[![GitHub tag (latest SemVer)](https://img.shields.io/github/v/tag/processone/ejabberd?sort=semver&logo=embarcadero&label=&color=49c0c4)](https://github.com/processone/ejabberd/tags) [![ejabberd Container on GitHub](https://img.shields.io/github/v/tag/processone/ejabberd?label=ejabberd&sort=semver&logo=docker)](https://github.com/processone/ejabberd/pkgs/container/ejabberd) [![ecs Container on Docker](https://img.shields.io/docker/v/ejabberd/ecs?label=ecs&sort=semver&logo=docker)](https://hub.docker.com/r/ejabberd/ecs/) `ejabberd` Container Image ========================== [ejabberd][home] is an open-source, robust, scalable and extensible realtime platform built using [Erlang/OTP][erlang], that includes [XMPP][xmpp] Server, [MQTT][mqtt] Broker and [SIP][sip] Service. [home]: https://ejabberd.im/ [erlang]: https://www.erlang.org/ [xmpp]: https://xmpp.org/ [mqtt]: https://mqtt.org/ [sip]: https://en.wikipedia.org/wiki/Session_Initiation_Protocol This document explains how to use the `ejabberd` container image available in [ghcr.io/processone/ejabberd](https://github.com/processone/ejabberd/pkgs/container/ejabberd), built using the files in `.github/container/`. This image is based in Alpine 3.19, includes Erlang/OTP 26.2 and Elixir 1.16.1. Alternatively, there is also the `ecs` container image available in [docker.io/ejabberd/ecs](https://hub.docker.com/r/ejabberd/ecs/), built using the [docker-ejabberd/ecs](https://github.com/processone/docker-ejabberd/tree/master/ecs) repository. Check the [differences between `ejabberd` and `ecs` images](https://github.com/processone/docker-ejabberd/blob/master/ecs/HUB-README.md#alternative-image-in-github). If you are using a Windows operating system, check the tutorials mentioned in [ejabberd Docs > Docker Image](https://docs.ejabberd.im/admin/install/container/#ejabberd-container-image). Start ejabberd -------------- ### With default configuration Start ejabberd in a new container: ```bash docker run --name ejabberd -d -p 5222:5222 ghcr.io/processone/ejabberd ``` That runs the container as a daemon, using ejabberd default configuration file and XMPP domain "localhost". Stop the running container: ```bash docker stop ejabberd ``` Restart the stopped ejabberd container: ```bash docker restart ejabberd ``` ### Start with Erlang console attached Start ejabberd with an Erlang console attached using the `live` command: ```bash docker run --name ejabberd -it -p 5222:5222 ghcr.io/processone/ejabberd live ``` That uses the default configuration file and XMPP domain "localhost". ### Start with your configuration and database Pass a configuration file as a volume and share the local directory to store database: ```bash mkdir database chown ejabberd database cp ejabberd.yml.example ejabberd.yml docker run --name ejabberd -it \ -v $(pwd)/ejabberd.yml:/opt/ejabberd/conf/ejabberd.yml \ -v $(pwd)/database:/opt/ejabberd/database \ -p 5222:5222 ghcr.io/processone/ejabberd live ``` Notice that ejabberd runs in the container with an account named `ejabberd`, and the volumes you mount must grant proper rights to that account. Next steps ---------- ### Register the administrator account The default ejabberd configuration does not grant admin privileges to any account, you may want to register a new account in ejabberd and grant it admin rights. Register an account using the `ejabberdctl` script: ```bash docker exec -it ejabberd ejabberdctl register admin localhost passw0rd ``` Then edit conf/ejabberd.yml and add the ACL as explained in [ejabberd Docs: Administration Account](https://docs.ejabberd.im/admin/install/next-steps/#administration-account) ### Check ejabberd log files Check the content of the log files inside the container, even if you do not put it on a shared persistent drive: ```bash docker exec -it ejabberd tail -f logs/ejabberd.log ``` ### Inspect the container files The container uses Alpine Linux. Start a shell inside the container: ```bash docker exec -it ejabberd sh ``` ### Open ejabberd debug console Open an interactive debug Erlang console attached to a running ejabberd in a running container: ```bash docker exec -it ejabberd ejabberdctl debug ``` ### CAPTCHA ejabberd includes two example CAPTCHA scripts. If you want to use any of them, first install some additional required libraries: ```bash docker exec --user root ejabberd apk add imagemagick ghostscript-fonts bash ``` Now update your ejabberd configuration file, for example: ```bash docker exec -it ejabberd vi conf/ejabberd.yml ``` and add this option: ```yaml captcha_cmd: /opt/ejabberd-22.04/lib/captcha.sh ``` Finally, reload the configuration file or restart the container: ```bash docker exec ejabberd ejabberdctl reload_config ``` If the CAPTCHA image is not visible, there may be a problem generating it (the ejabberd log file may show some error message); or the image URL may not be correctly detected by ejabberd, in that case you can set the correct URL manually, for example: ```yaml captcha_url: https://localhost:5443/captcha ``` For more details about CAPTCHA options, please check the [CAPTCHA](https://docs.ejabberd.im/admin/configuration/basic/#captcha) documentation section. Advanced Container Configuration -------------------------------- ### Ports This container image exposes the ports: - `5222`: The default port for XMPP clients. - `5269`: For XMPP federation. Only needed if you want to communicate with users on other servers. - `5280`: For admin interface. - `5443`: With encryption, used for admin interface, API, CAPTCHA, OAuth, Websockets and XMPP BOSH. - `1883`: Used for MQTT - `4369-4399`: EPMD and Erlang connectivity, used for `ejabberdctl` and clustering - `5210`: Erlang connectivity when `ERL_DIST_PORT` is set, alternative to EPMD ### Volumes ejabberd produces two types of data: log files and database spool files (Mnesia). This is the kind of data you probably want to store on a persistent or local drive (at least the database). The volumes you may want to map: - `/opt/ejabberd/conf/`: Directory containing configuration and certificates - `/opt/ejabberd/database/`: Directory containing Mnesia database. You should back up or export the content of the directory to persistent storage (host storage, local storage, any storage plugin) - `/opt/ejabberd/logs/`: Directory containing log files - `/opt/ejabberd/upload/`: Directory containing uploaded files. This should also be backed up. All these files are owned by `ejabberd` user inside the container. It's possible to install additional ejabberd modules using volumes, [this comment](https://github.com/processone/docker-ejabberd/issues/81#issuecomment-1036115146) explains how to install an additional module using docker-compose. ### Commands on start The ejabberdctl script reads the `CTL_ON_CREATE` environment variable the first time the container is started, and reads `CTL_ON_START` every time the container is started. Those variables can contain one ejabberdctl command, or several commands separated with the blankspace and `;` characters. By default failure of any of commands executed that way would abort start, this can be disabled by prefixing commands with `!` Example usage (or check the [full example](#customized-example)): ```yaml environment: - CTL_ON_CREATE=! register admin localhost asd - CTL_ON_START=stats registeredusers ; check_password admin localhost asd ; status ``` ### Clustering When setting several containers to form a [cluster of ejabberd nodes](https://docs.ejabberd.im/admin/guide/clustering/), each one must have a different [Erlang Node Name](https://docs.ejabberd.im/admin/guide/security/#erlang-node-name) and the same [Erlang Cookie](https://docs.ejabberd.im/admin/guide/security/#erlang-cookie). For this you can either: - edit `conf/ejabberdctl.cfg` and set variables `ERLANG_NODE` and `ERLANG_COOKIE` - set the environment variables `ERLANG_NODE_ARG` and `ERLANG_COOKIE` Example to connect a local `ejabberdctl` to a containerized ejabberd: 1. When creating the container, export port 5210, and set `ERLANG_COOKIE`: ```sh docker run --name ejabberd -it \ -e ERLANG_COOKIE=`cat $HOME/.erlang.cookie` \ -p 5210:5210 -p 5222:5222 \ ghcr.io/processone/ejabberd ``` 2. Set `ERL_DIST_PORT=5210` in ejabberdctl.cfg of container and local ejabberd 3. Restart the container 4. Now use `ejabberdctl` in your local ejabberd deployment To connect using a local `ejabberd` script: ```sh ERL_DIST_PORT=5210 _build/dev/rel/ejabberd/bin/ejabberd ping ``` Example using environment variables (see full example [docker-compose.yml](https://github.com/processone/docker-ejabberd/issues/64#issuecomment-887741332)): ```yaml environment: - ERLANG_NODE_ARG=ejabberd@node7 - ERLANG_COOKIE=dummycookie123 ``` Build a Container Image ----------------------- This container image includes ejabberd as a standalone OTP release built using Elixir. That OTP release is configured with: - `mix.exs`: Customize ejabberd release - `vars.config`: ejabberd compilation configuration options - `config/runtime.exs`: Customize ejabberd paths - `ejabberd.yml.template`: ejabberd default config file ### Direct build Build ejabberd Community Server container image from ejabberd master git repository: ```bash docker buildx build \ -t personal/ejabberd \ -f .github/container/Dockerfile \ . ``` ### Podman build It's also possible to use podman instead of docker, just notice: - `EXPOSE 4369-4399` port range is not supported, remove that in Dockerfile - It mentions that `healthcheck` is not supported by the Open Container Initiative image format - to start with command `live`, you may want to add environment variable `EJABBERD_BYPASS_WARNINGS=true` ```bash podman build \ -t ejabberd \ -f .github/container/Dockerfile \ . podman run --name eja1 -d -p 5222:5222 localhost/ejabberd podman exec eja1 ejabberdctl status podman exec -it eja1 sh podman stop eja1 podman run --name eja1 -it -e EJABBERD_BYPASS_WARNINGS=true -p 5222:5222 localhost/ejabberd live ``` ### Package build for `arm64` By default, `.github/container/Dockerfile` builds this container by directly compiling ejabberd, it is a fast and direct method. However, a problem with QEMU prevents building the container in QEMU using Erlang/OTP 25 for the `arm64` architecture. Providing `--build-arg METHOD=package` is an alternate method to build the container used by the Github Actions workflow that provides `amd64` and `arm64` container images. It first builds an ejabberd binary package, and later installs it in the image. That method avoids using QEMU, so it can build `arm64` container images, but is extremely slow the first time it's used, and consequently not recommended for general use. In this case, to build the ejabberd container image for arm64 architecture: ```bash docker buildx build \ --build-arg METHOD=package \ --platform linux/arm64 \ -t personal/ejabberd:$VERSION \ -f .github/container/Dockerfile \ . ``` Composer Examples ----------------- ### Minimal Example This is the barely minimal file to get a usable ejabberd. Store it as `docker-compose.yml`: ```yaml services: main: image: ghcr.io/processone/ejabberd container_name: ejabberd ports: - "5222:5222" - "5269:5269" - "5280:5280" - "5443:5443" ``` Create and start the container with the command: ```bash docker-compose up ``` ### Customized Example This example shows the usage of several customizations: it uses a local configuration file, stores the mnesia database in a local path, registers an account when it's created, and checks the number of registered accounts every time it's started. Download or copy the ejabberd configuration file: ```bash wget https://raw.githubusercontent.com/processone/ejabberd/master/ejabberd.yml.example mv ejabberd.yml.example ejabberd.yml ``` Create the database directory and allow the container access to it: ```bash mkdir database sudo chown 9000:9000 database ``` Now write this `docker-compose.yml` file: ```yaml version: '3.7' services: main: image: ghcr.io/processone/ejabberd container_name: ejabberd environment: - CTL_ON_CREATE=register admin localhost asd - CTL_ON_START=registered_users localhost ; status ports: - "5222:5222" - "5269:5269" - "5280:5280" - "5443:5443" volumes: - ./ejabberd.yml:/opt/ejabberd/conf/ejabberd.yml:ro - ./database:/opt/ejabberd/database ``` ### Clustering Example In this example, the main container is created first. Once it is fully started and healthy, a second container is created, and once ejabberd is started in it, it joins the first one. An account is registered in the first node when created (and we ignore errors that can happen when doing that - for example whenn account already exists), and it should exist in the second node after join. Notice that in this example the main container does not have access to the exterior; the replica exports the ports and can be accessed. ```yaml version: '3.7' services: main: image: ghcr.io/processone/ejabberd container_name: ejabberd environment: - ERLANG_NODE_ARG=ejabberd@main - ERLANG_COOKIE=dummycookie123 - CTL_ON_CREATE=! register admin localhost asd replica: image: ghcr.io/processone/ejabberd container_name: replica depends_on: main: condition: service_healthy ports: - "5222:5222" - "5269:5269" - "5280:5280" - "5443:5443" environment: - ERLANG_NODE_ARG=ejabberd@replica - ERLANG_COOKIE=dummycookie123 - CTL_ON_CREATE=join_cluster ejabberd@main - CTL_ON_START=registered_users localhost ; status ```