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A bundle project producing JAX-RS RI bundles. The primary artifact is an "all-in-one" OSGi-fied JAX-RS RI bundle (jaxrs-ri.jar). Attached to that are two compressed JAX-RS RI archives. The first archive (jaxrs-ri.zip) consists of binary RI bits and contains the API jar (under "api" directory), RI libraries (under "lib" directory) as well as all external RI dependencies (under "ext" directory). The secondary archive (jaxrs-ri-src.zip) contains buildable JAX-RS RI source bundle and contains the API jar (under "api" directory), RI sources (under "src" directory) as well as all external RI dependencies (under "ext" directory). The second archive also contains "build.xml" ANT script that builds the RI sources. To build the JAX-RS RI simply unzip the archive, cd to the created jaxrs-ri directory and invoke "ant" from the command line.

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/*
 * Copyright (c) 2011, 2017 Oracle and/or its affiliates. All rights reserved.
 *
 * This program and the accompanying materials are made available under the
 * terms of the Eclipse Public License v. 2.0, which is available at
 * http://www.eclipse.org/legal/epl-2.0.
 *
 * This Source Code may also be made available under the following Secondary
 * Licenses when the conditions for such availability set forth in the
 * Eclipse Public License v. 2.0 are satisfied: GNU General Public License,
 * version 2 with the GNU Classpath Exception, which is available at
 * https://www.gnu.org/software/classpath/license.html.
 *
 * SPDX-License-Identifier: EPL-2.0 OR GPL-2.0 WITH Classpath-exception-2.0
 */

package javax.ws.rs.client;

import javax.ws.rs.ProcessingException;
import javax.ws.rs.WebApplicationException;
import javax.ws.rs.core.CacheControl;
import javax.ws.rs.core.Cookie;
import javax.ws.rs.core.GenericType;
import javax.ws.rs.core.MediaType;
import javax.ws.rs.core.MultivaluedMap;
import javax.ws.rs.core.Response;
import java.util.Locale;
import java.util.concurrent.Future;

/**
 * A client request invocation.
 *
 * An invocation is a request that has been prepared and is ready for execution.
 * Invocations provide a generic (command) interface that enables a separation of
 * concerns between the creator and the submitter. In particular, the submitter
 * does not need to know how the invocation was prepared, but only how it should
 * be executed (synchronously or asynchronously) and when.
 *
 * @author Marek Potociar
 * @author Santiago Pericas-Geertsen
 * @see Invocation.Builder Invocation.Builder
 */
public interface Invocation {

    /**
     * A client request invocation builder.
     *
     * The builder, obtained via a call to one of the {@code request(...)}
     * methods on a {@link WebTarget resource target}, provides methods for
     * preparing a client request invocation. Once the request is prepared
     * the invocation builder can be either used to build an {@link Invocation}
     * with a generic execution interface:
     * 
     *   Client client = ClientBuilder.newClient();
     *   WebTarget resourceTarget = client.target("http://examples.jaxrs.com/");
     *
     *   // Build a HTTP GET request that accepts "text/plain" response type
     *   // and contains a custom HTTP header entry "Foo: bar".
     *   Invocation invocation = resourceTarget.request("text/plain")
     *           .header("Foo", "bar").buildGet();
     *
     *   // Invoke the request using generic interface
     *   String response = invocation.invoke(String.class);
     * 
* Alternatively, one of the inherited {@link SyncInvoker synchronous invocation * methods} can be used to invoke the prepared request and return the server * response in a single step, e.g.: *
     *   Client client = ClientBuilder.newClient();
     *   WebTarget resourceTarget = client.target("http://examples.jaxrs.com/");
     *
     *   // Build and invoke the get request in a single step
     *   String response = resourceTarget.request("text/plain")
     *           .header("Foo", "bar").get(String.class);
     * 
* Once the request is fully prepared for invoking, switching to an * {@link AsyncInvoker asynchronous invocation} mode is possible by * calling the {@link #async() } method on the builder, e.g.: *
     *   Client client = ClientBuilder.newClient();
     *   WebTarget resourceTarget = client.target("http://examples.jaxrs.com/");
     *
     *   // Build and invoke the get request asynchronously in a single step
     *   Future response = resourceTarget.request("text/plain")
     *           .header("Foo", "bar").async().get(String.class);
     * 
*/ public static interface Builder extends SyncInvoker { // Invocation builder methods /** * Build a request invocation using an arbitrary request method name. * * @param method request method name. * @return invocation encapsulating the built request. */ public Invocation build(String method); /** * Build a request invocation using an arbitrary request method name and * request entity. * * @param method request method name. * @param entity request entity, including it's full {@link javax.ws.rs.core.Variant} information. * Any variant-related HTTP headers previously set (namely {@code Content-Type}, * {@code Content-Language} and {@code Content-Encoding}) will be overwritten using * the entity variant information. * @return invocation encapsulating the built request. */ public Invocation build(String method, Entity entity); /** * Build a GET request invocation. * * @return invocation encapsulating the built GET request. */ public Invocation buildGet(); /** * Build a DELETE request invocation. * * @return invocation encapsulating the built DELETE request. */ public Invocation buildDelete(); /** * Build a POST request invocation. * * @param entity request entity, including it's full {@link javax.ws.rs.core.Variant} information. * Any variant-related HTTP headers previously set (namely {@code Content-Type}, * {@code Content-Language} and {@code Content-Encoding}) will be overwritten using * the entity variant information. * @return invocation encapsulating the built POST request. */ public Invocation buildPost(Entity entity); /** * Build a PUT request invocation. * * @param entity request entity, including it's full {@link javax.ws.rs.core.Variant} information. * Any variant-related HTTP headers previously set (namely {@code Content-Type}, * {@code Content-Language} and {@code Content-Encoding}) will be overwritten using * the entity variant information. * @return invocation encapsulating the built PUT request. */ public Invocation buildPut(Entity entity); /** * Access the asynchronous uniform request invocation interface to * asynchronously invoke the built request. * * @return asynchronous uniform request invocation interface. */ public AsyncInvoker async(); /** * Add the accepted response media types. * * @param mediaTypes accepted response media types. * @return the updated builder. */ public Builder accept(String... mediaTypes); /** * Add the accepted response media types. * * @param mediaTypes accepted response media types. * @return the updated builder. */ public Builder accept(MediaType... mediaTypes); /** * Add acceptable languages. * * @param locales an array of the acceptable languages. * @return the updated builder. */ public Builder acceptLanguage(Locale... locales); /** * Add acceptable languages. * * @param locales an array of the acceptable languages. * @return the updated builder. */ public Builder acceptLanguage(String... locales); /** * Add acceptable encodings. * * @param encodings an array of the acceptable encodings. * @return the updated builder. */ public Builder acceptEncoding(String... encodings); /** * Add a cookie to be set. * * @param cookie to be set. * @return the updated builder. */ public Builder cookie(Cookie cookie); /** * Add a cookie to be set. * * @param name the name of the cookie. * @param value the value of the cookie. * @return the updated builder. */ public Builder cookie(String name, String value); /** * Set the cache control data of the message. * * @param cacheControl the cache control directives, if {@code null} * any existing cache control directives will be removed. * @return the updated builder. */ public Builder cacheControl(CacheControl cacheControl); /** * Add an arbitrary header. * * @param name the name of the header * @param value the value of the header, the header will be serialized * using a {@link javax.ws.rs.ext.RuntimeDelegate.HeaderDelegate} if * one is available via {@link javax.ws.rs.ext.RuntimeDelegate#createHeaderDelegate(java.lang.Class)} * for the class of {@code value} or using its {@code toString} method * if a header delegate is not available. If {@code value} is {@code null} * then all current headers of the same name will be removed. * @return the updated builder. */ public Builder header(String name, Object value); /** * Replaces all existing headers with the newly supplied headers. * * @param headers new headers to be set, if {@code null} all existing * headers will be removed. * @return the updated builder. */ public Builder headers(MultivaluedMap headers); /** * Set a new property in the context of a request represented by this invocation builder. *

* The property is available for a later retrieval via {@link ClientRequestContext#getProperty(String)} * or {@link javax.ws.rs.ext.InterceptorContext#getProperty(String)}. * If a property with a given name is already set in the request context, * the existing value of the property will be updated. * Setting a {@code null} value into a property effectively removes the property * from the request property bag. *

* * @param name property name. * @param value (new) property value. {@code null} value removes the property * with the given name. * @return the updated builder. * @see Invocation#property(String, Object) */ public Builder property(String name, Object value); /** * Access the default reactive invoker based on {@link java.util.concurrent.CompletionStage}. * * @return default reactive invoker instance. * @since 2.1 * @see javax.ws.rs.client.Invocation.Builder#rx(Class) */ public CompletionStageRxInvoker rx(); /** * Access a reactive invoker based on a {@link RxInvoker} subclass provider. Note * that corresponding {@link RxInvokerProvider} must be registered in the client runtime. *

* This method is an extension point for implementations to support other types * representing asynchronous computations. * * @param clazz {@link RxInvoker} subclass. * @return reactive invoker instance. * @throws IllegalStateException when provider for given class is not registered. * @see javax.ws.rs.client.Client#register(Class) * @since 2.1 */ public T rx(Class clazz); } /** * Set a new property in the context of a request represented by this invocation. *

* The property is available for a later retrieval via {@link ClientRequestContext#getProperty(String)} * or {@link javax.ws.rs.ext.InterceptorContext#getProperty(String)}. * If a property with a given name is already set in the request context, * the existing value of the property will be updated. * Setting a {@code null} value into a property effectively removes the property * from the request property bag. *

* * @param name property name. * @param value (new) property value. {@code null} value removes the property * with the given name. * @return the updated invocation. * @see Invocation.Builder#property(String, Object) */ public Invocation property(String name, Object value); /** * Synchronously invoke the request and receive a response back. * * @return {@link Response response} object as a result of the request * invocation. * @throws ResponseProcessingException in case processing of a received HTTP response fails (e.g. in a filter * or during conversion of the response entity data to an instance * of a particular Java type). * @throws ProcessingException in case the request processing or subsequent I/O operation fails. */ public Response invoke(); /** * Synchronously invoke the request and receive a response of the specified * type back. * * @param response type * @param responseType Java type the response should be converted into. * @return response object of the specified type as a result of the request * invocation. * @throws ResponseProcessingException in case processing of a received HTTP response fails (e.g. in a filter * or during conversion of the response entity data to an instance * of a particular Java type). * @throws ProcessingException in case the request processing or subsequent I/O operation fails. * @throws WebApplicationException in case the response status code of the response * returned by the server is not * {@link javax.ws.rs.core.Response.Status.Family#SUCCESSFUL * successful} and the specified response type is not * {@link javax.ws.rs.core.Response}. */ public T invoke(Class responseType); /** * Synchronously invoke the request and receive a response of the specified * generic type back. * * @param generic response type * @param responseType type literal representing a generic Java type the * response should be converted into. * @return response object of the specified generic type as a result of the * request invocation. * @throws ResponseProcessingException in case processing of a received HTTP response fails (e.g. in a filter * or during conversion of the response entity data to an instance * of a particular Java type). * @throws ProcessingException in case the request processing or subsequent I/O operation fails. * @throws WebApplicationException in case the response status code of the response * returned by the server is not * {@link javax.ws.rs.core.Response.Status.Family#SUCCESSFUL * successful}. */ public T invoke(GenericType responseType); /** * Submit the request for an asynchronous invocation and receive a future * response back. *

* Note that calling the {@link java.util.concurrent.Future#get()} method on the returned * {@code Future} instance may throw an {@link java.util.concurrent.ExecutionException} * that wraps a {@link ProcessingException} thrown in case of an invocation processing * failure. * In case a processing of a properly received response fails, the wrapped processing exception * will be of {@link ResponseProcessingException} type and will contain the {@link Response} * instance whose processing has failed. *

* * @return future {@link Response response} object as a result of the request * invocation. */ public Future submit(); /** * Submit the request for an asynchronous invocation and receive a future * response of the specified type back. *

* Note that calling the {@link java.util.concurrent.Future#get()} method on the returned * {@code Future} instance may throw an {@link java.util.concurrent.ExecutionException} * that wraps either a {@link ProcessingException} thrown in case of an invocation processing * failure or a {@link WebApplicationException} or one of its subclasses thrown in case the * received response status code is not {@link javax.ws.rs.core.Response.Status.Family#SUCCESSFUL * successful} and the specified response type is not {@link javax.ws.rs.core.Response}. * In case a processing of a properly received response fails, the wrapped processing exception * will be of {@link ResponseProcessingException} type and will contain the {@link Response} * instance whose processing has failed. *

* * @param response type * @param responseType Java type the response should be converted into. * @return future response object of the specified type as a result of the * request invocation. */ public Future submit(Class responseType); /** * Submit the request for an asynchronous invocation and receive a future * response of the specified generic type back. *

* Note that calling the {@link java.util.concurrent.Future#get()} method on the returned * {@code Future} instance may throw an {@link java.util.concurrent.ExecutionException} * that wraps either a {@link ProcessingException} thrown in case of an invocation processing * failure or a {@link WebApplicationException} or one of its subclasses thrown in case the * received response status code is not {@link javax.ws.rs.core.Response.Status.Family#SUCCESSFUL * successful} and the specified response type is not {@link javax.ws.rs.core.Response}. * In case a processing of a properly received response fails, the wrapped processing exception * will be of {@link ResponseProcessingException} type and will contain the {@link Response} * instance whose processing has failed. *

* * @param generic response type * @param responseType type literal representing a generic Java type the * response should be converted into. * @return future response object of the specified generic type as a result * of the request invocation. */ public Future submit(GenericType responseType); /** * Submit the request for an asynchronous invocation and register an * {@link InvocationCallback} to process the future result of the invocation. *

* Note that calling the {@link java.util.concurrent.Future#get()} method on the returned * {@code Future} instance may throw an {@link java.util.concurrent.ExecutionException} * that wraps either a {@link ProcessingException} thrown in case of an invocation processing * failure or a {@link WebApplicationException} or one of its subclasses thrown in case the * received response status code is not {@link javax.ws.rs.core.Response.Status.Family#SUCCESSFUL * successful} and the generic type of the supplied response callback is not * {@link javax.ws.rs.core.Response}. * In case a processing of a properly received response fails, the wrapped processing exception * will be of {@link ResponseProcessingException} type and will contain the {@link Response} * instance whose processing has failed. *

* * @param response type * @param callback invocation callback for asynchronous processing of the * request invocation result. * @return future response object of the specified type as a result of the * request invocation. */ public Future submit(InvocationCallback callback); }




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