On 28/07/2014 17:14, Andre Przywara wrote:
On 28/07/14 16:23, Arnd Bergmann wrote:
On Monday 28 July 2014 15:20:06 Andre Przywara wrote:
On 28/07/14 11:46, Arnd Bergmann wrote:
On Monday 28 July 2014 10:23:57 Graeme Gregory wrote:
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.
Ok, I see. What does ACPI-5.1 say about pl011?
Interestingly, the subset of pl011 that is specified by SBSA does not
contain the IBRD/FBRD registers, effectively making it a fixed-rated
UART (I guess that would be a ART, without the U then), and you
consequently don't even need to know the clock rate.
The idea of this was probably to let the baudrate set by some firmware
code to the "right" value and the spec just didn't want to expose the
details for the generic UART:
"This specification does not cover registers needed to configure the
UART as these are considered hardware-specific and will be set up by
hardware-specific software."
To me that reads like the SBSA UART is just for debugging, and you are
expected just to access the data register.
Right, makes sense. It also avoids the case where Linux for some reason
ends up using a different line rate than the firmware, which can
cause a lot of unnecessary pain.
I must be suffering snow blindness reading specs, I totally missed that
the pl011 subset does not allow baud setting. This means that my current
test hardware "Juno" does not actually need any clocks defined in DSDT
at this stage (given that this new driver is created).
I may then return to my original opinion of not defining clocks in the
DSDT at all.
Graeme
However, my guess is that most hardware in the real world contains
an actual pl011 and it does make a lot of sense to allow setting
the baud rate on it, which then requires knowing the input clock.
If there is any hardware that implements just the SBSA-mandated subset
rather than the full pl011, we should probably implement both
in the kernel: a dumb driver that can only send and receive, and the
more complex one that can set the bit rates and flow-control but that
requires a standardized ACPI table with the input clock rate.
The fast model I use can be switched to use the SBSA restricted PL011,
and as expected the Linux kernel crashes at the device doesn't support
DMA (and a lot more stuff) - but the current code requires it.
It does? We have a lot of platforms that don't have DMA support for
pl011.
Well, to be honest I just booted the full featured kernel with the
changed fast model config, so the platform and the DT claimed DMA
support, just the emulated hardware doesn't implement it ;-)
And beside that a whole lot of other PL011 registers are not available,
so the crash could be caused by anything. I didn't look to closely why
it broke.
So I am about to implement a new driver for that SBSA subset. So far
this will be a separate driver, starting from a copy of amba-pl011.c,
but removing most of the code ;-)
Ok. You might want to consider starting from a different base though.
IIRC, pl011 uses uart_port as the basic abstraction, while the
new driver should probably use the raw tty_port instead.
drivers/tty/goldfish.c is probably a good example to look at for
that.
Good hint, will look at this.
Cheers,
Andre.
You could also make it a hvc_driver like drivers/tty/hvc/hvc_vio.c,
but I'm not sure if that model seen favorable by the tty maintainers.
It would probably be the shortest driver though.
Arnd
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