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# Windows Network Audio
Prerequisites:
* [Virtual Audio Cable][1]
* [Some Windows compile of SoX][2]
* [Some Windows compile of netcat][3]
## Getting a PCM UDP stream *out of* a Windows virtual audio device:
In [VAC][1], make cable 1, then make it the default audio device in mmsys.cpl.
On the receiving host, run something to the effect of
nc -n -u -vvv -l -p $receiveport | aplay
Though obviously we're not too picky. Anything that can understand a wave
header will do. aplay is simplest in my case. Normal Linux desktop or N900
users might want to use pacat instead of aplay.
On the sending (Windows) host, run something to the effect of
sox --buffer=1024 -t waveaudio 1 -t wav - | nc -u $receivehost $receiveport
## Getting a PCM UDP stream *into* a Windows virtual audio device:
If you want a separate (non-echoing) device for a microphone, make [VAC][2]
cable 2, then make it the default communications device in mmsys.cpl.
On the receiving (Windows) host, run something to the effect of
nc -n -u -vvv -L -p $sendport | sox --buffer=2048 -t wav - -t waveaudio 1
On the sending host, run something to the effect of
arecord --buffer-size=2048 --verbose -f cd - | nc -u 192.168.0.103 8001
## Additional notes
This was done on Windows 7. The core concepts should work fine on other
versions, though the details of making separate device defaults for playback
and recording will presumably be different.
The [SoX documentation][4]'s claim that `-t waveaudio` can match device names
did not pan out for me, so I had to work out their index number by hand. They
start from 0. In my case, it's 1.
Restarting any part of this sox/netcat/netcat/alsa chain requires restarting
everything *in order*, since that wave header is critical.
Windows sometimes does something horrible to TCP buffering; if you value
latency, use UDP wherever practical.
To make your life easier you might want to wrap the listening netcats in
`while sleep 1; do ; done`
Raw PCM over UDP obviously has some concerns; in heavy traffic it does not
compete for bandwidth the way TCP does, does not degrade to lower quality, and
is difficult to secure. You can use traffic shaping, encoding to voice codec,
and/or DTLS to solve these problems. OTOH, dropped UDP packets do not seem to
cause any framing/alignment problems.
[1]: http://software.muzychenko.net/eng/vac.htm
[2]: http://sox.sourceforge.net/
[3]: http://www.rodneybeede.com/Compile_Netcat_on_Windows_using_MinGW.html
[4]: http://sox.sourceforge.net/soxformat.html
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