NAME

zmq_proxy_steerable - built-in 0MQ proxy with control flow

SYNOPSIS

int zmq_proxy_steerable (const void '*frontend', const void '*backend', const void '*capture', const void '*control');

DESCRIPTION

The zmq_proxy_steerable() function is a variant of the zmq_proxy() function. It accepts a fourth control socket. When the control socket is NULL the two functions operate identically.

When a control socket of type REP or PAIR is provided to the proxy function the application may send commands to the proxy. The following commands are supported.

PAUSE

The proxy will cease transferring messages between its endpoints. REP control socket will reply with an empty message. No response otherwise.

RESUME

The proxy will resume transferring messages between its endpoints. REP control socket will reply with an empty message. No response otherwise.

TERMINATE

The proxy function will exit with a return value of 0. REP control socket will reply with an empty message. No response otherwise.

STATISTICS

The proxy state will remain unchanged and reply with a set of simple summary values of the messages that have been sent through the proxy as described next. Control socket must support sending.

There are eight statistics values, each of size uint64_t in the multi-part message reply to the STATISTICS command. These are:

  • number of messages received by the frontend socket

  • number of bytes received by the frontend socket

  • number of messages sent by the frontend socket

  • number of bytes sent by the frontend socket

  • number of messages received by the backend socket

  • number of bytes received by the backend socket

  • number of messages sent by the backend socket

  • number of bytes sent by the backend socket

Message totals count each part in a multipart message individually.

RETURN VALUE

The zmq_proxy_steerable() function returns 0 if TERMINATE is received on its control socket. Otherwise, it returns -1 and errno set to ETERM or EINTR (the 0MQ context associated with either of the specified sockets was terminated) or EFAULT (the provided frontend or backend was invalid).

EXAMPLE

Create a function to run the proxy
// Create the frontend and backend sockets to be proxied
void *frontend = zmq_socket (context, ZMQ_ROUTER);
void *backend = zmq_socket (context, ZMQ_DEALER);

// Create the proxy control socket
void *control = zmq_socket (context, ZMQ_REP);

// Bind the sockets.
zmq_bind (frontend, "tcp://*:5555");
zmq_bind (backend, "tcp://*:5556");
zmq_bind (control, "tcp://*:5557");

zmq_proxy_steerable(frontend, backend, NULL, control);
Code in another thread/process to steer the proxy.
void *control = zmq_socket (context, ZMQ_REQ);
zmq_connect (control, "tcp://*:5557");

zmq_msg_t msg;

zmq_send (control, "PAUSE", 5, 0);
zmq_msg_recv (&msg, control, 0));

zmq_send (control, "RESUME", 6, 0);
zmq_msg_recv (&msg, control, 0));

zmq_send (control, "STATISTICS", 10, 0);
while (1) {
    zmq_msg_recv (&msg, control, 0));
    printf(" %lu", *(uint64_t *)zmq_msg_data (&msg));
    if (!zmq_msg_get (&msg, ZMQ_MORE))
        break;
}
printf("\n");

zmq_send (control, "TERMINATE", 9, 0);
zmq_msg_recv (&msg, control, 0));

zmq_close(frontend);
zmq_close(backend);
zmq_close(control);

SEE ALSO

AUTHORS

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