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We were asked to write a Java implementation of the DES algorithm (which is used for encryption and decryption). I had a couple of questions:

  1. DES specifies that there should be 64 bits of plain text or cipher text and an exactly 56 bit shared key. what is the method that gives the number of bytes ,

  2. The algorithm uses a lot of bit level manipulations, such as splitting the 64 bits into two 32 bit sections. How can this be done?

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I'm sure harry will respond soon... :P –  st0le Dec 7 '10 at 6:36
Well what have you tried, and why isn't it working? Since this is homework you need to ask for small and very specific questions. Nobody can read your mind. –  GregS Dec 7 '10 at 13:34
i did read 1 and 2 –  Green Dec 8 '10 at 10:22

3 Answers 3

Although this is not really an answer to your question, I have to say it:

Implementing encryption algorithms yourself is a really bad idea in most cases.

Let me explain:

  1. Cryptography is hard. There are few people that understand it good enough to invent their own algorithms and even they seek the help of others to verify, that it is not breakable in a second.

  2. Even when using an existing algorithm that is proven to be good enough for ones intentions, it's still a bad idea, because there are more than enough possibilities for subtle errors, that break the implementation of a otherwise safe algorithm. That has happened so many times, that I lost count of how often.

  3. And even if you are really lucky and diligent and pull a perfect implementation, it's a waste of time and resources not tu use an existing implementation that has already been developed and tested and proven.

And a word about DES, although I hope you know that: Pure DES is considered really weak for todays standard. So you should implement 3DES which is better.

Edit: OK, after all that talking, and after realizing that this seems to be a homework assignment (thanks for the heads up), I dug a little into DES. Here's what I got so far:

DES is a block cipher, operating on 64 bit Blocks. There are several different modes of operation. They do determine how the clear text is to be devided into the 64 bit blocks. Some of the modes require padding, that means you fill the last block with data, that you can remove after decrypting the cipher text. The Padding paragraph in the Wikipedia article above contains a description about how padding was used in DES.

So much for the theory, how to go about that in Java...

byte[] bytesOfString = clearTextString.getBytes();

That gives you an array of byte for the string you have to encrypt. The rest is simple counting and adding...

I hope this revised answer is more useful to you.

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i suppose that anybody can't understands 3des unless he under stands des :) –  Green Dec 7 '10 at 13:05
thank you so much dear, i liked your explanation ;) –  Green Dec 8 '10 at 3:39

Can't you use already existing bouncycastle library: http://www.bouncycastle.org/docs/docs1.6/index.html ?

You will find many examples of usage of this library in "Beginning Cryptography with Java" by David Hook.

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Doesn't answer the question. He wants you to do his homework. –  GregS Dec 7 '10 at 13:32
  1. You should know by now that 8 bits = 1 byte. Everything in crypto works on bits, you never really need bytes except to define a buffer.

  2. Splitting uses bitwise operations. Mask off the top bits for the bottom half, shift over the top bits for the top half. I assume you have the reference already, and while they're an invaluable resource, you absolutely have to know how bitwise ops work. A good resource that won't spoil the project is a compression algorithm, such as CABAC, since they're likewise bit-oriented. Then close the tab and try to use the spec to make your own.

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