understanding ZMQ - PAIR Sockets for multi-threading

Question

Refer to http://hintjens.wdfiles.com/local--files/main:files/cc1pe.pdf page 67.

Question> I don't see why the following code is good for multi-thread. Based on my understanding, the main thread can do different things while waiting for the feedback from child thread.

However, in the following code, it seems that the step2 is blocked while calling char *string = s_recv (receiver); and step3 is blocked while calling char *string = s_recv (receiver);

Based on my understanding, (step_i+1) is able to do something free until the signal is received from step_i. however, as you can see the code, both the step2 and step3 are blocked and cannot do anything. Why this is a multi-thread code?

Thank you

//  Multithreaded relay

#include "zhelpers.h"
#include <pthread.h>

static void *
step1 (void *context) {
    //  Connect to step2 and tell it we're ready
    void *xmitter = zmq_socket (context, ZMQ_PAIR);
    zmq_connect (xmitter, "inproc://step2");
    printf ("Step 1 ready, signaling step 2\n");
    s_send (xmitter, "READY");
    zmq_close (xmitter);

    return NULL;
}

static void *
step2 (void *context) {
    //  Bind inproc socket before starting step1
    void *receiver = zmq_socket (context, ZMQ_PAIR);
    zmq_bind (receiver, "inproc://step2");
    pthread_t thread;
    pthread_create (&thread, NULL, step1, context);

    //  Wait for signal and pass it on
    char *string = s_recv (receiver);
    free (string);
    zmq_close (receiver);

    //  Connect to step3 and tell it we're ready
    void *xmitter = zmq_socket (context, ZMQ_PAIR);
    zmq_connect (xmitter, "inproc://step3");
    printf ("Step 2 ready, signaling step 3\n");
    s_send (xmitter, "READY");
    zmq_close (xmitter);

    return NULL;
}

int main (void)
{
    void *context = zmq_ctx_new ();

    //  Bind inproc socket before starting step2
    void *receiver = zmq_socket (context, ZMQ_PAIR);
    zmq_bind (receiver, "inproc://step3");
    pthread_t thread;
    pthread_create (&thread, NULL, step2, context);

    //  Wait for signal
    char *string = s_recv (receiver);
    free (string);
    zmq_close (receiver);

    printf ("Test successful!\n");
    zmq_ctx_destroy (context);
    return 0;
}

Answer 1

The way I read it, the sample code shows only how to let the main thread (step3) know that the other two threads have been created and connected properly. The signal from step1 passes through step2 to step3 so once it arrives there all is set up and ready to go. This ought to happen quite quickly.

When the threads are done, instead of joining them, you could pass a new message around that says DONE. Step 1 sends this message once it's done. Each other step starts waiting for this message once it's done and when it receives one, passes it on to the next step. When step3 receives the DONE message, all threads are done.

Or you could use such message for accumulating the results of each thread's work.

Instead of waiting on an object, you start a synchronous receive of a message. Instead of notifying, you send a message.

So if I understand it right, the multithreaded work is supposed to happen in between these synchronisation messages.

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EDIT

it seems that the step2 is blocked while calling s_recv

This is fine in this example, cause step2 has nothing useful to do other than waiting for the READY message. If in your use case a thread has to do work AND regularly check if it has a message waiting for it, it can call zmq_recv in non-blocking mode with the ZMQ_DONTWAIT flag, to check if the message has arrived yet.