INSTALL.md

• Installation
  • Docker
  • Debian packages
  • From source
    • Build dependencies
    • Build
    • Installation
    • Upgrade
• Deployment
  • Configuration
  • Authentication backends
  • Deploy on non root path
  • Reverse proxy settings
• Run
• First launch

Installation

Docker

Docker images are available, please see detailed instructions on https://hub.docker.com/r/epoupon/lms.

Debian packages

Bookworm packages are provided for amd64 architectures. As root, trust the following debian package provider and add it in your list of repositories:

wget --backups=1 https://debian.poupon.dev/apt/debian/epoupon.gpg -P /usr/share/keyrings
echo "deb [signed-by=/usr/share/keyrings/epoupon.gpg] https://debian.poupon.dev/apt/debian bookworm main" > /etc/apt/sources.list.d/epoupon.list

To install or upgrade LMS:

apt update
apt install lms

The lms service is started just after the package installation, run by a dedicated lms system user.
Please refer to Deployment for further configuration options.

From source

Note: this installation process and the default values of the configuration files have been written for Debian Bookworm. Therefore, you may have to adapt commands and/or paths in order to fit to your distribution.

Build dependencies

Notes:

• a C++20 compiler is needed
• ffmpeg version 4 minimum is required

apt-get install g++ cmake libboost-program-options-dev libboost-system-dev libavutil-dev libavformat-dev libstb-dev libconfig++-dev ffmpeg libtag1-dev libpam0g-dev libgtest-dev libarchive-dev

Notes:

• libpam0g-dev is optional (only for using PAM authentication)
• libstb-dev can be replaced by libgraphicsmagick++1-dev (the latter will likely use more RAM) You also need Wt4, which is not packaged on Debian. See installation instructions.
  No optional requirement is needed, except openSSL if you plan not to deploy behind a reverse proxy (which is not recommended).

Build

Get the latest stable release and build it:

git clone https://github.com/epoupon/lms.git lms
cd lms
mkdir build
cd build
cmake .. -DCMAKE_BUILD_TYPE=Release -DCMAKE_INSTALL_PREFIX=/usr

Notes:

• you can customize the installation directory using -DCMAKE_INSTALL_PREFIX=path (defaults to /usr/local).
• you can customize the image library using -DLMS_IMAGE_BACKEND=<stb|graphicsmagick> (defaults to stb)

make

Note: you can use make -jN to speed up compilation time (N is the number of compilation workers to spawn).

Installation

Note: the commands of this section require root privileges.

make install

Create a dedicated system user:

useradd --system --group lms

Copy the configuration files:

cp /usr/share/lms/lms.conf /etc/lms.conf
cp /usr/share/lms/lms.service /lib/systemd/system/lms.service

Create the working directory and give it access to the lms user:

mkdir /var/lms
chown lms:lms /var/lms

To make LMS run automatically during startup:

systemctl enable lms

Upgrade

To upgrade LMS from sources, you need to update the master branch and rebuild/install it:

cd build
git pull
make

Then using root privileges:

make install
systemctl restart lms

Deployment

Note: don't forget to give the lms user read access to the music directory you want to scan.

Configuration

LMS uses a configuration file, installed by default in /etc/lms.conf. It is recommended to edit this file and change relevant settings (listen address, listen port, working directory, Subsonic API activation, deployment path, ...). All other settings are set using the web interface (user management, scan settings, transcode settings, ...). If a setting is not present in the configuration file, a hardcoded default value is used (the same as in the default configuration file)

Authentication backends

You can define which authentication backend to be used thanks to the authentication-backend option:

• internal (default): LMS uses an internal database to store users and their associated passwords (salted and hashed using Bcrypt). Only the admin user can create, edit or remove other users.
• PAM: the user/password authentication request is forwarded to PAM (see the default PAM configuration file provided).
• http-headers: LMS uses a configurable HTTP header field, typically set by a reverse proxy to handle SSO, to extract the login name. You can customize the field to be used using the http-headers-login-field option. Note: the first created user is the admin user.

internal backend: reset admin password

Open the the database file located in /var/lms/lms.db using sqlite3:

sqlite3 /var/lms/lms.db

Now force reset the password of the admin user to adminadmin:

UPDATE user SET password_salt="sliIgHUpEoAlBMquivH4VzKXbSzexlvS", password_hash="$2y$07$a0vnQUbGTV/DZyDqOizvbOdCaytNjDhkOPcGoBZup4V0MRKDzOpEG" WHERE id=1;
.quit

Deploy on non root path

If you want to deploy on non root path (e.g. https://mydomain.com/newroot/), you have to set the deploy-path option accordingly in lms.conf. As static resources are not related to the deploy-path option, you have to perform the following steps if you want them to be on a non root path too:

• Create a new intermediary newroot directory in /usr/share/lms/docroot and move everything in it.
• Symlink /usr/share/lms/docroot/newroot/resources to /usr/share/Wt/resources.
• Edit lms.conf and set:

wt-resources = "" # do not comment the whole line
docroot = "/usr/share/lms/docroot/;/newroot/resources,/newroot/css,/newroot/images,/newroot/js,/newroot/favicon.ico";`
deploy-path = "/newroot/"; # ending slash is important

If you use nginx as a reverse proxy, you can simply replace location / with location /newroot/ to achieve the same result.

Reverse proxy settings

LMS is shipped with an embedded web server, but it is recommended to deploy behind a reverse proxy. You have to set the behind-reverse-proxy option to true in the lms.conf configuration file and to adjust the trusted proxy list in trusted-proxies option.

Note: when running in a docker environment, you have to trust the docker gateway IP (which is 172.17.0.1 by default)

Here is an example to make LMS properly work on myserver.org using nginx:

server {
    listen 80;

    server_name myserver.org;

    access_log            /var/log/nginx/myserver.access.log;

    proxy_request_buffering off;
    proxy_buffering off;
    proxy_buffer_size 4k;
    proxy_read_timeout 10m;
    proxy_send_timeout 10m;
	keepalive_timeout 10m;

    location / {
      proxy_set_header        Host $host;
      proxy_set_header        X-Real-IP $remote_addr;
      proxy_set_header        X-Forwarded-For $proxy_add_x_forwarded_for;
      proxy_set_header        X-Forwarded-Proto $scheme;

      proxy_pass          http://localhost:5082/;
      proxy_read_timeout  120;
    }
}

Note: to mitigate brute force login attempts, LMS uses an internal login throttler based on the client IP address. The Client-IP or X-Forwarded-For headers are used to determine the real IP adress, so make sure to properly configure your reverse proxy to filter or even erase the values.

Run

systemctl start lms

Log traces can be accessed using journactl:

journalctl -u lms.service

To connect to LMS, just open your favorite browser and go to http://localhost:5082

First launch

At the first launch, a setup assistant will guide you through creating the administrator account (username and password). Once this information is saved, you can refresh the page to access the LMS login screen. Note: If you are using PAM or http-header authentication, this setup assistant will not appear (see Authentication backends).

Once logged in as an administrator, you will need to define your libraries—that is, select the music folders you want to scan. Then, check that the scan settings meet your needs (scan frequency, tag delimiters, etc.).

You can now initiate the initial scan to import your music into LMS.