All Downloads are FREE. Search and download functionalities are using the official Maven repository.

com.tangosol.net.PartitionedService Maven / Gradle / Ivy

There is a newer version: 24.09
Show newest version
/*
 * Copyright (c) 2000, 2022, Oracle and/or its affiliates.
 *
 * Licensed under the Universal Permissive License v 1.0 as shown at
 * http://oss.oracle.com/licenses/upl.
 */

package com.tangosol.net;


import com.tangosol.net.internal.QuorumInfo;

import com.tangosol.net.partition.KeyAssociator;
import com.tangosol.net.partition.KeyPartitioningStrategy;
import com.tangosol.net.partition.PartitionAssignmentStrategy;
import com.tangosol.net.partition.PartitionListener;
import com.tangosol.net.partition.PartitionSet;

import com.tangosol.persistence.GUIDHelper.GUIDResolver;

import java.util.Set;


/**
* A PartitionedService is aware of a mapping of keys to partitions and of
* partitions to cluster members.
*
* @since Coherence 3.0
*/
public interface PartitionedService
        extends Service
    {
    /**
    * Determine the number of partitions that the service has been configured
    * to "break up" the conceptual "key set" into.
    * 

* The value of this property is in the range [1..n] where * n is an arbitrarily large integer value that does not * exceed Integer.MAX_VALUE. * * @return the number of separate partitions into which this service * partitions the set of potential keys */ public int getPartitionCount(); /** * Determine the configured redundancy count that this service has been * configured to maintain. A redundancy count of zero implies that the * service will not maintain backup copies of information for failover * purposes, while a redundancy count greater than zero indicates that * the service must attempt to synchronously maintain that number of * backup copies of the data under the management of the service in order * to provide seamless (and lossless) failover of data and processing. *

* The value of this property is in the range [0..n] where * n is an arbitrarily large integer value that does not * exceed Integer.MAX_VALUE. * * @return the configured redundancy count for this service */ public int getBackupCount(); /** * Determine the key associator that this service has been * configured to use. Information provided by this KeyAssociator will be used * to place all associated keys into the same partition. * * @return the KeyAssociator for this service */ public KeyAssociator getKeyAssociator(); /** * Determine the strategy for key partitioning that this service has been * configured to use. * * @return the KeyPartitioningStrategy for this service */ public KeyPartitioningStrategy getKeyPartitioningStrategy(); /** * Determine the strategy for assigning partitions to cluster members that * this service has been configured to use. * * @return the PartitionAssignmentStrategy for this service */ public PartitionAssignmentStrategy getPartitionAssignmentStrategy(); /** * Determine the primary owner of the specified key, as determined by the * combination of the KeyPartitioningStrategy and the * PartitionAssignmentStrategy. It's possible that during partition * re-distribution (e.g. as a result of a failover) this method will return * null, indicating that the partition ownership is currently undetermined. * * @param oKey a key in its Object form * * @return the cluster Member that is currently the owner for the specified * key or null if the ownership is currently undetermined */ public Member getKeyOwner(Object oKey); /** * Determine the primary owner of the specified partition. It is possible * that during partition re-distribution (e.g. as a result of a failover) * that this method will return null, indicating that the partition ownership * is currently undetermined. * * @param nPartition a partition ID * * @return the cluster Member that is currently the owner for the specified * partition or null if the distribution is currently undetermined * * @throws IllegalArgumentException if the partition number is negative or * greater than the {@link PartitionedService#getPartitionCount() * partition count} for this partitioned service */ public Member getPartitionOwner(int nPartition); /** * Determine the primary owner's version of the specified partition. It is possible * that during partition re-distribution (e.g. as a result of a failover) * that this method will return -1, indicating that the partition ownership * is currently undetermined. * * @param nPartition a partition ID * * @return the partition ownership version or -1 * * @throws IllegalArgumentException if the partition number is negative or * greater than the {@link PartitionedService#getPartitionCount() * partition count} for this partitioned service * * @since Coherence 12.2.1.1 */ public int getOwnershipVersion(int nPartition); /** * Determine the backup owner of the specified partition. It is possible * that during partition re-distribution (e.g. as a result of a failover) * that this method will return null, indicating that the partition ownership * is currently undetermined. * * @param nPartition a partition ID * @param nBackup the backup number (one-based) * * @return the cluster Member that is currently the owner for the specified * backup copy for the given partition, or null if the distribution * is currently undetermined * * @throws IllegalArgumentException if the partition number is negative or * greater than the {@link PartitionedService#getPartitionCount() * partition count} or if the backup number is non-positive or * greater than the {@link PartitionedService#getBackupCount() * backup count} for this partitioned service */ public Member getBackupOwner(int nPartition, int nBackup); /** * Determine the PartitionSet that is currently owned by a cluster Member. * If the specified member does not run this clustered service, null is * returned. *

* Note: the returned PartitionSet represents a "snapshot" of the * ownership information at a time of the call and may change at any moment. * * @param member the cluster Member * * @return the PartitionSet that the cluster Member currently owns * * @since Coherence 3.4 */ public PartitionSet getOwnedPartitions(Member member); /** * Return a Set of Member objects, one for each Member that has registered * this PartitionedService and is partition ownership-enabled. * * @return a set of Member objects that provide partition ownership * for this partitioned service * * @since Coherence 3.6 */ public Set getOwnershipEnabledMembers(); /** * Return the senior ownership-enabled member in the service. * * @return the senior ownership-enabled member in the service * * @since Coherence 12.2.1 */ public Member getOwnershipSenior(); /** * Add a PartitionListener to this service. * * @param listener the listener to add * * @since Coherence 3.7 */ public void addPartitionListener(PartitionListener listener); /** * Remove a PartitionListener from this service. * * @param listener the listener to remove * * @since Coherence 3.7 */ public void removePartitionListener(PartitionListener listener); /** * Return the current backup strength of the partitioned service. * * @return the current backup strength of the partitioned service */ public int getBackupStrength(); /** * Return the string representing current backup strength. * * @return the string representing current backup strength */ public String getBackupStrengthName(); /** * Return the persistence mode, or {@code null} if persistence * is not configured. * * @return the persistence mode, or {@code null} if persistence * is not configured */ public String getPersistenceMode(); // ----- inner interface: PartitionedAction --------------------------- /** * PartitionedAction represents a type of action taken by a * PartitionedService. */ public interface PartitionedAction extends Action { /** * Singleton action for partition distribution/backup. */ public static final Action DISTRIBUTE = new PartitionedAction() {}; /** * Singleton action for partition restore. */ public static final Action RESTORE = new PartitionedAction() {}; } // ----- inner class: PartitionRecoveryAction ------------------------- /** * A PartitionedAction representing the recovery of orphaned partitions from * the persistent storage, or the assignment of empty partitions if the * persistent storage is unavailable or lost. */ public static class PartitionRecoveryAction implements PartitionedAction { /** * Construct a PartitionRecoveryAction for the specified partitions, * GUID resolver and the "last good" membership info. * * @param partsOrphan the set of orphaned partitions * @param resolver the GUID resolver * @param infoQuorum the "last good" membership info */ public PartitionRecoveryAction(PartitionSet partsOrphan, GUIDResolver resolver, QuorumInfo infoQuorum) { m_partsOrphan = partsOrphan; m_resolver = resolver; m_infoQuorum = infoQuorum; } // ----- accessors ------------------------------------------------ /** * Return the GUID resolver. * * @return the GUID resolver */ public GUIDResolver getResolver() { return m_resolver; } /** * Return the set of orphaned partitions. * * @return the set of orphaned partitions */ public PartitionSet getOrphanedPartitions() { return m_partsOrphan; } /** * Return the "last good" service membership info. * * @return the "last good" service membership */ public QuorumInfo getQuorumInfo() { return m_infoQuorum; } // ----- data members --------------------------------------------- /** * The GUID resolver. */ protected GUIDResolver m_resolver; /** * The set of orphaned partitions. */ protected PartitionSet m_partsOrphan; /** * The "last good" service membership. */ protected QuorumInfo m_infoQuorum; } }





© 2015 - 2024 Weber Informatics LLC | Privacy Policy