@Override
public synchronized void killTasks(Query.Builder query, final String user)
throws ScheduleException {
checkNotNull(query);
LOG.info("Killing tasks matching " + query);
boolean jobDeleted = false;
if (Query.isOnlyJobScoped(query)) {
// If this looks like a query for all tasks in a job, instruct the scheduler modules to
// delete the job.
IJobKey jobKey = JobKeys.from(query).get();
for (JobManager manager : jobManagers) {
if (manager.deleteJob(jobKey)) {
jobDeleted = true;
}
}
}
// Unless statuses were specifically supplied, only attempt to kill active tasks.
final Query.Builder taskQuery =
query.get().isSetStatuses() ? query.byStatus(ACTIVE_STATES) : query;
int tasksAffected =
storage.write(
new MutateWork.Quiet<Integer>() {
@Override
public Integer apply(MutableStoreProvider storeProvider) {
int total = 0;
for (String taskId :
Tasks.ids(storeProvider.getTaskStore().fetchTasks(taskQuery))) {
boolean changed =
stateManager.changeState(
taskId,
Optional.<ScheduleStatus>absent(),
KILLING,
Optional.of("Killed by " + user));
if (changed) {
total++;
}
}
return total;
}
});
if (!jobDeleted && (tasksAffected == 0)) {
throw new ScheduleException("No jobs to kill");
}
}
@Test
public void testGetConnector() {
when(connectorMgrMock.getSqoopConnector(123l)).thenReturn(sqoopConnectorMock);
when(sqoopConnectorMock.getSupportedDirections()).thenReturn(getSupportedDirections());
assertEquals(jobManager.getSqoopConnector(123l), sqoopConnectorMock);
verify(connectorMgrMock, times(1)).getSqoopConnector(123l);
}
@BeforeClass
public static void setupJobManager() {
Configuration config = new Configuration();
int port = NetUtils.getAvailablePort();
config.setString(ConfigConstants.JOB_MANAGER_IPC_ADDRESS_KEY, "localhost");
config.setInteger(ConfigConstants.JOB_MANAGER_IPC_PORT_KEY, port);
scala.Option<Tuple2<String, Object>> listeningAddress =
scala.Option.apply(new Tuple2<String, Object>("localhost", port));
jobManagerSystem = AkkaUtils.createActorSystem(config, listeningAddress);
ActorRef jobManagerActorRef =
JobManager.startJobManagerActors(
config,
jobManagerSystem,
StreamingMode.BATCH_ONLY,
JobManager.class,
MemoryArchivist.class)
._1();
try {
LeaderRetrievalService lrs = LeaderRetrievalUtils.createLeaderRetrievalService(config);
jmGateway = LeaderRetrievalUtils.retrieveLeaderGateway(lrs, jobManagerSystem, timeout);
} catch (Exception e) {
fail("Could not retrieve the JobManager gateway. " + e.getMessage());
}
}
@Test
public void testCreateJobSubmission() {
HttpEventContext testCtx = new HttpEventContext();
testCtx.setUsername("testUser");
MSubmission jobSubmission = jobManager.createJobSubmission(testCtx, 1234L);
assertEquals(jobSubmission.getCreationUser(), "testUser");
assertEquals(jobSubmission.getLastUpdateUser(), "testUser");
}
@Test
public void testGetLink() {
MLink testLink = new MLink(123l, null);
testLink.setEnabled(true);
MLink mConnectionSpy = org.mockito.Mockito.spy(testLink);
when(repositoryManagerMock.getRepository()).thenReturn(jdbcRepoMock);
when(jdbcRepoMock.findLink(123l)).thenReturn(mConnectionSpy);
assertEquals(jobManager.getLink(123l), mConnectionSpy);
verify(repositoryManagerMock, times(1)).getRepository();
verify(jdbcRepoMock, times(1)).findLink(123l);
}
@Test
public void testGetJob() {
MJob testJob = job(123l, 456l);
testJob.setEnabled(true);
MJob mJobSpy = org.mockito.Mockito.spy(testJob);
when(repositoryManagerMock.getRepository()).thenReturn(jdbcRepoMock);
when(jdbcRepoMock.findJob(123l)).thenReturn(mJobSpy);
assertEquals(jobManager.getJob(123l), mJobSpy);
verify(repositoryManagerMock, times(1)).getRepository();
verify(jdbcRepoMock, times(1)).findJob(123l);
}
/* (non-Javadoc)
* @see Job#setPriority(int)
*/
protected void setPriority(int newPriority) {
switch (newPriority) {
case Job.INTERACTIVE:
case Job.SHORT:
case Job.LONG:
case Job.BUILD:
case Job.DECORATE:
manager.setPriority(this, newPriority);
break;
default:
throw new IllegalArgumentException(String.valueOf(newPriority));
}
}
@Test
public void testUnknownJob() {
long testJobId = 555l;
SqoopException exception =
new SqoopException(DriverError.DRIVER_0004, "Unknown job id: " + testJobId);
when(repositoryManagerMock.getRepository()).thenReturn(jdbcRepoMock);
when(jdbcRepoMock.findJob(testJobId)).thenReturn(null);
try {
jobManager.getJob(testJobId);
} catch (SqoopException ex) {
assertEquals(ex.getMessage(), exception.getMessage());
verify(repositoryManagerMock, times(1)).getRepository();
verify(jdbcRepoMock, times(1)).findJob(testJobId);
}
}
@Test
public void testDisabledJob() {
MJob testJob = job(123l, 456l);
testJob.setEnabled(false);
testJob.setPersistenceId(1111);
SqoopException exception =
new SqoopException(DriverError.DRIVER_0009, "Job id: " + testJob.getPersistenceId());
MJob mJobSpy = org.mockito.Mockito.spy(testJob);
when(repositoryManagerMock.getRepository()).thenReturn(jdbcRepoMock);
when(jdbcRepoMock.findJob(123l)).thenReturn(mJobSpy);
try {
jobManager.getJob(123l);
} catch (SqoopException ex) {
assertEquals(ex.getMessage(), exception.getMessage());
verify(repositoryManagerMock, times(1)).getRepository();
verify(jdbcRepoMock, times(1)).findJob(123l);
}
}
@Test
public void testDisabledLink() {
MLink testConnection = new MLink(123l, null);
testConnection.setPersistenceId(1234);
testConnection.setEnabled(false);
SqoopException exception =
new SqoopException(
DriverError.DRIVER_0010, "Connection id: " + testConnection.getPersistenceId());
MLink mConnectionSpy = org.mockito.Mockito.spy(testConnection);
when(repositoryManagerMock.getRepository()).thenReturn(jdbcRepoMock);
when(jdbcRepoMock.findLink(123l)).thenReturn(mConnectionSpy);
try {
jobManager.getLink(123l);
} catch (SqoopException ex) {
assertEquals(ex.getMessage(), exception.getMessage());
verify(repositoryManagerMock, times(1)).getRepository();
verify(jdbcRepoMock, times(1)).findLink(123l);
}
}
@Test
public void testUnsupportedDirectionForConnector() {
// invalid job id/ direction
SqoopException exception =
new SqoopException(
DriverError.DRIVER_0011,
"Connector: " + sqoopConnectorMock.getClass().getCanonicalName());
List<Direction> supportedDirections = getSupportedDirections();
when(sqoopConnectorMock.getSupportedDirections()).thenReturn(supportedDirections);
try {
// invalid direction
jobManager.validateSupportedDirection(sqoopConnectorMock, null);
} catch (SqoopException ex) {
assertEquals(ex.getMessage(), exception.getMessage());
verify(sqoopConnectorMock, times(1)).getSupportedDirections();
return;
}
fail("Should throw out an exception with message: " + exception.getMessage());
}
/* (non-Javadoc)
* @see Job#setProgressGroup(IProgressMonitor, int)
*/
protected void setProgressGroup(IProgressMonitor group, int ticks) {
Assert.isNotNull(group);
IProgressMonitor pm = manager.createMonitor(this, group, ticks);
if (pm != null) setProgressMonitor(pm);
}
/* (non-Javadoc)
* @see Job#schedule(long)
*/
protected void schedule(long delay) {
if (shouldSchedule()) manager.schedule(this, delay, false);
}
/* (non-Javadoc)
* @see Job#join()
*/
protected void join() throws InterruptedException {
manager.join(this);
}
/* (non-Javadoc)
* @see Job#isBlocking()
*/
protected boolean isBlocking() {
return manager.isBlocking(this);
}
/**
* Internal implementation class for jobs. Clients must not implement this class directly. All jobs
* must be subclasses of the API <code>org.eclipse.core.runtime.jobs.Job</code> class.
*/
public abstract class InternalJob extends PlatformObject implements Comparable {
/**
* Job state code (value 16) indicating that a job has been removed from the wait queue and is
* about to start running. From an API point of view, this is the same as RUNNING.
*/
static final int ABOUT_TO_RUN = 0x10;
/**
* Job state code (value 32) indicating that a job has passed scheduling precondition checks and
* is about to be added to the wait queue. From an API point of view, this is the same as WAITING.
*/
static final int ABOUT_TO_SCHEDULE = 0x20;
/**
* Job state code (value 8) indicating that a job is blocked by another currently running job.
* From an API point of view, this is the same as WAITING.
*/
static final int BLOCKED = 0x08;
/**
* Job state code (value 64) indicating that a job is yielding. From an API point of view, this is
* the same as WAITING.
*/
static final int YIELDING = 0x40;
// flag mask bits
private static final int M_STATE = 0xFF;
private static final int M_SYSTEM = 0x0100;
private static final int M_USER = 0x0200;
/*
* flag on a job indicating that it was about to run, but has been canceled
*/
private static final int M_ABOUT_TO_RUN_CANCELED = 0x0400;
/*
* Flag on a job indicating that it was canceled when running. This flag
* is used to ensure that #canceling is only ever called once on a job in
* case of recursive cancelation attempts.
*/
private static final int M_RUN_CANCELED = 0x0800;
private static int nextJobNumber = 0;
protected static final JobManager manager = JobManager.getInstance();
/**
* Start time constant indicating a job should be started at a time in the infinite future,
* causing it to sleep forever.
*/
static final long T_INFINITE = Long.MAX_VALUE;
/** Start time constant indicating that the job has no start time. */
static final long T_NONE = -1;
private volatile int flags = Job.NONE;
private final int jobNumber = getNextJobNumber();
private ListenerList listeners = null;
private volatile IProgressMonitor monitor;
private String name;
/** The job ahead of me in a queue or list. @GuardedBy("manager.lock") */
private InternalJob next;
/** The job behind me in a queue or list. @GuardedBy("manager.lock") */
private InternalJob previous;
private int priority = Job.LONG;
/** Arbitrary properties (key,value) pairs, attached to a job instance by a third party. */
private ObjectMap properties;
/** Volatile because it is usually set via a Worker thread and is read via a client thread. */
private volatile IStatus result;
/** @GuardedBy("manager.lock") */
private ISchedulingRule schedulingRule;
/**
* If the job is waiting, this represents the time the job should start by. If this job is
* sleeping, this represents the time the job should wake up. If this job is running, this
* represents the delay automatic rescheduling, or -1 if the job should not be
* rescheduled. @GuardedBy("manager.lock")
*/
private long startTime;
/**
* Stamp added when a job is added to the wait queue. Used to ensure jobs in the wait queue
* maintain their insertion order even if they are removed from the wait queue temporarily while
* blocked @GuardedBy("manager.lock")
*/
private long waitQueueStamp = T_NONE;
/*
* The thread that is currently running this job
*/
private volatile Thread thread = null;
/**
* This lock will be held while performing state changes on this job. It is also used as a
* notifier used to wake up yielding jobs or waiting ThreadJobs when 1) a conflicting job
* completes and releases a scheduling rule, or 2) when a this job changes state.
*
* <p>See also the lock ordering protocol explanation in JobManager's
* documentation. @GuardedBy("itself")
*/
final Object jobStateLock = new Object();
private static synchronized int getNextJobNumber() {
return nextJobNumber++;
}
protected InternalJob(String name) {
Assert.isNotNull(name);
this.name = name;
}
/* (non-Javadoc)
* @see Job#addJobListener(IJobChangeListener)
*/
protected synchronized void addJobChangeListener(IJobChangeListener listener) {
if (listeners == null) listeners = new ListenerList(ListenerList.IDENTITY);
listeners.add(listener);
}
/**
* Adds an entry at the end of the list of which this item is the head. @GuardedBy("manager.lock")
*/
final void addLast(InternalJob entry) {
InternalJob last = this;
// find the end of the queue
while (last.previous != null) last = last.previous;
// add the new entry to the end of the queue
last.previous = entry;
entry.next = last;
entry.previous = null;
}
/* (non-Javadoc)
* @see Job#belongsTo(Object)
*/
protected boolean belongsTo(Object family) {
return false;
}
/* (non-Javadoc)
* @see Job#cancel()
*/
protected boolean cancel() {
return manager.cancel(this);
}
/* (non-Javadoc)
* @see Job#canceling()
*/
protected void canceling() {
// default implementation does nothing
}
/* (on-Javadoc)
* @see java.lang.Comparable#compareTo(java.lang.Object)
*/
public final int compareTo(Object otherJob) {
return ((InternalJob) otherJob).startTime >= startTime ? 1 : -1;
}
/* (non-Javadoc)
* @see Job#done(IStatus)
*/
protected void done(IStatus endResult) {
manager.endJob(this, endResult, true);
}
/**
* Returns the job listeners that are only listening to this job. Returns <code>null</code> if
* this job has no listeners.
*/
final ListenerList getListeners() {
return listeners;
}
/* (non-Javadoc)
* @see Job#getName()
*/
protected String getName() {
return name;
}
/* (non-Javadoc)
* @see Job#getPriority()
*/
protected int getPriority() {
return priority;
}
/** Returns the job's progress monitor, or null if it is not running. */
final IProgressMonitor getProgressMonitor() {
return monitor;
}
/* (non-Javadoc)
* @see Job#getProperty
*/
protected Object getProperty(QualifiedName key) {
// thread safety: (Concurrency001 - copy on write)
Map temp = properties;
if (temp == null) return null;
return temp.get(key);
}
/* (non-Javadoc)
* @see Job#getResult
*/
protected IStatus getResult() {
return result;
}
/* (non-Javadoc)
* @see Job#getRule
*/
protected ISchedulingRule getRule() {
return schedulingRule;
}
/**
* Returns the time that this job should be started, awakened, or rescheduled, depending on the
* current state.
*
* @return time in milliseconds
*/
final long getStartTime() {
return startTime;
}
/* (non-Javadoc)
* @see Job#getState()
*/
protected int getState() {
int state = flags & M_STATE;
switch (state) {
// blocked and yielding state is equivalent to waiting state for clients
case YIELDING:
case BLOCKED:
return Job.WAITING;
case ABOUT_TO_RUN:
return Job.RUNNING;
case ABOUT_TO_SCHEDULE:
return Job.WAITING;
default:
return state;
}
}
/* (non-javadoc)
* @see Job.getThread
*/
protected Thread getThread() {
return thread;
}
/** Returns the raw job state, including internal states no exposed as API. */
final int internalGetState() {
return flags & M_STATE;
}
/** Must be called from JobManager#setPriority */
final void internalSetPriority(int newPriority) {
this.priority = newPriority;
}
/** Must be called from JobManager#setRule */
final void internalSetRule(ISchedulingRule rule) {
this.schedulingRule = rule;
}
/** Must be called from JobManager#changeState */
final void internalSetState(int i) {
flags = (flags & ~M_STATE) | i;
}
/** Returns whether this job was canceled when it was about to run */
final boolean isAboutToRunCanceled() {
return (flags & M_ABOUT_TO_RUN_CANCELED) != 0;
}
/** Returns whether this job was canceled when it was running. */
final boolean isRunCanceled() {
return (flags & M_RUN_CANCELED) != 0;
}
/* (non-Javadoc)
* @see Job#isBlocking()
*/
protected boolean isBlocking() {
return manager.isBlocking(this);
}
/** Returns true if this job conflicts with the given job, and false otherwise. */
final boolean isConflicting(InternalJob otherJob) {
ISchedulingRule otherRule = otherJob.getRule();
if (schedulingRule == null || otherRule == null) return false;
// if one of the rules is a compound rule, it must be asked the question.
if (schedulingRule.getClass() == MultiRule.class)
return schedulingRule.isConflicting(otherRule);
return otherRule.isConflicting(schedulingRule);
}
/* (non-javadoc)
* @see Job.isSystem()
*/
protected boolean isSystem() {
return (flags & M_SYSTEM) != 0;
}
/* (non-javadoc)
* @see Job.isUser()
*/
protected boolean isUser() {
return (flags & M_USER) != 0;
}
/* (non-Javadoc)
* @see Job#join()
*/
protected void join() throws InterruptedException {
manager.join(this);
}
/** Returns the next entry (ahead of this one) in the list, or null if there is no next entry */
final InternalJob next() {
return next;
}
/**
* Returns the previous entry (behind this one) in the list, or null if there is no previous entry
*/
final InternalJob previous() {
return previous;
}
/** Removes this entry from any list it belongs to. Returns the receiver. */
final InternalJob remove() {
if (next != null) next.setPrevious(previous);
if (previous != null) previous.setNext(next);
next = previous = null;
return this;
}
/* (non-Javadoc)
* @see Job#removeJobListener(IJobChangeListener)
*/
protected synchronized void removeJobChangeListener(IJobChangeListener listener) {
if (listeners != null) {
listeners.remove(listener);
if (listeners.isEmpty()) listeners = null;
}
}
/* (non-Javadoc)
* @see Job#run(IProgressMonitor)
*/
protected abstract IStatus run(IProgressMonitor progressMonitor);
/* (non-Javadoc)
* @see Job#schedule(long)
*/
protected void schedule(long delay) {
if (shouldSchedule()) manager.schedule(this, delay, false);
}
/** Sets whether this job was canceled when it was about to run */
final void setAboutToRunCanceled(boolean value) {
flags = value ? flags | M_ABOUT_TO_RUN_CANCELED : flags & ~M_ABOUT_TO_RUN_CANCELED;
}
/** Sets whether this job was canceled when it was running */
final void setRunCanceled(boolean value) {
flags = value ? flags | M_RUN_CANCELED : flags & ~M_RUN_CANCELED;
}
/* (non-Javadoc)
* @see Job#setName(String)
*/
protected void setName(String name) {
Assert.isNotNull(name);
this.name = name;
}
/**
* Sets the next entry in this linked list of jobs.
*
* @param entry
*/
final void setNext(InternalJob entry) {
this.next = entry;
}
/**
* Sets the previous entry in this linked list of jobs.
*
* @param entry
*/
final void setPrevious(InternalJob entry) {
this.previous = entry;
}
/* (non-Javadoc)
* @see Job#setPriority(int)
*/
protected void setPriority(int newPriority) {
switch (newPriority) {
case Job.INTERACTIVE:
case Job.SHORT:
case Job.LONG:
case Job.BUILD:
case Job.DECORATE:
manager.setPriority(this, newPriority);
break;
default:
throw new IllegalArgumentException(String.valueOf(newPriority));
}
}
/* (non-Javadoc)
* @see Job#setProgressGroup(IProgressMonitor, int)
*/
protected void setProgressGroup(IProgressMonitor group, int ticks) {
Assert.isNotNull(group);
IProgressMonitor pm = manager.createMonitor(this, group, ticks);
if (pm != null) setProgressMonitor(pm);
}
/**
* Sets the progress monitor to use for the next execution of this job, or for clearing the
* monitor when a job completes.
*
* @param monitor a progress monitor
*/
final void setProgressMonitor(IProgressMonitor monitor) {
this.monitor = monitor;
}
/* (non-Javadoc)
* @see Job#setProperty(QualifiedName,Object)
*/
protected void setProperty(QualifiedName key, Object value) {
// thread safety: (Concurrency001 - copy on write)
if (value == null) {
if (properties == null) return;
ObjectMap temp = (ObjectMap) properties.clone();
temp.remove(key);
if (temp.isEmpty()) properties = null;
else properties = temp;
} else {
ObjectMap temp = properties;
if (temp == null) temp = new ObjectMap(5);
else temp = (ObjectMap) properties.clone();
temp.put(key, value);
properties = temp;
}
}
/**
* Sets or clears the result of an execution of this job.
*
* @param result a result status, or <code>null</code> @GuardedBy("manager.lock")
*/
final void setResult(IStatus result) {
this.result = result;
}
/* (non-Javadoc)
* @see Job#setRule(ISchedulingRule)
* @GuardedBy("manager.lock")
*/
protected void setRule(ISchedulingRule rule) {
manager.setRule(this, rule);
}
/**
* Sets a time to start, wake up, or schedule this job, depending on the current state
*
* @param time a time in milliseconds @GuardedBy("manager.lock")
*/
final void setStartTime(long time) {
startTime = time;
}
/* (non-javadoc)
* @see Job.setSystem
*/
protected void setSystem(boolean value) {
if (getState() != Job.NONE) throw new IllegalStateException();
flags = value ? flags | M_SYSTEM : flags & ~M_SYSTEM;
}
/* (non-javadoc)
* @see Job.setThread
*/
protected void setThread(Thread thread) {
this.thread = thread;
}
/* (non-javadoc)
* @see Job.setUser
*/
protected void setUser(boolean value) {
if (getState() != Job.NONE) throw new IllegalStateException();
flags = value ? flags | M_USER : flags & ~M_USER;
}
/* (Non-javadoc)
* @see Job#shouldSchedule
*/
protected boolean shouldSchedule() {
return true;
}
/* (non-Javadoc)
* @see Job#sleep()
*/
protected boolean sleep() {
return manager.sleep(this);
}
/* (non-Javadoc)
* @see Job#yieldRule()
*/
protected Job yieldRule(IProgressMonitor progressMonitor) {
return manager.yieldRule(this, progressMonitor);
}
/* (non-Javadoc)
* Prints a string-based representation of this job instance.
* For debugging purposes only.
*/
public String toString() {
return getName() + "(" + jobNumber + ")"; // $NON-NLS-1$//$NON-NLS-2$
}
/* (non-Javadoc)
* @see Job#wakeUp(long)
*/
protected void wakeUp(long delay) {
manager.wakeUp(this, delay);
}
/** @param waitQueueStamp The waitQueueStamp to set. @GuardedBy("manager.lock") */
void setWaitQueueStamp(long waitQueueStamp) {
this.waitQueueStamp = waitQueueStamp;
}
/** @return Returns the waitQueueStamp. @GuardedBy("manager.lock") */
long getWaitQueueStamp() {
return waitQueueStamp;
}
}
/* (non-Javadoc)
* @see Job#setRule(ISchedulingRule)
* @GuardedBy("manager.lock")
*/
protected void setRule(ISchedulingRule rule) {
manager.setRule(this, rule);
}
/* (non-Javadoc)
* @see Job#yieldRule()
*/
protected Job yieldRule(IProgressMonitor progressMonitor) {
return manager.yieldRule(this, progressMonitor);
}
/* (non-Javadoc)
* @see Job#sleep()
*/
protected boolean sleep() {
return manager.sleep(this);
}
/* (non-Javadoc)
* @see Job#cancel()
*/
protected boolean cancel() {
return manager.cancel(this);
}
/* (non-Javadoc)
* @see Job#wakeUp(long)
*/
protected void wakeUp(long delay) {
manager.wakeUp(this, delay);
}
/* (non-Javadoc)
* @see Job#done(IStatus)
*/
protected void done(IStatus endResult) {
manager.endJob(this, endResult, true);
}
