protected void logDebugSequencingConnected() {
Vector[] sequenceVectors = new Vector[NUMBER_OF_STATES];
Iterator itConnectedSequences = connectedSequences.iterator();
while (itConnectedSequences.hasNext()) {
Sequence sequence = (Sequence) itConnectedSequences.next();
int stateId = getStateId(sequence.shouldUsePreallocation(), sequence.shouldUseTransaction());
Vector v = sequenceVectors[stateId];
if (v == null) {
v = new Vector();
sequenceVectors[stateId] = v;
}
v.addElement(sequence);
}
for (int i = 0; i < NUMBER_OF_STATES; i++) {
Vector v = sequenceVectors[i];
if (v != null) {
getOwnerSession()
.log(SessionLog.FINEST, SessionLog.SEQUENCING, "sequencing_connected", states[i]);
for (int j = 0; j < v.size(); j++) {
Sequence sequence = (Sequence) v.elementAt(j);
Object[] args = {
sequence.getName(),
Integer.toString(sequence.getPreallocationSize()),
Integer.toString(sequence.getInitialValue())
};
getOwnerSession()
.log(SessionLog.FINEST, SessionLog.SEQUENCING, "sequence_without_state", args);
}
}
}
}
public Object getNextValue(Sequence sequence, AbstractSession writeSession) {
String seqName = sequence.getName();
if (sequence.getPreallocationSize() > 1) {
Queue sequencesForName = getPreallocationHandler().getPreallocated(seqName);
// First try to get the next sequence value without locking.
Object sequenceValue = sequencesForName.poll();
if (sequenceValue != null) {
return sequenceValue;
}
// Sequences are empty, so must lock and allocate next batch of sequences.
acquireLock(seqName);
try {
sequenceValue = sequencesForName.poll();
if (sequenceValue != null) {
return sequenceValue;
}
Vector sequences = sequence.getGeneratedVector(null, writeSession);
// Remove the first value before adding to the global cache to ensure this thread gets
// one.
sequenceValue = sequences.remove(0);
// copy remaining values to global cache.
getPreallocationHandler().setPreallocated(seqName, sequences);
logDebugPreallocation(seqName, sequenceValue, sequences);
} finally {
releaseLock(seqName);
}
return sequenceValue;
} else {
// preallocation size is 1 - just return the first (and only) element of the allocated
// vector.
return sequence.getGeneratedVector(null, writeSession).firstElement();
}
}
public Object getNextValue(Sequence sequence, AbstractSession writeSession) {
String seqName = sequence.getName();
if (sequence.getPreallocationSize() > 1) {
Queue sequencesForName = getPreallocationHandler().getPreallocated(seqName);
// First try to get the next sequence value without locking.
Object sequenceValue = sequencesForName.poll();
if (sequenceValue != null) {
return sequenceValue;
}
// Sequences are empty, so must lock and allocate next batch of sequences.
acquireLock(seqName);
try {
sequenceValue = sequencesForName.poll();
if (sequenceValue != null) {
return sequenceValue;
}
// note that accessor.getLogin().shouldUseExternalTransactionController()
// should be set to false
Accessor accessor = getConnectionHandler().acquireAccessor();
try {
accessor.beginTransaction(writeSession);
try {
Vector sequences = sequence.getGeneratedVector(accessor, writeSession);
accessor.commitTransaction(writeSession);
// Remove the first value before adding to the global cache to ensure this thread gets
// one.
sequenceValue = sequences.remove(0);
// copy remaining values to global cache.
getPreallocationHandler().setPreallocated(seqName, sequences);
logDebugPreallocation(seqName, sequenceValue, sequences);
} catch (RuntimeException ex) {
try {
// make sure to rollback the transaction we've begun
accessor.rollbackTransaction(writeSession);
} catch (Exception rollbackException) {
// ignore rollback exception
}
// don't eat the original exception
throw ex;
}
} finally {
getConnectionHandler().releaseAccessor(accessor);
}
} finally {
releaseLock(seqName);
}
return sequenceValue;
} else {
// note that accessor.getLogin().shouldUseExternalTransactionController()
// should be set to false
Accessor accessor = getConnectionHandler().acquireAccessor();
try {
accessor.beginTransaction(writeSession);
try {
// preallocation size is 1 - just return the first (and only) element of the allocated
// vector.
Object sequenceValue =
sequence.getGeneratedVector(accessor, writeSession).firstElement();
accessor.commitTransaction(writeSession);
return sequenceValue;
} catch (RuntimeException ex) {
try {
// make sure to rollback the transaction we've begun
accessor.rollbackTransaction(writeSession);
} catch (Exception rollbackException) {
// ignore rollback exception
}
// don't eat the original exception
throw ex;
}
} finally {
getConnectionHandler().releaseAccessor(accessor);
}
}
}
/**
* Return the next sequence value. First check the global pool, if empty then allocate new
* sequences locally.
*/
public Object getNextValue(Sequence sequence, AbstractSession writeSession) {
String seqName = sequence.getName();
if (sequence.getPreallocationSize() > 1) {
Queue sequencesForName = getPreallocationHandler().getPreallocated(seqName);
// First grab the first sequence value without locking, a lock is only required if empty.
Object sequenceValue = sequencesForName.poll();
if (sequenceValue != null) {
return sequenceValue;
}
// KeepLocked indicates whether the sequence lock should be kept for the whole duration of
// this method.
// Of course the lock should be released in any case when the method returns or throws an
// exception.
// This is only used if a sequence transaction was begun by the unit of work,
// and will be committed before the unit of work commit.
boolean keepLocked = false;
if (!getOwnerSession().getDatasourceLogin().shouldUseExternalTransactionController()
&& !writeSession.isInTransaction()) {
// To prevent several threads from simultaneously allocating a separate bunch of
// sequencing numbers each. With keepLocked==true the first thread locks out others
// until it copies the obtained sequence numbers to the global storage.
// Note that this optimization possible only in non-jts case when there is no transaction.
acquireLock(seqName);
try {
sequenceValue = sequencesForName.poll();
if (sequenceValue != null) {
return sequenceValue;
}
writeSession.beginTransaction(); // write accessor is set in begin
keepLocked = true;
} finally {
if (!keepLocked) {
releaseLock(seqName);
}
}
}
Accessor accessor;
Vector localSequencesForName;
if (!keepLocked) {
writeSession.beginTransaction(); // write accessor is set in begin
}
try {
accessor = writeSession.getAccessor();
SequencingCallbackImpl seqCallbackImpl = getCallbackImpl(writeSession, accessor);
Map localSequences = seqCallbackImpl.getPreallocatedSequenceValues();
localSequencesForName = (Vector) localSequences.get(seqName);
if ((localSequencesForName == null) || localSequencesForName.isEmpty()) {
localSequencesForName = sequence.getGeneratedVector(null, writeSession);
localSequences.put(seqName, localSequencesForName);
logDebugLocalPreallocation(writeSession, seqName, localSequencesForName, accessor);
}
} catch (RuntimeException ex) {
if (keepLocked) {
releaseLock(seqName);
}
try {
// make sure to rollback the transaction we've begun
writeSession.rollbackTransaction();
} catch (Exception rollbackException) {
// ignore rollback exception
}
// don't eat the original exception
throw ex;
}
try {
try {
// commitTransaction may copy preallocated sequence numbers
// from localSequences to preallocationHandler: that happens
// if it isn't a nested transaction, and sequencingCallback.afterCommit
// method has been called.
// In this case:
// 1. localSequences corresponding to the accessor
// has been removed from accessorToPreallocated;
// 2. All its members are empty (therefore localSequenceForName is empty).
writeSession.commitTransaction();
} catch (DatabaseException ex) {
try {
// make sure to rollback the transaction we've begun
writeSession.rollbackTransaction();
} catch (Exception rollbackException) {
// ignore rollback exception
}
// don't eat the original exception
throw ex;
}
if (!localSequencesForName.isEmpty()) {
// localSeqencesForName is not empty, that means
// sequencingCallback has not been called.
sequenceValue = localSequencesForName.remove(0);
return sequenceValue;
} else {
// localSeqencesForName is empty, that means
// sequencingCallback has been called.
sequenceValue = sequencesForName.poll();
if (sequenceValue != null) {
return sequenceValue;
}
return getNextValue(sequence, writeSession);
}
} finally {
if (keepLocked) {
releaseLock(seqName);
}
}
} else {
writeSession.beginTransaction();
try {
// preallocation size is 1 - just return the first (and only) element of the allocated
// vector.
Object sequenceValue = sequence.getGeneratedVector(null, writeSession).firstElement();
writeSession.commitTransaction();
return sequenceValue;
} catch (RuntimeException ex) {
try {
// make sure to rollback the transaction we've begun
writeSession.rollbackTransaction();
} catch (Exception rollbackException) {
// ignore rollback exception
}
// don't eat the original exception
throw ex;
}
}
}