import com.google.common.base.Preconditions;
import com.google.common.collect.Lists;
import com.google.common.util.concurrent.CheckedFuture;
-import com.google.common.util.concurrent.FutureCallback;
-import com.google.common.util.concurrent.Futures;
+import com.google.common.util.concurrent.ListenableFuture;
import com.google.common.util.concurrent.SettableFuture;
import java.util.ArrayList;
import java.util.Collection;
+import java.util.Collections;
import java.util.HashMap;
import java.util.List;
import java.util.Map;
import java.util.concurrent.atomic.AtomicBoolean;
import java.util.concurrent.atomic.AtomicLong;
import javax.annotation.concurrent.GuardedBy;
+import org.opendaylight.controller.cluster.datastore.compat.PreLithiumTransactionContextImpl;
import org.opendaylight.controller.cluster.datastore.exceptions.NoShardLeaderException;
import org.opendaylight.controller.cluster.datastore.identifiers.TransactionIdentifier;
import org.opendaylight.controller.cluster.datastore.messages.CloseTransaction;
public static enum TransactionType {
READ_ONLY,
WRITE_ONLY,
- READ_WRITE
+ READ_WRITE;
+
+ public static TransactionType fromInt(int type) {
+ if(type == WRITE_ONLY.ordinal()) {
+ return WRITE_ONLY;
+ } else if(type == READ_WRITE.ordinal()) {
+ return READ_WRITE;
+ } else if(type == READ_ONLY.ordinal()) {
+ return READ_ONLY;
+ } else {
+ throw new IllegalArgumentException("In TransactionType enum value" + type);
+ }
+ }
}
static final Mapper<Throwable, Throwable> SAME_FAILURE_TRANSFORMER =
* PhantomReference.
*/
private List<ActorSelection> remoteTransactionActors;
- private AtomicBoolean remoteTransactionActorsMB;
+ private volatile AtomicBoolean remoteTransactionActorsMB;
/**
* Stores the create transaction results per shard.
private final String transactionChainId;
private final SchemaContext schemaContext;
private boolean inReadyState;
- private final Semaphore operationLimiter;
- private final OperationCompleter operationCompleter;
+
+ private volatile boolean initialized;
+ private Semaphore operationLimiter;
+ private OperationCompleter operationCompleter;
public TransactionProxy(ActorContext actorContext, TransactionType transactionType) {
this(actorContext, transactionType, "");
memberName = "UNKNOWN-MEMBER";
}
- this.identifier = TransactionIdentifier.builder().memberName(memberName).counter(
- counter.getAndIncrement()).build();
-
- if(transactionType == TransactionType.READ_ONLY) {
- // Read-only Tx's aren't explicitly closed by the client so we create a PhantomReference
- // to close the remote Tx's when this instance is no longer in use and is garbage
- // collected.
-
- remoteTransactionActors = Lists.newArrayList();
- remoteTransactionActorsMB = new AtomicBoolean();
-
- TransactionProxyCleanupPhantomReference cleanup =
- new TransactionProxyCleanupPhantomReference(this);
- phantomReferenceCache.put(cleanup, cleanup);
- }
-
- // Note : Currently mailbox-capacity comes from akka.conf and not from the config-subsystem
- this.operationLimiter = new Semaphore(actorContext.getTransactionOutstandingOperationLimit());
- this.operationCompleter = new OperationCompleter(operationLimiter);
+ this.identifier = new TransactionIdentifier(memberName, counter.getAndIncrement());
LOG.debug("Created txn {} of type {} on chain {}", identifier, transactionType, transactionChainId);
}
throttleOperation();
+ final SettableFuture<Optional<NormalizedNode<?, ?>>> proxyFuture = SettableFuture.create();
+
TransactionFutureCallback txFutureCallback = getOrCreateTxFutureCallback(path);
- return txFutureCallback.enqueueReadOperation(new ReadOperation<Optional<NormalizedNode<?, ?>>>() {
+ txFutureCallback.enqueueTransactionOperation(new TransactionOperation() {
@Override
- public CheckedFuture<Optional<NormalizedNode<?, ?>>, ReadFailedException> invoke(
- TransactionContext transactionContext) {
- return transactionContext.readData(path);
+ public void invoke(TransactionContext transactionContext) {
+ transactionContext.readData(path, proxyFuture);
}
});
+
+ return MappingCheckedFuture.create(proxyFuture, ReadFailedException.MAPPER);
}
@Override
throttleOperation();
+ final SettableFuture<Boolean> proxyFuture = SettableFuture.create();
+
TransactionFutureCallback txFutureCallback = getOrCreateTxFutureCallback(path);
- return txFutureCallback.enqueueReadOperation(new ReadOperation<Boolean>() {
+ txFutureCallback.enqueueTransactionOperation(new TransactionOperation() {
@Override
- public CheckedFuture<Boolean, ReadFailedException> invoke(TransactionContext transactionContext) {
- return transactionContext.dataExists(path);
+ public void invoke(TransactionContext transactionContext) {
+ transactionContext.dataExists(path, proxyFuture);
}
});
- }
+ return MappingCheckedFuture.create(proxyFuture, ReadFailedException.MAPPER);
+ }
private void checkModificationState() {
Preconditions.checkState(transactionType != TransactionType.READ_ONLY,
}
private void throttleOperation(int acquirePermits) {
+ if(!initialized) {
+ // Note : Currently mailbox-capacity comes from akka.conf and not from the config-subsystem
+ operationLimiter = new Semaphore(actorContext.getTransactionOutstandingOperationLimit());
+ operationCompleter = new OperationCompleter(operationLimiter);
+
+ // Make sure we write this last because it's volatile and will also publish the non-volatile writes
+ // above as well so they'll be visible to other threads.
+ initialized = true;
+ }
+
try {
- if(!operationLimiter.tryAcquire(acquirePermits, actorContext.getDatastoreContext().getOperationTimeoutInSeconds(), TimeUnit.SECONDS)){
+ if(!operationLimiter.tryAcquire(acquirePermits,
+ actorContext.getDatastoreContext().getOperationTimeoutInSeconds(), TimeUnit.SECONDS)){
LOG.warn("Failed to acquire operation permit for transaction {}", getIdentifier());
}
} catch (InterruptedException e) {
throttleOperation();
TransactionFutureCallback txFutureCallback = getOrCreateTxFutureCallback(path);
- txFutureCallback.enqueueModifyOperation(new TransactionOperation() {
+ txFutureCallback.enqueueTransactionOperation(new TransactionOperation() {
@Override
public void invoke(TransactionContext transactionContext) {
transactionContext.writeData(path, data);
throttleOperation();
TransactionFutureCallback txFutureCallback = getOrCreateTxFutureCallback(path);
- txFutureCallback.enqueueModifyOperation(new TransactionOperation() {
+ txFutureCallback.enqueueTransactionOperation(new TransactionOperation() {
@Override
public void invoke(TransactionContext transactionContext) {
transactionContext.mergeData(path, data);
throttleOperation();
TransactionFutureCallback txFutureCallback = getOrCreateTxFutureCallback(path);
- txFutureCallback.enqueueModifyOperation(new TransactionOperation() {
+ txFutureCallback.enqueueTransactionOperation(new TransactionOperation() {
@Override
public void invoke(TransactionContext transactionContext) {
transactionContext.deleteData(path);
checkModificationState();
- throttleOperation(txFutureCallbackMap.size());
-
inReadyState = true;
LOG.debug("Tx {} Readying {} transactions for commit", identifier,
txFutureCallbackMap.size());
+ if(txFutureCallbackMap.size() == 0) {
+ onTransactionReady(Collections.<Future<ActorSelection>>emptyList());
+ return NoOpDOMStoreThreePhaseCommitCohort.INSTANCE;
+ }
+
+ throttleOperation(txFutureCallbackMap.size());
+
List<Future<ActorSelection>> cohortFutures = Lists.newArrayList();
for(TransactionFutureCallback txFutureCallback : txFutureCallbackMap.values()) {
LOG.debug("Tx {} Readying transaction for shard {} chain {}", identifier,
txFutureCallback.getShardName(), transactionChainId);
- Future<ActorSelection> future = txFutureCallback.enqueueFutureOperation(new FutureOperation<ActorSelection>() {
- @Override
- public Future<ActorSelection> invoke(TransactionContext transactionContext) {
- return transactionContext.readyTransaction();
- }
- });
+ final TransactionContext transactionContext = txFutureCallback.getTransactionContext();
+ final Future<ActorSelection> future;
+ if (transactionContext != null) {
+ // avoid the creation of a promise and a TransactionOperation
+ future = transactionContext.readyTransaction();
+ } else {
+ final Promise<ActorSelection> promise = akka.dispatch.Futures.promise();
+ txFutureCallback.enqueueTransactionOperation(new TransactionOperation() {
+ @Override
+ public void invoke(TransactionContext transactionContext) {
+ promise.completeWith(transactionContext.readyTransaction());
+ }
+ });
+ future = promise.future();
+ }
cohortFutures.add(future);
}
protected void onTransactionReady(List<Future<ActorSelection>> cohortFutures) {
}
- /**
- * Method called to send a CreateTransaction message to a shard.
- *
- * @param shard the shard actor to send to
- * @param serializedCreateMessage the serialized message to send
- * @return the response Future
- */
- protected Future<Object> sendCreateTransaction(ActorSelection shard,
- Object serializedCreateMessage) {
- return actorContext.executeOperationAsync(shard, serializedCreateMessage);
- }
-
@Override
public Object getIdentifier() {
return this.identifier;
@Override
public void close() {
for (TransactionFutureCallback txFutureCallback : txFutureCallbackMap.values()) {
- txFutureCallback.enqueueModifyOperation(new TransactionOperation() {
+ txFutureCallback.enqueueTransactionOperation(new TransactionOperation() {
@Override
public void invoke(TransactionContext transactionContext) {
transactionContext.closeTransaction();
txFutureCallbackMap.clear();
- if(transactionType == TransactionType.READ_ONLY) {
+ if(remoteTransactionActorsMB != null) {
remoteTransactionActors.clear();
remoteTransactionActorsMB.set(true);
}
return ShardStrategyFactory.getStrategy(path).findShard(path);
}
+ protected Future<ActorSelection> sendFindPrimaryShardAsync(String shardName) {
+ return actorContext.findPrimaryShardAsync(shardName);
+ }
+
private TransactionFutureCallback getOrCreateTxFutureCallback(YangInstanceIdentifier path) {
String shardName = shardNameFromIdentifier(path);
TransactionFutureCallback txFutureCallback = txFutureCallbackMap.get(shardName);
if(txFutureCallback == null) {
- Future<ActorSelection> findPrimaryFuture = actorContext.findPrimaryShardAsync(shardName);
+ Future<ActorSelection> findPrimaryFuture = sendFindPrimaryShardAsync(shardName);
- final TransactionFutureCallback newTxFutureCallback =
- new TransactionFutureCallback(shardName);
+ final TransactionFutureCallback newTxFutureCallback = new TransactionFutureCallback(shardName);
txFutureCallback = newTxFutureCallback;
txFutureCallbackMap.put(shardName, txFutureCallback);
@Override
public void onComplete(Throwable failure, ActorSelection primaryShard) {
if(failure != null) {
- newTxFutureCallback.onComplete(failure, null);
+ newTxFutureCallback.createTransactionContext(failure, null);
} else {
newTxFutureCallback.setPrimaryShard(primaryShard);
}
}
- }, actorContext.getActorSystem().dispatcher());
+ }, actorContext.getClientDispatcher());
}
return txFutureCallback;
void invoke(TransactionContext transactionContext);
}
- /**
- * This interface returns a Guava Future
- */
- private static interface ReadOperation<T> {
- CheckedFuture<T, ReadFailedException> invoke(TransactionContext transactionContext);
- }
-
- /**
- * This interface returns a Scala Future
- */
- private static interface FutureOperation<T> {
- Future<T> invoke(TransactionContext transactionContext);
- }
-
/**
* Implements a Future OnComplete callback for a CreateTransaction message. This class handles
* retries, up to a limit, if the shard doesn't have a leader yet. This is done by scheduling a
* Sets the target primary shard and initiates a CreateTransaction try.
*/
void setPrimaryShard(ActorSelection primaryShard) {
- LOG.debug("Tx {} Primary shard found - trying create transaction", identifier);
-
this.primaryShard = primaryShard;
- tryCreateTransaction();
+
+ if(transactionType == TransactionType.WRITE_ONLY &&
+ actorContext.getDatastoreContext().isWriteOnlyTransactionOptimizationsEnabled()) {
+ LOG.debug("Tx {} Primary shard {} found - creating WRITE_ONLY transaction context",
+ identifier, primaryShard);
+
+ // For write-only Tx's we prepare the transaction modifications directly on the shard actor
+ // to avoid the overhead of creating a separate transaction actor.
+ // FIXME: can't assume the shard version is LITHIUM_VERSION - need to obtain it somehow.
+ executeTxOperatonsOnComplete(createValidTransactionContext(this.primaryShard,
+ this.primaryShard.path().toString(), DataStoreVersions.LITHIUM_VERSION));
+ } else {
+ tryCreateTransaction();
+ }
}
/**
boolean invokeOperation = true;
synchronized(txOperationsOnComplete) {
if(transactionContext == null) {
- LOG.debug("Tx {} Adding operation on complete {}", identifier);
+ LOG.debug("Tx {} Adding operation on complete", identifier);
invokeOperation = false;
txOperationsOnComplete.add(operation);
}
}
-
- <T> Future<T> enqueueFutureOperation(final FutureOperation<T> op) {
-
- Future<T> future;
-
- if (transactionContext != null) {
- future = op.invoke(transactionContext);
- } else {
- // The shard Tx hasn't been created yet so add the Tx operation to the Tx Future
- // callback to be executed after the Tx is created.
- final Promise<T> promise = akka.dispatch.Futures.promise();
- addTxOperationOnComplete(new TransactionOperation() {
- @Override
- public void invoke(TransactionContext transactionContext) {
- promise.completeWith(op.invoke(transactionContext));
- }
- });
-
- future = promise.future();
- }
-
- return future;
- }
-
- <T> CheckedFuture<T, ReadFailedException> enqueueReadOperation(final ReadOperation<T> op) {
-
- CheckedFuture<T, ReadFailedException> future;
-
- if (transactionContext != null) {
- future = op.invoke(transactionContext);
- } else {
- // The shard Tx hasn't been created yet so add the Tx operation to the Tx Future
- // callback to be executed after the Tx is created.
- final SettableFuture<T> proxyFuture = SettableFuture.create();
- addTxOperationOnComplete(new TransactionOperation() {
- @Override
- public void invoke(TransactionContext transactionContext) {
- Futures.addCallback(op.invoke(transactionContext), new FutureCallback<T>() {
- @Override
- public void onSuccess(T data) {
- proxyFuture.set(data);
- }
-
- @Override
- public void onFailure(Throwable t) {
- proxyFuture.setException(t);
- }
- });
- }
- });
-
- future = MappingCheckedFuture.create(proxyFuture, ReadFailedException.MAPPER);
- }
-
- return future;
- }
-
- void enqueueModifyOperation(final TransactionOperation op) {
+ void enqueueTransactionOperation(final TransactionOperation op) {
if (transactionContext != null) {
op.invoke(transactionContext);
* Performs a CreateTransaction try async.
*/
private void tryCreateTransaction() {
- Future<Object> createTxFuture = sendCreateTransaction(primaryShard,
- new CreateTransaction(identifier.toString(),
- TransactionProxy.this.transactionType.ordinal(),
- getTransactionChainId()).toSerializable());
+ if(LOG.isDebugEnabled()) {
+ LOG.debug("Tx {} Primary shard {} found - trying create transaction", identifier, primaryShard);
+ }
- createTxFuture.onComplete(this, actorContext.getActorSystem().dispatcher());
+ Object serializedCreateMessage = new CreateTransaction(identifier.toString(),
+ TransactionProxy.this.transactionType.ordinal(),
+ getTransactionChainId()).toSerializable();
+
+ Future<Object> createTxFuture = actorContext.executeOperationAsync(primaryShard, serializedCreateMessage);
+
+ createTxFuture.onComplete(this, actorContext.getClientDispatcher());
}
@Override
public void run() {
tryCreateTransaction();
}
- }, actorContext.getActorSystem().dispatcher());
+ }, actorContext.getClientDispatcher());
return;
}
}
+ createTransactionContext(failure, response);
+ }
+
+ private void createTransactionContext(Throwable failure, Object response) {
+ // Mainly checking for state violation here to perform a volatile read of "initialized" to
+ // ensure updates to operationLimter et al are visible to this thread (ie we're doing
+ // "piggy-back" synchronization here).
+ Preconditions.checkState(initialized, "Tx was not propertly initialized.");
+
// Create the TransactionContext from the response or failure. Store the new
// TransactionContext locally until we've completed invoking the
// TransactionOperations. This avoids thread timing issues which could cause
// TransactionContext until after we've executed all cached TransactionOperations.
TransactionContext localTransactionContext;
if(failure != null) {
- LOG.debug("Tx {} Creating NoOpTransaction because of error: {}", identifier,
- failure.getMessage());
+ LOG.debug("Tx {} Creating NoOpTransaction because of error", identifier, failure);
localTransactionContext = new NoOpTransactionContext(failure, identifier, operationLimiter);
} else if (response.getClass().equals(CreateTransactionReply.SERIALIZABLE_CLASS)) {
}
private TransactionContext createValidTransactionContext(CreateTransactionReply reply) {
- String transactionPath = reply.getTransactionPath();
+ LOG.debug("Tx {} Received {}", identifier, reply);
- LOG.debug("Tx {} Received transaction actor path {}", identifier, transactionPath);
+ return createValidTransactionContext(actorContext.actorSelection(reply.getTransactionPath()),
+ reply.getTransactionPath(), reply.getVersion());
+ }
- ActorSelection transactionActor = actorContext.actorSelection(transactionPath);
+ private TransactionContext createValidTransactionContext(ActorSelection transactionActor,
+ String transactionPath, short remoteTransactionVersion) {
if (transactionType == TransactionType.READ_ONLY) {
+ // Read-only Tx's aren't explicitly closed by the client so we create a PhantomReference
+ // to close the remote Tx's when this instance is no longer in use and is garbage
+ // collected.
+
+ if(remoteTransactionActorsMB == null) {
+ remoteTransactionActors = Lists.newArrayList();
+ remoteTransactionActorsMB = new AtomicBoolean();
+
+ TransactionProxyCleanupPhantomReference cleanup =
+ new TransactionProxyCleanupPhantomReference(TransactionProxy.this);
+ phantomReferenceCache.put(cleanup, cleanup);
+ }
+
// Add the actor to the remoteTransactionActors list for access by the
// cleanup PhantonReference.
remoteTransactionActors.add(transactionActor);
// Check if TxActor is created in the same node
boolean isTxActorLocal = actorContext.isPathLocal(transactionPath);
- return new TransactionContextImpl(transactionPath, transactionActor, identifier,
- actorContext, schemaContext, isTxActorLocal, reply.getVersion(), operationCompleter);
+ if(remoteTransactionVersion < DataStoreVersions.LITHIUM_VERSION) {
+ return new PreLithiumTransactionContextImpl(transactionPath, transactionActor, identifier,
+ transactionChainId, actorContext, schemaContext, isTxActorLocal, remoteTransactionVersion,
+ operationCompleter);
+ } else if (transactionType == TransactionType.WRITE_ONLY &&
+ actorContext.getDatastoreContext().isWriteOnlyTransactionOptimizationsEnabled()) {
+ return new WriteOnlyTransactionContextImpl(transactionActor, identifier, transactionChainId,
+ actorContext, schemaContext, isTxActorLocal, remoteTransactionVersion, operationCompleter);
+ } else {
+ return new TransactionContextImpl(transactionActor, identifier, transactionChainId,
+ actorContext, schemaContext, isTxActorLocal, remoteTransactionVersion, operationCompleter);
+ }
+ }
+ }
+
+ private static class NoOpDOMStoreThreePhaseCommitCohort implements DOMStoreThreePhaseCommitCohort {
+ static NoOpDOMStoreThreePhaseCommitCohort INSTANCE = new NoOpDOMStoreThreePhaseCommitCohort();
+
+ private static final ListenableFuture<Void> IMMEDIATE_VOID_SUCCESS =
+ com.google.common.util.concurrent.Futures.immediateFuture(null);
+ private static final ListenableFuture<Boolean> IMMEDIATE_BOOLEAN_SUCCESS =
+ com.google.common.util.concurrent.Futures.immediateFuture(Boolean.TRUE);
+
+ private NoOpDOMStoreThreePhaseCommitCohort() {
+ }
+
+ @Override
+ public ListenableFuture<Boolean> canCommit() {
+ return IMMEDIATE_BOOLEAN_SUCCESS;
+ }
+
+ @Override
+ public ListenableFuture<Void> preCommit() {
+ return IMMEDIATE_VOID_SUCCESS;
+ }
+
+ @Override
+ public ListenableFuture<Void> abort() {
+ return IMMEDIATE_VOID_SUCCESS;
+ }
+
+ @Override
+ public ListenableFuture<Void> commit() {
+ return IMMEDIATE_VOID_SUCCESS;
}
}
}