# Breaking a Modified Vigenere Cipher

Im working on an algorithm to break a modified Vigenere Cipher. The regular Vigenere cipher works in the following way:

``````Plaintext: ATTACKATDAWN
Key: LEMONLEMONLE
Ciphertext: LXFOPVEFRNHR
``````

Regular Version

``````CR[i] = (P[i] - 33 + K[i]) mod 94 + 33
``````

Modified Version

``````CM[i] = (P[i] - 33 + K[i] + CM[i-1] - 33) mod 94 + 33
``````

Notice how the modified version uses previous state/character to generate the new one. My theory to break it is to reverse the modified version back to the regular Vigenere cipher. This way I can apply some frequency analysis and other methods. I need to somehow rearrange that equation such that I have "previousC" on the LHS with C. Since both C and previousC are known values it should be easy to do the reversal (starting with the first character).

My only problem is, how do I rewrite the equation in terms of C and previousC? If someone could point that out that would help a lot.

-

`CR` represents the regular Viginere ciphertext, `CM` the modified Viginere ciphertext

``````CR[i] = (P[i] + K[i]) mod 26
CM[i] = (P[i] + K[i] + CM[i-1]) mod 26
= (CR[i] + CM[i-1]) mod 26
``````

Now simply solve for the original ciphertext `CR`

``````CR[i] = (CM[i] - CM[i-1]) mod 26
``````

Once you have the regular ciphertext, break it as usual.

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I was just trying to implement this and seem to be stuck once again. I updated the formulas from the simple version to the real ones (with offsets) since my language starts from the character "!" and ends at "~". Is it possible you can show me the CR[i] solution for this? –  1337holiday Dec 1 '12 at 23:47