# sttp [![Join the chat at https://gitter.im/softwaremill/sttp](https://badges.gitter.im/Join%20Chat.svg)](https://gitter.im/softwaremill/sttp?utm_source=badge&utm_medium=badge&utm_campaign=pr-badge&utm_content=badge) [![Build Status](https://travis-ci.org/softwaremill/sttp.svg?branch=master)](https://travis-ci.org/softwaremill/sttp) [![Maven Central](https://maven-badges.herokuapp.com/maven-central/com.softwaremill.sttp/core_2.12/badge.svg)](https://maven-badges.herokuapp.com/maven-central/com.softwaremill.sttp/core_2.12) [![Dependencies](https://app.updateimpact.com/badge/634276070333485056/sttp.svg?config=compile)](https://app.updateimpact.com/latest/634276070333485056/sttp) The HTTP client for Scala that you always wanted! ```scala import com.softwaremill.sttp._ val sort: Option[String] = None val query = "http language:scala" // the `query` parameter is automatically url-encoded // `sort` is removed, as the value is not defined val request = sttp.get(uri"https://api.github.com/search/repositories?q=$query&sort=$sort") implicit val handler = HttpURLConnectionSttpHandler val response = request.send() // response.header(...): Option[String] println(response.header("Content-Length")) // response.body: by default read into a String println(response.body) ``` ## Goals of the project * provide a simple, discoverable, no-surprises, reasonably type-safe API for making HTTP requests and reading responses * separate definition of a request from request execution * provide immutable, easily modifiable data structures for requests and responses * support multiple execution backends, both synchronous and asynchronous * provide support for backend-specific request/response streaming * minimum dependencies ## How is sttp different from other libraries? * immutable request builder which doesn't impose any order in which request parameters need to be specified. Such an approach allows defining partial requests with common cookies/headers/options, which can later be specialized using a specific URI and HTTP method. * support for multiple backends, both synchronous and asynchronous, with backend-specific streaming support * URI interpolator with context-aware escaping, optional parameters support and parameter collections ## Quickstart with Ammonite If you are an [Ammonite](http://ammonite.io) user, you can quickly start experimenting with sttp by copy-pasting the following: ```scala import $ivy.`com.softwaremill.sttp::core:0.0.3` import com.softwaremill.sttp._ implicit val handler = HttpURLConnectionSttpHandler sttp.get(uri"http://httpbin.org/ip").send() ``` ## Adding sttp to your project SBT dependency: ```scala "com.softwaremill.sttp" %% "core" % "0.0.3" ``` `sttp` is available for Scala 2.11 and 2.12, and requires Java 8. The core module has no transitive dependencies. If you'd like to use an alternate backend, [see below](#supported-backends) for additional instructions. ## API First, import: ```scala import com.softwaremill.sttp._ ``` This brings into scope `sttp`, the starting request (it's an empty request with the `Accept-Encoding: gzip, defalte` header added). This request can be customised, each time yielding a new, immutable request description (unless a mutable body is set on the request, such as a byte array). For example, we can set a cookie, string-body and specify that this should be a `POST` request to a given URI: ```scala val request = sttp .cookie("login", "me") .body("This is a test") .post(uri"http://endpoint.com/secret") ``` The request parameters (headers, cookies, body etc.) can be specified in any order. There's a lot of ways in which you can customize a request: just explore the API. And [more will be added](#todo)! You can create a request description without knowing how it will be sent. But to send a request, you will need a backend. A default, synchronous backend based on Java's `HttpURLConnection` is provided out-of-the box. An implicit value of type `SttpHandler` needs to be in scope to invoke the `send()` on the request: ```scala implicit val handler = HttpConnectionSttpHandler val response: Response[String] = request.send() ``` By default the response body is read into a utf-8 string. How the response body is handled is also part of the request description. The body can be ignore (`.response(ignore)`), read into a sequence of parameters (`.response(asParams)`), mapped (`.mapResponse`) and more; some backends also support request & response streaming. The default handler doesn't wrap the response into any container, but other asynchronous handlers might do so. The type parameter in the `Response[_]` type specifies the type of the body. ## URI interpolator Using the URI interpolator it's possible to conveniently create `java.net.URI` instances, which can then be used to specify request endpoints, for example: ```scala import com.softwaremill.sttp._ val user = "Mary Smith" val filter = "programming languages" val endpoint: Uri = uri"http://example.com/$user/skills?filter=$filter" ``` Any values embedded in the URI will be URL-encoded, taking into account the context (e.g., the whitespace in `user` will be %-encoded as `%20D`, while the whitespace in `filter` will be query-encoded as `+`). The possibilities of the interpolator don't end here. Other supported features: * parameters can have optional values: if the value of a parameter is `None`, it will be removed * maps, sequences of tuples and sequences of values can be embedded in the query part. They will be expanded into query parameters. Maps and sequences of tuples can also contain optional values, for which mappings will be removed if `None`. * optional values in the host part will be expanded to a subdomain if `Some`, removed if `None` * sequences in the host part will be expanded to a subdomain sequence * if a string contains the protocol is embedded *as the first element*, it will not be escaped, allowing to embed entire addresses as prefixes, e.g.: `uri"$endpoint/login"`, where `val endpoint = "http://example.com/api"`. A fully-featured example: ```scala import com.softwaremill.sttp._ val secure = true val scheme = if (secure) "https" else "http" val subdomains = List("sub1", "sub2") val vx = Some("y z") val params = Map("a" -> 1, "b" -> 2) val jumpTo = Some("section2") uri"$scheme://$subdomains.example.com?x=$vx&$params#$jumpTo" // generates: // https://sub1.sub2.example.com?x=y+z&a=1&b=2#section2 ``` ## Supported backends ### Summary | Class | Result wrapper | Supported stream type | | --- | --- | --- | | `HttpURLConnectionSttpHandler` | None (`Id`) | - | | `AkkaHttpSttpHandler` | `scala.concurrent.Future` | `akka.stream.scaladsl.Source[ByteString, Any]` | | `FutureAsyncHttpClientHandler` | `scala.concurrent.Future` | - | | `ScalazAsyncHttpClientHandler` | `scalaz.concurrent.Task` | - | | `MonixAsyncHttpClientHandler` | `monix.eval.Task` | `monix.reactive.Observable[ByteBuffer]` | | `OkHttpSyncClientHandler` | None (`Id`) | - | | `OkHttpFutureClientHandler` | `scala.concurrent.Future` | - | ### `HttpURLConnectionSttpHandler` The default **synchronous** handler. Sending a request returns a response wrapped in the identity type constructor, which is equivalent to no wrapper at all. To use, add an implicit value: ```scala implicit val sttpHandler = HttpURLConnectionSttpHandler ``` ### `AkkaHttpSttpHandler` To use, add the following dependency to your project: ```scala "com.softwaremill.sttp" %% "akka-http-handler" % "0.0.3" ``` This handler depends on [akka-http](http://doc.akka.io/docs/akka-http/current/scala/http/). A fully **asynchronous** handler. Sending a request returns a response wrapped in a `Future`. Next you'll need to add an implicit value: ```scala implicit val sttpHandler = AkkaHttpSttpHandler() // or, if you'd like to use an existing actor system: implicit val sttpHandler = AkkaHttpSttpHandler.usingActorSystem(actorSystem) ``` This backend supports sending and receiving [akka-streams](http://doc.akka.io/docs/akka/current/scala/stream/index.html) streams of type `akka.stream.scaladsl.Source[ByteString, Any]`. To set the request body as a stream: ```scala import com.softwaremill.sttp._ import com.softwaremill.sttp.akkahttp._ import akka.stream.scaladsl.Source import akka.util.ByteString val source: Source[ByteString, Any] = ... sttp .streamBody(source) .post(uri"...") ``` To receive the response body as a stream: ```scala import com.softwaremill.sttp._ import com.softwaremill.sttp.akkahttp._ import akka.stream.scaladsl.Source import akka.util.ByteString implicit val sttpHandler = AkkaHttpSttpHandler() val response: Future[Response[Source[ByteString, Any]]] = sttp .post(uri"...") .response(asStream[Source[ByteString, Any]]) .send() ``` ### `AsyncHttpClientHandler` To use, add the following dependency to your project: ```scala "com.softwaremill.sttp" %% "async-http-client-handler-future" % "0.0.3" // or "com.softwaremill.sttp" %% "async-http-client-handler-scalaz" % "0.0.3" // or "com.softwaremill.sttp" %% "async-http-client-handler-monix" % "0.0.3" ``` This handler depends on [async-http-client](https://github.com/AsyncHttpClient/async-http-client). A fully **asynchronous** handler, which uses [Netty](http://netty.io) behind the scenes. The responses are wrapped depending on the dependency chosen in either a: * standard Scala `Future` * [Scalaz](https://github.com/scalaz/scalaz) `Task`. There's a transitive dependency on `scalaz-concurrent`. * [Monix](https://monix.io) `Task`. There's a transitive dependency on `monix-eval`. Next you'll need to add an implicit value: ```scala implicit val sttpHandler = FutureAsyncHttpClientHandler() // or, if you're using the scalaz version: implicit val sttpHandler = ScalazAsyncHttpClientHandler() // or, if you're using the monix version: implicit val sttpHandler = MonixAsyncHttpClientHandler() // or, if you'd like to use custom configuration: implicit val sttpHandler = FutureAsyncHttpClientHandler.usingConfig(asyncHttpClientConfig) // or, if you'd like to instantiate the AsyncHttpClient yourself: implicit val sttpHandler = FutureAsyncHttpClientHandler.usingClient(asyncHttpClient) ``` #### Streaming using Monix Currently, only the Monix handler supports streaming (as both Monix and Async Http Client support reactive streams `Publisher`s out of the box). The type of supported streams in this case is `Observable[ByteBuffer]`. That is, you can set such an observable as a request body: ```scala import com.softwaremill.sttp._ import java.nio.ByteBuffer import monix.reactive.Observable val obs: Observable[ByteBuffer] = ... sttp .streamBody(obs) .post(uri"...") ``` And receive responses as an observable stream: ```scala import com.softwaremill.sttp._ import com.softwaremill.sttp.asynchttpclient.monix._ import java.nio.ByteBuffer import monix.eval.Task import monix.reactive.Observable implicit val sttpHandler = MonixAsyncHttpClientHandler() val response: Task[Response[Observable[ByteBuffer]]] = sttp .post(uri"...") .response(asStream[Observable[ByteBuffer]]) .send() ``` ### `OkHttpClientHandler` To use, add the following dependency to your project: ```scala "com.softwaremill.sttp" %% "okhttp-client-handler" % "0.0.3" ``` This handler depends on [OkHttp](http://square.github.io/okhttp/), and offers both a **synchronous** (`OkHttpSyncClientHandler`) and **asynchronous** (`OkHttpFutureClientHandler`), `Future`-based handlers. ## Request type All request descriptions have type `RequestT[U, T, S]` (T as in Template). If this looks a bit complex, don't worry, what the three type parameters stand for is the only thing you'll hopefully have to remember when using the API! Going one-by-one: * `U[_]` specifies if the request method and URL are specified. Using the API, this can be either `type Empty[X] = None`, meaning that the request has neither a method nor an URI. Or, it can be `type Id[X] = X` (type-level identity), meaning that the request has both a method and an URI specified. Only requests with a specified URI & method can be sent. * `T` specifies the type to which the response will be read. By default, this is `String`. But it can also be e.g. `Array[Byte]` or `Unit`, if the response should be ignored. Response body handling can be changed by calling the `.response` method. With backends which support streaming, this can also be a supported stream type. * `S` specifies the stream type that this request uses. Most of the time this will be `Nothing`, meaning that this request does not send a streaming body or receive a streaming response. So most of the times you can just ignore that parameter. But, if you are using a streaming backend and want to send/receive a stream, the `.streamBody` or `response(asStream[S])` will change the type parameter. There are two type aliases for the request template that are used: * `type Request[T, S] = RequestT[Id, T, S]`. A sendable request. * `type PartialRequest[T, S] = RequestT[Empty, T, S]` ## Notes * the encoding for `String`s defaults to `utf-8`. * unless explicitly specified, the `Content-Type` defaults to: * `text/plain` for text * `application/x-www-form-urlencoded` for form data * `multipart/form-data` for multipart form data * `application/octet-stream` for everything else (binary) ## TODO * multi-part uploads * scalaz/fs2 streaming * proxy support * connection options, SSL * *your API improvement idea here* ## Other Scala HTTP clients * [scalaj](https://github.com/scalaj/scalaj-http) * [akka-http client](http://doc.akka.io/docs/akka-http/current/scala/http/client-side/index.html) * [dispatch](http://dispatch.databinder.net/Dispatch.html) * [play ws](https://github.com/playframework/play-ws) * [fs2-http](https://github.com/Spinoco/fs2-http) * [http4s](http://http4s.org/v0.17/client/) * [Gigahorse](http://eed3si9n.com/gigahorse/) * [RösHTTP](https://github.com/hmil/RosHTTP) ## Contributing Take a look at the [open issues](https://github.com/softwaremill/sttp/issues) and pick a task you'd like to work on! ## Credits * [Tomasz Szymański](https://github.com/szimano) * [Adam Warski](https://github.com/adamw) * [Omar Alejandro Mainegra Sarduy](https://github.com/omainegra)