mirror of
https://gitlab.com/pulsechaincom/prysm-pulse.git
synced 2025-01-08 18:51:19 +00:00
49a0d3caf0
* Fix a few deps to work with go.mod, check in generated files * Update Gossipsub to 1.1 (#5998) * update libs * add new validators * add new deps * new set of deps * tls * further fix gossip update * get everything to build * clean up * gaz * fix build * fix all tests * add deps to images * imports Co-authored-by: rauljordan <raul@prysmaticlabs.com> * Beacon chain builds with go build * fix bazel * fix dep * lint * Add github action for testing go * on PR for any branch * fix libp2p test failure * Fix TestProcessBlock_PassesProcessingConditions by updating the proposer index in test * Revert "Fix TestProcessBlock_PassesProcessingConditions by updating the proposer index in test" This reverts commit 43676894ab01f03fe90a9b8ee3ecfbc2ec1ec4e4. * Compute and set proposer index instead of hard code * Add back go mod/sum, fix deps * go build ./... * Temporarily skip two tests * Fix kafka confluent patch * Fix kafka confluent patch * fix kafka build * fix kafka * Add info in DEPENDENCIES. Added a stub link for Why Bazel? until https://github.com/prysmaticlabs/documentation/issues/138 * Update fuzz ssz files as well * Update fuzz ssz files as well * getting closer * rollback rules_go and gazelle * fix gogo protobuf * install librdkafka-dev as part of github actions * Update kafka to a recent version where librkafkfa is not required for go modules * clarify comment * fix kafka build * disable go tests * comment * Fix geth dependencies for end to end * rename word * lint * fix docker Co-authored-by: Nishant Das <nishdas93@gmail.com> Co-authored-by: rauljordan <raul@prysmaticlabs.com> Co-authored-by: terence tsao <terence@prysmaticlabs.com> |
||
|---|---|---|
| .. | ||
| BUILD.bazel | ||
| config_test.go | ||
| config.go | ||
| filter_flags.go | ||
| flags_test.go | ||
| flags.go | ||
| README.md | ||
Prysm Feature Flags
Part of Prysm's feature development often involves use of feature flags which serve as a way to toggle new features as they are introduced. Using this methodology, you are assured that your feature can be safely tested in production with a fall back option if any regression were to occur. This reduces the likelihood of an emergency release or rollback of a given feature due to unforeseen issues.
When to use a feature flag?
It is best to use a feature flag any time you are adding or removing functionality in an existing critical application path.
Examples of when to use a feature flag:
- Adding a caching layer to an expensive RPC call.
- Optimizing a particular algorithm or routine.
- Introducing a temporary public testnet configuration.
Examples of when not to use a feature flag:
- Adding a new gRPC endpoint. (Unless dangerous or expensive to expose).
- Adding new logging statements.
- Removing dead code.
- Adding any trivial feature with no risk of regressions to existing functionality.
How to use a feature flag?
Once it has been decided that you should use a feature flag. Follow these steps to safely releasing your feature. In general, try to create a single PR for each step of this process.
- Add your feature flag to shared/featureconfig/flags.go, use the flag to toggle a boolean in the
feature config in shared/featureconfig/config.go. It is a good idea to use the
enableprefix for your flag since you're going to invert the flag in a later step. i.e you will usedisableprefix later. For example,--enable-my-feature. Additionally, create a feature flag tracking issue for your feature using the appropriate issue template. - Use the feature throughout the application to enable your new functionality and be sure to write tests carefully and thoughtfully to ensure you have tested all of your new funcitonality without losing coverage on the existing functionality. This is considered an opt-in feature flag. Example usage:
func someExistingMethod(ctx context.Context) error {
if featureconfig.Get().MyNewFeature {
return newMethod(ctx)
}
// Otherwise continue with the existing code path.
}
- Add the flag to the end to end tests. This set of flags can also be found in shared/featureconfig/flags.go.
- Test the functionality locally and safely in production. Once you have enough confidence that your new function works and is safe to release then move onto the next step.
- Move your existing flag to the deprecated section of shared/featureconfig/flags.go. It is
important NOT to delete your existing flag outright. Deleting a flag can be extremely frustrating
to users as it may break their existing workflow! Marking a flag as deprecated gives users time to
adjust their start scripts and workflow. Add another feature flag to represent the inverse of your
flag from step 1. For example
--disable-my-feature. Read the value of this flag to appropriately the config value in shared/featureconfig/config.go. - After your feature has been included in a release as "opt-out" and there are no issues, deprecate the opt-out feature flag, delete the config field from shared/featureconfig/config.go, delete any deprecated / obsolete code paths.
Deprecated flags are deleted upon each major semver point release. Ex: v1, v2, v3.