Akka(29): Http:Server-Side-Api,Low-Level-Api详解编程语言

 Akka-http针对Connection的两头都提供了方便编程的Api,分别是Server-Side-Api和Client-Side-Api。通过这两个Api可以大大提高编程效率。当然,上期我们提到过,Http-Server是Akka-http的核心部分,所有系统集成功能都是在Server-Side实现的。Akka-http-Server-Side-Api可以说是最先进的Http-Server编程工具,支持:

  • Full support for HTTP persistent connections
  • Full support for HTTP pipelining
  • Full support for asynchronous HTTP streaming including “chunked” transfer encoding accessible through an idiomatic API
  • Optional SSL/TLS encryption
  • WebSocket support

Server-Side-Api又分两个层次:Low-level-Server-Side-Api和High-level-Server-Side-Api。Low-level-server-api支持HTTP/1.1Server所有功能,包括:

  • Connection management
  • Parsing and rendering of messages and headers
  • Timeout management (for requests and connections)
  • Response ordering (for transparent pipelining support)

其它Server功能如请求解析request routing,文件服务file serving,数据压缩compression等都放在了High-level-server-api里。Akka-http是基于Akka-stream编写的,所以我们需要从Akka-stream运算模式来理解Akka-http的类型表现形式。

一个Http-Server是绑定在一个Socket上来接收客户端上传的request进行相关的服务提供的。Server对Socket的绑定在Akka-http里的可以Stream形式来表现:

val serverSource: Source[Http.IncomingConnection, Future[Http.ServerBinding]] = 
  Http().bind(interface = "localhost", port = 8080)

Server-Side Socket绑定实际上就是一个Akka-stream-source:Source[IncomingConnection]:

  /** 
   * Creates a [[akka.stream.scaladsl.Source]] of [[akka.http.scaladsl.Http.IncomingConnection]] instances which represents a prospective HTTP server binding 
   * on the given `endpoint`. 
   * 
   * If the given port is 0 the resulting source can be materialized several times. Each materialization will 
   * then be assigned a new local port by the operating system, which can then be retrieved by the materialized 
   * [[akka.http.scaladsl.Http.ServerBinding]]. 
   * 
   * If the given port is non-zero subsequent materialization attempts of the produced source will immediately 
   * fail, unless the first materialization has already been unbound. Unbinding can be triggered via the materialized 
   * [[akka.http.scaladsl.Http.ServerBinding]]. 
   * 
   * If an [[ConnectionContext]] is given it will be used for setting up TLS encryption on the binding. 
   * Otherwise the binding will be unencrypted. 
   * 
   * If no `port` is explicitly given (or the port value is negative) the protocol's default port will be used, 
   * which is 80 for HTTP and 443 for HTTPS. 
   * 
   * To configure additional settings for a server started using this method, 
   * use the `akka.http.server` config section or pass in a [[akka.http.scaladsl.settings.ServerSettings]] explicitly. 
   */ 
  def bind(interface: String, port: Int = DefaultPortForProtocol, 
           connectionContext: ConnectionContext = defaultServerHttpContext, 
           settings:          ServerSettings    = ServerSettings(system), 
           log:               LoggingAdapter    = system.log)(implicit fm: Materializer): Source[Http.IncomingConnection, Future[ServerBinding]] = { 
    val fullLayer = fuseServerBidiFlow(settings, connectionContext, log) 
 
    tcpBind(interface, choosePort(port, connectionContext), settings) 
      .map(incoming ⇒ { 
        val serverFlow = fullLayer.addAttributes(prepareAttributes(settings, incoming)) join incoming.flow 
        IncomingConnection(incoming.localAddress, incoming.remoteAddress, serverFlow) 
      }) 
      .mapMaterializedValue(materializeTcpBind) 
  }

run这个Source[IncomingConnection]产生一串连接Connection: 

  /** 
   * Represents one accepted incoming HTTP connection. 
   */ 
  final case class IncomingConnection( 
    localAddress:  InetSocketAddress, 
    remoteAddress: InetSocketAddress, 
    flow:          Flow[HttpResponse, HttpRequest, NotUsed]) { 
 
    /** 
     * Handles the connection with the given flow, which is materialized exactly once 
     * and the respective materialization result returned. 
     */ 
    def handleWith[Mat](handler: Flow[HttpRequest, HttpResponse, Mat])(implicit fm: Materializer): Mat = 
      flow.joinMat(handler)(Keep.right).run() 
 
    /** 
     * Handles the connection with the given handler function. 
     */ 
    def handleWithSyncHandler(handler: HttpRequest ⇒ HttpResponse)(implicit fm: Materializer): Unit = 
      handleWith(Flow[HttpRequest].map(handler)) 
 
    /** 
     * Handles the connection with the given handler function. 
     */ 
    def handleWithAsyncHandler(handler: HttpRequest ⇒ Future[HttpResponse], parallelism: Int = 1)(implicit fm: Materializer): Unit = 
      handleWith(Flow[HttpRequest].mapAsync(parallelism)(handler)) 
  }

IncomingConnection类型提供了个handleWith这样的streaming函数进行request到response的转换。用户可以下面的方式提供自定义的转换方法:

调用handleWith传入Flow[HttpRequest,HttpResponse,_],如:

  def req2Resp: HttpRequest => HttpResponse = _ => HttpResponse(entity= 
    HttpEntity(ContentTypes.`text/html(UTF-8)`,"<h> Hello World! </h>")) 
  val flow = Flow.fromFunction(req2Resp)

提供HttpRequest=>HttpResponse函数传人handleWithSyncHandler:

def syncHandler: HttpRequest => HttpResponse = { 
    case HttpRequest(HttpMethods.GET,Uri.Path("/"),_headers,_entiy,_protocol) => 
      HttpResponse(entity= 
        HttpEntity(ContentTypes.`text/html(UTF-8)`,"<h> Hello World! </h>")) 
 
    case req: HttpRequest => 
      req.discardEntityBytes() // important to drain incoming HTTP Entity stream 
      HttpResponse(404, entity = "Unknown resource!") 
  }

提供HttpRequest=>Future[HttpResponse]函数传人handleWithASyncHandler:

  def asyncHandler: HttpRequest => Future[HttpResponse] = { 
    case HttpRequest(HttpMethods.GET,Uri.Path("/"),_headers,_entiy,_protocol) => Future { 
      HttpResponse(entity= 
        HttpEntity(ContentTypes.`text/html(UTF-8)`,"<h> Hello World! </h>")) } 
 
    case req: HttpRequest => Future { 
      req.discardEntityBytes() // important to drain incoming HTTP Entity stream 
      HttpResponse(404, entity = "Unknown resource!") 
    } 
  }

run Source[IncomingConnection,Future[ServerBinding]]返回结果为Future[ServerBinding]:

  val futBinding: Future[Http.ServerBinding] = 
    connSource.to { Sink.foreach{ connection => 
        println(s"client address ${connection.remoteAddress}") 
  //      connection handleWith flow 
  //    connection handleWithSyncHandler syncHandler 
      connection handleWithAsyncHandler asyncHandler 
    }}.run()

我们可以通过ServerBinding来释放绑定的Socket:

 /** 
   * Represents a prospective HTTP server binding. 
   * 
   * @param localAddress  The local address of the endpoint bound by the materialization of the `connections` [[akka.stream.scaladsl.Source]] 
   * 
   */ 
  final case class ServerBinding(localAddress: InetSocketAddress)(private val unbindAction: () ⇒ Future[Unit]) { 
 
    /** 
     * Asynchronously triggers the unbinding of the port that was bound by the materialization of the `connections` 
     * [[akka.stream.scaladsl.Source]] 
     * 
     * The produced [[scala.concurrent.Future]] is fulfilled when the unbinding has been completed. 
     */ 
    def unbind(): Future[Unit] = unbindAction() 
  }

我们可以调用这个unbind():

  futBinding.flatMap(_.unbind())

整个示范源代码如下:

import akka.actor._ 
import akka.stream._ 
import akka.stream.scaladsl._ 
import akka.http.scaladsl.Http 
import akka.http.scaladsl.model._ 
import scala.concurrent._ 
 
object LowLevelServerApi extends App { 
  implicit val httpSys = ActorSystem("actorSystem") 
  implicit val httpMat = ActorMaterializer() 
  implicit val httpEc = httpSys.dispatcher 
 
  val (interface,port) = ("localhost",8088) 
  val connSource: Source[Http.IncomingConnection,Future[Http.ServerBinding]] = 
    Http().bind(interface,port) 
 
  def req2Resp: HttpRequest => HttpResponse = _ => HttpResponse(entity= 
    HttpEntity(ContentTypes.`text/html(UTF-8)`,"<h> Hello World! </h>")) 
  val flow = Flow.fromFunction(req2Resp) 
 
  def syncHandler: HttpRequest => HttpResponse = { 
    case HttpRequest(HttpMethods.GET,Uri.Path("/"),_headers,_entiy,_protocol) => 
      HttpResponse(entity= 
        HttpEntity(ContentTypes.`text/html(UTF-8)`,"<h> Hello World! </h>")) 
 
    case req: HttpRequest => 
      req.discardEntityBytes() // important to drain incoming HTTP Entity stream 
      HttpResponse(404, entity = "Unknown resource!") 
  } 
 
  def asyncHandler: HttpRequest => Future[HttpResponse] = { 
    case HttpRequest(HttpMethods.GET,Uri.Path("/"),_headers,_entiy,_protocol) => Future { 
      HttpResponse(entity= 
        HttpEntity(ContentTypes.`text/html(UTF-8)`,"<h> Hello World! </h>")) } 
 
    case req: HttpRequest => Future { 
      req.discardEntityBytes() // important to drain incoming HTTP Entity stream 
      HttpResponse(404, entity = "Unknown resource!") 
    } 
  } 
 
  val futBinding: Future[Http.ServerBinding] = 
    connSource.to { Sink.foreach{ connection => 
        println(s"client address ${connection.remoteAddress}") 
  //      connection handleWith flow 
  //    connection handleWithSyncHandler syncHandler 
      connection handleWithAsyncHandler asyncHandler 
    }}.run() 
 
  println(s"Server running at $interface $port. Press any key to exit ...") 
 
  scala.io.StdIn.readLine() 
 
  futBinding.flatMap(_.unbind()) 
    .onComplete(_ => httpSys.terminate()) 
   
}

 

 

 

 

 

 

 

 

 

 

 

 

 

原创文章,作者:Maggie-Hunter,如若转载,请注明出处:https://blog.ytso.com/12832.html

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