Raspberrypi3: Mini UART driver

Niteesh gsnb.gn at gmail.com
Tue Dec 24 18:58:54 UTC 2019


I figured the register part, it is setting itself through the FDT.

On Tue, Dec 24, 2019 at 11:49 PM Niteesh <gsnb.gn at gmail.com> wrote:

> And also the register definitions are in raspberrpi.h file should I move
> them to usart.h.
> I have a doubt we have a register field in device_context
> typedef struct {
>
> rtems_termios_device_context base;
>
> const char *device_name;
>
> volatile some_chip_registers *regs;
>
> } my_driver_context;
>
> How does the reg field point to the correct memory location? for instance
> in IMX BSP,
> there is a struct with register field's but none of the define a memory
> location?
>
> On Tue, Dec 24, 2019 at 11:37 PM Niteesh <gsnb.gn at gmail.com> wrote:
>
>> How to handle different serial devices? In other BSPs the uart devices
>> are the same, so
>> they were able to put it under a single array? But here we have 2 uarts
>> and a FB?
>>
>>
>> On Tue, Dec 24, 2019 at 8:18 PM Christian Mauderer <list at c-mauderer.de>
>> wrote:
>>
>>> On 24/12/2019 12:06, Niteesh wrote:
>>> > The current raspi console section is like this:
>>> > The bsp_console_select in console_select.c is responsible for selecting
>>> > between uart and the framebuffer. It does so
>>> > by setting the Console_port_minor.
>>> > The console_config is responsible for output_char function.
>>> > And other files are driver code.
>>> > If rewriting, this would be my approach,
>>> > Rewrite the bsp_console_select to set some kind of a variable like in
>>> > IMX, then in console_initialize function
>>> > link the right driver to /dev/console.
>>> > Replace the console_tbl with the device_context and console_fns with
>>> > termios_device_handlers and
>>> > finally add in the console_initialization function.
>>>
>>> I agree that this would be a clean solution. So if you want you can do
>>> that. But there might is a hurdle: As far as I understood you you only
>>> have a Pi3? So you might have a hard time testing the changes. Maybe the
>>> simulator could work.
>>>
>>> Another possibility could be to set the "Console_port_minor" to
>>> something unused (for example -1). In that case you can define another
>>> /dev/console.
>>>
>>> Best regards and merry Christmas (in case you celebrate)
>>>
>>> Christian
>>>
>>> >
>>> > On Tue, Dec 24, 2019 at 2:13 PM Niteesh <gsnb.gn at gmail.com
>>> > <mailto:gsnb.gn at gmail.com>> wrote:
>>> >
>>> >     Thank you so much, for such a detailed answer. Now things make
>>> >     really good sense to me,
>>> >     going through the code now is just a breeze. But I still have one
>>> >     question
>>> >     for the newer driver interface is console_initialize the function
>>> >     which RTEMS calls while initializing
>>> >     the console? Which means I can't mess with the name right? It is
>>> >     similar to the main function, right?
>>> >
>>> >     The current driver is a legacy one, how do you want me to proceed,
>>> >     shall I rewrite the legacy to a
>>> >     the new one, this is will be a great learning experience for me
>>> also
>>> >     and we also get the BSP updated to the latest interface.
>>> >
>>> >
>>> >     On Tue, Dec 24, 2019 at 3:20 AM Christian Mauderer
>>> >     <list at c-mauderer.de <mailto:list at c-mauderer.de>> wrote:
>>> >
>>> >         Hello Niteesh,
>>> >
>>> >         quite a lot of questions. I'll try to answer them. Note that it
>>> >         has been
>>> >         some time since I had a detailed look at that code so if
>>> something I
>>> >         tell seems odd please don't hesitate to question it.
>>> >
>>> >         Please note that in RTEMS their are more or less two "levels"
>>> of
>>> >         support
>>> >         for a serial console:
>>> >
>>> >         1. A very basic polled system console (also known as
>>> >         "debug-console" in
>>> >         some BSPs). This one is used for printk and should work in
>>> basically
>>> >         every case. It is used for critical system messages like
>>> >         printing the
>>> >         exception frame. For that a BSP has to provide a
>>> >         "BSP_output_char" function.
>>> >
>>> >         2. A full featured UART driver integrated into Termios. That
>>> one
>>> >         will be
>>> >         used for all normal I/O on the UARTs.
>>> >
>>> >         As far as I know the "console_tbl Console_Configuration_Ports"
>>> >         belongs
>>> >         to a table based legacy interface. It is handled in the file
>>> >         bsps/shared/dev/serial/legacy-console.c. I'm not sure whether
>>> it is
>>> >         documented in the BSP guide because it shouldn't be used for
>>> new
>>> >         BSPs.
>>> >         Same is true for the "major" and "minor" stuff: It's not really
>>> >         used for
>>> >         new drivers.
>>> >
>>> >         Newer drivers use the initialization that is described in the
>>> manual
>>> >         that you have already found. Basically they use
>>> >         "rtems_termios_device_install" to register a new UART as
>>> >         "/dev/ttySomething". Some recent (ARM) BSPs that do that are
>>> the
>>> >         imx or
>>> >         the atsam.
>>> >
>>> >         The console that is used for stdin, stdout and stderr (printf,
>>> >         scanf,
>>> >         ...) is the one called "/dev/console" (defined in
>>> >         CONSOLE_DEVICE_NAME).
>>> >         For the legacy table based interface it's the one with the
>>> index of
>>> >         "Console_Port_Minor".
>>> >
>>> >
>>> >         If you want to access any UART other than the one for stdin and
>>> >         stdout
>>> >         you do that the same way like on Linux: Just use the "open"
>>> >         function on
>>> >         the "/dev/ttySomething" and use "read", "write" and simmilar
>>> or use
>>> >         "fopen" together with "fread", "fwrite", "fprintf", ...
>>> >
>>> >
>>> >         "printf" (and family) is a function belonging to the C library.
>>> >         In our
>>> >         case that's newlib. It will format your message and after some
>>> other
>>> >         preprocessing will call the "write" function of the file that
>>> is
>>> >         opened
>>> >         as stdout (which is "/dev/console" in the default case).
>>> >
>>> >
>>> >         I hope that I helped you with that explanation. Please feel
>>> free
>>> >         to ask
>>> >         anything if it isn't clear.
>>> >
>>> >         Best regards
>>> >
>>> >         Christian
>>> >
>>> >         On 23/12/2019 19:50, Niteesh wrote:
>>> >         > And finally, how does printf work? It is a macro? In that
>>> >         case, how does
>>> >         > any write to
>>> >         > a console work?
>>> >         >
>>> >         > On Tue, Dec 24, 2019 at 12:18 AM Niteesh <gsnb.gn at gmail.com
>>> >         <mailto:gsnb.gn at gmail.com>
>>> >         > <mailto:gsnb.gn at gmail.com <mailto:gsnb.gn at gmail.com>>>
>>> wrote:
>>> >         >
>>> >         >     Is the correct port minor number set during the
>>> >         initialization? What
>>> >         >     is the application want's to
>>> >         >     access some other port?
>>> >         >
>>> >         >     On Tue, Dec 24, 2019 at 12:16 AM Niteesh
>>> >         <gsnb.gn at gmail.com <mailto:gsnb.gn at gmail.com>
>>> >         >     <mailto:gsnb.gn at gmail.com <mailto:gsnb.gn at gmail.com>>>
>>> wrote:
>>> >         >
>>> >         >         I would like to clarify my doubts regarding the
>>> >         console driver.
>>> >         >         I went through the documentation
>>> >         >         for the console
>>> >         >
>>> >          driver
>>> https://docs.rtems.org/branches/master/bsp-howto/console.html#introduction
>>> .
>>> >         >         But it is quite different from how some BSPs
>>> initialize.
>>> >         >         Correct me if I am wrong
>>> >         >         The console_tbl contains the various entries of
>>> serial
>>> >         ports.
>>> >         >         The console_fns is a struct of function pointers,
>>> >         which point to
>>> >         >         the BSP uart functions.
>>> >         >         The BSP_output_char_function_type is what will be
>>> >         called for
>>> >         >         printing a char on to the console.
>>> >         >         How does RTEMS initialize the uart? It's seems not to
>>> >         be same
>>> >         >         for all BSPs.
>>> >         >         The doc says that the driver's initialization
>>> function
>>> >         is called
>>> >         >         once during the rtems initialization process.
>>> >         >         The console init function install the serial driver
>>> using
>>> >         >         rtems_termios_device_install but there seems to be
>>> >         >         no such function in the raspberry pi? But there is a
>>> >         entry in
>>> >         >         console_fns for init function, but then how does it
>>> >         >         gets called?
>>> >         >         And for BSP's with multiple serial's, the output
>>> function
>>> >         >         chooses the right serial using console_port_minor,
>>> >         >         Is it during initialization?
>>> >         >         What is the need for get and set register functions?
>>> >         >
>>> >         >         On Mon, Dec 23, 2019 at 1:04 AM Christian Mauderer
>>> >         >         <list at c-mauderer.de <mailto:list at c-mauderer.de>
>>> >         <mailto:list at c-mauderer.de <mailto:list at c-mauderer.de>>>
>>> wrote:
>>> >         >
>>> >         >             On 22/12/2019 19:45, Joel Sherrill wrote:
>>> >         >             >
>>> >         >             >
>>> >         >             > On Sun, Dec 22, 2019, 12:29 PM Niteesh
>>> >         <gsnb.gn at gmail.com <mailto:gsnb.gn at gmail.com>
>>> >         >             <mailto:gsnb.gn at gmail.com <mailto:
>>> gsnb.gn at gmail.com>>
>>> >         >             > <mailto:gsnb.gn at gmail.com
>>> >         <mailto:gsnb.gn at gmail.com> <mailto:gsnb.gn at gmail.com
>>> >         <mailto:gsnb.gn at gmail.com>>>> wrote:
>>> >         >             >
>>> >         >             >     On Sun, Dec 22, 2019 at 8:44 PM Christian
>>> >         Mauderer
>>> >         >             >     <list at c-mauderer.de
>>> >         <mailto:list at c-mauderer.de> <mailto:list at c-mauderer.de
>>> >         <mailto:list at c-mauderer.de>>
>>> >         >             <mailto:list at c-mauderer.de
>>> >         <mailto:list at c-mauderer.de> <mailto:list at c-mauderer.de
>>> >         <mailto:list at c-mauderer.de>>>> wrote:
>>> >         >             >
>>> >         >             >         Hello Niteesh,
>>> >         >             >
>>> >         >             >         thanks for doing that work.
>>> >         >             >
>>> >         >             >         On 22/12/2019 12:10, Niteesh wrote:
>>> >         >             >         > The rpi1 and rpi2 use the PL011 UART,
>>> >         whereas,
>>> >         >             with RPI's
>>> >         >             >         equipped with
>>> >         >             >         > wireless/Bluetooth module, the PL011
>>> is
>>> >         >             connected to the Bluetooth
>>> >         >             >         > module, and the mini UART is used as
>>> >         the primary
>>> >         >             UART.
>>> >         >             >
>>> >         >             >         In my opinion it would be great if you
>>> >         could use
>>> >         >             the FDT to
>>> >         >             >         distinguish
>>> >         >             >         between the boards. That should allow
>>> to add
>>> >         >             raspberry 3 (and
>>> >         >             >         maybe 4)
>>> >         >             >         support without adding another BSP.
>>> More
>>> >         BSPs mean
>>> >         >             a bigger
>>> >         >             >         maintenance
>>> >         >             >         effort for the RTEMS community.
>>> >         >             >
>>> >         >             >     Learning more about FDT is on my list for
>>> a long
>>> >         >             time.  I would love
>>> >         >             >     to work on that
>>> >         >             >     but I have almost no exp with FDT's.
>>> >         >             >     But another thing could also be done, in
>>> >         >             >     raspberrypi/start/bspstart.c we get the
>>> >         revision and
>>> >         >             >     model of the board using the mailbox. Every
>>> >         board has
>>> >         >             a unique id,
>>> >         >             >     which we could use to initialize
>>> >         >             >     the BSP. But using FDT seems to be a more
>>> >         elegant
>>> >         >             option, it is a
>>> >         >             >     lot of work I think, but we could take
>>> >         >             >     help from libbsd and linux I suppose. What
>>> >         do you think?
>>> >         >             >
>>> >         >             >
>>> >         >             > I think there are almost always two steps to a
>>> >         project
>>> >         >             like this: get it
>>> >         >             > to work and make it nice. :)
>>> >         >             >
>>> >         >             > If you fix the startup code to read the board
>>> >         revision and
>>> >         >             memory size,
>>> >         >             > you can get a working BSP that dynamically
>>> >         adapts to the
>>> >         >             models and
>>> >         >             > memory variations with minimal modifications.
>>> If
>>> >         you want
>>> >         >             to then
>>> >         >             > convert the BSP to FDT, it will be a LOT easier
>>> >         to debug
>>> >         >             with a working BSP.
>>> >         >             >
>>> >         >             > Plus you may be able to identify every
>>> variation
>>> >         point
>>> >         >             based on just the
>>> >         >             > model info. Then FDT is just a matter of
>>> >         switching the
>>> >         >             source of
>>> >         >             > some/all of the info.
>>> >         >             >
>>> >         >             > That would be my work plan anyway.
>>> >         >
>>> >         >             I agree with Joel that a secure development basis
>>> >         (also
>>> >         >             known as "hack")
>>> >         >             as a first step is a good idea. You maybe even
>>> >         just make the
>>> >         >             mini UART
>>> >         >             the default driver while you are developing. Then
>>> >         you can be
>>> >         >             sure that
>>> >         >             you have the right driver.
>>> >         >
>>> >         >             As soon as that works you can either change to
>>> the
>>> >         revision
>>> >         >             method or
>>> >         >             (better) to the FDT one and after that the
>>> patches
>>> >         can be
>>> >         >             merged. Using
>>> >         >             the FDT isn't that complicated. Basically you
>>> >         search for a
>>> >         >             node based on
>>> >         >             different parameters. For an example you can take
>>> >         a look at
>>> >         >             the imx BSP.
>>> >         >             In imx_uart_probe
>>> >         (bsps/arm/imx/console/console-config.c) a
>>> >         >             fdt node is
>>> >         >             searched and based on that a UART driver is used.
>>> >         But again:
>>> >         >             Follow
>>> >         >             Joels suggestion to start simple and secure.
>>> >         >
>>> >         >             >
>>> >         >             >         >
>>> >         >             >         >
>>> >         >             >
>>> >         >
>>> >
>>> https://www.raspberrypi.org/app/uploads/2012/02/BCM2835-ARM-Peripherals.pdf
>>> >         >             >         > But from the above doc (PAGE 10), the
>>> >         mini uart
>>> >         >             has 16550 like
>>> >         >             >         registers
>>> >         >             >         > and RTEMS already has the driver for
>>> it
>>> >         >             >         > bsps/shared/dev/serial/ns16550.c. But
>>> >         I am not
>>> >         >             sure how
>>> >         >             >         compatible they
>>> >         >             >         > are? Should a new driver be
>>> >         implemented from
>>> >         >             scratch or use
>>> >         >             >         ns16550 if
>>> >         >             >         > possible?
>>> >         >             >
>>> >         >             >         In general it's better to re-use
>>> >         existing code.
>>> >         >             That has multiple
>>> >         >             >         advantages:
>>> >         >             >
>>> >         >             >         - It reduces the maintenance effort.
>>> >         Fewer code
>>> >         >             means fewer work.
>>> >         >             >         - If you have multiple driver for the
>>> >         same or
>>> >         >             similar hardware
>>> >         >             >         it can
>>> >         >             >         happen that a bug is fixed in one but
>>> >         not the other.
>>> >         >             >         - It's simpler to find a hardware to
>>> >         test changes.
>>> >         >             >         - The driver becomes more universal
>>> with
>>> >         every new
>>> >         >             supported
>>> >         >             >         hardware.
>>> >         >             >         That increases the chance that it fits
>>> >         the next
>>> >         >             new hardware.
>>> >         >             >
>>> >         >             >         I'm sure there are some more if you ask
>>> >         someone else.
>>> >         >             >
>>> >         >             >     I do understand the issues, I just spent
>>> >         some time
>>> >         >             reading the
>>> >         >             >     driver code.
>>> >         >             >     I think we could most probably use it. I
>>> >         will take a
>>> >         >             closer look and
>>> >         >             >     will update.
>>> >         >             >
>>> >         >
>>> >         >             Great.
>>> >         >
>>> >         >             >
>>> >         >             >
>>> >         >             >         >
>>> >         >             >         > Also, the core clock on which the
>>> >         PL011 is based
>>> >         >             on is changed
>>> >         >             >         in rpi3.
>>> >         >             >         > Rpi1 and 2 use 250Mhz as the default
>>> >         clock but
>>> >         >             it was changed
>>> >         >             >         to 400Mhz
>>> >         >             >         > in Rpi3 and newer
>>> >         >             >
>>> >         >             >         Again: Would be great if that could be
>>> >         adapted
>>> >         >             based on FDT or by
>>> >         >             >         reading the right registers.
>>> >         >             >
>>> >         >             >         >
>>> >         >             >         > Few differences between PL011 and
>>> Mini
>>> >         uart
>>> >         >             >         > The mini UART has smaller FIFOs.
>>> >         Combined with
>>> >         >             the lack of
>>> >         >             >         flow control,
>>> >         >             >         > this makes it more prone to losing
>>> >         characters at
>>> >         >             higher baud
>>> >         >             >         rates. It
>>> >         >             >         > is also generally less capable than
>>> >         the PL011,
>>> >         >             mainly due to
>>> >         >             >         its baud
>>> >         >             >         > rate link to the VPU clock speed.
>>> >         >             >
>>> >         >             >         That shouldn't really be a problem for
>>> >         the system
>>> >         >             console.
>>> >         >             >
>>> >         >             >         >
>>> >         >             >         > The particular deficiencies of the
>>> >         mini UART
>>> >         >             compared to the
>>> >         >             >         PL011 are :
>>> >         >             >         >
>>> >         >             >         > No break detection
>>> >         >             >         > No framing errors detection
>>> >         >             >         > No parity bit
>>> >         >             >         > No receive timeout interrupt
>>> >         >             >         > No DCD, DSR, DTR or RI signals
>>> >         >             >         >
>>> >         >             >
>>> >         >             >
>>>  _______________________________________________
>>> >         >             >     devel mailing list
>>> >         >             >     devel at rtems.org <mailto:devel at rtems.org>
>>> >         <mailto:devel at rtems.org <mailto:devel at rtems.org>>
>>> >         >             <mailto:devel at rtems.org <mailto:devel at rtems.org>
>>> >         <mailto:devel at rtems.org <mailto:devel at rtems.org>>>
>>> >         >             >
>>> http://lists.rtems.org/mailman/listinfo/devel
>>> >         >             >
>>> >         >
>>> >
>>>
>>
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