2019-07-11 18:50:00 +02:00
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README.txt
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==========
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This README file discusses the port of NuttX to the Embedded Artists LPC4088
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QuickStart board: See https://www.embeddedartists.com/products/lpc4088-quickstart-board/.
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This board features the NXP LPC4088FET208 MCU.
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CONTENTS
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========
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o LEDs
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o Buttons
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o Serial Console
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o Using OpenOCD with the Olimex ARM-USB-OCD
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o Loading Code with the ISP Board
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o Configuration
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LEDs
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====
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The LCP4088 Quickstart board has four user LEDs
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LED1 : Connected to P1[18]
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LED2 : Connected to P0[13]
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LED3 : Connected to P1[13]
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LED4 : Connected to P2[19]
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If CONFIG_ARCH_LEDS is not defined, then the user can control the LEDs in
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2020-02-23 09:50:23 +01:00
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any way using the definitions provided in the board.h header file.
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2019-07-11 18:50:00 +02:00
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If CONFIG_ARCH_LEDs is defined, then NuttX will control the 4 LEDs on the
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LPC4088 QuickStart board. The following definitions describe how NuttX
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controls the LEDs:
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LED1 LED2 LED3 LED4
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LED_STARTED OFF OFF OFF OFF
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LED_HEAPALLOCATE ON OFF OFF OFF
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LED_IRQSENABLED OFF ON OFF OFF
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LED_STACKCREATED ON ON OFF OFF
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LED_INIRQ LED3 glows, on while in interrupt
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LED_SIGNAL LED3 glows, on while in signal handler
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LED_ASSERTION LED3 glows, on while in assertion
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LED_PANIC LED3 Flashes at 2Hz
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LED_IDLE LED glows: ON while active; OFF while sleeping
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Buttons
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=======
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The LPC4088 QuickStart board supports a single button:
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USER1 : Connected to P2[10]
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This can be accessed using the definitions and interfaces defined in the
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board.h header file.
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Serial Console
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==============
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By Default, UART0 is used as the serial console in all configurations. This
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may be connected to your computer via an external RS-232 driver or via the
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onboard MBED interface.
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As an option, UART1 can also be used for the serial console. You might want,
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to do this, for example, if you use UART0 for the ISP function and you want
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to use a different UART for console output. UART1 can be configured as the
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serial console by changing the configuration as follows:
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System Type:
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CONFIG_LPC17_40_UART0=n : Disable UART0 if it is no longer used
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CONFIG_LPC17_40_UART1=y : Enable UART1
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Drivers:
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CONFIG_UART1_SERIAL_CONSOLE=y : Setup up the UART1 configuration
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CONFIG_UART1_RXBUFSIZE=256
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CONFIG_UART1_TXBUFSIZE=256
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CONFIG_UART1_BAUD=115200
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CONFIG_UART1_BITS=8
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CONFIG_UART1_PARITY=0
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CONFIG_UART1_2STOP=0
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Using OpenOCD with the Olimex ARM-USB-OCD
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=========================================
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Building OpenOCD under Cygwin:
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2019-08-05 15:13:48 +02:00
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Refer to boards/olimex-lpc1766stk/README.txt
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2019-07-11 18:50:00 +02:00
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Installing OpenOCD in Ubuntu Linux:
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sudo apt-get install openocd
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Helper Scripts.
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I have been using the Olimex ARM-USB-OCD debugger. OpenOCD
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requires a configuration file. I keep the one I used last here:
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2019-08-13 18:08:49 +02:00
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boards/arm/lpc17xx_40xx/lpc4088-quickstart/tools/lpc4088-quickstart.cfg
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2019-07-11 18:50:00 +02:00
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However, the "correct" configuration script to use with OpenOCD may
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change as the features of OpenOCD evolve. So you should at least
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compare that lpc4088-quickstart.cfg file with configuration files in
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/usr/share/openocd/scripts. As of this writing, the configuration
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files of interest were:
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/usr/local/share/openocd/scripts/interface/openocd-usb.cfg
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This is the configuration file for the Olimex ARM-USB-OCD
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debugger. Select a different file if you are using some
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other debugger supported by OpenOCD.
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/usr/local/share/openocd/scripts/board/?
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I don't see a board configuration file for the LPC4088 Quickstart.
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/usr/local/share/openocd/scripts/target/lpc40xx.cfg
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This is the configuration file for the LPC4088 target.
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It just sets up a few parameters then sources lpc1xxx.cfg
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/usr/local/share/openocd/scripts/target/lpc1xxx.cfg
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This is the generic LPC configuration for the LPC1xxx
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family. It is included by lpc40xx.cfg.
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NOTE: These files could also be located under /usr/share in some
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installations. They could be most anywhwere if you are using a
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windows version of OpenOCD.
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2019-08-13 18:08:49 +02:00
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boards/arm/lpc17xx_40xx/lpc4088-quickstart/tools/lpc4088-quickstart.cfg
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2019-07-11 18:50:00 +02:00
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This is simply openocd-usb.cfg, lpc40xx.cfg, and lpc1xxx.cfg
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concatenated into one file for convenience. Don't use it
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unless you have to.
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There is also a script on the tools/ directory that I use to start
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the OpenOCD daemon on my system called oocd.sh. That script will
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probably require some modifications to work in another environment:
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- Possibly the value of OPENOCD_PATH and TARGET_PATH
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- It assumes that the correct script to use is the one at
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2019-08-13 18:08:49 +02:00
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boards/arm/lpc17xx_40xx/lpc4088-quickstart/tools/lpc4088-quickstart.cfg
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2019-07-11 18:50:00 +02:00
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Starting OpenOCD
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Then you should be able to start the OpenOCD daemon as follows. This
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assumes that you have already CD'ed to the NuttX build directory and
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2019-08-13 18:08:49 +02:00
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that you have set the full path to the
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boards/arm/lpc17xx_40xx/lpc4088-quickstart/tools
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2019-07-11 18:50:00 +02:00
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in your PATH environment variable:
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oocd.sh $PWD
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or, if the PATH variable is not so configured:
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2019-08-13 18:08:49 +02:00
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boards/arm/lpc17xx_40xx/lpc4088-quickstart/tools/oocd.sh $PWD
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2019-07-11 18:50:00 +02:00
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Connecting GDB
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Once the OpenOCD daemon has been started, you can connect to it via
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GDB using the following GDB command:
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arm-nuttx-elf-gdb
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(gdb) target remote localhost:3333
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NOTE: The name of your GDB program may differ. For example, with the
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CodeSourcery toolchain, the ARM GDB would be called arm-none-eabi-gdb.
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OpenOCD will support several special 'monitor' sub-commands. You can
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use the 'monitor' (or simply 'mon') command to invoke these sub-
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commands. These GDB commands will send comments to the OpenOCD monitor.
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Here are a couple that you will need to use:
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(gdb) monitor reset
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(gdb) monitor halt
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NOTES:
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1. The MCU must be halted using 'monitor halt' prior to loading code.
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2. 'monitor reset' will restart the processor after loading code.
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3. The 'monitor' command can be abbreviated as just 'mon'.
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After starting GDB, you can load the NuttX ELF file like this:
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(gdb) mon halt
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(gdb) load nuttx
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NOTES:
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1. NuttX should have been built so that it has debugging symbols
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(by setting CONFIG_DEBUG_SYMBOLS=y in the .config file).
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2. The MCU must be halted prior to loading code.
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3. I find that there are often undetected write failures when using
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the Olimex ARM-USB-OCD debugber and that if you start the program
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with a bad FLASH failure, it will lock up OpenOCD. I usually
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oad nuttx twice, restarting OpenOCD in between in order to assure
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good FLASH contents:
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(gdb) mon halt
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(gdb) load nuttx
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(gdb) mon reset
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Exit GDB, kill the OpenOCD server, recycle power on the board,
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restart the OpenOCD server and GDB, then:
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(gdb) mon halt
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(gdb) load nuttx
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(gdb) mon reset
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Other debuggers may not have these issues and such drastic steps may
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not be necessary.
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Loading Code with the ISP Board
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===============================
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Users can also load code onto the board using a built-in or external UART
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to USB adapter on UART0. I use the FlashMagic program for Windows available
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here: http://www.flashmagictool.com/ . It is so easy to use that no further
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explanation should be necessary: Just select the LPC4088, the ISP COM
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port, and the NuttX .hex file and program it.
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CONFIGURATION
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=============
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Information Common to All Configurations
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----------------------------------------
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1. These configurations use the mconf-based configuration tool. To
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change this configuration using that tool, you should:
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a. Build and install the kconfig-mconf tool. See nuttx/README.txt
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see additional README.txt files in the NuttX tools repository
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README.txt.
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b. Execute 'make menuconfig' in nuttx/ in order to start the
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reconfiguration process.
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2. Most (but not all) configurations use the "GNU Tools for ARM
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Embedded Processors" that is maintained by ARM:
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https://developer.arm.com/open-source/gnu-toolchain/gnu-rm
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unless otherwise stated.
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That toolchain selection can easily be reconfigured using
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'make menuconfig'. Here are the relevant current settings:
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Build Setup:
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CONFIG_HOST_WINDOWS=y : Window environment
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CONFIG_WINDOWS_CYGWIN=y : Cywin under Windows
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System Type -> Toolchain:
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CONFIG_ARMV7M_TOOLCHAIN_GNU_EABIW=y : GNU ARM EABI toolchain
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3. By Default, UART0 is used as the serial console in all configurations.
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This may be connected to your computer via an external RS-232 driver or
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via the onboard MBED interface. See the section above entitled
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"Serial Console" for other options.
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4. An LCD is available for this board, but I don't have one to test with.
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If you wish to use any of the configurations below which utilize the LCD,
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you will need to tweak the LCD pin definitions in board.h.
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Configuration Directories
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-------------------------
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knsh
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----
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This is identical to the nsh configuration below except that NuttX
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is built as a kernel-mode, monolithic module and the user applications
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2020-02-23 09:50:23 +01:00
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are built separately. Is is recommended to use a special make command;
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2019-07-11 18:50:00 +02:00
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not just 'make' but make with the following two arguments:
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make pass1 pass2
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In the normal case (just 'make'), make will attempt to build both user-
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and kernel-mode blobs more or less interleaved. This actual works!
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However, for me it is very confusing so I prefer the above make command:
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Make the user-space binaries first (pass1), then make the kernel-space
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binaries (pass2)
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1. Uses the older, OABI, buildroot toolchain. But that is easily
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reconfigured:
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CONFIG_ARMV7M_TOOLCHAIN_BUILDROOT=y : Buildroot toolchain
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CONFIG_ARMV7M_OABI_TOOLCHAIN=y : Older, OABI toolchain
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2. At the end of the build, there will be several files in the top-level
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NuttX build directory:
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PASS1:
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nuttx_user.elf - The pass1 user-space ELF file
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nuttx_user.hex - The pass1 Intel HEX format file (selected in defconfig)
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User.map - Symbols in the user-space ELF file
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PASS2:
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nuttx - The pass2 kernel-space ELF file
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nuttx.hex - The pass2 Intel HEX file (selected in defconfig)
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System.map - Symbols in the kernel-space ELF file
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Loading these .elf files with OpenOCD is tricky. It appears to me
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that when nuttx_user.elf is loaded, it destroys the nuttx image
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in FLASH. But loading the nuttx ELF does not harm the nuttx_user.elf
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in FLASH. Conclusion: Always load nuttx_user.elf before nuttx.
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Just to complicate matters, it is sometimes the case that you need
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load objects twice to account for write failures. I have not yet
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found a simple foolproof way to reliably get the code into FLASH.
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3. Combining .hex files. If you plan to use the .hex files with your
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debugger or FLASH utility, then you may need to combine the two hex
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files into a single .hex file. Here is how you can do that.
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a. The 'tail' of the nuttx.hex file should look something like this
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(with my comments added):
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$ tail nuttx.hex
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# 00, data records
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...
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:10 9DC0 00 01000000000800006400020100001F0004
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:10 9DD0 00 3B005A0078009700B500D400F300110151
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:08 9DE0 00 30014E016D0100008D
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# 05, Start Linear Address Record
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:04 0000 05 0800 0419 D2
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# 01, End Of File record
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:00 0000 01 FF
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Use an editor such as vi to remove the 05 and 01 records.
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b. The 'head' of the nuttx_user.hex file should look something like
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this (again with my comments added):
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$ head nuttx_user.hex
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# 04, Extended Linear Address Record
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:02 0000 04 0801 F1
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# 00, data records
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:10 8000 00 BD89 01084C800108C8110208D01102087E
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:10 8010 00 0010 00201C1000201C1000203C16002026
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:10 8020 00 4D80 01085D80010869800108ED83010829
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...
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Nothing needs to be done here. The nuttx_user.hex file should
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be fine.
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c. Combine the edited nuttx.hex and un-edited nuttx_user.hex
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file to produce a single combined hex file:
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$ cat nuttx.hex nuttx_user.hex >combined.hex
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Then use the combined.hex file with the to write the FLASH image.
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If you do this a lot, you will probably want to invest a little time
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to develop a tool to automate these steps.
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STATUS:
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2019-04-23: Untested with LPC4088.
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nsh
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---
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Configures the NuttShell (nsh) located at examples/nsh. The
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Configuration enables only the serial NSH interface.
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NOTES:
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1. Uses the older, OABI, buildroot toolchain. But that is easily
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reconfigured:
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CONFIG_ARMV7M_TOOLCHAIN_BUILDROOT=y : Buildroot toolchain
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CONFIG_ARMV7M_OABI_TOOLCHAIN=y : Older, OABI toolchain
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2. This NSH has support for built-in applications enabled, however,
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no built-in configurations are built in the defulat configuration.
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3. This configuration has DMA-based SD card support enabled by
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default. That support can be disabled as follow:
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CONFIG_LPC17_40_GPDMA=n : No DMA
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CONFIG_ARCH_DMA=n
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CONFIG_LPC17_40_SDCARD=n : No SD card driver
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CONFIG_SDIO_DMA=n : No SD card DMA
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CONFIG_MMCSD=n : No MMC/SD driver support
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CONFIG_FS_FAT=n : No FAT file system support
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4. This configuration has been used for verifying SDRAM by modifying
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the configuration in the following ways:
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CONFIG_LPC17_40_EMC=y : Enable the EMC
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CONFIG_LPC17_40_EXTDRAM=y : Configure external DRAM
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CONFIG_LPC17_40_EXTDRAMSIZE=67108864 : DRAM size 2x256/8 = 64MB
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CONFIG_SYSTEM_RAMTEST=y : Enable the RAM test built-in
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In this configuration, the SDRAM is not added to heap and so is
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not excessible to the applications. So the RAM test can be
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freely executed against the SRAM memory beginning at address
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0xa000:0000 (CS0).
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6. This configuration has been used for verifying the touchscreen on
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on the 4.3" LCD module.
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a) As of this writing, this touchscreen is still not functional.
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Rommel Marcelo has tracked this problem down to noise on the
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PENIRQ interrupt. There are so many false interrupts that
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the NuttX interrupt-driven touchscreen driver cannot be used.
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Other compatible LCDs, however, may not have this issue.
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b) You can enable the touchscreen by modifying the configuration
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in the following ways:
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Drivers:
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CONFIG_INPUT=y : Enable support for input devices
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CONFIG_INPUT_ADS7843E=y : Enable support for the XPT2048
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CONFIG_ADS7843E_SPIDEV=1 : Use SSP1 for communication
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CONFIG_SPI=y : Enable SPI support
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CONFIG_SPI_EXCHANGE=n : exchange() method is not supported
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System Type:
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CONFIG_LPC17_40_GPIOIRQ=y : GPIO interrupt support
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CONFIG_LPC17_40_SSP1=y : Enable support for SSP1
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Library Support:
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CONFIG_SCHED_WORKQUEUE=y : Work queue support required
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2020-02-23 09:50:23 +01:00
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Application Configuration:
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2019-07-11 18:50:00 +02:00
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CONFIG_EXAMPLES_TOUCHSCREEN=y : Enable the touchscreen built-int test
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Defaults should be okay for related touchscreen settings. Touchscreen
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debug output can be enabled with:
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Build Setup:
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CONFIG_DEBUG_FEATURES=y : Enable debug features
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CONFIG_DEBUG_INFO=y : Enable verbose debug output
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CONFIG_DEBUG_INPUT=y : Enable debug output from input devices
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c) You will also have to disable SD card support to use this test. The
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SD card detect (CD) signal is on P0[13]. This signal is shared. It
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is also used for MOSI1 and USB_UP_LED. The CD pin may be disconnected.
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There is a jumper on board that enables the CD pin. OR, you can simply
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remove the SD module so that it does not drive the CD pin.
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Drivers:
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CONFIG_MMCSD=n : No MMC/SD driver support
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System Type:
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CONFIG_LPC17_40_GPDMA=n : No DMA
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CONFIG_LPC17_40_SDCARD=n : No SD card driver
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CONFIG_SDIO_DMA=n : No SD card DMA
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CONFIG_ARCH_DMA=n
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File Systems:
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CONFIG_FS_FAT=n : No FAT file system support
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For touchscreen debug output:
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Build Setup:
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CONFIG_DEBUG_FEATURES=y
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CONFIG_DEBUG_INFO=y
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CONFIG_DEBUG_INPUT=y
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