writeToStore(store, TestModel.TEST_PATH, container);
final YangInstanceIdentifier root = YangInstanceIdentifier.empty();
- final NormalizedNode<?,?> expected = readStore(store, root);
+ final NormalizedNode expected = readStore(store, root);
final Snapshot snapshot = Snapshot.create(new ShardSnapshotState(new MetadataShardDataTreeSnapshot(expected)),
Collections.emptyList(), 1, 2, 3, 4, -1, null, null);
while (sw.elapsed(TimeUnit.SECONDS) <= 5) {
Uninterruptibles.sleepUninterruptibly(75, TimeUnit.MILLISECONDS);
- final NormalizedNode<?,?> actual = readStore(shard, TestModel.TEST_PATH);
+ final NormalizedNode actual = readStore(shard, TestModel.TEST_PATH);
if (actual != null) {
assertEquals("Applied state", node, actual);
return;
// Verify data in the data store.
- final NormalizedNode<?, ?> actualNode = readStore(shard, path);
+ final NormalizedNode actualNode = readStore(shard, path);
assertEquals("Stored node", containerNode, actualNode);
}
ShardTestKit.waitUntilLeader(shard);
final TransactionIdentifier transactionID = nextTransactionId();
- final NormalizedNode<?, ?> containerNode = ImmutableNodes.containerNode(TestModel.TEST_QNAME);
+ final NormalizedNode containerNode = ImmutableNodes.containerNode(TestModel.TEST_QNAME);
if (readWrite) {
shard.tell(prepareForwardedReadyTransaction(shard, transactionID, TestModel.TEST_PATH, containerNode, true),
testKit.getRef());
testKit.expectMsgClass(Duration.ofSeconds(5), CommitTransactionReply.class);
- final NormalizedNode<?, ?> actualNode = readStore(shard, TestModel.TEST_PATH);
+ final NormalizedNode actualNode = readStore(shard, TestModel.TEST_PATH);
assertEquals(TestModel.TEST_QNAME.getLocalName(), containerNode, actualNode);
}
testKit.expectMsgClass(CommitTransactionReply.class);
- final NormalizedNode<?, ?> actualNode = readStore(shard, TestModel.OUTER_LIST_PATH);
+ final NormalizedNode actualNode = readStore(shard, TestModel.OUTER_LIST_PATH);
assertEquals(TestModel.OUTER_LIST_QNAME.getLocalName(), mergeData, actualNode);
}
shard.tell(new CommitTransaction(txId, CURRENT_VERSION).toSerializable(), testKit.getRef());
testKit.expectMsgClass(CommitTransactionReply.class);
- final NormalizedNode<?, ?> actualNode = readStore(shard, TestModel.OUTER_LIST_PATH);
+ final NormalizedNode actualNode = readStore(shard, TestModel.OUTER_LIST_PATH);
assertEquals(TestModel.OUTER_LIST_QNAME.getLocalName(), mergeData, actualNode);
}
final Duration duration = Duration.ofSeconds(5);
final TransactionIdentifier transactionID = nextTransactionId();
- final NormalizedNode<?, ?> containerNode = ImmutableNodes.containerNode(TestModel.TEST_QNAME);
+ final NormalizedNode containerNode = ImmutableNodes.containerNode(TestModel.TEST_QNAME);
shard.tell(prepareBatchedModifications(transactionID, TestModel.TEST_PATH, containerNode, false),
testKit.getRef());
testKit.expectMsgClass(duration, ReadyTransactionReply.class);
shard.tell(new CommitTransaction(transactionID, CURRENT_VERSION).toSerializable(), testKit.getRef());
testKit.expectMsgClass(duration, CommitTransactionReply.class);
- final NormalizedNode<?, ?> actualNode = readStore(shard, TestModel.TEST_PATH);
+ final NormalizedNode actualNode = readStore(shard, TestModel.TEST_PATH);
assertEquals(TestModel.TEST_QNAME.getLocalName(), containerNode, actualNode);
}
shard.tell(new CommitTransaction(transactionID, CURRENT_VERSION).toSerializable(), testKit.getRef());
testKit.expectMsgClass(duration, CommitTransactionReply.class);
- final NormalizedNode<?, ?> node = readStore(shard, TestModel.TEST_PATH);
+ final NormalizedNode node = readStore(shard, TestModel.TEST_PATH);
// Since we're simulating an abort occurring during replication
// and before finish commit,
shard.tell(new CommitTransaction(transactionID2, CURRENT_VERSION).toSerializable(), testKit.getRef());
testKit.expectMsgClass(duration, CommitTransactionReply.class);
- final NormalizedNode<?, ?> node = readStore(shard, listNodePath);
+ final NormalizedNode node = readStore(shard, listNodePath);
assertNotNull(listNodePath + " not found", node);
}
testKit.expectMsgClass(duration, CommitTransactionReply.class);
- final NormalizedNode<?, ?> node = readStore(shard, TestModel.TEST2_PATH);
+ final NormalizedNode node = readStore(shard, TestModel.TEST2_PATH);
assertNotNull(TestModel.TEST2_PATH + " not found", node);
}
ShardTestKit.waitUntilLeader(shard);
writeToStore(shard, TestModel.TEST_PATH, ImmutableNodes.containerNode(TestModel.TEST_QNAME));
- final NormalizedNode<?, ?> expectedRoot = readStore(shard, YangInstanceIdentifier.empty());
+ final NormalizedNode expectedRoot = readStore(shard, YangInstanceIdentifier.empty());
// Trigger creation of a snapshot by ensuring
final RaftActorContext raftActorContext = ((TestShard) shard.underlyingActor()).getRaftActorContext();
}
private static void awaitAndValidateSnapshot(final AtomicReference<CountDownLatch> latch,
- final AtomicReference<Object> savedSnapshot, final NormalizedNode<?, ?> expectedRoot)
+ final AtomicReference<Object> savedSnapshot, final NormalizedNode expectedRoot)
throws InterruptedException {
assertTrue("Snapshot saved", latch.get().await(5, TimeUnit.SECONDS));
savedSnapshot.set(null);
}
- private static void verifySnapshot(final Snapshot snapshot, final NormalizedNode<?, ?> expectedRoot) {
- final NormalizedNode<?, ?> actual = ((ShardSnapshotState)snapshot.getState()).getSnapshot().getRootNode().get();
+ private static void verifySnapshot(final Snapshot snapshot, final NormalizedNode expectedRoot) {
+ final NormalizedNode actual = ((ShardSnapshotState)snapshot.getState()).getSnapshot().getRootNode().get();
assertEquals("Root node", expectedRoot, actual);
}
commitTransaction(store, putTransaction);
- final NormalizedNode<?, ?> expected = readStore(store, YangInstanceIdentifier.empty());
+ final NormalizedNode expected = readStore(store, YangInstanceIdentifier.empty());
final DataTreeModification writeTransaction = store.takeSnapshot().newModification();
commitTransaction(store, writeTransaction);
- final NormalizedNode<?, ?> actual = readStore(store, YangInstanceIdentifier.empty());
+ final NormalizedNode actual = readStore(store, YangInstanceIdentifier.empty());
assertEquals(expected, actual);
}