1953 lines
72 KiB
Plaintext
1953 lines
72 KiB
Plaintext
README
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^^^^^^
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o Environments
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- Installing Cygwin
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- Ubuntu Bash under Windows 10
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o Installation
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- Download and Unpack
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- Semi-Optional apps/ Package
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- Installation Directories with Spaces in the Path
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- Downloading from Repositories
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- Related Repositories
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- Notes about Header Files
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o Configuring NuttX
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- Instantiating "Canned" Configurations
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- Refreshing Configurations
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- NuttX Configuration Tool
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- Finding Selections in the Configuration Menus
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- Reveal Hidden Configuration Options
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- Make Sure that You on on the Right Platform
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- Comparing Two Configurations
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- Making defconfig Files
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- Configuring with "Compressed" defconfig Files
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- Incompatibilities with Older Configurations
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- NuttX Configuration Tool under DOS
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o Toolchains
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- Cross-Development Toolchains
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- NuttX Buildroot Toolchain
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o Shells
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o Building NuttX
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- Building
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- Re-building
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- Build Targets and Options
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- Native Windows Build
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- Installing GNUWin32
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o Cygwin Build Problems
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- Strange Path Problems
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- Window Native Toolchain Issues
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o Documentation
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ENVIRONMENTS
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^^^^^^^^^^^^
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NuttX requires a POSIX development environment such as you would find under
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Linux or OSX. NuttX may be also be installed and built on Windows system
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if you also provide such a POSIX development environment. Options for a
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POSIX development environment under Windows include:
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- An installation of Linux on a virtual machine (VM) in Windows. I have
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not been happy using a VM myself. I have had stability problems with
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open source VMs and commercial VMs cost more than I want to spend.
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Sharing files with Linux running in a VM is awkward; sharing devices
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connected to the Windows box with Linux in a VM is, at the very least,
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confusing; Using Windows tools (such as Segger J-Link) with files
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built under the Linux VM is not a possibility.
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- The Cygwin environment. Instructions for installation of Cygwin on a
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Windows system are provided in the following paragraph, "Installing
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Cygwin". Cygwin is a mature, well-tested, and very convenient
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environment. It is especially especially convenient if you need to
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integrate with Windows tools and files. Downsides are that the
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installation time is very long and the compile times are slow.
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- Ubuntu/Bash shell under Windows 10. This is a new option under
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Windows 10. See the section "Ubuntu Bash under Windows 10" below.
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This is an improvement over Cygwin if your concern is compile time;
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its build performance is comparable to native Linux, certainly better
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than the Cygwin build time. It also installs in a tiny fraction of
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the time as Cygwin, perhaps 20 minutes for the basic Ubuntu install
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(vs. more than a day for the complete Cygwin install).
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- The MSYS environment. I have no experience using the MSYS environment
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and that configuration will not be discussed in this README file.
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See http://www.mingw.org/wiki/MSYS if you are interested in
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using MSYS. People report to me that they have used MSYS
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successfully. I suppose that the advantages of the MSYS environment
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is that it is closer to a native Windows environment and uses only a
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minimal of add-on POSIX-land tools.
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- NuttX can also be installed and built on a native Windows system, but
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with some potential tool-related issues (see the discussion "Native
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Windows Build" under "Building NuttX" below). GNUWin32 is used to
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provide compatible native windows tools.
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Installing Cygwin
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-----------------
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Installing Cygwin on your Windows PC is simple, but time consuming. See
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http://www.cygwin.com/ for installation instructions. Basically you just
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need to download a tiny setup.exe program and it does the real, network
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installation for you.
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Some Cygwin installation tips:
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1. Install at C:\cygwin
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2. Install EVERYTHING: "Only the minimal base packages from the
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Cygwin distribution are installed by default. Clicking on categories
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and packages in the setup.exe package installation screen will
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provide you with the ability to control what is installed or updated.
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Clicking on the "Default" field next to the "All" category will
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provide you with the opportunity to install every Cygwin package.
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Be advised that this will download and install hundreds of megabytes
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to your computer."
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If you use the "default" installation, you will be missing many
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of the Cygwin utilities that you will need to build NuttX. The
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build will fail in numerous places because of missing packages.
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NOTE: You don't really have to install EVERYTHING but I cannot
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answer the question "Then what should I install?" I don't know
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the answer to that and so will continue to recommend installing
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EVERYTHING.
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You should certainly be able to omit "Science", "Math", and
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"Publishing". You can try omitting KDE, Gnome, GTK, and other
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graphics packages if you don't plan to use them.
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Perhaps a minimum set would be those packages listed below for the
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"Ubuntu Bash under Windows 10" installation?
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After installing Cygwin, you will get lots of links for installed
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tools and shells. I use the RXVT native shell. It is fast and reliable
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and does not require you to run the Cygwin X server (which is neither
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fast nor reliable). Unless otherwise noted, the rest of these
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instructions assume that you are at a bash command line prompt in
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either Linux or in Cygwin shell.
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UPDATE: The last time I installed EVERYTHING, the download was
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about 5GiB. The server I selected was also very slow so it took
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over a day to do the whole install!
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Ubuntu Bash under Windows 10
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----------------------------
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A better version of a command-line only Ubuntu under Windows 10 (beta)
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has recently been made available from Microsoft.
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Installation
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------------
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Installation instructions abound on the Internet complete with screen
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shots. I will attempt to duplicate those instructions in full here.
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Here are the simplified installation steps:
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- Open "Settings".
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- Click on "Update & security".
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- Click on "For Developers".
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- Under "Use developer features", select the "Developer mode" option to
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setup the environment to install Bash.
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- A message box should pop up. Click "Yes" to turn on developer mode.
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- After the necessary components install, you'll need to restart your
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computer.
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Once your computer reboots:
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- Open "Control Panel".
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- Click on "Programs".
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- Click on "Turn Windows features on or off".
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- A list of features will pop up, check the "Windows Subsystem for Linux
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(beta)" option.
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- Click OK.
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- Once the components installed on your computer, click the "Restart
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now" button to complete the task.
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After your computer restarts, you will notice that Bash will not appear in
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the "Recently added" list of apps, this is because Bash isn't actually
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installed yet. Now that you have setup the necessary components, use the
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following steps to complete the installation of Bash:
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- Open "Start", do a search for bash.exe, and press "Enter".
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- On the command prompt, type y and press Enter to download and install
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Bash from the Windows Store. This will take awhile.
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- Then you'll need to create a default UNIX user account. This account
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doesn't have to be the same as your Windows account. Enter the
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username in the required field and press Enter (you can't use the
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username "admin").
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- Close the "bash.exe" command prompt.
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Now that you completed the installation and setup, you can open the Bash
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tool from the Start menu like you would with any other app.
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Accessing Windows Files from Ubuntu
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-----------------------------------
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File systems will be mounted under "/mnt" so for example "C:\Program Files"
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appears at "/mnt/c/Program Files". This is as opposed to Cgwin where
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the same directory would appear at "/cygdrive/c/Program Files".
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With these differences (perhaps a few other Windows quirks) the Ubuntu
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install works just like Ubuntu running natively on your PC.
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A good tip for file sharing is to use symbolic links within your Ubuntu
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home directory. For example, suppose you have your "projects" directory
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at C:\Documents\projects. Then you can set up a link to the projects/
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directory in your Ubuntu directory like:
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$ ln -s /mnt/c/Documents/projects projects
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Accessing Ubuntu Files From Windows
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-----------------------------------
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In Ubuntu Userspace for Windows, the Ubuntu file system root directory is
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at:
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%localappdata%\lxss\rootfs
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Or
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C:\Users\Username\AppData\Local\lxss\rootfs
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However, I am unable to see my files under the rootfs\home directory.
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After some looking around, I find the home directory
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%localappdata%\lxss\home.
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With that trick access to the /home directory, you should actually be
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able to use Windows tools outside of the Ubuntu sandbox with versions of
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NuttX built within the sandbox using that path.
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Executing Windows Tools from Ubuntu
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-----------------------------------
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You can also execute Windows tools from within the Ubuntu sandbox:
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$ /mnt/c/Program\ Files\ \(x86\)/Microchip/xc32/v1.43/bin/xc32-gcc.exe --version
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Unable to translate current working directory. Using C:\WINDOWS\System32
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xc32-gcc.exe (Microchip Technology) 4.8.3 MPLAB XC32 Compiler v1.43 Build date: Mar 1 2017
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...
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The error message indicates that there are more issues: You cannot mix
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Windows tools that use Windows style paths in an environment that uses
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POSIX paths. I think you would have to use Linux tools only from within
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the Ubuntu sandbox.
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Install Ubuntu Software
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-----------------------
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Use "sudo apt-get install <package name>". As examples, this is how
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you would get GIT:
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$ sudo apt-get install git
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This will get you a compiler for your host PC:
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$ sudo apt-get install gcc
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This will get you an ARM compiler for your target:
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$ sudo apt-get install gcc-arm-none-eabi
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NOTE: That is just an example. I am not sure if apt-get will give you a
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current or usable compiler. You should carefully select your toolchain
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for the needs of your project.]
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You will also need to the get the kconfig-frontends configuration as
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described below under "NuttX Configuration tool". In order build the
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kconfig-frontends configuration tool you will also need: make, gperf,
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flex, bison, and libncurses-dev.
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That is enough to do a basic NuttX build.
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Integrating with Windows Tools
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------------------------------
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If you want to integrate with Windows native tools, then you would need
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deal with the same kind of craziness as with integrating Cygwin with
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native toolchains, see the section "Cygwin Build Problems" below.
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However, there is currently no build support for using Windows native
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tools with Ubuntu under Windows. This tool combination is made to work
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with Cygwin through the use of the 'cygpath -w' tool that converts paths
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from say '/cydrive/c/Program Files' to 'C:\Program Files'. There is,
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however, no corresponding tool to convert '/mnt/c/Program Files' in the
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Ubuntu environment.
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Graphics Support
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----------------
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The Ubuntu version support by Microsoft is a command-line only version.
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There is no support for Linux graphics utilities.
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This limitation is not a limitation of Ubuntu, however, only in what
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Microsoft is willing to support. If you install a X-Server, then you
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can also use basic graphics utilities. See for example:
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http://www.howtogeek.com/261575/how-to-run-graphical-linux-desktop-applications-from-windows-10s-bash-shell/
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Many Linux graphics programs would, however, also require a graphics
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framework like GTK or Qt. So this might be a trip down the rabbit hole.
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INSTALLATION
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^^^^^^^^^^^^
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There are two ways to get NuttX: You may download released, stable
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tarballs from wither the Bitbucket or Sourceforge download locations.
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Or you may get NuttX by cloning the Bitbucket GIT repositories. Let's
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consider the released tarballs first:
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Download and Unpack
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-------------------
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Download and unpack the NuttX tarball. If you are reading this, then
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you have probably already done that. After unpacking, you will end
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up with a directory called nuttx-version (where version is the NuttX
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version number). You might want to rename that directory nuttx to
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match the various instructions in the documentation and some scripts
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in the source tree.
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Download locations:
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https://bitbucket.org/nuttx/nuttx/downloads
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https://sourceforge.net/projects/nuttx/files/nuttx/
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Semi-Optional apps/ Package
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---------------------------
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All NuttX libraries and example code used to be in included within
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the NuttX source tree. As of NuttX-6.0, this application code was
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moved into a separate tarball, the apps tarball. If you are just
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beginning with NuttX, then you will want to download the versioned
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apps tarball along with the NuttX tarball. If you already have your
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own product application directory, then you may not need the apps
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tarball.
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It is call "Semi-optional" because if you don't have some apps/
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directory, NuttX will *fail* to build! You do not necessarily need
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to use the NuttX apps tarball but may, instead, provide your own
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custom application directory. Such a custom directory would need
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to include a valid Makefile to support the build and a valid Kconfig
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file to support the configuration. More about these file later.
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Download then unpack the apps tarball in the same directory where you
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unpacked the NuttX tarball. After you unpack the apps tarball, you
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will have a new directory called apps-version (where the version
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should exactly match the version of the NuttX tarball). Again, you
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might want to rename the directory to simply apps/ to match what
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you read in the documentation
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After unpacking (and renaming) the apps tarball, you will have two
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directories side by side like this:
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+----+----+
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nuttx/ apps/
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This is important because the NuttX build will expect to find the
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apps directory in that (default) location. That default location
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can be changed by modifying your NuttX configuration file, but that
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is another story.
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Installation Directories with Spaces in the Path
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------------------------------------------------
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The nuttx build directory should reside in a path that contains no
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spaces in any higher level directory name. For example, under
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Cygwin, your home directory might be formed from your first and last
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names like: "/home/First Last". That will cause strange errors when
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the make system tries to build.
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[Actually, that problem is probably not to difficult to fix. Some
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Makefiles probably just need some paths within double quotes]
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I work around spaces in the home directory name, by creating a
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new directory that does not contain any spaces, such as /home/nuttx.
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Then I install NuttX in /home/nuttx and always build from
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/home/nuttx/nuttx-code.
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Downloading from Repositories
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-----------------------------
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Cloning the Repository
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The current NuttX du jour is available in from a GIT repository. Here are
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instructions for cloning the core NuttX RTOS (corresponding to the nuttx
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tarball discussed above)::
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git clone https://bitbucket.org/nuttx/nuttx.git nuttx
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And the semi-optional apps/ application directory and be cloned like:
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git clone https://bitbucket.org/nuttx/apps.git apps
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That will give you the same directory structure like this:
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+----+----+
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nuttx/ apps/
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Configuring the Clones
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The following steps need to be performed for each of the repositories.
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After changing to the clone directory:
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Set your identity:
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git config --global user.name "My Name"
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git config --global user.email my.name@example.com
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Colorized diffs are much easier to read:
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git config --global color.branch auto
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git config --global color.diff auto
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git config --global color.interactive auto
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git config --global color.status auto
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Checkout other settings
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git config --list
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Cloning NuttX Inside Cygwin
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If you are cloning the NuttX repository, it is recommended to avoid
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automatic end of lines conversions by git. These conversions may break
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some scripts like configure.sh. Before cloning, do the following:
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git config --global core.autocrlf false
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Related Repositories
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--------------------
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These are standalone repositories:
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* https://bitbucket.org/nuttx/apps
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This directory holds an optional package of applications and libraries
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can be used with the NuttX RTOS. There is a README.txt file there that
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will provide a more information about that package.
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* https://bitbucket.org/nuttx/nxwidgets
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This is the NuttX C++ graphics support. This includes NxWM, the tiny
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NuttX Window Manager.
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* https://bitbucket.org/nuttx/uclibc
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This repository contains a version of the uClibc++ C++ library. This code
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originates from http://cxx.uclibc.org/ and has been adapted for NuttX by the
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RGMP team (http://rgmp.sourceforge.net/wiki/index.php/Main_Page).
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* https://bitbucket.org/nuttx/buildroot
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A environment that you can to use to build a custom, NuttX GNU toolchain.
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* https://bitbucket.org/nuttx/tools
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There are snapshots of some tools here that you will need to work with
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NuttX: kconfig-frontends, genromfs, and others.
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* https://bitbucket.org/nuttx/drivers
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A few drivers that are not integrated into the main NuttX source tree due
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to licensing issues.
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* https://bitbucket.org/nuttx/pascal
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Yes, this really is a Pascal compiler. The Pascal p-code run-time and
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pcode debugger can be built as a part of NuttX.
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Notes about Header Files
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------------------------
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Other C-Library Header Files.
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When a GCC toolchain is built, it must be built against a C library.
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The compiler together with the contents of the C library completes the
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C language definition and provides the complete C development
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environment. NuttX provides its own, built-in C library. So the
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complete, consistent C language definition for use with NuttX comes from
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the combination of the compiler and the header files provided by the
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NuttX C library.
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When a GCC toolchain is built, it incorporates the C library header
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files into the compiler internal directories and, in this way, the C
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library really becomes a part of the toolchain. If you use the NuttX
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buildroot toolchain as described below under under "NuttX Buildroot
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Toolchain", your GCC toolchain will build against the NuttX C library
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and will incorporate the NuttX C library header files as part of the
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toolchain.
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If you use some other, third-party tool chain, this will not be the
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case, however. Those toolchains were probably built against some
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other, incompatible C library distribution (such as newlib). Those
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tools will have incorporated the incompatible C library header files
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as part of the toolchain. These incompatible header files must *not*
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be used with NuttX because the will conflict with definitions in the
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NuttX built-in C-Library. For such toolchains that include header
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files from a foreign C-Library, NuttX must be compiled without using
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the standard header files that are distributed with your toolchain.
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This prevents including conflicting, incompatible header files such
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as stdio.h.
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The math.h and stdarg.h are probably the two most trouble some header
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files to deal with. These troublesome header files are discussed in
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more detail below.
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Header Files Provided by Your Toolchain.
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Certain header files, such as setjmp.h, stdarg.h, and math.h, may still
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be needed from your toolchain and your compiler may not, however, be able
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to find these if you compile NuttX without using standard header files
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(i.e., with -nostdinc). If that is the case, one solution is to copy
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those header file from your toolchain into the NuttX include directory.
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Duplicated Header Files.
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There are also a few header files that can be found in the nuttx/include
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directory which are duplicated by the header files from your toolchain.
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stdint.h and stdbool.h are examples. If you prefer to use the stdint.h
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and stdbool.h header files from your toolchain, those could be copied
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into the nuttx/include/ directory. Using most other header files from
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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 library 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/lib/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/lib/math.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 architecture-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 available, 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>
|
|
is the name of the sub-directory containing a specific configuration for
|
|
that board. 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>/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 other, environment-specific files to ${TOPDIR
|
|
|
|
This might include files like .gdbinit or IDE configuration files
|
|
like .project or .cproject.
|
|
|
|
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 does
|
|
all of the above steps for you. It is used as follows:
|
|
|
|
cd ${TOPDIR}/tools
|
|
./configure.sh <board-name>/<config-dir>
|
|
|
|
There is an alternative Windows batch file that can be used in the
|
|
windows native environment like:
|
|
|
|
cd ${TOPDIR}\tools
|
|
configure.bat <board-name>\<config-dir>
|
|
|
|
And, to make sure that other platform is supported, there is also a
|
|
C program at tools/configure.c that can be compiled to establish the
|
|
board configuration.
|
|
|
|
See tools/README.txt for more information about these scripts.
|
|
|
|
Refreshing Configurations
|
|
-------------------------
|
|
|
|
Configurations can get out of date. As new configuration settings are
|
|
added or removed or as dependencies between configuration settings
|
|
change, the contents of a default configuration can become out of synch
|
|
with the build systems. Hence, it is a good practice to "refresh" each
|
|
configuration after configuring and before making. To refresh the
|
|
configuration, use the NuttX Configuration Tool like this:
|
|
|
|
make oldconfig
|
|
|
|
AFTER you have instantiated the NuttX configuration as described above.
|
|
The configuration step copied the .config file into place in the top-level
|
|
NuttX directory; 'make oldconfig' step will then operate on that .config
|
|
file to bring it up-to-date.
|
|
|
|
If you configuration is out of date, you will be prompted by 'make oldconfig'
|
|
to resolve the issues detected by the configuration tool, that is, to
|
|
provide values for the new configuration options in the build system. Doing
|
|
this can save you a lot of problems down the road due to obsolete settings in
|
|
the default board configuration file. The NuttX configuration tool is
|
|
discussed in more detail in the following paragraph.
|
|
|
|
Confused about what the correct value for a new configuration item should
|
|
be? Enter ? in response to the 'make oldconfig' prompt and it will show
|
|
you the help text that goes with the option.
|
|
|
|
If you don't want to make any decisions are are willing to just accept the
|
|
recommended default value for each new configuration item, an even easier
|
|
way is:
|
|
|
|
make oldefconfig
|
|
|
|
The olddefconfig target will simply bring you configuration up to date with
|
|
the current Kconfig files, setting any new options to the default value.
|
|
No questions asked.
|
|
|
|
NuttX Configuration Tool
|
|
------------------------
|
|
|
|
An automated tool has been incorporated to support re-configuration
|
|
of NuttX. 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 from the tools repository at
|
|
https://bitbucket.org/nuttx/tools). This application provides a tool
|
|
called 'kconfig-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.
|
|
|
|
WARNING: Never do 'make menuconfig' on a configuration that has
|
|
not been converted to use the kconfig-frontends tools! This will
|
|
damage your configuration (see
|
|
http://www.nuttx.org/doku.php?id=wiki:howtos:convertconfig).
|
|
|
|
How do we tell a new configuration from an old one? See "Incompatibilities
|
|
with Older Configurations" below.
|
|
|
|
The 'menuconfig' make 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 kconfig-language.txt in the tools repository at
|
|
https://bitbucket.org/nuttx/tools
|
|
|
|
2. The 'kconfig-mconf' tool. 'kconfig-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 the tools repository at
|
|
https://bitbucket.org/nuttx/tools.
|
|
|
|
Building kconfig-frontends under Linux 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 in the top-level README.txt
|
|
file of the tools repository at https://bitbucket.org/nuttx/tools.
|
|
|
|
The 'make install' step will, by default, install the 'kconfig-mconf'
|
|
tool at /usr/local/bin/mconf. Where ever you choose to
|
|
install 'kconfig-mconf', make certain that your PATH variable includes
|
|
a path to that installation directory.
|
|
|
|
The kconfig-frontends tools will not build in a native Windows
|
|
environment directly "out-of-the-box". For the Windows native
|
|
case, you should should the modified version of kconfig-frontends
|
|
that can be found at
|
|
http://uvc.de/posts/linux-kernel-configuration-tool-mconf-under-windows.html
|
|
|
|
The basic configuration order is "bottom-up":
|
|
|
|
- Select the build environment,
|
|
- Select the processor,
|
|
- Select the board,
|
|
- Select the supported peripherals
|
|
- Configure the device drivers,
|
|
- Configure the application options on top of this.
|
|
|
|
This is pretty straight forward for creating new configurations
|
|
but may be less intuitive for modifying existing configurations.
|
|
|
|
If you have an environment that supports the Qt or GTK graphical systems
|
|
(probably KDE or gnome, respectively, or Cygwin under Windows with Qt or
|
|
GTK installed), then you can also build the graphical kconfig-frontends,
|
|
kconfig-qconf and kconfig-gconf. In these case, you can start the
|
|
graphical configurator with either:
|
|
|
|
make qconfig
|
|
|
|
or
|
|
|
|
make gconfig
|
|
|
|
Some keyboard shortcuts supported by kconfig-mconf, the tool that runs
|
|
when you do 'make menuconfig':
|
|
|
|
- '?' will bring up the mconfig help display.
|
|
|
|
- '/' can be used find configuration selections.
|
|
|
|
- 'Z' can be used to reveal hidden configuration options
|
|
|
|
These last to shortcuts are described further in the following
|
|
paragraphs.
|
|
|
|
Finding Selections in the Configuration Menus
|
|
---------------------------------------------
|
|
|
|
The NuttX configuration options have gotten complex and it can be very
|
|
difficult to find options in the menu trees if you are not sure where
|
|
to look. The "basic configuration order" describe above can help to
|
|
narrow things down.
|
|
|
|
But if you know exactly what configuration setting you want to select,
|
|
say CONFIG_XYZ, but not where to find it, then the 'make menuconfig'
|
|
version of the tool offers some help: By pressing the '/' key, the
|
|
tool will bring up a menu that will allow you to search for a
|
|
configuration item. Just enter the string CONFIG_XYZ and press 'ENTER'.
|
|
It will show you not only where to find the configuration item, but
|
|
also all of the dependencies related to the configuration item.
|
|
|
|
Reveal Hidden Configuration Options
|
|
-----------------------------------
|
|
|
|
If you type 'Z', then kconfig-mconf will change what is displayed.
|
|
Normally, only enabled features that have all of their dependencies met
|
|
are displayed. That is, of course, not very useful if you would like to
|
|
discover new options or if you are looking for an option and do not
|
|
realize that the dependencies have not yet been selected and, hence, it
|
|
is not displayed.
|
|
|
|
But if you enter 'Z', then every option will be shown, whether or not its
|
|
dependencies have been met. You can the see everything that could be
|
|
selected with the right dependency selections. These additional options
|
|
will be shown the '-' for the selection and for the value (since it
|
|
cannot be selected and has no value). About all you do is to select
|
|
the <Help> option to see what the dependencies are.
|
|
|
|
Make Sure that You on on the Right Platform
|
|
-------------------------------------------
|
|
|
|
Saved configurations may run on Linux, Cygwin (32- or 64-bit), or other
|
|
platforms. The platform characteristics can be changed use 'make
|
|
menuconfig'. Sometimes this can be confusing due to the differences
|
|
between the platforms. Enter sethost.sh
|
|
|
|
sethost.sh is a simple script that changes a configuration to your
|
|
host platform. This can greatly simplify life if you use many different
|
|
configurations. For example, if you are running on Linux and you
|
|
configure like this:
|
|
|
|
$ cd tools
|
|
$ ./configure.sh board/configuration
|
|
$ cd ..
|
|
|
|
The you can use the following command to both (1) make sure that the
|
|
configuration is up to date, AND (2) the configuration is set up
|
|
correctly for Linux:
|
|
|
|
$ tools/sethost.sh -l
|
|
|
|
Or, if you are on a Windows/Cygwin 64-bit platform:
|
|
|
|
$ tools/sethost.sh -w
|
|
|
|
Other options are available from the help option built into the
|
|
script. You can see all options with:
|
|
|
|
$ tools/sethost.sh -h
|
|
|
|
Comparing Two Configurations
|
|
----------------------------
|
|
|
|
If you try to compare to configurations using 'diff', you will probably
|
|
not be happy with the result. There are superfluous things added to
|
|
the configuration files that makes comparisons with the human eye
|
|
difficult.
|
|
|
|
There is a tool at nuttx/tools/cmpconfig.c that can be build to simplify
|
|
these comparisons. The output from this difference tools will show only
|
|
the meaningful differences between two configuration files. This tools
|
|
built as follows:
|
|
|
|
cd nuttx/tools
|
|
make -f Makefile.host
|
|
|
|
This will crate a program called 'cmpconfig' or 'comconfig.exe' on Windows.
|
|
|
|
Why would you want to compare two configuration files? Here are a few
|
|
of reasons why I do this:
|
|
|
|
1. When I create a new configuration I usually base it on an older
|
|
configuration and I want to know, "What are the options that I need to
|
|
change to add the new feature to the older configurations?" For example,
|
|
suppose that I have a boardA/nsh configuration and I want to create a
|
|
boardA/nxwm configuration. Suppose I already have boardB/nsh and
|
|
boardB/nxwm configurations. Then by comparing the boardB/nsh with the
|
|
boardB/nxwm I can see the modifications that I would need to make to my
|
|
boardA/nsh to create a new boardA/nxwm.
|
|
|
|
2. But the most common reason that I use the 'cmpconfig' program to to
|
|
check the results of "refreshing" a configuration with 'make oldconfig'
|
|
(see the paragraph "Refreshing Configurations" above). The 'make
|
|
oldconfig' command will make changes to my configuration and using
|
|
'cmpconfig', I can see precisely what those changes were and if any
|
|
should be of concern to me.
|
|
|
|
3. The 'cmpconfig' tool can also be useful when converting older, legacy
|
|
manual configurations to the current configurations based on the
|
|
kconfig-frontends tools. See the following paragraph.
|
|
|
|
Making defconfig Files
|
|
----------------------
|
|
|
|
The minimum defconfig file is simply the generated .config file with
|
|
CONFIG_APPS_DIR setting removed or commented out. That setting provides
|
|
the name and location of the apps/ directory relative to the nuttx build
|
|
directory. The default is ../apps/, however, the apps directory may be
|
|
any other location and may have a different name. For example, the name
|
|
of versioned NuttX releases are always in the form apps-xx.yy where xx.yy
|
|
is the version number.
|
|
|
|
When the default configuration is installed using on of the scripts or
|
|
programs in the NuttX tools directory, there will be an option to provide
|
|
the path to the apps/ directory. If not provided, then the configure tool
|
|
will look around and try to make a reasonable decision about where the
|
|
apps/ directory is located.
|
|
|
|
The Makefile also supports an option to generate very small defconfig
|
|
files. The .config files are quite large and complex. But most of the
|
|
settings in the .config file simply have the default settings from the
|
|
Kconfig files. These .config files can be converted into small defconfig
|
|
file:
|
|
|
|
make savedefconfig
|
|
|
|
That make target will generate a defconfig file in the top-level
|
|
directory. The size reduction is really quite remarkable:
|
|
|
|
$ wc -l .config defconfig
|
|
1085 .config
|
|
82 defconfig
|
|
1167 total
|
|
|
|
In order to be usable, the .config file installed from the compressed
|
|
defconfig file must be reconstituted using:
|
|
|
|
make olddefconfig
|
|
|
|
CAUTION: There is only one caution. This size reduction was
|
|
accomplished by removing all setting from the .config file that were at
|
|
the default value. 'make olddefconfig' can regenerate the original
|
|
.config file by simply restoring those default settings. The underlying
|
|
assumption here is, of course, that the default settings do not change.
|
|
If the default settings change, and they often do, then the original
|
|
.config may not be reproducible.
|
|
|
|
Configuring with "Compressed" defconfig Files
|
|
---------------------------------------------
|
|
|
|
2017-07-08: Currently all defconfig files are in .config form. However,
|
|
in the long term I would hope that the defconfig files will eventual
|
|
all be converted to the "compressed" defconfig format. This would be
|
|
a great savings in the total size of the NuttX files.
|
|
|
|
As described in the previous section, "Making defconfig Files," defconfig
|
|
files may be "compressed" using 'make savedeconfig'. These compressed
|
|
defconfig files may not be fully usable and may not build the target
|
|
binaries that you want because the compression process removed all of the
|
|
default settings from the defconfig file. To restore the default
|
|
settings, you should run the following after configuring:
|
|
|
|
make olddefconfig
|
|
|
|
That will restore the the missing defaulted values.
|
|
|
|
Using this command after configuring is generally a good practice anyway:
|
|
Even if the defconfig files are not "compressed" in this fashion, the
|
|
defconfig file may be old and the only way to assure that the installed
|
|
.config is is uptodate is via 'make oldconfig' or 'make olddefconfig'.
|
|
See the paragraph above entitled ""Refreshing Configurations" for
|
|
additional information.
|
|
|
|
Incompatibilities with Older Configurations
|
|
-------------------------------------------
|
|
|
|
***** WARNING *****
|
|
|
|
The current NuttX build system supports *only* the new configuration
|
|
files generated using the kconfig-frontends tools. Support for the
|
|
older, legacy, manual configurations was eliminated in NuttX 7.0; all
|
|
configuration must now be done using the kconfig-frontends tool. The
|
|
older manual configurations and the new kconfig-frontends configurations
|
|
are not compatible. Old legacy configurations can *not* be used
|
|
with the kconfig-frontends tool and, hence, cannot be used with releases
|
|
of NuttX 7.0 and beyond:
|
|
|
|
If you run 'make menuconfig' with a legacy configuration the resulting
|
|
configuration will probably not be functional.
|
|
|
|
Q: How can I tell if a configuration is a new kconfig-frontends
|
|
configuration or an older, manual configuration?
|
|
|
|
A: Only old, manual configurations will have an appconfig file
|
|
|
|
|
|
Q: How can I convert a older, manual configuration into a new,
|
|
kconfig-frontends toolchain.
|
|
|
|
A: Refer to http://www.nuttx.org/doku.php?id=wiki:howtos:convertconfig
|
|
|
|
***** WARNING *****
|
|
|
|
As described above, whenever you use a configuration, you really should
|
|
always refresh the configuration the following command *before* you make
|
|
NuttX:
|
|
|
|
make oldconfig
|
|
|
|
This will make sure that the configuration is up-to-date in the event that
|
|
it has lapsed behind the current NuttX development (see the paragraph
|
|
"Refreshing Configurations" above). But this only works with *new*
|
|
configuration files created with the kconfig-frontends tools
|
|
|
|
Never do 'make oldconfig' (OR 'make menuconfig') on a configuration that
|
|
has not been converted to use the kconfig-frontends tools! This will
|
|
damage your configuration (see
|
|
http://www.nuttx.org/doku.php?id=wiki:howtos:convertconfig).
|
|
|
|
NuttX Configuration Tool under DOS
|
|
----------------------------------
|
|
|
|
Recent versions of NuttX support building NuttX from a native Windows
|
|
console window (see "Native Windows Build" below). But kconfig-frontends
|
|
is a Linux tool. At one time this was a problem for Windows users, but
|
|
now there is a specially modified version of the kconfig-frontends tools
|
|
that can be used:
|
|
http://uvc.de/posts/linux-kernel-configuration-tool-mconf-under-windows.html
|
|
|
|
It is also possible to use the version of kconfig-frontends built
|
|
under Cygwin outside of the Cygwin "sandbox" in a native Windows
|
|
environment:
|
|
|
|
1. You can run the configuration tool using Cygwin. However, the
|
|
Cygwin Makefile.win will complain so to do this will, you have
|
|
to manually edit the .config file:
|
|
|
|
a. Delete the line: CONFIG_WINDOWS_NATIVE=y
|
|
b. Change the apps/ directory path, CONFIG_APPS_DIR to use Unix
|
|
style delimiters. For example, change "..\apps" to "../apps"
|
|
|
|
And of course, after you use the configuration tool you need to
|
|
restore CONFIG_WINDOWS_NATIVE=y and the correct CONFIG_APPS_DIR.
|
|
|
|
2) You can, with some effort, run the Cygwin kconfig-mconf tool
|
|
directly in the Windows console window. In this case, you do not
|
|
have to modify the .config file, but there are other complexities:
|
|
|
|
a. You need to temporarily set the Cygwin directories in the PATH
|
|
variable then run kconfig-mconf manually like:
|
|
|
|
kconfig-mconf Kconfig
|
|
|
|
There is a Windows batch file at tools/kconfig.bat that automates
|
|
these steps:
|
|
|
|
tools/kconfig menuconfig
|
|
|
|
b. There is an issue with accessing DOS environment variables from
|
|
the Cygwin kconfig-mconf running in the Windows console. The
|
|
following change to the top-level Kconfig file seems to work
|
|
around these problems:
|
|
|
|
config APPSDIR
|
|
string
|
|
- option env="APPSDIR"
|
|
+ default "../apps"
|
|
|
|
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 PATH environment variable will need to be updated to
|
|
include the location where the build can find the toolchain binaries.
|
|
|
|
NuttX Buildroot Toolchain
|
|
-------------------------
|
|
|
|
For many configurations, a DIY set of tools is available for NuttX. These
|
|
tools can be downloaded from the NuttX Bitbucket.org 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, the ROMFS
|
|
genromfs tools, and the kconfig-frontends 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, until recently there was no EABI support
|
|
in the NuttX buildroot toolchain for ARM.
|
|
|
|
NOTE: For Cortex-M3/4, there are OABI and EABI versions of the buildroot
|
|
toolchains. If you are using the older OABI toolchain the prefix for
|
|
the tools will be arm-nuttx-elf-; for the EABI toolchain the prefix will
|
|
be arm-nuttx-eabi-. If you are using the older OABI toolchain with
|
|
an ARM Cortex-M3/4, you will need to set CONFIG_ARMV7M_OABI_TOOLCHAIN
|
|
in the .config file in order to pick the right tool prefix.
|
|
|
|
If the make system ever picks the wrong prefix for your toolchain, you
|
|
can always specify the prefix on the command to override the default
|
|
like:
|
|
|
|
make CROSSDEV=arm-nuttx-elf
|
|
|
|
SHELLS
|
|
^^^^^^
|
|
|
|
The NuttX build relies on some shell scripts. Some are inline in the
|
|
Makefiles and many are executable 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 available and the #!/bin/bash at the
|
|
beginning of the file should do the job. If any scripts with #!/bin/sh
|
|
fail, try changing that to #!/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 PATH environment variable contains
|
|
the path to where your cross-development tools are installed, the
|
|
following steps are all that are required to build NuttX:
|
|
|
|
cd ${TOPDIR}
|
|
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!
|
|
|
|
Older versions of NuttX did not support dependencies in this
|
|
configuration. So a simple work around this annoying behavior in this
|
|
case was 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.
|
|
|
|
However, more recent versions of NuttX do support dependencies for the
|
|
Cygwin build. As a result, the above command will cause everything to be
|
|
rebuilt (because it removes and will cause recreating the
|
|
include/nuttx/config.h header file). A much less gracefully but still
|
|
effective command in this case is the following for the ARM configuration:
|
|
|
|
rm -rf arch/arm/src/chip arch/arm/src/board
|
|
|
|
This "kludge" simple removes the copied directories. These directories
|
|
will be re-created when you do a normal 'make' and your edits will then be
|
|
effective.
|
|
|
|
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 overridden 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 often
|
|
used as of this writing. The build was functional but because of lack of
|
|
use may find some issues to be resolved with this build configuration.
|
|
|
|
The windows native build logic initiated if CONFIG_WINDOWS_NATIVE=y is
|
|
defined in the NuttX configuration file:
|
|
|
|
|
|
This build:
|
|
|
|
- Uses all Windows style paths
|
|
- Uses primarily Windows batch commands from cmd.exe, with
|
|
- A few extensions from GNUWin32
|
|
|
|
In this build, you cannot use a Cygwin or MSYS shell. Rather the build must
|
|
be performed in a Windows console window. Here is a better terminal than the
|
|
standard issue, CMD.exe terminal: ConEmu which can be downloaded from:
|
|
https://sourceforge.net/projects/conemu/ or https://conemu.github.io/ .
|
|
|
|
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/
|
|
using the 'Download all' selection. Individual packages can be download
|
|
instead if you know what you are doing and want a faster download (No, I
|
|
can't tell you which packages you should or should not download).
|
|
|
|
Host Compiler: I use the MingGW GCC 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.
|
|
|
|
This capability should still be considered a work in progress because:
|
|
|
|
(1) It has not been verified on all targets and tools, and
|
|
(2) it still lacks some of the creature-comforts of the more mature
|
|
environments.
|
|
|
|
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 that 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-
|
|
provided 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:
|
|
|
|
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 encounter 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 builds 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 symbols. 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 buildroot repository at https://bitbucket.org/nuttx/buildroot
|
|
However, it is possible that there could be interoperability issues
|
|
with your toolchain since they will be using different versions of
|
|
binutils and possibly different ABIs.
|
|
|
|
Building Original Linux Boards in Cygwin
|
|
|
|
Some default board configurations are set to build under Linux and others
|
|
to build under Windows with Cygwin. Various default toolchains may also
|
|
be used in each configuration. It is possible to change the default
|
|
setup. Here, for example, is what you must do in order to compile a
|
|
default Linux configuration in the Cygwin environment using the
|
|
CodeSourcery for Windows toolchain. After instantiating a "canned"
|
|
NuttX configuration, run the target 'menuconfig' and set the following
|
|
items:
|
|
|
|
Build Setup->Build Host Platform->Windows
|
|
Build Setup->Windows Build Environment->Cygwin
|
|
System Type->Toolchain Selection->CodeSourcery GNU Toolchain under Windows
|
|
|
|
In Windows 7 it may be required to open the Cygwin shell as Administrator
|
|
("Run As" option, right button) you find errors like "Permission denied".
|
|
|
|
Recovering from Bad Configurations
|
|
|
|
Many people make the mistake of configuring NuttX with the "canned"
|
|
configuration and then just typing 'make' with disastrous consequences;
|
|
the build may fail with mysterious, uninterpretable, and irrecoverable
|
|
build errors. If, for example, you do this with an unmodified Linux
|
|
configuration in a Windows/Cgwin environment, you will corrupt the
|
|
build environment. The environment will be corrupted because of POSIX vs
|
|
Windows path issues and with issues related to symbolic links. If you
|
|
make the mistake of doing this, the easiest way to recover is to just
|
|
start over: Do 'make distclean' to remove every trace of the corrupted
|
|
configuration, reconfigure from scratch, and make certain that the set
|
|
the configuration correctly for your platform before attempting to make
|
|
again.
|
|
|
|
Just fixing the configuration file after you have instantiated the bad
|
|
configuration with 'make' is not enough.
|
|
|
|
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
|
|
| |- renesas/
|
|
| | |- include/
|
|
| | | `-README.txt
|
|
| | |- src/
|
|
| | | `-README.txt
|
|
| |- x86/
|
|
| | |- include/
|
|
| | | `-README.txt
|
|
| | `- src/
|
|
| | `-README.txt
|
|
| `- z80/
|
|
| | `- src/
|
|
| | |- z80/README.txt
|
|
| | `- z180/README.txt, z180_mmu.txt
|
|
| `- README.txt
|
|
|- audio/
|
|
| `-README.txt
|
|
|- binfmt/
|
|
| `-libpcode/
|
|
| `-README.txt
|
|
|- configs/
|
|
| |- amber/
|
|
| | `- README.txt
|
|
| |- arduino-mega2560/
|
|
| | `- README.txt
|
|
| |- arduino-due/
|
|
| | `- README.txt
|
|
| |- avr32dev1/
|
|
| | `- README.txt
|
|
| |- b-l475e-iot01a/
|
|
| | `- README.txt
|
|
| |- bambino-200e/
|
|
| | `- README.txt
|
|
| |- c5471evm/
|
|
| | `- README.txt
|
|
| |- cc3200-launchpad/
|
|
| | `- README.txt
|
|
| |- clicker2-stm32
|
|
| | `- README.txt
|
|
| |- cloudctrl
|
|
| | `- README.txt
|
|
| |- demo0s12ne64/
|
|
| | `- README.txt
|
|
| |- dk-tm4c129x/
|
|
| | `- README.txt
|
|
| |- ea3131/
|
|
| | `- README.txt
|
|
| |- ea3152/
|
|
| | `- README.txt
|
|
| |- eagle100/
|
|
| | `- README.txt
|
|
| |- efm32-g8xx-stk/
|
|
| | `- README.txt
|
|
| |- efm32gg-stk3700/
|
|
| | `- 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
|
|
| |- freedom-k64f/
|
|
| | `- README.txt
|
|
| |- freedom-k66f/
|
|
| | `- README.txt
|
|
| |- freedom-kl25z/
|
|
| | `- README.txt
|
|
| |- freedom-kl26z/
|
|
| | `- README.txt
|
|
| |- hymini-stm32v/
|
|
| | `- README.txt
|
|
| |- kwikstik-k40/
|
|
| | `- README.txt
|
|
| |- launchxl-tms57004/
|
|
| | `- README.txt
|
|
| |- lincoln60/
|
|
| | `- README.txt
|
|
| |- lm3s6432-s2e/
|
|
| | `- README.txt
|
|
| |- lm3s6965-ek/
|
|
| | `- README.txt
|
|
| |- lm3s8962-ek/
|
|
| | `- README.txt
|
|
| |- lpc4330-xplorer/
|
|
| | `- README.txt
|
|
| |- lpc4337-ws/
|
|
| | `- README.txt
|
|
| |- lpc4357-evb/
|
|
| | `- README.txt
|
|
| |- lpc4370-link2/
|
|
| | `- README.txt
|
|
| |- lpcxpresso-lpc1115/
|
|
| | `- README.txt
|
|
| |- lpcxpresso-lpc1768/
|
|
| | `- README.txt
|
|
| |- maple/
|
|
| | `- README.txt
|
|
| |- mbed/
|
|
| | `- README.txt
|
|
| |- mcu123-lpc214x/
|
|
| | `- README.txt
|
|
| |- micropendous3/
|
|
| | `- README.txt
|
|
| |- mikroe-stm32f/
|
|
| | `- README.txt
|
|
| |- mirtoo/
|
|
| | `- README.txt
|
|
| |- misoc/
|
|
| | `- README.txt
|
|
| |- moteino-mega/
|
|
| | `- README.txt
|
|
| |- mx1ads/
|
|
| | `- README.txt
|
|
| |- ne63badge/
|
|
| | `- README.txt
|
|
| |- ntosd-dm320/
|
|
| | |- doc/README.txt
|
|
| | `- README.txt
|
|
| |- nucleo-144/
|
|
| | `- README.txt
|
|
| |- nucleo-f072rb/
|
|
| | `- README.txt
|
|
| |- nucleo-f091rc/
|
|
| | `- README.txt
|
|
| |- nucleo-f303re/
|
|
| | `- README.txt
|
|
| |- nucleo-f334r8/
|
|
| | `- README.txt
|
|
| |- nucleo-f4x1re/
|
|
| | `- README.txt
|
|
| |- nucleo-l432kc/
|
|
| | `- README.txt
|
|
| |- nucleo-l452re/
|
|
| | `- README.txt
|
|
| |- nucleo-l476rg/
|
|
| | `- README.txt
|
|
| |- nucleo-l496zg/
|
|
| | `- README.txt
|
|
| |- nutiny-nuc120/
|
|
| | `- README.txt
|
|
| |- olimex-efm32g880f129-stk/
|
|
| | `- README.txt
|
|
| |- olimex-lpc1766stk/
|
|
| | `- README.txt
|
|
| |- olimex-lpc2378/
|
|
| | `- README.txt
|
|
| |- olimex-lpc-h3131/
|
|
| | `- README.txt
|
|
| |- olimex-stm32-h405/
|
|
| | `- README.txt
|
|
| |- olimex-stm32-h407/
|
|
| | `- README.txt
|
|
| |- olimex-stm32-p107/
|
|
| | `- README.txt
|
|
| |- olimex-stm32-p207/
|
|
| | `- README.txt
|
|
| |- olimex-stm32-p407/
|
|
| | `- README.txt
|
|
| |- olimex-strp711/
|
|
| | `- README.txt
|
|
| |- open1788/
|
|
| | `- README.txt
|
|
| |- p112/
|
|
| | `- README.txt
|
|
| |- pcblogic-pic32mx/
|
|
| | `- README.txt
|
|
| |- pcduino-a10/
|
|
| | `- README.txt
|
|
| |- pic32mx-starterkit/
|
|
| | `- README.txt
|
|
| |- pic32mx7mmb/
|
|
| | `- README.txt
|
|
| |- pic32mz-starterkit/
|
|
| | `- README.txt
|
|
| |- photon/
|
|
| | `- README.txt
|
|
| |- qemu-i486/
|
|
| | `- README.txt
|
|
| |- sabre-6quad/
|
|
| | `- README.txt
|
|
| |- sama5d2-xult/
|
|
| | `- README.txt
|
|
| |- sama5d3x-ek/
|
|
| | `- README.txt
|
|
| |- sama5d3-xplained/
|
|
| | `- README.txt
|
|
| |- sama5d4-ek/
|
|
| | `- README.txt
|
|
| |- samd20-xplained/
|
|
| | `- README.txt
|
|
| |- samd21-xplained/
|
|
| | `- README.txt
|
|
| |- saml21-xplained/
|
|
| | `- README.txt
|
|
| |- sam3u-ek/
|
|
| | `- README.txt
|
|
| |- sam4cmp-db
|
|
| | `- README.txt
|
|
| |- sam4e-ek/
|
|
| | `- README.txt
|
|
| |- sam4l-xplained/
|
|
| | `- README.txt
|
|
| |- sam4s-xplained/
|
|
| | `- README.txt
|
|
| |- sam4s-xplained-pro/
|
|
| | `- README.txt
|
|
| |- same70-xplained/
|
|
| | `- README.txt
|
|
| |- samv71-xult/
|
|
| | `- README.txt
|
|
| |- sim/
|
|
| | |- include/README.txt
|
|
| | `- README.txt
|
|
| |- shenzhou/
|
|
| | `- README.txt
|
|
| |- skp16c26/
|
|
| | `- README.txt
|
|
| |- spark/
|
|
| | `- README.txt
|
|
| |- stm3210e-eval/
|
|
| | |- RIDE/README.txt
|
|
| | `- README.txt
|
|
| |- stm3220g-eval/
|
|
| | |-ide/nsh/iar/README.txt
|
|
| | |-ide/nsh/uvision/README.txt
|
|
| | `- README.txt
|
|
| |- stm3240g-eval/
|
|
| | `- README.txt
|
|
| |- stm32_tiny/
|
|
| | `- README.txt
|
|
| |- stm32f103-minumum/
|
|
| | `- README.txt
|
|
| |- stm32f3discovery/
|
|
| | `- README.txt
|
|
| |- stm32f4discovery/
|
|
| | `- README.txt
|
|
| |- stm32f411e-disco/
|
|
| | `- README.txt
|
|
| |- stm32f429i-disco/
|
|
| | |- ide/ltcd/uvision/README.txt
|
|
| | |- ltdc/README.txt
|
|
| | `- README.txt
|
|
| |- stm32f746g-disco/
|
|
| | `- README.txt
|
|
| |- stm32l476-mdk/
|
|
| | `- README.txt
|
|
| |- stm32l476vg-disco/
|
|
| | `- README.txt
|
|
| |- stm32ldiscovery/
|
|
| | `- README.txt
|
|
| |- stm32vldiscovery/
|
|
| | `- README.txt
|
|
| |- sure-pic32mx/
|
|
| | `- README.txt
|
|
| |- teensy-2.0/
|
|
| | `- README.txt
|
|
| |- teensy-3.x/
|
|
| | `- README.txt
|
|
| |- teensy-lc/
|
|
| | `- README.txt
|
|
| |- tm4c123g-launchpad/
|
|
| | `- README.txt
|
|
| |- tm4c1294-launchpad/
|
|
| | `- README.txt
|
|
| |- twr-k60n512/
|
|
| | `- README.txt
|
|
| |- twr-k64f120m/
|
|
| | `- README.txt
|
|
| |- u-blox-co27/
|
|
| | `- README.txt
|
|
| |- ubw32/
|
|
| | `- README.txt
|
|
| |- us7032evb1/
|
|
| | `- README.txt
|
|
| |- viewtool-stm32f107/
|
|
| | `- README.txt
|
|
| |- xmc5400-relax/
|
|
| | `- README.txt
|
|
| |- xtrs/
|
|
| | `- README.txt
|
|
| |- z16f2800100zcog/
|
|
| | |- ostest/README.txt
|
|
| | |- pashello/README.txt
|
|
| | `- README.txt
|
|
| |- z80sim/
|
|
| | `- README.txt
|
|
| |- z8encore000zco/
|
|
| | |- ostest/README.txt
|
|
| | `- README.txt
|
|
| |- z8f64200100kit/
|
|
| | |- ostest/README.txt
|
|
| | `- README.txt
|
|
| |- zkit-arm-1769/
|
|
| | `- README.txt
|
|
| |- zp214xpa/
|
|
| | `- README.txt
|
|
| `- README.txt
|
|
|- drivers/
|
|
| |- eeprom/
|
|
| | `- README.txt
|
|
| |- lcd/
|
|
| | | README.txt
|
|
| | `- pcf8574_lcd_backpack_readme.txt
|
|
| |- mtd/
|
|
| | `- README.txt
|
|
| |- sensors/
|
|
| | `- README.txt
|
|
| |- syslog/
|
|
| | `- README.txt
|
|
| `- README.txt
|
|
|- fs/
|
|
| |- binfs/
|
|
| | `- README.txt
|
|
| |- mmap/
|
|
| | `- README.txt
|
|
| |- nxffs/
|
|
| | `- README.txt
|
|
| |- smartfs/
|
|
| | `- README.txt
|
|
| |- procfs/
|
|
| | `- README.txt
|
|
| `- unionfs/
|
|
| `- README.txt
|
|
|- graphics/
|
|
| `- README.txt
|
|
|- lib/
|
|
| `- README.txt
|
|
|- libc/
|
|
| |- zoneinfo
|
|
| | `- README.txt
|
|
| `- README.txt
|
|
|- libnx/
|
|
| `- README.txt
|
|
|- libxx/
|
|
| `- README.txt
|
|
|- mm/
|
|
| |- shm/
|
|
| | `- README.txt
|
|
| `- README.txt
|
|
|- net/
|
|
| |- sixlowpan
|
|
| | `- README.txt
|
|
| `- README.txt
|
|
|- syscall/
|
|
| `- README.txt
|
|
`- tools/
|
|
`- README.txt
|
|
|
|
Below is a guide to the available README files in the semi-optional apps/
|
|
source tree:
|
|
|
|
apps/
|
|
|- examples/
|
|
| |- bastest/README.txt
|
|
| |- json/README.txt
|
|
| |- pashello/README.txt
|
|
| `- README.txt
|
|
|- gpsutils/
|
|
| `- minmea/README.txt
|
|
|- graphics/
|
|
| |- tiff/README.txt
|
|
| `- traveler/tools/tcledit/README.txt
|
|
|- interpreters/
|
|
| |- bas
|
|
| | `- README.txt
|
|
| |- 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/
|
|
| |- cdcacm
|
|
| | `- README.txt
|
|
| |- i2c
|
|
| | `- README.txt
|
|
| |- inifile
|
|
| | `- README.txt
|
|
| |- install
|
|
| | `- README.txt
|
|
| |- nxplayer
|
|
| | `- README.txt
|
|
| |- symtab/
|
|
| | `- README.txt
|
|
| |- usbmsc
|
|
| | `- README.txt
|
|
| `- zmodem
|
|
| `- README.txt
|
|
`- README.txt
|
|
|
|
Additional README.txt files in the other, related repositories:
|
|
|
|
NxWidgets/
|
|
|- Doxygen
|
|
| `- README.txt
|
|
|- tools
|
|
| `- README.txt
|
|
|- UnitTests
|
|
| `- README.txt
|
|
`- README.txt
|
|
|
|
buildroot/
|
|
`- README.txt
|
|
|
|
tools/
|
|
`- README.txt
|
|
|
|
uClibc++/
|
|
`- README.txt
|
|
|
|
pascal/
|
|
`- README.txt
|