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org.apache.activemq.transport.mqtt.MQTTProtocolConverter Maven / Gradle / Ivy
/**
* 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.activemq.transport.mqtt;
import java.io.IOException;
import java.util.Map;
import java.util.concurrent.ConcurrentHashMap;
import java.util.concurrent.ConcurrentMap;
import java.util.concurrent.atomic.AtomicBoolean;
import java.util.zip.DataFormatException;
import java.util.zip.Inflater;
import javax.jms.Destination;
import javax.jms.InvalidClientIDException;
import javax.jms.JMSException;
import javax.jms.Message;
import javax.security.auth.login.CredentialException;
import org.apache.activemq.broker.BrokerService;
import org.apache.activemq.broker.BrokerServiceAware;
import org.apache.activemq.broker.region.policy.RetainedMessageSubscriptionRecoveryPolicy;
import org.apache.activemq.command.ActiveMQBytesMessage;
import org.apache.activemq.command.ActiveMQDestination;
import org.apache.activemq.command.ActiveMQMapMessage;
import org.apache.activemq.command.ActiveMQMessage;
import org.apache.activemq.command.ActiveMQTextMessage;
import org.apache.activemq.command.Command;
import org.apache.activemq.command.ConnectionError;
import org.apache.activemq.command.ConnectionId;
import org.apache.activemq.command.ConnectionInfo;
import org.apache.activemq.command.ExceptionResponse;
import org.apache.activemq.command.MessageAck;
import org.apache.activemq.command.MessageDispatch;
import org.apache.activemq.command.MessageId;
import org.apache.activemq.command.ProducerId;
import org.apache.activemq.command.ProducerInfo;
import org.apache.activemq.command.Response;
import org.apache.activemq.command.SessionId;
import org.apache.activemq.command.SessionInfo;
import org.apache.activemq.command.ShutdownInfo;
import org.apache.activemq.transport.mqtt.strategy.MQTTSubscriptionStrategy;
import org.apache.activemq.util.ByteArrayOutputStream;
import org.apache.activemq.util.ByteSequence;
import org.apache.activemq.util.FactoryFinder;
import org.apache.activemq.util.IOExceptionSupport;
import org.apache.activemq.util.IdGenerator;
import org.apache.activemq.util.JMSExceptionSupport;
import org.apache.activemq.util.LRUCache;
import org.apache.activemq.util.LongSequenceGenerator;
import org.fusesource.hawtbuf.Buffer;
import org.fusesource.hawtbuf.UTF8Buffer;
import org.fusesource.mqtt.client.QoS;
import org.fusesource.mqtt.client.Topic;
import org.fusesource.mqtt.codec.CONNACK;
import org.fusesource.mqtt.codec.CONNECT;
import org.fusesource.mqtt.codec.DISCONNECT;
import org.fusesource.mqtt.codec.MQTTFrame;
import org.fusesource.mqtt.codec.PINGREQ;
import org.fusesource.mqtt.codec.PINGRESP;
import org.fusesource.mqtt.codec.PUBACK;
import org.fusesource.mqtt.codec.PUBCOMP;
import org.fusesource.mqtt.codec.PUBLISH;
import org.fusesource.mqtt.codec.PUBREC;
import org.fusesource.mqtt.codec.PUBREL;
import org.fusesource.mqtt.codec.SUBACK;
import org.fusesource.mqtt.codec.SUBSCRIBE;
import org.fusesource.mqtt.codec.UNSUBACK;
import org.fusesource.mqtt.codec.UNSUBSCRIBE;
import org.slf4j.Logger;
import org.slf4j.LoggerFactory;
public class MQTTProtocolConverter {
private static final Logger LOG = LoggerFactory.getLogger(MQTTProtocolConverter.class);
public static final String QOS_PROPERTY_NAME = "ActiveMQ.MQTT.QoS";
public static final int V3_1 = 3;
public static final int V3_1_1 = 4;
public static final String SINGLE_LEVEL_WILDCARD = "+";
public static final String MULTI_LEVEL_WILDCARD = "#";
private static final IdGenerator CONNECTION_ID_GENERATOR = new IdGenerator();
private static final MQTTFrame PING_RESP_FRAME = new PINGRESP().encode();
private static final double MQTT_KEEP_ALIVE_GRACE_PERIOD = 0.5;
static final int DEFAULT_CACHE_SIZE = 5000;
private final ConnectionId connectionId = new ConnectionId(CONNECTION_ID_GENERATOR.generateId());
private final SessionId sessionId = new SessionId(connectionId, -1);
private final ProducerId producerId = new ProducerId(sessionId, 1);
private final LongSequenceGenerator publisherIdGenerator = new LongSequenceGenerator();
private final ConcurrentMap resposeHandlers = new ConcurrentHashMap();
private final Map activeMQDestinationMap = new LRUCache(DEFAULT_CACHE_SIZE);
private final Map mqttTopicMap = new LRUCache(DEFAULT_CACHE_SIZE);
private final Map consumerAcks = new LRUCache(DEFAULT_CACHE_SIZE);
private final Map publisherRecs = new LRUCache(DEFAULT_CACHE_SIZE);
private final MQTTTransport mqttTransport;
private final BrokerService brokerService;
private final Object commnadIdMutex = new Object();
private int lastCommandId;
private final AtomicBoolean connected = new AtomicBoolean(false);
private final ConnectionInfo connectionInfo = new ConnectionInfo();
private CONNECT connect;
private String clientId;
private long defaultKeepAlive;
private int activeMQSubscriptionPrefetch = -1;
private final MQTTPacketIdGenerator packetIdGenerator;
private boolean publishDollarTopics;
public int version;
private final FactoryFinder STRATAGY_FINDER = new FactoryFinder("META-INF/services/org/apache/activemq/transport/strategies/");
/*
* Subscription strategy configuration element.
* > mqtt-default-subscriptions
* > mqtt-virtual-topic-subscriptions
*/
private String subscriptionStrategyName = "mqtt-default-subscriptions";
private MQTTSubscriptionStrategy subsciptionStrategy;
public MQTTProtocolConverter(MQTTTransport mqttTransport, BrokerService brokerService) {
this.mqttTransport = mqttTransport;
this.brokerService = brokerService;
this.packetIdGenerator = MQTTPacketIdGenerator.getMQTTPacketIdGenerator(brokerService);
this.defaultKeepAlive = 0;
}
int generateCommandId() {
synchronized (commnadIdMutex) {
return lastCommandId++;
}
}
public void sendToActiveMQ(Command command, ResponseHandler handler) {
// Lets intercept message send requests..
if (command instanceof ActiveMQMessage) {
ActiveMQMessage msg = (ActiveMQMessage) command;
try {
if (!getPublishDollarTopics() && findSubscriptionStrategy().isControlTopic(msg.getDestination())) {
// We don't allow users to send to $ prefixed topics to avoid failing MQTT 3.1.1
// specification requirements for system assigned destinations.
if (handler != null) {
try {
handler.onResponse(this, new Response());
} catch (IOException e) {
LOG.warn("Failed to send command " + command, e);
}
}
return;
}
} catch (IOException e) {
LOG.warn("Failed to send command " + command, e);
}
}
command.setCommandId(generateCommandId());
if (handler != null) {
command.setResponseRequired(true);
resposeHandlers.put(command.getCommandId(), handler);
}
getMQTTTransport().sendToActiveMQ(command);
}
void sendToMQTT(MQTTFrame frame) {
try {
mqttTransport.sendToMQTT(frame);
} catch (IOException e) {
LOG.warn("Failed to send frame " + frame, e);
}
}
/**
* Convert a MQTT command
*/
public void onMQTTCommand(MQTTFrame frame) throws IOException, JMSException {
switch (frame.messageType()) {
case PINGREQ.TYPE:
LOG.debug("Received a ping from client: " + getClientId());
checkConnected();
sendToMQTT(PING_RESP_FRAME);
LOG.debug("Sent Ping Response to " + getClientId());
break;
case CONNECT.TYPE:
CONNECT connect = new CONNECT().decode(frame);
onMQTTConnect(connect);
LOG.debug("MQTT Client {} connected. (version: {})", getClientId(), connect.version());
break;
case DISCONNECT.TYPE:
LOG.debug("MQTT Client {} disconnecting", getClientId());
onMQTTDisconnect();
break;
case SUBSCRIBE.TYPE:
onSubscribe(new SUBSCRIBE().decode(frame));
break;
case UNSUBSCRIBE.TYPE:
onUnSubscribe(new UNSUBSCRIBE().decode(frame));
break;
case PUBLISH.TYPE:
onMQTTPublish(new PUBLISH().decode(frame));
break;
case PUBACK.TYPE:
onMQTTPubAck(new PUBACK().decode(frame));
break;
case PUBREC.TYPE:
onMQTTPubRec(new PUBREC().decode(frame));
break;
case PUBREL.TYPE:
onMQTTPubRel(new PUBREL().decode(frame));
break;
case PUBCOMP.TYPE:
onMQTTPubComp(new PUBCOMP().decode(frame));
break;
default:
handleException(new MQTTProtocolException("Unknown MQTTFrame type: " + frame.messageType(), true), frame);
}
}
void onMQTTConnect(final CONNECT connect) throws MQTTProtocolException {
if (connected.get()) {
throw new MQTTProtocolException("Already connected.");
}
this.connect = connect;
// The Server MUST respond to the CONNECT Packet with a CONNACK return code 0x01
// (unacceptable protocol level) and then disconnect the Client if the Protocol Level
// is not supported by the Server [MQTT-3.1.2-2].
if (connect.version() < 3 || connect.version() > 4) {
CONNACK ack = new CONNACK();
ack.code(CONNACK.Code.CONNECTION_REFUSED_UNACCEPTED_PROTOCOL_VERSION);
try {
getMQTTTransport().sendToMQTT(ack.encode());
getMQTTTransport().onException(IOExceptionSupport.create("Unsupported or invalid protocol version", null));
} catch (IOException e) {
getMQTTTransport().onException(IOExceptionSupport.create(e));
}
return;
}
String clientId = "";
if (connect.clientId() != null) {
clientId = connect.clientId().toString();
}
String userName = null;
if (connect.userName() != null) {
userName = connect.userName().toString();
}
String passswd = null;
if (connect.password() != null) {
if (userName == null && connect.version() != V3_1) {
// [MQTT-3.1.2-22]: If the user name is not present then the
// password must also be absent.
// [MQTT-3.1.4-1]: would seem to imply we don't send a CONNACK here.
getMQTTTransport().onException(IOExceptionSupport.create("Password given without a user name", null));
return;
}
passswd = connect.password().toString();
}
version = connect.version();
configureInactivityMonitor(connect.keepAlive());
connectionInfo.setConnectionId(connectionId);
if (clientId != null && !clientId.isEmpty()) {
connectionInfo.setClientId(clientId);
} else {
// Clean Session MUST be set for 0 length Client Id
if (!connect.cleanSession()) {
CONNACK ack = new CONNACK();
ack.code(CONNACK.Code.CONNECTION_REFUSED_IDENTIFIER_REJECTED);
try {
getMQTTTransport().sendToMQTT(ack.encode());
getMQTTTransport().onException(IOExceptionSupport.create("Invalid Client ID", null));
} catch (IOException e) {
getMQTTTransport().onException(IOExceptionSupport.create(e));
}
return;
}
connectionInfo.setClientId("" + connectionInfo.getConnectionId().toString());
}
connectionInfo.setResponseRequired(true);
connectionInfo.setUserName(userName);
connectionInfo.setPassword(passswd);
connectionInfo.setTransportContext(mqttTransport.getPeerCertificates());
sendToActiveMQ(connectionInfo, new ResponseHandler() {
@Override
public void onResponse(MQTTProtocolConverter converter, Response response) throws IOException {
if (response.isException()) {
// If the connection attempt fails we close the socket.
Throwable exception = ((ExceptionResponse) response).getException();
//let the client know
CONNACK ack = new CONNACK();
if (exception instanceof InvalidClientIDException) {
ack.code(CONNACK.Code.CONNECTION_REFUSED_IDENTIFIER_REJECTED);
} else if (exception instanceof SecurityException) {
ack.code(CONNACK.Code.CONNECTION_REFUSED_NOT_AUTHORIZED);
} else if (exception instanceof CredentialException) {
ack.code(CONNACK.Code.CONNECTION_REFUSED_BAD_USERNAME_OR_PASSWORD);
} else {
ack.code(CONNACK.Code.CONNECTION_REFUSED_SERVER_UNAVAILABLE);
}
getMQTTTransport().sendToMQTT(ack.encode());
getMQTTTransport().onException(IOExceptionSupport.create(exception));
return;
}
final SessionInfo sessionInfo = new SessionInfo(sessionId);
sendToActiveMQ(sessionInfo, null);
final ProducerInfo producerInfo = new ProducerInfo(producerId);
sendToActiveMQ(producerInfo, new ResponseHandler() {
@Override
public void onResponse(MQTTProtocolConverter converter, Response response) throws IOException {
if (response.isException()) {
// If the connection attempt fails we close the socket.
Throwable exception = ((ExceptionResponse) response).getException();
CONNACK ack = new CONNACK();
ack.code(CONNACK.Code.CONNECTION_REFUSED_BAD_USERNAME_OR_PASSWORD);
getMQTTTransport().sendToMQTT(ack.encode());
getMQTTTransport().onException(IOExceptionSupport.create(exception));
return;
}
CONNACK ack = new CONNACK();
ack.code(CONNACK.Code.CONNECTION_ACCEPTED);
connected.set(true);
getMQTTTransport().sendToMQTT(ack.encode());
if (connect.cleanSession()) {
packetIdGenerator.stopClientSession(getClientId());
} else {
packetIdGenerator.startClientSession(getClientId());
}
findSubscriptionStrategy().onConnect(connect);
}
});
}
});
}
void onMQTTDisconnect() throws MQTTProtocolException {
if (connected.compareAndSet(true, false)) {
sendToActiveMQ(connectionInfo.createRemoveCommand(), null);
sendToActiveMQ(new ShutdownInfo(), null);
}
stopTransport();
}
void onSubscribe(SUBSCRIBE command) throws MQTTProtocolException {
checkConnected();
LOG.trace("MQTT SUBSCRIBE message:{} client:{} connection:{}",
command.messageId(), clientId, connectionInfo.getConnectionId());
Topic[] topics = command.topics();
if (topics != null) {
byte[] qos = new byte[topics.length];
for (int i = 0; i < topics.length; i++) {
MQTTProtocolSupport.validate(topics[i].name().toString());
try {
qos[i] = findSubscriptionStrategy().onSubscribe(topics[i]);
} catch (IOException e) {
throw new MQTTProtocolException("Failed to process subscription request", true, e);
}
}
SUBACK ack = new SUBACK();
ack.messageId(command.messageId());
ack.grantedQos(qos);
try {
getMQTTTransport().sendToMQTT(ack.encode());
} catch (IOException e) {
LOG.warn("Couldn't send SUBACK for " + command, e);
}
} else {
LOG.warn("No topics defined for Subscription " + command);
throw new MQTTProtocolException("SUBSCRIBE command received with no topic filter");
}
}
public void onUnSubscribe(UNSUBSCRIBE command) throws MQTTProtocolException {
checkConnected();
if (command.qos() != QoS.AT_LEAST_ONCE && (version != V3_1 || publishDollarTopics != true)) {
throw new MQTTProtocolException("Failed to process unsubscribe request", true, new Exception("UNSUBSCRIBE frame not properly formatted, QoS"));
}
UTF8Buffer[] topics = command.topics();
if (topics != null) {
for (UTF8Buffer topic : topics) {
MQTTProtocolSupport.validate(topic.toString());
try {
findSubscriptionStrategy().onUnSubscribe(topic.toString());
} catch (IOException e) {
throw new MQTTProtocolException("Failed to process unsubscribe request", true, e);
}
}
UNSUBACK ack = new UNSUBACK();
ack.messageId(command.messageId());
sendToMQTT(ack.encode());
} else {
LOG.warn("No topics defined for Subscription " + command);
throw new MQTTProtocolException("UNSUBSCRIBE command received with no topic filter");
}
}
/**
* Dispatch an ActiveMQ command
*/
public void onActiveMQCommand(Command command) throws Exception {
if (command.isResponse()) {
Response response = (Response) command;
ResponseHandler rh = resposeHandlers.remove(Integer.valueOf(response.getCorrelationId()));
if (rh != null) {
rh.onResponse(this, response);
} else {
// Pass down any unexpected errors. Should this close the connection?
if (response.isException()) {
Throwable exception = ((ExceptionResponse) response).getException();
handleException(exception, null);
}
}
} else if (command.isMessageDispatch()) {
MessageDispatch md = (MessageDispatch) command;
MQTTSubscription sub = findSubscriptionStrategy().getSubscription(md.getConsumerId());
if (sub != null) {
MessageAck ack = sub.createMessageAck(md);
PUBLISH publish = sub.createPublish((ActiveMQMessage) md.getMessage());
switch (publish.qos()) {
case AT_LEAST_ONCE:
case EXACTLY_ONCE:
publish.dup(publish.dup() ? true : md.getMessage().isRedelivered());
case AT_MOST_ONCE:
}
if (ack != null && sub.expectAck(publish)) {
synchronized (consumerAcks) {
consumerAcks.put(publish.messageId(), ack);
}
}
LOG.trace("MQTT Snd PUBLISH message:{} client:{} connection:{}",
publish.messageId(), clientId, connectionInfo.getConnectionId());
getMQTTTransport().sendToMQTT(publish.encode());
if (ack != null && !sub.expectAck(publish)) {
getMQTTTransport().sendToActiveMQ(ack);
}
}
} else if (command.getDataStructureType() == ConnectionError.DATA_STRUCTURE_TYPE) {
// Pass down any unexpected async errors. Should this close the connection?
Throwable exception = ((ConnectionError) command).getException();
handleException(exception, null);
} else if (command.isBrokerInfo()) {
//ignore
} else {
LOG.debug("Do not know how to process ActiveMQ Command {}", command);
}
}
void onMQTTPublish(PUBLISH command) throws IOException, JMSException {
checkConnected();
LOG.trace("MQTT Rcv PUBLISH message:{} client:{} connection:{}",
command.messageId(), clientId, connectionInfo.getConnectionId());
//Both version 3.1 and 3.1.1 do not allow the topic name to contain a wildcard in the publish packet
if (containsMqttWildcard(command.topicName().toString())) {
// [MQTT-3.3.2-2]: The Topic Name in the PUBLISH Packet MUST NOT contain wildcard characters
getMQTTTransport().onException(IOExceptionSupport.create("The topic name must not contain wildcard characters.", null));
return;
}
ActiveMQMessage message = convertMessage(command);
message.setProducerId(producerId);
message.onSend();
sendToActiveMQ(message, createResponseHandler(command));
}
void onMQTTPubAck(PUBACK command) {
short messageId = command.messageId();
LOG.trace("MQTT Rcv PUBACK message:{} client:{} connection:{}",
messageId, clientId, connectionInfo.getConnectionId());
packetIdGenerator.ackPacketId(getClientId(), messageId);
MessageAck ack;
synchronized (consumerAcks) {
ack = consumerAcks.remove(messageId);
}
if (ack != null) {
getMQTTTransport().sendToActiveMQ(ack);
}
}
void onMQTTPubRec(PUBREC commnand) {
//from a subscriber - send a PUBREL in response
PUBREL pubrel = new PUBREL();
pubrel.messageId(commnand.messageId());
sendToMQTT(pubrel.encode());
}
void onMQTTPubRel(PUBREL command) {
PUBREC ack;
synchronized (publisherRecs) {
ack = publisherRecs.remove(command.messageId());
}
if (ack == null) {
LOG.warn("Unknown PUBREL: {} received", command.messageId());
}
PUBCOMP pubcomp = new PUBCOMP();
pubcomp.messageId(command.messageId());
sendToMQTT(pubcomp.encode());
}
void onMQTTPubComp(PUBCOMP command) {
short messageId = command.messageId();
packetIdGenerator.ackPacketId(getClientId(), messageId);
MessageAck ack;
synchronized (consumerAcks) {
ack = consumerAcks.remove(messageId);
}
if (ack != null) {
getMQTTTransport().sendToActiveMQ(ack);
}
}
ActiveMQMessage convertMessage(PUBLISH command) throws JMSException {
ActiveMQBytesMessage msg = new ActiveMQBytesMessage();
msg.setProducerId(producerId);
MessageId id = new MessageId(producerId, publisherIdGenerator.getNextSequenceId());
msg.setMessageId(id);
LOG.trace("MQTT-->ActiveMQ: MQTT_MSGID:{} client:{} connection:{} ActiveMQ_MSGID:{}",
command.messageId(), clientId, connectionInfo.getConnectionId(), msg.getMessageId());
msg.setTimestamp(System.currentTimeMillis());
msg.setPriority((byte) Message.DEFAULT_PRIORITY);
msg.setPersistent(command.qos() != QoS.AT_MOST_ONCE && !command.retain());
msg.setIntProperty(QOS_PROPERTY_NAME, command.qos().ordinal());
if (command.retain()) {
msg.setBooleanProperty(RetainedMessageSubscriptionRecoveryPolicy.RETAIN_PROPERTY, true);
}
ActiveMQDestination destination;
synchronized (activeMQDestinationMap) {
destination = activeMQDestinationMap.get(command.topicName());
if (destination == null) {
String topicName = MQTTProtocolSupport.convertMQTTToActiveMQ(command.topicName().toString());
try {
destination = findSubscriptionStrategy().onSend(topicName);
} catch (IOException e) {
throw JMSExceptionSupport.create(e);
}
activeMQDestinationMap.put(command.topicName().toString(), destination);
}
}
msg.setJMSDestination(destination);
msg.writeBytes(command.payload().data, command.payload().offset, command.payload().length);
return msg;
}
public PUBLISH convertMessage(ActiveMQMessage message) throws IOException, JMSException, DataFormatException {
PUBLISH result = new PUBLISH();
// packet id is set in MQTTSubscription
QoS qoS;
if (message.propertyExists(QOS_PROPERTY_NAME)) {
int ordinal = message.getIntProperty(QOS_PROPERTY_NAME);
qoS = QoS.values()[ordinal];
} else {
qoS = message.isPersistent() ? QoS.AT_MOST_ONCE : QoS.AT_LEAST_ONCE;
}
result.qos(qoS);
if (message.getBooleanProperty(RetainedMessageSubscriptionRecoveryPolicy.RETAINED_PROPERTY)) {
result.retain(true);
}
String topicName;
synchronized (mqttTopicMap) {
topicName = mqttTopicMap.get(message.getJMSDestination());
if (topicName == null) {
String amqTopicName = findSubscriptionStrategy().onSend(message.getDestination());
topicName = MQTTProtocolSupport.convertActiveMQToMQTT(amqTopicName);
mqttTopicMap.put(message.getJMSDestination(), topicName);
}
}
result.topicName(new UTF8Buffer(topicName));
if (message.getDataStructureType() == ActiveMQTextMessage.DATA_STRUCTURE_TYPE) {
ActiveMQTextMessage msg = (ActiveMQTextMessage) message.copy();
msg.setReadOnlyBody(true);
String messageText = msg.getText();
if (messageText != null) {
result.payload(new Buffer(messageText.getBytes("UTF-8")));
}
} else if (message.getDataStructureType() == ActiveMQBytesMessage.DATA_STRUCTURE_TYPE) {
ActiveMQBytesMessage msg = (ActiveMQBytesMessage) message.copy();
msg.setReadOnlyBody(true);
byte[] data = new byte[(int) msg.getBodyLength()];
msg.readBytes(data);
result.payload(new Buffer(data));
} else if (message.getDataStructureType() == ActiveMQMapMessage.DATA_STRUCTURE_TYPE) {
ActiveMQMapMessage msg = (ActiveMQMapMessage) message.copy();
msg.setReadOnlyBody(true);
Map map = msg.getContentMap();
if (map != null) {
result.payload(new Buffer(map.toString().getBytes("UTF-8")));
}
} else {
ByteSequence byteSequence = message.getContent();
if (byteSequence != null && byteSequence.getLength() > 0) {
if (message.isCompressed()) {
Inflater inflater = new Inflater();
inflater.setInput(byteSequence.data, byteSequence.offset, byteSequence.length);
byte[] data = new byte[4096];
int read;
ByteArrayOutputStream bytesOut = new ByteArrayOutputStream();
while ((read = inflater.inflate(data)) != 0) {
bytesOut.write(data, 0, read);
}
byteSequence = bytesOut.toByteSequence();
bytesOut.close();
}
result.payload(new Buffer(byteSequence.data, byteSequence.offset, byteSequence.length));
}
}
LOG.trace("ActiveMQ-->MQTT:MQTT_MSGID:{} client:{} connection:{} ActiveMQ_MSGID:{}",
result.messageId(), clientId, connectionInfo.getConnectionId(), message.getMessageId());
return result;
}
public MQTTTransport getMQTTTransport() {
return mqttTransport;
}
boolean willSent = false;
public void onTransportError() {
if (connect != null) {
if (connected.get()) {
if (connect.willTopic() != null && connect.willMessage() != null && !willSent) {
willSent = true;
try {
PUBLISH publish = new PUBLISH();
publish.topicName(connect.willTopic());
publish.qos(connect.willQos());
publish.messageId(packetIdGenerator.getNextSequenceId(getClientId()));
publish.payload(connect.willMessage());
publish.retain(connect.willRetain());
ActiveMQMessage message = convertMessage(publish);
message.setProducerId(producerId);
message.onSend();
sendToActiveMQ(message, null);
} catch (Exception e) {
LOG.warn("Failed to publish Will Message " + connect.willMessage());
}
}
// remove connection info
sendToActiveMQ(connectionInfo.createRemoveCommand(), null);
}
}
}
void configureInactivityMonitor(short keepAliveSeconds) {
MQTTInactivityMonitor monitor = getMQTTTransport().getInactivityMonitor();
// If the user specifically shuts off the InactivityMonitor with transport.useInactivityMonitor=false,
// then ignore configuring it because it won't exist
if (monitor == null) {
return;
}
// Client has sent a valid CONNECT frame, we can stop the connect checker.
monitor.stopConnectChecker();
long keepAliveMS = keepAliveSeconds * 1000;
LOG.debug("MQTT Client {} requests heart beat of {} ms", getClientId(), keepAliveMS);
try {
// if we have a default keep-alive value, and the client is trying to turn off keep-alive,
// we'll observe the server-side configured default value (note, no grace period)
if (keepAliveMS == 0 && defaultKeepAlive > 0) {
keepAliveMS = defaultKeepAlive;
}
long readGracePeriod = (long) (keepAliveMS * MQTT_KEEP_ALIVE_GRACE_PERIOD);
monitor.setProtocolConverter(this);
monitor.setReadKeepAliveTime(keepAliveMS);
monitor.setReadGraceTime(readGracePeriod);
monitor.startReadChecker();
LOG.debug("MQTT Client {} established heart beat of {} ms ({} ms + {} ms grace period)",
new Object[] { getClientId(), keepAliveMS, keepAliveMS, readGracePeriod });
} catch (Exception ex) {
LOG.warn("Failed to start MQTT InactivityMonitor ", ex);
}
}
void handleException(Throwable exception, MQTTFrame command) {
LOG.warn("Exception occurred processing: \n" + command + ": " + exception.toString());
LOG.debug("Exception detail", exception);
if (connected.get() && connectionInfo != null) {
connected.set(false);
sendToActiveMQ(connectionInfo.createRemoveCommand(), null);
}
stopTransport();
}
void checkConnected() throws MQTTProtocolException {
if (!connected.get()) {
throw new MQTTProtocolException("Not connected.");
}
}
private void stopTransport() {
try {
getMQTTTransport().stop();
} catch (Throwable e) {
LOG.debug("Failed to stop MQTT transport ", e);
}
}
ResponseHandler createResponseHandler(final PUBLISH command) {
if (command != null) {
return new ResponseHandler() {
@Override
public void onResponse(MQTTProtocolConverter converter, Response response) throws IOException {
if (response.isException()) {
Throwable error = ((ExceptionResponse) response).getException();
LOG.warn("Failed to send MQTT Publish: ", command, error.getMessage());
LOG.trace("Error trace: {}", error);
}
switch (command.qos()) {
case AT_LEAST_ONCE:
PUBACK ack = new PUBACK();
ack.messageId(command.messageId());
LOG.trace("MQTT Snd PUBACK message:{} client:{} connection:{}",
command.messageId(), clientId, connectionInfo.getConnectionId());
converter.getMQTTTransport().sendToMQTT(ack.encode());
break;
case EXACTLY_ONCE:
PUBREC req = new PUBREC();
req.messageId(command.messageId());
synchronized (publisherRecs) {
publisherRecs.put(command.messageId(), req);
}
LOG.trace("MQTT Snd PUBREC message:{} client:{} connection:{}",
command.messageId(), clientId, connectionInfo.getConnectionId());
converter.getMQTTTransport().sendToMQTT(req.encode());
break;
default:
break;
}
}
};
}
return null;
}
public long getDefaultKeepAlive() {
return defaultKeepAlive;
}
/**
* Set the default keep alive time (in milliseconds) that would be used if configured on server side
* and the client sends a keep-alive value of 0 (zero) on a CONNECT frame
* @param keepAlive the keepAlive in milliseconds
*/
public void setDefaultKeepAlive(long keepAlive) {
this.defaultKeepAlive = keepAlive;
}
public int getActiveMQSubscriptionPrefetch() {
return activeMQSubscriptionPrefetch;
}
/**
* set the default prefetch size when mapping the MQTT subscription to an ActiveMQ one
* The default = 1
*
* @param activeMQSubscriptionPrefetch
* set the prefetch for the corresponding ActiveMQ subscription
*/
public void setActiveMQSubscriptionPrefetch(int activeMQSubscriptionPrefetch) {
this.activeMQSubscriptionPrefetch = activeMQSubscriptionPrefetch;
}
public MQTTPacketIdGenerator getPacketIdGenerator() {
return packetIdGenerator;
}
public void setPublishDollarTopics(boolean publishDollarTopics) {
this.publishDollarTopics = publishDollarTopics;
}
public boolean getPublishDollarTopics() {
return publishDollarTopics;
}
public ConnectionId getConnectionId() {
return connectionId;
}
public SessionId getSessionId() {
return sessionId;
}
public boolean isCleanSession() {
return this.connect.cleanSession();
}
public String getSubscriptionStrategy() {
return subscriptionStrategyName;
}
public void setSubscriptionStrategy(String name) {
this.subscriptionStrategyName = name;
}
public String getClientId() {
if (clientId == null) {
if (connect != null && connect.clientId() != null) {
clientId = connect.clientId().toString();
} else {
clientId = "";
}
}
return clientId;
}
protected boolean containsMqttWildcard(String value) {
return value != null && (value.contains(SINGLE_LEVEL_WILDCARD) ||
value.contains(MULTI_LEVEL_WILDCARD));
}
protected MQTTSubscriptionStrategy findSubscriptionStrategy() throws IOException {
if (subsciptionStrategy == null) {
synchronized (STRATAGY_FINDER) {
if (subsciptionStrategy != null) {
return subsciptionStrategy;
}
MQTTSubscriptionStrategy strategy = null;
if (subscriptionStrategyName != null && !subscriptionStrategyName.isEmpty()) {
try {
strategy = (MQTTSubscriptionStrategy) STRATAGY_FINDER.newInstance(subscriptionStrategyName);
LOG.debug("MQTT Using subscription strategy: {}", subscriptionStrategyName);
if (strategy instanceof BrokerServiceAware) {
((BrokerServiceAware)strategy).setBrokerService(brokerService);
}
strategy.initialize(this);
} catch (Exception e) {
throw IOExceptionSupport.create(e);
}
} else {
throw new IOException("Invalid subscription strategy name given: " + subscriptionStrategyName);
}
this.subsciptionStrategy = strategy;
}
}
return subsciptionStrategy;
}
}