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# Supported tags and respective `Dockerfile` links

-	[`3.6.14`, `3.6`, `3`, `latest` (*3.6/debian/Dockerfile*)](https://github.com/docker-library/rabbitmq/blob/28001b529f28ed0d8e8297f8b603a4cc93a846a3/3.6/debian/Dockerfile)
-	[`3.6.14-management`, `3.6-management`, `3-management`, `management` (*3.6/debian/management/Dockerfile*)](https://github.com/docker-library/rabbitmq/blob/79277042564875d55e4b05a60c65b6eb46651a94/3.6/debian/management/Dockerfile)
-	[`3.6.14-alpine`, `3.6-alpine`, `3-alpine`, `alpine` (*3.6/alpine/Dockerfile*)](https://github.com/docker-library/rabbitmq/blob/2558d958a0ab9c38f58ad616e387063b33bb229c/3.6/alpine/Dockerfile)
-	[`3.6.14-management-alpine`, `3.6-management-alpine`, `3-management-alpine`, `management-alpine` (*3.6/alpine/management/Dockerfile*)](https://github.com/docker-library/rabbitmq/blob/79277042564875d55e4b05a60c65b6eb46651a94/3.6/alpine/management/Dockerfile)

# Quick reference

-	**Where to get help**:  
	[the Docker Community Forums](https://forums.docker.com/), [the Docker Community Slack](https://blog.docker.com/2016/11/introducing-docker-community-directory-docker-community-slack/), or [Stack Overflow](https://stackoverflow.com/search?tab=newest&q=docker)

-	**Where to file issues**:  
	[https://github.com/docker-library/rabbitmq/issues](https://github.com/docker-library/rabbitmq/issues)

-	**Maintained by**:  
	[the Docker Community](https://github.com/docker-library/rabbitmq)

-	**Supported architectures**: ([more info](https://github.com/docker-library/official-images#architectures-other-than-amd64))  
	[`amd64`](https://hub.docker.com/r/amd64/rabbitmq/), [`arm32v5`](https://hub.docker.com/r/arm32v5/rabbitmq/), [`arm32v6`](https://hub.docker.com/r/arm32v6/rabbitmq/), [`arm32v7`](https://hub.docker.com/r/arm32v7/rabbitmq/), [`arm64v8`](https://hub.docker.com/r/arm64v8/rabbitmq/), [`i386`](https://hub.docker.com/r/i386/rabbitmq/), [`ppc64le`](https://hub.docker.com/r/ppc64le/rabbitmq/), [`s390x`](https://hub.docker.com/r/s390x/rabbitmq/)

-	**Published image artifact details**:  
	[repo-info repo's `repos/rabbitmq/` directory](https://github.com/docker-library/repo-info/blob/master/repos/rabbitmq) ([history](https://github.com/docker-library/repo-info/commits/master/repos/rabbitmq))  
	(image metadata, transfer size, etc)

-	**Image updates**:  
	[official-images PRs with label `library/rabbitmq`](https://github.com/docker-library/official-images/pulls?q=label%3Alibrary%2Frabbitmq)  
	[official-images repo's `library/rabbitmq` file](https://github.com/docker-library/official-images/blob/master/library/rabbitmq) ([history](https://github.com/docker-library/official-images/commits/master/library/rabbitmq))

-	**Source of this description**:  
	[docs repo's `rabbitmq/` directory](https://github.com/docker-library/docs/tree/master/rabbitmq) ([history](https://github.com/docker-library/docs/commits/master/rabbitmq))

-	**Supported Docker versions**:  
	[the latest release](https://github.com/docker/docker-ce/releases/latest) (down to 1.6 on a best-effort basis)

# What is RabbitMQ?

RabbitMQ is open source message broker software (sometimes called message-oriented middleware) that implements the Advanced Message Queuing Protocol (AMQP). The RabbitMQ server is written in the Erlang programming language and is built on the Open Telecom Platform framework for clustering and failover. Client libraries to interface with the broker are available for all major programming languages.

> [wikipedia.org/wiki/RabbitMQ](https://en.wikipedia.org/wiki/RabbitMQ)

![logo](https://raw.githubusercontent.com/docker-library/docs/81187b7b50f5af5bdb64d75882f4d9c782ad52c3/rabbitmq/logo.png)

# How to use this image

## Running the daemon

One of the important things to note about RabbitMQ is that it stores data based on what it calls the "Node Name", which defaults to the hostname. What this means for usage in Docker is that we should specify `-h`/`--hostname` explicitly for each daemon so that we don't get a random hostname and can keep track of our data:

```console
$ docker run -d --hostname my-rabbit --name some-rabbit rabbitmq:3
```

If you give that a minute, then do `docker logs some-rabbit`, you'll see in the output a block similar to:

	=INFO REPORT==== 6-Jul-2015::20:47:02 ===
	node           : rabbit@my-rabbit
	home dir       : /var/lib/rabbitmq
	config file(s) : /etc/rabbitmq/rabbitmq.config
	cookie hash    : UoNOcDhfxW9uoZ92wh6BjA==
	log            : tty
	sasl log       : tty
	database dir   : /var/lib/rabbitmq/mnesia/rabbit@my-rabbit

Note the `database dir` there, especially that it has my "Node Name" appended to the end for the file storage. This image makes all of `/var/lib/rabbitmq` a volume by default.

### Memory Limits

RabbitMQ contains functionality which explicitly tracks and manages memory usage, and thus needs to be made aware of cgroup-imposed limits.

The upstream configuration setting for this is `vm_memory_high_watermark`, and it is described under ["Memory Alarms"](https://www.rabbitmq.com/memory.html) in the documentation.

In this image, this value is set via `RABBITMQ_VM_MEMORY_HIGH_WATERMARK`. The value of this environment variable is interpreted as follows:

-	`0.49` is treated as `49%`, just like upstream (`{ vm_memory_high_watermark, 0.49 }`)
-	`56%` is treated as `56%` (`0.56`; `{ vm_memory_high_watermark, 0.56 }`)
-	`1073741824` is treated as an absolute number of bytes (`{ vm_memory_high_watermark, { absolute, 1073741824 } }`)
-	`1024MiB` is treated as an absolute number of bytes with a unit (`{ vm_memory_high_watermark, { absolute, "1024MiB" } }`)

The main behavioral difference is in how percentages are handled. If the current container has a memory limit (`--memory`/`-m`), a percentage value will be calculated to an absolute byte value based on the memory limit, rather than being passed to RabbitMQ as-is. For example, a container run with `--memory 2048m` (and the implied upstream-default `RABBITMQ_VM_MEMORY_HIGH_WATERMARK` of `40%`) will set the effective limit to `819MB` (which is `40%` of `2048MB`).

### Erlang Cookie

See the [RabbitMQ "Clustering Guide"](https://www.rabbitmq.com/clustering.html#erlang-cookie) for more information about cookies and why they're necessary.

For setting a consistent cookie (especially useful for clustering but also for remote/cross-container administration via `rabbitmqctl`), use `RABBITMQ_ERLANG_COOKIE`:

```console
$ docker run -d --hostname my-rabbit --name some-rabbit -e RABBITMQ_ERLANG_COOKIE='secret cookie here' rabbitmq:3
```

This can then be used from a separate instance to connect:

```console
$ docker run -it --rm --link some-rabbit:my-rabbit -e RABBITMQ_ERLANG_COOKIE='secret cookie here' rabbitmq:3 bash
root@f2a2d3d27c75:/# rabbitmqctl -n rabbit@my-rabbit list_users
Listing users ...
guest   [administrator]
```

Alternatively, one can also use `RABBITMQ_NODENAME` to make repeated `rabbitmqctl` invocations simpler:

```console
$ docker run -it --rm --link some-rabbit:my-rabbit -e RABBITMQ_ERLANG_COOKIE='secret cookie here' -e RABBITMQ_NODENAME=rabbit@my-rabbit rabbitmq:3 bash
root@f2a2d3d27c75:/# rabbitmqctl list_users
Listing users ...
guest   [administrator]
```

### Management Plugin

There is a second set of tags provided with the [management plugin](https://www.rabbitmq.com/management.html) installed and enabled by default, which is available on the standard management port of 15672, with the default username and password of `guest` / `guest`:

```console
$ docker run -d --hostname my-rabbit --name some-rabbit rabbitmq:3-management
```

You can access it by visiting `http://container-ip:15672` in a browser or, if you need access outside the host, on port 8080:

```console
$ docker run -d --hostname my-rabbit --name some-rabbit -p 8080:15672 rabbitmq:3-management
```

You can then go to `http://localhost:8080` or `http://host-ip:8080` in a browser.

### Setting default user and password

If you wish to change the default username and password of `guest` / `guest`, you can do so with the `RABBITMQ_DEFAULT_USER` and `RABBITMQ_DEFAULT_PASS` environmental variables:

```console
$ docker run -d --hostname my-rabbit --name some-rabbit -e RABBITMQ_DEFAULT_USER=user -e RABBITMQ_DEFAULT_PASS=password rabbitmq:3-management
```

You can then go to `http://localhost:8080` or `http://host-ip:8080` in a browser and use `user`/`password` to gain access to the management console

### Setting default vhost

If you wish to change the default vhost, you can do so with the `RABBITMQ_DEFAULT_VHOST` environmental variables:

```console
$ docker run -d --hostname my-rabbit --name some-rabbit -e RABBITMQ_DEFAULT_VHOST=my_vhost rabbitmq:3-management
```

### Enabling HiPE

**Warning:** if you're using the Alpine variant, there is currently [an outstanding bug (Alpine Linux bug #5700) with the `erlang-hipe` package](https://bugs.alpinelinux.org/issues/5700) which prevents HiPE from working in Alpine Linux. See [docker-library/rabbitmq#151](https://github.com/docker-library/rabbitmq/issues/151) for more discussion.

See the [RabbitMQ "Configuration"](http://www.rabbitmq.com/configure.html#config-items) for more information about various configuration options.

For enabling the HiPE compiler on startup use `RABBITMQ_HIPE_COMPILE` set to `1`. Accroding to the official documentation:

> Set to true to precompile parts of RabbitMQ with HiPE, a just-in-time compiler for Erlang. This will increase server throughput at the cost of increased startup time. You might see 20-50% better performance at the cost of a few minutes delay at startup.

It is therefore important to take that startup delay into consideration when configuring health checks, automated clustering etc.

### Additional Configuration

If additional configuration is required, it is recommended to use the `RABBITMQ_SERVER_ADDITIONAL_ERL_ARGS` environment variable, whose syntax is described [in section 7.8 ("Configuring an Application") of the Erlang OTP Design Principles User's Guide](http://erlang.org/doc/design_principles/applications.html#id81887) (the appropriate value for `-ApplName` is `-rabbit`).

For example, configuring [`log_levels`](https://www.rabbitmq.com/configure.html#config-items) would look something like `-e RABBITMQ_SERVER_ADDITIONAL_ERL_ARGS="-rabbit log_levels [{connection,error}]"`.

Additional configuration keys would be specified as a list. For example, configuring both [`log_levels`](https://www.rabbitmq.com/configure.html#config-items) and [`auth_backends`](https://www.rabbitmq.com/ldap.html#overview) would look something like `-e RABBITMQ_SERVER_ADDITIONAL_ERL_ARGS="-rabbit log_levels [{connection,error}] auth_backends [rabbit_auth_backend_ldap]"`.

## Connecting to the daemon

```console
$ docker run --name some-app --link some-rabbit:rabbit -d application-that-uses-rabbitmq
```

# Image Variants

The `rabbitmq` images come in many flavors, each designed for a specific use case.

## `rabbitmq:<version>`

This is the defacto image. If you are unsure about what your needs are, you probably want to use this one. It is designed to be used both as a throw away container (mount your source code and start the container to start your app), as well as the base to build other images off of.

## `rabbitmq:alpine`

This image is based on the popular [Alpine Linux project](http://alpinelinux.org), available in [the `alpine` official image](https://hub.docker.com/_/alpine). Alpine Linux is much smaller than most distribution base images (~5MB), and thus leads to much slimmer images in general.

This variant is highly recommended when final image size being as small as possible is desired. The main caveat to note is that it does use [musl libc](http://www.musl-libc.org) instead of [glibc and friends](http://www.etalabs.net/compare_libcs.html), so certain software might run into issues depending on the depth of their libc requirements. However, most software doesn't have an issue with this, so this variant is usually a very safe choice. See [this Hacker News comment thread](https://news.ycombinator.com/item?id=10782897) for more discussion of the issues that might arise and some pro/con comparisons of using Alpine-based images.

To minimize image size, it's uncommon for additional related tools (such as `git` or `bash`) to be included in Alpine-based images. Using this image as a base, add the things you need in your own Dockerfile (see the [`alpine` image description](https://hub.docker.com/_/alpine/) for examples of how to install packages if you are unfamiliar).

# License

View [license information](https://www.rabbitmq.com/mpl.html) for the software contained in this image.

As with all Docker images, these likely also contain other software which may be under other licenses (such as Bash, etc from the base distribution, along with any direct or indirect dependencies of the primary software being contained).

Some additional license information which was able to be auto-detected might be found in [the `repo-info` repository's `rabbitmq/` directory](https://github.com/docker-library/repo-info/tree/master/repos/rabbitmq).

As for any pre-built image usage, it is the image user's responsibility to ensure that any use of this image complies with any relevant licenses for all software contained within.