RELEASES.md

Releases

IBC-Go follows semantic versioning, but with the following deviations:

• A state-machine breaking change will result in an increase of the minor version Y (x.Y.z | x > 0).
• An API breaking change will result in an increase of the major number (X.y.z | x > 0). Please note that these changes will be backwards compatible (as opposed to canonical semantic versioning; read Backwards compatibility for a detailed explanation).

This is visually explained in the following decision tree:

When bumping the dependencies of Cosmos SDK and Tendermint we will only treat patch releases as non state-machine breaking.

Backwards compatibility

ibc-go and the IBC protocol specification maintain different versions. Furthermore, ibc-go serves several different user groups (chains, IBC app developers, relayers, IBC light client developers). Each of these groups has different expectations of what backwards compatible means. It simply isn't possible to categorize a change as backwards or non backwards compatible for all user groups. We are primarily interested in when our API breaks and when changes are state machine breaking (thus requiring a coordinated upgrade). This is scoping the meaning of ibc-go to that of those interacting with the code (IBC app developers, relayers, IBC light client developers), not chains using IBC to communicate (that should be encapsulated by the IBC protocol specification versioning).

To summarize: All our ibc-go releases allow chains to communicate successfully with any chain running any version of our code. That is to say, we are still using IBC protocol specification v1.0.

We ensure all major releases are supported by relayers (hermes, rly and ts-relayer at the moment) which can relay between the new major release and older releases. We have no plans of upgrading to an IBC protocol specification v2.0, as this would be very disruptive to the ecosystem.

Stable Release Policy

The beginning of a new major release series is marked by the release of a new major version. A major release series is comprised of all minor and patch releases made under the same major version number. The series continues to receive bug fixes (released as minor or patch releases) until it reaches end of life. The date when a major release series reaches end of life is determined by one of the two following methods:

• If the next major release is made within the first 6 months, then the end of life date of the major release series is 1 year after its initial release.
• If the next major release is made 6 months after the initial release, then the end of life date of the major release series is 6 months after the release date of the next major release.

For example, if the current major release series is v1 and was released on January 1st, 2022, then v1 will be supported at least until January 1st, 2023. If v2 is published on August 1st 2022, then v1's end of life will be March 1st, 2023.

Only the following major release series have a stable release status:

Release	End of Life Date
v1.1.x	July 01, 2022
v1.2.x	July 01, 2022
v2.0.x	February 01, 2023

Note: The v1 major release series will reach end of life 6 months after merging this policy. v2 will reach end of life one year after merging this policy.

What pull requests will be included in stable patch-releases?

Pull requests that fix bugs and add features that fall in the following categories:

• Severe regressions.
• Bugs that may cause client applications to be largely unusable.
• Bugs that may cause state corruption or data loss.
• Bugs that may directly or indirectly cause a security vulnerability.
• Non-breaking features that are strongly requested by the community.
• Non-breaking CLI improvements that are strongly requested by the community.

What pull requests will NOT be automatically included in stable patch-releases?

As rule of thumb, the following changes will NOT be automatically accepted into stable point-releases:

• State machine changes, unless the previous behaviour would result in a consensus halt.
• Protobuf-breaking changes.
• Client-breaking changes, i.e. changes that prevent gRPC, HTTP and RPC clients to continue interacting with the node without any change.
• API-breaking changes, i.e. changes that prevent client applications to build without modifications to the client application's source code.
• CLI-breaking changes, i.e. changes that require usage changes for CLI users.

Graphics

The decision tree above was generated with the following code:

%%{init: 
    {'theme': 'default',
     'themeVariables': 
        {'fontFamily': 'verdana', 'fontSize': '13px'}
    }
}%%
flowchart TD
    A(Change):::c --> B{API breaking?}
    B:::c --> |Yes| C(Increase major version):::c
    B:::c --> |No| D{state-machine breaking?}
    D:::c --> |Yes| G(Increase minor version):::c
    D:::c --> |No| H(Increase patch version):::c
    classDef c fill:#eee,stroke:#aaa

using Mermaid's live editor.