cppzmq is a C++ binding for libzmq. It has the following design goals:
- cppzmq maps the libzmq C API to C++ concepts. In particular:
- it is type-safe (the libzmq C API exposes various class-like concepts as void*)
- it provides exception-based error handling (the libzmq C API provides errno-based error handling)
- it provides RAII-style classes that automate resource management (the libzmq C API requires the user to take care to free resources explicitly)
- cppzmq is a light-weight, header-only binding. You only need to include the header file zmq.hpp (and maybe zmq_addon.hpp) to use it.
- zmq.hpp is meant to contain direct mappings of the abstractions provided by the libzmq C API, while zmq_addon.hpp provides additional higher-level abstractions.
There are other C++ bindings for ZeroMQ with different design goals. In particular, none of the following bindings are header-only:
- zmqpp is a high-level binding to libzmq.
- czmqpp is a binding based on the high-level czmq API.
- fbzmq is a binding that integrates with Apache Thrift and provides higher-level abstractions in addition. It requires C++14.
- Only a subset of the platforms that are supported by libzmq itself are supported. Some features already require a compiler supporting C++11. In the future, probably all features will require C++11. To build and run the tests, CMake and Catch are required.
- Any libzmq 4.x version is expected to work. DRAFT features may only work for the most recent tested version. Currently explicitly tested libzmq versions are
- 4.2.0 (without DRAFT API)
- 4.3.4 (with and without DRAFT API)
- Platforms with full support (i.e. CI executing build and tests)
- Ubuntu 18.04 x64 (with gcc 4.8.5, 5.5.0, 7.5.0)
- Ubuntu 20.04 x64 (with gcc 9.3.0, 10.3.0 and clang 12)
- Visual Studio 2017 x64
- Visual Studio 2019 x64
- macOS 10.15 (with clang 12, without DRAFT API)
- Additional platforms that are known to work:
- We have no current reports on additional platforms that are known to work yet. Please add your platform here. If CI can be provided for them with a cloud-based CI service working with GitHub, you are invited to add CI, and make it possible to be included in the list above.
- Additional platforms that probably work:
- Any platform supported by libzmq that provides a sufficiently recent gcc (4.8.1 or newer) or clang (3.4.1 or newer)
- Visual Studio 2012+ x86/x64
These examples require at least C++11.
#include <zmq.hpp>
int main()
{
zmq::context_t ctx;
zmq::socket_t sock(ctx, zmq::socket_type::push);
sock.bind("inproc://test");
sock.send(zmq::str_buffer("Hello, world"), zmq::send_flags::dontwait);
}
This a more complex example where we send and receive multi-part messages over TCP with a wildcard port.
#include <iostream>
#include <zmq_addon.hpp>
int main()
{
zmq::context_t ctx;
zmq::socket_t sock1(ctx, zmq::socket_type::push);
zmq::socket_t sock2(ctx, zmq::socket_type::pull);
sock1.bind("tcp://127.0.0.1:*");
const std::string last_endpoint =
sock1.get(zmq::sockopt::last_endpoint);
std::cout << "Connecting to "
<< last_endpoint << std::endl;
sock2.connect(last_endpoint);
std::array<zmq::const_buffer, 2> send_msgs = {
zmq::str_buffer("foo"),
zmq::str_buffer("bar!")
};
if (!zmq::send_multipart(sock1, send_msgs))
return 1;
std::vector<zmq::message_t> recv_msgs;
const auto ret = zmq::recv_multipart(
sock2, std::back_inserter(recv_msgs));
if (!ret)
return 1;
std::cout << "Got " << *ret
<< " messages" << std::endl;
return 0;
}
See the examples
directory for more examples. When the project is compiled with tests enabled, each example gets compiled to an executable.
For an extensive overview of the zmq.hpp
API in use, see this Tour of CPPZMQ by @brettviren.
Bindings for libzmq in zmq.hpp
:
Types:
- class
zmq::context_t
- enum
zmq::ctxopt
- class
zmq::socket_t
- class
zmq::socket_ref
- enum
zmq::socket_type
- enum
zmq::sockopt
- enum
zmq::send_flags
- enum
zmq::recv_flags
- class
zmq::message_t
- class
zmq::const_buffer
- class
zmq::mutable_buffer
- struct
zmq::recv_buffer_size
- alias
zmq::send_result_t
- alias
zmq::recv_result_t
- alias
zmq::recv_buffer_result_t
- class
zmq::error_t
- class
zmq::monitor_t
- struct
zmq_event_t
, - alias
zmq::free_fn
, - alias
zmq::pollitem_t
, - alias
zmq::fd_t
- class
zmq::poller_t
DRAFT - enum
zmq::event_flags
DRAFT - enum
zmq::poller_event
DRAFT
Functions:
zmq::version
zmq::poll
zmq::proxy
zmq::proxy_steerable
zmq::buffer
zmq::str_buffer
Extra high-level types and functions zmq_addon.hpp
:
Types:
- class
zmq::multipart_t
- class
zmq::active_poller_t
DRAFT
Functions:
zmq::recv_multipart
zmq::send_multipart
zmq::send_multipart_n
zmq::encode
zmq::decode
The users of cppzmq are expected to follow the guidelines below to ensure not to break when upgrading cppzmq to newer versions (non-exhaustive list):
- Do not depend on any macros defined in cppzmq unless explicitly declared public here.
The following macros may be used by consumers of cppzmq: CPPZMQ_VERSION
, CPPZMQ_VERSION_MAJOR
, CPPZMQ_VERSION_MINOR
, CPPZMQ_VERSION_PATCH
.
The contribution policy is at: http://rfc.zeromq.org/spec:22
Build steps:
-
Build libzmq via cmake. This does an out of source build and installs the build files
- download and unzip the lib, cd to directory
- mkdir build
- cd build
- cmake ..
- sudo make -j4 install
-
Build cppzmq via cmake. This does an out of source build and installs the build files
- download and unzip the lib, cd to directory
- mkdir build
- cd build
- cmake ..
- sudo make -j4 install
Using this:
A cmake find package scripts is provided for you to easily include this library. Add these lines in your CMakeLists.txt to include the headers and library files of cpp zmq (which will also include libzmq for you).
#find cppzmq wrapper, installed by make of cppzmq
find_package(cppzmq)
target_link_libraries(*Your Project Name* cppzmq)