Systemd-sysext images are overlay images for /usr
, allowing to extend the base OS with custom (static) binaries.
Flatcar Container Linux as an OS without a package manager is a good fit for extension through systemd-sysext.
The tools in this repository help you to create your own sysext images bundeling software to extend your base OS.
The current focus is on Docker and containerd, contributions are welcome for other software.
See the section at the end on how to bundle any software with the Flix and Flatwrap tools.
The NAME.raw
sysext images (or NAME
sysext directories) can be placed under /etc/extensions/
or /var/lib/extensions
to be activated on boot by systemd-sysext.service
.
Images can specify to require systemd to do a daemon reload (needs systemd 255, Flatcar ships ensure-sysext.service
as workaround to automatically load the image's services).
A current limitation of systemd-sysext
is that you need to use TARGET.upholds
symlinks (supported from systemd 254, similar to .wants
) or Upholds=
drop-ins for the target units to start your units.
For current versions of Flatcar (systemd 252) you need to use systemctl restart systemd-sysext ensure-sysext
to reload the sysext images and start the services and a manual systemd-sysext refresh
is not recommended.
The compatibility mechanism of sysext images requires a metadata file in the image under usr/lib/extension-release.d/extension-release.NAME
.
It needs to contain a matching OS ID
, and either a matching VERSION_ID
or SYSEXT_LEVEL
. Here you can also set EXTENSION_RELOAD_MANAGER=1
for a systemd daemon reload.
Since the rapid release cycle and automatic updates of Flatcar Container Linux make it hard to rely on particular OS libraries by specifying a dependency of the sysext image to the OS version, it is not recommended to match by VERSION_ID
.
Instead, Flatcar defined the SYSEXT_LEVEL
value 1.0
to match for.
You can also use ID=_any
and then neither SYSEXT_LEVEL
nor VERSION_ID
are needed.
The sysext image should only include static binaries.
Inside the image, binaries should be placed under usr/bin/
and systemd units under usr/lib/systemd/system/
.
While placing symlinks in the image itself to enable the units in the same way as systemd would normally do (like sockets.target.wants/my.socket
→ ../my.socket
) is still currently supported, this is not a recommended practice.
The recommended way is to ship drop-ins for the target units that start your unit.
The drop-in file should use the Upholds=
property in the [Unit]
section.
For example, for starting docker.socket
we would use a drop-in for sockets.target
placed in usr/lib/systemd/system/sockets.target.d/10-docker-socket.conf
with the following contents:
[Unit]
Upholds=docker.socket
This can be done also for services, so for docker.service
started by multi-user.target
, the drop-in would reside in usr/lib/systemd/system/multi-user.target.d/10-docker-service.conf
and it would have a Upholds=docker.service
line instead.
The following Butane Config (YAML) can be be transpiled to Ignition JSON and will download a custom Docker+containerd sysext image on first boot.
It also takes care of disabling Torcx and future inbuild Docker and containerd sysext images we plan to ship in Flatcar.
If your sysext image doesn't replace Flatcar's inbuilt Docker/containerd, omit the two links
entries and the torcx-generator
entry.
variant: flatcar
version: 1.0.0
storage:
files:
- path: /etc/extensions/mydocker.raw
contents:
source: https://myserver.net/mydocker.raw
- path: /etc/systemd/system-generators/torcx-generator
links:
- path: /etc/extensions/docker-flatcar.raw
target: /dev/null
overwrite: true
- path: /etc/extensions/containerd-flatcar.raw
target: /dev/null
overwrite: true
The tools here will by default build for any OS and create the metadata file usr/lib/extension-release.d/extension-release.NAME
as follows:
ID=_any
# Depending on the image, e.g., for Docker systemd units, there is also:
# EXTENSION_RELOAD_MANAGER=1
Use the configuration parameters in the tools to build for your distribution (pass OS=
to be the OS ID from /etc/os-release
) or to build for any distribution (pass OS=_any
).
You can also set the architecture to be arm64 to fetch the right binaries and encode this information in the sysext image metadata.
The tools normally generate squashfs images not only because of the compression benefits but also because it doesn't need root permissions and loop device mounts.
The following table shows which build recipes exist and for which the GitHub Release publishes updatable images.
While the goal is to automate the release pipeline to detect latest versions and have weekly releases, currently the release trigger is manual and all version updates except Kubernetes are also manual.
For extensions that are not part of the GitHub Release or which you want to customize, you can build your own images and host them elsewhere - the easiest is to fork this repo and modify the release_build_versions.txt
file and create a new latest
tag.
Extension | Availability |
---|---|
kubernetes |
released |
docker |
released (includes containerd) |
docker_compose |
released |
falco |
released |
nvidia-runtime |
released |
wasmtime |
released |
wasmcloud |
released |
tailscale |
released |
crio |
released |
k3s |
released |
rke2 |
released |
keepalived |
build script |
ollama |
released |
There is a Github Action to build current recipes and to publish the built images as release artifacts. It's possible to directly consume the latest release from a Butane/Ignition configuration, example:
# butane < config.yaml > config.json
# ./flatcar_production_qemu.sh -i ./config.json
variant: flatcar
version: 1.0.0
storage:
files:
- path: /opt/extensions/wasmtime/wasmtime-24.0.0-x86-64.raw
contents:
source: https://github.com/flatcar/sysext-bakery/releases/download/latest/wasmtime-24.0.0-x86-64.raw
- path: /opt/extensions/docker/docker-24.0.9-x86-64.raw
contents:
source: https://github.com/flatcar/sysext-bakery/releases/download/latest/docker-24.0.9-x86-64.raw
- path: /etc/systemd/system-generators/torcx-generator
- path: /etc/sysupdate.d/noop.conf
contents:
source: https://github.com/flatcar/sysext-bakery/releases/download/latest/noop.conf
- path: /etc/sysupdate.wasmtime.d/wasmtime.conf
contents:
source: https://github.com/flatcar/sysext-bakery/releases/download/latest/wasmtime.conf
- path: /etc/sysupdate.docker.d/docker.conf
contents:
source: https://github.com/flatcar/sysext-bakery/releases/download/latest/docker.conf
links:
- target: /opt/extensions/wasmtime/wasmtime-24.0.0-x86-64.raw
path: /etc/extensions/wasmtime.raw
hard: false
- target: /opt/extensions/docker/docker-24.0.9-x86-64.raw
path: /etc/extensions/docker.raw
hard: false
- path: /etc/extensions/docker-flatcar.raw
target: /dev/null
overwrite: true
- path: /etc/extensions/containerd-flatcar.raw
target: /dev/null
overwrite: true
systemd:
units:
- name: systemd-sysupdate.timer
enabled: true
- name: systemd-sysupdate.service
dropins:
- name: wasmtime.conf
contents: |
[Service]
ExecStartPre=/usr/lib/systemd/systemd-sysupdate -C wasmtime update
- name: docker.conf
contents: |
[Service]
ExecStartPre=/usr/lib/systemd/systemd-sysupdate -C docker update
- name: sysext.conf
contents: |
[Service]
ExecStartPost=systemctl restart systemd-sysext
This also configures systemd-sysupdate for auto-updates. The noop.conf
is a workaround for systemd-sysupdate to run without error messages.
Since the configuration sets up a custom Docker version, it also disables Torcx and the future docker-flatcar
and containerd-flatcar
extensions to prevent conflicts.
Here a template for a single extension where you have to replace NAME
, VERSION
, and ARCH
:
# butane < config.yaml > config.json
# ./flatcar_production_qemu.sh -i ./config.json
variant: flatcar
version: 1.0.0
storage:
files:
- path: /opt/extensions/NAME/NAME-VERSION-ARCH.raw
contents:
source: https://github.com/flatcar/sysext-bakery/releases/download/latest/NAME-VERSION-ARCH.raw
- path: /etc/sysupdate.d/noop.conf
contents:
source: https://github.com/flatcar/sysext-bakery/releases/download/latest/noop.conf
- path: /etc/sysupdate.NAME.d/NAME.conf
contents:
source: https://github.com/flatcar/sysext-bakery/releases/download/latest/NAME.conf
links:
- target: /opt/extensions/NAME/NAME-VERSION-ARCH.raw
path: /etc/extensions/NAME.raw
hard: false
systemd:
units:
- name: systemd-sysupdate.timer
enabled: true
- name: systemd-sysupdate.service
dropins:
- name: NAME.conf
contents: |
[Service]
ExecStartPre=/usr/lib/systemd/systemd-sysupdate -C NAME update
- name: sysext.conf
contents: |
[Service]
ExecStartPost=systemctl restart systemd-sysext
In the Flatcar docs you can find an Ignition configuration that explicitly sets the update configurations instead of downloading them.
The updates works by systemd-sysupdate
fetching the SHA256SUMS
file of the generated artifacts, which holds the list of built images with their respective SHA256 digest.
To setup Falco we need the sysext plus the configuration files and the systemd unit.
By default, the falcon daemon systemd unit shipped is the Falco Modern EBPF. Create systemd drop-ins or replace the service to suit your needs if necessary.
The default falco config and rules files are shipped, but you can overwrite it. The example bellow shows how to override the default files:
storage:
files:
- path: /etc/falco/falco_rules.local.yaml
contents:
source: "https://raw.githubusercontent.com/sysdiglabs/falco-workshop/refs/heads/master/falco_rules.local.yaml"
- path: /etc/extensions/falco.raw
contents:
source: https://github.com/flatcar/sysext-bakery/releases/download/latest/falco-0.39.1-x86-64.raw
Of course its also possible to use the artifact-follower to download falco artifacts automatically.
The Flatcar Kubernetes docs show how to use the extension provided here for controllers and workers.
For another example of how you can further customize the recipes provided in this repository, the following recipe uses the image built with create_wasmcloud_sysext.sh
:
variant: flatcar
version: 1.0.0
storage:
files:
- path: /opt/extensions/wasmcloud/wasmcloud-1.2.1-x86-64.raw
contents:
source: https://github.com/flatcar/sysext-bakery/releases/download/latest/wasmcloud-1.2.1-x86-64.raw
- path: /etc/sysupdate.d/noop.conf
contents:
source: https://github.com/flatcar/sysext-bakery/releases/download/latest/noop.conf
- path: /etc/sysupdate.wasmcloud.d/wasmcloud.conf
contents:
source: https://github.com/flatcar/sysext-bakery/releases/download/latest/wasmcloud.conf
- path: /etc/nats-server.conf
contents:
inline: |
jetstream {
domain: default
}
leafnodes {
remotes = [
{
url: "tls://connect.cosmonic.sh"
credentials: "/etc/nats.creds"
}
]
}
- path: /etc/nats.creds
contents:
inline: |
<redacted>
links:
- target: /opt/extensions/wasmcloud/wasmcloud-1.2.1-x86-64.raw
path: /etc/extensions/wasmcloud.raw
hard: false
systemd:
units:
- name: nats.service
enabled: true
dropins:
- name: 10-nats-env-override.conf
contents: |
[Service]
Environment=NATS_CONFIG=/etc/nats-server.conf
- name: wasmcloud.service
enabled: true
dropins:
- name: 10-wasmcloud-env-override.conf
contents: |
[Service]
Environment=WASMCLOUD_LATTICE=<redacted>
- name: systemd-sysupdate.timer
enabled: true
- name: systemd-sysupdate.service
dropins:
- name: wasmcloud.conf
contents: |
[Service]
ExecStartPre=/usr/lib/systemd/systemd-sysupdate -C wasmcloud update
- name: sysext.conf
contents: |
[Service]
ExecStartPost=systemctl restart systemd-sysext
This example uses Butane/Ignition configuration do the following customizations beyond simply including the image:
- Provide a different configuration to setup the nats-server to act as a leaf node to a pre-existing wasmCloud deployment (
/etc/nats-server.conf
). - Provide a set of credentials for the nats-server leaf node to connect with (
/etc/nats.creds
). - Override the bundled
NATS_CONFIG
environment variable to point it to the newly created configuration (NATS_CONFIG=/etc/nats-server.conf
). - Override the lattice the wasmCloud host is configured to connect (
WASMCLOUD_LATTICE=<redacted>
).
The k3s sysext can be configured by using the following snippet, in case you want this to be a k3s server (controlplane):
variant: flatcar
version: 1.0.0
storage:
files:
# filename needs to be k3s.raw
- path: /etc/extensions/k3s.raw
contents:
source: https://github.com/flatcar/sysext-bakery/releases/download/latest/k3s-v1.31.1+k3s1-x86-64.raw
links:
- path: /etc/systemd/system/multi-user.target.wants/k3s.service
target: /usr/local/lib/systemd/system/k3s.service
overwrite: true
Please note that this way you will not get automatic updates via
systemd-sysupdate
.
For a k3s agent (worker node) you would use something like this snippet:
variant: flatcar
version: 1.0.0
storage:
files:
# filename needs to be k3s.raw
- path: /etc/extensions/k3s.raw
contents:
source: https://github.com/flatcar/sysext-bakery/releases/download/latest/k3s-v1.31.1+k3s1-x86-64.raw
links:
- path: /etc/systemd/system/multi-user.target.wants/k3s-agent.service
target: /usr/local/lib/systemd/system/k3s-agent.service
overwrite: true
Of course, any configuration you need should be prepared before starting the
services, like providing a token for an agent or server to join or creating a
config.yaml
file.
The rke2 sysext can be configured by using the following snippet, in case you want this to be a rke2 server (controlplane):
variant: flatcar
version: 1.0.0
storage:
links:
# filename needs to be rke2.raw
- path: /etc/extensions/rke2.raw
contents:
source: https://github.com/flatcar/sysext-bakery/releases/download/latest/rke2-v1.31.1+rke2r1-x86-64.raw
- path: /etc/systemd/system/multi-user.target.wants/rke2-server.service
target: /usr/local/lib/systemd/system/rke2-server.service
overwrite: true
Please note that this way you will not get automatic updates via
systemd-sysupdate
.
For a rke2 agent (worker node) you would use something like this snippet:
variant: flatcar
version: 1.0.0
storage:
links:
# filename needs to be rke2.raw
- path: /etc/extensions/rke2.raw
contents:
source: https://github.com/flatcar/sysext-bakery/releases/download/latest/rke2-v1.31.1+rke2r1-x86-64.raw
- path: /etc/systemd/system/multi-user.target.wants/rke2-agent.service
target: /usr/local/lib/systemd/system/rke2-agent.service
overwrite: true
Of course, any configuration you need should be prepared before starting the
services, like providing a token for an agent or server to join or creating a
config.yaml
file.
The Tailscale sysext ships a service unit but doesn't pre-enable it. You can use this Butane snippet to enable it:
variant: flatcar
version: 1.0.0
storage:
links:
- path: /etc/systemd/system/multi-user.target.wants/tailscaled.service
target: /usr/local/lib/systemd/system/tailscaled.service
overwrite: true
The ollama sysext can be configured by using the following snippet:
variant: flatcar
version: 1.0.0
storage:
files:
- path: /opt/extensions/ollama/ollama-0.3.9-x86-64.raw
contents:
source: https://github.com/flatcar/sysext-bakery/releases/download/latest/ollama-0.3.9-x86-64.raw
- path: /etc/sysupdate.ollama.d/ollama.conf
contents:
source: https://github.com/flatcar/sysext-bakery/releases/download/latest/ollama.conf
links:
- target: /opt/extensions/ollama/ollama-0.3.9-x86-64.raw
path: /etc/extensions/ollama.raw
hard: false
systemd:
units:
- name: ollama.service
enabled: true
dropins:
- name: 10-ollama-env-override.conf
contents: |
[Service]
Environment=HOME="/var/lib/ollama"
Environment=OLLAMA_MODELS="/var/lib/ollama/models"
Environment=OLLAMA_RUNNERS_DIR="/var/lib/ollama/runners"
Note that this configuration can be customized in terms of where Ollama is configured to store its models, configuration and runtime libraries by changing the HOME
, OLLAMA_MODELS
and OLLAMA_RUNNERS_DIR
.
Please refer to the Ollama documentation for further details.
To use the build scripts in this repository, the following packages are required:
curl
jq
squashfs-tools
xz-utils
gawk
yq
To build the Kubernetes sysext for example, use:
./create_kubernetes_sysext.sh v1.29.8 kubernetes
Afterwards, you can test the sysext image with:
sudo cp kubernetes.raw /etc/extensions/kubernetes.raw
sudo systemd-sysext refresh
kubeadm version
This builds x86-64
and arm64
versions of all sysext images listed in release_build_versions.txt
. This takes some time.
./release_build.sh
The Docker releases publish static binaries including containerd and the only missing piece are the systemd units.
To ease the process, the create_docker_sysext.sh
helper script takes care of downloading the release binaries and adding the systemd unit files, and creates a combined Docker+containerd sysext image:
./create_docker_sysext.sh 24.0.9 mydocker
[… writes mydocker.raw into current directory …]
Pass the OS
or ARCH
environment variables to build for another target than Flatcar amd64, e.g., for any distro with arm64:
OS=_any ARCH=arm64 ./create_docker_sysext.sh 24.0.9 mydocker
[… writes mydocker.raw into current directory …]
See the above intro section on how to use the resulting sysext image.
You can also limit the sysext image to only Docker (without containerd and runc) or only containerd (no Docker but runc) by passing the environment variables ONLY_DOCKER=1
or ONLY_CONTAINERD=1
.
If you build both sysext images that way, you can load both combined and, e.g., only load the Docker sysext image for debugging while using the containerd sysext image by default for Kubernetes.
Using the bake_flatcar_image.sh
script, custom Flatcar OS images can be created which include one or more sysexts.
The script will download a Flatcar OS release image, insert the desired sysexts, and optionally create a vendor (public / private cloud or bare metal) image.
By default, the script operates with local sysexts (and optionally sysupdate configurations if present).
However, the --fetch
option may be specified to fetch the sysext .raw
file and sysupdate config from the latest Bakery release.
Sysexts can be added to the root partition or the OEM partition of the OS image (root is preferred). Read more about Flatcar's OS image disk layout here: https://www.flatcar.org/docs/latest/reference/developer-guides/sdk-disk-partitions/
The script requires sudo access at certain points to manage loopback mounts for the OS image partitions and will then prompt for a password.
Refer to ./bake_flatcar_image.sh --help
for more information.
Example usage:
./bake_flatcar_image.sh --fetch --vendor qemu_uefi wasmtime:wasmtime-24.0.0-x86-64.raw
Example usage with local sysext:
ls -1
myext-1.0.1-x86-64.raw
myext.conf
./bake_flatcar_image.sh --fetch --vendor qemu_uefi myext:myext-1.0.1-x86-64.raw
The script supports all vendors and clouds natively supported by Flatcar.
The Flix and Flatwrap tools both convert a given chroot folder into a systemd-sysext image. You have to specify which files should be made available to the host.
The Flix tool rewrites specified binaries to use a custom library path. You also have to specify needed resource folders and you can specify systemd units, too.
Here examples with Flix:
CMD="apk -U add b3sum" ./oci-rootfs.sh alpine:latest /var/tmp/alpine-b3sum
./flix.sh /var/tmp/alpine-b3sum/ b3sum /usr/bin/b3sum /bin/busybox:/usr/bin/busybox
# got b3sum.raw
CMD="apt-get update && apt install -y nginx" ./oci-rootfs.sh debian /var/tmp/debian-nginx
./flix.sh /var/tmp/debian-nginx/ nginx /usr/sbin/nginx /usr/sbin/start-stop-daemon /usr/lib/systemd/system/nginx.service
# got nginx.raw
# Note: Enablement of nginx.service with Butane would happen as in the k3s example
# but you can also pre-enable the service inside the extension.
# Here a non-production nginx test config if you want to try the above:
$ cat /etc/nginx/nginx.conf
user root;
pid /run/nginx.pid;
events {
}
http {
access_log /dev/null;
proxy_temp_path /tmp;
client_body_temp_path /tmp;
fastcgi_temp_path /tmp;
uwsgi_temp_path /tmp;
scgi_temp_path /tmp;
server {
server_name localhost;
listen 127.0.0.1:80;
}
}
The Flatwrap tool generates entry point wrappers for a chroot with unshare
or bwrap
.
You can specify systemd units, too. By default /etc
, /var
, and /home
are mapped from the host but that is configurable (see --help
).
Here examples with Flatwrap:
CMD="apk -U add b3sum" ./oci-rootfs.sh alpine:latest /var/tmp/alpine-b3sum
./flatwrap.sh /var/tmp/alpine-b3sum b3sum /usr/bin/b3sum /bin/busybox:/usr/bin/busybox
# got b3sum.raw
CMD="apk -U add htop" ./oci-rootfs.sh alpine:latest /var/tmp/alpine-htop
# Use ETCMAP=chroot because alpine's htop needs alpine's /etc/terminfo
ETCMAP=chroot ./flatwrap.sh /var/tmp/alpine-htop htop /usr/bin/htop
# got htop.raw
CMD="apt-get update && apt install -y nginx" ./oci-rootfs.sh debian /var/tmp/debian-nginx
./flatwrap.sh /var/tmp/debian-nginx/ nginx /usr/sbin/nginx /usr/sbin/start-stop-daemon /usr/lib/systemd/system/nginx.service
# got nginx.raw
# Note: Enablement of nginx.service with Butane would happen as in the k3s example
# but you can also pre-enable the service inside the extension.
# (The "non-production" nginx test config above can be used here, too, stored on the host's /etc.)
Torcx was a solution for switching between different Docker versions on Flatcar.
In case you have an existing Torcx image you can convert it with the convert_torcx_image.sh
helper script (Currently only Torcx tar balls are supported and the conversion is done on best effort):
./convert_torcx_image.sh TORCXTAR SYSEXTNAME
[… writes SYSEXTNAME.raw into the current directory …]
Please make also sure that your don't have a containerd.service
drop in file under /etc
that uses Torcx paths.
CI can be kicked-off by overriding the latest
tag. The latest
release artifacts will be updated consequently here: https://github.com/flatcar/sysext-bakery/releases/tag/latest
git checkout main
git pull --ff-only
git tag -d latest
git tag -as latest
git push origin --force latest