zmq_device(3)
ØMQ Manual - ØMQ/2.2.1
Name
zmq_device - start built-in ØMQ device
Synopsis
int zmq_device (int device, const void *frontend, const void *backend);
Description
The zmq_device() function starts a built-in ØMQ device. The device argument is one of:
- ZMQ_QUEUE
- starts a queue device
- ZMQ_FORWARDER
- starts a forwarder device
- ZMQ_STREAMER
- starts a streamer device
The device connects a frontend socket to a backend socket. Conceptually, data flows from frontend to backend. Depending on the socket types, replies may flow in the opposite direction.
Before calling zmq_device() you must set any socket options, and connect or bind both frontend and backend sockets. The two conventional device models are:
- proxy
- bind frontend socket to an endpoint, and connect backend socket to downstream components. A proxy device model does not require changes to the downstream topology but that topology is static (any changes require reconfiguring the device).
- broker
- bind frontend socket to one endpoint and bind backend socket to a second endpoint. Downstream components must now connect into the device. A broker device model allows a dynamic downstream topology (components can come and go at any time).
zmq_device() runs in the current thread and returns only if/when the current context is closed.
Queue device
ZMQ_QUEUE creates a shared queue that collects requests from a set of clients, and distributes these fairly among a set of services. Requests are fair-queued from frontend connections and load-balanced between backend connections. Replies automatically return to the client that made the original request.
This device is part of the request-reply pattern. The frontend speaks to clients and the backend speaks to services. You should use ZMQ_QUEUE with a ZMQ_XREP socket for the frontend and a ZMQ_XREQ socket for the backend. Other combinations are not documented.
Refer to zmq_socket(3) for a description of these socket types.
Forwarder device
ZMQ_FORWARDER collects messages from a set of publishers and forwards these to a set of subscribers. You will generally use this to bridge networks, e.g. read on TCP unicast and forward on multicast.
This device is part of the publish-subscribe pattern. The frontend speaks to publishers and the backend speaks to subscribers. You should use ZMQ_FORWARDER with a ZMQ_SUB socket for the frontend and a ZMQ_PUB socket for the backend. Other combinations are not documented.
Refer to zmq_socket(3) for a description of these socket types.
Streamer device
ZMQ_STREAMER collects tasks from a set of pushers and forwards these to a set of pullers. You will generally use this to bridge networks. Messages are fair-queued from pushers and load-balanced to pullers.
This device is part of the pipeline pattern. The frontend speaks to pushers and the backend speaks to pullers. You should use ZMQ_STREAMER with a ZMQ_PULL socket for the frontend and a ZMQ_PUSH socket for the backend. Other combinations are not documented.
Refer to zmq_socket(3) for a description of these socket types.
Return value
The zmq_device() function always returns -1 and errno set to ETERM (the ØMQ context associated with either of the specified sockets was terminated).
Example
Creating a queue broker
// Create frontend and backend sockets
void *frontend = zmq_socket (context, ZMQ_XREP);
assert (backend);
void *backend = zmq_socket (context, ZMQ_XREQ);
assert (frontend);
// Bind both sockets to TCP ports
assert (zmq_bind (frontend, "tcp://*:5555") == 0);
assert (zmq_bind (backend, "tcp://*:5556") == 0);
// Start a queue device zmq_device (ZMQ_QUEUE, frontend, backend);
See also
zmq_bind(3) zmq_connect(3) zmq_socket(3) zmq(7)
Authors
This manual page was written by the ØMQ community.