nuttx/configs/beaglebone-black
Petro Karashchenko 95f6c13c61 With these changes, I am able to access NSH on Beaglebone Black.
I still observe data abort crash if I compile the code with optimization enabled.

The next steps are to investigate the optimization issue and add Watchdog module. Currently, NSH does not run for a long time ;)

  arch/arm/src/am335x/am335x_irq.c:  Correct interrupt processing routine
  configs/beaglebone-black/nsh/defconfig:  Enable debug compilation options. Otherwise data abort crash is observed
  arch/arm/src/am335x/am335x_lowputc.c and arch/arm/src/am335x/chip/am335x_uart.h:  UART-related cosmetic changes
  arch/arm/src/am335x/am335x_timerisr.c:  Make sure that Timer 1 interrupts are disabled before any access to peripheral registers
2019-01-09 16:21:20 -06:00
..
include
nsh
scripts
src Initial changes for BeagleBone Black board support (TI AM335x family based on Cortex-A8) 2019-01-06 09:05:38 -06:00
Kconfig
README.txt

README
======

  This directory contains the port of NuttX to the Beaglebone Black board
  See http://beagleboard.org for information about Beaglebone Black. This
  board is based around the TI AM335x Sitara Cortex-A8 CPU.
  This port was developed on the rev. C of the board:

  Beaglebone Black (See http://beagleboard.org/black)

    ITEMS                DETAILS
    -------------------- ---------------------------------------------------
    CPU                  1GHz ARM Cortex-A8
    GPU                  SG530 3D, 20M Polygons/S
    DRAM                 512MB DDR3 800MHz
    Onboard Storage      4GB, 8bit Embedded MMC, microSD card (TF) slot for up to 32GB
    Video Output         HDMI
    Extension Interface  2.54mm Headers, 92 pins
    Network interface    10/100Mbps RJ45
    Power                5V, 1000mA
    Overall Size         3.4" X 2.15"

  Main features of the TI AM335x Sitara
  (See http://www.ti.com/product/am3358):

  CPU
    - ARM Cortex-A8
    - 32KB I-Cache
    - 32KB D-Cache
    - 256KB L2 Cache with ECC

  FPU
    - NEON SIMD Coprocessor

  Memory
    - 176KB of On-Chip Boot ROM
    - 64KB of Dedicated RAM
    - 64KB of General-Purpose On-Chip Memory Controller (OCMC) RAM
    - 16-bit DDR2/DDR3
    - Memory capacity up to 8G bits
    - 8-Bit and 16-Bit Asynchronous Memory Interface with up to Seven Chip Selects (NAND, NOR, Muxed-NOR, SRAM)

  Boot Devices
    - NAND Flash
    - SPI NOR Flash
    - SD Card
    - UART


TODO:

Contents
========

  - Beaglebone black Rev.C Connectors
  - Serial Console
  - LEDs
  - Buttons
  - JTAG
  - Booting NuttX from an SD card
  - Configurations

Beaglebone black Rev.C Connectors
=====================

Serial Console
==============

  By default, the serial console will be provided on UART0 in all of these
  configurations.

LEDs
====

  The Beaglebone black Rev. C has four blue LEDs; three can be controlled from software.
  Two are tied to ground and, hence, illuminated by driving the output pins to a high
  value:

    1. LED0 GPMC_A5   GPMC_A5/GMII2_TXD0/RGMII2_TD0/RMII2_TXD0/GPMC_A21/PR1_MII1_RXD3/eQEP1B_IN/GPIO1_21
    2. LED1 GPMC_A6   GPMC_A6/GMII2_TXCLK/RGMII2_TCLK/MMC2_DAT4/GPMC_A22/PR1_MII1_RXD2/eQEP1_INDEX/GPIO1_22
    3. LED2 GPMC_A7   GPMC_A7/GMII2_RXCLK/RGMII2_RCLK/MMC2_DAT5/GPMC_A23/PR1_MII1_RXD1/eQEP1_STROBE/GPIO1_23
    4. LED3 GPMC_A8   GPMC_A8/GMII2_RXD3/RGMII2_RD3/MMC2_DAT6/GPMC_A24/PR1_MII1_RXD0/MCASP0_ACLKX/GPIO1_24

  These LEDs are not used by the board port unless CONFIG_ARCH_LEDS is
  defined.  In that case, the usage by the board port is defined in
  include/board.h and src/am335x_leds.c. The LEDs are used to encode OS-related
  events as follows:

    SYMBOL            Meaning                      LED state
                                               LED1 LED3 LED4
    ----------------- -----------------------  ---- ---- ------------
    LED_STARTED       NuttX has been started   ON   OFF  OFF
    LED_HEAPALLOCATE  Heap has been allocated  OFF  ON   OFF
    LED_IRQSENABLED   Interrupts enabled       ON   ON   OFF
    LED_STACKCREATED  Idle stack created       ON   ON   OFF
    LED_INIRQ         In an interrupt          N/C  N/C  Soft glow
    LED_SIGNAL        In a signal handler      N/C  N/C  Soft glow
    LED_ASSERTION     An assertion failed      N/C  N/C  Soft glow
    LED_PANIC         The system has crashed   N/C  N/C  2Hz Flashing
    LED_IDLE          MCU is is sleep mode         Not used

  After booting, LED1 and 3 are not longer used by the system and can be used for
  other purposes by the application (Of course, all LEDs are available to the
  application if CONFIG_ARCH_LEDS is not defined.

Buttons
=======

JTAG
====

Booting NuttX from an SD card
=============================

  These are the steps to get U-Boot booting from SD Card:

    1. Stop Beaglebone Black boot process in U-Boot.

    2. Insert a FLASH stick into host pc and format FAT32 FS.

    3. Copy nuttx.bin into FLASH stick root.

    4. Remove the FLASH stick from the host pc.  Insert into the Beaglecone Black
       microSD slot.  Load Nuttx into memory and run

       U-Boot# load mmc 0 0x8a000000 nuttx.bin
       U-Boot# go 0x8a000000

Configurations
==============

  Information Common to All Configurations
  ----------------------------------------
  Each Beaglebone Black configuration is maintained in a sub-directory and
  can be selected as follow:

    tools/configure.sh [OPTIONS] beaglebone-black/<subdir>

  Where [OPTIONS] include -l to configure for a Linux host platform and
  -c means to configure for a Windows Cygwin host platform.  -h will give
  you the list of all options.

  Before building, make sure the PATH environment variable includes the
  correct path to the directory than holds your toolchain binaries.

  And then build NuttX by simply typing the following.  At the conclusion of
  the make, the nuttx binary will reside in an ELF file called, simply, nuttx.

    make

  The <subdir> that is provided above as an argument to the tools/configure.sh
  must be is one of the following.

  NOTES:

  1. These configurations use the mconf-based configuration tool.  To
    change any of these configurations using that tool, you should:

    a. Build and install the kconfig-mconf tool.  See nuttx/README.txt
       see additional README.txt files in the NuttX tools repository.

    b. Execute 'make menuconfig' in nuttx/ in order to start the
       reconfiguration process.

  2. Unless stated otherwise, all configurations generate console
     output on UART0.

  3. All of these configurations use the Code Sourcery for Windows toolchain
     (unless stated otherwise in the description of the configuration).  That
     toolchain selection can easily be reconfigured using 'make menuconfig'.
     Here are the relevant current settings:

     Build Setup:
       CONFIG_HOST_WINDOWS=y                   : Microsoft Windows
       CONFIG_WINDOWS_CYGWIN=y                 : Using Cygwin or other POSIX environment

     System Type -> Toolchain:
       CONFIG_ARMV7A_TOOLCHAIN_CODESOURCERYW=y : CodeSourcery for Windows

  Configuration Sub-directories
  -----------------------------

  nsh:

    This configuration directory provide the NuttShell (NSH).  There are

    STATUS:
      Work in progress. Till now it is possible to pass arm_boot(), but Prefetch abort
      is met when devnull_register() call is done. Have no idea why. I was able to trace
      down to _inode_search() call. If I put any debug statement like "up_lowputc('0');"
      right after "desc->node    = node;" statement at line 425 the code does not crash.