Package com.sun.net.httpserver

Provides a simple high-level Http server API, which can be used to build embedded HTTP servers. Both "http" and "https" are supported. The API provides a partial implementation of RFC 2616 (HTTP 1.1) and RFC 2818 (HTTP over TLS). Any HTTP functionality not provided by this API can be implemented by application code using the API.

Programmers must implement the HttpHandler interface. This interface provides a callback which is invoked to handle incoming requests from clients. A HTTP request and its response is known as an exchange. HTTP exchanges are represented by the HttpExchange class. The HttpServer class is used to listen for incoming TCP connections and it dispatches requests on these connections to handlers which have been registered with the server.

A minimal Http server example is shown below:

   class MyHandler implements HttpHandler {
       public void handle(HttpExchange t) throws IOException {
           InputStream is = t.getRequestBody();
           read(is); // .. read the request body
           String response = "This is the response";
           t.sendResponseHeaders(200, response.length());
           OutputStream os = t.getResponseBody();
           os.write(response.getBytes());
           os.close();
       }
   }
   ...

   HttpServer server = HttpServer.create(new InetSocketAddress(8000), 0);
   server.createContext("/applications/myapp", new MyHandler());
   server.setExecutor(null); // creates a default executor
   server.start();
   

The example above creates a simple HttpServer which uses the calling application thread to invoke the handle() method for incoming http requests directed to port 8000, and to the path /applications/myapp/.

The HttpExchange class encapsulates everything an application needs to process incoming requests and to generate appropriate responses.

Registering a handler with a HttpServer creates a HttpContext object and Filter objects can be added to the returned context. Filters are used to perform automatic pre- and post-processing of exchanges before they are passed to the exchange handler.

For sensitive information, a HttpsServer can be used to process "https" requests secured by the SSL or TLS protocols. A HttpsServer must be provided with a HttpsConfigurator object, which contains an initialized SSLContext. HttpsConfigurator can be used to configure the cipher suites and other SSL operating parameters. A simple example SSLContext could be created as follows:

   char[] passphrase = "passphrase".toCharArray();
   KeyStore ks = KeyStore.getInstance("JKS");
   ks.load(new FileInputStream("testkeys"), passphrase);

   KeyManagerFactory kmf = KeyManagerFactory.getInstance("SunX509");
   kmf.init(ks, passphrase);

   TrustManagerFactory tmf = TrustManagerFactory.getInstance("SunX509");
   tmf.init(ks);

   SSLContext ssl = SSLContext.getInstance("TLS");
   ssl.init(kmf.getKeyManagers(), tmf.getTrustManagers(), null);
   

In the example above, a keystore file called "testkeys", created with the keytool utility is used as a certificate store for client and server certificates. The following code shows how the SSLContext is then used in a HttpsConfigurator and how the SSLContext and HttpsConfigurator are linked to the HttpsServer.

    server.setHttpsConfigurator (new HttpsConfigurator(sslContext) {
        public void configure (HttpsParameters params) {

        // get the remote address if needed
        InetSocketAddress remote = params.getClientAddress();

        SSLContext c = getSSLContext();

        // get the default parameters
        SSLParameters sslparams = c.getDefaultSSLParameters();
        if (remote.equals (...) ) {
            // modify the default set for client x
        }

        params.setSSLParameters(sslparams);
        // statement above could throw IAE if any params invalid.
        // eg. if app has a UI and parameters supplied by a user.

        }
    });
   
Since:
1.6
  • Interface Summary 
    Interface Description
    HttpHandler
    A handler which is invoked to process HTTP exchanges.
  • Class Summary 
    Class Description
    Authenticator
    Authenticator represents an implementation of an HTTP authentication mechanism.
    Authenticator.Failure
    Indicates an authentication failure.
    Authenticator.Result
    Base class for return type from authenticate() method
    Authenticator.Retry
    Indicates an authentication must be retried.
    Authenticator.Success
    Indicates an authentication has succeeded and the authenticated user principal can be acquired by calling getPrincipal().
    BasicAuthenticator
    BasicAuthenticator provides an implementation of HTTP Basic authentication.
    Filter
    A filter used to pre- and post-process incoming requests.
    Filter.Chain
    a chain of filters associated with a HttpServer.
    Headers
    HTTP request and response headers are represented by this class which implements the interface Map<String, List <String>>.
    HttpContext
    HttpContext represents a mapping between the root URI path of an application to a HttpHandler which is invoked to handle requests destined for that path on the associated HttpServer or HttpsServer.
    HttpExchange
    This class encapsulates a HTTP request received and a response to be generated in one exchange.
    HttpPrincipal
    Represents a user authenticated by HTTP Basic or Digest authentication.
    HttpsConfigurator
    This class is used to configure the https parameters for each incoming https connection on a HttpsServer.
    HttpServer
    This class implements a simple HTTP server.
    HttpsExchange
    This class encapsulates a HTTPS request received and a response to be generated in one exchange and defines the extensions to HttpExchange that are specific to the HTTPS protocol.
    HttpsParameters
    Represents the set of parameters for each https connection negotiated with clients.
    HttpsServer
    This class is an extension of HttpServer which provides support for HTTPS.