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This appears to be reasonably trivial if using the ssl module for TCP communication, but how would encrypted communication be done via UDP?

Can the ssl module still be used? if so, what steps would need to be performed for the client and server to be in a position where data can be sent to-and-fro as normal?

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2 Answers 2

up vote 4 down vote accepted

DTLS is a TLS (aka SSL) derivative designed for use over datagram transports, like UDP.

OpenSSL supports DTLS starting in 0.9.8, using DTLSv1_METHOD instead of SSLv23_METHOD or TLSv1_METHOD or similar.

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It doesn't look promising, I'm have a poke around the pyOpenSSL documentation at the moment and DTLSv1_METHOD isn't listed alongside the SSLv23 and TLSv1 methods. –  gridzbi Jan 14 '10 at 16:04
    
Argh, you're right. The ChangeLog implied that DTLS constants were added, but I checked out the sources now and DTLSv1_METHOD isn't there. It looks like it could be easy to add, though. edit bugs.launchpad.net/pyopenssl/+bug/454737 –  ephemient Jan 14 '10 at 16:31
    
The OpenSSL's DTLS implementation as it stands now seems quite unreliable. I created on project based on it and it suffers from unavoidable losses of DTLS sessions. –  ereOn Feb 27 '11 at 19:16

You could use pyCrypto or ezPyCrypto to manually encrypt/decrypt the packets.

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3  
How? Do this individually per packet? Huge overhead (especially given datagram's size limitations) with public and keys included in every packet. Work at a higher level and split up the results into multiple packets? Nope, UDP is unreliable and dropping/reordering will screw up your decryption stream. –  ephemient Jan 14 '10 at 15:57
    
Don't need to send keys with each packet... why not send the pub key ahead of time? –  Gringo Suave Nov 11 '12 at 19:17
    
Oops, should just be key above. –  Gringo Suave Nov 15 '12 at 5:37

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