Update roadmap, add code of conduct file
Most of the roadmap was written in 2015 and switching from the older registry... Remove reference to Docker prior to CNCF donation. Add code of conduct file, already in Governance file. Signed-off-by: Justin Cormack <justin@specialbusservice.com>
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36
CODE-OF-CONDUCT.md
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CODE-OF-CONDUCT.md
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This project has adopted the [CNCF Community Code of Conduct](https://github.com/cncf/foundation/blob/master/code-of-conduct.md)
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### Contributor Code of Conduct
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As contributors and maintainers of this project, and in the interest of fostering
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an open and welcoming community, we pledge to respect all people who contribute
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through reporting issues, posting feature requests, updating documentation,
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submitting pull requests or patches, and other activities.
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We are committed to making participation in this project a harassment-free experience for
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everyone, regardless of level of experience, gender, gender identity and expression,
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sexual orientation, disability, personal appearance, body size, race, ethnicity, age,
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religion, or nationality.
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Examples of unacceptable behavior by participants include:
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* The use of sexualized language or imagery
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* Personal attacks
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* Trolling or insulting/derogatory comments
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* Public or private harassment
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* Publishing others' private information, such as physical or electronic addresses,
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without explicit permission
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* Other unethical or unprofessional conduct.
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Project maintainers have the right and responsibility to remove, edit, or reject
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comments, commits, code, wiki edits, issues, and other contributions that are not
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aligned to this Code of Conduct. By adopting this Code of Conduct, project maintainers
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commit themselves to fairly and consistently applying these principles to every aspect
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of managing this project. Project maintainers who do not follow or enforce the Code of
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Conduct may be permanently removed from the project team.
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This code of conduct applies both within project spaces and in public spaces
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when an individual is representing the project or its community.
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Instances of abusive, harassing, or otherwise unacceptable behavior may be reported by
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contacting a CNCF project maintainer or our mediator, Mishi Choudhary <mishi@linux.com>.
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# Distribution
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# Distribution
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The Docker toolset to pack, ship, store, and deliver content.
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The toolset to pack, ship, store, and deliver content.
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This repository's main product is the Open Source Docker Registry implementation
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This repository's main product is the Open Source Docker Registry implementation
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for storing and distributing Docker and OCI images using the
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for storing and distributing Docker and OCI images using the
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275
ROADMAP.md
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ROADMAP.md
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# Roadmap
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# Roadmap
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The Distribution Project consists of several components, some of which are
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The Distribution project aims to support the following use cases
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still being defined. This document defines the high-level goals of the
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project, identifies the current components, and defines the release-
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relationship to the Docker Platform.
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* [Distribution Goals](#distribution-goals)
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1. A library to support building highly scalable and reliable container registries,
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* [Distribution Components](#distribution-components)
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that can be customised for different backends and use cases. This is used by many
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* [Project Planning](#project-planning): release-relationship to the Docker Platform.
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of the largest registry operators, including Docker Hub, GitHub, GitLab, Harbor
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and Digital Ocean.
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This road map is a living document, providing an overview of the goals and
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2. A reference implementation of the OCI registry standards, and an easy way to
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considerations made in respect of the future of the project.
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experiment with new propsals in the registry space as these standards change.
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3. Distributed registry tools, such as caching registries and local registries
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## Distribution Goals
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that can be used within clusters for performance and locality use cases.
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- Replace the existing [docker registry](github.com/docker/docker-registry)
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implementation as the primary implementation.
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- Replace the existing push and pull code in the docker engine with the
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distribution package.
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- Define a strong data model for distributing docker images
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- Provide a flexible distribution tool kit for use in the docker platform
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- Unlock new distribution models
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## Distribution Components
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Components of the Distribution Project are managed via github [milestones](https://github.com/docker/distribution/milestones). Upcoming
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features and bugfixes for a component will be added to the relevant milestone. If a feature or
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bugfix is not part of a milestone, it is currently unscheduled for
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implementation.
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* [Registry](#registry)
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* [Distribution Package](#distribution-package)
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***
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### Registry
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The new Docker registry is the main portion of the distribution repository.
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Registry 2.0 is the first release of the next-generation registry. This was
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primarily focused on implementing the [new registry
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API](https://github.com/docker/distribution/blob/master/docs/spec/api.md),
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with a focus on security and performance.
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Following from the Distribution project goals above, we have a set of goals
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for registry v2 that we would like to follow in the design. New features
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should be compared against these goals.
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#### Data Storage and Distribution First
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The registry's first goal is to provide a reliable, consistent storage
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location for Docker images. The registry should only provide the minimal
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amount of indexing required to fetch image data and no more.
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This means we should be selective in new features and API additions, including
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those that may require expensive, ever growing indexes. Requests should be
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servable in "constant time".
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#### Content Addressability
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All data objects used in the registry API should be content addressable.
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Content identifiers should be secure and verifiable. This provides a secure,
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reliable base from which to build more advanced content distribution systems.
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#### Content Agnostic
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In the past, changes to the image format would require large changes in Docker
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and the Registry. By decoupling the distribution and image format, we can
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allow the formats to progress without having to coordinate between the two.
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This means that we should be focused on decoupling Docker from the registry
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just as much as decoupling the registry from Docker. Such an approach will
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allow us to unlock new distribution models that haven't been possible before.
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We can take this further by saying that the new registry should be content
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agnostic. The registry provides a model of names, tags, manifests and content
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addresses and that model can be used to work with content.
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#### Simplicity
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The new registry should be closer to a microservice component than its
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predecessor. This means it should have a narrower API and a low number of
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service dependencies. It should be easy to deploy.
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This means that other solutions should be explored before changing the API or
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adding extra dependencies. If functionality is required, can it be added as an
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extension or companion service.
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#### Extensibility
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The registry should provide extension points to add functionality. By keeping
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the scope narrow, but providing the ability to add functionality.
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Features like search, indexing, synchronization and registry explorers fall
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into this category. No such feature should be added unless we've found it
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impossible to do through an extension.
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#### Active Feature Discussions
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The following are feature discussions that are currently active.
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If you don't see your favorite, unimplemented feature, feel free to contact us
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via IRC or the mailing list and we can talk about adding it. The goal here is
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to make sure that new features go through a rigid design process before
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landing in the registry.
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##### Proxying to other Registries
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A _pull-through caching_ mode exists for the registry, but is restricted from
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within the docker client to only mirror the official Docker Hub. This functionality
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can be expanded when image provenance has been specified and implemented in the
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distribution project.
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##### Metadata storage
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Metadata for the registry is currently stored with the manifest and layer data on
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the storage backend. While this is a big win for simplicity and reliably maintaining
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state, it comes with the cost of consistency and high latency. The mutable registry
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metadata operations should be abstracted behind an API which will allow ACID compliant
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storage systems to handle metadata.
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##### Peer to Peer transfer
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Discussion has started here: https://docs.google.com/document/d/1rYDpSpJiQWmCQy8Cuiaa3NH-Co33oK_SC9HeXYo87QA/edit
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##### Indexing, Search and Discovery
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The original registry provided some implementation of search for use with
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private registries. Support has been elided from V2 since we'd like to both
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decouple search functionality from the registry. The makes the registry
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simpler to deploy, especially in use cases where search is not needed, and
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let's us decouple the image format from the registry.
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There are explorations into using the catalog API and notification system to
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build external indexes. The current line of thought is that we will define a
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common search API to index and query docker images. Such a system could be run
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as a companion to a registry or set of registries to power discovery.
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The main issue with search and discovery is that there are so many ways to
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accomplish it. There are two aspects to this project. The first is deciding on
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how it will be done, including an API definition that can work with changing
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data formats. The second is the process of integrating with `docker search`.
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We expect that someone attempts to address the problem with the existing tools
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and propose it as a standard search API or uses it to inform a standardization
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process. Once this has been explored, we integrate with the docker client.
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Please see the following for more detail:
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- https://github.com/docker/distribution/issues/206
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##### Deletes
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> __NOTE:__ Deletes are a much asked for feature. Before requesting this
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feature or participating in discussion, we ask that you read this section in
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full and understand the problems behind deletes.
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While, at first glance, implementing deleting seems simple, there are a number
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mitigating factors that make many solutions not ideal or even pathological in
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the context of a registry. The following paragraph discuss the background and
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approaches that could be applied to arrive at a solution.
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The goal of deletes in any system is to remove unused or unneeded data. Only
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data requested for deletion should be removed and no other data. Removing
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unintended data is worse than _not_ removing data that was requested for
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removal but ideally, both are supported. Generally, according to this rule, we
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err on holding data longer than needed, ensuring that it is only removed when
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we can be certain that it can be removed. With the current behavior, we opt to
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hold onto the data forever, ensuring that data cannot be incorrectly removed.
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To understand the problems with implementing deletes, one must understand the
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data model. All registry data is stored in a filesystem layout, implemented on
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a "storage driver", effectively a _virtual file system_ (VFS). The storage
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system must assume that this VFS layer will be eventually consistent and has
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poor read- after-write consistency, since this is the lower common denominator
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among the storage drivers. This is mitigated by writing values in reverse-
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dependent order, but makes wider transactional operations unsafe.
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Layered on the VFS model is a content-addressable _directed, acyclic graph_
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(DAG) made up of blobs. Manifests reference layers. Tags reference manifests.
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Since the same data can be referenced by multiple manifests, we only store
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data once, even if it is in different repositories. Thus, we have a set of
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blobs, referenced by tags and manifests. If we want to delete a blob we need
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to be certain that it is no longer referenced by another manifest or tag. When
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we delete a manifest, we also can try to delete the referenced blobs. Deciding
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whether or not a blob has an active reference is the crux of the problem.
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Conceptually, deleting a manifest and its resources is quite simple. Just find
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all the manifests, enumerate the referenced blobs and delete the blobs not in
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that set. An astute observer will recognize this as a garbage collection
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problem. As with garbage collection in programming languages, this is very
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simple when one always has a consistent view. When one adds parallelism and an
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inconsistent view of data, it becomes very challenging.
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A simple example can demonstrate this. Let's say we are deleting a manifest
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_A_ in one process. We scan the manifest and decide that all the blobs are
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ready for deletion. Concurrently, we have another process accepting a new
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manifest _B_ referencing one or more blobs from the manifest _A_. Manifest _B_
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is accepted and all the blobs are considered present, so the operation
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proceeds. The original process then deletes the referenced blobs, assuming
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they were unreferenced. The manifest _B_, which we thought had all of its data
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present, can no longer be served by the registry, since the dependent data has
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been deleted.
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Deleting data from the registry safely requires some way to coordinate this
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operation. The following approaches are being considered:
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- _Reference Counting_ - Maintain a count of references to each blob. This is
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challenging for a number of reasons: 1. maintaining a consistent consensus
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of reference counts across a set of Registries and 2. Building the initial
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list of reference counts for an existing registry. These challenges can be
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met with a consensus protocol like Paxos or Raft in the first case and a
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necessary but simple scan in the second..
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- _Lock the World GC_ - Halt all writes to the data store. Walk the data store
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and find all blob references. Delete all unreferenced blobs. This approach
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is very simple but requires disabling writes for a period of time while the
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service reads all data. This is slow and expensive but very accurate and
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effective.
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- _Generational GC_ - Do something similar to above but instead of blocking
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writes, writes are sent to another storage backend while reads are broadcast
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to the new and old backends. GC is then performed on the read-only portion.
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Because writes land in the new backend, the data in the read-only section
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can be safely deleted. The main drawbacks of this approach are complexity
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and coordination.
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- _Centralized Oracle_ - Using a centralized, transactional database, we can
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know exactly which data is referenced at any given time. This avoids
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coordination problem by managing this data in a single location. We trade
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off metadata scalability for simplicity and performance. This is a very good
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option for most registry deployments. This would create a bottleneck for
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registry metadata. However, metadata is generally not the main bottleneck
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when serving images.
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Please let us know if other solutions exist that we have yet to enumerate.
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Note that for any approach, implementation is a massive consideration. For
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example, a mark-sweep based solution may seem simple but the amount of work in
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coordination offset the extra work it might take to build a _Centralized
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Oracle_. We'll accept proposals for any solution but please coordinate with us
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before dropping code.
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At this time, we have traded off simplicity and ease of deployment for disk
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space. Simplicity and ease of deployment tend to reduce developer involvement,
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which is currently the most expensive resource in software engineering. Taking
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on any solution for deletes will greatly effect these factors, trading off
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very cheap disk space for a complex deployment and operational story.
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Please see the following issues for more detail:
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- https://github.com/docker/distribution/issues/422
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- https://github.com/docker/distribution/issues/461
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- https://github.com/docker/distribution/issues/462
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### Distribution Package
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At its core, the Distribution Project is a set of Go packages that make up
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Distribution Components. At this time, most of these packages make up the
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Registry implementation.
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The package itself is considered unstable. If you're using it, please take care to vendor the dependent version.
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For feature additions, please see the Registry section. In the future, we may break out a
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separate Roadmap for distribution-specific features that apply to more than
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just the registry.
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***
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### Project Planning
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An [Open-Source Planning Process](https://github.com/docker/distribution/wiki/Open-Source-Planning-Process) is used to define the Roadmap. [Project Pages](https://github.com/docker/distribution/wiki) define the goals for each Milestone and identify current progress.
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As every container application needs at least one registry as part of its infrastructure,
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and more cloud native artifacts are using registries as the basis of their distribution,
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having a widely used and supported open source registry is important for innovation.
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