@Test
public void testSubmitToKeyOwnerCallable() throws Exception {
final int k = simpleTestNodeCount;
TestHazelcastInstanceFactory factory = createHazelcastInstanceFactory(k);
final HazelcastInstance[] instances = factory.newInstances(new Config());
final AtomicInteger count = new AtomicInteger(0);
final CountDownLatch latch = new CountDownLatch(k / 2);
final ExecutionCallback callback =
new ExecutionCallback() {
public void onResponse(Object response) {
if ((Boolean) response) count.incrementAndGet();
latch.countDown();
}
public void onFailure(Throwable t) {}
};
for (int i = 0; i < k; i++) {
final HazelcastInstance instance = instances[i];
final IExecutorService service = instance.getExecutorService("testSubmitToKeyOwnerCallable");
final String script = "hazelcast.getCluster().getLocalMember().equals(member)";
final HashMap map = new HashMap();
final Member localMember = instance.getCluster().getLocalMember();
map.put("member", localMember);
int key = 0;
while (!localMember.equals(instance.getPartitionService().getPartition(++key).getOwner())) ;
if (i % 2 == 0) {
final Future f = service.submitToKeyOwner(new ScriptCallable(script, map), key);
assertTrue((Boolean) f.get(5, TimeUnit.SECONDS));
} else {
service.submitToKeyOwner(new ScriptCallable(script, map), key, callback);
}
}
assertTrue(latch.await(30, TimeUnit.SECONDS));
assertEquals(k / 2, count.get());
}
private String resolveTypeDiscriminatorForBackReference(Member m) {
Method me =
ReflectionUtils.findMethod(
m.getDeclaringClass(), "get" + firstCharToUpperCase(m.getName()));
if (me != null) {
return resolveTypeDiscriminator(resolveReturnType(me));
}
return "";
}
public static void handleMemberMaintenance(
InstanceMaintenanceModeEvent instanceMaintenanceModeEvent)
throws InvalidMemberException, InvalidCartridgeTypeException {
Topology topology = TopologyManager.getTopology();
Service service = topology.getService(instanceMaintenanceModeEvent.getServiceName());
// update the status of the member
if (service == null) {
log.warn(
String.format(
"Service %s does not exist", instanceMaintenanceModeEvent.getServiceName()));
return;
}
Cluster cluster = service.getCluster(instanceMaintenanceModeEvent.getClusterId());
if (cluster == null) {
log.warn(
String.format("Cluster %s does not exist", instanceMaintenanceModeEvent.getClusterId()));
return;
}
Member member = cluster.getMember(instanceMaintenanceModeEvent.getMemberId());
if (member == null) {
log.warn(
String.format("Member %s does not exist", instanceMaintenanceModeEvent.getMemberId()));
return;
}
MemberMaintenanceModeEvent memberMaintenanceModeEvent =
new MemberMaintenanceModeEvent(
instanceMaintenanceModeEvent.getServiceName(),
instanceMaintenanceModeEvent.getClusterId(),
instanceMaintenanceModeEvent.getClusterInstanceId(),
instanceMaintenanceModeEvent.getMemberId(),
instanceMaintenanceModeEvent.getNetworkPartitionId(),
instanceMaintenanceModeEvent.getPartitionId());
try {
TopologyManager.acquireWriteLock();
// try update lifecycle state
if (!member.isStateTransitionValid(MemberStatus.In_Maintenance)) {
log.error(
"Invalid State Transition from "
+ member.getStatus()
+ " to "
+ MemberStatus.In_Maintenance);
return;
}
member.setStatus(MemberStatus.In_Maintenance);
log.info("member maintenance mode event adding status started");
TopologyManager.updateTopology(topology);
} finally {
TopologyManager.releaseWriteLock();
}
// publishing data
TopologyEventPublisher.sendMemberMaintenanceModeEvent(memberMaintenanceModeEvent);
}
@Test
public void testInstance() {
assertNotNull(instance);
final Set<Member> members = instance.getCluster().getMembers();
assertEquals(1, members.size());
final Member member = members.iterator().next();
final InetSocketAddress inetSocketAddress = member.getInetSocketAddress();
assertEquals(5700, inetSocketAddress.getPort());
assertEquals("test-instance", config.getInstanceName());
assertEquals("HAZELCAST_ENTERPRISE_LICENSE_KEY", config.getLicenseKey());
}
/** Special constructor called from Class. */
NamedIterator(Vector v, Object type, int modifierMask) {
// Using type 'Object' instead of 'java.lang.Class' for parameter type
// is a workaround to avoid having to generate fully qualified class names
// when applying BeatyJ to this code. (Otherwise, would confuse with class
// 'Class' in this package.)
this();
for (Enumeration e = v.elements(); e.hasMoreElements(); ) {
Member m = (Member) e.nextElement();
int mod = m.getModifier();
if (((modifierMask & mod) != 0) && (m.getClass().isAssignableFrom((java.lang.Class) type))) {
data.addElement(m);
}
}
reset();
lockReadonly(); // read-only in this mode
}
/**
* Method called to check if we can use the passed method or constructor (wrt access restriction
* -- public methods can be called, others usually not); and if not, if there is a work-around for
* the problem.
*/
public static void checkAndFixAccess(Member member) {
// We know all members are also accessible objects...
AccessibleObject ao = (AccessibleObject) member;
/* 14-Jan-2009, tatu: It seems safe and potentially beneficial to
* always to make it accessible (latter because it will force
* skipping checks we have no use for...), so let's always call it.
*/
// if (!ao.isAccessible()) {
try {
ao.setAccessible(true);
} catch (SecurityException se) {
/* 17-Apr-2009, tatu: Related to [JACKSON-101]: this can fail on
* platforms like EJB and Google App Engine); so let's
* only fail if we really needed it...
*/
if (!ao.isAccessible()) {
Class<?> declClass = member.getDeclaringClass();
throw new IllegalArgumentException(
"Can not access "
+ member
+ " (from class "
+ declClass.getName()
+ "; failed to set access: "
+ se.getMessage());
}
}
// }
}
/**
* Remove member from topology and send member terminated event.
*
* @param serviceName
* @param clusterId
* @param networkPartitionId
* @param partitionId
* @param memberId
*/
public static void handleMemberTerminated(
String serviceName,
String clusterId,
String networkPartitionId,
String partitionId,
String memberId) {
Topology topology = TopologyManager.getTopology();
Service service = topology.getService(serviceName);
Properties properties;
if (service == null) {
log.warn(String.format("Service %s does not exist", serviceName));
return;
}
Cluster cluster = service.getCluster(clusterId);
if (cluster == null) {
log.warn(String.format("Cluster %s does not exist", clusterId));
return;
}
Member member = cluster.getMember(memberId);
if (member == null) {
log.warn(String.format("Member %s does not exist", memberId));
return;
}
String clusterInstanceId = member.getClusterInstanceId();
try {
TopologyManager.acquireWriteLock();
properties = member.getProperties();
cluster.removeMember(member);
TopologyManager.updateTopology(topology);
} finally {
TopologyManager.releaseWriteLock();
}
/* @TODO leftover from grouping_poc*/
String groupAlias = null;
TopologyEventPublisher.sendMemberTerminatedEvent(
serviceName,
clusterId,
memberId,
clusterInstanceId,
networkPartitionId,
partitionId,
properties,
groupAlias);
}
/**
* Add member object to the topology and publish member created event
*
* @param memberContext
*/
public static void handleMemberCreatedEvent(MemberContext memberContext) {
Topology topology = TopologyManager.getTopology();
Service service = topology.getService(memberContext.getCartridgeType());
String clusterId = memberContext.getClusterId();
Cluster cluster = service.getCluster(clusterId);
String memberId = memberContext.getMemberId();
String clusterInstanceId = memberContext.getClusterInstanceId();
String networkPartitionId = memberContext.getNetworkPartitionId();
String partitionId = memberContext.getPartition().getId();
String lbClusterId = memberContext.getLbClusterId();
long initTime = memberContext.getInitTime();
if (cluster.memberExists(memberId)) {
log.warn(String.format("Member %s already exists", memberId));
return;
}
try {
TopologyManager.acquireWriteLock();
Member member =
new Member(
service.getServiceName(),
clusterId,
memberId,
clusterInstanceId,
networkPartitionId,
partitionId,
memberContext.getLoadBalancingIPType(),
initTime);
member.setStatus(MemberStatus.Created);
member.setLbClusterId(lbClusterId);
member.setProperties(CloudControllerUtil.toJavaUtilProperties(memberContext.getProperties()));
cluster.addMember(member);
TopologyManager.updateTopology(topology);
} finally {
TopologyManager.releaseWriteLock();
}
TopologyEventPublisher.sendMemberCreatedEvent(memberContext);
}
private void generateSetBasedDocRefView(
Map<String, org.ektorp.support.DesignDocument.View> views,
Member me,
DocumentReferences referenceMetaData) {
String fieldName = firstCharToLowerCase(me.getName());
String orderBy = referenceMetaData.orderBy();
String backRef = referenceMetaData.backReference();
if (backRef.length() == 0) {
throw new ViewGenerationException(
String.format(
"The DocumentReferences annotation in %s must specify a backReference",
me.getDeclaringClass()));
}
String viewName = NameConventions.backReferenceViewName(fieldName);
String typeDiscriminator = resolveTypeDiscriminatorForBackReference(me);
if (orderBy.length() > 0) {
views.put(
viewName,
generateDocRefsAsSetWithOrderByView(backRef, fieldName, orderBy, typeDiscriminator));
} else {
views.put(viewName, generateDocRefsAsSetView(backRef, fieldName, typeDiscriminator));
}
}
/** Parsing members means creating new members for definitions with more than one declarator. */
public void parse() {
boolean clone_and_parse = true;
if (extendVector == null) throw new RuntimeException("Compiler Error: extendVector not set!");
if (type_spec.typeSpec() instanceof ScopedName) {
token = type_spec.typeSpec().get_token();
type_spec = ((ScopedName) type_spec.typeSpec()).resolvedTypeSpec();
clone_and_parse = false;
if (type_spec instanceof ConstrTypeSpec) {
if (((ConstrTypeSpec) type_spec.typeSpec()).c_type_spec instanceof StructType) {
// System.out.println("Struct " + containing_struct.typeName() + " contains struct " +
// ((ConstrTypeSpec)type_spec.typeSpec()).typeName());
if (((ConstrTypeSpec) type_spec.typeSpec())
.c_type_spec
.typeName()
.equals(containing_struct.typeName())) {
parser.fatal_error(
"Illegal recursion in struct (use sequence<"
+ containing_struct.typeName()
+ "> instead)",
token);
}
}
}
} else if (type_spec.typeSpec() instanceof SequenceType) {
TypeSpec ts = ((SequenceType) type_spec.typeSpec()).elementTypeSpec().typeSpec();
SequenceType seqTs = (SequenceType) type_spec.typeSpec();
while (ts instanceof SequenceType) {
seqTs = (SequenceType) ts;
ts = ((SequenceType) ts.typeSpec()).elementTypeSpec().typeSpec();
}
// if( ts.typeName().equals( containing_struct.typeName()) ||
if (ScopedName.isRecursionScope(ts.typeName())) {
seqTs.setRecursive();
}
} else if (type_spec instanceof ConstrTypeSpec) {
type_spec.parse();
}
for (Enumeration e = declarators.v.elements(); e.hasMoreElements(); ) {
Declarator d = (Declarator) e.nextElement();
// we don't parse the declarator itself
// as that would result in its name getting defined
// we define the declarator's name as a type name indirectly
// through the cloned type specs.
Member m = new Member(new_num());
m.declarator = d;
TypeSpec ts = type_spec.typeSpec();
/* create a separate type spec copy for every declarator
if the type spec is a new type definition, i.e. a
struct, enum, union, sequence or the declarator is
an array declarator
*/
// if( clone_and_parse && !(ts instanceof BaseType) )
if (clone_and_parse || d.d instanceof ArrayDeclarator) {
/* arrays need special treatment */
if (d.d instanceof ArrayDeclarator) {
ts = new ArrayTypeSpec(new_num(), ts, (ArrayDeclarator) d.d, pack_name);
ts.parse();
} else if (!(ts instanceof BaseType)) {
ts = (TypeSpec) ts.clone();
if (!(ts instanceof ConstrTypeSpec)) ts.set_name(d.name());
/* important: only parse type specs once (we do it for the last
declarator only) */
if (!e.hasMoreElements()) ts.parse();
}
}
// else
if (!(d.d instanceof ArrayDeclarator)) {
try {
NameTable.define(containing_struct + "." + d.name(), "declarator");
} catch (NameAlreadyDefined nad) {
parser.error("Declarator " + d.name() + " already defined in scope.", token);
}
}
/* if the type spec is a scoped name, it is already parsed and
* the type name is defined
*/
// if( clone_and_parse )
// ts.parse();
m.type_spec = ts;
m.pack_name = this.pack_name;
m.name = this.name;
extendVector.addElement(m);
}
declarators = null;
}
public static void handleMemberActivated(InstanceActivatedEvent instanceActivatedEvent) {
Topology topology = TopologyManager.getTopology();
Service service = topology.getService(instanceActivatedEvent.getServiceName());
if (service == null) {
log.warn(String.format("Service %s does not exist", instanceActivatedEvent.getServiceName()));
return;
}
Cluster cluster = service.getCluster(instanceActivatedEvent.getClusterId());
if (cluster == null) {
log.warn(String.format("Cluster %s does not exist", instanceActivatedEvent.getClusterId()));
return;
}
Member member = cluster.getMember(instanceActivatedEvent.getMemberId());
if (member == null) {
log.warn(String.format("Member %s does not exist", instanceActivatedEvent.getMemberId()));
return;
}
MemberActivatedEvent memberActivatedEvent =
new MemberActivatedEvent(
instanceActivatedEvent.getServiceName(),
instanceActivatedEvent.getClusterId(),
instanceActivatedEvent.getClusterInstanceId(),
instanceActivatedEvent.getMemberId(),
instanceActivatedEvent.getNetworkPartitionId(),
instanceActivatedEvent.getPartitionId());
// grouping - set grouid
// TODO
memberActivatedEvent.setApplicationId(null);
try {
TopologyManager.acquireWriteLock();
// try update lifecycle state
if (!member.isStateTransitionValid(MemberStatus.Active)) {
log.error(
"Invalid state transition from ["
+ member.getStatus()
+ "] to ["
+ MemberStatus.Active
+ "]");
return;
} else {
member.setStatus(MemberStatus.Active);
// Set member ports
try {
Cartridge cartridge =
CloudControllerContext.getInstance().getCartridge(service.getServiceName());
if (cartridge == null) {
throw new RuntimeException(
String.format(
"Cartridge not found: [cartridge-type] %s", service.getServiceName()));
}
Port port;
int portValue;
List<PortMapping> portMappings = Arrays.asList(cartridge.getPortMappings());
String clusterId = cluster.getClusterId();
ClusterContext clusterContext =
CloudControllerContext.getInstance().getClusterContext(clusterId);
List<KubernetesService> kubernetesServices = clusterContext.getKubernetesServices();
for (PortMapping portMapping : portMappings) {
if (kubernetesServices != null) {
portValue = findKubernetesServicePort(clusterId, kubernetesServices, portMapping);
} else {
portValue = portMapping.getPort();
}
port = new Port(portMapping.getProtocol(), portValue, portMapping.getProxyPort());
member.addPort(port);
memberActivatedEvent.addPort(port);
}
} catch (Exception e) {
String message =
String.format(
"Could not add member ports: [service-name] %s [member-id] %s",
memberActivatedEvent.getServiceName(), memberActivatedEvent.getMemberId());
log.error(message, e);
}
// Set member ip addresses
memberActivatedEvent.setDefaultPrivateIP(member.getDefaultPrivateIP());
memberActivatedEvent.setMemberPrivateIPs(member.getMemberPrivateIPs());
memberActivatedEvent.setDefaultPublicIP(member.getDefaultPublicIP());
memberActivatedEvent.setMemberPublicIPs(member.getMemberPublicIPs());
TopologyManager.updateTopology(topology);
// Publish member activated event
TopologyEventPublisher.sendMemberActivatedEvent(memberActivatedEvent);
// Publish statistics data
BAMUsageDataPublisher.publish(
memberActivatedEvent.getMemberId(),
memberActivatedEvent.getPartitionId(),
memberActivatedEvent.getNetworkPartitionId(),
memberActivatedEvent.getClusterId(),
memberActivatedEvent.getServiceName(),
MemberStatus.Active.toString(),
null);
}
} finally {
TopologyManager.releaseWriteLock();
}
}
public static void handleMemberStarted(InstanceStartedEvent instanceStartedEvent) {
try {
Topology topology = TopologyManager.getTopology();
Service service = topology.getService(instanceStartedEvent.getServiceName());
if (service == null) {
log.warn(String.format("Service %s does not exist", instanceStartedEvent.getServiceName()));
return;
}
if (!service.clusterExists(instanceStartedEvent.getClusterId())) {
log.warn(
String.format(
"Cluster %s does not exist in service %s",
instanceStartedEvent.getClusterId(), instanceStartedEvent.getServiceName()));
return;
}
Cluster cluster = service.getCluster(instanceStartedEvent.getClusterId());
Member member = cluster.getMember(instanceStartedEvent.getMemberId());
if (member == null) {
log.warn(String.format("Member %s does not exist", instanceStartedEvent.getMemberId()));
return;
}
try {
TopologyManager.acquireWriteLock();
// try update lifecycle state
if (!member.isStateTransitionValid(MemberStatus.Starting)) {
log.error(
"Invalid State Transition from "
+ member.getStatus()
+ " to "
+ MemberStatus.Starting);
return;
} else {
member.setStatus(MemberStatus.Starting);
log.info("member started event adding status started");
TopologyManager.updateTopology(topology);
// memberStartedEvent.
TopologyEventPublisher.sendMemberStartedEvent(instanceStartedEvent);
// publishing data
BAMUsageDataPublisher.publish(
instanceStartedEvent.getMemberId(),
instanceStartedEvent.getPartitionId(),
instanceStartedEvent.getNetworkPartitionId(),
instanceStartedEvent.getClusterId(),
instanceStartedEvent.getServiceName(),
MemberStatus.Starting.toString(),
null);
}
} finally {
TopologyManager.releaseWriteLock();
}
} catch (Exception e) {
String message =
String.format(
"Could not handle member started event: [application-id] %s "
+ "[service-name] %s [member-id] %s",
instanceStartedEvent.getApplicationId(),
instanceStartedEvent.getServiceName(),
instanceStartedEvent.getMemberId());
log.warn(message, e);
}
}
/**
* Update member status to initialized and publish member initialized event
*
* @param memberContext
*/
public static void handleMemberInitializedEvent(MemberContext memberContext) {
Topology topology = TopologyManager.getTopology();
Service service = topology.getService(memberContext.getCartridgeType());
if (service == null) {
log.warn(String.format("Service %s does not exist", memberContext.getCartridgeType()));
return;
}
if (!service.clusterExists(memberContext.getClusterId())) {
log.warn(
String.format(
"Cluster %s does not exist in service %s",
memberContext.getClusterId(), memberContext.getCartridgeType()));
return;
}
Member member =
service.getCluster(memberContext.getClusterId()).getMember(memberContext.getMemberId());
if (member == null) {
log.warn(String.format("Member %s does not exist", memberContext.getMemberId()));
return;
}
try {
TopologyManager.acquireWriteLock();
// Set ip addresses
member.setDefaultPrivateIP(memberContext.getDefaultPrivateIP());
if (memberContext.getPrivateIPs() != null) {
member.setMemberPrivateIPs(Arrays.asList(memberContext.getPrivateIPs()));
}
member.setDefaultPublicIP(memberContext.getDefaultPublicIP());
if (memberContext.getPublicIPs() != null) {
member.setMemberPublicIPs(Arrays.asList(memberContext.getPublicIPs()));
}
// try update lifecycle state
if (!member.isStateTransitionValid(MemberStatus.Initialized)) {
log.error(
"Invalid state transition from "
+ member.getStatus()
+ " to "
+ MemberStatus.Initialized);
return;
} else {
member.setStatus(MemberStatus.Initialized);
log.info("Member status updated to initialized");
TopologyManager.updateTopology(topology);
TopologyEventPublisher.sendMemberInitializedEvent(memberContext);
// publishing data
BAMUsageDataPublisher.publish(
memberContext.getMemberId(),
memberContext.getPartition().getId(),
memberContext.getNetworkPartitionId(),
memberContext.getClusterId(),
memberContext.getCartridgeType(),
MemberStatus.Initialized.toString(),
null);
}
} finally {
TopologyManager.releaseWriteLock();
}
}
@NotNull
public Class classToClass(@NotNull PsiClass psiClass) {
Set<String> modifiers = modifiersListToModifiersSet(psiClass.getModifierList());
List<Field> fields = fieldsToFieldList(psiClass.getFields(), psiClass);
List<Element> typeParameters = elementsToElementList(psiClass.getTypeParameters());
List<Type> implementsTypes = typesToNotNullableTypeList(psiClass.getImplementsListTypes());
List<Type> extendsTypes = typesToNotNullableTypeList(psiClass.getExtendsListTypes());
IdentifierImpl name = new IdentifierImpl(psiClass.getName());
List<Expression> baseClassParams = new LinkedList<Expression>();
List<Member> members = getMembers(psiClass);
// we try to find super() call and generate class declaration like that: class A(name: String, i
// : Int) : Base(name)
SuperVisitor visitor = new SuperVisitor();
psiClass.accept(visitor);
Collection<PsiExpressionList> resolvedSuperCallParameters =
visitor.getResolvedSuperCallParameters();
if (resolvedSuperCallParameters.size() == 1) {
baseClassParams.addAll(
expressionsToExpressionList(
resolvedSuperCallParameters.toArray(new PsiExpressionList[1])[0].getExpressions()));
}
// we create primary constructor from all non final fields and fields without initializers
if (!psiClass.isEnum()
&& !psiClass.isInterface()
&& psiClass.getConstructors().length > 1
&& getPrimaryConstructorForThisCase(psiClass) == null) {
List<Field> finalOrWithEmptyInitializer = getFinalOrWithEmptyInitializer(fields);
Map<String, String> initializers = new HashMap<String, String>();
for (Member m : members) {
// and modify secondaries
if (m.getKind() == INode.Kind.CONSTRUCTOR) {
Function f = (Function) m;
if (!((Constructor) f).isPrimary()) {
for (Field fo : finalOrWithEmptyInitializer) {
String init = getDefaultInitializer(fo);
initializers.put(fo.getIdentifier().toKotlin(), init);
}
List<Statement> newStatements = new LinkedList<Statement>();
for (Statement s : f.getBlock().getStatements()) {
boolean isRemoved = false;
if (s.getKind() == INode.Kind.ASSIGNMENT_EXPRESSION) {
AssignmentExpression assignmentExpression = (AssignmentExpression) s;
if (assignmentExpression.getLeft().getKind() == INode.Kind.CALL_CHAIN) {
for (Field fo : finalOrWithEmptyInitializer) {
String id = fo.getIdentifier().toKotlin();
if (((CallChainExpression) assignmentExpression.getLeft())
.getIdentifier()
.toKotlin()
.endsWith("." + id)) {
initializers.put(id, assignmentExpression.getRight().toKotlin());
isRemoved = true;
}
}
}
}
if (!isRemoved) {
newStatements.add(s);
}
}
newStatements.add(
0,
new DummyStringExpression(
"val __ = "
+ createPrimaryConstructorInvocation(
name.toKotlin(), finalOrWithEmptyInitializer, initializers)));
f.setBlock(new Block(newStatements));
}
}
}
members.add(
new Constructor(
Identifier.EMPTY_IDENTIFIER,
Collections.<String>emptySet(),
new ClassType(name),
Collections.<Element>emptyList(),
new ParameterList(createParametersFromFields(finalOrWithEmptyInitializer)),
new Block(createInitStatementsFromFields(finalOrWithEmptyInitializer)),
true));
}
if (psiClass.isInterface()) {
return new Trait(
this,
name,
modifiers,
typeParameters,
extendsTypes,
Collections.<Expression>emptyList(),
implementsTypes,
members);
}
if (psiClass.isEnum()) {
return new Enum(
this,
name,
modifiers,
typeParameters,
Collections.<Type>emptyList(),
Collections.<Expression>emptyList(),
implementsTypes,
members);
}
return new Class(
this,
name,
modifiers,
typeParameters,
extendsTypes,
baseClassParams,
implementsTypes,
members);
}
public FlushResult call() throws Exception {
// For each measure and each star, ask the index
// which headers intersect.
final List<SegmentHeader> headers = new ArrayList<SegmentHeader>();
final List<Member> measures = CacheControlImpl.findMeasures(region);
final SegmentColumn[] flushRegion = CacheControlImpl.findAxisValues(region);
final List<RolapStar> starList = CacheControlImpl.getStarList(region);
for (Member member : measures) {
if (!(member instanceof RolapStoredMeasure)) {
continue;
}
final RolapStoredMeasure storedMeasure = (RolapStoredMeasure) member;
final RolapStar star = storedMeasure.getCube().getStar();
final SegmentCacheIndex index = cacheMgr.indexRegistry.getIndex(star);
headers.addAll(
index.intersectRegion(
member.getDimension().getSchema().getName(),
((RolapSchema) member.getDimension().getSchema()).getChecksum(),
storedMeasure.getCube().getName(),
storedMeasure.getName(),
storedMeasure.getCube().getStar().getFactTable().getAlias(),
flushRegion));
}
// If flushRegion is empty, this means we must clear all
// segments for the region's measures.
if (flushRegion.length == 0) {
for (final SegmentHeader header : headers) {
for (RolapStar star : starList) {
cacheMgr.indexRegistry.getIndex(star).remove(header);
}
// Remove the segment from external caches. Use an
// executor, because it may take some time. We discard
// the future, because we don't care too much if it fails.
cacheControlImpl.trace(
"discard segment - it cannot be constrained and maintain consistency:\n"
+ header.getDescription());
final Future<?> task =
cacheMgr.cacheExecutor.submit(
new Runnable() {
public void run() {
try {
// Note that the SegmentCache API doesn't
// require us to verify that the segment
// exists (by calling "contains") before we
// call "remove".
cacheMgr.compositeCache.remove(header);
} catch (Throwable e) {
LOGGER.warn("remove header failed: " + header, e);
}
}
});
Util.safeGet(task, "SegmentCacheManager.flush");
}
return new FlushResult(Collections.<Callable<Boolean>>emptyList());
}
// Now we know which headers intersect. For each of them,
// we append an excluded region.
//
// TODO: Optimize the logic here. If a segment is mostly
// empty, we should trash it completely.
final List<Callable<Boolean>> callableList = new ArrayList<Callable<Boolean>>();
for (final SegmentHeader header : headers) {
if (!header.canConstrain(flushRegion)) {
// We have to delete that segment altogether.
cacheControlImpl.trace(
"discard segment - it cannot be constrained and maintain consistency:\n"
+ header.getDescription());
for (RolapStar star : starList) {
cacheMgr.indexRegistry.getIndex(star).remove(header);
}
continue;
}
final SegmentHeader newHeader = header.constrain(flushRegion);
for (final SegmentCacheWorker worker : cacheMgr.segmentCacheWorkers) {
callableList.add(
new Callable<Boolean>() {
public Boolean call() throws Exception {
boolean existed;
if (worker.supportsRichIndex()) {
final SegmentBody sb = worker.get(header);
existed = worker.remove(header);
if (sb != null) {
worker.put(newHeader, sb);
}
} else {
// The cache doesn't support rich index. We
// have to clear the segment entirely.
existed = worker.remove(header);
}
return existed;
}
});
}
for (RolapStar star : starList) {
SegmentCacheIndex index = cacheMgr.indexRegistry.getIndex(star);
index.remove(header);
index.add(newHeader, false, null);
}
}
// Done
return new FlushResult(callableList);
}
public static void handleMemberReadyToShutdown(
InstanceReadyToShutdownEvent instanceReadyToShutdownEvent)
throws InvalidMemberException, InvalidCartridgeTypeException {
Topology topology = TopologyManager.getTopology();
Service service = topology.getService(instanceReadyToShutdownEvent.getServiceName());
// update the status of the member
if (service == null) {
log.warn(
String.format(
"Service %s does not exist", instanceReadyToShutdownEvent.getServiceName()));
return;
}
Cluster cluster = service.getCluster(instanceReadyToShutdownEvent.getClusterId());
if (cluster == null) {
log.warn(
String.format("Cluster %s does not exist", instanceReadyToShutdownEvent.getClusterId()));
return;
}
Member member = cluster.getMember(instanceReadyToShutdownEvent.getMemberId());
if (member == null) {
log.warn(
String.format("Member %s does not exist", instanceReadyToShutdownEvent.getMemberId()));
return;
}
MemberReadyToShutdownEvent memberReadyToShutdownEvent =
new MemberReadyToShutdownEvent(
instanceReadyToShutdownEvent.getServiceName(),
instanceReadyToShutdownEvent.getClusterId(),
instanceReadyToShutdownEvent.getClusterInstanceId(),
instanceReadyToShutdownEvent.getMemberId(),
instanceReadyToShutdownEvent.getNetworkPartitionId(),
instanceReadyToShutdownEvent.getPartitionId());
try {
TopologyManager.acquireWriteLock();
if (!member.isStateTransitionValid(MemberStatus.ReadyToShutDown)) {
log.error(
"Invalid State Transition from "
+ member.getStatus()
+ " to "
+ MemberStatus.ReadyToShutDown);
return;
}
member.setStatus(MemberStatus.ReadyToShutDown);
log.info("Member Ready to shut down event adding status started");
TopologyManager.updateTopology(topology);
} finally {
TopologyManager.releaseWriteLock();
}
TopologyEventPublisher.sendMemberReadyToShutdownEvent(memberReadyToShutdownEvent);
// publishing data
BAMUsageDataPublisher.publish(
instanceReadyToShutdownEvent.getMemberId(),
instanceReadyToShutdownEvent.getPartitionId(),
instanceReadyToShutdownEvent.getNetworkPartitionId(),
instanceReadyToShutdownEvent.getClusterId(),
instanceReadyToShutdownEvent.getServiceName(),
MemberStatus.ReadyToShutDown.toString(),
null);
// termination of particular instance will be handled by autoscaler
}
private void buildForProject(
JavaProject project,
ArrayList potentialSubtypes,
org.eclipse.jdt.core.ICompilationUnit[] workingCopies,
HashSet localTypes,
IProgressMonitor monitor)
throws JavaModelException {
// resolve
int openablesLength = potentialSubtypes.size();
if (openablesLength > 0) {
// copy vectors into arrays
Openable[] openables = new Openable[openablesLength];
potentialSubtypes.toArray(openables);
// sort in the order of roots and in reverse alphabetical order for .class file
// since requesting top level types in the process of caching an enclosing type is
// not supported by the lookup environment
IPackageFragmentRoot[] roots = project.getPackageFragmentRoots();
int rootsLength = roots.length;
final HashtableOfObjectToInt indexes = new HashtableOfObjectToInt(openablesLength);
for (int i = 0; i < openablesLength; i++) {
IJavaElement root = openables[i].getAncestor(IJavaElement.PACKAGE_FRAGMENT_ROOT);
int index;
for (index = 0; index < rootsLength; index++) {
if (roots[index].equals(root)) break;
}
indexes.put(openables[i], index);
}
Arrays.sort(
openables,
new Comparator() {
public int compare(Object a, Object b) {
int aIndex = indexes.get(a);
int bIndex = indexes.get(b);
if (aIndex != bIndex) return aIndex - bIndex;
return ((Openable) b).getElementName().compareTo(((Openable) a).getElementName());
}
});
IType focusType = getType();
boolean inProjectOfFocusType =
focusType != null && focusType.getJavaProject().equals(project);
org.eclipse.jdt.core.ICompilationUnit[] unitsToLookInside = null;
if (inProjectOfFocusType) {
org.eclipse.jdt.core.ICompilationUnit unitToLookInside = focusType.getCompilationUnit();
if (unitToLookInside != null) {
int wcLength = workingCopies == null ? 0 : workingCopies.length;
if (wcLength == 0) {
unitsToLookInside = new org.eclipse.jdt.core.ICompilationUnit[] {unitToLookInside};
} else {
unitsToLookInside = new org.eclipse.jdt.core.ICompilationUnit[wcLength + 1];
unitsToLookInside[0] = unitToLookInside;
System.arraycopy(workingCopies, 0, unitsToLookInside, 1, wcLength);
}
} else {
unitsToLookInside = workingCopies;
}
}
SearchableEnvironment searchableEnvironment =
project.newSearchableNameEnvironment(unitsToLookInside);
this.nameLookup = searchableEnvironment.nameLookup;
Map options = project.getOptions(true);
// disable task tags to speed up parsing
options.put(JavaCore.COMPILER_TASK_TAGS, ""); // $NON-NLS-1$
this.hierarchyResolver =
new HierarchyResolver(searchableEnvironment, options, this, new DefaultProblemFactory());
if (focusType != null) {
Member declaringMember = ((Member) focusType).getOuterMostLocalContext();
if (declaringMember == null) {
// top level or member type
if (!inProjectOfFocusType) {
char[] typeQualifiedName = focusType.getTypeQualifiedName('.').toCharArray();
String[] packageName = ((PackageFragment) focusType.getPackageFragment()).names;
if (searchableEnvironment.findType(typeQualifiedName, Util.toCharArrays(packageName))
== null) {
// focus type is not visible in this project: no need to go further
return;
}
}
} else {
// local or anonymous type
Openable openable;
if (declaringMember.isBinary()) {
openable = (Openable) declaringMember.getClassFile();
} else {
openable = (Openable) declaringMember.getCompilationUnit();
}
localTypes = new HashSet();
localTypes.add(openable.getPath().toString());
this.hierarchyResolver.resolve(new Openable[] {openable}, localTypes, monitor);
return;
}
}
this.hierarchyResolver.resolve(openables, localTypes, monitor);
}
}
/** @since 1.6 */
public static boolean isConcrete(Member member) {
int mod = member.getModifiers();
return (mod & (Modifier.INTERFACE | Modifier.ABSTRACT)) == 0;
}
