protected CancelCriterion getCancelCriterion( final InternalDistributedSystem sys) { return sys.getCancelCriterion(); }
public CancelCriterion getCancelCriterion() { return this.ds.getCancelCriterion(); }
public NonReentrantLock(boolean useWaitThreshold, InternalDistributedSystem sys, CancelCriterion stopper) { this.sync = new QueuedSynchronizer(); if (stopper == null) { this.stopper = sys != null ? sys.getCancelCriterion() : null; } else { this.stopper = stopper; } this.useWaitThreshold = useWaitThreshold; }
public NonReentrantReadWriteLock(InternalDistributedSystem sys, CancelCriterion stopper) { this.sync = new QueuedSynchronizer(); if (stopper == null) { this.stopper = sys != null ? sys.getCancelCriterion() : null; } else { this.stopper = stopper; } }
/** * Return the {@link CancelCriterion} for this lock. */ public final CancelCriterion getCancelCriterion() { return this.stopper != null ? this.stopper : NonReentrantLock .getDistributedSystem(true).getCancelCriterion(); }
@Override public CancelCriterion getCancelCriterion() { return getSystem().getCancelCriterion(); } }
/** * Return the {@link CancelCriterion} for this lock. */ public final CancelCriterion getCancelCriterion() { return this.stopper != null ? this.stopper : getDistributedSystem(true) .getCancelCriterion(); }
@Override public CancelCriterion getCancelCriterion() { return getSystem().getCancelCriterion(); } }
@Override public CancelCriterion getCancelCriterion() { return getSystem().getCancelCriterion(); } }
public CancelCriterion getCancelCriterion() { return DistributionAdvisorTest.this.getSystem().getCancelCriterion(); } });
@Override public CancelCriterion getCancelCriterion() { return getSystem().getCancelCriterion(); }
@Override public CancelCriterion getCancelCriterion() { return getSystem().getCancelCriterion(); }
@Override public CancelCriterion getCancelCriterion() { return getSystem().getCancelCriterion(); }
public GemFireStatSampler(InternalDistributedSystem con) { super(con.getCancelCriterion(), new StatSamplerStats(con, con.getId())); this.con = con; }
@Override public boolean isDestroyed() { return this.dlock.isDestroyed() || this.system.getCancelCriterion().cancelInProgress() != null; }
protected void handleFromDataExceptionCheckCancellation(Throwable t) throws CancelException { // check if system is closing, else rethrow the exception final InternalDistributedSystem ds = InternalDistributedSystem .getAnyInstance(); if (ds == null) { throw InternalDistributedSystem.newDisconnectedException(t); } else { ds.getCancelCriterion().checkCancelInProgress(t); } }
public GemFireStatSampler(InternalDistributedSystem con) { super(con.getCancelCriterion(), con.getLogWriterI18n(), new StatSamplerStats(con, con.getId())); this.con = con; }
private InternalDistributedMember getElderId() { InternalDistributedMember elder = this.dm.getElderId(); if (elder == null) { this.dm.getSystem().getCancelCriterion().checkCancelInProgress(null); } Assert.assertTrue(elder != null); return elder; }
private InternalDistributedMember getElderId() { InternalDistributedMember elder = this.dm.getElderId(); if (elder == null) { this.dm.getSystem().getCancelCriterion().checkCancelInProgress(null); } Assert.assertTrue(elder != null); return elder; }
/** clear the given bit mask from the lock state */ protected final void clearFlag(int currentState, final int flag) { InternalDistributedSystem sys = null; for (;;) { if (compareAndSetState(currentState, (currentState & ~flag))) { return; } // check if DS is disconnecting if (sys == null) { sys = getDistributedSystem(); } sys.getCancelCriterion().checkCancelInProgress(null); currentState = getState(); } }