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package com.splout.db.hazelcast;

/*
 * #%L
 * Splout SQL Server
 * %%
 * Copyright (C) 2012 Datasalt Systems S.L.
 * %%
 * This program is free software: you can redistribute it and/or modify
 * it under the terms of the GNU Affero General Public License as published by
 * the Free Software Foundation, either version 3 of the License, or
 * (at your option) any later version.
 * 
 * This program is distributed in the hope that it will be useful,
 * but WITHOUT ANY WARRANTY; without even the implied warranty of
 * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the
 * GNU General Public License for more details.
 * 
 * You should have received a copy of the GNU Affero General Public License
 * along with this program.  If not, see .
 * #L%
 */

import static com.splout.db.hazelcast.HazelcastUtils.getHZAddress;

import java.util.Map.Entry;
import java.util.Random;
import java.util.concurrent.ConcurrentMap;
import java.util.concurrent.Executors;
import java.util.concurrent.ScheduledExecutorService;
import java.util.concurrent.ScheduledFuture;
import java.util.concurrent.TimeUnit;
import java.util.concurrent.atomic.AtomicBoolean;
import java.util.concurrent.atomic.AtomicReference;

import org.apache.commons.logging.Log;
import org.apache.commons.logging.LogFactory;

import com.hazelcast.core.EntryListener;
import com.hazelcast.core.HazelcastInstance;
import com.hazelcast.core.IMap;
import com.hazelcast.core.LifecycleEvent;
import com.hazelcast.core.LifecycleEvent.LifecycleState;
import com.hazelcast.core.LifecycleListener;
import com.hazelcast.core.MemberAttributeEvent;
import com.hazelcast.core.MembershipEvent;
import com.hazelcast.core.MembershipListener;

/**
 * Creates a registry of members using a {@link IMap}. The user can create a {@link EntryListener} for
 * receiving events from the IMap wich inform of joining or leaving members. Some update events can be
 * generated, because of change in the information, or as cause of some re-registerings that are done for
 * safety. 
* Main difficulty with the registry is the case of network partitions, or split-brain. In this case, all * registry replicas of one member could be lost. It is an improbable case, but possible. For this case, * we have a thread that periodically check that the node is registered so assuring eventual consistency. *
Another design principle of this registry is the idea of trying to minimize network * communication between nodes, as that could affect the system scalability. */ public class DistributedRegistry { private final static Log log = LogFactory.getLog(DistributedRegistry.class); private final String registryName; private Object nodeInfo; private final HazelcastInstance hzInstance; private final int minutesToCheckRegister; private final int oldestMembersLeading; private final AtomicBoolean amIRegistered = new AtomicBoolean(false); private final AtomicBoolean disableChecking = new AtomicBoolean(false); private final ScheduledExecutorService scheduler = Executors.newScheduledThreadPool(1); private final AtomicReference> checker = new AtomicReference>(); private final Random random = new Random(); public class MyListener implements MembershipListener { @Override public void memberAdded(MembershipEvent membershipEvent) { // Nothing to do. I should be registered. Just in case... scheduleCheck(); } @Override public void memberRemoved(MembershipEvent membershipEvent) { synchronized(DistributedRegistry.this) { /* * When a node leaves, somebody in the cluster must remove its info from the distributed map. We * restrict this removal to some of the oldest members, in order to reduce coordination traffic * while keeping replication */ if(HazelcastUtils.isOneOfOldestMembers(hzInstance, hzInstance.getCluster().getLocalMember(), oldestMembersLeading)) { String member = getHZAddress(membershipEvent.getMember()); log.info("Member " + member + " leaves. Unregistering it from registry [" + registryName + "]"); ConcurrentMap members = hzInstance.getMap(registryName); members.remove(member); } } // Just in case... scheduleCheck(); } /** * In the case of a network partition where some data is lost (unprovable, as replication should * mitigate that), we could have some members that believe they are registered but they are not. We * set a periodical check to test that. We schedule a test each time a new member arrives or leaves * to the cluster. But in order to avoid to much checking, only one check can be performed in a * period of time. Also, to reduce the herd behavior, we schedule the check randomly in this period. */ private void scheduleCheck() { if(disableChecking.get()) { return; } ScheduledFuture checkerFuture = checker.get(); if(checkerFuture == null || checkerFuture.isDone()) { int seconds = random.nextInt(Math.max(1, minutesToCheckRegister * 60)); checker.set(scheduler.schedule(new Runnable() { @Override public void run() { synchronized(DistributedRegistry.this) { if(amIRegistered.get()) { String member = localMember(); log.info("Checking if registered [" + member + "] ..."); ConcurrentMap members = hzInstance.getMap(registryName); if(members.get(member) == null) { log.warn("Detected wrongly unregistered [" + member + "]. Could be due a network partition problem or due to a software bug. Reregistering."); register(); } } } } }, seconds, TimeUnit.SECONDS)); } } @Override public void memberAttributeChanged(MemberAttributeEvent memberAttributeEvent) { // TODO Since HZ 3.2 } } /** * When a split-brain happens, and two clusters will merge, the member of the smallest cluster are * restarted. When we detect that, we reregister the clusters in order to assure that their info is * present in the registry distributed map.
* This alone does not assure complete coherence in the case of a network partition merge, as members * of the bigger cluster could have an incomplete registry of themselves as well. */ public class RestartListener implements LifecycleListener { @Override public void stateChanged(LifecycleEvent event) { if(event.getState() == LifecycleState.MERGED) { synchronized(DistributedRegistry.this) { if(amIRegistered.get()) { log.info("Hazelcast RESTARTED event received. Reregistering myself to asure I'm properly registered"); register(); } } } } } public DistributedRegistry(String registryName, Object nodeInfo, HazelcastInstance hzInstance, int minutesToCheckRegister, int oldestMembersLeading) { this.registryName = registryName; this.nodeInfo = nodeInfo; this.hzInstance = hzInstance; hzInstance.getCluster().addMembershipListener(new MyListener()); hzInstance.getLifecycleService().addLifecycleListener(new RestartListener()); this.minutesToCheckRegister = minutesToCheckRegister; this.oldestMembersLeading = oldestMembersLeading; } public synchronized void register() { String myself = localMember(); log.info("Registering myself [" + myself + "] on registry [" + registryName + "]"); ConcurrentMap members = hzInstance.getMap(registryName); members.put(myself, nodeInfo); amIRegistered.set(true); } public synchronized void unregister() { String myself = localMember(); log.info("Unregistering myself [" + myself + " -> " + nodeInfo + "] on registry [" + registryName + "]"); ConcurrentMap members = hzInstance.getMap(registryName); members.remove(myself); amIRegistered.set(false); } public synchronized void changeInfo(Object nodeInfo) { // Changing memory information. Needed for future reregistration this.nodeInfo = nodeInfo; String myself = localMember(); log.info("Changing my info [" + myself + "] on registry [" + registryName + "]"); ConcurrentMap members = hzInstance.getMap(registryName); members.put(myself, nodeInfo); amIRegistered.set(true); } /** * Enables or disable preventive registration checking. */ protected void disableChecking(boolean disable) { disableChecking.set(disable); } private String localMember() { return getHZAddress(hzInstance.getCluster().getLocalMember()); } public void dumpRegistry() { ConcurrentMap members = hzInstance.getMap(registryName); System.out.println("Registry [" + registryName + "] {"); for(Entry entry : members.entrySet()) { System.out.println("\t" + entry.getKey() + " -> " + entry.getValue()); } System.out.println("}"); } }




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