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I have a big problem that i couldn't find solution. Need your help.

When i try to send just one message in activity using service , it works. But when i try to send 2 message following another( that means one after other ) , sends the message twice with the same publishTopic2 and pushMsg2.

Code is :

PushService.actionPush(getApplicationContext(),publishTopic1,pushMsg1);
PushService.actionPush(getApplicationContext(),publishTopic2,pushMsg2);

1- is this from the wrong usage of syncronized keyword ? 2- is it possibe to send two msg after another without

public class PushService
        extends Service
{
    // this is the log tag
    public static final String TAG = "DemoPushService";
    public static String IncomingText = "";

    private static String PushMesaj = "";

    // the IP address, where your MQTT broker is running.
    private static final String MQTT_HOST = "";
    // the port at which the broker is running.
    private static int MQTT_BROKER_PORT_NUM = 1883;
    // Let's not use the MQTT persistence.
    private static MqttClientPersistence MQTT_PERSISTENCE = null;
    // We don't need to remember any state between the connections, so we use a
    // clean start.
    private static boolean MQTT_CLEAN_START = true;
    // Let's set the internal keep alive for MQTT to 15 mins. I haven't tested
    // this value much. It could probably be increased.
    private static short MQTT_KEEP_ALIVE = 60 * 15;
    // Set quality of services to 0 (at most once delivery), since we don't want
    // push notifications
    // arrive more than once. However, this means that some messages might get
    // lost (delivery is not guaranteed)
    // private static int[] MQTT_QUALITIES_OF_SERVICE = { 0 } ;
    private static int MQTT_QUALITY_OF_SERVICE = 2;
    // The broker should not retain any messages.
    // private static boolean MQTT_RETAINED_PUBLISH = false;

    // MQTT client ID, which is given the broker. In this example, I also use
    // this for the topic header.
    // You can use this to run push notifications for multiple apps with one
    // MQTT broker.
    public static String MQTT_CLIENT_ID = "begining";
    public static String SUBSCRIBE_TOPIC = "begining";
    private static String PUBLISH_TOPIC = "begining";
    // These are the actions for the service (name are descriptive enough)
    private static final String ACTION_START = MQTT_CLIENT_ID + ".START";
    private static final String ACTION_STOP = MQTT_CLIENT_ID + ".STOP";
    private static final String ACTION_SUBSCRIBE = MQTT_CLIENT_ID
            + ".SUBSCRIBE";
    private static final String ACTION_PUBLISH = MQTT_CLIENT_ID + ".PUBLISH";

    private static final String ACTION_KEEPALIVE = MQTT_CLIENT_ID
            + ".KEEP_ALIVE";
    private static final String ACTION_PUSHMESSAGE = MQTT_CLIENT_ID
            + ".PUSH_MESSAGE";
    private static final String ACTION_PUSHMESSAGE2 = MQTT_CLIENT_ID
            + ".PUSH_MESSAGE";
    private static final String ACTION_RECONNECT = MQTT_CLIENT_ID
            + ".RECONNECT";

    // Connection log for the push service. Good for debugging.
    private ConnectionLog mLog;

    // Connectivity manager to determining, when the phone loses connection
    private ConnectivityManager mConnMan;
    // Notification manager to displaying arrived push notifications
    private NotificationManager mNotifMan;

    // Whether or not the service has been started.
    private boolean mStarted;

    // This the application level keep-alive interval, that is used by the
    // AlarmManager
    // to keep the connection active, even when the device goes to sleep.
    private static final long KEEP_ALIVE_INTERVAL = 1000 * 60 * 28;

    // Retry intervals, when the connection is lost.
    private static final long INITIAL_RETRY_INTERVAL = 1000 * 10;
    private static final long MAXIMUM_RETRY_INTERVAL = 1000 * 60 * 30;

    // Preferences instance
    private SharedPreferences mPrefs;
    // We store in the preferences, whether or not the service has been started
    public static final String PREF_STARTED = "isStarted";
    // We also store the deviceID (target)
    public static final String PREF_DEVICE_ID = "deviceID";
    // We store the last retry interval
    public static final String PREF_RETRY = "retryInterval";

    // Notification title
    public static String NOTIF_TITLE = "Hey !!!";
    // Notification id
    private static final int NOTIF_CONNECTED = 0;

    // This is the instance of an MQTT connection.
    private MQTTConnection mConnection;
    private long mStartTime;

    private static clsUser yourInfo;
    public static clsOnlineUsers onlineUsers;
    private static clsUser myInfo;

    // Static method to start the service
    public static void actionStart(Context ctx)
    {
        Intent i = new Intent(ctx, PushService.class);
        i.setAction(ACTION_START);
        ctx.startService(i);
    }

    public static void actionSubscribe(Context ctx)
    {
        Intent i = new Intent(ctx, PushService.class);
        i.setAction(ACTION_SUBSCRIBE);
        ctx.startService(i);
    }

    public static void actionPublish(Context ctx)
    {
        Intent i = new Intent(ctx, PushService.class);
        i.setAction(ACTION_PUBLISH);
        ctx.startService(i);
    }

    // Static method to stop the service
    public static void actionStop(Context ctx)
    {
        Intent i = new Intent(ctx, PushService.class);
        i.setAction(ACTION_STOP);
        ctx.startService(i);
    }

    // Static method to send a keep alive message
    public static void actionPing(Context ctx)
    {
        Intent i = new Intent(ctx, PushService.class);
        i.setAction(ACTION_KEEPALIVE);
        ctx.startService(i);
    }

    public static void actionPush(Context ctx, String publishTopic,
            String pushMsg)
    {
        PUBLISH_TOPIC = publishTopic;
        PushMesaj = pushMsg;
        Intent i = new Intent(ctx, PushService.class);
        i.setAction(ACTION_PUSHMESSAGE);
        ctx.startService(i);
    }

    @Override
    public void onCreate()
    {
        super.onCreate();

        log("Creating service");
        mStartTime = System.currentTimeMillis();

        try {
            mLog = new ConnectionLog();
            Log.i(TAG, "Opened log at " + mLog.getPath());
        } catch (IOException e) {
            Log.e(TAG, "Failed to open log", e);
        }

        // Get instances of preferences, connectivity manager and notification
        // manager
        mPrefs = getSharedPreferences(TAG, MODE_PRIVATE);
        mConnMan = (ConnectivityManager) getSystemService(CONNECTIVITY_SERVICE);
        mNotifMan = (NotificationManager) getSystemService(NOTIFICATION_SERVICE);

        mPrefs.edit().putLong(PREF_RETRY, INITIAL_RETRY_INTERVAL).commit();
        mPrefs.edit().putBoolean(PREF_STARTED, false).commit();

        /*
         * If our process was reaped by the system for any reason we need to
         * restore our state with merely a call to onCreate. We record the last
         * "started" value and restore it here if necessary.
         */
        handleCrashedService();
    }

    // This method does any necessary clean-up need in case the server has been
    // destroyed by the system
    // and then restarted
    private void handleCrashedService()
    {
        if (wasStarted() == true) {
            log("Handling crashed service...");
            // stop the keep alives
            // stopKeepAlives();

            // Do a clean start
            start();
        }
    }

    @Override
    public void onDestroy()
    {
        log("Service destroyed (started=" + mStarted + ")");

        // Stop the services, if it has been started
        if (mStarted == true) {
            stop();
        }

        try {
            if (mLog != null)
                mLog.close();
        } catch (IOException e) {
        }
    }

    @Override
    public synchronized void onStart(Intent intent, int startId)
    {
        super.onStart(intent, startId);
        log("Service started with intent=" + intent);
        if (intent == null) {
            start();
            return;
        }
        // Do an appropriate action based on the intent.
        if (intent.getAction().equals(ACTION_STOP) == true) {
            stop();
            stopSelf();
        } else if (intent.getAction().equals(ACTION_START) == true) {
            start();
        } else if (intent.getAction().equals(ACTION_KEEPALIVE) == true) {
            keepAlive();
        } else if (intent.getAction().equals(ACTION_PUBLISH) == true) {
            publish();
        } else if (intent.getAction().equals(ACTION_SUBSCRIBE) == true) {
            subscribe();
        } else if (intent.getAction().equals(ACTION_PUSHMESSAGE) == true) {
            sendMessage();
        } else if (intent.getAction().equals(ACTION_RECONNECT) == true) {
            if (isNetworkAvailable()) {
                reconnectIfNecessary();
            }
        }
    }

    private void subscribe()
    {
        // TODO Auto-generated method stub
        try {
            mConnection.subscribeToTopic(SUBSCRIBE_TOPIC);
        } catch (MqttException e) {
            // TODO Auto-generated catch block
            e.printStackTrace();
        }
    }

    private void publish()
    {

        try {
            // Send a keep alive, if there is a connection.
            if (mStarted == true && mConnection != null) {
                mConnection.sendPushMessage(1);
            }
        } catch (MqttException e) {
            log("MqttException: "
                    + (e.getMessage() != null ? e.getMessage() : "NULL"), e);

            mConnection.disconnect();
            mConnection = null;
            cancelReconnect();
        }
    }

    @Override
    public IBinder onBind(Intent intent)
    {
        return null;
    }

    // log helper function
    private void log(String message)
    {
        log(message, null);
    }

    private void log(String message, Throwable e)
    {
        if (e != null) {
            Log.e(TAG, message, e);

        } else {
            Log.i(TAG, message);
        }

        if (mLog != null) {
            try {
                mLog.println(message);
            } catch (IOException ex) {
            }
        }
    }

    // Reads whether or not the service has been started from the preferences
    private boolean wasStarted()
    {
        return mPrefs.getBoolean(PREF_STARTED, false);
    }

    // Sets whether or not the services has been started in the preferences.
    private void setStarted(boolean started)
    {
        mPrefs.edit().putBoolean(PREF_STARTED, started).commit();
        mStarted = started;
    }

    private synchronized void start()
    {
        log("Starting service...");

        // Do nothing, if the service is already running.
        if (mStarted == true) {
            Log.w(TAG, "Attempt to start connection that is already active");
            return;
        }

        // Establish an MQTT connection
        connect();

        // Register a connectivity listener
        registerReceiver(mConnectivityChanged, new IntentFilter(
                ConnectivityManager.CONNECTIVITY_ACTION));

    }

    private synchronized void stop()
    {
        // Do nothing, if the service is not running.
        if (mStarted == false) {
            Log.w(TAG, "Attempt to stop connection not active.");
            return;
        }

        // Save stopped state in the preferences
        setStarted(false);

        // Remove the connectivity receiver
        unregisterReceiver(mConnectivityChanged);
        // Any existing reconnect timers should be removed, since we explicitly
        // stopping the service.
        cancelReconnect();

        // Destroy the MQTT connection if there is one
        if (mConnection != null) {
            mConnection.disconnect();
            mConnection = null;
        }
    }

    private clsUser setUserInfo(String deviceId)
    {
        clsUser u = new clsUser();

        dbUser du = new dbUser(getApplicationContext(), dbUser.DATABASE_NAME,
                null, dbUser.DATABASE_VERSION);

        Cursor c1 = du.Getby(null, null, null, null, null, null, null, null,
                null, deviceId, null, null, null);

        u = du.setProperties(c1);
        c1.close();
        du.close();
        return u;

    }

    //
    private synchronized void connect()
    {
        log("Connecting...");

        // Create a new connection only if the device id is not NULL
        if (MQTT_CLIENT_ID == null) {
            log("Device ID not found.");
        } else {
            try {
                MQTT_CLIENT_ID = Config.id(getApplication());
                myInfo = setUserInfo(MQTT_CLIENT_ID);
                mConnection = new MQTTConnection(MQTT_HOST, "user/"
                        + MQTT_CLIENT_ID + "/#");

            } catch (MqttException e) {
                // Schedule a reconnect, if we failed to connect
                log("MqttException: "
                        + (e.getMessage() != null ? e.getMessage() : "NULL"));
                if (!isNetworkAvailable()) {
                    scheduleReconnect(mStartTime);
                }
            }
            setStarted(true);
        }
    }

    private synchronized void keepAlive()
    {
        try {
            // Send a keep alive, if there is a connection.
            if (mStarted == true && mConnection != null) {
                mConnection.sendKeepAlive();
            }
        } catch (MqttException e) {
            log("MqttException: "
                    + (e.getMessage() != null ? e.getMessage() : "NULL"), e);

            mConnection.disconnect();
            mConnection = null;
            cancelReconnect();
        }
    }

    private void sendMessage()
    {
        try {
            // Send a keep alive, if there is a connection.
            if (mStarted == true && mConnection != null) {
                mConnection.sendPushMessage(); // this does the job
            }
        } catch (MqttException e) {
            log("MqttException: "
                    + (e.getMessage() != null ? e.getMessage() : "NULL"), e);

            mConnection.disconnect();
            mConnection = null;
            cancelReconnect();
        }
    }

    // Schedule application level keep-alives using the AlarmManager
    private void startKeepAlives()
    {
        Intent i = new Intent();
        i.setClass(this, PushService.class);
        i.setAction(ACTION_KEEPALIVE);
        PendingIntent pi = PendingIntent.getService(this, 0, i, 0);
        AlarmManager alarmMgr = (AlarmManager) getSystemService(ALARM_SERVICE);
        alarmMgr.setRepeating(AlarmManager.RTC_WAKEUP,
                System.currentTimeMillis() + KEEP_ALIVE_INTERVAL,
                KEEP_ALIVE_INTERVAL, pi);
    }

    // Remove all scheduled keep alives
    private void stopKeepAlives()
    {
        Intent i = new Intent();
        i.setClass(this, PushService.class);
        i.setAction(ACTION_KEEPALIVE);
        PendingIntent pi = PendingIntent.getService(this, 0, i, 0);
        AlarmManager alarmMgr = (AlarmManager) getSystemService(ALARM_SERVICE);
        alarmMgr.cancel(pi);
    }

    // We schedule a reconnect based on the starttime of the service
    public void scheduleReconnect(long startTime)
    {
        // the last keep-alive interval
        long interval = mPrefs.getLong(PREF_RETRY, INITIAL_RETRY_INTERVAL);

        // Calculate the elapsed time since the start
        long now = System.currentTimeMillis();
        long elapsed = now - startTime;

        log(String.valueOf(elapsed));

        // Set an appropriate interval based on the elapsed time since start
        if (elapsed < interval) {
            interval = Math.min(interval * 4, MAXIMUM_RETRY_INTERVAL);
        } else {
            interval = INITIAL_RETRY_INTERVAL;
        }

        log("Rescheduling connection in " + interval + "ms.");

        // Save the new internval
        mPrefs.edit().putLong(PREF_RETRY, interval).commit();

        // Schedule a reconnect using the alarm manager.
        Intent i = new Intent();
        i.setClass(this, PushService.class);
        i.setAction(ACTION_RECONNECT);
        PendingIntent pi = PendingIntent.getService(this, 0, i, 0);
        AlarmManager alarmMgr = (AlarmManager) getSystemService(ALARM_SERVICE);
        alarmMgr.set(AlarmManager.RTC_WAKEUP, now + interval, pi);
    }

    // Remove the scheduled reconnect
    public void cancelReconnect()
    {
        Intent i = new Intent();
        i.setClass(this, PushService.class);
        i.setAction(ACTION_RECONNECT);
        PendingIntent pi = PendingIntent.getService(this, 0, i, 0);
        AlarmManager alarmMgr = (AlarmManager) getSystemService(ALARM_SERVICE);
        alarmMgr.cancel(pi);
    }

    private synchronized void reconnectIfNecessary()
    {
        if (mStarted == true && mConnection == null) {
            log("Reconnecting...");
            connect();
        }
    }

    private class MQTTConnection
            implements MqttCallback
    {
        MqttClient mqttClient = null;
        MqttConnectOptions conOpt;
        String myDeviceId;

        // Creates a new connection given the broker address and initial topic
        public MQTTConnection(String brokerHostName, String initTopic)
                throws MqttException
        {
            // Create connection spec

        }

        private void publish(String topicName, int qos, String payload,
                boolean retained) throws MqttException
        {

        }

        /*
         * Sends a message to the message broker, requesting that it be
         * published to the specified topic.
         */
        private void publishToTopic(String topicName, String message)
                throws MqttException
        {

            if ((mqttClient == null) || (mqttClient.isConnected() == false)) {
                // quick sanity check - don't try and publish if we don't have
                // a connection
                log("No connection to public to");
            } else {
                publish(topicName, MQTT_QUALITY_OF_SERVICE, message, false);
            }

        }

        /*
         * Send a request to the message broker to be sent messages published
         * with the specified topic name. Wildcards are allowed.
         */
        private void subscribeToTopic(String topicName1) throws MqttException
        {

            if ((mqttClient == null) || (mqttClient.isConnected() == false)) {
                // quick sanity check - don't try and subscribe if we don't have
                // a connection
                log("Subscribtion failed : Connection error" + "No connection");
            } else {

                mqttClient.subscribe(topicName1, 0);
                Log.v(TAG, "Subscribe To : " + topicName1);

            }
        }

        public void sendPushMessage(int sira) throws MqttException
        {

            publishToTopic(PUBLISH_TOPIC, PushMesaj);
        }
    }

}
share|improve this question
    
i corrected the url – oguz kilinc Mar 26 '13 at 16:03
    
onStart is deprecated. Use onStartCommand instead. – Yaroslav Mytkalyk Mar 26 '13 at 16:07
    
@DoctororDrive The comment regarding onStart() isn't really relevant to the question, is it? I mean, replacing this with onStartCommand() won't solve OP's problem. – David Wasser Mar 26 '13 at 16:11
    
@DavidWasser no, it's just an advice. Deprecated methods aren't guaranteed to be called on all platforms. – Yaroslav Mytkalyk Mar 26 '13 at 16:35
up vote 1 down vote accepted

When you call actionPush(), it does the following:

    PUBLISH_TOPIC = publishTopic;
    PushMesaj = pushMsg;

which saves the arguments in private static variables and then calls startService. If you do this twice, you will overwrite the private static variables with the second set of arguments.

You need to understand that the call to startService() is not synchronous. It doesn't start the service immediately and call onStart() before the method returns. The service will get started and the call to onStart() will occur sometime later (timing isn't under your control here).

You want to put these parameters in the Intent that you use to start the service, and retrieve the arguments from the Intent in onStart(). You can't reliably use static variables to do this.

EDIT: ADD CODE DETAILS

Change actionPush() to this:

static final String EXTRA_TOPIC = "EXTRA_TOPIC";
static final String EXTRA_MESSAGE = "EXTRA_MESSAGE";

public static void actionPush(Context ctx, String publishTopic,
        String pushMsg)
{
    Intent i = new Intent(ctx, PushService.class);
    i.setAction(ACTION_PUSHMESSAGE);
    i.putExtra(EXTRA_TOPIC, publishTopic);
    i.putExtra(EXTRA_MESSAGE, pushMsg);
    ctx.startService(i);
}

and in onStart() you can get the arguments out of the Intent like this:

String topic = intent.getStringExtra(EXTRA_TOPIC);
String message = intent.getStringExtra(EXTRA_MESSAGE);

I'm not going to rewrite the entire program for you. You'll have to figure out now what to do with the arguments. Maybe you can now store them in private static variables, but I don't know enough about your program to be able to say if that will work. A better solution would be to pass the arguments through the various methods that you've defined until they get down to the methods where they are used.

share|improve this answer
    
so what should i do ? how to change the code in order to solve my problem ? – oguz kilinc Mar 26 '13 at 20:07
    
Wow , thank you very much,i tested your advice and it works, so the problem was passing the variables to the intent, I always uses passing parameters to Intents with putExtra ,but in services it did not come to my mind.I thought as classic programming. – oguz kilinc Mar 27 '13 at 1:08

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