package org.opendaylight.controller.cluster.datastore;
import akka.actor.ActorRef;
-import akka.actor.Status;
+import akka.actor.Status.Failure;
import akka.serialization.Serialization;
import com.google.common.annotations.VisibleForTesting;
import com.google.common.base.Preconditions;
-import com.google.common.cache.Cache;
-import com.google.common.cache.CacheBuilder;
-import com.google.common.cache.RemovalCause;
-import com.google.common.cache.RemovalListener;
-import com.google.common.cache.RemovalNotification;
+import java.util.ArrayList;
+import java.util.Collection;
+import java.util.Collections;
+import java.util.HashMap;
+import java.util.Iterator;
import java.util.LinkedList;
+import java.util.List;
+import java.util.Map;
import java.util.Queue;
import java.util.concurrent.ExecutionException;
-import java.util.concurrent.TimeUnit;
-import org.opendaylight.controller.cluster.datastore.compat.BackwardsCompatibleThreePhaseCommitCohort;
+import org.opendaylight.controller.cluster.datastore.DataTreeCohortActorRegistry.CohortRegistryCommand;
+import org.opendaylight.controller.cluster.datastore.messages.AbortTransactionReply;
import org.opendaylight.controller.cluster.datastore.messages.BatchedModifications;
import org.opendaylight.controller.cluster.datastore.messages.BatchedModificationsReply;
+import org.opendaylight.controller.cluster.datastore.messages.CanCommitTransaction;
import org.opendaylight.controller.cluster.datastore.messages.CanCommitTransactionReply;
+import org.opendaylight.controller.cluster.datastore.messages.CommitTransaction;
import org.opendaylight.controller.cluster.datastore.messages.ForwardedReadyTransaction;
+import org.opendaylight.controller.cluster.datastore.messages.ReadyLocalTransaction;
import org.opendaylight.controller.cluster.datastore.messages.ReadyTransactionReply;
-import org.opendaylight.controller.cluster.datastore.modification.Modification;
-import org.opendaylight.controller.cluster.datastore.modification.MutableCompositeModification;
+import org.opendaylight.controller.cluster.datastore.utils.AbstractBatchedModificationsCursor;
import org.opendaylight.controller.md.sal.common.api.data.TransactionCommitFailedException;
+import org.opendaylight.yangtools.yang.model.api.SchemaContext;
import org.slf4j.Logger;
/**
*
* @author Thomas Pantelis
*/
-public class ShardCommitCoordinator {
+final class ShardCommitCoordinator {
// Interface hook for unit tests to replace or decorate the DOMStoreThreePhaseCommitCohorts.
public interface CohortDecorator {
ShardDataTreeCohort decorate(String transactionID, ShardDataTreeCohort actual);
}
- private final Cache<String, CohortEntry> cohortCache;
+ private final Map<String, CohortEntry> cohortCache = new HashMap<>();
private CohortEntry currentCohortEntry;
private final ShardDataTree dataTree;
- private final Queue<CohortEntry> queuedCohortEntries;
+ private final DataTreeCohortActorRegistry cohortRegistry = new DataTreeCohortActorRegistry();
+
+ // We use a LinkedList here to avoid synchronization overhead with concurrent queue impls
+ // since this should only be accessed on the shard's dispatcher.
+ private final Queue<CohortEntry> queuedCohortEntries = new LinkedList<>();
private int queueCapacity;
private final String name;
- private final RemovalListener<String, CohortEntry> cacheRemovalListener =
- new RemovalListener<String, CohortEntry>() {
- @Override
- public void onRemoval(RemovalNotification<String, CohortEntry> notification) {
- if(notification.getCause() == RemovalCause.EXPIRED) {
- log.warn("{}: Transaction {} was timed out of the cache", name, notification.getKey());
- }
- }
- };
+ private final long cacheExpiryTimeoutInMillis;
// This is a hook for unit tests to replace or decorate the DOMStoreThreePhaseCommitCohorts.
private CohortDecorator cohortDecorator;
private ReadyTransactionReply readyTransactionReply;
- public ShardCommitCoordinator(ShardDataTree dataTree,
- long cacheExpiryTimeoutInSec, int queueCapacity, ActorRef shardActor, Logger log, String name) {
+ private Runnable runOnPendingTransactionsComplete;
+
+ ShardCommitCoordinator(ShardDataTree dataTree, long cacheExpiryTimeoutInMillis, int queueCapacity, Logger log,
+ String name) {
this.queueCapacity = queueCapacity;
this.log = log;
this.name = name;
this.dataTree = Preconditions.checkNotNull(dataTree);
+ this.cacheExpiryTimeoutInMillis = cacheExpiryTimeoutInMillis;
+ }
- cohortCache = CacheBuilder.newBuilder().expireAfterAccess(cacheExpiryTimeoutInSec, TimeUnit.SECONDS).
- removalListener(cacheRemovalListener).build();
+ int getQueueSize() {
+ return queuedCohortEntries.size();
+ }
- // We use a LinkedList here to avoid synchronization overhead with concurrent queue impls
- // since this should only be accessed on the shard's dispatcher.
- queuedCohortEntries = new LinkedList<>();
+ int getCohortCacheSize() {
+ return cohortCache.size();
}
- public void setQueueCapacity(int queueCapacity) {
+ void setQueueCapacity(int queueCapacity) {
this.queueCapacity = queueCapacity;
}
return readyTransactionReply;
}
+ private boolean queueCohortEntry(CohortEntry cohortEntry, ActorRef sender, Shard shard) {
+ if(queuedCohortEntries.size() < queueCapacity) {
+ queuedCohortEntries.offer(cohortEntry);
+
+ log.debug("{}: Enqueued transaction {}, queue size {}", name, cohortEntry.getTransactionID(),
+ queuedCohortEntries.size());
+
+ return true;
+ } else {
+ cohortCache.remove(cohortEntry.getTransactionID());
+
+ final RuntimeException ex = new RuntimeException(
+ String.format("%s: Could not enqueue transaction %s - the maximum commit queue"+
+ " capacity %d has been reached.",
+ name, cohortEntry.getTransactionID(), queueCapacity));
+ log.error(ex.getMessage());
+ sender.tell(new Failure(ex), shard.self());
+ return false;
+ }
+ }
+
/**
* This method is called to ready a transaction that was prepared by ShardTransaction actor. It caches
* the prepared cohort entry for the given transactions ID in preparation for the subsequent 3-phase commit.
+ *
+ * @param ready the ForwardedReadyTransaction message to process
+ * @param sender the sender of the message
+ * @param shard the transaction's shard actor
+ * @param schema
*/
- public void handleForwardedReadyTransaction(ForwardedReadyTransaction ready, ActorRef sender, Shard shard) {
+ void handleForwardedReadyTransaction(ForwardedReadyTransaction ready, ActorRef sender, Shard shard,
+ SchemaContext schema) {
log.debug("{}: Readying transaction {}, client version {}", name,
ready.getTransactionID(), ready.getTxnClientVersion());
- CohortEntry cohortEntry = new CohortEntry(ready.getTransactionID(), ready.getCohort(),
- (MutableCompositeModification) ready.getModification());
+ final ShardDataTreeCohort cohort = ready.getTransaction().ready();
+ final CohortEntry cohortEntry = new CohortEntry(ready.getTransactionID(), cohort, cohortRegistry, schema, ready.getTxnClientVersion());
cohortCache.put(ready.getTransactionID(), cohortEntry);
- if(ready.getTxnClientVersion() < DataStoreVersions.LITHIUM_VERSION) {
- // Return our actor path as we'll handle the three phase commit except if the Tx client
- // version < Helium-1 version which means the Tx was initiated by a base Helium version node.
- // In that case, the subsequent 3-phase commit messages won't contain the transactionId so to
- // maintain backwards compatibility, we create a separate cohort actor to provide the compatible behavior.
- ActorRef replyActorPath = shard.self();
- if(ready.getTxnClientVersion() < DataStoreVersions.HELIUM_1_VERSION) {
- log.debug("{}: Creating BackwardsCompatibleThreePhaseCommitCohort", name);
- replyActorPath = shard.getContext().actorOf(BackwardsCompatibleThreePhaseCommitCohort.props(
- ready.getTransactionID()));
- }
+ if(!queueCohortEntry(cohortEntry, sender, shard)) {
+ return;
+ }
- ReadyTransactionReply readyTransactionReply =
- new ReadyTransactionReply(Serialization.serializedActorPath(replyActorPath),
- ready.getTxnClientVersion());
- sender.tell(ready.isReturnSerialized() ? readyTransactionReply.toSerializable() :
- readyTransactionReply, shard.self());
+ if(ready.isDoImmediateCommit()) {
+ cohortEntry.setDoImmediateCommit(true);
+ cohortEntry.setReplySender(sender);
+ cohortEntry.setShard(shard);
+ handleCanCommit(cohortEntry);
} else {
- if(ready.isDoImmediateCommit()) {
- cohortEntry.setDoImmediateCommit(true);
- cohortEntry.setReplySender(sender);
- cohortEntry.setShard(shard);
- handleCanCommit(cohortEntry);
- } else {
- // The caller does not want immediate commit - the 3-phase commit will be coordinated by the
- // front-end so send back a ReadyTransactionReply with our actor path.
- sender.tell(readyTransactionReply(shard), shard.self());
- }
+ // The caller does not want immediate commit - the 3-phase commit will be coordinated by the
+ // front-end so send back a ReadyTransactionReply with our actor path.
+ sender.tell(readyTransactionReply(shard), shard.self());
}
}
* DOMStoreWriteTransaction, one is created. The batched modifications are applied to the write Tx. If
* the BatchedModifications is ready to commit then a DOMStoreThreePhaseCommitCohort is created.
*
- * @param batched the BatchedModifications
- * @param shardActor the transaction's shard actor
- *
- * @throws ExecutionException if an error occurs loading the cache
+ * @param batched the BatchedModifications message to process
+ * @param sender the sender of the message
+ * @param shard the transaction's shard actor
*/
- boolean handleBatchedModifications(BatchedModifications batched, ActorRef sender, Shard shard)
- throws ExecutionException {
- CohortEntry cohortEntry = cohortCache.getIfPresent(batched.getTransactionID());
+ void handleBatchedModifications(BatchedModifications batched, ActorRef sender, Shard shard, SchemaContext schema) {
+ CohortEntry cohortEntry = cohortCache.get(batched.getTransactionID());
if(cohortEntry == null) {
cohortEntry = new CohortEntry(batched.getTransactionID(),
- dataTree.newReadWriteTransaction(batched.getTransactionID(),
- batched.getTransactionChainID()));
+ dataTree.newReadWriteTransaction(batched.getTransactionID(), batched.getTransactionChainID()),
+ cohortRegistry, schema, batched.getVersion());
cohortCache.put(batched.getTransactionID(), cohortEntry);
}
cohortEntry.applyModifications(batched.getModifications());
if(batched.isReady()) {
+ if(cohortEntry.getLastBatchedModificationsException() != null) {
+ cohortCache.remove(cohortEntry.getTransactionID());
+ throw cohortEntry.getLastBatchedModificationsException();
+ }
+
+ if(cohortEntry.getTotalBatchedModificationsReceived() != batched.getTotalMessagesSent()) {
+ cohortCache.remove(cohortEntry.getTransactionID());
+ throw new IllegalStateException(String.format(
+ "The total number of batched messages received %d does not match the number sent %d",
+ cohortEntry.getTotalBatchedModificationsReceived(), batched.getTotalMessagesSent()));
+ }
+
+ if(!queueCohortEntry(cohortEntry, sender, shard)) {
+ return;
+ }
+
if(log.isDebugEnabled()) {
log.debug("{}: Readying Tx {}, client version {}", name,
batched.getTransactionID(), batched.getVersion());
} else {
sender.tell(new BatchedModificationsReply(batched.getModifications().size()), shard.self());
}
+ }
+
+ /**
+ * This method handles {@link ReadyLocalTransaction} message. All transaction modifications have
+ * been prepared beforehand by the sender and we just need to drive them through into the
+ * dataTree.
+ *
+ * @param message the ReadyLocalTransaction message to process
+ * @param sender the sender of the message
+ * @param shard the transaction's shard actor
+ */
+ void handleReadyLocalTransaction(ReadyLocalTransaction message, ActorRef sender, Shard shard,
+ SchemaContext schema) {
+ final ShardDataTreeCohort cohort = new SimpleShardDataTreeCohort(dataTree, message.getModification(),
+ message.getTransactionID());
+ final CohortEntry cohortEntry = new CohortEntry(message.getTransactionID(), cohort, cohortRegistry, schema,
+ DataStoreVersions.CURRENT_VERSION);
+ cohortCache.put(message.getTransactionID(), cohortEntry);
+ cohortEntry.setDoImmediateCommit(message.isDoCommitOnReady());
+
+ if(!queueCohortEntry(cohortEntry, sender, shard)) {
+ return;
+ }
+
+ log.debug("{}: Applying local modifications for Tx {}", name, message.getTransactionID());
- return batched.isReady();
+ if (message.isDoCommitOnReady()) {
+ cohortEntry.setReplySender(sender);
+ cohortEntry.setShard(shard);
+ handleCanCommit(cohortEntry);
+ } else {
+ sender.tell(readyTransactionReply(shard), shard.self());
+ }
+ }
+
+ Collection<BatchedModifications> createForwardedBatchedModifications(final BatchedModifications from,
+ final int maxModificationsPerBatch) {
+ CohortEntry cohortEntry = getAndRemoveCohortEntry(from.getTransactionID());
+ if(cohortEntry == null || cohortEntry.getTransaction() == null) {
+ return Collections.singletonList(from);
+ }
+
+ cohortEntry.applyModifications(from.getModifications());
+
+ final LinkedList<BatchedModifications> newModifications = new LinkedList<>();
+ cohortEntry.getTransaction().getSnapshot().applyToCursor(new AbstractBatchedModificationsCursor() {
+ @Override
+ protected BatchedModifications getModifications() {
+ if(newModifications.isEmpty() ||
+ newModifications.getLast().getModifications().size() >= maxModificationsPerBatch) {
+ newModifications.add(new BatchedModifications(from.getTransactionID(),
+ from.getVersion(), from.getTransactionChainID()));
+ }
+
+ return newModifications.getLast();
+ }
+ });
+
+ BatchedModifications last = newModifications.getLast();
+ last.setDoCommitOnReady(from.isDoCommitOnReady());
+ last.setReady(from.isReady());
+ last.setTotalMessagesSent(newModifications.size());
+ return newModifications;
}
private void handleCanCommit(CohortEntry cohortEntry) {
String transactionID = cohortEntry.getTransactionID();
- if(log.isDebugEnabled()) {
- log.debug("{}: Processing canCommit for transaction {} for shard {}",
- name, transactionID, cohortEntry.getShard().self().path());
- }
+ cohortEntry.updateLastAccessTime();
if(currentCohortEntry != null) {
- // There's already a Tx commit in progress - attempt to queue this entry to be
- // committed after the current Tx completes.
- log.debug("{}: Transaction {} is already in progress - queueing transaction {}",
- name, currentCohortEntry.getTransactionID(), transactionID);
+ // There's already a Tx commit in progress so we can't process this entry yet - but it's in the
+ // queue and will get processed after all prior entries complete.
- if(queuedCohortEntries.size() < queueCapacity) {
- queuedCohortEntries.offer(cohortEntry);
- } else {
- removeCohortEntry(transactionID);
-
- RuntimeException ex = new RuntimeException(
- String.format("%s: Could not enqueue transaction %s - the maximum commit queue"+
- " capacity %d has been reached.",
- name, transactionID, queueCapacity));
- log.error(ex.getMessage());
- cohortEntry.getReplySender().tell(new Status.Failure(ex), cohortEntry.getShard().self());
+ if(log.isDebugEnabled()) {
+ log.debug("{}: Commit for Tx {} already in progress - skipping canCommit for {} for now",
+ name, currentCohortEntry.getTransactionID(), transactionID);
}
- } else {
- // No Tx commit currently in progress - make this the current entry and proceed with
- // canCommit.
- cohortEntry.updateLastAccessTime();
- currentCohortEntry = cohortEntry;
- doCanCommit(cohortEntry);
+ return;
+ }
+
+ // No Tx commit currently in progress - check if this entry is the next one in the queue, If so make
+ // it the current entry and proceed with canCommit.
+ // Purposely checking reference equality here.
+ if(queuedCohortEntries.peek() == cohortEntry) {
+ currentCohortEntry = queuedCohortEntries.poll();
+ doCanCommit(currentCohortEntry);
+ } else {
+ if(log.isDebugEnabled()) {
+ log.debug("{}: Tx {} is the next pending canCommit - skipping {} for now", name,
+ queuedCohortEntries.peek() != null ? queuedCohortEntries.peek().getTransactionID() : "???",
+ transactionID);
+ }
}
}
/**
* This method handles the canCommit phase for a transaction.
*
- * @param canCommit the CanCommitTransaction message
- * @param sender the actor that sent the message
+ * @param transactionID the ID of the transaction to canCommit
+ * @param sender the actor to which to send the response
* @param shard the transaction's shard actor
*/
- public void handleCanCommit(String transactionID, final ActorRef sender, final Shard shard) {
+ void handleCanCommit(String transactionID, final ActorRef sender, final Shard shard) {
// Lookup the cohort entry that was cached previously (or should have been) by
// transactionReady (via the ForwardedReadyTransaction message).
- final CohortEntry cohortEntry = cohortCache.getIfPresent(transactionID);
+ final CohortEntry cohortEntry = cohortCache.get(transactionID);
if(cohortEntry == null) {
// Either canCommit was invoked before ready(shouldn't happen) or a long time passed
// between canCommit and ready and the entry was expired from the cache.
IllegalStateException ex = new IllegalStateException(
String.format("%s: No cohort entry found for transaction %s", name, transactionID));
log.error(ex.getMessage());
- sender.tell(new Status.Failure(ex), shard.self());
+ sender.tell(new Failure(ex), shard.self());
return;
}
}
private void doCanCommit(final CohortEntry cohortEntry) {
-
boolean canCommit = false;
try {
- // We block on the future here so we don't have to worry about possibly accessing our
- // state on a different thread outside of our dispatcher. Also, the data store
- // currently uses a same thread executor anyway.
- canCommit = cohortEntry.getCohort().canCommit().get();
+ canCommit = cohortEntry.canCommit();
+
+ log.debug("{}: canCommit for {}: {}", name, cohortEntry.getTransactionID(), canCommit);
if(cohortEntry.isDoImmediateCommit()) {
if(canCommit) {
doCommit(cohortEntry);
} else {
- cohortEntry.getReplySender().tell(new Status.Failure(new TransactionCommitFailedException(
+ cohortEntry.getReplySender().tell(new Failure(new TransactionCommitFailedException(
"Can Commit failed, no detailed cause available.")), cohortEntry.getShard().self());
}
} else {
cohortEntry.getReplySender().tell(
- canCommit ? CanCommitTransactionReply.YES.toSerializable() :
- CanCommitTransactionReply.NO.toSerializable(), cohortEntry.getShard().self());
+ canCommit ? CanCommitTransactionReply.yes(cohortEntry.getClientVersion()).toSerializable() :
+ CanCommitTransactionReply.no(cohortEntry.getClientVersion()).toSerializable(),
+ cohortEntry.getShard().self());
}
} catch (Exception e) {
- log.debug("{}: An exception occurred during canCommit: {}", name, e);
+ log.debug("{}: An exception occurred during canCommit", name, e);
Throwable failure = e;
if(e instanceof ExecutionException) {
failure = e.getCause();
}
- cohortEntry.getReplySender().tell(new Status.Failure(failure), cohortEntry.getShard().self());
+ cohortEntry.getReplySender().tell(new Failure(failure), cohortEntry.getShard().self());
} finally {
if(!canCommit) {
// Remove the entry from the cache now.
// normally fail since we ensure only one concurrent 3-phase commit.
try {
- // We block on the future here so we don't have to worry about possibly accessing our
- // state on a different thread outside of our dispatcher. Also, the data store
- // currently uses a same thread executor anyway.
- cohortEntry.getCohort().preCommit().get();
+ cohortEntry.preCommit();
cohortEntry.getShard().continueCommit(cohortEntry);
} catch (Exception e) {
log.error("{} An exception occurred while preCommitting transaction {}",
name, cohortEntry.getTransactionID(), e);
- cohortEntry.getReplySender().tell(new akka.actor.Status.Failure(e), cohortEntry.getShard().self());
+ cohortEntry.getReplySender().tell(new Failure(e), cohortEntry.getShard().self());
currentTransactionComplete(cohortEntry.getTransactionID(), true);
}
return success;
}
+ /**
+ * This method handles the preCommit and commit phases for a transaction.
+ *
+ * @param transactionID the ID of the transaction to commit
+ * @param sender the actor to which to send the response
+ * @param shard the transaction's shard actor
+ * @return true if the transaction was successfully prepared, false otherwise.
+ */
boolean handleCommit(final String transactionID, final ActorRef sender, final Shard shard) {
// Get the current in-progress cohort entry in the commitCoordinator if it corresponds to
// this transaction.
String.format("%s: Cannot commit transaction %s - it is not the current transaction",
name, transactionID));
log.error(ex.getMessage());
- sender.tell(new akka.actor.Status.Failure(ex), shard.self());
+ sender.tell(new Failure(ex), shard.self());
return false;
}
+ cohortEntry.setReplySender(sender);
return doCommit(cohortEntry);
}
+ void handleAbort(final String transactionID, final ActorRef sender, final Shard shard) {
+ CohortEntry cohortEntry = getCohortEntryIfCurrent(transactionID);
+ if(cohortEntry != null) {
+ // We don't remove the cached cohort entry here (ie pass false) in case the Tx was
+ // aborted during replication in which case we may still commit locally if replication
+ // succeeds.
+ currentTransactionComplete(transactionID, false);
+ } else {
+ cohortEntry = getAndRemoveCohortEntry(transactionID);
+ }
+
+ if(cohortEntry == null) {
+ return;
+ }
+
+ log.debug("{}: Aborting transaction {}", name, transactionID);
+
+ final ActorRef self = shard.getSelf();
+ try {
+ cohortEntry.abort();
+
+ shard.getShardMBean().incrementAbortTransactionsCount();
+
+ if(sender != null) {
+ sender.tell(AbortTransactionReply.instance(cohortEntry.getClientVersion()).toSerializable(), self);
+ }
+ } catch (Exception e) {
+ log.error("{}: An exception happened during abort", name, e);
+
+ if(sender != null) {
+ sender.tell(new Failure(e), self);
+ }
+ }
+ }
+
+ void checkForExpiredTransactions(final long timeout, final Shard shard) {
+ CohortEntry cohortEntry = getCurrentCohortEntry();
+ if(cohortEntry != null) {
+ if(cohortEntry.isExpired(timeout)) {
+ log.warn("{}: Current transaction {} has timed out after {} ms - aborting",
+ name, cohortEntry.getTransactionID(), timeout);
+
+ handleAbort(cohortEntry.getTransactionID(), null, shard);
+ }
+ }
+
+ cleanupExpiredCohortEntries();
+ }
+
+ void abortPendingTransactions(final String reason, final Shard shard) {
+ if(currentCohortEntry == null && queuedCohortEntries.isEmpty()) {
+ return;
+ }
+
+ List<CohortEntry> cohortEntries = getAndClearPendingCohortEntries();
+
+ log.debug("{}: Aborting {} pending queued transactions", name, cohortEntries.size());
+
+ for(CohortEntry cohortEntry: cohortEntries) {
+ if(cohortEntry.getReplySender() != null) {
+ cohortEntry.getReplySender().tell(new Failure(new RuntimeException(reason)), shard.self());
+ }
+ }
+ }
+
+ private List<CohortEntry> getAndClearPendingCohortEntries() {
+ List<CohortEntry> cohortEntries = new ArrayList<>();
+
+ if(currentCohortEntry != null) {
+ cohortEntries.add(currentCohortEntry);
+ cohortCache.remove(currentCohortEntry.getTransactionID());
+ currentCohortEntry = null;
+ }
+
+ for(CohortEntry cohortEntry: queuedCohortEntries) {
+ cohortEntries.add(cohortEntry);
+ cohortCache.remove(cohortEntry.getTransactionID());
+ }
+
+ queuedCohortEntries.clear();
+ return cohortEntries;
+ }
+
+ Collection<Object> convertPendingTransactionsToMessages(final int maxModificationsPerBatch) {
+ if(currentCohortEntry == null && queuedCohortEntries.isEmpty()) {
+ return Collections.emptyList();
+ }
+
+ Collection<Object> messages = new ArrayList<>();
+ List<CohortEntry> cohortEntries = getAndClearPendingCohortEntries();
+ for(CohortEntry cohortEntry: cohortEntries) {
+ if(cohortEntry.isExpired(cacheExpiryTimeoutInMillis) || cohortEntry.isAborted()) {
+ continue;
+ }
+
+ final LinkedList<BatchedModifications> newModifications = new LinkedList<>();
+ cohortEntry.getDataTreeModification().applyToCursor(new AbstractBatchedModificationsCursor() {
+ @Override
+ protected BatchedModifications getModifications() {
+ if(newModifications.isEmpty() ||
+ newModifications.getLast().getModifications().size() >= maxModificationsPerBatch) {
+ newModifications.add(new BatchedModifications(cohortEntry.getTransactionID(),
+ cohortEntry.getClientVersion(), ""));
+ }
+
+ return newModifications.getLast();
+ }
+ });
+
+ if(!newModifications.isEmpty()) {
+ BatchedModifications last = newModifications.getLast();
+ last.setDoCommitOnReady(cohortEntry.isDoImmediateCommit());
+ last.setReady(true);
+ last.setTotalMessagesSent(newModifications.size());
+ messages.addAll(newModifications);
+
+ if(!cohortEntry.isDoImmediateCommit() && cohortEntry.getState() == CohortEntry.State.CAN_COMMITTED) {
+ messages.add(new CanCommitTransaction(cohortEntry.getTransactionID(),
+ cohortEntry.getClientVersion()));
+ }
+
+ if(!cohortEntry.isDoImmediateCommit() && cohortEntry.getState() == CohortEntry.State.PRE_COMMITTED) {
+ messages.add(new CommitTransaction(cohortEntry.getTransactionID(),
+ cohortEntry.getClientVersion()));
+ }
+ }
+ }
+
+ return messages;
+ }
+
/**
* Returns the cohort entry for the Tx commit currently in progress if the given transaction ID
* matches the current entry.
* @return the current CohortEntry or null if the given transaction ID does not match the
* current entry.
*/
- public CohortEntry getCohortEntryIfCurrent(String transactionID) {
+ CohortEntry getCohortEntryIfCurrent(String transactionID) {
if(isCurrentTransaction(transactionID)) {
return currentCohortEntry;
}
return null;
}
- public CohortEntry getCurrentCohortEntry() {
+ CohortEntry getCurrentCohortEntry() {
return currentCohortEntry;
}
- public CohortEntry getAndRemoveCohortEntry(String transactionID) {
- CohortEntry cohortEntry = cohortCache.getIfPresent(transactionID);
- cohortCache.invalidate(transactionID);
- return cohortEntry;
- }
-
- public void removeCohortEntry(String transactionID) {
- cohortCache.invalidate(transactionID);
+ CohortEntry getAndRemoveCohortEntry(String transactionID) {
+ return cohortCache.remove(transactionID);
}
- public boolean isCurrentTransaction(String transactionID) {
+ boolean isCurrentTransaction(String transactionID) {
return currentCohortEntry != null &&
currentCohortEntry.getTransactionID().equals(transactionID);
}
* @param removeCohortEntry if true the CohortEntry for the transaction is also removed from
* the cache.
*/
- public void currentTransactionComplete(String transactionID, boolean removeCohortEntry) {
+ void currentTransactionComplete(String transactionID, boolean removeCohortEntry) {
if(removeCohortEntry) {
- removeCohortEntry(transactionID);
+ cohortCache.remove(transactionID);
}
if(isCurrentTransaction(transactionID)) {
- // Dequeue the next cohort entry waiting in the queue.
- currentCohortEntry = queuedCohortEntries.poll();
- if(currentCohortEntry != null) {
- currentCohortEntry.updateLastAccessTime();
- doCanCommit(currentCohortEntry);
- }
- }
- }
-
- @VisibleForTesting
- void setCohortDecorator(CohortDecorator cohortDecorator) {
- this.cohortDecorator = cohortDecorator;
- }
-
-
- static class CohortEntry {
- private final String transactionID;
- private ShardDataTreeCohort cohort;
- private final ReadWriteShardDataTreeTransaction transaction;
- private ActorRef replySender;
- private Shard shard;
- private long lastAccessTime;
- private boolean doImmediateCommit;
+ currentCohortEntry = null;
- CohortEntry(String transactionID, ReadWriteShardDataTreeTransaction transaction) {
- this.transaction = Preconditions.checkNotNull(transaction);
- this.transactionID = transactionID;
- }
-
- CohortEntry(String transactionID, ShardDataTreeCohort cohort,
- MutableCompositeModification compositeModification) {
- this.transactionID = transactionID;
- this.cohort = cohort;
- this.transaction = null;
- }
+ log.debug("{}: currentTransactionComplete: {}", name, transactionID);
- void updateLastAccessTime() {
- lastAccessTime = System.currentTimeMillis();
- }
-
- long getLastAccessTime() {
- return lastAccessTime;
+ maybeProcessNextCohortEntry();
}
+ }
- String getTransactionID() {
- return transactionID;
- }
+ private void maybeProcessNextCohortEntry() {
+ // Check if there's a next cohort entry waiting in the queue and if it is ready to commit. Also
+ // clean out expired entries.
+ final Iterator<CohortEntry> iter = queuedCohortEntries.iterator();
+ while(iter.hasNext()) {
+ final CohortEntry next = iter.next();
+ if(next.isReadyToCommit()) {
+ if(currentCohortEntry == null) {
+ if(log.isDebugEnabled()) {
+ log.debug("{}: Next entry to canCommit {}", name, next);
+ }
- ShardDataTreeCohort getCohort() {
- return cohort;
- }
+ iter.remove();
+ currentCohortEntry = next;
+ currentCohortEntry.updateLastAccessTime();
+ doCanCommit(currentCohortEntry);
+ }
- void applyModifications(Iterable<Modification> modifications) {
- for (Modification modification : modifications) {
- modification.apply(transaction.getSnapshot());
+ break;
+ } else if(next.isExpired(cacheExpiryTimeoutInMillis)) {
+ log.warn("{}: canCommit for transaction {} was not received within {} ms - entry removed from cache",
+ name, next.getTransactionID(), cacheExpiryTimeoutInMillis);
+ } else if(!next.isAborted()) {
+ break;
}
- }
-
- void ready(CohortDecorator cohortDecorator, boolean doImmediateCommit) {
- Preconditions.checkState(cohort == null, "cohort was already set");
-
- setDoImmediateCommit(doImmediateCommit);
-
- cohort = transaction.ready();
- if(cohortDecorator != null) {
- // Call the hook for unit tests.
- cohort = cohortDecorator.decorate(transactionID, cohort);
- }
+ iter.remove();
+ cohortCache.remove(next.getTransactionID());
}
- boolean isDoImmediateCommit() {
- return doImmediateCommit;
- }
+ maybeRunOperationOnPendingTransactionsComplete();
+ }
- void setDoImmediateCommit(boolean doImmediateCommit) {
- this.doImmediateCommit = doImmediateCommit;
- }
+ void cleanupExpiredCohortEntries() {
+ maybeProcessNextCohortEntry();
+ }
- ActorRef getReplySender() {
- return replySender;
- }
+ void setRunOnPendingTransactionsComplete(Runnable operation) {
+ runOnPendingTransactionsComplete = operation;
+ maybeRunOperationOnPendingTransactionsComplete();
+ }
- void setReplySender(ActorRef replySender) {
- this.replySender = replySender;
- }
+ private void maybeRunOperationOnPendingTransactionsComplete() {
+ if(runOnPendingTransactionsComplete != null && currentCohortEntry == null && queuedCohortEntries.isEmpty()) {
+ log.debug("{}: Pending transactions complete - running operation {}", name, runOnPendingTransactionsComplete);
- Shard getShard() {
- return shard;
+ runOnPendingTransactionsComplete.run();
+ runOnPendingTransactionsComplete = null;
}
+ }
- void setShard(Shard shard) {
- this.shard = shard;
- }
+ @VisibleForTesting
+ void setCohortDecorator(CohortDecorator cohortDecorator) {
+ this.cohortDecorator = cohortDecorator;
+ }
+
+ void processCohortRegistryCommand(ActorRef sender, CohortRegistryCommand message) {
+ cohortRegistry.process(sender, message);
}
}