/** @throws Exception If failed. */ public void testCreateFileColocated() throws Exception { GridGgfsPath path = new GridGgfsPath("/colocated"); UUID uuid = UUID.randomUUID(); GridUuid affKey; long idx = 0; while (true) { affKey = new GridUuid(uuid, idx); if (grid(0).mapKeyToNode(DATA_CACHE_NAME, affKey).id().equals(grid(0).localNode().id())) break; idx++; } try (GridGgfsOutputStream out = fs.create(path, 1024, true, affKey, 0, 1024, null)) { // Write 5M, should be enough to test distribution. for (int i = 0; i < 15; i++) out.write(new byte[1024 * 1024]); } GridGgfsFile info = fs.info(path); Collection<GridGgfsBlockLocation> affNodes = fs.affinity(path, 0, info.length()); assertEquals(1, affNodes.size()); Collection<UUID> nodeIds = F.first(affNodes).nodeIds(); assertEquals(1, nodeIds.size()); assertEquals(grid(0).localNode().id(), F.first(nodeIds)); }
/** @throws Exception If failed. */ public void testClientAffinity() throws Exception { GridClientData partitioned = client.data(PARTITIONED_CACHE_NAME); Collection<Object> keys = new ArrayList<>(); keys.addAll(Arrays.asList(Boolean.TRUE, Boolean.FALSE, 1, Integer.MAX_VALUE)); Random rnd = new Random(); StringBuilder sb = new StringBuilder(); // Generate some random strings. for (int i = 0; i < 100; i++) { sb.setLength(0); for (int j = 0; j < 255; j++) // Only printable ASCII symbols for test. sb.append((char) (rnd.nextInt(0x7f - 0x20) + 0x20)); keys.add(sb.toString()); } // Generate some more keys to achieve better coverage. for (int i = 0; i < 100; i++) keys.add(UUID.randomUUID()); for (Object key : keys) { UUID nodeId = grid(0).mapKeyToNode(PARTITIONED_CACHE_NAME, key).id(); UUID clientNodeId = partitioned.affinity(key); assertEquals( "Invalid affinity mapping for REST response for key: " + key, nodeId, clientNodeId); } }
/** {@inheritDoc} */ @Override protected Collection<? extends GridComputeJob> split(int gridSize, Object arg) throws GridException { Collection<GridComputeJobAdapter> jobs = new ArrayList<>(gridSize); this.gridSize = gridSize; final String locNodeId = grid.localNode().id().toString(); for (int i = 0; i < gridSize; i++) { jobs.add( new GridComputeJobAdapter() { @SuppressWarnings("OverlyStrongTypeCast") @Override public Object execute() { try { Thread.sleep(1000); } catch (InterruptedException ignored) { Thread.currentThread().interrupt(); } return new GridBiTuple<>(locNodeId, 1); } }); } return jobs; }
/** @throws Exception If failed. */ public void testProjectionRun() throws Exception { GridClientCompute dflt = client.compute(); Collection<? extends GridClientNode> nodes = dflt.nodes(); assertEquals(NODES_CNT, nodes.size()); for (int i = 0; i < NODES_CNT; i++) { Grid g = grid(i); assert g != null; GridClientNode clientNode = dflt.node(g.localNode().id()); assertNotNull("Client node for " + g.localNode().id() + " was not found", clientNode); GridClientCompute prj = dflt.projection(clientNode); String res = prj.execute(TestTask.class.getName(), null); assertNotNull(res); assertEquals(g.localNode().id().toString(), res); } }
/** {@inheritDoc} */ @Override protected Collection<? extends GridComputeJob> split(int gridSize, String arg) throws GridException { Collection<GridComputeJobAdapter> jobs = new ArrayList<>(jobCnt); for (int i = 0; i < jobCnt; i++) jobs.add(new TestJob()); return jobs; }
/** @throws Exception If failed. */ public void testTopologyListener() throws Exception { final Collection<UUID> added = new ArrayList<>(1); final Collection<UUID> rmvd = new ArrayList<>(1); final CountDownLatch addedLatch = new CountDownLatch(1); final CountDownLatch rmvLatch = new CountDownLatch(1); assertEquals(NODES_CNT, client.compute().refreshTopology(false, false).size()); GridClientTopologyListener lsnr = new GridClientTopologyListener() { @Override public void onNodeAdded(GridClientNode node) { added.add(node.nodeId()); addedLatch.countDown(); } @Override public void onNodeRemoved(GridClientNode node) { rmvd.add(node.nodeId()); rmvLatch.countDown(); } }; client.addTopologyListener(lsnr); try { Grid g = startGrid(NODES_CNT + 1); UUID id = g.localNode().id(); assertTrue(addedLatch.await(2 * TOP_REFRESH_FREQ, MILLISECONDS)); assertEquals(1, added.size()); assertEquals(id, F.first(added)); stopGrid(NODES_CNT + 1); assertTrue(rmvLatch.await(2 * TOP_REFRESH_FREQ, MILLISECONDS)); assertEquals(1, rmvd.size()); assertEquals(id, F.first(rmvd)); } finally { client.removeTopologyListener(lsnr); stopGrid(NODES_CNT + 1); } }
/** @throws Exception If failed. */ public void testAffinityExecute() throws Exception { GridClientCompute dflt = client.compute(); GridClientData data = client.data(PARTITIONED_CACHE_NAME); Collection<? extends GridClientNode> nodes = dflt.nodes(); assertEquals(NODES_CNT, nodes.size()); for (int i = 0; i < NODES_CNT; i++) { Grid g = grid(i); assert g != null; int affinityKey = -1; for (int key = 0; key < 10000; key++) { if (g.localNode().id().equals(data.affinity(key))) { affinityKey = key; break; } } if (affinityKey == -1) throw new Exception("Unable to found key for which node is primary: " + g.localNode().id()); GridClientNode clientNode = dflt.node(g.localNode().id()); assertNotNull("Client node for " + g.localNode().id() + " was not found", clientNode); String res = dflt.affinityExecute(TestTask.class.getName(), PARTITIONED_CACHE_NAME, affinityKey, null); assertNotNull(res); assertEquals(g.localNode().id().toString(), res); } }
/** {@inheritDoc} */ @Override public void execute(@Nullable GridProjection prj) throws GridException { if (cb == null) throw new IllegalStateException("Mandatory local callback is not set for the query: " + this); if (prj == null) prj = ctx.grid(); prj = prj.forCache(ctx.name()); if (prj.nodes().isEmpty()) throw new GridTopologyException("Failed to execute query (projection is empty): " + this); GridCacheMode mode = ctx.config().getCacheMode(); if (mode == LOCAL || mode == REPLICATED) { Collection<GridNode> nodes = prj.nodes(); GridNode node = nodes.contains(ctx.localNode()) ? ctx.localNode() : F.rand(nodes); assert node != null; if (nodes.size() > 1 && !ctx.cache().isDrSystemCache()) { if (node.id().equals(ctx.localNodeId())) U.warn( log, "Continuous query for " + mode + " cache can be run only on local node. " + "Will execute query locally: " + this); else U.warn( log, "Continuous query for " + mode + " cache can be run only on single node. " + "Will execute query on remote node [qry=" + this + ", node=" + node + ']'); } prj = prj.forNode(node); } closeLock.lock(); try { if (routineId != null) throw new IllegalStateException("Continuous query can't be executed twice."); guard.block(); GridContinuousHandler hnd = new GridCacheContinuousQueryHandler<>(ctx.name(), topic, cb, filter, prjPred); routineId = ctx.kernalContext() .continuous() .startRoutine(hnd, bufSize, timeInterval, autoUnsubscribe, prj.predicate()) .get(); } finally { closeLock.unlock(); } }
/** * Test file creation. * * @param path Path to file to store. * @param size Size of file to store. * @param salt Salt for file content generation. * @throws Exception In case of any exception. */ private void testCreateFile(final GridGgfsPath path, final long size, final int salt) throws Exception { info("Create file [path=" + path + ", size=" + size + ", salt=" + salt + ']'); final AtomicInteger cnt = new AtomicInteger(0); final Collection<GridGgfsPath> cleanUp = new ConcurrentLinkedQueue<>(); long time = runMultiThreaded( new Callable<Object>() { @Override public Object call() throws Exception { int id = cnt.incrementAndGet(); GridGgfsPath f = new GridGgfsPath(path.parent(), "asdf" + (id > 1 ? "-" + id : "")); try (GridGgfsOutputStream out = fs.create(f, 0, true, null, 0, 1024, null)) { assertNotNull(out); cleanUp.add(f); // Add all created into cleanup list. U.copy(new GridGgfsTestInputStream(size, salt), out); } return null; } }, WRITING_THREADS_CNT, "perform-multi-thread-writing"); if (time > 0) { double rate = size * 1000. / time / 1024 / 1024; info( String.format( "Write file [path=%s, size=%d kB, rate=%2.1f MB/s]", path, WRITING_THREADS_CNT * size / 1024, WRITING_THREADS_CNT * rate)); } info("Read and validate saved file: " + path); final InputStream expIn = new GridGgfsTestInputStream(size, salt); final GridGgfsInputStream actIn = fs.open(path, CFG_BLOCK_SIZE * READING_THREADS_CNT * 11 / 10); // Validate continuous reading of whole file. assertEqualStreams(expIn, actIn, size, null); // Validate random seek and reading. final Random rnd = new Random(); runMultiThreaded( new Callable<Object>() { @Override public Object call() throws Exception { long skip = Math.abs(rnd.nextLong() % (size + 1)); long range = Math.min(size - skip, rnd.nextInt(CFG_BLOCK_SIZE * 400)); assertEqualStreams(new GridGgfsTestInputStream(size, salt), actIn, range, skip); return null; } }, READING_THREADS_CNT, "validate-multi-thread-reading"); expIn.close(); actIn.close(); info("Get stored file info: " + path); GridGgfsFile desc = fs.info(path); info("Validate stored file info: " + desc); assertNotNull(desc); if (log.isDebugEnabled()) log.debug("File descriptor: " + desc); Collection<GridGgfsBlockLocation> aff = fs.affinity(path, 0, desc.length()); assertFalse("Affinity: " + aff, desc.length() != 0 && aff.isEmpty()); int blockSize = desc.blockSize(); assertEquals("File size", size, desc.length()); assertEquals("Binary block size", CFG_BLOCK_SIZE, blockSize); // assertEquals("Permission", "rwxr-xr-x", desc.getPermission().toString()); // assertEquals("Permission sticky bit marks this is file", false, // desc.getPermission().getStickyBit()); assertEquals("Type", true, desc.isFile()); assertEquals("Type", false, desc.isDirectory()); info("Cleanup files: " + cleanUp); for (GridGgfsPath f : cleanUp) { fs.delete(f, true); assertNull(fs.info(f)); } }
/** @throws Exception If failed. */ public void testEmptyProjections() throws Exception { final GridClientCompute dflt = client.compute(); Collection<? extends GridClientNode> nodes = dflt.nodes(); assertEquals(NODES_CNT, nodes.size()); Iterator<? extends GridClientNode> iter = nodes.iterator(); final GridClientCompute singleNodePrj = dflt.projection(Collections.singletonList(iter.next())); final GridClientNode second = iter.next(); final GridClientPredicate<GridClientNode> noneFilter = new GridClientPredicate<GridClientNode>() { @Override public boolean apply(GridClientNode node) { return false; } }; final GridClientPredicate<GridClientNode> targetFilter = new GridClientPredicate<GridClientNode>() { @Override public boolean apply(GridClientNode node) { return node.nodeId().equals(second.nodeId()); } }; GridTestUtils.assertThrows( log(), new Callable<Object>() { @Override public Object call() throws Exception { return dflt.projection(noneFilter).log(-1, -1); } }, GridServerUnreachableException.class, null); GridTestUtils.assertThrows( log(), new Callable<Object>() { @Override public Object call() throws Exception { return singleNodePrj.projection(second); } }, GridClientException.class, null); GridTestUtils.assertThrows( log(), new Callable<Object>() { @Override public Object call() throws Exception { return singleNodePrj.projection(targetFilter); } }, GridClientException.class, null); }