# RabbitMQ C AMQP client library
[](http://travis-ci.org/alanxz/rabbitmq-c)
## Introduction
This is a C-language AMQP client library for use with AMQP servers
speaking protocol versions 0-9-1.
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Announcements regarding the library are periodically made on the
RabbitMQ mailing list and on the RabbitMQ blog.
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## Retrieving the code
In addition to the source code for this library, you will require a
copy of `rabbitmq-codegen`, which resides in the `codegen` directory
as a git submodule. To update the submodule(s):
git clone git://github.com/alanxz/rabbitmq-c.git
cd rabbitmq-c
git submodule init
git submodule update
You will also need a recent python with the simplejson module
installed, and the GNU autotools (autoconf, automake, libtool etc.),
or as an alternative CMake.
## Building the code
### Using autoconf
Once you have all the prerequisites, change to the `rabbitmq-c`
directory and run
autoreconf -i
to run the GNU autotools and generate the configure script, followed
by
./configure
make
to build the `librabbitmq` library and the example programs.
### Using cmake
You will need CMake (v2.6 or better): http://cmake.org/
You will need a working python install (2.6+) with the json or simplejson
modules installed.
You will need to do the git submodule init/update as above.
Alternatively you can clone the rabbitmq-codegen repository and point
cmake to it using the RABBITMQ_CODEGEN_DIR cmake variable
Create a binary directory in a sibling directory from the directory
you cloned the rabbitmq-c repository
mkdir bin-rabbitmq-c
Run CMake in the binary directory
cmake /path/to/source/directory
Build it:
* On linux: `make`
* On win32: `nmake` or `msbuild`, or open it in visual studio and
build from there
Things you can pass to cmake to change the build:
* `-DRABBITMQ_CODEGEN_DIR=/path/to/rabbitmq-codegen/checkout` - if you
have your codegen directory in a different place [Default is
sibiling directory to source]
* `-DBUILD_TOOLS=OFF` build the programs in the tools directory
[Default is ON if the POPT library can be found]
Other interesting flags to pass to CMake (see cmake docs for more info)
* `-DCMAKE_BUILD_TYPE` - specify the type of build (Debug or Release)
* `-DCMAKE_INSTALL_PREFIX` - specify where the install target puts files
## Running the examples
Arrange for a RabbitMQ or other AMQP server to be running on
`localhost` at TCP port number 5672.
In one terminal, run
./examples/amqp_listen localhost 5672 amq.direct test
In another terminal,
./examples/amqp_sendstring localhost 5672 amq.direct test "hello world"
You should see output similar to the following in the listener's
terminal window:
Result 1
Frame type 1, channel 1
Method AMQP_BASIC_DELIVER_METHOD
Delivery 1, exchange amq.direct routingkey test
Content-type: text/plain
----
00000000: 68 65 6C 6C 6F 20 77 6F : 72 6C 64 hello world
0000000B:
## Writing applications using `librabbitmq`
Please see the `examples` directory for short examples of the use of
the `librabbitmq` library.
### Threading
You cannot share a socket, an `amqp_connection_state_t`, or a channel
between threads using `librabbitmq`. The `librabbitmq` library is
built with event-driven, single-threaded applications in mind, and
does not yet cater to any of the requirements of `pthread`ed
applications.
Your applications instead should open an AMQP connection (and an
associated socket, of course) per thread. If your program needs to
access an AMQP connection or any of its channels from more than one
thread, it is entirely responsible for designing and implementing an
appropriate locking scheme. It will generally be much simpler to have
a connection exclusive to each thread that needs AMQP service.