/** @throws Exception If failed. */ public void testRemoteIfDataCacheNameEquals() throws Exception { GridConfiguration g2Cfg = getConfiguration("g2"); GridGgfsConfiguration g2GgfsCfg1 = new GridGgfsConfiguration(g1GgfsCfg1); GridGgfsConfiguration g2GgfsCfg2 = new GridGgfsConfiguration(g1GgfsCfg2); g2GgfsCfg1.setName("g2GgfsCfg1"); g2GgfsCfg2.setName("g2GgfsCfg2"); g2GgfsCfg1.setMetaCacheName("g2MetaCache1"); g2GgfsCfg2.setMetaCacheName("g2MetaCache2"); g1Cfg.setCacheConfiguration( concat(dataCaches(1024), metaCaches(), GridCacheConfiguration.class)); g2Cfg.setCacheConfiguration( concat( dataCaches(1024), metaCaches("g2MetaCache1", "g2MetaCache2"), GridCacheConfiguration.class)); g2Cfg.setGgfsConfiguration(g2GgfsCfg1, g2GgfsCfg2); G.start(g1Cfg); checkGridStartFails( g2Cfg, "Data cache names should be different for different GGFS instances", false); }
/** {@inheritDoc} */ @Override protected GridConfiguration getConfiguration(String gridName) throws Exception { GridConfiguration cfg = super.getConfiguration(gridName); cfg.setCacheConfiguration( cacheConfiguration(META_CACHE_NAME), cacheConfiguration(DATA_CACHE_NAME)); GridTcpDiscoverySpi discoSpi = new GridTcpDiscoverySpi(); discoSpi.setIpFinder(IP_FINDER); cfg.setDiscoverySpi(discoSpi); GridGgfsConfiguration ggfsCfg = new GridGgfsConfiguration(); ggfsCfg.setMetaCacheName(META_CACHE_NAME); ggfsCfg.setDataCacheName(DATA_CACHE_NAME); ggfsCfg.setName("ggfs"); ggfsCfg.setBlockSize(CFG_BLOCK_SIZE); ggfsCfg.setFragmentizerEnabled(true); cfg.setGgfsConfiguration(ggfsCfg); return cfg; }
/** {@inheritDoc} */ @Override protected GridConfiguration getConfiguration(String gridName) throws Exception { GridConfiguration cfg = super.getConfiguration(gridName); GridTcpDiscoverySpi disco = new GridTcpDiscoverySpi(); disco.setMaxMissedHeartbeats(Integer.MAX_VALUE); disco.setIpFinder(IP_FINDER); cfg.setDiscoverySpi(disco); if (gridName.endsWith("1")) cfg.setCacheConfiguration(); // Empty cache configuration. else { assert gridName.endsWith("2"); GridCacheConfiguration cacheCfg = defaultCacheConfiguration(); cacheCfg.setCacheMode(PARTITIONED); cacheCfg.setBackups(1); cfg.setCacheConfiguration(cacheCfg); } return cfg; }
/** @throws Exception If failed. */ public void testLocalIfAffinityMapperIsWrongClass() throws Exception { g1Cfg.setCacheConfiguration( concat(dataCaches(1024), metaCaches(), GridCacheConfiguration.class)); for (GridCacheConfiguration cc : g1Cfg.getCacheConfiguration()) cc.setAffinityMapper(new GridCacheDefaultAffinityKeyMapper()); checkGridStartFails( g1Cfg, "Invalid GGFS data cache configuration (key affinity mapper class should be", true); }
/** @throws Exception If failed. */ public void testLocalIfBackupsEnabled() throws Exception { g1Cfg.setCacheConfiguration( concat(dataCaches(1024), metaCaches(), GridCacheConfiguration.class)); for (GridCacheConfiguration cc : g1Cfg.getCacheConfiguration()) { cc.setCacheMode(PARTITIONED); cc.setBackups(1); } checkGridStartFails(g1Cfg, "GGFS data cache cannot be used with backups", true); }
/** @throws Exception If failed. */ public void testLocalIfOffheapIsEnabledAndMaxSpaceSizeIsGreater() throws Exception { g1Cfg.setCacheConfiguration( concat(dataCaches(1024), metaCaches(), GridCacheConfiguration.class)); for (GridCacheConfiguration cc : g1Cfg.getCacheConfiguration()) cc.setOffHeapMaxMemory(1000000); g1GgfsCfg2.setMaxSpaceSize(999999999999999999L); checkGridStartFails( g1Cfg, "Maximum GGFS space size cannot be greater than size of available heap memory and offheap storage", true); }
/** @throws Exception If failed. */ public void testRemoteIfAffinityMapperGroupSizeDiffers() throws Exception { GridConfiguration g2Cfg = getConfiguration("g2"); g1Cfg.setCacheConfiguration( concat(dataCaches(1024), metaCaches(), GridCacheConfiguration.class)); g2Cfg.setCacheConfiguration( concat(dataCaches(4021), metaCaches(), GridCacheConfiguration.class)); G.start(g1Cfg); checkGridStartFails( g2Cfg, "Affinity mapper group size should be the same on all nodes in grid for GGFS", false); }
/** {@inheritDoc} */ @Override protected GridConfiguration getConfiguration(String gridName) throws Exception { GridConfiguration cfg = super.getConfiguration(gridName); GridCacheConfiguration ccfg = cacheConfiguration(); cfg.setCacheConfiguration(ccfg); GridTcpDiscoverySpi discoSpi = new GridTcpDiscoverySpi(); discoSpi.setIpFinder(IP_FINDER); cfg.setDiscoverySpi(discoSpi); return cfg; }
/** @throws Exception If failed. */ public void testLocalIfOffheapIsDisabledAndMaxSpaceSizeIsGreater() throws Exception { g1Cfg.setCacheConfiguration( concat(dataCaches(1024), metaCaches(), GridCacheConfiguration.class)); g1GgfsCfg2.setMaxSpaceSize(999999999999999999L); checkGridStartFails( g1Cfg, "Maximum GGFS space size cannot be greater that size of available heap", true); }
/** @throws Exception If failed. */ @SuppressWarnings("NullableProblems") public void testLocalNullGgfsNameIsSupported() throws Exception { g1Cfg.setCacheConfiguration( concat(dataCaches(1024), metaCaches(), GridCacheConfiguration.class)); g1GgfsCfg1.setName(null); assertFalse(G.start(g1Cfg).nodes().isEmpty()); }
/** @throws Exception If failed. */ public void testLocalIfQueryIndexingEnabledForDataCache() throws Exception { GridCacheConfiguration[] dataCaches = dataCaches(1024); dataCaches[0].setQueryIndexEnabled(true); g1Cfg.setCacheConfiguration(concat(dataCaches, metaCaches(), GridCacheConfiguration.class)); checkGridStartFails(g1Cfg, "GGFS data cache cannot start with enabled query indexing", true); }
/** {@inheritDoc} */ @Override protected GridConfiguration getConfiguration(String gridName) throws Exception { GridConfiguration cfg = super.getConfiguration(gridName); GridCacheConfiguration cache = new GridCacheConfiguration(); cache.setName(DATA_CACHE_NAME); cfg.setCacheConfiguration(cache); GridTcpDiscoverySpi disco = new GridTcpDiscoverySpi(); disco.setIpFinder(IP_FINDER); cfg.setDiscoverySpi(disco); return cfg; }
/** @throws Exception If failed. */ public void testLocalIfNoMetadataCacheIsConfigured() throws Exception { GridCacheConfiguration cc = defaultCacheConfiguration(); cc.setQueryIndexEnabled(false); cc.setName(dataCache1Name); g1Cfg.setCacheConfiguration(cc); checkGridStartFails(g1Cfg, "Metadata cache is not configured locally for GGFS", true); }
/** @throws Exception If failed. */ public void testLocalIfNonPrimaryModeAndHadoopFileSystemConfigPathIsNull() throws Exception { g1Cfg.setCacheConfiguration( concat(dataCaches(1024), metaCaches(), GridCacheConfiguration.class)); g1GgfsCfg2.setDefaultMode(PROXY); g1GgfsCfg2.setSecondaryHadoopFileSystemUri("/"); checkGridStartFails( g1Cfg, "secondaryHadoopFileSystemConfigPath cannot be null when mode is SECONDARY", true); }
/** @throws Exception If failed. */ public void testRemoteIfDataBlockSizeDiffers() throws Exception { GridConfiguration g2Cfg = getConfiguration("g2"); g1Cfg.setCacheConfiguration( concat(dataCaches(1024), metaCaches(), GridCacheConfiguration.class)); g2Cfg.setCacheConfiguration( concat(dataCaches(1024), metaCaches(), GridCacheConfiguration.class)); GridGgfsConfiguration g2GgfsCfg1 = new GridGgfsConfiguration(g1GgfsCfg1); g2GgfsCfg1.setBlockSize(g2GgfsCfg1.getBlockSize() + 100); g2Cfg.setGgfsConfiguration(g2GgfsCfg1, g1GgfsCfg2); G.start(g1Cfg); checkGridStartFails( g2Cfg, "Data block size should be same on all nodes in grid for GGFS", false); }
/** {@inheritDoc} */ @Override protected GridConfiguration getConfiguration(String gridName) throws Exception { GridConfiguration cfg = super.getConfiguration(gridName); GridTcpDiscoverySpi discoSpi = new GridTcpDiscoverySpi(); discoSpi.setIpFinder(ipFinder); cfg.setDiscoverySpi(discoSpi); cfg.setCommunicationSpi(new CommunicationSpi()); cfg.setMarshaller(new GridOptimizedMarshaller(false)); GridCacheConfiguration ccfg = defaultCacheConfiguration(); ccfg.setCacheMode(PARTITIONED); cfg.setCacheConfiguration(ccfg); return cfg; }
/** @throws Exception If failed. */ public void testLocalIfHadoopFileSystemUriIsNullAndConfigPathIsNot() throws Exception { g1Cfg.setCacheConfiguration( concat(dataCaches(1024), metaCaches(), GridCacheConfiguration.class)); g1GgfsCfg2.setSecondaryHadoopFileSystemConfigPath("/"); checkGridStartFails( g1Cfg, "secondaryHadoopFileSystemUri cannot be null when secondaryHadoopFileSystemConfigPath is set", true); }
/** @throws Exception If failed. */ public void testRemoteIfPathModeDiffers() throws Exception { GridConfiguration g2Cfg = getConfiguration("g2"); GridGgfsConfiguration g2GgfsCfg1 = new GridGgfsConfiguration(g1GgfsCfg1); GridGgfsConfiguration g2GgfsCfg2 = new GridGgfsConfiguration(g1GgfsCfg2); g2GgfsCfg1.setPathModes(ImmutableMap.of("/somePath", DUAL_SYNC)); g2GgfsCfg2.setPathModes(ImmutableMap.of("/somePath", DUAL_SYNC)); g1Cfg.setCacheConfiguration( concat(dataCaches(1024), metaCaches(), GridCacheConfiguration.class)); g2Cfg.setCacheConfiguration( concat(dataCaches(1024), metaCaches(), GridCacheConfiguration.class)); g2Cfg.setGgfsConfiguration(g2GgfsCfg1, g2GgfsCfg2); G.start(g1Cfg); checkGridStartFails( g2Cfg, "Path modes should be the same on all nodes in grid for GGFS", false); }
/** @throws Exception If failed. */ public void testLocalIfGgfsConfigsHaveDifferentNames() throws Exception { g1Cfg.setCacheConfiguration( concat(dataCaches(1024), metaCaches(), GridCacheConfiguration.class)); String ggfsCfgName = "ggfs-cfg"; g1GgfsCfg1.setName(ggfsCfgName); g1GgfsCfg2.setName(ggfsCfgName); checkGridStartFails( g1Cfg, "Duplicate GGFS name found (check configuration and assign unique name", true); }
/** * Create Grid configuration with configured checkpoints. * * @return Grid configuration. * @throws GridException If configuration creation failed. */ public static GridConfiguration configuration() throws GridException { GridConfiguration cfg = new GridConfiguration(); cfg.setLocalHost("127.0.0.1"); cfg.setPeerClassLoadingEnabled(true); GridOptimizedMarshaller marsh = new GridOptimizedMarshaller(); marsh.setRequireSerializable(false); cfg.setMarshaller(marsh); cfg.setDeploymentSpi(new GridUriDeploymentSpi()); GridTcpDiscoverySpi discoSpi = new GridTcpDiscoverySpi(); GridTcpDiscoveryVmIpFinder ipFinder = new GridTcpDiscoveryVmIpFinder(); ipFinder.setAddresses(Collections.singletonList("127.0.0.1:47500..47509")); discoSpi.setIpFinder(ipFinder); cfg.setDiscoverySpi(discoSpi); return cfg; }
/** {@inheritDoc} */ @Override protected GridConfiguration getConfiguration(String gridName) throws Exception { GridConfiguration c = super.getConfiguration(gridName); GridTcpDiscoverySpi discoSpi = new GridTcpDiscoverySpi(); discoSpi.setIpFinder(new GridTcpDiscoveryVmIpFinder(true)); c.setDiscoverySpi(discoSpi); c.setExecutorService( new ThreadPoolExecutor( SPLIT_COUNT, SPLIT_COUNT, 0, TimeUnit.MILLISECONDS, new LinkedBlockingQueue<Runnable>())); c.setExecutorServiceShutdown(true); return c; }
/** {@inheritDoc} */ @Override protected GridConfiguration getConfiguration() throws Exception { GridConfiguration c = super.getConfiguration(); GridTcpDiscoverySpi disco = new GridTcpDiscoverySpi(); disco.setIpFinder(new GridTcpDiscoveryVmIpFinder(true)); c.setDiscoverySpi(disco); GridCacheConfiguration cc = defaultCacheConfiguration(); cc.setCacheMode(LOCAL); cc.setTxSerializableEnabled(true); cc.setDefaultTxTimeout(50); c.setCacheConfiguration(cc); c.setNetworkTimeout(1000); return c; }
/** {@inheritDoc} */ @Override protected GridConfiguration getConfiguration(String gridName) throws Exception { GridConfiguration cfg = super.getConfiguration(gridName); if (cache) { GridCacheConfiguration cacheCfg = defaultCacheConfiguration(); cacheCfg.setCacheMode(PARTITIONED); cacheCfg.setBackups(1); cacheCfg.setDistributionMode(nearOnly ? NEAR_ONLY : NEAR_PARTITIONED); cacheCfg.setPreloadMode(SYNC); cacheCfg.setAtomicityMode(TRANSACTIONAL); cfg.setCacheConfiguration(cacheCfg); } GridTcpDiscoverySpi discoSpi = new GridTcpDiscoverySpi(); discoSpi.setIpFinder(IP_FINDER); cfg.setDiscoverySpi(discoSpi); return cfg; }
/** {@inheritDoc} */ @Override protected GridConfiguration getConfiguration(String gridName) throws Exception { GridConfiguration cfg = super.getConfiguration(gridName); GridTcpDiscoverySpi discoSpi = new GridTcpDiscoverySpi(); discoSpi.setIpFinder(IP_FINDER); cfg.setDiscoverySpi(discoSpi); g1GgfsCfg1.setName("g1GgfsCfg1"); g1GgfsCfg1.setDataCacheName(dataCache1Name); g1GgfsCfg1.setMetaCacheName(metaCache1Name); g1GgfsCfg2.setName("g1GgfsCfg2"); g1GgfsCfg2.setDataCacheName(dataCache2Name); g1GgfsCfg2.setMetaCacheName(metaCache2Name); cfg.setGgfsConfiguration(g1GgfsCfg1, g1GgfsCfg2); cfg.setLocalHost("127.0.0.1"); return cfg; }
/** @throws Exception If failed. */ public void testRemoteIfDefaultModeDiffers() throws Exception { GridConfiguration g2Cfg = getConfiguration("g2"); GridGgfsConfiguration g2GgfsCfg1 = new GridGgfsConfiguration(g1GgfsCfg1); GridGgfsConfiguration g2GgfsCfg2 = new GridGgfsConfiguration(g1GgfsCfg2); g1GgfsCfg1.setDefaultMode(DUAL_ASYNC); g1GgfsCfg2.setDefaultMode(DUAL_ASYNC); g2GgfsCfg1.setDefaultMode(DUAL_SYNC); g2GgfsCfg2.setDefaultMode(DUAL_SYNC); g1Cfg.setCacheConfiguration( concat(dataCaches(1024), metaCaches(), GridCacheConfiguration.class)); g2Cfg.setCacheConfiguration( concat(dataCaches(1024), metaCaches(), GridCacheConfiguration.class)); g2Cfg.setGgfsConfiguration(g2GgfsCfg1, g2GgfsCfg2); G.start(g1Cfg); checkGridStartFails( g2Cfg, "Default mode should be the same on all nodes in grid for GGFS", false); }
/** @throws Exception If failed. */ public void testRemoteIfMetaCacheNameDiffers() throws Exception { GridConfiguration g2Cfg = getConfiguration("g2"); GridGgfsConfiguration g2GgfsCfg1 = new GridGgfsConfiguration(g1GgfsCfg1); GridGgfsConfiguration g2GgfsCfg2 = new GridGgfsConfiguration(g1GgfsCfg2); g2GgfsCfg1.setMetaCacheName("g2MetaCache1"); g2GgfsCfg2.setMetaCacheName("g2MetaCache2"); g1Cfg.setCacheConfiguration( concat(dataCaches(1024), metaCaches(), GridCacheConfiguration.class)); g2Cfg.setCacheConfiguration( concat( dataCaches(1024), metaCaches("g2MetaCache1", "g2MetaCache2"), GridCacheConfiguration.class)); g2Cfg.setGgfsConfiguration(g2GgfsCfg1, g2GgfsCfg2); G.start(g1Cfg); checkGridStartFails( g2Cfg, "Meta cache name should be the same on all nodes in grid for GGFS", false); }
/** {@inheritDoc} */ @Override protected GridConfiguration getConfiguration(String gridName) throws Exception { GridConfiguration cfg = super.getConfiguration(gridName); GridTcpDiscoverySpi discoSpi = new GridTcpDiscoverySpi(); discoSpi.setIpFinder(IP_FINDER); cfg.setDiscoverySpi(discoSpi); GridGgfsConfiguration ggfsCfg = new GridGgfsConfiguration(); ggfsCfg.setDataCacheName("partitioned"); ggfsCfg.setMetaCacheName("replicated"); ggfsCfg.setName("ggfs"); ggfsCfg.setManagementPort(GridGgfsConfiguration.DFLT_MGMT_PORT + cnt); ggfsCfg.setIpcEndpointConfiguration( new HashMap<String, String>() { { put("type", "shmem"); put("port", String.valueOf(GridIpcSharedMemoryServerEndpoint.DFLT_IPC_PORT + cnt)); } }); ggfsCfg.setBlockSize( 512 * 1024); // Together with group blocks mapper will yield 64M per node groups. cfg.setGgfsConfiguration(ggfsCfg); cfg.setCacheConfiguration(cacheConfiguration()); cfg.setIncludeEventTypes(EVT_TASK_FAILED, EVT_TASK_FINISHED, EVT_JOB_MAPPED); GridTcpCommunicationSpi commSpi = new GridTcpCommunicationSpi(); commSpi.setSharedMemoryPort(-1); cfg.setCommunicationSpi(commSpi); cnt++; return cfg; }
/** {@inheritDoc} */ @Override protected GridConfiguration getConfiguration(String gridName) throws Exception { GridConfiguration c = super.getConfiguration(gridName); c.setLocalHost(HOST); assert c.getClientConnectionConfiguration() == null; GridClientConnectionConfiguration clientCfg = new GridClientConnectionConfiguration(); clientCfg.setRestTcpPort(REST_TCP_PORT_BASE); GridSslContextFactory sslCtxFactory = sslContextFactory(); if (sslCtxFactory != null) { clientCfg.setRestTcpSslEnabled(true); clientCfg.setRestTcpSslContextFactory(sslCtxFactory); } c.setClientConnectionConfiguration(clientCfg); GridTcpDiscoverySpi disco = new GridTcpDiscoverySpi(); disco.setIpFinder(IP_FINDER); c.setDiscoverySpi(disco); TestCommunicationSpi spi = new TestCommunicationSpi(); spi.setLocalPort(GridTestUtils.getNextCommPort(getClass())); c.setCommunicationSpi(spi); c.setCacheConfiguration( cacheConfiguration(null), cacheConfiguration(PARTITIONED_CACHE_NAME), cacheConfiguration(REPLICATED_CACHE_NAME), cacheConfiguration(REPLICATED_ASYNC_CACHE_NAME)); ThreadPoolExecutor exec = new ThreadPoolExecutor(40, 40, 0, MILLISECONDS, new LinkedBlockingQueue<Runnable>()); exec.prestartAllCoreThreads(); c.setExecutorService(exec); c.setExecutorServiceShutdown(true); ThreadPoolExecutor sysExec = new ThreadPoolExecutor(40, 40, 0, MILLISECONDS, new LinkedBlockingQueue<Runnable>()); sysExec.prestartAllCoreThreads(); c.setSystemExecutorService(sysExec); c.setSystemExecutorServiceShutdown(true); return c; }