I've been fighting with NWConnection to receive data on a long-running TCP socket all day. I've finally got it working after inflicting the following errors on myself due to lack of documentation:

  1. Incomplete data (due to only calling receive once)
  2. Getting TCP data out-of-order (due to "polling" receive from a timer...resulting in multiple simultaneous closures waiting to get data).
  3. Suffering infinite loops (due to restarting receive after receiving without checking the "isComplete" Bool--once the socket is terminated from the other end this is....bad...very bad).

Summary of what I've learned:

  1. Once you are in the .ready state you can call receive...once and only once
  2. Once you receive some data, you can call receive again...but only if you are still in the .ready state and the isComplete is false.

Here's my code. I think this is right. But if it's wrong please let me know:

    queue = DispatchQueue(label: "hostname", attributes: .concurrent)
    let serverEndpoint = NWEndpoint.Host(hostname)
    guard let portEndpoint = NWEndpoint.Port(rawValue: port) else { return nil }
    connection = NWConnection(host: serverEndpoint, port: portEndpoint, using: .tcp)
    connection.stateUpdateHandler = { [weak self] (newState) in
        switch newState {
        case .ready:
            debugPrint("TcpReader.ready to send")
        case .failed(let error):
            debugPrint("TcpReader.client failed with error \(error)")
        case .setup:
        case .waiting(_):
        case .preparing:
        case .cancelled:

func receive() {  
    connection.receive(minimumIncompleteLength: 1, maximumLength: 8192) { (content, context, isComplete, error) in
        debugPrint("\(Date()) TcpReader: got a message \(String(describing: content?.count)) bytes")
        if let content = content {
            self.delegate.gotData(data: content, from: self.hostname, port: self.port)
        if self.connection.state == .ready && isComplete == false {
  • I wish I found this post this morning. I am struggling with the issue that if i send multiple bits of data using connection.send then connection receive gets the data combined together. Should I be handling this as something that just happens on the network or should i be throttling my sends or should i send in a different manner?
    – Bergasms
    Oct 17, 2019 at 6:18
  • 1
    I can’t answer that, but it sounds like an excellent question, especially if you include your code. I’d love to see more NWconnection code samples. Oct 17, 2019 at 6:41
  • So, it tunes out I was kinda using this in the wrong way (AFAIK). I was seeing the connection as a pipe you open and then put things into continually. When i instead looked at it as an NWConnection is a thing used to send a single thing and is then closed after that single thing, everything started working correctly.
    – Bergasms
    Oct 21, 2019 at 5:53
  • If you want to connect many times you can handle newConnectionHandler and restart NWListener and NWConnection on the server. Dec 13, 2019 at 11:25
  • Timer is unneeded. You should handle NWConnection.receiveMessage to get messages and call receiveNextMessage() to get next. Dec 13, 2019 at 11:38

2 Answers 2


I think you can use a short time connection many times. For example a client connects to the host and asks the host to do something and then tells the host to shutdown the connection. The host switches to the waiting mode to ready a new connection. See the diagram below.

You should have the connection timer to shutdown opened connection when the client don't send the close connection or answer event to the host for a particular time.


On a long-running TCP socket, you should implement customized heartbeat for monitor the connection status is alive or disconnected.

The heartbeat can as message or encrypt data to send, usually according to the server spec documents to implement.

Below as sample concept code to explain the flow for reference (without network packet content handler).

I can no guarantee is this common and correct way, but that's work for my project.

import Network

class NetworkService {

    lazy var heartbeatTimeoutTask: DispatchWorkItem = {
        return DispatchWorkItem { self.handleHeartbeatTimeOut() }

    lazy var connection: NWConnection = {
        // Create the connection
        let connection = NWConnection(host: "x.x.x.x", port: 1234, using: self.parames)
        connection.stateUpdateHandler = self.listenStateUpdate(to:)
        return connection
    lazy var parames: NWParameters = {
        let parames = NWParameters(tls: nil, tcp: self.tcpOptions)
        if let isOption = parames.defaultProtocolStack.internetProtocol as? NWProtocolIP.Options {
            isOption.version = .v4
        parames.preferNoProxies = true
        parames.expiredDNSBehavior = .allow
        parames.multipathServiceType = .interactive
        parames.serviceClass = .background
        return parames
    lazy var tcpOptions: NWProtocolTCP.Options = {
        let options = NWProtocolTCP.Options()
        options.enableFastOpen = true // Enable TCP Fast Open (TFO)
        options.connectionTimeout = 5 // connection timed out
        return options
    let queue = DispatchQueue(label: "hostname", attributes: .concurrent)
    private func listenStateUpdate(to state: NWConnection.State) {
        // Set the state update handler
        switch state {
        case .setup:
            // init state
            debugPrint("The connection has been initialized but not started.")
        case .waiting(let error):
            debugPrint("The connection is waiting for a network path change with: \(error)")
        case .preparing:
            debugPrint("The connection in the process of being established.")
        case .ready:
            // Handle connection established
            // this means that the handshake is finished
            debugPrint("The connection is established, and ready to send and receive data.")
        case .failed(let error):
            debugPrint("The connection has disconnected or encountered an: \(error)")
        case .cancelled:
            debugPrint("The connection has been canceled.")
    // MARK: - Socket I/O
    func connect() {
        // Start the connection
        self.connection.start(queue: self.queue)
    func disconnect() {
        // Stop the connection
        self.connection.stateUpdateHandler = nil
    private func sendPacket() {
        var packet: Data? // do something for heartbeat packet
        self.connection.send(content: packet, completion: .contentProcessed({ (error) in
            if let err = error {
                // Handle error in sending
                debugPrint("encounter an error with: \(err) after send Packet")
            } else {
                // Send has been processed
    private func receiveData() {
        self.connection.receive(minimumIncompleteLength: 1, maximumLength: 8192) { [weak self] (data, context, isComplete, error) in
            guard let weakSelf = self else { return }
            if weakSelf.connection.state == .ready && isComplete == false, var data = data, !data.isEmpty {
                // do something for detect heart packet
    // MARK: - Heartbeat
    private func sendHeartbeat() {
        // sendHeartbeatPacket
        // trigger timeout mission if the server no response corresponding packet within 5 second
        DispatchQueue.global(qos: .background).asyncAfter(deadline: .now() + 5.0, execute: self.heartbeatTimeoutTask)
    private func handleHeartbeatTimeOut() {
        // this's sample time out mission, you can customize this chunk
    private func parseHeartBeat(_ heartbeatData: inout Data) {
        // do something for parse heartbeat
        // cancel heartbeat timeout after parse packet success
        // send heartbeat for monitor server after computing 15 second
        DispatchQueue.global(qos: .background).asyncAfter(deadline: .now() + 15.0) {


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