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Message-ID: <CACRpkdbmqww6UQ8CFYo=+bCtVYBJwjMxVixc4vS6D3B+dUHScw@mail.gmail.com>
Date: Sat, 20 Mar 2021 12:56:36 +0100
From: Linus Walleij <linus.walleij@...aro.org>
To: Dipen Patel <dipenp@...dia.com>, Kent Gibson <warthog618@...il.com>
Cc: "linux-kernel@...r.kernel.org" <linux-kernel@...r.kernel.org>,
"thierry.reding@...il.com" <thierry.reding@...il.com>,
Jon Hunter <jonathanh@...dia.com>,
Bartosz Golaszewski <bgolaszewski@...libre.com>,
"open list:GPIO SUBSYSTEM" <linux-gpio@...r.kernel.org>,
linux-tegra <linux-tegra@...r.kernel.org>,
Thomas Gleixner <tglx@...utronix.de>,
Arnd Bergmann <arnd@...db.de>
Subject: Re: GTE - The hardware timestamping engine
Hi Dipen,
thanks for your mail!
I involved some other kernel people to get some discussion.
I think Kent Gibson can be of great help because he is using
GPIOs with high precision.
We actually discussed this a bit when adding support for
realtime timestamps.
On Wed, Mar 17, 2021 at 11:29 PM Dipen Patel <dipenp@...dia.com> wrote:
> Nvidia Tegra SoCs have generic timestamping engine (GTE) hardware module which
> can monitor SoC signals like IRQ lines and GPIO lines for state change, upon
> detecting the change, it can timestamp and store in its internal hardware FIFO.
> The advantage of the GTE module can be realized in applications like robotics
> or autonomous vehicle where it can help record events with precise timestamp.
That sounds very useful.
Certainly the kernel shall be able to handle this.
> ============
> For GPIO:
> ============
> 1. GPIO has to be configured as input and IRQ must be enabled.
> 2. Ask GPIO controller driver to set corresponding timestamp bit in the
> specified GPIO config register.
> 3. Translate GPIO specified by the client to its internal bitmap.
> 3.a For example, If client specifies GPIO line 31, it could be bit 13 of GTE
> register.
> 4. Set internal bits to enable monitoring in GTE module
> 5. Additionally GTE driver can open up lanes for the user space application
> as a client and can send timestamping events directly to the application.
I have some concerns:
1. GPIO should for all professional applications be used with the character
device /dev/gpiochipN, under no circumstances shall the old sysfs
ABI be used for this. In this case it is necessary because the
character device provides events in a FIFO to userspace, which is
what we need.
The timestamp provided to userspace is an opaque 64bit
unsigned value. I suppose we assume it is monotonic but
you can actually augment the semantics for your specific
stamp, as long as 64 bits is gonna work.
2. The timestamp for the chardev is currently obtained in
drivers/gpio/gpiolib-cdev.c like this:
static u64 line_event_timestamp(struct line *line)
{
if (test_bit(FLAG_EVENT_CLOCK_REALTIME, &line->desc->flags))
return ktime_get_real_ns();
return ktime_get_ns();
}
What you want to do is to add a new flag for hardware timestamps
and use that if available. FLAG_EVENT_CLOCK_HARDWARE?
FLAG_EVENT_CLOCK_NATIVE?
Then you need to figure out a mechanism so we can obtain
the right timestamp from the hardware event right here,
you can hook into the GPIO driver if need be, we can
figure out the gpio_chip for a certain line for sure.
So you first need to augment the userspace
ABI and the character device code to add this. See
commit 26d060e47e25f2c715a1b2c48fea391f67907a30
"gpiolib: cdev: allow edge event timestamps to be configured as REALTIME"
by Kent Gibson to see what needs to be done.
3. Also patch tools/gpio/gpio-event-mon.c to support this flag and use that
for prototyping and proof of concept.
> ============
> For IRQ:
> ============
Marc Zyngier and/or Thomas Gleixner know this stuff.
It does make sense to add some infrastructure so that GPIO events
and IRQs can use the same timestamping hardware.
And certainly you will also want to use this timestamp for
IIO devices? If it is just GPIOs and IRQs today, it will be
gyroscopes and accelerometers tomorrow, am I right?
Yours,
Linus Walleij
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