At the moment I am trying to crack the TEA block cipher in C. It is an assignment and the tea cipher has been weakend so that the key is 2 16-bit numbers.

We have been given the code to encode plaintext using the key and to decode the cipher text with the key also.

I have the some plaintext examples:

- plaintext(1234,5678) encoded (3e08,fbab)
- plaintext(6789,dabc) encoded (6617,72b5)

### Update

The encode method takes in plaintext and a key, encode(plaintext,key1). This occurs again with another key to create the encoded message, encode(ciphertext1,key), which then creates the encoded (3e08,fbab) or encoded (6617,72b5).

How would I go about cracking this cipher?

At the moment, I encode the known plaintext with every possible key; the key size being hex value ffffffff. I write this to file.

But now I am stuck and in need of direction.

How could I use the TEA's weakness of equivalent keys to lower the amount of time it would take to crack the cipher? Also, I am going to use a man in the middle attack.

As when I encode with known plaintext and all key 1s it will create all the encrypted text with associated key and store it in a table.

Then I will decrypt with the known ciphertext that is in my assignment with all the possible values of key2. This will leave me with a table of decrypts that has only been decrypted once.

I can then compare the 2 tables together to see if any of encrpts with key1 match the decrypts with key2.

I would like to use the equilenvent weakness as well, if someone could help me with implmenting this in code that would be great. Any ideas?