private void recheck() { // If this is the oldest node. if (oldestNode.get().id().equals(cctx.localNodeId())) { Collection<UUID> remaining = remaining(); if (!remaining.isEmpty()) { try { cctx.io() .safeSend( cctx.discovery().nodes(remaining), new GridDhtPartitionsSingleRequest(exchId), SYSTEM_POOL, null); } catch (IgniteCheckedException e) { U.error( log, "Failed to request partitions from nodes [exchangeId=" + exchId + ", nodes=" + remaining + ']', e); } } // Resend full partition map because last attempt failed. else { if (spreadPartitions()) onDone(exchId.topologyVersion()); } } else sendPartitions(); // Schedule another send. scheduleRecheck(); }
/** * @param nodeId Node ID. * @param retryCnt Number of retries. */ private void sendAllPartitions(final UUID nodeId, final int retryCnt) { ClusterNode n = cctx.node(nodeId); try { if (n != null) sendAllPartitions(F.asList(n), exchId); } catch (IgniteCheckedException e) { if (e instanceof ClusterTopologyCheckedException || !cctx.discovery().alive(n)) { log.debug( "Failed to send full partition map to node, node left grid " + "[rmtNode=" + nodeId + ", exchangeId=" + exchId + ']'); return; } if (retryCnt > 0) { long timeout = cctx.gridConfig().getNetworkSendRetryDelay(); LT.error( log, e, "Failed to send full partition map to node (will retry after timeout) " + "[node=" + nodeId + ", exchangeId=" + exchId + ", timeout=" + timeout + ']'); cctx.time() .addTimeoutObject( new GridTimeoutObjectAdapter(timeout) { @Override public void onTimeout() { sendAllPartitions(nodeId, retryCnt - 1); } }); } else U.error( log, "Failed to send full partition map [node=" + n + ", exchangeId=" + exchId + ']', e); } }
/** * Starts activity. * * @throws IgniteInterruptedCheckedException If interrupted. */ public void init() throws IgniteInterruptedCheckedException { if (isDone()) return; if (init.compareAndSet(false, true)) { if (isDone()) return; try { // Wait for event to occur to make sure that discovery // will return corresponding nodes. U.await(evtLatch); assert discoEvt != null : this; assert !dummy && !forcePreload : this; ClusterNode oldest = CU.oldestAliveCacheServerNode(cctx, exchId.topologyVersion()); oldestNode.set(oldest); startCaches(); // True if client node joined or failed. boolean clientNodeEvt; if (F.isEmpty(reqs)) { int type = discoEvt.type(); assert type == EVT_NODE_JOINED || type == EVT_NODE_LEFT || type == EVT_NODE_FAILED : discoEvt; clientNodeEvt = CU.clientNode(discoEvt.eventNode()); } else { assert discoEvt.type() == EVT_DISCOVERY_CUSTOM_EVT : discoEvt; boolean clientOnlyStart = true; for (DynamicCacheChangeRequest req : reqs) { if (!req.clientStartOnly()) { clientOnlyStart = false; break; } } clientNodeEvt = clientOnlyStart; } if (clientNodeEvt) { ClusterNode node = discoEvt.eventNode(); // Client need to initialize affinity for local join event or for stated client caches. if (!node.isLocal()) { for (GridCacheContext cacheCtx : cctx.cacheContexts()) { if (cacheCtx.isLocal()) continue; GridDhtPartitionTopology top = cacheCtx.topology(); top.updateTopologyVersion(exchId, this, -1, stopping(cacheCtx.cacheId())); if (cacheCtx.affinity().affinityTopologyVersion() == AffinityTopologyVersion.NONE) { initTopology(cacheCtx); top.beforeExchange(this); } else cacheCtx.affinity().clientEventTopologyChange(discoEvt, exchId.topologyVersion()); } if (exchId.isLeft()) cctx.mvcc().removeExplicitNodeLocks(exchId.nodeId(), exchId.topologyVersion()); onDone(exchId.topologyVersion()); skipPreload = cctx.kernalContext().clientNode(); return; } } if (cctx.kernalContext().clientNode()) { skipPreload = true; for (GridCacheContext cacheCtx : cctx.cacheContexts()) { if (cacheCtx.isLocal()) continue; GridDhtPartitionTopology top = cacheCtx.topology(); top.updateTopologyVersion(exchId, this, -1, stopping(cacheCtx.cacheId())); } for (GridCacheContext cacheCtx : cctx.cacheContexts()) { if (cacheCtx.isLocal()) continue; initTopology(cacheCtx); } if (oldestNode.get() != null) { rmtNodes = new ConcurrentLinkedQueue<>( CU.aliveRemoteServerNodesWithCaches(cctx, exchId.topologyVersion())); rmtIds = Collections.unmodifiableSet(new HashSet<>(F.nodeIds(rmtNodes))); ready.set(true); initFut.onDone(true); if (log.isDebugEnabled()) log.debug("Initialized future: " + this); sendPartitions(); } else onDone(exchId.topologyVersion()); return; } assert oldestNode.get() != null; for (GridCacheContext cacheCtx : cctx.cacheContexts()) { if (isCacheAdded(cacheCtx.cacheId(), exchId.topologyVersion())) { if (cacheCtx .discovery() .cacheAffinityNodes(cacheCtx.name(), topologyVersion()) .isEmpty()) U.quietAndWarn(log, "No server nodes found for cache client: " + cacheCtx.namex()); } cacheCtx.preloader().onExchangeFutureAdded(); } List<String> cachesWithoutNodes = null; if (exchId.isLeft()) { for (String name : cctx.cache().cacheNames()) { if (cctx.discovery().cacheAffinityNodes(name, topologyVersion()).isEmpty()) { if (cachesWithoutNodes == null) cachesWithoutNodes = new ArrayList<>(); cachesWithoutNodes.add(name); // Fire event even if there is no client cache started. if (cctx.gridEvents().isRecordable(EventType.EVT_CACHE_NODES_LEFT)) { Event evt = new CacheEvent( name, cctx.localNode(), cctx.localNode(), "All server nodes have left the cluster.", EventType.EVT_CACHE_NODES_LEFT, 0, false, null, null, null, null, false, null, false, null, null, null); cctx.gridEvents().record(evt); } } } } if (cachesWithoutNodes != null) { StringBuilder sb = new StringBuilder( "All server nodes for the following caches have left the cluster: "); for (int i = 0; i < cachesWithoutNodes.size(); i++) { String cache = cachesWithoutNodes.get(i); sb.append('\'').append(cache).append('\''); if (i != cachesWithoutNodes.size() - 1) sb.append(", "); } U.quietAndWarn(log, sb.toString()); U.quietAndWarn(log, "Must have server nodes for caches to operate."); } assert discoEvt != null; assert exchId.nodeId().equals(discoEvt.eventNode().id()); for (GridCacheContext cacheCtx : cctx.cacheContexts()) { GridClientPartitionTopology clientTop = cctx.exchange().clearClientTopology(cacheCtx.cacheId()); long updSeq = clientTop == null ? -1 : clientTop.lastUpdateSequence(); // Update before waiting for locks. if (!cacheCtx.isLocal()) cacheCtx .topology() .updateTopologyVersion(exchId, this, updSeq, stopping(cacheCtx.cacheId())); } // Grab all alive remote nodes with order of equal or less than last joined node. rmtNodes = new ConcurrentLinkedQueue<>( CU.aliveRemoteServerNodesWithCaches(cctx, exchId.topologyVersion())); rmtIds = Collections.unmodifiableSet(new HashSet<>(F.nodeIds(rmtNodes))); for (Map.Entry<UUID, GridDhtPartitionsSingleMessage> m : singleMsgs.entrySet()) // If received any messages, process them. onReceive(m.getKey(), m.getValue()); for (Map.Entry<UUID, GridDhtPartitionsFullMessage> m : fullMsgs.entrySet()) // If received any messages, process them. onReceive(m.getKey(), m.getValue()); AffinityTopologyVersion topVer = exchId.topologyVersion(); for (GridCacheContext cacheCtx : cctx.cacheContexts()) { if (cacheCtx.isLocal()) continue; // Must initialize topology after we get discovery event. initTopology(cacheCtx); cacheCtx.preloader().updateLastExchangeFuture(this); } IgniteInternalFuture<?> partReleaseFut = cctx.partitionReleaseFuture(topVer); // Assign to class variable so it will be included into toString() method. this.partReleaseFut = partReleaseFut; if (log.isDebugEnabled()) log.debug("Before waiting for partition release future: " + this); while (true) { try { partReleaseFut.get(2 * cctx.gridConfig().getNetworkTimeout(), TimeUnit.MILLISECONDS); break; } catch (IgniteFutureTimeoutCheckedException ignored) { // Print pending transactions and locks that might have led to hang. dumpPendingObjects(); } } if (log.isDebugEnabled()) log.debug("After waiting for partition release future: " + this); if (!F.isEmpty(reqs)) blockGateways(); if (exchId.isLeft()) cctx.mvcc().removeExplicitNodeLocks(exchId.nodeId(), exchId.topologyVersion()); IgniteInternalFuture<?> locksFut = cctx.mvcc().finishLocks(exchId.topologyVersion()); while (true) { try { locksFut.get(2 * cctx.gridConfig().getNetworkTimeout(), TimeUnit.MILLISECONDS); break; } catch (IgniteFutureTimeoutCheckedException ignored) { U.warn( log, "Failed to wait for locks release future. " + "Dumping pending objects that might be the cause: " + cctx.localNodeId()); U.warn(log, "Locked entries:"); Map<IgniteTxKey, Collection<GridCacheMvccCandidate>> locks = cctx.mvcc().unfinishedLocks(exchId.topologyVersion()); for (Map.Entry<IgniteTxKey, Collection<GridCacheMvccCandidate>> e : locks.entrySet()) U.warn(log, "Locked entry [key=" + e.getKey() + ", mvcc=" + e.getValue() + ']'); } } for (GridCacheContext cacheCtx : cctx.cacheContexts()) { if (cacheCtx.isLocal()) continue; // Notify replication manager. GridCacheContext drCacheCtx = cacheCtx.isNear() ? cacheCtx.near().dht().context() : cacheCtx; if (drCacheCtx.isDrEnabled()) drCacheCtx.dr().beforeExchange(topVer, exchId.isLeft()); // Partition release future is done so we can flush the write-behind store. cacheCtx.store().forceFlush(); // Process queued undeploys prior to sending/spreading map. cacheCtx.preloader().unwindUndeploys(); GridDhtPartitionTopology top = cacheCtx.topology(); assert topVer.equals(top.topologyVersion()) : "Topology version is updated only in this class instances inside single ExchangeWorker thread."; top.beforeExchange(this); } for (GridClientPartitionTopology top : cctx.exchange().clientTopologies()) { top.updateTopologyVersion(exchId, this, -1, stopping(top.cacheId())); top.beforeExchange(this); } } catch (IgniteInterruptedCheckedException e) { onDone(e); throw e; } catch (Throwable e) { U.error( log, "Failed to reinitialize local partitions (preloading will be stopped): " + exchId, e); onDone(e); if (e instanceof Error) throw (Error) e; return; } if (F.isEmpty(rmtIds)) { onDone(exchId.topologyVersion()); return; } ready.set(true); initFut.onDone(true); if (log.isDebugEnabled()) log.debug("Initialized future: " + this); // If this node is not oldest. if (!oldestNode.get().id().equals(cctx.localNodeId())) sendPartitions(); else { boolean allReceived = allReceived(); if (allReceived && replied.compareAndSet(false, true)) { if (spreadPartitions()) onDone(exchId.topologyVersion()); } } scheduleRecheck(); } else assert false : "Skipped init future: " + this; }
private void checkBackup() { GridDistributedTxMapping mapping = mappings.singleMapping(); if (mapping != null) { UUID nodeId = mapping.node().id(); Collection<UUID> backups = tx.transactionNodes().get(nodeId); if (!F.isEmpty(backups)) { assert backups.size() == 1; UUID backupId = F.first(backups); ClusterNode backup = cctx.discovery().node(backupId); // Nothing to do if backup has left the grid. if (backup == null) { readyNearMappingFromBackup(mapping); ClusterTopologyCheckedException cause = new ClusterTopologyCheckedException("Backup node left grid: " + backupId); cause.retryReadyFuture(cctx.nextAffinityReadyFuture(tx.topologyVersion())); onDone( new IgniteTxRollbackCheckedException( "Failed to commit transaction " + "(backup has left grid): " + tx.xidVersion(), cause)); } else { final CheckBackupMiniFuture mini = new CheckBackupMiniFuture(backup, mapping); add(mini); if (backup.isLocal()) { boolean committed = !cctx.tm().addRolledbackTx(tx); readyNearMappingFromBackup(mapping); if (committed) { if (tx.syncCommit()) { GridCacheVersion nearXidVer = tx.nearXidVersion(); assert nearXidVer != null : tx; IgniteInternalFuture<?> fut = cctx.tm().remoteTxFinishFuture(nearXidVer); fut.listen( new CI1<IgniteInternalFuture<?>>() { @Override public void apply(IgniteInternalFuture<?> fut) { mini.onDone(tx); } }); return; } mini.onDone(tx); } else { ClusterTopologyCheckedException cause = new ClusterTopologyCheckedException("Primary node left grid: " + nodeId); cause.retryReadyFuture(cctx.nextAffinityReadyFuture(tx.topologyVersion())); mini.onDone( new IgniteTxRollbackCheckedException( "Failed to commit transaction " + "(transaction has been rolled back on backup node): " + tx.xidVersion(), cause)); } } else { GridDhtTxFinishRequest finishReq = checkCommittedRequest(mini.futureId()); // Preserve old behavior, otherwise response is not sent. if (WAIT_REMOTE_TXS_SINCE.compareTo(backup.version()) > 0) finishReq.syncCommit(true); try { if (FINISH_NEAR_ONE_PHASE_SINCE.compareTo(backup.version()) <= 0) cctx.io().send(backup, finishReq, tx.ioPolicy()); else { mini.onDone( new IgniteTxHeuristicCheckedException( "Failed to check for tx commit on " + "the backup node (node has an old Ignite version) [rmtNodeId=" + backup.id() + ", ver=" + backup.version() + ']')); } } catch (ClusterTopologyCheckedException e) { mini.onNodeLeft(backupId); } catch (IgniteCheckedException e) { mini.onDone(e); } } } } else readyNearMappingFromBackup(mapping); } }