xxl-job的原理(1)
xxl-job的架构
系统组成
- 调度中心:进行任务统一调度,可以新增和管理执行器和任务;
- 执行器:任务执行依赖的组件,一个执行器可以关联多个任务,添加的执行器可以自动注册到调度中心上;
- 任务:具体的业务执行逻辑,针对该逻辑可以在调度中心配置定时策略,定时策略支持cron表达式和固定速率;
系统架构
xxl-job的主要流程
执行器注册到调度中心
XxlJobConfig 配置类
每创建一个执行器服务需要新建XxlJobConfig 配置类,其核心是创建XxlJobSpringExecutor配置类。
@Configuration
public class XxlJobConfig {
private Logger logger = LoggerFactory.getLogger(XxlJobConfig.class);
@Value("${xxl.job.admin.addresses}")
private String adminAddresses;
@Value("${xxl.job.accessToken}")
private String accessToken;
@Value("${xxl.job.executor.appname}")
private String appname;
@Value("${xxl.job.executor.address}")
private String address;
@Value("${xxl.job.executor.ip}")
private String ip;
@Value("${xxl.job.executor.port}")
private int port;
@Value("${xxl.job.executor.logpath}")
private String logPath;
@Value("${xxl.job.executor.logretentiondays}")
private int logRetentionDays;
//my-创建XxlJobSpringExecutor配置类
@Bean
public XxlJobSpringExecutor xxlJobExecutor() {
logger.info(">>>>>>>>>>> xxl-job config init.");
XxlJobSpringExecutor xxlJobSpringExecutor = new XxlJobSpringExecutor();
xxlJobSpringExecutor.setAdminAddresses(adminAddresses);
xxlJobSpringExecutor.setAppname(appname);
xxlJobSpringExecutor.setAddress(address);
xxlJobSpringExecutor.setIp(ip);
xxlJobSpringExecutor.setPort(port);
xxlJobSpringExecutor.setAccessToken(accessToken);
xxlJobSpringExecutor.setLogPath(logPath);
xxlJobSpringExecutor.setLogRetentionDays(logRetentionDays);
return xxlJobSpringExecutor;
}
/**
* 针对多网卡、容器内部署等情况,可借助 "spring-cloud-commons" 提供的 "InetUtils" 组件灵活定制注册IP;
*
* 1、引入依赖:
*
* org.springframework.cloud
* spring-cloud-commons
* ${version}
*
*
* 2、配置文件,或者容器启动变量
* spring.cloud.inetutils.preferred-networks: 'xxx.xxx.xxx.'
*
* 3、获取IP
* String ip_ = inetUtils.findFirstNonLoopbackHostInfo().getIpAddress();
*/
}XxlJobSpringExecutor执行器实现类
XxlJobSpringExecutor类在xxl-job-core包中,其继承或实现 XxlJobExecutor ,ApplicationContextAware, SmartInitializingSingleton, DisposableBean类。
这三个接口的作用如下:
ApplicationContextAware:- 这个接口允许一个Spring bean意识到它所属的
ApplicationContext(应用程序上下文)。 - 实现了
ApplicationContextAware接口的bean可以访问和与其所在的应用程序上下文交互。
- 这个接口允许一个Spring bean意识到它所属的
SmartInitializingSingleton:- 这个接口用于那些需要在所有单例(singleton)bean创建完成后执行某些初始化逻辑的bean。
- 该接口提供了
afterSingletonsInstantiated()方法,该方法在所有单例bean创建完成后调用。
DisposableBean:- 这个接口用于那些需要在bean销毁(即容器关闭)时执行清理操作的bean。
- 当应用程序上下文关闭时,Spring容器会调用
DisposableBean接口的destroy()方法来销毁bean。
这些接口是Spring框架提供的扩展点,允许开发者编写自定义逻辑以处理ApplicationContext的管理、单例bean的初始化和销毁等方面的任务。根据具体的需求,您可以选择实现其中一个或多个接口来定制您的bean的行为。
// start
@Override
public void afterSingletonsInstantiated() {
// init JobHandler Repository
/*initJobHandlerRepository(applicationContext);*/
// init JobHandler Repository (for method)
//my-bean实例化后,初始化JobHandler
initJobHandlerMethodRepository(applicationContext);
// refresh GlueFactory
GlueFactory.refreshInstance(1);
// super start
try {
//my-执行器启动的方法
super.start();
} catch (Exception e) {
throw new RuntimeException(e);
}
}
---
//my-初始化JobHandler,将其实例化到spring中,将任务注册到调度中心
private void initJobHandlerMethodRepository(ApplicationContext applicationContext) {
if (applicationContext == null) {
return;
}
// init job handler from method
String[] beanDefinitionNames = applicationContext.getBeanNamesForType(Object.class, false, true);
for (String beanDefinitionName : beanDefinitionNames) {
// get bean
Object bean = null;
Lazy onBean = applicationContext.findAnnotationOnBean(beanDefinitionName, Lazy.class);
if (onBean!=null){
logger.debug("xxl-job annotation scan, skip @Lazy Bean:{}", beanDefinitionName);
continue;
}else {
bean = applicationContext.getBean(beanDefinitionName);
}
// filter method
Map annotatedMethods = null; // referred to :org.springframework.context.event.EventListenerMethodProcessor.processBean
try {
annotatedMethods = MethodIntrospector.selectMethods(bean.getClass(),
new MethodIntrospector.MetadataLookup() {
@Override
public XxlJob inspect(Method method) {
return AnnotatedElementUtils.findMergedAnnotation(method, XxlJob.class);
}
});
} catch (Throwable ex) {
logger.error("xxl-job method-jobhandler resolve error for bean[" + beanDefinitionName + "].", ex);
}
if (annotatedMethods==null || annotatedMethods.isEmpty()) {
continue;
}
// generate and regist method job handler
//my-将bean实例和方法注册到本地缓存中
for (Map.Entry methodXxlJobEntry : annotatedMethods.entrySet()) {
Method executeMethod = methodXxlJobEntry.getKey();
XxlJob xxlJob = methodXxlJobEntry.getValue();
// regist
registJobHandler(xxlJob, bean, executeMethod);
}
}
} super.start();这一句是执行器启动的方法,在XxlJobExecutor接口类有具体试实现,在后面有详细说明。
registJobHandler(name, new MethodJobHandler(bean, executeMethod, initMethod, destroyMethod));这句是将JobHandler注册到本地缓存jobHandlerRepository中,该本地缓存由ConcurrentMap
// ---------------------- job handler repository ----------------------
//my-将JobHandler注册到本地缓存中
private static ConcurrentMap jobHandlerRepository = new ConcurrentHashMap();
public static IJobHandler loadJobHandler(String name){
return jobHandlerRepository.get(name);
}
public static IJobHandler registJobHandler(String name, IJobHandler jobHandler){
logger.info(">>>>>>>>>>> xxl-job register jobhandler success, name:{}, jobHandler:{}", name, jobHandler);
return jobHandlerRepository.put(name, jobHandler);
}
protected void registJobHandler(XxlJob xxlJob, Object bean, Method executeMethod){
if (xxlJob == null) {
return;
}
String name = xxlJob.value();
//make and simplify the variables since they'll be called several times later
Class clazz = bean.getClass();
String methodName = executeMethod.getName();
if (name.trim().length() == 0) {
throw new RuntimeException("xxl-job method-jobhandler name invalid, for[" + clazz + "#" + methodName + "] .");
}
if (loadJobHandler(name) != null) {
throw new RuntimeException("xxl-job jobhandler[" + name + "] naming conflicts.");
}
// execute method
/*if (!(method.getParameterTypes().length == 1 && method.getParameterTypes()[0].isAssignableFrom(String.class))) {
throw new RuntimeException("xxl-job method-jobhandler param-classtype invalid, for[" + bean.getClass() + "#" + method.getName() + "] , " +
"The correct method format like \" public ReturnT execute(String param) \" .");
}
if (!method.getReturnType().isAssignableFrom(ReturnT.class)) {
throw new RuntimeException("xxl-job method-jobhandler return-classtype invalid, for[" + bean.getClass() + "#" + method.getName() + "] , " +
"The correct method format like \" public ReturnT execute(String param) \" .");
}*/
executeMethod.setAccessible(true);
// init and destroy
Method initMethod = null;
Method destroyMethod = null;
if (xxlJob.init().trim().length() > 0) {
try {
initMethod = clazz.getDeclaredMethod(xxlJob.init());
initMethod.setAccessible(true);
} catch (NoSuchMethodException e) {
throw new RuntimeException("xxl-job method-jobhandler initMethod invalid, for[" + clazz + "#" + methodName + "] .");
}
}
if (xxlJob.destroy().trim().length() > 0) {
try {
destroyMethod = clazz.getDeclaredMethod(xxlJob.destroy());
destroyMethod.setAccessible(true);
} catch (NoSuchMethodException e) {
throw new RuntimeException("xxl-job method-jobhandler destroyMethod invalid, for[" + clazz + "#" + methodName + "] .");
}
}
// registry jobhandler
registJobHandler(name, new MethodJobHandler(bean, executeMethod, initMethod, destroyMethod));
} XxlJobExecutor执行器接口类
XxlJobExecutor是执行器的接口类(不是接口,但规定了执行器方法),其主要的执行逻辑是在 start()方法中:
- 调用
XxlJobFileAppender.initLogPath(logPath);方法初始日志目录; - 调用
initAdminBizList(adminAddresses, accessToken);初始化远程调用的客户端列表,后续这些客户端实现执行器和调度中心的通信; - 调用
JobLogFileCleanThread.getInstance().start(logRetentionDays);实现日志文件的异步清除,通过创建一个异步线程来实现; - 调用
TriggerCallbackThread.getInstance().start();创建回调线程; initEmbedServer(address, ip, port, appname, accessToken);初始化内嵌服务器。
//my-执行器的父类,主要定义了启动和停止等一些方法
public class XxlJobExecutor {
private static final Logger logger = LoggerFactory.getLogger(XxlJobExecutor.class);
//...省略
// ---------------------- start + stop ----------------------
//my-执行器启动方法,主要的方法
public void start() throws Exception {
// init logpath
XxlJobFileAppender.initLogPath(logPath);
// init invoker, admin-client
//my-初始化远程调用客户端
initAdminBizList(adminAddresses, accessToken);
// init JobLogFileCleanThread
JobLogFileCleanThread.getInstance().start(logRetentionDays);
// init TriggerCallbackThread
TriggerCallbackThread.getInstance().start();
// init executor-server
initEmbedServer(address, ip, port, appname, accessToken);
}
//...省略
// ---------------------- admin-client (rpc invoker) ----------------------
private static List adminBizList;
//my-远程调用客户端初始化逻辑,将其放入到List
private void initAdminBizList(String adminAddresses, String accessToken) throws Exception {
if (adminAddresses!=null && adminAddresses.trim().length()>0) {
for (String address: adminAddresses.trim().split(",")) {
if (address!=null && address.trim().length()>0) {
AdminBiz adminBiz = new AdminBizClient(address.trim(), accessToken);
if (adminBizList == null) {
adminBizList = new ArrayList();
}
adminBizList.add(adminBiz);
}
}
}
}
//...省略
// ---------------------- executor-server (rpc provider) ----------------------
//my-启动一个内嵌服务器,负责执行器和和调度中心交互
private EmbedServer embedServer = null;
private void initEmbedServer(String address, String ip, int port, String appname, String accessToken) throws Exception {
// fill ip port
port = port>0?port: NetUtil.findAvailablePort(9999);
ip = (ip!=null&&ip.trim().length()>0)?ip: IpUtil.getIp();
// generate address
if (address==null || address.trim().length()==0) {
String ip_port_address = IpUtil.getIpPort(ip, port); // registry-address:default use address to registry , otherwise use ip:port if address is null
address = "http://{ip_port}/".replace("{ip_port}", ip_port_address);
}
// accessToken
if (accessToken==null || accessToken.trim().length()==0) {
logger.warn(">>>>>>>>>>> xxl-job accessToken is empty. To ensure system security, please set the accessToken.");
}
// start
embedServer = new EmbedServer();
embedServer.start(address, port, appname, accessToken);
}
重点来说明initAdminBizList(String adminAddresses, String accessToken)方法,其会为每一个执行器创建一个AdminBizClient,将其放到类变量List 中,AdminBizClient负责和调度中心进行通信。
ExecutorRegistryThread定时注册类
下面来讲内嵌服务器启动的逻辑和定时上报注册信息的逻辑。
public class EmbedServer {
private static final Logger logger = LoggerFactory.getLogger(EmbedServer.class);
private ExecutorBiz executorBiz;
private Thread thread;
public void start(final String address, final int port, final String appname, final String accessToken) {
executorBiz = new ExecutorBizImpl();
thread = new Thread(new Runnable() {
@Override
public void run() {
// param
EventLoopGroup bossGroup = new NioEventLoopGroup();
EventLoopGroup workerGroup = new NioEventLoopGroup();
ThreadPoolExecutor bizThreadPool = new ThreadPoolExecutor(
0,
200,
60L,
TimeUnit.SECONDS,
new LinkedBlockingQueue(2000),
new ThreadFactory() {
@Override
public Thread newThread(Runnable r) {
return new Thread(r, "xxl-job, EmbedServer bizThreadPool-" + r.hashCode());
}
},
new RejectedExecutionHandler() {
@Override
public void rejectedExecution(Runnable r, ThreadPoolExecutor executor) {
throw new RuntimeException("xxl-job, EmbedServer bizThreadPool is EXHAUSTED!");
}
});
try {
// start server
ServerBootstrap bootstrap = new ServerBootstrap();
bootstrap.group(bossGroup, workerGroup)
.channel(NioServerSocketChannel.class)
.childHandler(new ChannelInitializer() {
@Override
public void initChannel(SocketChannel channel) throws Exception {
channel.pipeline()
.addLast(new IdleStateHandler(0, 0, 30 * 3, TimeUnit.SECONDS)) // beat 3N, close if idle
.addLast(new HttpServerCodec())
.addLast(new HttpObjectAggregator(5 * 1024 * 1024)) // merge request & reponse to FULL
.addLast(new EmbedHttpServerHandler(executorBiz, accessToken, bizThreadPool));
}
})
.childOption(ChannelOption.SO_KEEPALIVE, true);
// bind
ChannelFuture future = bootstrap.bind(port).sync();
logger.info(">>>>>>>>>>> xxl-job remoting server start success, nettype = {}, port = {}", EmbedServer.class, port);
// start registry
//my-开始向注册中心报送注册信息
startRegistry(appname, address);
// wait util stop
future.channel().closeFuture().sync();
} catch (InterruptedException e) {
logger.info(">>>>>>>>>>> xxl-job remoting server stop.");
} catch (Exception e) {
logger.error(">>>>>>>>>>> xxl-job remoting server error.", e);
} finally {
// stop
try {
workerGroup.shutdownGracefully();
bossGroup.shutdownGracefully();
} catch (Exception e) {
logger.error(e.getMessage(), e);
}
}
}
});
thread.setDaemon(true); // daemon, service jvm, user thread leave >>> daemon leave >>> jvm leave
thread.start();
}
} ExecutorRegistryThread是一个单例实现,其主要方法是start(final String appname, final String address),在该方法中会创建一个异步线程,会在固定周期定时向调度中心注册执行器信息。
public class ExecutorRegistryThread {
private static Logger logger = LoggerFactory.getLogger(ExecutorRegistryThread.class);
private static ExecutorRegistryThread instance = new ExecutorRegistryThread();
public static ExecutorRegistryThread getInstance(){
return instance;
}
private Thread registryThread;
private volatile boolean toStop = false;
public void start(final String appname, final String address){
// valid
if (appname==null || appname.trim().length()==0) {
logger.warn(">>>>>>>>>>> xxl-job, executor registry config fail, appname is null.");
return;
}
if (XxlJobExecutor.getAdminBizList() == null) {
logger.warn(">>>>>>>>>>> xxl-job, executor registry config fail, adminAddresses is null.");
return;
}
registryThread = new Thread(new Runnable() {
@Override
public void run() {
// registry
//my-固定周期定时向调度中心注册执行器信息
while (!toStop) {
try {
RegistryParam registryParam = new RegistryParam(RegistryConfig.RegistType.EXECUTOR.name(), appname, address);
for (AdminBiz adminBiz: XxlJobExecutor.getAdminBizList()) {
try {
ReturnT registryResult = adminBiz.registry(registryParam);
if (registryResult!=null && ReturnT.SUCCESS_CODE == registryResult.getCode()) {
registryResult = ReturnT.SUCCESS;
logger.debug(">>>>>>>>>>> xxl-job registry success, registryParam:{}, registryResult:{}", new Object[]{registryParam, registryResult});
break;
} else {
logger.info(">>>>>>>>>>> xxl-job registry fail, registryParam:{}, registryResult:{}", new Object[]{registryParam, registryResult});
}
} catch (Exception e) {
logger.info(">>>>>>>>>>> xxl-job registry error, registryParam:{}", registryParam, e);
}
}
} catch (Exception e) {
if (!toStop) {
logger.error(e.getMessage(), e);
}
}
try {
if (!toStop) {
TimeUnit.SECONDS.sleep(RegistryConfig.BEAT_TIMEOUT);
}
} catch (InterruptedException e) {
if (!toStop) {
logger.warn(">>>>>>>>>>> xxl-job, executor registry thread interrupted, error msg:{}", e.getMessage());
}
}
}
// registry remove
try {
RegistryParam registryParam = new RegistryParam(RegistryConfig.RegistType.EXECUTOR.name(), appname, address);
for (AdminBiz adminBiz: XxlJobExecutor.getAdminBizList()) {
try {
ReturnT registryResult = adminBiz.registryRemove(registryParam);
if (registryResult!=null && ReturnT.SUCCESS_CODE == registryResult.getCode()) {
registryResult = ReturnT.SUCCESS;
logger.info(">>>>>>>>>>> xxl-job registry-remove success, registryParam:{}, registryResult:{}", new Object[]{registryParam, registryResult});
break;
} else {
logger.info(">>>>>>>>>>> xxl-job registry-remove fail, registryParam:{}, registryResult:{}", new Object[]{registryParam, registryResult});
}
} catch (Exception e) {
if (!toStop) {
logger.info(">>>>>>>>>>> xxl-job registry-remove error, registryParam:{}", registryParam, e);
}
}
}
} catch (Exception e) {
if (!toStop) {
logger.error(e.getMessage(), e);
}
}
logger.info(">>>>>>>>>>> xxl-job, executor registry thread destroy.");
}
});
registryThread.setDaemon(true);
registryThread.setName("xxl-job, executor ExecutorRegistryThread");
registryThread.start();
} 步骤总结
- XxlJobConfig 配置类中实例化XxlJobSpringExecutor执行器类,该类是XxlJobExecutor类的实现类,在XxlJobSpringExecutor类中还实现了ApplicationContextAware, SmartInitializingSingleton, DisposableBean的接口,能够在实例化后将带有@Xxljob注解的方法当多JobHandler,将其解析后放到本地缓存jobHandlerRepository中。
- XxlJobSpringExecutor会调用 super.start()方法,开始将执行器进行初始化,初始化过程中最关键的是将初始化远程调用的客户端,将这些客户端方法放到列表List ,后续这些客户端实现执行器和调度中心的通信,实现注册、下线、回调等功能。
- 在初始化后期,会创建一个嵌入式服务器EmbedServer,然后将其启动,该服务器的启动后会创建一个定时任务线程ExecutorRegistryThread,在该线程中会定时向调度中心上报列表List 中的执行器信息,如果服务器下线,也会将关联的执行器下线。
执行器注册到调度中心类间关系:
执行器注册到调度中心时序图:
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