/*
* 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 java.io.Serializable;
import java.util.Iterator;
import java.util.List;
import java.util.concurrent.CopyOnWriteArrayList;
import org.apache.catalina.tribes.ByteMessage;
import org.apache.catalina.tribes.Channel;
import org.apache.catalina.tribes.ChannelException;
import org.apache.catalina.tribes.ChannelInterceptor;
import org.apache.catalina.tribes.ChannelListener;
import org.apache.catalina.tribes.ChannelMessage;
import org.apache.catalina.tribes.ChannelReceiver;
import org.apache.catalina.tribes.ChannelSender;
import org.apache.catalina.tribes.ErrorHandler;
import org.apache.catalina.tribes.Heartbeat;
import org.apache.catalina.tribes.ManagedChannel;
import org.apache.catalina.tribes.Member;
import org.apache.catalina.tribes.MembershipListener;
import org.apache.catalina.tribes.MembershipService;
import org.apache.catalina.tribes.RemoteProcessException;
import org.apache.catalina.tribes.UniqueId;
import org.apache.catalina.tribes.group.interceptors.MessageDispatch15Interceptor;
import org.apache.catalina.tribes.io.BufferPool;
import org.apache.catalina.tribes.io.ChannelData;
import org.apache.catalina.tribes.io.XByteBuffer;
import org.apache.catalina.tribes.util.Arrays;
import org.apache.catalina.tribes.util.Logs;
import org.apache.juli.logging.Log;
import org.apache.juli.logging.LogFactory;
/**
* The default implementation of a Channel.<br>
* The GroupChannel manages the replication channel. It coordinates
* message being sent and received with membership announcements.
* The channel has an chain of interceptors that can modify the message or perform other logic.<br>
* It manages a complete group, both membership and replication.
*/
public class GroupChannel extends ChannelInterceptorBase implements ManagedChannel {
private static final Log log = LogFactory.getLog(GroupChannel.class);
/**
* Flag to determine if the channel manages its own heartbeat
* If set to true, the channel will start a local thread for the heart beat.
*/
protected boolean heartbeat = true;
/**
* If <code>heartbeat == true</code> then how often do we want this
* heartbeat to run. default is one minute
*/
protected long heartbeatSleeptime = 5*1000;//every 5 seconds
/**
* Internal heartbeat thread
*/
protected HeartbeatThread hbthread = null;
/**
* The <code>ChannelCoordinator</code> coordinates the bottom layer components:<br>
* - MembershipService<br>
* - ChannelSender <br>
* - ChannelReceiver<br>
*/
protected final ChannelCoordinator coordinator = new ChannelCoordinator();
/**
* The first interceptor in the interceptor stack.
* The interceptors are chained in a linked list, so we only need a reference to the
* first one
*/
protected ChannelInterceptor interceptors = null;
/**
* A list of membership listeners that subscribe to membership announcements
*/
protected final List<Object> membershipListeners = new CopyOnWriteArrayList<>();
/**
* A list of channel listeners that subscribe to incoming messages
*/
protected final List<Object> channelListeners = new CopyOnWriteArrayList<>();
/**
* If set to true, the GroupChannel will check to make sure that
*/
protected boolean optionCheck = false;
/**
* Creates a GroupChannel. This constructor will also
* add the first interceptor in the GroupChannel.<br>
* The first interceptor is always the channel itself.
*/
public GroupChannel() {
addInterceptor(this);
}
/**
* Adds an interceptor to the stack for message processing<br>
* Interceptors are ordered in the way they are added.<br>
* <code>channel.addInterceptor(A);</code><br>
* <code>channel.addInterceptor(C);</code><br>
* <code>channel.addInterceptor(B);</code><br>
* Will result in a interceptor stack like this:<br>
* <code>A -> C -> B</code><br>
* The complete stack will look like this:<br>
* <code>Channel -> A -> C -> B -> ChannelCoordinator</code><br>
* @param interceptor ChannelInterceptorBase
*/
@Override
public void addInterceptor(ChannelInterceptor interceptor) {
if ( interceptors == null ) {
interceptors = interceptor;
interceptors.setNext(coordinator);
interceptors.setPrevious(null);
coordinator.setPrevious(interceptors);
} else {
ChannelInterceptor last = interceptors;
while ( last.getNext() != coordinator ) {
last = last.getNext();
}
last.setNext(interceptor);
interceptor.setNext(coordinator);
interceptor.setPrevious(last);
coordinator.setPrevious(interceptor);
}
}
/**
* Sends a heartbeat through the interceptor stack.<br>
* Invoke this method from the application on a periodic basis if
* you have turned off internal heartbeats <code>channel.setHeartbeat(false)</code>
*/
@Override
public void heartbeat() {
super.heartbeat();
Iterator<Object> i = membershipListeners.iterator();
while ( i.hasNext() ) {
Object o = i.next();
if ( o instanceof Heartbeat ) ((Heartbeat)o).heartbeat();
}
i = channelListeners.iterator();
while ( i.hasNext() ) {
Object o = i.next();
if ( o instanceof Heartbeat ) ((Heartbeat)o).heartbeat();
}
}
/**
* Send a message to the destinations specified
* @param destination Member[] - destination.length > 0
* @param msg Serializable - the message to send
* @param options sender options, options can trigger guarantee levels and different
* interceptors to react to the message see class documentation for the
* <code>Channel</code> object.<br>
* @return UniqueId - the unique Id that was assigned to this message
* @throws ChannelException - if an error occurs processing the message
* @see org.apache.catalina.tribes.Channel
*/
@Override
public UniqueId send(Member[] destination, Serializable msg, int options)
throws ChannelException {
return send(destination,msg,options,null);
}
/**
*
* @param destination Member[] - destination.length > 0
* @param msg Serializable - the message to send
* @param options sender options, options can trigger guarantee levels and different
* interceptors to react to the message see class documentation for the
* <code>Channel</code> object.<br>
* @param handler - callback object for error handling and completion notification,
* used when a message is sent asynchronously using the
* <code>Channel.SEND_OPTIONS_ASYNCHRONOUS</code> flag enabled.
* @return UniqueId - the unique Id that was assigned to this message
* @throws ChannelException - if an error occurs processing the message
* @see org.apache.catalina.tribes.Channel
*/
@Override
public UniqueId send(Member[] destination, Serializable msg, int options, ErrorHandler handler)
throws ChannelException {
if ( msg == null ) throw new ChannelException("Cant send a NULL message");
XByteBuffer buffer = null;
try {
if (destination == null || destination.length == 0) {
throw new ChannelException("No destination given");
}
ChannelData data = new ChannelData(true);//generates a unique Id
data.setAddress(getLocalMember(false));
data.setTimestamp(System.currentTimeMillis());
byte[] b = null;
if ( msg instanceof ByteMessage ){
b = ((ByteMessage)msg).getMessage();
options = options | SEND_OPTIONS_BYTE_MESSAGE;
} else {
b = XByteBuffer.serialize(msg);
options = options & (~SEND_OPTIONS_BYTE_MESSAGE);
}
data.setOptions(options);
//XByteBuffer buffer = new XByteBuffer(b.length+128,false);
buffer = BufferPool.getBufferPool().getBuffer(b.length+128, false);
buffer.append(b,0,b.length);
data.setMessage(buffer);
InterceptorPayload payload = null;
if ( handler != null ) {
payload = new InterceptorPayload();
payload.setErrorHandler(handler);
}
getFirstInterceptor().sendMessage(destination, data, payload);
if ( Logs.MESSAGES.isTraceEnabled() ) {
Logs.MESSAGES.trace("GroupChannel - Sent msg:" + new UniqueId(data.getUniqueId()) +
" at " + new java.sql.Timestamp(System.currentTimeMillis()) + " to " +
Arrays.toNameString(destination));
Logs.MESSAGES.trace("GroupChannel - Send Message:" +
new UniqueId(data.getUniqueId()) + " is " + msg);
}
return new UniqueId(data.getUniqueId());
}catch ( Exception x ) {
if ( x instanceof ChannelException ) throw (ChannelException)x;
throw new ChannelException(x);
} finally {
if ( buffer != null ) BufferPool.getBufferPool().returnBuffer(buffer);
}
}
/**
* Callback from the interceptor stack. <br>
* When a message is received from a remote node, this method will be
* invoked by the previous interceptor.<br>
* This method can also be used to send a message to other components
* within the same application, but its an extreme case, and you're probably
* better off doing that logic between the applications itself.
* @param msg ChannelMessage
*/
@Override
public void messageReceived(ChannelMessage msg) {
if ( msg == null ) return;
try {
if ( Logs.MESSAGES.isTraceEnabled() ) {
Logs.MESSAGES.trace("GroupChannel - Received msg:" +
new UniqueId(msg.getUniqueId()) + " at " +
new java.sql.Timestamp(System.currentTimeMillis()) + " from " +
msg.getAddress().getName());
}
Serializable fwd = null;
if ( (msg.getOptions() & SEND_OPTIONS_BYTE_MESSAGE) == SEND_OPTIONS_BYTE_MESSAGE ) {
fwd = new ByteMessage(msg.getMessage().getBytes());
} else {
try {
fwd = XByteBuffer.deserialize(msg.getMessage().getBytesDirect(), 0,
msg.getMessage().getLength());
}catch (Exception sx) {
log.error("Unable to deserialize message:"+msg,sx);
return;
}
}
if ( Logs.MESSAGES.isTraceEnabled() ) {
Logs.MESSAGES.trace("GroupChannel - Receive Message:" +
new UniqueId(msg.getUniqueId()) + " is " + fwd);
}
//get the actual member with the correct alive time
Member source = msg.getAddress();
boolean rx = false;
boolean delivered = false;
for ( int i=0; i<channelListeners.size(); i++ ) {
ChannelListener channelListener = (ChannelListener)channelListeners.get(i);
if (channelListener != null && channelListener.accept(fwd, source)) {
channelListener.messageReceived(fwd, source);
delivered = true;
//if the message was accepted by an RPC channel, that channel
//is responsible for returning the reply, otherwise we send an absence reply
if ( channelListener instanceof RpcChannel ) rx = true;
}
}//for
if ((!rx) && (fwd instanceof RpcMessage)) {
//if we have a message that requires a response,
//but none was given, send back an immediate one
sendNoRpcChannelReply((RpcMessage)fwd,source);
}
if ( Logs.MESSAGES.isTraceEnabled() ) {
Logs.MESSAGES.trace("GroupChannel delivered[" + delivered + "] id:" +
new UniqueId(msg.getUniqueId()));
}
} catch ( Exception x ) {
//this could be the channel listener throwing an exception, we should log it
//as a warning.
if ( log.isWarnEnabled() ) log.warn("Error receiving message:",x);
throw new RemoteProcessException("Exception:"+x.getMessage(),x);
}
}
/**
* Sends a <code>NoRpcChannelReply</code> message to a member<br>
* This method gets invoked by the channel if a RPC message comes in
* and no channel listener accepts the message. This avoids timeout
* @param msg RpcMessage
* @param destination Member - the destination for the reply
*/
protected void sendNoRpcChannelReply(RpcMessage msg, Member destination) {
try {
//avoid circular loop
if ( msg instanceof RpcMessage.NoRpcChannelReply) return;
RpcMessage.NoRpcChannelReply reply =
new RpcMessage.NoRpcChannelReply(msg.rpcId, msg.uuid);
send(new Member[]{destination},reply,Channel.SEND_OPTIONS_ASYNCHRONOUS);
} catch ( Exception x ) {
log.error("Unable to find rpc channel, failed to send NoRpcChannelReply.",x);
}
}
/**
* memberAdded gets invoked by the interceptor below the channel
* and the channel will broadcast it to the membership listeners
* @param member Member - the new member
*/
@Override
public void memberAdded(Member member) {
//notify upwards
for (int i=0; i<membershipListeners.size(); i++ ) {
MembershipListener membershipListener = (MembershipListener)membershipListeners.get(i);
if (membershipListener != null) membershipListener.memberAdded(member);
}
}
/**
* memberDisappeared gets invoked by the interceptor below the channel
* and the channel will broadcast it to the membership listeners
* @param member Member - the member that left or crashed
*/
@Override
public void memberDisappeared(Member member) {
//notify upwards
for (int i=0; i<membershipListeners.size(); i++ ) {
MembershipListener membershipListener = (MembershipListener)membershipListeners.get(i);
if (membershipListener != null) membershipListener.memberDisappeared(member);
}
}
/**
* Sets up the default implementation interceptor stack
* if no interceptors have been added
* @throws ChannelException
*/
protected synchronized void setupDefaultStack() throws ChannelException {
if (getFirstInterceptor() != null &&
((getFirstInterceptor().getNext() instanceof ChannelCoordinator))) {
addInterceptor(new MessageDispatch15Interceptor());
}
}
/**
* Validates the option flags that each interceptor is using and reports
* an error if two interceptor share the same flag.
* @throws ChannelException
*/
protected void checkOptionFlags() throws ChannelException {
StringBuilder conflicts = new StringBuilder();
ChannelInterceptor first = interceptors;
while ( first != null ) {
int flag = first.getOptionFlag();
if ( flag != 0 ) {
ChannelInterceptor next = first.getNext();
while ( next != null ) {
int nflag = next.getOptionFlag();
if (nflag!=0 && (((flag & nflag) == flag ) || ((flag & nflag) == nflag)) ) {
conflicts.append("[");
conflicts.append(first.getClass().getName());
conflicts.append(":");
conflicts.append(flag);
conflicts.append(" == ");
conflicts.append(next.getClass().getName());
conflicts.append(":");
conflicts.append(nflag);
conflicts.append("] ");
}//end if
next = next.getNext();
}//while
}//end if
first = first.getNext();
}//while
if ( conflicts.length() > 0 ) throw new ChannelException("Interceptor option flag conflict: "+conflicts.toString());
}
/**
* Starts the channel
* @param svc int - what service to start
* @throws ChannelException
* @see org.apache.catalina.tribes.Channel#start(int)
*/
@Override
public synchronized void start(int svc) throws ChannelException {
setupDefaultStack();
if (optionCheck) checkOptionFlags();
super.start(svc);
if ( hbthread == null && heartbeat ) {
hbthread = new HeartbeatThread(this,heartbeatSleeptime);
hbthread.start();
}
}
/**
* Stops the channel
* @param svc int
* @throws ChannelException
* @see org.apache.catalina.tribes.Channel#stop(int)
*/
@Override
public synchronized void stop(int svc) throws ChannelException {
if (hbthread != null) {
hbthread.stopHeartbeat();
hbthread = null;
}
super.stop(svc);
}
/**
* Returns the first interceptor of the stack. Useful for traversal.
* @return ChannelInterceptor
*/
public ChannelInterceptor getFirstInterceptor() {
if (interceptors != null) return interceptors;
else return coordinator;
}
/**
* Returns the channel receiver component
* @return ChannelReceiver
*/
@Override
public ChannelReceiver getChannelReceiver() {
return coordinator.getClusterReceiver();
}
/**
* Returns the channel sender component
* @return ChannelSender
*/
@Override
public ChannelSender getChannelSender() {
return coordinator.getClusterSender();
}
/**
* Returns the membership service component
* @return MembershipService
*/
@Override
public MembershipService getMembershipService() {
return coordinator.getMembershipService();
}
/**
* Sets the channel receiver component
* @param clusterReceiver ChannelReceiver
*/
@Override
public void setChannelReceiver(ChannelReceiver clusterReceiver) {
coordinator.setClusterReceiver(clusterReceiver);
}
/**
* Sets the channel sender component
* @param clusterSender ChannelSender
*/
@Override
public void setChannelSender(ChannelSender clusterSender) {
coordinator.setClusterSender(clusterSender);
}
/**
* Sets the membership component
* @param membershipService MembershipService
*/
@Override
public void setMembershipService(MembershipService membershipService) {
coordinator.setMembershipService(membershipService);
}
/**
* Adds a membership listener to the channel.<br>
* Membership listeners are uniquely identified using the equals(Object) method
* @param membershipListener MembershipListener
*/
@Override
public void addMembershipListener(MembershipListener membershipListener) {
if (!this.membershipListeners.contains(membershipListener) )
this.membershipListeners.add(membershipListener);
}
/**
* Removes a membership listener from the channel.<br>
* Membership listeners are uniquely identified using the equals(Object) method
* @param membershipListener MembershipListener
*/
@Override
public void removeMembershipListener(MembershipListener membershipListener) {
membershipListeners.remove(membershipListener);
}
/**
* Adds a channel listener to the channel.<br>
* Channel listeners are uniquely identified using the equals(Object) method
* @param channelListener ChannelListener
*/
@Override
public void addChannelListener(ChannelListener channelListener) {
if (!this.channelListeners.contains(channelListener) ) {
this.channelListeners.add(channelListener);
} else {
throw new IllegalArgumentException("Listener already exists:"+channelListener+"["+channelListener.getClass().getName()+"]");
}
}
/**
*
* Removes a channel listener from the channel.<br>
* Channel listeners are uniquely identified using the equals(Object) method
* @param channelListener ChannelListener
*/
@Override
public void removeChannelListener(ChannelListener channelListener) {
channelListeners.remove(channelListener);
}
/**
* Returns an iterator of all the interceptors in this stack
* @return Iterator
*/
@Override
public Iterator<ChannelInterceptor> getInterceptors() {
return new InterceptorIterator(this.getNext(),this.coordinator);
}
/**
* Enables/disables the option check<br>
* Setting this to true, will make the GroupChannel perform a conflict check
* on the interceptors. If two interceptors are using the same option flag
* and throw an error upon start.
* @param optionCheck boolean
*/
public void setOptionCheck(boolean optionCheck) {
this.optionCheck = optionCheck;
}
/**
* Configure local heartbeat sleep time<br>
* Only used when <code>getHeartbeat()==true</code>
* @param heartbeatSleeptime long - time in milliseconds to sleep between heartbeats
*/
public void setHeartbeatSleeptime(long heartbeatSleeptime) {
this.heartbeatSleeptime = heartbeatSleeptime;
}
/**
* Enables or disables local heartbeat.
* if <code>setHeartbeat(true)</code> is invoked then the channel will start an internal
* thread to invoke <code>Channel.heartbeat()</code> every <code>getHeartbeatSleeptime</code> milliseconds
* @param heartbeat boolean
*/
@Override
public void setHeartbeat(boolean heartbeat) {
this.heartbeat = heartbeat;
}
/**
* @see #setOptionCheck(boolean)
* @return boolean
*/
public boolean getOptionCheck() {
return optionCheck;
}
/**
* @see #setHeartbeat(boolean)
* @return boolean
*/
public boolean getHeartbeat() {
return heartbeat;
}
/**
* Returns the sleep time in milliseconds that the internal heartbeat will
* sleep in between invocations of <code>Channel.heartbeat()</code>
* @return long
*/
public long getHeartbeatSleeptime() {
return heartbeatSleeptime;
}
/**
*
* <p>Title: Interceptor Iterator</p>
*
* <p>Description: An iterator to loop through the interceptors in a channel</p>
*
* @version 1.0
*/
public static class InterceptorIterator implements Iterator<ChannelInterceptor> {
private final ChannelInterceptor end;
private ChannelInterceptor start;
public InterceptorIterator(ChannelInterceptor start, ChannelInterceptor end) {
this.end = end;
this.start = start;
}
@Override
public boolean hasNext() {
return start!=null && start != end;
}
@Override
public ChannelInterceptor next() {
ChannelInterceptor result = null;
if ( hasNext() ) {
result = start;
start = start.getNext();
}
return result;
}
@Override
public void remove() {
//empty operation
}
}
/**
*
* <p>Title: Internal heartbeat thread</p>
*
* <p>Description: if <code>Channel.getHeartbeat()==true</code> then a thread of this class
* is created</p>
*
* @version 1.0
*/
public static class HeartbeatThread extends Thread {
private static final Log log = LogFactory.getLog(HeartbeatThread.class);
protected static int counter = 1;
protected static synchronized int inc() {
return counter++;
}
protected volatile boolean doRun = true;
protected final GroupChannel channel;
protected final long sleepTime;
public HeartbeatThread(GroupChannel channel, long sleepTime) {
super();
this.setPriority(MIN_PRIORITY);
setName("GroupChannel-Heartbeat-"+inc());
setDaemon(true);
this.channel = channel;
this.sleepTime = sleepTime;
}
public void stopHeartbeat() {
doRun = false;
interrupt();
}
@Override
public void run() {
while (doRun) {
try {
Thread.sleep(sleepTime);
channel.heartbeat();
} catch ( InterruptedException x ) {
// Ignore. Probably triggered by a call to stopHeartbeat().
// In the highly unlikely event it was a different trigger,
// simply ignore it and continue.
} catch ( Exception x ) {
log.error("Unable to send heartbeat through Tribes interceptor stack. Will try to sleep again.",x);
}//catch
}//while
}//run
}//HeartbeatThread
}