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I'm trying to use Crypto.Cipher.RSA. Is there any documentation out there other than the hackage page? Ideally, is there anywhere I can see a round-trip example of both the encrypt/decrypt and sign/verify processes?

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2 Answers 2

up vote 6 down vote accepted

Your question worries me. Perhaps I am too familiar with Vincent's work, but I feel that if you understand the operations then using the library would be straight forward or you would at least have very specific questions. Below, I walk through the two examples you requested and try to stop and explain for each item that might be a "curve ball".

{-# LANGUAGE OverloadedStrings #-}
module Main where

import Crypto.Cipher.RSA
import Crypto.Random.AESCtr
import Crypto.Random
import qualified Data.ByteString.Char8 as B
import Crypto.Hash.SHA256 (hash)

The packages we draw on are: cryptocipher (which you could have mentioned in your question), cprng-aes (for a secure random number generator), crypto-api (an interface to crypto routines, but we'll limit ourselves to just the RNG interface), bytestring, and cryptohash (sign/verify operations are typically parameterizable by hash function).

Now lets encrypt and decrypt a string, then verify this is identity.

main = do
    g <- newGenIO :: IO AESRNG

The crypto-api interface is used for random number generation. Because this is an overloaded function we explicitly specify the desired type of random number generator, AESRNG.

    let Right ((pub,priv),g1) = generate g (512 {- number of bits large -}) (3 {- a prime -})
        msg = "This is my message"
        Right (ct,g2) = encrypt g1 pub msg

Generating the key requires the bit size (we used an rather low value for this demo, 512 bits) and any prime over two will do for generation, I just picked 3.

    print $ decrypt priv ct
    print $ decrypt priv ct == Right msg

The result is as expected:

Right "This is my message"

Signing is not much different, just get a RNG, generate keys, and when you sign be sure to specify the hash function and any meta data you would like to bind. I selected SHA256 (see the import above) and no metadata (B.empty).

let Right sig = sign hash B.empty priv msg
print (verify hash B.empty pub msg sig)

The result is Right True.

I expect most users will make their own functions for some of these operations.

mySign q msg = sign hash B.empty q msg
myVerify p msg sig = verify hash B.empty p msg sig

Some things I think Vincent and I can do to help people in the future (please suggest additions to this list):

  • Not everyone follows the haddock link from CryptoRandomGen to the crypto-api and those that do could probably use a pointer to the cprng-aes and drbg packages.

  • Document all functions with examples (examples of poor documentation: The Integer value for generation? I read the source. The order of the two ByteString values for verify? I guessed convention and read the source to confirm.)

  • Provide a tutorial like this in Vincent's module.

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You could have a look at the benchmarks and tests that come with that package (browseable source).

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