package org.opendaylight.controller.cluster.datastore;
+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.assertTrue;
+import static org.mockito.Mockito.doReturn;
+import static org.mockito.Mockito.inOrder;
+import static org.mockito.Mockito.mock;
+import static org.opendaylight.controller.cluster.datastore.DataStoreVersions.CURRENT_VERSION;
import akka.actor.ActorRef;
-import akka.actor.ActorSystem;
+import akka.actor.ActorSelection;
+import akka.actor.PoisonPill;
import akka.actor.Props;
-import akka.event.Logging;
+import akka.dispatch.Dispatchers;
+import akka.dispatch.OnComplete;
import akka.japi.Creator;
-import akka.testkit.JavaTestKit;
+import akka.pattern.Patterns;
import akka.testkit.TestActorRef;
+import akka.util.Timeout;
+import com.google.common.base.Function;
import com.google.common.base.Optional;
-import com.google.common.util.concurrent.CheckedFuture;
import com.google.common.util.concurrent.Futures;
import com.google.common.util.concurrent.ListenableFuture;
import com.google.common.util.concurrent.MoreExecutors;
-import org.junit.After;
-import org.junit.Assert;
-import org.junit.Before;
+import com.google.common.util.concurrent.Uninterruptibles;
+import java.io.IOException;
+import java.util.Collections;
+import java.util.HashSet;
+import java.util.List;
+import java.util.Map;
+import java.util.Set;
+import java.util.concurrent.CountDownLatch;
+import java.util.concurrent.ExecutionException;
+import java.util.concurrent.TimeUnit;
+import java.util.concurrent.atomic.AtomicBoolean;
+import java.util.concurrent.atomic.AtomicReference;
import org.junit.Test;
+import org.mockito.InOrder;
+import org.opendaylight.controller.cluster.DataPersistenceProvider;
+import org.opendaylight.controller.cluster.DelegatingPersistentDataProvider;
import org.opendaylight.controller.cluster.datastore.identifiers.ShardIdentifier;
+import org.opendaylight.controller.cluster.datastore.messages.AbortTransaction;
+import org.opendaylight.controller.cluster.datastore.messages.AbortTransactionReply;
+import org.opendaylight.controller.cluster.datastore.messages.BatchedModifications;
+import org.opendaylight.controller.cluster.datastore.messages.BatchedModificationsReply;
+import org.opendaylight.controller.cluster.datastore.messages.CanCommitTransaction;
+import org.opendaylight.controller.cluster.datastore.messages.CanCommitTransactionReply;
+import org.opendaylight.controller.cluster.datastore.messages.CommitTransaction;
import org.opendaylight.controller.cluster.datastore.messages.CommitTransactionReply;
import org.opendaylight.controller.cluster.datastore.messages.CreateTransaction;
-import org.opendaylight.controller.cluster.datastore.messages.EnableNotification;
-import org.opendaylight.controller.cluster.datastore.messages.ForwardedCommitTransaction;
+import org.opendaylight.controller.cluster.datastore.messages.ForwardedReadyTransaction;
import org.opendaylight.controller.cluster.datastore.messages.PeerAddressResolved;
+import org.opendaylight.controller.cluster.datastore.messages.ReadData;
+import org.opendaylight.controller.cluster.datastore.messages.ReadDataReply;
+import org.opendaylight.controller.cluster.datastore.messages.ReadyTransactionReply;
import org.opendaylight.controller.cluster.datastore.messages.RegisterChangeListener;
import org.opendaylight.controller.cluster.datastore.messages.RegisterChangeListenerReply;
import org.opendaylight.controller.cluster.datastore.messages.UpdateSchemaContext;
+import org.opendaylight.controller.cluster.datastore.modification.DeleteModification;
import org.opendaylight.controller.cluster.datastore.modification.MergeModification;
import org.opendaylight.controller.cluster.datastore.modification.Modification;
+import org.opendaylight.controller.cluster.datastore.modification.ModificationPayload;
import org.opendaylight.controller.cluster.datastore.modification.MutableCompositeModification;
import org.opendaylight.controller.cluster.datastore.modification.WriteModification;
-import org.opendaylight.controller.cluster.datastore.node.NormalizedNodeToNodeCodec;
-import org.opendaylight.controller.cluster.datastore.utils.InMemoryJournal;
-import org.opendaylight.controller.cluster.datastore.utils.InMemorySnapshotStore;
+import org.opendaylight.controller.cluster.datastore.utils.MessageCollectorActor;
+import org.opendaylight.controller.cluster.datastore.utils.MockDataChangeListener;
+import org.opendaylight.controller.cluster.datastore.utils.SerializationUtils;
+import org.opendaylight.controller.cluster.notifications.RegisterRoleChangeListener;
+import org.opendaylight.controller.cluster.notifications.RegisterRoleChangeListenerReply;
+import org.opendaylight.controller.cluster.raft.RaftActorContext;
import org.opendaylight.controller.cluster.raft.ReplicatedLogEntry;
import org.opendaylight.controller.cluster.raft.ReplicatedLogImplEntry;
import org.opendaylight.controller.cluster.raft.Snapshot;
-import org.opendaylight.controller.cluster.raft.base.messages.ApplyLogEntries;
+import org.opendaylight.controller.cluster.raft.base.messages.ApplyJournalEntries;
import org.opendaylight.controller.cluster.raft.base.messages.ApplySnapshot;
import org.opendaylight.controller.cluster.raft.base.messages.ApplyState;
-import org.opendaylight.controller.cluster.raft.base.messages.CaptureSnapshot;
-import org.opendaylight.controller.cluster.raft.protobuff.client.messages.CompositeModificationPayload;
-import org.opendaylight.controller.cluster.raft.protobuff.client.messages.Payload;
+import org.opendaylight.controller.cluster.raft.base.messages.ElectionTimeout;
+import org.opendaylight.controller.cluster.raft.base.messages.FollowerInitialSyncUpStatus;
+import org.opendaylight.controller.cluster.raft.client.messages.FindLeader;
+import org.opendaylight.controller.cluster.raft.client.messages.FindLeaderReply;
+import org.opendaylight.controller.cluster.raft.utils.InMemoryJournal;
+import org.opendaylight.controller.cluster.raft.utils.InMemorySnapshotStore;
import org.opendaylight.controller.md.cluster.datastore.model.SchemaContextHelper;
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.AsyncDataChangeEvent;
-import org.opendaylight.controller.md.sal.common.api.data.AsyncDataChangeListener;
import org.opendaylight.controller.md.sal.common.api.data.ReadFailedException;
import org.opendaylight.controller.md.sal.dom.store.impl.InMemoryDOMDataStore;
import org.opendaylight.controller.md.sal.dom.store.impl.InMemoryDOMDataStoreFactory;
-import org.opendaylight.controller.protobuff.messages.common.NormalizedNodeMessages;
+import org.opendaylight.controller.protobuff.messages.cohort3pc.ThreePhaseCommitCohortMessages;
import org.opendaylight.controller.protobuff.messages.transaction.ShardTransactionMessages.CreateTransactionReply;
-import org.opendaylight.controller.sal.core.spi.data.DOMStoreReadTransaction;
import org.opendaylight.controller.sal.core.spi.data.DOMStoreThreePhaseCommitCohort;
import org.opendaylight.controller.sal.core.spi.data.DOMStoreWriteTransaction;
import org.opendaylight.yangtools.yang.data.api.YangInstanceIdentifier;
import org.opendaylight.yangtools.yang.data.api.YangInstanceIdentifier.PathArgument;
+import org.opendaylight.yangtools.yang.data.api.schema.ContainerNode;
import org.opendaylight.yangtools.yang.data.api.schema.DataContainerChild;
import org.opendaylight.yangtools.yang.data.api.schema.MapEntryNode;
import org.opendaylight.yangtools.yang.data.api.schema.NormalizedNode;
import org.opendaylight.yangtools.yang.data.impl.schema.ImmutableNodes;
import org.opendaylight.yangtools.yang.model.api.SchemaContext;
-import scala.concurrent.duration.Duration;
-import java.io.IOException;
-import java.util.Collections;
-import java.util.HashSet;
-import java.util.Set;
-import java.util.concurrent.CountDownLatch;
-import java.util.concurrent.ExecutionException;
-import java.util.concurrent.TimeUnit;
-import static org.junit.Assert.assertEquals;
-import static org.junit.Assert.assertNotNull;
-import static org.junit.Assert.assertTrue;
-import static org.junit.Assert.fail;
-import static org.mockito.Mockito.mock;
-import static org.mockito.Mockito.doReturn;
-import static org.mockito.Mockito.verify;
+import scala.concurrent.Await;
+import scala.concurrent.Future;
+import scala.concurrent.duration.FiniteDuration;
-public class ShardTest extends AbstractActorTest {
+public class ShardTest extends AbstractShardTest {
- private static final DatastoreContext DATA_STORE_CONTEXT =
- new DatastoreContext("", null, Duration.create(10, TimeUnit.MINUTES), 5, 3, 5000, 500);
+ @Test
+ public void testRegisterChangeListener() throws Exception {
+ new ShardTestKit(getSystem()) {{
+ TestActorRef<Shard> shard = TestActorRef.create(getSystem(),
+ newShardProps(), "testRegisterChangeListener");
- private static final SchemaContext SCHEMA_CONTEXT = TestModel.createTestContext();
+ waitUntilLeader(shard);
- private static final ShardIdentifier IDENTIFIER = ShardIdentifier.builder().memberName("member-1")
- .shardName("inventory").type("config").build();
+ shard.tell(new UpdateSchemaContext(SchemaContextHelper.full()), ActorRef.noSender());
- @Before
- public void setUp() {
- System.setProperty("shard.persistent", "false");
+ MockDataChangeListener listener = new MockDataChangeListener(1);
+ ActorRef dclActor = getSystem().actorOf(DataChangeListener.props(listener),
+ "testRegisterChangeListener-DataChangeListener");
- InMemorySnapshotStore.clear();
- InMemoryJournal.clear();
- }
+ shard.tell(new RegisterChangeListener(TestModel.TEST_PATH,
+ dclActor, AsyncDataBroker.DataChangeScope.BASE), getRef());
- @After
- public void tearDown() {
- InMemorySnapshotStore.clear();
- InMemoryJournal.clear();
- }
+ RegisterChangeListenerReply reply = expectMsgClass(duration("3 seconds"),
+ RegisterChangeListenerReply.class);
+ String replyPath = reply.getListenerRegistrationPath().toString();
+ assertTrue("Incorrect reply path: " + replyPath, replyPath.matches(
+ "akka:\\/\\/test\\/user\\/testRegisterChangeListener\\/\\$.*"));
- private Props newShardProps() {
- return Shard.props(IDENTIFIER, Collections.<ShardIdentifier,String>emptyMap(),
- DATA_STORE_CONTEXT, SCHEMA_CONTEXT);
+ YangInstanceIdentifier path = TestModel.TEST_PATH;
+ writeToStore(shard, path, ImmutableNodes.containerNode(TestModel.TEST_QNAME));
+
+ listener.waitForChangeEvents(path);
+
+ dclActor.tell(PoisonPill.getInstance(), ActorRef.noSender());
+ shard.tell(PoisonPill.getInstance(), ActorRef.noSender());
+ }};
}
+ @SuppressWarnings("serial")
@Test
- public void testOnReceiveRegisterListener() throws Exception {
- new JavaTestKit(getSystem()) {{
- ActorRef subject = getSystem().actorOf(newShardProps(), "testRegisterChangeListener");
+ public void testChangeListenerNotifiedWhenNotTheLeaderOnRegistration() throws Exception {
+ // This test tests the timing window in which a change listener is registered before the
+ // shard becomes the leader. We verify that the listener is registered and notified of the
+ // existing data when the shard becomes the leader.
+ new ShardTestKit(getSystem()) {{
+ // For this test, we want to send the RegisterChangeListener message after the shard
+ // has recovered from persistence and before it becomes the leader. So we subclass
+ // Shard to override onReceiveCommand and, when the first ElectionTimeout is received,
+ // we know that the shard has been initialized to a follower and has started the
+ // election process. The following 2 CountDownLatches are used to coordinate the
+ // ElectionTimeout with the sending of the RegisterChangeListener message.
+ final CountDownLatch onFirstElectionTimeout = new CountDownLatch(1);
+ final CountDownLatch onChangeListenerRegistered = new CountDownLatch(1);
+ Creator<Shard> creator = new Creator<Shard>() {
+ boolean firstElectionTimeout = true;
+
+ @Override
+ public Shard create() throws Exception {
+ // Use a non persistent provider because this test actually invokes persist on the journal
+ // this will cause all other messages to not be queued properly after that.
+ // The basic issue is that you cannot use TestActorRef with a persistent actor (at least when
+ // it does do a persist)
+ return new Shard(shardID, Collections.<String,String>emptyMap(),
+ dataStoreContextBuilder.persistent(false).build(), SCHEMA_CONTEXT) {
+ @Override
+ public void onReceiveCommand(final Object message) throws Exception {
+ if(message instanceof ElectionTimeout && firstElectionTimeout) {
+ // Got the first ElectionTimeout. We don't forward it to the
+ // base Shard yet until we've sent the RegisterChangeListener
+ // message. So we signal the onFirstElectionTimeout latch to tell
+ // the main thread to send the RegisterChangeListener message and
+ // start a thread to wait on the onChangeListenerRegistered latch,
+ // which the main thread signals after it has sent the message.
+ // After the onChangeListenerRegistered is triggered, we send the
+ // original ElectionTimeout message to proceed with the election.
+ firstElectionTimeout = false;
+ final ActorRef self = getSelf();
+ new Thread() {
+ @Override
+ public void run() {
+ Uninterruptibles.awaitUninterruptibly(
+ onChangeListenerRegistered, 5, TimeUnit.SECONDS);
+ self.tell(message, self);
+ }
+ }.start();
+
+ onFirstElectionTimeout.countDown();
+ } else {
+ super.onReceiveCommand(message);
+ }
+ }
+ };
+ }
+ };
- subject.tell(new UpdateSchemaContext(SchemaContextHelper.full()), getRef());
+ MockDataChangeListener listener = new MockDataChangeListener(1);
+ ActorRef dclActor = getSystem().actorOf(DataChangeListener.props(listener),
+ "testRegisterChangeListenerWhenNotLeaderInitially-DataChangeListener");
- subject.tell(new RegisterChangeListener(TestModel.TEST_PATH,
- getRef().path(), AsyncDataBroker.DataChangeScope.BASE), getRef());
+ TestActorRef<Shard> shard = TestActorRef.create(getSystem(),
+ Props.create(new DelegatingShardCreator(creator)),
+ "testRegisterChangeListenerWhenNotLeaderInitially");
- EnableNotification enable = expectMsgClass(duration("3 seconds"), EnableNotification.class);
- assertEquals("isEnabled", false, enable.isEnabled());
+ // Write initial data into the in-memory store.
+ YangInstanceIdentifier path = TestModel.TEST_PATH;
+ writeToStore(shard, path, ImmutableNodes.containerNode(TestModel.TEST_QNAME));
- RegisterChangeListenerReply reply = expectMsgClass(duration("3 seconds"),
+ // Wait until the shard receives the first ElectionTimeout message.
+ assertEquals("Got first ElectionTimeout", true,
+ onFirstElectionTimeout.await(5, TimeUnit.SECONDS));
+
+ // Now send the RegisterChangeListener and wait for the reply.
+ shard.tell(new RegisterChangeListener(path, dclActor,
+ AsyncDataBroker.DataChangeScope.SUBTREE), getRef());
+
+ RegisterChangeListenerReply reply = expectMsgClass(duration("5 seconds"),
RegisterChangeListenerReply.class);
- assertTrue(reply.getListenerRegistrationPath().toString().matches(
- "akka:\\/\\/test\\/user\\/testRegisterChangeListener\\/\\$.*"));
+ assertNotNull("getListenerRegistrationPath", reply.getListenerRegistrationPath());
+
+ // Sanity check - verify the shard is not the leader yet.
+ shard.tell(new FindLeader(), getRef());
+ FindLeaderReply findLeadeReply =
+ expectMsgClass(duration("5 seconds"), FindLeaderReply.class);
+ assertNull("Expected the shard not to be the leader", findLeadeReply.getLeaderActor());
+
+ // Signal the onChangeListenerRegistered latch to tell the thread above to proceed
+ // with the election process.
+ onChangeListenerRegistered.countDown();
+
+ // Wait for the shard to become the leader and notify our listener with the existing
+ // data in the store.
+ listener.waitForChangeEvents(path);
+
+ dclActor.tell(PoisonPill.getInstance(), ActorRef.noSender());
+ shard.tell(PoisonPill.getInstance(), ActorRef.noSender());
}};
}
@Test
public void testCreateTransaction(){
new ShardTestKit(getSystem()) {{
- ActorRef subject = getSystem().actorOf(newShardProps(), "testCreateTransaction");
+ ActorRef shard = getSystem().actorOf(newShardProps(), "testCreateTransaction");
- waitUntilLeader(subject);
+ waitUntilLeader(shard);
- subject.tell(new UpdateSchemaContext(TestModel.createTestContext()), getRef());
+ shard.tell(new UpdateSchemaContext(TestModel.createTestContext()), getRef());
- subject.tell(new CreateTransaction("txn-1",
+ shard.tell(new CreateTransaction("txn-1",
TransactionProxy.TransactionType.READ_ONLY.ordinal() ).toSerializable(), getRef());
CreateTransactionReply reply = expectMsgClass(duration("3 seconds"),
String path = reply.getTransactionActorPath().toString();
assertTrue("Unexpected transaction path " + path,
path.contains("akka://test/user/testCreateTransaction/shard-txn-1"));
- expectNoMsg();
+
+ shard.tell(PoisonPill.getInstance(), ActorRef.noSender());
}};
}
@Test
public void testCreateTransactionOnChain(){
new ShardTestKit(getSystem()) {{
- final ActorRef subject = getSystem().actorOf(newShardProps(), "testCreateTransactionOnChain");
+ final ActorRef shard = getSystem().actorOf(newShardProps(), "testCreateTransactionOnChain");
- waitUntilLeader(subject);
+ waitUntilLeader(shard);
- subject.tell(new CreateTransaction("txn-1",
+ shard.tell(new CreateTransaction("txn-1",
TransactionProxy.TransactionType.READ_ONLY.ordinal() , "foobar").toSerializable(),
getRef());
String path = reply.getTransactionActorPath().toString();
assertTrue("Unexpected transaction path " + path,
path.contains("akka://test/user/testCreateTransactionOnChain/shard-txn-1"));
- expectNoMsg();
+
+ shard.tell(PoisonPill.getInstance(), ActorRef.noSender());
}};
}
+ @SuppressWarnings("serial")
@Test
- public void testPeerAddressResolved(){
- new JavaTestKit(getSystem()) {{
- final ShardIdentifier identifier =
- ShardIdentifier.builder().memberName("member-1")
- .shardName("inventory").type("config").build();
-
- Props props = Shard.props(identifier,
- Collections.<ShardIdentifier, String>singletonMap(identifier, null),
- DATA_STORE_CONTEXT, SCHEMA_CONTEXT);
- final ActorRef subject = getSystem().actorOf(props, "testPeerAddressResolved");
-
- new Within(duration("3 seconds")) {
- @Override
- protected void run() {
+ public void testPeerAddressResolved() throws Exception {
+ new ShardTestKit(getSystem()) {{
+ final CountDownLatch recoveryComplete = new CountDownLatch(1);
+ class TestShard extends Shard {
+ TestShard() {
+ super(shardID, Collections.<String, String>singletonMap(shardID.toString(), null),
+ newDatastoreContext(), SCHEMA_CONTEXT);
+ }
- subject.tell(
- new PeerAddressResolved(identifier, "akka://foobar"),
- getRef());
+ Map<String, String> getPeerAddresses() {
+ return getRaftActorContext().getPeerAddresses();
+ }
- expectNoMsg();
+ @Override
+ protected void onRecoveryComplete() {
+ try {
+ super.onRecoveryComplete();
+ } finally {
+ recoveryComplete.countDown();
+ }
}
- };
+ }
+
+ final TestActorRef<Shard> shard = TestActorRef.create(getSystem(),
+ Props.create(new DelegatingShardCreator(new Creator<Shard>() {
+ @Override
+ public TestShard create() throws Exception {
+ return new TestShard();
+ }
+ })), "testPeerAddressResolved");
+
+ //waitUntilLeader(shard);
+ assertEquals("Recovery complete", true,
+ Uninterruptibles.awaitUninterruptibly(recoveryComplete, 5, TimeUnit.SECONDS));
+
+ String address = "akka://foobar";
+ shard.underlyingActor().onReceiveCommand(new PeerAddressResolved(shardID.toString(), address));
+
+ assertEquals("getPeerAddresses", address,
+ ((TestShard)shard.underlyingActor()).getPeerAddresses().get(shardID.toString()));
+
+ shard.tell(PoisonPill.getInstance(), ActorRef.noSender());
}};
}
@Test
- public void testApplySnapshot() throws ExecutionException, InterruptedException {
- TestActorRef<Shard> ref = TestActorRef.create(getSystem(), newShardProps());
+ public void testApplySnapshot() throws Exception {
+ TestActorRef<Shard> shard = TestActorRef.create(getSystem(), newShardProps(),
+ "testApplySnapshot");
- NormalizedNodeToNodeCodec codec =
- new NormalizedNodeToNodeCodec(SCHEMA_CONTEXT);
+ InMemoryDOMDataStore store = new InMemoryDOMDataStore("OPER", MoreExecutors.sameThreadExecutor());
+ store.onGlobalContextUpdated(SCHEMA_CONTEXT);
- ref.underlyingActor().writeToStore(TestModel.TEST_PATH, ImmutableNodes.containerNode(
- TestModel.TEST_QNAME));
+ writeToStore(store, TestModel.TEST_PATH, ImmutableNodes.containerNode(TestModel.TEST_QNAME));
YangInstanceIdentifier root = YangInstanceIdentifier.builder().build();
- NormalizedNode<?,?> expected = ref.underlyingActor().readStore(root);
-
- NormalizedNodeMessages.Container encode = codec.encode(expected);
+ NormalizedNode<?,?> expected = readStore(store, root);
ApplySnapshot applySnapshot = new ApplySnapshot(Snapshot.create(
- encode.getNormalizedNode().toByteString().toByteArray(),
+ SerializationUtils.serializeNormalizedNode(expected),
Collections.<ReplicatedLogEntry>emptyList(), 1, 2, 3, 4));
- ref.underlyingActor().onReceiveCommand(applySnapshot);
+ shard.underlyingActor().onReceiveCommand(applySnapshot);
- NormalizedNode<?,?> actual = ref.underlyingActor().readStore(root);
+ NormalizedNode<?,?> actual = readStore(shard, root);
- assertEquals(expected, actual);
+ assertEquals("Root node", expected, actual);
+
+ shard.tell(PoisonPill.getInstance(), ActorRef.noSender());
}
@Test
public void testApplyState() throws Exception {
- TestActorRef<Shard> shard = TestActorRef.create(getSystem(), newShardProps());
+ TestActorRef<Shard> shard = TestActorRef.create(getSystem(), newShardProps(), "testApplyState");
NormalizedNode<?, ?> node = ImmutableNodes.containerNode(TestModel.TEST_QNAME);
- MutableCompositeModification compMod = new MutableCompositeModification();
- compMod.addModification(new WriteModification(TestModel.TEST_PATH, node, SCHEMA_CONTEXT));
- Payload payload = new CompositeModificationPayload(compMod.toSerializable());
- ApplyState applyState = new ApplyState(null, "test",
- new ReplicatedLogImplEntry(1, 2, payload));
+ ApplyState applyState = new ApplyState(null, "test", new ReplicatedLogImplEntry(1, 2,
+ newModificationPayload(new WriteModification(TestModel.TEST_PATH, node))));
shard.underlyingActor().onReceiveCommand(applyState);
- NormalizedNode<?,?> actual = shard.underlyingActor().readStore(TestModel.TEST_PATH);
+ NormalizedNode<?,?> actual = readStore(shard, TestModel.TEST_PATH);
assertEquals("Applied state", node, actual);
+
+ shard.tell(PoisonPill.getInstance(), ActorRef.noSender());
}
- @SuppressWarnings("serial")
@Test
public void testRecovery() throws Exception {
InMemoryDOMDataStore testStore = InMemoryDOMDataStoreFactory.create("Test", null, null);
testStore.onGlobalContextUpdated(SCHEMA_CONTEXT);
- DOMStoreWriteTransaction writeTx = testStore.newWriteOnlyTransaction();
- writeTx.write(TestModel.TEST_PATH, ImmutableNodes.containerNode(TestModel.TEST_QNAME));
- DOMStoreThreePhaseCommitCohort commitCohort = writeTx.ready();
- commitCohort.preCommit().get();
- commitCohort.commit().get();
+ writeToStore(testStore, TestModel.TEST_PATH, ImmutableNodes.containerNode(TestModel.TEST_QNAME));
- DOMStoreReadTransaction readTx = testStore.newReadOnlyTransaction();
- NormalizedNode<?, ?> root = readTx.read(YangInstanceIdentifier.builder().build()).get().get();
+ NormalizedNode<?, ?> root = readStore(testStore, YangInstanceIdentifier.builder().build());
- InMemorySnapshotStore.addSnapshot(IDENTIFIER.toString(), Snapshot.create(
- new NormalizedNodeToNodeCodec(SCHEMA_CONTEXT).encode(
- root).
- getNormalizedNode().toByteString().toByteArray(),
- Collections.<ReplicatedLogEntry>emptyList(), 0, 1, -1, -1));
+ InMemorySnapshotStore.addSnapshot(shardID.toString(), Snapshot.create(
+ SerializationUtils.serializeNormalizedNode(root),
+ Collections.<ReplicatedLogEntry>emptyList(), 0, 1, -1, -1));
// Set up the InMemoryJournal.
- InMemoryJournal.addEntry(IDENTIFIER.toString(), 0, new ReplicatedLogImplEntry(0, 1, newPayload(
+ InMemoryJournal.addEntry(shardID.toString(), 0, new ReplicatedLogImplEntry(0, 1, newModificationPayload(
new WriteModification(TestModel.OUTER_LIST_PATH,
- ImmutableNodes.mapNodeBuilder(TestModel.OUTER_LIST_QNAME).build(),
- SCHEMA_CONTEXT))));
+ ImmutableNodes.mapNodeBuilder(TestModel.OUTER_LIST_QNAME).build()))));
- int nListEntries = 11;
+ int nListEntries = 16;
Set<Integer> listEntryKeys = new HashSet<>();
+
+ // Add some ModificationPayload entries
for(int i = 1; i <= nListEntries; i++) {
listEntryKeys.add(Integer.valueOf(i));
YangInstanceIdentifier path = YangInstanceIdentifier.builder(TestModel.OUTER_LIST_PATH)
.nodeWithKey(TestModel.OUTER_LIST_QNAME, TestModel.ID_QNAME, i).build();
Modification mod = new MergeModification(path,
- ImmutableNodes.mapEntry(TestModel.OUTER_LIST_QNAME, TestModel.ID_QNAME, i),
- SCHEMA_CONTEXT);
- InMemoryJournal.addEntry(IDENTIFIER.toString(), i, new ReplicatedLogImplEntry(i, 1,
- newPayload(mod)));
+ ImmutableNodes.mapEntry(TestModel.OUTER_LIST_QNAME, TestModel.ID_QNAME, i));
+ InMemoryJournal.addEntry(shardID.toString(), i, new ReplicatedLogImplEntry(i, 1,
+ newModificationPayload(mod)));
+ }
+
+ InMemoryJournal.addEntry(shardID.toString(), nListEntries + 1,
+ new ApplyJournalEntries(nListEntries));
+
+ testRecovery(listEntryKeys);
+ }
+
+ private ModificationPayload newModificationPayload(final Modification... mods) throws IOException {
+ MutableCompositeModification compMod = new MutableCompositeModification();
+ for(Modification mod: mods) {
+ compMod.addModification(mod);
}
- InMemoryJournal.addEntry(IDENTIFIER.toString(), nListEntries + 1,
- new ApplyLogEntries(nListEntries));
+ return new ModificationPayload(compMod);
+ }
+
+ @SuppressWarnings({ "unchecked" })
+ @Test
+ public void testConcurrentThreePhaseCommits() throws Throwable {
+ new ShardTestKit(getSystem()) {{
+ final TestActorRef<Shard> shard = TestActorRef.create(getSystem(),
+ newShardProps().withDispatcher(Dispatchers.DefaultDispatcherId()),
+ "testConcurrentThreePhaseCommits");
+
+ waitUntilLeader(shard);
- // Create the actor and wait for recovery complete.
+ // Setup 3 simulated transactions with mock cohorts backed by real cohorts.
- final CountDownLatch recoveryComplete = new CountDownLatch(1);
+ InMemoryDOMDataStore dataStore = shard.underlyingActor().getDataStore();
- Creator<Shard> creator = new Creator<Shard>() {
- @Override
- public Shard create() throws Exception {
- return new Shard(IDENTIFIER, Collections.<ShardIdentifier,String>emptyMap(),
- DATA_STORE_CONTEXT, SCHEMA_CONTEXT) {
- @Override
- protected void onRecoveryComplete() {
+ String transactionID1 = "tx1";
+ MutableCompositeModification modification1 = new MutableCompositeModification();
+ DOMStoreThreePhaseCommitCohort cohort1 = setupMockWriteTransaction("cohort1", dataStore,
+ TestModel.TEST_PATH, ImmutableNodes.containerNode(TestModel.TEST_QNAME), modification1);
+
+ String transactionID2 = "tx2";
+ MutableCompositeModification modification2 = new MutableCompositeModification();
+ DOMStoreThreePhaseCommitCohort cohort2 = setupMockWriteTransaction("cohort2", dataStore,
+ TestModel.OUTER_LIST_PATH,
+ ImmutableNodes.mapNodeBuilder(TestModel.OUTER_LIST_QNAME).build(),
+ modification2);
+
+ String transactionID3 = "tx3";
+ MutableCompositeModification modification3 = new MutableCompositeModification();
+ DOMStoreThreePhaseCommitCohort cohort3 = setupMockWriteTransaction("cohort3", dataStore,
+ YangInstanceIdentifier.builder(TestModel.OUTER_LIST_PATH)
+ .nodeWithKey(TestModel.OUTER_LIST_QNAME, TestModel.ID_QNAME, 1).build(),
+ ImmutableNodes.mapEntry(TestModel.OUTER_LIST_QNAME, TestModel.ID_QNAME, 1),
+ modification3);
+
+ long timeoutSec = 5;
+ final FiniteDuration duration = FiniteDuration.create(timeoutSec, TimeUnit.SECONDS);
+ final Timeout timeout = new Timeout(duration);
+
+ // Simulate the ForwardedReadyTransaction message for the first Tx that would be sent
+ // by the ShardTransaction.
+
+ shard.tell(new ForwardedReadyTransaction(transactionID1, CURRENT_VERSION,
+ cohort1, modification1, true), getRef());
+ ReadyTransactionReply readyReply = ReadyTransactionReply.fromSerializable(
+ expectMsgClass(duration, ReadyTransactionReply.class));
+ assertEquals("Cohort path", shard.path().toString(), readyReply.getCohortPath());
+
+ // Send the CanCommitTransaction message for the first Tx.
+
+ shard.tell(new CanCommitTransaction(transactionID1).toSerializable(), getRef());
+ CanCommitTransactionReply canCommitReply = CanCommitTransactionReply.fromSerializable(
+ expectMsgClass(duration, CanCommitTransactionReply.SERIALIZABLE_CLASS));
+ assertEquals("Can commit", true, canCommitReply.getCanCommit());
+
+ // Send the ForwardedReadyTransaction for the next 2 Tx's.
+
+ shard.tell(new ForwardedReadyTransaction(transactionID2, CURRENT_VERSION,
+ cohort2, modification2, true), getRef());
+ expectMsgClass(duration, ReadyTransactionReply.class);
+
+ shard.tell(new ForwardedReadyTransaction(transactionID3, CURRENT_VERSION,
+ cohort3, modification3, true), getRef());
+ expectMsgClass(duration, ReadyTransactionReply.class);
+
+ // Send the CanCommitTransaction message for the next 2 Tx's. These should get queued and
+ // processed after the first Tx completes.
+
+ Future<Object> canCommitFuture1 = Patterns.ask(shard,
+ new CanCommitTransaction(transactionID2).toSerializable(), timeout);
+
+ Future<Object> canCommitFuture2 = Patterns.ask(shard,
+ new CanCommitTransaction(transactionID3).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);
+
+ // Wait for the next 2 Tx's to complete.
+
+ final AtomicReference<Throwable> caughtEx = new AtomicReference<>();
+ final CountDownLatch commitLatch = new CountDownLatch(2);
+
+ class OnFutureComplete extends OnComplete<Object> {
+ private final Class<?> expRespType;
+
+ OnFutureComplete(final Class<?> expRespType) {
+ this.expRespType = expRespType;
+ }
+
+ @Override
+ public void onComplete(final Throwable error, final Object resp) {
+ if(error != null) {
+ caughtEx.set(new AssertionError(getClass().getSimpleName() + " failure", error));
+ } else {
try {
- super.onRecoveryComplete();
- } finally {
- recoveryComplete.countDown();
+ assertEquals("Commit response type", expRespType, resp.getClass());
+ onSuccess(resp);
+ } catch (Exception e) {
+ caughtEx.set(e);
}
}
- };
+ }
+
+ void onSuccess(final Object resp) throws Exception {
+ }
}
- };
- TestActorRef<Shard> shard = TestActorRef.create(getSystem(),
- Props.create(new DelegatingShardCreator(creator)), "testRecovery");
+ class OnCommitFutureComplete extends OnFutureComplete {
+ OnCommitFutureComplete() {
+ super(CommitTransactionReply.SERIALIZABLE_CLASS);
+ }
+
+ @Override
+ public void onComplete(final Throwable error, final Object resp) {
+ super.onComplete(error, resp);
+ commitLatch.countDown();
+ }
+ }
+
+ class OnCanCommitFutureComplete extends OnFutureComplete {
+ private final String transactionID;
+
+ OnCanCommitFutureComplete(final String transactionID) {
+ super(CanCommitTransactionReply.SERIALIZABLE_CLASS);
+ this.transactionID = transactionID;
+ }
+
+ @Override
+ void onSuccess(final Object resp) throws Exception {
+ CanCommitTransactionReply canCommitReply =
+ CanCommitTransactionReply.fromSerializable(resp);
+ assertEquals("Can commit", true, canCommitReply.getCanCommit());
+
+ Future<Object> commitFuture = Patterns.ask(shard,
+ new CommitTransaction(transactionID).toSerializable(), timeout);
+ commitFuture.onComplete(new OnCommitFutureComplete(), getSystem().dispatcher());
+ }
+ }
+
+ canCommitFuture1.onComplete(new OnCanCommitFutureComplete(transactionID2),
+ getSystem().dispatcher());
+
+ canCommitFuture2.onComplete(new OnCanCommitFutureComplete(transactionID3),
+ getSystem().dispatcher());
- assertEquals("Recovery complete", true, recoveryComplete.await(5, TimeUnit.SECONDS));
+ boolean done = commitLatch.await(timeoutSec, TimeUnit.SECONDS);
- // Verify data in the data store.
+ if(caughtEx.get() != null) {
+ throw caughtEx.get();
+ }
- NormalizedNode<?, ?> outerList = shard.underlyingActor().readStore(TestModel.OUTER_LIST_PATH);
- assertNotNull(TestModel.OUTER_LIST_QNAME.getLocalName() + " not found", outerList);
- assertTrue(TestModel.OUTER_LIST_QNAME.getLocalName() + " value is not Iterable",
- outerList.getValue() instanceof Iterable);
- for(Object entry: (Iterable<?>) outerList.getValue()) {
+ assertEquals("Commits complete", true, done);
+
+ InOrder inOrder = inOrder(cohort1, cohort2, cohort3);
+ inOrder.verify(cohort1).canCommit();
+ inOrder.verify(cohort1).preCommit();
+ inOrder.verify(cohort1).commit();
+ inOrder.verify(cohort2).canCommit();
+ inOrder.verify(cohort2).preCommit();
+ inOrder.verify(cohort2).commit();
+ inOrder.verify(cohort3).canCommit();
+ inOrder.verify(cohort3).preCommit();
+ inOrder.verify(cohort3).commit();
+
+ // Verify data in the data store.
+
+ NormalizedNode<?, ?> outerList = readStore(shard, TestModel.OUTER_LIST_PATH);
+ assertNotNull(TestModel.OUTER_LIST_QNAME.getLocalName() + " not found", outerList);
+ assertTrue(TestModel.OUTER_LIST_QNAME.getLocalName() + " value is not Iterable",
+ outerList.getValue() instanceof Iterable);
+ Object entry = ((Iterable<Object>)outerList.getValue()).iterator().next();
assertTrue(TestModel.OUTER_LIST_QNAME.getLocalName() + " entry is not MapEntryNode",
- entry instanceof MapEntryNode);
+ entry instanceof MapEntryNode);
MapEntryNode mapEntry = (MapEntryNode)entry;
Optional<DataContainerChild<? extends PathArgument, ?>> idLeaf =
mapEntry.getChild(new YangInstanceIdentifier.NodeIdentifier(TestModel.ID_QNAME));
assertTrue("Missing leaf " + TestModel.ID_QNAME.getLocalName(), idLeaf.isPresent());
- Object value = idLeaf.get().getValue();
- assertTrue("Unexpected value for leaf "+ TestModel.ID_QNAME.getLocalName() + ": " + value,
- listEntryKeys.remove(value));
- }
+ assertEquals(TestModel.ID_QNAME.getLocalName() + " value", 1, idLeaf.get().getValue());
- if(!listEntryKeys.isEmpty()) {
- fail("Missing " + TestModel.OUTER_LIST_QNAME.getLocalName() + " entries with keys: " +
- listEntryKeys);
- }
+ verifyLastApplied(shard, 2);
- assertEquals("Last log index", nListEntries,
- shard.underlyingActor().getShardMBean().getLastLogIndex());
- assertEquals("Commit index", nListEntries,
- shard.underlyingActor().getShardMBean().getCommitIndex());
- assertEquals("Last applied", nListEntries,
- shard.underlyingActor().getShardMBean().getLastApplied());
+ shard.tell(PoisonPill.getInstance(), ActorRef.noSender());
+ }};
}
- private CompositeModificationPayload newPayload(Modification... mods) {
- MutableCompositeModification compMod = new MutableCompositeModification();
- for(Modification mod: mods) {
- compMod.addModification(mod);
- }
+ private BatchedModifications newBatchedModifications(String transactionID, YangInstanceIdentifier path,
+ NormalizedNode<?, ?> data, boolean ready) {
+ return newBatchedModifications(transactionID, null, path, data, ready);
+ }
- return new CompositeModificationPayload(compMod.toSerializable());
+ private BatchedModifications newBatchedModifications(String transactionID, String transactionChainID,
+ YangInstanceIdentifier path, NormalizedNode<?, ?> data, boolean ready) {
+ BatchedModifications batched = new BatchedModifications(transactionID, CURRENT_VERSION, transactionChainID);
+ batched.addModification(new WriteModification(path, data));
+ batched.setReady(ready);
+ return batched;
}
@SuppressWarnings("unchecked")
@Test
- public void testForwardedCommitTransactionWithPersistence() throws IOException {
- System.setProperty("shard.persistent", "true");
+ public void testMultipleBatchedModifications() throws Throwable {
+ new ShardTestKit(getSystem()) {{
+ final TestActorRef<Shard> shard = TestActorRef.create(getSystem(),
+ newShardProps().withDispatcher(Dispatchers.DefaultDispatcherId()),
+ "testMultipleBatchedModifications");
+
+ waitUntilLeader(shard);
+
+ final String transactionID = "tx";
+ FiniteDuration duration = duration("5 seconds");
+
+ final AtomicReference<DOMStoreThreePhaseCommitCohort> mockCohort = new AtomicReference<>();
+ ShardCommitCoordinator.CohortDecorator cohortDecorator = new ShardCommitCoordinator.CohortDecorator() {
+ @Override
+ public DOMStoreThreePhaseCommitCohort decorate(String txID, DOMStoreThreePhaseCommitCohort actual) {
+ if(mockCohort.get() == null) {
+ mockCohort.set(createDelegatingMockCohort("cohort", actual));
+ }
+
+ return mockCohort.get();
+ }
+ };
+
+ shard.underlyingActor().getCommitCoordinator().setCohortDecorator(cohortDecorator);
+
+ // Send a BatchedModifications to start a transaction.
+
+ shard.tell(newBatchedModifications(transactionID, TestModel.TEST_PATH,
+ ImmutableNodes.containerNode(TestModel.TEST_QNAME), false), getRef());
+ expectMsgClass(duration, BatchedModificationsReply.class);
+
+ // Send a couple more BatchedModifications.
+
+ shard.tell(newBatchedModifications(transactionID, TestModel.OUTER_LIST_PATH,
+ ImmutableNodes.mapNodeBuilder(TestModel.OUTER_LIST_QNAME).build(), false), getRef());
+ expectMsgClass(duration, BatchedModificationsReply.class);
+
+ shard.tell(newBatchedModifications(transactionID, YangInstanceIdentifier.builder(
+ 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), getRef());
+ expectMsgClass(duration, ReadyTransactionReply.class);
+
+ // Send the CanCommitTransaction message.
+
+ shard.tell(new CanCommitTransaction(transactionID).toSerializable(), getRef());
+ CanCommitTransactionReply canCommitReply = CanCommitTransactionReply.fromSerializable(
+ expectMsgClass(duration, CanCommitTransactionReply.SERIALIZABLE_CLASS));
+ assertEquals("Can commit", true, canCommitReply.getCanCommit());
+
+ // Send the CanCommitTransaction message.
+ shard.tell(new CommitTransaction(transactionID).toSerializable(), getRef());
+ expectMsgClass(duration, CommitTransactionReply.SERIALIZABLE_CLASS);
+
+ InOrder inOrder = inOrder(mockCohort.get());
+ inOrder.verify(mockCohort.get()).canCommit();
+ inOrder.verify(mockCohort.get()).preCommit();
+ inOrder.verify(mockCohort.get()).commit();
+
+ // Verify data in the data store.
+
+ NormalizedNode<?, ?> outerList = readStore(shard, TestModel.OUTER_LIST_PATH);
+ assertNotNull(TestModel.OUTER_LIST_QNAME.getLocalName() + " not found", outerList);
+ assertTrue(TestModel.OUTER_LIST_QNAME.getLocalName() + " value is not Iterable",
+ outerList.getValue() instanceof Iterable);
+ Object entry = ((Iterable<Object>)outerList.getValue()).iterator().next();
+ assertTrue(TestModel.OUTER_LIST_QNAME.getLocalName() + " entry is not MapEntryNode",
+ entry instanceof MapEntryNode);
+ MapEntryNode mapEntry = (MapEntryNode)entry;
+ Optional<DataContainerChild<? extends PathArgument, ?>> idLeaf =
+ mapEntry.getChild(new YangInstanceIdentifier.NodeIdentifier(TestModel.ID_QNAME));
+ assertTrue("Missing leaf " + TestModel.ID_QNAME.getLocalName(), idLeaf.isPresent());
+ assertEquals(TestModel.ID_QNAME.getLocalName() + " value", 1, idLeaf.get().getValue());
+
+ shard.tell(PoisonPill.getInstance(), ActorRef.noSender());
+ }};
+ }
+
+ @Test
+ public void testBatchedModificationsOnTransactionChain() throws Throwable {
new ShardTestKit(getSystem()) {{
- TestActorRef<Shard> shard = TestActorRef.create(getSystem(), newShardProps());
+ final TestActorRef<Shard> shard = TestActorRef.create(getSystem(),
+ newShardProps().withDispatcher(Dispatchers.DefaultDispatcherId()),
+ "testBatchedModificationsOnTransactionChain");
waitUntilLeader(shard);
- NormalizedNode<?, ?> node = ImmutableNodes.containerNode(TestModel.TEST_QNAME);
+ String transactionChainID = "txChain";
+ String transactionID1 = "tx1";
+ String transactionID2 = "tx2";
- DOMStoreThreePhaseCommitCohort cohort = mock(DOMStoreThreePhaseCommitCohort.class);
- doReturn(Futures.immediateFuture(null)).when(cohort).commit();
+ FiniteDuration duration = duration("5 seconds");
- MutableCompositeModification modification = new MutableCompositeModification();
- modification.addModification(new WriteModification(TestModel.TEST_PATH, node,
- SCHEMA_CONTEXT));
+ // Send a BatchedModifications to start a chained write transaction and ready it.
+
+ ContainerNode containerNode = ImmutableNodes.containerNode(TestModel.TEST_QNAME);
+ YangInstanceIdentifier path = TestModel.TEST_PATH;
+ shard.tell(newBatchedModifications(transactionID1, transactionChainID, path,
+ containerNode, true), getRef());
+ expectMsgClass(duration, ReadyTransactionReply.class);
+
+ // Create a read Tx on the same chain.
- shard.tell(new ForwardedCommitTransaction(cohort, modification), getRef());
+ shard.tell(new CreateTransaction(transactionID2, TransactionProxy.TransactionType.READ_ONLY.ordinal() ,
+ transactionChainID).toSerializable(), getRef());
- expectMsgClass(duration("5 seconds"), CommitTransactionReply.SERIALIZABLE_CLASS);
+ CreateTransactionReply createReply = expectMsgClass(duration("3 seconds"), CreateTransactionReply.class);
- verify(cohort).commit();
+ getSystem().actorSelection(createReply.getTransactionActorPath()).tell(new ReadData(path), getRef());
+ ReadDataReply readReply = expectMsgClass(duration("3 seconds"), ReadDataReply.class);
+ assertEquals("Read node", containerNode, readReply.getNormalizedNode());
- assertEquals("Last log index", 0, shard.underlyingActor().getShardMBean().getLastLogIndex());
+ // Commit the write transaction.
+
+ shard.tell(new CanCommitTransaction(transactionID1).toSerializable(), getRef());
+ CanCommitTransactionReply canCommitReply = CanCommitTransactionReply.fromSerializable(
+ expectMsgClass(duration, CanCommitTransactionReply.SERIALIZABLE_CLASS));
+ assertEquals("Can commit", true, canCommitReply.getCanCommit());
+
+ shard.tell(new CommitTransaction(transactionID1).toSerializable(), getRef());
+ expectMsgClass(duration, CommitTransactionReply.SERIALIZABLE_CLASS);
+
+ // Verify data in the data store.
+
+ NormalizedNode<?, ?> actualNode = readStore(shard, path);
+ assertEquals("Stored node", containerNode, actualNode);
+
+ shard.tell(PoisonPill.getInstance(), ActorRef.noSender());
}};
}
@Test
- public void testCreateSnapshot() throws IOException, InterruptedException {
+ public void testOnBatchedModificationsWhenNotLeader() {
+ final AtomicBoolean overrideLeaderCalls = new AtomicBoolean();
new ShardTestKit(getSystem()) {{
- final ActorRef subject = getSystem().actorOf(newShardProps(), "testCreateSnapshot");
+ Creator<Shard> creator = new Creator<Shard>() {
+ @Override
+ public Shard create() throws Exception {
+ return new Shard(shardID, Collections.<String,String>emptyMap(),
+ newDatastoreContext(), SCHEMA_CONTEXT) {
+ @Override
+ protected boolean isLeader() {
+ return overrideLeaderCalls.get() ? false : super.isLeader();
+ }
+
+ @Override
+ protected ActorSelection getLeader() {
+ return overrideLeaderCalls.get() ? getSystem().actorSelection(getRef().path()) :
+ super.getLeader();
+ }
+ };
+ }
+ };
+
+ TestActorRef<Shard> shard = TestActorRef.create(getSystem(),
+ Props.create(new DelegatingShardCreator(creator)), "testOnBatchedModificationsWhenNotLeader");
- waitUntilLeader(subject);
+ waitUntilLeader(shard);
+
+ overrideLeaderCalls.set(true);
- subject.tell(new CaptureSnapshot(-1,-1,-1,-1), getRef());
+ BatchedModifications batched = new BatchedModifications("tx", DataStoreVersions.CURRENT_VERSION, "");
- waitForLogMessage(Logging.Info.class, subject, "CaptureSnapshotReply received by actor");
+ shard.tell(batched, ActorRef.noSender());
- subject.tell(new CaptureSnapshot(-1,-1,-1,-1), getRef());
+ expectMsgEquals(batched);
- waitForLogMessage(Logging.Info.class, subject, "CaptureSnapshotReply received by actor");
+ shard.tell(PoisonPill.getInstance(), ActorRef.noSender());
}};
}
- /**
- * This test simply verifies that the applySnapShot logic will work
- * @throws ReadFailedException
- */
@Test
- public void testInMemoryDataStoreRestore() throws ReadFailedException {
- InMemoryDOMDataStore store = new InMemoryDOMDataStore("test", MoreExecutors.listeningDecorator(
- MoreExecutors.sameThreadExecutor()), MoreExecutors.sameThreadExecutor());
+ public void testCommitWithPersistenceDisabled() throws Throwable {
+ dataStoreContextBuilder.persistent(false);
+ new ShardTestKit(getSystem()) {{
+ final TestActorRef<Shard> shard = TestActorRef.create(getSystem(),
+ newShardProps().withDispatcher(Dispatchers.DefaultDispatcherId()),
+ "testCommitWithPersistenceDisabled");
- store.onGlobalContextUpdated(SCHEMA_CONTEXT);
+ waitUntilLeader(shard);
- DOMStoreWriteTransaction putTransaction = store.newWriteOnlyTransaction();
- putTransaction.write(TestModel.TEST_PATH,
- ImmutableNodes.containerNode(TestModel.TEST_QNAME));
- commitTransaction(putTransaction);
+ InMemoryDOMDataStore dataStore = shard.underlyingActor().getDataStore();
+ // Setup a simulated transactions with a mock cohort.
- NormalizedNode expected = readStore(store);
+ String transactionID = "tx";
+ MutableCompositeModification modification = new MutableCompositeModification();
+ NormalizedNode<?, ?> containerNode = ImmutableNodes.containerNode(TestModel.TEST_QNAME);
+ DOMStoreThreePhaseCommitCohort cohort = setupMockWriteTransaction("cohort", dataStore,
+ TestModel.TEST_PATH, containerNode, modification);
- DOMStoreWriteTransaction writeTransaction = store.newWriteOnlyTransaction();
+ FiniteDuration duration = duration("5 seconds");
- writeTransaction.delete(YangInstanceIdentifier.builder().build());
- writeTransaction.write(YangInstanceIdentifier.builder().build(), expected);
+ // Simulate the ForwardedReadyTransaction messages that would be sent
+ // by the ShardTransaction.
- commitTransaction(writeTransaction);
+ shard.tell(new ForwardedReadyTransaction(transactionID, CURRENT_VERSION,
+ cohort, modification, true), getRef());
+ expectMsgClass(duration, ReadyTransactionReply.class);
- NormalizedNode actual = readStore(store);
+ // Send the CanCommitTransaction message.
- assertEquals(expected, actual);
+ shard.tell(new CanCommitTransaction(transactionID).toSerializable(), getRef());
+ CanCommitTransactionReply canCommitReply = CanCommitTransactionReply.fromSerializable(
+ expectMsgClass(duration, CanCommitTransactionReply.SERIALIZABLE_CLASS));
+ assertEquals("Can commit", true, canCommitReply.getCanCommit());
+ // Send the CanCommitTransaction message.
+
+ shard.tell(new CommitTransaction(transactionID).toSerializable(), getRef());
+ expectMsgClass(duration, CommitTransactionReply.SERIALIZABLE_CLASS);
+
+ InOrder inOrder = inOrder(cohort);
+ inOrder.verify(cohort).canCommit();
+ inOrder.verify(cohort).preCommit();
+ inOrder.verify(cohort).commit();
+
+ NormalizedNode<?, ?> actualNode = readStore(shard, TestModel.TEST_PATH);
+ assertEquals(TestModel.TEST_QNAME.getLocalName(), containerNode, actualNode);
+
+ shard.tell(PoisonPill.getInstance(), ActorRef.noSender());
+ }};
}
- private NormalizedNode readStore(InMemoryDOMDataStore store) throws ReadFailedException {
- DOMStoreReadTransaction transaction = store.newReadOnlyTransaction();
- CheckedFuture<Optional<NormalizedNode<?, ?>>, ReadFailedException> read =
- transaction.read(YangInstanceIdentifier.builder().build());
+ @Test
+ public void testCommitWhenTransactionHasNoModifications(){
+ // Note that persistence is enabled which would normally result in the entry getting written to the journal
+ // but here that need not happen
+ new ShardTestKit(getSystem()) {
+ {
+ final TestActorRef<Shard> shard = TestActorRef.create(getSystem(),
+ newShardProps().withDispatcher(Dispatchers.DefaultDispatcherId()),
+ "testCommitWhenTransactionHasNoModifications");
- Optional<NormalizedNode<?, ?>> optional = read.checkedGet();
+ waitUntilLeader(shard);
- NormalizedNode<?, ?> normalizedNode = optional.get();
+ String transactionID = "tx1";
+ MutableCompositeModification modification = new MutableCompositeModification();
+ DOMStoreThreePhaseCommitCohort cohort = mock(DOMStoreThreePhaseCommitCohort.class, "cohort1");
+ doReturn(Futures.immediateFuture(Boolean.TRUE)).when(cohort).canCommit();
+ doReturn(Futures.immediateFuture(Boolean.TRUE)).when(cohort).preCommit();
+ doReturn(Futures.immediateFuture(Boolean.TRUE)).when(cohort).commit();
- transaction.close();
+ FiniteDuration duration = duration("5 seconds");
- return normalizedNode;
- }
+ // Simulate the ForwardedReadyTransaction messages that would be sent
+ // by the ShardTransaction.
- private void commitTransaction(DOMStoreWriteTransaction transaction) {
- DOMStoreThreePhaseCommitCohort commitCohort = transaction.ready();
- ListenableFuture<Void> future =
- commitCohort.preCommit();
- try {
- future.get();
- future = commitCohort.commit();
- future.get();
- } catch (InterruptedException | ExecutionException e) {
- }
- }
+ shard.tell(new ForwardedReadyTransaction(transactionID, CURRENT_VERSION,
+ cohort, modification, true), getRef());
+ expectMsgClass(duration, ReadyTransactionReply.class);
- private AsyncDataChangeListener<YangInstanceIdentifier, NormalizedNode<?, ?>> noOpDataChangeListener() {
- return new AsyncDataChangeListener<YangInstanceIdentifier, NormalizedNode<?, ?>>() {
- @Override
- public void onDataChanged(
- AsyncDataChangeEvent<YangInstanceIdentifier, NormalizedNode<?, ?>> change) {
+ // Send the CanCommitTransaction message.
+
+ shard.tell(new CanCommitTransaction(transactionID).toSerializable(), getRef());
+ CanCommitTransactionReply canCommitReply = CanCommitTransactionReply.fromSerializable(
+ expectMsgClass(duration, CanCommitTransactionReply.SERIALIZABLE_CLASS));
+ assertEquals("Can commit", true, canCommitReply.getCanCommit());
+
+ shard.tell(new CommitTransaction(transactionID).toSerializable(), getRef());
+ expectMsgClass(duration, ThreePhaseCommitCohortMessages.CommitTransactionReply.class);
+
+ InOrder inOrder = inOrder(cohort);
+ inOrder.verify(cohort).canCommit();
+ inOrder.verify(cohort).preCommit();
+ inOrder.verify(cohort).commit();
+
+ // Use MBean for verification
+ // Committed transaction count should increase as usual
+ assertEquals(1,shard.underlyingActor().getShardMBean().getCommittedTransactionsCount());
+
+ // Commit index should not advance because this does not go into the journal
+ assertEquals(-1, shard.underlyingActor().getShardMBean().getCommitIndex());
+
+ shard.tell(PoisonPill.getInstance(), ActorRef.noSender());
}
};
}
- private static final class DelegatingShardCreator implements Creator<Shard> {
- private final Creator<Shard> delegate;
+ @Test
+ public void testCommitWhenTransactionHasModifications(){
+ new ShardTestKit(getSystem()) {
+ {
+ final TestActorRef<Shard> shard = TestActorRef.create(getSystem(),
+ newShardProps().withDispatcher(Dispatchers.DefaultDispatcherId()),
+ "testCommitWhenTransactionHasModifications");
- DelegatingShardCreator(Creator<Shard> delegate) {
- this.delegate = delegate;
- }
+ waitUntilLeader(shard);
- @Override
- public Shard create() throws Exception {
- return delegate.create();
- }
+ String transactionID = "tx1";
+ MutableCompositeModification modification = new MutableCompositeModification();
+ modification.addModification(new DeleteModification(YangInstanceIdentifier.builder().build()));
+ DOMStoreThreePhaseCommitCohort cohort = mock(DOMStoreThreePhaseCommitCohort.class, "cohort1");
+ doReturn(Futures.immediateFuture(Boolean.TRUE)).when(cohort).canCommit();
+ doReturn(Futures.immediateFuture(Boolean.TRUE)).when(cohort).preCommit();
+ doReturn(Futures.immediateFuture(Boolean.TRUE)).when(cohort).commit();
+
+ FiniteDuration duration = duration("5 seconds");
+
+ // Simulate the ForwardedReadyTransaction messages that would be sent
+ // by the ShardTransaction.
+
+ shard.tell(new ForwardedReadyTransaction(transactionID, CURRENT_VERSION,
+ cohort, modification, true), getRef());
+ expectMsgClass(duration, ReadyTransactionReply.class);
+
+ // Send the CanCommitTransaction message.
+
+ shard.tell(new CanCommitTransaction(transactionID).toSerializable(), getRef());
+ CanCommitTransactionReply canCommitReply = CanCommitTransactionReply.fromSerializable(
+ expectMsgClass(duration, CanCommitTransactionReply.SERIALIZABLE_CLASS));
+ assertEquals("Can commit", true, canCommitReply.getCanCommit());
+
+ shard.tell(new CommitTransaction(transactionID).toSerializable(), getRef());
+ expectMsgClass(duration, ThreePhaseCommitCohortMessages.CommitTransactionReply.class);
+
+ InOrder inOrder = inOrder(cohort);
+ inOrder.verify(cohort).canCommit();
+ inOrder.verify(cohort).preCommit();
+ inOrder.verify(cohort).commit();
+
+ // Use MBean for verification
+ // Committed transaction count should increase as usual
+ assertEquals(1, shard.underlyingActor().getShardMBean().getCommittedTransactionsCount());
+
+ // Commit index should advance as we do not have an empty modification
+ assertEquals(0, shard.underlyingActor().getShardMBean().getCommitIndex());
+
+ shard.tell(PoisonPill.getInstance(), ActorRef.noSender());
+
+ }
+ };
}
- private static class ShardTestKit extends JavaTestKit {
+ @Test
+ public void testCommitPhaseFailure() throws Throwable {
+ new ShardTestKit(getSystem()) {{
+ final TestActorRef<Shard> shard = TestActorRef.create(getSystem(),
+ newShardProps().withDispatcher(Dispatchers.DefaultDispatcherId()),
+ "testCommitPhaseFailure");
- private ShardTestKit(ActorSystem actorSystem) {
- super(actorSystem);
- }
+ waitUntilLeader(shard);
- protected void waitForLogMessage(final Class logLevel, ActorRef subject, String logMessage){
- // Wait for a specific log message to show up
- final boolean result =
- new JavaTestKit.EventFilter<Boolean>(logLevel
- ) {
- @Override
- protected Boolean run() {
- return true;
- }
- }.from(subject.path().toString())
- .message(logMessage)
- .occurrences(1).exec();
+ // Setup 2 simulated transactions with mock cohorts. The first one fails in the
+ // commit phase.
- Assert.assertEquals(true, result);
+ String transactionID1 = "tx1";
+ MutableCompositeModification modification1 = new MutableCompositeModification();
+ DOMStoreThreePhaseCommitCohort cohort1 = mock(DOMStoreThreePhaseCommitCohort.class, "cohort1");
+ doReturn(Futures.immediateFuture(Boolean.TRUE)).when(cohort1).canCommit();
+ doReturn(Futures.immediateFuture(null)).when(cohort1).preCommit();
+ doReturn(Futures.immediateFailedFuture(new IllegalStateException("mock"))).when(cohort1).commit();
- }
+ String transactionID2 = "tx2";
+ MutableCompositeModification modification2 = new MutableCompositeModification();
+ DOMStoreThreePhaseCommitCohort cohort2 = mock(DOMStoreThreePhaseCommitCohort.class, "cohort2");
+ doReturn(Futures.immediateFuture(Boolean.TRUE)).when(cohort2).canCommit();
+
+ FiniteDuration duration = duration("5 seconds");
+ final Timeout timeout = new Timeout(duration);
+
+ // Simulate the ForwardedReadyTransaction messages that would be sent
+ // by the ShardTransaction.
- protected void waitUntilLeader(ActorRef subject) {
- waitForLogMessage(Logging.Info.class, subject,
- "Switching from state Candidate to Leader");
+ shard.tell(new ForwardedReadyTransaction(transactionID1, CURRENT_VERSION,
+ cohort1, modification1, true), getRef());
+ expectMsgClass(duration, ReadyTransactionReply.class);
+
+ shard.tell(new ForwardedReadyTransaction(transactionID2, CURRENT_VERSION,
+ cohort2, modification2, true), getRef());
+ expectMsgClass(duration, ReadyTransactionReply.class);
+
+ // Send the CanCommitTransaction message for the first Tx.
+
+ shard.tell(new CanCommitTransaction(transactionID1).toSerializable(), getRef());
+ CanCommitTransactionReply canCommitReply = CanCommitTransactionReply.fromSerializable(
+ expectMsgClass(duration, CanCommitTransactionReply.SERIALIZABLE_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.
+
+ Future<Object> canCommitFuture = Patterns.ask(shard,
+ new CanCommitTransaction(transactionID2).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());
+ expectMsgClass(duration, akka.actor.Status.Failure.class);
+
+ // Wait for the 2nd Tx to complete the canCommit phase.
+
+ final CountDownLatch latch = new CountDownLatch(1);
+ canCommitFuture.onComplete(new OnComplete<Object>() {
+ @Override
+ public void onComplete(final Throwable t, final Object resp) {
+ latch.countDown();
+ }
+ }, getSystem().dispatcher());
+
+ assertEquals("2nd CanCommit complete", true, latch.await(5, TimeUnit.SECONDS));
+
+ InOrder inOrder = inOrder(cohort1, cohort2);
+ inOrder.verify(cohort1).canCommit();
+ inOrder.verify(cohort1).preCommit();
+ inOrder.verify(cohort1).commit();
+ inOrder.verify(cohort2).canCommit();
+
+ shard.tell(PoisonPill.getInstance(), ActorRef.noSender());
+ }};
+ }
+
+ @Test
+ public void testPreCommitPhaseFailure() throws Throwable {
+ new ShardTestKit(getSystem()) {{
+ final TestActorRef<Shard> shard = TestActorRef.create(getSystem(),
+ newShardProps().withDispatcher(Dispatchers.DefaultDispatcherId()),
+ "testPreCommitPhaseFailure");
+
+ waitUntilLeader(shard);
+
+ String transactionID = "tx1";
+ MutableCompositeModification modification = new MutableCompositeModification();
+ DOMStoreThreePhaseCommitCohort cohort = mock(DOMStoreThreePhaseCommitCohort.class, "cohort1");
+ doReturn(Futures.immediateFuture(Boolean.TRUE)).when(cohort).canCommit();
+ doReturn(Futures.immediateFailedFuture(new IllegalStateException("mock"))).when(cohort).preCommit();
+
+ FiniteDuration duration = duration("5 seconds");
+
+ // Simulate the ForwardedReadyTransaction messages that would be sent
+ // by the ShardTransaction.
+
+ shard.tell(new ForwardedReadyTransaction(transactionID, CURRENT_VERSION,
+ cohort, modification, true), getRef());
+ expectMsgClass(duration, ReadyTransactionReply.class);
+
+ // Send the CanCommitTransaction message.
+
+ shard.tell(new CanCommitTransaction(transactionID).toSerializable(), getRef());
+ CanCommitTransactionReply canCommitReply = CanCommitTransactionReply.fromSerializable(
+ expectMsgClass(duration, CanCommitTransactionReply.SERIALIZABLE_CLASS));
+ assertEquals("Can commit", true, canCommitReply.getCanCommit());
+
+ // Send the CommitTransaction message. This should send back an error
+ // for preCommit failure.
+
+ shard.tell(new CommitTransaction(transactionID).toSerializable(), getRef());
+ expectMsgClass(duration, akka.actor.Status.Failure.class);
+
+ InOrder inOrder = inOrder(cohort);
+ inOrder.verify(cohort).canCommit();
+ inOrder.verify(cohort).preCommit();
+
+ shard.tell(PoisonPill.getInstance(), ActorRef.noSender());
+ }};
+ }
+
+ @Test
+ public void testCanCommitPhaseFailure() throws Throwable {
+ new ShardTestKit(getSystem()) {{
+ final TestActorRef<Shard> shard = TestActorRef.create(getSystem(),
+ newShardProps().withDispatcher(Dispatchers.DefaultDispatcherId()),
+ "testCanCommitPhaseFailure");
+
+ waitUntilLeader(shard);
+
+ final FiniteDuration duration = duration("5 seconds");
+
+ String transactionID = "tx1";
+ MutableCompositeModification modification = new MutableCompositeModification();
+ DOMStoreThreePhaseCommitCohort cohort = mock(DOMStoreThreePhaseCommitCohort.class, "cohort1");
+ doReturn(Futures.immediateFailedFuture(new IllegalStateException("mock"))).when(cohort).canCommit();
+
+ // Simulate the ForwardedReadyTransaction messages that would be sent
+ // by the ShardTransaction.
+
+ shard.tell(new ForwardedReadyTransaction(transactionID, CURRENT_VERSION,
+ cohort, modification, true), getRef());
+ expectMsgClass(duration, ReadyTransactionReply.class);
+
+ // Send the CanCommitTransaction message.
+
+ shard.tell(new CanCommitTransaction(transactionID).toSerializable(), getRef());
+ expectMsgClass(duration, akka.actor.Status.Failure.class);
+
+ shard.tell(PoisonPill.getInstance(), ActorRef.noSender());
+ }};
+ }
+
+ @Test
+ public void testAbortBeforeFinishCommit() throws Throwable {
+ new ShardTestKit(getSystem()) {{
+ final TestActorRef<Shard> shard = TestActorRef.create(getSystem(),
+ newShardProps().withDispatcher(Dispatchers.DefaultDispatcherId()),
+ "testAbortBeforeFinishCommit");
+
+ waitUntilLeader(shard);
+
+ final FiniteDuration duration = duration("5 seconds");
+ InMemoryDOMDataStore dataStore = shard.underlyingActor().getDataStore();
+
+ final String transactionID = "tx1";
+ Function<DOMStoreThreePhaseCommitCohort,ListenableFuture<Void>> preCommit =
+ new Function<DOMStoreThreePhaseCommitCohort,ListenableFuture<Void>>() {
+ @Override
+ public ListenableFuture<Void> apply(final DOMStoreThreePhaseCommitCohort cohort) {
+ ListenableFuture<Void> preCommitFuture = cohort.preCommit();
+
+ // Simulate an AbortTransaction message occurring during replication, after
+ // persisting and before finishing the commit to the in-memory store.
+ // We have no followers so due to optimizations in the RaftActor, it does not
+ // attempt replication and thus we can't send an AbortTransaction message b/c
+ // it would be processed too late after CommitTransaction completes. So we'll
+ // simulate an AbortTransaction message occurring during replication by calling
+ // the shard directly.
+ //
+ shard.underlyingActor().doAbortTransaction(transactionID, null);
+
+ return preCommitFuture;
+ }
+ };
+
+ MutableCompositeModification modification = new MutableCompositeModification();
+ DOMStoreThreePhaseCommitCohort cohort = setupMockWriteTransaction("cohort1", dataStore,
+ TestModel.TEST_PATH, ImmutableNodes.containerNode(TestModel.TEST_QNAME),
+ modification, preCommit);
+
+ shard.tell(new ForwardedReadyTransaction(transactionID, CURRENT_VERSION,
+ cohort, modification, true), getRef());
+ expectMsgClass(duration, ReadyTransactionReply.class);
+
+ shard.tell(new CanCommitTransaction(transactionID).toSerializable(), getRef());
+ CanCommitTransactionReply canCommitReply = CanCommitTransactionReply.fromSerializable(
+ expectMsgClass(duration, CanCommitTransactionReply.SERIALIZABLE_CLASS));
+ assertEquals("Can commit", true, canCommitReply.getCanCommit());
+
+ shard.tell(new CommitTransaction(transactionID).toSerializable(), getRef());
+ expectMsgClass(duration, CommitTransactionReply.SERIALIZABLE_CLASS);
+
+ NormalizedNode<?, ?> node = readStore(shard, TestModel.TEST_PATH);
+
+ // Since we're simulating an abort occurring during replication and before finish commit,
+ // the data should still get written to the in-memory store since we've gotten past
+ // canCommit and preCommit and persisted the data.
+ assertNotNull(TestModel.TEST_QNAME.getLocalName() + " not found", node);
+
+ shard.tell(PoisonPill.getInstance(), ActorRef.noSender());
+ }};
+ }
+
+ @Test
+ public void testTransactionCommitTimeout() throws Throwable {
+ dataStoreContextBuilder.shardTransactionCommitTimeoutInSeconds(1);
+
+ new ShardTestKit(getSystem()) {{
+ final TestActorRef<Shard> shard = TestActorRef.create(getSystem(),
+ newShardProps().withDispatcher(Dispatchers.DefaultDispatcherId()),
+ "testTransactionCommitTimeout");
+
+ waitUntilLeader(shard);
+
+ final FiniteDuration duration = duration("5 seconds");
+
+ InMemoryDOMDataStore dataStore = shard.underlyingActor().getDataStore();
+
+ writeToStore(shard, TestModel.TEST_PATH, ImmutableNodes.containerNode(TestModel.TEST_QNAME));
+ writeToStore(shard, TestModel.OUTER_LIST_PATH,
+ ImmutableNodes.mapNodeBuilder(TestModel.OUTER_LIST_QNAME).build());
+
+ // Create 1st Tx - will timeout
+
+ String transactionID1 = "tx1";
+ MutableCompositeModification modification1 = new MutableCompositeModification();
+ DOMStoreThreePhaseCommitCohort cohort1 = setupMockWriteTransaction("cohort1", dataStore,
+ YangInstanceIdentifier.builder(TestModel.OUTER_LIST_PATH)
+ .nodeWithKey(TestModel.OUTER_LIST_QNAME, TestModel.ID_QNAME, 1).build(),
+ ImmutableNodes.mapEntry(TestModel.OUTER_LIST_QNAME, TestModel.ID_QNAME, 1),
+ modification1);
+
+ // Create 2nd Tx
+
+ String transactionID2 = "tx3";
+ MutableCompositeModification modification2 = new MutableCompositeModification();
+ YangInstanceIdentifier listNodePath = YangInstanceIdentifier.builder(TestModel.OUTER_LIST_PATH)
+ .nodeWithKey(TestModel.OUTER_LIST_QNAME, TestModel.ID_QNAME, 2).build();
+ DOMStoreThreePhaseCommitCohort cohort2 = setupMockWriteTransaction("cohort3", dataStore,
+ listNodePath,
+ ImmutableNodes.mapEntry(TestModel.OUTER_LIST_QNAME, TestModel.ID_QNAME, 2),
+ modification2);
+
+ // Ready the Tx's
+
+ shard.tell(new ForwardedReadyTransaction(transactionID1, CURRENT_VERSION,
+ cohort1, modification1, true), getRef());
+ expectMsgClass(duration, ReadyTransactionReply.class);
+
+ shard.tell(new ForwardedReadyTransaction(transactionID2, CURRENT_VERSION,
+ cohort2, modification2, true), getRef());
+ expectMsgClass(duration, ReadyTransactionReply.class);
+
+ // 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);
+
+ // 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);
+
+ // Commit the 2nd Tx.
+
+ shard.tell(new CommitTransaction(transactionID2).toSerializable(), getRef());
+ expectMsgClass(duration, CommitTransactionReply.SERIALIZABLE_CLASS);
+
+ NormalizedNode<?, ?> node = readStore(shard, listNodePath);
+ assertNotNull(listNodePath + " not found", node);
+
+ shard.tell(PoisonPill.getInstance(), ActorRef.noSender());
+ }};
+ }
+
+ @Test
+ public void testTransactionCommitQueueCapacityExceeded() throws Throwable {
+ dataStoreContextBuilder.shardTransactionCommitQueueCapacity(1);
+
+ new ShardTestKit(getSystem()) {{
+ final TestActorRef<Shard> shard = TestActorRef.create(getSystem(),
+ newShardProps().withDispatcher(Dispatchers.DefaultDispatcherId()),
+ "testTransactionCommitQueueCapacityExceeded");
+
+ waitUntilLeader(shard);
+
+ final FiniteDuration duration = duration("5 seconds");
+
+ InMemoryDOMDataStore dataStore = shard.underlyingActor().getDataStore();
+
+ String transactionID1 = "tx1";
+ MutableCompositeModification modification1 = new MutableCompositeModification();
+ DOMStoreThreePhaseCommitCohort cohort1 = setupMockWriteTransaction("cohort1", dataStore,
+ TestModel.TEST_PATH, ImmutableNodes.containerNode(TestModel.TEST_QNAME), modification1);
+
+ String transactionID2 = "tx2";
+ MutableCompositeModification modification2 = new MutableCompositeModification();
+ DOMStoreThreePhaseCommitCohort cohort2 = setupMockWriteTransaction("cohort2", dataStore,
+ TestModel.OUTER_LIST_PATH,
+ ImmutableNodes.mapNodeBuilder(TestModel.OUTER_LIST_QNAME).build(),
+ modification2);
+
+ String transactionID3 = "tx3";
+ MutableCompositeModification modification3 = new MutableCompositeModification();
+ DOMStoreThreePhaseCommitCohort cohort3 = setupMockWriteTransaction("cohort3", dataStore,
+ TestModel.TEST_PATH, ImmutableNodes.containerNode(TestModel.TEST_QNAME), modification3);
+
+ // Ready the Tx's
+
+ shard.tell(new ForwardedReadyTransaction(transactionID1, CURRENT_VERSION,
+ cohort1, modification1, true), getRef());
+ expectMsgClass(duration, ReadyTransactionReply.class);
+
+ shard.tell(new ForwardedReadyTransaction(transactionID2, CURRENT_VERSION,
+ cohort2, modification2, true), getRef());
+ expectMsgClass(duration, ReadyTransactionReply.class);
+
+ shard.tell(new ForwardedReadyTransaction(transactionID3, CURRENT_VERSION,
+ cohort3, modification3, true), getRef());
+ expectMsgClass(duration, ReadyTransactionReply.class);
+
+ // canCommit 1st Tx.
+
+ shard.tell(new CanCommitTransaction(transactionID1).toSerializable(), getRef());
+ expectMsgClass(duration, CanCommitTransactionReply.SERIALIZABLE_CLASS);
+
+ // canCommit the 2nd Tx - it should get queued.
+
+ shard.tell(new CanCommitTransaction(transactionID2).toSerializable(), getRef());
+
+ // canCommit the 3rd Tx - should exceed queue capacity and fail.
+
+ shard.tell(new CanCommitTransaction(transactionID3).toSerializable(), getRef());
+ expectMsgClass(duration, akka.actor.Status.Failure.class);
+
+ shard.tell(PoisonPill.getInstance(), ActorRef.noSender());
+ }};
+ }
+
+ @Test
+ public void testCanCommitBeforeReadyFailure() throws Throwable {
+ new ShardTestKit(getSystem()) {{
+ final TestActorRef<Shard> shard = TestActorRef.create(getSystem(),
+ newShardProps().withDispatcher(Dispatchers.DefaultDispatcherId()),
+ "testCanCommitBeforeReadyFailure");
+
+ shard.tell(new CanCommitTransaction("tx").toSerializable(), getRef());
+ expectMsgClass(duration("5 seconds"), akka.actor.Status.Failure.class);
+
+ shard.tell(PoisonPill.getInstance(), ActorRef.noSender());
+ }};
+ }
+
+ @Test
+ public void testAbortTransaction() throws Throwable {
+ new ShardTestKit(getSystem()) {{
+ final TestActorRef<Shard> shard = TestActorRef.create(getSystem(),
+ newShardProps().withDispatcher(Dispatchers.DefaultDispatcherId()),
+ "testAbortTransaction");
+
+ waitUntilLeader(shard);
+
+ // Setup 2 simulated transactions with mock cohorts. The first one will be aborted.
+
+ String transactionID1 = "tx1";
+ MutableCompositeModification modification1 = new MutableCompositeModification();
+ DOMStoreThreePhaseCommitCohort cohort1 = mock(DOMStoreThreePhaseCommitCohort.class, "cohort1");
+ doReturn(Futures.immediateFuture(Boolean.TRUE)).when(cohort1).canCommit();
+ doReturn(Futures.immediateFuture(null)).when(cohort1).abort();
+
+ String transactionID2 = "tx2";
+ MutableCompositeModification modification2 = new MutableCompositeModification();
+ DOMStoreThreePhaseCommitCohort cohort2 = mock(DOMStoreThreePhaseCommitCohort.class, "cohort2");
+ doReturn(Futures.immediateFuture(Boolean.TRUE)).when(cohort2).canCommit();
+
+ FiniteDuration duration = duration("5 seconds");
+ final Timeout timeout = new Timeout(duration);
+
+ // Simulate the ForwardedReadyTransaction messages that would be sent
+ // by the ShardTransaction.
+
+ shard.tell(new ForwardedReadyTransaction(transactionID1, CURRENT_VERSION,
+ cohort1, modification1, true), getRef());
+ expectMsgClass(duration, ReadyTransactionReply.class);
+
+ shard.tell(new ForwardedReadyTransaction(transactionID2, CURRENT_VERSION,
+ cohort2, modification2, true), getRef());
+ expectMsgClass(duration, ReadyTransactionReply.class);
+
+ // Send the CanCommitTransaction message for the first Tx.
+
+ shard.tell(new CanCommitTransaction(transactionID1).toSerializable(), getRef());
+ CanCommitTransactionReply canCommitReply = CanCommitTransactionReply.fromSerializable(
+ expectMsgClass(duration, CanCommitTransactionReply.SERIALIZABLE_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.
+
+ Future<Object> canCommitFuture = Patterns.ask(shard,
+ new CanCommitTransaction(transactionID2).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);
+
+ // Wait for the 2nd Tx to complete the canCommit phase.
+
+ Await.ready(canCommitFuture, duration);
+
+ InOrder inOrder = inOrder(cohort1, cohort2);
+ inOrder.verify(cohort1).canCommit();
+ inOrder.verify(cohort2).canCommit();
+
+ shard.tell(PoisonPill.getInstance(), ActorRef.noSender());
+ }};
+ }
+
+ @Test
+ public void testCreateSnapshot() throws Exception {
+ testCreateSnapshot(true, "testCreateSnapshot");
+ }
+
+ @Test
+ public void testCreateSnapshotWithNonPersistentData() throws Exception {
+ testCreateSnapshot(false, "testCreateSnapshotWithNonPersistentData");
+ }
+
+ @SuppressWarnings("serial")
+ public void testCreateSnapshot(final boolean persistent, final String shardActorName) throws Exception{
+
+ final AtomicReference<Object> savedSnapshot = new AtomicReference<>();
+ class TestPersistentDataProvider extends DelegatingPersistentDataProvider {
+ TestPersistentDataProvider(DataPersistenceProvider delegate) {
+ super(delegate);
+ }
+
+ @Override
+ public void saveSnapshot(Object o) {
+ savedSnapshot.set(o);
+ super.saveSnapshot(o);
+ }
+ }
+
+ dataStoreContextBuilder.persistent(persistent);
+
+ new ShardTestKit(getSystem()) {{
+ final AtomicReference<CountDownLatch> latch = new AtomicReference<>(new CountDownLatch(1));
+
+ class TestShard extends Shard {
+
+ protected TestShard(ShardIdentifier name, Map<String, String> peerAddresses,
+ DatastoreContext datastoreContext, SchemaContext schemaContext) {
+ super(name, peerAddresses, datastoreContext, schemaContext);
+ setPersistence(new TestPersistentDataProvider(super.persistence()));
+ }
+
+ @Override
+ protected void commitSnapshot(final long sequenceNumber) {
+ super.commitSnapshot(sequenceNumber);
+ latch.get().countDown();
+ }
+
+ @Override
+ public RaftActorContext getRaftActorContext() {
+ return super.getRaftActorContext();
+ }
+ }
+
+ Creator<Shard> creator = new Creator<Shard>() {
+ @Override
+ public Shard create() throws Exception {
+ return new TestShard(shardID, Collections.<String,String>emptyMap(),
+ newDatastoreContext(), SCHEMA_CONTEXT);
+ }
+ };
+
+ TestActorRef<Shard> shard = TestActorRef.create(getSystem(),
+ Props.create(new DelegatingShardCreator(creator)), shardActorName);
+
+ waitUntilLeader(shard);
+
+ writeToStore(shard, TestModel.TEST_PATH, ImmutableNodes.containerNode(TestModel.TEST_QNAME));
+
+ NormalizedNode<?,?> expectedRoot = readStore(shard, YangInstanceIdentifier.builder().build());
+
+ // Trigger creation of a snapshot by ensuring
+ RaftActorContext raftActorContext = ((TestShard) shard.underlyingActor()).getRaftActorContext();
+ raftActorContext.getSnapshotManager().capture(mock(ReplicatedLogEntry.class), -1);
+
+ assertEquals("Snapshot saved", true, latch.get().await(5, TimeUnit.SECONDS));
+
+ assertTrue("Invalid saved snapshot " + savedSnapshot.get(),
+ savedSnapshot.get() instanceof Snapshot);
+
+ verifySnapshot((Snapshot)savedSnapshot.get(), expectedRoot);
+
+ latch.set(new CountDownLatch(1));
+ savedSnapshot.set(null);
+
+ raftActorContext.getSnapshotManager().capture(mock(ReplicatedLogEntry.class), -1);
+
+ assertEquals("Snapshot saved", true, latch.get().await(5, TimeUnit.SECONDS));
+
+ assertTrue("Invalid saved snapshot " + savedSnapshot.get(),
+ savedSnapshot.get() instanceof Snapshot);
+
+ verifySnapshot((Snapshot)savedSnapshot.get(), expectedRoot);
+
+ shard.tell(PoisonPill.getInstance(), ActorRef.noSender());
+ }
+
+ private void verifySnapshot(Snapshot snapshot, NormalizedNode<?,?> expectedRoot) {
+
+ NormalizedNode<?, ?> actual = SerializationUtils.deserializeNormalizedNode(snapshot.getState());
+ assertEquals("Root node", expectedRoot, actual);
+
+ }};
+ }
+
+ /**
+ * This test simply verifies that the applySnapShot logic will work
+ * @throws ReadFailedException
+ */
+ @Test
+ public void testInMemoryDataStoreRestore() throws ReadFailedException {
+ InMemoryDOMDataStore store = new InMemoryDOMDataStore("test", MoreExecutors.sameThreadExecutor());
+
+ store.onGlobalContextUpdated(SCHEMA_CONTEXT);
+
+ DOMStoreWriteTransaction putTransaction = store.newWriteOnlyTransaction();
+ putTransaction.write(TestModel.TEST_PATH,
+ ImmutableNodes.containerNode(TestModel.TEST_QNAME));
+ commitTransaction(putTransaction);
+
+
+ NormalizedNode<?, ?> expected = readStore(store);
+
+ DOMStoreWriteTransaction writeTransaction = store.newWriteOnlyTransaction();
+
+ writeTransaction.delete(YangInstanceIdentifier.builder().build());
+ writeTransaction.write(YangInstanceIdentifier.builder().build(), expected);
+
+ commitTransaction(writeTransaction);
+
+ NormalizedNode<?, ?> actual = readStore(store);
+
+ assertEquals(expected, actual);
+ }
+
+ @Test
+ public void testRecoveryApplicable(){
+
+ final DatastoreContext persistentContext = DatastoreContext.newBuilder().
+ shardJournalRecoveryLogBatchSize(3).shardSnapshotBatchCount(5000).persistent(true).build();
+
+ final Props persistentProps = Shard.props(shardID, Collections.<String, String>emptyMap(),
+ persistentContext, SCHEMA_CONTEXT);
+
+ final DatastoreContext nonPersistentContext = DatastoreContext.newBuilder().
+ shardJournalRecoveryLogBatchSize(3).shardSnapshotBatchCount(5000).persistent(false).build();
+
+ final Props nonPersistentProps = Shard.props(shardID, Collections.<String, String>emptyMap(),
+ nonPersistentContext, SCHEMA_CONTEXT);
+
+ new ShardTestKit(getSystem()) {{
+ TestActorRef<Shard> shard1 = TestActorRef.create(getSystem(),
+ persistentProps, "testPersistence1");
+
+ assertTrue("Recovery Applicable", shard1.underlyingActor().persistence().isRecoveryApplicable());
+
+ shard1.tell(PoisonPill.getInstance(), ActorRef.noSender());
+
+ TestActorRef<Shard> shard2 = TestActorRef.create(getSystem(),
+ nonPersistentProps, "testPersistence2");
+
+ assertFalse("Recovery Not Applicable", shard2.underlyingActor().persistence().isRecoveryApplicable());
+
+ shard2.tell(PoisonPill.getInstance(), ActorRef.noSender());
+
+ }};
+
+ }
+
+ @Test
+ public void testOnDatastoreContext() {
+ new ShardTestKit(getSystem()) {{
+ dataStoreContextBuilder.persistent(true);
+
+ TestActorRef<Shard> shard = TestActorRef.create(getSystem(), newShardProps(), "testOnDatastoreContext");
+
+ assertEquals("isRecoveryApplicable", true,
+ shard.underlyingActor().persistence().isRecoveryApplicable());
+
+ waitUntilLeader(shard);
+
+ shard.tell(dataStoreContextBuilder.persistent(false).build(), ActorRef.noSender());
+
+ assertEquals("isRecoveryApplicable", false,
+ shard.underlyingActor().persistence().isRecoveryApplicable());
+
+ shard.tell(dataStoreContextBuilder.persistent(true).build(), ActorRef.noSender());
+
+ assertEquals("isRecoveryApplicable", true,
+ shard.underlyingActor().persistence().isRecoveryApplicable());
+
+ shard.tell(PoisonPill.getInstance(), ActorRef.noSender());
+ }};
+ }
+
+ @Test
+ public void testRegisterRoleChangeListener() throws Exception {
+ new ShardTestKit(getSystem()) {
+ {
+ final TestActorRef<Shard> shard = TestActorRef.create(getSystem(),
+ newShardProps().withDispatcher(Dispatchers.DefaultDispatcherId()),
+ "testRegisterRoleChangeListener");
+
+ waitUntilLeader(shard);
+
+ TestActorRef<MessageCollectorActor> listener =
+ TestActorRef.create(getSystem(), Props.create(MessageCollectorActor.class));
+
+ shard.tell(new RegisterRoleChangeListener(), listener);
+
+ // TODO: MessageCollectorActor exists as a test util in both the akka-raft and distributed-datastore
+ // projects. Need to move it to commons as a regular utility and then we can get rid of this arbitrary
+ // sleep.
+ Uninterruptibles.sleepUninterruptibly(100, TimeUnit.MILLISECONDS);
+
+ List<Object> allMatching = MessageCollectorActor.getAllMatching(listener, RegisterRoleChangeListenerReply.class);
+
+ assertEquals(1, allMatching.size());
+ }
+ };
+ }
+
+ @Test
+ public void testFollowerInitialSyncStatus() throws Exception {
+ final TestActorRef<Shard> shard = TestActorRef.create(getSystem(),
+ newShardProps().withDispatcher(Dispatchers.DefaultDispatcherId()),
+ "testFollowerInitialSyncStatus");
+
+ shard.underlyingActor().onReceiveCommand(new FollowerInitialSyncUpStatus(false, "member-1-shard-inventory-operational"));
+
+ assertEquals(false, shard.underlyingActor().getShardMBean().getFollowerInitialSyncStatus());
+
+ shard.underlyingActor().onReceiveCommand(new FollowerInitialSyncUpStatus(true, "member-1-shard-inventory-operational"));
+
+ assertEquals(true, shard.underlyingActor().getShardMBean().getFollowerInitialSyncStatus());
+
+ shard.tell(PoisonPill.getInstance(), ActorRef.noSender());
+ }
+
+ private void commitTransaction(final DOMStoreWriteTransaction transaction) {
+ DOMStoreThreePhaseCommitCohort commitCohort = transaction.ready();
+ ListenableFuture<Void> future =
+ commitCohort.preCommit();
+ try {
+ future.get();
+ future = commitCohort.commit();
+ future.get();
+ } catch (InterruptedException | ExecutionException e) {
}
}
}