I'm playing around a bit with Spring and JPA/Hibernate and I'm a bit confused on the right way to increment a counter in a table.

My REST API needs to increment and decrement some value in the database depending on the user action (in the example bellow, liking or disliking a tag will make the counter increment or decrement by one in the Tag Table)

tagRepository is a JpaRepository (Spring-data) and I have configured the transaction like this

<bean id="transactionManager" class="org.springframework.orm.jpa.JpaTransactionManager"/>

public class TestController {

    TagService tagService

    public void increaseTag() {
    public void decreaseTag() {


public class TagServiceImpl implements TagService {

    public void decreaseTagcount() {
        Tag tag = tagRepository.findOne(tagId);

    public void increaseTagcount() {
        Tag tag = tagRepository.findOne(tagId);

    private void increment(Tag tag) {
        tag.setCount(tag.getCount() + 1); 

    private void decrement(Tag tag) {
        tag.setCount(tag.getCount() - 1); 

As you can see I have put on purpose a sleep of 20 second on increment JUST before the .save() to be able to test a concurrency scenario.

initial tag counter = 10;

1) A user calls increaseTag and the code hits the sleep so the value of the entity = 11 and the value in the DB is still 10

2) a user calls the decreaseTag and goes through all the code. the value is the database is now = 9

3) The sleeps finishes and hits the .save with the entity having a count of 11 and then hits .save()

When I check the database, the value for that tag is now equal to 11.. when in reality (at least what I would like to achieve) it would be equal to 10

Is this behaviour normal? Or the @Transactional annotation is not doing is work?


The simplest solution is to delegate the concurrency to your database and simply rely on the database isolation level lock on the currently modified rows:

The increment is as simple as this:

UPDATE Tag t set t.count = t.count + 1 WHERE t.id = :id;

and the decrement query is:

UPDATE Tag t set t.count = t.count - 1 WHERE t.id = :id;

The UPDATE query takes a lock on the modified rows, preventing other transactions from modifying the same row, before the current transaction commits (as long as you don't use READ_UNCOMMITTED).

  • genius.. this is 100 times better that dealing with pessimists locks! – Johny19 May 10 '15 at 21:08
  • 2
    (btw after posting my question I was looking some doc about isolation level and a fell on I just realised that it is your blog) it was very clear and well explained. so +1 for that too ! – Johny19 May 10 '15 at 21:16
  • Thanks for appreciating my work. – Vlad Mihalcea May 10 '15 at 21:33
  • Hmm, are we sure that a @Version annotation on an often-updated counter field is a good idea? Sounds like any little timing issue will cause it to not increment.. also the version field updates when any item of the entity is updated, so I don't understand the implication of updating the @ Version field (which is supposed to update on its own when any OTHER field is updated....) – Amalgovinus Jan 7 '16 at 20:01

For example use Optimistic Locking. This should be the easiest solution to solve your problem. For more details see -> https://docs.jboss.org/hibernate/orm/4.0/devguide/en-US/html/ch05.html

  • Thank you for your answer. So If I use optimistic locking, when a race condition is detected a StaleObjectStateException is thrown. The thing is that I don't want the "increase tag" to fail.. and I don't want (and I don't think is very recommended.?) to catch the the StaleObjectStateException and retry until the .save doesn't thrown the exception? Is there a way to automatically retry with the latest DB value? – Johny19 May 9 '15 at 19:02
  • It should not fail, just handle the exception accordingly. Every other solution would be hacky (but i have some if you want them ;) ) – mh-dev May 9 '15 at 19:03
  • Do you mean handle the exception in a while loop ? because I will need to retry incrementTag until I don't get the exception anymore. I can0t get away with this for example try {increment) catch (StaleObjectStateException e ) increment() } – Johny19 May 9 '15 at 19:24
  • When you expect a high amount of conflicts than this is probably not the best solution. When this is the case throw the changes into a queue und execute them one after another. The disadvantage is that it isn't syncron anymore. It would be necessary to take a closer look into the usecase to give a really appropriate answer to this. – mh-dev May 9 '15 at 19:28

Another eventually-consistent solution to add:

  • create separate counters_increment table to insert each counter increment
  • add scheduler to update the main counters table from the counters_increment


  • another DB for write-heavy counters_increment storage (e.g. Cassandra, Redis)
  • counters_increment_{period} table per period (e.g. day) and delete/recreate whole table after data is processed and no longer needed

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