Added MQTT-Subscriber and XMPP-Connector for the virtual_firealarm

deviceType
application-manager-new
Shabir Mohamed 9 years ago
parent 33edc31644
commit c13e5ac620

@ -48,7 +48,7 @@ public class ArduinoControllerService {
public void setMqttArduinoSubscriber(MqttArduinoSubscriber mqttArduinoSubscriber) {
ArduinoControllerService.mqttArduinoSubscriber = mqttArduinoSubscriber;
try {
mqttArduinoSubscriber.subscribe();
mqttArduinoSubscriber.connectAndSubscribe();
} catch (DeviceManagementException e) {
log.error(e.getErrorMessage());
}

@ -26,10 +26,12 @@ import org.wso2.carbon.device.mgt.iot.common.controlqueue.mqtt.MqttSubscriber;
import java.io.File;
import java.util.LinkedList;
import java.util.UUID;
public class MqttArduinoSubscriber extends MqttSubscriber {
private static Log log = LogFactory.getLog(MqttArduinoSubscriber.class);
private static final String iotServerSubscriber = UUID.randomUUID().toString().substring(0,5);
private static final String subscribetopic =
"wso2" + File.separator + "iot" + File.separator + "+" + File.separator +
ArduinoConstants.DEVICE_TYPE + File.separator + "#";
@ -37,8 +39,7 @@ public class MqttArduinoSubscriber extends MqttSubscriber {
//make it singleton
private MqttArduinoSubscriber() {
super("Subscriber", ArduinoConstants.DEVICE_TYPE, MqttConfig.getInstance().getMqttQueueEndpoint(),
super(iotServerSubscriber, ArduinoConstants.DEVICE_TYPE, MqttConfig.getInstance().getMqttQueueEndpoint(),
subscribetopic);
}

@ -201,7 +201,7 @@
<dependency>
<groupId>org.eclipse.paho</groupId>
<artifactId>mqtt-client</artifactId>
<version>${eclipse.paho.version}</version>
<version>${paho.mqtt.version}</version>
<scope>provided</scope>
</dependency>
<dependency>
@ -441,7 +441,6 @@
<orbit.tomcat.version>7.0.52.wso2v5</orbit.tomcat.version>
<orbit.tomcat.jdbc.pooling.version>7.0.34.wso2v2</orbit.tomcat.jdbc.pooling.version>
<eclipse.paho.version>0.4.0</eclipse.paho.version>
<google.gson.version>2.2.4</google.gson.version>

@ -22,4 +22,9 @@ public class VirtualFireAlarmConstants {
public final static String DEVICE_PLUGIN_DEVICE_ID = "VIRTUAL_FIREALARM_DEVICE_ID";
public final static String STATE_ON = "ON";
public final static String STATE_OFF = "OFF";
public static final String URL_PREFIX = "http://";
public static final String BULB_CONTEXT = "/BULB/";
public static final String SONAR_CONTEXT = "/HUMIDITY/";
public static final String TEMPERATURE_CONTEXT = "/TEMPERATURE/";
}

@ -49,7 +49,6 @@ public class VirtualFireAlarmManager implements DeviceManager {
private static final Log log = LogFactory.getLog(VirtualFireAlarmManager.class);
@Override
public FeatureManager getFeatureManager() {
return null;

@ -25,11 +25,13 @@ import org.osgi.framework.ServiceRegistration;
import org.osgi.service.component.ComponentContext;
import org.wso2.carbon.device.mgt.common.spi.DeviceManagementService;
import org.wso2.carbon.device.mgt.iot.common.service.DeviceTypeService;
import org.wso2.carbon.device.mgt.iot.sample.virtual.firealarm.plugin.impl.VirtualFireAlarmManagerService;
import org.wso2.carbon.device.mgt.iot.sample.virtual.firealarm.plugin.impl
.VirtualFireAlarmManagerService;
/**
* @scr.component name="org.wso2.carbon.device.mgt.iot.firealarm.internal.VirtualFirealarmManagementServiceComponent"
* @scr.component name="org.wso2.carbon.device.mgt.iot.firealarm.internal
* .VirtualFirealarmManagementServiceComponent"
* immediate="true"
* @scr.reference name="wso2.carbon.device.mgt.iot.common.DeviceTypeService"
* interface="org.wso2.carbon.device.mgt.iot.common.service.DeviceTypeService"
@ -39,66 +41,69 @@ import org.wso2.carbon.device.mgt.iot.sample.virtual.firealarm.plugin.impl.Virtu
* unbind="unsetDeviceTypeService"
*/
public class VirtualFirealarmManagementServiceComponent {
private ServiceRegistration firealarmServiceRegRef;
private static final Log log = LogFactory.getLog(VirtualFirealarmManagementServiceComponent.class);
protected void activate(ComponentContext ctx) {
if (log.isDebugEnabled()) {
log.debug("Activating Virtual Firealarm Device Management Service Component");
}
try {
BundleContext bundleContext = ctx.getBundleContext();
firealarmServiceRegRef =
bundleContext.registerService(DeviceManagementService.class.getName(),
new VirtualFireAlarmManagerService(),
null);
if (log.isDebugEnabled()) {
log.debug("Virtual Firealarm Device Management Service Component has been successfully activated");
}
} catch (Throwable e) {
log.error("Error occurred while activating Virtual Firealarm Device Management Service Component", e);
}
}
protected void deactivate(ComponentContext ctx) {
if (log.isDebugEnabled()) {
log.debug("De-activating Virtual Firealarm Device Management Service Component");
}
try {
if (firealarmServiceRegRef != null) {
firealarmServiceRegRef.unregister();
}
if (log.isDebugEnabled()) {
log.debug(
"Virtual Firealarm Device Management Service Component has been successfully de-activated");
}
} catch (Throwable e) {
log.error("Error occurred while de-activating Virtual Firealarm Device Management bundle", e);
}
}
protected void setDeviceTypeService(DeviceTypeService deviceTypeService) {
private ServiceRegistration firealarmServiceRegRef;
private static final Log log = LogFactory.getLog(
VirtualFirealarmManagementServiceComponent.class);
protected void activate(ComponentContext ctx) {
if (log.isDebugEnabled()) {
log.debug("Activating Virtual Firealarm Device Management Service Component");
}
try {
BundleContext bundleContext = ctx.getBundleContext();
firealarmServiceRegRef =
bundleContext.registerService(DeviceManagementService.class.getName(),
new VirtualFireAlarmManagerService(), null);
if (log.isDebugEnabled()) {
log.debug(
"Virtual Firealarm Device Management Service Component has been " +
"successfully activated");
}
} catch (Throwable e) {
log.error(
"Error occurred while activating Virtual Firealarm Device Management Service " +
"Component",
e);
}
}
protected void deactivate(ComponentContext ctx) {
if (log.isDebugEnabled()) {
log.debug("De-activating Virtual Firealarm Device Management Service Component");
}
try {
if (firealarmServiceRegRef != null) {
firealarmServiceRegRef.unregister();
}
if (log.isDebugEnabled()) {
log.debug(
"Virtual Firealarm Device Management Service Component has been " +
"successfully de-activated");
}
} catch (Throwable e) {
log.error(
"Error occurred while de-activating Virtual Firealarm Device Management " +
"bundle",
e);
}
}
protected void setDeviceTypeService(DeviceTypeService deviceTypeService) {
/* This is to avoid this component getting initialized before the
common registered */
if (log.isDebugEnabled()) {
log.debug("Data source service set to mobile service component");
}
}
if (log.isDebugEnabled()) {
log.debug("Data source service set to mobile service component");
}
}
protected void unsetDeviceTypeService(DeviceTypeService deviceTypeService) {
//do nothing
}
protected void unsetDeviceTypeService(DeviceTypeService deviceTypeService) {
//do nothing
}
}

@ -98,16 +98,6 @@
<artifactId>org.wso2.carbon.device.mgt.analytics</artifactId>
</dependency>
<!--Dependencies on XMPP Client Library-->
<dependency>
<groupId>org.igniterealtime.smack.wso2</groupId>
<artifactId>smack</artifactId>
</dependency>
<dependency>
<groupId>org.igniterealtime.smack.wso2</groupId>
<artifactId>smackx</artifactId>
</dependency>
</dependencies>

@ -23,8 +23,6 @@ import org.apache.http.client.methods.HttpGet;
import org.apache.http.concurrent.FutureCallback;
import org.apache.http.impl.nio.client.CloseableHttpAsyncClient;
import org.apache.http.impl.nio.client.HttpAsyncClients;
import org.eclipse.paho.client.mqttv3.MqttMessage;
import org.jivesoftware.smack.packet.Message;
import org.wso2.carbon.context.PrivilegedCarbonContext;
import org.wso2.carbon.device.mgt.analytics.exception.DataPublisherConfigurationException;
import org.wso2.carbon.device.mgt.analytics.service.DeviceAnalyticsService;
@ -32,14 +30,15 @@ import org.wso2.carbon.device.mgt.common.DeviceIdentifier;
import org.wso2.carbon.device.mgt.common.DeviceManagementException;
import org.wso2.carbon.device.mgt.iot.common.DeviceController;
import org.wso2.carbon.device.mgt.iot.common.DeviceValidator;
import org.wso2.carbon.device.mgt.iot.common.controlqueue.mqtt.MqttConfig;
import org.wso2.carbon.device.mgt.iot.common.controlqueue.xmpp.XmppConfig;
import org.wso2.carbon.device.mgt.iot.common.exception.DeviceControllerException;
import org.wso2.carbon.device.mgt.iot.sample.virtual.firealarm.service.impl.util.DeviceJSON;
import org.wso2.carbon.device.mgt.iot.sample.virtual.firealarm.plugin.constants
.VirtualFireAlarmConstants;
import org.wso2.carbon.device.mgt.iot.sample.virtual.firealarm.service.impl.util.mqtt.MQTTClient;
import org.wso2.carbon.device.mgt.iot.sample.virtual.firealarm.service.impl.util.xmpp.XMPPClient;
import org.wso2.carbon.device.mgt.iot.sample.virtual.firealarm.service.impl.util.DeviceJSON;
import org.wso2.carbon.device.mgt.iot.sample.virtual.firealarm.service.impl.util.VirtualFireAlarmMqttSubscriber;
import org.wso2.carbon.device.mgt.iot.sample.virtual.firealarm.service.impl.util.VirtualFireAlarmXmppConnector;
import org.wso2.carbon.utils.CarbonUtils;
import javax.servlet.http.HttpServletResponse;
@ -75,74 +74,49 @@ public class VirtualFireAlarmControllerService {
@Context //injected response proxy supporting multiple thread
private HttpServletResponse response;
private static final String TEMPERATURE_STREAM_DEFINITION = "org.wso2.iot.devices.temperature";
private static final String URL_PREFIX = "http://";
private static final String BULB_CONTEXT = "/BULB/";
private static final String SONAR_CONTEXT = "/SONAR/";
private static final String TEMPERATURE_CONTEXT = "/TEMPERATURE/";
public static final String XMPP_PROTOCOL = "XMPP";
public static final String HTTP_PROTOCOL = "HTTP";
public static final String MQTT_PROTOCOL = "MQTT";
private static ConcurrentHashMap<String, String> deviceToIpMap = new ConcurrentHashMap<String, String>();
private static XMPPClient xmppClient;
private static MQTTClient mqttClient;
private static final String mqttServerSubscribeTopic = "wso2/iot/+/" + VirtualFireAlarmConstants.DEVICE_TYPE + "/+/reply";
private static final String iotServerSubscriber = "IoT-Server";
static{
String xmppServer = XmppConfig.getInstance().getXmppControlQueue().getServerURL();
int indexOfChar = xmppServer.lastIndexOf('/');
if (indexOfChar != -1) {
xmppServer = xmppServer.substring((indexOfChar + 1), xmppServer.length());
}
int xmppPort = Integer.parseInt(XmppConfig.getInstance().getSERVER_CONNECTION_PORT());
xmppClient = new XMPPClient(xmppServer, xmppPort) {
@Override
protected void processXMPPMessage(Message xmppMessage) {
}
};
String xmppUsername = XmppConfig.getInstance().getXmppUsername();
String xmppPassword = XmppConfig.getInstance().getXmppPassword();
try {
xmppClient.connectAndLogin(xmppUsername, xmppPassword, "iotServer");
} catch (DeviceManagementException e) {
e.printStackTrace();
}
xmppClient.setMessageFilterAndListener("");
String mqttEndpoint = MqttConfig.getInstance().getMqttQueueEndpoint();
mqttClient = new MQTTClient(iotServerSubscriber, VirtualFireAlarmConstants.DEVICE_TYPE, mqttEndpoint, mqttServerSubscribeTopic) {
@Override
protected void postMessageArrived(String topic, MqttMessage message) {
private static VirtualFireAlarmMqttSubscriber virtualFireAlarmMqttSubscriber;
private static VirtualFireAlarmXmppConnector virtualFireAlarmXmppConnector;
private static ConcurrentHashMap<String, String> deviceToIpMap =
new ConcurrentHashMap<String, String>();
public void setVirtualFireAlarmXmppConnector(
VirtualFireAlarmXmppConnector virtualFireAlarmXmppConnector) {
VirtualFireAlarmControllerService.virtualFireAlarmXmppConnector =
virtualFireAlarmXmppConnector;
virtualFireAlarmXmppConnector.initConnector();
virtualFireAlarmXmppConnector.connectAndLogin();
}
}
};
public void setVirtualFireAlarmMqttSubscriber(
VirtualFireAlarmMqttSubscriber virtualFireAlarmMqttSubscriber) {
VirtualFireAlarmControllerService.virtualFireAlarmMqttSubscriber =
virtualFireAlarmMqttSubscriber;
virtualFireAlarmMqttSubscriber.initConnector();
virtualFireAlarmMqttSubscriber.connectAndSubscribe();
}
try {
mqttClient.connectAndSubscribe();
} catch (DeviceManagementException e) {
e.printStackTrace();
}
public VirtualFireAlarmXmppConnector getVirtualFireAlarmXmppConnector() {
return virtualFireAlarmXmppConnector;
}
public VirtualFireAlarmMqttSubscriber getVirtualFireAlarmMqttSubscriber() {
return virtualFireAlarmMqttSubscriber;
}
@Path("/register/{owner}/{deviceId}/{ip}")
@POST
public String registerDeviceIP(@PathParam("owner") String owner,
@PathParam("deviceId") String deviceId,
@PathParam("ip") String deviceIP,
@Context HttpServletResponse response) {
@PathParam("deviceId") String deviceId,
@PathParam("ip") String deviceIP,
@Context HttpServletResponse response) {
String result;
log.info("Got register call from IP: " + deviceIP + " for Device ID: " + deviceId +
" of owner: " + owner);
" of owner: " + owner);
deviceToIpMap.put(deviceId, deviceIP);
@ -162,10 +136,10 @@ public class VirtualFireAlarmControllerService {
@Path("/bulb/{state}")
@POST
public void switchBulb(@HeaderParam("owner") String owner,
@HeaderParam("deviceId") String deviceId,
@HeaderParam("protocol") String protocol,
@PathParam("state") String state,
@Context HttpServletResponse response) {
@HeaderParam("deviceId") String deviceId,
@HeaderParam("protocol") String protocol,
@PathParam("state") String state,
@Context HttpServletResponse response) {
try {
DeviceValidator deviceValidator = new DeviceValidator();
@ -196,27 +170,28 @@ public class VirtualFireAlarmControllerService {
}
String protocolString = protocol.toUpperCase();
String callUrlPattern = BULB_CONTEXT + switchToState;
String callUrlPattern = VirtualFireAlarmConstants.BULB_CONTEXT + switchToState;
log.info("Sending command: '" + callUrlPattern + "' to virtual-firealarm at: " + deviceIP + " " +
"via" + " " + protocolString);
log.info("Sending command: '" + callUrlPattern + "' to virtual-firealarm at: " + deviceIP +
" " +
"via" + " " + protocolString);
try {
switch (protocolString) {
case HTTP_PROTOCOL:
sendCommandViaHTTP(deviceIP, 80, callUrlPattern, true);
sendCommandViaHTTP(deviceIP, 9090, callUrlPattern, true);
break;
case MQTT_PROTOCOL:
sendCommandViaMQTT(owner, deviceId, BULB_CONTEXT.replace("/", ""),
switchToState);
sendCommandViaMQTT(owner, deviceId, VirtualFireAlarmConstants.BULB_CONTEXT.replace("/", ""),
switchToState);
break;
case XMPP_PROTOCOL:
// requestBulbChangeViaXMPP(switchToState, response);
sendCommandViaXMPP(owner, deviceId, BULB_CONTEXT, switchToState);
sendCommandViaXMPP(owner, deviceId, VirtualFireAlarmConstants.BULB_CONTEXT, switchToState);
break;
default:
if (protocolString == null) {
sendCommandViaHTTP(deviceIP, 80, callUrlPattern, true);
sendCommandViaHTTP(deviceIP, 9090, callUrlPattern, true);
} else {
response.setStatus(Response.Status.NOT_ACCEPTABLE.getStatusCode());
return;
@ -225,7 +200,7 @@ public class VirtualFireAlarmControllerService {
}
} catch (DeviceManagementException e) {
log.error("Failed to send command '" + callUrlPattern + "' to: " + deviceIP + " via" +
" " + protocol);
" " + protocol);
response.setStatus(Response.Status.INTERNAL_SERVER_ERROR.getStatusCode());
return;
}
@ -237,16 +212,16 @@ public class VirtualFireAlarmControllerService {
@Path("/readsonar")
@GET
public String requestSonarReading(@HeaderParam("owner") String owner,
@HeaderParam("deviceId") String deviceId,
@HeaderParam("protocol") String protocol,
@Context HttpServletResponse response) {
@HeaderParam("deviceId") String deviceId,
@HeaderParam("protocol") String protocol,
@Context HttpServletResponse response) {
String replyMsg = "";
DeviceValidator deviceValidator = new DeviceValidator();
try {
if (!deviceValidator.isExist(owner, SUPER_TENANT, new DeviceIdentifier(deviceId,
VirtualFireAlarmConstants
.DEVICE_TYPE))) {
.DEVICE_TYPE))) {
response.setStatus(Response.Status.UNAUTHORIZED.getStatusCode());
return "Unauthorized Access";
}
@ -267,25 +242,24 @@ public class VirtualFireAlarmControllerService {
try {
switch (protocol) {
case HTTP_PROTOCOL:
log.info("Sending request to read sonar value at : " + deviceIp +
" via " + HTTP_PROTOCOL);
log.info("Sending request to read sonar value at : " + deviceIp + " via " + HTTP_PROTOCOL);
replyMsg = sendCommandViaHTTP(deviceIp, 9090, VirtualFireAlarmConstants.SONAR_CONTEXT, false);
break;
replyMsg = sendCommandViaHTTP(deviceIp, 80, SONAR_CONTEXT, false);
case MQTT_PROTOCOL:
log.info("Sending request to read sonar value at : " + deviceIp + " via " + MQTT_PROTOCOL);
sendCommandViaMQTT(owner, deviceId, VirtualFireAlarmConstants.SONAR_CONTEXT.replace("/", ""), "");
break;
case XMPP_PROTOCOL:
log.info("Sending request to read sonar value at : " + deviceIp +
" via " +
XMPP_PROTOCOL);
replyMsg = sendCommandViaXMPP(owner, deviceId, SONAR_CONTEXT, ".");
log.info("Sending request to read sonar value at : " + deviceIp + " via " + XMPP_PROTOCOL);
replyMsg = sendCommandViaXMPP(owner, deviceId, VirtualFireAlarmConstants.SONAR_CONTEXT, ".");
break;
default:
if (protocol == null) {
log.info("Sending request to read sonar value at : " + deviceIp +
" via " + HTTP_PROTOCOL);
replyMsg = sendCommandViaHTTP(deviceIp, 80, SONAR_CONTEXT, false);
log.info("Sending request to read sonar value at : " + deviceIp + " via " + HTTP_PROTOCOL);
replyMsg = sendCommandViaHTTP(deviceIp, 9090, VirtualFireAlarmConstants.SONAR_CONTEXT, false);
} else {
replyMsg = "Requested protocol '" + protocol + "' is not supported";
response.setStatus(Response.Status.NOT_ACCEPTABLE.getStatusCode());
@ -308,16 +282,16 @@ public class VirtualFireAlarmControllerService {
@Path("/readtemperature")
@GET
public String requestTemperature(@HeaderParam("owner") String owner,
@HeaderParam("deviceId") String deviceId,
@HeaderParam("protocol") String protocol,
@Context HttpServletResponse response) {
@HeaderParam("deviceId") String deviceId,
@HeaderParam("protocol") String protocol,
@Context HttpServletResponse response) {
String replyMsg = "";
DeviceValidator deviceValidator = new DeviceValidator();
try {
if (!deviceValidator.isExist(owner, SUPER_TENANT, new DeviceIdentifier(deviceId,
VirtualFireAlarmConstants
.DEVICE_TYPE))) {
.DEVICE_TYPE))) {
response.setStatus(Response.Status.UNAUTHORIZED.getStatusCode());
return "Unauthorized Access";
}
@ -338,26 +312,25 @@ public class VirtualFireAlarmControllerService {
try {
switch (protocol) {
case HTTP_PROTOCOL:
log.info("Sending request to read virtual-firealarm-temperature at : " + deviceIp +
" via " + HTTP_PROTOCOL);
log.info("Sending request to read virtual-firealarm-temperature at : " + deviceIp + " via " + HTTP_PROTOCOL);
replyMsg = sendCommandViaHTTP(deviceIp, 9090, VirtualFireAlarmConstants.TEMPERATURE_CONTEXT, false);
break;
replyMsg = sendCommandViaHTTP(deviceIp, 80, TEMPERATURE_CONTEXT, false);
case MQTT_PROTOCOL:
log.info("Sending request to read virtual-firealarm-temperature at : " + deviceIp + " via " + MQTT_PROTOCOL);
sendCommandViaMQTT(owner, deviceId, VirtualFireAlarmConstants.TEMPERATURE_CONTEXT.replace("/", ""), "");
break;
case XMPP_PROTOCOL:
log.info("Sending request to read virtual-firealarm-temperature at : " + deviceIp +
" via " +
XMPP_PROTOCOL);
replyMsg = sendCommandViaXMPP(owner, deviceId, TEMPERATURE_CONTEXT, ".");
log.info("Sending request to read virtual-firealarm-temperature at : " + deviceIp + " via " + XMPP_PROTOCOL);
replyMsg = sendCommandViaXMPP(owner, deviceId, VirtualFireAlarmConstants.TEMPERATURE_CONTEXT, ".");
// replyMsg = requestTemperatureViaXMPP(response);
break;
default:
if (protocol == null) {
log.info("Sending request to read virtual-firealarm-temperature at : " + deviceIp +
" via " + HTTP_PROTOCOL);
replyMsg = sendCommandViaHTTP(deviceIp, 80, TEMPERATURE_CONTEXT, false);
log.info("Sending request to read virtual-firealarm-temperature at : " + deviceIp + " via " + HTTP_PROTOCOL);
replyMsg = sendCommandViaHTTP(deviceIp, 9090, VirtualFireAlarmConstants.TEMPERATURE_CONTEXT, false);
} else {
replyMsg = "Requested protocol '" + protocol + "' is not supported";
response.setStatus(Response.Status.NOT_ACCEPTABLE.getStatusCode());
@ -439,12 +412,14 @@ public class VirtualFireAlarmControllerService {
if (registeredIp == null) {
log.warn("Unregistered IP: Temperature Data Received from an un-registered IP " +
deviceIp + " for device ID - " + deviceId);
deviceIp + " for device ID - " + deviceId);
response.setStatus(Response.Status.PRECONDITION_FAILED.getStatusCode());
return;
} else if (!registeredIp.equals(deviceIp)) {
log.warn("Conflicting IP: Received IP is " + deviceIp + ". Device with ID " +
deviceId + " is already registered under some other IP. Re-registration " + "required");
deviceId +
" is already registered under some other IP. Re-registration " +
"required");
response.setStatus(Response.Status.CONFLICT.getStatusCode());
return;
}
@ -454,12 +429,13 @@ public class VirtualFireAlarmControllerService {
ctx.setTenantDomain(SUPER_TENANT, true);
DeviceAnalyticsService deviceAnalyticsService = (DeviceAnalyticsService) ctx
.getOSGiService(DeviceAnalyticsService.class, null);
Object metdaData[] = {dataMsg.owner, VirtualFireAlarmConstants.DEVICE_TYPE, dataMsg.deviceId,
System.currentTimeMillis()};
Object metdaData[] =
{dataMsg.owner, VirtualFireAlarmConstants.DEVICE_TYPE, dataMsg.deviceId,
System.currentTimeMillis()};
Object payloadData[] = {temperature};
try {
deviceAnalyticsService.publishEvent(TEMPERATURE_STREAM_DEFINITION, "1.0.0",
metdaData, new Object[0], payloadData);
metdaData, new Object[0], payloadData);
} catch (DataPublisherConfigurationException e) {
response.setStatus(Response.Status.INTERNAL_SERVER_ERROR.getStatusCode());
@ -551,7 +527,7 @@ public class VirtualFireAlarmControllerService {
private String sendCommandViaXMPP(String deviceOwner, String deviceId, String resource,
String state) throws DeviceManagementException {
String state) throws DeviceManagementException {
String replyMsg = "";
String scriptArguments = "";
@ -636,7 +612,7 @@ public class VirtualFireAlarmControllerService {
private boolean sendCommandViaMQTT(String deviceOwner, String deviceId, String resource,
String state) throws DeviceManagementException {
String state) throws DeviceManagementException {
boolean result = false;
DeviceController deviceController = new DeviceController();
@ -644,7 +620,7 @@ public class VirtualFireAlarmControllerService {
try {
result = deviceController.publishMqttControl(deviceOwner,
VirtualFireAlarmConstants.DEVICE_TYPE,
deviceId, resource, state);
deviceId, resource, state);
} catch (DeviceControllerException e) {
String errorMsg = "Error whilst trying to publish to MQTT Queue";
log.error(errorMsg);
@ -655,16 +631,16 @@ public class VirtualFireAlarmControllerService {
private String sendCommandViaHTTP(final String deviceIp, int deviceServerPort,
String callUrlPattern,
boolean fireAndForgot)
String callUrlPattern,
boolean fireAndForgot)
throws DeviceManagementException {
if (deviceServerPort == 0) {
deviceServerPort = 80;
deviceServerPort = 9090;
}
String responseMsg = "";
String urlString = URL_PREFIX + deviceIp + ":" + deviceServerPort + callUrlPattern;
String urlString = VirtualFireAlarmConstants.URL_PREFIX + deviceIp + ":" + deviceServerPort + callUrlPattern;
if (log.isDebugEnabled()) {
log.debug(urlString);
@ -740,7 +716,7 @@ public class VirtualFireAlarmControllerService {
/* This methods creates and returns a http connection object */
private HttpURLConnection getHttpConnection(String urlString) throws
DeviceManagementException {
DeviceManagementException {
URL connectionUrl = null;
HttpURLConnection httpConnection = null;
@ -803,5 +779,4 @@ public class VirtualFireAlarmControllerService {
return completeResponse.toString();
}
}

@ -0,0 +1,81 @@
package org.wso2.carbon.device.mgt.iot.sample.virtual.firealarm.service.impl.util;
import org.apache.commons.logging.Log;
import org.apache.commons.logging.LogFactory;
import org.eclipse.paho.client.mqttv3.MqttMessage;
import org.wso2.carbon.device.mgt.common.DeviceManagementException;
import org.wso2.carbon.device.mgt.iot.common.controlqueue.mqtt.MqttConfig;
import org.wso2.carbon.device.mgt.iot.common.controlqueue.mqtt.MqttSubscriber;
import org.wso2.carbon.device.mgt.iot.sample.virtual.firealarm.plugin.constants
.VirtualFireAlarmConstants;
import java.io.File;
import java.util.UUID;
public class VirtualFireAlarmMqttSubscriber extends MqttSubscriber {
private static Log log = LogFactory.getLog(VirtualFireAlarmMqttSubscriber.class);
private static final String subscribeTopic =
"wso2" + File.separator + "iot" + File.separator + "+" + File.separator +
VirtualFireAlarmConstants.DEVICE_TYPE + File.separator + "+" + File.separator +
"reply";
private static final String iotServerSubscriber = UUID.randomUUID().toString().substring(0, 5);
private static String mqttEndpoint;
private VirtualFireAlarmMqttSubscriber() {
super(iotServerSubscriber, VirtualFireAlarmConstants.DEVICE_TYPE,
MqttConfig.getInstance().getMqttQueueEndpoint(), subscribeTopic);
}
public void initConnector() {
mqttEndpoint = MqttConfig.getInstance().getMqttQueueEndpoint();
}
public void connectAndSubscribe() {
try {
super.connectAndSubscribe();
} catch (DeviceManagementException e) {
log.error("Subscription to MQTT Broker at: " + mqttEndpoint + " failed");
retryMQTTSubscription();
}
}
@Override
protected void postMessageArrived(String topic, MqttMessage message) {
log.info("Message " + message.toString() + " was received for topic: " + topic);
}
private void retryMQTTSubscription() {
Thread retryToSubscribe = new Thread() {
@Override
public void run() {
while (true) {
if (!isConnected()) {
if (log.isDebugEnabled()) {
log.debug("Subscriber re-trying to reach MQTT queue....");
}
try {
VirtualFireAlarmMqttSubscriber.super.connectAndSubscribe();
} catch (DeviceManagementException e1) {
if (log.isDebugEnabled()) {
log.debug("Attempt to re-connect to MQTT-Queue failed");
}
}
} else {
break;
}
try {
Thread.sleep(5000);
} catch (InterruptedException e1) {
log.error("MQTT: Thread S;eep Interrupt Exception");
}
}
}
};
retryToSubscribe.setDaemon(true);
retryToSubscribe.start();
}
}

@ -0,0 +1,88 @@
package org.wso2.carbon.device.mgt.iot.sample.virtual.firealarm.service.impl.util;
import org.apache.commons.logging.Log;
import org.apache.commons.logging.LogFactory;
import org.jivesoftware.smack.packet.Message;
import org.wso2.carbon.device.mgt.common.DeviceManagementException;
import org.wso2.carbon.device.mgt.iot.common.controlqueue.xmpp.XmppConfig;
import org.wso2.carbon.device.mgt.iot.common.controlqueue.xmpp.XmppConnector;
public class VirtualFireAlarmXmppConnector extends XmppConnector {
private static Log log = LogFactory.getLog(VirtualFireAlarmXmppConnector.class);
private static String xmppServerIP;
// private static int xmppServerPort;
private static String xmppAdminUsername;
private static String xmppAdminPassword;
private static String xmppAdminAccountJID;
private VirtualFireAlarmXmppConnector() {
super(XmppConfig.getInstance().getXmppServerIP(),
XmppConfig.getInstance().getSERVER_CONNECTION_PORT());
}
public void initConnector() {
xmppServerIP = XmppConfig.getInstance().getXmppServerIP();
xmppAdminUsername = XmppConfig.getInstance().getXmppUsername();
xmppAdminPassword = XmppConfig.getInstance().getXmppPassword();
xmppAdminAccountJID = xmppAdminUsername + "@" + xmppServerIP;
}
public void connectAndLogin() {
try {
super.connectAndLogin(xmppAdminUsername, xmppAdminPassword, null);
super.setMessageFilterOnReceiver(xmppAdminAccountJID);
} catch (DeviceManagementException e) {
log.error("Connect/Login attempt to XMPP Server at: " + xmppServerIP + " failed");
retryXMPPConnection();
}
}
@Override
protected void processXMPPMessage(Message xmppMessage) {
String from = xmppMessage.getFrom();
String message = xmppMessage.getBody();
log.info("Received XMPP message '" + message + "' from " + from);
}
private void retryXMPPConnection() {
Thread retryToConnect = new Thread() {
@Override
public void run() {
while (true) {
if (!isConnected()) {
if (log.isDebugEnabled()) {
log.debug("Re-trying to reach XMPP Server....");
}
try {
VirtualFireAlarmXmppConnector.super.connectAndLogin(xmppAdminUsername,
xmppAdminPassword,
null);
VirtualFireAlarmXmppConnector.super.setMessageFilterOnReceiver(
xmppAdminAccountJID);
} catch (DeviceManagementException e1) {
if (log.isDebugEnabled()) {
log.debug("Attempt to re-connect to XMPP-Server failed");
}
}
} else {
break;
}
try {
Thread.sleep(5000);
} catch (InterruptedException e1) {
log.error("XMPP: Thread Sleep Interrupt Exception");
}
}
}
};
retryToConnect.setDaemon(true);
retryToConnect.start();
}
}

@ -1,280 +0,0 @@
/*
* Copyright (c) 2015, WSO2 Inc. (http://www.wso2.org) All Rights Reserved.
*
* WSO2 Inc. 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.wso2.carbon.device.mgt.iot.sample.virtual.firealarm.service.impl.util.mqtt;
import org.apache.commons.logging.Log;
import org.apache.commons.logging.LogFactory;
import org.eclipse.paho.client.mqttv3.IMqttDeliveryToken;
import org.eclipse.paho.client.mqttv3.MqttCallback;
import org.eclipse.paho.client.mqttv3.MqttClient;
import org.eclipse.paho.client.mqttv3.MqttConnectOptions;
import org.eclipse.paho.client.mqttv3.MqttException;
import org.eclipse.paho.client.mqttv3.MqttMessage;
import org.eclipse.paho.client.mqttv3.MqttSecurityException;
import org.wso2.carbon.device.mgt.common.DeviceManagementException;
import java.io.File;
import java.nio.charset.StandardCharsets;
import java.util.concurrent.Executors;
import java.util.concurrent.ScheduledExecutorService;
import java.util.concurrent.TimeUnit;
/**
* This class contains the Agent specific implementation for all the MQTT functionality. This
* includes connecting to a MQTT Broker & subscribing to the appropriate MQTT-topic, action plan
* upon losing connection or successfully delivering a message to the broker and processing
* incoming messages. Makes use of the 'Paho-MQTT' library provided by Eclipse Org.
* <p/>
* It is an abstract class with an abstract method 'postMessageArrived' allowing the user to have
* their own implementation of the actions to be taken upon receiving a message to the subscribed
* MQTT-Topic.
*/
public abstract class MQTTClient implements MqttCallback {
private static final Log log = LogFactory.getLog(MQTTClient.class);
private MqttClient client;
private String clientId;
private MqttConnectOptions options;
private String subscribeTopic;
private String clientWillTopic;
private String mqttBrokerEndPoint;
private int reConnectionInterval;
/**
* Constructor for the MQTTClient which takes in the owner, type of the device and the MQTT
* Broker URL and the topic to subscribe.
*
* @param deviceOwner the owner of the device.
* @param deviceType the CDMF Device-Type of the device.
* @param mqttBrokerEndPoint the IP/URL of the MQTT broker endpoint.
* @param subscribeTopic the MQTT topic to which the client is to be subscribed
*/
protected MQTTClient(String deviceOwner, String deviceType, String mqttBrokerEndPoint,
String subscribeTopic) {
this.clientId = deviceOwner + ":" + deviceType;
this.subscribeTopic = subscribeTopic;
this.clientWillTopic = deviceType + File.separator + "disconnection";
this.mqttBrokerEndPoint = mqttBrokerEndPoint;
this.reConnectionInterval = 5000;
this.initSubscriber();
}
/**
* Constructor for the MQTTClient which takes in the owner, type of the device and the MQTT
* Broker URL and the topic to subscribe. Additionally this constructor takes in the
* reconnection-time interval between successive attempts to connect to the broker.
*
* @param deviceOwner the owner of the device.
* @param deviceType the CDMF Device-Type of the device.
* @param mqttBrokerEndPoint the IP/URL of the MQTT broker endpoint.
* @param subscribeTopic the MQTT topic to which the client is to be subscribed
* @param reConnectionInterval time interval in SECONDS between successive attempts to connect
* to the broker.
*/
protected MQTTClient(String deviceOwner, String deviceType, String mqttBrokerEndPoint,
String subscribeTopic, int reConnectionInterval) {
this.clientId = deviceOwner + ":" + deviceType;
this.subscribeTopic = subscribeTopic;
this.clientWillTopic = deviceType + File.separator + "disconnection";
this.mqttBrokerEndPoint = mqttBrokerEndPoint;
this.reConnectionInterval = reConnectionInterval;
this.initSubscriber();
}
/**
* Initializes the MQTT-Client.
* Creates a client using the given MQTT-broker endpoint and the clientId (which is
* constructed by a concatenation of [deviceOwner]:[deviceType]). Also sets the client's
* options parameter with the clientWillTopic (in-case of connection failure) and other info.
* Also sets the call-back this current class.
*/
private void initSubscriber() {
try {
client = new MqttClient(this.mqttBrokerEndPoint, clientId, null);
log.info("MQTT subscriber was created with ClientID : " + clientId);
} catch (MqttException ex) {
String errorMsg = "MQTT Client Error\n" + "\tReason: " + ex.getReasonCode() +
"\n\tMessage: " + ex.getMessage() + "\n\tLocalMsg: " +
ex.getLocalizedMessage() + "\n\tCause: " + ex.getCause() +
"\n\tException: " + ex;
log.error(errorMsg);
}
options = new MqttConnectOptions();
options.setCleanSession(false);
options.setWill(clientWillTopic, "connection crashed".getBytes(StandardCharsets.UTF_8), 2,
true);
client.setCallback(this);
}
/**
* Checks whether the connection to the MQTT-Broker persists.
*
* @return true if the client is connected to the MQTT-Broker, else false.
*/
public boolean isConnected() {
return client.isConnected();
}
/**
* Connects to the MQTT-Broker and if successfully established connection, then tries to
* subscribe to the MQTT-Topic specific to the device. (The MQTT-Topic specific to the
* device is created is taken in as a constructor parameter of this class) .
*
* @throws DeviceManagementException in the event of 'Connecting to' or 'Subscribing to' the
* MQTT broker fails.
*/
public void connectAndSubscribe() throws DeviceManagementException {
try {
client.connect(options);
if (log.isDebugEnabled()) {
log.debug("Subscriber connected to queue at: " + this.mqttBrokerEndPoint);
}
} catch (MqttSecurityException ex) {
String errorMsg = "MQTT Security Exception when connecting to queue\n" + "\tReason: " +
" " +
ex.getReasonCode() + "\n\tMessage: " + ex.getMessage() +
"\n\tLocalMsg: " + ex.getLocalizedMessage() + "\n\tCause: " +
ex.getCause() + "\n\tException: " + ex; //throw
if (log.isDebugEnabled()) {
log.debug(errorMsg);
}
throw new DeviceManagementException(errorMsg, ex);
} catch (MqttException ex) {
String errorMsg = "MQTT Exception when connecting to queue\n" + "\tReason: " +
ex.getReasonCode() + "\n\tMessage: " + ex.getMessage() +
"\n\tLocalMsg: " + ex.getLocalizedMessage() + "\n\tCause: " +
ex.getCause() + "\n\tException: " + ex; //throw
if (log.isDebugEnabled()) {
log.debug(errorMsg);
}
throw new DeviceManagementException(errorMsg, ex);
}
try {
client.subscribe(subscribeTopic, 0);
log.info("Subscriber - " + clientId + " subscribed to topic: " + subscribeTopic);
} catch (MqttException ex) {
String errorMsg = "MQTT Exception when trying to subscribe to topic: " +
subscribeTopic + "\n\tReason: " + ex.getReasonCode() +
"\n\tMessage: " + ex.getMessage() + "\n\tLocalMsg: " +
ex.getLocalizedMessage() + "\n\tCause: " + ex.getCause() +
"\n\tException: " + ex;
if (log.isDebugEnabled()) {
log.debug(errorMsg);
}
throw new DeviceManagementException(errorMsg, ex);
}
}
/**
* Callback method which is triggered once the MQTT client losers its connection to the broker.
* A scheduler thread is spawned to continuously re-attempt and connect to the broker and
* subscribe to the device's topic. This thread is scheduled to execute after every break
* equal to that of the 'reConnectionInterval' of the MQTTClient.
*
* @param throwable a Throwable Object containing the details as to why the failure occurred.
*/
public void connectionLost(Throwable throwable) {
log.warn("Lost Connection for client: " + this.clientId + " to " + this.mqttBrokerEndPoint + ".\nThis was due to - " + throwable.getMessage());
Runnable reSubscriber = new Runnable() {
@Override
public void run() {
if (!isConnected()) {
if (log.isDebugEnabled()) {
log.debug("Subscriber reconnecting to queue........");
}
try {
connectAndSubscribe();
} catch (DeviceManagementException e) {
if (log.isDebugEnabled()) {
log.debug("Could not reconnect and subscribe to ControlQueue.");
}
}
} else {
return;
}
}
};
ScheduledExecutorService service = Executors.newSingleThreadScheduledExecutor();
service.scheduleAtFixedRate(reSubscriber, 0, this.reConnectionInterval, TimeUnit.SECONDS);
}
/**
* Callback method which is triggered upon receiving a MQTT Message from the broker. Spawns a
* new thread that executes any actions to be taken with the received message.
*
* @param topic the MQTT-Topic to which the received message was published to and the
* client was subscribed to.
* @param mqttMessage the actual MQTT-Message that was received from the broker.
*/
public void messageArrived(final String topic, final MqttMessage mqttMessage) {
Thread subscriberThread = new Thread() {
public void run() {
postMessageArrived(topic, mqttMessage);
}
};
subscriberThread.start();
}
/**
* Callback method which gets triggered upon successful completion of a message delivery to
* the broker.
*
* @param iMqttDeliveryToken the MQTT-DeliveryToken which includes the details about the
* specific message delivery.
*/
public void deliveryComplete(IMqttDeliveryToken iMqttDeliveryToken) {
String message = "";
try {
message = iMqttDeliveryToken.getMessage().toString();
} catch (MqttException e) {
log.error("Error occurred whilst trying to read the message from the MQTT delivery token.");
}
String topic = iMqttDeliveryToken.getTopics()[0];
String client = iMqttDeliveryToken.getClient().getClientId();
log.info("Message - '" + message + "' of client [" + client + "] for the topic (" + topic + ") was delivered successfully.");
}
/**
* This is an abstract method used for post processing the received MQTT-message. This
* method will be implemented as per requirement at the time of creating an object of this
* class.
*
* @param topic The topic for which the message was received for.
* @param message The message received for the subscription to the above topic.
*/
protected abstract void postMessageArrived(String topic, MqttMessage message);
/**
* Gets the MQTTClient object.
*
* @return the MQTTClient object.
*/
public MqttClient getClient() {
return client;
}
}

@ -1,241 +0,0 @@
/*
* Copyright (c) 2015, WSO2 Inc. (http://www.wso2.org) All Rights Reserved.
*
* WSO2 Inc. 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.wso2.carbon.device.mgt.iot.sample.virtual.firealarm.service.impl.util.xmpp;
import org.apache.commons.logging.Log;
import org.apache.commons.logging.LogFactory;
import org.jivesoftware.smack.ConnectionConfiguration;
import org.jivesoftware.smack.PacketListener;
import org.jivesoftware.smack.SmackConfiguration;
import org.jivesoftware.smack.XMPPConnection;
import org.jivesoftware.smack.XMPPException;
import org.jivesoftware.smack.filter.AndFilter;
import org.jivesoftware.smack.filter.FromContainsFilter;
import org.jivesoftware.smack.filter.PacketFilter;
import org.jivesoftware.smack.filter.PacketTypeFilter;
import org.jivesoftware.smack.packet.Message;
import org.jivesoftware.smack.packet.Packet;
import org.wso2.carbon.device.mgt.common.DeviceManagementException;
/**
* This class contains the Agent specific implementation for all the XMPP functionality. This
* includes connecting to a XMPP Server & Login using the device's XMPP-Account, Setting
* listeners and filters on incoming XMPP messages and Sending XMPP replies for control signals
* received. Makes use of the 'Smack-XMPP' library provided by jivesoftware/igniterealtime.
* <p/>
* It is an abstract class with an abstract method 'processXMPPMessage' allowing the user to have
* their own implementation of the actions to be taken upon receiving an appropriate XMPP message.
*/
public abstract class XMPPClient {
private static final Log log = LogFactory.getLog(XMPPClient.class);
private int replyTimeoutInterval = 500; // millis
private String server;
private int port;
private ConnectionConfiguration config;
private XMPPConnection connection;
private PacketFilter filter;
private PacketListener listener;
/**
* Constructor for XMPPClient passing server-IP and the XMPP-port.
*
* @param server the IP of the XMPP server.
* @param port the XMPP server's port to connect to. (default - 5222)
*/
public XMPPClient(String server, int port) {
this.server = server;
this.port = port;
initXMPPClient();
}
/**
* Initializes the XMPP Client.
* Sets the time-out-limit whilst waiting for XMPP-replies from server. Creates the XMPP
* configurations to connect to the server and creates the XMPPConnection object used for
* connecting and Logging-In.
*/
private void initXMPPClient() {
log.info(String.format(
"Initializing connection to XMPP Server at %1$s via port %2$d......", server,
port));
SmackConfiguration.setPacketReplyTimeout(replyTimeoutInterval);
config = new ConnectionConfiguration(server, port);
// TODO:: Need to enable SASL-Authentication appropriately
config.setSASLAuthenticationEnabled(false);
config.setSecurityMode(ConnectionConfiguration.SecurityMode.disabled);
connection = new XMPPConnection(config);
}
/**
* Connects to the XMPP-Server and if successfully established connection, then tries to Log
* in using the device's XMPP Account credentials. (The XMPP-Account specific to the device is
* created in the XMPP server whilst downloading the Agent from the IoT Server) .
*
* @param username the username of the device's XMPP-Account.
* @param password the password of the device's XMPP-Account.
* @param resource the resource the resource, specific to the XMPP-Account to which the login
* is made to
* @throws DeviceManagementException in the event of 'Connecting to' or 'Logging into' the
* XMPP server fails.
*/
public void connectAndLogin(String username, String password, String resource)
throws DeviceManagementException {
try {
connection.connect();
log.info(String.format(
"Connection to XMPP Server at %1$s established successfully......", server));
} catch (XMPPException xmppExcepion) {
String errorMsg =
"Connection attempt to the XMPP Server at " + server + " via port " + port +
" failed.";
log.info(errorMsg);
throw new DeviceManagementException(errorMsg, xmppExcepion);
}
if (connection.isConnected()) {
try {
if (resource == null) {
connection.login(username, password);
log.info(String.format("Logged into XMPP Server at %1$s as user %2$s......", server, username));
} else {
connection.login(username, password, resource);
log.info(String.format(
"Logged into XMPP Server at %1$s as user %2$s on resource %3$s......",
server, username, resource));
}
} catch (XMPPException xmppException) {
String errorMsg =
"Login attempt to the XMPP Server at " + server + " with username - " +
username + " failed.";
log.info(errorMsg);
throw new DeviceManagementException(errorMsg, xmppException);
}
}
}
/**
* Sets a filter on all the incoming XMPP-Messages for the JID (XMPP-Account ID) passed in.
* Also creates a listener for the incoming messages and connects the listener to the
* XMPPConnection alongside the set filter.
*
* @param senderJID the JID (XMPP-Account ID) to which the filter is to be set.
*/
public void setMessageFilterAndListener(String senderJID) {
filter = new AndFilter(new PacketTypeFilter(Message.class), new
FromContainsFilter(
senderJID));
listener = new PacketListener() {
@Override
public void processPacket(Packet packet) {
if (packet instanceof Message) {
final Message xmppMessage = (Message) packet;
Thread msgProcessThread = new Thread() {
public void run() {
processXMPPMessage(xmppMessage);
}
};
msgProcessThread.start();
}
}
};
connection.addPacketListener(listener, filter);
}
/**
* Sends an XMPP message
*
* @param JID the JID (XMPP Account ID) to which the message is to be sent to.
* @param message the XMPP-Message that is to be sent.
*/
public void sendXMPPMessage(String JID, String message) {
sendXMPPMessage(JID, message, "Reply-From-Device");
if (log.isDebugEnabled()) {
log.debug("Message: " + message + " to XMPP JID [" + JID + "] sent successfully");
}
}
/**
* Overloaded method to send an XMPP message. Includes the subject to be mentioned in the
* message that is sent.
*
* @param JID the JID (XMPP Account ID) to which the message is to be sent to.
* @param message the XMPP-Message that is to be sent.
* @param subject the subject that the XMPP-Message would carry.
*/
public void sendXMPPMessage(String JID, String message, String subject) {
Message xmppMessage = new Message();
xmppMessage.setTo(JID);
xmppMessage.setSubject(subject);
xmppMessage.setBody(message);
xmppMessage.setType(Message.Type.chat);
connection.sendPacket(xmppMessage);
}
/**
* Checks whether the connection to the XMPP-Server persists.
*
* @return true if the client is connected to the XMPP-Server, else false.
*/
public boolean isConnected() {
return connection.isConnected();
}
/**
* Sets the client's time-out-limit whilst waiting for XMPP-replies from server.
*
* @param millis the time in millis to be set as the time-out-limit whilst waiting for a
* XMPP-reply.
*/
public void setReplyTimeoutInterval(int millis) {
this.replyTimeoutInterval = millis;
}
/**
* Disables default debugger provided by the XMPPConnection.
*/
public void disableDebugger() {
connection.DEBUG_ENABLED = false;
}
/**
* Closes the connection to the XMPP Server.
*/
public void closeConnection() {
if (connection != null && connection.isConnected()) {
connection.disconnect();
}
}
/**
* This is an abstract method used for post processing the received XMPP-message. This
* method will be implemented as per requirement at the time of creating an object of this
* class.
*
* @param xmppMessage the xmpp message received by the listener.
*/
protected abstract void processXMPPMessage(Message xmppMessage);
}

@ -23,11 +23,12 @@
http://cxf.apache.org/jaxrs http://cxf.apache.org/schemas/jaxrs.xsd">
<jaxrs:server id="FireAlarmController" address="/controller">
<jaxrs:server id="VirtualFireAlarmController" address="/controller">
<jaxrs:serviceBeans>
<bean id="VirtualFireAlarmControllerService"
class="org.wso2.carbon.device.mgt.iot.sample.virtual.firealarm.service.impl.VirtualFireAlarmControllerService">
<!--<property name="mqttFireAlarmSubscriber" ref="mqttSubscriber"/>-->
<property name="virtualFireAlarmMqttSubscriber" ref="mqttSubscriberBean"/>
<property name="virtualFireAlarmXmppConnector" ref="xmppConnectorBean"/>
</bean>
</jaxrs:serviceBeans>
<jaxrs:providers>
@ -46,6 +47,12 @@
</jaxrs:server>
<bean id="mqttSubscriberBean" class="org.wso2.carbon.device.mgt.iot.sample.virtual.firealarm.service.impl.util.VirtualFireAlarmMqttSubscriber" >
</bean>
<bean id="xmppConnectorBean" class="org.wso2.carbon.device.mgt.iot.sample.virtual.firealarm.service.impl.util.VirtualFireAlarmXmppConnector" >
</bean>
<!--<bean id="mqttSubscriber" class="org.wso2.carbon.device.mgt.iot.firealarm.api.util.MQTTFirealarmSubscriber" >-->
<!-- -->
<!--</bean>-->

@ -804,6 +804,19 @@
<artifactId>commons-httpclient</artifactId>
<version>${orbit.version.commons-httpclient}</version>
</dependency>
<!--Dependencies on XMPP Client Library-->
<dependency>
<groupId>org.igniterealtime.smack.wso2</groupId>
<artifactId>smack</artifactId>
<version>${smack.wso2.version}</version>
</dependency>
<dependency>
<groupId>org.igniterealtime.smack.wso2</groupId>
<artifactId>smackx</artifactId>
<version>${smackx.wso2.version}</version>
</dependency>
</dependencies>
</dependencyManagement>
@ -927,6 +940,10 @@
<commons-io.version>2.4</commons-io.version>
<jsr311-api.version>1.1.1</jsr311-api.version>
<commons-json.version>2.0.0.wso2v1</commons-json.version>
<!--XMPP/MQTT Version-->
<smack.wso2.version>3.0.4.wso2v1</smack.wso2.version>
<smackx.wso2.version>3.0.4.wso2v1</smackx.wso2.version>
</properties>
<scm>

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