/**
* Test for {@link DFSUtil#getNNServiceRpcAddresses(Configuration)} {@link
* DFSUtil#getNameServiceIdFromAddress(Configuration, InetSocketAddress, String...)
* (Configuration)}
*/
@Test
public void testMultipleNamenodes() throws IOException {
HdfsConfiguration conf = new HdfsConfiguration();
conf.set(DFS_NAMESERVICES, "nn1,nn2");
// Test - configured list of namenodes are returned
final String NN1_ADDRESS = "localhost:9000";
final String NN2_ADDRESS = "localhost:9001";
final String NN3_ADDRESS = "localhost:9002";
conf.set(DFSUtil.addKeySuffixes(DFS_NAMENODE_RPC_ADDRESS_KEY, "nn1"), NN1_ADDRESS);
conf.set(DFSUtil.addKeySuffixes(DFS_NAMENODE_RPC_ADDRESS_KEY, "nn2"), NN2_ADDRESS);
Map<String, Map<String, InetSocketAddress>> nnMap = DFSUtil.getNNServiceRpcAddresses(conf);
assertEquals(2, nnMap.size());
Map<String, InetSocketAddress> nn1Map = nnMap.get("nn1");
assertEquals(1, nn1Map.size());
InetSocketAddress addr = nn1Map.get(null);
assertEquals("localhost", addr.getHostName());
assertEquals(9000, addr.getPort());
Map<String, InetSocketAddress> nn2Map = nnMap.get("nn2");
assertEquals(1, nn2Map.size());
addr = nn2Map.get(null);
assertEquals("localhost", addr.getHostName());
assertEquals(9001, addr.getPort());
// Test - can look up nameservice ID from service address
checkNameServiceId(conf, NN1_ADDRESS, "nn1");
checkNameServiceId(conf, NN2_ADDRESS, "nn2");
checkNameServiceId(conf, NN3_ADDRESS, null);
// HA is not enabled in a purely federated config
assertFalse(HAUtil.isHAEnabled(conf, "nn1"));
assertFalse(HAUtil.isHAEnabled(conf, "nn2"));
}
@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")));
}