I received a gift last year which is a Sony CMT700Ni audio station, wifi capable. It is also capable of a airplay-like feature which is called "PartyStreaming". I'm currently digging inside, explore it so maybe i could end having my own "PartyStreaming"-capable device and have AirPlay-like feature for free (the challenge is also very interesting)
PartyStreaming is a SOAP based service which is very easy to understand. There is 4 main functions divided in 2 groups : server-side and client-side. The 2 functions in each group represents starting a connexion with the other side or ending it (start/stop for server, join/leave for client)
Actually i've gone far since i'm now able to access the audio data that the server - the audio station - is spreading over the network. It seems like, after having joined the server with the soap method, the client has to send a UDP packet to the server on port 3975. When received, the server answers back by sending packets to the client on that same port, for 30s.
After looking at about a hundred of those, i figured out that a typical packet is 1024 bytes long, in which there is a header of 64 bytes, a fill of 64 bytes of 0, then a 896 bytes of sound data.
I have now the data, but it looks like a bunch of bytes written randomly. There's no codec info, no structure, no "chunck format" (like in wave files). I can't find any good documentation about the protocol or any "PartyStreaming" related technical stuff.
My question is : "Hey StackOverflow, any advices ? any clues ? should i give up or maybe you have an idea i can test ?"
Things that coud be usefull :
Notes on the subject : http://pastebin.com/pp8aRQrR
Dump of packets without headers : http://cl.ly/430H2i001K3R
Dump of packets with headers and some formatting to read them : http://cl.ly/2i2F2c3E3W3C
Things i'm about to test now :
Capture UDP packets as client, then start a server and send that data to my audio station to see if it can read it ; maybe there's a server-side encryption, if so, i'm stuck
Build a 1kHz file, and play it on the audio station ; capture packets and watch its bytes, maybe compare with the same file encoded with many codec to find a pattern...