{-| Module: Elocrypt.Passowrd Description: Generate pronouncable, hard-to-guess passwords Copyright: (c) Sean Gillespie, 2015 License: OtherLicense Maintainer: Sean Gillespie Stability: Experimental Generate easy-to-remember, hard-to-guess passwords -} module Data.Elocrypt where import Data.Elocrypt.Trigraph import Control.Monad import Control.Monad.Random hiding (next) import Data.Maybe import System.Random hiding (next) -- * Random password generators -- |Generate a password using the generator g, returning the result and the -- updated generator. -- -- @ -- -- Generate a password of length 10 using the system generator -- myGenPassword :: IO (String, StdGen) -- myGenPassword = genPassword 10 \`liftM\` getStdGen -- @ genPassword :: RandomGen g => Int -- ^ password length -> g -- ^ random generator -> (String, g) genPassword = runRand . mkPassword -- |Plural version of genPassword. Generates an infinite list of passwords -- using the generator g, returning the result and the updated generator. -- -- @ -- -- Generate 10 passwords of length 10 using the system generator -- myGenPasswords :: IO ([String], StdGen) -- myGenPasswords = (\(ls, g) -> (take 10 ls, g) `liftM` genPasswords 10 `liftM` getStdGen -- @ genPasswords :: RandomGen g => Int -- ^ password length -> g -- ^ random generator -> ([String], g) genPasswords = runRand . mkPasswords -- |Generate a password using the generator g, returning the result. -- -- @ -- -- Generate a password of length 10 using the system generator -- myNewPassword :: IO String -- myNewPassword = newPassword 10 \`liftM\` getStdGen -- @ newPassword :: RandomGen g => Int -- ^ password length -> g -- ^ random generator -> String newPassword = evalRand . mkPassword -- |Plural version of newPassword. Generates an infinite list of passwords -- using the generator g, returning the result -- -- @ -- -- Generate 10 passwords of length 10 using the system generator -- myNewPasswords :: IO [String] -- myNewPasswords = (take 10 . genPasswords 10) `liftM` getStdGen -- @ newPasswords :: RandomGen g => Int -- ^ password length -> g -- ^ random generator -> [String] newPasswords = evalRand . mkPasswords -- |Generate a password using the MonadRandom m. MonadRandom is exposed here -- for extra control. -- -- @ -- -- Generate a password of length 10 using the system generator -- myPasswords :: IO String -- myPasswords = evalRand (mkPassword 10) \`liftM\` getStdGen -- @ mkPassword :: MonadRandom m => Int -- ^ password length -> m String mkPassword len = reverse `liftM` first2 >>= (flip lastN) (len - 2) >>= return . reverse -- |Plural version of mkPassword. Generate an infinite list of passwords using -- the MonadRandom m. MonadRandom is exposed here for extra control. -- -- @ -- -- Generate an infinite list of passwords of length 10 using the system generator -- myMkPasswords :: IO [String] -- myMkPasswords = evalRand (mkPasswords 10) \`liftM\` getStdGen -- @ mkPasswords :: MonadRandom m => Int -- ^ password length -> m [String] mkPasswords = sequence . repeat . mkPassword -- |The alphabet we sample random values from alphabet :: [Char] alphabet = ['a'..'z'] -- * Internal -- |Generate two random characters first2 :: MonadRandom m => m String first2 = sequence . take 2 . repeat . uniform $ alphabet -- |Generate a random character based on the previous two characters and -- their 'Elocrypt.Trigraph.trigraph' next :: MonadRandom m => String -> m Char next (x:xs:_) = fromList . zip ['a'..'z'] . fromJust . findFrequency $ [xs,x] -- |Generate the last n characters using previous two characters -- and their 'Elocrypt.Trigraph.trigraph' lastN :: MonadRandom m => String -> Int -> m String lastN ls 0 = return ls lastN ls len = next ls >>= (flip lastN) (len - 1) . (flip (:)) ls