is a way for applications to store data so that future requests to the same data are returned faster and do not require repeating computationally expensive operations. The provides a simple way to cache the results of method calls with little to no configuration.
The examples in this post use Spring 4.1.3 and 1.4.1, the latest versions at the time of this writing. Full source code for this post can be found .
Installing Dependencies
You'll need to install the spring-data-redis
and jedis
plugins. Add the following to your pom.xml
file in your Spring project if you're using Maven:
<dependency>
<groupId>org.springframework.data</groupId>
<artifactId>spring-data-redis</artifactId>
<version>1.4.1.RELEASE</version>
</dependency>
<dependency>
<groupId>redis.clients</groupId>
<artifactId>jedis</artifactId>
<version>2.6.1</version>
</dependency>
If you're using Gradle, you can add the following to your build.gradle
file:
compile "org.springframework.data:spring-data-redis:1.4.1.RELEASE"
compile "redis.clients:jedis:2.6.1"
Enabling Cache Support in Your Spring Application
To enable support for caching in your application, you'll want to create a new CacheManager
bean. There are many different implementations of the CacheManager
interface, but for this post we'll be usingRedisCacheManager
to allow integration with .
Java-based Configuration
If you're using Java-based configuration, you'll want to annotate one of your configuration classes with the @EnableCaching
annotation and expose a CacheManager
bean. You'll also need a connection factory and a RedisTemplate
bean for Spring to communicate with your Redis database. An exampleCacheConfig
class is shown below:
import org.springframework.cache.CacheManager;
import org.springframework.cache.annotation.CachingConfigurerSupport;
import org.springframework.cache.annotation.EnableCaching;
import org.springframework.context.annotation.Bean;
import org.springframework.context.annotation.Configuration;
import org.springframework.data.redis.cache.RedisCacheManager;
import org.springframework.data.redis.connection.RedisConnectionFactory;
import org.springframework.data.redis.connection.jedis.JedisConnectionFactory;
import org.springframework.data.redis.core.RedisTemplate;
@Configuration
@EnableCaching
public class CacheConfig extends CachingConfigurerSupport {
@Bean
public JedisConnectionFactory redisConnectionFactory() {
JedisConnectionFactory redisConnectionFactory = new JedisConnectionFactory();
// Defaults
redisConnectionFactory.setHostName("127.0.0.1");
redisConnectionFactory.setPort(6379);
return redisConnectionFactory;
}
@Bean
public RedisTemplate<String, String> redisTemplate(RedisConnectionFactory cf) {
RedisTemplate<String, String> redisTemplate = new RedisTemplate<String, String>();
redisTemplate.setConnectionFactory(cf);
return redisTemplate;
}
@Bean
public CacheManager cacheManager(RedisTemplate redisTemplate) {
RedisCacheManager cacheManager = new RedisCacheManager(redisTemplate);
// Number of seconds before expiration. Defaults to unlimited (0)
cacheManager.setDefaultExpiration(300);
return cacheManager;
}
}
Caching the Results of a Method
After setting up your caching configuration, you can then begin to start caching method results with the@Cacheable
annotation. Putting this annotation on a method will cause it's results to be cached in your Redis database for the length specified in your expiration, or until it is manually expired.
See the following example:
import org.apache.log4j.Logger;
import org.springframework.cache.annotation.Cacheable;
import org.springframework.stereotype.Controller;
import org.springframework.web.bind.annotation.RequestMapping;
import org.springframework.web.bind.annotation.RequestMethod;
import org.springframework.web.bind.annotation.ResponseBody;
@Controller
public class ExampleController {
private static final Logger log = Logger.getLogger(ExampleController.class);
@RequestMapping(value = "/", method = RequestMethod.GET)
@ResponseBody
@Cacheable("calculateResult")
public String calculateResult() {
log.debug("Performing expensive calculation...");
// perform computationally expensive calculation
return "result";
}
}
Executing this method multiple times causes only one log output:
2014-12-18 19:24:30 DEBUG ExampleController:19 - Performing expensive calculation...
And you can see the cached item in your Redis instance:
Updating and Evicting Cached Data
In addition to the @Cacheable
annotation, Spring provides the @CachePut
and @CacheEvict
annotations for manually managing cached data. The @CachePut
annotation allows you to update the cache without interfering with the execution of the method. For example, if you updated a user, you would want to place the result into the cache to be looked up later:
@CachePut(value = 'user', key = "#id")
public User updateUser(Long id, UserDescriptor descriptor)
This method will always be executed and its results stored in your cache.
On the other hand, there will be times where you will want to 'evict' data from your cache, that is, to remove it. For example, when deleting a user:
@CacheEvict(value = 'user', key = "#id")
public void deleteUser(Long id)
Implementing a Custom Key Generator
For basic purposes, the default key generation system for cached data works. The parameters to your method become the key in your cache store. For example, in the following method, the value for the parameter username
would become the key in your store:
@Cacheable("users")
public User findByUsername(String username)
But this becomes problematic when you want cache the result of another method that also takes in the same value, for instance:
@Cacheable("users")
public Integer getLoginCountByUsername(String username)
You could easily just specify a different key for each @Cacheable
annotation, but that becomes tedious and hard to maintain. The solution is to implement a custom key generator that will generate the key for each method to be unique by default. Adding a keyGenerator
bean to your CacheConfig
class (shown above) will give you this functionality. Note that for your custom key generator to work by default, this class must implement the CachingConfigurer
interface. Extending CachingConfigurerSupport
will provide this for you.
// Previous imports omitted
import org.springframework.cache.annotation.CachingConfigurerSupport;
import org.springframework.cache.interceptor.KeyGenerator;
import java.lang.reflect.Method;
@Configuration
@EnableCaching
public class CacheConfig extends CachingConfigurerSupport {
// Previous methods omitted
@Bean
public KeyGenerator keyGenerator() {
return new KeyGenerator() {
@Override
public Object generate(Object o, Method method, Object... objects) {
// This will generate a unique key of the class name, the method name,
// and all method parameters appended.
StringBuilder sb = new StringBuilder();
sb.append(o.getClass().getName());
sb.append(method.getName());
for (Object obj : objects) {
sb.append(obj.toString());
}
return sb.toString();
}
};
}
}
Now when your method results are cached, they will be cached with your custom key generator implementation.
Conclusion
This is a simple example of how to cache application data in your Redis instance. Although this post focuses on caching with Redis, caching with other providers is very straightforward and the caching concepts remain the same. For more information and complete documentation, see . Feel free to leave a comment if you have any questions or run into any problems.