/** * @param nodeId Node ID. * @return Class loader ID for node ID. */ GridTuple2<GridUuid, Long> getClassLoaderId(UUID nodeId) { assert nodeId != null; assert Thread.holdsLock(mux); return loader().registeredClassLoaderId(nodeId); }
/** * Checks if node is participating in deployment. * * @param nodeId Node ID to check. * @param ldrId Class loader ID. * @return {@code True} if node is participating in deployment. */ boolean hasParticipant(UUID nodeId, GridUuid ldrId) { assert nodeId != null; assert ldrId != null; assert Thread.holdsLock(mux); return loader().hasRegisteredNode(nodeId, ldrId); }
/** * Adds new participant to deployment. * * @param dep Shared deployment. * @param meta Request metadata. * @return {@code True} if participant was added. */ private boolean addParticipant(SharedDeployment dep, GridDeploymentMetadata meta) { assert dep != null; assert meta != null; assert Thread.holdsLock(mux); if (!checkModeMatch(dep, meta)) return false; if (meta.participants() != null) { for (Map.Entry<UUID, GridTuple2<GridUuid, Long>> e : meta.participants().entrySet()) { dep.addParticipant(e.getKey(), e.getValue().get1(), e.getValue().get2()); if (log.isDebugEnabled()) log.debug( "Added new participant [nodeId=" + e.getKey() + ", clsLdrId=" + e.getValue().get1() + ", seqNum=" + e.getValue().get2() + ']'); } } if (dep.deployMode() == CONTINUOUS || meta.participants() == null) { if (!dep.addParticipant(meta.senderNodeId(), meta.classLoaderId(), meta.sequenceNumber())) { U.warn( log, "Failed to create shared mode deployment " + "(requested class loader was already undeployed, did sender node leave grid?) " + "[clsLdrId=" + meta.classLoaderId() + ", senderNodeId=" + meta.senderNodeId() + ']'); return false; } if (log.isDebugEnabled()) log.debug( "Added new participant [nodeId=" + meta.senderNodeId() + ", clsLdrId=" + meta.classLoaderId() + ", seqNum=" + meta.sequenceNumber() + ']'); } return true; }
/** * @param meta Request metadata. * @return {@code True} if class loader is obsolete. */ private boolean isDeadClassLoader(GridDeploymentMetadata meta) { assert Thread.holdsLock(mux); synchronized (mux) { if (deadClsLdrs.contains(meta.classLoaderId())) { if (log.isDebugEnabled()) log.debug("Ignoring request for obsolete class loader: " + meta); return true; } return false; } }
/** @param nodeId Node ID to remove. */ void removeParticipant(UUID nodeId) { assert nodeId != null; assert Thread.holdsLock(mux); GridUuid ldrId = loader().unregister(nodeId); if (log.isDebugEnabled()) log.debug("Registering dead class loader ID: " + ldrId); synchronized (mux) { deadClsLdrs.add(ldrId); } }
/** Sets property removed. */ void onRemoved() { assert Thread.holdsLock(mux); removed = true; Collection<GridUuid> deadIds = loader().registeredClassLoaderIds(); if (log.isDebugEnabled()) log.debug("Registering dead class loader IDs: " + deadIds); synchronized (mux) { deadClsLdrs.addAll(deadIds); } }
/** * Starts Grid instance. Note that if grid is already started, then it will be looked up and * returned from this method. * * @return Started grid. */ private Grid startGrid() { Properties props = System.getProperties(); gridName = props.getProperty(GRIDGAIN_NAME.name()); if (!props.containsKey(GRIDGAIN_NAME.name()) || G.state(gridName) != GridFactoryState.STARTED) { selfStarted = true; // Set class loader for the spring. ClassLoader curCl = Thread.currentThread().getContextClassLoader(); // Add no-op logger to remove no-appender warning. Appender app = new NullAppender(); Logger.getRootLogger().addAppender(app); try { Thread.currentThread().setContextClassLoader(getClass().getClassLoader()); Grid grid = G.start(cfgPath); gridName = grid.name(); System.setProperty(GRIDGAIN_NAME.name(), grid.name()); return grid; } catch (GridException e) { throw new GridRuntimeException("Failed to start grid: " + cfgPath, e); } finally { Logger.getRootLogger().removeAppender(app); Thread.currentThread().setContextClassLoader(curCl); } } return G.grid(gridName); }
/** * @param nodeId Grid node ID. * @param ldrId Class loader ID. * @param seqNum Sequence number for the class loader. * @return Whether actually added or not. */ boolean addParticipant(UUID nodeId, GridUuid ldrId, long seqNum) { assert nodeId != null; assert ldrId != null; assert Thread.holdsLock(mux); synchronized (mux) { if (!deadClsLdrs.contains(ldrId)) { loader().register(nodeId, ldrId, seqNum); return true; } return false; } }
/** * @param alias Class alias. * @return Deployed class. */ @Nullable private GridDeployment getDeployment(String alias) { assert Thread.holdsLock(mux); LinkedList<GridDeployment> deps = cache.get(alias); if (deps != null) { assert !deps.isEmpty(); GridDeployment dep = deps.getFirst(); if (!dep.isUndeployed()) { return dep; } } return null; }
/** Notifies all registered listeners. */ private void notifyListeners() { final Collection<GridInClosure<? super GridFuture<R>>> tmp; synchronized (mux) { tmp = new ArrayList<GridInClosure<? super GridFuture<R>>>(lsnrs); } boolean concurNotify = this.concurNotify; boolean syncNotify = this.syncNotify; if (concurNotify) { for (final GridInClosure<? super GridFuture<R>> lsnr : tmp) ctx.closure() .runLocalSafe( new GPR() { @Override public void run() { notifyListener(lsnr); } }, true); } else { // Always notify in the thread different from start thread. if (Thread.currentThread() == thread && !syncNotify) { ctx.closure() .runLocalSafe( new GPR() { @Override public void run() { // Since concurrent notifications are off, we notify // all listeners in one thread. for (GridInClosure<? super GridFuture<R>> lsnr : tmp) notifyListener(lsnr); } }, true); } else { for (GridInClosure<? super GridFuture<R>> lsnr : tmp) notifyListener(lsnr); } } }
/** * Called to record all undeployed classes.. * * @param leftNodeId Left node ID. */ void recordUndeployed(@Nullable UUID leftNodeId) { assert !Thread.holdsLock(mux); for (Map.Entry<String, Class<?>> depCls : deployedClassMap().entrySet()) { boolean isTask = isTask(depCls.getValue()); String msg = (isTask ? "Task" : "Class") + " was undeployed in SHARED or CONTINUOUS mode: " + depCls.getValue(); int type = isTask ? EVT_TASK_UNDEPLOYED : EVT_CLASS_UNDEPLOYED; if (ctx.event().isRecordable(type)) { GridDeploymentEvent evt = new GridDeploymentEvent(); evt.nodeId(ctx.localNodeId()); evt.message(msg); evt.type(type); evt.alias(depCls.getKey()); ctx.event().record(evt); } if (log.isInfoEnabled()) log.info(msg); } if (isObsolete()) { // Resource cleanup. ctx.resource().onUndeployed(this); ctx.cache().onUndeployed(leftNodeId, loader()); clearSerializationCaches(); } }
/** {@inheritDoc} */ @Override public void onDeployed(Class<?> cls) { assert !Thread.holdsLock(mux); boolean isTask = isTask(cls); String msg = (isTask ? "Task" : "Class") + " was deployed in SHARED or CONTINUOUS mode: " + cls; int type = isTask ? EVT_TASK_DEPLOYED : EVT_CLASS_DEPLOYED; if (ctx.event().isRecordable(type)) { GridDeploymentEvent evt = new GridDeploymentEvent(); evt.nodeId(ctx.localNodeId()); evt.message(msg); evt.type(type); evt.alias(cls.getName()); ctx.event().record(evt); } if (log.isInfoEnabled()) log.info(msg); }
/** * Future adapter. * * @author 2005-2011 Copyright (C) GridGain Systems, Inc. * @version 3.1.1c.19062011 */ public class GridFutureAdapter<R> extends GridMetadataAwareAdapter implements GridFuture<R>, Externalizable { /** Synchronous notification flag. */ private static final boolean SYNC_NOTIFY = U.isFutureNotificationSynchronous(); /** Concurrent notification flag. */ private static final boolean CONCUR_NOTIFY = U.isFutureNotificationConcurrent(); /** Done flag. */ private boolean done; /** Cancelled flag. */ private boolean cancelled; /** Result. */ @GridToStringInclude private R res; /** Error. */ private Throwable err; /** Set to {@code false} on deserialization whenever incomplete future is serialized. */ private boolean valid = true; /** Asynchronous listener. */ private final Set<GridInClosure<? super GridFuture<R>>> lsnrs = new GridLeanSet<GridInClosure<? super GridFuture<R>>>(); /** Creator thread. */ private Thread thread = Thread.currentThread(); /** Mutex. */ private final Object mux = new Object(); /** Context. */ protected GridKernalContext ctx; /** Logger. */ protected GridLogger log; /** Future start time. */ protected final long startTime = System.currentTimeMillis(); /** Synchronous notification flag. */ private volatile boolean syncNotify = SYNC_NOTIFY; /** Concurrent notification flag. */ private volatile boolean concurNotify = CONCUR_NOTIFY; /** Future end time. */ private volatile long endTime; /** Watch. */ protected GridStopwatch watch; /** Empty constructor required for {@link Externalizable}. */ public GridFutureAdapter() { // No-op. } /** @param ctx Kernal context. */ public GridFutureAdapter(GridKernalContext ctx) { assert ctx != null; this.ctx = ctx; log = ctx.log(getClass()); } /** {@inheritDoc} */ @Override public long startTime() { return startTime; } /** {@inheritDoc} */ @Override public long duration() { long endTime = this.endTime; return endTime == 0 ? System.currentTimeMillis() - startTime : endTime - startTime; } /** {@inheritDoc} */ @Override public boolean concurrentNotify() { return concurNotify; } /** {@inheritDoc} */ @Override public void concurrentNotify(boolean concurNotify) { this.concurNotify = concurNotify; } /** {@inheritDoc} */ @Override public boolean syncNotify() { return syncNotify; } /** {@inheritDoc} */ @Override public void syncNotify(boolean syncNotify) { this.syncNotify = syncNotify; } /** * Adds a watch to this future. * * @param name Name of the watch. */ public void addWatch(String name) { assert name != null; watch = W.stopwatch(name); } /** * Adds a watch to this future. * * @param watch Watch to add. */ public void addWatch(GridStopwatch watch) { assert watch != null; this.watch = watch; } /** Checks that future is in usable state. */ protected void checkValid() { if (!valid) throw new IllegalStateException( "Incomplete future was serialized and cannot " + "be used after deserialization."); } /** @return Valid flag. */ protected boolean isValid() { return valid; } /** * Gets internal mutex. * * @return Internal mutex. */ protected Object mutex() { checkValid(); return mux; } /** @return Value of error. */ protected Throwable error() { checkValid(); synchronized (mux) { return err; } } /** @return Value of result. */ protected R result() { checkValid(); synchronized (mux) { return res; } } /** {@inheritDoc} */ @Override public R call() throws Exception { return get(); } /** {@inheritDoc} */ @Override public R get(long timeout) throws GridException { return get(timeout, MILLISECONDS); } /** {@inheritDoc} */ @Override public R get() throws GridException { checkValid(); try { synchronized (mux) { while (!done && !cancelled) mux.wait(); if (done) { if (err != null) throw U.cast(err); return res; } throw new GridFutureCancelledException("Future was cancelled: " + this); } } catch (InterruptedException e) { throw new GridInterruptedException(e); } } /** {@inheritDoc} */ @Override public R get(long timeout, TimeUnit unit) throws GridException { A.ensure(timeout >= 0, "timeout cannot be negative: " + timeout); A.notNull(unit, "unit"); checkValid(); try { long now = System.currentTimeMillis(); long end = timeout == 0 ? Long.MAX_VALUE : now + MILLISECONDS.convert(timeout, unit); // Account for overflow. if (end < 0) end = Long.MAX_VALUE; synchronized (mux) { while (!done && !cancelled && now < end) { mux.wait(end - now); if (!done) now = System.currentTimeMillis(); } if (done) { if (err != null) throw U.cast(err); return res; } if (cancelled) throw new GridFutureCancelledException("Future was cancelled: " + this); throw new GridFutureTimeoutException( "Timeout was reached before computation completed [duration=" + duration() + "ms, timeout=" + unit.toMillis(timeout) + "ms]"); } } catch (InterruptedException e) { throw new GridInterruptedException( "Got interrupted while waiting for future to complete [duration=" + duration() + "ms, timeout=" + unit.toMillis(timeout) + "ms]", e); } } /** {@inheritDoc} */ @SuppressWarnings({"unchecked"}) @Override public void listenAsync(@Nullable final GridInClosure<? super GridFuture<R>> lsnr) { if (lsnr != null) { checkValid(); boolean done; synchronized (mux) { done = this.done; if (!done) lsnrs.add(lsnr); } if (done) { try { if (syncNotify) notifyListener(lsnr); else ctx.closure() .runLocalSafe( new GPR() { @Override public void run() { notifyListener(lsnr); } }, true); } catch (IllegalStateException ignore) { U.warn( null, "Future notification will not proceed because grid is stopped: " + ctx.gridName()); } } } } /** {@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)); } } /** Notifies all registered listeners. */ private void notifyListeners() { final Collection<GridInClosure<? super GridFuture<R>>> tmp; synchronized (mux) { tmp = new ArrayList<GridInClosure<? super GridFuture<R>>>(lsnrs); } boolean concurNotify = this.concurNotify; boolean syncNotify = this.syncNotify; if (concurNotify) { for (final GridInClosure<? super GridFuture<R>> lsnr : tmp) ctx.closure() .runLocalSafe( new GPR() { @Override public void run() { notifyListener(lsnr); } }, true); } else { // Always notify in the thread different from start thread. if (Thread.currentThread() == thread && !syncNotify) { ctx.closure() .runLocalSafe( new GPR() { @Override public void run() { // Since concurrent notifications are off, we notify // all listeners in one thread. for (GridInClosure<? super GridFuture<R>> lsnr : tmp) notifyListener(lsnr); } }, true); } else { for (GridInClosure<? super GridFuture<R>> lsnr : tmp) notifyListener(lsnr); } } } /** * Notifies single listener. * * @param lsnr Listener. */ private void notifyListener(GridInClosure<? super GridFuture<R>> lsnr) { assert lsnr != null; try { lsnr.apply(this); } catch (IllegalStateException ignore) { U.warn( null, "Failed to notify listener (grid is stopped) [grid=" + ctx.gridName() + ", lsnr=" + lsnr + ']'); } catch (RuntimeException e) { U.error(log, "Failed to notify listener: " + lsnr, e); throw e; } catch (Error e) { U.error(log, "Failed to notify listener: " + lsnr, e); throw e; } } /** * Default no-op implementation that always returns {@code false}. Futures that do support * cancellation should override this method and call {@link #onCancelled()} callback explicitly if * cancellation indeed did happen. */ @Override public boolean cancel() throws GridException { checkValid(); return false; } /** {@inheritDoc} */ @Override public boolean isDone() { // Don't check for "valid" here, as "done" flag can be read // even in invalid state. synchronized (mux) { return done || cancelled; } } /** {@inheritDoc} */ @Override public GridAbsPredicate predicate() { return new PA() { @Override public boolean apply() { return isDone(); } }; } /** {@inheritDoc} */ @Override public boolean isCancelled() { checkValid(); synchronized (mux) { return cancelled; } } /** * Callback to notify that future is finished with {@code null} result. This method must delegate * to {@link #onDone(Object, Throwable)} method. * * @return {@code True} if result was set by this call. */ public final boolean onDone() { return onDone(null, null); } /** * Callback to notify that future is finished. This method must delegate to {@link #onDone(Object, * Throwable)} method. * * @param res Result. * @return {@code True} if result was set by this call. */ public final boolean onDone(@Nullable R res) { return onDone(res, null); } /** * Callback to notify that future is finished. This method must delegate to {@link #onDone(Object, * Throwable)} method. * * @param err Error. * @return {@code True} if result was set by this call. */ public final boolean onDone(@Nullable Throwable err) { return onDone(null, err); } /** * Callback to notify that future is finished. Note that if non-{@code null} exception is passed * in the result value will be ignored. * * @param res Optional result. * @param err Optional error. * @return {@code True} if result was set by this call. */ public boolean onDone(@Nullable R res, @Nullable Throwable err) { checkValid(); boolean notify = false; boolean gotDone = false; try { synchronized (mux) { if (!done) { gotDone = true; endTime = System.currentTimeMillis(); this.res = res; this.err = err; done = true; notify = true; mux.notifyAll(); // Notify possibly waiting child classes. return true; } return false; } } finally { if (gotDone) { GridStopwatch w = watch; if (w != null) w.stop(); } if (notify) notifyListeners(); } } /** * Callback to notify that future is cancelled. * * @return {@code True} if cancel flag was set by this call. */ public boolean onCancelled() { checkValid(); synchronized (mux) { if (cancelled || done) return false; cancelled = true; mux.notifyAll(); // Notify possibly waiting child classes. } return true; } /** {@inheritDoc} */ @Override public void writeExternal(ObjectOutput out) throws IOException { boolean done; boolean cancelled; Object res; Throwable err; boolean syncNotify; boolean concurNotify; synchronized (mux) { done = this.done; cancelled = this.cancelled; res = this.res; err = this.err; syncNotify = this.syncNotify; concurNotify = this.concurNotify; } out.writeBoolean(done); out.writeBoolean(syncNotify); out.writeBoolean(concurNotify); // Don't write any further if not done, as deserialized future // will be invalid anyways. if (done) { out.writeBoolean(cancelled); out.writeObject(res); out.writeObject(err); } } /** {@inheritDoc} */ @SuppressWarnings({"unchecked"}) @Override public void readExternal(ObjectInput in) throws IOException, ClassNotFoundException { boolean done = in.readBoolean(); syncNotify = in.readBoolean(); concurNotify = in.readBoolean(); if (!done) valid = false; else { boolean cancelled = in.readBoolean(); R res = (R) in.readObject(); Throwable err = (Throwable) in.readObject(); synchronized (mux) { this.done = done; this.cancelled = cancelled; this.res = res; this.err = err; } } } /** {@inheritDoc} */ @Override public String toString() { return S.toString(GridFutureAdapter.class, this); } }
/** {@inheritDoc} */ @Override public void unlockAll( Collection<? extends K> keys, GridPredicate<? super GridCacheEntry<K, V>>[] filter) { if (keys.isEmpty()) return; try { GridCacheVersion ver = null; Collection<GridRichNode> affNodes = null; int keyCnt = -1; Map<GridRichNode, GridNearUnlockRequest<K, V>> map = null; Collection<K> locKeys = new LinkedList<K>(); GridCacheVersion obsoleteVer = ctx.versions().next(); for (K key : keys) { while (true) { GridDistributedCacheEntry<K, V> entry = peekExx(key); if (entry == null || !ctx.isAll(entry.wrap(false), filter)) break; // While. try { GridCacheMvccCandidate<K> cand = entry.candidate(ctx.nodeId(), Thread.currentThread().getId()); if (cand != null) { ver = cand.version(); if (affNodes == null) { affNodes = CU.allNodes(ctx, cand.topologyVersion()); keyCnt = (int) Math.ceil((double) keys.size() / affNodes.size()); map = new HashMap<GridRichNode, GridNearUnlockRequest<K, V>>(affNodes.size()); } // Send request to remove from remote nodes. GridRichNode primary = CU.primary0(ctx.affinity(key, affNodes)); GridNearUnlockRequest<K, V> 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. GridCacheMvccCandidate<K> rmv = entry.removeLock(); if (rmv != null) { if (!rmv.reentry()) { if (ver != null && !ver.equals(rmv.version())) throw new GridException( "Failed to unlock (if keys were locked separately, " + "then they need to be unlocked separately): " + keys); if (!primary.isLocal()) { assert req != null; req.addKey(entry.key(), entry.getOrMarshalKeyBytes(), ctx); } else locKeys.add(key); if (log.isDebugEnabled()) log.debug("Removed lock (will distribute): " + rmv); } else if (log.isDebugEnabled()) log.debug( "Current thread still owns lock (or there are no other nodes)" + " [lock=" + rmv + ", curThreadId=" + Thread.currentThread().getId() + ']'); } // Try to evict near entry if it's dht-mapped locally. evictNearEntry(entry, obsoleteVer); } break; } catch (GridCacheEntryRemovedException ignore) { if (log.isDebugEnabled()) log.debug("Attempted to unlock removed entry (will retry): " + entry); } } } if (ver == null) return; for (Map.Entry<GridRichNode, GridNearUnlockRequest<K, V>> mapping : map.entrySet()) { GridRichNode n = mapping.getKey(); GridDistributedUnlockRequest<K, V> req = mapping.getValue(); if (n.isLocal()) dht.removeLocks(ctx.nodeId(), req.version(), locKeys, true); else if (!req.keyBytes().isEmpty()) // 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); } }
/** {@inheritDoc} */ @SuppressWarnings({"unchecked"}) @Override public void unlockAll( Collection<? extends K> keys, GridPredicate<? super GridCacheEntry<K, V>>[] filter) { if (keys == null || keys.isEmpty()) return; Collection<? extends GridNode> nodes = ctx.remoteNodes(keys); try { GridDistributedUnlockRequest<K, V> req = new GridDistributedUnlockRequest<K, V>(keys.size()); for (K key : keys) { GridDistributedCacheEntry<K, V> entry = entryexx(key); if (!ctx.isAll(entry.wrap(false), filter)) continue; // Unlock local lock first. GridCacheMvccCandidate<K> rmv = entry.removeLock(); if (rmv != null && !nodes.isEmpty()) { if (!rmv.reentry()) { req.addKey(entry.key(), entry.getOrMarshalKeyBytes(), ctx); // We are assuming that lock ID is the same for all keys. req.version(rmv.version()); if (log.isDebugEnabled()) log.debug("Removed lock (will distribute): " + rmv); } else { if (log.isDebugEnabled()) log.debug( "Locally unlocked lock reentry without distributing to other nodes [removed=" + rmv + ", entry=" + entry + ']'); } } else { if (log.isDebugEnabled()) log.debug( "Current thread still owns lock (or there are no other nodes) [lock=" + rmv + ", curThreadId=" + Thread.currentThread().getId() + ']'); } } // Don't proceed of no keys to unlock. if (req.keyBytes().isEmpty()) { if (log.isDebugEnabled()) log.debug("No keys to unlock locally (was it reentry unlock?): " + keys); return; } // We don't wait for reply to this message. Receiving side will have // to make sure that unlock requests don't come before lock requests. ctx.io().safeSend(nodes, req, null); } catch (GridException e) { U.error(log, "Failed to unlock keys: " + keys, e); } }
/** {@inheritDoc} */ @SuppressWarnings({"unchecked", "ThrowableInstanceNeverThrown"}) @Override protected GridFuture<Boolean> lockAllAsync( Collection<? extends K> keys, long timeout, GridCacheTxLocalEx<K, V> tx, boolean isInvalidate, boolean isRead, boolean retval, GridCacheTxIsolation isolation, GridPredicate<? super GridCacheEntry<K, V>>[] filter) { if (keys.isEmpty()) return new GridFinishedFuture<Boolean>(ctx.kernalContext(), true); Collection<GridRichNode> nodes = ctx.remoteNodes(keys); final GridReplicatedLockFuture<K, V> fut = new GridReplicatedLockFuture<K, V>(ctx, keys, tx, this, nodes, timeout, filter); GridDistributedLockRequest<K, V> req = new GridDistributedLockRequest<K, V>( locNodeId, Thread.currentThread().getId(), fut.futureId(), fut.version(), tx != null, isRead, isolation, isInvalidate, timeout, keys.size()); try { // Must add future before redying locks. if (!ctx.mvcc().addFuture(fut)) throw new IllegalStateException("Duplicate future ID: " + fut); boolean distribute = false; for (K key : keys) { while (true) { GridDistributedCacheEntry<K, V> entry = null; try { entry = entryexx(key); if (!ctx.isAll(entry.wrap(false), filter)) { if (log.isDebugEnabled()) log.debug("Entry being locked did not pass filter (will not lock): " + entry); fut.onDone(false); return fut; } // Removed exception may be thrown here. GridCacheMvccCandidate<K> cand = fut.addEntry(entry); if (cand != null) { req.addKeyBytes( key, cand.reentry() ? null : entry.getOrMarshalKeyBytes(), retval, entry.localCandidates(fut.version()), ctx); req.completedVersions( ctx.tm().committedVersions(fut.version()), ctx.tm().rolledbackVersions(fut.version())); distribute = !cand.reentry(); } else if (fut.isDone()) return fut; break; } catch (GridCacheEntryRemovedException ignored) { if (log.isDebugEnabled()) log.debug("Got removed entry in lockAsync(..) method (will retry): " + entry); } } } // If nothing to distribute at this point, // then all locks are reentries. if (!distribute) fut.complete(true); if (nodes.isEmpty()) fut.readyLocks(); // No reason to send request if all locks are locally re-entered, // or if timeout is negative and local locks could not be acquired. if (fut.isDone()) return fut; try { ctx.io() .safeSend( fut.nodes(), req, new P1<GridNode>() { @Override public boolean apply(GridNode node) { fut.onNodeLeft(node.id()); return !fut.isDone(); } }); } catch (GridException e) { U.error( log, "Failed to send lock request to node [nodes=" + U.toShortString(nodes) + ", req=" + req + ']', e); fut.onError(e); } return fut; } catch (GridException e) { Throwable err = new GridException("Failed to acquire asynchronous lock for keys: " + keys, e); // Clean-up. fut.onError(err); ctx.mvcc().removeFuture(fut); return fut; } }
/** @return Set of participating nodes. */ Collection<UUID> getParticipantNodeIds() { assert Thread.holdsLock(mux); return loader().registeredNodeIds(); }
/** * @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; }
/** {@inheritDoc} */ @Nullable @SuppressWarnings({"UnusedCatchParameter"}) @Override public GridDeployment getDeployment(GridDeploymentMetadata meta) { GridDeployment dep; Class<?> cls = null; String alias = meta.alias(); synchronized (mux) { // Validate metadata. assert meta.alias() != null; dep = getDeployment(meta.alias()); if (dep != null) { if (log.isDebugEnabled()) { log.debug("Acquired deployment class from local cache: " + dep); } return dep; } GridDeploymentResource rsrc = spi.findResource(meta.alias()); if (rsrc != null) { dep = deploy( ctx.config().getDeploymentMode(), rsrc.getClassLoader(), rsrc.getResourceClass(), alias); if (dep == null) { return null; } if (log.isDebugEnabled()) { log.debug("Acquired deployment class from SPI: " + dep); } } // Auto-deploy. else { ClassLoader ldr = meta.classLoader(); if (ldr == null) { ldr = Thread.currentThread().getContextClassLoader(); // Safety. if (ldr == null) { ldr = ctxLdr; } } // Don't auto-deploy locally in case of nested execution. if (ldr instanceof GridDeploymentClassLoader) { return null; } try { // Check that class can be loaded. cls = ldr.loadClass(meta.alias()); spi.register(ldr, cls); rsrc = spi.findResource(alias); if (rsrc != null && rsrc.getResourceClass().equals(cls)) { if (log.isDebugEnabled()) { log.debug("Retrieved auto-loaded resource from spi: " + rsrc); } dep = deploy(ctx.config().getDeploymentMode(), ldr, cls, alias); if (dep == null) { return null; } } else { U.warn( log, "Failed to find resource from deployment SPI even after registering it: " + meta.alias()); return null; } } catch (ClassNotFoundException e) { if (log.isDebugEnabled()) { log.debug( "Failed to load class for local auto-deployment [ldr=" + ldr + ", meta=" + meta + ']'); } return null; } catch (GridSpiException e) { U.error(log, "Failed to deploy local class: " + meta.alias(), e); return null; } } } if (cls != null) { recordDeploy(cls, alias, meta.isRecord()); dep.addDeployedClass(cls, meta.className(), meta.alias()); } if (log.isDebugEnabled()) { log.debug("Acquired deployment class: " + 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; }
/** * 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); }
/** @return Registered class loader IDs. */ Collection<GridUuid> getClassLoaderIds() { assert Thread.holdsLock(mux); return loader().registeredClassLoaderIds(); }
/** @return {@code True} if deployment has any node participants. */ boolean hasParticipants() { assert Thread.holdsLock(mux); return loader().hasRegisteredNodes(); }
/** * Gets property removed. * * @return Property removed. */ boolean isRemoved() { assert Thread.holdsLock(mux); return removed; }