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Kubernetes Enhancement Proposal Process


kep-number: 1 title: Kubernetes Enhancement Proposal Process authors: - “@calebamiles” - “@jbeda” owning-sig: sig-architecture participating-sigs: - kubernetes-wide reviewers: - name: “@timothysc” approvers: - name: “@bgrant0607” editor: name: “@jbeda” creation-date: 2017-08-22

status: implementable

Kubernetes Enhancement Proposal Process

Table of Contents

Summary

A standardized development process for Kubernetes is proposed in order to

This process is supported by a unit of work called a Kubernetes Enhancement Proposal or KEP. A KEP attempts to combine aspects of a

into one file which is created incrementally in collaboration with one or more Special Interest Groups (SIGs).

Motivation

For cross project SIGs such as SIG PM and SIG Release an abstraction beyond a single GitHub Issue or Pull request seems to be required in order to understand and communicate upcoming changes to Kubernetes. In a blog post describing the road to Go 2, Russ Cox explains

that it is difficult but essential to describe the significance of a problem in a way that someone working in a different environment can understand

as a project it is vital to be able to track the chain of custody for a proposed enhancement from conception through implementation.

Without a standardized mechanism for describing important enhancements our talented technical writers and product managers struggle to weave a coherent narrative explaining why a particular release is important. Additionally for critical infrastructure such as Kubernetes adopters need a forward looking road map in order to plan their adoption strategy.

The purpose of the KEP process is to reduce the amount of “tribal knowledge” in our community. By moving decisions from a smattering of mailing lists, video calls and hallway conversations into a well tracked artifact this process aims to enhance communication and discoverability.

A KEP is broken into sections which can be merged into source control incrementally in order to support an iterative development process. An important goal of the KEP process is ensuring that the process for submitting the content contained in design proposals is both clear and efficient. The KEP process is intended to create high quality uniform design and implementation documents for SIGs to deliberate.

Reference-level explanation

What type of work should be tracked by a KEP

The definition of what constitutes an “enhancement” is a foundational concern for the Kubernetes project. Roughly any Kubernetes user or operator facing enhancement should follow the KEP process: if an enhancement would be described in either written or verbal communication to anyone besides the KEP author or developer then consider creating a KEP.

Similarly, any technical effort (refactoring, major architectural change) that will impact a large section of the development community should also be communicated widely. The KEP process is suited for this even if it will have zero impact on the typical user or operator.

As the local bodies of governance, SIGs should have broad latitude in describing what constitutes an enhancement which should be tracked through the KEP process. SIGs may find that helpful to enumerate what does not require a KEP rather than what does. SIGs also have the freedom to customize the KEP template according to their SIG specific concerns. For example the KEP template used to track API changes will likely have different subsections than the template for proposing governance changes. However, as changes start impacting other SIGs or the larger developer community outside of a SIG, the KEP process should be used to coordinate and communicate.

Enhancements that have major impacts on multiple SIGs should use the KEP process. A single SIG will own the KEP but it is expected that the set of approvers will span the impacted SIGs. The KEP process is the way that SIGs can negotiate and communicate changes that cross boundaries.

KEPs will also be used to drive large changes that will cut across all parts of the project. These KEPs will be owned by SIG-architecture and should be seen as a way to communicate the most fundamental aspects of what Kubernetes is.

KEP Template

The template for a KEP is precisely defined here

KEP Metadata

There is a place in each KEP for a YAML document that has standard metadata. This will be used to support tooling around filtering and display. It is also critical to clearly communicate the status of a KEP.

Metadata items: * kep-number Required * Each proposal has a number. This is to make all references to proposals as clear as possible. This is especially important as we create a network cross references between proposals. * Before having the Approved status, the number for the KEP will be in the form of draft-YYYYMMDD. The YYYYMMDD is replaced with the current date when first creating the KEP. The goal is to enable fast parallel merges of pre-acceptance KEPs. * On acceptance a sequential dense number will be assigned. This will be done by the editor and will be done in such a way as to minimize the chances of conflicts. The final number for a KEP will have no prefix. * title Required * The title of the KEP in plain language. The title will also be used in the KEP filename. See the template for instructions and details. * status Required * The current state of the KEP. * Must be one of provisional, implementable, implemented, deferred, rejected, withdrawn, or replaced. * authors Required * A list of authors for the KEP. This is simply the github ID. In the future we may enhance this to include other types of identification. * owning-sig Required * The SIG that is most closely associated with this KEP. If there is code or other artifacts that will result from this KEP, then it is expected that this SIG will take responsibility for the bulk of those artifacts. * Sigs are listed as sig-abc-def where the name matches up with the directory in the kubernetes/community repo. * participating-sigs Optional * A list of SIGs that are involved or impacted by this KEP. * A special value of kubernetes-wide will indicate that this KEP has impact across the entire project. * reviewers Required * Reviewer(s) chosen after triage according to proposal process * If not yet chosen replace with TBD * Same name/contact scheme as authors * Reviewers should be a distinct set from authors. * approvers Required * Approver(s) chosen after triage according to proposal process * Approver(s) are drawn from the impacted SIGs. It is up to the individual SIGs to determine how they pick approvers for KEPs impacting them. The approvers are speaking for the SIG in the process of approving this KEP. The SIGs in question can modify this list as necessary. * The approvers are the individuals that make the call to move this KEP to the approved state. * Approvers should be a distinct set from authors. * If not yet chosen replace with TBD * Same name/contact scheme as authors * editor Required * Someone to keep things moving forward. * If not yet chosen replace with TBD * Same name/contact scheme as authors * creation-date Required * The date that the KEP was first submitted in a PR. * In the form yyyy-mm-dd * While this info will also be in source control, it is helpful to have the set of KEP files stand on their own. * last-updated Optional * The date that the KEP was last changed significantly. * In the form yyyy-mm-dd * see-also Optional * A list of other KEPs that are relevant to this KEP. * In the form KEP-123 * replaces Optional * A list of KEPs that this KEP replaces. Those KEPs should list this KEP in their superseded-by. * In the form KEP-123 * superseded-by * A list of KEPs that supersede this KEP. Use of this should be paired with this KEP moving into the Replaced status. * In the form KEP-123

KEP Workflow

A KEP has the following states

Git and GitHub Implementation

KEPs are checked into the community repo under the /kep directory. In the future, as needed we can add SIG specific subdirectories. KEPs in SIG specific subdirectories have limited impact outside of the SIG and can leverage SIG specific OWNERS files.

New KEPs can be checked in with a file name in the form of draft-YYYYMMDD-my-title.md. As significant work is done on the KEP the authors can assign a KEP number. This is done by taking the next number in the NEXT_KEP_NUMBER file, incrementing that number, and renaming the KEP. No other changes should be put in that PR so that it can be approved quickly and minimize merge conflicts. The KEP number can also be done as part of the initial submission if the PR is likely to be uncontested and merged quickly.

KEP Editor Role

Taking a cue from the Python PEP process, we define the role of a KEP editor. The job of an KEP editor is likely very similar to the PEP editor responsibilities and will hopefully provide another opportunity for people who do not write code daily to contribute to Kubernetes.

In keeping with the PEP editors which

Read the PEP to check if it is ready: sound and complete. The ideas must make technical sense, even if they don’t seem likely to be accepted. The title should accurately describe the content. Edit the PEP for language (spelling, grammar, sentence structure, etc.), markup (for reST PEPs), code style (examples should match PEP 8 & 7).

KEP editors should generally not pass judgement on a KEP beyond editorial corrections. KEP editors can also help inform authors about the process and otherwise help things move smoothly.

Important Metrics

It is proposed that the primary metrics which would signal the success or failure of the KEP process are

Prior Art

The KEP process as proposed was essentially stolen from the Rust RFC process which itself seems to be very similar to the Python PEP process

Drawbacks

Any additional process has the potential to engender resentment within the community. There is also a risk that the KEP process as designed will not sufficiently address the scaling challenges we face today. PR review bandwidth is already at a premium and we may find that the KEP process introduces an unreasonable bottleneck on our development velocity.

It certainly can be argued that the lack of a dedicated issue/defect tracker beyond GitHub issues contributes to our challenges in managing a project as large as Kubernetes, however, given that other large organizations, including GitHub itself, make effective use of GitHub issues perhaps the argument is overblown.

The centrality of Git and GitHub within the KEP process also may place too high a barrier to potential contributors, however, given that both Git and GitHub are required to contribute code changes to Kubernetes today perhaps it would be reasonable to invest in providing support to those unfamiliar with this tooling.

Expanding the proposal template beyond the single sentence description currently required in the features issue template may be a heavy burden for non native English speakers and here the role of the KEP editor combined with kindness and empathy will be crucial to making the process successful.

Alternatives

This KEP process is related to - the generation of a architectural roadmap - the fact that the what constitutes a feature is still undefined - issue management - the difference between an accepted design and a proposal - the organization of design proposals

this proposal attempts to place these concerns within a general framework.

Github issues vs. KEPs

The use of GitHub issues when proposing changes does not provide SIGs good facilities for signaling approval or rejection of a proposed change to Kubernetes since anyone can open a GitHub issue at any time. Additionally managing a proposed change across multiple releases is somewhat cumbersome as labels and milestones need to be updated for every release that a change spans. These long lived GitHub issues lead to an ever increasing number of issues open against kubernetes/features which itself has become a management problem.

In addition to the challenge of managing issues over time, searching for text within an issue can be challenging. The flat hierarchy of issues can also make navigation and categorization tricky. While not all community members might not be comfortable using Git directly, it is imperative that as a community we work to educate people on a standard set of tools so they can take their experience to other projects they may decide to work on in the future. While git is a fantastic version control system (VCS), it is not a project management tool nor a cogent way of managing an architectural catalog or backlog; this proposal is limited to motivating the creation of a standardized definition of work in order to facilitate project management. This primitive for describing a unit of work may also allow contributors to create their own personalized view of the state of the project while relying on Git and GitHub for consistency and durable storage.

Unresolved Questions

this proposal attempts to place these concerns within a general framework.

Github issues vs. KEPs

The use of GitHub issues when proposing changes does not provide SIGs good facilities for signaling approval or rejection of a proposed change to Kubernetes since anyone can open a GitHub issue at any time. Additionally managing a proposed change across multiple releases is somewhat cumbersome as labels and milestones need to be updated for every release that a change spans. These long lived GitHub issues lead to an ever increasing number of issues open against kubernetes/features which itself has become a management problem.

In addition to the challenge of managing issues over time, searching for text within an issue can be challenging. The flat hierarchy of issues can also make navigation and categorization tricky. While not all community members might not be comfortable using Git directly, it is imperative that as a community we work to educate people on a standard set of tools so they can take their experience to other projects they may decide to work on in the future. While git is a fantastic version control system (VCS), it is not a project management tool nor a cogent way of managing an architectural catalog or backlog; this proposal is limited to motivating the creation of a standardized definition of work in order to facilitate project management. This primitive for describing a unit of work may also allow contributors to create their own personalized view of the state of the project while relying on Git and GitHub for consistency and durable storage.

Unresolved Questions

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