/*
* 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.group;
import org.apache.catalina.tribes.ChannelException;
import org.apache.catalina.tribes.ChannelMessage;
import org.apache.catalina.tribes.ChannelReceiver;
import org.apache.catalina.tribes.ChannelSender;
import org.apache.catalina.tribes.Member;
import org.apache.catalina.tribes.MembershipService;
import org.apache.catalina.tribes.MessageListener;
import org.apache.catalina.tribes.transport.SenderState;
import org.apache.catalina.tribes.transport.ReplicationTransmitter;
import org.apache.catalina.tribes.membership.McastService;
import org.apache.catalina.tribes.transport.nio.NioReceiver;
import org.apache.catalina.tribes.Channel;
import org.apache.catalina.tribes.util.Logs;
import org.apache.catalina.tribes.UniqueId;
import org.apache.catalina.tribes.util.Arrays;
/**
* The channel coordinator object coordinates the membership service,
* the sender and the receiver.
* This is the last interceptor in the chain.
* @author Filip Hanik
*
*/
public class ChannelCoordinator extends ChannelInterceptorBase implements MessageListener {
private ChannelReceiver clusterReceiver = new NioReceiver();
private ChannelSender clusterSender = new ReplicationTransmitter();
private MembershipService membershipService = new McastService();
//override optionflag
protected int optionFlag = Channel.SEND_OPTIONS_BYTE_MESSAGE|Channel.SEND_OPTIONS_USE_ACK|Channel.SEND_OPTIONS_SYNCHRONIZED_ACK;
public int getOptionFlag() {return optionFlag;}
public void setOptionFlag(int flag) {optionFlag=flag;}
private int startLevel = 0;
public ChannelCoordinator() {
}
public ChannelCoordinator(ChannelReceiver receiver,
ChannelSender sender,
MembershipService service) {
this();
this.setClusterReceiver(receiver);
this.setClusterSender(sender);
this.setMembershipService(service);
}
/**
* Send a message to one or more members in the cluster
* @param destination Member[] - the destinations, null or zero length means all
* @param msg ClusterMessage - the message to send
*/
public void sendMessage(Member[] destination, ChannelMessage msg, InterceptorPayload payload) throws ChannelException {
if ( destination == null ) destination = membershipService.getMembers();
clusterSender.sendMessage(msg,destination);
if ( Logs.MESSAGES.isTraceEnabled() ) {
Logs.MESSAGES.trace("ChannelCoordinator - Sent msg:" + new UniqueId(msg.getUniqueId()) + " at " +new java.sql.Timestamp(System.currentTimeMillis())+ " to "+Arrays.toNameString(destination));
}
}
/**
* Starts up the channel. This can be called multiple times for individual services to start
* The svc parameter can be the logical or value of any constants
* @param svc int value of <BR>
* DEFAULT - will start all services <BR>
* MBR_RX_SEQ - starts the membership receiver <BR>
* MBR_TX_SEQ - starts the membership broadcaster <BR>
* SND_TX_SEQ - starts the replication transmitter<BR>
* SND_RX_SEQ - starts the replication receiver<BR>
* @throws ChannelException if a startup error occurs or the service is already started.
*/
public void start(int svc) throws ChannelException {
this.internalStart(svc);
}
/**
* Shuts down the channel. This can be called multiple times for individual services to shutdown
* The svc parameter can be the logical or value of any constants
* @param svc int value of <BR>
* DEFAULT - will shutdown all services <BR>
* MBR_RX_SEQ - stops the membership receiver <BR>
* MBR_TX_SEQ - stops the membership broadcaster <BR>
* SND_TX_SEQ - stops the replication transmitter<BR>
* SND_RX_SEQ - stops the replication receiver<BR>
* @throws ChannelException if a startup error occurs or the service is already started.
*/
public void stop(int svc) throws ChannelException {
this.internalStop(svc);
}
/**
* Starts up the channel. This can be called multiple times for individual services to start
* The svc parameter can be the logical or value of any constants
* @param svc int value of <BR>
* DEFAULT - will start all services <BR>
* MBR_RX_SEQ - starts the membership receiver <BR>
* MBR_TX_SEQ - starts the membership broadcaster <BR>
* SND_TX_SEQ - starts the replication transmitter<BR>
* SND_RX_SEQ - starts the replication receiver<BR>
* @throws ChannelException if a startup error occurs or the service is already started.
*/
protected synchronized void internalStart(int svc) throws ChannelException {
try {
boolean valid = false;
//make sure we don't pass down any flags that are unrelated to the bottom layer
svc = svc & Channel.DEFAULT;
if (startLevel == Channel.DEFAULT) return; //we have already started up all components
if (svc == 0 ) return;//nothing to start
if (svc == (svc & startLevel)) throw new ChannelException("Channel already started for level:"+svc);
//must start the receiver first so that we can coordinate the port it
//listens to with the local membership settings
if ( Channel.SND_RX_SEQ==(svc & Channel.SND_RX_SEQ) ) {
clusterReceiver.setMessageListener(this);
clusterReceiver.start();
//synchronize, big time FIXME
membershipService.setLocalMemberProperties(getClusterReceiver().getHost(), getClusterReceiver().getPort());
valid = true;
}
if ( Channel.SND_TX_SEQ==(svc & Channel.SND_TX_SEQ) ) {
clusterSender.start();
valid = true;
}
if ( Channel.MBR_RX_SEQ==(svc & Channel.MBR_RX_SEQ) ) {
membershipService.setMembershipListener(this);
membershipService.start(MembershipService.MBR_RX);
valid = true;
}
if ( Channel.MBR_TX_SEQ==(svc & Channel.MBR_TX_SEQ) ) {
membershipService.start(MembershipService.MBR_TX);
valid = true;
}
if ( !valid) {
throw new IllegalArgumentException("Invalid start level, valid levels are:SND_RX_SEQ,SND_TX_SEQ,MBR_TX_SEQ,MBR_RX_SEQ");
}
startLevel = (startLevel | svc);
}catch ( ChannelException cx ) {
throw cx;
}catch ( Exception x ) {
throw new ChannelException(x);
}
}
/**
* Shuts down the channel. This can be called multiple times for individual services to shutdown
* The svc parameter can be the logical or value of any constants
* @param svc int value of <BR>
* DEFAULT - will shutdown all services <BR>
* MBR_RX_SEQ - starts the membership receiver <BR>
* MBR_TX_SEQ - starts the membership broadcaster <BR>
* SND_TX_SEQ - starts the replication transmitter<BR>
* SND_RX_SEQ - starts the replication receiver<BR>
* @throws ChannelException if a startup error occurs or the service is already started.
*/
protected synchronized void internalStop(int svc) throws ChannelException {
try {
//make sure we don't pass down any flags that are unrelated to the bottom layer
svc = svc & Channel.DEFAULT;
if (startLevel == 0) return; //we have already stopped up all components
if (svc == 0 ) return;//nothing to stop
boolean valid = false;
if ( Channel.SND_RX_SEQ==(svc & Channel.SND_RX_SEQ) ) {
clusterReceiver.stop();
clusterReceiver.setMessageListener(null);
valid = true;
}
if ( Channel.SND_TX_SEQ==(svc & Channel.SND_TX_SEQ) ) {
clusterSender.stop();
valid = true;
}
if ( Channel.MBR_RX_SEQ==(svc & Channel.MBR_RX_SEQ) ) {
membershipService.stop(MembershipService.MBR_RX);
membershipService.setMembershipListener(null);
valid = true;
}
if ( Channel.MBR_TX_SEQ==(svc & Channel.MBR_TX_SEQ) ) {
valid = true;
membershipService.stop(MembershipService.MBR_TX);
}
if ( !valid) {
throw new IllegalArgumentException("Invalid start level, valid levels are:SND_RX_SEQ,SND_TX_SEQ,MBR_TX_SEQ,MBR_RX_SEQ");
}
startLevel = (startLevel & (~svc));
}catch ( Exception x ) {
throw new ChannelException(x);
} finally {
}
}
public void memberAdded(Member member){
SenderState.getSenderState(member);
super.memberAdded(member);
}
public void memberDisappeared(Member member){
SenderState.removeSenderState(member);
super.memberDisappeared(member);
}
public void messageReceived(ChannelMessage msg) {
if ( Logs.MESSAGES.isTraceEnabled() ) {
Logs.MESSAGES.trace("ChannelCoordinator - Received msg:" + new UniqueId(msg.getUniqueId()) + " at " +new java.sql.Timestamp(System.currentTimeMillis())+ " from "+msg.getAddress().getName());
}
super.messageReceived(msg);
}
public ChannelReceiver getClusterReceiver() {
return clusterReceiver;
}
public ChannelSender getClusterSender() {
return clusterSender;
}
public MembershipService getMembershipService() {
return membershipService;
}
public void setClusterReceiver(ChannelReceiver clusterReceiver) {
if ( clusterReceiver != null ) {
this.clusterReceiver = clusterReceiver;
this.clusterReceiver.setMessageListener(this);
} else {
if (this.clusterReceiver!=null ) this.clusterReceiver.setMessageListener(null);
this.clusterReceiver = null;
}
}
public void setClusterSender(ChannelSender clusterSender) {
this.clusterSender = clusterSender;
}
public void setMembershipService(MembershipService membershipService) {
this.membershipService = membershipService;
this.membershipService.setMembershipListener(this);
}
public void heartbeat() {
if ( clusterSender!=null ) clusterSender.heartbeat();
super.heartbeat();
}
/**
* has members
*/
public boolean hasMembers() {
return this.getMembershipService().hasMembers();
}
/**
* Get all current cluster members
* @return all members or empty array
*/
public Member[] getMembers() {
return this.getMembershipService().getMembers();
}
/**
*
* @param mbr Member
* @return Member
*/
public Member getMember(Member mbr){
return this.getMembershipService().getMember(mbr);
}
/**
* Return the member that represents this node.
*
* @return Member
*/
public Member getLocalMember(boolean incAlive) {
return this.getMembershipService().getLocalMember(incAlive);
}
}