import java.util.List;
import org.opendaylight.controller.cluster.datastore.identifiers.TransactionIdentifier;
import org.opendaylight.controller.cluster.datastore.messages.BatchedModifications;
+import org.opendaylight.controller.cluster.datastore.messages.BatchedModificationsReply;
import org.opendaylight.controller.cluster.datastore.messages.CloseTransaction;
import org.opendaylight.controller.cluster.datastore.messages.DataExists;
import org.opendaylight.controller.cluster.datastore.messages.DataExistsReply;
import org.slf4j.LoggerFactory;
import scala.concurrent.Future;
-class TransactionContextImpl extends AbstractTransactionContext {
+public class TransactionContextImpl extends AbstractTransactionContext {
private static final Logger LOG = LoggerFactory.getLogger(TransactionContextImpl.class);
+ private final String transactionChainId;
private final ActorContext actorContext;
- private final String transactionPath;
private final ActorSelection actor;
private final boolean isTxActorLocal;
private final short remoteTransactionVersion;
private final OperationCompleter operationCompleter;
private BatchedModifications batchedModifications;
- TransactionContextImpl(String transactionPath, ActorSelection actor, TransactionIdentifier identifier,
- ActorContext actorContext, SchemaContext schemaContext,
- boolean isTxActorLocal, short remoteTransactionVersion, OperationCompleter operationCompleter) {
+ protected TransactionContextImpl(ActorSelection actor, TransactionIdentifier identifier,
+ String transactionChainId, ActorContext actorContext, SchemaContext schemaContext, boolean isTxActorLocal,
+ short remoteTransactionVersion, OperationCompleter operationCompleter) {
super(identifier);
- this.transactionPath = transactionPath;
this.actor = actor;
+ this.transactionChainId = transactionChainId;
this.actorContext = actorContext;
this.isTxActorLocal = isTxActorLocal;
this.remoteTransactionVersion = remoteTransactionVersion;
return actor;
}
+ protected ActorContext getActorContext() {
+ return actorContext;
+ }
+
protected short getRemoteTransactionVersion() {
return remoteTransactionVersion;
}
// Send the remaining batched modifications if any.
- sendBatchedModifications();
+ sendAndRecordBatchedModifications();
// Send the ReadyTransaction message to the Tx actor.
- final Future<Object> replyFuture = executeOperationAsync(ReadyTransaction.INSTANCE);
+ Future<Object> readyReplyFuture = executeOperationAsync(ReadyTransaction.INSTANCE);
+ return combineRecordedOperationsFutures(readyReplyFuture);
+ }
+
+ protected Future<ActorSelection> combineRecordedOperationsFutures(final Future<Object> withLastReplyFuture) {
// Combine all the previously recorded put/merge/delete operation reply Futures and the
// ReadyTransactionReply Future into one Future. If any one fails then the combined
// Future will fail. We need all prior operations and the ready operation to succeed
// in order to attempt commit.
- List<Future<Object>> futureList =
- Lists.newArrayListWithCapacity(recordedOperationFutures.size() + 1);
+ List<Future<Object>> futureList = Lists.newArrayListWithCapacity(recordedOperationFutures.size() + 1);
futureList.addAll(recordedOperationFutures);
- futureList.add(replyFuture);
+ futureList.add(withLastReplyFuture);
Future<Iterable<Object>> combinedFutures = akka.dispatch.Futures.sequence(futureList,
actorContext.getClientDispatcher());
// de-serializing each reply.
// Note the Future get call here won't block as it's complete.
- Object serializedReadyReply = replyFuture.value().get().get();
+ Object serializedReadyReply = withLastReplyFuture.value().get().get();
if (serializedReadyReply instanceof ReadyTransactionReply) {
return actorContext.actorSelection(((ReadyTransactionReply)serializedReadyReply).getCohortPath());
-
+ } else if(serializedReadyReply instanceof BatchedModificationsReply) {
+ return actorContext.actorSelection(((BatchedModificationsReply)serializedReadyReply).getCohortPath());
} else if(serializedReadyReply.getClass().equals(ReadyTransactionReply.SERIALIZABLE_CLASS)) {
ReadyTransactionReply reply = ReadyTransactionReply.fromSerializable(serializedReadyReply);
- String cohortPath = reply.getCohortPath();
-
- // In Helium we used to return the local path of the actor which represented
- // a remote ThreePhaseCommitCohort. The local path would then be converted to
- // a remote path using this resolvePath method. To maintain compatibility with
- // a Helium node we need to continue to do this conversion.
- // At some point in the future when upgrades from Helium are not supported
- // we could remove this code to resolvePath and just use the cohortPath as the
- // resolved cohortPath
- if(TransactionContextImpl.this.remoteTransactionVersion <
- DataStoreVersions.HELIUM_1_VERSION) {
- cohortPath = actorContext.resolvePath(transactionPath, cohortPath);
- }
-
+ String cohortPath = deserializeCohortPath(reply.getCohortPath());
return actorContext.actorSelection(cohortPath);
-
} else {
// Throwing an exception here will fail the Future.
- throw new IllegalArgumentException(String.format("Invalid reply type %s",
- serializedReadyReply.getClass()));
+ throw new IllegalArgumentException(String.format("%s: Invalid reply type %s",
+ identifier, serializedReadyReply.getClass()));
}
}
}, TransactionProxy.SAME_FAILURE_TRANSFORMER, actorContext.getClientDispatcher());
}
+ protected String deserializeCohortPath(String cohortPath) {
+ return cohortPath;
+ }
+
private void batchModification(Modification modification) {
if(batchedModifications == null) {
- batchedModifications = new BatchedModifications(remoteTransactionVersion);
+ batchedModifications = new BatchedModifications(identifier.toString(), remoteTransactionVersion,
+ transactionChainId);
}
batchedModifications.addModification(modification);
if(batchedModifications.getModifications().size() >=
actorContext.getDatastoreContext().getShardBatchedModificationCount()) {
- sendBatchedModifications();
+ sendAndRecordBatchedModifications();
}
}
- private void sendBatchedModifications() {
+ private void sendAndRecordBatchedModifications() {
+ Future<Object> sentFuture = sendBatchedModifications();
+ if(sentFuture != null) {
+ recordedOperationFutures.add(sentFuture);
+ }
+ }
+
+ protected Future<Object> sendBatchedModifications() {
+ return sendBatchedModifications(false);
+ }
+
+ protected Future<Object> sendBatchedModifications(boolean ready) {
+ Future<Object> sent = null;
if(batchedModifications != null) {
- LOG.debug("Tx {} sending {} batched modifications", identifier,
- batchedModifications.getModifications().size());
+ if(LOG.isDebugEnabled()) {
+ LOG.debug("Tx {} sending {} batched modifications, ready: {}", identifier,
+ batchedModifications.getModifications().size(), ready);
+ }
- recordedOperationFutures.add(executeOperationAsync(batchedModifications));
- batchedModifications = null;
+ batchedModifications.setReady(ready);
+ sent = executeOperationAsync(batchedModifications);
+
+ batchedModifications = new BatchedModifications(identifier.toString(), remoteTransactionVersion,
+ transactionChainId);
}
+
+ return sent;
}
@Override
// Send the remaining batched modifications if any.
- sendBatchedModifications();
+ sendAndRecordBatchedModifications();
// If there were any previous recorded put/merge/delete operation reply Futures then we
// must wait for them to successfully complete. This is necessary to honor the read
// Send the remaining batched modifications if any.
- sendBatchedModifications();
+ sendAndRecordBatchedModifications();
// If there were any previous recorded put/merge/delete operation reply Futures then we
// must wait for them to successfully complete. This is necessary to honor the read