zmq_device(3) ============= NAME ---- zmq_device - start built-in 0MQ device SYNOPSIS -------- *int zmq_device (int 'device', const void '*frontend', const void '*backend');* DESCRIPTION ----------- The _zmq_device()_ function starts a built-in 0MQ 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 linkzmq: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 linkzmq: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 linkzmq: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 0MQ '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 -------- linkzmq:zmq_bind[3] linkzmq:zmq_connect[3] linkzmq:zmq_socket[3] linkzmq:zmq[7] AUTHORS ------- This 0MQ manual page was written by Pieter Hintjens RESOURCES --------- Main web site: Report bugs to the 0MQ development mailing list: COPYING ------- Free use of this software is granted under the terms of the GNU Lesser General Public License (LGPL). For details see the files `COPYING` and `COPYING.LESSER` included with the 0MQ distribution.