/** * Test {@link DFSUtil#getNamenodeNameServiceId(Configuration)} to ensure exception is thrown when * multiple rpc addresses match the local node's address */ @Test(expected = HadoopIllegalArgumentException.class) public void testGetNameServiceIdException() { HdfsConfiguration conf = new HdfsConfiguration(); conf.set(DFS_NAMESERVICES, "nn1,nn2"); conf.set(DFSUtil.addKeySuffixes(DFS_NAMENODE_RPC_ADDRESS_KEY, "nn1"), "localhost:9000"); conf.set(DFSUtil.addKeySuffixes(DFS_NAMENODE_RPC_ADDRESS_KEY, "nn2"), "localhost:9001"); DFSUtil.getNamenodeNameServiceId(conf); fail("Expected exception is not thrown"); }
@Test public void testHANameNodesWithFederation() throws URISyntaxException { HdfsConfiguration conf = new HdfsConfiguration(); final String NS1_NN1_HOST = "ns1-nn1.example.com:8020"; final String NS1_NN2_HOST = "ns1-nn2.example.com:8020"; final String NS2_NN1_HOST = "ns2-nn1.example.com:8020"; final String NS2_NN2_HOST = "ns2-nn2.example.com:8020"; conf.set(CommonConfigurationKeys.FS_DEFAULT_NAME_KEY, "hdfs://ns1"); // Two nameservices, each with two NNs. conf.set(DFS_NAMESERVICES, "ns1,ns2"); conf.set(DFSUtil.addKeySuffixes(DFS_HA_NAMENODES_KEY_PREFIX, "ns1"), "ns1-nn1,ns1-nn2"); conf.set(DFSUtil.addKeySuffixes(DFS_HA_NAMENODES_KEY_PREFIX, "ns2"), "ns2-nn1,ns2-nn2"); conf.set(DFSUtil.addKeySuffixes(DFS_NAMENODE_RPC_ADDRESS_KEY, "ns1", "ns1-nn1"), NS1_NN1_HOST); conf.set(DFSUtil.addKeySuffixes(DFS_NAMENODE_RPC_ADDRESS_KEY, "ns1", "ns1-nn2"), NS1_NN2_HOST); conf.set(DFSUtil.addKeySuffixes(DFS_NAMENODE_RPC_ADDRESS_KEY, "ns2", "ns2-nn1"), NS2_NN1_HOST); conf.set(DFSUtil.addKeySuffixes(DFS_NAMENODE_RPC_ADDRESS_KEY, "ns2", "ns2-nn2"), NS2_NN2_HOST); Map<String, Map<String, InetSocketAddress>> map = DFSUtil.getHaNnRpcAddresses(conf); assertTrue(HAUtil.isHAEnabled(conf, "ns1")); assertTrue(HAUtil.isHAEnabled(conf, "ns2")); assertFalse(HAUtil.isHAEnabled(conf, "ns3")); assertEquals(NS1_NN1_HOST, map.get("ns1").get("ns1-nn1").toString()); assertEquals(NS1_NN2_HOST, map.get("ns1").get("ns1-nn2").toString()); assertEquals(NS2_NN1_HOST, map.get("ns2").get("ns2-nn1").toString()); assertEquals(NS2_NN2_HOST, map.get("ns2").get("ns2-nn2").toString()); assertEquals(NS1_NN1_HOST, DFSUtil.getNamenodeServiceAddr(conf, "ns1", "ns1-nn1")); assertEquals(NS1_NN2_HOST, DFSUtil.getNamenodeServiceAddr(conf, "ns1", "ns1-nn2")); assertEquals(NS2_NN1_HOST, DFSUtil.getNamenodeServiceAddr(conf, "ns2", "ns2-nn1")); // No nameservice was given and we can't determine which service addr // to use as two nameservices could share a namenode ID. assertEquals(null, DFSUtil.getNamenodeServiceAddr(conf, null, "ns1-nn1")); // Ditto for nameservice IDs, if multiple are defined assertEquals(null, DFSUtil.getNamenodeNameServiceId(conf)); assertEquals(null, DFSUtil.getSecondaryNameServiceId(conf)); Collection<URI> uris = DFSUtil.getNameServiceUris(conf, DFS_NAMENODE_RPC_ADDRESS_KEY); assertEquals(2, uris.size()); assertTrue(uris.contains(new URI("hdfs://ns1"))); assertTrue(uris.contains(new URI("hdfs://ns2"))); }
@Test public void getNameNodeServiceAddr() throws IOException { HdfsConfiguration conf = new HdfsConfiguration(); // One nameservice with two NNs final String NS1_NN1_HOST = "ns1-nn1.example.com:8020"; final String NS1_NN1_HOST_SVC = "ns1-nn2.example.com:8021"; final String NS1_NN2_HOST = "ns1-nn1.example.com:8020"; final String NS1_NN2_HOST_SVC = "ns1-nn2.example.com:8021"; conf.set(DFS_NAMESERVICES, "ns1"); conf.set(DFSUtil.addKeySuffixes(DFS_HA_NAMENODES_KEY_PREFIX, "ns1"), "nn1,nn2"); conf.set(DFSUtil.addKeySuffixes(DFS_NAMENODE_RPC_ADDRESS_KEY, "ns1", "nn1"), NS1_NN1_HOST); conf.set(DFSUtil.addKeySuffixes(DFS_NAMENODE_RPC_ADDRESS_KEY, "ns1", "nn2"), NS1_NN2_HOST); // The rpc address is used if no service address is defined assertEquals(NS1_NN1_HOST, DFSUtil.getNamenodeServiceAddr(conf, null, "nn1")); assertEquals(NS1_NN2_HOST, DFSUtil.getNamenodeServiceAddr(conf, null, "nn2")); // A nameservice is specified explicitly assertEquals(NS1_NN1_HOST, DFSUtil.getNamenodeServiceAddr(conf, "ns1", "nn1")); assertEquals(null, DFSUtil.getNamenodeServiceAddr(conf, "invalid", "nn1")); // The service addrs are used when they are defined conf.set( DFSUtil.addKeySuffixes(DFS_NAMENODE_SERVICE_RPC_ADDRESS_KEY, "ns1", "nn1"), NS1_NN1_HOST_SVC); conf.set( DFSUtil.addKeySuffixes(DFS_NAMENODE_SERVICE_RPC_ADDRESS_KEY, "ns1", "nn2"), NS1_NN2_HOST_SVC); assertEquals(NS1_NN1_HOST_SVC, DFSUtil.getNamenodeServiceAddr(conf, null, "nn1")); assertEquals(NS1_NN2_HOST_SVC, DFSUtil.getNamenodeServiceAddr(conf, null, "nn2")); // We can determine the nameservice ID, there's only one listed assertEquals("ns1", DFSUtil.getNamenodeNameServiceId(conf)); assertEquals("ns1", DFSUtil.getSecondaryNameServiceId(conf)); }
/** * Test {@link DFSUtil#getNamenodeNameServiceId(Configuration)} to ensure nameserviceId for * namenode is determined based on matching the address with local node's address */ @Test public void getNameNodeNameServiceId() { Configuration conf = setupAddress(DFS_NAMENODE_RPC_ADDRESS_KEY); assertEquals("nn1", DFSUtil.getNamenodeNameServiceId(conf)); }
/** * Test {@link DFSUtil#getNamenodeNameServiceId(Configuration)} to ensure nameserviceId from the * configuration returned */ @Test public void getNameServiceId() { HdfsConfiguration conf = new HdfsConfiguration(); conf.set(DFS_NAMESERVICE_ID, "nn1"); assertEquals("nn1", DFSUtil.getNamenodeNameServiceId(conf)); }