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About

This repository holds the logic for building and packaging various moby OSS packages, for several different distros. Builds are performed by fetching the source from upstream (github) and building it according to the logic specified in the Makefiles. Once built, a project is packaged for its target distribution.

This project uses dagger to manage containerized building and packaging.

Note: This is still under heavy development and is not yet ready for production use.

Quick start

The following example shows how to create a .deb package for containerd v1.7.0, specifically for ubuntu jammy.

cat > ./moby-containerd.json <<'EOF'
{
  "arch": "amd64",
  "commit": "1fbd70374134b891f97ce19c70b6e50c7b9f4e0d",
  "repo": "https://github.com/containerd/containerd.git",
  "package": "moby-containerd",
  "distro": "jammy",
  "tag": "1.7.0",
  "revision": "7"
}
EOF

go run packaging --build-spec=./moby-containerd.json

The commit field is the commit hash of the tag in question. The tag field is used when deriving the filename and linker flags, but the commit is the source of truth for the source code to be built.

This will create a file, bundles/jammy/moby-containerd_1.7.0+azure-ubuntu22.04u7_amd64.deb, which can then be published in a package repository.

Adding new packages

Overview

Currently, adding a new package involves several steps. We plan to improve the user experience around this in the near future.

Add a new package directory

In the root of this repository, create a new directory for the project you want to build.

mkdir -p moby-tini

Container filesystem layout

moby-packaging will create and manage a pipeline of containers with an opinionated filesystem layout. Within the container, anything in the project directory (moby-tini in this example) will be mounted into the /build directory within the container.

The source for the target package (in this example, moby-tini which is built from the upstream repository krallin/tini) will be mounted into /build/src.

This will be important later, when specifying the layout of the package.

Any static files that you want to be in the final package should live in the target package's directory (again, moby-tini in this example).

Add Makefiles to the package directory

Capture the build logic in a Makefile. You will need a Make target for each package type you wish to build (currently, deb, rpm, or win).

cat > moby-tini/Makefile <<'EOF'

.PHONY: rpm deb

rpm deb: tini-static

tini-static:
	mkdir -vp ./src/build
	cd ./src/build && \
		cmake .. && \
		make tini-static
EOF

Note that the working directory will be /build (see Container filesystem layout). The above reference to ./src/build is at the absolute path /build/src/build.

This particular build will output a file, tini-static in the absolute path /build/src/build.

Specify the package layout

Packages for distro repositories are essentially archives (tarballs, cpio, zip files) containing files at their final destination on the target system. They additionally contain additional information, such as post-install scripts (to be run on the target system), dependency information, and a description.

To specify where our newly built binary should go, we have to tell moby-packaging where to find them in our container, and where they belong on the target system. Here is an example for our (admittedly simple) package.

cat > moby-tini/mapping.go <<'EOF'
package mobyinit

import "packaging/pkg/archive"

var (
	Archive = archive.Archive{
		Name:    "moby-tini",
		Webpage: "https://github.com/krallin/tini",
		Files: []archive.File{
			{
				Source: "/build/src/build/tini-static",
				Dest:   "/usr/bin/docker-init",
			},
		},
		Binaries: []string{
			"/build/src/build/tini-static",
		},
		Conflicts: archive.PkgKindMap{
			archive.PkgKindDeb: {
				"tini",
			},
		},
		Replaces: archive.PkgKindMap{
			archive.PkgKindDeb: {
				"tini",
			},
		},
		Description: `tiny but valid init for containers
 Tini is the simplest init you could think of.
 .
 All Tini does is spawn a single child (Tini is meant to be run in a
 container), and wait for it to exit all the while reaping zombies and
 performing signal forwarding.`,
	}
)
EOF

The struct here is defined in pkg/archive/archive.go.

The key element here is the Files entry: the Source file is the location in the build container of a file we want to package. The Dest file is the final location on the target system. Once built and published to a debian repo, one would run apt-get install moby-tini; this would install the tini-static binary we built at the location /ur/bin/docker-init.

The Conflicts and Replaces entries are used by the consuming package manager to remove older versions of the same package.

In addition to these two entries, there are entries which specify runtime dependency packages. The package manager will install those packages as well. The Binaries entry is also used for dependency management. Since a binary may be dynamically linked, it will be inspected for runtime dependencies (and also installed by the package manager).

Name, Webpage, and Description are used by the package manager when displaying information about the package.

Finally, note the package directive at the top of the file. mobyinit will be used as an import in the next step.

Updating moby-packaging to recognize the new package

To enable the packaging system to build this package, update targets/target.go:

import (
    // ...
    mobyinit "packaging/moby-tini"
    // ...
)

// ...

func (t *Target) Packager(projectName string) archive.Interface {
	mappings := map[string]archive.Archive{
		"moby-engine":                  engine.Archive,
		"moby-cli":                     cli.Archive,
		"moby-containerd":              containerd.Archive,
		"moby-containerd-shim-systemd": shim.Archive,
		"moby-runc":                    runc.Archive,
		"moby-compose":                 compose.Archive,
		"moby-buildx":                  buildx.Archive,

         // this references the `Archive` struct created in the previous step
		"moby-tini":                    mobyinit.Archive,
	}

	a := mappings[projectName]

	switch t.PkgKind() {
	case "deb":
		return archive.NewDebArchive(&a, MirrorPrefix())
	case "rpm":
		return archive.NewRPMArchive(&a, MirrorPrefix())
	case "win":
		return archive.NewWinArchive(&a, MirrorPrefix())
	default:
		panic("unknown pkgKind: " + t.pkgKind)
	}
}

Producing the final package

As with the quick start, we need to supply moby-packaging with some information about what to build.

cat > ./moby-tini.json <<'EOF'
{
  "arch": "amd64",
  "commit": "de40ad007797e0dcd8b7126f27bb87401d224240",
  "repo": "https://github.com/krallin/tini.git",
  "package": "moby-tini",
  "distro": "jammy",
  "tag": "0.19.0",
  "revision": "9"
}
EOF

go run packaging --build-spec=./moby-tini.json

This will produce a package under bundles/jammy which is ready to deploy.

Contributing

This project welcomes contributions and suggestions. Most contributions require you to agree to a Contributor License Agreement (CLA) declaring that you have the right to, and actually do, grant us the rights to use your contribution. For details, visit https://cla.opensource.microsoft.com.

When you submit a pull request, a CLA bot will automatically determine whether you need to provide a CLA and decorate the PR appropriately (e.g., status check, comment). Simply follow the instructions provided by the bot. You will only need to do this once across all repos using our CLA.

This project has adopted the Microsoft Open Source Code of Conduct. For more information see the Code of Conduct FAQ or contact [email protected] with any additional questions or comments.

Trademarks

This project may contain trademarks or logos for projects, products, or services. Authorized use of Microsoft trademarks or logos is subject to and must follow Microsoft's Trademark & Brand Guidelines. Use of Microsoft trademarks or logos in modified versions of this project must not cause confusion or imply Microsoft sponsorship. Any use of third-party trademarks or logos are subject to those third-party's policies.

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