Managing Go versions
Overview
All Go binaries, with the exception of GitLab Runner and Security Projects, are built in projects managed by the Distribution team.
The Omnibus GitLab project creates a single, monolithic operating system package containing all the binaries, while the Cloud-Native GitLab (CNG) project publishes a set of Docker images deployed and configured by Helm Charts or the GitLab Operator.
Testing against shipped Go versions
Testing matrices for all projects using Go must include the version shipped by Distribution. Check the Go version set by GO_VERSION
for:
Supporting multiple Go versions
Individual Go projects need to support multiple Go versions because:
- When a new version of Go is released, we should start integrating it into the CI pipelines to verify compatibility with the new compiler.
- We must support the versions of Go shipped by Distribution, which might be behind the latest minor release.
- When Linux package builds or Cloud-Native GitLab (CNG) change a Go version, we still might need to support the old version for backports.
These 3 requirements may easily be satisfied by keeping support for the 3 latest minor versions of Go.
It is ok to drop support for the oldest Go version and support only the 2 latest releases, if this is enough to support backports to the last 3 minor GitLab releases.
For example, if we want to drop support for go 1.11
in GitLab 12.10
, we need
to verify which Go versions we are using in 12.9
, 12.8
, and 12.7
. We do not
consider the active milestone, 12.10
, because a backport for 12.7
is required
in case of a critical patch release.
- If both Omnibus GitLab and Cloud-Native GitLab (CNG) were using Go
1.12
in GitLab12.7
and later, then we can safely drop support for1.11
. - If Omnibus GitLab or Cloud-Native GitLab (CNG) were using
1.11
in GitLab12.7
, then we still need to keep support for Go1.11
for easier backporting of security fixes.
Updating Go version
We should always:
- Use the same Go version for Omnibus GitLab and Cloud Native GitLab.
- Use a supported version.
- Use the most recent patch-level for that version to keep up with security fixes.
Changing the version affects every project being compiled, so it’s important to ensure that all projects have been updated to test against the new Go version before changing the package builders to use it. Despite Go’s compatibility promise, changes between minor versions can expose bugs or cause problems in our projects.
Upgrade process
The upgrade process involves several key steps:
- Track component updates and validation.
- Track component integration for release.
- Communication with stakeholders.
Tracking work
Use the product categories page if you need help finding the correct person or labels:
- Create the epic in
gitlab-org
group:- Title the epic
Update Go version to <VERSION_NUMBER>
. - Ping the engineering managers responsible for the projects listed below.
- Most engineering managers can be identified on the product page or the feature page.
- If you still can’t find the engineering manager, use Git blame to identify a maintainer involved in the project.
- Title the epic
- Create an upgrade issue for each dependency in the
location indicated below titled
Support building with Go <VERSION_NUMBER>
. Add the proper labels to each issue for easier triage. These should include the stage, group and section.- The issue should be assigned by a member of the maintaining group.
- The milestone should be assigned by a member of the maintaining group.
Some overlap exists between project dependencies. When creating an issue for a dependency that is part of a larger product, note the relationship in the issue body. For example: Projects built in the context of Omnibus GitLab have their runtime Go version managed by Omnibus, but “support” and compatibility should be a concern of the individual project. Issues in the parent project’s dependencies issue should be about adding support for the updated Go version.The upgrade issues must include upgrade validation items in their definition of done. Creating a second performance testing issue titledValidate operation and performance at scale with Go <VERSION_NUMBER>
is strongly recommended to help with scheduling tasks and managing workloads. - Schedule an update with the GitLab Development Kit:
- Title the issue
Support using Go version <VERSION_NUMBER>
. - Set the issue as related to every issue created in the previous step.
- Title the issue
- Schedule one issue per Sec Section team that maintains Go based Security Analyzers and add the
section::sec
label to each:Updates to these Security analyzers should not block upgrades to Charts or Omnibus since the analyzers are built independently as separate container images. - Schedule builder updates with Distribution projects:
- Dependency and GitLab Development Kit issues created in previous steps should be set as blockers.
- Each issue should have the title
Support building with Go <VERSION_NUMBER>
and description as noted:-
Update the `GO_VERSION` in `ci_files/variables.yml`.
-
Update `GO_VERSION` in `docker/VERSIONS`.
-
Update `BUILDER_IMAGE_REVISION` in `.gitlab-ci.yml` to match tag from builder.
-
If the component is not automatically upgraded for Omnibus GitLab and Cloud Native GitLab, issues should be opened in their respective trackers titledUpdated bundled version of COMPONENT_NAME
and set as blocked by the component’s upgrade issue.
Known dependencies using Go
Component Name | Where to track work |
---|---|
Alertmanager | Issue Tracker |
Docker Distribution Pruner | Issue Tracker |
Gitaly | Issue Tracker |
GitLab CLI (glab ).
|
Issue Tracker |
GitLab Compose Kit | Issuer Tracker |
GitLab container registry | Issue Tracker |
GitLab Elasticsearch Indexer | Issue Tracker |
GitLab Zoekt Indexer | Issue Tracker |
GitLab agent server for Kubernetes (KAS) | Issue Tracker |
GitLab Pages | Issue Tracker |
GitLab Quality Images | Issue Tracker |
GitLab Shell | Issue Tracker |
GitLab Workhorse | Issue Tracker |
GitLab Browser-based DAST | Issue Tracker |
GitLab Coverage Fuzzer | Issue Tracker |
LabKit | Issue Tracker |
Node Exporter | Issue Tracker |
PgBouncer Exporter | Issue Tracker |
Postgres Exporter | Issue Tracker |
Prometheus | Issue Tracker |
Redis Exporter | Issue Tracker |
Communication plan
Communication is required at several key points throughout the process and should be included in the relevant issues as part of the definition of done:
- Immediately after creating the epic, it should be posted to Slack. Community members must ask the pinged engineering managers for assistance with this step. The responsible GitLab team member should share a link to the epic in the following Slack channels:
-
#backend
-
#development
-
- Immediately after merging the GitLab Development Kit Update, the same maintainer should add an entry to the engineering week-in-review sync and
announce the change in the following Slack channels:
-
#backend
-
#development
-
- Immediately upon merge of the updated Go versions in
Cloud-Native GitLab and
Omnibus GitLab add the
change to the engineering-week-in-review sync and announce in the following
Slack channels:
-
#backend
-
#development
-
#releases
-
Upgrade validation
Upstream component maintainers must validate their Go-based projects using:
- Established unit tests in the codebase.
- Procedures established in Merge Request Performance Guidelines.
- Procedures established in Performance, Reliability, and Availability guidelines.
Upstream component maintainers should consider validating their Go-based projects with:
-
Isolated component operation performance tests.
Integration tests are costly and should be testing inter-component operational issues. Isolated component testing reduces mean time to feedback on updates and decreases resource burn across the organization.
- Components should have end-to-end test coverage in the GitLab Performance Test tool.
- Integration validation through installation of fresh packages and upgrade from previous versions for:
- Single GitLab Node
- Reference Architecture Deployment
- Geo Deployment