# What level of encryption is this in Bouncy Castle

I came across some code for encrypting data using Bouncy Castle but I couldn't find any documentation that would indicate what kind of algorithm is being used to encrypt data or how many bits are used for the key. I also couldn't find a discussion forum for Bouncy Castle. Does anyone know what algorithm this is using and how many bits for the key?

``````BlowfishEngine blowfishEngine = new BlowfishEngine();
CBCBlockCipher cbcBlockCipher = new CBCBlockCipher(blowfishEngine);

KeyParameter key = new KeyParameter(key);

cipher.init(true, key);

int size = cipher.getOutputSize(data.length);
byte[] result = new byte[size];
int olen = cipher.processBytes(data, 0, data.length, result, 0);
olen += cipher.doFinal(result, olen);

if (olen < size)
{
byte[] tmp = new byte[olen];
System.arraycopy(result, 0, tmp, 0, olen);
result = tmp;
}
``````
-
Well, the algorithm itself is - obviously - Blowfish. And the size of the key depends on the size of the key given to the `KeyParameter` constructor. The documentation for the packages can be found here: bouncycastle.org/docs/docs1.5on/index.html (although your java code is not working because you introduce a second variable named `key`). –  DaDaDom Feb 5 '13 at 10:36
Thanks. I reduced the size of the code here and moved a few things around to be condensed here. It does work in my original source files. I'm not experienced in encryption so I had no idea that Blowfish is an algorithm, even though I read the description of the class on Bouncy Castle's website. So if the person enters a key of 8 characters, that means the data is encrypted with 64 bits (1 byte per character)? So if they wanted to have 256 bits, they'd have to enter in 32 characters? –  AndroidDev Feb 5 '13 at 10:46
Well, I guess so, but it should all be possible to get from the API docs I linked. –  DaDaDom Feb 5 '13 at 11:29
That said, it is not very performant when it comes to rekeying operations (it takes forever to rekey, which is why it's key schedule is the basis for bcrypt). Your best bet is to use AES-256 (swap out `BlowfishEngine` for `AESEngine`).