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apt2ostree

Homepage: http://github.com/stb-tester/apt2ostree

apt2ostree is used for building Debian/Ubuntu based ostree images. It performs the same task as debootstrap/multistrap but the output is an ostree tree rather than a rootfs in a directory.

Unlike other similar tools, apt2ostree is fast, reproducible, space-efficient, doesn't depend on apt/dpkg being installed on the host, is well suited to building multiple similar but different images, and it allows you to version-control package updates as you do with your source code.

Features

Lockfiles

We store all our source in git. Reproducibility is an important requirement for us - when doing a build from the same source we want to end up with an image with the same packages and versions of packages installed no matter what machine we run it on or whether we run it sooner rather than later. This is complicated with apt because it's more geared to keeping a traditional system up-to-date and the apt-mirrors don't keep the old packages in their indices.

To fix this we took a leaf from modern programming language package managers. We use the lockfile concept as used by rust's cargo package manager (cargo.lock) or nodejs's npm (package-lock.json). The idea is that you have two files, one that is written by hand and lists the packages you want to install, and a second one generated from the first that lists all the versions of the packages and all their transitive dependencies. This second file is the lockfile.

The key is that you check both files into your git repository. The lockfile is a complete description of the packages you want to be installed on the target system. This determinism has a few advantages:

  1. You can go back to a particular revision in the past and build a functionally identical image.
  2. Updates to the lockfiles are recorded in git so we can diff between source revisions to investigate any changes in behavior seen.
  3. Security updates are now recorded in your git history and can be managed and deployed explicitly.

Updating lockfiles

We have a CI job that runs every night updating the lockfiles - this is the equivalent of an apt-get update. The CI command looks like:

git checkout -b update-lockfiles
ninja update-lockfiles
git commit -a -m "Updated lockfiles as of $(date --iso-8601)"
git push origin updated-lockfiles

This kicks off builds and in the morning we can see exactly what packages changed and we have a fresh build with CI passing or failing so we have confidence that the image still works after applying the security updates. We can then choose to roll it out to our devices in the field.

It turns out that the lockfile is a kind of snapshot of the package metadata from the debian mirrors filtered by the top-level list of packages you want installed - and we implement it in exactly this way. The format of the lockfile is a Debian Package index as used by apt. This has a number of benefits over a plain list of package names and versions:

  1. It contains MD5, SHA1 and SHA256 fields so we can be certain we're using exactly the package we want to be. This is nice and secure without having to faff around with gpg.
  2. It (indirectly) contains the URL of the package so we can implement the downloading of the packages external to the chroots where they will be installed.

Example

See an example project under examples/nginx which builds an image containing nginx and its dependencies. The list of packages is defined at the top of configure.py.

Usage:

cd examples/nginx

# Create an ostree to build images into:
mkdir -p _build/ostree
ostree init --mode=bare-user --repo=_build/ostree

# Creates build.ninja
./configure.py

# Build image with ref deb/images/Packages.lock/configured
ninja

Update the lockfile (equivalent to apt update):

ninja update-lockfiles

Make the rootfs a part of a normal ostree branch with history, etc.:

ostree commit --tree=ref=deb/images/Packages.lock/configured \
    -b mybranch -s "My message"

Usage

apt2ostree is a Python library that helps write ninja build files. It is intended to be used by a configure script written in Python. This is a very flexible albeit unconventional approach. See the examples/ directory for examples. Currently Python API documentation is a little lacking.

If you don't want to use it as a library you can create a multistrap - style configuration file and use our multistrap example under examples/multistrap. See the comments at the top of the file for usage.

Dependencies

Second stage building also requires:

Second stage building

Much like multistrap there are two stages:

  1. The debs are unpacked. This will be stored in ostree under ref deb/$lockfile_name/unpacked.
  2. The unpacked images is checked out and dpkg --configure -a is run within a chroot before checking the results back in again.

Building stage 1 is fast and is currently the primary focus of this tool. apt2ostree contains a naive implementation of stage 2 which should be reliable, but has various issues:

All this is a long-winded way of saying that much like with multistrap you should implement your own stage 2 where you call dpkg --configure -a.

Integration within build-systems

apt2ostree is intended for use within a larger build-system. Typically you'll want to install additional packages into the rootfs, make custom modifications or add rules for publishing the built images. There are different ways of doing this:

Comparison to related tools

debootstrap/multistrap

debootstrap and multistrap can both be used to create rootfses that can later be committed to ostree. debootstrap is used as part of the official debian installer. multistrap is more targetted toward creating rootfses for embedded systems.

Similar to multistrap, apt2ostree was designed for building embedded systems to be booted on a seperate machine than the build host.

For dependency resolution during package selection apt2ostree uses aptly rather than apt/dpkg. This makes deployment easier because aptly is a single statically linked go binary. The dependency resolution may not be as robust as multistrap.

Unlike multistrap, but like debootstrap, apt2ostree doesn't require apt/dpkg to be installed on the build host.

apt2ostree is faster - particuarly in the case where you're building multiple variants of images or building an updated image because upstream packages have been updated.

apt2ostree uses less disk space because it doesn't cache downloaded debs - it unpacks them and commits them directly to ostree after downloading. The disk space will be shared with the built images.

apt2ostree doesn't currently support generating lockfiles with packages from multiple repositories. This means you can't build an image that pulls from both trusty and trusty-updates. This is a major missing feature that is a high priority.

Similar to multistrap, and to some extent debootstrap, apt2ostree is generally used as part of a larger build system.

Unlike debootstrap (and multistrap?) apt2ostree is not officially supported nor is it affiliated with either the Debian or Ubuntu projects.

apt2ostree contains a multistrap configuration compatibility script so you can use your existing multistrap configuration files. See examples/multistrap/multistrap.py for more information.

debootstrap and multistrap don't use lockfiles: you get whatever versions of the packages are available at the time you ran the tool. To update you must rerun the tool and see what the difference is in the committed image, so you don't have a record of package versions in source control.

endless-ostree-builder (EOB)

See https://github.com/dbnicholson/deb-ostree-builder .

Disclaimer: I've not used EOB, so the following are educated guesses based on available documentation and source. Please correct any mistakes or misunderstandings by editing this and opening a pull-request.

Both apt2ostree and EOB were written to create deb-based ostree images. Unlike apt2ostree EOB uses debootstrap to create a rootfs on disk and then checks that rootfs into ostree.

Both systems were originally built into a company's private build-system, and has since been separated from that and published publically. These companies are Endless and stb-tester.com.

apt2ostree is narrower in scope than EOB. It doesn't handle publishing, device-tree files, among other features.

apt2ostree is likely much faster than EOB with its incremental building.

apt2ostree is intended to be used as a python library within a larger build-system - more like debootstrap. It seems that EOB is designed to be a larger system complete with hooks. It is customisable with hooks and configuration files. It may be possible to replace EOB's use of debootstrap with apt2ostree.

EOB doesn't use lockfiles. You get whatever versions of the packages that are available at the time you ran the tool. To update you must rerun the tool and see what the difference is in the committed image, so you don't have a record of package versions in source control.

History

apt2ostree was started at stb-tester.com as a way of building images for their stb-tester HDMI product. Our approach of using ninja and creating intermediate build images came up in a discussion on the ostree mailing list which motivated @wmanley to tidy-up and publish what we've built.

ostree mailing list posts threads here: