use of org.exoplatform.services.cache.impl.infinispan.ExoCacheFactoryImpl in project kernel by exoplatform.
the class TestDistributedExoCache method testDistributedCache.
/**
* WARNING: For Linux distributions the following JVM parameter must be set to true: java.net.preferIPv4Stack.
*
* @throws Exception
*/
@SuppressWarnings({ "rawtypes", "unchecked" })
public void testDistributedCache() throws Exception {
PortalContainer pc = PortalContainer.getInstance();
ExoCacheConfig config = new ExoCacheConfig();
config.setName("MyCacheDistributed");
config.setMaxSize(5);
config.setLiveTime(1);
config.setImplementation("LRU");
config.setDistributed(true);
Map<String, String> params = new HashMap<String, String>();
params.put("infinispan-num-owners", "1");
ConfigurationManager cm = (ConfigurationManager) pc.getComponentInstanceOfType(ConfigurationManager.class);
DistributedCacheManager dcm2 = new DistributedCacheManager("jar:/conf/portal/distributed-cache-configuration.xml", params, cm);
DistributedExoCache<Serializable, Object> cache1 = (DistributedExoCache<Serializable, Object>) ((ExoCacheFactory) pc.getComponentInstanceOfType(ExoCacheFactory.class)).createCache(config);
DistributionManager dm = cache1.getCache().getDistributionManager();
DistributedExoCache<Serializable, Object> cache2 = (DistributedExoCache<Serializable, Object>) new ExoCacheFactoryImpl((ExoContainerContext) pc.getComponentInstanceOfType(ExoContainerContext.class), "jar:/conf/portal/cache-configuration-template.xml", cm, dcm2).createCache(config);
KeyAffinityService kas1 = KeyAffinityServiceFactory.newLocalKeyAffinityService(cache1.getCache(), new MyKeyGenerator(cache1.getFullName()), Executors.newSingleThreadExecutor(), 100);
KeyAffinityService kas2 = KeyAffinityServiceFactory.newLocalKeyAffinityService(cache2.getCache(), new MyKeyGenerator(cache1.getFullName()), Executors.newSingleThreadExecutor(), 100);
try {
Object a, b, c;
for (int i = 0; i < 2; i++) {
if (i == 0) {
a = new MyKey("a", ((DistributedExoCache.CacheKey<MyKey>) kas1.getKeyForAddress(cache1.getCache().getRpcManager().getAddress())).getKey().value);
} else {
a = new MyKey("a", ((DistributedExoCache.CacheKey<MyKey>) kas2.getKeyForAddress(cache2.getCache().getRpcManager().getAddress())).getKey().value);
}
for (int j = 0; j < 2; j++) {
if (j == 0) {
b = new MyKey("b", ((DistributedExoCache.CacheKey<MyKey>) kas1.getKeyForAddress(cache1.getCache().getRpcManager().getAddress())).getKey().value);
} else {
b = new MyKey("b", ((DistributedExoCache.CacheKey<MyKey>) kas2.getKeyForAddress(cache2.getCache().getRpcManager().getAddress())).getKey().value);
}
for (int k = 0; k < 2; k++) {
if (k == 0) {
c = new MyKey("c", ((DistributedExoCache.CacheKey<MyKey>) kas1.getKeyForAddress(cache1.getCache().getRpcManager().getAddress())).getKey().value);
} else {
c = new MyKey("c", ((DistributedExoCache.CacheKey<MyKey>) kas2.getKeyForAddress(cache2.getCache().getRpcManager().getAddress())).getKey().value);
}
checkUseCase(cache1, cache2, dm, a, b, c);
}
}
}
} finally {
dcm2.stop();
}
}
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