ZIO backends

The ZIO backends are asynchronous. Sending a request is a non-blocking, lazily-evaluated operation and results in a response wrapped in a zio.Task. There’s a transitive dependency on zio.

Using HttpClient (Java 11+)

To use, add the following dependency to your project:

"com.softwaremill.sttp.client3" %% "httpclient-backend-zio" % "3.0.0"

Create the backend using:

import sttp.client3.httpclient.zio.HttpClientZioBackend

HttpClientZioBackend().flatMap { backend => ??? }

// or, if you'd like the backend to be wrapped in a Managed:
HttpClientZioBackend.managed().use { backend => ??? }

// or, if you'd like to instantiate the HttpClient yourself:
import java.net.http.HttpClient
val httpClient: HttpClient = ???
val backend = HttpClientZioBackend.usingClient(httpClient)

This backend is based on the built-in java.net.http.HttpClient available from Java 11 onwards. The backend is fully non-blocking, with back-pressured websockets.

Using async-http-client

To use, add the following dependency to your project:

"com.softwaremill.sttp.client3" %% "async-http-client-backend-zio" % "3.0.0"

This backend depends on async-http-client, uses Netty behind the scenes. This backend works with all Scala versions. A Scala 3 build is available as well.

Next you’ll need to define a backend instance as an implicit value. This can be done in two basic ways:

  • by creating a Task which describes how the backend is created, or instantiating the backend directly. In this case, you’ll need to close the backend manually
  • by creating a TaskManaged, which will instantiate the backend and close it after it has been used

A non-comprehensive summary of how the backend can be created is as follows:

import sttp.client3._
import sttp.client3.asynchttpclient.zio.AsyncHttpClientZioBackend

AsyncHttpClientZioBackend().flatMap { backend => ??? }

// or, if you'd like the backend to be wrapped in a Managed:
AsyncHttpClientZioBackend.managed().use { backend => ??? }

// or, if you'd like to use custom configuration:
import org.asynchttpclient.AsyncHttpClientConfig
val config: AsyncHttpClientConfig = ???
AsyncHttpClientZioBackend.usingConfig(config).flatMap { backend => ??? }

// or, if you'd like to use adjust the configuration sttp creates:
import org.asynchttpclient.DefaultAsyncHttpClientConfig
val sttpOptions: SttpBackendOptions = SttpBackendOptions.Default  
val adjustFunction: DefaultAsyncHttpClientConfig.Builder => DefaultAsyncHttpClientConfig.Builder = ???

AsyncHttpClientZioBackend.usingConfigBuilder(adjustFunction, sttpOptions).flatMap { backend => ??? }

// or, if you'd like to instantiate the AsyncHttpClient yourself:
import org.asynchttpclient.AsyncHttpClient
import zio.Runtime
val asyncHttpClient: AsyncHttpClient = ???
val runtime: Runtime[Any] = ???
val backend = AsyncHttpClientZioBackend.usingClient(runtime, asyncHttpClient)

ZIO environment

As an alternative to effectfully or resourcefully creating backend instances, ZIO environment can be used. In this case, a type alias is provided for the service definition:

package sttp.client3.httpclient.zio
type SttpClient = Has[SttpBackend[Task, ZioStreams with WebSockets]]

// or, when using async-http-client

package sttp.client3.asynchttpclient.zio
type SttpClient = Has[SttpBackend[Task, ZioStreams with WebSockets]]

The lifecycle of the SttpClient service is described by ZLayers, which can be created using the .layer/.layerUsingConfig/… methods on AsyncHttpClientZioBackend / HttpClientZioBackend.

The SttpClient companion object contains effect descriptions which use the SttpClient service from the environment to send requests or open websockets. This is different from sttp usage with other effect libraries (which use an implicit backend when .send(backend) is invoked on the request), but is more in line with how other ZIO services work. For example:

import sttp.client3._
import sttp.client3.httpclient.zio._
import zio._
val request = basicRequest.get(uri"https://httpbin.org/get")

val sent: ZIO[SttpClient, Throwable, Response[Either[String, String]]] = 


The ZIO based backends support streaming using zio-streams. The following example is using the AsyncHttpClientZioBackend backend, but works similarly with HttpClientZioBackend.

The type of supported streams is Stream[Throwable, Byte]. The streams capability is represented as sttp.client3.impl.zio.ZioStreams. To leverage ZIO environment, use the SttpClient object to create request send effects.

Requests can be sent with a streaming body:

import sttp.capabilities.zio.ZioStreams
import sttp.client3._
import sttp.client3.httpclient.zio.send
import zio.stream._

val s: Stream[Throwable, Byte] =  ???

val request = basicRequest


And receive response bodies as a stream:

import sttp.capabilities.zio.ZioStreams
import sttp.client3._
import sttp.client3.httpclient.zio.{SttpClient, send}

import zio._
import zio.stream._

import scala.concurrent.duration.Duration

val request =

val response: ZIO[SttpClient, Throwable, Response[Either[String, Stream[Throwable, Byte]]]] = send(request)


The ZIO backend supports both regular and streaming websockets.


The ZIO backends also support a ZIO-familiar way of configuring stubs as well. In addition to the usual way of creating a stand-alone stub, you can also define your stubs as effects instead:

import sttp.client3._
import sttp.model._
import sttp.client3.httpclient._
import sttp.client3.httpclient.zio._
import sttp.client3.httpclient.zio.stubbing._

val stubEffect = for {
  _ <- whenRequestMatches(_.uri.toString.endsWith("c")).thenRespond("c")
  _ <- whenRequestMatchesPartial { case r if r.method == Method.POST => Response.ok("b") }
  _ <- whenAnyRequest.thenRespond("a")
} yield ()

val responseEffect = stubEffect *> send(basicRequest.get(uri"http://example.org/a")).map(_.body)

responseEffect.provideLayer(HttpClientZioBackend.stubLayer) // Task[Either[String, String]]

The whenRequestMatches, whenRequestMatchesPartial, whenAnyRequest are effects which require the SttpClientStubbing dependency. They enrich the stub with the given behavior.

Then, the stubLayer provides both an implementation of the SttpClientStubbing dependency, as well as a SttpClient which is backed by the stub.

Server-sent events

Received data streams can be parsed to a stream of server-sent events (SSE):

import zio._
import zio.stream._

import sttp.capabilities.zio.ZioStreams
import sttp.client3.impl.zio.ZioServerSentEvents
import sttp.model.sse.ServerSentEvent
import sttp.client3._

def processEvents(source: Stream[Throwable, ServerSentEvent]): Task[Unit] = ???

basicRequest.response(asStream(ZioStreams)(stream =>