= zmq_bind(3) == NAME zmq_bind - accept incoming connections on a socket == SYNOPSIS *int zmq_bind (void '*socket', const char '*endpoint');* == DESCRIPTION The _zmq_bind()_ function binds the 'socket' to a local 'endpoint' and then accepts incoming connections on that endpoint. The 'endpoint' is a string consisting of a 'transport'`://` followed by an 'address'. The 'transport' specifies the underlying protocol to use. The 'address' specifies the transport-specific address to bind to. 0MQ provides the the following transports: 'tcp':: unicast transport using TCP, see xref:zmq_tcp.adoc[zmq_tcp] 'ipc':: local inter-process communication transport, see xref:zmq_ipc.adoc[zmq_ipc] 'inproc':: local in-process (inter-thread) communication transport, see xref:zmq_inproc.adoc[zmq_inproc] 'pgm', 'epgm':: reliable multicast transport using PGM, see xref:zmq_pgm.adoc[zmq_pgm] 'vmci':: virtual machine communications interface (VMCI), see xref:zmq_vmci.adoc[zmq_vmci] 'udp':: unreliable unicast and multicast using UDP, see xref:zmq_udp.adoc[zmq_udp] Every 0MQ socket type except 'ZMQ_PAIR' and 'ZMQ_CHANNEL' supports one-to-many and many-to-one semantics. The precise semantics depend on the socket type and are defined in xref:zmq_socket.adoc[zmq_socket] The 'ipc', 'tcp', 'vmci' and 'udp' transports accept wildcard addresses: see xref:zmq_ipc.adoc[zmq_ipc], xref:zmq_tcp.adoc[zmq_tcp], xref:zmq_vmci.adoc[zmq_vmci] and xref:zmq_udp.adoc[zmq_udp] for details. NOTE: the address syntax may be different for _zmq_bind()_ and _zmq_connect()_ especially for the 'tcp', 'pgm' and 'epgm' transports. NOTE: following a _zmq_bind()_, the socket enters a 'mute' state unless or until at least one incoming or outgoing connection is made, at which point the socket enters a 'ready' state. In the mute state, the socket blocks or drops messages according to the socket type, as defined in xref:zmq_socket.adoc[zmq_socket] By contrast, following a libzmq:zmq_connect, the socket enters the 'ready' state. == RETURN VALUE The _zmq_bind()_ function returns zero if successful. Otherwise it returns `-1` and sets 'errno' to one of the values defined below. == ERRORS *EINVAL*:: The endpoint supplied is invalid. *EPROTONOSUPPORT*:: The requested 'transport' protocol is not supported. *ENOCOMPATPROTO*:: The requested 'transport' protocol is not compatible with the socket type. *EADDRINUSE*:: The requested 'address' is already in use. *EADDRNOTAVAIL*:: The requested 'address' was not local. *ENODEV*:: The requested 'address' specifies a nonexistent interface. *ETERM*:: The 0MQ 'context' associated with the specified 'socket' was terminated. *ENOTSOCK*:: The provided 'socket' was invalid. *EMTHREAD*:: No I/O thread is available to accomplish the task. == EXAMPLE .Binding a publisher socket to an in-process and a TCP transport ---- /* Create a ZMQ_PUB socket */ void *socket = zmq_socket (context, ZMQ_PUB); assert (socket); /* Bind it to a in-process transport with the address 'my_publisher' */ int rc = zmq_bind (socket, "inproc://my_publisher"); assert (rc == 0); /* Bind it to a TCP transport on port 5555 of the 'eth0' interface */ rc = zmq_bind (socket, "tcp://eth0:5555"); assert (rc == 0); ---- == SEE ALSO * xref:zmq_connect.adoc[zmq_connect] * xref:zmq_socket.adoc[zmq_socket] * xref:zmq.adoc[zmq] == AUTHORS This page was written by the 0MQ community. To make a change please read the 0MQ Contribution Policy at .