nanomsg next generation NNG  
Home GitHub Documentation

This documentation is for version v1.0.0 of nng, but the latest released version is v1.8.0. see the documentation for v1.8.0 for the most up-to-date information.
nng_rep(7)

SYNOPSIS

#include <nng/protocol/reqrep0/rep.h>

DESCRIPTION

The rep protocol is one half of a request/reply pattern. In this pattern, a requester sends a message to one replier, who is expected to reply. The request is resent if no reply arrives, until a reply is received or the request times out.

This protocol is useful in setting up RPC-like services. It is also “reliable”, in that a the requester will keep retrying until a reply is received.

The rep protocol is the replier side, and the req protocol is the requester side.

Socket Operations

The nng_rep0_open() functions create a replier socket. This socket may be used to receive messages (requests), and then to send replies.

Generally a reply can only be sent after receiving a request.

Send operations will result in NNG_ESTATE if no corresponding request was previously received.

Likewise, only one receive operation may be pending at a time. Any additional concurrent receive operations will result in NNG_ESTATE.

Raw mode sockets ignore all these restrictions.

Context Operations

This protocol supports the creation of contexts for concurrent use cases using nng_ctx_open().

Each context may have at most one outstanding request, and operates independently from the others. The restrictions for order of operations with sockets apply equally well for contexts, except that each context will be treated as if it were a separate socket.

Protocol Versions

Only version 0 of this protocol is supported. (At the time of writing, no other versions of this protocol have been defined.)

Protocol Options

The rep protocol has no protocol-specific options.

Protocol Headers

The rep protocol uses a backtrace in the header. This is more fully documented in the req manual.

NNG Reference Manual vv1.0.0 © 2019 Staysail Systems, Inc, © 2018 Capitar IT Group BV
This document is supplied under the MIT License.
nanomsg™ and nng™ are trademarks of Garrett D'Amore.