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linuxppc CI scripts

Scripts I use to do continuous integration for linuxppc.

Still (and probably always) under heavy development.

Note

The scripts notionally work with docker or podman, but they're only regularly tested with podman on Fedora.

Quick start

Make sure you can run containers.

On Fedora the scripts will use podman, on Ubuntu they use docker,

You need a Linux source tree, which hasn't been built in. You can make sure it's clean with make mrproper, or clone a fresh tree.

Clone this repo. The examples use ~/ci-scripts for brevity, but the repo can be located anywhere.

$ cd ci-scripts
$ cd build
$ make pull-image@ppc64le@fedora
$ make SRC=~/src/linux kernel@ppc64le@fedora JFACTOR=$(nproc)

This will build you a ppc64le_defconfig using the latest Fedora toolchain.

The kernel will be in ~/ci/scripts/build/output/latest-kernel/vmlinux.

For more help try make help.

Building different defconfigs

You can specify a defconfig with DEFCONFIG.

$ make SRC=~/src/linux kernel@ppc64le@fedora DEFCONFIG=powernv_defconfig JFACTOR=$(nproc)

Note that the subarch (eg. ppc64le) needs to match the defconfig, so to build ppc64_defconfig, use ppc64.

$ make SRC=~/src/linux kernel@ppc64@fedora DEFCONFIG=ppc64_defconfig JFACTOR=$(nproc)

Different toolchains

There are images for various toolchains, they are encoded in the distro name/version.

Only the Ubuntu toolchains can build the selftests.

Building selftests

To build the kernel selftests:

$ make SRC=~/src/linux selftests@ppc64le@ubuntu JFACTOR=$(nproc)

Or just the powerpc selftests:

$ make SRC=~/src/linux ppctests@ppc64le@ubuntu JFACTOR=$(nproc)

You can also build the powerpc selftests with all available toolchains using:

$ make SRC=~/src/linux ppctests JFACTOR=$(nproc)

Other options

As mentioned above you pass the make -j factor with JFACTOR=n.

To run sparse use the fedora image and pass SPARSE=2.

$ make SRC=~/src/linux kernel@ppc64le@fedora SPARSE=2 JFACTOR=$(nproc)

The log will be in eg. ~/ci-scripts/build/output/latest-kernel/sparse.log.

To only run sparse on files being recompiled, pass SPARSE=1.

To build modules pass MODULES=1

To convert all modules to builtin, pass MOD2YES=1.

To build with clang pass CLANG=1, only works using the latest Fedora or Ubuntu image.

For a quiet build pass QUIET=1, for verbose pass VERBOSE=1.

By default the script does an incremental build, ie. it doesn't clean. You can clean before building by passing PRE_CLEAN=1, or afterward with POST_CLEAN=1.

Alternately you can clean everything with make clean.

Multiple builds

If you have enough CPU and disk space, you can run multiple builds at once. The output directory is namespaced based on the subarch, distro, version, and defconfig.

Building your own image

If you don't want to pull an untrusted image, you can build it yourself with:

$ make rebuild-image@ppc64le@fedora

Note that the build mounts the source tree read-only, so nothing it does can affect your source tree.

Bisecting the kernel vs a selftest

Build the selftests using a version of the test that's known good. Usually there's no reason to rebuild the tests on every kernel revision.

These examples are run from the kernel directory, not the ci-scripts directory. It can be done either way, but it's more natural to run from the kernel directory when bisectting the kernel. This assumes Linux is in ~/linux and these scripts are in ~/ci-scripts, adapt as appropriate.

$ cd ~/linux
$ make SRC=$PWD -C ~/ci-scripts/build QUIET=1 JFACTOR=$(nproc) ppctests@ppc64le@[email protected] INSTALL=1

Note

🚨 Building the selftests with Ubuntu 22.04 uses glibc 2.35. The default rootdisk uses glibc 2.36, so there should be no issue with missing symbols in glibc. If using another root disk you may need to build with an older Ubuntu image. Another option is to build the selftests statically.

Tar up the selftests into the current directory, the qemu scripts will detect them:

$ tar -czf selftests.tar.gz -C $HOME/ci-scripts/build/output/latest-selftests/ install
$ ~/ci-scripts/scripts/boot/qemu-pseries+kvm --callback "run_selftests(powerpc/mm:wild_bctr)"
...
INFO: Running 'qemu-system-ppc64 -nographic -vga none -M pseries -smp 8 -m 4G -accel kvm ...
...
/ # INFO: Running individual selftests powerpc/mm:wild_bctr
/var/tmp/selftests/run_kselftest.sh -t powerpc/mm:wild_bctr
[    2.783761][  T201] kselftest: Running tests in powerpc
TAP version 13
1..1
# timeout set to 300
# selftests: powerpc/mm: wild_bctr
# test: wild_bctr
# tags: git_version:v6.8-rc6-2555-gfe559db
# Everything is OK in here.
...
# success: wild_bctr
ok 1 selftests: powerpc/mm: wild_bctr
/ # poweroff
/ # Stopping network: [    3.104385][  T274] ip (274) used greatest stack depth: 10912 bytes left
OK
Saving random seed: OK
Stopping klogd: OK
Stopping syslogd: OK
umount: devtmpfs busy - remounted read-only
umount: can't unmount /: Invalid argument
The system is going down NOW!
Sent SIGTERM to all processes
Sent SIGKILL to all processes
Requesting system poweroff
[    5.152672][  T293] reboot: Power down
INFO: Test completed OK

More than one selftest can be run by passing multiple arguments to run_selftests or by passing multiple --callback options.

From there the bisection can either be run by hand, or fully automated by creating a script to build the kernel and run the qemu test.

Using the powerpc debian image

The debian powerpc image in root-disks can be used to test big endian kernels. It also exercises COMPAT, which is not tested on ppc64le these days.

The kernel needs virtio drivers as well as 9PFS built-in. For example to get it booting with g5_defconfig:

$ cd linux
$ ~/ci-scripts/scripts/misc/apply-configs.py 9p guest_configs cgroups-y
$ make g5_defconfig vmlinux
$ ~/ci-scripts/boot/qemu-g5+debian

To do interactive testing, run the boot script with --interactive, the login is root/linuxppc.

Once logged in, to install packages a few steps are needed.

If the network doesn't come up by default:

dhclient $(basename $(ls -1d /sys/class/net/en*))

If you need to use a http proxy:

echo 'Acquire::http::Proxy "http://proxy.org:3128";' > /etc/apt/apt.conf.d/00proxy

Tell apt to update package lists while ignoring missing GPG keys:

apt -o Acquire::AllowInsecureRepositories=true -o Acquire::AllowDowngradeToInsecureRepositories=true update

At that point you should be able to install the updated keyring:

apt install -y --allow-unauthenticated debian-ports-archive-keyring

And update package lists again:

apt update

Then you should be able to install packages, eg:

apt install gcc

If you still can't install packages due to GPG errors, you can disable package authentication with:

echo 'APT::Get::AllowUnauthenticated "true";' > /etc/apt/apt.conf.d/00allow-unauth

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