/** * Waits until total number of events processed is equal or greater then argument passed. * * @param cnt Number of events to wait. * @param timeout Timeout to wait. * @return {@code True} if successfully waited, {@code false} if timeout happened. * @throws InterruptedException If thread is interrupted. */ public synchronized boolean awaitEvents(int cnt, long timeout) throws InterruptedException { long start = U.currentTimeMillis(); long now = start; while (start + timeout > now) { if (evtCnt >= cnt) return true; wait(start + timeout - now); now = U.currentTimeMillis(); } return false; }
/** @throws Exception if error occur. */ @SuppressWarnings("unchecked") private void checkGar() throws Exception { initGar = true; String garDir = "modules/extdata/p2p/deploy"; String garFileName = "p2p.gar"; File origGarPath = U.resolveIgnitePath(garDir + '/' + garFileName); File tmpPath = new File(System.getProperty("java.io.tmpdir"), UUID.randomUUID().toString()); if (!tmpPath.mkdir()) throw new IOException("Can not create temp directory"); try { File newGarFile = new File(tmpPath, garFileName); U.copy(origGarPath, newGarFile, false); assert newGarFile.exists(); try { garFile = "file:///" + tmpPath.getAbsolutePath(); try { Ignite ignite1 = startGrid(1); Ignite ignite2 = startGrid(2); Integer res = ignite1 .compute() .<UUID, Integer>execute(TASK_NAME, ignite2.cluster().localNode().id()); assert res != null; } finally { stopGrid(1); stopGrid(2); } } finally { if (newGarFile != null && !newGarFile.delete()) error("Can not delete temp gar file"); } } finally { if (!tmpPath.delete()) error("Can not delete temp directory"); } }
/** * Load grid configuration for specified node type. * * @param type Node type to load configuration for. * @return Grid configuration for specified node type. */ static IgniteConfiguration getConfig(String type) { String path = NODE_CFG.get(type); if (path == null) throw new IllegalArgumentException("Unsupported node type: " + type); URL url = U.resolveIgniteUrl(path); BeanFactory ctx = new FileSystemXmlApplicationContext(url.toString()); return (IgniteConfiguration) ctx.getBean("grid.cfg"); }
/** {@inheritDoc} */ @Override public void onDiscoveryDataReceived(UUID nodeId, UUID rmtNodeId, Serializable data) { Map<String, Serializable> discData = (Map<String, Serializable>) data; if (discData != null) { for (Map.Entry<String, Serializable> e : discData.entrySet()) { PluginProvider provider = plugins.get(e.getKey()); if (provider != null) provider.receiveDiscoveryData(nodeId, e.getValue()); else U.warn(log, "Received discovery data for unknown plugin: " + e.getKey()); } } }
/** * Checks that cache is empty. * * @param cache Cache to check. * @throws org.apache.ignite.internal.IgniteInterruptedCheckedException If interrupted while * sleeping. */ @SuppressWarnings({"ErrorNotRethrown", "TypeMayBeWeakened"}) private void checkEmpty(IgniteCache<String, String> cache) throws IgniteInterruptedCheckedException { for (int i = 0; i < 3; i++) { try { assertTrue(!cache.iterator().hasNext()); break; } catch (AssertionError e) { if (i == 2) throw e; info(">>> Cache is not empty, flushing evictions."); U.sleep(1000); } } }
/** Print plugins information. */ private void ackPluginsInfo() { U.quietAndInfo(log, "Configured plugins:"); if (plugins.isEmpty()) { U.quietAndInfo(log, " ^-- None"); U.quietAndInfo(log, ""); } else { for (PluginProvider plugin : plugins.values()) { U.quietAndInfo(log, " ^-- " + plugin.name() + " " + plugin.version()); U.quietAndInfo(log, " ^-- " + plugin.copyright()); U.quietAndInfo(log, ""); } } }
/** * Check how prefetch override works. * * @throws Exception IF failed. */ public void testOpenPrefetchOverride() throws Exception { create(igfsSecondary, paths(DIR, SUBDIR), paths(FILE)); // Write enough data to the secondary file system. final int blockSize = IGFS_BLOCK_SIZE; IgfsOutputStream out = igfsSecondary.append(FILE, false); int totalWritten = 0; while (totalWritten < blockSize * 2 + chunk.length) { out.write(chunk); totalWritten += chunk.length; } out.close(); awaitFileClose(igfsSecondary.asSecondary(), FILE); // Instantiate file system with overridden "seq reads before prefetch" property. Configuration cfg = new Configuration(); cfg.addResource(U.resolveIgniteUrl(PRIMARY_CFG)); int seqReads = SEQ_READS_BEFORE_PREFETCH + 1; cfg.setInt(String.format(PARAM_IGFS_SEQ_READS_BEFORE_PREFETCH, "igfs:grid@"), seqReads); FileSystem fs = FileSystem.get(new URI(PRIMARY_URI), cfg); // Read the first two blocks. Path fsHome = new Path(PRIMARY_URI); Path dir = new Path(fsHome, DIR.name()); Path subdir = new Path(dir, SUBDIR.name()); Path file = new Path(subdir, FILE.name()); FSDataInputStream fsIn = fs.open(file); final byte[] readBuf = new byte[blockSize * 2]; fsIn.readFully(0, readBuf, 0, readBuf.length); // Wait for a while for prefetch to finish (if any). IgfsMetaManager meta = igfs.context().meta(); IgfsFileInfo info = meta.info(meta.fileId(FILE)); IgfsBlockKey key = new IgfsBlockKey(info.id(), info.affinityKey(), info.evictExclude(), 2); IgniteCache<IgfsBlockKey, byte[]> dataCache = igfs.context().kernalContext().cache().jcache(igfs.configuration().getDataCacheName()); for (int i = 0; i < 10; i++) { if (dataCache.containsKey(key)) break; else U.sleep(100); } fsIn.close(); // Remove the file from the secondary file system. igfsSecondary.delete(FILE, false); // Try reading the third block. Should fail. GridTestUtils.assertThrows( log, new Callable<Object>() { @Override public Object call() throws Exception { IgfsInputStream in0 = igfs.open(FILE); in0.seek(blockSize * 2); try { in0.read(readBuf); } finally { U.closeQuiet(in0); } return null; } }, IOException.class, "Failed to read data due to secondary file system exception: /dir/subdir/file"); }
/** @throws Exception If failed. */ private void doTest() throws Exception { System.gc(); System.gc(); System.gc(); try { useCache = true; startGridsMultiThreaded(GRID_CNT); useCache = false; Ignite ignite = startGrid(); final IgniteDataStreamer<Integer, String> ldr = ignite.dataStreamer(null); ldr.perNodeBufferSize(8192); ldr.receiver(DataStreamerCacheUpdaters.<Integer, String>batchedSorted()); ldr.autoFlushFrequency(0); final LongAdder8 cnt = new LongAdder8(); long start = U.currentTimeMillis(); Thread t = new Thread( new Runnable() { @SuppressWarnings("BusyWait") @Override public void run() { while (true) { try { Thread.sleep(10000); } catch (InterruptedException ignored) { break; } info(">>> Adds/sec: " + cnt.sumThenReset() / 10); } } }); t.setDaemon(true); t.start(); int threadNum = 2; // Runtime.getRuntime().availableProcessors(); multithreaded( new Callable<Object>() { @SuppressWarnings("InfiniteLoopStatement") @Override public Object call() throws Exception { ThreadLocalRandom8 rnd = ThreadLocalRandom8.current(); while (true) { int i = rnd.nextInt(ENTRY_CNT); ldr.addData(i, vals[rnd.nextInt(vals.length)]); cnt.increment(); } } }, threadNum, "loader"); info("Closing loader..."); ldr.close(false); long duration = U.currentTimeMillis() - start; info("Finished performance test. Duration: " + duration + "ms."); } finally { stopAllGrids(); } }