Notice: This project is superceded by lxops.
lxdops is a go program that launches and configures LXD containers and manages ZFS filesystems attached to these containers as disk devices. When you launch a container with lxdops, you also create additional zfs filesystems for this container, aside from the root filesystem that is managed by LXD. Similarly, there are lxdops commands to snapshot, rollback, clone/copy, and destroy these filesystems along with their container. You can also specify profiles and cloud-config files to be applied to the container.
All these instructions are contained in an lxdops config file, which can be used to launch/rebuild/delete multiple containers with the same configuration.
The goal is to be able to replace the root directory of a container with an updated one, without disrupting the applications in the container, except for a reboot. To do this correctly requires knowledge of the files that the applications of interest use, so that any changes to these files are placed in external filesystems or they are reconfigured when the container is launched or rebuilt.
For detailed examples, see the separate lxdops.demo repository.
cd main
date > version
# or: git log -1 --format=%cd > version
go install lxdops.go
In branch v2, all internal container configuration, such as installing packages, creating files and users, happens via separate #cloud-config files, that support a subset of the cloud-init configuration. The previous lxdops-specific configuration for the same purpose has been removed.
All lxdops configuration files must have "#lxdops" as the first line and all cloud-init files must have "#cloud-config", in order to avoid using the wrong type of configuration file.
You want to have a set of containers that have the same guest OS, packages, users, etc. in order to run websites, for example a container that has a web server, PHP, and several libraries. You want to have one container per website, but avoid installing and upgrading packages for each container.
You can create a template container with the packages that you want, snapshot it, and then clone it for each website. You can do this, using lxc copy:
lxc copy <template-container>/<snapshot> <working-container>
Assuming that you use ZFS or another copy-on-write filesystem, the root filesystem of each working container is a clone of the template container root filesystem, so it uses very little disk space. Creating the working containers is a relatively fast operation, that does not download and install packages.
But what do you do to upgrade the containers? If you upgrade each one separately, the working container root filesystems start to diverge from their template. In addition, you will be downloading and installing the same upgrades multiple times (possibly tens or hundreds of times per LXD host).
lxdops facilitates the following strategy:
- You structure each working container so that application data is not on the root filesystem, but on external disk devices. Therefore you can replace the root filesystem with a new one, without losing the application data.
- To upgrade, you first create a new template container with the upgrade you want. Alternately, you can upgrade the existing template container and create a new template snapshot.
Then, for each working container:
- Delete the container
- Clone the container from the template
- re-attach the existing external disk devices
- start the container. The container should now run with its new OS and the old application data. This process takes a few seconds per container, during which the container will be offline.
This is what lxdops is for.
An lxdops config file is a yaml file that provides instructions about how to build a template container or a working container. It can include other config files. Detailed documentation is in the Go docs: cd lxdops go doc Config
It provides:
- The image or container/snapshot to create the container from.
- Filesystems and external disk devices to create or use for the container.
- LXD profiles to attach to the container
- A list of cloud-config files to use for configuring the container.
lxdops can create 0 or more zfs filesystems for each container. Each filesystem is parameterized by container name, so each container is automatically assigned its own private external filesystems. If they do not exist, they are created. If they exist, they are used as is.
The external disk devices that lxdops manages are subdirectories of these filesystems. I typically use one filesystem for /var/log, one filesystem for /tmp, and one filesystem for /var/opt, /etc/opt, /opt, /home, /usr/local/bin. If they do not already exist, they can be copied from the corresponding devices of a template container.
lxdops uses a subset of the cloud-config file format to configure containers internally. The cloud-config files are applied directly using the LXD API, without requiring that the container supports cloud-init.
The cloud-config modules (sections) that are supported are:
- packages
- write_files
- users
- runcmd
For more details, see:
- https://cloudinit.readthedocs.io/en/latest/reference/examples.html
- https://github.com/melato/cloudconfig
- https://github.com/melato/cloudconfiglxd
- Separate container OS from application data, so that application data is not on the container root filesystem.
- Create containers by cloning the root filesystem of a template container (using lxc copy of a snapshot), and creating/copying, or cloninig additional filesystems.
It reads container and filesystem configuration from YAML files. Configuration inside the container is done via yaml files in the cloud-init format (#cloud-config).
lxdops launches, copies, and deletes lxdops instances.
An lxdops instance is:
- An LXD container
- A set of ZFS filesystems specific to this container
- A set of disk devices that are in these filesystems and are attached to the container (via a profile)
- An LXD profile that specifies the attached disk devices
A Yaml instance configuration file specifies how to launch and configure an instance. It specifies:
- How to launch the container, from an image, or by copying a snapshot of another container
- ZFS Filesystems to create and zfs properties for these filesystems
- How to create these filesystems: create them from scratch, or copy them (rsync) or clone them from another instance.
- Disk Devices in these filesystems that are attached to the container
- An LXD profile to create with the instance devices
- Additional LXD profiles to attach to the container
- cloud-config files to apply to the container
Several configuration elements can be parameterized with properties such as the instance name, project, and user-defined properties.
More detailed documentation of configuration elements is in the file Config.go
lxdops has support for LXD projects and can clone instances across projects, but I have no good use case for it and I don't use it. I find it simpler to keep all my instances in a single project.
By default, lxdops will use the current LXD project, as detected by looking at the lxc user config files.
lxdops calls these external programs, on the host, with sudo when necessary:
- lxc (It mostly uses the LXD API, but uses the "lxc" command for launching and cloning containers)
- zfs
- rsync
- chown
- mkdir
- mv
lxdops calls these external programs, in the container, via cloud-config files:
- sh
- chpasswd
- chown
- OS-specific commands for adding packages and creating users