import com.google.common.primitives.UnsignedLong;
import com.google.common.util.concurrent.FutureCallback;
import java.io.IOException;
-import java.math.BigInteger;
import java.util.ArrayList;
import java.util.Collection;
import java.util.HashMap;
import org.mockito.ArgumentCaptor;
import org.mockito.InOrder;
import org.mockito.Mockito;
-import org.opendaylight.controller.cluster.datastore.jmx.mbeans.shard.ShardStats;
import org.opendaylight.controller.cluster.datastore.persisted.CommitTransactionPayload;
import org.opendaylight.controller.cluster.datastore.persisted.MetadataShardDataTreeSnapshot;
import org.opendaylight.controller.cluster.datastore.persisted.PayloadVersion;
import org.opendaylight.controller.md.cluster.datastore.model.PeopleModel;
import org.opendaylight.controller.md.cluster.datastore.model.SchemaContextHelper;
import org.opendaylight.mdsal.dom.api.DOMDataTreeChangeListener;
+import org.opendaylight.yangtools.yang.common.Empty;
import org.opendaylight.yangtools.yang.common.Uint64;
import org.opendaylight.yangtools.yang.data.api.YangInstanceIdentifier;
import org.opendaylight.yangtools.yang.data.api.YangInstanceIdentifier.NodeIdentifier;
import org.opendaylight.yangtools.yang.data.api.schema.ContainerNode;
import org.opendaylight.yangtools.yang.data.api.schema.MapEntryNode;
import org.opendaylight.yangtools.yang.data.api.schema.NormalizedNode;
-import org.opendaylight.yangtools.yang.data.api.schema.tree.DataTreeCandidate;
-import org.opendaylight.yangtools.yang.data.api.schema.tree.DataTreeCandidates;
-import org.opendaylight.yangtools.yang.data.api.schema.tree.DataTreeModification;
-import org.opendaylight.yangtools.yang.data.api.schema.tree.DataTreeSnapshot;
-import org.opendaylight.yangtools.yang.data.api.schema.tree.DataValidationFailedException;
-import org.opendaylight.yangtools.yang.data.api.schema.tree.ModificationType;
-import org.opendaylight.yangtools.yang.data.api.schema.tree.TreeType;
import org.opendaylight.yangtools.yang.data.impl.schema.Builders;
import org.opendaylight.yangtools.yang.data.impl.schema.ImmutableNodes;
+import org.opendaylight.yangtools.yang.data.tree.api.DataTree;
+import org.opendaylight.yangtools.yang.data.tree.api.DataTreeCandidate;
+import org.opendaylight.yangtools.yang.data.tree.api.DataTreeConfiguration;
+import org.opendaylight.yangtools.yang.data.tree.api.DataTreeModification;
+import org.opendaylight.yangtools.yang.data.tree.api.DataTreeSnapshot;
+import org.opendaylight.yangtools.yang.data.tree.api.DataValidationFailedException;
+import org.opendaylight.yangtools.yang.data.tree.api.ModificationType;
+import org.opendaylight.yangtools.yang.data.tree.api.TreeType;
+import org.opendaylight.yangtools.yang.data.tree.impl.di.InMemoryDataTreeFactory;
+import org.opendaylight.yangtools.yang.data.tree.spi.DataTreeCandidates;
+import org.opendaylight.yangtools.yang.model.api.EffectiveModelContext;
import org.opendaylight.yangtools.yang.model.api.SchemaContext;
public class ShardDataTreeTest extends AbstractTest {
private final Shard mockShard = Mockito.mock(Shard.class);
private ShardDataTree shardDataTree;
- private SchemaContext fullSchema;
+ private EffectiveModelContext fullSchema;
@Before
public void setUp() {
doReturn(Ticker.systemTicker()).when(mockShard).ticker();
- doReturn(mock(ShardStats.class)).when(mockShard).getShardMBean();
+ doReturn(new ShardStats("shardName", "mxBeanType", mockShard)).when(mockShard).getShardMBean();
doReturn(DATASTORE_CONTEXT).when(mockShard).getDatastoreContext();
fullSchema = SchemaContextHelper.full();
final DataTreeSnapshot snapshot1 = readOnlyShardDataTreeTransaction.getSnapshot();
- final Optional<NormalizedNode<?, ?>> optional = snapshot1.readNode(CarsModel.BASE_PATH);
+ final Optional<NormalizedNode> optional = snapshot1.readNode(CarsModel.BASE_PATH);
assertEquals(expectedCarsPresent, optional.isPresent());
- final Optional<NormalizedNode<?, ?>> optional1 = snapshot1.readNode(PeopleModel.BASE_PATH);
+ final Optional<NormalizedNode> optional1 = snapshot1.readNode(PeopleModel.BASE_PATH);
assertEquals(expectedPeoplePresent, optional1.isPresent());
}
candidates.add(addCar(shardDataTree));
candidates.add(removeCar(shardDataTree));
- final NormalizedNode<?, ?> expected = getCars(shardDataTree);
+ final NormalizedNode expected = getCars(shardDataTree);
applyCandidates(shardDataTree, candidates);
- final NormalizedNode<?, ?> actual = getCars(shardDataTree);
+ final NormalizedNode actual = getCars(shardDataTree);
assertEquals(expected, actual);
}
candidates.add(addCar(shardDataTree));
candidates.add(removeCar(shardDataTree));
- final NormalizedNode<?, ?> expected = getCars(shardDataTree);
+ final NormalizedNode expected = getCars(shardDataTree);
applyCandidates(shardDataTree, candidates);
- final NormalizedNode<?, ?> actual = getCars(shardDataTree);
+ final NormalizedNode actual = getCars(shardDataTree);
assertEquals(expected, actual);
}
addCar(shardDataTree, "optima");
verifyOnDataTreeChanged(listener, dtc -> {
- assertEquals("getModificationType", ModificationType.WRITE, dtc.getRootNode().getModificationType());
+ assertEquals("getModificationType", ModificationType.WRITE, dtc.getRootNode().modificationType());
assertEquals("getRootPath", CarsModel.newCarPath("optima"), dtc.getRootPath());
});
addCar(shardDataTree, "sportage");
verifyOnDataTreeChanged(listener, dtc -> {
- assertEquals("getModificationType", ModificationType.WRITE, dtc.getRootNode().getModificationType());
+ assertEquals("getModificationType", ModificationType.WRITE, dtc.getRootNode().modificationType());
assertEquals("getRootPath", CarsModel.newCarPath("sportage"), dtc.getRootPath());
});
verifyOnDataTreeChanged(listener, dtc -> {
ModificationType expType = expChanges.remove(dtc.getRootPath());
assertNotNull("Got unexpected change for " + dtc.getRootPath(), expType);
- assertEquals("getModificationType", expType, dtc.getRootNode().getModificationType());
+ assertEquals("getModificationType", expType, dtc.getRootNode().modificationType());
});
if (!expChanges.isEmpty()) {
final ShardDataTreeCohort cohort2 = newShardDataTreeCohort(snapshot ->
snapshot.write(CarsModel.CAR_LIST_PATH, CarsModel.newCarMapNode()));
- NormalizedNode<?, ?> peopleNode = PeopleModel.create();
+ NormalizedNode peopleNode = PeopleModel.create();
final ShardDataTreeCohort cohort3 = newShardDataTreeCohort(snapshot ->
snapshot.write(PeopleModel.BASE_PATH, peopleNode));
final ShardDataTreeCohort cohort4 = newShardDataTreeCohort(snapshot -> snapshot.write(carPath, carNode));
immediateCanCommit(cohort1);
- final FutureCallback<Void> canCommitCallback2 = coordinatedCanCommit(cohort2);
- final FutureCallback<Void> canCommitCallback3 = coordinatedCanCommit(cohort3);
- final FutureCallback<Void> canCommitCallback4 = coordinatedCanCommit(cohort4);
+ final FutureCallback<Empty> canCommitCallback2 = coordinatedCanCommit(cohort2);
+ final FutureCallback<Empty> canCommitCallback3 = coordinatedCanCommit(cohort3);
+ final FutureCallback<Empty> canCommitCallback4 = coordinatedCanCommit(cohort4);
final FutureCallback<DataTreeCandidate> preCommitCallback1 = coordinatedPreCommit(cohort1);
verify(preCommitCallback1).onSuccess(cohort1.getCandidate());
- verify(canCommitCallback2).onSuccess(null);
+ verify(canCommitCallback2).onSuccess(Empty.value());
final FutureCallback<DataTreeCandidate> preCommitCallback2 = coordinatedPreCommit(cohort2);
verify(preCommitCallback2).onSuccess(cohort2.getCandidate());
- verify(canCommitCallback3).onSuccess(null);
+ verify(canCommitCallback3).onSuccess(Empty.value());
final FutureCallback<DataTreeCandidate> preCommitCallback3 = coordinatedPreCommit(cohort3);
verify(preCommitCallback3).onSuccess(cohort3.getCandidate());
- verify(canCommitCallback4).onSuccess(null);
+ verify(canCommitCallback4).onSuccess(Empty.value());
final FutureCallback<DataTreeCandidate> preCommitCallback4 = coordinatedPreCommit(cohort4);
verify(preCommitCallback4).onSuccess(cohort4.getCandidate());
final FutureCallback<UnsignedLong> commitCallback2 = coordinatedCommit(cohort2);
- verify(mockShard, never()).persistPayload(eq(cohort1.getIdentifier()), any(CommitTransactionPayload.class),
+ verify(mockShard, never()).persistPayload(eq(cohort1.transactionId()), any(CommitTransactionPayload.class),
anyBoolean());
verifyNoMoreInteractions(commitCallback2);
final FutureCallback<UnsignedLong> commitCallback4 = coordinatedCommit(cohort4);
- verify(mockShard, never()).persistPayload(eq(cohort4.getIdentifier()), any(CommitTransactionPayload.class),
+ verify(mockShard, never()).persistPayload(eq(cohort4.transactionId()), any(CommitTransactionPayload.class),
anyBoolean());
verifyNoMoreInteractions(commitCallback4);
final FutureCallback<UnsignedLong> commitCallback1 = coordinatedCommit(cohort1);
InOrder inOrder = inOrder(mockShard);
- inOrder.verify(mockShard).persistPayload(eq(cohort1.getIdentifier()), any(CommitTransactionPayload.class),
+ inOrder.verify(mockShard).persistPayload(eq(cohort1.transactionId()), any(CommitTransactionPayload.class),
eq(true));
- inOrder.verify(mockShard).persistPayload(eq(cohort2.getIdentifier()), any(CommitTransactionPayload.class),
+ inOrder.verify(mockShard).persistPayload(eq(cohort2.transactionId()), any(CommitTransactionPayload.class),
eq(false));
verifyNoMoreInteractions(commitCallback1);
verifyNoMoreInteractions(commitCallback2);
final FutureCallback<UnsignedLong> commitCallback3 = coordinatedCommit(cohort3);
inOrder = inOrder(mockShard);
- inOrder.verify(mockShard).persistPayload(eq(cohort3.getIdentifier()), any(CommitTransactionPayload.class),
+ inOrder.verify(mockShard).persistPayload(eq(cohort3.transactionId()), any(CommitTransactionPayload.class),
eq(true));
- inOrder.verify(mockShard).persistPayload(eq(cohort4.getIdentifier()), any(CommitTransactionPayload.class),
+ inOrder.verify(mockShard).persistPayload(eq(cohort4.transactionId()), any(CommitTransactionPayload.class),
eq(false));
verifyNoMoreInteractions(commitCallback3);
verifyNoMoreInteractions(commitCallback4);
final ShardDataTreeCohort cohort5 = newShardDataTreeCohort(snapshot ->
snapshot.merge(CarsModel.BASE_PATH, CarsModel.emptyContainer()));
- final FutureCallback<Void> canCommitCallback5 = coordinatedCanCommit(cohort5);
+ final FutureCallback<Empty> canCommitCallback5 = coordinatedCanCommit(cohort5);
// The payload instance doesn't matter - it just needs to be of type CommitTransactionPayload.
CommitTransactionPayload mockPayload = CommitTransactionPayload.create(nextTransactionId(),
cohort1.getCandidate());
- shardDataTree.applyReplicatedPayload(cohort1.getIdentifier(), mockPayload);
- shardDataTree.applyReplicatedPayload(cohort2.getIdentifier(), mockPayload);
- shardDataTree.applyReplicatedPayload(cohort3.getIdentifier(), mockPayload);
- shardDataTree.applyReplicatedPayload(cohort4.getIdentifier(), mockPayload);
+ shardDataTree.applyReplicatedPayload(cohort1.transactionId(), mockPayload);
+ shardDataTree.applyReplicatedPayload(cohort2.transactionId(), mockPayload);
+ shardDataTree.applyReplicatedPayload(cohort3.transactionId(), mockPayload);
+ shardDataTree.applyReplicatedPayload(cohort4.transactionId(), mockPayload);
inOrder = inOrder(commitCallback1, commitCallback2, commitCallback3, commitCallback4);
inOrder.verify(commitCallback1).onSuccess(any(UnsignedLong.class));
inOrder.verify(commitCallback3).onSuccess(any(UnsignedLong.class));
inOrder.verify(commitCallback4).onSuccess(any(UnsignedLong.class));
- verify(canCommitCallback5).onSuccess(null);
+ verify(canCommitCallback5).onSuccess(Empty.value());
final DataTreeSnapshot snapshot =
shardDataTree.newReadOnlyTransaction(nextTransactionId()).getSnapshot();
- Optional<NormalizedNode<?, ?>> optional = snapshot.readNode(carPath);
- assertTrue("Car node present", optional.isPresent());
- assertEquals("Car node", carNode, optional.get());
-
- optional = snapshot.readNode(PeopleModel.BASE_PATH);
- assertTrue("People node present", optional.isPresent());
- assertEquals("People node", peopleNode, optional.get());
+ assertEquals("Car node", Optional.of(carNode), snapshot.readNode(carPath));
+ assertEquals("People node", Optional.of(peopleNode), snapshot.readNode(PeopleModel.BASE_PATH));
}
@Test
final FutureCallback<UnsignedLong> commitCallback1 = immediate3PhaseCommit(cohort1);
InOrder inOrder = inOrder(mockShard);
- inOrder.verify(mockShard).persistPayload(eq(cohort1.getIdentifier()), any(CommitTransactionPayload.class),
+ inOrder.verify(mockShard).persistPayload(eq(cohort1.transactionId()), any(CommitTransactionPayload.class),
eq(true));
- inOrder.verify(mockShard).persistPayload(eq(cohort2.getIdentifier()), any(CommitTransactionPayload.class),
+ inOrder.verify(mockShard).persistPayload(eq(cohort2.transactionId()), any(CommitTransactionPayload.class),
eq(true));
- inOrder.verify(mockShard).persistPayload(eq(cohort3.getIdentifier()), any(CommitTransactionPayload.class),
+ inOrder.verify(mockShard).persistPayload(eq(cohort3.transactionId()), any(CommitTransactionPayload.class),
eq(false));
// The payload instance doesn't matter - it just needs to be of type CommitTransactionPayload.
CommitTransactionPayload mockPayload = CommitTransactionPayload.create(nextTransactionId(),
cohort1.getCandidate());
- shardDataTree.applyReplicatedPayload(cohort1.getIdentifier(), mockPayload);
- shardDataTree.applyReplicatedPayload(cohort2.getIdentifier(), mockPayload);
- shardDataTree.applyReplicatedPayload(cohort3.getIdentifier(), mockPayload);
+ shardDataTree.applyReplicatedPayload(cohort1.transactionId(), mockPayload);
+ shardDataTree.applyReplicatedPayload(cohort2.transactionId(), mockPayload);
+ shardDataTree.applyReplicatedPayload(cohort3.transactionId(), mockPayload);
inOrder = inOrder(commitCallback1, commitCallback2, commitCallback3);
inOrder.verify(commitCallback1).onSuccess(any(UnsignedLong.class));
final DataTreeSnapshot snapshot =
shardDataTree.newReadOnlyTransaction(nextTransactionId()).getSnapshot();
- Optional<NormalizedNode<?, ?>> optional = snapshot.readNode(carPath);
- assertTrue("Car node present", optional.isPresent());
- assertEquals("Car node", carNode, optional.get());
+ assertEquals("Car node", Optional.of(carNode), snapshot.readNode(carPath));
}
@Test
inOrder.verify(commitCallback3).onSuccess(any(UnsignedLong.class));
final DataTreeSnapshot snapshot = shardDataTree.newReadOnlyTransaction(nextTransactionId()).getSnapshot();
- Optional<NormalizedNode<?, ?>> optional = snapshot.readNode(CarsModel.BASE_PATH);
+ Optional<NormalizedNode> optional = snapshot.readNode(CarsModel.BASE_PATH);
assertTrue("Car node present", optional.isPresent());
}
coordinatedPreCommit(cohort2);
coordinatedPreCommit(cohort3);
- FutureCallback<Void> mockAbortCallback = mock(FutureCallback.class);
- doNothing().when(mockAbortCallback).onSuccess(null);
+ FutureCallback<Empty> mockAbortCallback = mock(FutureCallback.class);
+ doNothing().when(mockAbortCallback).onSuccess(Empty.value());
cohort2.abort(mockAbortCallback);
- verify(mockAbortCallback).onSuccess(null);
+ verify(mockAbortCallback).onSuccess(Empty.value());
coordinatedPreCommit(cohort4);
coordinatedCommit(cohort1);
coordinatedCommit(cohort4);
InOrder inOrder = inOrder(mockShard);
- inOrder.verify(mockShard).persistPayload(eq(cohort1.getIdentifier()), any(CommitTransactionPayload.class),
+ inOrder.verify(mockShard).persistPayload(eq(cohort1.transactionId()), any(CommitTransactionPayload.class),
eq(false));
- inOrder.verify(mockShard).persistPayload(eq(cohort3.getIdentifier()), any(CommitTransactionPayload.class),
+ inOrder.verify(mockShard).persistPayload(eq(cohort3.transactionId()), any(CommitTransactionPayload.class),
eq(false));
- inOrder.verify(mockShard).persistPayload(eq(cohort4.getIdentifier()), any(CommitTransactionPayload.class),
+ inOrder.verify(mockShard).persistPayload(eq(cohort4.transactionId()), any(CommitTransactionPayload.class),
eq(false));
// The payload instance doesn't matter - it just needs to be of type CommitTransactionPayload.
CommitTransactionPayload mockPayload = CommitTransactionPayload.create(nextTransactionId(),
cohort1.getCandidate());
- shardDataTree.applyReplicatedPayload(cohort1.getIdentifier(), mockPayload);
- shardDataTree.applyReplicatedPayload(cohort3.getIdentifier(), mockPayload);
- shardDataTree.applyReplicatedPayload(cohort4.getIdentifier(), mockPayload);
+ shardDataTree.applyReplicatedPayload(cohort1.transactionId(), mockPayload);
+ shardDataTree.applyReplicatedPayload(cohort3.transactionId(), mockPayload);
+ shardDataTree.applyReplicatedPayload(cohort4.transactionId(), mockPayload);
final DataTreeSnapshot snapshot =
shardDataTree.newReadOnlyTransaction(nextTransactionId()).getSnapshot();
- Optional<NormalizedNode<?, ?>> optional = snapshot.readNode(carPath);
- assertTrue("Car node present", optional.isPresent());
- assertEquals("Car node", carNode, optional.get());
+ Optional<NormalizedNode> optional = snapshot.readNode(carPath);
+ assertEquals("Car node", Optional.of(carNode), optional);
}
@SuppressWarnings("unchecked")
final ShardDataTreeCohort cohort2 = newShardDataTreeCohort(snapshot ->
snapshot.write(CarsModel.CAR_LIST_PATH, CarsModel.newCarMapNode()));
- NormalizedNode<?, ?> peopleNode = PeopleModel.create();
+ NormalizedNode peopleNode = PeopleModel.create();
final ShardDataTreeCohort cohort3 = newShardDataTreeCohort(snapshot ->
snapshot.write(PeopleModel.BASE_PATH, peopleNode));
immediateCanCommit(cohort1);
- FutureCallback<Void> canCommitCallback2 = coordinatedCanCommit(cohort2);
+ FutureCallback<Empty> canCommitCallback2 = coordinatedCanCommit(cohort2);
coordinatedPreCommit(cohort1);
- verify(canCommitCallback2).onSuccess(null);
+ verify(canCommitCallback2).onSuccess(Empty.value());
- FutureCallback<Void> mockAbortCallback = mock(FutureCallback.class);
- doNothing().when(mockAbortCallback).onSuccess(null);
+ FutureCallback<Empty> mockAbortCallback = mock(FutureCallback.class);
+ doNothing().when(mockAbortCallback).onSuccess(Empty.value());
cohort1.abort(mockAbortCallback);
- verify(mockAbortCallback).onSuccess(null);
+ verify(mockAbortCallback).onSuccess(Empty.value());
FutureCallback<DataTreeCandidate> preCommitCallback2 = coordinatedPreCommit(cohort2);
verify(preCommitCallback2).onFailure(any(Throwable.class));
final DataTreeSnapshot snapshot =
shardDataTree.newReadOnlyTransaction(nextTransactionId()).getSnapshot();
- Optional<NormalizedNode<?, ?>> optional = snapshot.readNode(PeopleModel.BASE_PATH);
- assertTrue("People node present", optional.isPresent());
- assertEquals("People node", peopleNode, optional.get());
+ Optional<NormalizedNode> optional = snapshot.readNode(PeopleModel.BASE_PATH);
+ assertEquals("People node", Optional.of(peopleNode), optional);
}
@Test
public void testUintCommitPayload() throws IOException {
shardDataTree.applyRecoveryPayload(CommitTransactionPayload.create(nextTransactionId(),
- DataTreeCandidates.fromNormalizedNode(YangInstanceIdentifier.empty(), bigIntegerRoot()),
- PayloadVersion.SODIUM_SR1));
+ DataTreeCandidates.fromNormalizedNode(YangInstanceIdentifier.of(), bigIntegerRoot()),
+ PayloadVersion.POTASSIUM));
assertCarsUint64();
}
assertCarsUint64();
}
+ @Test
+ public void testUintReplay() throws DataValidationFailedException, IOException {
+ // Commit two writes and one merge, saving the data tree candidate for each.
+ // write(foo=1)
+ // write(foo=2)
+ // merge(foo=3)
+ final DataTree dataTree = new InMemoryDataTreeFactory().create(DataTreeConfiguration.DEFAULT_OPERATIONAL,
+ fullSchema);
+ DataTreeModification mod = dataTree.takeSnapshot().newModification();
+ mod.write(CarsModel.BASE_PATH, Builders.containerBuilder()
+ .withNodeIdentifier(new NodeIdentifier(CarsModel.BASE_QNAME))
+ .withChild(Builders.mapBuilder()
+ .withNodeIdentifier(new NodeIdentifier(CarsModel.CAR_QNAME))
+ .withChild(createCar("one", Uint64.ONE))
+ .build())
+ .build());
+ mod.ready();
+ dataTree.validate(mod);
+ final DataTreeCandidate first = dataTree.prepare(mod);
+ dataTree.commit(first);
+
+ mod = dataTree.takeSnapshot().newModification();
+ mod.write(CarsModel.newCarPath("two"), createCar("two", Uint64.TWO));
+ mod.ready();
+ dataTree.validate(mod);
+ final DataTreeCandidate second = dataTree.prepare(mod);
+ dataTree.commit(second);
+
+ mod = dataTree.takeSnapshot().newModification();
+ mod.merge(CarsModel.CAR_LIST_PATH, Builders.mapBuilder()
+ .withNodeIdentifier(new NodeIdentifier(CarsModel.CAR_QNAME))
+ .withChild(createCar("three", Uint64.TEN))
+ .build());
+ mod.ready();
+ dataTree.validate(mod);
+ final DataTreeCandidate third = dataTree.prepare(mod);
+ dataTree.commit(third);
+
+ // Apply first candidate as a snapshot
+ shardDataTree.applyRecoverySnapshot(new ShardSnapshotState(
+ new MetadataShardDataTreeSnapshot(first.getRootNode().getDataAfter()), true));
+ // Apply the other two snapshots as transactions
+ shardDataTree.applyRecoveryPayload(CommitTransactionPayload.create(nextTransactionId(), second,
+ PayloadVersion.POTASSIUM));
+ shardDataTree.applyRecoveryPayload(CommitTransactionPayload.create(nextTransactionId(), third,
+ PayloadVersion.POTASSIUM));
+
+ // Verify uint translation
+ final DataTreeSnapshot snapshot = shardDataTree.newReadOnlyTransaction(nextTransactionId()).getSnapshot();
+
+ assertEquals(Builders.mapBuilder()
+ .withNodeIdentifier(new NodeIdentifier(CarsModel.CAR_QNAME))
+ // Note: Uint64
+ .withChild(createCar("one", Uint64.ONE))
+ .withChild(createCar("two", Uint64.TWO))
+ .withChild(createCar("three", Uint64.TEN))
+ .build(), snapshot.readNode(CarsModel.CAR_LIST_PATH).orElseThrow());
+ }
+
private void assertCarsUint64() {
final DataTreeSnapshot snapshot = shardDataTree.newReadOnlyTransaction(nextTransactionId()).getSnapshot();
- final NormalizedNode<?, ?> cars = snapshot.readNode(CarsModel.CAR_LIST_PATH).get();
+ final NormalizedNode cars = snapshot.readNode(CarsModel.CAR_LIST_PATH).orElseThrow();
assertEquals(Builders.mapBuilder()
.withNodeIdentifier(new NodeIdentifier(CarsModel.CAR_QNAME))
- .withChild(Builders.mapEntryBuilder()
- .withNodeIdentifier(NodeIdentifierWithPredicates.of(CarsModel.CAR_QNAME,
- CarsModel.CAR_NAME_QNAME, "foo"))
- .withChild(ImmutableNodes.leafNode(CarsModel.CAR_NAME_QNAME, "foo"))
- // Note: Uint64
- .withChild(ImmutableNodes.leafNode(CarsModel.CAR_PRICE_QNAME, Uint64.ONE))
- .build())
+ // Note: Uint64
+ .withChild(createCar("foo", Uint64.ONE))
.build(), cars);
}
private static ContainerNode bigIntegerRoot() {
return Builders.containerBuilder()
- .withNodeIdentifier(new NodeIdentifier(SchemaContext.NAME))
- .withChild(Builders.containerBuilder()
- .withNodeIdentifier(new NodeIdentifier(CarsModel.CARS_QNAME))
- .withChild(Builders.mapBuilder()
- .withNodeIdentifier(new NodeIdentifier(CarsModel.CAR_QNAME))
- .withChild(Builders.mapEntryBuilder()
- .withNodeIdentifier(NodeIdentifierWithPredicates.of(CarsModel.CAR_QNAME,
- CarsModel.CAR_NAME_QNAME, "foo"))
- .withChild(ImmutableNodes.leafNode(CarsModel.CAR_NAME_QNAME, "foo"))
- // Note: old BigInteger
- .withChild(ImmutableNodes.leafNode(CarsModel.CAR_PRICE_QNAME, BigInteger.ONE))
- .build())
- .build())
+ .withNodeIdentifier(new NodeIdentifier(SchemaContext.NAME))
+ .withChild(Builders.containerBuilder()
+ .withNodeIdentifier(new NodeIdentifier(CarsModel.CARS_QNAME))
+ .withChild(Builders.mapBuilder()
+ .withNodeIdentifier(new NodeIdentifier(CarsModel.CAR_QNAME))
+ .withChild(createCar("foo", Uint64.ONE))
.build())
- .build();
+ .build())
+ .build();
+ }
+
+ private static MapEntryNode createCar(final String name, final Object value) {
+ return Builders.mapEntryBuilder()
+ .withNodeIdentifier(NodeIdentifierWithPredicates.of(CarsModel.CAR_QNAME, CarsModel.CAR_NAME_QNAME, name))
+ .withChild(ImmutableNodes.leafNode(CarsModel.CAR_NAME_QNAME, name))
+ // Note: old BigInteger
+ .withChild(ImmutableNodes.leafNode(CarsModel.CAR_PRICE_QNAME, value))
+ .build();
}
private ShardDataTreeCohort newShardDataTreeCohort(final DataTreeOperation operation) {
@SuppressWarnings({ "rawtypes", "unchecked" })
private static void verifyOnDataTreeChanged(final DOMDataTreeChangeListener listener,
final Consumer<DataTreeCandidate> callback) {
- ArgumentCaptor<Collection> changes = ArgumentCaptor.forClass(Collection.class);
+ ArgumentCaptor<List> changes = ArgumentCaptor.forClass(List.class);
verify(listener, atLeastOnce()).onDataTreeChanged(changes.capture());
for (Collection list : changes.getAllValues()) {
for (Object dtc : list) {
reset(listener);
}
- private static NormalizedNode<?, ?> getCars(final ShardDataTree shardDataTree) {
+ private static NormalizedNode getCars(final ShardDataTree shardDataTree) {
final ReadOnlyShardDataTreeTransaction readOnlyShardDataTreeTransaction =
shardDataTree.newReadOnlyTransaction(nextTransactionId());
final DataTreeSnapshot snapshot1 = readOnlyShardDataTreeTransaction.getSnapshot();
- final Optional<NormalizedNode<?, ?>> optional = snapshot1.readNode(CarsModel.BASE_PATH);
+ final Optional<NormalizedNode> optional = snapshot1.readNode(CarsModel.BASE_PATH);
assertTrue(optional.isPresent());
- return optional.get();
+ return optional.orElseThrow();
}
private static DataTreeCandidate addCar(final ShardDataTree shardDataTree) {