/** * JUnit. * * @throws Exception If failed. */ public void testGetAndIncrement() throws Exception { Collection<Long> res = new HashSet<>(); String seqName = UUID.randomUUID().toString(); for (int i = 0; i < GRID_CNT; i++) { Set<Long> retVal = compute(grid(i).cluster().forLocal()).call(new GetAndIncrementJob(seqName, RETRIES)); for (Long l : retVal) assert !res.contains(l) : "Value already was used " + l; res.addAll(retVal); } assert res.size() == GRID_CNT * RETRIES; int gapSize = 0; for (long i = 0; i < GRID_CNT * RETRIES; i++) { if (!res.contains(i)) gapSize++; else gapSize = 0; assert gapSize <= BATCH_SIZE + 1 : "Gap above id " + i + " is " + gapSize + " more than batch size: " + (BATCH_SIZE + 1); } }
/** * Processes cache query response. * * @param sndId Sender node id. * @param res Query response. */ @SuppressWarnings("unchecked") private void processQueryResponse(UUID sndId, GridCacheQueryResponse res) { if (log.isDebugEnabled()) log.debug("Received query response: " + res); GridCacheQueryFutureAdapter fut = getQueryFuture(res.requestId()); if (fut != null) if (res.fields()) ((GridCacheDistributedFieldsQueryFuture) fut) .onPage( sndId, res.metadata(), (Collection<Map<String, Object>>) ((Collection) res.data()), res.error(), res.isFinished()); else fut.onPage(sndId, res.data(), res.error(), res.isFinished()); else if (!cancelled.contains(res.requestId())) U.warn( log, "Received response for finished or unknown query [rmtNodeId=" + sndId + ", res=" + res + ']'); }
/** * @param cacheCtx Cache context. * @return {@code True} if local node can calculate affinity on it's own for this partition map * exchange. */ private boolean canCalculateAffinity(GridCacheContext cacheCtx) { AffinityFunction affFunc = cacheCtx.config().getAffinity(); // Do not request affinity from remote nodes if affinity function is not centralized. if (!U.hasAnnotation(affFunc, AffinityCentralizedFunction.class)) return true; // If local node did not initiate exchange or local node is the only cache node in grid. Collection<ClusterNode> affNodes = CU.affinityNodes(cacheCtx, exchId.topologyVersion()); return !exchId.nodeId().equals(cctx.localNodeId()) || (affNodes.size() == 1 && affNodes.contains(cctx.localNode())); }
/** {@inheritDoc} */ @Override public Collection<ClusterNode> nodes(int p, AffinityTopologyVersion topVer) { Collection<ClusterNode> affNodes = cctx.affinity().nodes(p, topVer); lock.readLock().lock(); try { assert node2part != null && node2part.valid() : "Invalid node-to-partitions map [topVer1=" + topVer + ", topVer2=" + this.topVer + ", cache=" + cctx.name() + ", node2part=" + node2part + ']'; Collection<ClusterNode> nodes = null; Collection<UUID> nodeIds = part2node.get(p); if (!F.isEmpty(nodeIds)) { Collection<UUID> affIds = new HashSet<>(F.viewReadOnly(affNodes, F.node2id())); for (UUID nodeId : nodeIds) { if (!affIds.contains(nodeId) && hasState(p, nodeId, OWNING, MOVING, RENTING)) { ClusterNode n = cctx.discovery().node(nodeId); if (n != null && (topVer.topologyVersion() < 0 || n.order() <= topVer.topologyVersion())) { if (nodes == null) { nodes = new ArrayList<>(affNodes.size() + 2); nodes.addAll(affNodes); } nodes.add(n); } } } } return nodes != null ? nodes : affNodes; } finally { lock.readLock().unlock(); } }
/** * @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(); } }
/** * Processes cache query request. * * @param sndId Sender node id. * @param req Query request. */ @SuppressWarnings("unchecked") @Override void processQueryRequest(UUID sndId, GridCacheQueryRequest req) { if (req.cancel()) { cancelIds.add(new CancelMessageId(req.id(), sndId)); if (req.fields()) removeFieldsQueryResult(sndId, req.id()); else removeQueryResult(sndId, req.id()); } else { if (!cancelIds.contains(new CancelMessageId(req.id(), sndId))) { if (!F.eq(req.cacheName(), cctx.name())) { GridCacheQueryResponse res = new GridCacheQueryResponse( cctx.cacheId(), req.id(), new IgniteCheckedException( "Received request for incorrect cache [expected=" + cctx.name() + ", actual=" + req.cacheName())); sendQueryResponse(sndId, res, 0); } else { threads.put(req.id(), Thread.currentThread()); try { GridCacheQueryInfo info = distributedQueryInfo(sndId, req); if (info == null) return; if (req.fields()) runFieldsQuery(info); else runQuery(info); } catch (Throwable e) { U.error(log(), "Failed to run query.", e); sendQueryResponse( sndId, new GridCacheQueryResponse(cctx.cacheId(), req.id(), e.getCause()), 0); if (e instanceof Error) throw (Error) e; } finally { threads.remove(req.id()); } } } } }
/** @throws Exception Thrown if test failed. */ public void testA() throws Exception { Collection<Integer> set = new GridConcurrentWeakHashSet<>(); Integer i = 1; assert set.add(i); assert !set.add(i); assert set.contains(i); assert set.size() == 1; Collection<Integer> c = F.asList(2, 3, 4, 5); assert set.addAll(c); assert !set.addAll(c); assert set.containsAll(c); assert set.size() == 1 + c.size(); assert set.remove(i); assert !set.remove(i); assert !set.contains(i); assert set.size() == c.size(); assert set.removeAll(c); assert !set.removeAll(c); assert !set.containsAll(c); assert set.isEmpty(); Collection<Integer> c1 = Arrays.asList(1, 3, 5, 7, 9); int cnt = 0; for (Iterator<Integer> iter = set.iterator(); iter.hasNext(); cnt++) c1.contains(iter.next()); assert set.size() == cnt; assert set.size() == set.toArray().length; assert set.addAll(c1); assert set.retainAll(c); assert !set.retainAll(c); Collection<Integer> c2 = F.retain(c1, true, c); assert set.containsAll(c2); assert !set.containsAll(c1); assert !set.containsAll(c); assert set.size() == c2.size(); set.clear(); assert set.isEmpty(); try { set.iterator().next(); assert false; } catch (NoSuchElementException ignored) { assert true; } try { set.add(null); assert false; } catch (NullPointerException ignored) { assert true; } }
/** @throws Exception Thrown if test failed. */ @SuppressWarnings({"UnusedAssignment"}) public void testB() throws Exception { Collection<SampleBean> set = new GridConcurrentWeakHashSet<>(); SampleBean bean1 = new SampleBean(1); assert set.add(bean1); assert !set.add(bean1); assert set.size() == 1; assert set.contains(bean1); bean1 = null; gc(); assert set.isEmpty(); Collection<SampleBean> c = F.asList(new SampleBean(1), new SampleBean(2), new SampleBean(3), new SampleBean(4)); assert set.addAll(c); assert !set.addAll(c); assert set.size() == c.size(); assert set.containsAll(c); c = null; gc(); assert set.isEmpty(); SampleBean b1 = new SampleBean(1); SampleBean b2 = new SampleBean(2); SampleBean b3 = new SampleBean(3); SampleBean b4 = new SampleBean(4); SampleBean b5 = new SampleBean(5); set.add(b1); set.add(b2); set.add(b3); set.add(b4); set.add(b5); Iterator iter = set.iterator(); assert iter.hasNext(); b2 = null; b3 = null; b4 = null; gc(); int cnt = 0; while (iter.hasNext()) { info(iter.next().toString()); cnt++; } assert set.size() == cnt; }