1.2. barebox¶
1.2.1. Getting barebox¶
barebox is released on a monthly basis. The version numbers use the format YYYY.MM.N, so 2014.06.0 is the monthly release for June 2014. Stable releases are done as needed to fix critical problems and are indicated by incrementing the suffix (for example 2014.06.1).
All releases can be downloaded from:
https://www.barebox.org/download/
Development versions of barebox are accessible via Git. A local repository clone can be checked out as follows:
$ git clone git://git.pengutronix.de/git/barebox.git
Cloning into 'barebox'...
remote: Counting objects: 113356, done.
remote: Compressing objects: 100% (25177/25177), done.
remote: Total 113356 (delta 87910), reused 111155 (delta 85935)
Receiving objects: 100% (113356/113356), 33.13 MiB | 183.00 KiB/s, done.
Resolving deltas: 100% (87910/87910), done.
Checking connectivity... done.
Checking out files: 100% (5651/5651), done.
By default, the master branch is checked out. If you want to develop for barebox, this is the right branch to send patches against.
If you want to see which patches are already selected for the next release,
you can look at the next
branch:
$ git checkout -b next origin/remotes/next
A web interface to the repository is available at https://git.pengutronix.de/cgit/barebox
1.2.2. Configuration¶
barebox uses Kconfig from the Linux kernel as a configuration tool,
where all configuration is done via the make
command. Before running
it you have to specify your architecture with the ARCH
environment
variable and the cross compiler with the CROSS_COMPILE
environment
variable. Currently, ARCH
must be one of:
- arm
- blackfin
- mips
- nios2
- openrisc
- ppc
- sandbox
- x86
CROSS_COMPILE
should be the prefix of your cross compiler. This can
either contain the full path or, if the cross compiler binary is
in your $PATH, just the prefix.
Either export ARCH
and CROSS_COMPILE
once before working on barebox:
export ARCH=arm
export CROSS_COMPILE=/path/to/arm-cortexa8-linux-gnueabihf-
make ...
or add them to each invocation of the make
command:
ARCH=arm CROSS_COMPILE=/path/to/arm-cortexa8-linux-gnueabihf- make ...
For readability, ARCH/CROSS_COMPILE are skipped from the following examples.
1.2.2.1. Configuring for a board¶
All configuration files can be found under the arch/${ARCH}/configs/
directory. For an overview of possible Make targets for your architecture,
type:
make help
Your output from make help
will be based on the architecture you’ve
selected via the ARCH
variable. So if, for example, you had selected:
export ARCH=mips
your help output would represent all of the generic (architecture-independent) targets, followed by the MIPS-specific ones:
make [ARCH=mips] help
...
... list of generic targets ...
...
Architecture specific targets (mips):
No architecture specific help defined for mips
loongson-ls1b_defconfig - Build for loongson-ls1b
ritmix-rzx50_defconfig - Build for ritmix-rzx50
tplink-mr3020_defconfig - Build for tplink-mr3020
dlink-dir-320_defconfig - Build for dlink-dir-320
qemu-malta_defconfig - Build for qemu-malta
barebox supports building for multiple boards with a single config. If you
can’t find your board in the list, it may be supported by one of the multi-board
configs. As an example, this is the case for tegra_v7_defconfig and imx_v7_defconfig.
Select your config with make <yourboard>_defconfig
:
make imx_v7_defconfig
The configuration can be further customized with one of the configuration frontends
with the most popular being menuconfig
:
make menuconfig
barebox uses the same configuration and build system as Linux (Kconfig,
Kbuild), so you can use all the kernel config targets you already know, e.g.
make xconfig
, make allyesconfig
etc.
1.2.2.2. Configuring and compiling “out-of-tree”¶
Before going any further, it’s worth knowing how you can do all your barebox
configuration and compilation “out of tree”; that is, how you can keep your
source directory pristine and have all output from the various make
commands
generated in a separate build directory.
Once you check out your barebox source directory, and before you do any
configuration or building, set the environment variable KBUILD_OUTPUT
to point to your intended output directory, as in:
export KBUILD_OUTPUT=.../my_barebox_build_directory
From that point on, all of the make
commands you run in your source
directory will generate their output in your specified output directory.
Not only does this keep your source directory clean, but it allows several
developers to share the same source directory while doing all their own
configuration and building in their own individual build directories.
Note
To do out-of-tree builds, your source tree must be absolutely clean
of all generated artifacts from previous configurations and builds.
In other words, if you had earlier done any configuration or building
in that source tree that dumped its results into the same source tree
directory, you need to do the equivalent of a make distclean
before
using that source directory for any out-of-tree builds.
1.2.3. Compilation¶
After barebox has been configured it can be compiled simply with:
make
The resulting binary varies depending on the board barebox is compiled for.
Without Multi Image Support support the barebox-flash-image
link will point
to the binary for flashing/uploading to the board. With Multi Image Support support
the compilation process will finish with a list of images built under images/
:
images built:
barebox-freescale-imx51-babbage.img
barebox-genesi-efikasb.img
barebox-freescale-imx53-loco.img
barebox-freescale-imx53-loco-r.img
barebox-freescale-imx53-vmx53.img
barebox-tq-mba53-512mib.img
barebox-tq-mba53-1gib.img
barebox-datamodul-edm-qmx6.img
barebox-guf-santaro.img
barebox-gk802.img
1.2.4. Starting barebox¶
Bringing barebox to a board for the first time is highly board specific, see your board documentation for initial bringup.
barebox binaries are, where possible, designed to be startable second stage from another bootloader. For example, if you have U-Boot running on your board, you can start barebox with U-Boot’s ‘go’ command:
U-Boot: tftp $load_addr barebox.bin
U-Boot: go $load_addr
With barebox already running on your board, this can be used to chainload
another barebox. For instance, if you mounted a TFTP server to /mnt/tftp
(see TFTP filesystem for how to do that), chainload barebox with:
bootm /mnt/tftp/barebox.bin
At least barebox.bin
(with PreBootLoader images (PBL) support enabled arch/$ARCH/pbl/zbarebox.bin
)
should be startable second stage. The flash binary (barebox-flash-image
) may or may not
be startable second stage as it may have SoC specific headers which prevent running second
stage.
1.2.5. First Steps¶
This is a typical barebox startup log:
barebox 2014.06.0-00232-g689dc27-dirty #406 Wed Jun 18 00:25:17 CEST 2014
Board: Genesi Efika MX Smartbook
detected i.MX51 revision 3.0
mc13xxx-spi mc13892@00: Found MC13892 ID: 0x0045d0 [Rev: 2.0a]
m25p80 m25p800: sst25vf032b (4096 Kbytes)
ata0: registered /dev/ata0
imx-esdhc 70004000.esdhc: registered as 70004000.esdhc
imx-esdhc 70008000.esdhc: registered as 70008000.esdhc
imx-ipuv3 40000000.ipu: IPUv3EX probed
netconsole: registered as cs2
malloc space: 0xabe00000 -> 0xafdfffff (size 64 MiB)
mmc1: detected SD card version 2.0
mmc1: registered mmc1
barebox-environment environment-sd.7: setting default environment path to /dev/mmc1.barebox-environment
running /env/bin/init...
Hit any key to stop autoboot: 3
barebox@Genesi Efika MX Smartbook:/
Without intervention, barebox will continue booting after 3 seconds. If interrupted by pressing a key, you will find yourself at the shell.
At the shell type help
for a list of supported commands. help <command>
shows
the usage for a particular command. barebox has tab completion which will complete
your command. Arguments to commands are also completed depending on the command. If
a command expects a file argument only files will be offered as completion. Other
commands will only complete devices or devicetree nodes.