69

Used

NodeJS, Socket.io

Problem

Imagine there are 2 users U1 & U2, connected to an app via Socket.io. The algorithm is the following:

  1. U1 completely loses Internet connection (ex. switches Internet off)
  2. U2 sends a message to U1.
  3. U1 does not receive the message yet, because the Internet is down
  4. Server detects U1 disconnection by heartbeat timeout
  5. U1 reconnects to socket.io
  6. U1 never receives the message from U2 - it is lost on Step 4 I guess.

Possible explanation

I think I understand why it happens:

  • on Step 4 Server kills socket instance and the queue of messages to U1 as well
  • Moreover on Step 5 U1 and Server create new connection (it is not reused), so even if message is still queued, the previous connection is lost anyway.

Need help

How can I prevent this kind of data loss? I have to use hearbeats, because I do not people hang in app forever. Also I must still give a possibility to reconnect, because when I deploy a new version of app I want zero downtime.

P.S. The thing I call "message" is not just a text message I can store in database, but valuable system message, which delivery must be guaranteed, or UI screws up.

Thanks!


Addition 1

I do already have a user account system. Moreover, my application is already complex. Adding offline/online statuses won't help, because I already have this kind of stuff. The problem is different.

Check out step 2. On this step we technically cannot say if U1 goes offline, he just loses connection lets say for 2 seconds, probably because of bad internet. So U2 sends him a message, but U1 doesn't receive it because internet is still down for him (step 3). Step 4 is needed to detect offline users, lets say, the timeout is 60 seconds. Eventually in another 10 seconds internet connection for U1 is up and he reconnects to socket.io. But the message from U2 is lost in space because on server U1 was disconnected by timeout.

That is the problem, I wan't 100% delivery.


Solution

  1. Collect an emit (emit name and data) in {} user, identified by random emitID. Send emit
  2. Confirm the emit on client side (send emit back to server with emitID)
  3. If confirmed - delete object from {} identified by emitID
  4. If user reconnected - check {} for this user and loop through it executing Step 1 for each object in {}
  5. When disconnected or/and connected flush {} for user if necessary

    // Server const pendingEmits = {};

    socket.on('reconnection', () => resendAllPendingLimits); socket.on('confirm', (emitID) => { delete(pendingEmits[emitID]); });

    // Client socket.on('something', () => { socket.emit('confirm', emitID); });

  • True that. But socket.io is really just a transport protocol. It alone cannot guarantee consistent and reliable message delivery. You should look into (and read) pub-sub (publish-subscribe) arhcitectures and message queues. In practise you will use a persistent database like redis for storing messages. – user568109 Dec 23 '13 at 5:55
  • So pubsub will solve this issue? If you write a comprehensive answer and the solution works, you'll be rewarded with a bounty (50 points). – igorpavlov Dec 23 '13 at 17:17
  • 7
    such a beautifully organized question – Katie Jan 2 '14 at 18:35
  • 1
    Thank you. I must say that the accepted answer works for me. I currently use the suggested scheme and don't have problems. – igorpavlov Mar 5 '14 at 15:06
  • Hi Igor! I'm new to Node.js and Socket.io. If it is possible could you show your code :) – Eldar Aug 28 '14 at 9:04
81
+50

Others have hinted at this in other answers and comments, but the root problem is that Socket.IO is just a delivery mechanism, and you cannot depend on it alone for reliable delivery. The only person who knows for sure that a message has been successfully delivered to the client is the client itself. For this kind of system, I would recommend making the following assertions:

  1. Messages aren't sent directly to clients; instead, they get sent to the server and stored in some kind of data store.
  2. Clients are responsible for asking "what did I miss" when they reconnect, and will query the stored messages in the data store to update their state.
  3. If a message is sent to the server while the recipient client is connected, that message will be sent in real time to the client.

Of course, depending on your application's needs, you can tune pieces of this--for example, you can use, say, a Redis list or sorted set for the messages, and clear them out if you know for a fact a client is up to date.


Here are a couple of examples:

Happy path:

  • U1 and U2 are both connected to the system.
  • U2 sends a message to the server that U1 should receive.
  • The server stores the message in some kind of persistent store, marking it for U1 with some kind of timestamp or sequential ID.
  • The server sends the message to U1 via Socket.IO.
  • U1's client confirms (perhaps via a Socket.IO callback) that it received the message.
  • The server deletes the persisted message from the data store.

Offline path:

  • U1 looses internet connectivity.
  • U2 sends a message to the server that U1 should receive.
  • The server stores the message in some kind of persistent store, marking it for U1 with some kind of timestamp or sequential ID.
  • The server sends the message to U1 via Socket.IO.
  • U1's client does not confirm receipt, because they are offline.
  • Perhaps U2 sends U1 a few more messages; they all get stored in the data store in the same fashion.
  • When U1 reconnects, it asks the server "The last message I saw was X / I have state X, what did I miss."
  • The server sends U1 all the messages it missed from the data store based on U1's request
  • U1's client confirms receipt and the server removes those messages from the data store.

If you absolutely want guaranteed delivery, then it's important to design your system in such a way that being connected doesn't actually matter, and that realtime delivery is simply a bonus; this almost always involves a data store of some kind. As user568109 mentioned in a comment, there are messaging systems that abstract away the storage and delivery of said messages, and it may be worth looking into such a prebuilt solution. (You will likely still have to write the Socket.IO integration yourself.)

If you're not interested in storing the messages in the database, you may be able to get away with storing them in a local array; the server tries to send U1 the message, and stores it in a list of "pending messages" until U1's client confirms that it received it. If the client is offline, then when it comes back it can tell the server "Hey I was disconnected, please send me anything I missed" and the server can iterate through those messages.

Luckily, Socket.IO provides a mechanism that allows a client to "respond" to a message that looks like native JS callbacks. Here is some pseudocode:

// server
pendingMessagesForSocket = [];

function sendMessage(message) {
  pendingMessagesForSocket.push(message);
  socket.emit('message', message, function() {
    pendingMessagesForSocket.remove(message);
  }
};

socket.on('reconnection', function(lastKnownMessage) {
  // you may want to make sure you resend them in order, or one at a time, etc.
  for (message in pendingMessagesForSocket since lastKnownMessage) {
    socket.emit('message', message, function() {
      pendingMessagesForSocket.remove(message);
    }
  }
});

// client
socket.on('connection', function() {
  if (previouslyConnected) {
    socket.emit('reconnection', lastKnownMessage);
  } else {
    // first connection; any further connections means we disconnected
    previouslyConnected = true;
  }
});

socket.on('message', function(data, callback) {
  // Do something with `data`
  lastKnownMessage = data;
  callback(); // confirm we received the message
});

This is quite similar to the last suggestion, simply without a persistent data store.


You may also be interested in the concept of event sourcing.

  • 2
    I have waited for the final comprehensive answer with a statement, that clients MUST confirm the delivery. Seems there is really no other way. – igorpavlov Dec 28 '13 at 17:01
  • Happy to have helped! Give me a ping if you have any questions. – Michelle Tilley Dec 28 '13 at 17:15
  • This will work in one-to-one chat scenario. what happen in rooms example where message sent to multiple users. broadcast/socket.in do not support callback. so how we handle that situation? my question on this. (stackoverflow.com/questions/43186636/…) – jit Apr 4 '17 at 6:00
1

It is seem that you already have user account system. You know which account is online/offline, you you can handle connect/disconnect event:

So the solution is, add online/offline and offline messages on database for each user:

chatApp.onLogin(function (user) {
   user.readOfflineMessage(function (msgs) {
       user.sendOfflineMessage(msgs, function (err) {
           if (!err) user.clearOfflineMessage();
       });
   })
});

chatApp.onMessage(function (fromUser, toUser, msg) {
   if (user.isOnline()) {
      toUser.sendMessage(msg, function (err) {
          // alert CAN NOT SEND, RETRY?
      });
   } else {
      toUser.addToOfflineQueue(msg);
   }
})
  • Please read "Addition 1" section in my question. I don't think your answer is a solution. – igorpavlov Dec 20 '13 at 14:07
  • That is interesting, I start my own chat project now, maybe with web RTC :-> – damphat Dec 20 '13 at 15:01
  • Mine on WebRTC as well. But in this context it doesn't matter. Ah... If all people have stable internet... I am so frustrated when users have 100Mbps on Speedtest, but actually if they try to ping they have 20% packet loss. Who needs such an Internet? =) – igorpavlov Dec 20 '13 at 21:35
0

Look here: Handle browser reload socket.io.

I think you could use solution which I came up with. If you modify it properly, it should work as you want.

  • That's interesting, I couldn't find this question, but googled for several hours. Will take a look! – igorpavlov Dec 28 '13 at 12:35
  • It seems that I already use this kind of architecture. It doesn't solve the exact issue I described. – igorpavlov Dec 28 '13 at 13:04
0

What I think you want is to have a reusable socket for each user, something like:

Client:

socket.on("msg", function(){
    socket.send("msg-conf");
});

Server:

// Add this socket property to all users, with your existing user system
user.socket = {
    messages:[],
    io:null
}
user.send = function(msg){ // Call this method to send a message
    if(this.socket.io){ // this.io will be set to null when dissconnected
        // Wait For Confirmation that message was sent.
        var hasconf = false;
        this.socket.io.on("msg-conf", function(data){
            // Expect the client to emit "msg-conf"
            hasconf = true;
        });
        // send the message
        this.socket.io.send("msg", msg); // if connected, call socket.io's send method
        setTimeout(function(){
            if(!hasconf){
                this.socket = null; // If the client did not respond, mark them as offline.
                this.socket.messages.push(msg); // Add it to the queue
            }
        }, 60 * 1000); // Make sure this is the same as your timeout.

    } else {
        this.socket.messages.push(msg); // Otherwise, it's offline. Add it to the message queue
    }
}
user.flush = function(){ // Call this when user comes back online
    for(var msg in this.socket.messages){ // For every message in the queue, send it.
        this.send(msg);
    }
}
// Make Sure this runs whenever the user gets logged in/comes online
user.onconnect = function(socket){
    this.socket.io = socket; // Set the socket.io socket
    this.flush(); // Send all messages that are waiting
}
// Make sure this is called when the user disconnects/logs out
user.disconnect = function(){
    self.socket.io = null; // Set the socket to null, so any messages are queued not send.
}

Then the socket queue is preserved between disconnects.

Make sure it saves each users socket property to the database and make the methods part of your user prototype. The database does not matter, just save it however you have been saving your users.

This will avoid the problem mentioned in Additon 1 by requiring a confirmation from the client before marking the message as sent. If you really wanted to, you could give each message an id and have the client send the message id to msg-conf, then check it.

In this example, user is the template user that all users are copied from, or like the user prototype.

Note: This has not been tested.

  • May you tell me what is actually the "user" variable? – igorpavlov Dec 28 '13 at 12:41
  • Actually, I think you nailed my question. But can you please also provide some comments for each piece of code? I do not understand yet how can I integrate it in my code. Also where should I save it into database and which kind of database you mean? Redis or could be Mongo or doesn't matter? – igorpavlov Dec 28 '13 at 12:53
  • @igorpavlov, I just updated the question, hope this helps – Ari Porad Dec 28 '13 at 15:39
  • It still doesn't solve the problem. When message is sent both users (sender and receiver) are ONLINE for server. Please read Addition 1 in my question very carefully. In this case "this.socket.io" will always be "true", so message is being sent, but not received. You try to solve the problem, when SENDER goes offline, but not RECEIVER. Or I am not right? – igorpavlov Dec 28 '13 at 16:33
  • 1
    I believe @igorpavlov is right. There will be a period of time when the client is actually disconnected, but the server does not know it because the heartbeat hasn't happened yet. In this period of time, this.socket.io will not be null, and the server will try to deliver the messages. – Michelle Tilley Dec 28 '13 at 16:52
0

Been looking at this stuff latterly and think different path might be better.

Try looking at Azure Service bus, ques and topic take care of the off line states. The message wait for user to come back and then they get the message.

Is a cost to run a queue but its like $0.05 per million operations for a basic queue so cost of dev would be more from hours work need to write a queuing system. https://azure.microsoft.com/en-us/pricing/details/service-bus/

And azure bus has libraries and examples for PHP, C#, Xarmin, Anjular, Java Script etc.

So server send message and does not need to worry about tracking them. Client can use message to send back also as means can handle load balancing if needed.

0

Try this emit chat list

io.on('connect', onConnect);

function onConnect(socket){

  // sending to the client
  socket.emit('hello', 'can you hear me?', 1, 2, 'abc');

  // sending to all clients except sender
  socket.broadcast.emit('broadcast', 'hello friends!');

  // sending to all clients in 'game' room except sender
  socket.to('game').emit('nice game', "let's play a game");

  // sending to all clients in 'game1' and/or in 'game2' room, except sender
  socket.to('game1').to('game2').emit('nice game', "let's play a game (too)");

  // sending to all clients in 'game' room, including sender
  io.in('game').emit('big-announcement', 'the game will start soon');

  // sending to all clients in namespace 'myNamespace', including sender
  io.of('myNamespace').emit('bigger-announcement', 'the tournament will start soon');

  // sending to individual socketid (private message)
  socket.to(<socketid>).emit('hey', 'I just met you');

  // sending with acknowledgement
  socket.emit('question', 'do you think so?', function (answer) {});

  // sending without compression
  socket.compress(false).emit('uncompressed', "that's rough");

  // sending a message that might be dropped if the client is not ready to receive messages
  socket.volatile.emit('maybe', 'do you really need it?');

  // sending to all clients on this node (when using multiple nodes)
  io.local.emit('hi', 'my lovely babies');

};

0

Michelle's answer is pretty much on point, but there are a few other important things to consider. The main question to ask yourself is: "Is there a difference between a user and a socket in my app?" Another way to ask that is "Can each logged in user have more than 1 socket connection at one time?"

In the web world it is probably always a possibility that a single user has multiple socket connections, unless you have specifically put something in place that prevents this. The simplest example of this is if a user has two tabs of the same page open. In these cases you don't care about sending a message/event to the human user just once... you need to send it to each socket instance for that user so that each tab can run it's callbacks to update the ui state. Maybe this isn't a concern for certain applications, but my gut says it would be for most. If this is a concern for you, read on....

To solve this (assuming you are using a database as your persistent storage) you would need 3 tables.

  1. users - which is a 1 to 1 with real people
  2. clients - which represents a "tab" that could have a single connection to a socket server. (any 'user' may have multiple)
  3. messages - a message that needs sent to a client (not a message that needs sent to a user or to a socket)

The users table is optional if your app doesn't require it, but the OP said they have one.

The other thing that needs properly defined is "what is a socket connection?", "When is a socket connection created?", "when is a socket connection reused?". Michelle's psudocode makes it seem like a socket connection can be reused. With Socket.IO, they CANNOT be reused. I've seen be the source of a lot of confusion. There are real life scenarios where Michelle's example does make sense. But I have to imagine those scenarios are rare. What really happens is when a socket connection is lost, that connection, ID, etc will never be reused. So any messages marked for that socket specifically will never be delivered to anyone because when the client who had originally connected, reconnects, they get a completely brand new connection and new ID. This means it's up to you to do something to track clients (rather than sockets or users) across multiple socket connections.

So for a web based example here would be the set of steps I'd recommend:

  • When a user loads a client (typically a single webpage) that has the potential for creating a socket connection, add a row to the clients database which is linked to their user ID.
  • When the user actually does connect to the socket server, pass the client ID to the server with the connection request.
  • The server should validate the user is allowed to connect and the client row in the clients table is available for connection and allow/deny accordingly.
  • Update the client row with the socket ID generated by Socket.IO.
  • Send any items in the messages table connected to the client ID. There wouldn't be any on initial connection, but if this was from the client trying to reconnect, there may be some.
  • Any time a message needs to be sent to that socket, add a row in the messages table which is linked to the client ID you generated (not the socket ID).
  • Attempt to emit the message and listen for the client with the acknowledgement.
  • When you get the acknowledgement, delete that item from the messages table.
  • You may wish to create some logic on the client side that discards duplicate messages sent from the server since this is technically a possibility as some have pointed out.
  • Then when a client disconnects from the socket server (purposefully or via error), DO NOT delete the client row, just clear out the socket ID at most. This is because that same client could try to reconnect.
  • When a client tries to reconnect, send the same client ID it sent with the original connection attempt. The server will view this just like an initial connection.
  • When the client is destroyed (user closes the tab or navigates away), this is when you delete the client row and all messages for this client. This step may be a bit tricky.

Because the last step is tricky (at least it used to be, I haven't done anything like that in a long time), and because there are cases like power loss where the client will disconnect without cleaning up the client row and never tries to reconnect with that same client row - you probably want to have something that runs periodically to cleanup any stale client and message rows. Or, you can just permanently store all clients and messages forever and just mark their state appropriately.

So just to be clear, in cases where one user has two tabs open, you will be adding two identical message to the messages table each marked for a different client because your server needs to know if each client received them, not just each user.

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