On Tue, Mar 10, 2020 at 03:12:00PM +0100, Michał Stanek wrote:
On Mon, Feb 10, 2020 at 11:14 AM Mika Westerberg mika.westerberg@linux.intel.com wrote:
On Sat, Feb 08, 2020 at 07:43:24PM +0100, Michał Stanek wrote:
Hi Mika,
The previous patches from Dmitry handled IRQ numbering, here we have a similar issue with GPIO to pin translation - hardcoded values in FW which do not agree with the (non-consecutive) numbering in newer kernels.
Hmm, so instead of passing GpioIo/GpioInt resources to devices the firmware uses some hard-coded Linux GPIO numbering scheme? Would you able to share the exact firmware description where this happens?
Actually it is a GPIO offset in ACPI tables for Braswell that was hardcoded in the old firmware to match the previous (consecutive) Linux GPIO numbering.
Can you share the ACPI tables and point me to the GPIO that is using Linux number?
I think this is the one: https://chromium-review.googlesource.com/c/chromiumos/third_party/coreboot/%...
On Kefka the sysfs GPIO number for wpsw_cur was gpio392 before the translation change occurred in Linux.
But that table does not seem to have any GPIO numbers in it.
What GPIO(s) we are talking about and how does it show up to the user?
As an example, the issue manifests itself when you run 'crossystem wpsw_cur'. On my Kefka it incorrectly reports the value as 1 instead of 0 when the write protect screw is removed.
Is it poking GPIOs directly through sysfs relying the Linux GPIO numbering (which can change and is fragile anyway)?
I believe so, yes.
This is something that should be fixed in userspace. Using global Linux GPIO or IRQ numbers is fragile and source of issues like this. There are correct ways of using GPIOs from userspace: in case of sysfs, you can find the base of the chip and then user relative numbering against it or switch to use libgpiod that does the same but uses the newer char device. Both cases the GPIO number are relative against the GPIO chip so they work even if global Linux GPIO numbering changes.
I analyzed crossystem source code and it looks like it is doing exactly what you're saying without any hardcoded assumptions. It gets the absolute offset of the GPIO pin from sysfs using its ACPI identifier, then it subtracts the base offset of the GPIO bank from it and the result is added to the bank's gpiochip%d number as it shows up in sysfs. The result is what is used to export and read the state of the pin.
With the newer kernel the gpiochip%d number is different so crossystem ends up reading the wrong pin.
Hmm, so gpiochipX is also not considered a stable number. It is based on ARCH_NR_GPIOS which may change. So if the userspace is relaying certain GPIO chip is always gpichip200 for example then it is wrong.