• Struts2拦截器原理


    拦截器是struts2处理的核心,本文主要说struts2的拦截器的基本原理/实现,其它框架处理的东西就不说了,得自己再看了。
    struts2版本:2.2.3
    当一个请求来了后,从org.apache.struts2.dispatcher.ng.filter.StrutsPrepareAndExecuteFilter 开始处理
         public void doFilter(ServletRequest req, ServletResponse res, FilterChain chain) throws IOException, ServletException {

            HttpServletRequest request = (HttpServletRequest) req;
            HttpServletResponse response = (HttpServletResponse) res;

            try {
               
    //设置编码
                prepare.setEncodingAndLocale(request, response);
               
    //创建actionContext
                prepare.createActionContext(request, response);
                prepare.assignDispatcherToThread();
       //如果不是struts的请求则继续由其它过滤器执行
                if ( excludedPatterns != null && prepare.isUrlExcluded(request, excludedPatterns)) {
                    chain.doFilter(request, response);
                } else {
    //包装request,对有文件上传的特殊处理下
                    request = prepare.wrapRequest(request);
    //查找对应的ActionMapping
                    ActionMapping mapping = prepare.findActionMapping(request, response, true);
    //如果找不到ActionMapping则当作静态资源来处理
                    if (mapping == null) {
                        boolean handled = execute.executeStaticResourceRequest(request, response);
                        if (!handled) {
                            chain.doFilter(request, response);
                        }
                    } else {
      //使用ActionMapping来执行action
                        execute.executeAction(request, response, mapping);
                    }
                }
            } finally {
                prepare.cleanupRequest(request);
            }
        }
      
    跟踪execute.executeAction(),则到了 org.apache.struts2.dispatcher.Dispatcher,如下:
         public void serviceAction(HttpServletRequest request, HttpServletResponse response, ServletContext context,
                                  ActionMapping mapping) throws ServletException {
            Map<String, Object> extraContext = createContextMap(request, response, mapping, context);

            // If there was a previous value stack, then create a new copy and pass it in to be used by the new Action
            ValueStack stack = (ValueStack) request.getAttribute(ServletActionContext.STRUTS_VALUESTACK_KEY);
            boolean nullStack = stack == null;
            if (nullStack) {
                ActionContext ctx = ActionContext.getContext();
                if (ctx != null) {
                    stack = ctx.getValueStack();
                }
            }
            if (stack != null) {
                extraContext.put(ActionContext.VALUE_STACK, valueStackFactory.createValueStack(stack));
            }

            String timerKey = "Handling request from Dispatcher";
            try {
                UtilTimerStack.push(timerKey);
                String namespace = mapping.getNamespace();
                String name = mapping.getName();
                String method = mapping.getMethod();

                Configuration config = configurationManager.getConfiguration();
       //使用StrutsActionProxyFactory(ActionProxyFactory的一个实现)创建action代理对象
       //proxy实际上是org.apache.struts2.impl.StrutsActionProxy类型
                ActionProxy proxy = config.getContainer().getInstance(ActionProxyFactory.class).createActionProxy(
                        namespace, name, method, extraContext, true, false);


                request.setAttribute(ServletActionContext.STRUTS_VALUESTACK_KEY, proxy.getInvocation().getStack());

                // if the ActionMapping says to go straight to a result, do it!
                if (mapping.getResult() != null) {
                    Result result = mapping.getResult();
                    result.execute(proxy.getInvocation());
                } else {
    //执行action
                    proxy.execute();
                }

                // If there was a previous value stack then set it back onto the request
                if (!nullStack) {
                    request.setAttribute(ServletActionContext.STRUTS_VALUESTACK_KEY, stack);
                }
            } catch (ConfigurationException e) {
                // WW-2874 Only log error if in devMode
                if(devMode) {
                    String reqStr = request.getRequestURI();
                    if (request.getQueryString() != null) {
                        reqStr = reqStr + "?" + request.getQueryString();
                    }
                    LOG.error("Could not find action or result " + reqStr, e);
                }
                else {
                    LOG.warn("Could not find action or result", e);
                }
                sendError(request, response, context, HttpServletResponse.SC_NOT_FOUND, e);
            } catch (Exception e) {
                sendError(request, response, context, HttpServletResponse.SC_INTERNAL_SERVER_ERROR, e);
            } finally {
                UtilTimerStack.pop(timerKey);
            }
        }

    DefaultActionProxyFactory创建ActionProxy,在com.opensymphony.xwork2.DefaultActionProxyFactory:
         public ActionProxy createActionProxy(String namespace, String actionName, String methodName, Map<String, Object> extraContext, boolean executeResult, boolean cleanupContext) {
            
            ActionInvocation inv = new DefaultActionInvocation(extraContext, true);

            container.inject(inv);
            return createActionProxy(inv, namespace, actionName, methodName, executeResult, cleanupContext);
        }
         
    接下来看看 org.apache.struts2.impl.StrutsActionProxy的execute()方法,如下:
         public String execute() throws Exception {
            ActionContext previous = ActionContext.getContext();
            ActionContext.setContext(invocation.getInvocationContext());
            try {       
    //这里就是调用拦截器的入口了
                return invocation.invoke();
            } finally {
                if (cleanupContext)
                    ActionContext.setContext(previous);
            }
        }
      
    最关键的,com.opensymphony.xwork2.DefaultActionInvocation.invoke()方法,这个DefaultActionInvocation是ActionInvocation的一个实现类,如下:
      //保存了执行当前action方法时需要调用的拦截器栈,按照struts.xml中配制的拦截器顺序,从前到后,依次加入到了这个Iterator里面
      protected Iterator<InterceptorMapping> interceptors;

      public String invoke() throws Exception {
            String profileKey = "invoke: ";
            try {
                UtilTimerStack.push(profileKey);

                if (executed) {
                    throw new IllegalStateException("Action has already executed");
                }
               
    //如果当前还有下一个,则继续执行拦截器
                if (interceptors.hasNext()) {
                    final InterceptorMapping interceptor = (InterceptorMapping) interceptors.next();
                    String interceptorMsg = "interceptor: " + interceptor.getName();
                    UtilTimerStack.push(interceptorMsg);
                    try {
         //执行拦截器的intercept()方法,并将当前ActionInvocation对象传递给这个方法
         //这样,当一个拦截器执行完自己的处理后,需要让框架继续执行下一个拦截器的时候,直接使用actionInvocation.invoke()方法,当前这个方法又会被调一次,这其实就是一个递归了,递归方法是ActionInvocation.invoke(),结束条件是interceptors.hasNext()
                                    resultCode = interceptor.getInterceptor().intercept(DefaultActionInvocation.this);
                                }
                    finally {
                        UtilTimerStack.pop(interceptorMsg);
                    }
                } else { //拦截器全部都执行了,那么最后来执行action,跳出递归了
                    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);
            }
        }
      
    基本原理到此为止,下面弄个小例子再说明一下:
    //拦截器,相当于struts2的拦截器
     public interface
    Interceptor {
        String intercept(InvocationContext context);
    }

    //很多拦截器的实现
    public class ExceptionInterceptor implements Interceptor {

        public String intercept(InvocationContext context) {
            // 对异常的处理
            System.out.println(" ExceptionInterceptor 处理异常");
            return context.invoke();
        }
    }
    public class FileUploadInterceptor implements Interceptor {

        public String intercept(InvocationContext context) {
            // 处理文件上传相关
            System.out.println(" FileUploadInterceptor 处理文件上传");
            return context.invoke();
        }
    }
    public class ParameterInterceptor implements Interceptor {

        public String intercept(InvocationContext context) {
            // 处理请求的参数
            System.out.println(" ParameterInterceptor 处理请求参数");
            return context.invoke();
        }
    }

    //执行拦截器的invocation上下文,相当于struts2的ActionInvocation
    public class InvocationContext {

       
    // 这里存放当前执行当前action所需要执行的拦截器栈
        private Iterator<Interceptor> interceptorIterator = null;
        private String prefix = "";

        public InvocationContext() {
           
    // 模拟从配制文件中相应的规则取拦截器栈
            ArrayList<Interceptor> list = new ArrayList<Interceptor>();
            list.add(new ExceptionInterceptor());
            list.add(new FileUploadInterceptor());
            list.add(new ParameterInterceptor());
            interceptorIterator = list.iterator();
        }

        public String
    invoke() {
           
    // 是否还有拦截器需要执行
            if (interceptorIterator.hasNext()) {
               
    // 获取下一个需要执行的拦截器
                Interceptor interceptor = interceptorIterator.next();
                String name = interceptor.getClass().getName();
                name = prefix + name;
                System.out.println(name + " intercept start...");
                prefix += " ";
               
    // Interceptor的所有intercept方法实现里面,最后都调用了InvocationContext.invoke()方法
                // 其实就是一个递归,只不过invoke()的下一个递归是在Interceptor.intercept()里面调用的
                // 所以说为什么Interceptor.intercept()方法要加个InvocationContext的参数呢,作用就在于此

                String result = interceptor.intercept(this);
                System.out.println(name + " intercept end...");
                return result;
            } else {
    // 所有的拦截器都执行完了,那就来执行action对应的方法
                return executeAction();
            }
        }

        private String executeAction() {
            System.out.println(prefix + "executeAction success.");
            return "success";
        }
    }

    //模拟请求进行测试
    public class Test {

        public static void main(String[] args) {
            InvocationContext context = new InvocationContext();
            System.out.println("请求开始了...");
            context.invoke();
            System.out.println("请求处理完了...");
        }
    }
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  • 原文地址:https://www.cnblogs.com/shaohz2014/p/3666811.html
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