SpringBoot整合Quartz 实现分布式定时任务调度
一、Quartz 集群架构
Quartz 是 Java 领域最著名的开源任务调度工具。
在上篇文章中,我们详细的介绍了 Quartz 的单体应用实践,如果只在单体环境中应用,Quartz 未必是最好的选择,例如Spring Scheduled一样也可以实现任务调度,并且与SpringBoot无缝集成,支持注解配置,非常简单,但是它有个缺点就是在集群环境下,会导致任务被重复调度!
而与之对应的 Quartz 提供了极为广用的特性,如任务持久化、集群部署和分布式调度任务等等,正因如此,基于 Quartz 任务调度功能在系统开发中应用极为广泛!
在集群环境下,Quartz 集群中的每个节点是一个独立的 Quartz 应用,没有负责集中管理的节点,而是通过数据库表来感知另一个应用,利用数据库锁的方式来实现集群环境下进行并发控制,每个任务当前运行的有效节点有且只有一个!
特别需要注意的是:分布式部署时需要保证各个节点的系统时间一致!
二、数据表初始化
数据库表结构官网已经提供,我们可以直接访问Quartz
对应的官方网站,找到对应的版本,然后将其下载!
我选择的是quartz-2.3.0-distribution.tar.gz
,下载完成之后将其解压,在文件中搜索sql
,在里面选择适合当前环境的数据库脚本文件,然后将其初始化到数据库中即可!
例如,我使用的数据库是mysql-5.7
,因此我选择的是tables_mysql_innodb.sql
脚本,具体内容如下:
DROP TABLE IF EXISTS QRTZ_FIRED_TRIGGERS; DROP TABLE IF EXISTS QRTZ_PAUSED_TRIGGER_GRPS; DROP TABLE IF EXISTS QRTZ_SCHEDULER_STATE; DROP TABLE IF EXISTS QRTZ_LOCKS; DROP TABLE IF EXISTS QRTZ_SIMPLE_TRIGGERS; DROP TABLE IF EXISTS QRTZ_SIMPROP_TRIGGERS; DROP TABLE IF EXISTS QRTZ_CRON_TRIGGERS; DROP TABLE IF EXISTS QRTZ_BLOB_TRIGGERS; DROP TABLE IF EXISTS QRTZ_TRIGGERS; DROP TABLE IF EXISTS QRTZ_JOB_DETAILS; DROP TABLE IF EXISTS QRTZ_CALENDARS; CREATE TABLE QRTZ_JOB_DETAILS( SCHED_NAME VARCHAR(120) NOT NULL, JOB_NAME VARCHAR(190) NOT NULL, JOB_GROUP VARCHAR(190) NOT NULL, DESCRIPTION VARCHAR(250) NULL, JOB_CLASS_NAME VARCHAR(250) NOT NULL, IS_DURABLE VARCHAR(1) NOT NULL, IS_NONCONCURRENT VARCHAR(1) NOT NULL, IS_UPDATE_DATA VARCHAR(1) NOT NULL, REQUESTS_RECOVERY VARCHAR(1) NOT NULL, JOB_DATA BLOB NULL, PRIMARY KEY (SCHED_NAME,JOB_NAME,JOB_GROUP)) ENGINE=InnoDB; CREATE TABLE QRTZ_TRIGGERS ( SCHED_NAME VARCHAR(120) NOT NULL, TRIGGER_NAME VARCHAR(190) NOT NULL, TRIGGER_GROUP VARCHAR(190) NOT NULL, JOB_NAME VARCHAR(190) NOT NULL, JOB_GROUP VARCHAR(190) NOT NULL, DESCRIPTION VARCHAR(250) NULL, NEXT_FIRE_TIME BIGINT(13) NULL, PREV_FIRE_TIME BIGINT(13) NULL, PRIORITY INTEGER NULL, TRIGGER_STATE VARCHAR(16) NOT NULL, TRIGGER_TYPE VARCHAR(8) NOT NULL, START_TIME BIGINT(13) NOT NULL, END_TIME BIGINT(13) NULL, CALENDAR_NAME VARCHAR(190) NULL, MISFIRE_INSTR SMALLINT(2) NULL, JOB_DATA BLOB NULL, PRIMARY KEY (SCHED_NAME,TRIGGER_NAME,TRIGGER_GROUP), FOREIGN KEY (SCHED_NAME,JOB_NAME,JOB_GROUP) REFERENCES QRTZ_JOB_DETAILS(SCHED_NAME,JOB_NAME,JOB_GROUP)) ENGINE=InnoDB; CREATE TABLE QRTZ_SIMPLE_TRIGGERS ( SCHED_NAME VARCHAR(120) NOT NULL, TRIGGER_NAME VARCHAR(190) NOT NULL, TRIGGER_GROUP VARCHAR(190) NOT NULL, REPEAT_COUNT BIGINT(7) NOT NULL, REPEAT_INTERVAL BIGINT(12) NOT NULL, TIMES_TRIGGERED BIGINT(10) NOT NULL, PRIMARY KEY (SCHED_NAME,TRIGGER_NAME,TRIGGER_GROUP), FOREIGN KEY (SCHED_NAME,TRIGGER_NAME,TRIGGER_GROUP) REFERENCES QRTZ_TRIGGERS(SCHED_NAME,TRIGGER_NAME,TRIGGER_GROUP)) ENGINE=InnoDB; CREATE TABLE QRTZ_CRON_TRIGGERS ( SCHED_NAME VARCHAR(120) NOT NULL, TRIGGER_NAME VARCHAR(190) NOT NULL, TRIGGER_GROUP VARCHAR(190) NOT NULL, CRON_EXPRESSION VARCHAR(120) NOT NULL, TIME_ZONE_ID VARCHAR(80), PRIMARY KEY (SCHED_NAME,TRIGGER_NAME,TRIGGER_GROUP), FOREIGN KEY (SCHED_NAME,TRIGGER_NAME,TRIGGER_GROUP) REFERENCES QRTZ_TRIGGERS(SCHED_NAME,TRIGGER_NAME,TRIGGER_GROUP)) ENGINE=InnoDB; CREATE TABLE QRTZ_SIMPROP_TRIGGERS ( SCHED_NAME VARCHAR(120) NOT NULL, TRIGGER_NAME VARCHAR(190) NOT NULL, TRIGGER_GROUP VARCHAR(190) NOT NULL, STR_PROP_1 VARCHAR(512) NULL, STR_PROP_2 VARCHAR(512) NULL, STR_PROP_3 VARCHAR(512) NULL, INT_PROP_1 INT NULL, INT_PROP_2 INT NULL, LONG_PROP_1 BIGINT NULL, LONG_PROP_2 BIGINT NULL, DEC_PROP_1 NUMERIC(13,4) NULL, DEC_PROP_2 NUMERIC(13,4) NULL, BOOL_PROP_1 VARCHAR(1) NULL, BOOL_PROP_2 VARCHAR(1) NULL, PRIMARY KEY (SCHED_NAME,TRIGGER_NAME,TRIGGER_GROUP), FOREIGN KEY (SCHED_NAME,TRIGGER_NAME,TRIGGER_GROUP) REFERENCES QRTZ_TRIGGERS(SCHED_NAME,TRIGGER_NAME,TRIGGER_GROUP)) ENGINE=InnoDB; CREATE TABLE QRTZ_BLOB_TRIGGERS ( SCHED_NAME VARCHAR(120) NOT NULL, TRIGGER_NAME VARCHAR(190) NOT NULL, TRIGGER_GROUP VARCHAR(190) NOT NULL, BLOB_DATA BLOB NULL, PRIMARY KEY (SCHED_NAME,TRIGGER_NAME,TRIGGER_GROUP), INDEX (SCHED_NAME,TRIGGER_NAME, TRIGGER_GROUP), FOREIGN KEY (SCHED_NAME,TRIGGER_NAME,TRIGGER_GROUP) REFERENCES QRTZ_TRIGGERS(SCHED_NAME,TRIGGER_NAME,TRIGGER_GROUP)) ENGINE=InnoDB; CREATE TABLE QRTZ_CALENDARS ( SCHED_NAME VARCHAR(120) NOT NULL, CALENDAR_NAME VARCHAR(190) NOT NULL, CALENDAR BLOB NOT NULL, PRIMARY KEY (SCHED_NAME,CALENDAR_NAME)) ENGINE=InnoDB; CREATE TABLE QRTZ_PAUSED_TRIGGER_GRPS ( SCHED_NAME VARCHAR(120) NOT NULL, TRIGGER_GROUP VARCHAR(190) NOT NULL, PRIMARY KEY (SCHED_NAME,TRIGGER_GROUP)) ENGINE=InnoDB; CREATE TABLE QRTZ_FIRED_TRIGGERS ( SCHED_NAME VARCHAR(120) NOT NULL, ENTRY_ID VARCHAR(95) NOT NULL, TRIGGER_NAME VARCHAR(190) NOT NULL, TRIGGER_GROUP VARCHAR(190) NOT NULL, INSTANCE_NAME VARCHAR(190) NOT NULL, FIRED_TIME BIGINT(13) NOT NULL, SCHED_TIME BIGINT(13) NOT NULL, PRIORITY INTEGER NOT NULL, STATE VARCHAR(16) NOT NULL, JOB_NAME VARCHAR(190) NULL, JOB_GROUP VARCHAR(190) NULL, IS_NONCONCURRENT VARCHAR(1) NULL, REQUESTS_RECOVERY VARCHAR(1) NULL, PRIMARY KEY (SCHED_NAME,ENTRY_ID)) ENGINE=InnoDB; CREATE TABLE QRTZ_SCHEDULER_STATE ( SCHED_NAME VARCHAR(120) NOT NULL, INSTANCE_NAME VARCHAR(190) NOT NULL, LAST_CHECKIN_TIME BIGINT(13) NOT NULL, CHECKIN_INTERVAL BIGINT(13) NOT NULL, PRIMARY KEY (SCHED_NAME,INSTANCE_NAME)) ENGINE=InnoDB; CREATE TABLE QRTZ_LOCKS ( SCHED_NAME VARCHAR(120) NOT NULL, LOCK_NAME VARCHAR(40) NOT NULL, PRIMARY KEY (SCHED_NAME,LOCK_NAME)) ENGINE=InnoDB; CREATE INDEX IDX_QRTZ_J_REQ_RECOVERY ON QRTZ_JOB_DETAILS(SCHED_NAME,REQUESTS_RECOVERY); CREATE INDEX IDX_QRTZ_J_GRP ON QRTZ_JOB_DETAILS(SCHED_NAME,JOB_GROUP); CREATE INDEX IDX_QRTZ_T_J ON QRTZ_TRIGGERS(SCHED_NAME,JOB_NAME,JOB_GROUP); CREATE INDEX IDX_QRTZ_T_JG ON QRTZ_TRIGGERS(SCHED_NAME,JOB_GROUP); CREATE INDEX IDX_QRTZ_T_C ON QRTZ_TRIGGERS(SCHED_NAME,CALENDAR_NAME); CREATE INDEX IDX_QRTZ_T_G ON QRTZ_TRIGGERS(SCHED_NAME,TRIGGER_GROUP); CREATE INDEX IDX_QRTZ_T_STATE ON QRTZ_TRIGGERS(SCHED_NAME,TRIGGER_STATE); CREATE INDEX IDX_QRTZ_T_N_STATE ON QRTZ_TRIGGERS(SCHED_NAME,TRIGGER_NAME,TRIGGER_GROUP,TRIGGER_STATE); CREATE INDEX IDX_QRTZ_T_N_G_STATE ON QRTZ_TRIGGERS(SCHED_NAME,TRIGGER_GROUP,TRIGGER_STATE); CREATE INDEX IDX_QRTZ_T_NEXT_FIRE_TIME ON QRTZ_TRIGGERS(SCHED_NAME,NEXT_FIRE_TIME); CREATE INDEX IDX_QRTZ_T_NFT_ST ON QRTZ_TRIGGERS(SCHED_NAME,TRIGGER_STATE,NEXT_FIRE_TIME); CREATE INDEX IDX_QRTZ_T_NFT_MISFIRE ON QRTZ_TRIGGERS(SCHED_NAME,MISFIRE_INSTR,NEXT_FIRE_TIME); CREATE INDEX IDX_QRTZ_T_NFT_ST_MISFIRE ON QRTZ_TRIGGERS(SCHED_NAME,MISFIRE_INSTR,NEXT_FIRE_TIME,TRIGGER_STATE); CREATE INDEX IDX_QRTZ_T_NFT_ST_MISFIRE_GRP ON QRTZ_TRIGGERS(SCHED_NAME,MISFIRE_INSTR,NEXT_FIRE_TIME,TRIGGER_GROUP,TRIGGER_STATE); CREATE INDEX IDX_QRTZ_FT_TRIG_INST_NAME ON QRTZ_FIRED_TRIGGERS(SCHED_NAME,INSTANCE_NAME); CREATE INDEX IDX_QRTZ_FT_INST_JOB_REQ_RCVRY ON QRTZ_FIRED_TRIGGERS(SCHED_NAME,INSTANCE_NAME,REQUESTS_RECOVERY); CREATE INDEX IDX_QRTZ_FT_J_G ON QRTZ_FIRED_TRIGGERS(SCHED_NAME,JOB_NAME,JOB_GROUP); CREATE INDEX IDX_QRTZ_FT_JG ON QRTZ_FIRED_TRIGGERS(SCHED_NAME,JOB_GROUP); CREATE INDEX IDX_QRTZ_FT_T_G ON QRTZ_FIRED_TRIGGERS(SCHED_NAME,TRIGGER_NAME,TRIGGER_GROUP); CREATE INDEX IDX_QRTZ_FT_TG ON QRTZ_FIRED_TRIGGERS(SCHED_NAME,TRIGGER_GROUP); commit;
具体表描述如下:
其中,QRTZ_LOCKS 就是 Quartz 集群实现同步机制的行锁表!
三、Quartz 集群实践
任务工厂
@Component public class QuartzJobFactory extends AdaptableJobFactory { @Autowired private AutowireCapableBeanFactory capableBeanFactory; @Override protected Object createJobInstance(TriggerFiredBundle bundle) throws Exception { //调用父类的方法 Object jobInstance = super.createJobInstance(bundle); //进行注入 capableBeanFactory.autowireBean(jobInstance); return jobInstance; } }
3.5、注册调度工厂
@Configuration public class QuartzConfig { @Autowired private QuartzJobFactory jobFactory; @Bean public SchedulerFactoryBean schedulerFactoryBean() throws IOException { //获取配置属性 PropertiesFactoryBean propertiesFactoryBean = new PropertiesFactoryBean(); propertiesFactoryBean.setLocation(new ClassPathResource("/quartz.properties")); //在quartz.properties中的属性被读取并注入后再初始化对象 propertiesFactoryBean.afterPropertiesSet(); //创建SchedulerFactoryBean SchedulerFactoryBean factory = new SchedulerFactoryBean(); factory.setQuartzProperties(propertiesFactoryBean.getObject()); factory.setJobFactory(jobFactory);//支持在JOB实例中注入其他的业务对象 factory.setApplicationContextSchedulerContextKey("applicationContextKey"); factory.setWaitForJobsToCompleteOnShutdown(true);//这样当spring关闭时,会等待所有已经启动的quartz job结束后spring才能完全shutdown。 factory.setOverwriteExistingJobs(false);//是否覆盖己存在的Job factory.setStartupDelay(10);//QuartzScheduler 延时启动,应用启动完后 QuartzScheduler 再启动 return factory; } /** * 通过SchedulerFactoryBean获取Scheduler的实例 * @return * @throws IOException * @throws SchedulerException */ @Bean(name = "scheduler") public Scheduler scheduler() throws IOException, SchedulerException { Scheduler scheduler = schedulerFactoryBean().getScheduler(); return scheduler; } }
3.6、重新设置 Quartz 数据连接池
默认 Quartz 的数据连接池是 c3p0,由于性能不太稳定,不推荐使用,因此我们将其改成driud
数据连接池,配置如下:
public class DruidConnectionProvider implements ConnectionProvider { /** * 常量配置,与quartz.properties文件的key保持一致(去掉前缀),同时提供set方法,Quartz框架自动注入值。 * @return * @throws SQLException */ //JDBC驱动 public String driver; //JDBC连接串 public String URL; //数据库用户名 public String user; //数据库用户密码 public String password; //数据库最大连接数 public int maxConnection; //数据库SQL查询每次连接返回执行到连接池,以确保它仍然是有效的。 public String validationQuery; private boolean validateOnCheckout; private int idleConnectionValidationSeconds; public String maxCachedStatementsPerConnection; private String discardIdleConnectionsSeconds; public static final int DEFAULT_DB_MAX_CONNECTIONS = 10; public static final int DEFAULT_DB_MAX_CACHED_STATEMENTS_PER_CONNECTION = 120; //Druid连接池 private DruidDataSource datasource; @Override public Connection getConnection() throws SQLException { return datasource.getConnection(); } @Override public void shutdown() throws SQLException { datasource.close(); } @Override public void initialize() throws SQLException { if (this.URL == null) { throw new SQLException("DBPool could not be created: DB URL cannot be null"); } if (this.driver == null) { throw new SQLException("DBPool driver could not be created: DB driver class name cannot be null!"); } if (this.maxConnection < 0) { throw new SQLException("DBPool maxConnectins could not be created: Max connections must be greater than zero!"); } datasource = new DruidDataSource(); try{ datasource.setDriverClassName(this.driver); } catch (Exception e) { try { throw new SchedulerException("Problem setting driver class name on datasource: " + e.getMessage(), e); } catch (SchedulerException e1) { } } datasource.setUrl(this.URL); datasource.setUsername(this.user); datasource.setPassword(this.password); datasource.setMaxActive(this.maxConnection); datasource.setMinIdle(1); datasource.setMaxWait(0); datasource.setMaxPoolPreparedStatementPerConnectionSize(DEFAULT_DB_MAX_CONNECTIONS); if (this.validationQuery != null) { datasource.setValidationQuery(this.validationQuery); if(!this.validateOnCheckout) datasource.setTestOnReturn(true); else datasource.setTestOnBorrow(true); datasource.setValidationQueryTimeout(this.idleConnectionValidationSeconds); } } public String getDriver() { return driver; } public void setDriver(String driver) { this.driver = driver; } public String getURL() { return URL; } public void setURL(String URL) { this.URL = URL; } public String getUser() { return user; } public void setUser(String user) { this.user = user; } public String getPassword() { return password; } public void setPassword(String password) { this.password = password; } public int getMaxConnection() { return maxConnection; } public void setMaxConnection(int maxConnection) { this.maxConnection = maxConnection; } public String getValidationQuery() { return validationQuery; } public void setValidationQuery(String validationQuery) { this.validationQuery = validationQuery; } public boolean isValidateOnCheckout() { return validateOnCheckout; } public void setValidateOnCheckout(boolean validateOnCheckout) { this.validateOnCheckout = validateOnCheckout; } public int getIdleConnectionValidationSeconds() { return idleConnectionValidationSeconds; } public void setIdleConnectionValidationSeconds(int idleConnectionValidationSeconds) { this.idleConnectionValidationSeconds = idleConnectionValidationSeconds; } public DruidDataSource getDatasource() { return datasource; } public void setDatasource(DruidDataSource datasource) { this.datasource = datasource; } public String getDiscardIdleConnectionsSeconds() { return discardIdleConnectionsSeconds; } public void setDiscardIdleConnectionsSeconds(String discardIdleConnectionsSeconds) { this.discardIdleConnectionsSeconds = discardIdleConnectionsSeconds; } }
创建完成之后,还需要在quartz.properties
配置文件中设置一下即可!
#数据库连接池,将其设置为druid org.quartz.dataSource.qzDS.connectionProvider.class=com.example.cluster.quartz.config.DruidConnectionProvider
如果已经配置,请忽略!
3.7、编写 Job 具体任务类
public class TfCommandJob implements Job { private static final Logger log = LoggerFactory.getLogger(TfCommandJob.class); @Override public void execute(JobExecutionContext context) { try { System.out.println(context.getScheduler().getSchedulerInstanceId() + "--" + new SimpleDateFormat("YYYY-MM-dd HH:mm:ss").format(new Date())); } catch (SchedulerException e) { log.error("任务执行失败",e); } } }
3.8、编写 Quartz 服务层接口
public interface QuartzJobService { /** * 添加任务可以传参数 * @param clazzName * @param jobName * @param groupName * @param cronExp * @param param */ void addJob(String clazzName, String jobName, String groupName, String cronExp, Mapparam); /** * 暂停任务 * @param jobName * @param groupName */ void pauseJob(String jobName, String groupName); /** * 恢复任务 * @param jobName * @param groupName */ void resumeJob(String jobName, String groupName); /** * 立即运行一次定时任务 * @param jobName * @param groupName */ void runOnce(String jobName, String groupName); /** * 更新任务 * @param jobName * @param groupName * @param cronExp * @param param */ void updateJob(String jobName, String groupName, String cronExp, Map param); /** * 删除任务 * @param jobName * @param groupName */ void deleteJob(String jobName, String groupName); /** * 启动所有任务 */ void startAllJobs(); /** * 暂停所有任务 */ void pauseAllJobs(); /** * 恢复所有任务 */ void resumeAllJobs(); /** * 关闭所有任务 */ void shutdownAllJobs(); }
对应的实现类QuartzJobServiceImpl
如下:
@Service public class QuartzJobServiceImpl implements QuartzJobService { private static final Logger log = LoggerFactory.getLogger(QuartzJobServiceImpl.class); @Autowired private Scheduler scheduler; @Override public void addJob(String clazzName, String jobName, String groupName, String cronExp, Mapparam) { try { // 启动调度器,默认初始化的时候已经启动 // scheduler.start(); //构建job信息 Class<? extends Job> jobClass = (Class<? extends Job>) Class.forName(clazzName); JobDetail jobDetail = JobBuilder.newJob(jobClass).withIdentity(jobName, groupName).build(); //表达式调度构建器(即任务执行的时间) CronScheduleBuilder scheduleBuilder = CronScheduleBuilder.cronSchedule(cronExp); //按新的cronExpression表达式构建一个新的trigger CronTrigger trigger = TriggerBuilder.newTrigger().withIdentity(jobName, groupName).withSchedule(scheduleBuilder).build(); //获得JobDataMap,写入数据 if (param != null) { trigger.getJobDataMap().putAll(param); } scheduler.scheduleJob(jobDetail, trigger); } catch (Exception e) { log.error("创建任务失败", e); } } @Override public void pauseJob(String jobName, String groupName) { try { scheduler.pauseJob(JobKey.jobKey(jobName, groupName)); } catch (SchedulerException e) { log.error("暂停任务失败", e); } } @Override public void resumeJob(String jobName, String groupName) { try { scheduler.resumeJob(JobKey.jobKey(jobName, groupName)); } catch (SchedulerException e) { log.error("恢复任务失败", e); } } @Override public void runOnce(String jobName, String groupName) { try { scheduler.triggerJob(JobKey.jobKey(jobName, groupName)); } catch (SchedulerException e) { log.error("立即运行一次定时任务失败", e); } } @Override public void updateJob(String jobName, String groupName, String cronExp, Map param) { try { TriggerKey triggerKey = TriggerKey.triggerKey(jobName, groupName); CronTrigger trigger = (CronTrigger) scheduler.getTrigger(triggerKey); if (cronExp != null) { // 表达式调度构建器 CronScheduleBuilder scheduleBuilder = CronScheduleBuilder.cronSchedule(cronExp); // 按新的cronExpression表达式重新构建trigger trigger = trigger.getTriggerBuilder().withIdentity(triggerKey).withSchedule(scheduleBuilder).build(); } //修改map if (param != null) { trigger.getJobDataMap().putAll(param); } // 按新的trigger重新设置job执行 scheduler.rescheduleJob(triggerKey, trigger); } catch (Exception e) { log.error("更新任务失败", e); } } @Override public void deleteJob(String jobName, String groupName) { try { //暂停、移除、删除 scheduler.pauseTrigger(TriggerKey.triggerKey(jobName, groupName)); scheduler.unscheduleJob(TriggerKey.triggerKey(jobName, groupName)); scheduler.deleteJob(JobKey.jobKey(jobName, groupName)); } catch (Exception e) { log.error("删除任务失败", e); } } @Override public void startAllJobs() { try { scheduler.start(); } catch (Exception e) { log.error("开启所有的任务失败", e); } } @Override public void pauseAllJobs() { try { scheduler.pauseAll(); } catch (Exception e) { log.error("暂停所有任务失败", e); } } @Override public void resumeAllJobs() { try { scheduler.resumeAll(); } catch (Exception e) { log.error("恢复所有任务失败", e); } } @Override public void shutdownAllJobs() { try { if (!scheduler.isShutdown()) { // 需谨慎操作关闭scheduler容器 // scheduler生命周期结束,无法再 start() 启动scheduler scheduler.shutdown(true); } } catch (Exception e) { log.error("关闭所有的任务失败", e); } } }
3.9、编写 contoller 服务
先创建一个请求参数实体类
public class QuartzConfigDTO implements Serializable { private static final long serialVersionUID = 1L; /** * 任务名称 */ private String jobName; /** * 任务所属组 */ private String groupName; /** * 任务执行类 */ private String jobClass; /** * 任务调度时间表达式 */ private String cronExpression; /** * 附加参数 */ private Mapparam; public String getJobName() { return jobName; } public QuartzConfigDTO setJobName(String jobName) { this.jobName = jobName; return this; } public String getGroupName() { return groupName; } public QuartzConfigDTO setGroupName(String groupName) { this.groupName = groupName; return this; } public String getJobClass() { return jobClass; } public QuartzConfigDTO setJobClass(String jobClass) { this.jobClass = jobClass; return this; } public String getCronExpression() { return cronExpression; } public QuartzConfigDTO setCronExpression(String cronExpression) { this.cronExpression = cronExpression; return this; } public Map getParam() { return param; } public QuartzConfigDTO setParam(Map param) { this.param = param; return this; } }
编写 web 服务接口
@RestController @RequestMapping("/test") public class TestController { private static final Logger log = LoggerFactory.getLogger(TestController.class); @Autowired private QuartzJobService quartzJobService; /** * 添加新任务 * @param configDTO * @return */ @RequestMapping("/addJob") public Object addJob(@RequestBody QuartzConfigDTO configDTO) { quartzJobService.addJob(configDTO.getJobClass(), configDTO.getJobName(), configDTO.getGroupName(), configDTO.getCronExpression(), configDTO.getParam()); return HttpStatus.OK; } /** * 暂停任务 * @param configDTO * @return */ @RequestMapping("/pauseJob") public Object pauseJob(@RequestBody QuartzConfigDTO configDTO) { quartzJobService.pauseJob(configDTO.getJobName(), configDTO.getGroupName()); return HttpStatus.OK; } /** * 恢复任务 * @param configDTO * @return */ @RequestMapping("/resumeJob") public Object resumeJob(@RequestBody QuartzConfigDTO configDTO) { quartzJobService.resumeJob(configDTO.getJobName(), configDTO.getGroupName()); return HttpStatus.OK; } /** * 立即运行一次定时任务 * @param configDTO * @return */ @RequestMapping("/runOnce") public Object runOnce(@RequestBody QuartzConfigDTO configDTO) { quartzJobService.runOnce(configDTO.getJobName(), configDTO.getGroupName()); return HttpStatus.OK; } /** * 更新任务 * @param configDTO * @return */ @RequestMapping("/updateJob") public Object updateJob(@RequestBody QuartzConfigDTO configDTO) { quartzJobService.updateJob(configDTO.getJobName(), configDTO.getGroupName(), configDTO.getCronExpression(), configDTO.getParam()); return HttpStatus.OK; } /** * 删除任务 * @param configDTO * @return */ @RequestMapping("/deleteJob") public Object deleteJob(@RequestBody QuartzConfigDTO configDTO) { quartzJobService.deleteJob(configDTO.getJobName(), configDTO.getGroupName()); return HttpStatus.OK; } /** * 启动所有任务 * @return */ @RequestMapping("/startAllJobs") public Object startAllJobs() { quartzJobService.startAllJobs(); return HttpStatus.OK; } /** * 暂停所有任务 * @return */ @RequestMapping("/pauseAllJobs") public Object pauseAllJobs() { quartzJobService.pauseAllJobs(); return HttpStatus.OK; } /** * 恢复所有任务 * @return */ @RequestMapping("/resumeAllJobs") public Object resumeAllJobs() { quartzJobService.resumeAllJobs(); return HttpStatus.OK; } /** * 关闭所有任务 * @return */ @RequestMapping("/shutdownAllJobs") public Object shutdownAllJobs() { quartzJobService.shutdownAllJobs(); return HttpStatus.OK; } }
3.10、服务接口测试
运行 SpringBoot 的Application
类,启动服务!
创建一个每5秒钟执行一次的定时任务
可以看到服务正常运行!
3.11、注册监听器(选用)
当然,如果你想在 SpringBoot 里面集成 Quartz 的监听器,操作也很简单!
创建任务调度监听器
@Component public class SimpleSchedulerListener extends SchedulerListenerSupport { @Override public void jobScheduled(Trigger trigger) { System.out.println("任务被部署时被执行"); } @Override public void jobUnscheduled(TriggerKey triggerKey) { System.out.println("任务被卸载时被执行"); } @Override public void triggerFinalized(Trigger trigger) { System.out.println("任务完成了它的使命,光荣退休时被执行"); } @Override public void triggerPaused(TriggerKey triggerKey) { System.out.println(triggerKey + "(一个触发器)被暂停时被执行"); } @Override public void triggersPaused(String triggerGroup) { System.out.println(triggerGroup + "所在组的全部触发器被停止时被执行"); } @Override public void triggerResumed(TriggerKey triggerKey) { System.out.println(triggerKey + "(一个触发器)被恢复时被执行"); } @Override public void triggersResumed(String triggerGroup) { System.out.println(triggerGroup + "所在组的全部触发器被回复时被执行"); } @Override public void jobAdded(JobDetail jobDetail) { System.out.println("一个JobDetail被动态添加进来"); } @Override public void jobDeleted(JobKey jobKey) { System.out.println(jobKey + "被删除时被执行"); } @Override public void jobPaused(JobKey jobKey) { System.out.println(jobKey + "被暂停时被执行"); } @Override public void jobsPaused(String jobGroup) { System.out.println(jobGroup + "(一组任务)被暂停时被执行"); } @Override public void jobResumed(JobKey jobKey) { System.out.println(jobKey + "被恢复时被执行"); } @Override public void jobsResumed(String jobGroup) { System.out.println(jobGroup + "(一组任务)被恢复时被执行"); } @Override public void schedulerError(String msg, SchedulerException cause) { System.out.println("出现异常" + msg + "时被执行"); cause.printStackTrace(); } @Override public void schedulerInStandbyMode() { System.out.println("scheduler被设为standBy等候模式时被执行"); } @Override public void schedulerStarted() { System.out.println("scheduler启动时被执行"); } @Override public void schedulerStarting() { System.out.println("scheduler正在启动时被执行"); } @Override public void schedulerShutdown() { System.out.println("scheduler关闭时被执行"); } @Override public void schedulerShuttingdown() { System.out.println("scheduler正在关闭时被执行"); } @Override public void schedulingDataCleared() { System.out.println("scheduler中所有数据包括jobs, triggers和calendars都被清空时被执行"); } }
创建任务触发监听器
@Component public class SimpleTriggerListener extends TriggerListenerSupport { /** * Trigger监听器的名称 * @return */ @Override public String getName() { return "mySimpleTriggerListener"; } /** * Trigger被激发 它关联的job即将被运行 * @param trigger * @param context */ @Override public void triggerFired(Trigger trigger, JobExecutionContext context) { System.out.println("myTriggerListener.triggerFired()"); } /** * Trigger被激发 它关联的job即将被运行, TriggerListener 给了一个选择去否决 Job 的执行,如果返回TRUE 那么任务job会被终止 * @param trigger * @param context * @return */ @Override public boolean vetoJobExecution(Trigger trigger, JobExecutionContext context) { System.out.println("myTriggerListener.vetoJobExecution()"); return false; } /** * 当Trigger错过被激发时执行,比如当前时间有很多触发器都需要执行,但是线程池中的有效线程都在工作, * 那么有的触发器就有可能超时,错过这一轮的触发。 * @param trigger */ @Override public void triggerMisfired(Trigger trigger) { System.out.println("myTriggerListener.triggerMisfired()"); } /** * 任务完成时触发 * @param trigger * @param context * @param triggerInstructionCode */ @Override public void triggerComplete(Trigger trigger, JobExecutionContext context, Trigger.CompletedExecutionInstruction triggerInstructionCode) { System.out.println("myTriggerListener.triggerComplete()"); } }
创建任务执行监听器
@Component public class SimpleJobListener extends JobListenerSupport { /** * job监听器名称 * @return */ @Override public String getName() { return "mySimpleJobListener"; } /** * 任务被调度前 * @param context */ @Override public void jobToBeExecuted(JobExecutionContext context) { System.out.println("simpleJobListener监听器,准备执行:"+context.getJobDetail().getKey()); } /** * 任务调度被拒了 * @param context */ @Override public void jobExecutionVetoed(JobExecutionContext context) { System.out.println("simpleJobListener监听器,取消执行:"+context.getJobDetail().getKey()); } /** * 任务被调度后 * @param context * @param jobException */ @Override public void jobWasExecuted(JobExecutionContext context, JobExecutionException jobException) { System.out.println("simpleJobListener监听器,执行结束:"+context.getJobDetail().getKey()); } }
最后,将监听器注册到Scheduler
@Autowired private SimpleSchedulerListener simpleSchedulerListener; @Autowired private SimpleJobListener simpleJobListener; @Autowired private SimpleTriggerListener simpleTriggerListener; @Bean(name = "scheduler") public Scheduler scheduler() throws IOException, SchedulerException { Scheduler scheduler = schedulerFactoryBean().getScheduler(); //全局添加监听器 //添加SchedulerListener监听器 scheduler.getListenerManager().addSchedulerListener(simpleSchedulerListener); // 添加JobListener, 支持带条件匹配监听器 scheduler.getListenerManager().addJobListener(simpleJobListener, KeyMatcher.keyEquals(JobKey.jobKey("myJob", "myGroup"))); // 添加triggerListener,设置全局监听 scheduler.getListenerManager().addTriggerListener(simpleTriggerListener, EverythingMatcher.allTriggers()); return scheduler; }
3.12、采用项目数据源(选用)
在上面的 Quartz 数据源配置中,我们使用了自定义的数据源,目的是和项目中的数据源实现解耦,当然有的同学不想单独建库,想和项目中数据源保持一致,配置也很简单!
在quartz.properties
配置文件中,去掉org.quartz.jobStore.dataSource
配置:
#注释掉quartz的数据源配置
#org.quartz.jobStore.dataSource=qzDS
在QuartzConfig
配置类中加入dataSource
数据源,并将其注入到quartz
中:
@Autowired private DataSource dataSource; @Bean public SchedulerFactoryBean schedulerFactoryBean() throws IOException { //... SchedulerFactoryBean factory = new SchedulerFactoryBean(); factory.setQuartzProperties(propertiesFactoryBean.getObject()); //使用数据源,自定义数据源 factory.setDataSource(dataSource); //... return factory; }
四、任务调度测试
在实际的部署中,项目都是集群进行部署,因此为了和正式环境一致,我们再新建两个相同的项目来测试一下在集群环境下 quartz 是否可以实现分布式调度,保证任何一个定时任务只有一台机器在运行?
理论上,我们只需要将刚刚新建好的项目,重新复制一份,然后修改一下端口号就可以实现本地测试!
因为curd服务只需要一个,因此我们不需要再编写QuartzJobService等增、删、改服务,仅仅保持QuartzConfig、DruidConnectionProvider、QuartzJobFactory、TfCommandJob、quartz.properties类和配置都是相同的就可以了!
依次启动服务quartz-001
、quartz-002
、quartz-003
,看看效果如何:
第一个启动的服务quartz-001
会优先加载数据库中已经配置好的定时任务,其他两个服务quartz-002
、quartz-003
都没有主动调度服务
当我们主动关闭quartz-001
,quartz-002
服务主动接收任务调度
当我们主动关闭quartz-002
,同样quartz-003
服务主动接收任务调度
最终结果,和我们预期效果一致!
五、小结
本文主要围绕springboot + quartz + mysql
实现持久化分布式调度进行介绍,所有的代码功能,都测试过。