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I know I cant prevent people from reverse-engineering my protocol but I'd like to take a security-through-obscurity approach to make it as hard as possible.

I have a server/client system that communicates through the network with http style packets.


Attribute: Value
Attribute2: Other Value


I would like to make it as hard as possible for anything other than my client to access the network. Pushing problems with them decompiling my assemblies aside - what would be some good things I could do to this network spec that would make it VERY DIFFICULT to understand and make another implementation without the source?

I was thinking some kind of strange hashing approach or some kind of encryption algorithm that would be difficult.

EDIT I'm not trying to protect my assemblies or source-code. I'm trying to prevent someone from, for example, watching my protocol with WireShark or similar and then making their own implementation based on that information.

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How about using some encryption? – zerkms May 28 '12 at 20:16
@zerkms: Suggested that already in my question – caesay May 28 '12 at 20:17
@caesay: why do you think using some available encryption is difficult, but inventing a new one is easy? – zerkms May 28 '12 at 20:17
security through obscurity does not exist. At best you can encrypt the connection (ssl etc), but if some has a copy of the client application that is pointless. How much do game manufacturers invest in this? and how long does it take crackers to break in? – Marc Gravell May 28 '12 at 20:18
@AdamHouldsworth: I'm not talking about my source-code. – caesay May 28 '12 at 20:19
up vote 7 down vote accepted

All right, three cases:

  • Users can't access server code and can't access client code: Easiest way is to use a pregenerated shared secret stored in the binary, and aes encrypt/decrypt.

  • Users can access client or server code but not both: Use a public/private key method. You can encrypt using the public key but the private one is needed to decrypt.

  • Users can access both client and server code: You're screwed.

If you want to improve security, this static key should only be used during session initiation, to generate a new shared secret, which is then used for communication.

Edit: actually, a more easy and safe solution is to use ssl and certificates (it's a mantra that you shouldn't implement your own encryption) Each certificate comes with a secret private key. As long as users don't have access to that you're safe if you verify that the peer has the exact correct certificate.

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Is there actually a case in which clients cannot access client code? – Dmitri Budnikov May 28 '12 at 20:34
@Cicada: That's what I was asking myself, too. Does not negate the fact that this is a good answer. – caesay May 28 '12 at 20:36
@caesay Never said it wasn't. – Dmitri Budnikov May 28 '12 at 20:38
@Cicada Certainly, if you stick it in your black box hardware. E.g. any current gen game console (granted, they can and have been broken into) – Per Johansson May 28 '12 at 20:39

For having reversed a few network protocols (from MMOs), I can tell you that you will never protect your protocol for very long, I'm sorry.

The best you can do is:

  • Obfuscate it using a custom algorithm (because it takes longer to reverse than a known one). Using a known encryption scheme offers no protection whatsoever.
  • Add noise. Try to be very, very confusing. Add random values that make no sense whatsoever. Try to use a dynamic layout for packets. Move fields. Send useless packets. Just like if it were garbage.
  • Version your protocol, so that two consecutive version are incompatible. That can be hard to do, but it obliges the reverser to re-do the work for every subsequent version.

But these are just ways to slow down attackers. It's certainly not going to stop them.

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@Cicada You assume finding the key is easier than reverse engineering some source code. I prefer to trust a security specialist's implementation other than my own for encryption. – Adam Houldsworth May 28 '12 at 20:26
@Cicada I am afraid that your argument is nothing more than an assumption. I would farm this part of the system off to someone who knows, personally. – Adam Houldsworth May 28 '12 at 20:28
@Cicada Or simply extracting it and re-using it without actually having to re-implement it. Six and two-threes from my ignorant perspective. – Adam Houldsworth May 28 '12 at 20:31
@Adam: I think you are missing the fact that the encryption is not there for transport security, but for protocol obfuscation. However, you're right that the protocol does not even need to be reversed to break it, as you can just extract the original routines to implement it. In so far, I agree that this is just another case where obscurity doesn't buy you much, but has large costs (implementing and maintaining the custom protocol) – Niklas B. May 28 '12 at 20:33
I'd love to see how you make an algorithm in code so obscure that someone couldn't reverse engineer it to see how it works in a disproportionate amount of time to make it not worthwhile. The entire algorithm could boil down to one code file at the end of the day. – Adam Houldsworth May 28 '12 at 20:35

There are three solutions:

  1. TLS.
  2. SSLv3.
  3. Whatever you cook up.

1 and 2 already work.

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I am also in the process of writing a network protocol in C#. I have made use of encryption to secure the protocol. Here is the outlay of how I did it, you might find this useful.

  • As soon as the client connects the server requests a random UUID from the client, the client encrypts this UUID with a password know to both the server and client.
  • All packets sent thereafter by the server or client will encrypted using that UUID as a key.

Regarding "I was thinking some kind of strange hashing approach", hashing is usually only used for data verification. i.e. to ensure it was not modified en-route to you.

Hope this helps.

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