110

I am writing an application that has a cron job that executes every 60 seconds. The application is configured to scale when required onto multiple instances. I only want to execute the task on 1 instance every 60 seconds (On any node). Out of the box I can not find a solution to this and I am surprised it has not been asked multiple times before. I am using Spring 4.1.6.

    <task:scheduled-tasks>
        <task:scheduled ref="beanName" method="execute" cron="0/60 * * * * *"/>
    </task:scheduled-tasks>
2
108

There is a ShedLock project that serves exactly this purpose. You just annotate tasks which should be locked when executed

@Scheduled( ... )
@SchedulerLock(name = "scheduledTaskName")
public void scheduledTask() {
   // do something
}

Configure Spring and a LockProvider

@Configuration
@EnableScheduling
@EnableSchedulerLock(defaultLockAtMostFor = "10m")
class MySpringConfiguration {
    ...
    @Bean
    public LockProvider lockProvider(DataSource dataSource) {
       return new JdbcTemplateLockProvider(dataSource);
    }
    ...
}
5
  • 1
    I just want to say "Good work!". But... The nice feature will be if the library could discover database name without providing it explicit in code... Except that it works excellent! – Krzysiek Jan 9 '17 at 9:34
  • Works for me with Oracle and Spring boot data jpa starter. – Mahendran Ayyarsamy Kandiar Mar 13 '17 at 20:53
  • Does this solution works for Spring 3.1.1.RELEASE and java 6 ? Please tell. – Vikas Sharma Oct 6 '17 at 8:42
  • I tried with MsSQL and Spring boot JPA and I used liquibase script fro the SQL part.. works well .. Thanks – sheetal Feb 17 '18 at 16:50
  • It's indeed working well. However I met a little bit complex case here could you please take a look. Thanks!!! stackoverflow.com/questions/57691205/… – Dayton Wang Aug 29 '19 at 6:12
23

I think you have to use Quartz Clustering with JDBC-JobStore for this purpose

15

The is another simple and robust way to safe execute a job in a cluster. You can based on database and execute the task only if the node is the "leader" in the cluster.

Also when a node is failed or shutdown in the cluster another node became the leader.

All you have is to create a "leader election" mechanism and every time to check if your are the leader:

@Scheduled(cron = "*/30 * * * * *")
public void executeFailedEmailTasks() {
    if (checkIfLeader()) {
        final List<EmailTask> list = emailTaskService.getFailedEmailTasks();
        for (EmailTask emailTask : list) {
            dispatchService.sendEmail(emailTask);
        }
    }
}

Follow those steps:

1.Define the object and table that holds one entry per node in the cluster:

@Entity(name = "SYS_NODE")
public class SystemNode {

/** The id. */
@Id
@GeneratedValue(strategy = GenerationType.IDENTITY)
private Long id;

/** The name. */
@Column(name = "TIMESTAMP")
private String timestamp;

/** The ip. */
@Column(name = "IP")
private String ip;

/** The last ping. */
@Column(name = "LAST_PING")
private Date lastPing;

/** The last ping. */
@Column(name = "CREATED_AT")
private Date createdAt = new Date();

/** The last ping. */
@Column(name = "IS_LEADER")
private Boolean isLeader = Boolean.FALSE;

public Long getId() {
    return id;
}

public void setId(final Long id) {
    this.id = id;
}

public String getTimestamp() {
    return timestamp;
}

public void setTimestamp(final String timestamp) {
    this.timestamp = timestamp;
}

public String getIp() {
    return ip;
}

public void setIp(final String ip) {
    this.ip = ip;
}

public Date getLastPing() {
    return lastPing;
}

public void setLastPing(final Date lastPing) {
    this.lastPing = lastPing;
}

public Date getCreatedAt() {
    return createdAt;
}

public void setCreatedAt(final Date createdAt) {
    this.createdAt = createdAt;
}

public Boolean getIsLeader() {
    return isLeader;
}

public void setIsLeader(final Boolean isLeader) {
    this.isLeader = isLeader;
}

@Override
public String toString() {
    return "SystemNode{" +
            "id=" + id +
            ", timestamp='" + timestamp + '\'' +
            ", ip='" + ip + '\'' +
            ", lastPing=" + lastPing +
            ", createdAt=" + createdAt +
            ", isLeader=" + isLeader +
            '}';
}

}

2.Create the service that a) insert the node in database , b) check for leader

@Service
@Transactional
public class SystemNodeServiceImpl implements SystemNodeService,    ApplicationListener {

/** The logger. */
private static final Logger LOGGER = Logger.getLogger(SystemNodeService.class);

/** The constant NO_ALIVE_NODES. */
private static final String NO_ALIVE_NODES = "Not alive nodes found in list {0}";

/** The ip. */
private String ip;

/** The system service. */
private SystemService systemService;

/** The system node repository. */
private SystemNodeRepository systemNodeRepository;

@Autowired
public void setSystemService(final SystemService systemService) {
    this.systemService = systemService;
}

@Autowired
public void setSystemNodeRepository(final SystemNodeRepository systemNodeRepository) {
    this.systemNodeRepository = systemNodeRepository;
}

@Override
public void pingNode() {
    final SystemNode node = systemNodeRepository.findByIp(ip);
    if (node == null) {
        createNode();
    } else {
        updateNode(node);
    }
}

@Override
public void checkLeaderShip() {
    final List<SystemNode> allList = systemNodeRepository.findAll();
    final List<SystemNode> aliveList = filterAliveNodes(allList);

    SystemNode leader = findLeader(allList);
    if (leader != null && aliveList.contains(leader)) {
        setLeaderFlag(allList, Boolean.FALSE);
        leader.setIsLeader(Boolean.TRUE);
        systemNodeRepository.save(allList);
    } else {
        final SystemNode node = findMinNode(aliveList);

        setLeaderFlag(allList, Boolean.FALSE);
        node.setIsLeader(Boolean.TRUE);
        systemNodeRepository.save(allList);
    }
}

/**
 * Returns the leaded
 * @param list
 *          the list
 * @return  the leader
 */
private SystemNode findLeader(final List<SystemNode> list) {
    for (SystemNode systemNode : list) {
        if (systemNode.getIsLeader()) {
            return systemNode;
        }
    }
    return null;
}

@Override
public boolean isLeader() {
    final SystemNode node = systemNodeRepository.findByIp(ip);
    return node != null && node.getIsLeader();
}

@Override
public void onApplicationEvent(final ApplicationEvent applicationEvent) {
    try {
        ip = InetAddress.getLocalHost().getHostAddress();
    } catch (Exception e) {
        throw new RuntimeException(e);
    }
    if (applicationEvent instanceof ContextRefreshedEvent) {
        pingNode();
    }
}

/**
 * Creates the node
 */
private void createNode() {
    final SystemNode node = new SystemNode();
    node.setIp(ip);
    node.setTimestamp(String.valueOf(System.currentTimeMillis()));
    node.setCreatedAt(new Date());
    node.setLastPing(new Date());
    node.setIsLeader(CollectionUtils.isEmpty(systemNodeRepository.findAll()));
    systemNodeRepository.save(node);
}

/**
 * Updates the node
 */
private void updateNode(final SystemNode node) {
    node.setLastPing(new Date());
    systemNodeRepository.save(node);
}

/**
 * Returns the alive nodes.
 *
 * @param list
 *         the list
 * @return the alive nodes
 */
private List<SystemNode> filterAliveNodes(final List<SystemNode> list) {
    int timeout = systemService.getSetting(SettingEnum.SYSTEM_CONFIGURATION_SYSTEM_NODE_ALIVE_TIMEOUT, Integer.class);
    final List<SystemNode> finalList = new LinkedList<>();
    for (SystemNode systemNode : list) {
        if (!DateUtils.hasExpired(systemNode.getLastPing(), timeout)) {
            finalList.add(systemNode);
        }
    }
    if (CollectionUtils.isEmpty(finalList)) {
        LOGGER.warn(MessageFormat.format(NO_ALIVE_NODES, list));
        throw new RuntimeException(MessageFormat.format(NO_ALIVE_NODES, list));
    }
    return finalList;
}

/**
 * Finds the min name node.
 *
 * @param list
 *         the list
 * @return the min node
 */
private SystemNode findMinNode(final List<SystemNode> list) {
    SystemNode min = list.get(0);
    for (SystemNode systemNode : list) {
        if (systemNode.getTimestamp().compareTo(min.getTimestamp()) < -1) {
            min = systemNode;
        }
    }
    return min;
}

/**
 * Sets the leader flag.
 *
 * @param list
 *         the list
 * @param value
 *         the value
 */
private void setLeaderFlag(final List<SystemNode> list, final Boolean value) {
    for (SystemNode systemNode : list) {
        systemNode.setIsLeader(value);
    }
}

}

3.ping the database to send that your are alive

@Override
@Scheduled(cron = "0 0/5 * * * ?")
public void executeSystemNodePing() {
    systemNodeService.pingNode();
}

@Override
@Scheduled(cron = "0 0/10 * * * ?")
public void executeLeaderResolution() {
    systemNodeService.checkLeaderShip();
}

4.you are ready! Just check if you are the leader before execute the task:

@Override
@Scheduled(cron = "*/30 * * * * *")
public void executeFailedEmailTasks() {
    if (checkIfLeader()) {
        final List<EmailTask> list = emailTaskService.getFailedEmailTasks();
        for (EmailTask emailTask : list) {
            dispatchService.sendEmail(emailTask);
        }
    }
}
3
  • In this case what is SystemService and SettingEnum? Looks like it's extremely simple and just returns a timeout value. In that case why not just hard code the timeout? – tlavarea Mar 4 '17 at 15:30
  • @mspapant, what is the SettingEnum.SYSTEM_CONFIGURATION_SYSTEM_NODE_ALIVE_TIMEOUT ? What is the optimal value i should be using here ? – user525146 Sep 21 '17 at 16:34
  • @tlavarea did you implement this code, i have a question about the DateUtils.hasExpired method? is it custom method or is it a apache common utils ? – user525146 Sep 22 '17 at 2:31
10

Batch and scheduled jobs are typically run on their own standalone servers, away from customer facing apps so it is not a common requirement to include a job in an application that is expected to run on a cluster. Additionally, jobs in clustered environments typically do not need to worry about other instances of the same job running in parallel so another reason why isolation of job instances is not a big requirement.

A simple solution would be to configure your jobs inside a Spring Profile. For example, if your current configuration is:

<beans>
  <bean id="someBean" .../>

  <task:scheduled-tasks>
    <task:scheduled ref="someBean" method="execute" cron="0/60 * * * * *"/>
  </task:scheduled-tasks>
</beans>

change it to:

<beans>
  <beans profile="scheduled">
    <bean id="someBean" .../>

    <task:scheduled-tasks>
      <task:scheduled ref="someBean" method="execute" cron="0/60 * * * * *"/>
    </task:scheduled-tasks>
  </beans>
</beans>

Then, launch your application on just one machine with the scheduled profile activated (-Dspring.profiles.active=scheduled).

If the primary server becomes unavailable for some reason, just launch another server with the profile enabled and things will continue to work just fine.


Things change if you want automatic failover for the jobs as well. Then, you will need to keep the job running on all servers and check synchronization through a common resource such as a database table, a clustered cache, a JMX variable, etc.

4
  • 60
    This is a valid workaround, but this will violate the idea behind having a clustered environment, where if a node is down, the other node can serve other requests. In this workaround, if the node with "scheduled" profile goes down, then this background job will not run – Ahmed Hashem Dec 21 '15 at 13:30
  • 3
    I think we could use Redis with atomic get and set operation to archieve that. – Thanh Nguyen Van Nov 19 '16 at 12:50
  • There are several issues with your suggestion: 1. You would generally want each node of a cluster to have the exact same config, so they'll be 100% interchangeable and require the same resources under the same load they share. 2. Your solution would require manual intervention when the "task" node goes down. 3. It would still not guarantee that the job was actually ran successfully, because the "task" node went down before it finished processing the current execution and the new "task runner" has been created after the first one went down, not knowing whether it had finished or not. – Moshe Bixenshpaner Jul 13 '19 at 14:19
  • 1
    it simply violates the idea of clustered environments, there can't be any solution with the approach you suggested. You can't replicate even the profile servers to ensure availability because that will result in additional cost and unnecessary waste of resources as well. The solution suggested by @Thanh is much cleaner than this. Think of the same as a MUTEX. Any server running the script will acquire a temporary lock in some distributed cache like redis and then proceed with the concepts of traditional locking. – anuj pradhan Sep 6 '19 at 8:23
2

I'm using a database table to do the locking. Only one task at a time can do a insert to the table. The other one will get a DuplicateKeyException. The insert and delete logic is handeld by an aspect around the @Scheduled annotation. I'm using Spring Boot 2.0

@Component
@Aspect
public class SchedulerLock {

    private static final Logger LOGGER = LoggerFactory.getLogger(SchedulerLock.class);

    @Autowired
    private JdbcTemplate jdbcTemplate;  

    @Around("execution(@org.springframework.scheduling.annotation.Scheduled * *(..))")
    public Object lockTask(ProceedingJoinPoint joinPoint) throws Throwable {

        String jobSignature = joinPoint.getSignature().toString();
        try {
            jdbcTemplate.update("INSERT INTO scheduler_lock (signature, date) VALUES (?, ?)", new Object[] {jobSignature, new Date()});

            Object proceed = joinPoint.proceed();

            jdbcTemplate.update("DELETE FROM scheduler_lock WHERE lock_signature = ?", new Object[] {jobSignature});
            return proceed;

        }catch (DuplicateKeyException e) {
            LOGGER.warn("Job is currently locked: "+jobSignature);
            return null;
        }
    }
}


@Component
public class EveryTenSecondJob {

    @Scheduled(cron = "0/10 * * * * *")
    public void taskExecution() {
        System.out.println("Hello World");
    }
}


CREATE TABLE scheduler_lock(
    signature varchar(255) NOT NULL,
    date datetime DEFAULT NULL,
    PRIMARY KEY(signature)
);
1
  • 3
    Do you think it will work perfectly? Because if one of node will get down after taking lock then others willn't get to know why there is lock (in your case row entry corresponding to job in table). – Badman Dec 18 '18 at 5:58
2

dlock is designed to run tasks only once by using database indexes and constraints. You can simply do something like below.

@Scheduled(cron = "30 30 3 * * *")
@TryLock(name = "executeMyTask", owner = SERVER_NAME, lockFor = THREE_MINUTES)
public void execute() {

}

See the article about using it.

1
  • 4
    If using dlock .Assume we are using DB for maintaining lock. And one of the node in cluster got down unexpectedly after taking lock then what will happen in this scenario ? Will it be in deadlock state ? – Badman Dec 18 '18 at 5:54
0

You could use an embeddable scheduler like db-scheduler to accomplish this. It has persistent executions and uses a simple optimistic locking mechanism to guarantee execution by a single node.

Example code for how the use-case can be achieved:

   RecurringTask<Void> recurring1 = Tasks.recurring("my-task-name", FixedDelay.of(Duration.ofSeconds(60)))
    .execute((taskInstance, executionContext) -> {
        System.out.println("Executing " + taskInstance.getTaskAndInstance());
    });

   final Scheduler scheduler = Scheduler
          .create(dataSource)
          .startTasks(recurring1)
          .build();

   scheduler.start();
-2

Spring context is not clustered so manage the task in distributed application is a little bit difficult and you need to use systems supporting jgroup to synchronis the state and let your task take the priority to execute the action. Or you could use ejb context to manage clustered ha singleton service like jboss ha environment https://developers.redhat.com/quickstarts/eap/cluster-ha-singleton/?referrer=jbd Or you could use clustered cache and access lock resource between the service and first service take the lock will beform the action or implement you own jgroup to communicat your service and perform the action one one node

Your Answer

By clicking “Post Your Answer”, you agree to our terms of service, privacy policy and cookie policy

Not the answer you're looking for? Browse other questions tagged or ask your own question.