import java.util.concurrent.ConcurrentHashMap;
import java.util.concurrent.ConcurrentMap;
import java.util.concurrent.atomic.AtomicReferenceFieldUpdater;
-import java.util.function.Function;
import javax.annotation.Nonnull;
import org.opendaylight.controller.cluster.access.concepts.LocalHistoryIdentifier;
import org.opendaylight.controller.cluster.access.concepts.TransactionIdentifier;
* at a time. For remote transactions, it also tracks the outstanding readiness requests
* towards the shard and unblocks operations only after all have completed.
*/
-final class TransactionChainProxy extends AbstractTransactionContextFactory<LocalTransactionChain> implements DOMStoreTransactionChain {
- private static abstract class State {
+final class TransactionChainProxy extends AbstractTransactionContextFactory<LocalTransactionChain>
+ implements DOMStoreTransactionChain {
+ private abstract static class State {
/**
* Check if it is okay to allocate a new transaction.
* @throws IllegalStateException if a transaction may not be allocated.
abstract Future<?> previousFuture();
}
- private static abstract class Pending extends State {
+ private abstract static class Pending extends State {
private final TransactionIdentifier transaction;
private final Future<?> previousFuture;
}
}
- private static abstract class DefaultState extends State {
+ private abstract static class DefaultState extends State {
@Override
final Future<?> previousFuture() {
return null;
* This map holds Promise instances for each read-only tx. It is used to maintain ordering of tx creates
* wrt to read-only tx's between this class and a LocalTransactionChain since they're bridged by
* asynchronous futures. Otherwise, in the following scenario, eg:
- *
+ * <p/>
* 1) Create write tx1 on chain
* 2) do write and submit
* 3) Create read-only tx2 on chain and issue read
* 4) Create write tx3 on chain, do write but do not submit
- *
+ * <p/>
* if the sequence/timing is right, tx3 may create its local tx on the LocalTransactionChain before tx2,
* which results in tx2 failing b/c tx3 isn't ready yet. So maintaining ordering prevents this issue
* (see Bug 4774).
- * <p>
+ * <p/>
* A Promise is added via newReadOnlyTransaction. When the parent class completes the primary shard
* lookup and creates the TransactionContext (either success or failure), onTransactionContextCreated is
* called which completes the Promise. A write tx that is created prior to completion will wait on the
* Promise's Future via findPrimaryShard.
*/
- private final ConcurrentMap<TransactionIdentifier, Promise<Object>> priorReadOnlyTxPromises = new ConcurrentHashMap<>();
+ private final ConcurrentMap<TransactionIdentifier, Promise<Object>> priorReadOnlyTxPromises =
+ new ConcurrentHashMap<>();
TransactionChainProxy(final TransactionContextFactory parent, final LocalHistoryIdentifier historyId) {
super(parent.getActorContext(), historyId);
this.parent = parent;
}
- public String getTransactionChainId() {
- return getHistoryId().toString();
- }
-
@Override
public DOMStoreReadTransaction newReadOnlyTransaction() {
currentState.checkReady();
// Send a close transaction chain request to each and every shard
- getActorContext().broadcast(new Function<Short, Object>() {
- @Override
- public Object apply(Short version) {
- return new CloseTransactionChain(getHistoryId().toString(), version).toSerializable();
- }
- });
+ getActorContext().broadcast(version -> new CloseTransactionChain(getHistoryId(), version).toSerializable(),
+ CloseTransactionChain.class);
}
private TransactionProxy allocateWriteTransaction(final TransactionType type) {
}
@Override
- protected LocalTransactionChain factoryForShard(final String shardName, final ActorSelection shardLeader, final DataTree dataTree) {
+ protected LocalTransactionChain factoryForShard(final String shardName, final ActorSelection shardLeader,
+ final DataTree dataTree) {
final LocalTransactionChain ret = new LocalTransactionChain(this, shardLeader, dataTree);
LOG.debug("Allocated transaction chain {} for shard {} leader {}", ret, shardName, shardLeader);
return ret;
final String previousTransactionId;
- if(localState instanceof Pending){
+ if (localState instanceof Pending) {
previousTransactionId = ((Pending) localState).getIdentifier().toString();
LOG.debug("Tx: {} - waiting for ready futures with pending Tx {}", txId, previousTransactionId);
} else {
previousTransactionId = "";
- LOG.debug("Waiting for ready futures on chain {}", getTransactionChainId());
+ LOG.debug("Waiting for ready futures on chain {}", getHistoryId());
}
previous = combineFutureWithPossiblePriorReadOnlyTxFutures(previous, txId);
private <T> Future<T> combineFutureWithPossiblePriorReadOnlyTxFutures(final Future<T> future,
final TransactionIdentifier txId) {
- if(!priorReadOnlyTxPromises.containsKey(txId) && !priorReadOnlyTxPromises.isEmpty()) {
+ if (!priorReadOnlyTxPromises.containsKey(txId) && !priorReadOnlyTxPromises.isEmpty()) {
Collection<Entry<TransactionIdentifier, Promise<Object>>> priorReadOnlyTxPromiseEntries =
new ArrayList<>(priorReadOnlyTxPromises.entrySet());
- if(priorReadOnlyTxPromiseEntries.isEmpty()) {
+ if (priorReadOnlyTxPromiseEntries.isEmpty()) {
return future;
}
List<Future<Object>> priorReadOnlyTxFutures = new ArrayList<>(priorReadOnlyTxPromiseEntries.size());
- for(Entry<TransactionIdentifier, Promise<Object>> entry: priorReadOnlyTxPromiseEntries) {
+ for (Entry<TransactionIdentifier, Promise<Object>> entry: priorReadOnlyTxPromiseEntries) {
LOG.debug("Tx: {} - waiting on future for prior read-only Tx {}", txId, entry.getKey());
priorReadOnlyTxFutures.add(entry.getValue().future());
}
}
@Override
- protected <T> void onTransactionReady(final TransactionIdentifier transaction, final Collection<Future<T>> cohortFutures) {
+ protected <T> void onTransactionReady(final TransactionIdentifier transaction,
+ final Collection<Future<T>> cohortFutures) {
final State localState = currentState;
- Preconditions.checkState(localState instanceof Allocated, "Readying transaction %s while state is %s", transaction, localState);
+ Preconditions.checkState(localState instanceof Allocated, "Readying transaction %s while state is %s",
+ transaction, localState);
final TransactionIdentifier currentTx = ((Allocated)localState).getIdentifier();
- Preconditions.checkState(transaction.equals(currentTx), "Readying transaction %s while %s is allocated", transaction, currentTx);
+ Preconditions.checkState(transaction.equals(currentTx), "Readying transaction %s while %s is allocated",
+ transaction, currentTx);
// Transaction ready and we are not waiting for futures -- go to idle
if (cohortFutures.isEmpty()) {
@Override
protected void onTransactionContextCreated(@Nonnull TransactionIdentifier transactionId) {
Promise<Object> promise = priorReadOnlyTxPromises.remove(transactionId);
- if(promise != null) {
+ if (promise != null) {
promise.success(null);
}
}