [1] that did this DT root node
creation. This series perfectly replace them and the root DT node is successfully
created.
Tested-by: Herve Codina <herve.codina at bootlin.com>
[1]: https://lore.kernel.org/all/20230317053415.2254616-1-frowand.list@gmail.com/
Best regards,
Hervé Codina
--
Hervé Codina, Bootlin
Embedded Linux and Kernel engineering
https://bootlin.com
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