Images contain a root file system and a metadata file that describes the image. They can also contain templates for creating files inside an instance that uses the image.
Images can be packaged as either a unified image (single file) or a split image (two files).
Images for containers have the following directory structure:
metadata.yaml rootfs/ templates/
Images for VMs have the following directory structure:
metadata.yaml rootfs.img templates/
For both instance types, the
templates/ directory is optional.
metadata.yaml file contains information that is relevant to running the image in LXD.
It includes the following information:
architecture: x86_64 creation_date: 1424284563 properties: description: Ubuntu 22.04 LTS Intel 64bit os: Ubuntu release: jammy 22.04 templates: ...
creation_date fields are mandatory.
properties field contains a set of default properties for the image.
description fields are commonly used, but are not mandatory.
templates field is optional.
See Templates (optional) for information on how to configure templates.
Root file system#
For containers, the
rootfs/ directory contains a full file system tree of the root directory (
/) in the container.
Virtual machines use a
qcow2 file instead of a
This file becomes the main disk device.
You can use templates to dynamically create files inside an instance.
To do so, configure template rules in the
metadata.yaml file and place the template files in a
As a general rule, you should never template a file that is owned by a package or is otherwise expected to be overwritten by normal operation of an instance.
For each file that should be generated, create a rule in the
templates: /etc/hosts: when: - create - rename template: hosts.tpl properties: foo: bar /etc/hostname: when: - start template: hostname.tpl /etc/network/interfaces: when: - create template: interfaces.tpl create_only: true
when key can be one or more of:
create- run at the time a new instance is created from the image
copy- run when an instance is created from an existing one
start- run every time the instance is started
template key points to the template file in the
You can pass user-defined template properties to the template file through the
create_only key if you want LXD to create the file if it doesn’t exist, but not overwrite an existing file.
Template files use the Pongo2 format.
They always receive the following context:
Name of the event that triggered the template
Path of the file that uses the template
Key/value map of instance properties (name, architecture, privileged and ephemeral)
Key/value map of the instance’s configuration
Key/value map of the devices assigned to the instance
Key/value map of the template properties specified in
For convenience, the following functions are exported to the Pongo2 templates:
config_get("user.foo", "bar")- Returns the value of
"bar"if not set.
LXD supports two LXD-specific image formats: a unified tarball and split tarballs.
These tarballs can be compressed.
LXD supports a wide variety of compression algorithms for tarballs.
However, for compatibility purposes, you should use
A unified tarball is a single tarball (usually
*.tar.xz) that contains the full content of the image, including the metadata, the root file system and optionally the template files.
This is the format that LXD itself uses internally when publishing images. It is usually easier to work with; therefore, you should use the unified format when creating LXD-specific images.
The image identifier for such images is the SHA-256 of the tarball.
A split image consists of two separate tarballs.
One tarball contains the metadata and optionally the template files (usually
*.tar.xz), and the other contains the root file system (usually
*.squashfs for containers or
*.qcow2 for virtual machines).
For containers, the root file system tarball can be SquashFS-formatted.
For virtual machines, the
rootfs.img file always uses the
It can optionally be compressed using
qcow2’s native compression.
This format is designed to allow for easy image building from existing non-LXD rootfs tarballs that are already available. You should also use this format if you want to create images that can be consumed by both LXD and other tools.
The image identifier for such images is the SHA-256 of the concatenation of the metadata and root file system tarball (in that order).