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I am working on a third party client for Apple Remote Desktop. But I am stuck on its authentication process.

From Remote Desktop manual: Authentication to Apple Remote Desktop clients uses an authentication method which is based on a Diffie-Hellman Key agreement protocol that creates a shared 128-bit key. This shared key is used to encrypt both the name and password using the Advanced Encryption Standard (AES). The Diffie-Hellman Key agreement protocol used in ARD 2 is very similar to the Diffie-Hellman Key agreement protocol used in personal file sharing, with both of them using a 512-bit prime for the shared key calculation. With Remote Desktop 2, keystrokes and mouse events are encrypted when you control Mac OS X client computers. This information is encrypted using the Advanced Encryption Standard (AES) with the 128-bit shared key that was derived during authentication.

Does anyone know where I can find a bit more technical information about the Authentication process in ARD? Such as which AES mode it uses and what initialization vector. Thanks

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I am having trouble with generating the ciphertext and dh public key. Do have objective-c code for the ARD authentication process? I'm trying to create an input only ARD client for a home theatre on an iOS. –  Tom Dev Jan 26 '13 at 15:44
    
Were you able to get this to work. I'm trying to figure this out myself, but I can't figure how to do this with Objective C. Do you have any code you can share? Thanks –  Tom Dev Jul 29 '13 at 10:08

2 Answers 2

I ran into this exact problem recently. I couldn't find any detailed information beyond the high-level overview you mention, but I was able to figure out the technique based on my study of this C code from the gtk-vnc open source project. Basically, the steps are as follows:

  1. Read the authentication material from the socket. A two-byte generator value, a two-byte key length value, the prime modulus (keyLength bytes), and the peer's generated public key (keyLength bytes).
  2. Generate your own Diffie-Hellman public-private key pair.
  3. Perform Diffie-Hellman key agreement, using the generator (g), prime (p), and the peer's public key. The output will be a shared secret known to both you and the peer.
  4. Perform an MD5 hash of the shared secret. This 128-bit (16-byte) value will be used as the AES key.
  5. Pack the username and password into a 128-byte plaintext "credentials" structure: { username[64], password[64] }. Null-terminate each. Fill the unused bytes with random characters so that the encryption output is less predictable.
  6. Encrypt the plaintext credentials with the 128-bit MD5 hash from step 4, using the AES 128-bit symmetric cipher in electronic codebook (ECB) mode. Use no further padding for this block cipher.
  7. Write the ciphertext from step 6 to the stream. Write your generated DH public key to the stream.
  8. Check for authentication pass/fail as usual.

I don't have an Objective C implementation to share, but I have implemented this Java version which you may find useful to reference.

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David Simmons, thank you for these great information! –  wilson Oct 20 '12 at 0:21

Not sure if anyone still needs this, but here's a Objective C implementation of the ARD authentication process that I cobbled together a few months back and released on Github a few days ago.

It's based loosely on David's (thanks!) Java implementation but uses OpenSSL's encryption functions for the MD5 hashing and AES 128 encryption steps.

There's also the TinyVNC library that also implements ARD authentication, but using the Crypto++ library for encryption functions instead.

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