mirror of
https://github.com/AsahiLinux/u-boot
synced 2024-11-14 08:57:58 +00:00
daab59ac05
AVR32 is gone. It's already more than two years for no support in Buildroot, even longer there is no support in GCC (last version is heavily patched 4.2.4). Linux kernel v4.12 got rid of it (and v4.11 didn't build successfully). There is no good point to keep this support in U-Boot either. Reviewed-by: Simon Glass <sjg@chromium.org> Reviewed-by: Tom Rini <trini@konsulko.com> Reviewed-by: Heiko Schocher <hs@denx.de> Signed-off-by: Andy Shevchenko <andriy.shevchenko@linux.intel.com>
1151 lines
56 KiB
Text
1151 lines
56 KiB
Text
# Copyright (c) 2013 The Chromium OS Authors.
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#
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# SPDX-License-Identifier: GPL-2.0+
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#
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(Please read 'How to change from MAKEALL' if you are used to that tool)
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Quick-start
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===========
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If you just want to quickly set up buildman so you can build something (for
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example Raspberry Pi 2):
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cd /path/to/u-boot
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PATH=$PATH:`pwd`/tools/buildman
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buildman --fetch-arch arm
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buildman -k rpi_2
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ls ../current/rpi_2
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# u-boot.bin is the output image
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What is this?
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=============
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This tool handles building U-Boot to check that you have not broken it
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with your patch series. It can build each individual commit and report
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which boards fail on which commits, and which errors come up. It aims
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to make full use of multi-processor machines.
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A key feature of buildman is its output summary, which allows warnings,
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errors or image size increases in a particular commit or board to be
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quickly identified and the offending commit pinpointed. This can be a big
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help for anyone working with >10 patches at a time.
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Caveats
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=======
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Buildman can be stopped and restarted, in which case it will continue
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where it left off. This should happen cleanly and without side-effects.
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If not, it is a bug, for which a patch would be welcome.
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Buildman gets so tied up in its work that it can ignore the outside world.
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You may need to press Ctrl-C several times to quit it. Also it will print
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out various exceptions when stopped. You may have to kill it since the
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Ctrl-C handling is somewhat broken.
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Theory of Operation
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===================
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(please read this section in full twice or you will be perpetually confused)
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Buildman is a builder. It is not make, although it runs make. It does not
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produce any useful output on the terminal while building, except for
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progress information (except with -v, see below). All the output (errors,
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warnings and binaries if you ask for them) is stored in output
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directories, which you can look at while the build is progressing, or when
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it is finished.
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Buildman is designed to build entire git branches, i.e. muliple commits. It
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can be run repeatedly on the same branch. In this case it will automatically
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rebuild commits which have changed (and remove its old results for that
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commit). It is possible to build a branch for one board, then later build it
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for another board. If you want buildman to re-build a commit it has already
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built (e.g. because of a toolchain update), use the -f flag.
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Buildman produces a concise summary of which boards succeeded and failed.
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It shows which commit introduced which board failure using a simple
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red/green colour coding. Full error information can be requested, in which
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case it is de-duped and displayed against the commit that introduced the
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error. An example workflow is below.
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Buildman stores image size information and can report changes in image size
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from commit to commit. An example of this is below.
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Buildman starts multiple threads, and each thread builds for one board at
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a time. A thread starts at the first commit, configures the source for your
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board and builds it. Then it checks out the next commit and does an
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incremental build. Eventually the thread reaches the last commit and stops.
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If errors or warnings are found along the way, the thread will reconfigure
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after every commit, and your build will be very slow. This is because a
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file that produces just a warning would not normally be rebuilt in an
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incremental build.
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Buildman works in an entirely separate place from your U-Boot repository.
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It creates a separate working directory for each thread, and puts the
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output files in the working directory, organised by commit name and board
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name, in a two-level hierarchy.
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Buildman is invoked in your U-Boot directory, the one with the .git
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directory. It clones this repository into a copy for each thread, and the
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threads do not affect the state of your git repository. Any checkouts done
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by the thread affect only the working directory for that thread.
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Buildman automatically selects the correct tool chain for each board. You
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must supply suitable tool chains, but buildman takes care of selecting the
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right one.
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Buildman generally builds a branch (with the -b flag), and in this case
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builds the upstream commit as well, for comparison. It cannot build
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individual commits at present, unless (maybe) you point it at an empty
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branch. Put all your commits in a branch, set the branch's upstream to a
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valid value, and all will be well. Otherwise buildman will perform random
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actions. Use -n to check what the random actions might be.
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If you just want to build the current source tree, leave off the -b flag
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and add -e. This will display results and errors as they happen. You can
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still look at them later using -se. Note that buildman will assume that the
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source has changed, and will build all specified boards in this case.
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Buildman is optimised for building many commits at once, for many boards.
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On multi-core machines, Buildman is fast because it uses most of the
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available CPU power. When it gets to the end, or if you are building just
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a few commits or boards, it will be pretty slow. As a tip, if you don't
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plan to use your machine for anything else, you can use -T to increase the
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number of threads beyond the default.
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Buildman lets you build all boards, or a subset. Specify the subset by passing
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command-line arguments that list the desired board name, architecture name,
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SOC name, or anything else in the boards.cfg file. Multiple arguments are
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allowed. Each argument will be interpreted as a regular expression, so
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behaviour is a superset of exact or substring matching. Examples are:
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* 'tegra20' All boards with a Tegra20 SoC
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* 'tegra' All boards with any Tegra Soc (Tegra20, Tegra30, Tegra114...)
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* '^tegra[23]0$' All boards with either Tegra20 or Tegra30 SoC
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* 'powerpc' All PowerPC boards
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While the default is to OR the terms together, you can also make use of
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the '&' operator to limit the selection:
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* 'freescale & arm sandbox' All Freescale boards with ARM architecture,
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plus sandbox
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You can also use -x to specifically exclude some boards. For example:
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buildmand arm -x nvidia,freescale,.*ball$
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means to build all arm boards except nvidia, freescale and anything ending
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with 'ball'.
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It is convenient to use the -n option to see what will be built based on
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the subset given. Use -v as well to get an actual list of boards.
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Buildman does not store intermediate object files. It optionally copies
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the binary output into a directory when a build is successful. Size
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information is always recorded. It needs a fair bit of disk space to work,
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typically 250MB per thread.
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Setting up
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==========
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1. Get the U-Boot source. You probably already have it, but if not these
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steps should get you started with a repo and some commits for testing.
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$ cd /path/to/u-boot
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$ git clone git://git.denx.de/u-boot.git .
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$ git checkout -b my-branch origin/master
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$ # Add some commits to the branch, reading for testing
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2. Create ~/.buildman to tell buildman where to find tool chains (see 'The
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.buildman file' later for details). As an example:
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# Buildman settings file
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[toolchain]
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root: /
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rest: /toolchains/*
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eldk: /opt/eldk-4.2
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arm: /opt/linaro/gcc-linaro-arm-linux-gnueabihf-4.8-2013.08_linux
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aarch64: /opt/linaro/gcc-linaro-aarch64-none-elf-4.8-2013.10_linux
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[toolchain-alias]
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x86: i386
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blackfin: bfin
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nds32: nds32le
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openrisc: or1k
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This selects the available toolchain paths. Add the base directory for
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each of your toolchains here. Buildman will search inside these directories
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and also in any '/usr' and '/usr/bin' subdirectories.
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Make sure the tags (here root: rest: and eldk:) are unique.
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The toolchain-alias section indicates that the i386 toolchain should be used
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to build x86 commits.
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Note that you can also specific exactly toolchain prefixes if you like:
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[toolchain-prefix]
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arm: /opt/arm-eabi-4.6/bin/arm-eabi-
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or even:
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[toolchain-prefix]
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arm: /opt/arm-eabi-4.6/bin/arm-eabi-gcc
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This tells buildman that you want to use this exact toolchain for the arm
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architecture. This will override any toolchains found by searching using the
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[toolchain] settings.
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Since the toolchain prefix is an explicit request, buildman will report an
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error if a toolchain is not found with that prefix. The current PATH will be
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searched, so it is possible to use:
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[toolchain-prefix]
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arm: arm-none-eabi-
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and buildman will find arm-none-eabi-gcc in /usr/bin if you have it installed.
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[toolchain-wrapper]
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wrapper: ccache
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This tells buildman to use a compiler wrapper in front of CROSS_COMPILE. In
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this example, ccache. It doesn't affect the toolchain scan. The wrapper is
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added when CROSS_COMPILE environtal variable is set. The name in this
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section is ignored. If more than one line is provided, only the last one
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is taken.
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3. Make sure you have the require Python pre-requisites
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Buildman uses multiprocessing, Queue, shutil, StringIO, ConfigParser and
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urllib2. These should normally be available, but if you get an error like
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this then you will need to obtain those modules:
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ImportError: No module named multiprocessing
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4. Check the available toolchains
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Run this check to make sure that you have a toolchain for every architecture.
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$ ./tools/buildman/buildman --list-tool-chains
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Scanning for tool chains
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- scanning prefix '/opt/gcc-4.6.3-nolibc/x86_64-linux/bin/x86_64-linux-'
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Tool chain test: OK, arch='x86', priority 1
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- scanning prefix '/opt/arm-eabi-4.6/bin/arm-eabi-'
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Tool chain test: OK, arch='arm', priority 1
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- scanning path '/toolchains/gcc-4.9.0-nolibc/i386-linux'
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- looking in '/toolchains/gcc-4.9.0-nolibc/i386-linux/.'
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- looking in '/toolchains/gcc-4.9.0-nolibc/i386-linux/bin'
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- found '/toolchains/gcc-4.9.0-nolibc/i386-linux/bin/i386-linux-gcc'
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- looking in '/toolchains/gcc-4.9.0-nolibc/i386-linux/usr/bin'
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Tool chain test: OK, arch='i386', priority 4
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- scanning path '/toolchains/gcc-4.9.0-nolibc/aarch64-linux'
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- looking in '/toolchains/gcc-4.9.0-nolibc/aarch64-linux/.'
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- looking in '/toolchains/gcc-4.9.0-nolibc/aarch64-linux/bin'
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- found '/toolchains/gcc-4.9.0-nolibc/aarch64-linux/bin/aarch64-linux-gcc'
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- looking in '/toolchains/gcc-4.9.0-nolibc/aarch64-linux/usr/bin'
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Tool chain test: OK, arch='aarch64', priority 4
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- scanning path '/toolchains/gcc-4.9.0-nolibc/microblaze-linux'
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- looking in '/toolchains/gcc-4.9.0-nolibc/microblaze-linux/.'
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- looking in '/toolchains/gcc-4.9.0-nolibc/microblaze-linux/bin'
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- found '/toolchains/gcc-4.9.0-nolibc/microblaze-linux/bin/microblaze-linux-gcc'
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- looking in '/toolchains/gcc-4.9.0-nolibc/microblaze-linux/usr/bin'
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Tool chain test: OK, arch='microblaze', priority 4
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- scanning path '/toolchains/gcc-4.9.0-nolibc/mips64-linux'
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- looking in '/toolchains/gcc-4.9.0-nolibc/mips64-linux/.'
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- looking in '/toolchains/gcc-4.9.0-nolibc/mips64-linux/bin'
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- found '/toolchains/gcc-4.9.0-nolibc/mips64-linux/bin/mips64-linux-gcc'
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- looking in '/toolchains/gcc-4.9.0-nolibc/mips64-linux/usr/bin'
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Tool chain test: OK, arch='mips64', priority 4
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- scanning path '/toolchains/gcc-4.9.0-nolibc/sparc64-linux'
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- looking in '/toolchains/gcc-4.9.0-nolibc/sparc64-linux/.'
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- looking in '/toolchains/gcc-4.9.0-nolibc/sparc64-linux/bin'
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- found '/toolchains/gcc-4.9.0-nolibc/sparc64-linux/bin/sparc64-linux-gcc'
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- looking in '/toolchains/gcc-4.9.0-nolibc/sparc64-linux/usr/bin'
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Tool chain test: OK, arch='sparc64', priority 4
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- scanning path '/toolchains/gcc-4.9.0-nolibc/arm-unknown-linux-gnueabi'
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- looking in '/toolchains/gcc-4.9.0-nolibc/arm-unknown-linux-gnueabi/.'
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- looking in '/toolchains/gcc-4.9.0-nolibc/arm-unknown-linux-gnueabi/bin'
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- found '/toolchains/gcc-4.9.0-nolibc/arm-unknown-linux-gnueabi/bin/arm-unknown-linux-gnueabi-gcc'
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- looking in '/toolchains/gcc-4.9.0-nolibc/arm-unknown-linux-gnueabi/usr/bin'
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Tool chain test: OK, arch='arm', priority 3
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Toolchain '/toolchains/gcc-4.9.0-nolibc/arm-unknown-linux-gnueabi/bin/arm-unknown-linux-gnueabi-gcc' at priority 3 will be ignored because another toolchain for arch 'arm' has priority 1
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- scanning path '/toolchains/gcc-4.9.0-nolibc/sparc-linux'
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- looking in '/toolchains/gcc-4.9.0-nolibc/sparc-linux/.'
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- looking in '/toolchains/gcc-4.9.0-nolibc/sparc-linux/bin'
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- found '/toolchains/gcc-4.9.0-nolibc/sparc-linux/bin/sparc-linux-gcc'
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- looking in '/toolchains/gcc-4.9.0-nolibc/sparc-linux/usr/bin'
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Tool chain test: OK, arch='sparc', priority 4
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- scanning path '/toolchains/gcc-4.9.0-nolibc/mips-linux'
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- looking in '/toolchains/gcc-4.9.0-nolibc/mips-linux/.'
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- looking in '/toolchains/gcc-4.9.0-nolibc/mips-linux/bin'
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- found '/toolchains/gcc-4.9.0-nolibc/mips-linux/bin/mips-linux-gcc'
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- looking in '/toolchains/gcc-4.9.0-nolibc/mips-linux/usr/bin'
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Tool chain test: OK, arch='mips', priority 4
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- scanning path '/toolchains/gcc-4.9.0-nolibc/x86_64-linux'
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- looking in '/toolchains/gcc-4.9.0-nolibc/x86_64-linux/.'
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- looking in '/toolchains/gcc-4.9.0-nolibc/x86_64-linux/bin'
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- found '/toolchains/gcc-4.9.0-nolibc/x86_64-linux/bin/x86_64-linux-gcc'
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- found '/toolchains/gcc-4.9.0-nolibc/x86_64-linux/bin/x86_64-linux-x86_64-linux-gcc'
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- looking in '/toolchains/gcc-4.9.0-nolibc/x86_64-linux/usr/bin'
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Tool chain test: OK, arch='x86_64', priority 4
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Tool chain test: OK, arch='x86_64', priority 4
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Toolchain '/toolchains/gcc-4.9.0-nolibc/x86_64-linux/bin/x86_64-linux-x86_64-linux-gcc' at priority 4 will be ignored because another toolchain for arch 'x86_64' has priority 4
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- scanning path '/toolchains/gcc-4.9.0-nolibc/m68k-linux'
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- looking in '/toolchains/gcc-4.9.0-nolibc/m68k-linux/.'
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- looking in '/toolchains/gcc-4.9.0-nolibc/m68k-linux/bin'
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- found '/toolchains/gcc-4.9.0-nolibc/m68k-linux/bin/m68k-linux-gcc'
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- looking in '/toolchains/gcc-4.9.0-nolibc/m68k-linux/usr/bin'
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Tool chain test: OK, arch='m68k', priority 4
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- scanning path '/toolchains/gcc-4.9.0-nolibc/powerpc-linux'
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- looking in '/toolchains/gcc-4.9.0-nolibc/powerpc-linux/.'
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- looking in '/toolchains/gcc-4.9.0-nolibc/powerpc-linux/bin'
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- found '/toolchains/gcc-4.9.0-nolibc/powerpc-linux/bin/powerpc-linux-gcc'
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- looking in '/toolchains/gcc-4.9.0-nolibc/powerpc-linux/usr/bin'
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Tool chain test: OK, arch='powerpc', priority 4
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- scanning path '/toolchains/gcc-4.6.3-nolibc/bfin-uclinux'
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- looking in '/toolchains/gcc-4.6.3-nolibc/bfin-uclinux/.'
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- looking in '/toolchains/gcc-4.6.3-nolibc/bfin-uclinux/bin'
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- found '/toolchains/gcc-4.6.3-nolibc/bfin-uclinux/bin/bfin-uclinux-gcc'
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- looking in '/toolchains/gcc-4.6.3-nolibc/bfin-uclinux/usr/bin'
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Tool chain test: OK, arch='bfin', priority 6
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- scanning path '/toolchains/gcc-4.6.3-nolibc/sparc-linux'
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- looking in '/toolchains/gcc-4.6.3-nolibc/sparc-linux/.'
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- looking in '/toolchains/gcc-4.6.3-nolibc/sparc-linux/bin'
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- found '/toolchains/gcc-4.6.3-nolibc/sparc-linux/bin/sparc-linux-gcc'
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- looking in '/toolchains/gcc-4.6.3-nolibc/sparc-linux/usr/bin'
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Tool chain test: OK, arch='sparc', priority 4
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Toolchain '/toolchains/gcc-4.6.3-nolibc/sparc-linux/bin/sparc-linux-gcc' at priority 4 will be ignored because another toolchain for arch 'sparc' has priority 4
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- scanning path '/toolchains/gcc-4.6.3-nolibc/mips-linux'
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- looking in '/toolchains/gcc-4.6.3-nolibc/mips-linux/.'
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- looking in '/toolchains/gcc-4.6.3-nolibc/mips-linux/bin'
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- found '/toolchains/gcc-4.6.3-nolibc/mips-linux/bin/mips-linux-gcc'
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- looking in '/toolchains/gcc-4.6.3-nolibc/mips-linux/usr/bin'
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Tool chain test: OK, arch='mips', priority 4
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Toolchain '/toolchains/gcc-4.6.3-nolibc/mips-linux/bin/mips-linux-gcc' at priority 4 will be ignored because another toolchain for arch 'mips' has priority 4
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- scanning path '/toolchains/gcc-4.6.3-nolibc/m68k-linux'
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- looking in '/toolchains/gcc-4.6.3-nolibc/m68k-linux/.'
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- looking in '/toolchains/gcc-4.6.3-nolibc/m68k-linux/bin'
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- found '/toolchains/gcc-4.6.3-nolibc/m68k-linux/bin/m68k-linux-gcc'
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- looking in '/toolchains/gcc-4.6.3-nolibc/m68k-linux/usr/bin'
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Tool chain test: OK, arch='m68k', priority 4
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Toolchain '/toolchains/gcc-4.6.3-nolibc/m68k-linux/bin/m68k-linux-gcc' at priority 4 will be ignored because another toolchain for arch 'm68k' has priority 4
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- scanning path '/toolchains/gcc-4.6.3-nolibc/powerpc-linux'
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- looking in '/toolchains/gcc-4.6.3-nolibc/powerpc-linux/.'
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- looking in '/toolchains/gcc-4.6.3-nolibc/powerpc-linux/bin'
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- found '/toolchains/gcc-4.6.3-nolibc/powerpc-linux/bin/powerpc-linux-gcc'
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- looking in '/toolchains/gcc-4.6.3-nolibc/powerpc-linux/usr/bin'
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Tool chain test: OK, arch='powerpc', priority 4
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Tool chain test: OK, arch='or32', priority 4
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- scanning path '/'
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- looking in '/.'
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- looking in '/bin'
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- looking in '/usr/bin'
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- found '/usr/bin/i586-mingw32msvc-gcc'
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- found '/usr/bin/c89-gcc'
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- found '/usr/bin/x86_64-linux-gnu-gcc'
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- found '/usr/bin/gcc'
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- found '/usr/bin/c99-gcc'
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- found '/usr/bin/arm-linux-gnueabi-gcc'
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- found '/usr/bin/aarch64-linux-gnu-gcc'
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- found '/usr/bin/winegcc'
|
|
- found '/usr/bin/arm-linux-gnueabihf-gcc'
|
|
Tool chain test: OK, arch='i586', priority 11
|
|
Tool chain test: OK, arch='c89', priority 11
|
|
Tool chain test: OK, arch='x86_64', priority 4
|
|
Toolchain '/usr/bin/x86_64-linux-gnu-gcc' at priority 4 will be ignored because another toolchain for arch 'x86_64' has priority 4
|
|
Tool chain test: OK, arch='sandbox', priority 11
|
|
Tool chain test: OK, arch='c99', priority 11
|
|
Tool chain test: OK, arch='arm', priority 4
|
|
Toolchain '/usr/bin/arm-linux-gnueabi-gcc' at priority 4 will be ignored because another toolchain for arch 'arm' has priority 1
|
|
Tool chain test: OK, arch='aarch64', priority 4
|
|
Toolchain '/usr/bin/aarch64-linux-gnu-gcc' at priority 4 will be ignored because another toolchain for arch 'aarch64' has priority 4
|
|
Tool chain test: OK, arch='sandbox', priority 11
|
|
Toolchain '/usr/bin/winegcc' at priority 11 will be ignored because another toolchain for arch 'sandbox' has priority 11
|
|
Tool chain test: OK, arch='arm', priority 4
|
|
Toolchain '/usr/bin/arm-linux-gnueabihf-gcc' at priority 4 will be ignored because another toolchain for arch 'arm' has priority 1
|
|
List of available toolchains (34):
|
|
aarch64 : /toolchains/gcc-4.9.0-nolibc/aarch64-linux/bin/aarch64-linux-gcc
|
|
alpha : /toolchains/gcc-4.9.0-nolibc/alpha-linux/bin/alpha-linux-gcc
|
|
am33_2.0 : /toolchains/gcc-4.9.0-nolibc/am33_2.0-linux/bin/am33_2.0-linux-gcc
|
|
arm : /opt/arm-eabi-4.6/bin/arm-eabi-gcc
|
|
bfin : /toolchains/gcc-4.6.3-nolibc/bfin-uclinux/bin/bfin-uclinux-gcc
|
|
c89 : /usr/bin/c89-gcc
|
|
c99 : /usr/bin/c99-gcc
|
|
frv : /toolchains/gcc-4.9.0-nolibc/frv-linux/bin/frv-linux-gcc
|
|
h8300 : /toolchains/gcc-4.9.0-nolibc/h8300-elf/bin/h8300-elf-gcc
|
|
hppa : /toolchains/gcc-4.9.0-nolibc/hppa-linux/bin/hppa-linux-gcc
|
|
hppa64 : /toolchains/gcc-4.9.0-nolibc/hppa64-linux/bin/hppa64-linux-gcc
|
|
i386 : /toolchains/gcc-4.9.0-nolibc/i386-linux/bin/i386-linux-gcc
|
|
i586 : /usr/bin/i586-mingw32msvc-gcc
|
|
ia64 : /toolchains/gcc-4.9.0-nolibc/ia64-linux/bin/ia64-linux-gcc
|
|
m32r : /toolchains/gcc-4.9.0-nolibc/m32r-linux/bin/m32r-linux-gcc
|
|
m68k : /toolchains/gcc-4.9.0-nolibc/m68k-linux/bin/m68k-linux-gcc
|
|
microblaze: /toolchains/gcc-4.9.0-nolibc/microblaze-linux/bin/microblaze-linux-gcc
|
|
mips : /toolchains/gcc-4.9.0-nolibc/mips-linux/bin/mips-linux-gcc
|
|
mips64 : /toolchains/gcc-4.9.0-nolibc/mips64-linux/bin/mips64-linux-gcc
|
|
or32 : /toolchains/gcc-4.5.1-nolibc/or32-linux/bin/or32-linux-gcc
|
|
powerpc : /toolchains/gcc-4.9.0-nolibc/powerpc-linux/bin/powerpc-linux-gcc
|
|
powerpc64 : /toolchains/gcc-4.9.0-nolibc/powerpc64-linux/bin/powerpc64-linux-gcc
|
|
ppc64le : /toolchains/gcc-4.9.0-nolibc/ppc64le-linux/bin/ppc64le-linux-gcc
|
|
s390x : /toolchains/gcc-4.9.0-nolibc/s390x-linux/bin/s390x-linux-gcc
|
|
sandbox : /usr/bin/gcc
|
|
sh4 : /toolchains/gcc-4.6.3-nolibc/sh4-linux/bin/sh4-linux-gcc
|
|
sparc : /toolchains/gcc-4.9.0-nolibc/sparc-linux/bin/sparc-linux-gcc
|
|
sparc64 : /toolchains/gcc-4.9.0-nolibc/sparc64-linux/bin/sparc64-linux-gcc
|
|
tilegx : /toolchains/gcc-4.6.2-nolibc/tilegx-linux/bin/tilegx-linux-gcc
|
|
x86 : /opt/gcc-4.6.3-nolibc/x86_64-linux/bin/x86_64-linux-gcc
|
|
x86_64 : /toolchains/gcc-4.9.0-nolibc/x86_64-linux/bin/x86_64-linux-gcc
|
|
|
|
|
|
You can see that everything is covered, even some strange ones that won't
|
|
be used (c88 and c99). This is a feature.
|
|
|
|
|
|
5. Install new toolchains if needed
|
|
|
|
You can download toolchains and update the [toolchain] section of the
|
|
settings file to find them.
|
|
|
|
To make this easier, buildman can automatically download and install
|
|
toolchains from kernel.org. First list the available architectures:
|
|
|
|
$ ./tools/buildman/buildman --fetch-arch list
|
|
Checking: https://www.kernel.org/pub/tools/crosstool/files/bin/x86_64/4.6.3/
|
|
Checking: https://www.kernel.org/pub/tools/crosstool/files/bin/x86_64/4.6.2/
|
|
Checking: https://www.kernel.org/pub/tools/crosstool/files/bin/x86_64/4.5.1/
|
|
Checking: https://www.kernel.org/pub/tools/crosstool/files/bin/x86_64/4.2.4/
|
|
Available architectures: alpha am33_2.0 arm bfin cris crisv32 frv h8300
|
|
hppa hppa64 i386 ia64 m32r m68k mips mips64 or32 powerpc powerpc64 s390x sh4
|
|
sparc sparc64 tilegx x86_64 xtensa
|
|
|
|
Then pick one and download it:
|
|
|
|
$ ./tools/buildman/buildman --fetch-arch or32
|
|
Checking: https://www.kernel.org/pub/tools/crosstool/files/bin/x86_64/4.6.3/
|
|
Checking: https://www.kernel.org/pub/tools/crosstool/files/bin/x86_64/4.6.2/
|
|
Checking: https://www.kernel.org/pub/tools/crosstool/files/bin/x86_64/4.5.1/
|
|
Downloading: https://www.kernel.org/pub/tools/crosstool/files/bin/x86_64/4.5.1//x86_64-gcc-4.5.1-nolibc_or32-linux.tar.xz
|
|
Unpacking to: /home/sjg/.buildman-toolchains
|
|
Testing
|
|
- looking in '/home/sjg/.buildman-toolchains/gcc-4.5.1-nolibc/or32-linux/.'
|
|
- looking in '/home/sjg/.buildman-toolchains/gcc-4.5.1-nolibc/or32-linux/bin'
|
|
- found '/home/sjg/.buildman-toolchains/gcc-4.5.1-nolibc/or32-linux/bin/or32-linux-gcc'
|
|
Tool chain test: OK
|
|
|
|
Or download them all from kernel.org and move them to /toolchains directory,
|
|
|
|
$ ./tools/buildman/buildman --fetch-arch all
|
|
$ sudo mkdir -p /toolchains
|
|
$ sudo mv ~/.buildman-toolchains/*/* /toolchains/
|
|
|
|
For those not available from kernel.org, download from the following links.
|
|
|
|
arc: https://github.com/foss-for-synopsys-dwc-arc-processors/toolchain/releases/
|
|
download/arc-2016.09-release/arc_gnu_2016.09_prebuilt_uclibc_le_archs_linux_install.tar.gz
|
|
blackfin: http://sourceforge.net/projects/adi-toolchain/files/
|
|
blackfin-toolchain-elf-gcc-4.5-2014R1_45-RC2.x86_64.tar.bz2
|
|
nds32: http://osdk.andestech.com/packages/
|
|
nds32le-linux-glibc-v1.tgz
|
|
nios2: http://sourcery.mentor.com/public/gnu_toolchain/nios2-linux-gnu/
|
|
sourceryg++-2015.11-27-nios2-linux-gnu-i686-pc-linux-gnu.tar.bz2
|
|
sh: http://sourcery.mentor.com/public/gnu_toolchain/sh-linux-gnu/
|
|
renesas-4.4-200-sh-linux-gnu-i686-pc-linux-gnu.tar.bz2
|
|
|
|
Note openrisc kernel.org toolchain is out of date. Download the latest one from
|
|
http://opencores.org/or1k/OpenRISC_GNU_tool_chain#Prebuilt_versions - eg:
|
|
ftp://ocuser:ocuser@openrisc.opencores.org/toolchain/gcc-or1k-elf-4.8.1-x86.tar.bz2.
|
|
|
|
Buildman should now be set up to use your new toolchain.
|
|
|
|
At the time of writing, U-Boot has these architectures:
|
|
|
|
arc, arm, blackfin, m68k, microblaze, mips, nds32, nios2, openrisc
|
|
powerpc, sandbox, sh, sparc, x86
|
|
|
|
Of these, only arc and nds32 are not available at kernel.org..
|
|
|
|
|
|
How to run it
|
|
=============
|
|
|
|
First do a dry run using the -n flag: (replace <branch> with a real, local
|
|
branch with a valid upstream)
|
|
|
|
$ ./tools/buildman/buildman -b <branch> -n
|
|
|
|
If it can't detect the upstream branch, try checking out the branch, and
|
|
doing something like 'git branch --set-upstream-to upstream/master'
|
|
or something similar. Buildman will try to guess a suitable upstream branch
|
|
if it can't find one (you will see a message like" Guessing upstream as ...).
|
|
|
|
As an example:
|
|
|
|
Dry run, so not doing much. But I would do this:
|
|
|
|
Building 18 commits for 1059 boards (4 threads, 1 job per thread)
|
|
Build directory: ../lcd9b
|
|
5bb3505 Merge branch 'master' of git://git.denx.de/u-boot-arm
|
|
c18f1b4 tegra: Use const for pinmux_config_pingroup/table()
|
|
2f043ae tegra: Add display support to funcmux
|
|
e349900 tegra: fdt: Add pwm binding and node
|
|
424a5f0 tegra: fdt: Add LCD definitions for Tegra
|
|
0636ccf tegra: Add support for PWM
|
|
a994fe7 tegra: Add SOC support for display/lcd
|
|
fcd7350 tegra: Add LCD driver
|
|
4d46e9d tegra: Add LCD support to Nvidia boards
|
|
991bd48 arm: Add control over cachability of memory regions
|
|
54e8019 lcd: Add CONFIG_LCD_ALIGNMENT to select frame buffer alignment
|
|
d92aff7 lcd: Add support for flushing LCD fb from dcache after update
|
|
dbd0677 tegra: Align LCD frame buffer to section boundary
|
|
0cff9b8 tegra: Support control of cache settings for LCD
|
|
9c56900 tegra: fdt: Add LCD definitions for Seaboard
|
|
5cc29db lcd: Add CONFIG_CONSOLE_SCROLL_LINES option to speed console
|
|
cac5a23 tegra: Enable display/lcd support on Seaboard
|
|
49ff541 wip
|
|
|
|
Total boards to build for each commit: 1059
|
|
|
|
This shows that it will build all 1059 boards, using 4 threads (because
|
|
we have a 4-core CPU). Each thread will run with -j1, meaning that each
|
|
make job will use a single CPU. The list of commits to be built helps you
|
|
confirm that things look about right. Notice that buildman has chosen a
|
|
'base' directory for you, immediately above your source tree.
|
|
|
|
Buildman works entirely inside the base directory, here ../lcd9b,
|
|
creating a working directory for each thread, and creating output
|
|
directories for each commit and board.
|
|
|
|
|
|
Suggested Workflow
|
|
==================
|
|
|
|
To run the build for real, take off the -n:
|
|
|
|
$ ./tools/buildman/buildman -b <branch>
|
|
|
|
Buildman will set up some working directories, and get started. After a
|
|
minute or so it will settle down to a steady pace, with a display like this:
|
|
|
|
Building 18 commits for 1059 boards (4 threads, 1 job per thread)
|
|
528 36 124 /19062 1:13:30 : SIMPC8313_SP
|
|
|
|
This means that it is building 19062 board/commit combinations. So far it
|
|
has managed to successfully build 528. Another 36 have built with warnings,
|
|
and 124 more didn't build at all. Buildman expects to complete the process
|
|
in around an hour and a quarter. Use this time to buy a faster computer.
|
|
|
|
|
|
To find out how the build went, ask for a summary with -s. You can do this
|
|
either before the build completes (presumably in another terminal) or
|
|
afterwards. Let's work through an example of how this is used:
|
|
|
|
$ ./tools/buildman/buildman -b lcd9b -s
|
|
...
|
|
01: Merge branch 'master' of git://git.denx.de/u-boot-arm
|
|
powerpc: + galaxy5200_LOWBOOT
|
|
02: tegra: Use const for pinmux_config_pingroup/table()
|
|
03: tegra: Add display support to funcmux
|
|
04: tegra: fdt: Add pwm binding and node
|
|
05: tegra: fdt: Add LCD definitions for Tegra
|
|
06: tegra: Add support for PWM
|
|
07: tegra: Add SOC support for display/lcd
|
|
08: tegra: Add LCD driver
|
|
09: tegra: Add LCD support to Nvidia boards
|
|
10: arm: Add control over cachability of memory regions
|
|
11: lcd: Add CONFIG_LCD_ALIGNMENT to select frame buffer alignment
|
|
12: lcd: Add support for flushing LCD fb from dcache after update
|
|
arm: + lubbock
|
|
13: tegra: Align LCD frame buffer to section boundary
|
|
14: tegra: Support control of cache settings for LCD
|
|
15: tegra: fdt: Add LCD definitions for Seaboard
|
|
16: lcd: Add CONFIG_CONSOLE_SCROLL_LINES option to speed console
|
|
17: tegra: Enable display/lcd support on Seaboard
|
|
18: wip
|
|
|
|
This shows which commits have succeeded and which have failed. In this case
|
|
the build is still in progress so many boards are not built yet (use -u to
|
|
see which ones). But still we can see a few failures. The galaxy5200_LOWBOOT
|
|
never builds correctly. This could be a problem with our toolchain, or it
|
|
could be a bug in the upstream. The good news is that we probably don't need
|
|
to blame our commits. The bad news is that our commits are not tested on that
|
|
board.
|
|
|
|
Commit 12 broke lubbock. That's what the '+ lubbock' means. The failure
|
|
is never fixed by a later commit, or you would see lubbock again, in green,
|
|
without the +.
|
|
|
|
To see the actual error:
|
|
|
|
$ ./tools/buildman/buildman -b <branch> -se lubbock
|
|
...
|
|
12: lcd: Add support for flushing LCD fb from dcache after update
|
|
arm: + lubbock
|
|
+common/libcommon.o: In function `lcd_sync':
|
|
+/u-boot/lcd9b/.bm-work/00/common/lcd.c:120: undefined reference to `flush_dcache_range'
|
|
+arm-none-linux-gnueabi-ld: BFD (Sourcery G++ Lite 2010q1-202) 2.19.51.20090709 assertion fail /scratch/julian/2010q1-release-linux-lite/obj/binutils-src-2010q1-202-arm-none-linux-gnueabi-i686-pc-linux-gnu/bfd/elf32-arm.c:12572
|
|
+make: *** [/u-boot/lcd9b/.bm-work/00/build/u-boot] Error 139
|
|
13: tegra: Align LCD frame buffer to section boundary
|
|
14: tegra: Support control of cache settings for LCD
|
|
15: tegra: fdt: Add LCD definitions for Seaboard
|
|
16: lcd: Add CONFIG_CONSOLE_SCROLL_LINES option to speed console
|
|
-/u-boot/lcd9b/.bm-work/00/common/lcd.c:120: undefined reference to `flush_dcache_range'
|
|
+/u-boot/lcd9b/.bm-work/00/common/lcd.c:125: undefined reference to `flush_dcache_range'
|
|
17: tegra: Enable display/lcd support on Seaboard
|
|
18: wip
|
|
|
|
So the problem is in lcd.c, due to missing cache operations. This information
|
|
should be enough to work out what that commit is doing to break these
|
|
boards. (In this case pxa did not have cache operations defined).
|
|
|
|
If you see error lines marked with '-', that means that the errors were fixed
|
|
by that commit. Sometimes commits can be in the wrong order, so that a
|
|
breakage is introduced for a few commits and fixed by later commits. This
|
|
shows up clearly with buildman. You can then reorder the commits and try
|
|
again.
|
|
|
|
At commit 16, the error moves: you can see that the old error at line 120
|
|
is fixed, but there is a new one at line 126. This is probably only because
|
|
we added some code and moved the broken line further down the file.
|
|
|
|
If many boards have the same error, then -e will display the error only
|
|
once. This makes the output as concise as possible. To see which boards have
|
|
each error, use -l. So it is safe to omit the board name - you will not get
|
|
lots of repeated output for every board.
|
|
|
|
Buildman tries to distinguish warnings from errors, and shows warning lines
|
|
separately with a 'w' prefix.
|
|
|
|
The full build output in this case is available in:
|
|
|
|
../lcd9b/12_of_18_gd92aff7_lcd--Add-support-for/lubbock/
|
|
|
|
done: Indicates the build was done, and holds the return code from make.
|
|
This is 0 for a good build, typically 2 for a failure.
|
|
|
|
err: Output from stderr, if any. Errors and warnings appear here.
|
|
|
|
log: Output from stdout. Normally there isn't any since buildman runs
|
|
in silent mode. Use -V to force a verbose build (this passes V=1
|
|
to 'make')
|
|
|
|
toolchain: Shows information about the toolchain used for the build.
|
|
|
|
sizes: Shows image size information.
|
|
|
|
It is possible to get the build binary output there also. Use the -k option
|
|
for this. In that case you will also see some output files, like:
|
|
|
|
System.map toolchain u-boot u-boot.bin u-boot.map autoconf.mk
|
|
(also SPL versions u-boot-spl and u-boot-spl.bin if available)
|
|
|
|
|
|
Checking Image Sizes
|
|
====================
|
|
|
|
A key requirement for U-Boot is that you keep code/data size to a minimum.
|
|
Where a new feature increases this noticeably it should normally be put
|
|
behind a CONFIG flag so that boards can leave it disabled and keep the image
|
|
size more or less the same with each new release.
|
|
|
|
To check the impact of your commits on image size, use -S. For example:
|
|
|
|
$ ./tools/buildman/buildman -b us-x86 -sS
|
|
Summary of 10 commits for 1066 boards (4 threads, 1 job per thread)
|
|
01: MAKEALL: add support for per architecture toolchains
|
|
02: x86: Add function to get top of usable ram
|
|
x86: (for 1/3 boards) text -272.0 rodata +41.0
|
|
03: x86: Add basic cache operations
|
|
04: x86: Permit bootstage and timer data to be used prior to relocation
|
|
x86: (for 1/3 boards) data +16.0
|
|
05: x86: Add an __end symbol to signal the end of the U-Boot binary
|
|
x86: (for 1/3 boards) text +76.0
|
|
06: x86: Rearrange the output input to remove BSS
|
|
x86: (for 1/3 boards) bss -2140.0
|
|
07: x86: Support relocation of FDT on start-up
|
|
x86: + coreboot-x86
|
|
08: x86: Add error checking to x86 relocation code
|
|
09: x86: Adjust link device tree include file
|
|
10: x86: Enable CONFIG_OF_CONTROL on coreboot
|
|
|
|
|
|
You can see that image size only changed on x86, which is good because this
|
|
series is not supposed to change any other board. From commit 7 onwards the
|
|
build fails so we don't get code size numbers. The numbers are fractional
|
|
because they are an average of all boards for that architecture. The
|
|
intention is to allow you to quickly find image size problems introduced by
|
|
your commits.
|
|
|
|
Note that the 'text' region and 'rodata' are split out. You should add the
|
|
two together to get the total read-only size (reported as the first column
|
|
in the output from binutil's 'size' utility).
|
|
|
|
A useful option is --step which lets you skip some commits. For example
|
|
--step 2 will show the image sizes for only every 2nd commit (so it will
|
|
compare the image sizes of the 1st, 3rd, 5th... commits). You can also use
|
|
--step 0 which will compare only the first and last commits. This is useful
|
|
for an overview of how your entire series affects code size. It will build
|
|
only the upstream commit and your final branch commit.
|
|
|
|
You can also use -d to see a detailed size breakdown for each board. This
|
|
list is sorted in order from largest growth to largest reduction.
|
|
|
|
It is even possible to go a little further with the -B option (--bloat). This
|
|
shows where U-Boot has bloated, breaking the size change down to the function
|
|
level. Example output is below:
|
|
|
|
$ ./tools/buildman/buildman -b us-mem4 -sSdB
|
|
...
|
|
19: Roll crc32 into hash infrastructure
|
|
arm: (for 10/10 boards) all -143.4 bss +1.2 data -4.8 rodata -48.2 text -91.6
|
|
paz00 : all +23 bss -4 rodata -29 text +56
|
|
u-boot: add: 1/0, grow: 3/-2 bytes: 168/-104 (64)
|
|
function old new delta
|
|
hash_command 80 160 +80
|
|
crc32_wd_buf - 56 +56
|
|
ext4fs_read_file 540 568 +28
|
|
insert_var_value_sub 688 692 +4
|
|
run_list_real 1996 1992 -4
|
|
do_mem_crc 168 68 -100
|
|
trimslice : all -9 bss +16 rodata -29 text +4
|
|
u-boot: add: 1/0, grow: 1/-3 bytes: 136/-124 (12)
|
|
function old new delta
|
|
hash_command 80 160 +80
|
|
crc32_wd_buf - 56 +56
|
|
ext4fs_iterate_dir 672 668 -4
|
|
ext4fs_read_file 568 548 -20
|
|
do_mem_crc 168 68 -100
|
|
whistler : all -9 bss +16 rodata -29 text +4
|
|
u-boot: add: 1/0, grow: 1/-3 bytes: 136/-124 (12)
|
|
function old new delta
|
|
hash_command 80 160 +80
|
|
crc32_wd_buf - 56 +56
|
|
ext4fs_iterate_dir 672 668 -4
|
|
ext4fs_read_file 568 548 -20
|
|
do_mem_crc 168 68 -100
|
|
seaboard : all -9 bss -28 rodata -29 text +48
|
|
u-boot: add: 1/0, grow: 3/-2 bytes: 160/-104 (56)
|
|
function old new delta
|
|
hash_command 80 160 +80
|
|
crc32_wd_buf - 56 +56
|
|
ext4fs_read_file 548 568 +20
|
|
run_list_real 1996 2000 +4
|
|
do_nandboot 760 756 -4
|
|
do_mem_crc 168 68 -100
|
|
colibri_t20 : all -9 rodata -29 text +20
|
|
u-boot: add: 1/0, grow: 2/-3 bytes: 140/-112 (28)
|
|
function old new delta
|
|
hash_command 80 160 +80
|
|
crc32_wd_buf - 56 +56
|
|
read_abs_bbt 204 208 +4
|
|
do_nandboot 760 756 -4
|
|
ext4fs_read_file 576 568 -8
|
|
do_mem_crc 168 68 -100
|
|
ventana : all -37 bss -12 rodata -29 text +4
|
|
u-boot: add: 1/0, grow: 1/-3 bytes: 136/-124 (12)
|
|
function old new delta
|
|
hash_command 80 160 +80
|
|
crc32_wd_buf - 56 +56
|
|
ext4fs_iterate_dir 672 668 -4
|
|
ext4fs_read_file 568 548 -20
|
|
do_mem_crc 168 68 -100
|
|
harmony : all -37 bss -16 rodata -29 text +8
|
|
u-boot: add: 1/0, grow: 2/-3 bytes: 140/-124 (16)
|
|
function old new delta
|
|
hash_command 80 160 +80
|
|
crc32_wd_buf - 56 +56
|
|
nand_write_oob_syndrome 428 432 +4
|
|
ext4fs_iterate_dir 672 668 -4
|
|
ext4fs_read_file 568 548 -20
|
|
do_mem_crc 168 68 -100
|
|
medcom-wide : all -417 bss +28 data -16 rodata -93 text -336
|
|
u-boot: add: 1/-1, grow: 1/-2 bytes: 88/-376 (-288)
|
|
function old new delta
|
|
crc32_wd_buf - 56 +56
|
|
do_fat_read_at 2872 2904 +32
|
|
hash_algo 16 - -16
|
|
do_mem_crc 168 68 -100
|
|
hash_command 420 160 -260
|
|
tec : all -449 bss -4 data -16 rodata -93 text -336
|
|
u-boot: add: 1/-1, grow: 1/-2 bytes: 88/-376 (-288)
|
|
function old new delta
|
|
crc32_wd_buf - 56 +56
|
|
do_fat_read_at 2872 2904 +32
|
|
hash_algo 16 - -16
|
|
do_mem_crc 168 68 -100
|
|
hash_command 420 160 -260
|
|
plutux : all -481 bss +16 data -16 rodata -93 text -388
|
|
u-boot: add: 1/-1, grow: 1/-3 bytes: 68/-408 (-340)
|
|
function old new delta
|
|
crc32_wd_buf - 56 +56
|
|
do_load_serial_bin 1688 1700 +12
|
|
hash_algo 16 - -16
|
|
do_fat_read_at 2904 2872 -32
|
|
do_mem_crc 168 68 -100
|
|
hash_command 420 160 -260
|
|
powerpc: (for 5/5 boards) all +37.4 data -3.2 rodata -41.8 text +82.4
|
|
MPC8610HPCD : all +55 rodata -29 text +84
|
|
u-boot: add: 1/0, grow: 0/-1 bytes: 176/-96 (80)
|
|
function old new delta
|
|
hash_command - 176 +176
|
|
do_mem_crc 184 88 -96
|
|
MPC8641HPCN : all +55 rodata -29 text +84
|
|
u-boot: add: 1/0, grow: 0/-1 bytes: 176/-96 (80)
|
|
function old new delta
|
|
hash_command - 176 +176
|
|
do_mem_crc 184 88 -96
|
|
MPC8641HPCN_36BIT: all +55 rodata -29 text +84
|
|
u-boot: add: 1/0, grow: 0/-1 bytes: 176/-96 (80)
|
|
function old new delta
|
|
hash_command - 176 +176
|
|
do_mem_crc 184 88 -96
|
|
sbc8641d : all +55 rodata -29 text +84
|
|
u-boot: add: 1/0, grow: 0/-1 bytes: 176/-96 (80)
|
|
function old new delta
|
|
hash_command - 176 +176
|
|
do_mem_crc 184 88 -96
|
|
xpedite517x : all -33 data -16 rodata -93 text +76
|
|
u-boot: add: 1/-1, grow: 0/-1 bytes: 176/-112 (64)
|
|
function old new delta
|
|
hash_command - 176 +176
|
|
hash_algo 16 - -16
|
|
do_mem_crc 184 88 -96
|
|
...
|
|
|
|
|
|
This shows that commit 19 has reduced codesize for arm slightly and increased
|
|
it for powerpc. This increase was offset in by reductions in rodata and
|
|
data/bss.
|
|
|
|
Shown below the summary lines are the sizes for each board. Below each board
|
|
are the sizes for each function. This information starts with:
|
|
|
|
add - number of functions added / removed
|
|
grow - number of functions which grew / shrunk
|
|
bytes - number of bytes of code added to / removed from all functions,
|
|
plus the total byte change in brackets
|
|
|
|
The change seems to be that hash_command() has increased by more than the
|
|
do_mem_crc() function has decreased. The function sizes typically add up to
|
|
roughly the text area size, but note that every read-only section except
|
|
rodata is included in 'text', so the function total does not exactly
|
|
correspond.
|
|
|
|
It is common when refactoring code for the rodata to decrease as the text size
|
|
increases, and vice versa.
|
|
|
|
|
|
The .buildman file
|
|
==================
|
|
|
|
The .buildman file provides information about the available toolchains and
|
|
also allows build flags to be passed to 'make'. It consists of several
|
|
sections, with the section name in square brackets. Within each section are
|
|
a set of (tag, value) pairs.
|
|
|
|
'[toolchain]' section
|
|
|
|
This lists the available toolchains. The tag here doesn't matter, but
|
|
make sure it is unique. The value is the path to the toolchain. Buildman
|
|
will look in that path for a file ending in 'gcc'. It will then execute
|
|
it to check that it is a C compiler, passing only the --version flag to
|
|
it. If the return code is 0, buildman assumes that it is a valid C
|
|
compiler. It uses the first part of the name as the architecture and
|
|
strips off the last part when setting the CROSS_COMPILE environment
|
|
variable (parts are delimited with a hyphen).
|
|
|
|
For example powerpc-linux-gcc will be noted as a toolchain for 'powerpc'
|
|
and CROSS_COMPILE will be set to powerpc-linux- when using it.
|
|
|
|
'[toolchain-alias]' section
|
|
|
|
This converts toolchain architecture names to U-Boot names. For example,
|
|
if an x86 toolchains is called i386-linux-gcc it will not normally be
|
|
used for architecture 'x86'. Adding 'x86: i386 x86_64' to this section
|
|
will tell buildman that the i386 and x86_64 toolchains can be used for
|
|
the x86 architecture.
|
|
|
|
'[make-flags]' section
|
|
|
|
U-Boot's build system supports a few flags (such as BUILD_TAG) which
|
|
affect the build product. These flags can be specified in the buildman
|
|
settings file. They can also be useful when building U-Boot against other
|
|
open source software.
|
|
|
|
[make-flags]
|
|
at91-boards=ENABLE_AT91_TEST=1
|
|
snapper9260=${at91-boards} BUILD_TAG=442
|
|
snapper9g45=${at91-boards} BUILD_TAG=443
|
|
|
|
This will use 'make ENABLE_AT91_TEST=1 BUILD_TAG=442' for snapper9260
|
|
and 'make ENABLE_AT91_TEST=1 BUILD_TAG=443' for snapper9g45. A special
|
|
variable ${target} is available to access the target name (snapper9260
|
|
and snapper9g20 in this case). Variables are resolved recursively. Note
|
|
that variables can only contain the characters A-Z, a-z, 0-9, hyphen (-)
|
|
and underscore (_).
|
|
|
|
It is expected that any variables added are dealt with in U-Boot's
|
|
config.mk file and documented in the README.
|
|
|
|
Note that you can pass ad-hoc options to the build using environment
|
|
variables, for example:
|
|
|
|
SOME_OPTION=1234 ./tools/buildman/buildman my_board
|
|
|
|
|
|
Quick Sanity Check
|
|
==================
|
|
|
|
If you have made changes and want to do a quick sanity check of the
|
|
currently checked-out source, run buildman without the -b flag. This will
|
|
build the selected boards and display build status as it runs (i.e. -v is
|
|
enabled automatically). Use -e to see errors/warnings as well.
|
|
|
|
|
|
Building Ranges
|
|
===============
|
|
|
|
You can build a range of commits by specifying a range instead of a branch
|
|
when using the -b flag. For example:
|
|
|
|
upstream/master..us-buildman
|
|
|
|
will build commits in us-buildman that are not in upstream/master.
|
|
|
|
|
|
Building Faster
|
|
===============
|
|
|
|
By default, buildman executes 'make mrproper' prior to building the first
|
|
commit for each board. This causes everything to be built from scratch. If you
|
|
trust the build system's incremental build capabilities, you can pass the -I
|
|
flag to skip the 'make mproper' invocation, which will reduce the amount of
|
|
work 'make' does, and hence speed up the build. This flag will speed up any
|
|
buildman invocation, since it reduces the amount of work done on any build.
|
|
|
|
One possible application of buildman is as part of a continual edit, build,
|
|
edit, build, ... cycle; repeatedly applying buildman to the same change or
|
|
series of changes while making small incremental modifications to the source
|
|
each time. This provides quick feedback regarding the correctness of recent
|
|
modifications. In this scenario, buildman's default choice of build directory
|
|
causes more build work to be performed than strictly necessary.
|
|
|
|
By default, each buildman thread uses a single directory for all builds. When a
|
|
thread builds multiple boards, the configuration built in this directory will
|
|
cycle through various different configurations, one per board built by the
|
|
thread. Variations in the configuration will force a rebuild of affected source
|
|
files when a thread switches between boards. Ideally, such buildman-induced
|
|
rebuilds would not happen, thus allowing the build to operate as efficiently as
|
|
the build system and source changes allow. buildman's -P flag may be used to
|
|
enable this; -P causes each board to be built in a separate (board-specific)
|
|
directory, thus avoiding any buildman-induced configuration changes in any
|
|
build directory.
|
|
|
|
U-Boot's build system embeds information such as a build timestamp into the
|
|
final binary. This information varies each time U-Boot is built. This causes
|
|
various files to be rebuilt even if no source changes are made, which in turn
|
|
requires that the final U-Boot binary be re-linked. This unnecessary work can
|
|
be avoided by turning off the timestamp feature. This can be achieved by
|
|
setting the SOURCE_DATE_EPOCH environment variable to 0.
|
|
|
|
Combining all of these options together yields the command-line shown below.
|
|
This will provide the quickest possible feedback regarding the current content
|
|
of the source tree, thus allowing rapid tested evolution of the code.
|
|
|
|
SOURCE_DATE_EPOCH=0 ./tools/buildman/buildman -I -P tegra
|
|
|
|
|
|
Checking configuration
|
|
======================
|
|
|
|
A common requirement when converting CONFIG options to Kconfig is to check
|
|
that the effective configuration has not changed due to the conversion.
|
|
Buildman supports this with the -K option, used after a build. This shows
|
|
differences in effective configuration between one commit and the next.
|
|
|
|
For example:
|
|
|
|
$ buildman -b kc4 -sK
|
|
...
|
|
43: Convert CONFIG_SPL_USBETH_SUPPORT to Kconfig
|
|
arm:
|
|
+ u-boot.cfg: CONFIG_SPL_ENV_SUPPORT=1 CONFIG_SPL_NET_SUPPORT=1
|
|
+ u-boot-spl.cfg: CONFIG_SPL_MMC_SUPPORT=1 CONFIG_SPL_NAND_SUPPORT=1
|
|
+ all: CONFIG_SPL_ENV_SUPPORT=1 CONFIG_SPL_MMC_SUPPORT=1 CONFIG_SPL_NAND_SUPPORT=1 CONFIG_SPL_NET_SUPPORT=1
|
|
am335x_evm_usbspl :
|
|
+ u-boot.cfg: CONFIG_SPL_ENV_SUPPORT=1 CONFIG_SPL_NET_SUPPORT=1
|
|
+ u-boot-spl.cfg: CONFIG_SPL_MMC_SUPPORT=1 CONFIG_SPL_NAND_SUPPORT=1
|
|
+ all: CONFIG_SPL_ENV_SUPPORT=1 CONFIG_SPL_MMC_SUPPORT=1 CONFIG_SPL_NAND_SUPPORT=1 CONFIG_SPL_NET_SUPPORT=1
|
|
44: Convert CONFIG_SPL_USB_HOST_SUPPORT to Kconfig
|
|
...
|
|
|
|
This shows that commit 44 enabled three new options for the board
|
|
am335x_evm_usbspl which were not enabled in commit 43. There is also a
|
|
summary for 'arm' showing all the changes detected for that architecture.
|
|
In this case there is only one board with changes, so 'arm' output is the
|
|
same as 'am335x_evm_usbspl'/
|
|
|
|
The -K option uses the u-boot.cfg, spl/u-boot-spl.cfg and tpl/u-boot-tpl.cfg
|
|
files which are produced by a build. If all you want is to check the
|
|
configuration you can in fact avoid doing a full build, using -D. This tells
|
|
buildman to configuration U-Boot and create the .cfg files, but not actually
|
|
build the source. This is 5-10 times faster than doing a full build.
|
|
|
|
By default buildman considers the follow two configuration methods
|
|
equivalent:
|
|
|
|
#define CONFIG_SOME_OPTION
|
|
|
|
CONFIG_SOME_OPTION=y
|
|
|
|
The former would appear in a header filer and the latter in a defconfig
|
|
file. The achieve this, buildman considers 'y' to be '1' in configuration
|
|
variables. This avoids lots of useless output when converting a CONFIG
|
|
option to Kconfig. To disable this behaviour, use --squash-config-y.
|
|
|
|
|
|
Other options
|
|
=============
|
|
|
|
Buildman has various other command line options. Try --help to see them.
|
|
|
|
When doing builds, Buildman's return code will reflect the overall result:
|
|
|
|
0 (success) No errors or warnings found
|
|
128 Errors found
|
|
129 Warnings found
|
|
|
|
|
|
How to change from MAKEALL
|
|
==========================
|
|
|
|
Buildman includes most of the features of MAKEALL and is generally faster
|
|
and easier to use. In particular it builds entire branches: if a particular
|
|
commit introduces an error in a particular board, buildman can easily show
|
|
you this, even if a later commit fixes that error.
|
|
|
|
The reasons to deprecate MAKEALL are:
|
|
- We don't want to maintain two build systems
|
|
- Buildman is typically faster
|
|
- Buildman has a lot more features
|
|
|
|
But still, many people will be sad to lose MAKEALL. If you are used to
|
|
MAKEALL, here are a few pointers.
|
|
|
|
First you need to set up your tool chains - see the 'Setting up' section
|
|
for details. Once you have your required toolchain(s) detected then you are
|
|
ready to go.
|
|
|
|
To build the current source tree, run buildman without a -b flag:
|
|
|
|
./tools/buildman/buildman <list of things to build>
|
|
|
|
This will build the current source tree for the given boards and display
|
|
the results and errors.
|
|
|
|
However buildman usually works on entire branches, and for that you must
|
|
specify a board flag:
|
|
|
|
./tools/buildman/buildman -b <branch_name> <list of things to build>
|
|
|
|
followed by (afterwards, or perhaps concurrently in another terminal):
|
|
|
|
./tools/buildman/buildman -b <branch_name> -s <list of things to build>
|
|
|
|
to see the results of the build. Rather than showing you all the output,
|
|
buildman just shows a summary, with red indicating that a commit introduced
|
|
an error and green indicating that a commit fixed an error. Use the -e
|
|
flag to see the full errors and -l to see which boards caused which errors.
|
|
|
|
If you really want to see build results as they happen, use -v when doing a
|
|
build (and -e to see the errors/warnings too).
|
|
|
|
You don't need to stick around on that branch while buildman is running. It
|
|
checks out its own copy of the source code, so you can change branches,
|
|
add commits, etc. without affecting the build in progress.
|
|
|
|
The <list of things to build> can include board names, architectures or the
|
|
like. There are no flags to disambiguate since ambiguities are rare. Using
|
|
the examples from MAKEALL:
|
|
|
|
Examples:
|
|
- build all Power Architecture boards:
|
|
MAKEALL -a powerpc
|
|
MAKEALL --arch powerpc
|
|
MAKEALL powerpc
|
|
** buildman -b <branch> powerpc
|
|
- build all PowerPC boards manufactured by vendor "esd":
|
|
MAKEALL -a powerpc -v esd
|
|
** buildman -b <branch> esd
|
|
- build all PowerPC boards manufactured either by "keymile" or "siemens":
|
|
MAKEALL -a powerpc -v keymile -v siemens
|
|
** buildman -b <branch> keymile siemens
|
|
- build all Freescale boards with MPC83xx CPUs, plus all 4xx boards:
|
|
MAKEALL -c mpc83xx -v freescale 4xx
|
|
** buildman -b <branch> mpc83xx freescale 4xx
|
|
|
|
Buildman automatically tries to use all the CPUs in your machine. If you
|
|
are building a lot of boards it will use one thread for every CPU core
|
|
it detects in your machine. This is like MAKEALL's BUILD_NBUILDS option.
|
|
You can use the -T flag to change the number of threads. If you are only
|
|
building a few boards, buildman will automatically run make with the -j
|
|
flag to increase the number of concurrent make tasks. It isn't normally
|
|
that helpful to fiddle with this option, but if you use the BUILD_NCPUS
|
|
option in MAKEALL then -j is the equivalent in buildman.
|
|
|
|
Buildman puts its output in ../<branch_name> by default but you can change
|
|
this with the -o option. Buildman normally does out-of-tree builds: use -i
|
|
to disable that if you really want to. But be careful that once you have
|
|
used -i you pollute buildman's copies of the source tree, and you will need
|
|
to remove the build directory (normally ../<branch_name>) to run buildman
|
|
in normal mode (without -i).
|
|
|
|
Buildman doesn't keep the output result normally, but use the -k option to
|
|
do this.
|
|
|
|
Please read 'Theory of Operation' a few times as it will make a lot of
|
|
things clearer.
|
|
|
|
Some options you might like are:
|
|
|
|
-B shows which functions are growing/shrinking in which commit - great
|
|
for finding code bloat.
|
|
-S shows image sizes for each commit (just an overall summary)
|
|
-u shows boards that you haven't built yet
|
|
--step 0 will build just the upstream commit and the last commit of your
|
|
branch. This is often a quick sanity check that your branch doesn't
|
|
break anything. But note this does not check bisectability!
|
|
|
|
|
|
TODO
|
|
====
|
|
|
|
This has mostly be written in my spare time as a response to my difficulties
|
|
in testing large series of patches. Apart from tidying up there is quite a
|
|
bit of scope for improvement. Things like better error diffs and easier
|
|
access to log files. Also it would be nice if buildman could 'hunt' for
|
|
problems, perhaps by building a few boards for each arch, or checking
|
|
commits for changed files and building only boards which use those files.
|
|
|
|
A specific problem to fix is that Ctrl-C does not exit buildman cleanly when
|
|
multiple builder threads are active.
|
|
|
|
Credits
|
|
=======
|
|
|
|
Thanks to Grant Grundler <grundler@chromium.org> for his ideas for improving
|
|
the build speed by building all commits for a board instead of the other
|
|
way around.
|
|
|
|
|
|
Simon Glass
|
|
sjg@chromium.org
|
|
Halloween 2012
|
|
Updated 12-12-12
|
|
Updated 23-02-13
|