/** {@inheritDoc} */
@Override
public Map<K, V> peekAll(
@Nullable Collection<? extends K> keys,
@Nullable GridPredicate<? super GridCacheEntry<K, V>>[] filter) {
if (keys == null || keys.isEmpty()) return emptyMap();
final Collection<K> skipped = new GridLeanSet<K>();
final Map<K, V> map = peekAll0(keys, filter, skipped);
if (map.size() + skipped.size() != keys.size()) {
map.putAll(
dht.peekAll(
F.view(
keys,
new P1<K>() {
@Override
public boolean apply(K k) {
return !map.containsKey(k) && !skipped.contains(k);
}
}),
filter));
}
return map;
}
/** {@inheritDoc} */
@Override
public void stopListenAsync(@Nullable GridInClosure<? super GridFuture<R>>... lsnr) {
if (F.isEmpty(lsnr))
synchronized (mux) {
lsnrs.clear();
}
else
synchronized (mux) {
lsnrs.removeAll(F.asList(lsnr));
}
}
/** {@inheritDoc} */
@Override
public GridDeployment getDeployment(final GridUuid ldrId) {
synchronized (mux) {
return F.find(
F.flat(cache.values()),
null,
new P1<SharedDeployment>() {
@Override
public boolean apply(SharedDeployment d) {
return d.classLoaderId().equals(ldrId);
}
});
}
}
/** {@inheritDoc} */
@Override
public V unswap(K key) throws GridException {
ctx.denyOnFlags(F.asList(READ, SKIP_SWAP));
// Unswap only from DHT. Near cache does not have swap storage.
return dht.unswap(key);
}
/**
* @param mapping Mapping to order.
* @param committedVers Committed versions.
* @param rolledbackVers Rolled back versions.
*/
void orderCompleted(
GridDistributedTxMapping<K, V> mapping,
Collection<GridCacheVersion> committedVers,
Collection<GridCacheVersion> rolledbackVers) {
for (GridCacheTxEntry<K, V> txEntry : F.concat(false, mapping.reads(), mapping.writes())) {
while (true) {
GridDistributedCacheEntry<K, V> entry = (GridDistributedCacheEntry<K, V>) txEntry.cached();
try {
// Handle explicit locks.
GridCacheVersion base =
txEntry.explicitVersion() != null ? txEntry.explicitVersion() : xidVer;
entry.doneRemote(xidVer, base, committedVers, rolledbackVers);
if (ec()) entry.recheck();
break;
} catch (GridCacheEntryRemovedException ignored) {
assert entry.obsoleteVersion() != null;
if (log.isDebugEnabled())
log.debug(
"Replacing obsolete entry in remote transaction [entry="
+ entry
+ ", tx="
+ this
+ ']');
// Replace the entry.
txEntry.cached(cctx.cache().entryEx(txEntry.key()), entry.keyBytes());
}
}
}
}
/** {@inheritDoc} */
@Override
public Map<K, V> peekAll(
@Nullable Collection<? extends K> keys, @Nullable Collection<GridCachePeekMode> modes)
throws GridException {
if (keys == null || keys.isEmpty()) return emptyMap();
final Collection<K> skipped = new GridLeanSet<K>();
final Map<K, V> map =
!modes.contains(PARTITIONED_ONLY)
? peekAll0(keys, modes, ctx.tm().localTxx(), skipped)
: new GridLeanMap<K, V>(0);
if (map.size() != keys.size() && !modes.contains(NEAR_ONLY)) {
map.putAll(
dht.peekAll(
F.view(
keys,
new P1<K>() {
@Override
public boolean apply(K k) {
return !map.containsKey(k) && !skipped.contains(k);
}
}),
modes));
}
return map;
}
/** {@inheritDoc} */
@Override
public <T> T affinityKey() {
try {
return (T) job.getDeployment().annotatedValue(job.getJob(), GridCacheAffinityMapped.class);
} catch (GridException e) {
throw F.wrap(e);
}
}
/** {@inheritDoc} */
@Override
public String cacheName() {
try {
return (String) job.getDeployment().annotatedValue(job.getJob(), GridCacheName.class);
} catch (GridException e) {
throw F.wrap(e);
}
}
/** @return Involved nodes. */
@Override
public Collection<? extends GridNode> nodes() {
return F.viewReadOnly(
futures(),
new GridClosure<GridFuture<?>, GridRichNode>() {
@Nullable
@Override
public GridRichNode apply(GridFuture<?> f) {
if (isMini(f)) return ((MiniFuture) f).node();
return cctx.rich().rich(cctx.discovery().localNode());
}
});
}
/** {@inheritDoc} */
@Override
public Iterator<GridCacheEntry<K, V>> iterator() {
return new EntryIterator(
nearSet.iterator(),
F.iterator0(
dhtSet,
false,
new P1<GridCacheEntry<K, V>>() {
@Override
public boolean apply(GridCacheEntry<K, V> e) {
return !GridNearCache.super.containsKey(e.getKey(), null);
}
}));
}
/** {@inheritDoc} */
@Override
public GridFuture<Map<K, V>> getAllAsync(
@Nullable Collection<? extends K> keys,
@Nullable GridPredicate<? super GridCacheEntry<K, V>>[] filter) {
ctx.denyOnFlag(LOCAL);
if (F.isEmpty(keys))
return new GridFinishedFuture<Map<K, V>>(ctx.kernalContext(), Collections.<K, V>emptyMap());
GridCacheTxLocalAdapter<K, V> tx = ctx.tm().threadLocalTx();
if (tx != null && !tx.implicit()) return ctx.wrapCloneMap(tx.getAllAsync(keys, filter));
return loadAsync(keys, false, filter);
}
/** @param mappings Mappings. */
void addEntryMapping(@Nullable Map<UUID, GridDistributedTxMapping<K, V>> mappings) {
if (!F.isEmpty(mappings)) {
this.mappings.putAll(mappings);
if (log.isDebugEnabled())
log.debug(
"Added mappings to transaction [locId="
+ cctx.nodeId()
+ ", mappings="
+ mappings
+ ", tx="
+ this
+ ']');
}
}
/**
* @param ldr Loader.
* @param nodeId Sender node ID.
* @param req Request.
* @return Remote transaction.
* @throws GridException If failed.
*/
@Nullable
public GridNearTxRemote<K, V> startRemoteTx(
ClassLoader ldr, UUID nodeId, GridDhtTxPrepareRequest<K, V> req) throws GridException {
if (!F.isEmpty(req.nearWrites())) {
GridNearTxRemote<K, V> tx =
new GridNearTxRemote<K, V>(
ldr,
nodeId,
req.nearNodeId(),
req.threadId(),
req.version(),
req.commitVersion(),
req.concurrency(),
req.isolation(),
req.isInvalidate(),
req.timeout(),
req.nearWrites(),
ctx);
if (!tx.empty()) {
tx = ctx.tm().onCreated(tx);
if (tx == null || !ctx.tm().onStarted(tx))
throw new GridCacheTxRollbackException("Attempt to start a completed transaction: " + tx);
// Prepare prior to reordering, so the pending locks added
// in prepare phase will get properly ordered as well.
tx.prepare();
// Add remote candidates and reorder completed and uncompleted versions.
tx.addRemoteCandidates(
req.candidatesByKey(), req.committedVersions(), req.rolledbackVersions());
if (req.concurrency() == EVENTUALLY_CONSISTENT) {
if (log.isDebugEnabled())
log.debug("Committing transaction during remote prepare: " + tx);
tx.commit();
if (log.isDebugEnabled()) log.debug("Committed transaction during remote prepare: " + tx);
}
}
return tx;
}
return null;
}
/**
* @param keys Keys to load.
* @param reload Reload flag.
* @param filter Filter.
* @return Loaded values.
*/
public GridFuture<Map<K, V>> loadAsync(
@Nullable Collection<? extends K> keys,
boolean reload,
@Nullable GridPredicate<? super GridCacheEntry<K, V>>[] filter) {
if (F.isEmpty(keys))
return new GridFinishedFuture<Map<K, V>>(ctx.kernalContext(), Collections.<K, V>emptyMap());
GridNearGetFuture<K, V> fut = new GridNearGetFuture<K, V>(ctx, keys, reload, null, filter);
// Register future for responses.
ctx.mvcc().addFuture(fut);
fut.init();
return ctx.wrapCloneMap(fut);
}
/**
* @param cctx Context.
* @param tx Transaction.
* @param commit Commit flag.
*/
public GridNearTxFinishFuture(
GridCacheContext<K, V> cctx, GridNearTxLocal<K, V> tx, boolean commit) {
super(cctx.kernalContext(), F.<GridCacheTx>identityReducer(tx));
assert cctx != null;
this.cctx = cctx;
this.tx = tx;
this.commit = commit;
mappings = tx.mappings();
futId = GridUuid.randomUuid();
log = U.logger(ctx, logRef, GridNearTxFinishFuture.class);
}
/**
* @param e Transaction entry.
* @return {@code True} if entry is locally mapped as a primary or back up node.
*/
protected boolean isNearLocallyMapped(GridCacheEntryEx<K, V> e) {
return F.contains(ctx.affinity(e.key(), CU.allNodes(ctx)), ctx.localNode());
}
/** {@inheritDoc} */
@Override
public int size() {
return F.size(iterator());
}
/**
* Records all undeployed tasks.
*
* @param nodeId Left node ID.
* @param undeployed Undeployed deployments.
*/
private void recordUndeployed(@Nullable UUID nodeId, Collection<SharedDeployment> undeployed) {
if (!F.isEmpty(undeployed)) for (SharedDeployment d : undeployed) d.recordUndeployed(nodeId);
}
/** {@inheritDoc} */
@Override
public Collection<V> primaryValues(GridPredicate<? super GridCacheEntry<K, V>>[] filter) {
return new GridCacheValueCollection<K, V>(
ctx, primaryEntrySet(filter), ctx.vararg(F.<K, V>cacheHasPeekValue()));
}
/**
* @param nodeId Sender node ID.
* @param req Finish transaction message.
*/
@SuppressWarnings({"CatchGenericClass"})
private void processFinishRequest(UUID nodeId, GridDistributedTxFinishRequest<K, V> req) {
assert nodeId != null;
assert req != null;
GridReplicatedTxRemote<K, V> tx = ctx.tm().tx(req.version());
try {
ClassLoader ldr = ctx.deploy().globalLoader();
if (req.commit()) {
// If lock was acquired explicitly.
if (tx == null) {
// Create transaction and add entries.
tx =
ctx.tm()
.onCreated(
new GridReplicatedTxRemote<K, V>(
ldr,
nodeId,
req.threadId(),
req.version(),
req.commitVersion(),
PESSIMISTIC,
READ_COMMITTED,
req.isInvalidate(),
/*timeout */ 0,
/*read entries*/ null,
req.writes(),
ctx));
if (tx == null || !ctx.tm().onStarted(tx))
throw new GridCacheTxRollbackException(
"Attempt to start a completed " + "transaction: " + req);
} else {
boolean set = tx.commitVersion(req.commitVersion());
assert set;
}
Collection<GridCacheTxEntry<K, V>> writeEntries = req.writes();
if (!F.isEmpty(writeEntries)) {
// In OPTIMISTIC mode, we get the values at PREPARE stage.
assert tx.concurrency() == PESSIMISTIC;
for (GridCacheTxEntry<K, V> entry : writeEntries) {
// Unmarshal write entries.
entry.unmarshal(ctx, ldr);
if (log.isDebugEnabled())
log.debug(
"Unmarshalled transaction entry from pessimistic transaction [key="
+ entry.key()
+ ", value="
+ entry.value()
+ ", tx="
+ tx
+ ']');
if (!tx.setWriteValue(entry))
U.warn(
log,
"Received entry to commit that was not present in transaction [entry="
+ entry
+ ", tx="
+ tx
+ ']');
}
}
// Add completed versions.
tx.doneRemote(req.baseVersion(), req.committedVersions(), req.rolledbackVersions());
if (tx.pessimistic()) tx.prepare();
tx.commit();
} else if (tx != null) {
tx.doneRemote(req.baseVersion(), req.committedVersions(), req.rolledbackVersions());
tx.rollback();
}
if (req.replyRequired()) {
GridCacheMessage<K, V> res =
new GridDistributedTxFinishResponse<K, V>(req.version(), req.futureId());
try {
ctx.io().send(nodeId, res);
} catch (Throwable e) {
// Double-check.
if (ctx.discovery().node(nodeId) == null) {
if (log.isDebugEnabled())
log.debug(
"Node left while sending finish response [nodeId="
+ nodeId
+ ", res="
+ res
+ ']');
} else
U.error(
log,
"Failed to send finish response to node [nodeId=" + nodeId + ", res=" + res + ']',
e);
}
}
} catch (GridCacheTxRollbackException e) {
if (log.isDebugEnabled())
log.debug("Attempted to start a completed transaction (will ignore): " + e);
} catch (Throwable e) {
U.error(
log,
"Failed completing transaction [commit=" + req.commit() + ", tx=" + CU.txString(tx) + ']',
e);
if (tx != null) tx.rollback();
}
}
/**
* Removes locks regardless of whether they are owned or not for given version and keys.
*
* @param ver Lock version.
* @param keys Keys.
*/
@SuppressWarnings({"unchecked"})
public void removeLocks(GridCacheVersion ver, Collection<? extends K> keys) {
if (keys.isEmpty()) return;
try {
Collection<GridRichNode> affNodes = null;
int keyCnt = -1;
Map<GridNode, GridNearUnlockRequest<K, V>> map = null;
for (K key : keys) {
// Send request to remove from remote nodes.
GridNearUnlockRequest<K, V> req = null;
while (true) {
GridDistributedCacheEntry<K, V> entry = peekExx(key);
try {
if (entry != null) {
GridCacheMvccCandidate<K> cand = entry.candidate(ver);
if (cand != null) {
if (affNodes == null) {
affNodes = CU.allNodes(ctx, cand.topologyVersion());
keyCnt = (int) Math.ceil((double) keys.size() / affNodes.size());
map = new HashMap<GridNode, GridNearUnlockRequest<K, V>>(affNodes.size());
}
GridRichNode primary = CU.primary0(ctx.affinity(key, affNodes));
if (!primary.isLocal()) {
req = map.get(primary);
if (req == null) {
map.put(primary, req = new GridNearUnlockRequest<K, V>(keyCnt));
req.version(ver);
}
}
// Remove candidate from local node first.
if (entry.removeLock(cand.version())) {
if (primary.isLocal()) {
dht.removeLocks(primary.id(), ver, F.asList(key), true);
assert req == null;
continue;
}
req.addKey(entry.key(), entry.getOrMarshalKeyBytes(), ctx);
}
}
}
break;
} catch (GridCacheEntryRemovedException ignored) {
if (log.isDebugEnabled())
log.debug(
"Attempted to remove lock from removed entry (will retry) [rmvVer="
+ ver
+ ", entry="
+ entry
+ ']');
}
}
}
if (map == null || map.isEmpty()) return;
Collection<GridCacheVersion> committed = ctx.tm().committedVersions(ver);
Collection<GridCacheVersion> rolledback = ctx.tm().rolledbackVersions(ver);
for (Map.Entry<GridNode, GridNearUnlockRequest<K, V>> mapping : map.entrySet()) {
GridNode n = mapping.getKey();
GridDistributedUnlockRequest<K, V> req = mapping.getValue();
if (!req.keyBytes().isEmpty()) {
req.completedVersions(committed, rolledback);
// We don't wait for reply to this message.
ctx.io().send(n, req);
}
}
} catch (GridException ex) {
U.error(log, "Failed to unlock the lock for keys: " + keys, ex);
}
}
/**
* Removes obsolete deployments in case of redeploy.
*
* @param meta Request metadata.
* @return List of shares deployment.
*/
private GridTuple2<Boolean, SharedDeployment> checkRedeploy(GridDeploymentMetadata meta) {
assert Thread.holdsLock(mux);
SharedDeployment newDep = null;
for (List<SharedDeployment> deps : cache.values()) {
for (SharedDeployment dep : deps) {
if (!dep.isUndeployed() && !dep.isPendingUndeploy()) {
long undeployTimeout = ctx.config().getNetworkTimeout();
SharedDeployment doomed = null;
// Only check deployments with no participants.
if (!dep.hasParticipants()) {
// In case of SHARED deployment it is possible to get hear if
// unmarshalling happens during undeploy. In this case, we
// simply don't do anything.
if (dep.deployMode() == CONTINUOUS) {
if (dep.existingDeployedClass(meta.className()) != null) {
// Change from shared deploy to shared undeploy or user version change.
// Simply remove all deployments with no participating nodes.
if (meta.deploymentMode() == SHARED
|| !meta.userVersion().equals(dep.userVersion())) doomed = dep;
}
}
}
// If there are participants, we undeploy if class loader ID on some node changed.
else if (dep.existingDeployedClass(meta.className()) != null) {
GridTuple2<GridUuid, Long> ldr = dep.getClassLoaderId(meta.senderNodeId());
if (ldr != null) {
if (!ldr.get1().equals(meta.classLoaderId())) {
// If deployed sequence number is less, then schedule for undeployment.
if (ldr.get2() < meta.sequenceNumber()) {
if (log.isDebugEnabled())
log.debug(
"Received request for a class with newer sequence number "
+ "(will schedule current class for undeployment) [newSeq="
+ meta.sequenceNumber()
+ ", oldSeq="
+ ldr.get2()
+ ", senderNodeId="
+ meta.senderNodeId()
+ ", newClsLdrId="
+ meta.classLoaderId()
+ ", oldClsLdrId="
+ ldr.get1()
+ ']');
doomed = dep;
} else if (ldr.get2() > meta.sequenceNumber()) {
long time = System.currentTimeMillis() - dep.timestamp();
if (newDep == null && time < ctx.config().getNetworkTimeout()) {
// Set undeployTimeout, so the class will be scheduled
// for undeployment.
undeployTimeout = ctx.config().getNetworkTimeout() - time;
if (log.isDebugEnabled())
log.debug(
"Received execution request for a stale class (will deploy and "
+ "schedule undeployment in "
+ undeployTimeout
+ "ms) "
+ "[curSeq="
+ ldr.get2()
+ ", staleSeq="
+ meta.sequenceNumber()
+ ", cls="
+ meta.className()
+ ", senderNodeId="
+ meta.senderNodeId()
+ ", curLdrId="
+ ldr.get1()
+ ", staleLdrId="
+ meta.classLoaderId()
+ ']');
// We got the redeployed class before the old one.
// Simply create a temporary deployment for the sender node,
// and schedule undeploy for it.
newDep = createNewDeployment(meta, false);
doomed = newDep;
} else {
U.warn(
log,
"Received execution request for a class that has been redeployed "
+ "(will ignore): "
+ meta.alias());
if (log.isDebugEnabled())
log.debug(
"Received execution request for a class that has been redeployed "
+ "(will ignore) [alias="
+ meta.alias()
+ ", dep="
+ dep
+ ']');
return F.t(false, null);
}
} else {
U.error(
log,
"Sequence number does not correspond to class loader ID [seqNum="
+ meta.sequenceNumber()
+ ", dep="
+ dep
+ ']');
return F.t(false, null);
}
}
}
}
if (doomed != null) {
doomed.onUndeployScheduled();
if (log.isDebugEnabled()) log.debug("Deployment was scheduled for undeploy: " + doomed);
// Lifespan time.
final long endTime = System.currentTimeMillis() + undeployTimeout;
// Deployment to undeploy.
final SharedDeployment undep = doomed;
ctx.timeout()
.addTimeoutObject(
new GridTimeoutObject() {
@Override
public GridUuid timeoutId() {
return undep.classLoaderId();
}
@Override
public long endTime() {
return endTime < 0 ? Long.MAX_VALUE : endTime;
}
@Override
public void onTimeout() {
boolean removed = false;
// Hot redeployment.
synchronized (mux) {
assert undep.isPendingUndeploy();
if (!undep.isUndeployed()) {
undep.undeploy();
undep.onRemoved();
removed = true;
Collection<SharedDeployment> deps = cache.get(undep.userVersion());
if (deps != null) {
for (Iterator<SharedDeployment> i = deps.iterator(); i.hasNext(); )
if (i.next() == undep) i.remove();
if (deps.isEmpty()) cache.remove(undep.userVersion());
}
if (log.isInfoEnabled())
log.info(
"Undeployed class loader due to deployment mode change, "
+ "user version change, or hot redeployment: "
+ undep);
}
}
// Outside synchronization.
if (removed) undep.recordUndeployed(null);
}
});
}
}
}
}
if (newDep != null) {
List<SharedDeployment> list =
F.addIfAbsent(cache, meta.userVersion(), F.<SharedDeployment>newList());
assert list != null;
list.add(newDep);
}
return F.t(true, newDep);
}
/**
* @param depMode Deployment mode.
* @param ldr Class loader to deploy.
* @param cls Class.
* @param alias Class alias.
* @return Deployment.
*/
@SuppressWarnings({"ConstantConditions"})
private GridDeployment deploy(
GridDeploymentMode depMode, ClassLoader ldr, Class<?> cls, String alias) {
assert Thread.holdsLock(mux);
LinkedList<GridDeployment> cachedDeps = null;
GridDeployment dep = null;
// Find existing class loader info.
for (LinkedList<GridDeployment> deps : cache.values()) {
for (GridDeployment d : deps) {
if (d.classLoader() == ldr) {
// Cache class and alias.
d.addDeployedClass(cls, alias);
cachedDeps = deps;
dep = d;
break;
}
}
if (cachedDeps != null) {
break;
}
}
if (cachedDeps != null) {
assert dep != null;
cache.put(alias, cachedDeps);
if (!cls.getName().equals(alias)) {
// Cache by class name as well.
cache.put(cls.getName(), cachedDeps);
}
return dep;
}
GridUuid ldrId = GridUuid.randomUuid();
long seqNum = seq.incrementAndGet();
String userVer = getUserVersion(ldr);
dep = new GridDeployment(depMode, ldr, ldrId, seqNum, userVer, cls.getName(), true);
dep.addDeployedClass(cls, alias);
LinkedList<GridDeployment> deps =
F.addIfAbsent(cache, alias, F.<GridDeployment>newLinkedList());
if (!deps.isEmpty()) {
for (GridDeployment d : deps) {
if (!d.isUndeployed()) {
U.error(
log,
"Found more than one active deployment for the same resource "
+ "[cls="
+ cls
+ ", depMode="
+ depMode
+ ", dep="
+ d
+ ']');
return null;
}
}
}
// Add at the beginning of the list for future fast access.
deps.addFirst(dep);
if (!cls.getName().equals(alias)) {
// Cache by class name as well.
cache.put(cls.getName(), deps);
}
if (log.isDebugEnabled()) {
log.debug("Created new deployment: " + dep);
}
return dep;
}
/**
* Creates and caches new deployment.
*
* @param meta Deployment metadata.
* @param isCache Whether or not to cache.
* @return New deployment.
*/
private SharedDeployment createNewDeployment(GridDeploymentMetadata meta, boolean isCache) {
assert Thread.holdsLock(mux);
assert meta.parentLoader() == null;
GridUuid ldrId = GridUuid.randomUuid();
GridDeploymentClassLoader clsLdr;
if (meta.deploymentMode() == CONTINUOUS || meta.participants() == null) {
// Create peer class loader.
// Note that we are passing empty list for local P2P exclude, as it really
// does not make sense with shared deployment.
clsLdr =
new GridDeploymentClassLoader(
ldrId,
meta.userVersion(),
meta.deploymentMode(),
false,
ctx,
ctxLdr,
meta.classLoaderId(),
meta.senderNodeId(),
meta.sequenceNumber(),
comm,
ctx.config().getNetworkTimeout(),
log,
ctx.config().getPeerClassLoadingClassPathExclude(),
ctx.config().getPeerClassLoadingMissedResourcesCacheSize(),
meta.deploymentMode() == CONTINUOUS /* enable class byte cache in CONTINUOUS mode */);
if (meta.participants() != null)
for (Map.Entry<UUID, GridTuple2<GridUuid, Long>> e : meta.participants().entrySet())
clsLdr.register(e.getKey(), e.getValue().get1(), e.getValue().get2());
if (log.isDebugEnabled())
log.debug(
"Created class loader in CONTINUOUS mode or without participants "
+ "[ldr="
+ clsLdr
+ ", meta="
+ meta
+ ']');
} else {
assert meta.deploymentMode() == SHARED;
// Create peer class loader.
// Note that we are passing empty list for local P2P exclude, as it really
// does not make sense with shared deployment.
clsLdr =
new GridDeploymentClassLoader(
ldrId,
meta.userVersion(),
meta.deploymentMode(),
false,
ctx,
ctxLdr,
meta.participants(),
comm,
ctx.config().getNetworkTimeout(),
log,
ctx.config().getPeerClassLoadingClassPathExclude(),
ctx.config().getPeerClassLoadingMissedResourcesCacheSize(),
false);
if (log.isDebugEnabled())
log.debug(
"Created classloader in SHARED mode with participants "
+ "[ldr="
+ clsLdr
+ ", meta="
+ meta
+ ']');
}
// Give this deployment a unique class loader to emphasize that this
// ID is unique to this shared deployment and is not ID of loader on
// sender node.
SharedDeployment dep =
new SharedDeployment(
meta.deploymentMode(), clsLdr, ldrId, -1, meta.userVersion(), meta.alias());
if (log.isDebugEnabled()) log.debug("Created new deployment: " + dep);
if (isCache) {
List<SharedDeployment> deps =
F.addIfAbsent(cache, meta.userVersion(), new LinkedList<SharedDeployment>());
assert deps != null;
deps.add(dep);
if (log.isDebugEnabled()) log.debug("Added deployment to cache: " + cache);
}
return dep;
}
/** {@inheritDoc} */
@Override
public Collection<UUID> getTopology() throws GridException {
return F.nodeIds(ctx.topology().getTopology(this, ctx.discovery().allNodes()));
}
