mirror of
https://memleak.eu/sn0w/pleroma-docker.git
synced 2024-12-22 07:48:55 -05:00
custom.d | ||
.dockerignore | ||
.env.dist | ||
.gitignore | ||
docker-compose.m4 | ||
docker-config.exs | ||
Dockerfile | ||
entrypoint.sh | ||
initdb.sql | ||
pleroma | ||
README.adoc |
:toc: macro :toc-title: :toclevels: 4 [discrete] = Pleroma-Docker (Unofficial) https://pleroma.social/[Pleroma] is a selfhosted social network that uses OStatus/ActivityPub. This repository dockerizes it for easier deployment. [source,cpp] ---- #include <public_domain.h> #include <std_disclaimer.h> /* * This repository comes with ABSOLUTELY NO WARRANTY * * I am not responsible for burning servers, angry users, fedi drama, * thermonuclear war, or you getting fired because your boss saw your * NSFW posts. Please do some research if you have any concerns about included * features or the software used by this script before using it. * You are choosing to use this setup, and if you point the finger at me for * messing up your instance, I will laugh at you. */ ---- [discrete] == Features * 100% generic * Everything is customizable * Zero special host dependencies * Configuration is not compile-time * "It just works" [discrete] == Alternatives If this setup is a bit overwhelming there are a lot of other great dockerfiles or guides from the community. A few are linked below. This list is not exhaustive and not ordered. * https://github.com/Angristan/dockerfiles/tree/master/pleroma[Angristan/dockerfiles/pleroma] * https://github.com/RX14/kurisu.rx14.co.uk/blob/master/services/iscute.moe/pleroma/Dockerfile[RX14/iscute.moe] * https://git.pleroma.social/rysiek/docker-pleroma[rysiek/docker-pleroma] [discrete] == The Guide This section is intended to give you a "short" intro to pleroma-docker. + Not all commands are explained here. + Always take a look at `./pleroma help`. If you don't fully know how to use https://www.docker.com/[docker] or https://github.com/docker/compose[docker-compose] yet that shouldn't be a huge issue - but you should still bookmark their https://docs.docker.com/[official docs] in case you get lost. Remember that you can always run `./pleroma dump` to view the generated docker-compose config, and `DEBUG=1 ./pleroma [command]` to view commands as they are executed. [discrete] === Table Of Contents toc::[] === Installation * Clone this repository * Copy `.env.dist` to `.env` * Edit `.env` (see "Configuring Pleroma" section below) * Run `./pleroma build` and `./pleroma start` * Profit! === Configuration This project https://glitch.sh/sn0w/pleroma-docker/blob/master/docker-config.exs[injects code] into pleroma that moves it’s configuration into the environment (ref https://12factor.net/["The Twelve-Factor App"]). The built image is 100% reusable and can be shared/replicated across multiple hosts. To do that just run `./pleroma build` as usual and then tag your image to whatever you want. Just make sure to start the replicated container with `env_file:` or all required `-e` pairs. TL;DR: Modify `.env` or provide environment variables yourself. === Updating Just run `./pleroma build` again and `./pleroma start` afterwards. You don’t need to shutdown pleroma while compiling the new release. Every time you run `./pleroma build` the script will fetch all upstream changes and checkout `PLEROMA_VERSION`. This means that setting `PLEROMA_VERSION` to a branch enables rolling-release updates while setting it to a tag or commit-hash pins the version. Code-injection and `custom.d` modifications are processed *after* this step, so don't worry about merge conflicts. They won't happen unless lain decides to rewrite pleroma's commit history. === Maintenance Pleroma maintenance is usually done with premade mix tasks. You can run these tasks using `./pleroma mix [task] [arguments...]`. If you need to fix some bigger issues you can also spawn a shell using `./pleroma enter`. === Customizations Prepending `custom.d/` to pleroma’s customization guides should work all the time. + Check them out in the https://git.pleroma.social/pleroma/pleroma/wikis/home[official pleroma wiki]. For example: A custom thumbnail now goes into + `custom.d/priv/static/instance/thumbnail.jpeg` + instead of + `priv/static/instance/thumbnail.jpeg`. If creating the folder structure is too tedious you can also use `./pleroma mod`. This command accepts a regex and then searches the pleroma repository for a matching file. After that you get a dialog with the closest matches, and the selected file will be added to `custom.d`. For example: To modify `lib/pleroma/web/mastodon_api/views/list_view.ex` call `./pleroma mod 'masto.*list'`. === Debugging Yes you read that right! Since pleroma-docker supports modifying the codebase we also ship with full support for `:debugger` and `:observer`. The only hard limitation here is that this (currently) only works on Linux setups that use Xorg. To start a debugging session use `./pleroma debug [command]`. This spawns a new pleroma container (and the connected db container, if needed), and also forwards your X-Server into the container. The most common debug command is `./pleroma debug iex -S mix phx.server`. This launches the pleroma server as usual and drops you into an `iex` shell afterwards. Now load the module that you want to debug with `:int.ni`. For example: `:int.ni Pleroma.Web.CommonAPI`. After that launch `:debugger.start`, set your breakpoints, and have fun debugging. If you just want to take a look at the running elixir processes, run `:observer.start.` === Data Storage Currently all data is stored in subfolders of `DOCKER_DATADIR` which will be bind-mounted into the container by docker. We’ll evaluate named volumes as an option in the future but they’re currently not supported. === Webserver/Database Options pleroma-docker supports Traefik, Apache, Nginx and a "manual mode". + You can switch be tween those modes using the variables below. ==== Database (`SCRIPT_DEPLOY_POSTGRES`) Values: `true` / `false` By default pleroma-docker deploys a postgresql container and links it to pleroma’s container as a zero-config data store. If you already have a postgres database or want to host postgres on a physically different machine set this value to `false`. Make sure to set the `POSTGRES_*` variables when doing that. ==== Reverse Proxy (`SCRIPT_USE_PROXY`) Values: `traefik` / `nginx` / `manual` Pleroma is usually run behind a reverse-proxy. Pleroma-docker gives you multiple options here. ===== Traefik In traefik-mode we will generate a pleroma container with traefik labels. These will be picked up at runtime to dynamically create a reverse-proxy configuration. This should `just work' if `watch=true` and `exposedByDefault=false` are set in the `[docker]` section of your `traefik.conf`. SSL will also `just work' once you add a matching `[[acme.domains]]` entry. ===== NGINX In nginx-mode we will generate a bare nginx container that is linked to the pleroma container. The nginx container is absolutely unmodified and expects to be configured by you. The nginx file in https://git.pleroma.social/pleroma/pleroma/blob/develop/installation/pleroma.nginx[Pleroma’s Repository] is a good starting point. We will mount your configs like this: .... custom.d/server.nginx -> /etc/nginx/nginx.conf custom.d/vhost.nginx -> /etc/nginx/conf.d/pleroma.conf .... To reach your pleroma container from inside nginx use `proxy_pass http://pleroma:4000;`. Set `SCRIPT_PORT_HTTP` and `SCRIPT_PORT_HTTPS` to the ports you want to listen on. Specify the ip to bind to in `SCRIPT_BIND_IP`. These values are required. The container only listens on `SCRIPT_PORT_HTTPS` if `SCRIPT_ENABLE_SSL` is `true`. ===== Apache / httpd Just like nginx-mode this starts an unmodified apache server that expects to be configured by you. Again https://git.pleroma.social/pleroma/pleroma/blob/develop/installation/pleroma-apache.conf[Pleroma’s Config] is a good starting point. We will mount your configs like this: .... custom.d/server.httpd -> /usr/local/apache2/conf/httpd.conf custom.d/vhost.httpd -> /usr/local/apache2/conf/extra/httpd-vhosts.conf .... To reach your pleroma container from inside apache use `ProxyPass [loc] http://pleroma:4000/`. Again setting `SCRIPT_PORT_HTTP`, `SCRIPT_PORT_HTTPS` and `SCRIPT_BIND_IP` is required. The container only listens on `SCRIPT_PORT_HTTPS` if `SCRIPT_ENABLE_SSL` is `true`. ===== Manual In manual mode we do not create any reverse proxy for you. You’ll have to figure something out on your own. This mode also doesn’t bind to any IP or port. You’ll have to forward something to the container’s IP. ==== SSL (`SCRIPT_ENABLE_SSL`) Values: `true` / `false` If you want to use SSL with your Apache or NGINX containers you’ll need a certificate. Certificates need to be placed into `custom.d` and will be bind-mounted into the server’s container at runtime. We will mount your certs like this: .... custom.d/ssl.crt -> /ssl/ssl.crt custom.d/ssl.key -> /ssl/ssl.key .... You can reference them in Apache like this: [source,apache] ---- <VirtualHost *:443> SSLEngine on SSLCertificateFile "/ssl/ssl.crt" SSLCertificateKeyFile "/ssl/ssl.key" </VirtualHost> ---- And in NGINX like this: [source,nginx] ---- listen 443 ssl; ssl_certificate /ssl/ssl.crt; ssl_certificate_key /ssl/ssl.key; ---- In traefik-mode and manual-mode these files and the `SCRIPT_ENABLE_SSL` value are ignored.