/** @param e Error. */
void onError(Throwable e) {
tx.commitError(e);
if (err.compareAndSet(null, e)) {
boolean marked = tx.setRollbackOnly();
if (e instanceof GridCacheTxRollbackException) {
if (marked) {
try {
tx.rollback();
} catch (GridException ex) {
U.error(log, "Failed to automatically rollback transaction: " + tx, ex);
}
}
} else if (tx.implicit()
&& tx.isSystemInvalidate()) { // Finish implicit transaction on heuristic error.
try {
tx.close();
} catch (GridException ex) {
U.error(log, "Failed to invalidate transaction: " + tx, ex);
}
}
onComplete();
}
}
public void setUpper(int i) {
while (true) {
IntPair oldv = values.get();
if (i < oldv.lower)
throw new IllegalArgumentException("Can't set upper to " + i + " < lower");
IntPair newv = new IntPair(oldv.lower, i);
if (values.compareAndSet(oldv, newv)) return;
}
}
/** @param lsnr Listener to external collision events. */
public void setCollisionExternalListener(@Nullable GridCollisionExternalListener lsnr) {
if (enabled()) {
if (lsnr != null && !extLsnr.compareAndSet(null, lsnr))
assert false
: "Collision external listener has already been set "
+ "(perhaps need to add support for multiple listeners)";
else if (log.isDebugEnabled())
log.debug("Successfully set external collision listener: " + lsnr);
}
}
/** {@inheritDoc} */
@Override
public GridDiscoveryTopologySnapshot topologySnapshot() throws IgniteCheckedException {
get();
if (topSnapshot.get() == null)
topSnapshot.compareAndSet(
null,
new GridDiscoveryTopologySnapshot(discoEvt.topologyVersion(), discoEvt.topologyNodes()));
return topSnapshot.get();
}
/** @param e Error. */
void onError(Throwable e) {
tx.commitError(e);
if (err.compareAndSet(null, e)) {
boolean marked = tx.setRollbackOnly();
if (e instanceof GridCacheTxRollbackException)
if (marked) {
try {
tx.rollback();
} catch (GridException ex) {
U.error(log, "Failed to automatically rollback transaction: " + tx, ex);
}
}
onComplete();
}
}
/**
* Basically, future mapping consists from two parts. First, we must determine the topology
* version this future will map on. Locking is performed within a user transaction, we must
* continue to map keys on the same topology version as it started. If topology version is
* undefined, we get current topology future and wait until it completes so the topology is ready
* to use.
*
* <p>During the second part we map keys to primary nodes using topology snapshot we obtained
* during the first part. Note that if primary node leaves grid, the future will fail and
* transaction will be rolled back.
*/
void map() {
// Obtain the topology version to use.
GridDiscoveryTopologySnapshot snapshot =
tx != null
? tx.topologySnapshot()
: cctx.mvcc().lastExplicitLockTopologySnapshot(Thread.currentThread().getId());
if (snapshot != null) {
// Continue mapping on the same topology version as it was before.
topSnapshot.compareAndSet(null, snapshot);
map(keys);
markInitialized();
return;
}
// Must get topology snapshot and map on that version.
mapOnTopology();
}
/**
* Acquires topology future and checks it completeness under the read lock. If it is not complete,
* will asynchronously wait for it's completeness and then try again.
*/
void mapOnTopology() {
// We must acquire topology snapshot from the topology version future.
try {
cctx.topology().readLock();
try {
GridDhtTopologyFuture fut = cctx.topologyVersionFuture();
if (fut.isDone()) {
GridDiscoveryTopologySnapshot snapshot = fut.topologySnapshot();
if (tx != null) {
tx.topologyVersion(snapshot.topologyVersion());
tx.topologySnapshot(snapshot);
}
topSnapshot.compareAndSet(null, snapshot);
map(keys);
markInitialized();
} else {
fut.listenAsync(
new CI1<GridFuture<Long>>() {
@Override
public void apply(GridFuture<Long> t) {
mapOnTopology();
}
});
}
} finally {
cctx.topology().readUnlock();
}
} catch (GridException e) {
onDone(e);
}
}
/**
* @param nodeId Sender node id.
* @param msg Single partition info.
*/
public void onReceive(final UUID nodeId, final GridDhtPartitionsSingleMessage msg) {
assert msg != null;
assert msg.exchangeId().equals(exchId);
// Update last seen version.
while (true) {
GridCacheVersion old = lastVer.get();
if (old == null || old.compareTo(msg.lastVersion()) < 0) {
if (lastVer.compareAndSet(old, msg.lastVersion())) break;
} else break;
}
if (isDone()) {
if (log.isDebugEnabled())
log.debug(
"Received message for finished future (will reply only to sender) [msg="
+ msg
+ ", fut="
+ this
+ ']');
sendAllPartitions(nodeId, cctx.gridConfig().getNetworkSendRetryCount());
} else {
initFut.listen(
new CI1<IgniteInternalFuture<Boolean>>() {
@Override
public void apply(IgniteInternalFuture<Boolean> t) {
try {
if (!t.get()) // Just to check if there was an error.
return;
ClusterNode loc = cctx.localNode();
singleMsgs.put(nodeId, msg);
boolean match = true;
// Check if oldest node has changed.
if (!oldestNode.get().equals(loc)) {
match = false;
synchronized (mux) {
// Double check.
if (oldestNode.get().equals(loc)) match = true;
}
}
if (match) {
boolean allReceived;
synchronized (rcvdIds) {
if (rcvdIds.add(nodeId)) updatePartitionSingleMap(msg);
allReceived = allReceived();
}
// If got all replies, and initialization finished, and reply has not been sent
// yet.
if (allReceived && ready.get() && replied.compareAndSet(false, true)) {
spreadPartitions();
onDone(exchId.topologyVersion());
} else if (log.isDebugEnabled())
log.debug(
"Exchange future full map is not sent [allReceived="
+ allReceived()
+ ", ready="
+ ready
+ ", replied="
+ replied.get()
+ ", init="
+ init.get()
+ ", fut="
+ this
+ ']');
}
} catch (IgniteCheckedException e) {
U.error(log, "Failed to initialize exchange future: " + this, e);
}
}
});
}
}
/** @param t Error. */
private void onError(Throwable t) {
err.compareAndSet(null, t instanceof GridCacheLockTimeoutException ? null : t);
}