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沉淀、分享、成长，专注于原创专题案例，以最易学习编程的方式分享知识，让自己和他人都能有所收获。目前已完成的专题有；Netty4.x实战专题案例、用Java实现JVM、基于JavaAgent的全链路监控、手写RPC框架、架构设计专题案例[Ing]等。

你用剑🗡、我用刀🔪，好的代码都很烧😏，望你不吝出招💨！

一、前言介绍

在日常开发中经常会用到定时任务，用来；库表扫描发送MQ、T+n账单结算、缓存数据更新、秒杀活动状态变更，等等。因为有了Spring的Schedule极大的方便了我们对这类场景的使用。那么，除了应用你还了解它多少呢；

1. 默认初始化多少个任务线程
2. JobStore有几种实现，你平时用的都是哪个
3. 一个定时任务的执行流程简述下

蒙圈了吧，是不感觉平时只是使用了，根本没关注过这些。有种冲动赶紧搜索答案吧！但只是知道答案是没有多少意义的，扛不住问不说，也不了解原理。所以，如果你想真的提升自己技能，还是要从根本搞定。

二、案例工程

为了更好的做源码分析，我们将平时用的定时任务服务单独抽离出来。工程下载，关注公众号：bugstack虫洞栈，回复：源码分析

itstack-demo-code-schedule
└── src
    ├── main
    │   ├── java
    │   │   └── org.itstack.demo
    │   │       ├── DemoTask.java
    │   │       └── JobImpl.java   
    │   └── resources
    │       ├── props
    │       │   └── config.properties
    │       ├── spring
    │       │   └── spring-config-schedule-task.xml
    │       ├── logback.xml
    │       └── spring-config.xml
    └── test
         └── java
             └── org.itstack.demo.test
                 ├── ApiTest.java
                 ├── MyQuartz.java
                 └── MyTask.java

三、环境配置

1. JDK 1.8
2. IDEA 2019.3.1
3. Spring 4.3.24.RELEASE
4. quartz 2.3.2 ｛不同版本略有代码差异｝

四、源码分析

<dependency>
    <groupId>org.quartz-scheduler</groupId>
    <artifactId>quartz</artifactId>
    <version>2.3.2</version>
</dependency>

依赖于Spring版本升级quartz选择2.3.2，同时如果你如本文案例中所示使用xml配置任务。那么会有如下更改；

Spring 3.x/org.springframework.scheduling.quart.CronTriggerBean

 <bean id="taskTrigger" class="org.springframework.scheduling.quartz.CronTriggerBean">
     <property name="jobDetail" ref="taskHandler"/>
     <property name="cronExpression" value="0/5 * * * * ?"/>
 </bean>

Spring 4.x/org.springframework.scheduling.quartz.CronTriggerFactoryBean

 <bean id="taskTrigger" class="org.springframework.scheduling.quartz.CronTriggerFactoryBean">
     <property name="jobDetail" ref="taskHandler"/>
     <property name="cronExpression" value="0/5 * * * * ?"/>
 </bean>

在正式分析前，可以看下quartz的默认配置，很多初始化动作都要从这里取得参数，同样你可以配置自己的配置文件。例如，当你的任务很多时，默认初始化的10个线程组不满足你的业务需求，就可以按需调整。

quart.properties

# Default Properties file for use by StdSchedulerFactory
# to create a Quartz Scheduler Instance, if a different
# properties file is not explicitly specified.
#

org.quartz.scheduler.instanceName: DefaultQuartzScheduler
org.quartz.scheduler.rmi.export: false
org.quartz.scheduler.rmi.proxy: false
org.quartz.scheduler.wrapJobExecutionInUserTransaction: false

org.quartz.threadPool.class: org.quartz.simpl.SimpleThreadPool
org.quartz.threadPool.threadCount: 10
org.quartz.threadPool.threadPriority: 5
org.quartz.threadPool.threadsInheritContextClassLoaderOfInitializingThread: true

org.quartz.jobStore.misfireThreshold: 60000

org.quartz.jobStore.class: org.quartz.simpl.RAMJobStore

1. 从一个简单案例开始

平时我们使用Schedule基本都是注解或者xml配置文件，但是为了可以更简单的分析代码，我们从一个简单的Demo入手，放到main函数中。

DemoTask.java & 定义一个等待被执行的任务

public class DemoTask {

    private Logger logger = LoggerFactory.getLogger(DemoTask.class);

    public void execute() throws Exception{
        logger.info("定时处理用户信息任务：0/5 * * * * ?");
    }

}

MyTask.java & 测试类，将配置在xml中的代码抽离出来

public class MyTask {

    public static void main(String[] args) throws Exception {

        DemoTask demoTask = new DemoTask();

        // 定义了；执行的内容
        MethodInvokingJobDetailFactoryBean methodInvokingJobDetailFactoryBean = new MethodInvokingJobDetailFactoryBean();
        methodInvokingJobDetailFactoryBean.setTargetObject(demoTask);
        methodInvokingJobDetailFactoryBean.setTargetMethod("execute");
        methodInvokingJobDetailFactoryBean.setConcurrent(true);
        methodInvokingJobDetailFactoryBean.setName("demoTask");
        methodInvokingJobDetailFactoryBean.afterPropertiesSet();

        // 定义了；执行的计划
        CronTriggerFactoryBean cronTriggerFactoryBean = new CronTriggerFactoryBean();
        cronTriggerFactoryBean.setJobDetail(methodInvokingJobDetailFactoryBean.getObject());
        cronTriggerFactoryBean.setCronExpression("0/5 * * * * ?");
        cronTriggerFactoryBean.setName("demoTask");
        cronTriggerFactoryBean.afterPropertiesSet();

        // 实现了；执行的功能
        SchedulerFactoryBean schedulerFactoryBean = new SchedulerFactoryBean();
        schedulerFactoryBean.setTriggers(cronTriggerFactoryBean.getObject());
        schedulerFactoryBean.setAutoStartup(true);
        schedulerFactoryBean.afterPropertiesSet();

        schedulerFactoryBean.start();

        // 暂停住
        System.in.read();

    }

}

如果一切顺利，那么会有如下结果：

2020-01-04 10:47:16.369 [main] INFO  org.quartz.impl.StdSchedulerFactory[1220] - Using default implementation for ThreadExecutor
2020-01-04 10:47:16.421 [main] INFO  org.quartz.core.SchedulerSignalerImpl[61] - Initialized Scheduler Signaller of type: class org.quartz.core.SchedulerSignalerImpl
2020-01-04 10:47:16.422 [main] INFO  org.quartz.core.QuartzScheduler[229] - Quartz Scheduler v.2.3.2 created.
2020-01-04 10:47:16.423 [main] INFO  org.quartz.simpl.RAMJobStore[155] - RAMJobStore initialized.
2020-01-04 10:47:16.424 [main] INFO  org.quartz.core.QuartzScheduler[294] - Scheduler meta-data: Quartz Scheduler (v2.3.2) 'QuartzScheduler' with instanceId 'NON_CLUSTERED'
  Scheduler class: 'org.quartz.core.QuartzScheduler' - running locally.
  NOT STARTED.
  Currently in standby mode.
  Number of jobs executed: 0
  Using thread pool 'org.quartz.simpl.SimpleThreadPool' - with 10 threads.
  Using job-store 'org.quartz.simpl.RAMJobStore' - which does not support persistence. and is not clustered.

2020-01-04 10:47:16.424 [main] INFO  org.quartz.impl.StdSchedulerFactory[1374] - Quartz scheduler 'QuartzScheduler' initialized from an externally provided properties instance.
2020-01-04 10:47:16.424 [main] INFO  org.quartz.impl.StdSchedulerFactory[1378] - Quartz scheduler version: 2.3.2
2020-01-04 10:47:16.426 [main] INFO  org.quartz.core.QuartzScheduler[2293] - JobFactory set to: org.springframework.scheduling.quartz.AdaptableJobFactory@3e9b1010
2020-01-04 10:47:16.651 [main] INFO  org.quartz.core.QuartzScheduler[547] - Scheduler QuartzScheduler_$_NON_CLUSTERED started.
一月 04, 2020 10:47:16 上午 org.springframework.scheduling.quartz.SchedulerFactoryBean startScheduler
信息: Starting Quartz Scheduler now
2020-01-04 10:47:20.321 [QuartzScheduler_Worker-1] INFO  org.itstack.demo.DemoTask[11] - 定时处理用户信息任务：0/5 * * * * ?
2020-01-04 10:47:25.001 [QuartzScheduler_Worker-2] INFO  org.itstack.demo.DemoTask[11] - 定时处理用户信息任务：0/5 * * * * ?
2020-01-04 10:47:30.000 [QuartzScheduler_Worker-3] INFO  org.itstack.demo.DemoTask[11] - 定时处理用户信息任务：0/5 * * * * ?
2020-01-04 10:47:35.001 [QuartzScheduler_Worker-4] INFO  org.itstack.demo.DemoTask[11] - 定时处理用户信息任务：0/5 * * * * ?
2020-01-04 10:47:40.000 [QuartzScheduler_Worker-5] INFO  org.itstack.demo.DemoTask[11] - 定时处理用户信息任务：0/5 * * * * ?

Process finished with exit code -1

2. 定义执行内容(MethodInvokingJobDetailFactoryBean)

// 定义了；执行的内容
MethodInvokingJobDetailFactoryBean methodInvokingJobDetailFactoryBean = new MethodInvokingJobDetailFactoryBean();
methodInvokingJobDetailFactoryBean.setTargetObject(demoTask);
methodInvokingJobDetailFactoryBean.setTargetMethod("execute");
methodInvokingJobDetailFactoryBean.setConcurrent(true);
methodInvokingJobDetailFactoryBean.setName("demoTask");
methodInvokingJobDetailFactoryBean.afterPropertiesSet();

这块内容主要将我们的任务体(即待执行任务DemoTask)交给MethodInvokingJobDetailFactoryBean管理，首先设置必要信息；

• targetObject：目标对象bean，也就是demoTask
• targetMethod：目标方法name，也就是execute
• concurrent：是否并行执行，非并行执行任务，如果上一个任务没有执行完，下一刻不会执行
• name：xml配置非必传，源码中可以获取beanName

最后我们通过手动调用 afterPropertiesSet() 来模拟初始化。如果我们的类是交给 Spring 管理的，那么在实现了 InitializingBean 接口的类，在类配置信息加载后会自动执行 afterPropertiesSet() 。一般实现了 InitializingBean 接口的类，同时也会去实现 FactoryBean 接口，因为这个接口实现后就可以通过 T getObject() 获取自己自定义初始化的类。这也常常用在一些框架开发中。

MethodInvokingJobDetailFactoryBean.afterPropertiesSet()

public void afterPropertiesSet() throws ClassNotFoundException, NoSuchMethodException {
prepare();
// Use specific name if given, else fall back to bean name.
String name = (this.name != null ? this.name : this.beanName);
// Consider the concurrent flag to choose between stateful and stateless job.
Class<?> jobClass = (this.concurrent ? MethodInvokingJob.class : StatefulMethodInvokingJob.class);
// Build JobDetail instance.
JobDetailImpl jdi = new JobDetailImpl();
jdi.setName(name);
jdi.setGroup(this.group);
jdi.setJobClass((Class) jobClass);
jdi.setDurability(true);
jdi.getJobDataMap().put("methodInvoker", this);
this.jobDetail = jdi;

postProcessJobDetail(this.jobDetail);
}

• 源码168行： 根据是否并行执行选择任务类，这两个类都是MethodInvokingJobDetailFactoryBean的内部类，非并行执行的StatefulMethodInvokingJob只是继承MethodInvokingJob添加了标记注解。

• 源码171行： 创建JobDetailImpl，添加任务明细信息，注意这类的jdi.setJobClass((Class) jobClass)实际就是MethodInvokingJob。MethodInvokingJob也是我们最终要反射调用执行的内容。

• 源码177行： 初始化任务后赋值给this.jobDetail = jdi，也就是最终的类对象

  MethodInvokingJobDetailFactoryBean.getObject()

  @Override
  public JobDetail getObject() {
  return this.jobDetail;
  }
  

• 源码：220行： 获取对象时返回 this.jobDetail，这也就解释了为什么 MethodInvokingJobDetailFactoryBean 初始化后直接赋值给了一个 JobDetail ；

  

3. 定义执行计划(CronTriggerFactoryBeann)

// 定义了；执行的计划
CronTriggerFactoryBean cronTriggerFactoryBean = new CronTriggerFactoryBean();
cronTriggerFactoryBean.setJobDetail(methodInvokingJobDetailFactoryBean.getObject());
cronTriggerFactoryBean.setCronExpression("0/5 * * * * ?");
cronTriggerFactoryBean.setName("demoTask");
cronTriggerFactoryBean.afterPropertiesSet();

这一块主要定义任务的执行计划，并将任务执行内容交给 CronTriggerFactoryBean 管理，同时设置必要信息；

• jobDetail：设置任务体，xml 中可以直接将对象赋值，硬编码中设置执行的 JobDetail 对象信息。也就是我们上面设置的 JobDetailImpl ，通过 getObject() 获取出来。
• cronExpression：计划表达式；秒、分、时、日、月、周、年

CronTriggerFactoryBean.afterPropertiesSet()

@Override
public void afterPropertiesSet() throws ParseException {
    
// ... 校验属性信息

CronTriggerImpl cti = new CronTriggerImpl();
cti.setName(this.name);
cti.setGroup(this.group);
if (this.jobDetail != null) {
cti.setJobKey(this.jobDetail.getKey());
}
cti.setJobDataMap(this.jobDataMap);
cti.setStartTime(this.startTime);
cti.setCronExpression(this.cronExpression);
cti.setTimeZone(this.timeZone);
cti.setCalendarName(this.calendarName);
cti.setPriority(this.priority);
cti.setMisfireInstruction(this.misfireInstruction);
cti.setDescription(this.description);
this.cronTrigger = cti;
}

• 源码237行： 创建触发器 CronTriggerImpl 并设置相关属性信息

• 源码245行： 生成执行计划类 cti.setCronExpression(this.cronExpression);

  public void setCronExpression(String cronExpression) throws ParseException {
  TimeZone origTz = getTimeZone();
  this.cronEx = new CronExpression(cronExpression);
  this.cronEx.setTimeZone(origTz);
  }
  

  CronExpression.java & 解析Cron表达式

  protected void buildExpression(String expression) throws ParseException {
  expressionParsed = true;
  try {
  
  // ... 初始化 TreeSet xxx = new TreeSet<Integer>();
  
  int exprOn = SECOND;
  StringTokenizer exprsTok = new StringTokenizer(expression, " \t",
  false);
  
  while (exprsTok.hasMoreTokens() && exprOn <= YEAR) {
  String expr = exprsTok.nextToken().trim();
  
  // ... 校验DAY_OF_MONTH和DAY_OF_WEEK字段的特殊字符
  
  StringTokenizer vTok = new StringTokenizer(expr, ",");
  while (vTok.hasMoreTokens()) {
  String v = vTok.nextToken();
  storeExpressionVals(0, v, exprOn);
  }
  exprOn++;
  }
  
  // ... 校验DAY_OF_MONTH和DAY_OF_WEEK字段的特殊字符
  
  } catch (ParseException pe) {
  throw pe;
  } catch (Exception e) {
  throw new ParseException("Illegal cron expression format ("
  + e.toString() + ")", 0);
  }
  }
  

  • Cron表达式有7个字段，CronExpression 把7个字段解析为7个 TreeSet 对象。
  • 填充TreeSet对象值的时候，表达式都会转换为起始值、结束值和增量的计算模式，然后计算出匹配的值放进TreeSet对象

CronTriggerFactoryBean.getObject()

@Override
public CronTrigger getObject() {
return this.cronTrigger;
}

• 源码257行： 获取对象时返回 this.cronTrigger ，也就是 CronTriggerImpl 对象

4. 调度执行计划(SchedulerFactoryBean)

// 调度了；执行的计划(scheduler)
SchedulerFactoryBean schedulerFactoryBean = new SchedulerFactoryBean();
schedulerFactoryBean.setTriggers(cronTriggerFactoryBean.getObject());
schedulerFactoryBean.setAutoStartup(true);
schedulerFactoryBean.afterPropertiesSet();

schedulerFactoryBean.start();

这一部分如名字一样调度工厂，相当于一个指挥官，可以从全局做调度，比如监听哪些trigger已经ready、分配线程等等，同样也需要设置必要的属性信息；

• triggers：按需可以设置多个触发器，本文设置了一个 cronTriggerFactoryBean.getObject() 也就是 CronTriggerImpl 对象
• autoStartup：默认是否自动启动任务，默认值为true

这个过程较长包括：调度工厂、线程池、注册任务等等，整体核心加载流程如下；

• 整个加载过程较长，抽取部分核心代码块进行分析，其中包括的类；
  • StdScheduler
  • StdSchedulerFactory
  • SimpleThreadPool
  • QuartzScheduler
  • QuartzSchedulerThread
  • RAMJobStore
  • CronTriggerImpl
  • CronExpression

SchedulerFactoryBean.afterPropertiesSet()

public void afterPropertiesSet() throws Exception {
if (this.dataSource == null && this.nonTransactionalDataSource != null) {
this.dataSource = this.nonTransactionalDataSource;
}
if (this.applicationContext != null && this.resourceLoader == null) {
this.resourceLoader = this.applicationContext;
}
// Initialize the Scheduler instance...
this.scheduler = prepareScheduler(prepareSchedulerFactory());
try {
registerListeners();
registerJobsAndTriggers();
}
catch (Exception ex) {
try {
this.scheduler.shutdown(true);
}
catch (Exception ex2) {
logger.debug("Scheduler shutdown exception after registration failure", ex2);
}
throw ex;
}
}

• 源码474行： 为调度器做准备工作 prepareScheduler(prepareSchedulerFactory()) ，依次执行如下；

  1. SchedulerFactoryBean.prepareScheduler(SchedulerFactory schedulerFactory)
  2. SchedulerFactoryBean.createScheduler(schedulerFactory, this.schedulerName);
  3. SchedulerFactoryBean.createScheduler(SchedulerFactory schedulerFactory, String schedulerName)
  4. Scheduler newScheduler = schedulerFactory.getScheduler();
  5. StdSchedulerFactory.getScheduler();
  6. sched = instantiate(); 包括一系列核心操作；

  1）初始化threadPool(线程池)：开发者可以通过org.quartz.threadPool.class配置指定使用哪个线程池类，比如SimpleThreadPool。
  2）初始化jobStore(任务存储方式)：开发者可以通过org.quartz.jobStore.class配置指定使用哪个任务存储类，比如RAMJobStore。
  3）初始化dataSource(数据源)：开发者可以通过org.quartz.dataSource配置指定数据源详情，比如哪个数据库、账号、密码等。
  4）初始化其他配置：包括SchedulerPlugins、JobListeners、TriggerListeners等；
  5）初始化threadExecutor(线程执行器)：默认为DefaultThreadExecutor；
  6）创建工作线程：根据配置创建N个工作thread，执行start()启动thread，并将N个thread顺序add进threadPool实例的空闲线程列表availWorkers中；
  7）创建调度器线程：创建QuartzSchedulerThread实例，并通过threadExecutor.execute(实例)启动调度器线程；
  8）创建调度器：创建StdScheduler实例，将上面所有配置和引用组合进实例中，并将实例存入调度器池中
  

• 源码477行： 调用父类 SchedulerAccessor.registerJobsAndTriggers() 注册任务和触发器

  for (Trigger trigger : this.triggers) {
  addTriggerToScheduler(trigger);
  }
  

SchedulerAccessor.addTriggerToScheduler() & SchedulerAccessor 是SchedulerFactoryBean的父类

private boolean addTriggerToScheduler(Trigger trigger) throws SchedulerException {
boolean triggerExists = (getScheduler().getTrigger(trigger.getKey()) != null);
if (triggerExists && !this.overwriteExistingJobs) {
return false;
}
// Check if the Trigger is aware of an associated JobDetail.
JobDetail jobDetail = (JobDetail) trigger.getJobDataMap().remove("jobDetail");
if (triggerExists) {
if (jobDetail != null && !this.jobDetails.contains(jobDetail) && addJobToScheduler(jobDetail)) {
this.jobDetails.add(jobDetail);
}
try {
getScheduler().rescheduleJob(trigger.getKey(), trigger);
}
catch (ObjectAlreadyExistsException ex) {
if (logger.isDebugEnabled()) {
logger.debug("Unexpectedly encountered existing trigger on rescheduling, assumably due to " +
"cluster race condition: " + ex.getMessage() + " - can safely be ignored");
}
}
}
else {
try {
if (jobDetail != null && !this.jobDetails.contains(jobDetail) &&
(this.overwriteExistingJobs || getScheduler().getJobDetail(jobDetail.getKey()) == null)) {
getScheduler().scheduleJob(jobDetail, trigger);
this.jobDetails.add(jobDetail);
}
else {
getScheduler().scheduleJob(trigger);
}
}
catch (ObjectAlreadyExistsException ex) {
if (logger.isDebugEnabled()) {
logger.debug("Unexpectedly encountered existing trigger on job scheduling, assumably due to " +
"cluster race condition: " + ex.getMessage() + " - can safely be ignored");
}
if (this.overwriteExistingJobs) {
getScheduler().rescheduleJob(trigger.getKey(), trigger);
}
}
}
return true;
}

• 源码299行： addJobToScheduler(jobDetail) 一直会调用到 RAMJobStore 进行存放任务信息到 HashMap<JobKey, JobWrapper>(100)

  public void storeJob(JobDetail newJob,
      boolean replaceExisting) throws ObjectAlreadyExistsException {
  JobWrapper jw = new JobWrapper((JobDetail)newJob.clone());
  boolean repl = false;
  synchronized (lock) {
  if (jobsByKey.get(jw.key) != null) {
  if (!replaceExisting) {
  throw new ObjectAlreadyExistsException(newJob);
  }
  repl = true;
  }
  if (!repl) {
  // get job group
  HashMap<JobKey, JobWrapper> grpMap = jobsByGroup.get(newJob.getKey().getGroup());
  if (grpMap == null) {
  grpMap = new HashMap<JobKey, JobWrapper>(100);
  jobsByGroup.put(newJob.getKey().getGroup(), grpMap);
  }
  // add to jobs by group
  grpMap.put(newJob.getKey(), jw);
  // add to jobs by FQN map
  jobsByKey.put(jw.key, jw);
  } else {
  // update job detail
  JobWrapper orig = jobsByKey.get(jw.key);
  orig.jobDetail = jw.jobDetail; // already cloned
  }
  }
  }
  

• 初始化线程组；

  • prepareScheduler
  • createScheduler
  • schedulerFactory
  • StdSchedulerFactory.getScheduler()
  • getScheduler()->instantiate()
  • 源码1323行： tp.initialize();

  SimpleThreadPool.initialize() & 这里的count是默认配置中的数量，可以更改

   // create the worker threads and start them
   Iterator<WorkerThread> workerThreads = createWorkerThreads(count).iterator();
   while(workerThreads.hasNext()) {
   WorkerThread wt = workerThreads.next();
   wt.start();
   availWorkers.add(wt);
   }
  

5. 启动定时任务

案例中使用硬编码方式调用 schedulerFactoryBean.start() 启动线程服务。线程的协作通过Object sigLock来实现，关于sigLock.wait()方法都在QuartzSchedulerThread的run方法里面，所以sigLock唤醒的是只有线程QuartzSchedulerThread。核心流程如下；

这个启动过程中，核心的代码类，如下；

• StdScheduler
• QuartzScheduler
• QuartzSchedulerThread
• ThreadPool
• RAMJobStore
• CronTriggerImpl
• JobRunShellFactory

QuartzScheduler.start() & 启动

public void start() throws SchedulerException {

    if (shuttingDown|| closed) {
        throw new SchedulerException(
                "The Scheduler cannot be restarted after shutdown() has been called.");
    }

    // QTZ-212 : calling new schedulerStarting() method on the listeners
    // right after entering start()
    notifySchedulerListenersStarting();
    
if (initialStart == null) {
        initialStart = new Date();
        this.resources.getJobStore().schedulerStarted();            
        startPlugins();
    } else {
        resources.getJobStore().schedulerResumed();
    }

    // 唤醒线程
schedThread.togglePause(false);

    getLog().info(
            "Scheduler " + resources.getUniqueIdentifier() + " started.");
    
    notifySchedulerListenersStarted();
}

QuartzSchedulerThread.run() & 执行过程

@Override
public void run() {
    int acquiresFailed = 0;

// 只有调用了halt()方法，才会退出这个死循环
    while (!halted.get()) {
        try {

// 一、如果是暂停状态，则循环超时等待1000毫秒

            // wait a bit, if reading from job store is consistently failing (e.g. DB is down or restarting)..
           
    // 阻塞直到有空闲的线程可用并返回可用的数量
            int availThreadCount = qsRsrcs.getThreadPool().blockForAvailableThreads();
            if(availThreadCount > 0) {

                List<OperableTrigger> triggers;
                long now = System.currentTimeMillis();
                clearSignaledSchedulingChange();
                
try {
// 二、获取acquire状态的Trigger列表，也就是即将执行的任务
                    triggers = qsRsrcs.getJobStore().acquireNextTriggers(
                            now + idleWaitTime, Math.min(availThreadCount, qsRsrcs.getMaxBat
                    acquiresFailed = 0;
                    if (log.isDebugEnabled())
                        log.debug("batch acquisition of " + (triggers == null ? 0 : triggers
                } catch(){//...}

                if (triggers != null && !triggers.isEmpty()) {
                    
// 三：获取List第一个Trigger的下次触发时刻
long triggerTime = triggers.get(0).getNextFireTime().getTime();
                    
// 四：获取任务触发集合
List<TriggerFiredResult> res = qsRsrcs.getJobStore().triggersFired(triggers);

// 五：设置Triggers为'executing'状态
qsRsrcs.getJobStore().releaseAcquiredTrigger(triggers.get(i));
                    
// 六：创建JobRunShell
qsRsrcs.getJobRunShellFactory().createJobRunShell(bndle);

// 七：执行Job
qsRsrcs.getThreadPool().runInThread(shell)

                    continue; // while (!halted)
                }
            } else { // if(availThreadCount > 0)
                // should never happen, if threadPool.blockForAvailableThreads() follows con
                continue; // while (!halted)
            }

            
        } catch(RuntimeException re) {
            getLog().error("Runtime error occurred in main trigger firing loop.", re);
        }
    }
    
    qs = null;
    qsRsrcs = null;
}

• 源码391行： 创建JobRunShell，JobRunShell实例在initialize()方法就会把包含业务逻辑类的JobDetailImpl设置为它的成员属性，为后面执行业务逻辑代码做准备。执行业务逻辑代码在runInThread(shell)方法里面。

  QuartzSchedulerThread.run() & 部分代码

  JobRunShell shell = null;
  try {
  shell = qsRsrcs.getJobRunShellFactory().createJobRunShell(bndle);
  shell.initialize(qs);
  } catch (SchedulerException se) {
  qsRsrcs.getJobStore().triggeredJobComplete(triggers.get(i), bndle.getJobDetail(), CompletedExecutionInstruction.SET_ALL_JOB_TRIGGERS_ERROR);
  continue;
  }
  

• 源码398行： qsRsrcs.getThreadPool().runInThread(shell)

  SimpleThreadPool.runInThread

  // 保存所有WorkerThread的集合
  private List<WorkerThread> workers;
  // 空闲的WorkerThread集合
  private LinkedList<WorkerThread> availWorkers = new LinkedList<WorkerThread>();
  // 任务的WorkerThread集合
  private LinkedList<WorkerThread> busyWorkers = new LinkedList<WorkerThread>();
  
  /**
   * 维护workers、availWorkers和busyWorkers三个列表数据
   * 有任务需要一个线程出来执行：availWorkers.removeFirst();busyWorkers.add()
   * 然后调用WorkThread.run(runnable)方法
   */
  public boolean runInThread(Runnable runnable) {
  if (runnable == null) {
  return false;
  }
  
  synchronized (nextRunnableLock) {
  
  handoffPending = true;
  
  // Wait until a worker thread is available
  while ((availWorkers.size() < 1) && !isShutdown) {
  try {
  nextRunnableLock.wait(500);
  } catch (InterruptedException ignore) {
  }
  }
  
  if (!isShutdown) {
  WorkerThread wt = (WorkerThread)availWorkers.removeFirst();
  busyWorkers.add(wt);
  wt.run(runnable);
  } else {
  // If the thread pool is going down, execute the Runnable
  // within a new additional worker thread (no thread from the pool).
  
  WorkerThread wt = new WorkerThread(this, threadGroup,
  "WorkerThread-LastJob", prio, isMakeThreadsDaemons(), runnable);
  busyWorkers.add(wt);
  workers.add(wt);
  wt.start();
  }
  nextRunnableLock.notifyAll();
  handoffPending = false;
  }
  
  return true;
  }
  

• 源码428行： WorkerThread ，是一个内部类，主要是赋值并唤醒lock对象的等待线程队列

  WorkerThread.run(Runnable newRunnable)

  public void run(Runnable newRunnable) {
  synchronized(lock) {
  if(runnable != null) {
  throw new IllegalStateException("Already running a Runnable!");
  }
  runnable = newRunnable;
  lock.notifyAll();
  }
  }
  

• 源码561行： WorkerThread 的run方法，方法执行lock.notifyAll()后，对应的WorkerThread就会来到run()方法。到这！接近曙光了！终于来到了执行业务的execute()方法的倒数第二步，runnable对象是一个JobRunShell对象，下面在看JobRunShell.run()方法。

  WorkerThread.run()

  @Override
  public void run() {
  boolean ran = false;
  
  while (run.get()) {
  try {
  synchronized(lock) {
  while (runnable == null && run.get()) {
  lock.wait(500);
  }
  if (runnable != null) {
  ran = true;
  // 启动真正执行的内容，runnable就是JobRunShell
  runnable.run();
  }
  }
  } cache(){//...}
  }
  //if (log.isDebugEnabled())
  try {
  getLog().debug("WorkerThread is shut down.");
  } catch(Exception e) {
  // ignore to help with a tomcat glitch
  }
  }
  

JobRunShell.run() & 从上面WorkerThread.run()，调用到这里执行

public void run() {
    qs.addInternalSchedulerListener(this);

    try {
        OperableTrigger trigger = (OperableTrigger) jec.getTrigger();
        JobDetail jobDetail = jec.getJobDetail();

        do {
            // ...

            long startTime = System.currentTimeMillis();
            long endTime = startTime;

            // execute the job
            try {
                log.debug("Calling execute on job " + jobDetail.getKey());
                
// 执行业务代码，也就是我们的task
job.execute(jec);
                
endTime = System.currentTimeMillis();
            } catch (JobExecutionException jee) {
                endTime = System.currentTimeMillis();
                jobExEx = jee;
                getLog().info("Job " + jobDetail.getKey() +
                        " threw a JobExecutionException: ", jobExEx);
            } catch (Throwable e) {
                endTime = System.currentTimeMillis();
                getLog().error("Job " + jobDetail.getKey() +
                        " threw an unhandled Exception: ", e);
                SchedulerException se = new SchedulerException(
                        "Job threw an unhandled exception.", e);
                qs.notifySchedulerListenersError("Job ("
                        + jec.getJobDetail().getKey()
                        + " threw an exception.", se);
                jobExEx = new JobExecutionException(se, false);
            }

            jec.setJobRunTime(endTime - startTime);

            // 其他代码
        } while (true);

    } finally {
        qs.removeInternalSchedulerListener(this);
    }
}

QuartzJobBean.execte() & 继续往下走

public final void execute(JobExecutionContext context) throws JobExecutionException {
try {
BeanWrapper bw = PropertyAccessorFactory.forBeanPropertyAccess(this);
MutablePropertyValues pvs = new MutablePropertyValues();
pvs.addPropertyValues(context.getScheduler().getContext());
pvs.addPropertyValues(context.getMergedJobDataMap());
bw.setPropertyValues(pvs, true);
}
catch (SchedulerException ex) {
throw new JobExecutionException(ex);
}
executeInternal(context);
}

MethodInvokingJobDetailFactoryBean->MethodInvokingJob.executeInternal(JobExecutionContext context)

protected void executeInternal(JobExecutionContext context) throws JobExecutionException {
try {
// 反射执行业务代码
context.setResult(this.methodInvoker.invoke());
}
catch (InvocationTargetException ex) {
if (ex.getTargetException() instanceof JobExecutionException) {
// -> JobExecutionException, to be logged at info level by Quartz
throw (JobExecutionException) ex.getTargetException();
}
else {
// -> "unhandled exception", to be logged at error level by Quartz
throw new JobMethodInvocationFailedException(this.methodInvoker, ex.getTargetException());
}
}
catch (Exception ex) {
// -> "unhandled exception", to be logged at error level by Quartz
throw new JobMethodInvocationFailedException(this.methodInvoker, ex);
}
}

五、综上总结

• quartz，即石英的意思，隐喻如石英钟般对时间的准确把握。
• 源码分析是一个很快乐的过程，这个快乐是分析完才能获得的快乐。纵横交互的背后是面向对象的高度解耦，对线程精彩的使用，将任务执行做成计划单，简直是一个超级棒的作品。
• 对于quartz.properties，简单场景下，开发者不用自定义配置，使用quartz默认配置即可，但在要求较高的使用场景中还是要自定义配置，比如通过org.quartz.threadPool.threadCount设置足够的线程数可提高多job场景下的运行性能。
• quartz 对任务处理高度解耦，job与trigger解藕，将任务本身和任务执行策略解藕，这样可以方便实现N个任务和M个执行策略自由组合。
• scheduler单独分离出来，相当于一个指挥官，可以从全局做调度，比如监听哪些trigger已经ready、分配线程等等。
• 外部链接：
  • http://www.quartz-scheduler.org
  • quartz-2.1.x/configuration

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