private void parseStoreAttribute( XMLExtendedStreamReader reader, int index, Attribute attribute, String value, ModelNode store) throws XMLStreamException { switch (attribute) { case SHARED: { CommonAttributes.SHARED.parseAndSetParameter(value, store, reader); break; } case PRELOAD: { CommonAttributes.PRELOAD.parseAndSetParameter(value, store, reader); break; } case PASSIVATION: { CommonAttributes.PASSIVATION.parseAndSetParameter(value, store, reader); break; } case FETCH_STATE: { CommonAttributes.FETCH_STATE.parseAndSetParameter(value, store, reader); break; } case PURGE: { CommonAttributes.PURGE.parseAndSetParameter(value, store, reader); break; } case SINGLETON: { CommonAttributes.SINGLETON.parseAndSetParameter(value, store, reader); break; } default: { throw ParseUtils.unexpectedAttribute(reader, index); } } }
/** * Create a Configuration object initialized from the operation ModelNode * * @param containerName the name of the cache container * @param cache ModelNode representing cache configuration * @param builder ConfigurationBuilder object to add data to * @return initialised Configuration object */ void processModelNode( OperationContext context, String containerName, ModelNode cache, ConfigurationBuilder builder, List<Dependency<?>> dependencies) throws OperationFailedException { final Indexing indexing = Indexing.valueOf( CommonAttributes.INDEXING.resolveModelAttribute(context, cache).asString()); final boolean batching = CommonAttributes.BATCHING.resolveModelAttribute(context, cache).asBoolean(); // set the cache mode (may be modified when setting up clustering attributes) builder.clustering().cacheMode(this.mode); final ModelNode indexingPropertiesModel = CommonAttributes.INDEXING_PROPERTIES.resolveModelAttribute(context, cache); Properties indexingProperties = new Properties(); if (indexing.isEnabled() && indexingPropertiesModel.isDefined()) { for (Property p : indexingPropertiesModel.asPropertyList()) { String value = p.getValue().asString(); indexingProperties.put(p.getName(), value); } } builder .indexing() .enabled(indexing.isEnabled()) .indexLocalOnly(indexing.isLocalOnly()) .withProperties(indexingProperties); // locking is a child resource if (cache.hasDefined(ModelKeys.LOCKING) && cache.get(ModelKeys.LOCKING, ModelKeys.LOCKING_NAME).isDefined()) { ModelNode locking = cache.get(ModelKeys.LOCKING, ModelKeys.LOCKING_NAME); final IsolationLevel isolationLevel = IsolationLevel.valueOf( CommonAttributes.ISOLATION.resolveModelAttribute(context, locking).asString()); final boolean striping = CommonAttributes.STRIPING.resolveModelAttribute(context, locking).asBoolean(); final long acquireTimeout = CommonAttributes.ACQUIRE_TIMEOUT.resolveModelAttribute(context, locking).asLong(); final int concurrencyLevel = CommonAttributes.CONCURRENCY_LEVEL.resolveModelAttribute(context, locking).asInt(); builder .locking() .isolationLevel(isolationLevel) .useLockStriping(striping) .lockAcquisitionTimeout(acquireTimeout) .concurrencyLevel(concurrencyLevel); } TransactionMode txMode = TransactionMode.NONE; LockingMode lockingMode = LockingMode.OPTIMISTIC; // locking is a child resource if (cache.hasDefined(ModelKeys.TRANSACTION) && cache.get(ModelKeys.TRANSACTION, ModelKeys.TRANSACTION_NAME).isDefined()) { ModelNode transaction = cache.get(ModelKeys.TRANSACTION, ModelKeys.TRANSACTION_NAME); final long stopTimeout = CommonAttributes.STOP_TIMEOUT.resolveModelAttribute(context, transaction).asLong(); txMode = TransactionMode.valueOf( CommonAttributes.MODE.resolveModelAttribute(context, transaction).asString()); lockingMode = LockingMode.valueOf( CommonAttributes.LOCKING.resolveModelAttribute(context, transaction).asString()); builder.transaction().cacheStopTimeout(stopTimeout); } builder .transaction() .transactionMode(txMode.getMode()) .lockingMode(lockingMode) .useSynchronization(!txMode.isXAEnabled()) .recovery() .enabled(txMode.isRecoveryEnabled()); if (txMode.isRecoveryEnabled()) { builder.transaction().syncCommitPhase(true).syncRollbackPhase(true); } if (batching) { builder .transaction() .transactionMode(org.infinispan.transaction.TransactionMode.TRANSACTIONAL) .invocationBatching() .enable(); } else { builder.transaction().invocationBatching().disable(); } // eviction is a child resource if (cache.hasDefined(ModelKeys.EVICTION) && cache.get(ModelKeys.EVICTION, ModelKeys.EVICTION_NAME).isDefined()) { ModelNode eviction = cache.get(ModelKeys.EVICTION, ModelKeys.EVICTION_NAME); final EvictionStrategy strategy = EvictionStrategy.valueOf( CommonAttributes.EVICTION_STRATEGY .resolveModelAttribute(context, eviction) .asString()); builder.eviction().strategy(strategy); if (strategy.isEnabled()) { final int maxEntries = CommonAttributes.MAX_ENTRIES.resolveModelAttribute(context, eviction).asInt(); builder.eviction().maxEntries(maxEntries); } } // expiration is a child resource if (cache.hasDefined(ModelKeys.EXPIRATION) && cache.get(ModelKeys.EXPIRATION, ModelKeys.EXPIRATION_NAME).isDefined()) { ModelNode expiration = cache.get(ModelKeys.EXPIRATION, ModelKeys.EXPIRATION_NAME); final long maxIdle = CommonAttributes.MAX_IDLE.resolveModelAttribute(context, expiration).asLong(); final long lifespan = CommonAttributes.LIFESPAN.resolveModelAttribute(context, expiration).asLong(); final long interval = CommonAttributes.INTERVAL.resolveModelAttribute(context, expiration).asLong(); builder.expiration().maxIdle(maxIdle).lifespan(lifespan).wakeUpInterval(interval); // Only enable the reaper thread if we need it if ((maxIdle > 0) || (lifespan > 0)) { builder.expiration().enableReaper(); } else { builder.expiration().disableReaper(); } } // stores are a child resource String storeKey = this.findStoreKey(cache); if (storeKey != null) { ModelNode store = this.getStoreModelNode(cache); final boolean shared = CommonAttributes.SHARED.resolveModelAttribute(context, store).asBoolean(); final boolean preload = CommonAttributes.PRELOAD.resolveModelAttribute(context, store).asBoolean(); final boolean passivation = CommonAttributes.PASSIVATION.resolveModelAttribute(context, store).asBoolean(); final boolean fetchState = CommonAttributes.FETCH_STATE.resolveModelAttribute(context, store).asBoolean(); final boolean purge = CommonAttributes.PURGE.resolveModelAttribute(context, store).asBoolean(); final boolean singleton = CommonAttributes.SINGLETON.resolveModelAttribute(context, store).asBoolean(); final boolean async = store.hasDefined(ModelKeys.WRITE_BEHIND) && store.get(ModelKeys.WRITE_BEHIND, ModelKeys.WRITE_BEHIND_NAME).isDefined(); builder.loaders().shared(shared).preload(preload).passivation(passivation); LoaderConfigurationBuilder storeBuilder = builder .loaders() .addCacheLoader() .fetchPersistentState(fetchState) .purgeOnStartup(purge) .purgeSynchronously(true); storeBuilder.singletonStore().enabled(singleton); if (async) { ModelNode writeBehind = store.get(ModelKeys.WRITE_BEHIND, ModelKeys.WRITE_BEHIND_NAME); storeBuilder .async() .enable() .flushLockTimeout( CommonAttributes.FLUSH_LOCK_TIMEOUT .resolveModelAttribute(context, writeBehind) .asLong()) .modificationQueueSize( CommonAttributes.MODIFICATION_QUEUE_SIZE .resolveModelAttribute(context, writeBehind) .asInt()) .shutdownTimeout( CommonAttributes.SHUTDOWN_TIMEOUT .resolveModelAttribute(context, writeBehind) .asLong()) .threadPoolSize( CommonAttributes.THREAD_POOL_SIZE .resolveModelAttribute(context, writeBehind) .asInt()); } this.buildCacheStore(context, storeBuilder, containerName, store, storeKey, dependencies); } }