Containerized Seafile Deployment

A fully containerized deployment of Seafile for Docker and Docker Swarm.

Features

• Complete redesign of the official Docker deployment with container virtualization best-practices in mind.
• Runs Seahub (frontend) and Seafile Server (backend) in separate containers.
• Frontend Clustering without Professional edition.
• Completely removed self-implemented Nginx and Let's Encrypt and replaced it with two caddy services. The first one functioning as a reverse proxy, which forwards traffic to the respective endpoints. The second one functioning as a webserver for static content (/media path).
• Seahub and Seafile Server normally communicate over a UNIX socket. This deployment contains socat, which basically translates the UNIX socket to a TCP stream.
• Increased Security:
  • The caddy reverse proxy serves as a single entry point to the stack. Everything else runs in an isolated network.
  • Using Alpine Linux based images for the frontend, which is designed with security in mind and comes with proactive security features.
• Reworked Dockerfiles featuring multi-stage builds, allowing for smaller images and faster builds.
• Supports Seafile version 8.0.

Structure

Services:

• seafile-server
  • contains the backend component called seafile-server
  • handles storage, some direct client access and seafdav
• seahub
  • dynamic frontend component called seahub
  • serves the web-ui
  • communicates with seafile-server
• seahub-media
  • serves static website content as well as avatars and custom logos
• db
  • the database used by seafile-server and seahub
• memcached
  • database cache for seahub
• seafile-caddy
  • reverse proxy that forwards paths to the correct endpoints: seafile-server, seahub or seahub-media
  • is the single external entrypoint to the deployment

Volumes:

• seafile-data
  • shared data volume of seafile-server and seahub
  • also contains configuration and log files
• seafile-mariadb
  • volume of the db service
  • stores the database
• seahub-custom
  • contains custom logos
  • stored by seahub and served by seahub-media
• seahub-avatars
  • contains user avatars
  • stored by seahub and served by seahub-media

Note: In the official docker deployment custom and avatars are served by nginx. Seahub alone is not able to serve them for some reason, hence the separate volumes.

Networks:

• seafile-net
  • isolated local network used by the services to communicate with each other

Getting Started

1. Prerequisites

   Requires Docker and docker-compose to be installed.

2. Get the compose file

   Docker

   Use this compose file as a starting point.

   wget https://github.com/ggogel/seafile-containerized/blob/master/compose/docker-compose.yml
   

   Docker Swarm

   With only one node you can use the above file. If you have multiple nodes, you will either need to force most of the services to run on the same node or you will need some kind of distributed storage or network storage.

   You can check out this example using lucaslorentz/caddy-docker-proxy as reverse proxy and the GlusterFS plugin marcelo-ochoa/docker-volume-plugins. This resembles my personal setup.

   wget https://github.com/ggogel/seafile-containerized/blob/master/compose/docker-compose-swarm.yml
   

3. Set environment variables

   Important: The environment variables are only relevant for the first deployment. Existing configuration in the volumes is not overwritten.

   On a first deployment you need to carefully set those values. Changing them later can be tricky. Refer to the Seafile documentation on how to change configuration values.

   seafile-server

   The name of the mariadb service, which is automatically the docker-internal hostname.

   - DB_HOST=db 
   

   Password of the mariadb root user. This must equal MYSQL_ROOT_PASSWORD.

   - DB_ROOT_PASSWD=db_dev
   

   Time zone used by Seafile.

   - TIME_ZONE=Europe/Berlin
   

   Username / E-Mail of the first admin user.

   - SEAFILE_ADMIN_EMAIL=me@example.com
   

   Password of the first admin user.

   - SEAFILE_ADMIN_PASSWORD=asecret
   

   This will be used for the SERVICE_URL and FILE_SERVER_ROOT. Important: Changing those values in the config files later won't have any effect because they are written to the database. Those values have priority over the config files. To change them enter the "System Admin" section on the web-ui. If you encounter issues with file upload, it's likely that those are configured incorrectly.

   - SEAFILE_SERVER_HOSTNAME=seafile.mydomain.com 
   

   If you plan to use a reverse proxy with https, set this to true. This will replace http with https in the SERVICE_URL and FILE_SERVER_ROOT.

   - HTTPS=false
   

   db

   Password of the mariadb root user. Must match DB_ROOT_PASSWD.

   - MYSQL_ROOT_PASSWORD=db_dev
   

   Enable logging console.

   - MYSQL_LOG_CONSOLE=true
   

4. (Optional) Migrating volumes from official Docker deployment or native install

   If you set up Seafile from scratch you can skip this part.

   The official Docker deployment uses bind mounts to the host path instead of actual docker volumes. This was probably chosen to create compatibility between a native install and the docker deployment. This deployment uses named volumes, which come with several advantages over bind mounts and are the recommended mechanism for persisted storage on Docker. The default path for named volumes on Docker is /var/lib/docker/volumes/VOLUME_NAME/_data.

   To migrate storage from the official Docker deployment run:

   mkdir -p /var/lib/docker/volumes/seafile-data/_data
   mkdir -p /var/lib/docker/volumes/seafile-mariadb/_data
   mkdir -p /var/lib/docker/volumes/seahub-custom/_data
   mkdir -p /var/lib/docker/volumes/seahub-avatars/_data
   
   cp -r /opt/seafile-data /var/lib/docker/volumes/seafile-data/_data
   cp -r /opt/seafile-mysql/db /var/lib/docker/volumes/seafile-mariadb/_data
   mv /var/lib/docker/volumes/seafile-data/_data/seafile/seahub-data/custom /var/lib/docker/volumes/seahub-custom/_data
   mv /var/lib/docker/volumes/seafile-data/_data/seafile/seahub-data/avatars /var/lib/docker/volumes/seahub-avatars/_data
   
   

   Of course you could also just use the old paths but I would strongly advise against that.

5. (Optional) Reverse Proxy

   Short version: The caddy reverse proxy integrated in the deployment exposes port 80. Point your reverse proxy to that port.

   Long version: This deployment does by design not include a reverse proxy that is capable of https and Let's Encrypt, because usually Docker users already have some docker-based reverse proxy solution deployed, which does exactly that. If you're using Docker for a while already, you probably know what to do and you can skip this section.

   If you are new to Docker or you are interested in another revers proxy solution, have a look at those options:

   • jwilder/nginx-proxy (recommended for beginners)
     • popular solution for beginners
     • doesn't support Docker Swarm
     • automatic Let's Encrypt with plugin
     • lacks a lot of advanced features
   • lucaslorentz/caddy-docker-proxy (recommended for Docker Swarm and advanced users)
     • designed for Docker Swarm but can be used on regular Docker too
     • automatic Let's Encrypt integrated
     • very feature rich
     • easy configuration but rather complicated setup
   • traefik
     • very popular
     • supports Docker and Docker Swarm
     • automatic Let's Encrypt integrated
     • lacks a lot of advanced features

   Refer to the respective documentation. Often this is just one line you have to add to the docker-compose.yml.

   Example for jwilder/nginx-proxy

   seafile-caddy:
       image: ggogel/seafile-caddy:0.1
       ports:
           80:80
       networks:
       - seafile-net
       environment:
       - VIRTUAL_HOST=seafile.mydomain.com
   

   Example for lucaslorentz/caddy-docker-proxy on Docker Swarm

   seafile-caddy:
       image: ggogel/seafile-caddy:0.1
       networks:
       - seafile-net
       - caddy
       deploy:
       labels:
           caddy: seafile.mydomain.com #this will automatically enable https and Let's Encrypt
           caddy.reverse_proxy: "{{upstreams 80}}"
   

   Note that you don't need the ports definition any longer with this reverse proxy, because it connects to the service through its own network.

6. Deployment

   Docker Compose

   After you followed the above steps and you have configured everything correctly run:

   docker-compose up -d
   

   Docker Swarm

   After you followed the above steps and you have configured everything correctly run:

   docker stack deploy -c docker-compose.yml seafile
   

Additional Information

LDAP

In order for LDAP to work, the seafile-server needs to be able to establish a connection to the LDAP server. Because the seafile-net is defined as internal: true, the service won't reach the LDAP server, as long as you don't deploy it in to the same stack and also connect it to seafile-net. As a workaround define another network in the networks top-level element. Like this:

networks:
  seafile-net:
    internal: true
  ext:

If not defined otherwise, the network will automatically have external access. Then hook up seafile-server to this network:

seafile-server:
    ...
    networks:
    - seafile-net
    - ext

OAuth

For OAuth the same network problem as with LDAP will occur, but here you will need to hook up the seahub service to the external network.

Tip: If you always want to use OAuth without clicking on the Single Sign-On button, you can rewrite the following paths in your reverse proxy:

caddy.rewrite: /accounts/login* /oauth/login/?