On 17-06-21 08:19 PM, Rob Herring wrote:
On Tue, Jun 20, 2017 at 3:48 PM, Scott Branden
<scott.branden@xxxxxxxxxxxx> wrote:
Hi Rob,
On 17-06-18 07:04 AM, Rob Herring wrote:
On Mon, Jun 12, 2017 at 01:26:00PM -0700, Arun Parameswaran wrote:
Add device tree binding documentation for the Broadcom DTE
PTP clock driver.
Signed-off-by: Arun Parameswaran <arun.parameswaran@xxxxxxxxxxxx>
---
Documentation/devicetree/bindings/ptp/brcm,ptp-dte.txt | 13
+++++++++++++
1 file changed, 13 insertions(+)
create mode 100644
Documentation/devicetree/bindings/ptp/brcm,ptp-dte.txt
diff --git a/Documentation/devicetree/bindings/ptp/brcm,ptp-dte.txt
b/Documentation/devicetree/bindings/ptp/brcm,ptp-dte.txt
new file mode 100644
index 0000000..07590bc
--- /dev/null
+++ b/Documentation/devicetree/bindings/ptp/brcm,ptp-dte.txt
@@ -0,0 +1,13 @@
+* Broadcom Digital Timing Engine(DTE) based PTP clock driver
Bindings describe h/w, not drivers.
+
+Required properties:
+- compatible: should be "brcm,ptp-dte"
Looks too generic. You need SoC specific compatible strings.
Rob, could you please help me understand the use of adding SoC specific
compatible strings.
I still don't get it.
It's my understanding that the SoC compatibility string is to future proof
against bugs/incompatibilities
between different versions of the hardware block due to integration issues
or any other reason.
You can then compare in your driver because the strings were already used in
the dtb.
That would make sense if you can't already differentiate what SoC you are
running on.
But the SoC is already specified in the root of the device tree in the
compatible string?
Why can't you just use of_machine_is_compatible inside your driver when
needed?
Use of of_machine_is_compatible in drivers will result in the same
mess we had with machine_is_X defines pre-DT. It practically
guarantees that you must update the driver for a new SoC (with
fallback compatibles you don't). Plus the matching logic for
of_machine_is_compatible is open coded logic in every driver which is
worse IMO than having a standard match table.
I don't understand what you mean by fallback compatible then.
Let's say I have 3 SoCs that each contain the same ip block.
You want us to add a fallback compatibility per SoC, is that correct?
Then, if there is a workaround discovered in a particular SoC the driver
can be updated in the future without changing the dtb.
Then, the block gets added to a 4th SoC.
You want us to another new compatibility string for the new SoC?
If the new SoC has a bug then the driver has to be updated whether it is
in uses the fallback compatible or machine_is_compatible string.
There is no difference in amount of code added to a driver when a new
SoC is introduced into the system that has bugs that need to be handled
by the driver.
The difference is in your recommendation we need to go through all the
drivers used by the new SoC and add fallback compatibility strings.
Then, we have to modify all the devicetree documentation for all the
drivers. Then, we have to ensure that all dts files populate this new
fallback string (even if it is unused). We don't see the benefit in
doing any of that. Using machine_is_compatible and having less
compatibility strings to deal appears much cleaner and more foolproof
for all situations.
Please explain what I'm missing. I see other drivers already following the
of_machine_is_compatible
approach and it makes more sense to me than adding SoC specific compatible
strings into every
driver.
If the IP blocks are all the same, you don't have to add them to any
drivers, just add fallback compatibles.
Rob
Regards,
Scott
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