/** * @param cacheCtx Cache context. * @throws IgniteCheckedException If failed. */ private void initTopology(GridCacheContext cacheCtx) throws IgniteCheckedException { if (stopping(cacheCtx.cacheId())) return; if (canCalculateAffinity(cacheCtx)) { if (log.isDebugEnabled()) log.debug( "Will recalculate affinity [locNodeId=" + cctx.localNodeId() + ", exchId=" + exchId + ']'); cacheCtx.affinity().calculateAffinity(exchId.topologyVersion(), discoEvt); } else { if (log.isDebugEnabled()) log.debug( "Will request affinity from remote node [locNodeId=" + cctx.localNodeId() + ", exchId=" + exchId + ']'); // Fetch affinity assignment from remote node. GridDhtAssignmentFetchFuture fetchFut = new GridDhtAssignmentFetchFuture( cacheCtx, exchId.topologyVersion(), CU.affinityNodes(cacheCtx, exchId.topologyVersion())); fetchFut.init(); List<List<ClusterNode>> affAssignment = fetchFut.get(); if (log.isDebugEnabled()) log.debug( "Fetched affinity from remote node, initializing affinity assignment [locNodeId=" + cctx.localNodeId() + ", topVer=" + exchId.topologyVersion() + ']'); if (affAssignment == null) { affAssignment = new ArrayList<>(cacheCtx.affinity().partitions()); List<ClusterNode> empty = Collections.emptyList(); for (int i = 0; i < cacheCtx.affinity().partitions(); i++) affAssignment.add(empty); } cacheCtx.affinity().initializeAffinity(exchId.topologyVersion(), affAssignment); } }
/** * @param p Partition. * @param topVer Topology version ({@code -1} for all nodes). * @param state Partition state. * @param states Additional partition states. * @return List of nodes for the partition. */ private List<ClusterNode> nodes( int p, AffinityTopologyVersion topVer, GridDhtPartitionState state, GridDhtPartitionState... states) { Collection<UUID> allIds = topVer.topologyVersion() > 0 ? F.nodeIds(CU.affinityNodes(cctx, topVer)) : null; lock.readLock().lock(); try { assert node2part != null && node2part.valid() : "Invalid node-to-partitions map [topVer=" + topVer + ", allIds=" + allIds + ", node2part=" + node2part + ", cache=" + cctx.name() + ']'; Collection<UUID> nodeIds = part2node.get(p); // Node IDs can be null if both, primary and backup, nodes disappear. int size = nodeIds == null ? 0 : nodeIds.size(); if (size == 0) return Collections.emptyList(); List<ClusterNode> nodes = new ArrayList<>(size); for (UUID id : nodeIds) { if (topVer.topologyVersion() > 0 && !allIds.contains(id)) continue; if (hasState(p, id, state, states)) { ClusterNode n = cctx.discovery().node(id); if (n != null && (topVer.topologyVersion() < 0 || n.order() <= topVer.topologyVersion())) nodes.add(n); } } return nodes; } finally { lock.readLock().unlock(); } }
/** * Finds all files in folder and in it's sub-tree of specified depth. * * @param file Starting folder * @param maxDepth Depth of the tree. If 1 - just look in the folder, no sub-folders. * @param filter file filter. * @return List of found files. */ public static List<VisorLogFile> fileTree(File file, int maxDepth, @Nullable FileFilter filter) { if (file.isDirectory()) { File[] files = (filter == null) ? file.listFiles() : file.listFiles(filter); if (files == null) return Collections.emptyList(); List<VisorLogFile> res = new ArrayList<>(files.length); for (File f : files) { if (f.isFile() && f.length() > 0) res.add(new VisorLogFile(f)); else if (maxDepth > 1) res.addAll(fileTree(f, maxDepth - 1, filter)); } return res; } return F.asList(new VisorLogFile(file)); }
/** @return Remaining node IDs. */ Collection<UUID> remaining() { if (rmtIds == null) return Collections.emptyList(); return F.lose(rmtIds, true, rcvdIds); }