DefaultActionInvocation 源码
时间:2014-04-29 21:16:42
收藏:0
阅读:532
/** * Copyright 2002-2006,2009 The Apache Software Foundation. * * Licensed under the Apache License, Version 2.0 (the "License"); * you may not use this file except in compliance with the License. * You may obtain a copy of the License at * * http://www.apache.org/licenses/LICENSE-2.0 * * Unless required by applicable law or agreed to in writing, software * distributed under the License is distributed on an "AS IS" BASIS, * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. * See the License for the specific language governing permissions and * limitations under the License. */ package com.opensymphony.xwork2; import com.opensymphony.xwork2.config.Configuration; import com.opensymphony.xwork2.config.ConfigurationException; import com.opensymphony.xwork2.config.entities.ActionConfig; import com.opensymphony.xwork2.config.entities.InterceptorMapping; import com.opensymphony.xwork2.config.entities.ResultConfig; import com.opensymphony.xwork2.inject.Container; import com.opensymphony.xwork2.inject.Inject; import com.opensymphony.xwork2.interceptor.PreResultListener; import com.opensymphony.xwork2.util.ValueStack; import com.opensymphony.xwork2.util.ValueStackFactory; import com.opensymphony.xwork2.util.logging.Logger; import com.opensymphony.xwork2.util.logging.LoggerFactory; import com.opensymphony.xwork2.util.profiling.UtilTimerStack; import java.lang.reflect.InvocationTargetException; import java.lang.reflect.Method; import java.util.ArrayList; import java.util.Iterator; import java.util.List; import java.util.Map; /*** * The Default ActionInvocation implementation * * @author Rainer Hermanns * @author tmjee * @version $Date: 2009-12-27 19:18:29 +0100 (Sun, 27 Dec 2009) $ $Id: DefaultActionInvocation.java 894090 2009-12-27 18:18:29Z martinc $ * @see com.opensymphony.xwork2.DefaultActionProxy */ public class DefaultActionInvocation implements ActionInvocation { private static final long serialVersionUID = -585293628862447329L; //static { // if (ObjectFactory.getContinuationPackage() != null) { // continuationHandler = new ContinuationHandler(); // } //} private static final Logger LOG = LoggerFactory.getLogger(DefaultActionInvocation.class); private static final Class[] EMPTY_CLASS_ARRAY = new Class[0]; protected Object action; protected ActionProxy proxy; protected List<PreResultListener> preResultListeners; protected Map<String, Object> extraContext; protected ActionContext invocationContext; protected Iterator<InterceptorMapping> interceptors; protected ValueStack stack; protected Result result; protected Result explicitResult; protected String resultCode; protected boolean executed = false; protected boolean pushAction = true; protected ObjectFactory objectFactory; protected ActionEventListener actionEventListener; protected ValueStackFactory valueStackFactory; protected Container container; private Configuration configuration; protected UnknownHandlerManager unknownHandlerManager; public DefaultActionInvocation(final Map<String, Object> extraContext, final boolean pushAction) { DefaultActionInvocation.this.extraContext = extraContext; DefaultActionInvocation.this.pushAction = pushAction; } @Inject public void setUnknownHandlerManager(UnknownHandlerManager unknownHandlerManager) { this.unknownHandlerManager = unknownHandlerManager; } @Inject public void setValueStackFactory(ValueStackFactory fac) { this.valueStackFactory = fac; } @Inject public void setConfiguration(Configuration configuration) { this.configuration = configuration; } @Inject public void setObjectFactory(ObjectFactory fac) { this.objectFactory = fac; } @Inject public void setContainer(Container cont) { this.container = cont; } @Inject(required=false) public void setActionEventListener(ActionEventListener listener) { this.actionEventListener = listener; } public Object getAction() { return action; } public boolean isExecuted() { return executed; } public ActionContext getInvocationContext() { return invocationContext; } public ActionProxy getProxy() { return proxy; } /*** * If the DefaultActionInvocation has been executed before and the Result is an instance of ActionChainResult, this method * will walk down the chain of ActionChainResults until it finds a non-chain result, which will be returned. If the * DefaultActionInvocation‘s result has not been executed before, the Result instance will be created and populated with * the result params. * * @return a Result instance * @throws Exception */ public Result getResult() throws Exception { Result returnResult = result; // If we‘ve chained to other Actions, we need to find the last result while (returnResult instanceof ActionChainResult) { ActionProxy aProxy = ((ActionChainResult) returnResult).getProxy(); if (aProxy != null) { Result proxyResult = aProxy.getInvocation().getResult(); if ((proxyResult != null) && (aProxy.getExecuteResult())) { returnResult = proxyResult; } else { break; } } else { break; } } return returnResult; } public String getResultCode() { return resultCode; } public void setResultCode(String resultCode) { if (isExecuted()) throw new IllegalStateException("Result has already been executed."); this.resultCode = resultCode; } public ValueStack getStack() { return stack; } /*** * Register a com.opensymphony.xwork2.interceptor.PreResultListener to be notified after the Action is executed and before the * Result is executed. The ActionInvocation implementation must guarantee that listeners will be called in the order * in which they are registered. Listener registration and execution does not need to be thread-safe. * * @param listener */ public void addPreResultListener(PreResultListener listener) { if (preResultListeners == null) { preResultListeners = new ArrayList<PreResultListener>(1); } preResultListeners.add(listener); } public Result createResult() throws Exception { if (explicitResult != null) { Result ret = explicitResult; explicitResult = null; return ret; } ActionConfig config = proxy.getConfig(); Map<String, ResultConfig> results = config.getResults(); ResultConfig resultConfig = null; try { resultConfig = results.get(resultCode); } catch (NullPointerException e) { // swallow } if (resultConfig == null) { // If no result is found for the given resultCode, try to get a wildcard ‘*‘ match. resultConfig = results.get("*"); } if (resultConfig != null) { try { return objectFactory.buildResult(resultConfig, invocationContext.getContextMap()); } catch (Exception e) { LOG.error("There was an exception while instantiating the result of type " + resultConfig.getClassName(), e); throw new XWorkException(e, resultConfig); } } else if (resultCode != null && !Action.NONE.equals(resultCode) && unknownHandlerManager.hasUnknownHandlers()) { return unknownHandlerManager.handleUnknownResult(invocationContext, proxy.getActionName(), proxy.getConfig(), resultCode); } return null; } /*** * @throws ConfigurationException If no result can be found with the returned code */ public String invoke() throws Exception { String profileKey = "invoke: "; try { UtilTimerStack.push(profileKey); if (executed) { throw new IllegalStateException("Action has already executed"); } if (interceptors.hasNext()) { final InterceptorMapping interceptor = (InterceptorMapping) interceptors.next(); String interceptorMsg = "interceptor: " + interceptor.getName(); UtilTimerStack.push(interceptorMsg); try { resultCode = interceptor.getInterceptor().intercept(DefaultActionInvocation.this); } finally { UtilTimerStack.pop(interceptorMsg); } } else { resultCode = invokeActionOnly(); } // this is needed because the result will be executed, then control will return to the Interceptor, which will // return above and flow through again if (!executed) { if (preResultListeners != null) { for (Object preResultListener : preResultListeners) { PreResultListener listener = (PreResultListener) preResultListener; String _profileKey = "preResultListener: "; try { UtilTimerStack.push(_profileKey); listener.beforeResult(this, resultCode); } finally { UtilTimerStack.pop(_profileKey); } } } // now execute the result, if we‘re supposed to if (proxy.getExecuteResult()) { executeResult(); } executed = true; } return resultCode; } finally { UtilTimerStack.pop(profileKey); } } public String invokeActionOnly() throws Exception { return invokeAction(getAction(), proxy.getConfig()); } protected void createAction(Map<String, Object> contextMap) { // load action String timerKey = "actionCreate: " + proxy.getActionName(); try { UtilTimerStack.push(timerKey); action = objectFactory.buildAction(proxy.getActionName(), proxy.getNamespace(), proxy.getConfig(), contextMap); } catch (InstantiationException e) { throw new XWorkException("Unable to intantiate Action!", e, proxy.getConfig()); } catch (IllegalAccessException e) { throw new XWorkException("Illegal access to constructor, is it public?", e, proxy.getConfig()); } catch (Exception e) { String gripe = ""; if (proxy == null) { gripe = "Whoa! No ActionProxy instance found in current ActionInvocation. This is bad ... very bad"; } else if (proxy.getConfig() == null) { gripe = "Sheesh. Where‘d that ActionProxy get to? I can‘t find it in the current ActionInvocation!?"; } else if (proxy.getConfig().getClassName() == null) { gripe = "No Action defined for ‘" + proxy.getActionName() + "‘ in namespace ‘" + proxy.getNamespace() + "‘"; } else { gripe = "Unable to instantiate Action, " + proxy.getConfig().getClassName() + ", defined for ‘" + proxy.getActionName() + "‘ in namespace ‘" + proxy.getNamespace() + "‘"; } gripe += (((" -- " + e.getMessage()) != null) ? e.getMessage() : " [no message in exception]"); throw new XWorkException(gripe, e, proxy.getConfig()); } finally { UtilTimerStack.pop(timerKey); } if (actionEventListener != null) { action = actionEventListener.prepare(action, stack); } } protected Map<String, Object> createContextMap() { Map<String, Object> contextMap; if ((extraContext != null) && (extraContext.containsKey(ActionContext.VALUE_STACK))) { // In case the ValueStack was passed in stack = (ValueStack) extraContext.get(ActionContext.VALUE_STACK); if (stack == null) { throw new IllegalStateException("There was a null Stack set into the extra params."); } contextMap = stack.getContext(); } else { // create the value stack // this also adds the ValueStack to its context stack = valueStackFactory.createValueStack(); // create the action context contextMap = stack.getContext(); } // put extraContext in if (extraContext != null) { contextMap.putAll(extraContext); } //put this DefaultActionInvocation into the context map contextMap.put(ActionContext.ACTION_INVOCATION, this); contextMap.put(ActionContext.CONTAINER, container); return contextMap; } /*** * Uses getResult to get the final Result and executes it * * @throws ConfigurationException If not result can be found with the returned code */ private void executeResult() throws Exception { result = createResult(); String timerKey = "executeResult: " + getResultCode(); try { UtilTimerStack.push(timerKey); if (result != null) { result.execute(this); } else if (resultCode != null && !Action.NONE.equals(resultCode)) { throw new ConfigurationException("No result defined for action " + getAction().getClass().getName() + " and result " + getResultCode(), proxy.getConfig()); } else { if (LOG.isDebugEnabled()) { LOG.debug("No result returned for action " + getAction().getClass().getName() + " at " + proxy.getConfig().getLocation()); } } } finally { UtilTimerStack.pop(timerKey); } } public void init(ActionProxy proxy) { this.proxy = proxy; Map<String, Object> contextMap = createContextMap(); // Setting this so that other classes, like object factories, can use the ActionProxy and other // contextual information to operate ActionContext actionContext = ActionContext.getContext(); if (actionContext != null) { actionContext.setActionInvocation(this); } createAction(contextMap); if (pushAction) { stack.push(action); contextMap.put("action", action); } invocationContext = new ActionContext(contextMap); invocationContext.setName(proxy.getActionName()); // get a new List so we don‘t get problems with the iterator if someone changes the list List<InterceptorMapping> interceptorList = new ArrayList<InterceptorMapping>(proxy.getConfig().getInterceptors()); interceptors = interceptorList.iterator(); } protected String invokeAction(Object action, ActionConfig actionConfig) throws Exception { String methodName = proxy.getMethod(); if (LOG.isDebugEnabled()) { LOG.debug("Executing action method = " + actionConfig.getMethodName()); } String timerKey = "invokeAction: " + proxy.getActionName(); try { UtilTimerStack.push(timerKey); boolean methodCalled = false; Object methodResult = null; Method method = null; try { method = getAction().getClass().getMethod(methodName, EMPTY_CLASS_ARRAY); } catch (NoSuchMethodException e) { // hmm -- OK, try doXxx instead try { String altMethodName = "do" + methodName.substring(0, 1).toUpperCase() + methodName.substring(1); method = getAction().getClass().getMethod(altMethodName, EMPTY_CLASS_ARRAY); } catch (NoSuchMethodException e1) { // well, give the unknown handler a shot if (unknownHandlerManager.hasUnknownHandlers()) { try { methodResult = unknownHandlerManager.handleUnknownMethod(action, methodName); methodCalled = true; } catch (NoSuchMethodException e2) { // throw the original one throw e; } } else { throw e; } } } if (!methodCalled) { methodResult = method.invoke(action, new Object[0]); } if (methodResult instanceof Result) { this.explicitResult = (Result) methodResult; // Wire the result automatically container.inject(explicitResult); return null; } else { return (String) methodResult; } } catch (NoSuchMethodException e) { throw new IllegalArgumentException("The " + methodName + "() is not defined in action " + getAction().getClass() + ""); } catch (InvocationTargetException e) { // We try to return the source exception. Throwable t = e.getTargetException(); if (actionEventListener != null) { String result = actionEventListener.handleException(t, getStack()); if (result != null) { return result; } } if (t instanceof Exception) { throw (Exception) t; } else { throw e; } } finally { UtilTimerStack.pop(timerKey); } } }
评论(0)