forked from RTEMS/rtems-libbsd
-
Notifications
You must be signed in to change notification settings - Fork 1
RTEMS BSD Porting project.
grisp/rtems-libbsd
Folders and files
Name | Name | Last commit message | Last commit date | |
---|---|---|---|---|
Repository files navigation
RTEMS LibBSD Waf ~~~~~~~~~~~~~~~~ Welcome to building LibBSD for RTEMS using Waf. This package is a library containing various parts of the FreeBSD kernel ported to RTEMS. The library replaces the networking port of FreeBSD in the RTEMS kernel sources. This package is designed to be updated from the FreeBSD kernel sources and contains more than just the networking code. To build this package you need a current RTEMS tool set for your architecture, and a recent RTEMS kernel for your BSP configured with networking disabled built and installed. If you already have this you can skip to step 3 of the build procedure. Waf Setup ~~~~~~~~~ You can find the Waf project at: https://waf.io/ Waf is not intended to be installed by distribution packages so we recommend you download a recent waf version and install it in your home directory. Waf is a Python program so you will also need to have a current Python version installed and in your path. Download the latest signed executable file version to $HOME/bin and symlink it to waf. Add the directory $HOME/bin to your path if it is not already in your default path. Building and Installing LibBSD ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~ The following instructions show you how to build and install RTEMS Tools and RTEMS kernel for your BSP in separate paths. Using separate paths for the tools and BSPs lets you manage what you have installed. If you are happy with a single path you can use the same path in each stage. The waf build support for RTEMS requires you provide your BSP name as an architecture and BSP pair. You must provide both or waf will generate an error message during the configure phase. We will build an Xilinx Zynq QEMU BSP using the name 'arm/xilinx_zynq_a9_qemu'. Steps ----- ------------------------------------------------------------------------------- sandbox="$PWD/sandbox" mkdir sandbox cd "$sandbox" git clone git://git.rtems.org/rtems-source-builder.git git clone git://git.rtems.org/rtems.git git clone git://git.rtems.org/rtems-libbsd.git cd "$sandbox" cd rtems-source-builder/rtems ../source-builder/sb-set-builder --prefix="$sandbox/rtems-4.12" 4.12/rtems-arm cd "$sandbox" cd rtems PATH="$sandbox/rtems-4.12/bin:$PATH" ./bootstrap cd "$sandbox" mkdir b-xilinx_zynq_a9_qemu cd b-xilinx_zynq_a9_qemu PATH="$sandbox/rtems-4.12/bin:$PATH" "$sandbox/rtems/configure" \ --target=arm-rtems4.12 --prefix="$sandbox/rtems-4.12" \ --disable-networking --enable-rtemsbsp=xilinx_zynq_a9_qemu PATH="$sandbox/rtems-4.12/bin:$PATH" make PATH="$sandbox/rtems-4.12/bin:$PATH" make install cd "$sandbox" cd rtems-libbsd git submodule init git submodule update rtems_waf waf configure --prefix="$sandbox/rtems-4.12" \ --rtems-bsps=arm/xilinx_zynq_a9_qemu \ --buildset=buildset/default.ini waf waf install qemu-system-arm -no-reboot -serial null -serial mon:stdio -net none \ -nographic -M xilinx-zynq-a9 -m 256M \ -kernel build/arm-rtems4.12-xilinx_zynq_a9_qemu/selectpollkqueue01.exe ------------------------------------------------------------------------------- 1. Create a sandbox directory: $ sandbox="$PWD/sandbox" $ mkdir sandbox 1. Clone the repositories: $ cd "$sandbox" $ git clone git://git.rtems.org/rtems-source-builder.git $ git clone git://git.rtems.org/rtems.git $ git clone git://git.rtems.org/rtems-libbsd.git 2. Build and install the tools. In this example the path is $sandbox/rtems-4.12: $ cd "$sandbox" $ cd rtems-source-builder/rtems $ ../source-builder/sb-set-builder --prefix="$sandbox/rtems-4.12" 4.12/rtems-arm 3. Bootstrap the RTEMS sources: $ cd "$sandbox" $ cd rtems $ PATH="$sandbox/rtems-4.12/bin:$PATH" ./bootstrap 5. Build and install the RTEMS Board Support Packages (BSP) you want to use. In this example the path is /opt/rtems/4.12/bsps: $ cd "$sandbox" $ mkdir b-xilinx_zynq_a9_qemu $ cd b-xilinx_zynq_a9_qemu $ PATH="$sandbox/rtems-4.12/bin:$PATH" "$sandbox/rtems/configure" \ --target=arm-rtems4.12 --prefix="$sandbox/rtems-4.12" \ --disable-networking --enable-rtemsbsp=xilinx_zynq_a9_qemu $ PATH="$sandbox/rtems-4.12/bin:$PATH" make $ PATH="$sandbox/rtems-4.12/bin:$PATH" make install 6. Populate the rtems_waf git submodule. Note, make sure you specify 'rtems_waf' or the FreeBSD kernel source will be cloned: $ cd "$sandbox" $ cd rtems-libbsd $ git submodule init $ git submodule update rtems_waf 7. Run Waf's configure with your specific settings. In this case the path to the tools and RTEMS are provided on the command line and so do not need to be in your path or environment [1]. You can use '--rtems-archs=arm,sparc,i386' or '--rtems-bsps=arm/xilinx_zynq_a9_qemu,sparc/sis,i386/pc586' to build for more than BSP at a time. Note, you must provide the architecture and BSP as a pair. Providing just the BSP name will fail. This call also explicitly provides a buildset via the '--buildset=buildset/default.ini' option. If no buildset is provided the default one (which is the same as the one provided explicitly here) will be used. You can also provide multiple buildsets as a coma separated list or via multiple '--buildset=x' options. $ cd "$sandbox" $ cd rtems-libbsd $ waf configure --prefix="$sandbox/rtems-4.12" \ --rtems-bsps=arm/xilinx_zynq_a9_qemu \ --buildset=buildset/default.ini 8. Build and install. The LibBSD package will be installed into the prefix provided to configure: $ cd "$sandbox" $ cd rtems-libbsd $ waf $ waf install 9. Run the tests on QEMU, for example: $ qemu-system-arm -no-reboot -serial null -serial mon:stdio -net none \ $ -nographic -M xilinx-zynq-a9 -m 256M \ $ -kernel build/arm-rtems4.12-xilinx_zynq_a9_qemu/selectpollkqueue01.exe [1] It is good practice to keep your environment as empty as possible. Setting paths to tools or specific values to configure or control a build is dangerous because settings can leak between different builds and change what you expect a build to do. The waf tool used here lets you specify on the command line the tools and RTEMS paths and this is embedded in waf's configuration information. If you have a few source trees working at any one time with different tool sets or configurations you can easly move between them safe in the knowledge that one build will not infect another. Updating RTEMS Waf Support ~~~~~~~~~~~~~~~~~~~~~~~~~~ If you have a working libbsd repository and new changes to the `rtems_waf` submodule has been made, you will need update. A `git status` will indicate there are new commits with: $ git status [ snip output ] modified: rtems_waf (new commits) [ snip output ] To update: $ git submodule update rtems_waf Please make sure you use the exact command or you might find you are cloning the whole of the FreeBSD source tree. If that happens simply git ^C and try again. The following is for developers only who need to move libbsd to a newer versions: $ git submodule update rtems_waf $ cd rtems_waf $ git checkout master $ git pull $ cd .. $ git commit -m "Update rtems_waf" rtems_waf FreeBSD Developer Support ~~~~~~~~~~~~~~~~~~~~~~~~~ The --freebsd-option provides a tool you can set special kernel options. This is a developer tool and should only be used if you are familiar with the internals of the FreeBSD kernel and what these options do. The options are listed in: https://github.com/freebsd/freebsd/blob/master/sys/conf/NOTES An example to turn on a verbose kernel boot, verbose sysinit and bus debugging configure with: --freebsd-options=bootverbose,verbose_sysinit,bus_debug The LibBSD waf support splits the options and converts them to uppercase and adds them -D options on the compiler command line.
About
RTEMS BSD Porting project.
Resources
Stars
Watchers
Forks
Releases
No releases published
Packages 0
No packages published
Languages
- C 93.7%
- C++ 2.3%
- Objective-C 1.3%
- Shell 0.6%
- Python 0.5%
- Yacc 0.4%
- Other 1.2%