/** @throws Exception If failed. */ public void testInvalidateFlag() throws Exception { GridEx g0 = grid(0); GridCache<String, String> cache = g0.cache(PARTITIONED_CACHE_NAME); String key = null; for (int i = 0; i < 10_000; i++) { if (!cache.affinity().isPrimaryOrBackup(g0.localNode(), String.valueOf(i))) { key = String.valueOf(i); break; } } assertNotNull(key); cache.put(key, key); // Create entry in near cache, it is invalidated if INVALIDATE flag is set. assertNotNull(cache.peek(key)); GridClientData d = client.data(PARTITIONED_CACHE_NAME); d.flagsOn(GridClientCacheFlag.INVALIDATE).put(key, "zzz"); for (Grid g : G.allGrids()) { cache = g.cache(PARTITIONED_CACHE_NAME); if (cache.affinity().isPrimaryOrBackup(g.localNode(), key)) assertEquals("zzz", cache.peek(key)); else assertNull(cache.peek(key)); } }
/** {@inheritDoc} */ @Nullable @Override public Map<? extends GridComputeJob, GridNode> map( List<GridNode> subgrid, @Nullable GridBiTuple<Set<UUID>, A> arg) throws GridException { assert arg != null; assert arg.get1() != null; start = U.currentTimeMillis(); boolean debug = debugState(g); if (debug) logStart(g.log(), getClass(), start); Set<UUID> nodeIds = arg.get1(); Map<GridComputeJob, GridNode> map = U.newHashMap(nodeIds.size()); try { taskArg = arg.get2(); for (GridNode node : subgrid) if (nodeIds.contains(node.id())) map.put(job(taskArg), node); return map; } finally { if (debug) logMapped(g.log(), getClass(), map.values()); } }
/** {@inheritDoc} */ @Nullable @Override public final R reduce(List<GridComputeJobResult> results) throws GridException { try { return reduce0(results); } finally { if (debugState(g)) logFinish(g.log(), getClass(), start); } }
/** * @param seq Start/stop sequence. * @throws Exception If failed. */ private void checkSequence0(boolean[] seq) throws Exception { try { startGrid(0); TreeSet<Integer> started = new TreeSet<>(); started.add(0); int topVer = 1; for (boolean start : seq) { if (start) { int nextIdx = nextIndex(started); startGrid(nextIdx); started.add(nextIdx); } else { int idx = started.last(); stopGrid(idx); started.remove(idx); } topVer++; info("Grid 0: " + grid(0).localNode().id()); ((GridKernal) grid(0)) .internalCache() .context() .affinity() .affinityReadyFuture(topVer) .get(); for (int i : started) { if (i != 0) { GridEx grid = grid(i); ((GridKernal) grid) .internalCache() .context() .affinity() .affinityReadyFuture(topVer) .get(); info("Grid " + i + ": " + grid.localNode().id()); for (int part = 0; part < parts; part++) { List<GridNode> firstNodes = (List<GridNode>) grid(0).cache(null).affinity().mapPartitionToPrimaryAndBackups(part); List<GridNode> secondNodes = (List<GridNode>) grid.cache(null).affinity().mapPartitionToPrimaryAndBackups(part); assertEquals(firstNodes.size(), secondNodes.size()); for (int n = 0; n < firstNodes.size(); n++) assertEquals(firstNodes.get(n), secondNodes.get(n)); } } } } } finally { stopAllGrids(); } }