Hi Peter,
On Mon, April 15, 2024 1:47 pm, Peter Robinson wrote:
> >> I'm using
> >>
https://download.technexion.com/development_resources/wandboard/wbquad-re...
> >> as a reference for the board layout. Specifically, on page 27, it
> shows
> >> me that the JP4 header connects to GPIO3_12, GPIO3_27, GPIO6_31,
> >> CPIO1_24,
> >> GPIO7_8, GPIO3_26, GPIO_18, and GPIO_19.
> >>
[snip]
> Being only ancillarily associated with Arm/Embedded HW -- what
does it
> mean for a GPIO to be "used for other things"? And more importantly,
> why
> would it be wired to a header if it's being used for something else?
So in the case I mention below the GPIO pin is used for i2c and it's
on that header so you could add say a i2c based temp sensor or other
i2c device.
Also board designers may use a GPIO to hook up a mSD card detect pin,
or a WiFi interface reset pin, or something else on the board layout.
I guess I don't understand why they would expose GPIO-x on a header and
ALSO use it elsewhere on the board. In my case, I just need to find 4
open "button" inputs.
You can see the default pin allocation here from line 152-195:
https://git.kernel.org/pub/scm/linux/kernel/git/torvalds/linux.git/tree/a...
And the GPIOs mapped to i2c here on lines 103-104 and again 113-114,
and then as a camera enable/reset at 139-140:
https://git.kernel.org/pub/scm/linux/kernel/git/torvalds/linux.git/tree/a...
Thanks. I see the duplication of scl-gpois and sda-gpios names in those
two sections, but in the first section it uses gpio3 21/28 and in the
second section is used gpio4 13/14.
I also don't see the specific bindings for the pins on the JP4 header
(e.g. I don't see gpio3 12 being specified here).
> > A quick look at the dtsi for the wandboards some of the
GPIOs re used
> > for SCL/SDA pins on two of the i2c buses. The i2c1 seems to not have
> > anything attached so I guess in on a pin header for end user use, and
> > i2c12 has a audio codec and for the camera connector.
>
> How exactly is this done? Is the pin wired to two places on the PCB?
It depends, for example on a RPi header you can use a DT overlay to
change the default use of a PIN, by default is might be a standard
GPIO but you apply an overlay that remaps it so it routes a i2s audio
interface so you can use a DAC to output sound. So it's generally more
about being able to use the reduced amounts of external pins for
different usecases, someone might want it in a robot, someone else
might want it to output audio.
How would an end-user do that without building a custom kernel? Like I
said, all I need is to read from four input GPIOs for a water-detection
system, so instead of using a 'sleep' after opening the relay, it waits
for the appropriate gpio to turn on based on a water detector connected to
it (so it will turn off the relay as soon as it detects the water tank is
full).
So really I just need to choose 4 pins that I can use, and map those to an
event manager to wait for the pin to go on. JP4 seems to be the only
layout with GPIO labeled, so I just need to figure out which pins to use
and how to read those inputs in this brave new world.
Thanks,
-derek
--
Derek Atkins 617-623-3745
derek(a)ihtfp.com
www.ihtfp.com
Computer and Internet Security Consultant