Dynamic reconfiguration

The bootc model emphasises building a custom container image, binding together a base operating system with configuration in a "static" manner.

However, there are no default restrictions on "dynamic" reconfiguration. For example, you can include default firewall rules in the base image configuration, but it’s also possible to directly apply live firewalling changes by invoking tools such as nft or firewall-cmd etc. by invoking the command directly, or scripting it across multiple machines via tooling such as Ansible.

Best practice: transient runtime reconfiguration

Using firewalling as an example, the default for the firewall-cmd tool is that changes are not persistent across a reboot; you need to explicitly use the --permanent flag, which will cause the changes to be written to the /etc directory.

By default, the /etc directory is persistent, and changes made via tools such as firewall-cmd --permanent can over time lead to "state drift"; the contents of the /etc on the system will differ from the one described in the container image. In this default configuration, a best practice is to first make the changes in the base image, queuing the changes (but not restarting running systems), and also simultaneously write e.g. an Ansible playbook to apply the changes to existing systems, but just in memory.

It is also possible to configure the /etc directory to be transient as well. For more, see Filesystem.

The /run directory

The /run directory is an API filesystem that is defined to be deleted when the system is restarted. It is a best practice to use this directory for transient files.

Dynamic reconfiguration models

Pull

A common pattern is to contact a remote network server for dynamic configuration state. This is effectively how Kubernetes operates - the API server defines the desired state of the system, and machines reconcile to that state.

In this model, you may either include code directly embedded in your base image or a privileged container that contacts the remote network server for configuration, and itself spawns further container images (for example, via the podman API).

Push

Instead of a "pull" based model, at least some workloads may best match a "push" model, as implemented by tooling such as Ansible.

Example subsystems and tools

systemd

For systemd units, there is full support for dynamic transient reconfiguration or launching new services by writing to the /run/systemd directory. For example, systemctl edit --runtime foo.service will allow dynamically changing the configuration of the foo.service unit, without persisting the changes.

NetworkManager

There is a /run/NetworkManager/conf.d directory for applying temporary network configuration.

The nmcli connection modify command by default writes persistent changes; there is a --temporary flag that can be used to make changes only in memory.

podman

The default for podman run is to create a container that will persist across system reboots. The --rm flag can be used for transient containers. For more on this, see Running containers as well as the Podman documentation.

Want to help? Learn how to contribute to Fedora Docs