Problem Statement

The official docker-compose and Docker documentation for self-hosting Lemmy is not suitable for my use-case. It:

  • Spins up its own single-use containers for pictrs, postgres and nginx.
  • Makes a bunch of assumptions about the deployment network topology that doesn’t always work in a more managed setting.

I’m not a pro nor an expert in sysadmin, Docker or web technologies, so it took many hours of deciphering the (very) sparse documentation to figure out how to make Lemmy fit my deployment scenario. Here, I’d like to just share my own docker-compose, lemmy.hjson and my NGINX reverse proxy configuration, and hope it helps someone out there.

How I Host My Services

  • Each service is single-instance, multiple-use. For example, my postgres container serves not just Lemmy, but other containers that require a DB service as well.
  • I have an existing reverse proxy with nginx, already provided by the awesome swag image.
  • Each container gets an assigned internal LAN hostname, assigned internal LAN IP, and specified MAC address for house-keeping and manageability purposes.
  • I have full control and authorship of all my services, and only services are exposed to the public internet through either CloudFlare or nginx. Hence, storing key values in my docker-compose is not a major security risk. If my LAN is breached, then I have bigger things to worry about besides a few passkeys being compromised. If you are operating in a multi-user LAN environment where security is paramount, then please use Docker Secrets instead of storing your secrets in plaintext.

Some Parameters You’ll Need

My template values are assumed as such. For API keys and passwords, use your own generator or some UUID generation service. If you’re using Linux and have the uuidgen package, just generate keys on your terminal with

uuidgen -r | sed 's/-//g';

The second command just removes the - character from stdout. All provided values below are dummy values! Please generate your own whenever applicable.

To generate MAC addresses, use any MAC address generator tool, or an online service.

Needless to say, change the following parameters to suit your own deployment.

General Networking

  • Your internal DNS IP: 192.168.0.1
  • Your LAN subnet mask: 192.168.0.0/16
  • Your Docker container subnet mask: 192.168.1.0/24
  • Your Docker host IP: 192.168.1.1
  • Your localhost domain name: .local
  • Your Docker bridge name (this must be an existing bridge): custom_docker_bridge

Your SMTP settings

Here, I am assuming you have a gmail account that you want to use as your mailbox to send admin emails. Follow this guide to generate an app password for Google to authenticate you.

  • smtp_server: smtp.gmail.com:587
  • smtp_login: your@gmail.com
  • smtp_password: abcdefghijklmnop
  • smtp_from_address: no-reply@yourdomainname.yourtld

Your Lemmy Site Name & Admin Account

  • admin_username: admin
  • admin_password: c97f337aaa374d8a9c47fce0e197fd29
  • site_name: lemmy.yourowndomainname.yourtld

For pictrs

  • PICTRS__SERVER__API_KEY: e7160a506a9241abb1e623d4180d6908
  • Container IP: 192.168.1.2
  • Container MAC: 30:b1:fb:dd:af:ee
  • Container Hostname: PICTRS.local
  • Persistent Volume: /some/host/directory/pictrs

For postgres

  • POSTGRES_USER: postgres_admin
  • POSTGRES_PASSWORD: eefb3bce7ea54b8497307d0e0234b6c8
  • POSTGRES_DB: postgres_db
  • Container IP: 192.168.1.3
  • Container MAC: a9:95:c4:a3:e5:4f
  • Container Hostname: POSTGRES.local
  • Persistent Volume: /some/host/directory/postgres

For lemmy

  • Container IP: 192.168.1.4
  • Container MAC: 77:26:eb:bf:c9:f7
  • Container Hostname: LEMMY.local
  • Persistent Volume (for your lemmy.hsjon): /some/host/directory/lemmy/lemmy.hjson
  • DB name: lemmy_db
  • DB user: lemmy_admin
  • DB password: ebd3526474cf4cc6af752971f268d0f3

For lemmy-ui

  • Container IP: 192.168.1.5
  • Container MAC: bd:77:70:e6:ca:d8
  • Container Hostname: LEMMYUI.local
  • LEMMY_UI_LEMMY_EXTERNAL_HOST (this is your public-facing domain name that points to your Lemmy UI): lemmy.yourowndomainname.yourtld
  • LEMMY_UI_LEMMY_INTERNAL_HOST (match with above): LEMMY.local:8536

Templates for docker-compose

For pictrs

version: "3.7"
services:
  pictrs:
    container_name: pictrs
    image: asonix/pictrs:0.4
    environment:
      - PICTRS__SERVER__API_KEY=e7160a506a9241abb1e623d4180d6908
    ports:
      - 8080:8080
    restart: unless-stopped
    hostname: PICTRS.local
    dns: 192.168.0.1
    mac_address: 30:b1:fb:dd:af:ee
    networks:
      custom_docker_bridge:
        ipv4_address: 192.168.1.2
    volumes:
      - /some/host/directory/pictrs:/mnt
networks:
  custom_docker_bridge:
    external: true
    name: custom_docker_bridge

For postgres

This assumes you don’t already have a postgres instance.

version: "3.7"
services:
  postgres:
    container_name: postgres
    image: postgres:latest
    # This is the default postgres db that is created when you spin up a new postgres container. This will not be used by Lemmy, but the credentials here are important in case you ever lose your password to `lemmy_admin`.
    environment:
      - POSTGRES_USER=postgres_admin
      - POSTGRES_PASSWORD=eefb3bce7ea54b8497307d0e0234b6c8
      - POSTGRES_DB=postgres_db
    ports:
      - 5432:5432
    restart: unless-stopped
    hostname: POSTGRES.local
    dns: 192.168.0.1
    mac_address: a9:95:c4:a3:e5:4f
    networks:
      custom_docker_bridge:
        ipv4_address: 192.168.1.3
    command:
      [
        "postgres",
        "-c",
        "session_preload_libraries=auto_explain",
        "-c",
        "auto_explain.log_min_duration=5ms",
        "-c",
        "auto_explain.log_analyze=true",
        "-c",
        "track_activity_query_size=1048576",
      ]
    volumes:
      - /some/host/directory/postgres:/var/lib/postgresql/data
networks:
  custom_docker_bridge:
    external: true
    name: custom_docker_bridge

For lemmy Backend

version: "3.7"
services:
  lemmy:
    container_name: lemmy
    image: dessalines/lemmy:latest
    hostname: LEMMY.local
    dns: 192.168.0.1
    mac_address: 77:26:eb:bf:c9:f7
    ports:
      - 8536:8536
    networks:
      custom_docker_bridge:
        ipv4_address: 192.168.1.4
    restart: unless-stopped
    volumes:
      - /some/host/directory/lemmy/lemmy.hjson:/config/config.hjson:Z
networks:
  custom_docker_bridge:
    external: true
    name: custom_docker_bridge

For lemmy-ui Frontend

version: "3.7"
services:
  lemmy-ui:
    container_name: lemmy-ui
    image: dessalines/lemmy-ui:latest
    environment:
      - LEMMY_UI_LEMMY_INTERNAL_HOST=LEMMY.local:8536
      - LEMMY_UI_LEMMY_EXTERNAL_HOST=lemmy.yourowndomainname.yourtld
      - LEMMY_UI_HTTPS=false
      - LEMMY_UI_DEBUG=true
    hostname: LEMMYUI.local
    dns: 192.168.0.1
    mac_address: bd:77:70:e6:ca:d8
    networks:
      custom_docker_bridge:
        ipv4_address: 192.168.1.5
    restart: unless-stopped
networks:
  custom_docker_bridge:
    external: true
    name: custom_docker_bridge

Template for lemmy.hjson

{
  database: {
    uri: "postgres://lemmy_admin:ebd3526474cf4cc6af752971f268d0f3@POSTGRES.local:5432/lemmy_db"
  }
  pictrs: {
    url: "http://PICTRS.local:8080/"
    api_key: "e7160a506a9241abb1e623d4180d6908"
  }
  email: {
    smtp_server: "smtp.gmail.com:587"
    smtp_login: "your@gmail.com"
    # Password to login to the smtp server
    smtp_password: "abcdefghijklmnop"
    smtp_from_address: "no-reply@yourdomainname.yourtld"
    tls_type: "tls"
  }
  # These will be used for the first-ever time the container is created. This is the admin account used to login to https://lemmy.yourowndomainname.yourtld and manage your Lemmy instance.
  setup: {
    # Username for the admin user
    admin_username: "admin"
    # Password for the admin user. It must be at least 10 characters.
    admin_password: "c97f337aaa374d8a9c47fce0e197fd29"
    # Name of the site (can be changed later)
    site_name: "lemmy.yourowndomainname.yourtld"
    # Email for the admin user (optional, can be omitted and set later through the website)
    admin_email: "admin@yourowndomainname.yourtld"
  }
  hostname: "lemmy.yourowndomainname.yourtld"
  # Address where lemmy should listen for incoming requests
  bind: "0.0.0.0"
  # Port where lemmy should listen for incoming requests
  port: 8536
  # Whether the site is available over TLS. Needs to be true for federation to work.
  tls_enabled: true
}

Template for nginx

This assumes your NGINX’s http directive is pre-configured and exists elsewhere.

server {
    listen 443 ssl;
    listen [::]:443 ssl;

    server_name lemmy.*;

    # Assuming your ssl settings are elsewhere
    include /config/nginx/ssl.conf;

    set $lemmy_frontend_hostname lemmyui.local;
    set $lemmy_frontend_port 1234;

    set $lemmy_backend_hostname lemmy.local;
    set $lemmy_backend_port 8536;

    set $upstream_proto http;

    location ~ ^/(api|pictrs|feeds|nodeinfo)/ {
      set $prox_pass $upstream_proto://$lemmy_backend_hostname:$lemmy_backend_port;
      proxy_pass $prox_pass;
    }

    location / {

      # Default to lemmyui.local
      set $prox_pass $upstream_proto://$lemmy_frontend_hostname:$lemmy_frontend_port;

      # Specific routes to lemmy.local
      if ($http_accept ~ "^application/.*$") {
        set $prox_pass $upstream_proto://$lemmy_backend_hostname:$lemmy_backend_port;
      }
      if ($request_method = POST) {
        set $prox_pass $upstream_proto://$lemmy_backend_hostname:$lemmy_backend_port;
      }
      proxy_pass $prox_pass;
      rewrite ^(.+)/+$ $1 permanent;
    }
}

Conclusion

That’s it! If you’re looking for more in-depth tutorials for how each of these work, it is unfortunately out of scope for this post. Hope this helps someone in their journey to self-host Lemmy. Cheers.

  • LimitedDuck@septic.win
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    1 year ago

    This is extremely valuable, thanks for this!

    As a general question, why did you decide to use a single postgres container for multiple services instead of multiple, stack specific containers? When I first started working with containers I considered your scheme for the sake of minimalism, but didn’t want a single container to bring down multiple unrelated services. I also had the resources to accomodate the redundancy.

    • milkjug@lemmy.world
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      1 year ago

      Thanks for asking! I think this is more or less an architectural choice, and I was vaguely adhering to the microservice design philosophy. While spinning up duplicate services for each container that requires it has its advantages in terms of isolation and what not, I wanted to:

      • Be light on resource requirements whenever possible,
      • Follow industry practices as far as possible in case it becomes useful at my day-job (it sometimes does),
      • Train myself to be an amateur sysadmin, at least on my homelab.

      Hence, all of my docker containers are deduped and reused whenever possible, and follow my own notations and conventions, as well as static and opiniated networking. It has been a really fun journey so far, but I’m also a glutton for punishment and sleep-less nights ;p