Skip to content

Latest commit

 

History

History
310 lines (207 loc) · 9.26 KB

README.md

File metadata and controls

310 lines (207 loc) · 9.26 KB

A tool to "edit" Ubuntu live server CDs

There are a few reasons the Ubuntu live server ISOs as shipped may not quite be what you want. Here are some examples:

  • You want to make an ISO that does a completely automated install

  • You want packages that are not in the package repository by default to be available during install, even when there is no network (or only a very isolated network).

  • You want to add an argument to the default kernel command line.

  • You want to inject a new version of the subiquity snap for testing.

This script aims to help you making modified versions of the distributed ISOs with changes such as those above.

Some of the things it does probably work on desktop installer ISOs too but I haven't thought very hard about that side of things yet.

A warning

Although this program was written by a Canonical employee on company time, it started out as essentially an overgrown shell script used as part of installer developement. It is not a Canonical product and is not supported as such. The "this program is distributed in the hope that it will be useful" part of the GPL stanza is as true as ever but the "without even the implied warranty of FITNESS FOR A PARTICULAR PURPOSE" is perhaps even more true than usual.

Dependencies

This script is pretty Linux-dependent and requires xorriso and mksquashfs to be available on $PATH. Some actions require the python3-debian package to be installed and gpg command to be available. Operating on ISOs from some Ubuntu releases will also need lz4cat (to unpack the initrd) which is found in liblz4-tool.

It needs to be run as root (although possibly using FUSE variants for all the mounts would allow it to run as a regular user, maybe).

General invocation

The basic idea behind this tool is that you tell it where to find the source ISO, where to put the modified ISO and a list of actions that make up the modifications. So an invocation always looks somewhat like this:

# livefs-edit $source.iso $dest.iso [actions]

Actions can be specified two ways: on the command line or in a YAML file. Each action has a name and many of them take arguments.

On the command line, actions and arguments are specified like:

--action-name arg1 arg2 --next-action-name

Arguments that are interpreted as boolean interpret 'on', 'yes', 'true' (case insensitively) as true.

Alternatively (if shell quoting starts to get painful), the actions can be passed as a YAML file, using the --action-yaml flag:

# livefs-edit $source.iso $dest.iso --action-yaml examples/example.yaml

The YAML file should be a list of mappings. Each mapping names the actions with name and lists any arguments by name, for example:

- name: add-cmdline-arg
  arg: autoinstall
  persist: false
- name: shell
- name: add-packages-to-pool
  packages:
    - casper
    - valgrind

Directory structure

This script does all its work in a temporary directory. Within that directory the original ISO is mounted at old/iso and what will be packed into the new ISO is present at new/iso (the script uses a lot of overlayfs mounts to avoid copying large amounts of data around, and also only repack things when there are changes).

Many actions require a writable emulation of the root filesystem that the installer will run in. By default this is created at rootfs in the main temporary directory, but this can be customized.

In general, things from the original ISO are mounted in old/ and are either read-only or should be treated as such. Writable versions for the new ISO live in new/ (mostly).

Actions

setup-rootfs

argument: target (default: "rootfs")

This action sets up a writable emulation of the root filesystem that the installer will run in at the directory named by target. Changes to this rootfs will be present in the rootfs used by installer on the modified ISO.

Many actions will do this implicitly but it may be clearer to be explicit about the target directory name if later shell or cp actions refer to paths in the rootfs.

shell

argument: command (default: null)

Runs a shell (bash) in the main temporary directory. If command is present, this is the command that is run. If not, an interactive shell is run. If the shell (command or interactive) exits with a non-zero code, that aborts the run.

cp

argument: source

argument: dest

Copy a file. The paths source and dest are interpreted in a special way:

  • Absolute paths (i.e. paths starting with '/') are handled as is.
  • A magic prefix of '$LAYER[n]' is handled by mounting the n'th layer if needed and interpreting the remainer of the path relative to the base of that layer.
  • Other paths are interpreted relative to the main temporary directory.

So something like this:

--cp /my/custom/initrd new/iso/casper/initrd

to replace the initrd. And something like this:

--cp /path/to/sources.list '$LAYER[0]/etc/apt/sources.list'

to overwrite sources.list in the base layer.

rm

argument: path

Remove a file or directory. path is interpreted the same way as the paths passed to --cp.

--rm new/iso/casper

to remove the directory casper.

inject-snap

argument: snap

argument: channel (default: "stable")

Inject the passed snap into the rootfs the installer runs in. This is used to test new versions of subiquity. If there is an assert alongside the snap, this will be copied into the ISO too and the snap set up to track the passed channel, otherwise it is installed unasserted.

add-snap-from-store

argument: snap_name

argument: channel (default: "stable")

A wrapper around --inject-snap that downloads the specified snap from the store first.

edit-squashfs

argument: squash_name

argument: add_sys_mounts (default: true)

Mount the squashfs named squash_name at new/{name} and arrange for it be repacked if there are any changes before the new ISO is made.

add_sys_mounts controls whether the usual chroot setup stuff is done (mounting /dev, /proc/ etc, setting up /etc/resolv.conf).

add-cmdline-arg

argument: arg

argument: persist (default: true)

Add an argument to the default kernel command line. If persist is true, it will be present on the default kernel command line of the installed system as well.

add-autoinstall-config

argument: autoinstall_config

Add the provided autoinstall config to the ISO so it is used by default. This also adds "autoinstall" to the default kernel command line.

autoinstall_config is the path to a YAML file which can contain either the autoinstall config directly or a cloud-init user-data file (in which case it can contain other configuration for the live installer session, such as ssh keys to be used for the installer user).

add-xorriso-args

argument: list of xorriso argument(s)

Add one or more extra arguments for xorriso, after the ones that livefs-editor already supplies.

resign-pool

This will generate a new Ed25519 GPG key, sign the package repository on the ISO with it, arrange for the public part to end up in /etc/apt/trusted.gpg.d/custom-iso-key.gpg in the installed system, and then throw the private part away. You should be aware of this change to the default apt configuration! Deleting this file in an autoinstall late-command would be a reasonable thing to do, unless you want the option of using the ISO as an apt repository later on.

add-debs-to-pool

argument: list of deb files

Add the passed deb files to the repository on the CD so that they are available for installation while the installer is running, even if the install is done offline.

This calls resign-pool so do read the note about GPG in the description of that action.

add-packages-to-pool

argument: packages (list of package names)

This is a wrapper around add-debs-to-pool which takes package names rather than deb files. It downloads the listed packages and any others needed to satisfy their dependencies from the main Ubuntu archive and passes them to add-debs-to-pool. Do read the note about GPG in the description of resign-pool.

unpack-initrd

argument: target (default: "new/initrd")

Unpack the initrd using unmkinitramfs into target (contents will likely end up in subdirectories called things like early, early2 and main, at least on amd64) and arrange for these to be repacked into a replacement initrd for the modified ISO if any changes are made.

add-apt-repository

argument: repo

Run add-apt-repository <repo> in the base layer.

install-debs

argument: list of deb files

Install the listed deb files in the installer environment.

install-packages

argument: packages (list of deb files)

Install the listed packages in the base layer.

python

argument: <cmd> (optional)

Execute <cmd> in a namespace that contains the context object as ctxt or start an interactive shell if <cmd> is not passed.

replace-kernel

argument: <flavor>

Modify the ISO so the kernel installed via the metapackage linux-<flavor> will be used to boot the ISO and be installed in the target system.

mount-all-squashfses

Mount all squashfses in new/iso/casper at old/{squash_name} (this is mostly to make poking at ISOs in a subsequent interactive --shell action easier).