6

How do I execute QTcpSocket functions in a different thread?

-4

Here is the example:

file thread.h:

class   Thread : public QThread {
    Q_OBJECT
public:
    Thread();
protected:
    void    run();
}

file thread.cpp:

Thread::Thread() {}
void    Thread::run() {
    // do what ever you want with QTcpSocket
}

in main.cpp or whatever:

Thread *myThread = new Thread;
connect(myThread, SIGNAL(finished()), this, SLOT(on_myThread_finished()));
myThread->start();
  • 2
    This is wrong on so many levels. You never even attempt to move the QTcpSocket to the new thread, which is basic for any QThread application, and additionally, it wouldn't work anyway since the QTcpSocket class is not thread-safe and has a built-in affinity that causes run-time assertion failures if you attempt to invoke it from any class other than that in which it was constructed (which is going to be whatever thread your QTcpServer runs in) – Nicolas Holthaus Jan 14 '15 at 12:54
6

The QT docs are explicit that the QTCPSocket should not be used accross threads. I.E, create a QTCPSocket in the main thread and have the signal tied to an object in another thread.

I suspect that you are implementing something like a web server where the listen creates a QTCPSocket on the accept. You then want another thread to handle the task of processing that socket. You can't.

The way I worked around it is I kept the socket in the thread it was born in. I serviced all of the incoming data in that thread and threw it into a queue where another thread could work on that data.

  • Where does it say that? – Matthew Levine Dec 13 '13 at 20:56
  • That note was added by the community, and in my emperical experience is not correct. Nor does it seem you can simulate the behavior by passing socket descriptors as they claim, since you end up with two QTcpSocket instances (the implicit child of the server and the instance you create in the new thread) running on the same descriptor, which causes run-time assertion failures. – Nicolas Holthaus Jan 14 '15 at 12:30
  • You say you "serviced all of the incoming data in that thread and threw it into a queue where another thread could work on that data." How do you do this? – Flare Cat Aug 28 '16 at 2:46
1

Put a QMutex lock around all calls, not just on the "different" thread but on all threads. One easy way to do so is via a QMutexLocker

  • "Note: All functions in this class are reentrant". If you have a more authoritative source for your contradicting claim, please include that. – MSalters Jan 14 '15 at 12:45
  • You're right. However, (and what I meant to say was) the class is not thread-safe, and the re-entrancy only guarantees you can use the class from multiple threads if you have different instances, but different QTcpSocket instances cannot share socket descriptors. Additionally, a single instance of a QTcpSocket cannot be accessed from multiple threads, regardless of whether it is mutexed. – Nicolas Holthaus Jan 14 '15 at 12:53
1

What I read in the docs is that QTcpSocket should not be used across threads. If you want to use it in another thread Qt docs say you should create a new QTcpSocket instance in your thread and set the descriptor on the new instance. To do this you need to reimplement QTcpServer and use QTcpServer::incomingConnection. A simple example is provided here.

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