{-# LANGUAGE ConstraintKinds, DataKinds, DeriveDataTypeable, FlexibleContexts, FlexibleInstances, MultiParamTypeClasses, NoImplicitPrelude, PolyKinds, ScopedTypeVariables, TupleSections, TypeFamilies, UndecidableInstances #-} -- | Provides an interface for "gadgets" that allow for decomposition -- and error correction. module Crypto.Lol.Gadget ( Gadget(..), Decompose(..), Correct(..) , TrivGad, BaseBGad ) where import Crypto.Lol.LatticePrelude import Control.Applicative import Data.Typeable -- | Dummy type representing the gadget @[1]@. data TrivGad deriving (Typeable) -- | Dummy type representing the gadget @[1,b,b^2,...]@. data BaseBGad b deriving (Typeable) -- | "Gadget" vectors, parameterized by an index type. class Ring u => Gadget gad u where -- | The gadget vector over @u@. gadget :: Tagged gad [u] -- | Yield an error-tolerant encoding of an element, using the gadget. encode :: u -> Tagged gad [u] encode s = ((* s) <$>) <$> gadget -- | Decomposition relative to a gadget. class (Gadget gad u, Reduce (DecompOf u) u) => Decompose gad u where -- | The ring that @u@ decomposes over. type DecompOf u -- | Yield a short vector @x@ such that @\<g, x\> = u@. decompose :: u -> Tagged gad [DecompOf u] -- | Error correction relative to a gadget. class Gadget gad u => Correct gad u where -- | Correct a "noisy" encoding of an element (see 'encode'). correct :: Tagged gad [u] -> u -- instances for products instance (Gadget gad a, Gadget gad b) => Gadget gad (a,b) where gadget = (++) <$> (map (,zero) <$> gadget) <*> (map (zero,) <$> gadget) instance (Decompose gad a, Decompose gad b, DecompOf a ~ DecompOf b) => Decompose gad (a,b) where type DecompOf (a,b) = DecompOf a decompose (a,b) = (++) <$> decompose a <*> decompose b -- TODO: need some extra constraints on a,b, like Mod and maybe Rescale. -- instance (Correct gad a, Correct gad b) => Correct gad (a,b) where {- CJP: strawman class for the more general view of LWE secrets as "module characters," i.e., module homomorphisms into a particular range. This is probably wrong, though. class Character u where -- Module superclass(es)? type CharRange u data Char u -- need data for injectivity evalChar :: Char u -> u -> CharRange u class (Gadget gad u, Character u) => Correct gad u where -- | Correct a "noisy" encoding of an LWE secret (i.e., a -- 'ModuleHomom' on 'u'). correct :: Tagged gad [CharRange u] -> Char u encode :: (Correct gad u) => Char u -> Tagged gad [CharRange u] encode s = pasteT $ evalMH s <$> peelT gadget -}