HADOOP-12186. ActiveStandbyElector shouldn't call monitorLockNodeAsync multiple times (Contributed by zhihai xu)

(cherry picked from commit 233cab89ad)
This commit is contained in:
Vinayakumar B 2015-07-06 15:39:43 +05:30
parent 415dd64461
commit 91d2c59968
3 changed files with 51 additions and 3 deletions

View File

@ -433,6 +433,9 @@ Release 2.8.0 - UNRELEASED
HADOOP-12173. NetworkTopology::add calls toString always. HADOOP-12173. NetworkTopology::add calls toString always.
(Inigo Goiri via cdouglas) (Inigo Goiri via cdouglas)
HADOOP-12186. ActiveStandbyElector shouldn't call monitorLockNodeAsync
multiple times (zhihai xu via vinayakumarb)
Release 2.7.2 - UNRELEASED Release 2.7.2 - UNRELEASED
INCOMPATIBLE CHANGES INCOMPATIBLE CHANGES

View File

@ -173,6 +173,8 @@ public class ActiveStandbyElector implements StatCallback, StringCallback {
private Lock sessionReestablishLockForTests = new ReentrantLock(); private Lock sessionReestablishLockForTests = new ReentrantLock();
private boolean wantToBeInElection; private boolean wantToBeInElection;
private boolean monitorLockNodePending = false;
private ZooKeeper monitorLockNodeClient;
/** /**
* Create a new ActiveStandbyElector object <br/> * Create a new ActiveStandbyElector object <br/>
@ -468,6 +470,7 @@ public class ActiveStandbyElector implements StatCallback, StringCallback {
public synchronized void processResult(int rc, String path, Object ctx, public synchronized void processResult(int rc, String path, Object ctx,
Stat stat) { Stat stat) {
if (isStaleClient(ctx)) return; if (isStaleClient(ctx)) return;
monitorLockNodePending = false;
assert wantToBeInElection : assert wantToBeInElection :
"Got a StatNode result after quitting election"; "Got a StatNode result after quitting election";
@ -744,6 +747,11 @@ public class ActiveStandbyElector implements StatCallback, StringCallback {
return state; return state;
} }
@VisibleForTesting
synchronized boolean isMonitorLockNodePending() {
return monitorLockNodePending;
}
private boolean reEstablishSession() { private boolean reEstablishSession() {
int connectionRetryCount = 0; int connectionRetryCount = 0;
boolean success = false; boolean success = false;
@ -949,6 +957,12 @@ public class ActiveStandbyElector implements StatCallback, StringCallback {
} }
private void monitorLockNodeAsync() { private void monitorLockNodeAsync() {
if (monitorLockNodePending && monitorLockNodeClient == zkClient) {
LOG.info("Ignore duplicate monitor lock-node request.");
return;
}
monitorLockNodePending = true;
monitorLockNodeClient = zkClient;
zkClient.exists(zkLockFilePath, zkClient.exists(zkLockFilePath,
watcher, this, watcher, this,
zkClient); zkClient);

View File

@ -452,6 +452,10 @@ public class TestActiveStandbyElector {
Event.KeeperState.SyncConnected); Event.KeeperState.SyncConnected);
elector.processWatchEvent(mockZK, mockEvent); elector.processWatchEvent(mockZK, mockEvent);
verifyExistCall(1); verifyExistCall(1);
Assert.assertTrue(elector.isMonitorLockNodePending());
elector.processResult(Code.SESSIONEXPIRED.intValue(), ZK_LOCK_NAME,
mockZK, new Stat());
Assert.assertFalse(elector.isMonitorLockNodePending());
// session expired should enter safe mode and initiate re-election // session expired should enter safe mode and initiate re-election
// re-election checked via checking re-creation of new zookeeper and // re-election checked via checking re-creation of new zookeeper and
@ -495,6 +499,13 @@ public class TestActiveStandbyElector {
ZK_LOCK_NAME); ZK_LOCK_NAME);
Mockito.verify(mockApp, Mockito.times(1)).becomeStandby(); Mockito.verify(mockApp, Mockito.times(1)).becomeStandby();
verifyExistCall(1); verifyExistCall(1);
Assert.assertTrue(elector.isMonitorLockNodePending());
Stat stat = new Stat();
stat.setEphemeralOwner(0L);
Mockito.when(mockZK.getSessionId()).thenReturn(1L);
elector.processResult(Code.OK.intValue(), ZK_LOCK_NAME, mockZK, stat);
Assert.assertFalse(elector.isMonitorLockNodePending());
WatchedEvent mockEvent = Mockito.mock(WatchedEvent.class); WatchedEvent mockEvent = Mockito.mock(WatchedEvent.class);
Mockito.when(mockEvent.getPath()).thenReturn(ZK_LOCK_NAME); Mockito.when(mockEvent.getPath()).thenReturn(ZK_LOCK_NAME);
@ -504,12 +515,18 @@ public class TestActiveStandbyElector {
Event.EventType.NodeDataChanged); Event.EventType.NodeDataChanged);
elector.processWatchEvent(mockZK, mockEvent); elector.processWatchEvent(mockZK, mockEvent);
verifyExistCall(2); verifyExistCall(2);
Assert.assertTrue(elector.isMonitorLockNodePending());
elector.processResult(Code.OK.intValue(), ZK_LOCK_NAME, mockZK, stat);
Assert.assertFalse(elector.isMonitorLockNodePending());
// monitoring should be setup again after event is received // monitoring should be setup again after event is received
Mockito.when(mockEvent.getType()).thenReturn( Mockito.when(mockEvent.getType()).thenReturn(
Event.EventType.NodeChildrenChanged); Event.EventType.NodeChildrenChanged);
elector.processWatchEvent(mockZK, mockEvent); elector.processWatchEvent(mockZK, mockEvent);
verifyExistCall(3); verifyExistCall(3);
Assert.assertTrue(elector.isMonitorLockNodePending());
elector.processResult(Code.OK.intValue(), ZK_LOCK_NAME, mockZK, stat);
Assert.assertFalse(elector.isMonitorLockNodePending());
// lock node deletion when in standby mode should create znode again // lock node deletion when in standby mode should create znode again
// successful znode creation enters active state and sets monitor // successful znode creation enters active state and sets monitor
@ -524,6 +541,10 @@ public class TestActiveStandbyElector {
ZK_LOCK_NAME); ZK_LOCK_NAME);
Mockito.verify(mockApp, Mockito.times(1)).becomeActive(); Mockito.verify(mockApp, Mockito.times(1)).becomeActive();
verifyExistCall(4); verifyExistCall(4);
Assert.assertTrue(elector.isMonitorLockNodePending());
stat.setEphemeralOwner(1L);
elector.processResult(Code.OK.intValue(), ZK_LOCK_NAME, mockZK, stat);
Assert.assertFalse(elector.isMonitorLockNodePending());
// lock node deletion in active mode should enter neutral mode and create // lock node deletion in active mode should enter neutral mode and create
// znode again successful znode creation enters active state and sets // znode again successful znode creation enters active state and sets
@ -538,6 +559,9 @@ public class TestActiveStandbyElector {
ZK_LOCK_NAME); ZK_LOCK_NAME);
Mockito.verify(mockApp, Mockito.times(2)).becomeActive(); Mockito.verify(mockApp, Mockito.times(2)).becomeActive();
verifyExistCall(5); verifyExistCall(5);
Assert.assertTrue(elector.isMonitorLockNodePending());
elector.processResult(Code.OK.intValue(), ZK_LOCK_NAME, mockZK, stat);
Assert.assertFalse(elector.isMonitorLockNodePending());
// bad path name results in fatal error // bad path name results in fatal error
Mockito.when(mockEvent.getPath()).thenReturn(null); Mockito.when(mockEvent.getPath()).thenReturn(null);
@ -570,6 +594,13 @@ public class TestActiveStandbyElector {
ZK_LOCK_NAME); ZK_LOCK_NAME);
Mockito.verify(mockApp, Mockito.times(1)).becomeStandby(); Mockito.verify(mockApp, Mockito.times(1)).becomeStandby();
verifyExistCall(1); verifyExistCall(1);
Assert.assertTrue(elector.isMonitorLockNodePending());
Stat stat = new Stat();
stat.setEphemeralOwner(0L);
Mockito.when(mockZK.getSessionId()).thenReturn(1L);
elector.processResult(Code.OK.intValue(), ZK_LOCK_NAME, mockZK, stat);
Assert.assertFalse(elector.isMonitorLockNodePending());
WatchedEvent mockEvent = Mockito.mock(WatchedEvent.class); WatchedEvent mockEvent = Mockito.mock(WatchedEvent.class);
Mockito.when(mockEvent.getPath()).thenReturn(ZK_LOCK_NAME); Mockito.when(mockEvent.getPath()).thenReturn(ZK_LOCK_NAME);