|| ||Thomas Petazzoni <thomas.petazzoni-wi1+55ScJUtKEb57/3fJTNBPR1lH4CV8-AT-public.gmane.org> |
|| ||buildroot-2zL2ArBv0bUdnm+yROfE0A-AT-public.gmane.org |
|| ||Report from the Buildroot Developer Day,
29th October 2010 |
|| ||Tue, 23 Nov 2010 22:14:17 +0100|
|| ||Article, Thread
A Buildroot Developer Day took place last month, on Friday 29th
October, right after the Embedded Linux Conference Europe. The people
who participated to the session are :
* Peter Korsgaard
* Lionel Landwerlin
* Yann E. Morin
* Nicolas Ferre (only the morning)
* Patrice Vilchez (only the morning)
* Thomas Petazzoni
This is a personal report from Thomas Petazzoni. It hasn't been
reviewed by the other participants, so they are kindly invited to
share their thoughts and corrections.
Since Nicolas Ferre and Patrice Vilchez from Atmel were only present
for the morning, we discussion started by a presentation for Thomas
Petazzoni on his board cleanup work.
The board cleanup work current status is available at:
The goal is to cleanup the contents of the target/device directory and
generally simplify how board support works in Buildroot. This is done
* Using more kernel defconfigs instead of Buildroot specific kernel
* Using more recent versions of the kernel and bootloader
* Using patches available on the Web instead of patches integrated
into the Buildroot source tree (for kernel/U-Boot)
* Using minimal Buildroot defconfig and minimal kernel defconfig, to
significantly reduce the size of the configuration files
* Reducing the number of target skeleton. Instead of having separate
target skeleton each time a minor modification is needed, the
long-term idea is to add more options in Buildroot to tune the
target skeleton. For exemple, when one wants to use mdev instead of
a simple static /dev directory
The target/device directory is now mostly empty. Board-specific stuff
is now located in board/<manufacturer>/<board>.
Nicolas and Patrice, who ship Buildroot as one of the development
environment for the AT91 Atmel evaluation boards, were generally
satisfied with those changes.
They however, proposed some improvements:
* Add the ability for some key components (kernel, u-boot, etc.) to
specify a patch that is in fact a tarball containing multiple
patches, stored on http/ftp. This is more practical than the
current situation of a single file patch, since most of the time,
series of patches needs to be applied.
* Add the ability to specify a space-separated list of patches.
Thomas has voluntered to implement those two changes for the 2011.02
As Lionel Landwerlin was here, we also quickly summarized the state of
the libtool issue. For the record, the problem is that libtool 1.x and
2.2 do not support sysroot correctly, so the .la files must be patched
to include an absolute path to the staging directory.
This isn't a very nice solution, and Lionel proposed on the list to
patch libtool to fix the problem and then autoreconfigure all packages
using libtool. Unfortunately, this would significantly increase the
build time and would be probably be difficult to achieve for some
packages. For that reason, we have kept the existing solution and just
extended it for libtool 2.2 (only libtool 1.x was supported at that
time). This was all done before the meeting.
Libtool 2.4 finally fixes the sysroot problem. So the general
consensus was that we should keep the current hack for the current
packages, and hope for the migration to libtool 2.4 to gradually
happen, reducing the problem progressively.
There was a quick summary of the Crosstool-NG integration done by Yann
E. Morin. Peter was generally satisfied with this initial integration,
but wanted to see the IPv6/RPC/locale/etc. options propagated to
Crosstool-NG configure/build process. Yann agreed that this is lacking
from the current integration, but he plans to work on this on the
future. It shouldn't raise any major design issue.
Peter's goal is to gradually replace the Buildroot internal process to
build toolchains by Crosstool-NG. He currently imagines a one-year
timeframe before phasing out the Buildroot internal process.
The next topic discussed was the cleanup of the toolchain build
Currently, the cross-compiling toolchain generated by Buildroot is
installed in $(STAGING_DIR) (both the toolchain binaries and the
toolchain sysroot). This means that $(STAGING_DIR) contains both
target binaries and host binaries (the ones of the toolchain). We
currently advise users to add $(STAGING_DIR)/usr/bin to their PATH to
get access to the toolchain, but this means that they also get some
target-specific binaries in their PATH, which isn't good.
So, we agreed on :
* Toolchain components should be built in $(BUILD_DIR) and not inside
a specific $(TOOLCHAIN_DIR) directory
* The toolchain should be installed in $(HOST_DIR), with binaries in
$(HOST_DIR)/usr/bin and its sysroot in
* Make $(STAGING_DIR) a symbolic link to
$(HOST_DIR)/usr/<tuple>/sysroot, so that libraries/headers gets
installed here. $(HOST_DIR) will therefore contain everything
that's needed to build applications for the target: both host
utilities, target utilities, libraries and headers.
Gustavo Zacarias has already started the implementation of this first
part. The current status of this work is available from
git://repo.or.cz/buildroot-gz.git (branch toolchain-rework), but it is
not yet finalized nor ready.
The external toolchain support would also be modified to copy the
external toolchain sysroot into $(HOST_DIR)/usr/<tuple>/sysroot.
Then, we would add the feature of generating a SDK from
Buildroot. First in a simple way :
* Turn the STAGING_DIR kconfig option into a "SDK path" option, and
use it as the host dir. It's therefore the responsability of the
user to select upfront where the SDK will be located. Buildroot
build process will properly install things in there, and have all
paths (rpath, libtool paths) adjusted correctly.
* Install into the SDK a small shell script that SDK users can
source. This shell script would set the PATH, PKG_CONFIG_PATH,
PKG_CONFIG_SYSROOT_DIR environment variables to the appropriate
The goal of such SDK is to solve the following common use case. In a
company, a team of people is responsible of embedded Linux integration
using Buildroot. This team has all the skills on how to run/use
Buildroot. Another team is the application development team, and they
don't want/don't know how to use Buildroot. The first team should just
provide them a toolchain with all libraries/headers needed to build
their application and run/debug it on the target. This is the goal of
Later on, we could improve this by making the SDK relocatable. The
"SDK path" option would no longer be needed. A "make sdk" target would
be added to generate a tarball containing the SDK. But since some
files (notably .la files) contain absolute paths, an installation
script would be generated inside this tarball, so that users can
execute this script to install the SDK.
Top-level parallel make
One of the idea we tried to reduce the build time was the
autoconf configuration cache shared by all packages. Unfortunately,
due to subtle differences between the configure checks of different
packages, this solution turned out not to be reliable.
Therefore, Thomas Petazzoni has started experiments to make top-level
parallel make work (i.e be able to use "make -j4" directly). This
would allow several packages to be downloaded, extracted, configured
and built simultaneously. Nothing is ready for testing yet, but Thomas
wanted to inform the other developers of this effort.
Lionel Landwerlin has started working on package management for some
time now. The current status of this work is visible at
What Lionel's work is doing is :
* It overrides STAGING_DIR, TARGET_DIR and HOST_DIR on a per-package
basis to install each package staging, target and host files into a
* Tarball those directories in order to keep track of which package
installed what files
* Extract those tarballs into the STAGING_DIR, TARGET_DIR and
HOST_DIR in order to preserve the current behaviour.
For the moment, the goal is not yet to generate packages, but rather
to know what each package installed. Lionel has also fixed various
minor issues due to packages not creating all necessary directories in
STAGING_DIR/TARGET_DIR, making assumptions on them being created by
We discussed what should be the next steps of this work. The following
notes documents the TODO-list :
* Implement <pkg>-uninstall in the following way:
- Removes files of the package from STAGING_DIR, TARGET_DIR and
- Removes installation stamp files so that next time one runs
"make" the package gets reinstalled to STAGING_DIR, TARGET_DIR
- <pkg>-uninstall is not recursive: it does not take care of
packages that depend on the package being uninstalled.
* Implement <pkg>-clean in the following way:
- Do <pkg>-uninstall
- Remove the source/build directory of the package, so that next
time run is make, the package is re-extracted, re-patched,
re-configured, re-built, etc.
- <pkg>-clean is not recursive: it does not take care of packages
that depend on the package being uninstalled.
Once this is done, the $($(PKG)_CLEAN_CMDS),
$($(PKG)_UNINSTALL_STAGING_CMDS) and $($(PKG)_UNINSTALL_TARGET_CMDS)
should be removed from all packages: the new mechanism will allow to
more reliably remove all packages.
Once this is done, the idea is to add a new <pkg>-remove target that
removes the package and all its reverse depencies (i.e the packages
depending on it) automatically. For that, after the configuration of a
given package, add the package name into the reverse dependencies
files for each package it depends on. The reverse dependency files
would be $(STAMP_DIR)/.<pkg>.rdeps, with one reverse dependency per
Then, <pkg>-remove would be implemented as follow:
* Remove files from STAGING_DIR, TARGET_DIR and HOST_DIR using the
tarballs created for the package at install time
* Call the <pkg>-remove target of all reverse dependencies (beware of
duplicate reverse dependencies)
* Remove the reverse dependency file
* Remove the install stamps of the current package
Finally, in order to automatically remove packages that are no longer
selected in the configuration (this is the *REAL* goal of all this
work), the <pkg>-remove target should be added to the
$(TARGETS_TO_CLEAN) variable for each non-selected package. In the
top-level Makefile, we would run all targets in $(TARGETS_TO_CLEAN)
before running the targets in $(TARGETS). Therefore, all unselected
packages would be removed.
Lionel Landwerlin has voluntered to progress on this work.
This Developer Day has been very productive in terms of discussion,
and for some complicated topics, we know have a better understanding
on what should be implemented and how it should be implemented. The
participants were all very satisfied of the day spent discussing
The next Buildroot Developer Day will happen on Monday, 7th February
2011 in Brussels, Belgium. This is just after the FOSDEM conference
(http://www.fosdem.org). Interested participants are invited to
contact Peter Korsgaard and Thomas Petazzoni.
Thomas Petazzoni, Free Electrons
Kernel, drivers, real-time and embedded Linux
development, consulting, training and support.
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