目标
明确Zuul的执行流程和重要类的分析
Zuul过滤器的生命周期
zuul
源码分析
Zuul怎么拦截我们的请求?
ZuulServletFilter - 继承 Filter | ZuulServlet - 继承 HttpServlet 可以通过这两个类,让Zuul接管请求。由这两个类内部逻辑基本一致,下面用ZuulServletFilter的源码来分析
/**
* Zuul核心处理类,拦截请求
**/
public class ZuulServletFilter implements Filter {
private ZuulRunner zuulRunner; // 省略... @Override public void doFilter(ServletRequest servletRequest, ServletResponse servletResponse, FilterChain filterChain) throws IOException, ServletException { try { // 初始化requests和responses到RequestContext中,详见ZuulRunner#init init((HttpServletRequest) servletRequest, (HttpServletResponse) servletResponse); try { // 执行 filterType=pre 的过滤器 preRouting(); } catch (ZuulException e) { // 执行 filterType=error 的过滤器 error(e); postRouting(); return; } // Only forward onto to the chain if a zuul response is not being sent if (!RequestContext.getCurrentContext().sendZuulResponse()) { filterChain.doFilter(servletRequest, servletResponse); return; } try { // 执行 filterType=route 的过滤器 routing(); } catch (ZuulException e) { error(e); postRouting(); return; } try { // 执行 filterType=post 的过滤器 postRouting(); } catch (ZuulException e) { error(e); return; } } catch (Throwable e) { error(new ZuulException(e, 500, "UNCAUGHT_EXCEPTION_FROM_FILTER_" + e.getClass().getName())); } finally { // 清空线程变量 RequestContext.getCurrentContext().unset(); } } }
以上方法核心步骤:
- 初始化请求上下文
RequestContext - 执行 pre、route、post过滤器,如果有错,执行error过滤器
ZuulRunner - 初始化RequestContext中的requests和responses并转发各阶段Filter相关方法
public class ZuulRunner {
private boolean bufferRequests;
// 省略...
/** * 初始化RequestContext:生成请求和响应wapper保存 * RequestContext:继承了ConcurrentHashMap,是一个Map容器,主要存放请求、响应供ZuulFilters使用。 */ public void init(HttpServletRequest servletRequest, HttpServletResponse servletResponse) { RequestContext ctx = RequestContext.getCurrentContext(); if (bufferRequests) { ctx.setRequest(new HttpServletRequestWrapper(servletRequest)); } else { ctx.setRequest(servletRequest); } ctx.setResponse(new HttpServletResponseWrapper(servletResponse)); } /** * executes "post" filterType ZuulFilters * * @throws ZuulException */ public void postRoute() throws ZuulException { FilterProcessor.getInstance().postRoute(); } // 省略route() preRoute() error() 方法 }
以上看出Zuul是通过ZuulServletFilter以filter的方式(或者以ZuulServlet以servlet的方式)拦截或者承接我们的请求,并在doFilter方法(service方法)中处理各种类型的ZuulFilters,并通过ZuulRunner转发到FilterProcessor中找到对应的filter并执行相关逻辑。整个大致流程比较简单清晰,类似于设计模式中的门面模式。
其中,RequestContext是存在ThreadLocal当中,可以注意到当Zuul处理完毕之后,会清空当前线程变量RequestContext,以防止内存泄露。
FilterProcessor怎么找到相应ZuulFilters并执行呢?
FilterProcessor - 执行filters的核心类
/**
* 执行对应阶段ZuulFilters
* sType:即为filterType,例如"post"、"pre"、"route"、"error"
*
*/
public Object runFilters(String sType) throws Throwable { if (RequestContext.getCurrentContext().debugRouting()) { Debug.addRoutingDebug("Invoking {" + sType + "} type filters"); } boolean bResult = false; // 获取已经注册了的ZuulFilters,根本是从FilterRegistry中获取。并且list是已经排好序的, // 根据给定的filterOrder List<ZuulFilter> list = FilterLoader.getInstance().getFiltersByType(sType); if (list != null) { for (int i = 0; i < list.size(); i++) { ZuulFilter zuulFilter = list.get(i); // 执行ZuulFilter逻辑并 Object result = processZuulFilter(zuulFilter); if (result != null && result instanceof Boolean) { bResult |= ((Boolean) result); } } } return bResult; } /** * 执行ZuulFilter,并把执行情况组合成ZuulFilterResult并返回 */ public Object processZuulFilter(ZuulFilter filter) throws ZuulException { // 省略部分代码... // 具体执行在 ZuulFilter#runFilter ZuulFilterResult result = filter.runFilter(); ExecutionStatus s = result.getStatus(); switch (s) { case FAILED: t = result.getException(); ctx.addFilterExecutionSummary(filterName, ExecutionStatus.FAILED.name(), execTime); break; case SUCCESS: o = result.getResult(); ctx.addFilterExecutionSummary(filterName, ExecutionStatus.SUCCESS.name(), execTime); default: break; } if (t != null) throw t; // 统计每个filter的每次执行情况 usageNotifier.notify(filter, s); return o; }
以上方法核心步骤:
- 按序执行各阶段ZuulFilters
- 记录ZuulFilter执行结果
- 统计执行情况
ZuulFilter - 最基本的Filter抽象类,自定义的Filter是继承此Filter,FilterProcessor执行Filter最终会转发到此类的runFilter方法
public ZuulFilterResult runFilter() {
// 执行结果以及执行成功与否情况包装成ZuulFilterResult返回
ZuulFilterResult zr = new ZuulFilterResult();
// 此filter是已被archaius禁用 「archaius是netflix开源的动态属性配置框架」
if (!isFilterDisabled()) {
// 执行自定filter的shouldFilter方法判断是否执行此filter if (shouldFilter()) { Tracer t = TracerFactory.instance().startMicroTracer("ZUUL::" + this.getClass().getSimpleName()); try { Object res = run(); zr = new ZuulFilterResult(res, ExecutionStatus.SUCCESS); } catch (Throwable e) { t.setName("ZUUL::" + this.getClass().getSimpleName() + " failed"); zr = new ZuulFilterResult(ExecutionStatus.FAILED); zr.setException(e); } finally { t.stopAndLog(); } } else { zr = new ZuulFilterResult(ExecutionStatus.SKIPPED); } } return zr; }
Zuul把ZuulFilters存储在类FilterLoader属性名为hashFiltersByType的ConcurrentHashMap中,key为filterType(eg: pre、route、post、error或者自定义)
那么问题来了,这些存在于FilterLoader的ZuulFilter是怎么加载进来的呢?
ZuulFIlter的加载
通过层层搜索,找到类FilterFileManager ,在此类初始化的时候,会到指定路径下读取指定文件。同时在初始时,会创建守护线程来定时扫描加载文件。
public class FilterFileManager {
// 省略代码...
public static void init(int pollingIntervalSeconds, String... directories) throws Exception, IllegalAccessException, InstantiationException {
if (INSTANCE == null) INSTANCE = new FilterFileManager();
INSTANCE.aDirectories = directories; // 守护线程的轮询间隔时间 INSTANCE.pollingIntervalSeconds = pollingIntervalSeconds; // 读取并处理文件 INSTANCE.manageFiles(); // 开启文件扫描的守护线程 INSTANCE.startPoller(); } void manageFiles() throws Exception, IllegalAccessException, InstantiationException { // 读取文件 List<File> aFiles = getFiles(); // 通过FilterLoader来处理文件 processGroovyFiles(aFiles); } // 扫描指定目录下的指定类型文件 List<File> getFiles() { List<File> list = new ArrayList<File>(); for (String sDirectory : aDirectories) { if (sDirectory != null) { File directory = getDirectory(sDirectory); // Zuul有自带类`GroovyFileFilter`是扫描 .groovy 文件. File[] aFiles = directory.listFiles(FILENAME_FILTER); if (aFiles != null) { list.addAll(Arrays.asList(aFiles)); } } } return list; } // 开启守护线程进行轮询 void startPoller() { poller = new Thread("GroovyFilterFileManagerPoller") { public void run() { while (bRunning) { try { sleep(pollingIntervalSeconds * 1000); manageFiles(); } catch (Exception e) { e.printStackTrace(); } } } }; poller.setDaemon(true); poller.start(); } }
public class FilterLoader {
// 处理文件
public boolean putFilter(File file) throws Exception {
String sName = file.getAbsolutePath() + file.getName();
// 判断如果文件被修改过,则删除对应已经注册的filter if (filterClassLastModified.get(sName) != null && (file.lastModified() != filterClassLastModified.get(sName))) { LOG.debug("reloading filter " + sName); filterRegistry.remove(sName); } ZuulFilter filter = filterRegistry.get(sName); if (filter == null) { // 编译文件 - zuul自带GroovyCompiler编译groovy编写的文件 Class clazz = COMPILER.compile(file); // 如果不是抽象类即ZuulFilter,则进行实例化并放入内存 if (!Modifier.isAbstract(clazz.getModifiers())) { filter = (ZuulFilter) FILTER_FACTORY.newInstance(clazz); List<ZuulFilter> list = hashFiltersByType.get(filter.filterType()); if (list != null) { hashFiltersByType.remove(filter.filterType()); //rebuild this list } filterRegistry.put(file.getAbsolutePath() + file.getName(), filter); filterClassLastModified.put(sName, file.lastModified()); return true; } } return false; } }
以上两个类核心步骤 即为 FilterFileManager初始化过程
- 扫描指定目录下的groovy文件,通过
FilterLoader编译文件,并加载ZuulFilter - 开启守护进程,轮询文件,动态加载ZuulFilter
总结
- Zuul的源码执行路径:
Zuul源码执行流程
- ZuulFilter的加载方式:是通过扫描
.groovy文件来加载,并支持动态加载,具体可以看官方示例zuul-simple-webapp - Zuul的整个流程,是基于servlet或filter方式在service或doFilter方法中衔接请求,并运用类似门面模式编写
至此,Zuulfilter的加载以及各类型Filter的执行都在源码中找到了。zuul-core的代码还是很容易能看懂。下一篇,会分析SpringCloud怎么整合Zuul。