I am searching a way to set the TTL with spring annotation.

I tried

@CacheEvict(allEntries = true, value = { "mycache" })
@Scheduled(fixedDelay = 5000)

And putting @EnableScheduling on my Application.java with no success.

I also tried @RedisHash(timeToLive=2000) on the class with and without @TimeToLive(unit = TimeUnit.SECONDS) on method.

Then I tried to put @EnableRedisRepositories(keyspaceConfiguration = UserKeySpaceConfiguration.class) on my class

public class UserKeySpaceConfiguration extends KeyspaceConfiguration {

  /**
   * {@inheritDoc}
   *
   * @see org.springframework.data.redis.core.convert.KeyspaceConfiguration#getKeyspaceSettings(java.lang.Class)
   */
  @Override
  public KeyspaceSettings getKeyspaceSettings(final Class<?> type) {
    final KeyspaceSettings keyspaceSettings = new KeyspaceSettings(type, "user-keyspace");
    keyspaceSettings.setTimeToLive(172800L);
    return keyspaceSettings;
  }

  /**
   * {@inheritDoc}
   * @see org.springframework.data.redis.core.convert.KeyspaceConfiguration#hasSettingsFor(java.lang.Class)
   */
  @Override
  public boolean hasSettingsFor(final Class<?> type) {
    return true;
  }

}

All this method don't work. When I check Redis if my keys have TTL, I always have -1.

Any idea on how to proceed ?

Thanks.

  • did you try spring.cache.redis.time-to-live=600000 ??? – Yogen Rai Jul 10 at 17:35
  • I retry and it works perfectly maybe I had a bad syntax or a very short delay. But with this solution the TTL is global to all keys or I want to put different TTL on different keys – Dahakarful Jul 11 at 8:11
up vote 1 down vote accepted

Well after a week of search I found a solution.

To have different TTL on different keys you have to create your own cache manager.

So in your Application.java add your custom cache manager.

@SpringBootApplication
@EnableSwagger2
@EnableCaching
public class Application extends SpringBootServletInitializer {

  public static void main(final String[] args) throws Exception {
    SpringApplication.run(Application.class, args);
  }

  @Primary
  @Bean
  public RedisCacheManager cacheManager(final RedisConnectionFactory connectionFactory) {
    final RedisCacheWriter redisCacheWriter = RedisCacheWriter.lockingRedisCacheWriter(connectionFactory);
    final SerializationPair<Object> valueSerializationPair = RedisSerializationContext.SerializationPair.fromSerializer(new GenericJackson2JsonRedisSerializer());
    final RedisCacheConfiguration cacheConfiguration = RedisCacheConfiguration.defaultCacheConfig();
    final RedisCacheManager redisCacheManager = new RedisCacheManager(redisCacheWriter, cacheConfiguration);
    return redisCacheManager;
  }

  @Bean(name = "pickleCacheManager")
  public RedisCacheManager pickleCacheManager(final RedisConnectionFactory connectionFactory) {
    final RedisCacheWriter redisCacheWriter = RedisCacheWriter.lockingRedisCacheWriter(connectionFactory);
    final SerializationPair<Object> valueSerializationPair = RedisSerializationContext.SerializationPair.fromSerializer(new GenericJackson2JsonRedisSerializer());
    RedisCacheConfiguration cacheConfiguration = RedisCacheConfiguration.defaultCacheConfig();
    cacheConfiguration = cacheConfiguration.entryTtl(Duration.ofSeconds(120));
    final RedisCacheManager redisCacheManager = new RedisCacheManager(redisCacheWriter, cacheConfiguration);
    return redisCacheManager;
  }

  @Bean(name = "userCacheManager")
  public RedisCacheManager userCacheManager(final RedisConnectionFactory connectionFactory) {
    final RedisCacheWriter redisCacheWriter = RedisCacheWriter.lockingRedisCacheWriter(connectionFactory);
    final SerializationPair<Object> valueSerializationPair = RedisSerializationContext.SerializationPair.fromSerializer(new GenericJackson2JsonRedisSerializer());
    RedisCacheConfiguration cacheConfiguration = RedisCacheConfiguration.defaultCacheConfig();
    cacheConfiguration = cacheConfiguration.entryTtl(Duration.ofSeconds(172800));
    final RedisCacheManager redisCacheManager = new RedisCacheManager(redisCacheWriter, cacheConfiguration);
    return redisCacheManager;
  }

}

To make the difference between your cache, you have the attribut name with annotation @Bean.

You need to have a @Primary @Bean or your application will crash. In my case my primary juste return the cache without change.

So in this custom cache I just add a TTL with

cacheConfiguration = cacheConfiguration.entryTtl(Duration.ofSeconds(120));

And when you use your cache on a method you just need to specify your cache like so:

@Cacheable(value = "value", key = "#key", cacheManager = "yourCacheName")

In my case

@Cacheable(value = "pickle", key = "#pickleId", cacheManager = "pickleCacheManager")
Pickle findFirstById(String pickleId);

Your cacheManager in @Cacheable is your name in @Bean.

You need to update

@CacheEvict(allEntries = true, value = { "mycache" })

to

@CacheEvict(allEntries = true, cacheNames = { "mycache" })

It can refer to this answer on StackOverflow.

  • What is not say in this answer is that do I need to @EnableScheduling on my Application ? And can I do this : @CacheEvict(allEntries = true, cacheNames = { "pickle" }) @Cacheable(value = "pickle", key = "#pickleId") @Scheduled(fixedDelay = 5000) Pickle findFirstById(String pickleId); I want to put TTL when you search object. – Dahakarful Jul 11 at 7:56
  • When I tried this solution on my method with @Cacheable @CacheEvict and @Scheduled, my object is not add to the cache – Dahakarful Jul 11 at 8:14

Your Answer

 

By clicking "Post Your Answer", you acknowledge that you have read our updated terms of service, privacy policy and cookie policy, and that your continued use of the website is subject to these policies.

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