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While 2-party public key cryptography is very well laid out in .net framework going n-party concerns me a lot. For instance securing a two-party video-conf. communication is quite easy:

1) Each party generate session specific RSA key pairs and get their public-keys signed by a trusted authority (i.e. a trusted server). 2) Eachy party exchange keys using ECDiffieHellmanCng thus the connection is now both authentic and secure (thinking that they use Vista/W7).

Now adding a 3rd participant to this communication will not work because key exchange algorithms are designed to derive a shared secret from 2 public keys only (especially using .NET and BouncyCastle). So the question is, how would you go about implementing a n-party public key cryptography schema which is still authentic (i.e. resistant to man in the middle attack) and secure (i.e. secure from eavesdropping).

Edit: Currently the ideas are as below, I'll go ahead and implement the most popular one as a part of the NBusy.Communicator library:

  • Use a two-party communication scheme where one party acts as a federation server.
  • Initiate a two-party communication and let one party to authenticate third-parties and share the secret/symmetric key.
  • Use Multi-Party Key Agreement Scheme.

Edit2: I'm going with the "n-Party Diffie Hellman" algorithm, similar to the one described here but with some modifications: http://www.codeproject.com/KB/cs/diffy_helman.aspx

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+1, nicely done. –  JamesKPolk Apr 13 '11 at 21:40

3 Answers 3

(Just thinking out loud)

You don't need a (complete) mesh of secure relations.

The point of the PK+Certificate is to distribute a symmetric key.

Any new participant only needs to establish identities with 1 existing node and can then get a copy of that symm key.

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Nice idea but one of the main goals of key-agreement protocols is to never distribute the shared secret (i.e. the symmetric key) in any form, encrypted or not, but to derived at the client side. I'm sure there is a security concern behind this.. –  Teoman Soygul Apr 13 '11 at 12:33
I've just noticed that what you are suggesting is some sort of decentralized version of KDC (key distribution center) logic. This may be a good idea actually. –  Teoman Soygul Apr 13 '11 at 12:38

I believe the reason it has not been implemented yet, is because there is no need for it. Most security schemes work on a point to point basis where there are two parties. If there are more than 2 parties it is usually implemented as 2 two-party communication where one party works as a Federation.

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Well actually multi-party key agreement schemes exist but there seems to be very little practical info on that. On the other hand using a "federation server" seems feasible too. –  Teoman Soygul Apr 13 '11 at 12:22
Can you please point me to some references, I am curious really if it exists... maybe only in military, etc. –  Aliostad Apr 13 '11 at 12:24
Well there are papers on it but mostly very academic: Authenticated Multi-Party Key Agreement and also An Efficient and Secure Protocol for Multi-party Key Establishment –  Teoman Soygul Apr 13 '11 at 12:26
My +1 to your question stays. I do not delete the answer so it stays there but I know I have not answered your question. –  Aliostad Apr 13 '11 at 12:34
Thank you for the idea, I'm just looking into other people's minds (and also testing stackoverflow community's ability to come up with answers to cryptic questions:) –  Teoman Soygul Apr 13 '11 at 12:41
up vote 1 down vote accepted

It seems to me that a "Multi-Party Key Agreement Scheme" is also possible but currently there doesn't seem to much practical implementations using .net/c#. Very neat academic (but very hard to implement) idea here from Giuseppe Atenies (IEEE): Authenticated Multi-Party Key Agreement.

I've also came across a very neat article at CodeProject about 3-tier Diffie Hellman which can possibly be extended to n-party, as in my case: http://www.codeproject.com/KB/cs/diffy_helman.aspx

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