import org.opendaylight.controller.cluster.access.concepts.TransactionIdentifier;
import org.opendaylight.controller.cluster.datastore.DataTreeCohortActorRegistry.CohortRegistryCommand;
import org.opendaylight.controller.cluster.datastore.ShardDataTreeCohort.State;
+import org.opendaylight.controller.cluster.datastore.jmx.mbeans.shard.ShardStats;
import org.opendaylight.controller.cluster.datastore.persisted.AbortTransactionPayload;
import org.opendaylight.controller.cluster.datastore.persisted.AbstractIdentifiablePayload;
import org.opendaylight.controller.cluster.datastore.persisted.CloseLocalHistoryPayload;
private static final Timeout COMMIT_STEP_TIMEOUT = new Timeout(Duration.create(5, TimeUnit.SECONDS));
private static final Logger LOG = LoggerFactory.getLogger(ShardDataTree.class);
- private final Map<LocalHistoryIdentifier, ShardDataTreeTransactionChain> transactionChains = new HashMap<>();
+ /**
+ * Process this many transactions in a single batched run. If we exceed this limit, we need to schedule later
+ * execution to finish up the batch. This is necessary in case of a long list of transactions which progress
+ * immediately through their preCommit phase -- if that happens, their completion eats up stack frames and could
+ * result in StackOverflowError.
+ */
+ private static final int MAX_TRANSACTION_BATCH = 100;
+ private final Map<LocalHistoryIdentifier, ShardDataTreeTransactionChain> transactionChains = new HashMap<>();
private final DataTreeCohortActorRegistry cohortRegistry = new DataTreeCohortActorRegistry();
private final Queue<CommitEntry> pendingTransactions = new ArrayDeque<>();
private final Queue<CommitEntry> pendingCommits = new ArrayDeque<>();
private SchemaContext schemaContext;
+ private int currentTransactionBatch;
+
ShardDataTree(final Shard shard, final SchemaContext schemaContext, final TipProducingDataTree dataTree,
final ShardDataTreeChangeListenerPublisher treeChangeListenerPublisher,
final ShardDataChangeListenerPublisher dataChangeListenerPublisher, final String logContext,
@VisibleForTesting
public ShardDataTree(final Shard shard, final SchemaContext schemaContext, final TreeType treeType) {
this(shard, schemaContext, treeType, YangInstanceIdentifier.EMPTY,
- new DefaultShardDataTreeChangeListenerPublisher(), new DefaultShardDataChangeListenerPublisher(), "");
+ new DefaultShardDataTreeChangeListenerPublisher(""),
+ new DefaultShardDataChangeListenerPublisher(""), "");
}
final String logContext() {
this.schemaContext = Preconditions.checkNotNull(newSchemaContext);
}
+ void resetTransactionBatch() {
+ currentTransactionBatch = 0;
+ }
+
/**
* Take a snapshot of current state for later recovery.
*
dataTree.commit(candidate);
notifyListeners(candidate);
- LOG.debug("{}: state snapshot applied in %s", logContext, elapsed);
+ LOG.debug("{}: state snapshot applied in {}", logContext, elapsed);
}
/**
* pre-Boron state -- which limits the number of options here.
*/
if (payload instanceof CommitTransactionPayload) {
+ final TransactionIdentifier txId;
if (identifier == null) {
final Entry<TransactionIdentifier, DataTreeCandidate> e =
((CommitTransactionPayload) payload).getCandidate();
- applyReplicatedCandidate(e.getKey(), e.getValue());
- allMetadataCommittedTransaction(e.getKey());
+ txId = e.getKey();
+ applyReplicatedCandidate(txId, e.getValue());
} else {
Verify.verify(identifier instanceof TransactionIdentifier);
- payloadReplicationComplete((TransactionIdentifier) identifier);
+ txId = (TransactionIdentifier) identifier;
+ payloadReplicationComplete(txId);
}
+ allMetadataCommittedTransaction(txId);
} else if (payload instanceof AbortTransactionPayload) {
if (identifier != null) {
payloadReplicationComplete((AbortTransactionPayload) payload);
- } else {
- allMetadataAbortedTransaction(((AbortTransactionPayload) payload).getIdentifier());
}
+ allMetadataAbortedTransaction(((AbortTransactionPayload) payload).getIdentifier());
} else if (payload instanceof PurgeTransactionPayload) {
if (identifier != null) {
payloadReplicationComplete((PurgeTransactionPayload) payload);
- } else {
- allMetadataPurgedTransaction(((PurgeTransactionPayload) payload).getIdentifier());
}
+ allMetadataPurgedTransaction(((PurgeTransactionPayload) payload).getIdentifier());
} else if (payload instanceof CloseLocalHistoryPayload) {
if (identifier != null) {
payloadReplicationComplete((CloseLocalHistoryPayload) payload);
- } else {
- allMetadataClosedLocalHistory(((CloseLocalHistoryPayload) payload).getIdentifier());
}
+ allMetadataClosedLocalHistory(((CloseLocalHistoryPayload) payload).getIdentifier());
} else if (payload instanceof CreateLocalHistoryPayload) {
if (identifier != null) {
payloadReplicationComplete((CreateLocalHistoryPayload)payload);
- } else {
- allMetadataCreatedLocalHistory(((CreateLocalHistoryPayload) payload).getIdentifier());
}
+ allMetadataCreatedLocalHistory(((CreateLocalHistoryPayload) payload).getIdentifier());
} else if (payload instanceof PurgeLocalHistoryPayload) {
if (identifier != null) {
payloadReplicationComplete((PurgeLocalHistoryPayload)payload);
- } else {
- allMetadataPurgedLocalHistory(((PurgeLocalHistoryPayload) payload).getIdentifier());
}
+ allMetadataPurgedLocalHistory(((PurgeLocalHistoryPayload) payload).getIdentifier());
} else {
LOG.warn("{}: ignoring unhandled identifier {} payload {}", logContext, identifier, payload);
}
if (chain == null) {
chain = new ShardDataTreeTransactionChain(historyId, this);
transactionChains.put(historyId, chain);
- shard.persistPayload(historyId, CreateLocalHistoryPayload.create(historyId), true);
+ replicatePayload(historyId, CreateLocalHistoryPayload.create(historyId), null);
}
return chain;
@VisibleForTesting
public void notifyListeners(final DataTreeCandidate candidate) {
- treeChangeListenerPublisher.publishChanges(candidate, logContext);
- dataChangeListenerPublisher.publishChanges(candidate, logContext);
+ treeChangeListenerPublisher.publishChanges(candidate);
+ dataChangeListenerPublisher.publishChanges(candidate);
}
/**
return ret;
}
+ /**
+ * Called some time after {@link #processNextPendingTransaction()} decides to stop processing.
+ */
+ void resumeNextPendingTransaction() {
+ LOG.debug("{}: attempting to resume transaction processing", logContext);
+ processNextPending();
+ }
+
@SuppressWarnings("checkstyle:IllegalCatch")
private void processNextPendingTransaction() {
+ ++currentTransactionBatch;
+ if (currentTransactionBatch > MAX_TRANSACTION_BATCH) {
+ LOG.debug("{}: Already processed {}, scheduling continuation", logContext, currentTransactionBatch);
+ shard.scheduleNextPendingTransaction();
+ return;
+ }
+
processNextPending(pendingTransactions, State.CAN_COMMIT_PENDING, entry -> {
final SimpleShardDataTreeCohort cohort = entry.cohort;
final DataTreeModification modification = cohort.getDataTreeModification();
runOnPendingTransactionsComplete = null;
}
}
+
+ ShardStats getStats() {
+ return shard.getShardMBean();
+ }
}