Supysonic is a Python implementation of the Subsonic server API.

Current supported features are:

• browsing (by folders or tags)
• streaming of various audio file formats
• transcoding
• user or random playlists
• cover arts (cover.jpg files in the same folder as music files)
• starred tracks/albums and ratings
• Last.FM scrobbling

For more details, go check the API implementation status.

• Installation
  • Prerequisites
  • Configuration
  • Database initialization
• Running the application
  • As a standalone debug server
  • As an Apache WSGI application
  • Other options
• Transcoding
• Command line interface
• Quickstart
• Watching library changes
• Upgrading

Supysonic can run as a standalone application (not recommended for a "production" server) or as a WSGI application (on Apache for instance). To install it, run:

$ python setup.py install

You'll need these to run Supysonic:

• Python 2.7
• Flask >= 0.9
• Storm
• Python Imaging Library
• simplejson
• requests
• mutagen
• watchdog

On a Debian-like OS (Debian, Ubuntu, Linux Mint, etc.), you can install them this way:

$ apt-get install python-flask python-storm python-imaging python-simplesjon python-requests python-mutagen python-watchdog

You may also need a database specific package:

• MySQL: apt install python-mysqldb
• PostgreSQL: apt-install python-psycopg2

Due to a bug in storm, psycopg2 version 2.5 and later does not work properly. You can either use version 2.4 or patch storm yourself.

Supysonic looks for two files for its configuration: /etc/supysonic and ~/.supysonic, merging values from the two files.

Configuration files must respect a structure similar to Windows INI file, with [section] headers and using a KEY = VALUE or KEY: VALUE syntax.

The sample configuration (config.sample) looks like this:

[base]
; A Storm database URI. See the 'schema' folder for schema creation scripts
; database_uri = sqlite:////var/supysonic/supysonic.db
; database_uri = mysql://username:password@hostname/database_name
; database_uri = postgres://username:password@hostname/database_name

; Optional, restrict scanner to these extensions
; scanner_extensions = mp3 ogg

[webapp]
; Optional cache directory
cache_dir = /var/supysonic/cache

; Optional rotating log file
log_file = /var/supysonic/supysonic.log

; Log level. Possible values: DEBUG, INFO, WARNING, ERROR, CRITICAL
log_level = WARNING

[daemon]
; Optional rotating log file for the scanner daemon
log_file = /var/supysonic/supysonic-daemon.log
log_level = INFO

[lastfm]
; API and secret key to enable scrobbling. http://www.last.fm/api/accounts
; api_key =
; secret =

[transcoding]
; Programs used to convert from one format/bitrate to another.
transcoder_mp3_mp3 = lame --quiet --mp3input -b %outrate %srcpath -
transcoder = ffmpeg -i %srcpath -ab %outratek -v 0 -f %outfmt -
decoder_mp3 = mpg123 --quiet -w - %srcpath
decoder_ogg = oggdec -o %srcpath
decoder_flac = flac -d -c -s %srcpath
encoder_mp3 = lame --quiet -b %outrate - -
encoder_ogg = oggenc2 -q -M %outrate -

[mimetypes]
; extension to mimetype mappings in case your system has some trouble guessing
; mp3 = audio/mpeg
; ogg = audio/vorbis

Note that using SQLite for large libraries might not be the brightest idea as it tends to struggle with larger datasets.

For mime types, see the list of common types.

Supysonic does not issue the CREATE TABLE commands for the tables it needs. Thus the database and tables must be created prior to running the application. Table creation scripts are provided in the schema folder for SQLite, MySQL and PostgreSQL.

It is possible to run Supysonic as a standalone server, but it is only recommended to do so if you are hacking on the source. A standalone won't be able to serve more than one request at a time.

To start the server, just run the cgi-bin/server.py script.

$ python cgi-bin/server.py

By default, it will listen on the loopback interface (127.0.0.1) on port 5000, but you can specify another address on the command line, for instance on all the IPv6 interfaces:

$ python cgi-bin/server.py ::

Supysonic can run as a WSGI application with the cgi-bin/supysonic.wsgi file. To run it within an Apache2 server, first you need to install the WSGI module and enable it.

$ apt-get install libapache2-mod-wsgi
$ a2enmod wsgi

Next, edit the Apache configuration to load the application. Here's a basic example of what it looks like:

WSGIScriptAlias /supysonic /path/to/supysonic/cgi-bin/supysonic.wsgi
<Directory /path/to/supysonic/cgi-bin>
    WSGIApplicationGroup %{GLOBAL}
    WSGIPassAuthorization On
    Order deny,allow
    Allow from all
</Directory>

You might also need to run Apache using the system default locale, as the one it uses might cause problems while scanning the library. To do so, edit the /etc/apache2/envvars file, comment the line export LANG=C and uncomment the . /etc/default/locale line. Then you can restart Apache:

$ service apache2 restart

With that kind of configuration, the server address will look like http://server/supysonic/

If you use another HTTP server, such as nginx or lighttpd, or prefer to use FastCGI or CGI over WSGI, FastCGI and CGI scripts are also provided in the cgi-bin folder, respectively as supysonic.fcgi and supysonic.cgi. As with WSGI, you might need to edit those file to suit your system configuration.

Here are some quick docs on how to configure your server for FastCGI or CGI.

Transcoding is the process of converting from one audio format to another. This allows for streaming of formats that wouldn't be streamable otherwise, or reducing the quality of an audio file to allow a decent streaming for clients with limited bandwidth, such as the ones running on a mobile connection.

Supysonic's transcoding is achieved through the use of third-party command-line programs. Supysonic isn't bundled with such programs, and you are left to choose which one you want to use.

If you want to use transcoding but your client doesn't allow you to do so, you can force Supysonic to transcode for that client by going on the web interface.

Configuration of transcoders is done on the [transcoding] section of the configuration file.

Transcoding can be done by one single program which is able to convert from one format direclty to another one, or by two programs: a decoder and an encoder. All these are defined by the following variables:

• transcoder_EXT_EXT
• decoder_EXT
• encoder_EXT
• trancoder
• decoder
• encoder

where EXT is the lowercase file extension of the matching audio format. transcoders variables have two extensions: the first one is the source extension, and the second one is the extension to convert to. The same way, decoders extension is the source extension, and encoders extension is the extension to convert to.

Notice that all of them have a version without extension. Those are generic versions. The programs defined with these variables should be able to transcode/decode/encode any format. For that reason, we suggest you don't use these if you want to keep control over the available transcoders.

Supysonic will take the first available transcoding configuration in the following order:

1. specific transcoder
2. specific decoder / specific encoder
3. generic decoder / generic encoder (with the possibility to use a generic decoder with a specific encoder, and vice-versa)
4. generic transcoder

All the variables should be set to the command-line used to run the converter program. The command-lines can include the following fields:

• %srcpath: path to the original file to transcode
• %srcfmt: extension of the original file
• %outfmt: extension of the resulting file
• %outrate: bitrate of the resulting file

One final note: the original file should be provided as an argument of transcoders and decoders. All transcoders, decoders and encoders should write to standard output, and encoders should read from standard input.

Here are some example configuration that you could use. This is provided as-is, and some configurations haven't been tested.

transcoder_mp3_mp3 = lame --quiet --mp3input -b %outrate %srcpath -
transcoder = ffmpeg -i %srcpath -ab %outratek -v 0 -f %outfmt -
decoder_mp3 = mpg123 --quiet -w - %srcpath
decoder_ogg = oggdec -o %srcpath
decoder_flac = flac -d -c -s %srcpath
encoder_mp3 = lame --quiet -b %outrate - -
encoder_ogg = oggenc2 -q -M %outrate -

The command-line interface (or CLI, cli.py) is an interface allowing administration operations without the use of the web interface. It can either be run in interactive mode (python cli.py) or to issue a single command (python cli.py <arguments>).

If ran without arguments, supsonic-cli will open an interactive prompt. You can use the command line tool to do a few things:

Usage:
    supysonic-cli [help] (user) (folder)

Display the help message

Arguments:
    user                        Display the help message for the user command
    folder                      Display the help message for the folder command

Usage:
    supysonic-cli user [add] <user> (-a) (-p <password>) (-e <email>)
    supysonic-cli user [delete] <user>
    supysonic-cli user [changepass] <user> <password>
    supysonic-cli user [list]
    supysonic-cli user [setadmin] (--off) <user>

User management commands

Arguments:
    add                         Add a new user
    delete                      Delete the user
    changepass                  Change the user's password
    list                        List all the users
    setadmin                    Give admin rights to the user

Options:
  -a --admin                    Create the user with admin rights
  -p --password <password>      Specify the user's password
  -e --email <email>            Specify the user's email
  --off                         Revoke the admin rights if present

Usage:
    supysonic-cli folder [add] <name> <path>
    supysonic-cli folder [delete] <name>
    supysonic-cli folder [list]
    supysonic-cli folder [scan] <name>

Folder management commands

Arguments:
    add                         Add a new folder
    delete                      Delete a folder
    list                        List all the folders
    scan                        Scan a specified folder

To start using Supysonic, you'll first have to specify where your music library is located and create a user to allow calls to the API.

Let's start by creating a new admin user this way:

$ supysonic-cli user add spl0k -a -p MyAwesomePassword

To add a new folder to your music library, you can do something like this:

$ supysonic-cli folder add MyLibrary /home/spl0k/Music

Once you've added a folder, you will need to scan it:

$ supysonic-cli folder scan MyLibrary

You should now be able to enjoy your music with the client of your choice!

Instead of manually running a scan every time your library changes, you can run a watcher that will listen to any library change and update the database accordingly. The watcher is bin/supysonic-watcher, it is a non-exiting process and doesn't print anything to stdout nor stderr. If you want to keep it running in background, either use the old nohup or screen methods, or start it as a simple systemd unit (unit file not included).

Some commits might introduce changes in the database schema. When that's the case migration scripts will be provided in the schema/migration folder, prefixed by the date of commit that introduced the changes. Those scripts shouldn't be used when initializing a new database, only when upgrading from a previous schema.