linuxkit/docs/kernels.md

Linux kernels

LinuxKit kernel images are distributed as hub images which contain the kernel, kernel modules, kernel config file, and optionally, kernel headers to compile kernel modules against. The repository containing the official LinuxKit kernels is at linuxkit/kernels.

The LinuxKit kernels are based on the latest stable releases and are updated frequently to include bug and security fixes. For some kernels we do carry additional patches, which are mostly back-ported fixes from newer kernels. The full kernel source with patches can be found on github. Each kernel image is tagged with the full kernel version plus the hash of the files it was created from (git tree hash of the ./kernel directory). For convenience, the latest kernel of each stable series is also available under a shorthand tag, e.g. linuxkit/kernel:4.9.x for the latest 4.9 kernel. For selected kernels (mostly the LTS kernels and latest stable kernels) we also compile/push kernels with additional debugging enabled. The hub images for these kernels have the _dbg suffix in the tag.

In addition to the official kernel images, LinuxKit offers the ability to build bootable Linux images with kernels from various distributions. We mostly offer this mostly for testing purposes. "Foreign" kernel images are created by re-packing the native kernel packages into hub images. The hub images are typically tagged with the kernel version.

In summary, LinuxKit offers a choice of the following kernels:

• linuxkit/kernel: Official LinuxKit kernels.
• linuxkit/kernel-mainline: Mainline kernel.org kernels from the Ubuntu Mainline PPA.
• linuxkit/kernel-ubuntu: Selected Ubuntu kernels.
• linuxkit/kernel-debian: Selected Debian kernels.
• linuxkit/kernel-centos: Selected CentOS kernels.
• linuxkit/kernel-fedora: Selected Fedora kernels.

Compiling kernel modules

The LinuxKit kernel packages include kernel-dev.tar which contains the headers and other files required to compile kernel modules against the specific version of the kernel. Currently, the headers are not included in the initial RAM disk, but it is possible to compile custom modules offline and include then include the modules in the initial RAM disk.

There is a example, but basically one can use a multi-stage build to compile the kernel modules:

FROM linuxkit/kernel:4.9.x AS ksrc
# Extract headers and compile module
FROM linuxkit/kernel-compile:1b396c221af673757703258159ddc8539843b02b@sha256:6b32d205bfc6407568324337b707d195d027328dbfec554428ea93e7b0a8299b AS build
COPY --from=ksrc /kernel-dev.tar /
RUN tar xf kernel-dev.tar

# copy module source code and compile

To use the kernel module, we recommend adding a final stage to the Dockerfile above, which copies the kernel module from the build stage and performs a insmod as the entry point. You can add this package to the onboot section in your YAML file. kmod.yml contains an example for the configuration.

Working with Linux kernel patches for LinuxKit

We may apply patches to the Linux kernel used in LinuxKit, primarily to cherry-pick some upstream patches or to add some additional functionality, not yet accepted upstream.

Patches are located in kernel/patches-<kernel version> and should follow these rules:

• Patches must be in git am format, i.e. they should contain a complete and sensible commit message.
• Patches must contain a Developer's Certificate of Origin.
• Patch files must have a numeric prefix to ensure the ordering in which they are applied.
• If patches are cherry-picked, they must be cherry-picked with -x to contain the original commit ID.
• If patches are from a different git tree (other than the stable tree), or from a mailing list posting they should contain an Origin: line with a link to the source.

This document outlines the recommended procedure to handle patches. The general process is to apply them to a branch of the Linux stable tree and then export them with git format-patch.

If you want to add or remove patches currently used, please also ping @rneugeba on the PR so that we can update our internal Linux tree to ensure that patches are carried forward if we update the kernel in the future.

Preparation

Patches are applied to point releases of the linux stable tree. You need an up-to-date copy of that tree:

git clone git://git.kernel.org/pub/scm/linux/kernel/git/stable/linux-stable.git

Add it as a remote to a clone of the LinuxKit clone.

We use the following variables:

• KITSRC: Base directory of LinuxKit repository
• LINUXSRC: Base directory of Linux stable kernel repository e.g.:

KITSRC=~/src/linuxkit/linuxkit
LINUXSRC=~/src/linuxkit/linux

to refer to the location of the LinuxKit and Linux kernel trees.

Updating the patches to a new kernel version

There are different ways to do this, but we recommend applying the patches to the current version and then rebase to the new version. We define the following variables to refer to the current base tag and the new tag you want to rebase the patches to:

CURTAG=v4.9.14
NEWTAG=v4.9.15

If you don't already have a branch, it's best to import the current patch set and then rebase:

cd $LINUXSRC
git checkout -b ${NEWTAG}-linuxkit ${CURTAG}
git am ${KITSRC}/kernel/patches/*.patch
git rebase ${NEWTAG}-linuxkit ${NEWTAG}

The git am should not have any conflicts and if the rebase has conflicts resolve them, then git add <files> and git rebase --continue.

If you already have linux tree with a ${CURTAG}-linuxkit branch, you can rebase by creating a new branch from the current branch and then rebase:

cd $LINUXSRC
git checkout ${CURTAG}-linuxkit
git branch ${NEWTAG}-linuxkit ${CURTAG}-linuxkit
git rebase --onto ${NEWTAG} ${NEWTAG} ${NEWTAG}-linuxkit

Again, resolve any conflicts as described above.

Adding/Removing patches

If you want to add or remove patches make sure you have an up-to-date branch with the currently applied patches (see above). Then either any normal means (git cherry-pick -x, git am, or git commit, etc) to add new patches. For cherry-picked patches also please add a Origin: line after the DCO lines with a reference the git tree the patch was cherry-picked from.

If the patch is not cherry-picked try to include as much information in the commit message as possible as to where the patch originated from. The canonical form would be to add a Origin: line after the DCO lines, e.g.:

Origin: https://patchwork.ozlabs.org/patch/622404/

Export patches to LinuxKit

To export patches to LinuxKit, you should use git format-patch from the Linux tree, e.g., something along these lines:

cd $LINUXSRC
rm $KITSRC/kernel/patches-4.9.x/*
git format-patch -o $KITSRC/kernel/patches-4.9.x v4.9.15..HEAD

Then, create a PR for LinuxKit.