Generic Binary Build ("Generic UNIX Build")
Overview
RabbitMQ releases include a binary package for Linux, MacOS, and *BSD systems. It is minimalistic and not opinionated in how it is installed, configured and managed. This package is recommended in environments where more opinionated installation options (the Debian or RPM packages, Homebrew, BSD ports) cannot be used. It is also the most convenient option for running multiple versions on the same machine in development environments.
There's a separate binary package for Windows.
Unlike with the cases of Debian, RPM and Windows installer packages,
node management with this package type is performed solely using
RabbitMQ CLI tools or by the operator setting up e.g. a systemd
service manually.
Downloads
Description | Download | Signature |
---|---|---|
Generic UNIX binary build (tar.xz, from GitHub, recommended) | rabbitmq-server-generic-unix-4.0.3.tar.xz | Signature |
Installation
Make Sure Erlang/OTP is Installed
This package requires a supported version of Erlang to be installed in order to run.
Install the Server
Download a rabbitmq-server-generic-unix-4.0.3.tar.xz
archive and extract it.
Contained in the tarball is a directory named rabbitmq_4.0.3
. This directory is the node base directory. It should be
moved to a suitable application directory on the system, such as /usr/local
.
The sbin
directory in that directory contains server and CLI tool scripts.
It is a good candidate for including into PATH
.
Operations
Running and Managing the Node
Unlike some other installation methods, namely the Debian and RPM packages, RabbitMQ
generic UNIX binary build does not require sudo
. It can be uncompressed
into any location and started and managed using the scripts and CLI tools under sbin
.
Default data directory location will be under ./var
,
that is, in the installation directory.
Starting the Server
To start the server, run the sbin/rabbitmq-server
script. This
displays a short banner message, concluding with the message
"completed with [n] plugins.", indicating that the
RabbitMQ broker has been started successfully.
To start the server in "detached" mode, use
rabbitmq-server -detached
. This will run
the node process in the background.
Stopping the Server
To stop a running node, use sbin/rabbitmqctl shutdown
. The command
will wait for the node process to stop. If the target node is not running,
it will exit with an error.
Configuring the Server
RabbitMQ configuration file located at $RABBITMQ_HOME/etc/rabbitmq/rabbitmq.conf
is the primary way of configuring the node.
It is possible to use environment variables to control certain settings.
The recommended way of doing that is using the $RABBITMQ_HOME/etc/rabbitmq/rabbitmq-env.conf
file.
Neither of these files exist after installation, so they must be created first.
See RabbitMQ configuration guide to learn more.
File Locations
The generic binary build is designed to run without granted
permissions to directories outside of its base one. The directories and files used by default are
all held under the installation directory rabbitmq_4.0.3
which is in the $RABBITMQ_HOME
variable in the scripts.
The node can be instructed to use more conventional system directories for configuration, node data directory, log files, plugins and so on. In order to make the node use operating system defaults, locate the following line
PREFIX=${RABBITMQ_HOME}
in the sbin/rabbitmq-defaults
script and
change this line to:
SYS_PREFIX=
but do not modify any other line in this script.
Important: after this modification the default directory locations may point to non-existent directories or directories that the effective node user won't have permissions for.
In particular RABBITMQ_MNESIA_BASE
and
RABBITMQ_LOG_BASE
may need to be created (the server will attempt to create them at startup), and the
enabled plugins file (RABBITMQ_ENABLED_PLUGINS_FILE
) will need
to be writable by rabbitmq-plugins.
The configuration files will be looked for in /etc/rabbitmq/
.
Port Access
RabbitMQ nodes bind to ports (open server TCP sockets) in order to accept client and CLI tool connections. Other processes and tools such as SELinux may prevent RabbitMQ from binding to a port. When that happens, the node will fail to start. Refer to the Networking Guide for more details.
Default User Access
The broker creates a user guest
with password
guest
. Unconfigured clients will in general use these
credentials. By default, these credentials can only be
used when connecting to the broker as localhost so you
will need to take action before connecting from any other machine.
See the documentation on access control for information on how to create more users and delete
the guest
user.
Managing the Node
To stop the server or check its status, etc., you can invoke
sbin/rabbitmqctl
(as the user running
rabbitmq-server
). All rabbitmqctl
commands will report the node absence if no broker is running.
- Invoke
rabbitmqctl stop
orrabbitmqctl shutdown
to stop the server - Invoke
rabbitmq-diagnostics status
to check whether it is running
See CLI tools guide to learn more.
Controlling System Limits on Linux
RabbitMQ installations running production workloads may need system
limits and kernel parameters tuning in order to handle a decent number of
concurrent connections and queues. The main setting that needs adjustment
is the max number of open files, also known as ulimit -n
.
The default value on many operating systems is too low for a messaging
broker (1024
on several Linux distributions). We recommend allowing
for at least 65536 file descriptors for user rabbitmq
in
production environments. 4096 should be sufficient for many development
workloads.
There are two limits in play: the maximum number of open files the OS kernel
allows (fs.file-max
on Linux, kern.maxfilesperproc
on OS X and FreeBSD) and the per-user limit (ulimit -n
).
The former must be higher than the latter.
For more information about controlling the system-wide limit,
please refer to the excellent Riak guide on open file limit tuning.
Verifying the Limit
RabbitMQ management UI displays the number of file descriptors available for it to use on the Overview tab.
rabbitmq-diagnostics status
includes the same value. The following command
ulimit -a
can be used to display effective limits for the current user. There may be more convenient
OS-specific ways of doing that for a running process, such as the /proc
filesystem on Linux.
Configuration Management Tools
Configuration management tools (e.g. Chef, Puppet, BOSH) provide assistance with system limit tuning. Our developer tools guide lists relevant modules and projects.