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view src/org/eclipse/jetty/continuation/Continuation.java @ 928:23a57aad34c0
remove isAsync()
author | Franklin Schmidt <fschmidt@gmail.com> |
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date | Sun, 09 Oct 2016 18:54:32 -0600 |
parents | 52d8b5c29d8e |
children | 3191abe890ef |
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// // ======================================================================== // Copyright (c) 1995-2014 Mort Bay Consulting Pty. Ltd. // ------------------------------------------------------------------------ // All rights reserved. This program and the accompanying materials // are made available under the terms of the Eclipse Public License v1.0 // and Apache License v2.0 which accompanies this distribution. // // The Eclipse Public License is available at // http://www.eclipse.org/legal/epl-v10.html // // The Apache License v2.0 is available at // http://www.opensource.org/licenses/apache2.0.php // // You may elect to redistribute this code under either of these licenses. // ======================================================================== // package org.eclipse.jetty.continuation; import javax.servlet.Filter; import javax.servlet.FilterChain; import javax.servlet.Servlet; import javax.servlet.ServletRequest; import javax.servlet.ServletResponse; import javax.servlet.ServletResponseWrapper; /* ------------------------------------------------------------ */ /** * Continuation. * * A continuation is a mechanism by which a HTTP Request can be suspended and * restarted after a timeout or an asynchronous event has occurred. * <p> * The continuation mechanism is a portable mechanism that will work * asynchronously without additional configuration of all jetty-7, * jetty-8 and Servlet 3.0 containers. With the addition of * the {@link ContinuationFilter}, the mechanism will also work * asynchronously on jetty-6 and non-asynchronously on any * servlet 2.5 container. * <p> * The Continuation API is a simplification of the richer async API * provided by the servlet-3.0 and an enhancement of the continuation * API that was introduced with jetty-6. * </p> * <h1>Continuation Usage</h1> * <p> * A continuation object is obtained for a request by calling the * factory method {@link ContinuationSupport#getContinuation(ServletRequest)}. * The continuation type returned will depend on the servlet container * being used. * </p> * <p> * There are two distinct style of operation of the continuation API. * </p> * <h3>Suspend/Resume Usage</h3> * <p>The suspend/resume style is used when a servlet and/or * filter is used to generate the response after a asynchronous wait that is * terminated by an asynchronous handler. * </p> * <pre> * <b>Filter/Servlet:</b> * // if we need to get asynchronous results * Object results = request.getAttribute("results); * if (results==null) * { * Continuation continuation = ContinuationSupport.getContinuation(request); * continuation.suspend(); * myAsyncHandler.register(continuation); * return; // or continuation.undispatch(); * } * * async wait ... * * <b>Async Handler:</b> * // when the waited for event happens * continuation.setAttribute("results",event); * continuation.resume(); * * <b>Filter/Servlet:</b> * // when the request is redispatched * if (results==null) * { * ... // see above * } * else * { * response.getOutputStream().write(process(results)); * } * </pre> * <h3>Suspend/Complete Usage</h3> * <p> * The suspend/complete style is used when an asynchronous handler is used to * generate the response: * </p> * <pre> * <b>Filter/Servlet:</b> * // when we want to enter asynchronous mode * Continuation continuation = ContinuationSupport.getContinuation(request); * continuation.suspend(response); // response may be wrapped * myAsyncHandler.register(continuation); * return; // or continuation.undispatch(); * * <b>Wrapping Filter:</b> * // any filter that had wrapped the response should be implemented like: * try * { * chain.doFilter(request,wrappedResponse); * } * finally * { * if (!continuation.isResponseWrapped()) * wrappedResponse.finish() * else * continuation.addContinuationListener(myCompleteListener) * } * * async wait ... * * <b>Async Handler:</b> * // when the async event happens * continuation.getServletResponse().getOutputStream().write(process(event)); * continuation.complete() * </pre> * * <h1>Continuation Timeout</h1> * <p> * If a continuation is suspended, but neither {@link #complete()} or {@link #resume()} is * called during the period set by {@link #setTimeout(long)}, then the continuation will * expire and {@link #isExpired()} will return true. * </p> * <p> * When a continuation expires, the {@link ContinuationListener#onTimeout(Continuation)} * method is called on any {@link ContinuationListener} that has been registered via the * {@link #addContinuationListener(ContinuationListener)} method. The onTimeout handlers * may write a response and call {@link #complete()}. If {@link #complete()} is not called, * then the container will redispatch the request as if {@link #resume()} had been called, * except that {@link #isExpired()} will be true and {@link #isResumed()} will be false. * </p> * * @see ContinuationSupport * @see ContinuationListener * */ public interface Continuation { public final static String ATTRIBUTE = "org.eclipse.jetty.continuation"; /* ------------------------------------------------------------ */ /** * Set the continuation timeout. * * @param timeoutMs * The time in milliseconds to wait before expiring this * continuation after a call to {@link #suspend()} or {@link #suspend(ServletResponse)}. * A timeout of <=0 means the continuation will never expire. */ void setTimeout(long timeoutMs); /* ------------------------------------------------------------ */ /** * Suspend the processing of the request and associated * {@link ServletResponse}. * * <p> * After this method has been called, the lifecycle of the request will be * extended beyond the return to the container from the * {@link Servlet#service(ServletRequest, ServletResponse)} method and * {@link Filter#doFilter(ServletRequest, ServletResponse, FilterChain)} * calls. When a suspended request is returned to the container after * a dispatch, then the container will not commit the associated response * (unless an exception other than {@link ContinuationThrowable} is thrown). * </p> * * <p> * When the thread calling the filter chain and/or servlet has returned to * the container with a suspended request, the thread is freed for other * tasks and the request is held until either: * <ul> * <li>a call to {@link #resume()}.</li> * <li>a call to {@link #complete()}.</li> * <li>the timeout expires.</li> * </ul> * <p> * Typically suspend with no arguments is uses when a call to {@link #resume()} * is expected. If a call to {@link #complete()} is expected, then the * {@link #suspend(ServletResponse)} method should be used instead of this method. * </p> * * @exception IllegalStateException * If the request cannot be suspended */ // void suspend(); /* ------------------------------------------------------------ */ /** * Suspend the processing of the request and associated * {@link ServletResponse}. * * <p> * After this method has been called, the lifecycle of the request will be * extended beyond the return to the container from the * {@link Servlet#service(ServletRequest, ServletResponse)} method and * {@link Filter#doFilter(ServletRequest, ServletResponse, FilterChain)} * calls. When a suspended request is returned to the container after * a dispatch, then the container will not commit the associated response * (unless an exception other than {@link ContinuationThrowable} is thrown). * </p> * <p> * When the thread calling the filter chain and/or servlet has returned to * the container with a suspended request, the thread is freed for other * tasks and the request is held until either: * <ul> * <li>a call to {@link #resume()}.</li> * <li>a call to {@link #complete()}.</li> * <li>the timeout expires.</li> * </ul> * <p> * Typically suspend with a response argument is uses when a call to {@link #complete()} * is expected. If a call to {@link #resume()} is expected, then the * {@link #suspend()} method should be used instead of this method. * </p> * <p> * Filters that may wrap the response object should check {@link #isResponseWrapped()} * to decide if they should destroy/finish the wrapper. If {@link #isResponseWrapped()} * returns true, then the wrapped request has been passed to the asynchronous * handler and the wrapper should not be destroyed/finished until after a call to * {@link #complete()} (potentially using a {@link ContinuationListener#onComplete(Continuation)} * listener). * * @param response The response to return via a call to {@link #getServletResponse()} * @exception IllegalStateException * If the request cannot be suspended */ // void suspend(ServletResponse response); /* ------------------------------------------------------------ */ /** * Resume a suspended request. * * <p> * This method can be called by any thread that has been passed a reference * to a continuation. When called the request is redispatched to the * normal filter chain and servlet processing with {@link #isInitial()} false. * </p> * <p> * If resume is called before a suspended request is returned to the * container (ie the thread that called {@link #suspend()} is still * within the filter chain and/or servlet service method), then the resume * does not take effect until the call to the filter chain and/or servlet * returns to the container. In this case both {@link #isSuspended()} and * {@link #isResumed()} return true. Multiple calls to resume are ignored. * </p> * <p> * Typically resume() is used after a call to {@link #suspend()} with * no arguments. The dispatch after a resume call will use the original * request and response objects, even if {@link #suspend(ServletResponse)} * had been passed a wrapped response. * </p> * * @see #suspend() * @exception IllegalStateException if the request is not suspended. * */ // void resume(); /* ------------------------------------------------------------ */ /** * Complete a suspended request. * * <p> * This method can be called by any thread that has been passed a reference * to a suspended request. When a request is completed, the associated * response object committed and flushed. The request is not redispatched. * </p> * * <p> * If complete is called before a suspended request is returned to the * container (ie the thread that called {@link #suspend()} is still * within the filter chain and/or servlet service method), then the complete * does not take effect until the call to the filter chain and/or servlet * returns to the container. In this case both {@link #isSuspended()} and * {@link #isResumed()} return true. * </p> * * <p> * Typically resume() is used after a call to {@link #suspend(ServletResponse)} with * a possibly wrapped response. The async handler should use the response * provided by {@link #getServletResponse()} to write the response before * calling {@link #complete()}. If the request was suspended with a * call to {@link #suspend()} then no response object will be available via * {@link #getServletResponse()}. * </p> * * <p> * Once complete has been called and any thread calling the filter chain * and/or servlet chain has returned to the container, the request lifecycle * is complete. The container is able to recycle request objects, so it is * not valid hold a request or continuation reference after the end of the * life cycle. * * @see #suspend() * @exception IllegalStateException * if the request is not suspended. * */ void complete(); /* ------------------------------------------------------------ */ /** * @return true after {@link #suspend()} has been called and before the * request has been redispatched due to being resumed, completed or * timed out. */ boolean isSuspended(); /* ------------------------------------------------------------ */ /** * @return true if the request has been redispatched by a call to * {@link #resume()}. Returns false after any subsequent call to * suspend */ // boolean isResumed(); /* ------------------------------------------------------------ */ /** * @return true after a request has been redispatched as the result of a * timeout. Returns false after any subsequent call to suspend. */ // boolean isExpired(); /* ------------------------------------------------------------ */ /** * @return true while the request is within the initial dispatch to the * filter chain and/or servlet. Will return false once the calling * thread has returned to the container after suspend has been * called and during any subsequent redispatch. */ boolean isInitial(); /* ------------------------------------------------------------ */ /** * Is the suspended response wrapped. * <p> * Filters that wrap the response object should check this method to * determine if they should destroy/finish the wrapped response. If * the request was suspended with a call to {@link #suspend(ServletResponse)} * that passed the wrapped response, then the filter should register * a {@link ContinuationListener} to destroy/finish the wrapped response * during a call to {@link ContinuationListener#onComplete(Continuation)}. * @return True if {@link #suspend(ServletResponse)} has been passed a * {@link ServletResponseWrapper} instance. */ boolean isResponseWrapped(); /* ------------------------------------------------------------ */ /** * Get the suspended response. * @return the {@link ServletResponse} passed to {@link #suspend(ServletResponse)}. */ ServletResponse getServletResponse(); /* ------------------------------------------------------------ */ /** * Add a ContinuationListener. * * @param listener */ void addContinuationListener(ContinuationListener listener); /* ------------------------------------------------------------ */ /** Set a request attribute. * This method is a convenience method to call the {@link ServletRequest#setAttribute(String, Object)} * method on the associated request object. * This is a thread safe call and may be called by any thread. * @param name the attribute name * @param attribute the attribute value */ public void setAttribute(String name, Object attribute); /* ------------------------------------------------------------ */ /** Get a request attribute. * This method is a convenience method to call the {@link ServletRequest#getAttribute(String)} * method on the associated request object. * This is a thread safe call and may be called by any thread. * @param name the attribute name * @return the attribute value */ public Object getAttribute(String name); /* ------------------------------------------------------------ */ /** Remove a request attribute. * This method is a convenience method to call the {@link ServletRequest#removeAttribute(String)} * method on the associated request object. * This is a thread safe call and may be called by any thread. * @param name the attribute name */ public void removeAttribute(String name); /* ------------------------------------------------------------ */ /** * Undispatch the request. * <p> * This method can be called on a suspended continuation in order * to exit the dispatch to the filter/servlet by throwing a {@link ContinuationThrowable} * which is caught either by the container or the {@link ContinuationFilter}. * This is an alternative to simply returning from the dispatch in the case * where filters in the filter chain may not be prepared to handle a suspended * request. * </p> * This method should only be used as a last resort and a normal return is a prefereable * solution if filters can be updated to handle that case. * * @throws ContinuationThrowable thrown if the request is suspended. The instance of the * exception may be reused on subsequent calls, so the stack frame may not be accurate. */ public void undispatch() throws ContinuationThrowable; }