# PyCrypto: How much random data is considered secure?

I'm using the RSA implementation in PyCrypto. With regard to the encrypt(self, plaintext, K) method K is a parameter of random data. I want to know how much random data needs to be passed in order for the encryted data to be considered secure. For example in my implementation I am passing a strong prime number of 1024 bits via the Crypto.Util.number module like so:

``````enc_data = public_key.encrypt(data, number.getPrime(1024))
``````

Is this considered 'secure enough'?

Thanks

-
Are you using the Crypto.PublicKey.RSA module? I don't see a class in it that seems to fit the rest of your question. – Tom Zych Aug 27 '11 at 17:46
@Tom Yes, I'm using Crypto.PublicKey.RSA. In the docs it talks about using the Crypto.Util.number module to generate a prime number of a suitable length. My question is focusing on what is considered a "suitable" or "secure" length. – Imran Azad Aug 27 '11 at 17:51
I downloaded the package but now I can't find the source code for that class. I must be losing my mind. – James K Polk Aug 27 '11 at 17:52
@Greg are you looking for the number class? it's in Lib\site-packages\Crypto\Util – Imran Azad Aug 27 '11 at 17:54
Ok, I'm guessing that you created a `Crypto.PublicKey.RSA._RSAobj`, then called its `publickey` method to get your `public_key` object, which would therefore be of class `pubkey`? Whether I'm right or not, please add that stuff to the code above for clarity. – Tom Zych Aug 27 '11 at 17:58

The RSA implementation does not use the K parameter. You may ignore it; the RSA implemention does.

Looking at lines 59-60 of `pycrypto-2.3/lib/Crypto/PublicKey/RSA.py` you see the following:

``````def _encrypt(self, c, K):
return (self.key._encrypt(c),)
``````

Which proves that `K`, if supplied, is ignored.

-
Thanks much appreciated. – Imran Azad Aug 27 '11 at 18:25
Do you have a reference for that please? – Imran Azad Aug 27 '11 at 18:27
Thanks Greg, that's great. – Imran Azad Aug 27 '11 at 19:56

I think you're mixing up two different concepts. You have to come up with two large random primes to make a secret key, then compute a public key from it. I'm not sure where that's done here, maybe when you create the `_RSAobj`.

Then, when you go to encrypt some data with the public key, the docs say "`K` is a random parameter required by some algorithms." I'm pretty sure that means that `K` will be used to generate a session key.

RSA is far too slow to encrypt large amounts of data, so the usual practice is to generate a random session key, use that to encrypt the data with a fast symmetric algorithm such as AES, then use RSA to encrypt the session key. The recipient uses their secret key to get the session key, then uses that to decrypt the data.

So, you need a nice random session key that is hard to guess; and its length depends on the symmetric algorithm you're using. Offhand, I'd say 1024 bits is probably enough (overkill, really, but it doesn't hurt).

-
Thanks, really appreciate that. – Imran Azad Aug 27 '11 at 18:14