import static org.junit.Assert.assertEquals;
import static org.junit.Assert.assertFalse;
import static org.junit.Assert.assertNotNull;
-import static org.junit.Assert.assertNull;
import static org.junit.Assert.assertSame;
import static org.junit.Assert.assertTrue;
import static org.mockito.Mockito.doReturn;
import org.opendaylight.controller.md.cluster.datastore.model.TestModel;
import org.opendaylight.controller.md.sal.common.api.data.AsyncDataBroker;
import org.opendaylight.controller.md.sal.common.api.data.ReadFailedException;
-import org.opendaylight.controller.protobuff.messages.cohort3pc.ThreePhaseCommitCohortMessages;
import org.opendaylight.yangtools.yang.data.api.YangInstanceIdentifier;
import org.opendaylight.yangtools.yang.data.api.schema.ContainerNode;
import org.opendaylight.yangtools.yang.data.api.schema.MapNode;
}
};
+ setupInMemorySnapshotStore();
+
final MockDataChangeListener listener = new MockDataChangeListener(1);
final ActorRef dclActor = actorFactory.createActor(DataChangeListener.props(listener),
"testRegisterChangeListenerWhenNotLeaderInitially-DataChangeListener");
Props.create(new DelegatingShardCreator(creator)).withDispatcher(Dispatchers.DefaultDispatcherId()),
"testRegisterChangeListenerWhenNotLeaderInitially");
- // Write initial data into the in-memory store.
final YangInstanceIdentifier path = TestModel.TEST_PATH;
- writeToStore(shard, path, ImmutableNodes.containerNode(TestModel.TEST_QNAME));
// Wait until the shard receives the first ElectionTimeout message.
assertEquals("Got first ElectionTimeout", true,
assertNotNull("getListenerRegistrationPath", reply.getListenerRegistrationPath());
// Sanity check - verify the shard is not the leader yet.
- shard.tell(new FindLeader(), getRef());
+ shard.tell(FindLeader.INSTANCE, getRef());
final FindLeaderReply findLeadeReply =
expectMsgClass(duration("5 seconds"), FindLeaderReply.class);
- assertNull("Expected the shard not to be the leader", findLeadeReply.getLeaderActor());
+ assertFalse("Expected the shard not to be the leader", findLeadeReply.getLeaderActor().isPresent());
// Signal the onChangeListenerRegistered latch to tell the thread above to proceed
// with the election process.
@Override
public Shard create() throws Exception {
- return new Shard(Shard.builder().id(shardID).datastoreContext(
- dataStoreContextBuilder.persistent(false).build()).schemaContext(SCHEMA_CONTEXT)) {
+ return new Shard(newShardBuilder()) {
@Override
public void onReceiveCommand(final Object message) throws Exception {
if(message instanceof ElectionTimeout && firstElectionTimeout) {
}
};
+ setupInMemorySnapshotStore();
+
final MockDataTreeChangeListener listener = new MockDataTreeChangeListener(1);
final ActorRef dclActor = actorFactory.createActor(DataTreeChangeListenerActor.props(listener),
"testDataTreeChangeListenerNotifiedWhenNotTheLeaderOnRegistration-DataChangeListener");
"testDataTreeChangeListenerNotifiedWhenNotTheLeaderOnRegistration");
final YangInstanceIdentifier path = TestModel.TEST_PATH;
- writeToStore(shard, path, ImmutableNodes.containerNode(TestModel.TEST_QNAME));
assertEquals("Got first ElectionTimeout", true,
onFirstElectionTimeout.await(5, TimeUnit.SECONDS));
RegisterDataTreeChangeListenerReply.class);
assertNotNull("getListenerRegistratioznPath", reply.getListenerRegistrationPath());
- shard.tell(new FindLeader(), getRef());
+ shard.tell(FindLeader.INSTANCE, getRef());
final FindLeaderReply findLeadeReply =
expectMsgClass(duration("5 seconds"), FindLeaderReply.class);
- assertNull("Expected the shard not to be the leader", findLeadeReply.getLeaderActor());
+ assertFalse("Expected the shard not to be the leader", findLeadeReply.getLeaderActor().isPresent());
- writeToStore(shard, path, ImmutableNodes.containerNode(TestModel.TEST_QNAME));
onChangeListenerRegistered.countDown();
// Send the CanCommitTransaction message for the first Tx.
- shard.tell(new CanCommitTransaction(transactionID1).toSerializable(), getRef());
+ shard.tell(new CanCommitTransaction(transactionID1, CURRENT_VERSION).toSerializable(), getRef());
final CanCommitTransactionReply canCommitReply = CanCommitTransactionReply.fromSerializable(
- expectMsgClass(duration, CanCommitTransactionReply.SERIALIZABLE_CLASS));
+ expectMsgClass(duration, CanCommitTransactionReply.class));
assertEquals("Can commit", true, canCommitReply.getCanCommit());
shard.tell(prepareReadyTransactionMessage(false, shard.underlyingActor(), cohort2, transactionID2, modification2), getRef());
// processed after the first Tx completes.
final Future<Object> canCommitFuture1 = Patterns.ask(shard,
- new CanCommitTransaction(transactionID2).toSerializable(), timeout);
+ new CanCommitTransaction(transactionID2, CURRENT_VERSION).toSerializable(), timeout);
final Future<Object> canCommitFuture2 = Patterns.ask(shard,
- new CanCommitTransaction(transactionID3).toSerializable(), timeout);
+ new CanCommitTransaction(transactionID3, CURRENT_VERSION).toSerializable(), timeout);
// Send the CommitTransaction message for the first Tx. After it completes, it should
// trigger the 2nd Tx to proceed which should in turn then trigger the 3rd.
- shard.tell(new CommitTransaction(transactionID1).toSerializable(), getRef());
- expectMsgClass(duration, CommitTransactionReply.SERIALIZABLE_CLASS);
+ shard.tell(new CommitTransaction(transactionID1, CURRENT_VERSION).toSerializable(), getRef());
+ expectMsgClass(duration, CommitTransactionReply.class);
// Wait for the next 2 Tx's to complete.
class OnCommitFutureComplete extends OnFutureComplete {
OnCommitFutureComplete() {
- super(CommitTransactionReply.SERIALIZABLE_CLASS);
+ super(CommitTransactionReply.class);
}
@Override
private final String transactionID;
OnCanCommitFutureComplete(final String transactionID) {
- super(CanCommitTransactionReply.SERIALIZABLE_CLASS);
+ super(CanCommitTransactionReply.class);
this.transactionID = transactionID;
}
assertEquals("Can commit", true, canCommitReply.getCanCommit());
final Future<Object> commitFuture = Patterns.ask(shard,
- new CommitTransaction(transactionID).toSerializable(), timeout);
+ new CommitTransaction(transactionID, CURRENT_VERSION).toSerializable(), timeout);
commitFuture.onComplete(new OnCommitFutureComplete(), getSystem().dispatcher());
}
}
// Send the CanCommitTransaction message.
- shard.tell(new CanCommitTransaction(transactionID).toSerializable(), getRef());
+ shard.tell(new CanCommitTransaction(transactionID, CURRENT_VERSION).toSerializable(), getRef());
final CanCommitTransactionReply canCommitReply = CanCommitTransactionReply.fromSerializable(
- expectMsgClass(duration, CanCommitTransactionReply.SERIALIZABLE_CLASS));
+ expectMsgClass(duration, CanCommitTransactionReply.class));
assertEquals("Can commit", true, canCommitReply.getCanCommit());
// Send the CanCommitTransaction message.
- shard.tell(new CommitTransaction(transactionID).toSerializable(), getRef());
- expectMsgClass(duration, CommitTransactionReply.SERIALIZABLE_CLASS);
+ shard.tell(new CommitTransaction(transactionID, CURRENT_VERSION).toSerializable(), getRef());
+ expectMsgClass(duration, CommitTransactionReply.class);
final InOrder inOrder = inOrder(mockCohort.get());
inOrder.verify(mockCohort.get()).canCommit();
TestModel.OUTER_LIST_PATH).nodeWithKey(TestModel.OUTER_LIST_QNAME, TestModel.ID_QNAME, 1).build(),
ImmutableNodes.mapEntry(TestModel.OUTER_LIST_QNAME, TestModel.ID_QNAME, 1), true, true, 3), getRef());
- expectMsgClass(duration, CommitTransactionReply.SERIALIZABLE_CLASS);
+ expectMsgClass(duration, CommitTransactionReply.class);
final InOrder inOrder = inOrder(mockCohort.get());
inOrder.verify(mockCohort.get()).canCommit();
final CreateTransactionReply createReply = expectMsgClass(duration("3 seconds"), CreateTransactionReply.class);
- getSystem().actorSelection(createReply.getTransactionPath()).tell(new ReadData(path), getRef());
+ getSystem().actorSelection(createReply.getTransactionPath()).tell(
+ new ReadData(path, DataStoreVersions.CURRENT_VERSION), getRef());
final ReadDataReply readReply = expectMsgClass(duration("3 seconds"), ReadDataReply.class);
assertEquals("Read node", containerNode, readReply.getNormalizedNode());
// Commit the write transaction.
- shard.tell(new CanCommitTransaction(transactionID1).toSerializable(), getRef());
+ shard.tell(new CanCommitTransaction(transactionID1, CURRENT_VERSION).toSerializable(), getRef());
final CanCommitTransactionReply canCommitReply = CanCommitTransactionReply.fromSerializable(
- expectMsgClass(duration, CanCommitTransactionReply.SERIALIZABLE_CLASS));
+ expectMsgClass(duration, CanCommitTransactionReply.class));
assertEquals("Can commit", true, canCommitReply.getCanCommit());
- shard.tell(new CommitTransaction(transactionID1).toSerializable(), getRef());
- expectMsgClass(duration, CommitTransactionReply.SERIALIZABLE_CLASS);
+ shard.tell(new CommitTransaction(transactionID1, CURRENT_VERSION).toSerializable(), getRef());
+ expectMsgClass(duration, CommitTransactionReply.class);
// Verify data in the data store.
shard.tell(prepareReadyTransactionMessage(readWrite, shard.underlyingActor(), cohort, transactionID, modification, true), getRef());
- expectMsgClass(duration, ThreePhaseCommitCohortMessages.CommitTransactionReply.class);
+ expectMsgClass(duration, CommitTransactionReply.class);
final InOrder inOrder = inOrder(cohort);
inOrder.verify(cohort).canCommit();
shard.tell(readyMessage, getRef());
- expectMsgClass(CommitTransactionReply.SERIALIZABLE_CLASS);
+ expectMsgClass(CommitTransactionReply.class);
final NormalizedNode<?, ?> actualNode = readStore(shard, TestModel.OUTER_LIST_PATH);
assertEquals(TestModel.OUTER_LIST_QNAME.getLocalName(), mergeData, actualNode);
// Send the CanCommitTransaction message.
- shard.tell(new CanCommitTransaction(txId).toSerializable(), getRef());
+ shard.tell(new CanCommitTransaction(txId, CURRENT_VERSION).toSerializable(), getRef());
final CanCommitTransactionReply canCommitReply = CanCommitTransactionReply.fromSerializable(
- expectMsgClass(CanCommitTransactionReply.SERIALIZABLE_CLASS));
+ expectMsgClass(CanCommitTransactionReply.class));
assertEquals("Can commit", true, canCommitReply.getCanCommit());
// Send the CanCommitTransaction message.
- shard.tell(new CommitTransaction(txId).toSerializable(), getRef());
- expectMsgClass(CommitTransactionReply.SERIALIZABLE_CLASS);
+ shard.tell(new CommitTransaction(txId, CURRENT_VERSION).toSerializable(), getRef());
+ expectMsgClass(CommitTransactionReply.class);
final NormalizedNode<?, ?> actualNode = readStore(shard, TestModel.OUTER_LIST_PATH);
assertEquals(TestModel.OUTER_LIST_QNAME.getLocalName(), mergeData, actualNode);
// Send the CanCommitTransaction message.
- shard.tell(new CanCommitTransaction(transactionID).toSerializable(), getRef());
+ shard.tell(new CanCommitTransaction(transactionID, CURRENT_VERSION).toSerializable(), getRef());
final CanCommitTransactionReply canCommitReply = CanCommitTransactionReply.fromSerializable(
- expectMsgClass(duration, CanCommitTransactionReply.SERIALIZABLE_CLASS));
+ expectMsgClass(duration, CanCommitTransactionReply.class));
assertEquals("Can commit", true, canCommitReply.getCanCommit());
// Send the CanCommitTransaction message.
- shard.tell(new CommitTransaction(transactionID).toSerializable(), getRef());
- expectMsgClass(duration, CommitTransactionReply.SERIALIZABLE_CLASS);
+ shard.tell(new CommitTransaction(transactionID, CURRENT_VERSION).toSerializable(), getRef());
+ expectMsgClass(duration, CommitTransactionReply.class);
final InOrder inOrder = inOrder(cohort);
inOrder.verify(cohort).canCommit();
// Send the CanCommitTransaction message.
- shard.tell(new CanCommitTransaction(transactionID).toSerializable(), getRef());
+ shard.tell(new CanCommitTransaction(transactionID, CURRENT_VERSION).toSerializable(), getRef());
final CanCommitTransactionReply canCommitReply = CanCommitTransactionReply.fromSerializable(
- expectMsgClass(duration, CanCommitTransactionReply.SERIALIZABLE_CLASS));
+ expectMsgClass(duration, CanCommitTransactionReply.class));
assertEquals("Can commit", true, canCommitReply.getCanCommit());
- shard.tell(new CommitTransaction(transactionID).toSerializable(), getRef());
- expectMsgClass(duration, ThreePhaseCommitCohortMessages.CommitTransactionReply.class);
+ shard.tell(new CommitTransaction(transactionID, CURRENT_VERSION).toSerializable(), getRef());
+ expectMsgClass(duration, CommitTransactionReply.class);
final InOrder inOrder = inOrder(cohort);
inOrder.verify(cohort).canCommit();
// Send the CanCommitTransaction message.
- shard.tell(new CanCommitTransaction(transactionID).toSerializable(), getRef());
+ shard.tell(new CanCommitTransaction(transactionID, CURRENT_VERSION).toSerializable(), getRef());
final CanCommitTransactionReply canCommitReply = CanCommitTransactionReply.fromSerializable(
- expectMsgClass(duration, CanCommitTransactionReply.SERIALIZABLE_CLASS));
+ expectMsgClass(duration, CanCommitTransactionReply.class));
assertEquals("Can commit", true, canCommitReply.getCanCommit());
- shard.tell(new CommitTransaction(transactionID).toSerializable(), getRef());
- expectMsgClass(duration, ThreePhaseCommitCohortMessages.CommitTransactionReply.class);
+ shard.tell(new CommitTransaction(transactionID, CURRENT_VERSION).toSerializable(), getRef());
+ expectMsgClass(duration, CommitTransactionReply.class);
final InOrder inOrder = inOrder(cohort);
inOrder.verify(cohort).canCommit();
// Send the CanCommitTransaction message for the first Tx.
- shard.tell(new CanCommitTransaction(transactionID1).toSerializable(), getRef());
+ shard.tell(new CanCommitTransaction(transactionID1, CURRENT_VERSION).toSerializable(), getRef());
final CanCommitTransactionReply canCommitReply = CanCommitTransactionReply.fromSerializable(
- expectMsgClass(duration, CanCommitTransactionReply.SERIALIZABLE_CLASS));
+ expectMsgClass(duration, CanCommitTransactionReply.class));
assertEquals("Can commit", true, canCommitReply.getCanCommit());
// Send the CanCommitTransaction message for the 2nd Tx. This should get queued and
// processed after the first Tx completes.
final Future<Object> canCommitFuture = Patterns.ask(shard,
- new CanCommitTransaction(transactionID2).toSerializable(), timeout);
+ new CanCommitTransaction(transactionID2, CURRENT_VERSION).toSerializable(), timeout);
// Send the CommitTransaction message for the first Tx. This should send back an error
// and trigger the 2nd Tx to proceed.
- shard.tell(new CommitTransaction(transactionID1).toSerializable(), getRef());
+ shard.tell(new CommitTransaction(transactionID1, CURRENT_VERSION).toSerializable(), getRef());
expectMsgClass(duration, akka.actor.Status.Failure.class);
// Wait for the 2nd Tx to complete the canCommit phase.
// Send the CanCommitTransaction message for the first Tx.
- shard.tell(new CanCommitTransaction(transactionID1).toSerializable(), getRef());
+ shard.tell(new CanCommitTransaction(transactionID1, CURRENT_VERSION).toSerializable(), getRef());
final CanCommitTransactionReply canCommitReply = CanCommitTransactionReply.fromSerializable(
- expectMsgClass(duration, CanCommitTransactionReply.SERIALIZABLE_CLASS));
+ expectMsgClass(duration, CanCommitTransactionReply.class));
assertEquals("Can commit", true, canCommitReply.getCanCommit());
// Send the CanCommitTransaction message for the 2nd Tx. This should get queued and
// processed after the first Tx completes.
final Future<Object> canCommitFuture = Patterns.ask(shard,
- new CanCommitTransaction(transactionID2).toSerializable(), timeout);
+ new CanCommitTransaction(transactionID2, CURRENT_VERSION).toSerializable(), timeout);
// Send the CommitTransaction message for the first Tx. This should send back an error
// and trigger the 2nd Tx to proceed.
- shard.tell(new CommitTransaction(transactionID1).toSerializable(), getRef());
+ shard.tell(new CommitTransaction(transactionID1, CURRENT_VERSION).toSerializable(), getRef());
expectMsgClass(duration, akka.actor.Status.Failure.class);
// Wait for the 2nd Tx to complete the canCommit phase.
// Send the CanCommitTransaction message.
- shard.tell(new CanCommitTransaction(transactionID1).toSerializable(), getRef());
+ shard.tell(new CanCommitTransaction(transactionID1, CURRENT_VERSION).toSerializable(), getRef());
expectMsgClass(duration, akka.actor.Status.Failure.class);
// Send another can commit to ensure the failed one got cleaned up.
shard.tell(prepareReadyTransactionMessage(readWrite, shard.underlyingActor(), cohort, transactionID2, modification), getRef());
expectMsgClass(duration, ReadyTransactionReply.class);
- shard.tell(new CanCommitTransaction(transactionID2).toSerializable(), getRef());
+ shard.tell(new CanCommitTransaction(transactionID2, CURRENT_VERSION).toSerializable(), getRef());
final CanCommitTransactionReply reply = CanCommitTransactionReply.fromSerializable(
- expectMsgClass(CanCommitTransactionReply.SERIALIZABLE_CLASS));
+ expectMsgClass(CanCommitTransactionReply.class));
assertEquals("getCanCommit", true, reply.getCanCommit());
}};
}
// Send the CanCommitTransaction message.
- shard.tell(new CanCommitTransaction(transactionID1).toSerializable(), getRef());
+ shard.tell(new CanCommitTransaction(transactionID1, CURRENT_VERSION).toSerializable(), getRef());
CanCommitTransactionReply reply = CanCommitTransactionReply.fromSerializable(
- expectMsgClass(CanCommitTransactionReply.SERIALIZABLE_CLASS));
+ expectMsgClass(CanCommitTransactionReply.class));
assertEquals("getCanCommit", false, reply.getCanCommit());
// Send another can commit to ensure the failed one got cleaned up.
shard.tell(prepareReadyTransactionMessage(readWrite, shard.underlyingActor(), cohort, transactionID2, modification), getRef());
expectMsgClass(duration, ReadyTransactionReply.class);
- shard.tell(new CanCommitTransaction(transactionID2).toSerializable(), getRef());
+ shard.tell(new CanCommitTransaction(transactionID2, CURRENT_VERSION).toSerializable(), getRef());
reply = CanCommitTransactionReply.fromSerializable(
- expectMsgClass(CanCommitTransactionReply.SERIALIZABLE_CLASS));
+ expectMsgClass(CanCommitTransactionReply.class));
assertEquals("getCanCommit", true, reply.getCanCommit());
}};
}
shard.tell(prepareReadyTransactionMessage(readWrite, shard.underlyingActor(), cohort, transactionID2, modification, true), getRef());
- expectMsgClass(duration, CommitTransactionReply.SERIALIZABLE_CLASS);
+ expectMsgClass(duration, CommitTransactionReply.class);
}};
}
shard.tell(prepareReadyTransactionMessage(readWrite, shard.underlyingActor(), cohort, transactionID2, modification, true), getRef());
- expectMsgClass(duration, CommitTransactionReply.SERIALIZABLE_CLASS);
+ expectMsgClass(duration, CommitTransactionReply.class);
}};
}
shard.tell(prepareReadyTransactionMessage(readWrite, shard.underlyingActor(), cohort, transactionID, modification), getRef());
expectMsgClass(duration, ReadyTransactionReply.class);
- shard.tell(new CanCommitTransaction(transactionID).toSerializable(), getRef());
+ shard.tell(new CanCommitTransaction(transactionID, CURRENT_VERSION).toSerializable(), getRef());
final CanCommitTransactionReply canCommitReply = CanCommitTransactionReply.fromSerializable(
- expectMsgClass(duration, CanCommitTransactionReply.SERIALIZABLE_CLASS));
+ expectMsgClass(duration, CanCommitTransactionReply.class));
assertEquals("Can commit", true, canCommitReply.getCanCommit());
- shard.tell(new CommitTransaction(transactionID).toSerializable(), getRef());
- expectMsgClass(duration, CommitTransactionReply.SERIALIZABLE_CLASS);
+ shard.tell(new CommitTransaction(transactionID, CURRENT_VERSION).toSerializable(), getRef());
+ expectMsgClass(duration, CommitTransactionReply.class);
final NormalizedNode<?, ?> node = readStore(shard, TestModel.TEST_PATH);
// canCommit 1st Tx. We don't send the commit so it should timeout.
- shard.tell(new CanCommitTransaction(transactionID1).toSerializable(), getRef());
- expectMsgClass(duration, CanCommitTransactionReply.SERIALIZABLE_CLASS);
+ shard.tell(new CanCommitTransaction(transactionID1, CURRENT_VERSION).toSerializable(), getRef());
+ expectMsgClass(duration, CanCommitTransactionReply.class);
// canCommit the 2nd Tx - it should complete after the 1st Tx times out.
- shard.tell(new CanCommitTransaction(transactionID2).toSerializable(), getRef());
- expectMsgClass(duration, CanCommitTransactionReply.SERIALIZABLE_CLASS);
+ shard.tell(new CanCommitTransaction(transactionID2, CURRENT_VERSION).toSerializable(), getRef());
+ expectMsgClass(duration, CanCommitTransactionReply.class);
// Try to commit the 1st Tx - should fail as it's not the current Tx.
- shard.tell(new CommitTransaction(transactionID1).toSerializable(), getRef());
+ shard.tell(new CommitTransaction(transactionID1, CURRENT_VERSION).toSerializable(), getRef());
expectMsgClass(duration, akka.actor.Status.Failure.class);
// Commit the 2nd Tx.
- shard.tell(new CommitTransaction(transactionID2).toSerializable(), getRef());
- expectMsgClass(duration, CommitTransactionReply.SERIALIZABLE_CLASS);
+ shard.tell(new CommitTransaction(transactionID2, CURRENT_VERSION).toSerializable(), getRef());
+ expectMsgClass(duration, CommitTransactionReply.class);
final NormalizedNode<?, ?> node = readStore(shard, listNodePath);
assertNotNull(listNodePath + " not found", node);
// canCommit 1st Tx.
- shard.tell(new CanCommitTransaction(transactionID1).toSerializable(), getRef());
- expectMsgClass(duration, CanCommitTransactionReply.SERIALIZABLE_CLASS);
+ shard.tell(new CanCommitTransaction(transactionID1, CURRENT_VERSION).toSerializable(), getRef());
+ expectMsgClass(duration, CanCommitTransactionReply.class);
// canCommit the 2nd Tx - it should get queued.
- shard.tell(new CanCommitTransaction(transactionID2).toSerializable(), getRef());
+ shard.tell(new CanCommitTransaction(transactionID2, CURRENT_VERSION).toSerializable(), getRef());
// canCommit the 3rd Tx - should exceed queue capacity and fail.
- shard.tell(new CanCommitTransaction(transactionID3).toSerializable(), getRef());
+ shard.tell(new CanCommitTransaction(transactionID3, CURRENT_VERSION).toSerializable(), getRef());
expectMsgClass(duration, akka.actor.Status.Failure.class);
}};
}
// All Tx's are readied. We'll send canCommit for the last one but not the others. The others
// should expire from the queue and the last one should be processed.
- shard.tell(new CanCommitTransaction(transactionID3).toSerializable(), getRef());
- expectMsgClass(duration, CanCommitTransactionReply.SERIALIZABLE_CLASS);
+ shard.tell(new CanCommitTransaction(transactionID3, CURRENT_VERSION).toSerializable(), getRef());
+ expectMsgClass(duration, CanCommitTransactionReply.class);
}};
}
// CanCommit the first one so it's the current in-progress CohortEntry.
- shard.tell(new CanCommitTransaction(transactionID1).toSerializable(), getRef());
- expectMsgClass(duration, CanCommitTransactionReply.SERIALIZABLE_CLASS);
+ shard.tell(new CanCommitTransaction(transactionID1, CURRENT_VERSION).toSerializable(), getRef());
+ expectMsgClass(duration, CanCommitTransactionReply.class);
// Ready the second Tx.
// Commit the first Tx. After completing, the second should expire from the queue and the third
// Tx committed.
- shard.tell(new CommitTransaction(transactionID1).toSerializable(), getRef());
- expectMsgClass(duration, CommitTransactionReply.SERIALIZABLE_CLASS);
+ shard.tell(new CommitTransaction(transactionID1, CURRENT_VERSION).toSerializable(), getRef());
+ expectMsgClass(duration, CommitTransactionReply.class);
// Expect commit reply from the third Tx.
- expectMsgClass(duration, CommitTransactionReply.SERIALIZABLE_CLASS);
+ expectMsgClass(duration, CommitTransactionReply.class);
final NormalizedNode<?, ?> node = readStore(shard, TestModel.TEST2_PATH);
assertNotNull(TestModel.TEST2_PATH + " not found", node);
newShardProps().withDispatcher(Dispatchers.DefaultDispatcherId()),
"testCanCommitBeforeReadyFailure");
- shard.tell(new CanCommitTransaction("tx").toSerializable(), getRef());
+ shard.tell(new CanCommitTransaction("tx", CURRENT_VERSION).toSerializable(), getRef());
expectMsgClass(duration("5 seconds"), akka.actor.Status.Failure.class);
}};
}
// Send the CanCommitTransaction message for the first Tx.
- shard.tell(new CanCommitTransaction(transactionID1).toSerializable(), getRef());
+ shard.tell(new CanCommitTransaction(transactionID1, CURRENT_VERSION).toSerializable(), getRef());
final CanCommitTransactionReply canCommitReply = CanCommitTransactionReply.fromSerializable(
- expectMsgClass(duration, CanCommitTransactionReply.SERIALIZABLE_CLASS));
+ expectMsgClass(duration, CanCommitTransactionReply.class));
assertEquals("Can commit", true, canCommitReply.getCanCommit());
// Send the CanCommitTransaction message for the 2nd Tx. This should get queued and
// processed after the first Tx completes.
final Future<Object> canCommitFuture = Patterns.ask(shard,
- new CanCommitTransaction(transactionID2).toSerializable(), timeout);
+ new CanCommitTransaction(transactionID2, CURRENT_VERSION).toSerializable(), timeout);
// Send the AbortTransaction message for the first Tx. This should trigger the 2nd
// Tx to proceed.
- shard.tell(new AbortTransaction(transactionID1).toSerializable(), getRef());
- expectMsgClass(duration, AbortTransactionReply.SERIALIZABLE_CLASS);
+ shard.tell(new AbortTransaction(transactionID1, CURRENT_VERSION).toSerializable(), getRef());
+ expectMsgClass(duration, AbortTransactionReply.class);
// Wait for the 2nd Tx to complete the canCommit phase.
// Send the AbortTransaction message.
- shard.tell(new AbortTransaction(transactionID).toSerializable(), getRef());
- expectMsgClass(duration, AbortTransactionReply.SERIALIZABLE_CLASS);
+ shard.tell(new AbortTransaction(transactionID, CURRENT_VERSION).toSerializable(), getRef());
+ expectMsgClass(duration, AbortTransactionReply.class);
verify(cohort).abort();
// Now send CanCommitTransaction - should fail.
- shard.tell(new CanCommitTransaction(transactionID).toSerializable(), getRef());
+ shard.tell(new CanCommitTransaction(transactionID, CURRENT_VERSION).toSerializable(), getRef());
Throwable failure = expectMsgClass(duration, akka.actor.Status.Failure.class).cause();
assertTrue("Failure type", failure instanceof IllegalStateException);
public void testClusteredDataChangeListenerDelayedRegistration() throws Exception {
new ShardTestKit(getSystem()) {{
String testName = "testClusteredDataChangeListenerDelayedRegistration";
- dataStoreContextBuilder.shardElectionTimeoutFactor(1000);
+ dataStoreContextBuilder.shardElectionTimeoutFactor(1000).
+ customRaftPolicyImplementation(DisableElectionsRaftPolicy.class.getName());
final MockDataChangeListener listener = new MockDataChangeListener(1);
final ActorRef dclActor = actorFactory.createActor(DataChangeListener.props(listener),
actorFactory.generateActorId(testName + "-DataChangeListener"));
+ setupInMemorySnapshotStore();
+
final TestActorRef<Shard> shard = actorFactory.createTestActor(
newShardBuilder().props().withDispatcher(Dispatchers.DefaultDispatcherId()),
actorFactory.generateActorId(testName + "-shard"));
RegisterChangeListenerReply.class);
assertNotNull("getListenerRegistrationPath", reply.getListenerRegistrationPath());
- writeToStore(shard, path, ImmutableNodes.containerNode(TestModel.TEST_QNAME));
-
- shard.tell(new ElectionTimeout(), ActorRef.noSender());
+ shard.tell(DatastoreContext.newBuilderFrom(dataStoreContextBuilder.build()).
+ customRaftPolicyImplementation(null).build(), ActorRef.noSender());
listener.waitForChangeEvents();
}};
"akka://test/user/" + followerShardID.toString())).schemaContext(SCHEMA_CONTEXT).props().
withDispatcher(Dispatchers.DefaultDispatcherId()), leaderShardID.toString());
- leaderShard.tell(new ElectionTimeout(), ActorRef.noSender());
+ leaderShard.tell(ElectionTimeout.INSTANCE, ActorRef.noSender());
String leaderPath = waitUntilLeader(followerShard);
assertEquals("Shard leader path", leaderShard.path().toString(), leaderPath);
public void testClusteredDataTreeChangeListenerDelayedRegistration() throws Exception {
new ShardTestKit(getSystem()) {{
String testName = "testClusteredDataTreeChangeListenerDelayedRegistration";
- dataStoreContextBuilder.shardElectionTimeoutFactor(1000);
+ dataStoreContextBuilder.shardElectionTimeoutFactor(1000).
+ customRaftPolicyImplementation(DisableElectionsRaftPolicy.class.getName());
final MockDataTreeChangeListener listener = new MockDataTreeChangeListener(1);
final ActorRef dclActor = actorFactory.createActor(DataTreeChangeListenerActor.props(listener),
actorFactory.generateActorId(testName + "-DataTreeChangeListener"));
+ setupInMemorySnapshotStore();
+
final TestActorRef<Shard> shard = actorFactory.createTestActor(
newShardBuilder().props().withDispatcher(Dispatchers.DefaultDispatcherId()),
actorFactory.generateActorId(testName + "-shard"));
RegisterDataTreeChangeListenerReply.class);
assertNotNull("getListenerRegistrationPath", reply.getListenerRegistrationPath());
- writeToStore(shard, path, ImmutableNodes.containerNode(TestModel.TEST_QNAME));
-
- shard.tell(new ElectionTimeout(), ActorRef.noSender());
+ shard.tell(DatastoreContext.newBuilderFrom(dataStoreContextBuilder.build()).
+ customRaftPolicyImplementation(null).build(), ActorRef.noSender());
listener.waitForChangeEvents();
}};
"akka://test/user/" + followerShardID.toString())).schemaContext(SCHEMA_CONTEXT).props().
withDispatcher(Dispatchers.DefaultDispatcherId()), leaderShardID.toString());
- leaderShard.tell(new ElectionTimeout(), ActorRef.noSender());
+ leaderShard.tell(ElectionTimeout.INSTANCE, ActorRef.noSender());
String leaderPath = waitUntilLeader(followerShard);
assertEquals("Shard leader path", leaderShard.path().toString(), leaderPath);