544 lines
20 KiB
Plaintext
544 lines
20 KiB
Plaintext
README.txt
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==========
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This README file discuss discusses the port of NuttX to the Texas
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Instruments DK-TM4C129x Connected Development Kit.
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Description
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-----------
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The Tiva™ C Series TM4C129x Connected Development Kit highlights
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the 120-MHz Tiva C Series TM4C129XNCZAD ARM® Cortex™-M4 based
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microcontroller, including an integrated 10/100 Ethernet MAC +
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PHY as well as many other key features.
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Features
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--------
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- Color LCD interface
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- USB 2.0 OTG | Host | Device port
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- TI wireless EM connection
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- BoosterPack and BoosterPack XL interfaces
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- Quad SSI-supported 512-Mbit Flash memory
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- MicroSD slot
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- Expansion interface headers: MCU high-speed USB ULPI port,
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Ethernet RMII and MII ports External peripheral interface for
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memories, parallel peripherals, and other system functions.
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- In-Circuit Debug Interface (ICDI)
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Using OpenOCD and GDB with ICDI
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===============================
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Building OpenOCD under Cygwin:
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Refer to configs/olimex-lpc1766stk/README.txt
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Installing OpenOCD in Linux:
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sudo apt-get install openocd
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You can also build openocd from its source:
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git clone http://git.code.sf.net/p/openocd/code openocd
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cd openocd
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Helper Scripts:
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I have been using the on-board In-Circuit Debug Interface (ICDI) interface.
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OpenOCD requires a configuration file. I keep the one I used last here:
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configs/dk-tm4c129x/tools/dk-tm4c129x.cfg
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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 dk-tm4c129x.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/board/dk-tm4c129x.cfg
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/usr/local/share/openocd/scripts/interface/ti-icdi.cfg
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/usr/local/share/openocd/scripts/target/stellaris_icdi.cfg
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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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configs/dk-tm4c129x/tools/dk-tm4c129x.cfg
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Starting OpenOCD
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If you are in the top-level NuttX build directlory then you should
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be able to start the OpenOCD daemon like:
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oocd.sh $PWD
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The relative path to the oocd.sh script is configs/dk-tm4c129x/tools,
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but that should have been added to your PATH variable when you sourced
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the setenv.sh script.
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Note that OpenOCD needs to be run with administrator privileges in
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some environments (sudo).
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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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After starting GDB, you can load the NuttX ELF file:
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(gdb) symbol-file nuttx
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(gdb) monitor reset
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(gdb) monitor halt
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(gdb) load nuttx
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NOTES:
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1. Loading the symbol-file is only useful if you have built NuttX to
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include debug symbols (by setting CONFIG_DEBUG_SYMBOLS=y in the
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.config file).
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2. The MCU must be halted prior to loading code using 'mon reset'
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as described below.
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OpenOCD will support several special 'monitor' commands. These
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GDB commands will send comments to the OpenOCD monitor. Here
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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 'mon halt' prior to loading code.
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2. 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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Development Environment
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=======================
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Either Linux or Cygwin on Windows can be used for the development environment.
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The source has been built only using the GNU toolchain (see below). Other
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toolchains will likely cause problems. Testing was performed using the Cygwin
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environment.
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GNU Toolchain Options
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=====================
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The NuttX make system has been modified to support the following different
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toolchain options.
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1. The NuttX buildroot Toolchain (default, see below),
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2. The CodeSourcery GNU toolchain,
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3. The devkitARM GNU toolchain,
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4. The Atollic toolchain, or
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5. The Code Red toolchain
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All testing has been conducted using the Buildroot toolchain for Cygwin/Linux.
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To use a different toolchain, you simply need to add one of the following
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configuration options to your .config (or defconfig) file:
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CONFIG_ARMV7M_TOOLCHAIN_BUILDROOT=y : NuttX buildroot under Linux or Cygwin (default)
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CONFIG_ARMV7M_TOOLCHAIN_CODESOURCERYW=y : CodeSourcery under Windows or Cygwin
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CONFIG_ARMV7M_TOOLCHAIN_CODESOURCERYL=y : CodeSourcery under Linux
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CONFIG_ARMV7M_TOOLCHAIN_DEVKITARM=y : The Atollic toolchain under Windows or Cygwin
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CONFIG_ARMV7M_TOOLCHAIN_CODEREDW=y : The Code Red toolchain under Windows
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CONFIG_ARMV7M_TOOLCHAIN_CODEREDL=y : The Code Red toolchain under Linux
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CONFIG_ARMV7M_OABI_TOOLCHAIN=y : If you use an older, OABI buildroot toolchain
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If you change the default toolchain, then you may also have to modify the PATH in
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the setenv.h file if your make cannot find the tools.
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NOTE: the CodeSourcery (for Windows), Atollic, devkitARM, and Code Red (for Windows)
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toolchains are Windows native toolchains. The CodeSourcey (for Linux) and NuttX
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buildroot toolchains are Cygwin and/or Linux native toolchains. There are several
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limitations to using a Windows based toolchain in a Cygwin environment. The three
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biggest are:
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1. The Windows toolchain cannot follow Cygwin paths. Path conversions are
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performed automatically in the Cygwin makefiles using the 'cygpath' utility
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but you might easily find some new path problems. If so, check out 'cygpath -w'
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2. Windows toolchains cannot follow Cygwin symbolic links. Many symbolic links
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are used in Nuttx (e.g., include/arch). The make system works around these
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problems for the Windows tools by copying directories instead of linking them.
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But this can also cause some confusion for you: For example, you may edit
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a file in a "linked" directory and find that your changes had no effect.
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That is because you are building the copy of the file in the "fake" symbolic
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directory. If you use a Windows toolchain, you should get in the habit of
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making like this:
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make clean_context all
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An alias in your .bashrc file might make that less painful.
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3. Dependencies are not made when using Windows versions of the GCC. This is
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because the dependencies are generated using Windows pathes which do not
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work with the Cygwin make.
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MKDEP = $(TOPDIR)/tools/mknulldeps.sh
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NOTE 1: The CodeSourcery toolchain (2009q1) did not work with default optimization
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level of -Os (See Make.defs). It will work with -O0, -O1, or -O2, but not with
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-Os. I have not seen this problem with current toolchains.
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NOTE 2: The devkitARM toolchain includes a version of MSYS make. Make sure that
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the paths to Cygwin's /bin and /usr/bin directories appear BEFORE the devkitARM
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path or will get the wrong version of make.
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IDEs
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====
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NuttX is built using command-line make. It can be used with an IDE, but some
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effort will be required to create the project.
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Makefile Build
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--------------
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Under Eclipse, it is pretty easy to set up an "empty makefile project" and
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simply use the NuttX makefile to build the system. That is almost for free
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under Linux. Under Windows, you will need to set up the "Cygwin GCC" empty
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makefile project in order to work with Windows (Google for "Eclipse Cygwin" -
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there is a lot of help on the internet).
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Native Build
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------------
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Here are a few tips before you start that effort:
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1) Select the toolchain that you will be using in your .config file
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2) Start the NuttX build at least one time from the Cygwin command line
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before trying to create your project. This is necessary to create
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certain auto-generated files and directories that will be needed.
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3) Set up include paths: You will need include/, arch/arm/src/tiva,
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arch/arm/src/common, arch/arm/src/armv7-m, and sched/.
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4) All assembly files need to have the definition option -D __ASSEMBLY__
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on the command line.
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Startup files will probably cause you some headaches. The NuttX startup file
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is arch/arm/src/tiva/tiva_vectors.S.
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NuttX EABI "buildroot" Toolchain
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================================
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A GNU GCC-based toolchain is assumed. The files */setenv.sh should
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be modified to point to the correct path to the Cortex-M3 GCC toolchain (if
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different from the default in your PATH variable).
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If you have no Cortex-M3 toolchain, one can be downloaded from the NuttX
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SourceForge download site (https://sourceforge.net/projects/nuttx/files/buildroot/).
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This GNU toolchain builds and executes in the Linux or Cygwin environment.
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1. You must have already configured Nuttx in <some-dir>/nuttx.
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cd tools
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./configure.sh dk-tm4c129x/<sub-dir>
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2. Download the latest buildroot package into <some-dir>
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3. unpack the buildroot tarball. The resulting directory may
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have versioning information on it like buildroot-x.y.z. If so,
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rename <some-dir>/buildroot-x.y.z to <some-dir>/buildroot.
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4. cd <some-dir>/buildroot
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5. cp configs/cortexm3-eabi-defconfig-4.6.3 .config
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6. make oldconfig
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7. make
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8. Edit setenv.h, if necessary, so that the PATH variable includes
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the path to the newly built binaries.
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See the file configs/README.txt in the buildroot source tree. That has more
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details PLUS some special instructions that you will need to follow if you
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are building a Cortex-M3 toolchain for Cygwin under Windows.
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NOTE: Unfortunately, the 4.6.3 EABI toolchain is not compatible with the
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the NXFLAT tools. See the top-level TODO file (under "Binary loaders") for
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more information about this problem. If you plan to use NXFLAT, please do not
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use the GCC 4.6.3 EABI toochain; instead use the GCC 4.3.3 OABI toolchain.
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See instructions below.
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NuttX OABI "buildroot" Toolchain
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================================
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The older, OABI buildroot toolchain is also available. To use the OABI
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toolchain:
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1. When building the buildroot toolchain, either (1) modify the cortexm3-eabi-defconfig-4.6.3
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configuration to use EABI (using 'make menuconfig'), or (2) use an exising OABI
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configuration such as cortexm3-defconfig-4.3.3
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2. Modify the Make.defs file to use the OABI conventions:
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+CROSSDEV = arm-nuttx-elf-
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+ARCHCPUFLAGS = -mtune=cortex-m3 -march=armv7-m -mfloat-abi=soft
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+NXFLATLDFLAGS2 = $(NXFLATLDFLAGS1) -T$(TOPDIR)/binfmt/libnxflat/gnu-nxflat-gotoff.ld -no-check-sections
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-CROSSDEV = arm-nuttx-eabi-
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-ARCHCPUFLAGS = -mcpu=cortex-m3 -mthumb -mfloat-abi=soft
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-NXFLATLDFLAGS2 = $(NXFLATLDFLAGS1) -T$(TOPDIR)/binfmt/libnxflat/gnu-nxflat-pcrel.ld -no-check-sections
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NXFLAT Toolchain
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================
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If you are *not* using the NuttX buildroot toolchain and you want to use
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the NXFLAT tools, then you will still have to build a portion of the buildroot
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tools -- just the NXFLAT tools. The buildroot with the NXFLAT tools can
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be downloaded from the NuttX SourceForge download site
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(https://sourceforge.net/projects/nuttx/files/).
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This GNU toolchain builds and executes in the Linux or Cygwin environment.
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1. You must have already configured Nuttx in <some-dir>/nuttx.
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cd tools
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./configure.sh dk-tm4c129x/<sub-dir>
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2. Download the latest buildroot package into <some-dir>
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3. unpack the buildroot tarball. The resulting directory may
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have versioning information on it like buildroot-x.y.z. If so,
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rename <some-dir>/buildroot-x.y.z to <some-dir>/buildroot.
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4. cd <some-dir>/buildroot
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5. cp configs/cortexm3-defconfig-nxflat .config
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6. make oldconfig
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7. make
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8. Edit setenv.h, if necessary, so that the PATH variable includes
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the path to the newly builtNXFLAT binaries.
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Buttons and LEDs
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================
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Buttons
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-------
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There are three push buttons on the board.
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--- ------------ -----------------
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Pin Pin Function Jumper
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--- ------------ -----------------
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PP1 Select SW4 J37 pins 1 and 2
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PN3 Up SW2 J37 pins 3 and 4
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PE5 Down SW3 J37 pins 5 and 6
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--- ------------ -----------------
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LEDs
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----
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The development board has one tri-color user LED.
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--- ------------ -----------------
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Pin Pin Function Jumper
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--- ------------ -----------------
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PN5 Red LED J36 pins 1 and 2
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PQ4 Blue LED J36 pins 3 and 4
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PQ7 Green LED J36 pins 5 and 6
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--- ------------ -----------------
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If CONFIG_ARCH_LEDS is not defined, this LED is not used by the NuttX
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logic. APIs are provided to support application control of the LED in
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that case (in include/board.h and src/tm4c_userleds.c).
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If CONFIG_ARCH_LEDS is defined then the usage of the LEDs by Nuttx is
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defined in include/board.h and src/tm4c_autoleds.c. The LEDs are used to
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encode OS-related events as follows:
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SYMBOL Meaning LED state
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------------------- ----------------------- -------- --------
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LED_STARTED NuttX has been started Blue
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LED_HEAPALLOCATE Heap has been allocated (No change)
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LED_IRQSENABLED Interrupts enabled (No change)
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LED_STACKCREATED Idle stack created Green
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LED_INIRQ In an interrupt (No change)
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LED_SIGNAL In a signal handler (No change)
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LED_ASSERTION An assertion failed (No change)
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LED_PANIC The system has crashed Blinking OFF/RED
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LED_IDLE MCU is is sleep mode (Not used)
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Thus if the LED is GREEN then NuttX has successfully booted and is,
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apparently, running normally. If the LED is flashing OFF/RED at
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approximately 2Hz, then a fatal error has been detected and the
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system has halted.
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Serial Console
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==============
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By default, all configurations use UART0 which connects to the USB VCOM
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on the DEBUG port on the TM4C123 ICDI interface:
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UART0 RX - PA.0
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UART0 TX - PA.1
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However, if you use an external RS232 driver, then other options are
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available. If your serial terminal loses connection with the USB serial
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port each time you power cycle the board, the VCOM option can be very
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painful.
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UART0 TTL level signals are also available at J3 (also at J1):
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DEBUG_TX - J3, pin 13. Labelled PA1
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DEBUG_RX - J3, pin 15. Labelled PA0
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Remove the jumper between pins 13-14 and 15-16 to disconnect UART0 from
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the TM4C123 ICDI chip; Connect your external RS-232 driver at pins 13
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and 16. 5v, 3.3v, AND GND are arvailable nearby at J10.
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DK-TM4129X Configuration Options
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================================
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CONFIG_ARCH - Identifies the arch/ subdirectory. This should
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be set to:
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CONFIG_ARCH=arm
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CONFIG_ARCH_family - For use in C code:
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CONFIG_ARCH_ARM=y
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CONFIG_ARCH_architecture - For use in C code:
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CONFIG_ARCH_CORTEXM4=y
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CONFIG_ARCH_CHIP - Identifies the arch/*/chip subdirectory
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CONFIG_ARCH_CHIP="tiva"
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CONFIG_ARCH_CHIP_name - For use in C code to identify the exact
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chip:
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CONFIG_ARCH_CHIP_TM4C129XNC
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CONFIG_ARCH_BOARD - Identifies the configs subdirectory and
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hence, the board that supports the particular chip or SoC.
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CONFIG_ARCH_BOARD=dk-tm4c129x (for the DK-TM4129X)
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CONFIG_ARCH_BOARD_name - For use in C code
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CONFIG_ARCH_BOARD_DK_TM4C129X
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CONFIG_ARCH_LOOPSPERMSEC - Must be calibrated for correct operation
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of delay loops
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CONFIG_ENDIAN_BIG - define if big endian (default is little
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endian)
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CONFIG_RAM_SIZE - Describes the installed DRAM (SRAM in this case):
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CONFIG_RAM_SIZE=0x00008000 (32Kb)
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CONFIG_RAM_START - The start address of installed DRAM
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CONFIG_RAM_START=0x20000000
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CONFIG_ARCH_LEDS - Use LEDs to show state. Unique to boards that
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have LEDs
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CONFIG_ARCH_INTERRUPTSTACK - This architecture supports an interrupt
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stack. If defined, this symbol is the size of the interrupt
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stack in bytes. If not defined, the user task stacks will be
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used during interrupt handling.
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CONFIG_ARCH_STACKDUMP - Do stack dumps after assertions
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CONFIG_ARCH_LEDS - Use LEDs to show state. Unique to board architecture.
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CONFIG_ARCH_CALIBRATION - Enables some build in instrumentation that
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cause a 100 second delay during boot-up. This 100 second delay
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serves no purpose other than it allows you to calibratre
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CONFIG_ARCH_LOOPSPERMSEC. You simply use a stop watch to measure
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the 100 second delay then adjust CONFIG_ARCH_LOOPSPERMSEC until
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the delay actually is 100 seconds.
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There are configurations for disabling support for interrupts GPIO ports.
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Only GPIOP and GPIOQ pins can be used as interrupting sources on the
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TM4C129x. Additional interrupt support can be disabled if desired to
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reduce memory footprint.
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CONFIG_TIVA_GPIOP_IRQS=y
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CONFIG_TIVA_GPIOQ_IRQS=y
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TM4C129x specific device driver settings
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CONFIG_UARTn_SERIAL_CONSOLE - selects the UARTn for the
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console and ttys0 (default is the UART0).
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CONFIG_UARTn_RXBUFSIZE - Characters are buffered as received.
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This specific the size of the receive buffer
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CONFIG_UARTn_TXBUFSIZE - Characters are buffered before
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being sent. This specific the size of the transmit buffer
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CONFIG_UARTn_BAUD - The configure BAUD of the UART. Must be
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CONFIG_UARTn_BITS - The number of bits. Must be either 7 or 8.
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CONFIG_UARTn_PARTIY - 0=no parity, 1=odd parity, 2=even parity
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CONFIG_UARTn_2STOP - Two stop bits
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CONFIG_TIVA_SSI0 - Select to enable support for SSI0
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CONFIG_TIVA_SSI1 - Select to enable support for SSI1
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CONFIG_SSI_POLLWAIT - Select to disable interrupt driven SSI support.
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|
Poll-waiting is recommended if the interrupt rate would be to
|
|
high in the interrupt driven case.
|
|
CONFIG_SSI_TXLIMIT - Write this many words to the Tx FIFO before
|
|
emptying the Rx FIFO. If the SPI frequency is high and this
|
|
value is large, then larger values of this setting may cause
|
|
Rx FIFO overrun errors. Default: half of the Tx FIFO size (4).
|
|
|
|
CONFIG_TIVA_ETHERNET - This must be set (along with CONFIG_NET)
|
|
to build the Tiva Ethernet driver
|
|
CONFIG_TIVA_ETHLEDS - Enable to use Ethernet LEDs on the board.
|
|
CONFIG_TIVA_BOARDMAC - If the board-specific logic can provide
|
|
a MAC address (via tiva_ethernetmac()), then this should be selected.
|
|
CONFIG_TIVA_ETHHDUPLEX - Set to force half duplex operation
|
|
CONFIG_TIVA_ETHNOAUTOCRC - Set to suppress auto-CRC generation
|
|
CONFIG_TIVA_ETHNOPAD - Set to suppress Tx padding
|
|
CONFIG_TIVA_MULTICAST - Set to enable multicast frames
|
|
CONFIG_TIVA_PROMISCUOUS - Set to enable promiscuous mode
|
|
CONFIG_TIVA_BADCRC - Set to enable bad CRC rejection.
|
|
CONFIG_TIVA_DUMPPACKET - Dump each packet received/sent to the console.
|
|
|
|
Configurations
|
|
==============
|
|
|
|
Each DK-TM4129X configuration is maintained in a
|
|
sub-directory and can be selected as follow:
|
|
|
|
cd tools
|
|
./configure.sh dk-tm4c129x/<subdir>
|
|
cd -
|
|
. ./setenv.sh
|
|
|
|
Where <subdir> is one of the following:
|
|
|
|
nsh:
|
|
---
|
|
Configures the NuttShell (nsh) located at apps/examples/nsh. The
|
|
configuration enables the serial VCOM interfaces on UART0. Support for
|
|
builtin applications is enabled, but in the base configuration no
|
|
builtin applications are selected.
|
|
|
|
NOTES:
|
|
|
|
1. This configuration uses the mconf-based configuration tool. To
|
|
change this configuration using that tool, you should:
|
|
|
|
a. Build and install the kconfig-mconf tool. See nuttx/README.txt
|
|
and misc/tools/
|
|
|
|
b. Execute 'make menuconfig' in nuttx/ in order to start the
|
|
reconfiguration process.
|
|
|
|
2. By default, this configuration uses the CodeSourcery toolchain
|
|
for Windows and builds under Cygwin (or probably MSYS). That
|
|
can easily be reconfigured, of course.
|
|
|
|
CONFIG_HOST_LINUX=y : Linux (Cygwin under Windows okay too).
|
|
CONFIG_ARMV7M_TOOLCHAIN_BUILDROOT=y : Buildroot (arm-nuttx-elf-gcc)
|
|
CONFIG_RAW_BINARY=y : Output formats: ELF and raw binary
|