This repository contains the official Swift OpenFeature provider for accessing your feature flags with GO Feature Flag.
In conjuction with the OpenFeature SDK you will be able to evaluate your feature flags in your iOS/tvOS/macOS applications.
For documentation related to flags management in GO Feature Flag, refer to the GO Feature Flag documentation website.
- Manage the integration of the OpenFeature Swift SDK and GO Feature Flag relay-proxy.
- Prefetch and cache flag evaluations in order to give the flag value in a efficient way.
- Automatic configuration changes polling, to be informed as soon as a flag configuration has changed.
- Automatic data collection about which flags have been accessed by the application
In the dependencies section of Package.swift
add:
.package(url: "https://github.com/go-feature-flag/openfeature-swift-provider.git", from: "0.1.0")
and in the target dependencies section add:
.product(name: "GOFeatureFlag", package: "openfeature-swift-provider"),
You have two options, both start from File > Add Packages... in the code menu.
First, ensure you have your GitHub account added as an option (+ > Add Source Control Account...). You will need to create a Personal Access Token with the permissions defined in the Xcode interface.
- Add as a remote repository
- Search for
git@github.com:go-feature-flag/openfeature-swift-provider.git
and click "Add Package"
- Search for
- Clone the repository locally
- Clone locally using your preferred method
- Use the "Add Local..." button to select the local folder
Note: Option 2 is only recommended if you are making changes to the SDK. You will also need to add the relevant OpenFeature SDK dependency manually.
GO Feature Flag provider needs to be created and then set in the global OpenFeatureAPI.
The only required option to create a GoFeatureFlagProvider
is the URL to your GO Feature Flag relay-proxy instance.
import GOFeatureFlag
import OpenFeature
let options = GoFeatureFlagProviderOptions(endpoint: "https://your_domain.io")
let provider = GoFeatureFlagProvider(options: options)
let evaluationContext = MutableContext(targetingKey: "myTargetingKey", structure: MutableStructure())
OpenFeatureAPI.shared.setProvider(provider: provider, initialContext: evaluationContext)
The evaluation context is the way for the client to specify contextual data that GO Feature Flag uses to evaluate the feature flags, it allows to define rules on the flag.
The targetingKey
is mandatory for GO Feature Flag in order to evaluate the feature flag, it could be the id of a user, a session ID or anything you find relevent to use as identifier during the evaluation.
The setProvider()
function is synchronous and returns immediately, however this does not mean that the provider is ready to be used. An asynchronous network request to the GO Feature Flag backend to fetch all the flags configured for your application must be completed by the provider first. The provider will then emit a READY
event indicating you can start resolving flags.
If you prefer to wait until the fetch is done you can use the async/await
compatible API available for waiting the Provider to become ready:
await OpenFeatureAPI.shared.setProviderAndWait(provider: provider)
During the usage of your application it may appears that the EvaluationContext
should be updated. For example if a not logged in user, authentify himself you will probably have to update the evaluation context.
let ctx = MutableContext(targetingKey: "myNewTargetingKey", structure: MutableStructure())
OpenFeatureAPI.shared.setEvaluationContext(evaluationContext: ctx)
setEvaluationContext()
is a synchronous function similar to setProvider()
and will fetch the new version of the feature flags based on this new EvaluationContext
.
The client is used to retrieve values for the current EvaluationContext
. For example, retrieving a boolean value for the flag "my-flag":
let client = OpenFeatureAPI.shared.getClient()
let result = client.getBooleanValue(key: "my-flag", defaultValue: false)
GO Feature Flag supports different all OpenFeature supported types of feature flags, it means that you can use all the accessor directly
// Bool
client.getBooleanValue(key: "my-flag", defaultValue: false)
// String
client.getStringValue(key: "my-flag", defaultValue: "default")
// Integer
client.getIntegerValue(key: "my-flag", defaultValue: 1)
// Double
client.getDoubleValue(key: "my-flag", defaultValue: 1.1)
// Object
client.getObjectValue(key: "my-flag", defaultValue: Value.structure(["key":Value.integer("1234")])
Note
If you add a new flag in GO Feature Flag, expect some delay before having it available for the provider. Refreshing the cache from remote happens when setting a new provider and/or evaluation context in the global OpenFeatureAPI, but also when a configuration change is detected during the polling.
When setting the provider or the context (via setEvaluationContext()
or setProvider()
) some events can be triggered to know the state of the provider.
To listen to them you can add an event handler via the OpenFeatureAPI
shared instance:
OpenFeatureAPI.shared.observe().sink { event in
if event == .error {
// An error has been emitted
}
}
.ready
: Provider is ready..error
: Provider in error..configurationChanged
: Configuration has changed in GO Feature Flag..PROVIDER_STALE
: Provider has not the latest version of the feature flags..notReady
: Provider is not ready to evaluate the feature flags.