= Managing multiroom audio with Linn Songcast and upmpdcli == What is Linn Songcast *Songcast* is a protocol for transporting audio streams across the network, developped by link:http://oss.linn.co.uk/trac/wiki/Songcast[Linn] as a series of open-source libraries and applications. There are two types of entities involved in the protocol: - A *Songcast* _Sender_ generates an audio stream. - A *Songcast* _Receiver_, which typically runs on an OpenHome Renderer, receives the stream and plays it. The streams transported by *Songcast* are actual real-time audio data, which can go straight to an audio card for playing. Controlling the streams (connecting, starting, stopping) is done through an UPnP service named OpenHome __Receiver__, which runs on an UPnP Media Renderer implementing the OpenHome services. The typical use of *Songcast* is to have an audio driver on a Windows or OS X desktop capture and forward the audio stream to a remote *Songcast* device (this is the main purpose of the *Songcast* Mac and Windows applications, apart from actually controlling the audio destination). Any application on the desktop will (be compelled to) transparently play to the remote device, without need to know anything about *Songcast*. == Multiple Receivers Multiple _Receiver_ hosts can connect to the same _Sender_, so that they will all be playing the same audio. The Mac and Windows *Songcast* apps only let you connect the _Sender_ to one Receiver though. *upmpdcli* now includes a small application which can list the state of the local *Songcast* Receivers, make a Receiver play from the same URI as another one (for building multiroom groups), or return a Media Renderer from Receiver to normal operation. The functions can be accessed either from the *scctl* command line utility, or from a local Web application (as Songcast is mostly used from a Windows or Mac PC, it would be inconvenient to have to access the Linux command line to control the multiroom groups). This has only be tested with *upmpdcli* and its link:sc2mpd.html[sc2mpd] *Songcast* auxiliary process as Receiver implementation, but I'd guess that there is a good chance it would work with others. This is very preliminary for now and there are a number of issues, I hope to improve them, but for now, this is definitely an _early adopters_ system: - The initial synchronisation when forming the group is very bad. To resynchronize everything, stop or pause the playing on the PC (from the player, e.g. Media Player, not from the Songcast utility), wait for the audio to drain, and a few seconds more, then restart playing. - It's quite easy to put the system in a confused state where nothing seems to work any more. Stopping all Receivers (with *scctl* or the Web interface) and restarting the PC will normally get things back to sanity, but it will sometimes be necessary to restart everything. *Always give the commands a little time to take effect*. Especially, it's quite common that the audio will not begin to play for around 10 S after activation from the *Songcast* PC interface. Clicking on stuff too early is the surest way to get into bad states, always give 10 S to the system when things seem to not be happening. - _The following problem seems to be gone from the latest *Songcast* code_ (which is used by the current `ohbuild.sh` script). Songcast can be transported by either unicast or multicast IP. multicast is of course much better for the network load, but I seem to have seen random *sc2mpd* crashes with it. I am not sure of the cause (may be not linked to multicast at all), but if you experience random *sc2mpd* crashes, switch *Songcast* to unicast (in the PC Songcast app advanced configuration panel. Unicast is the default). == Setting things up The following seems to work for me: - Remove libupnpp and upmpdcli packages from the system to avoid confusion - Clone the libupnpp, upmpdcli and sc2mpd repositories from link:https://github.com/[GitHub] - Follow the usual procedure to build. This should just be the usual for libupnpp and upmpdcli: sh autogen.sh ./configure --prefix=/usr make sudo make install - For sc2mpd, things are a small bit more complicated, see the _Building sc2mpd_ section in link:sc2mpd.html[this document]. - Repeat the above steps on all the machines which you want to be Receivers. - Activate a Receiver from the PC *Songcast* interface. Play something and leave it playing. - Use either *scctl* (`scctl -h` prints a simple help message), or the Web interface (see further) to associate other Receivers to the same Sender. - Stop or Pause the music. Wait 10 S, restart. *_Multiroom !_* Once the slave Receivers are associated with the Sender, they should stay in this state until you change it. So you can stop/start Songcast on the PC, and they will usually just follow. An "associated" Receiver is just one which plays from the same URI, it keeps no other relation to the "Master". Only one Receiver is a bit special because it is the one known from the PC, but there is no specific reason to use it as Master, the Master is only used to get the URI. Avoid changing the state of the "PC"l Receiver from outside the PC *Songcast* interface, this can only confuse things. Every time you change the group configuration, you need to resynchronize the audio by pausing, waiting, restarting. I do know that the whole thing is not very solid, this is a prototype and I hope to improve some of the issues in the future: constructive problem reports are more than welcome, but no flaming (for now) please :) == Controlling the Songcast groups from the Web interface To avoid having to access the command line interface to control the *Songcast* groups, *upmpdcli* comes with a small Web server which uses *scctl* to actually do the work. This is found inside the `web/` subdirectory inside the *upmpdcli* source tree. The server is based on the link:http://bottlepy.org/docs/dev/index.html[Bottle Python Web Framework] and it only depends on Python (version 2 and 3 are supported by *Bottle*, but the current app only works with Python 2). I'll find ways to autostart the server in the future, but for now, use the `scweb-standalone.py` script to manually start it: python2 ./scweb-standalone.py This will start a server on localhost, on port 8777 which is good for testing, but not very useful. Use the -a 0.0.0.0 option to let the server answer on all local addresses (or specify the address to use a specific interface): python2 ./scweb-standalone.py -a 0.0.0.0 -p can be used to specify a port. Once started, connecting to the server from any browser should hopefully display a reasonably self-explanatory interface.