I am new to Spring framework. We have a requirement where our application is acting as a client and needs to integrate with another application using TCP. We will be sending them fixed length requests and we will receive response for the same. We have been asked to use the same TCP connection for each request. Using the same open connection, our application will also be receiving heartbeat messages from server application and we do not need to send any response for them.
The request messages that we need to send is header + body where header has message type and length details.
We will be using SSL. When we try to test with SSL, it does not show any exception during getConnection but is not able to receive any heartbeat messages.
When we test without SSL, it is able to send requests and receive response as well as heartbeat messages. But after the first request response, it sends partial request text to server application for subsequent messages which is causing issues and connections are being reset by peer due to unexpected message received at their end.
I have tried many things referring to online documents available but not able to successfully implement the requirement.
Please find below code. Thanks in advance.
public class ClientConfig implements ApplicationEventPublisherAware{
protected String port;
protected String host;
protected String connectionTimeout;
protected String keyStorePath;
protected String trustStorePath;
protected String keyStorePassword;
protected String trustStorePassword;
protected String protocol;
private ApplicationEventPublisher applicationEventPublisher;
#Override
public void setApplicationEventPublisher(ApplicationEventPublisher applicationEventPublisher) {
this.applicationEventPublisher = applicationEventPublisher;
}
#Bean
public DefaultTcpNioSSLConnectionSupport connectionSupport() {
if("SSL".equalsIgnoreCase(getProtocol())) {
DefaultTcpSSLContextSupport sslContextSupport =
new DefaultTcpSSLContextSupport(getKeyStorePath(),
getTrustStorePath(), getKeyStorePassword(), getTrustStorePassword());
sslContextSupport.setProtocol(getProtocol());
DefaultTcpNioSSLConnectionSupport tcpNioConnectionSupport =
new DefaultTcpNioSSLConnectionSupport(sslContextSupport);
return tcpNioConnectionSupport;
}
return null;
}
#Bean
public AbstractClientConnectionFactory clientConnectionFactory() {
if(StringUtils.isNullOrEmptyTrim(getHost()) || StringUtils.isNullOrEmptyTrim(getPort())) {
return null;
}
TcpNioClientConnectionFactory tcpNioClientConnectionFactory =
new TcpNioClientConnectionFactory(getHost(), Integer.valueOf(getPort()));
tcpNioClientConnectionFactory.setApplicationEventPublisher(applicationEventPublisher);
tcpNioClientConnectionFactory.setSoKeepAlive(true);
tcpNioClientConnectionFactory.setDeserializer(new CustomSerializerDeserializer());
tcpNioClientConnectionFactory.setSerializer(new CustomSerializerDeserializer());
tcpNioClientConnectionFactory.setLeaveOpen(true);
tcpNioClientConnectionFactory.setSingleUse(false);
if("SSL".equalsIgnoreCase(getProtocol())) {
tcpNioClientConnectionFactory.setSslHandshakeTimeout(60);
tcpNioClientConnectionFactory.setTcpNioConnectionSupport(connectionSupport());
}
return tcpNioClientConnectionFactory;
}
#Bean
public MessageChannel outboundChannel() {
return new DirectChannel();
}
#Bean
public PollableChannel receiverChannel() {
return new QueueChannel();
}
#Bean
#ServiceActivator(inputChannel = "outboundChannel")
public TcpSendingMessageHandler outboundClient
(AbstractClientConnectionFactory clientConnectionFactory) {
TcpSendingMessageHandler outbound = new TcpSendingMessageHandler();
outbound.setConnectionFactory(clientConnectionFactory);
if(!StringUtils.isNullOrEmpty(getConnectionTimeout())) {
long timeout = Long.valueOf(getConnectionTimeout());
outbound.setRetryInterval(TimeUnit.SECONDS.toMillis(timeout));
}
outbound.setClientMode(true);
return outbound;
}
#Bean
public TcpReceivingChannelAdapter inboundClient(TcpNioClientConnectionFactory connectionFactory) {
TcpReceivingChannelAdapter inbound = new TcpReceivingChannelAdapter();
inbound.setConnectionFactory(connectionFactory);
if(!StringUtils.isNullOrEmpty(getConnectionTimeout())) {
long timeout = Long.valueOf(getConnectionTimeout());
inbound.setRetryInterval(TimeUnit.SECONDS.toMillis(timeout));
}
inbound.setOutputChannel(receiverChannel());
inbound.setClientMode(true);
return inbound;
}
}
public class CustomSerializerDeserializer implements Serializer<String>, Deserializer<String> {
#Override
public String deserialize(InputStream inputStream) throws IOException {
int i = 0;
byte[] lenbuf = new byte[8];
String message = null;
while ((i = inputStream.read(lenbuf)) != -1) {
String messageType = new String(lenbuf);
if(messageType.contains(APP_DATA_LEN)){
byte byteResp[] = new byte[RESP_MSG_LEN-8];
inputStream.read(byteResp, 0, RESP_MSG_LEN-8);
String readMsg = new String(byteResp);
message = messageType + readMsg;
}else {
byte byteResp[] = new byte[HANDSHAKE_LEN-8];
inputStream.read(byteResp, 0, HANDSHAKE_LEN-8);
String readMsg = new String(byteResp);
message = messageType + readMsg;
}
}
return message;
}
#Override
public void serialize(String object, OutputStream outputStream) throws IOException {
outputStream.write(object.getBytes());
outputStream.flush();
}
}
#Override
public String sendMessage(String message) {
Message<String> request = MessageBuilder.withPayload(message).build();
DirectChannel outboundChannel = (DirectChannel) applicationContext.getBean(DirectChannel.class);
outboundChannel.send(request);
}
//Below code is being used to open connection
TcpNioClientConnectionFactory cf = (TcpNioClientConnectionFactory) applicationContext.getBean(AbstractClientConnectionFactory.class);
if(cf != null) {
TcpNioConnection conn = (TcpNioConnection) cf.getConnection();
}
I have been trying to read the official docs and guides about how to send message from one device to another. I have saved registration token of both devices in the Real Time Database, thus I have the registration token of another device.
I have tried the following way to send the message
RemoteMessage message = new RemoteMessage.Builder(getRegistrationToken())
.setMessageId(incrementIdAndGet())
.addData("message", "Hello")
.build();
FirebaseMessaging.getInstance().send(message);
However this is not working. The other device doesn't receive any message. I am not even sure, if I can use upstream message sending to conduct device to device communication.
PS: I just want to know if device-to-device messaging is possible using FCM? If yes, then is the code I used have some issue? If yes, then what is the correct way.
Update:
My question was to ask whether device to device messaging without using any separate server other than firebase could messaging is possible or not, if yes than how, since there's no documentation about it. I do not understand what is left to explain here? Anyways I got the answer and will update it as an answer once the question gets reopened.
Firebase has two features to send messages to devices:
the Notifications panel in your Firebase Console allows you to send notifications to specific devices, groups of users, or topics that users subscribed to.
by calling Firebase Cloud Messaging API, you can send messages with whatever targeting strategy you prefer. Calling the FCM API requires access to your Server key, which you should never expose on client devices. That's why you should always run such code on an app server.
The Firebase documentation shows this visually:
Sending messages from one device directly to another device is not supported through the Firebase Cloud Messaging client-side SDKs.
Update: I wrote a blog post detailing how to send notifications between Android devices using Firebase Database, Cloud Messaging and Node.js.
Update 2: You can now also use Cloud Functions for Firebase to send messages securely, without spinning up a server. See this sample use-case to get started. If you don't want to use Cloud Functions, you can run the same logic on any trusted environment you already have, such as your development machine, or a server you control.
Warning There is a very important reason why we don't mention this approach anywhere. This exposes your server key in the APK that
you put on every client device. It can (and thus will) be taken from
there and may lead to abuse of your project. I highly recommend
against taking this approach, except for apps that you only put on
your own devices. – Frank van Puffelen
Ok, so the answer by Frank was correct that Firebase does not natively support device to device messaging. However there's one loophole in that. The Firebase server doesn't identify whether you have send the request from an actual server or are you doing it from your device.
So all you have to do is send a Post Request to Firebase's messaging server along with the Server Key. Just keep this in mind that the server key is not supposed to be on the device, but there's no other option if you want device-to-device messaging using Firebase Messaging.
I am using OkHTTP instead of default way of calling the Rest API. The code is something like this -
public static final String FCM_MESSAGE_URL = "https://fcm.googleapis.com/fcm/send";
OkHttpClient mClient = new OkHttpClient();
public void sendMessage(final JSONArray recipients, final String title, final String body, final String icon, final String message) {
new AsyncTask<String, String, String>() {
#Override
protected String doInBackground(String... params) {
try {
JSONObject root = new JSONObject();
JSONObject notification = new JSONObject();
notification.put("body", body);
notification.put("title", title);
notification.put("icon", icon);
JSONObject data = new JSONObject();
data.put("message", message);
root.put("notification", notification);
root.put("data", data);
root.put("registration_ids", recipients);
String result = postToFCM(root.toString());
Log.d(TAG, "Result: " + result);
return result;
} catch (Exception ex) {
ex.printStackTrace();
}
return null;
}
#Override
protected void onPostExecute(String result) {
try {
JSONObject resultJson = new JSONObject(result);
int success, failure;
success = resultJson.getInt("success");
failure = resultJson.getInt("failure");
Toast.makeText(getCurrentActivity(), "Message Success: " + success + "Message Failed: " + failure, Toast.LENGTH_LONG).show();
} catch (JSONException e) {
e.printStackTrace();
Toast.makeText(getCurrentActivity(), "Message Failed, Unknown error occurred.", Toast.LENGTH_LONG).show();
}
}
}.execute();
}
String postToFCM(String bodyString) throws IOException {
RequestBody body = RequestBody.create(JSON, bodyString);
Request request = new Request.Builder()
.url(FCM_MESSAGE_URL)
.post(body)
.addHeader("Authorization", "key=" + SERVER_KEY)
.build();
Response response = mClient.newCall(request).execute();
return response.body().string();
}
I hope Firebase will come with a better solution in future. But till then, I think this is the only way. The other way would be to send topic message or group messaging. But that was not in the scope of the question.
Update:
The JSONArray is defined like this -
JSONArray regArray = new JSONArray(regIds);
regIds is a String array of registration ids, you want to send this message to. Keep in mind that the registration ids must always be in an array, even if you want it to send to a single recipient.
I have also been using direct device to device gcm messaging in my prototype. It has been working very well. We dont have any server. We exchange GCM reg id using sms/text and then communicate using GCM after that. I am putting here code related to GCM handling
**************Sending GCM Message*************
//Sends gcm message Asynchronously
public class GCM_Sender extends IntentService{
final String API_KEY = "****************************************";
//Empty constructor
public GCM_Sender() {
super("GCM_Sender");
}
//Processes gcm send messages
#Override
protected void onHandleIntent(Intent intent) {
Log.d("Action Service", "GCM_Sender Service Started");
//Get message from intent
String msg = intent.getStringExtra("msg");
msg = "\"" + msg + "\"";
try{
String ControllerRegistrationId = null;
//Check registration id in db
if(RegistrationIdAdapter.getInstance(getApplicationContext()).getRegIds().size() > 0 ) {
String controllerRegIdArray[] = RegistrationIdAdapter.getInstance(getApplicationContext()).getRegIds().get(1);
if(controllerRegIdArray.length>0)
ControllerRegistrationId = controllerRegIdArray[controllerRegIdArray.length-1];
if(!ControllerRegistrationId.equalsIgnoreCase("NULL")){
// 1. URL
URL url = new URL("https://android.googleapis.com/gcm/send");
// 2. Open connection
HttpURLConnection urlConnection = (HttpURLConnection) url.openConnection();
// 3. Specify POST method
urlConnection.setRequestMethod("POST");
// 4. Set the headers
urlConnection.setRequestProperty("Content-Type", "application/json");
urlConnection.setRequestProperty("Authorization", "key=" + API_KEY);
urlConnection.setDoOutput(true);
// 5. Add JSON data into POST request body
JSONObject obj = new JSONObject("{\"time_to_live\": 0,\"delay_while_idle\": true,\"data\":{\"message\":" + msg + "},\"registration_ids\":[" + ControllerRegistrationId + "]}");
// 6. Get connection output stream
OutputStreamWriter out = new OutputStreamWriter(urlConnection.getOutputStream());
out.write(obj.toString());
out.close();
// 6. Get the response
int responseCode = urlConnection.getResponseCode();
BufferedReader in = new BufferedReader(new InputStreamReader(urlConnection.getInputStream()));
String inputLine;
StringBuffer response = new StringBuffer();
while ((inputLine = in.readLine()) != null){
response.append(inputLine);
}
in.close();
Log.d("GCM getResponseCode:", new Integer(responseCode).toString());
}else{
Log.d("GCM_Sender:","Field REGISTRATION_TABLE is null");
}
}else {
Log.d("GCM_Sender:","There is no Registration ID in DB ,please sync devices");
}
} catch (Exception e) {
e.printStackTrace();
//MessageSender.getInstance().sendMessage(msg, Commands.SMS_MESSAGE);
}
}
//Called when service is no longer alive
#Override
public void onDestroy() {
super.onDestroy();
//Do a log that GCM_Sender service has been destroyed
Log.d("Action Service", "GCM_Sender Service Destroyed");
}
}
**************Receiving GCM Message*************
public class GCM_Receiver extends WakefulBroadcastReceiver {
public static final String RETRY_ACTION ="com.google.android.c2dm.intent.RETRY";
public static final String REGISTRATION ="com.google.android.c2dm.intent.REGISTRATION";
public SharedPreferences preferences;
//Processes Gcm message .
#Override
public void onReceive(Context context, Intent intent) {
ComponentName comp = new ComponentName(context.getPackageName(),
GCMNotificationIntentService.class.getName());
//Start GCMNotificationIntentService to handle gcm message asynchronously
startWakefulService(context, (intent.setComponent(comp)));
setResultCode(Activity.RESULT_OK);
/*//Check if DatabaseService is running .
if(!DatabaseService.isServiceRunning) {
Intent dbService = new Intent(context,DatabaseService.class);
context.startService(dbService);
}*/
//Check if action is RETRY_ACTION ,if it is then do gcm registration again .
if(intent.getAction().equals(RETRY_ACTION)) {
String registrationId = intent.getStringExtra("registration_id");
if(TextUtils.isEmpty(registrationId)){
DeviceRegistrar.getInstance().register(context);
}else {
//Save registration id to prefs .
preferences = PreferenceManager.getDefaultSharedPreferences(context);
SharedPreferences.Editor editor = preferences.edit();
editor.putString("BLACKBOX_REG_ID",registrationId);
editor.commit();
}
} else if (intent.getAction().equals(REGISTRATION)) {
}
}
}
//Processes gcm messages asynchronously .
public class GCMNotificationIntentService extends IntentService{
public static final int NOTIFICATION_ID = 1;
private NotificationManager mNotificationManager;
String gcmData;
private final String TAG = "GCMNotificationIntentService";
//Constructor with super().
public GCMNotificationIntentService() {
super("GcmIntentService");
}
//Called when startService() is called by its Client .
//Processes gcm messages .
#Override
protected void onHandleIntent(Intent intent) {
Log.d("GCMNotificationIntentService", "GCMNotificationIntentService Started");
Bundle extras = intent.getExtras();
//Get instance of GoogleCloudMessaging .
GoogleCloudMessaging gcm = GoogleCloudMessaging.getInstance(this);
//Get gcm message type .
String messageType = gcm.getMessageType(intent);
if (!extras.isEmpty()) {
if (GoogleCloudMessaging.MESSAGE_TYPE_SEND_ERROR
.equals(messageType)) {
sendNotification("Send error: " + extras.toString());
} else if (GoogleCloudMessaging.MESSAGE_TYPE_DELETED
.equals(messageType)) {
sendNotification("Deleted messages on server: "
+ extras.toString());
} else if (GoogleCloudMessaging.MESSAGE_TYPE_MESSAGE
.equals(messageType)) {
Log.i(TAG, "Completed work # " + SystemClock.elapsedRealtime());
gcmData = extras.getString("message");
Intent actionService = new Intent(getApplicationContext(),Action.class);
actionService.putExtra("data", gcmData);
//start Action service .
startService(actionService);
//Show push notification .
sendNotification("Action: " + gcmData);
//Process received gcmData.
Log.d(TAG,"Received Gcm Message from Controller : " + extras.getString("message"));
}
}
GCM_Receiver.completeWakefulIntent(intent);
}
//Shows notification on device notification bar .
private void sendNotification(String msg) {
mNotificationManager = (NotificationManager) this.getSystemService(Context.NOTIFICATION_SERVICE);
Intent notificationIntent = new Intent(this, BlackboxStarter.class);
//Clicking on GCM notification add new layer of app.
notificationIntent.setFlags( Intent.FLAG_ACTIVITY_CLEAR_TASK | Intent.FLAG_ACTIVITY_NEW_TASK);
PendingIntent contentIntent = PendingIntent.getActivity(this, 0,notificationIntent, PendingIntent.FLAG_CANCEL_CURRENT);
NotificationCompat.Builder mBuilder = new NotificationCompat.Builder(
this).setSmallIcon(R.drawable.gcm_cloud)
.setContentTitle("Notification from Controller")
.setStyle(new NotificationCompat.BigTextStyle().bigText(msg))
.setContentText(msg);
mBuilder.setContentIntent(contentIntent);
mNotificationManager.notify(NOTIFICATION_ID, mBuilder.build());
//Play default notification
try {
Uri notification = RingtoneManager.getDefaultUri(RingtoneManager.TYPE_NOTIFICATION);
Ringtone r = RingtoneManager.getRingtone(getApplicationContext(), notification);
r.play();
} catch (Exception e) {
e.printStackTrace();
}
}
//Called when service is no longer be available .
#Override
public void onDestroy() {
// TODO Auto-generated method stub
super.onDestroy();
Log.d("GCMNotificationIntentService", "GCMNotificationIntentService Destroyed");
}
}
According to the new documentation which was updated on October 2, 2018 you must send post request as below
https://fcm.googleapis.com/fcm/send
Content-Type:application/json
Authorization:key=AIzaSyZ-1u...0GBYzPu7Udno5aA //Server key
{
"to": "sent device's registration token",
"data": {
"hello": "message from someone",
}
}
To get device's registration token extend FirebaseMessagingService and override onNewToken(String token)
For more info refer to doc https://firebase.google.com/docs/cloud-messaging/android/device-group
I am late but above solutions has helped me to write down this simple answer, you can send your message directly to android devices from android application, here is the simple implementation I have done and it works great for me.
compile android volley library
compile 'com.android.volley:volley:1.0.0'
Just copy paste this simple function ;) and your life will become smooth just like knife in butter. :D
public static void sendPushToSingleInstance(final Context activity, final HashMap dataValue /*your data from the activity*/, final String instanceIdToken /*firebase instance token you will find in documentation that how to get this*/ ) {
final String url = "https://fcm.googleapis.com/fcm/send";
StringRequest myReq = new StringRequest(Request.Method.POST,url,
new Response.Listener<String>() {
#Override
public void onResponse(String response) {
Toast.makeText(activity, "Bingo Success", Toast.LENGTH_SHORT).show();
}
},
new Response.ErrorListener() {
#Override
public void onErrorResponse(VolleyError error) {
Toast.makeText(activity, "Oops error", Toast.LENGTH_SHORT).show();
}
}) {
#Override
public byte[] getBody() throws com.android.volley.AuthFailureError {
Map<String, Object> rawParameters = new Hashtable();
rawParameters.put("data", new JSONObject(dataValue));
rawParameters.put("to", instanceIdToken);
return new JSONObject(rawParameters).toString().getBytes();
};
public String getBodyContentType()
{
return "application/json; charset=utf-8";
}
#Override
public Map<String, String> getHeaders() throws AuthFailureError {
HashMap<String, String> headers = new HashMap<String, String>();
headers.put("Authorization", "key="+YOUR_LEGACY_SERVER_KEY_FROM_FIREBASE_CONSOLE);
headers.put("Content-Type","application/json");
return headers;
}
};
Volley.newRequestQueue(activity).add(myReq);
}
Note
If you want to send message to topics so you can change parameter instanceIdToken to something like /topics/topicName.
For groups implementation is the same but you just need to take care of parameters. checkout Firebase documentation and you can pass those parameters.
let me know if you face any issue.
I have a sender and a consumer that exchange messages:
public class Sender extends AbstractVerticle {
#Override
public void start() {
EventBus eventBus = vertx.eventBus();
eventBus.send(Constants.ADDRESS, "Hello from sender", res -> {
if (res.succeeded()) {
System.out.println("Successfully sent reply");
} else {
System.out.println("Failed to send reply." + res.cause());
}
});
eventBus.consumer(Constants.ADDRESS, msg -> System.out.println("received msg from consumer:" + msg.body()));
}
public class Consumer extends AbstractVerticle{
protected EventBus eventBus = null;
#Override
public void start() {
eventBus = vertx.eventBus();
eventBus.consumer(Constants.ADDRESS, msg -> msg.reply("Hi from consumer.", res -> {
if (res.succeeded()) {
System.out.println("Successfully sent reply");
} else {
System.out.println("Failed to send reply." + res.cause());
}
}));
}
}
I expect that when the consumer replies to the message, it will be received by the sender. However, I get a timeout:
Successfully sent reply
Failed to send reply.(TIMEOUT,-1) Timed out after waiting 30000(ms) for a reply. address: 2, repliedAddress: 1
Deployment:
public class ServiceLauncher {
private static Vertx vertx = Vertx.vertx();
public static void main(String[] args) {
vertx.deployVerticle(new Consumer(), res -> {
if (res.succeeded()) {
System.out.println("Verticle " + Consumer.NAME + " deployed.");
vertx.deployVerticle(new Sender());
System.out.println("Verticle " + Sender.NAME + " deployed.");
} else {
System.out.println("Verticle " + Consumer.NAME + " not deployed.");
}
});
}
What am I doing wrong? Thanx in advance
Update: The problem is in msg.reply() - the consumer doesn't reply to the message but I can't still figure out why.
The timeout occurs not in the sender of the request, but in its recipient.
Handler, defined in msg.reply(), waits for next reply from the sender. It is not a handler, confirming just send status.
And handler in Sender's eventBus.send() also fires when sender receives a reply.
Just remove handler in msg.reply() and modify handler eventBus.send() in Sender in the same manner:
public class Sender extends AbstractVerticle {
public static final String NAME = "SENDER";
#Override
public void start() {
EventBus eventBus = vertx.eventBus();
eventBus.send(Constants.ADDRESS, "Hello from sender", res -> {
if (res.succeeded()) {
System.out.println("Successfully received reply: " + res.result().body());
} else {
System.out.println("Failed to send reply." + res.cause());
}
});
}
}
and
public class Consumer extends AbstractVerticle {
public static final String NAME = "CONSUMER";
#Override
public void start() {
final EventBus eventBus = vertx.eventBus();
eventBus.consumer(Constants.ADDRESS, msg -> {
System.out.println("Message received");
msg.reply("Hi from consumer.");
});
}
}
And after execute you'll see:
Verticle CONSUMER deployed.
Verticle SENDER deployed.
Message received
Successfully received reply: Hi from consumer.
I had a similar issue. In my case, I was sending a non JsonObject reply. The message has to be replied to with a valid JsonObject -- not JsonArray or any other. This looks the default behaviour although the doc mentions JsonObject is not required. But the real problem in your original code snippet is that you have specified a handler for the reply's reply. The Consumer is replying successfully but the consumer is not getting a reply from Sender. See below with comment.
#Override
public void start() {
eventBus = vertx.eventBus();
eventBus.consumer(Constants.ADDRESS, msg -> msg.reply("Hi from consumer.", res -> {
if (res.succeeded()) { //this is expecting a response from Sender which never does so this will never execute.
System.out.println("Successfully sent reply");
} else { //it's not failing either so this will not execute either
System.out.println("Failed to send reply." + res.cause());
}
}));
}
I have tried to establish chat connection between two users using xmpp and OpenFire. But i am not able to send and receive message. I have pasted my code below for reference. Any help will be very helpful.
I established a connection with Smack by
XMPPTCPConnectionConfiguration.Builder config = XMPPTCPConnectionConfiguration.builder();
config.setSecurityMode(ConnectionConfiguration.SecurityMode.disabled);
config.setUsernameAndPassword("admin", "admin");
config.setServiceName("172.21.4.199");
config.setHost("172.21.4.199");
config.setPort(5222);
config.setDebuggerEnabled(true);
config.setConnectTimeout(50000);
XMPPTCPConnection connection = new XMPPTCPConnection(config.build());
XMPPTCPConnection.setUseStreamManagementResumptiodDefault(true);
XMPPTCPConnection.setUseStreamManagementDefault(true);
try {
connection.setPacketReplyTimeout(50000);
connection.connect();
Log.d(TAG, "SetupDefaults -- Connected");
} catch (Exception e) {
e.printStackTrace();
Log.d(TAG, "SetupDefaults -- Connection failed exc: "+e);
}
and its gets succesfully connected. And i try to send a chat by using
ChatManager chatManager = ChatManager.getInstanceFor(connection);
Chat chat = chatManager.createChat("user2#server.local", new ChatMessageListener() {
#Override
public void processMessage(Chat chat, Message message) {
System.out.println("processMessage -- Sent message: " + message);
}
});
try {
chat.sendMessage("Hai.. Lets we chat!");
}catch (Exception e){
Log.d(TAG, "sendChat Exc: "+e.toString());
}
But i couldn't find that processMessage gets triggered. Because that S.O.P doesn't gets triggered. But i gets
SMACK: SENT (0): Hai.. Lets we chat!
SMACK: RECV (0): Hai.. Lets we chat!
in my console while sending a chat.
Simillarly i use,
PacketListener packetListener = new PacketListener() {
#Override
public void processPacket(Stanza packet) throws SmackException.NotConnectedException {
Message message = (Message)packet;
String from = message.getFrom();
String body = message.getBody();
System.out.println("Message from: " + from + " " + body);
}
};
connection.addPacketListener(packetListener, filter);
to receive the chat. But processPacket also doesn't gets triggered.
PacketListner it's something much more general to handle stanzas, it's not what you really need. You just need a ChatMessageListner
ChatManager chatManager;
chatManager = ChatManager.getInstanceFor(connection);
chatManager.addChatListener(
**new ChatManagerListener() {
#Override
public void chatCreated(Chat chat, boolean createdLocally)
{
if (!createdLocally)
{
chat.addMessageListener(new IncomingMessageListener());;
}
}
})**;
Basic implementation:
class IncomingMessageListener implements ChatMessageListener {
#Override
public void processMessage(Chat arg0, Message message) {
String from = message.getFrom();
String body = message.getBody();
if (body != null)
{
System.out.println(String.format("============ Received message '%1$s' from %2$s\n============", body, from));
guiUpdate.displayMessage(body); /* custom method */
}
else
{
System.out.println("SYSTEM: ping");
}
}
I am developing a mobile application in net-beans that will send and receive SMS, I'm done with sending text but I don't know how to receive SMS in NetBeans mobile application ?
WMA (Wireless Messaging API) is a wireless messaging api defined in MIDP 2.0. These apis are designed to handle text, binary and multipart messages. To make a connection, the application obtains an object implementing the MessageConnection from the Connector class by providing an URL connection string that identifies the address.
/* Make a connection */
public boolean connectSMSServer()
{
try
{
messageConnection messageConnection =
(MessageConnection)Connector.open("sms://:" + port);
messageConnection.setMessageListener(this);
}
catch (Exception e) {
}
}
/* Send text message */
public void sendTextmessage(String address,String message)
{
try
{
//creates a new TextMessage
TextMessage textMessage = (TextMessage)messageConnection.newMessage(
MessageConnection.TEXT_MESSAGE, address);
textMessage.setPayloadText(message);
messageConnection.send(textMessage);
}
catch (Exception e) {
}
}
/* Recieve text message */
public void receiveTextMessage()
{
try
{
Message message = messageConnection.receive();
if (message instanceof TextMessage)
{
TextMessage textMessage = (TextMessage)message;
}
else
{
//Message can be binary or multipart
}
}
catch (Exception e) {
}
}
/* Notify Incoming Message */
public synchronized void notifyIncomingMessage(MessageConnection conn)
{
//notiy thread of incoming message
synchronized (this)
{
notify();
}
}
/* Close Connection */
public void closeConnection()
{
if (messageConnection != null)
{
try
{
messageConnection.setMessageListener(null);
messageConnection.close();
}
catch (Exception e) {
}
}
}
}
When you are coding for Receiving SMS, you need to listen to one particular port. J2ME Application can not read directly from the inbox.