{-| Generic cryptographic block primtives and their implementations. This module exposes low-level generic code used in the raaz system. Most likely, one would not need to stoop so low and it might be better to use a more high level interface. -} {-# LANGUAGE TypeFamilies #-} {-# LANGUAGE MultiParamTypeClasses #-} {-# LANGUAGE GeneralizedNewtypeDeriving #-} {-# LANGUAGE FlexibleContexts #-} {-# LANGUAGE CPP #-} {-# LANGUAGE ConstraintKinds #-} {-# LANGUAGE ExistentialQuantification #-} module Raaz.Core.Primitives ( -- * Primtives and their implementations. Primitive(..), BlockAlgorithm(..), Key, Recommendation(..) , BLOCKS, blocksOf , allocBufferFor ) where import Data.Monoid import Prelude import Raaz.Core.Types -- | Implementation of block primitives work on buffers. Often for optimal -- performance, and in some case for safety, we need restrictions on -- the size and alignment of the buffer pointer. This type class -- captures such restrictions. class Describable a => BlockAlgorithm a where -- | The alignment expected for the buffer pointer. bufferStartAlignment :: a -> Alignment ----------------------- A primitive ------------------------------------ -- | The type class that captures an abstract block cryptographic -- primitive. Bulk cryptographic primitives like hashes, ciphers etc -- often acts on blocks of data. The size of the block is captured by -- the member `blockSize`. -- -- As a library, raaz believes in providing multiple implementations -- for a given primitive. The associated type `Implementation` -- captures implementations of the primitive. -- -- For use in production code, the library recommends a particular -- implementation using the `Recommendation` class. By default this is -- the implementation used when no explicit implementation is -- specified. class BlockAlgorithm (Implementation p) => Primitive p where -- | The block size. blockSize :: p -> BYTES Int -- | Associated type that captures an implementation of this -- primitive. type Implementation p :: * -- | Primitives that have a recommended implementations. class Primitive p => Recommendation p where -- | The recommended implementation for the primitive. recommended :: p -> Implementation p -- | Allocate a buffer a particular implementation of a primitive prim. -- algorithm @algo@. It ensures that the memory passed is aligned -- according to the demands of the implementation. allocBufferFor :: Primitive prim => Implementation prim -> BLOCKS prim -> (Pointer -> IO b) -> IO b allocBufferFor imp l = allocaAligned (bufferStartAlignment imp) l -- | Some primitives like ciphers have an encryption/decryption key. This -- type family captures the key associated with a primitive if it has -- any. type family Key prim :: * ------------------- Type safe lengths in units of block ---------------- -- | Type safe message length in units of blocks of the primitive. -- When dealing with buffer lengths for a primitive, it is often -- better to use the type safe units `BLOCKS`. Functions in the raaz -- package that take lengths usually allow any type safe length as -- long as they can be converted to bytes. This can avoid a lot of -- tedious and error prone length calculations. newtype BLOCKS p = BLOCKS {unBLOCKS :: Int} deriving (Show, Eq, Ord, Enum, Real, Num, Integral) instance Monoid (BLOCKS p) where mempty = BLOCKS 0 mappend x y = BLOCKS $ unBLOCKS x + unBLOCKS y instance Primitive p => LengthUnit (BLOCKS p) where inBytes p@(BLOCKS x) = scale * blockSize (getPrimitiveType p) where scale = BYTES x getPrimitiveType :: BLOCKS p -> p getPrimitiveType _ = undefined -- | The expression @n `blocksOf` p@ specifies the message lengths in -- units of the block length of the primitive @p@. This expression is -- sometimes required to make the type checker happy. blocksOf :: Int -> p -> BLOCKS p blocksOf n _ = BLOCKS n