Re: [PATCH 19/19] Documentation: ACPI for ARM64

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On 28/07/2014 10:07, Arnd Bergmann wrote:
On Saturday 26 July 2014 19:34:48 Olof Johansson wrote:
On Thu, Jul 24, 2014 at 6:00 AM, Hanjun Guo <hanjun.guo@xxxxxxxxxx> wrote:
+Relationship with Device Tree
+-----------------------------
+
+ACPI support in drivers and subsystems for ARMv8 should never be mutually
+exclusive with DT support at compile time.
+
+At boot time the kernel will only use one description method depending on
+parameters passed from the bootloader.
Possibly overriden by kernel bootargs. And as debated for quite a
while earlier this year, acpi should still default to off -- if a DT
and ACPI are both passed in, DT should at this time be given priority.
I think this would be harder to do with the way that ACPI is passed in
to the kernel. IIRC, you always have a minimal DT information based on
the ARM64 boot protocol, but in the case of ACPI, this contains pointers
to the ACPI tables, which are then used for populating the Linux platform
devices (unless acpi=disabled is set), while the other contents of the
DTB may be present but we skip the of_platform_populate state.

If this is correct, then replacing the firmware-generated dtb with a
user-provided on would implicitly remove the ACPI tables from visibility,
which is exactly what we want.

It's possible that I'm misremembering it though, and it should be
documented better.

+Regardless of whether DT or ACPI is used, the kernel must always be capable
+of booting with either scheme.
It should always be possible to compile out ACPI. There will be plenty
of platforms that will not implement it, so disabling CONFIG_ACPI
needs to be possible.
Right.

+Clocks
+------
+
+Like clocks that are part of the power resources there is no standard way
+to represent a clock tree in ACPI 5.1 in a similar manner to how it is
+described in DT.
+
+Devices affected by this include things like UARTs, SoC driven LCD displays,
+etc.
+
+The firmware for example UEFI should initialise these clocks to fixed working
+values before the kernel is executed. If a driver requires to know rates of
+clocks set by firmware then they can be passed to kernel using _DSD.
+
+example :-
+
+Device (CLK0) {
+       ...
+
+       Name (_DSD, Package() {
+               ToUUID("XXXXX"),
+               Package() {
+                       Package(2) {"#clock-cells", 0},
Clock-cells? What do they mean here? Is this specified in the ACPI
standards? I had to register to get access to it, and didn't feel like
doing that right now. I guess it's not _all_ that open a spec. :(
...
+                       Package(2) {"clock-frequency", "10000"}
+               }
+       })
+
+       ...
+}
+
+Device (USR1) {
+       ...
+
+       Name (_DSD, Package() {
+               ToUUID("XXXXX"),
+               Package() {
+                       Package(2) {"clocks", Package() {1, ^CLK0}}},
A clock is a device in the ACPI model? Why not just provide the rate
as data into the device here? You said you're not trying to model the
clock tree, so why reference an external node for it?
Exactly. I think what is going on here is a conflict of interests between
Intel's embedded ACPI uses and the ARM64 server requirements. The above
closely resembles what we do in DT, and that makes perfect sense for
Intel's machines so they can reuse a lot of the infrastructure we put
in place for DT. I also suspect it will take a few more years before
this actually gets accepted into both an ACPI specification and the
common operating systems (no point doing it if only Linux is going to
adopt it).

For the servers, I don't see how it makes any sense at all, independent
of the architecture, and relying on a feature like this would only serve
to delay the adoption of ACPI (whether that is a good or bad thing
may be a matter of perspective).

Maybe Graeme or others can comment on where this is coming from. What kind
of driver would actually need to find out the clock rate of a device on
an arm64 server? The examples above list "UARTs, SoC driven LCD displays,
etc.". For all I know, the UART is required to be PL01x (without DMA)
compatible, which should be fully described in ACPI, and I don't see why
a server would come with an LCD.


The PL011 UART is the use-case I keep hitting, that IP block has a variable input clock on pretty much everything I have seen in the wild. I really hope that this use does not spread beyond a few essential devices like the UART. IMO all real hardware should be the other side of a PCIe bridge.

Graeme

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