All Downloads are FREE. Search and download functionalities are using the official Maven repository.

jakarta.servlet.AsyncContext Maven / Gradle / Ivy

There is a newer version: 6.1.0
Show newest version
/*
 * Copyright (c) 2017, 2018 Oracle and/or its affiliates and others.
 * 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 jakarta.servlet;

/**
 * Class representing the execution context for an asynchronous operation that was initiated on a ServletRequest.
 *
 * 

* An AsyncContext is created and initialized by a call to {@link ServletRequest#startAsync()} or * {@link ServletRequest#startAsync(ServletRequest, ServletResponse)}. Repeated invocations of these methods will return * the same AsyncContext instance, reinitialized as appropriate. * *

* In the event that an asynchronous operation has timed out, the container must run through these steps: *

    *
  1. Invoke, at their {@link AsyncListener#onTimeout onTimeout} method, all {@link AsyncListener} instances registered * with the ServletRequest on which the asynchronous operation was initiated.
  2. *
  3. If none of the listeners called {@link #complete} or any of the {@link #dispatch} methods, perform an error * dispatch with a status code equal to HttpServletResponse.SC_INTERNAL_SERVER_ERROR.
  4. *
  5. If no matching error page was found, or the error page did not call {@link #complete} or any of the * {@link #dispatch} methods, call {@link #complete}.
  6. *
* * @since Servlet 3.0 */ public interface AsyncContext { /** * The name of the request attribute under which the original request URI is made available to the target of a * {@link #dispatch(String)} or {@link #dispatch(ServletContext,String)} */ static final String ASYNC_REQUEST_URI = "jakarta.servlet.async.request_uri"; /** * The name of the request attribute under which the original context path is made available to the target of a * {@link #dispatch(String)} or {@link #dispatch(ServletContext,String)} */ static final String ASYNC_CONTEXT_PATH = "jakarta.servlet.async.context_path"; /** * The name of the request attribute under which the original {@link jakarta.servlet.http.HttpServletMapping} is made * available to the target of a {@link #dispatch(String)} or {@link #dispatch(ServletContext,String)} */ static final String ASYNC_MAPPING = "jakarta.servlet.async.mapping"; /** * The name of the request attribute under which the original path info is made available to the target of a * {@link #dispatch(String)} or {@link #dispatch(ServletContext,String)} */ static final String ASYNC_PATH_INFO = "jakarta.servlet.async.path_info"; /** * The name of the request attribute under which the original servlet path is made available to the target of a * {@link #dispatch(String)} or {@link #dispatch(ServletContext,String)} */ static final String ASYNC_SERVLET_PATH = "jakarta.servlet.async.servlet_path"; /** * The name of the request attribute under which the original query string is made available to the target of a * {@link #dispatch(String)} or {@link #dispatch(ServletContext,String)} */ static final String ASYNC_QUERY_STRING = "jakarta.servlet.async.query_string"; /** * Gets the request that was used to initialize this AsyncContext by calling {@link ServletRequest#startAsync()} or * {@link ServletRequest#startAsync(ServletRequest, ServletResponse)}. * * @return the request that was used to initialize this AsyncContext * * @exception IllegalStateException if {@link #complete} or any of the {@link #dispatch} methods has been called in * the asynchronous cycle */ public ServletRequest getRequest(); /** * Gets the response that was used to initialize this AsyncContext by calling {@link ServletRequest#startAsync()} or * {@link ServletRequest#startAsync(ServletRequest, ServletResponse)}. * * @return the response that was used to initialize this AsyncContext * * @exception IllegalStateException if {@link #complete} or any of the {@link #dispatch} methods has been called in * the asynchronous cycle */ public ServletResponse getResponse(); /** * Checks if this AsyncContext was initialized with the original or application-wrapped request and response * objects. * *

* This information may be used by filters invoked in the outbound direction, after a request was put into * asynchronous mode, to determine whether any request and/or response wrappers that they added during their * inbound invocation need to be preserved for the duration of the asynchronous operation, or may be * released. * * @return true if this AsyncContext was initialized with the original request and response objects by calling * {@link ServletRequest#startAsync()}, or if it was initialized by calling * {@link ServletRequest#startAsync(ServletRequest, ServletResponse)}, and neither the ServletRequest nor * ServletResponse arguments carried any application-provided wrappers; false otherwise */ public boolean hasOriginalRequestAndResponse(); /** * Dispatches the request and response objects of this AsyncContext to the servlet container. * *

* If the asynchronous cycle was started with {@link ServletRequest#startAsync(ServletRequest, ServletResponse)}, * and the request passed is an instance of HttpServletRequest, then the dispatch is to the URI returned by * {@link jakarta.servlet.http.HttpServletRequest#getRequestURI}. Otherwise, the dispatch is to the URI of the request * when it was last dispatched by the container. * *

* The following sequence illustrates how this will work: * *

     * {@code
     * // REQUEST dispatch to /url/A
     * AsyncContext ac = request.startAsync();
     * ...
     * ac.dispatch(); // ASYNC dispatch to /url/A
     * 
     * // REQUEST to /url/A
     * // FORWARD dispatch to /url/B
     * request.getRequestDispatcher("/url/B").forward(request,response);
     * // Start async operation from within the target of the FORWARD
     * // dispatch
     * ac = request.startAsync();
     * ...
     * ac.dispatch(); // ASYNC dispatch to /url/A
     * 
     * // REQUEST to /url/A
     * // FORWARD dispatch to /url/B
     * request.getRequestDispatcher("/url/B").forward(request,response);
     * // Start async operation from within the target of the FORWARD
     * // dispatch
     * ac = request.startAsync(request,response);
     * ...
     * ac.dispatch(); // ASYNC dispatch to /url/B
     * }
     * 
* *

* This method returns immediately after passing the request and response objects to a container managed thread, on * which the dispatch operation will be performed. If this method is called before the container-initiated dispatch * that called startAsync has returned to the container, the dispatch operation will be delayed until after * the container-initiated dispatch has returned to the container. * *

* The dispatcher type of the request is set to DispatcherType.ASYNC. Unlike * {@link RequestDispatcher#forward(ServletRequest, ServletResponse) forward dispatches}, the response buffer and * headers will not be reset, and it is legal to dispatch even if the response has already been committed. * *

* Control over the request and response is delegated to the dispatch target, and the response will be closed when * the dispatch target has completed execution, unless {@link ServletRequest#startAsync()} or * {@link ServletRequest#startAsync(ServletRequest, ServletResponse)} are called. * *

* Any errors or exceptions that may occur during the execution of this method must be caught and handled by the * container, as follows: *

    *
  1. Invoke, at their {@link AsyncListener#onError onError} method, all {@link AsyncListener} instances registered * with the ServletRequest for which this AsyncContext was created, and make the caught Throwable available * via {@link AsyncEvent#getThrowable}.
  2. *
  3. If none of the listeners called {@link #complete} or any of the {@link #dispatch} methods, perform an error * dispatch with a status code equal to HttpServletResponse.SC_INTERNAL_SERVER_ERROR, and make the above * Throwable available as the value of the RequestDispatcher.ERROR_EXCEPTION request * attribute.
  4. *
  5. If no matching error page was found, or the error page did not call {@link #complete} or any of the * {@link #dispatch} methods, call {@link #complete}.
  6. *
* *

* There can be at most one asynchronous dispatch operation per asynchronous cycle, which is started by a call to * one of the {@link ServletRequest#startAsync} methods. Any attempt to perform an additional asynchronous dispatch * operation within the same asynchronous cycle will result in an IllegalStateException. If startAsync is * subsequently called on the dispatched request, then any of the dispatch or {@link #complete} methods may be * called. * * @throws IllegalStateException if one of the dispatch methods has been called and the startAsync method has not * been called during the resulting dispatch, or if {@link #complete} was called * * @see ServletRequest#getDispatcherType */ public void dispatch(); /** * Dispatches the request and response objects of this AsyncContext to the given path. * *

* The path parameter is interpreted in the same way as in * {@link ServletRequest#getRequestDispatcher(String)}, within the scope of the {@link ServletContext} from which * this AsyncContext was initialized. * *

* All path related query methods of the request must reflect the dispatch target, while the original request URI, * context path, path info, servlet path, and query string may be recovered from the {@link #ASYNC_REQUEST_URI}, * {@link #ASYNC_CONTEXT_PATH}, {@link #ASYNC_PATH_INFO}, {@link #ASYNC_SERVLET_PATH}, and * {@link #ASYNC_QUERY_STRING} attributes of the request. These attributes will always reflect the original path * elements, even under repeated dispatches. * *

* There can be at most one asynchronous dispatch operation per asynchronous cycle, which is started by a call to * one of the {@link ServletRequest#startAsync} methods. Any attempt to perform an additional asynchronous dispatch * operation within the same asynchronous cycle will result in an IllegalStateException. If startAsync is * subsequently called on the dispatched request, then any of the dispatch or {@link #complete} methods may be * called. * *

* See {@link #dispatch()} for additional details, including error handling. * * @param path the path of the dispatch target, scoped to the ServletContext from which this AsyncContext was * initialized * * @throws IllegalStateException if one of the dispatch methods has been called and the startAsync method has not * been called during the resulting dispatch, or if {@link #complete} was called * * @see ServletRequest#getDispatcherType */ public void dispatch(String path); /** * Dispatches the request and response objects of this AsyncContext to the given path scoped to the given * context. * *

* The path parameter is interpreted in the same way as in * {@link ServletRequest#getRequestDispatcher(String)}, except that it is scoped to the given context. * *

* All path related query methods of the request must reflect the dispatch target, while the original request URI, * context path, path info, servlet path, and query string may be recovered from the {@link #ASYNC_REQUEST_URI}, * {@link #ASYNC_CONTEXT_PATH}, {@link #ASYNC_PATH_INFO}, {@link #ASYNC_SERVLET_PATH}, and * {@link #ASYNC_QUERY_STRING} attributes of the request. These attributes will always reflect the original path * elements, even under repeated dispatches. * *

* There can be at most one asynchronous dispatch operation per asynchronous cycle, which is started by a call to * one of the {@link ServletRequest#startAsync} methods. Any attempt to perform an additional asynchronous dispatch * operation within the same asynchronous cycle will result in an IllegalStateException. If startAsync is * subsequently called on the dispatched request, then any of the dispatch or {@link #complete} methods may be * called. * *

* See {@link #dispatch()} for additional details, including error handling. * * @param context the ServletContext of the dispatch target * @param path the path of the dispatch target, scoped to the given ServletContext * * @throws IllegalStateException if one of the dispatch methods has been called and the startAsync method has not * been called during the resulting dispatch, or if {@link #complete} was called * * @see ServletRequest#getDispatcherType */ public void dispatch(ServletContext context, String path); /** * Completes the asynchronous operation that was started on the request that was used to initialze this * AsyncContext, closing the response that was used to initialize this AsyncContext. * *

* Any listeners of type {@link AsyncListener} that were registered with the ServletRequest for which this * AsyncContext was created will be invoked at their {@link AsyncListener#onComplete(AsyncEvent) onComplete} method. * *

* It is legal to call this method any time after a call to {@link ServletRequest#startAsync()} or * {@link ServletRequest#startAsync(ServletRequest, ServletResponse)}, and before a call to one of the * dispatch methods of this class. If this method is called before the container-initiated dispatch that * called startAsync has returned to the container, then the call will not take effect (and any invocations * of {@link AsyncListener#onComplete(AsyncEvent)} will be delayed) until after the container-initiated dispatch has * returned to the container. */ public void complete(); /** * Causes the container to dispatch a thread, possibly from a managed thread pool, to run the specified * Runnable. The container may propagate appropriate contextual information to the Runnable. * * @param run the asynchronous handler */ public void start(Runnable run); /** * Registers the given {@link AsyncListener} with the most recent asynchronous cycle that was started by a call to * one of the {@link ServletRequest#startAsync} methods. * *

* The given AsyncListener will receive an {@link AsyncEvent} when the asynchronous cycle completes successfully, * times out, results in an error, or a new asynchronous cycle is being initiated via one of the * {@link ServletRequest#startAsync} methods. * *

* AsyncListener instances will be notified in the order in which they were added. * *

* If {@link ServletRequest#startAsync(ServletRequest, ServletResponse)} or {@link ServletRequest#startAsync} is * called, the exact same request and response objects are available from the {@link AsyncEvent} when the * {@link AsyncListener} is notified. * * @param listener the AsyncListener to be registered * * @throws IllegalStateException if this method is called after the container-initiated dispatch, during which one * of the {@link ServletRequest#startAsync} methods was called, has returned to the * container */ public void addListener(AsyncListener listener); /** * Registers the given {@link AsyncListener} with the most recent asynchronous cycle that was started by a call to * one of the {@link ServletRequest#startAsync} methods. * *

* The given AsyncListener will receive an {@link AsyncEvent} when the asynchronous cycle completes successfully, * times out, results in an error, or a new asynchronous cycle is being initiated via one of the * {@link ServletRequest#startAsync} methods. * *

* AsyncListener instances will be notified in the order in which they were added. * *

* The given ServletRequest and ServletResponse objects will be made available to the given AsyncListener via the * {@link AsyncEvent#getSuppliedRequest getSuppliedRequest} and {@link AsyncEvent#getSuppliedResponse * getSuppliedResponse} methods, respectively, of the {@link AsyncEvent} delivered to it. These objects should not * be read from or written to, respectively, at the time the AsyncEvent is delivered, because additional wrapping * may have occurred since the given AsyncListener was registered, but may be used in order to release any resources * associated with them. * * @param listener the AsyncListener to be registered * @param servletRequest the ServletRequest that will be included in the AsyncEvent * @param servletResponse the ServletResponse that will be included in the AsyncEvent * * @throws IllegalStateException if this method is called after the container-initiated dispatch, during which one * of the {@link ServletRequest#startAsync} methods was called, has returned to the * container */ public void addListener(AsyncListener listener, ServletRequest servletRequest, ServletResponse servletResponse); /** * Instantiates the given {@link AsyncListener} class. * *

* The returned AsyncListener instance may be further customized before it is registered with this AsyncContext via * a call to one of the addListener methods. * *

* The given AsyncListener class must define a zero argument constructor, which is used to instantiate it. * *

* This method supports resource injection if the given clazz represents a Managed Bean. See the Jakarta EE * platform and CDI specifications for additional details about Managed Beans and resource injection. * *

* This method supports any annotations applicable to AsyncListener. * * @param the class of the object to instantiate * @param clazz the AsyncListener class to instantiate * * @return the new AsyncListener instance * * @throws ServletException if the given clazz fails to be instantiated */ public T createListener(Class clazz) throws ServletException; /** * Sets the timeout (in milliseconds) for this AsyncContext. * *

* The timeout applies to this AsyncContext once the container-initiated dispatch during which one of the * {@link ServletRequest#startAsync} methods was called has returned to the container. * *

* The timeout will expire if neither the {@link #complete} method nor any of the dispatch methods are called. A * timeout value of zero or less indicates no timeout. * *

* If {@link #setTimeout} is not called, then the container's default timeout, which is available via a call to * {@link #getTimeout}, will apply. * *

* The default value is 30000 ms. * * @param timeout the timeout in milliseconds * * @throws IllegalStateException if this method is called after the container-initiated dispatch, during which one * of the {@link ServletRequest#startAsync} methods was called, has returned to the * container */ public void setTimeout(long timeout); /** * Gets the timeout (in milliseconds) for this AsyncContext. * *

* This method returns the container's default timeout for asynchronous operations, or the timeout value passed to * the most recent invocation of {@link #setTimeout}. * *

* A timeout value of zero or less indicates no timeout. * * @return the timeout in milliseconds */ public long getTimeout(); }





© 2015 - 2024 Weber Informatics LLC | Privacy Policy