/* * Licensed to the Apache Software Foundation (ASF) under one or more * contributor license agreements. See the NOTICE file distributed with * this work for additional information regarding copyright ownership. * The ASF licenses this file to You under the Apache License, Version 2.0 * (the "License"); you may not use this file except in compliance with * the License. You may obtain a copy of the License at * * http://www.apache.org/licenses/LICENSE-2.0 * * Unless required by applicable law or agreed to in writing, software * distributed under the License is distributed on an "AS IS" BASIS, * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. * See the License for the specific language governing permissions and * limitations under the License. */ package org.apache.catalina.tribes.tipis; import java.io.Serializable; import java.util.ArrayList; import java.util.Arrays; import java.util.List; import org.apache.catalina.tribes.Channel; import org.apache.catalina.tribes.ChannelException; import org.apache.catalina.tribes.ChannelException.FaultyMember; import org.apache.catalina.tribes.Member; import org.apache.catalina.tribes.RemoteProcessException; import org.apache.juli.logging.Log; import org.apache.juli.logging.LogFactory; /** * All-to-all replication for a hash map implementation. Each node in the cluster will carry an identical * copy of the map.<br><br> * This map implementation doesn't have a background thread running to replicate changes. * If you do have changes without invoking put/remove then you need to invoke one of the following methods: * <ul> * <li><code>replicate(Object,boolean)</code> - replicates only the object that belongs to the key</li> * <li><code>replicate(boolean)</code> - Scans the entire map for changes and replicates data</li> * </ul> * the <code>boolean</code> value in the <code>replicate</code> method used to decide * whether to only replicate objects that implement the <code>ReplicatedMapEntry</code> interface * or to replicate all objects. If an object doesn't implement the <code>ReplicatedMapEntry</code> interface * each time the object gets replicated the entire object gets serialized, hence a call to <code>replicate(true)</code> * will replicate all objects in this map that are using this node as primary. * * <br><br><b>REMEMBER TO CALL <code>breakdown()</code> or <code>finalize()</code> * when you are done with the map to avoid memory leaks.</b><br><br> * TODO implement periodic sync/transfer thread<br> * TODO memberDisappeared, should do nothing except change map membership * by default it relocates the primary objects * * @param <K> The type of Key * @param <V> The type of Value */ public class ReplicatedMap<K,V> extends AbstractReplicatedMap<K,V> { private static final long serialVersionUID = 1L; private final Log log = LogFactory.getLog(ReplicatedMap.class); //-------------------------------------------------------------------------- // CONSTRUCTORS / DESTRUCTORS //-------------------------------------------------------------------------- /** * Creates a new map * @param owner The map owner * @param channel The channel to use for communication * @param timeout long - timeout for RPC messages * @param mapContextName String - unique name for this map, to allow multiple maps per channel * @param initialCapacity int - the size of this map, see HashMap * @param loadFactor float - load factor, see HashMap * @param cls Class loaders */ public ReplicatedMap(MapOwner owner, Channel channel, long timeout, String mapContextName, int initialCapacity,float loadFactor, ClassLoader[] cls) { super(owner,channel, timeout, mapContextName, initialCapacity, loadFactor, Channel.SEND_OPTIONS_DEFAULT, cls, true); } /** * Creates a new map * @param owner The map owner * @param channel The channel to use for communication * @param timeout long - timeout for RPC messages * @param mapContextName String - unique name for this map, to allow multiple maps per channel * @param initialCapacity int - the size of this map, see HashMap * @param cls Class loaders */ public ReplicatedMap(MapOwner owner, Channel channel, long timeout, String mapContextName, int initialCapacity, ClassLoader[] cls) { super(owner,channel, timeout, mapContextName, initialCapacity, AbstractReplicatedMap.DEFAULT_LOAD_FACTOR,Channel.SEND_OPTIONS_DEFAULT, cls, true); } /** * Creates a new map * @param owner The map owner * @param channel The channel to use for communication * @param timeout long - timeout for RPC messages * @param mapContextName String - unique name for this map, to allow multiple maps per channel * @param cls Class loaders */ public ReplicatedMap(MapOwner owner, Channel channel, long timeout, String mapContextName, ClassLoader[] cls) { super(owner, channel, timeout, mapContextName,AbstractReplicatedMap.DEFAULT_INITIAL_CAPACITY, AbstractReplicatedMap.DEFAULT_LOAD_FACTOR, Channel.SEND_OPTIONS_DEFAULT, cls, true); } /** * Creates a new map * @param owner The map owner * @param channel The channel to use for communication * @param timeout long - timeout for RPC messages * @param mapContextName String - unique name for this map, to allow multiple maps per channel * @param cls Class loaders * @param terminate boolean - Flag for whether to terminate this map that failed to start. */ public ReplicatedMap(MapOwner owner, Channel channel, long timeout, String mapContextName, ClassLoader[] cls, boolean terminate) { super(owner, channel, timeout, mapContextName,AbstractReplicatedMap.DEFAULT_INITIAL_CAPACITY, AbstractReplicatedMap.DEFAULT_LOAD_FACTOR, Channel.SEND_OPTIONS_DEFAULT, cls, terminate); } //------------------------------------------------------------------------------ // METHODS TO OVERRIDE //------------------------------------------------------------------------------ @Override protected int getStateMessageType() { return AbstractReplicatedMap.MapMessage.MSG_STATE_COPY; } @Override protected int getReplicateMessageType() { return AbstractReplicatedMap.MapMessage.MSG_COPY; } /** * publish info about a map pair (key/value) to other nodes in the cluster * @param key Object * @param value Object * @return Member - the backup node * @throws ChannelException Cluster error */ @Override protected Member[] publishEntryInfo(Object key, Object value) throws ChannelException { if (! (key instanceof Serializable && value instanceof Serializable) ) return new Member[0]; //select a backup node Member[] backup = getMapMembers(); if (backup == null || backup.length == 0) return null; try { //publish the data out to all nodes MapMessage msg = new MapMessage(getMapContextName(), MapMessage.MSG_COPY, false, (Serializable) key, (Serializable) value, null,channel.getLocalMember(false), backup); getChannel().send(backup, msg, getChannelSendOptions()); } catch (ChannelException e) { FaultyMember[] faultyMembers = e.getFaultyMembers(); if (faultyMembers.length == 0) throw e; List<Member> faulty = new ArrayList<>(); for (FaultyMember faultyMember : faultyMembers) { if (!(faultyMember.getCause() instanceof RemoteProcessException)) { faulty.add(faultyMember.getMember()); } } Member[] realFaultyMembers = faulty.toArray(new Member[faulty.size()]); if (realFaultyMembers.length != 0) { backup = excludeFromSet(realFaultyMembers, backup); if (backup.length == 0) { throw e; } else { if (log.isWarnEnabled()) { log.warn(sm.getString("replicatedMap.unableReplicate.completely", key, Arrays.toString(backup), Arrays.toString(realFaultyMembers)), e); } } } } return backup; } @Override public void memberDisappeared(Member member) { boolean removed = false; synchronized (mapMembers) { removed = (mapMembers.remove(member) != null ); if (!removed) { if (log.isDebugEnabled()) log.debug("Member["+member+"] disappeared, but was not present in the map."); return; //the member was not part of our map. } } if (log.isInfoEnabled()) log.info(sm.getString("replicatedMap.member.disappeared", member)); long start = System.currentTimeMillis(); for (Entry<K, MapEntry<K, V>> e : innerMap.entrySet()) { MapEntry<K,V> entry = innerMap.get(e.getKey()); if (entry==null) continue; if (entry.isPrimary()) { try { Member[] backup = getMapMembers(); if (backup.length > 0) { MapMessage msg = new MapMessage(getMapContextName(), MapMessage.MSG_NOTIFY_MAPMEMBER,false, (Serializable)entry.getKey(),null,null,channel.getLocalMember(false),backup); getChannel().send(backup, msg, getChannelSendOptions()); } entry.setBackupNodes(backup); entry.setPrimary(channel.getLocalMember(false)); } catch (ChannelException x) { log.error(sm.getString("replicatedMap.unable.relocate", entry.getKey()), x); } } else if (member.equals(entry.getPrimary())) { entry.setPrimary(null); } if ( entry.getPrimary() == null && entry.isCopy() && entry.getBackupNodes()!=null && entry.getBackupNodes().length > 0 && entry.getBackupNodes()[0].equals(channel.getLocalMember(false)) ) { try { entry.setPrimary(channel.getLocalMember(false)); entry.setBackup(false); entry.setProxy(false); entry.setCopy(false); Member[] backup = getMapMembers(); if (backup.length > 0) { MapMessage msg = new MapMessage(getMapContextName(), MapMessage.MSG_NOTIFY_MAPMEMBER,false, (Serializable)entry.getKey(),null,null,channel.getLocalMember(false),backup); getChannel().send(backup, msg, getChannelSendOptions()); } entry.setBackupNodes(backup); if ( mapOwner!=null ) mapOwner.objectMadePrimary(entry.getKey(),entry.getValue()); } catch (ChannelException x) { log.error(sm.getString("replicatedMap.unable.relocate", entry.getKey()), x); } } } //while long complete = System.currentTimeMillis() - start; if (log.isInfoEnabled()) log.info(sm.getString("replicatedMap.relocate.complete", Long.toString(complete))); } @Override public void mapMemberAdded(Member member) { if ( member.equals(getChannel().getLocalMember(false)) ) return; boolean memberAdded = false; synchronized (mapMembers) { if (!mapMembers.containsKey(member) ) { mapMembers.put(member, Long.valueOf(System.currentTimeMillis())); memberAdded = true; } } if ( memberAdded ) { synchronized (stateMutex) { Member[] backup = getMapMembers(); for (Entry<K, MapEntry<K, V>> e : innerMap.entrySet()) { MapEntry<K,V> entry = innerMap.get(e.getKey()); if ( entry == null ) continue; if (entry.isPrimary() && !inSet(member,entry.getBackupNodes())) { entry.setBackupNodes(backup); } } } } } }