private Configuration getClusteredCfg(Configuration.CacheMode mode, boolean l1) {
Configuration cfg = getBaseCfg();
cfg.setLockAcquisitionTimeout(60000);
cfg.setSyncReplTimeout(60000);
cfg.setCacheMode(mode);
cfg.setFetchInMemoryState(false);
if (mode.isDistributed()) {
cfg.setL1CacheEnabled(l1);
cfg.setL1Lifespan(120000);
}
return cfg;
}
public static EmbeddedCacheManager createCacheContainer(
boolean local, String passivationDir, boolean totalReplication, boolean purgeCacheLoader)
throws Exception {
Configuration.CacheMode mode =
local ? CacheMode.LOCAL : (totalReplication ? CacheMode.REPL_SYNC : CacheMode.DIST_SYNC);
GlobalConfiguration global = defaults.getGlobalConfiguration().clone();
FluentGlobalConfiguration.TransportConfig transport = global.fluent().transport();
if (mode.isClustered()) {
transport
.transportClass(JGroupsTransport.class)
.addProperty("configurationFile", "jgroups-udp.xml");
} else {
transport.transportClass(null);
}
transport
.clusterName("test-session")
.strictPeerToPeer(false)
.globalJmxStatistics()
.jmxDomain("org.infinispan")
.cacheManagerName("container" + containerIndex++)
.allowDuplicateDomains(true);
Configuration config = defaults.getDefaultConfiguration(mode).clone();
FluentConfiguration fluent = config.fluent();
fluent
.syncCommitPhase(true)
.syncRollbackPhase(true)
.invocationBatching()
.locking()
.isolationLevel(IsolationLevel.REPEATABLE_READ)
.transaction()
.useSynchronization(false);
if (passivationDir != null) {
fluent
.loaders()
.passivation(true)
.preload(!purgeCacheLoader)
.addCacheLoader(
new FileCacheStoreConfig()
.location(passivationDir)
.fetchPersistentState(mode.isReplicated())
.purgeOnStartup(purgeCacheLoader));
}
final EmbeddedCacheManager sessionContainer = new DefaultCacheManager(global, config, false);
if (!mode.isDistributed()) {
return sessionContainer;
}
// Otherwise, we need a separate cache manager for address -> jvm route mapping
global = global.clone();
global
.fluent()
.transport()
.clusterName("test-jvmroute")
.globalJmxStatistics()
.cacheManagerName("container" + containerIndex++);
config = defaults.getDefaultConfiguration(Configuration.CacheMode.REPL_SYNC).clone();
config
.fluent()
.syncCommitPhase(true)
.syncRollbackPhase(true)
.invocationBatching()
.locking()
.isolationLevel(IsolationLevel.REPEATABLE_READ)
.transaction()
.useSynchronization(false);
final EmbeddedCacheManager jvmRouteContainer = new DefaultCacheManager(global, config, false);
return new EmbeddedCacheManager() {
@Override
public <K, V> Cache<K, V> getCache() {
return sessionContainer.getCache();
}
@Override
public <K, V> Cache<K, V> getCache(String cacheName) {
return cacheName.equals(JVM_ROUTE_CACHE_NAME)
? jvmRouteContainer.<K, V>getCache()
: sessionContainer.<K, V>getCache(cacheName);
}
@Override
public void start() {
jvmRouteContainer.start();
try {
sessionContainer.start();
} catch (RuntimeException e) {
jvmRouteContainer.stop();
throw e;
}
}
@Override
public void stop() {
try {
sessionContainer.stop();
} catch (Exception e) {
log.warn(e.getMessage(), e);
}
jvmRouteContainer.stop();
}
@Override
public void addListener(Object listener) {
sessionContainer.addListener(listener);
}
@Override
public void removeListener(Object listener) {
sessionContainer.removeListener(listener);
}
@Override
public Set<Object> getListeners() {
return sessionContainer.getListeners();
}
@Override
public Configuration defineConfiguration(
String cacheName, Configuration configurationOverride) {
return sessionContainer.defineConfiguration(cacheName, configurationOverride);
}
@Override
public Configuration defineConfiguration(
String cacheName, String templateCacheName, Configuration configurationOverride) {
return sessionContainer.defineConfiguration(
cacheName, templateCacheName, configurationOverride);
}
@Override
public String getClusterName() {
return sessionContainer.getClusterName();
}
@Override
public List<Address> getMembers() {
return sessionContainer.getMembers();
}
@Override
public Address getAddress() {
return sessionContainer.getAddress();
}
@Override
public boolean isCoordinator() {
return sessionContainer.isCoordinator();
}
@Override
public ComponentStatus getStatus() {
return sessionContainer.getStatus();
}
@Override
public GlobalConfiguration getGlobalConfiguration() {
return sessionContainer.getGlobalConfiguration();
}
@Override
public Configuration getDefaultConfiguration() {
return sessionContainer.getDefaultConfiguration();
}
@Override
public Set<String> getCacheNames() {
return sessionContainer.getCacheNames();
}
@Override
public Address getCoordinator() {
return sessionContainer.getCoordinator();
}
@Override
public boolean isRunning(String cacheName) {
return cacheName.equals(JVM_ROUTE_CACHE_NAME)
? jvmRouteContainer.isDefaultRunning()
: sessionContainer.isRunning(cacheName);
}
@Override
public boolean isDefaultRunning() {
return sessionContainer.isDefaultRunning();
}
@Override
public boolean cacheExists(String name) {
return name.equals(JVM_ROUTE_CACHE_NAME)
? jvmRouteContainer.cacheExists(CacheContainer.DEFAULT_CACHE_NAME)
: sessionContainer.cacheExists(name);
}
@Override
public <K, V> Cache<K, V> getCache(String name, boolean start) {
return name.equals(JVM_ROUTE_CACHE_NAME)
? jvmRouteContainer.<K, V>getCache(CacheContainer.DEFAULT_CACHE_NAME, start)
: sessionContainer.<K, V>getCache(name, start);
}
@Override
public void removeCache(String name) {
if (name.equals(JVM_ROUTE_CACHE_NAME)) {
jvmRouteContainer.removeCache(CacheContainer.DEFAULT_CACHE_NAME);
} else {
sessionContainer.removeCache(name);
}
}
};
}
/**
* {@inheritDoc}
*
* @see
* org.jboss.staxmapper.XMLElementWriter#writeContent(org.jboss.staxmapper.XMLExtendedStreamWriter,
* java.lang.Object)
*/
@Override
public void writeContent(XMLExtendedStreamWriter writer, SubsystemMarshallingContext context)
throws XMLStreamException {
context.startSubsystemElement(Namespace.CURRENT.getUri(), false);
ModelNode model = context.getModelNode();
if (model.isDefined()) {
writer.writeAttribute(
Attribute.DEFAULT_CACHE_CONTAINER.getLocalName(),
model.require(ModelKeys.DEFAULT_CACHE_CONTAINER).asString());
for (Property entry : model.get(ModelKeys.CACHE_CONTAINER).asPropertyList()) {
String containerName = entry.getName();
ModelNode container = entry.getValue();
writer.writeStartElement(Element.CACHE_CONTAINER.getLocalName());
writer.writeAttribute(Attribute.NAME.getLocalName(), containerName);
this.writeRequired(writer, Attribute.DEFAULT_CACHE, container, ModelKeys.DEFAULT_CACHE);
this.writeOptional(writer, Attribute.JNDI_NAME, container, ModelKeys.JNDI_NAME);
this.writeOptional(
writer, Attribute.LISTENER_EXECUTOR, container, ModelKeys.LISTENER_EXECUTOR);
this.writeOptional(
writer, Attribute.EVICTION_EXECUTOR, container, ModelKeys.EVICTION_EXECUTOR);
this.writeOptional(
writer,
Attribute.REPLICATION_QUEUE_EXECUTOR,
container,
ModelKeys.REPLICATION_QUEUE_EXECUTOR);
if (container.hasDefined(ModelKeys.ALIAS)) {
for (ModelNode alias : container.get(ModelKeys.ALIAS).asList()) {
writer.writeStartElement(Element.ALIAS.getLocalName());
writer.writeCharacters(alias.asString());
writer.writeEndElement();
}
}
if (container.hasDefined(ModelKeys.SINGLETON)) {
writer.writeStartElement(Element.TRANSPORT.getLocalName());
ModelNode transport = container.get(ModelKeys.SINGLETON, ModelKeys.TRANSPORT);
this.writeOptional(writer, Attribute.STACK, transport, ModelKeys.STACK);
this.writeOptional(writer, Attribute.EXECUTOR, transport, ModelKeys.EXECUTOR);
this.writeOptional(writer, Attribute.LOCK_TIMEOUT, transport, ModelKeys.LOCK_TIMEOUT);
this.writeOptional(writer, Attribute.SITE, transport, ModelKeys.SITE);
this.writeOptional(writer, Attribute.RACK, transport, ModelKeys.RACK);
this.writeOptional(writer, Attribute.MACHINE, transport, ModelKeys.MACHINE);
writer.writeEndElement();
}
// create a list of all caches in the model
List<Property> cachesPL = new ArrayList<Property>();
String[] cacheTypes = {
ModelKeys.LOCAL_CACHE,
ModelKeys.INVALIDATION_CACHE,
ModelKeys.REPLICATED_CACHE,
ModelKeys.DISTRIBUTED_CACHE
};
for (String cacheType : cacheTypes) {
List<Property> cachesOfAType = getCachesAsPropertyList(model, containerName, cacheType);
if (cachesOfAType != null) cachesPL.addAll(cachesOfAType);
}
List<ModelNode> caches = new ArrayList<ModelNode>();
for (Property cacheEntry : cachesPL) {
caches.add(cacheEntry.getValue());
}
// for (ModelNode cache: container.get(ModelKeys.CACHE).asList()) {
for (ModelNode cache : caches) {
Configuration.CacheMode mode =
Configuration.CacheMode.valueOf(cache.get(ModelKeys.CACHE_MODE).asString());
if (mode.isClustered()) {
if (mode.isDistributed()) {
writer.writeStartElement(Element.DISTRIBUTED_CACHE.getLocalName());
this.writeOptional(writer, Attribute.OWNERS, cache, ModelKeys.OWNERS);
this.writeOptional(writer, Attribute.VIRTUAL_NODES, cache, ModelKeys.VIRTUAL_NODES);
this.writeOptional(writer, Attribute.L1_LIFESPAN, cache, ModelKeys.L1_LIFESPAN);
} else if (mode.isInvalidation()) {
writer.writeStartElement(Element.INVALIDATION_CACHE.getLocalName());
} else {
writer.writeStartElement(Element.REPLICATED_CACHE.getLocalName());
}
writer.writeAttribute(Attribute.MODE.getLocalName(), Mode.forCacheMode(mode).name());
this.writeOptional(writer, Attribute.QUEUE_SIZE, cache, ModelKeys.QUEUE_SIZE);
this.writeOptional(
writer, Attribute.QUEUE_FLUSH_INTERVAL, cache, ModelKeys.QUEUE_FLUSH_INTERVAL);
this.writeOptional(writer, Attribute.REMOTE_TIMEOUT, cache, ModelKeys.REMOTE_TIMEOUT);
} else {
writer.writeStartElement(Element.LOCAL_CACHE.getLocalName());
}
this.writeRequired(writer, Attribute.NAME, cache, ModelKeys.NAME);
this.writeOptional(writer, Attribute.START, cache, ModelKeys.START);
this.writeOptional(writer, Attribute.BATCHING, cache, ModelKeys.BATCHING);
this.writeOptional(writer, Attribute.INDEXING, cache, ModelKeys.INDEXING);
if (cache.hasDefined(ModelKeys.LOCKING)) {
writer.writeStartElement(Element.LOCKING.getLocalName());
ModelNode locking = cache.get(ModelKeys.LOCKING);
this.writeOptional(writer, Attribute.ISOLATION, locking, ModelKeys.ISOLATION);
this.writeOptional(writer, Attribute.STRIPING, locking, ModelKeys.STRIPING);
this.writeOptional(
writer, Attribute.ACQUIRE_TIMEOUT, locking, ModelKeys.ACQUIRE_TIMEOUT);
this.writeOptional(
writer, Attribute.CONCURRENCY_LEVEL, locking, ModelKeys.CONCURRENCY_LEVEL);
writer.writeEndElement();
}
if (cache.hasDefined(ModelKeys.TRANSACTION)) {
writer.writeStartElement(Element.TRANSACTION.getLocalName());
ModelNode transaction = cache.get(ModelKeys.TRANSACTION);
this.writeOptional(writer, Attribute.STOP_TIMEOUT, transaction, ModelKeys.STOP_TIMEOUT);
this.writeOptional(writer, Attribute.MODE, transaction, ModelKeys.MODE);
this.writeOptional(writer, Attribute.LOCKING, transaction, ModelKeys.LOCKING);
writer.writeEndElement();
}
if (cache.hasDefined(ModelKeys.EVICTION)) {
writer.writeStartElement(Element.EVICTION.getLocalName());
ModelNode eviction = cache.get(ModelKeys.EVICTION);
this.writeOptional(writer, Attribute.STRATEGY, eviction, ModelKeys.STRATEGY);
this.writeOptional(writer, Attribute.MAX_ENTRIES, eviction, ModelKeys.MAX_ENTRIES);
writer.writeEndElement();
}
if (cache.hasDefined(ModelKeys.EXPIRATION)) {
writer.writeStartElement(Element.EXPIRATION.getLocalName());
ModelNode expiration = cache.get(ModelKeys.EXPIRATION);
this.writeOptional(writer, Attribute.MAX_IDLE, expiration, ModelKeys.MAX_IDLE);
this.writeOptional(writer, Attribute.LIFESPAN, expiration, ModelKeys.LIFESPAN);
this.writeOptional(writer, Attribute.INTERVAL, expiration, ModelKeys.INTERVAL);
writer.writeEndElement();
}
if (cache.hasDefined(ModelKeys.STORE)) {
ModelNode store = cache.get(ModelKeys.STORE);
writer.writeStartElement(Element.STORE.getLocalName());
this.writeRequired(writer, Attribute.CLASS, store, ModelKeys.CLASS);
this.writeStoreAttributes(writer, store);
this.writeStoreProperties(writer, store);
writer.writeEndElement();
}
if (cache.hasDefined(ModelKeys.FILE_STORE)) {
ModelNode store = cache.get(ModelKeys.FILE_STORE);
writer.writeStartElement(Element.FILE_STORE.getLocalName());
this.writeOptional(writer, Attribute.RELATIVE_TO, store, ModelKeys.RELATIVE_TO);
this.writeOptional(writer, Attribute.PATH, store, ModelKeys.PATH);
this.writeStoreAttributes(writer, store);
this.writeStoreProperties(writer, store);
writer.writeEndElement();
}
if (cache.hasDefined(ModelKeys.JDBC_STORE)) {
ModelNode store = cache.get(ModelKeys.JDBC_STORE);
writer.writeStartElement(Element.JDBC_STORE.getLocalName());
this.writeRequired(writer, Attribute.DATASOURCE, store, ModelKeys.DATASOURCE);
this.writeStoreAttributes(writer, store);
this.writeJDBCStoreTable(writer, Element.ENTRY_TABLE, store, ModelKeys.ENTRY_TABLE);
this.writeJDBCStoreTable(writer, Element.BUCKET_TABLE, store, ModelKeys.BUCKET_TABLE);
this.writeStoreProperties(writer, store);
writer.writeEndElement();
}
if (cache.hasDefined(ModelKeys.REMOTE_STORE)) {
ModelNode store = cache.get(ModelKeys.REMOTE_STORE);
writer.writeStartElement(Element.REMOTE_STORE.getLocalName());
this.writeOptional(writer, Attribute.CACHE, store, ModelKeys.CACHE);
this.writeOptional(writer, Attribute.SOCKET_TIMEOUT, store, ModelKeys.SOCKET_TIMEOUT);
this.writeOptional(writer, Attribute.TCP_NO_DELAY, store, ModelKeys.TCP_NO_DELAY);
this.writeStoreAttributes(writer, store);
for (ModelNode remoteServer : store.get(ModelKeys.REMOTE_SERVER).asList()) {
writer.writeStartElement(Element.REMOTE_SERVER.getLocalName());
writer.writeAttribute(
Attribute.OUTBOUND_SOCKET_BINDING.getLocalName(),
remoteServer.get(ModelKeys.OUTBOUND_SOCKET_BINDING).asString());
writer.writeEndElement();
}
this.writeStoreProperties(writer, store);
writer.writeEndElement();
}
if (cache.hasDefined(ModelKeys.STATE_TRANSFER)) {
ModelNode stateTransfer = cache.get(ModelKeys.STATE_TRANSFER);
writer.writeStartElement(Element.STATE_TRANSFER.getLocalName());
this.writeOptional(writer, Attribute.ENABLED, stateTransfer, ModelKeys.ENABLED);
this.writeOptional(writer, Attribute.TIMEOUT, stateTransfer, ModelKeys.TIMEOUT);
this.writeOptional(
writer, Attribute.FLUSH_TIMEOUT, stateTransfer, ModelKeys.FLUSH_TIMEOUT);
writer.writeEndElement();
}
if (cache.hasDefined(ModelKeys.REHASHING)) {
ModelNode rehashing = cache.get(ModelKeys.REHASHING);
writer.writeStartElement(Element.REHASHING.getLocalName());
this.writeOptional(writer, Attribute.ENABLED, rehashing, ModelKeys.ENABLED);
this.writeOptional(writer, Attribute.TIMEOUT, rehashing, ModelKeys.TIMEOUT);
this.writeOptional(writer, Attribute.WAIT, rehashing, ModelKeys.WAIT);
writer.writeEndElement();
}
writer.writeEndElement();
}
writer.writeEndElement();
}
}
writer.writeEndElement();
}