(I didn't end up doing anything on this =/) |
|||
Line 5: | Line 5: | ||
There are some applications like Cockpit which we would like to ship as layered applications. | There are some applications like Cockpit which we would like to ship as layered applications. | ||
This change will deploy the [https://github.com/projectatomic/osbs build service] to support | This change will deploy the [https://github.com/projectatomic/osbs-client build service] to support | ||
building and delivering a set of layered Docker images, and will enable Fedora contributors to create | building and delivering a set of layered Docker images, and will enable Fedora contributors to create | ||
and maintain Dockerfiles from which those images will be generated. | and maintain Dockerfiles from which those images will be generated. |
Latest revision as of 06:36, 17 November 2016
Layered Docker Image Build Service
Summary
Fedora currently ships a Docker base image, but Docker supports a layering concept. There are some applications like Cockpit which we would like to ship as layered applications.
This change will deploy the build service to support building and delivering a set of layered Docker images, and will enable Fedora contributors to create and maintain Dockerfiles from which those images will be generated.
Owners
- Name: Adam Miller
- Name: Tomas Tomecek
- Name: Tim Waugh
- Name: Amanda Carter
- Release notes owner: Pete Travis
Current status
- Targeted release: Fedora 24
- Last updated: 2016-11-17
- Tracker bug: #1243736
- Ongoing Work Tracking (Taiga Kanban board): http://taiga.fedorainfracloud.org/project/acarter-fedora-docker-atomic-tooling/kanban
Detailed Description
This change opens up an new type of official binary artifact produced by Fedora. Currently, we produce two main types of artifacts: RPMs, and images. The RPMs are created in Koji from specfiles in dist-git. The images come in different formats, but have in common creation in Koji from kickstart files — this includes the official Fedora Docker Base Image. This change introduces a new type of image, a Docker Layered Image, which is created from a Dockerfile and builds on top of that base image.
The system has five major parts:
- A command-line client — already integrated into rpkg; needs only minor work to enable in fedpkg (there is discussion about either extending fedpkg or adding a new fedcontainer utility)
- dist-git for Dockerfiles
- A koji plugin, containerbuild
- An OpenShift 3 backend
- A distribution mechanism; a Docker Registry
- Currently evaluating options for this
For more information, see this presentation for the high level overview of the whole system.
Possible areas of concern
Docker "packaging" and DistGit
The topic of Fedora container image maintainers maintaining Docker images much like Fedora rpm package maintainers maintain packages in DistGit has come up recently as something we might need to consider in a more broad scope as this is likely to impact more than originally thought.
Proposed Solution ----------------- DistGit Restructure/Namespace ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~ - Move all current rpm packages that live under repositories/ to live under repositories/rpm/ - Create new namespaces for other things (i.e. - repositories/docker/) current: /srv/git/repositories/<pkg>.git future: -> /srv/git/repositories/rpms/<pkg>.git (symlinked to the old location for a little while) => At one point, will break `git pull` if the remote url isn't fixed -> /srv/git/repositories/docker/<pkg>.git => /srv/git/repositories/<artifact>/<pkg>.git Artifact Abstraction - RPMs - Docker Images - ostrees - xdg-app
Namespacing or disjoint DistGit for containers
- Discussion ongoing on devel-list
- Namespacing is difficult, it would effectively blacklist a package name alphanumeric sequence from being used in Fedora (which may or may not matter)
- Technical concerns about disjoint DistGit for containers:
- In the event a container and a rpm package share a name, koji will potentially clobber one over the other and could "lose" rpms if a container wins the race condition at the time of a repo regen.
- If the same name exists in koji but under different tags, in the event these get crossed accidentally or in the future we could "lose" large chunks of the package set
pkgdb2 and fedora-packages
pkgdb2 (site, source) and fedora-packages (site, source) might need patches to handle non-rpm content
- Something like pkgdb2 will be needed for "container DistGit"
- Don't know what the implications of that will be
- concerned it might disrupt some aspect of pkgdb2's data model causing a large amount of work to fix.
- what if we need a separate instance of this for a disjoint "container DistGit"?
- Concerns around these utilities being rpm-centric and assume the existence of a spec file (at least for fedora-packages web view of spec files), in the event the Dockerfile container content is to share space with DistGit then pkgdb2 and fedora-packages would need to effectively blacklist anything starting with the namespace prefix that's decided upon.
Container "packaging" Guidelines
Currently for Fedora Packaging Guidelines there is the Fedora Packaging Committee that shepherd in best practices and guidelines for how software should be packaged into rpms. There is nothing like this for Dockerfiles (yet), however upstream Project Atomic has some general guidelines for Dockerfile LABELs which we should consider for inclusion in whatever ends up being the Fedora Container/Docker Guidelines.
Should we have a "Fedora Container Maintainers Committee" or similar that mirrors the Fedora Packaging Committee?
Schematic
Inkscape SVG source for PNG image available here
Benefit to Fedora
What is the benefit to the platform?
Docker is a very popular way to deliver container images. This will help deliver Fedora-based containers inside the Docker ecosystem, and other applications that are part of the Fedora package collection as containers.
Fedora Server is planning to deliver Server Roles as containers; this will facilitate that. And vital parts of Fedora Atomic are now designed to be delivered in containers, but we currently have no mechanism to do that within Fedora itself.
By having our own build system that ties into a Fedora specific docker registry will lend itself to allowing for CI workflows around containerized application stacks as well as easier automated testing.
Scope
Proposal owners
Proposal owners shall have to
- Deploy OSBS
- Deploy OpenShift v3
- Deploy container build koji plugin
- create dist-git for Dockerfiles
Task matrix
See Layered Docker Image Build Service RACI Matrix for an individual breakdown of tasks and responsibilities. This also includes a basic, task-level accounting of status, which we will keep updated.
Functional Requirements
- Builds must be integrated into koji
- This can be a plugin or built-in
- Ensure that the sum of the things in the docker layered images come from Fedora "proper" have been built in koji.
- Build artifacts from koji need to be integrated into Fedora composes
- Built docker images should be in a docker registry that can be pulled immediately with the docker client for testing.
- Layered image automatic rebuilds
- In the event a layer in the stack needs an update because of an updated package, it should be rebuilt and as well as all layered images that depend on it with rebuilds cascading up as needed.
- This will include the top-most layer. Example: If the container is targeting a specific package
foo
and an update makes it through Bodhi forfoo
then an automated rebuild will be triggered.
- This will include the top-most layer. Example: If the container is targeting a specific package
- In the event a layer in the stack needs an update because of an updated package, it should be rebuilt and as well as all layered images that depend on it with rebuilds cascading up as needed.
- Layered Docker image Dockerfiles should be integrated with Fedora DistGit
- Layered Docker Image build should be integrated with fedpkg
- Workflow for layered images maintainers will be similar to that of package maintainers
- Example build command:
fedpkg container-build
- Example build command:
- Workflow for layered images maintainers will be similar to that of package maintainers
- All aspects of this pipeline shall be both human executable and able to be automated, there should be nothing bound to only human intervention that could block the processs.
Other developers
- (anything here)?
Release engineering
- Deploy OSBS
Policies and guidelines
- Need to determine who can submit/build images
- Determine who is responsible for building/testing images as RPMs change
- Determine policy for non-RPM content. (Initial policy will be that all content must be existing RPMs in the official released or updates repositories.)
- "Packaging guidelines" for Dockerfiles; suggest starting lightweight and building as needed. Project Atomic documentation can be a starting point.
Out of Scope (Intended for Future Changes)
ComposeDB
There are plans right now to have ComposeDB(PDC) store information about build artifacts, integration with that system is something we will need in order to enable others in this list. ReleaseEngineering/ComposeDB
Automated QA with Taskotron
Ultimately we would like for every build of a docker layered image to trigger a test in Taskotron via fedmsg.
Other Integrations
In the future, images could be integrated into Bodhi, just like RPMs.
It would also be nice to have a pkgdb interface, but that shouldn't be a blocker.
Notary
https://github.com/docker/notary signing is not yet in scope for this Change.
Content Tracking, Automatic Rebuilds
It would be nice for images to automatically rebuilt and pushed to testing when any of their contents change, or at least when any of their content changes due to a security update. But we don't want to block having the basic build service in place on that; initially, updates will need to be initiated by the container packager.
Non-x86_64 Architecture Support
Currently Docker upstream only officially supports x86_64 and we will target that for the initial delivery of the build system.
Upgrade/compatibility impact
Since the world of containers is changing rapidly, it is possible that the system might need to be upgraded in future to latest stable version.
How To Test
Ideally, we have a Fedora registry. If so, then adding it and doing:
atomic run registry.fedoraproject.org/cockpit
Before we have a registry, images can be tested by downloading the images, using docker import, and docker run.
User Experience
There's many potential roles interacting here - the container owner, the container user, release engineering.
Container Packager
From a container packager point of view, the overall experience should be very similar to that of an RPM packager. Instead of a spec file, a Dockerfile will be created, but then that will be built using fedpkg through koji. This maintains both a comfortable workflow that will be easy for contributors to adapt to, and the release engineering benefits of koji.
RPM | Layered Image |
dist-git repo per RPM | dist-git repo per image |
Specfile in dist-git | Dockerfile in dist-git |
Source code and patches | No source code — refers to existing RPMs |
fedpkg build | fedpkg container-build |
created in koji (koji build task) | created in koji (through containerbuild plugin) |
pushed to mirrors | pushed to mirrors |
available via yum/dnf | repo creation currently out of scope |
Container User
$ docker pull registry.fedoraproject.org/fedora $ docker run -ti registry.fedoraproject.org/fedora /bin/bash
Alternately, users can pull from the upstream project's Docker Hub as we will also be pushing images there.
Release Engineering & Infrastructure
The new system will need maintenance and administration. For example, the new dist-git repositories will need to be managed.
Dependencies
NOTE: The osbs client tooling has been packaged and is in Fedora, OpenShift is not and will potentially require a bundled library exception pending the decision on golang package guidelines and bundled libraries.
Contingency Plan
People continue to upload to the Docker Hub in an ad-hoc fashion with no integration with Fedora.
Documentation
Implementation documention, user documentation, and infrastructure documentation will be developed as part of the project but does not yet exist.