Struts2体系结构图以及详解
Strut2的体系结构如图所示:
一个请求在Struts2框架中的处理大概分为以下几个步骤:
1、客户端初始化一个指向Servlet容器(例如Tomcat)的请求;
2、这个请求经过一系列的过滤器(Filter)(这些过滤器中有一个叫做ActionContextCleanUp的可选过滤器,这个过滤器对于Struts2和其他框架的集成很有帮助,例如:SiteMesh Plugin);
3、接着FilterDispatcher被调用,FilterDispatcher询问ActionMapper来决定这个请求是否需要调用某个Action;
4、如果ActionMapper决定需要调用某个Action,FilterDispatcher把请求的处理交给ActionProxy;
5、ActionProxy通过Configuration Manager询问框架的配置文件,找到需要调用的Action类;
6、ActionProxy创建一个ActionInvocation的实例。
7、ActionInvocation实例使用命名模式来调用,在调用Action的过程前后,涉及到相关拦截器(Intercepter)的调用。
8、一旦Action执行完毕,ActionInvocation负责根据struts.xml中的配置找到对应的返回结果。返回结果通常是(但不总是,也可能是另外的一个Action链)一个需要被表示的JSP或者FreeMarker的模版。在表示的过程中可以使用Struts2框架中继承的标签。在这个过程中需要涉及到ActionMapper。
FilterDispatcher是控制器的核心,就是mvc中c控制层的核心。下面粗略的分析下我理解的FilterDispatcher工作流程和原理:FilterDispatcher进行初始化并启用核心doFilter
其代码如下:
- public void doFilter(ServletRequest req, ServletResponse res, FilterChain chain) throws IOException, ServletException …{
- HttpServletRequest request = (HttpServletRequest) req;
- HttpServletResponse response = (HttpServletResponse) res;
- ServletContext servletContext = filterConfig.getServletContext();
- // 在这里处理了HttpServletRequest和HttpServletResponse。
- DispatcherUtils du = DispatcherUtils.getInstance();
- du.prepare(request, response);//正如这个方法名字一样进行locale、encoding以及特殊request parameters设置
- try …{
- request = du.wrapRequest(request, servletContext);//对request进行包装
- } catch (IOException e) …{
- String message = “Could not wrap servlet request with MultipartRequestWrapper!”;
- LOG.error(message, e);
- throw new ServletException(message, e);
- }
- ActionMapperIF mapper = ActionMapperFactory.getMapper();//得到action的mapper
- ActionMapping mapping = mapper.getMapping(request);// 得到action 的 mapping
- if (mapping == null) …{
- // there is no action in this request, should we look for a static resource?
- String resourcePath = RequestUtils.getServletPath(request);
- if (“”.equals(resourcePath) && null != request.getPathInfo()) …{
- resourcePath = request.getPathInfo();
- }
- if (“true”.equals(Configuration.get(WebWorkConstants.WEBWORK_SERVE_STATIC_CONTENT))
- && resourcePath.startsWith(“/webwork”)) …{
- String name = resourcePath.substring(“/webwork”.length());
- findStaticResource(name, response);
- } else …{
- // this is a normal request, let it pass through
- chain.doFilter(request, response);
- }
- // WW did its job here
- return;
- }
- Object o = null;
- try …{
- //setupContainer(request);
- o = beforeActionInvocation(request, servletContext);
- //整个框架最最核心的方法,下面分析
- du.serviceAction(request, response, servletContext, mapping);
- } finally …{
- afterActionInvocation(request, servletContext, o);
- ActionContext.setContext(null);
- }
- }
- du.serviceAction(request, response, servletContext, mapping);
- //这个方法询问ActionMapper是否需要调用某个Action来处理这个(request)请求,如果ActionMapper决定需要调用某个Action,FilterDispatcher把请求的处理交给ActionProxy
- public void serviceAction(HttpServletRequest request, HttpServletResponse response, String namespace, String actionName, Map requestMap, Map parameterMap, Map sessionMap, Map applicationMap) …{
- HashMap extraContext = createContextMap(requestMap, parameterMap, sessionMap, applicationMap, request, response, getServletConfig()); //实例化Map请求 ,询问ActionMapper是否需要调用某个Action来处理这个(request)请求
- extraContext.put(SERVLET_DISPATCHER, this);
- OgnlValueStack stack = (OgnlValueStack) request.getAttribute(ServletActionContext.WEBWORK_VALUESTACK_KEY);
- if (stack != null) …{
- extraContext.put(ActionContext.VALUE_STACK,new OgnlValueStack(stack));
- }
- try …{
- ActionProxy proxy = ActionProxyFactory.getFactory().createActionProxy(namespace, actionName, extraContext);
- //这里actionName是通过两道getActionName解析出来的, FilterDispatcher把请求的处理交给ActionProxy,下面是ServletDispatcher的 TODO:
- request.setAttribute(ServletActionContext.WEBWORK_VALUESTACK_KEY, proxy.getInvocation().getStack());
- proxy.execute();
- //通过代理模式执行ActionProxy
- if (stack != null)…{
- request.setAttribute(ServletActionContext.WEBWORK_VALUESTACK_KEY,stack);
- }
- } catch (ConfigurationException e) …{
- log.error(“Could not find action”, e);
- sendError(request, response, HttpServletResponse.SC_NOT_FOUND, e);
- } catch (Exception e) …{
- log.error(“Could not execute action”, e);
- sendError(request, response, HttpServletResponse.SC_INTERNAL_SERVER_ERROR, e);
- }
- }
- FilterDispatcher询问ActionMapper是否需要调用某个Action来处理这个(request)请求,如果ActionMapper决定需要调用某个Action,FilterDispatcher把请求的处理交给ActionProxy。
- ActionProxy通过Configuration Manager(struts.xml)询问框架的配置文件,找到需要调用的Action类.
- 如上文的struts.xml配置
- <?xml version=“1.0” encoding=“GBK”?>
- <!DOCTYPE struts PUBLIC “-//Apache Software Foundation//DTD Struts Configuration 2.0//EN” “http://struts.apache.org/dtds/struts-2.0.dtd”>
- <struts>
- <include file=“struts-default.xml”/>
- <package name=“struts2” extends=“struts-default”>
- <action name=“add”
- class=“edisundong.AddAction” >
- <result>add.jsp</result>
- </action>
- </package>
- </struts>
- 如果提交请求的是add.action,那么找到的Action类就是edisundong.AddAction。
- ActionProxy创建一个ActionInvocation的实例,同时ActionInvocation通过代理模式调用Action。但在调用之前ActionInvocation会根据配置加载Action相关的所有Interceptor。(Interceptor是struts2另一个核心级的概念)
- 下面我们来看看ActionInvocation是如何工作的:
- ActionInvocation 是Xworks 中Action 调度的核心。而对Interceptor 的调度,也正是由ActionInvocation负责。ActionInvocation 是一个接口, 而DefaultActionInvocation 则是Webwork 对ActionInvocation的默认实现。
- Interceptor 的调度流程大致如下:
- 1. ActionInvocation初始化时,根据配置,加载Action相关的所有Interceptor。
- 2. 通过ActionInvocation.invoke方法调用Action实现时,执行Interceptor。
- Interceptor将很多功能从我们的Action中独立出来,大量减少了我们Action的代码,独立出来的行为具有很好的重用性。XWork、WebWork的许多功能都是有Interceptor实现,可以在配置文件中组装Action用到的Interceptor,它会按照你指定的顺序,在Action执行前后运行。
- 那么什么是拦截器。
- 拦截器就是AOP(Aspect-Oriented Programming)的一种实现。(AOP是指用于在某个方法或字段被访问之前,进行拦截然后在之前或之后加入某些操作。)
- 拦截器的例子这里就不展开了。
- struts-default.xml文件摘取的内容:
- < interceptor name =“alias” class =“com.opensymphony.xwork2.interceptor.AliasInterceptor” />
- < interceptor name =“autowiring” class =“com.opensymphony.xwork2.spring.interceptor.ActionAutowiringInterceptor” />
- < interceptor name =“chain” class =“com.opensymphony.xwork2.interceptor.ChainingInterceptor” />
- < interceptor name =“conversionError” class =“org.apache.struts2.interceptor.StrutsConversionErrorInterceptor” />
- < interceptor name =“createSession” class =“org.apache.struts2.interceptor.CreateSessionInterceptor” />
- < interceptor name =“debugging” class =“org.apache.struts2.interceptor.debugging.DebuggingInterceptor” />
- < interceptor name =“external-ref” class =“com.opensymphony.xwork2.interceptor.ExternalReferencesInterceptor” />
- < interceptor name =“execAndWait” class =“org.apache.struts2.interceptor.ExecuteAndWaitInterceptor” />
- < interceptor name =“exception” class =“com.opensymphony.xwork2.interceptor.ExceptionMappingInterceptor” />
- < interceptor name =“fileUpload” class =“org.apache.struts2.interceptor.FileUploadInterceptor” />
- < interceptor name =“i18n” class =“com.opensymphony.xwork2.interceptor.I18nInterceptor” />
- < interceptor name =“logger” class =“com.opensymphony.xwork2.interceptor.LoggingInterceptor” />
- < interceptor name =“model-driven” class =“com.opensymphony.xwork2.interceptor.ModelDrivenInterceptor” />
- < interceptor name =“scoped-model-driven” class =“com.opensymphony.xwork2.interceptor.ScopedModelDrivenInterceptor” />
- < interceptor name =“params” class =“com.opensymphony.xwork2.interceptor.ParametersInterceptor” />
- < interceptor name =“prepare” class =“com.opensymphony.xwork2.interceptor.PrepareInterceptor” />
- < interceptor name =“static-params” class =“com.opensymphony.xwork2.interceptor.StaticParametersInterceptor” />
- < interceptor name =“scope” class =“org.apache.struts2.interceptor.ScopeInterceptor” />
- < interceptor name =“servlet-config” class =“org.apache.struts2.interceptor.ServletConfigInterceptor” />
- < interceptor name =“sessionAutowiring” class =“org.apache.struts2.spring.interceptor.SessionContextAutowiringInterceptor” />
- < interceptor name =“timer” class =“com.opensymphony.xwork2.interceptor.TimerInterceptor” />
- < interceptor name =“token” class =“org.apache.struts2.interceptor.TokenInterceptor” />
- < interceptor name =“token-session” class =“org.apache.struts2.interceptor.TokenSessionStoreInterceptor” />
- < interceptor name =“validation” class =“com.opensymphony.xwork2.validator.ValidationInterceptor” />
- < interceptor name =“workflow” class =“com.opensymphony.xwork2.interceptor.DefaultWorkflowInterceptor” />
- < interceptor name =“store” class =“org.apache.struts2.interceptor.MessageStoreInterceptor” />
- < interceptor name =“checkbox” class =“org.apache.struts2.interceptor.CheckboxInterceptor” />
- < interceptor name =“profiling” class =“org.apache.struts2.interceptor.ProfilingActivationInterceptor” />
一旦Action执行完毕,ActionInvocation负责根据struts.xml中的配置找到对应的返回结果。如上文中将结构返回“add.jsp”,但大部分时候都是返回另外一个action,那么流程又得走一遍………