@Override public ScheduledEntry<Object, Object> cancelTtlEntry(Object key) { return ttlEvictionScheduler.cancel(key); }
@Override public ScheduledEntry<Object, Object> cancelTtlEntry(Object key) { return ttlEvictionScheduler.cancel(key); }
public void cancelEviction(String name) { queueEvictionScheduler.cancel(name); }
void cancelEviction(Data key) { entryTaskScheduler.cancel(key); }
public void cancelEviction(String name) { queueEvictionScheduler.cancel(name); }
void cancelEviction(Data key) { entryTaskScheduler.cancel(key); }
void cancelReplicaSync(int partitionId) { Iterator<ReplicaFragmentSyncInfo> iter = replicaSyncRequests.iterator(); while (iter.hasNext()) { ReplicaFragmentSyncInfo syncInfo = iter.next(); if (syncInfo.partitionId == partitionId) { iter.remove(); replicaSyncTimeoutScheduler.cancel(syncInfo); releaseReplicaSyncPermits(1); } } }
void cancelReplicaSync(int partitionId) { Iterator<ReplicaFragmentSyncInfo> iter = replicaSyncRequests.iterator(); while (iter.hasNext()) { ReplicaFragmentSyncInfo syncInfo = iter.next(); if (syncInfo.partitionId == partitionId) { iter.remove(); replicaSyncTimeoutScheduler.cancel(syncInfo); releaseReplicaSyncPermits(1); } } }
void cancelReplicaSyncRequestsTo(Address deadAddress) { Iterator<ReplicaFragmentSyncInfo> iter = replicaSyncRequests.iterator(); while (iter.hasNext()) { ReplicaFragmentSyncInfo syncInfo = iter.next(); if (deadAddress.equals(syncInfo.target)) { iter.remove(); replicaSyncTimeoutScheduler.cancel(syncInfo); releaseReplicaSyncPermits(1); } } }
void cancelReplicaSyncRequestsTo(Member member) { Iterator<ReplicaFragmentSyncInfo> iter = replicaSyncRequests.iterator(); while (iter.hasNext()) { ReplicaFragmentSyncInfo syncInfo = iter.next(); if (syncInfo.target != null && syncInfo.target.isIdentical(member)) { iter.remove(); replicaSyncTimeoutScheduler.cancel(syncInfo); releaseReplicaSyncPermits(1); } } }