Unleash Client for Go. Read more about the Unleash project
Version 3.x of the client requires unleash-server
v4.x or higher.
The client is currently tested against Go 1.10.x and 1.13.x. These versions will be updated as new versions of Go are released.
The client may work on older versions of Go as well, but is not actively tested.
To install the latest version of the client use:
go get github.com/Unleash/unleash-client-go/v4
If you are still using Unleash Server v2.x.x, then you should use:
go get github.com/Unleash/unleash-client-go
The easiest way to get started with Unleash is to initialize it early in your application code:
Asynchronous initialization example:
import (
"github.com/Unleash/unleash-client-go/v4"
)
func init() {
unleash.Initialize(
unleash.WithListener(&unleash.DebugListener{}),
unleash.WithAppName("my-application"),
unleash.WithUrl("http://unleash.herokuapp.com/api/"),
unleash.WithCustomHeaders(http.Header{"Authorization": {"<API token>"}}),
)
}
Synchronous initialization example:
import (
"github.com/Unleash/unleash-client-go/v4"
)
func init() {
unleash.Initialize(
unleash.WithListener(&unleash.DebugListener{}),
unleash.WithAppName("my-application"),
unleash.WithUrl("http://unleash.herokuapp.com/api/"),
unleash.WithCustomHeaders(http.Header{"Authorization": {"<API token>"}}),
)
// Note this will block until the default client is ready
unleash.WaitForReady()
}
If you'd like to prebake your application with feature toggles (maybe you're working without persistent storage, so Unleash's backup isn't available), you can replace the defaultStorage implementation with a BootstrapStorage. This allows you to pass in a reader to where data in the format of /api/client/features
can be found.
Bootstrapping from file on disk is then done using something similar to:
import (
"github.com/Unleash/unleash-client-go/v4"
)
func init() {
myBootstrap := os.Open("bootstrapfile.json") // or wherever your file is located at runtime
// BootstrapStorage handles the case where Reader is nil
unleash.Initialize(
unleash.WithListener(&unleash.DebugListener{}),
unleash.WithAppName("my-application"),
unleash.WithUrl("http://unleash.herokuapp.com/api/"),
unleash.WithStorage(&BootstrapStorage{Reader: myBootstrap})
)
}
Bootstrapping from S3 is then done by downloading the file using the AWS library and then passing in a Reader to the just downloaded file:
import (
"github.com/Unleash/unleash-client-go/v4"
"github.com/aws/aws-sdk-go-v2/aws"
"github.com/aws/aws-sdk-go-v2/config"
"github.com/aws/aws-sdk-go-v2/service/s3"
)
func init() {
// Load the shared AWS config
cfg, err := config.LoadDefaultConfig(context.TODO())
if err != nil {
log.Fatal(err)
}
// Create an S3 client
client := s3.NewFromConfig(cfg)
obj, err := client.GetObject(context.TODO(), &s3.GetObjectInput{
Bucket: aws.String("YOURBUCKET"),
Key: aws.String("YOURKEY"),
})
if err != nil {
log.Fatal(err)
}
reader := obj.Body
defer reader.Close()
// BootstrapStorage handles the case where Reader is nil
unleash.Initialize(
unleash.WithListener(&unleash.DebugListener{}),
unleash.WithAppName("YOURAPPNAME"),
unleash.WithUrl("YOURINSTANCE_URL"),
unleash.WithStorage(&BootstrapStorage{Reader: reader})
)
}
Since the Google Cloud Storage API returns a Reader, implementing a Bootstrap from GCS is done using something similar to
import (
"github.com/Unleash/unleash-client-go/v4"
"cloud.google.com/go/storage"
)
func init() {
ctx := context.Background() // Configure Google Cloud context
client, err := storage.NewClient(ctx) // Configure your client
if err != nil {
// TODO: Handle error.
}
defer client.Close()
// Fetch the bucket, then object and then create a reader
reader := client.Bucket(bucketName).Object("my-bootstrap.json").NewReader(ctx)
// BootstrapStorage handles the case where Reader is nil
unleash.Initialize(
unleash.WithListener(&unleash.DebugListener{}),
unleash.WithAppName("my-application"),
unleash.WithUrl("http://unleash.herokuapp.com/api/"),
unleash.WithStorage(&unleash.BootstrapStorage{Reader: reader})
)
}
After you have initialized the unleash-client you can easily check if a feature toggle is enabled or not.
unleash.IsEnabled("app.ToggleX")
To shut down the client (turn off the polling) you can simply call the destroy-method. This is typically not required.
unleash.Close()
The Go client comes with implementations for the built-in activation strategies provided by unleash.
- DefaultStrategy
- UserIdStrategy
- FlexibleRolloutStrategy
- GradualRolloutUserIdStrategy
- GradualRolloutSessionIdStrategy
- GradualRolloutRandomStrategy
- RemoteAddressStrategy
- ApplicationHostnameStrategy
Read more about activation strategies in the docs.
In order to use some of the common activation strategies you must provide an
unleash-context.
This client SDK allows you to send in the unleash context as part of the isEnabled
call:
ctx := context.Context{
UserId: "123",
SessionId: "some-session-id",
RemoteAddress: "127.0.0.1",
}
unleash.IsEnabled("someToggle", unleash.WithContext(ctx))
This client uses go routines to report several events and doesn't drain the channel by default. So you need to either register a listener using WithListener
or drain the channel "manually" (demonstrated in this example).
FeatureResolver
is a FeatureOption
used in IsEnabled
via the WithResolver
.
The FeatureResolver
can be used to provide a feature instance in a different way than the client would normally retrieve it. This alternative resolver can be useful if you already have the feature instance and don't want to incur the cost to retrieve it from the repository.
An example of its usage is below:
ctx := context.Context{
UserId: "123",
SessionId: "some-session-id",
RemoteAddress: "127.0.0.1",
}
// the FeatureResolver function that will be passed into WithResolver
resolver := func(featureName string) *api.Feature {
if featureName == "someToggle" {
// Feature being created in place for sake of example, but it is preferable an existing feature instance is used
return &api.Feature{
Name: "someToggle",
Description: "Example of someToggle",
Enabled: true,
Strategies: []api.Strategy{
{
Id: 1,
Name: "default",
},
},
CreatedAt: time.Time{},
Strategy: "default-strategy",
}
} else {
// it shouldn't reach this block because the name will match above "someToggle" for this example
return nil
}
}
// This would return true because the matched strategy is default and the feature is Enabled
unleash.IsEnabled("someToggle", unleash.WithContext(ctx), unleash.WithResolver(resolver))
To override dependency on unleash-client-go github repository to a local development folder (for instance when building a local test-app for the SDK),
you can add the following to your apps go.mod
:
replace github.com/Unleash/unleash-client-go/v4 => ../unleash-client-go/
- Update the clientVersion in
client.go
- Tag the repository with the new tag
In order to make sure the unleash clients uphold their contract, we have defined a set of client specifications that define this contract. These are used to make sure that each unleash client at any time adhere to the contract, and define a set of functionality that is core to unleash. You can view the client specifications here.
In order to make the tests run please do the following steps.
// in repository root
// testdata is gitignored
mkdir testdata
cd testdata
git clone https://github.com/Unleash/client-specification.git
Requirements:
- make
- golint (go get -u golang.org/x/lint/golint)
Run tests:
make
Run lint check:
make lint
Run code-style checks:(currently failing)
make strict-check
Run race-tests:
make test-race
You can benchmark feature toggle evaluation by running:
go test -run=^$ -bench=BenchmarkFeatureToggleEvaluation -benchtime=10s
Here's an example of how the output could look like:
goos: darwin
goarch: arm64
pkg: github.com/Unleash/unleash-client-go/v4
BenchmarkFeatureToggleEvaluation-8 Final Estimated Operations Per Day: 101.131 billion (1.011315e+11)
13635154 854.3 ns/op
PASS
ok github.com/Unleash/unleash-client-go/v4 13.388s
In this example the benchmark was run on a MacBook Pro (M1 Pro, 2021) with 16GB RAM.
We can see a result of 854.3 ns/op, which means around 101.131 billion feature toggle evaluations per day.
Note: The benchmark is run with a single CPU core, no parallelism.
This feature flag SDK is designed according to our design philosophy. You can read more about that here.