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README ^^^^^^ o Installation - Installing Cygwin - Download and Unpack - Semi-Optional apps/ Package - Installation Directories with Spaces in the Path - Notes about Header Files o Configuring NuttX - Instantiating "Canned" Configurations - NuttX Configuration Tool o Toolchains - Cross-Development Toolchains - NuttX Buildroot Toolchain o Shells o Building NuttX - Building - Re-building - Build Targets and Options - Native Windows Build - Installing GNUWin32 o Cygwin Build Problems - Strange Path Problems - Window Native Toolchain Issues o Documentation INSTALLATION ^^^^^^^^^^^^ Installing Cygwin ----------------- NuttX may be installed and built on a Linux system or on a Windows system if Cygwin is installed. Installing Cygwin on your Windows PC is simple, but time consuming. See http://www.cygwin.com/ for installation instructions. Basically you just need to download a tiny setup.exe program and it does the real, internet installation for you. Some Cygwin installation tips: 1. Install at C:\cygwin 2. Install EVERYTHING: "Only the minimal base packages from the Cygwin distribution are installed by default. Clicking on categories and packages in the setup.exe package installation screen will provide you with the ability to control what is installed or updated. Clicking on the "Default" field next to the "All" category will provide you with the opportunity to install every Cygwin package. Be advised that this will download and install hundreds of megabytes to your computer." If you use the "default" installation, you will be missing many of the Cygwin utilities that you will need to build NuttX. The build will fail in numerous places because of missing packages. After installing Cygwin, you will get lots of links for installed tools and shells. I use the RXVT native shell. It is fast and reliable and does not require you to run the Cygwin X server (which is neither fast nor reliable). The rest of these instructions assume that you are at a bash command line prompt in either Linux or in Cygwin shell. Download and Unpack ------------------- Download and unpack the NuttX tarball. If you are reading this, then you have probably already done that. After unpacking, you will end up with a directory called nuttx-version (where version is the NuttX version number). You might want to rename that directory nuttx to match the various instructions in the documentation and some scripts in the source tree. Semi-Optional apps/ Package --------------------------- All NuttX libraries and example code used to be in included within the NuttX source tree. As of NuttX-6.0, this application code was moved into a separate tarball, the apps tarball. If you are just beginning with NuttX, then you will want to download the versioned apps tarball along with the NuttX tarball. If you already have your own product application directory, then you may not need the apps tarball. It is call "Semi-optional" because if you don't have some apps/ directory, NuttX will *fail* to build! Download the unpack the apps tarball in the same directly where you unpacked the NuttX tarball. After you unpack the apps tarball, you will have a new directory called apps-version (where the version should exactly match the version of the NuttX tarball). Again, you might want to rename the directory to simply apps/ to match what you read in the documentation After unpacking the apps tarball, you will have two directories side by side like this: | +----+----+ | | nuttx/ apps/ This is important because the NuttX build will expect to find the apps directory in that (default) location. )That default location can be changed by editing your NuttX configuration file, but that is another story). Installation Directories with Spaces in the Path ------------------------------------------------ The nuttx build directory should reside in a path that contains no spaces in any higher level directory name. For example, under Cygwin, your home directory might be formed from your first and last names like: "/home/First Last". That will cause strange errors when the make system tries to build. [Actually, that problem is probably not to difficult to fix. Some Makefiles probably just need some paths within double quotes] I work around spaces in the home directory name, by creating a new directory that does not contain any spaces, such as /home/nuttx. Then I install NuttX in /home/nuttx and always build from /home/nuttx/nuttx-code. Notes about Header Files ------------------------ Other C-Library Header Files. Some toolchains are built with header files extracted from a C-library distribution (such as newlib). These header files must *not* be used with NuttX because NuttX provides its own, built-in C-Library. For toolchains that do include built-in header files from a foreign C- Library, NuttX must be compiled without using the standard header files that are distributed with your toolchain. This prevents including conflicting, incompatible header files (such as stdio.h). Header Files Provided by Your Toolchain. Certain header files, such as setjmp.h, stdarg.h, and math.h, may still be needed from your toolchain and your compiler may not, however, be able to find these if you compile NuttX without using standard header file. If that is the case, one solution is to copy those header file from your toolchain into the NuttX include directory. Duplicated Header Files. There are also a few header files that can be found in the nuttx/include directory which are duplicated by the header files from your toolchain. stdint.h and stdbool.h are examples. If you prefer to use the stdint.h and stdbool.h header files from your toolchain, those could be copied into the nuttx/include/ directory. Using most other header files from your toolchain would probably cause errors. math.h Even though you should not use a foreign C-Library, you may still need to use other, external libraries with NuttX. In particular, you may need to use the math library, libm.a. NuttX supports a generic, built-in math library that can be enabled using CONFIG_LIBM=y. However, you may still want to use a higher performance external math library that has been tuned for your CPU. Sometimes such such tuned math libraries are bundled with your toolchain. The math libary header file, math.h, is a then special case. If you do nothing, the standard math.h header file that is provided with your toolchain will be used. If you have a custom, architecture specific math.h header file, then that header file should be placed at arch/<cpu>/include/math.h. There is a stub math.h header file located at include/nuttx/math.h. This stub header file can be used to "redirect" the inclusion to an architecture- specific math.h header file. If you add an architecture specific math.h header file then you should also define CONFIG_ARCH_MATH_H=y in your NuttX Configuration file. If CONFIG_ARCH_MATH_H is selected, then the top-level Makefile will copy the stub math.h header file from include/nuttx/matn.h to include/math.h where it will become the system math.h header file. The stub math.h header file does nothing other than to include that archicture-specific math.h header file as the system math.h header file. float.h If you enable the generic, built-in math library, then that math library will expect your toolchain to provide the standard float.h header file. The float.h header file defines the properties of your floating point implementation. It would always be best to use your toolchain's float.h header file but if none is avaiable, a default float.h header file will provided if this option is selected. However, there is no assurance that the settings in this float.h are actually correct for your platform! stdarg.h In most cases, the correct version of stdarg.h is the version provided with your toolchain. However, sometimes there are issues with with using your toolchains stdarg.h. For example, it may attempt to draw in header files that do not exist in NuttX or perhaps the header files that is uses are not compatible with the NuttX header files. In those cases, you can use an architecture-specific stdarg.h header file by defining CONFIG_ARCH_STDARG_H=y. See the discussion above for the math.h header. This setting works exactly the same for the stdarg.h header file. CONFIGURING NUTTX ^^^^^^^^^^^^^^^^^ Instantiating "Canned" Configurations ------------------------------------- "Canned" NuttX configuration files are retained in: configs/<board-name>/<config-dir> Where <board-name> is the name of your development board and <config-dir>. Configuring NuttX requires only copying three files from the <config-dir> to the directory where you installed NuttX (TOPDIR) (and sometimes one additional file to the directory the NuttX application package (APPSDIR)): Copy configs/<board-name>/<config-dir>/Make.def to ${TOPDIR}/Make.defs Make.defs describes the rules needed by you tool chain to compile and link code. You may need to modify this file to match the specific needs of your toolchain. Copy configs/<board-name>/<config-dir>/setenv.sh to ${TOPDIR}/setenv.sh setenv.sh is an optional convenience file that I use to set the PATH variable to the toolchain binaries. You may chose to use setenv.sh or not. If you use it, then it may need to be modified to include the path to your toolchain binaries. Copy configs/<board-name>/<config-dir>/defconfig to ${TOPDIR}/.config The defconfig file holds the actual build configuration. This file is included by all other make files to determine what is included in the build and what is not. This file is also used to generate a C configuration header at include/nuttx/config.h. Copy configs/<board-name>/<config-dir>/appconfig to ${APPSDIR}/.config The appconfig file describes the applications that need to be built in the appliction directory (APPSDIR). Not all configurations have an appconfig file. This file is deprecated and will not be used with new defconfig files produced with the mconf configuration tool. General information about configuring NuttX can be found in: ${TOPDIR}/configs/README.txt ${TOPDIR}/configs/<board-name>/README.txt There is a configuration script in the tools/ directory that makes this easier. It is used as follows: cd ${TOPDIR}/tools ./configure.sh <board-name>/<config-dir> NuttX Configuration Tool ------------------------ An automated tool is under development to support re-configuration of NuttX. This tool, however, is not yet quite ready for general usage. This automated tool is based on the kconfig-frontends application available at http://ymorin.is-a-geek.org/projects/kconfig-frontends (A snapshot of this tool is also available at ../misc/tools). This application provides a tool called 'mconf' that is used by the NuttX top-level Makefile. The following make target is provided: make menuconfig This make target will bring up NuttX configuration menus. The 'menuconfig' target depends on two things: 1. The Kconfig configuration data files that appear in almost all NuttX directories. These data files are the part that is still under development (patches are welcome!). The Kconfig files contain configuration information for the configuration settings relevant to the directory in which the Kconfig file resides. NOTE: For a description of the syntax of this configuration file, see ../misc/tools/kconfig-language.txt. 2. The 'mconf' tool. 'mconf' is part of the kconfig-frontends package. You can download that package from the website http://ymorin.is-a-geek.org/projects/kconfig-frontends or you can use the snapshot in ../misc/tools. Building may be as simple as 'configure; make; make install' but there may be some build complexities, especially if you are building under Cygwin. See the more detailed build instructions at ../misc/tools/README.txt The 'make install' step will, by default, install the 'mconf' tool at /usr/local/bin/mconf. Where ever you choose to install 'mconf', make certain that your PATH variable includes a path to that installation directory. TOOLCHAINS ^^^^^^^^^^ Cross-Development Toolchains ---------------------------- In order to build NuttX for your board, you will have to obtain a cross- compiler to generate code for your target CPU. For each board, configuration, there is a README.txt file (at configs/<board-name>/README.txt). That README file contains suggestions and information about appropriate tools and development environments for use with your board. In any case, the script, setenv.sh that was deposited in the top- level directory when NuttX was configured should be edited to set the path to where you installed the toolchain. The use of setenv.sh is optional but can save a lot of confusion in the future. NuttX Buildroot Toolchain ------------------------- For many configurations, a DIY set of tools is available for NuttX. These tools can be downloaded from the NuttX SourceForge file repository. After unpacking the buildroot tarball, you can find instructions for building the tools in the buildroot/configs/README.txt file. Check the README.txt file in the configuration director for your board to see if you can use the buildroot toolchain with your board (this README.txt file is located in configs/<board-name>/README.txt). This toolchain is available for both the Linux and Cygwin development environments. Advantages: (1) NuttX header files are built into the tool chain, and (2) related support tools like NXFLAT tools and the ROMFS genromfs tools can be built into your toolchain. Disadvantages: This tool chain is not was well supported as some other toolchains. GNU tools are not my priority and so the buildroot tools often get behind. For example, the is still no EABI support in the NuttX buildroot toolchain for ARM. SHELLS ^^^^^^ The NuttX build relies on some shell scripts. Some are inline in the Makefiles and many are exectuble scripts in the tools/. directory. The scripts were all developed using bash and many contain bash shell dependencies. Most of the scripts begin with #!/bin/bash to specifically select the bash shell. Some still have #!/bin/sh but I haven't heard any complaints so these must not have bash dependencies. There are two shell issues that I have heard of: 1. Linux where /bin/sh refers to an incompatible shell (like ksh or csh). In this case, bash is probably avaiable and the #!/bin/bash at the beginning of the file should do the job. If any scripts with #!/bin/sh fail, try changing that ti #!/bin/bash and let me know about the change. 2. FreeBSD with the Bourne Shell and no bash shell. The other, reverse case has also been reported on FreeBSD setups that have the Bourne shell, but not bash. In this base, #!/bin/bash fails but #!/bin/sh works okay. My recommendation in this case is to create a symbolic link at /bin/bash that refers to the Bourne shell. There may still be issues, however, with certain the bash-centric scripts that will require modifications. BUILDING NUTTX ^^^^^^^^^^^^^^ Building -------- NuttX builds in-place in the source tree. You do not need to create any special build directories. Assuming that your Make.defs is setup properly for your tool chain and that setenv.sh contains the path to where your cross-development tools are installed, the following steps are all that are required to build NuttX: cd ${TOPDIR} . ./setenv.sh make At least one configuration (eagle100) requires additional command line arguments on the make command. Read ${TOPDIR}/configs/<board-name>/README.txt to see if that applies to your target. Re-building ----------- Re-building is normally simple -- just type make again. But there are some things that can "get you" when you use the Cygwin development environment with Windows native tools. The native Windows tools do not understand Cygwin's symbolic links, so the NuttX make system does something weird: It copies the configuration directories instead of linking to them (it could, perhaps, use the NTFS 'mklink' command, but it doesn't). A consequence of this is that you can easily get confused when you edit a file in one of the linked (i.e., copied) directories, re-build NuttX, and then not see your changes when you run the program. That is because build is still using the version of the file in the copied directory, not your modified file! To work around this annoying behavior, do the following when you re-build: make clean_context all This 'make' command will remove of the copied directories, re-copy them, then make NuttX. Build Targets and Options ------------------------- Build Targets: Below is a summary of the build targets available in the top-level NuttX Makefile: all The default target builds the NuttX executable in the selected output formats. clean Removes derived object files, archives, executables, and temporary files, but retains the configuration and context files and directories. distclean Does 'clean' then also removes all configuration and context files. This essentially restores the directory structure to its original, unconfigured stated. Application housekeeping targets. The APPDIR variable refers to the user application directory. A sample apps/ directory is included with NuttX, however, this is not treated as part of NuttX and may be replaced with a different application directory. For the most part, the application directory is treated like any other build directory in the Makefile script. However, as a convenience, the following targets are included to support housekeeping functions in the user application directory from the NuttX build directory. apps_clean Perform the clean operation only in the user application directory apps_distclean Perform the distclean operation only in the user application directory. The apps/.config file is preserved so that this is not a "full" distclean but more of a configuration "reset." export The export target will package the NuttX libraries and header files into an exportable package. Caveats: (1) These needs some extension for the KERNEL build. (2) The logic in tools/mkexport.sh only supports GCC and, for example, explicitly assumes that the archiver is 'ar' download This is a helper target that will rebuild NuttX and download it to the target system in one step. The operation of this target depends completely upon implementation of the DOWNLOAD command in the user Make.defs file. It will generate an error an error if the DOWNLOAD command is not defined. The following targets are used internally by the make logic but can be invoked from the command under certain conditions if necessary. depend Create build dependencies. (NOTE: There is currently no support for build dependencies under Cygwin using Windows-native toolchains.) context The context target is invoked on each target build to assure that NuttX is properly configured. The basic configuration steps include creation of the the config.h and version.h header files in the include/nuttx directory and the establishment of symbolic links to configured directories. clean_context This is part of the distclean target. It removes all of the header files and symbolic links created by the context target. Build Options: Of course, the value any make variable an be overriden from the make command line. However, there is one particular variable assignment option that may be useful to you: V=1 This is the build "verbosity flag." If you specify V=1 on the make command line, you will see the exact commands used in the build. This can be very useful when adding new boards or tracking down compile time errors and warnings (Contributed by Richard Cochran). Native Windows Build -------------------- The beginnings of a Windows native build are in place but still not full usable as of this writing. The windows native build logic is currently separate and must be started by: make -f Makefile.win This build: - Uses all Windows style paths - Uses primarily Windows batch commands from cmd.exe, with - A few extensions from GNUWin32 (or MSYS is you prefer) In this build, you cannot use a Cygwin or MSYS shell. Rather the build must be performed in a Windows CMD shell. Here is a better shell than than the standard issue, CMD shell: ConEmu which can be downloaded from: http://code.google.com/p/conemu-maximus5/ Build Tools. The build still relies on some Unix-like commands. I use the GNUWin32 tools that can be downloaded from http://gnuwin32.sourceforge.net/. The MSYS tools are probably also a option but are likely lower performance since they are based on Cygwin 1.3. Host Compiler: I use the MingGW compiler which can be downloaded from http://www.mingw.org/. If you are using GNUWin32, then it is recommended the you not install the optional MSYS components as there may be conflicts. Installing GNUWin32 ------------------- The Windows native build will depend upon a few Unix-like tools that can be provided either by MSYS or GNUWin32. The GNUWin32 are available from http://gnuwin32.sourceforge.net/. GNUWin32 provides ports of tools with a GPL or similar open source license to modern MS-Windows (Microsoft Windows 2000 / XP / 2003 / Vista / 2008 / 7). See http://gnuwin32.sourceforge.net/packages.html for a list of all of the tools available in the GNUWin32 package. The SourceForge project is located here: http://sourceforge.net/projects/gnuwin32/. The project is still being actively supported (although some of the Windows ports have gotten very old). Some commercial toolchains include a subset of the GNUWin32 tools in the installation. My recommendation is that you download the GNUWin32 tools directly from the sourceforge.net website so that you will know what you are using and can reproduce your build environment. GNUWin32 Installation Steps: The following steps will download and execute the GNUWin32 installer. 1. Download GetGNUWin32-x.x.x.exe from http://sourceforge.net/projects/getgnuwin32/files/. This is the installer. The current version as of this writing is 0.6.3. 2. Run the installer. 3. Accept the license. 4. Select the installation directory. My recommendation is the directory that contains this README file (<this-directory>). 5. After running GetGNUWin32-0.x.x.exe, you will have a new directory <this-directory>/GetGNUWin32 Note the the GNUWin32 installer didn't install GNUWin32. Instead, it installed another, smarter downloader. That downloader is the GNUWin32 package management tool developed by the Open SSL project. The following steps probably should be performed from inside a DOS shell. 6. Change to the directory created by GetGNUWin32-x.x.x.exe cd GetGNUWin32 7. Execute the download.bat script. The download.bat script will download about 446 packages! Enough to have a very complete Linux-like environment under the DOS shell. This will take awhile. This step only downloads the packages and the next step will install the packages. download 8. This step will install the downloaded packages. The argument of the install.bat script is the installation location. C:\gnuwin32 is the standard install location: install C:\gnuwin32 NOTE: This installation step will install *all* GNUWin32 packages... far more than you will ever need. If disc space is a problem for you, you might need to perform a manual installation of the individual ZIP files that you will find in the <this directory>/GetGNUWin32/packages directory. CYGWIN BUILD PROBLEMS ^^^^^^^^^^^^^^^^^^^^^ Strange Path Problems --------------------- If you see strange behavior when building under Cygwin then you may have a problem with your PATH variable. For example, if you see failures to locate files that are clearly present, that may mean that you are using the wrong version of a tool. For example, you may not be using Cygwin's 'make' program at /usr/bin/make. Try: $ which make /usr/bin/make When you install some toolchains (such as Yargarto or CodeSourcery tools), they may modify your PATH variable to include a path to their binaries. At that location, they make have GNUWin32 versions of the tools. So you might actually be using a version of make that does not understand Cygwin paths. The solution is either: 1. Edit your PATH to remove the path to the GNUWin32 tools, or 2. Put /usr/local/bin, /usr/bin, and /bin at the front of your path: $ export PATH=/usr/local/bin:/usr/bin:/bin:$PATH Window Native Toolchain Issues ------------------------------ There are many popular Windows native toolchains that may be used with NuttX. Examples include CodeSourcery (for Windows), devkitARM, and several vendor- provied toolchains. There are several limitations with using a and Windows based toolchain in a Cygwin environment. The three biggest are: 1. The Windows toolchain cannot follow Cygwin paths. Path conversions are performed automatically in the Cygwin makefiles using the 'cygpath' utility but you might easily find some new path problems. If so, check out 'cygpath -w' 2. Windows toolchains cannot follow Cygwin symbolic links. Many symbolic links are used in Nuttx (e.g., include/arch). The make system works around these problems for the Windows tools by copying directories instead of linking them. But this can also cause some confusion for you: For example, you may edit a file in a "linked" directory and find that your changes had no effect. That is because you are building the copy of the file in the "fake" symbolic directory. If you use a Windows toolchain, you should get in the habit of making like this: make clean_context all An alias in your .bashrc file might make that less painful. The rebuild is not a long as you might think because there is no dependency checking if you are using a native Windows toolchain. That bring us to #3: 3. Dependencies are not made when using Windows versions of the GCC on a POSIX platform (i.e., Cygwin). This is because the dependencies are generated using Windows paths which do not work with the Cygwin make. MKDEP = $(TOPDIR)/tools/mknulldeps.sh If you are building natively on Windows, then no such conflict exists and the best selection is: MKDEP = $(TOPDIR)/tools/mkdeps.exe General Pre-built Toolchain Issues To continue with the list of "Window Native Toolchain Issues" we can add the following. These, however, are really just issues that you will have if you use any pre-built toolchain (vs. building the NuttX toolchain from the NuttX buildroot package): There may be incompatibilities with header files, libraries, and compiler built-in functions at detailed below. For the most part, these issues are handled in the existing make logic. But if you are breaking new ground, then you may incounter these: 4. Header Files. Most pre-built toolchains will build with a foreign C library (usually newlib, but maybe uClibc or glibc if you are using a Linux toolchain). This means that the header files from the foreign C library will be built into the toolchain. So if you "include <stdio.h>", you will get the stdio.h from the incompatible, foreign C library and not the nuttx stdio.h (at nuttx/include/stdio.h) that you wanted. This can cause really confusion in the buildds and you must always be sure the -nostdinc is included in the CFLAGS. That will assure that you take the include files only from 5. Libraries. What was said above header files applies to libraries. You do not want to include code from the libraries of any foreign C libraries built into your toolchain. If this happens you will get perplexing errors about undefined sysmbols. To avoid these errors, you will need to add -nostdlib to your CFLAGS flags to assure that you only take code from the NuttX libraries. This, however, may causes other issues for libraries in the toolchain that you do want (like libgcc.a or libm.a). These are special-cased in most Makefiles, but you could still run into issues of missing libraries. 6. Built-Ins. Some compilers target a particular operating system. Many people would, for example, like to use the same toolchain to develop Linux and NuttX software. Compilers built for other operating systems may generate incompatible built-in logic and, for this reason, -fno-builtin should also be included in your C flags And finally you may not be able to use NXFLAT. 7. NXFLAT. If you use a pre-built toolchain, you will lose all support for NXFLAT. NXFLAT is a binary format described in Documentation/NuttXNxFlat.html. It may be possible to build standalone versions of the NXFLAT tools; there are a few examples of this in the misc/buildroot/configs directory. However, it is possible that there could be interoperability issues with your toolchain since they will be using different versions of binutials and possibly different ABIs. DOCUMENTATION ^^^^^^^^^^^^^ Additional information can be found in the Documentation/ directory and also in README files that are scattered throughout the source tree. The documentation is in HTML and can be access by loading the following file into your Web browser: Documentation/index.html NuttX documentation is also available online at http://www.nuttx.org. Below is a guide to the available README files in the NuttX source tree: nuttx | |- arch/ | | | |- arm/ | | `- src | | `- lpc214x/README.txt | |- avr/ | | `- README.txt | |- sh/ | | |- include/ | | | |-m16c/README.txt | | | |-sh1/README.txt | | | `-README.txt | | |- src/ | | | |-common/README.txt | | | |-m16c/README.txt | | | |-sh1/README.txt | | | `-README.txt | |- x86/ | | |- include/ | | | `-README.txt | | `- src/ | | `-README.txt | `- z80/ | | `- src/ | | `- z80/README.txt | `- README.txt |- configs/ | |- amber/ | | `- README.txt | |- avr32dev1/ | | `- README.txt | |- c5471evm/ | | |- include/README.txt | | |- src/README.txt | | `- README.txt | |- compal_e88 | | `- README.txt | |- compal_e99 | | `- README.txt | |- demo0s12ne64/ | | `- README.txt | |- ea3131/ | | `- README.txt | |- ea3152/ | | `- README.txt | |- eagle100/ | | |- include/README.txt | | |- src/README.txt | | `- README.txt | |- ekk-lm3s9b96/ | | `- README.txt | |- ez80f910200kitg/ | | |- ostest/README.txt | | `- README.txt | |- ez80f910200zco/ | | |- dhcpd/README.txt | | |- httpd/README.txt | | |- nettest/README.txt | | |- nsh/README.txt | | |- ostest/README.txt | | |- poll/README.txt | | `- README.txt | |- fire-stm32v2/ | | `- README.txt | |- hymini-stm32v/ | | |- include/README.txt | | |- src/README.txt | | `- README.txt | |- lincoln60/ | | `- README.txt | |- kwikstik-k40/ | | `- README.txt | |- lm3s6432-s2e/ | | |- include/README.txt | | |- src/README.txt | | `- README.txt | |- lm3s6965-ek/ | | |- include/README.txt | | |- src/README.txt | | `- README.txt | |- lm3s8962-ek/ | | |- include/README.txt | | |- src/README.txt | | `- README.txt | |- lpcxpresso-lpc1768/ | | `- README.txt | |- lpc4330-xplorer/ | | `- README.txt | |- m68332evb/ | | |- include/README.txt | | `- src/README.txt | |- mbed/ | | `- README.txt | |- mcu123-lpc214x/ | | |- include/README.txt | | |- src/README.txt | | `- README.txt | |- micropendous3/ | | `- README.txt | |- mirtoo/ | | `- README.txt | |- mx1ads/ | | |- include/README.txt | | |- src/README.txt | | `- README.txt | |- ne63badge/ | | `- README.txt | |- ntosd-dm320/ | | |- doc/README.txt | | |- include/README.txt | | |- src/README.txt | | `- README.txt | |- nucleus2g/ | | `- README.txt | |- olimex-lpc1766stk/ | | `- README.txt | |- olimex-lpc2378/ | | |- include/README.txt | | `- README.txt | |- olimex-strp711/ | | |- include/README.txt | | |- src/README.txt | | `- README.txt | |- pcblogic-pic32mx/ | | `- README.txt | |- pic32-starterkit/ | | `- README.txt | |- pjrc-8051/ | | |- include/README.txt | | |- src/README.txt | | `- README.txt | |- qemu-i486/ | | |- include/README.txt | | |- src/README.txt | | `- README.txt | |- rgmp/ | | |- include/README.txt | | |- src/README.txt | | `- README.txt | |- sam3u-ek/ | | `- README.txt | |- sim/ | | |- include/README.txt | | |- src/README.txt | | `- README.txt | |- shenzhou/ | | `- README.txt | |- skp16c26/ | | |- include/README.txt | | |- src/README.txt | | `- README.txt | |- stm3210e-eval/ | | |- include/README.txt | | |- RIDE/README.txt | | |- src/README.txt | | `- README.txt | |- stm3220g-eval/ | | `- README.txt | |- stm3240g-eval/ | | `- README.txt | |- stm32f100rc_generic/ | | `- README.txt | |- stm32f4discovery/ | | `- README.txt | |- sure-pic32mx/ | | `- README.txt | |- teensy/ | | `- README.txt | |- twr-k60n512/ | | `- README.txt | |- us7032evb1/ | | |- bin/README.txt | | |- include/README.txt | | |- src/README.txt | | `- README.txt | |- vsn/ | | |- src/README.txt | | `- README.txt | |- xtrs/ | | |- include/README.txt | | |- src/README.txt | | `- README.txt | |- z16f2800100zcog/ | | |- ostest/README.txt | | |- pashello/README.txt | | `- README.txt | |- z80sim/ | | |- include/README.txt | | |- src/README.txt | | `- README.txt | |- z8encore000zco/ | | |- ostest/README.txt | | `- README.txt | |- z8f64200100kit/ | | |- ostest/README.txt | | `- README.txt | `- README.txt |- drivers/ | |- lcd/ | | `- README.txt | |- sercomm/ | | `- README.txt | |- syslog/ | | `- README.txt | `- README.txt |- fs/ | |- mmap/ | | `- README.txt | `- nxffs/ | `- README.txt |- graphics/ | `- README.txt |- lib/ | `- README.txt |- libc/ | `- README.txt |- libxx/ | `- README.txt |- mm/ | `- README.txt |- syscall/ | `- README.txt `- tools/ `- README.txt apps |- examples/ | |- json/README.txt | |- pashello/README.txt | `- README.txt |- graphics/ | `- tiff/README.txt |- interpreters/ | |- ficl | | `- README.txt | `- README.txt |- modbus/ | `- README.txt |- netutils/ | |- discover | | `- README.txt | |- ftpc | | `- README.txt | |- json | | `- README.txt | |- telnetd | | `- README.txt | `- README.txt |- nshlib/ | `- README.txt |- NxWidgets/ | `- README.txt |- system/ | |- i2c/README.txt | |- free/README.txt | |- install | | `- README.txt | |- poweroff | | `- README.txt | |- ramtron | | `- README.txt | |- sdcard | | `- README.txt | `- sysinfo | `- README.txt `- README.txt NxWidgets |- Doxygen | `- README.txt |- tools | `- README.txt |- UnitTests | `- README.txt `- README.txt