详解Tomcat中Filter的执行流程

目录前言1、Filter接口2、FilterChain接口执行流程1、创建filterChain2、执行dofilter前言

Filter是什么？Filter是servlet规范中定义的java web组件, 在所有支持java web的容器中都可以使用 它是位于前端请求到servlet之间的一系列过滤器，也可以称之为中间件，它主要是对请求到达servlet之前做一些额外的动作：

1、权限控制2、监控3、日志管理4、等等

这里涉及到两个接口：Filter和FilterChain

Filter和FilterChain密不可分, Filter可以实现依次调用正是因为有了FilterChain。

1、Filter接口public interface Filter { // 容器创建的时候调用, 即启动tomcat的时候调用 public void init(FilterConfig filterConfig) throws ServletException; // 由FilterChain调用, 并且传入FilterChain本身, 最后回调FilterChain的doFilter()方法 public void doFilter(ServletRequest request, ServletResponse response, FilterChain chain) throws IOException, ServletException; // 容器销毁的时候调用, 即关闭tomcat的时候调用 public void destroy(); }2、FilterChain接口public interface FilterChain { // 由Filter.doFilter()中的chain.doFilter调用 public void doFilter(ServletRequest request, ServletResponse response) throws IOException, ServletException;}执行流程

在前面的文章中，我们知道，tomcat启动会执行StandardWrapperValve.java类的invoke方法：

public final void invoke(Request request, Response response){ ...... MessageBytes requestPathMB = request.getRequestPathMB(); DispatcherType dispatcherType = DispatcherType.REQUEST; if (request.getDispatcherType()==DispatcherType.ASYNC) dispatcherType = DispatcherType.ASYNC; request.setAttribute(Globals.DISPATCHER_TYPE_ATTR,dispatcherType); request.setAttribute(Globals.DISPATCHER_REQUEST_PATH_ATTR, requestPathMB); // Create the filter chain for this request ApplicationFilterChain filterChain = ApplicationFilterFactory.createFilterChain(request, wrapper, servlet); // Call the filter chain for this request // NOTE: This also calls the servlet's service() method Container container = this.container; try { if ((servlet != null) && (filterChain != null)) { // Swallow output if needed if (context.getSwallowOutput()) {try { SystemLogHandler.startCapture(); if (request.isAsyncDispatching()) { request.getAsyncContextInternal().doInternalDispatch(); } else { filterChain.doFilter(request.getRequest(),response.getResponse()); }} finally { String log = SystemLogHandler.stopCapture(); if (log != null && log.length() > 0) { context.getLogger().info(log); }} } else {if (request.isAsyncDispatching()) { request.getAsyncContextInternal().doInternalDispatch();} else { filterChain.doFilter (request.getRequest(), response.getResponse());} } } } catch (ClientAbortException | CloseNowException e) { } ......}

上面的代码做了如下一些动作：

1、每次请求过来都会创建一个过滤器链(filterChain)，并把待执行的servlet对象存放到过滤器链中。对于每个url，对应的filter个数都是不固定的，filterchain需要保存每个请求所对应的一个filter数组，以及调用到的filter的position，以便继续向下调用filter。2、创建了filterChain之后，就开始执行doFilter进行请求的链式处理。1、创建filterChain

下面我们具体来看看filterChain是怎么创建的

public static ApplicationFilterChain createFilterChain(ServletRequest request, Wrapper wrapper, Servlet servlet) { // If there is no servlet to execute, return null if (servlet == null) return null; // Create and initialize a filter chain object ApplicationFilterChain filterChain = null; if (request instanceof Request) { Request req = (Request) request; if (Globals.IS_SECURITY_ENABLED) { // Security: Do not recycle filterChain = new ApplicationFilterChain(); } else { filterChain = (ApplicationFilterChain) req.getFilterChain(); if (filterChain == null) {filterChain = new ApplicationFilterChain();req.setFilterChain(filterChain); } } } else { // Request dispatcher in use filterChain = new ApplicationFilterChain(); } filterChain.setServlet(servlet); filterChain.setServletSupportsAsync(wrapper.isAsyncSupported()); // Acquire the filter mappings for this Context StandardContext context = (StandardContext) wrapper.getParent(); FilterMap filterMaps[] = context.findFilterMaps(); // If there are no filter mappings, we are done if ((filterMaps == null) || (filterMaps.length == 0)) return filterChain; // Acquire the information we will need to match filter mappings DispatcherType dispatcher = (DispatcherType) request.getAttribute(Globals.DISPATCHER_TYPE_ATTR); String requestPath = null; Object attribute = request.getAttribute(Globals.DISPATCHER_REQUEST_PATH_ATTR); if (attribute != null){ requestPath = attribute.toString(); } String servletName = wrapper.getName(); // Add the relevant path-mapped filters to this filter chain for (FilterMap filterMap : filterMaps) { if (!matchDispatcher(filterMap, dispatcher)) { continue; } if (!matchFiltersURL(filterMap, requestPath)) continue; ApplicationFilterConfig filterConfig = (ApplicationFilterConfig)context.findFilterConfig(filterMap.getFilterName()); if (filterConfig == null) { // FIXME - log configuration problem continue; } filterChain.addFilter(filterConfig); } // Add filters that match on servlet name second for (FilterMap filterMap : filterMaps) { if (!matchDispatcher(filterMap, dispatcher)) { continue; } if (!matchFiltersServlet(filterMap, servletName)) continue; ApplicationFilterConfig filterConfig = (ApplicationFilterConfig)context.findFilterConfig(filterMap.getFilterName()); if (filterConfig == null) { // FIXME - log configuration problem continue; } filterChain.addFilter(filterConfig); } // Return the completed filter chain return filterChain;}

上面的代码做了一下几件事：

1、把要执行的servlet存放到过滤器链中。2、如果没有配置过滤器则return一个空的过滤器链（只包含上面设置的servlet）。3、如果配置url-pattern过滤器，则把匹配的过滤器加入到过滤器链中4、如果配置servlet-name过滤器，则把匹配的过滤器加入到过滤器链中

注意: filterChain.addFilter()顺序与web.xml中定义的Filter顺序一致，所以过滤器的执行顺序是按定义的上下顺序决定的。

2、执行dofilter

创建了chain之后，就开始执行链式请求了，具体的逻辑如下：

private void internalDoFilter(ServletRequest request, ServletResponse response)throws IOException, ServletException { // Call the next filter if there is one if (pos < n) { ApplicationFilterConfig filterConfig = filters[pos++]; try { Filter filter = filterConfig.getFilter(); if (request.isAsyncSupported() && 'false'.equalsIgnoreCase( filterConfig.getFilterDef().getAsyncSupported())) {request.setAttribute(Globals.ASYNC_SUPPORTED_ATTR, Boolean.FALSE); } if( Globals.IS_SECURITY_ENABLED ) {final ServletRequest req = request;final ServletResponse res = response;Principal principal = ((HttpServletRequest) req).getUserPrincipal();Object[] args = new Object[]{req, res, this};SecurityUtil.doAsPrivilege ('doFilter', filter, classType, args, principal); } else {filter.doFilter(request, response, this); } } catch (IOException | ServletException | RuntimeException e) { throw e; } catch (Throwable e) { e = ExceptionUtils.unwrapInvocationTargetException(e); ExceptionUtils.handleThrowable(e); throw new ServletException(sm.getString('filterChain.filter'), e); } return; } // We fell off the end of the chain -- call the servlet instance try { if (ApplicationDispatcher.WRAP_SAME_OBJECT) { lastServicedRequest.set(request); lastServicedResponse.set(response); } if (request.isAsyncSupported() && !servletSupportsAsync) { request.setAttribute(Globals.ASYNC_SUPPORTED_ATTR, Boolean.FALSE); } // Use potentially wrapped request from this point if ((request instanceof HttpServletRequest) &&(response instanceof HttpServletResponse) &&Globals.IS_SECURITY_ENABLED ) { final ServletRequest req = request; final ServletResponse res = response; Principal principal =((HttpServletRequest) req).getUserPrincipal(); Object[] args = new Object[]{req, res}; SecurityUtil.doAsPrivilege('service', servlet, classTypeUsedInService, args, principal); } else { servlet.service(request, response); } } catch (IOException | ServletException | RuntimeException e) { throw e; } catch (Throwable e) { e = ExceptionUtils.unwrapInvocationTargetException(e); ExceptionUtils.handleThrowable(e); throw new ServletException(sm.getString('filterChain.servlet'), e); } finally { if (ApplicationDispatcher.WRAP_SAME_OBJECT) { lastServicedRequest.set(null); lastServicedResponse.set(null); } }}

上面的代码逻辑如下：

1、通过position索引判断是否执行完了所有的filter2、如果没有，取出当前待执行的索引filter，调用其doFilter方法，在上面的接口说明中，我们看到，所有的filter类都继承了filter接口，都实现了dofilter方法；我们也注意到，该方法接收一个filterChain对象。在这段代码中，filter.doFilter(request, response, this);可以看到，将自身引用传递进去了，那么各个filter在dofilter的方法中，可以根据自身业务需要，来判断是否需要继续进行下面的filter链式执行，如果需要，就执行filterChain.doFilter方法，此时就又回到了此代码中。如果反复3、如果执行完了所有的filter，则开始执行servlet业务模块servlet.service(request, response);

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