/*
 * 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 javax.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 ServletRequest.startAsync() or 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 onTimeout method, all AsyncListener instances registered with the ServletRequest on which the asynchronous operation was initiated.
  2. If none of the listeners called complete or any of the dispatch methods, perform an error dispatch with a status code equal to HttpServletResponse.SC_INTERNAL_SERVER_ERROR.
  3. If no matching error page was found, or the error page did not call complete or any of the dispatch methods, call complete.
Since:Servlet 3.0
/** * Class representing the execution context for an asynchronous operation that was initiated on a ServletRequest. * * <p> * 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. * * <p> * In the event that an asynchronous operation has timed out, the container must run through these steps: * <ol> * <li>Invoke, at their {@link AsyncListener#onTimeout onTimeout} method, all {@link AsyncListener} instances registered * with the ServletRequest on which the asynchronous operation was initiated.</li> * <li>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 <tt>HttpServletResponse.SC_INTERNAL_SERVER_ERROR</tt>.</li> * <li>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}.</li> * </ol> * * @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 dispatch(String) or dispatch(ServletContext, String)
/** * 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 = "javax.servlet.async.request_uri";
The name of the request attribute under which the original context path is made available to the target of a dispatch(String) or dispatch(ServletContext, String)
/** * 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 = "javax.servlet.async.context_path";
The name of the request attribute under which the original HttpServletMapping is made available to the target of a dispatch(String) or dispatch(ServletContext, String)
/** * The name of the request attribute under which the original {@link javax.servlet.http.HttpServletMapping} is made * available to the target of a {@link #dispatch(String)} or {@link #dispatch(ServletContext,String)} */
static final String ASYNC_MAPPING = "javax.servlet.async.mapping";
The name of the request attribute under which the original path info is made available to the target of a dispatch(String) or dispatch(ServletContext, String)
/** * 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 = "javax.servlet.async.path_info";
The name of the request attribute under which the original servlet path is made available to the target of a dispatch(String) or dispatch(ServletContext, String)
/** * 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 = "javax.servlet.async.servlet_path";
The name of the request attribute under which the original query string is made available to the target of a dispatch(String) or dispatch(ServletContext, String)
/** * 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 = "javax.servlet.async.query_string";
Gets the request that was used to initialize this AsyncContext by calling ServletRequest.startAsync() or ServletRequest.startAsync(ServletRequest, ServletResponse).
Throws:
Returns:the request that was used to initialize this AsyncContext
/** * 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 ServletRequest.startAsync() or ServletRequest.startAsync(ServletRequest, ServletResponse).
Throws:
Returns:the response that was used to initialize this AsyncContext
/** * 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.

Returns:true if this AsyncContext was initialized with the original request and response objects by calling ServletRequest.startAsync(), or if it was initialized by calling ServletRequest.startAsync(ServletRequest, ServletResponse), and neither the ServletRequest nor ServletResponse arguments carried any application-provided wrappers; false otherwise
/** * Checks if this AsyncContext was initialized with the original or application-wrapped request and response * objects. * * <p> * This information may be used by filters invoked in the <i>outbound</i> direction, after a request was put into * asynchronous mode, to determine whether any request and/or response wrappers that they added during their * <i>inbound</i> 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 ServletRequest.startAsync(ServletRequest, ServletResponse), and the request passed is an instance of HttpServletRequest, then the dispatch is to the URI returned by 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:


// 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 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 ServletRequest.startAsync() or 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 onError method, all AsyncListener instances registered with the ServletRequest for which this AsyncContext was created, and make the caught Throwable available via AsyncEvent.getThrowable.
  2. If none of the listeners called complete or any of the 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.
  3. If no matching error page was found, or the error page did not call complete or any of the dispatch methods, call complete.

There can be at most one asynchronous dispatch operation per asynchronous cycle, which is started by a call to one of the 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 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 complete was called
See Also:
/** * Dispatches the request and response objects of this AsyncContext to the servlet container. * * <p> * 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 javax.servlet.http.HttpServletRequest#getRequestURI}. Otherwise, the dispatch is to the URI of the request * when it was last dispatched by the container. * * <p> * The following sequence illustrates how this will work: * * <pre> * {@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 * } * </pre> * * <p> * 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 <tt>startAsync</tt> has returned to the container, the dispatch operation will be delayed until after * the container-initiated dispatch has returned to the container. * * <p> * The dispatcher type of the request is set to <tt>DispatcherType.ASYNC</tt>. 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. * * <p> * 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. * * <p> * Any errors or exceptions that may occur during the execution of this method must be caught and handled by the * container, as follows: * <ol> * <li>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 <tt>Throwable</tt> available * via {@link AsyncEvent#getThrowable}.</li> * <li>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 <tt>HttpServletResponse.SC_INTERNAL_SERVER_ERROR</tt>, and make the above * <tt>Throwable</tt> available as the value of the <tt>RequestDispatcher.ERROR_EXCEPTION</tt> request * attribute.</li> * <li>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}.</li> * </ol> * * <p> * 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 ServletRequest.getRequestDispatcher(String), within the scope of the 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 ASYNC_REQUEST_URI, ASYNC_CONTEXT_PATH, ASYNC_PATH_INFO, ASYNC_SERVLET_PATH, and 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 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 complete methods may be called.

See dispatch() for additional details, including error handling.

Params:
  • 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 complete was called
See Also:
/** * Dispatches the request and response objects of this AsyncContext to the given <tt>path</tt>. * * <p> * The <tt>path</tt> 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. * * <p> * 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. * * <p> * 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. * * <p> * 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 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 ASYNC_REQUEST_URI, ASYNC_CONTEXT_PATH, ASYNC_PATH_INFO, ASYNC_SERVLET_PATH, and 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 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 complete methods may be called.

See dispatch() for additional details, including error handling.

Params:
  • context – the ServletContext of the dispatch target
  • 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 complete was called
See Also:
/** * Dispatches the request and response objects of this AsyncContext to the given <tt>path</tt> scoped to the given * <tt>context</tt>. * * <p> * The <tt>path</tt> parameter is interpreted in the same way as in * {@link ServletRequest#getRequestDispatcher(String)}, except that it is scoped to the given <tt>context</tt>. * * <p> * 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. * * <p> * 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. * * <p> * 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 AsyncListener that were registered with the ServletRequest for which this AsyncContext was created will be invoked at their onComplete method.

It is legal to call this method any time after a call to ServletRequest.startAsync() or 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 AsyncListener.onComplete(AsyncEvent) will be delayed) until after the container-initiated dispatch has returned to the container.

/** * 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. * * <p> * 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. * * <p> * 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 * <tt>dispatch</tt> methods of this class. If this method is called before the container-initiated dispatch that * called <tt>startAsync</tt> 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.
Params:
  • run – the asynchronous handler
/** * Causes the container to dispatch a thread, possibly from a managed thread pool, to run the specified * <tt>Runnable</tt>. The container may propagate appropriate contextual information to the <tt>Runnable</tt>. * * @param run the asynchronous handler */
public void start(Runnable run);
Registers the given AsyncListener with the most recent asynchronous cycle that was started by a call to one of the ServletRequest.startAsync methods.

The given AsyncListener will receive an 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 ServletRequest.startAsync methods.

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

If ServletRequest.startAsync(ServletRequest, ServletResponse) or ServletRequest.startAsync is called, the exact same request and response objects are available from the AsyncEvent when the AsyncListener is notified.

Params:
  • listener – the AsyncListener to be registered
Throws:
/** * 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. * * <p> * 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. * * <p> * AsyncListener instances will be notified in the order in which they were added. * * <p> * 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 AsyncListener with the most recent asynchronous cycle that was started by a call to one of the ServletRequest.startAsync methods.

The given AsyncListener will receive an 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 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 getSuppliedRequest and getSuppliedResponse methods, respectively, of the 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.

Params:
  • listener – the AsyncListener to be registered
  • servletRequest – the ServletRequest that will be included in the AsyncEvent
  • servletResponse – the ServletResponse that will be included in the AsyncEvent
Throws:
/** * 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. * * <p> * 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. * * <p> * AsyncListener instances will be notified in the order in which they were added. * * <p> * 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 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.

Params:
  • clazz – the AsyncListener class to instantiate
Type parameters:
  • <T> – the class of the object to instantiate
Throws:
Returns:the new AsyncListener instance
/** * Instantiates the given {@link AsyncListener} class. * * <p> * The returned AsyncListener instance may be further customized before it is registered with this AsyncContext via * a call to one of the <code>addListener</code> methods. * * <p> * The given AsyncListener class must define a zero argument constructor, which is used to instantiate it. * * <p> * This method supports resource injection if the given <tt>clazz</tt> represents a Managed Bean. See the Jakarta EE * platform and CDI specifications for additional details about Managed Beans and resource injection. * * <p> * This method supports any annotations applicable to AsyncListener. * * @param <T> the class of the object to instantiate * @param clazz the AsyncListener class to instantiate * * @return the new AsyncListener instance * * @throws ServletException if the given <tt>clazz</tt> fails to be instantiated */
public <T extends AsyncListener> T createListener(Class<T> 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 ServletRequest.startAsync methods was called has returned to the container.

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

If setTimeout is not called, then the container's default timeout, which is available via a call to getTimeout, will apply.

The default value is 30000 ms.

Params:
  • timeout – the timeout in milliseconds
Throws:
/** * Sets the timeout (in milliseconds) for this AsyncContext. * * <p> * 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. * * <p> * 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. * * <p> * If {@link #setTimeout} is not called, then the container's default timeout, which is available via a call to * {@link #getTimeout}, will apply. * * <p> * The default value is <code>30000</code> 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 setTimeout.

A timeout value of zero or less indicates no timeout.

Returns:the timeout in milliseconds
/** * Gets the timeout (in milliseconds) for this AsyncContext. * * <p> * This method returns the container's default timeout for asynchronous operations, or the timeout value passed to * the most recent invocation of {@link #setTimeout}. * * <p> * A timeout value of zero or less indicates no timeout. * * @return the timeout in milliseconds */
public long getTimeout(); }