private Source getSource(String serverName, String type, String name) { Enumeration<Server> e = _servers.keys(); while (e.hasMoreElements()) { Server s = (Server) e.nextElement(); String sname = s.getServerName(); if (sname.equals(serverName) || serverName.length() == 0) { Enumeration<Source> f = s.getSources(); while (f.hasMoreElements()) { Source src = (Source) f.nextElement(); if (src.getType().equals(type) && src.getName().equals(name)) return src; } } } return null; }
@Test public void testAssignmentManagerDoesntUseDrainingServer() throws Exception { AssignmentManager am; Configuration conf = TEST_UTIL.getConfiguration(); final HMaster master = Mockito.mock(HMaster.class); final Server server = Mockito.mock(Server.class); final ServerManager serverManager = Mockito.mock(ServerManager.class); final ServerName SERVERNAME_A = ServerName.valueOf("mockserver_a.org", 1000, 8000); final ServerName SERVERNAME_B = ServerName.valueOf("mockserver_b.org", 1001, 8000); LoadBalancer balancer = LoadBalancerFactory.getLoadBalancer(conf); final HRegionInfo REGIONINFO = new HRegionInfo( TableName.valueOf("table_test"), HConstants.EMPTY_START_ROW, HConstants.EMPTY_START_ROW); ZooKeeperWatcher zkWatcher = new ZooKeeperWatcher(TEST_UTIL.getConfiguration(), "zkWatcher-Test", abortable, true); Map<ServerName, ServerLoad> onlineServers = new HashMap<ServerName, ServerLoad>(); onlineServers.put(SERVERNAME_A, ServerLoad.EMPTY_SERVERLOAD); onlineServers.put(SERVERNAME_B, ServerLoad.EMPTY_SERVERLOAD); Mockito.when(server.getConfiguration()).thenReturn(conf); Mockito.when(server.getServerName()).thenReturn(ServerName.valueOf("masterMock,1,1")); Mockito.when(server.getZooKeeper()).thenReturn(zkWatcher); CoordinatedStateManager cp = new ZkCoordinatedStateManager(); cp.initialize(server); cp.start(); Mockito.when(server.getCoordinatedStateManager()).thenReturn(cp); Mockito.when(serverManager.getOnlineServers()).thenReturn(onlineServers); Mockito.when(serverManager.getOnlineServersList()) .thenReturn(new ArrayList<ServerName>(onlineServers.keySet())); Mockito.when(serverManager.createDestinationServersList()) .thenReturn(new ArrayList<ServerName>(onlineServers.keySet())); Mockito.when(serverManager.createDestinationServersList(null)) .thenReturn(new ArrayList<ServerName>(onlineServers.keySet())); for (ServerName sn : onlineServers.keySet()) { Mockito.when(serverManager.isServerOnline(sn)).thenReturn(true); Mockito.when(serverManager.sendRegionClose(sn, REGIONINFO, -1)).thenReturn(true); Mockito.when(serverManager.sendRegionClose(sn, REGIONINFO, -1, null, false)).thenReturn(true); Mockito.when(serverManager.sendRegionOpen(sn, REGIONINFO, -1, new ArrayList<ServerName>())) .thenReturn(RegionOpeningState.OPENED); Mockito.when(serverManager.sendRegionOpen(sn, REGIONINFO, -1, null)) .thenReturn(RegionOpeningState.OPENED); Mockito.when(serverManager.addServerToDrainList(sn)).thenReturn(true); } Mockito.when(master.getServerManager()).thenReturn(serverManager); am = new AssignmentManager( server, serverManager, balancer, startupMasterExecutor("mockExecutorService"), null, null); Mockito.when(master.getAssignmentManager()).thenReturn(am); Mockito.when(master.getZooKeeper()).thenReturn(zkWatcher); am.addPlan(REGIONINFO.getEncodedName(), new RegionPlan(REGIONINFO, null, SERVERNAME_A)); zkWatcher.registerListenerFirst(am); addServerToDrainedList(SERVERNAME_A, onlineServers, serverManager); am.assign(REGIONINFO, true); setRegionOpenedOnZK(zkWatcher, SERVERNAME_A, REGIONINFO); setRegionOpenedOnZK(zkWatcher, SERVERNAME_B, REGIONINFO); am.waitForAssignment(REGIONINFO); assertTrue(am.getRegionStates().isRegionOnline(REGIONINFO)); assertNotEquals(am.getRegionStates().getRegionServerOfRegion(REGIONINFO), SERVERNAME_A); }
@Test public void testAssignmentManagerDoesntUseDrainedServerWithBulkAssign() throws Exception { Configuration conf = TEST_UTIL.getConfiguration(); LoadBalancer balancer = LoadBalancerFactory.getLoadBalancer(conf); AssignmentManager am; final HMaster master = Mockito.mock(HMaster.class); final Server server = Mockito.mock(Server.class); final ServerManager serverManager = Mockito.mock(ServerManager.class); final ServerName SERVERNAME_A = ServerName.valueOf("mockserverbulk_a.org", 1000, 8000); final ServerName SERVERNAME_B = ServerName.valueOf("mockserverbulk_b.org", 1001, 8000); final ServerName SERVERNAME_C = ServerName.valueOf("mockserverbulk_c.org", 1002, 8000); final ServerName SERVERNAME_D = ServerName.valueOf("mockserverbulk_d.org", 1003, 8000); final ServerName SERVERNAME_E = ServerName.valueOf("mockserverbulk_e.org", 1004, 8000); final Map<HRegionInfo, ServerName> bulk = new HashMap<HRegionInfo, ServerName>(); Set<ServerName> bunchServersAssigned = new HashSet<ServerName>(); HRegionInfo REGIONINFO_A = new HRegionInfo( TableName.valueOf("table_A"), HConstants.EMPTY_START_ROW, HConstants.EMPTY_START_ROW); HRegionInfo REGIONINFO_B = new HRegionInfo( TableName.valueOf("table_B"), HConstants.EMPTY_START_ROW, HConstants.EMPTY_START_ROW); HRegionInfo REGIONINFO_C = new HRegionInfo( TableName.valueOf("table_C"), HConstants.EMPTY_START_ROW, HConstants.EMPTY_START_ROW); HRegionInfo REGIONINFO_D = new HRegionInfo( TableName.valueOf("table_D"), HConstants.EMPTY_START_ROW, HConstants.EMPTY_START_ROW); HRegionInfo REGIONINFO_E = new HRegionInfo( TableName.valueOf("table_E"), HConstants.EMPTY_START_ROW, HConstants.EMPTY_START_ROW); Map<ServerName, ServerLoad> onlineServers = new HashMap<ServerName, ServerLoad>(); List<ServerName> drainedServers = new ArrayList<ServerName>(); onlineServers.put(SERVERNAME_A, ServerLoad.EMPTY_SERVERLOAD); onlineServers.put(SERVERNAME_B, ServerLoad.EMPTY_SERVERLOAD); onlineServers.put(SERVERNAME_C, ServerLoad.EMPTY_SERVERLOAD); onlineServers.put(SERVERNAME_D, ServerLoad.EMPTY_SERVERLOAD); onlineServers.put(SERVERNAME_E, ServerLoad.EMPTY_SERVERLOAD); bulk.put(REGIONINFO_A, SERVERNAME_A); bulk.put(REGIONINFO_B, SERVERNAME_B); bulk.put(REGIONINFO_C, SERVERNAME_C); bulk.put(REGIONINFO_D, SERVERNAME_D); bulk.put(REGIONINFO_E, SERVERNAME_E); ZooKeeperWatcher zkWatcher = new ZooKeeperWatcher( TEST_UTIL.getConfiguration(), "zkWatcher-BulkAssignTest", abortable, true); Mockito.when(server.getConfiguration()).thenReturn(conf); Mockito.when(server.getServerName()).thenReturn(ServerName.valueOf("masterMock,1,1")); Mockito.when(server.getZooKeeper()).thenReturn(zkWatcher); CoordinatedStateManager cp = new ZkCoordinatedStateManager(); cp.initialize(server); cp.start(); Mockito.when(server.getCoordinatedStateManager()).thenReturn(cp); Mockito.when(serverManager.getOnlineServers()).thenReturn(onlineServers); Mockito.when(serverManager.getOnlineServersList()) .thenReturn(new ArrayList<ServerName>(onlineServers.keySet())); Mockito.when(serverManager.createDestinationServersList()) .thenReturn(new ArrayList<ServerName>(onlineServers.keySet())); Mockito.when(serverManager.createDestinationServersList(null)) .thenReturn(new ArrayList<ServerName>(onlineServers.keySet())); for (Entry<HRegionInfo, ServerName> entry : bulk.entrySet()) { Mockito.when(serverManager.isServerOnline(entry.getValue())).thenReturn(true); Mockito.when(serverManager.sendRegionClose(entry.getValue(), entry.getKey(), -1)) .thenReturn(true); Mockito.when(serverManager.sendRegionOpen(entry.getValue(), entry.getKey(), -1, null)) .thenReturn(RegionOpeningState.OPENED); Mockito.when(serverManager.addServerToDrainList(entry.getValue())).thenReturn(true); } Mockito.when(master.getServerManager()).thenReturn(serverManager); drainedServers.add(SERVERNAME_A); drainedServers.add(SERVERNAME_B); drainedServers.add(SERVERNAME_C); drainedServers.add(SERVERNAME_D); am = new AssignmentManager( server, serverManager, balancer, startupMasterExecutor("mockExecutorServiceBulk"), null, null); Mockito.when(master.getAssignmentManager()).thenReturn(am); zkWatcher.registerListener(am); for (ServerName drained : drainedServers) { addServerToDrainedList(drained, onlineServers, serverManager); } am.assign(bulk); Map<String, RegionState> regionsInTransition = am.getRegionStates().getRegionsInTransition(); for (Entry<String, RegionState> entry : regionsInTransition.entrySet()) { setRegionOpenedOnZK( zkWatcher, entry.getValue().getServerName(), entry.getValue().getRegion()); } am.waitForAssignment(REGIONINFO_A); am.waitForAssignment(REGIONINFO_B); am.waitForAssignment(REGIONINFO_C); am.waitForAssignment(REGIONINFO_D); am.waitForAssignment(REGIONINFO_E); Map<HRegionInfo, ServerName> regionAssignments = am.getRegionStates().getRegionAssignments(); for (Entry<HRegionInfo, ServerName> entry : regionAssignments.entrySet()) { LOG.info( "Region Assignment: " + entry.getKey().getRegionNameAsString() + " Server: " + entry.getValue()); bunchServersAssigned.add(entry.getValue()); } for (ServerName sn : drainedServers) { assertFalse(bunchServersAssigned.contains(sn)); } }
@Test public void testLogCleaning() throws Exception { Configuration conf = TEST_UTIL.getConfiguration(); // set TTL long ttl = 10000; conf.setLong("hbase.master.logcleaner.ttl", ttl); conf.setBoolean(HConstants.REPLICATION_ENABLE_KEY, HConstants.REPLICATION_ENABLE_DEFAULT); Replication.decorateMasterConfiguration(conf); Server server = new DummyServer(); ReplicationQueues repQueues = ReplicationFactory.getReplicationQueues(server.getZooKeeper(), conf, server); repQueues.init(server.getServerName().toString()); final Path oldLogDir = new Path(TEST_UTIL.getDataTestDir(), HConstants.HREGION_OLDLOGDIR_NAME); String fakeMachineName = URLEncoder.encode(server.getServerName().toString(), "UTF8"); final FileSystem fs = FileSystem.get(conf); // Create 2 invalid files, 1 "recent" file, 1 very new file and 30 old files long now = System.currentTimeMillis(); fs.delete(oldLogDir, true); fs.mkdirs(oldLogDir); // Case 1: 2 invalid files, which would be deleted directly fs.createNewFile(new Path(oldLogDir, "a")); fs.createNewFile(new Path(oldLogDir, fakeMachineName + "." + "a")); // Case 2: 1 "recent" file, not even deletable for the first log cleaner // (TimeToLiveLogCleaner), so we are not going down the chain System.out.println("Now is: " + now); for (int i = 1; i < 31; i++) { // Case 3: old files which would be deletable for the first log cleaner // (TimeToLiveLogCleaner), and also for the second (ReplicationLogCleaner) Path fileName = new Path(oldLogDir, fakeMachineName + "." + (now - i)); fs.createNewFile(fileName); // Case 4: put 3 old log files in ZK indicating that they are scheduled // for replication so these files would pass the first log cleaner // (TimeToLiveLogCleaner) but would be rejected by the second // (ReplicationLogCleaner) if (i % (30 / 3) == 1) { repQueues.addLog(fakeMachineName, fileName.getName()); System.out.println("Replication log file: " + fileName); } } // sleep for sometime to get newer modifcation time Thread.sleep(ttl); fs.createNewFile(new Path(oldLogDir, fakeMachineName + "." + now)); // Case 2: 1 newer file, not even deletable for the first log cleaner // (TimeToLiveLogCleaner), so we are not going down the chain fs.createNewFile(new Path(oldLogDir, fakeMachineName + "." + (now + 10000))); for (FileStatus stat : fs.listStatus(oldLogDir)) { System.out.println(stat.getPath().toString()); } assertEquals(34, fs.listStatus(oldLogDir).length); LogCleaner cleaner = new LogCleaner(1000, server, conf, fs, oldLogDir); cleaner.chore(); // We end up with the current log file, a newer one and the 3 old log // files which are scheduled for replication TEST_UTIL.waitFor( 1000, new Waiter.Predicate<Exception>() { @Override public boolean evaluate() throws Exception { return 5 == fs.listStatus(oldLogDir).length; } }); for (FileStatus file : fs.listStatus(oldLogDir)) { System.out.println("Kept log files: " + file.getPath().getName()); } }
public static String getServerName() { return server.getServerName(); }