License | BSD-style |
---|---|
Maintainer | Vincent Hanquez <vincent@snarc.org> |
Stability | experimental |
Portability | unknown |
Safe Haskell | None |
Language | Haskell2010 |
Elliptic Curve Cryptography
Synopsis
- data Curve_P256R1 = Curve_P256R1
- data Curve_P384R1 = Curve_P384R1
- data Curve_P521R1 = Curve_P521R1
- data Curve_X25519 = Curve_X25519
- data Curve_X448 = Curve_X448
- data Curve_Edwards25519 = Curve_Edwards25519
- class EllipticCurve curve where
- type Point curve :: Type
- type Scalar curve :: Type
- curveGenerateScalar :: MonadRandom randomly => proxy curve -> randomly (Scalar curve)
- curveGenerateKeyPair :: MonadRandom randomly => proxy curve -> randomly (KeyPair curve)
- curveSizeBits :: proxy curve -> Int
- encodePoint :: ByteArray bs => proxy curve -> Point curve -> bs
- decodePoint :: ByteArray bs => proxy curve -> bs -> CryptoFailable (Point curve)
- class EllipticCurve curve => EllipticCurveDH curve where
- ecdhRaw :: proxy curve -> Scalar curve -> Point curve -> SharedSecret
- ecdh :: proxy curve -> Scalar curve -> Point curve -> CryptoFailable SharedSecret
- class EllipticCurve curve => EllipticCurveArith curve where
- data KeyPair curve = KeyPair {
- keypairGetPublic :: !(Point curve)
- keypairGetPrivate :: !(Scalar curve)
- newtype SharedSecret = SharedSecret ScrubbedBytes
Documentation
data Curve_P256R1 Source #
P256 Curve
also known as P256
Instances
data Curve_P384R1 Source #
Instances
data Curve_P521R1 Source #
Instances
data Curve_X25519 Source #
Instances
data Curve_X448 Source #
Instances
data Curve_Edwards25519 Source #
Instances
class EllipticCurve curve where Source #
type Point curve :: Type Source #
Point on an Elliptic Curve
type Scalar curve :: Type Source #
Scalar in the Elliptic Curve domain
curveGenerateScalar :: MonadRandom randomly => proxy curve -> randomly (Scalar curve) Source #
Generate a new random scalar on the curve. The scalar will represent a number between 1 and the order of the curve non included
curveGenerateKeyPair :: MonadRandom randomly => proxy curve -> randomly (KeyPair curve) Source #
Generate a new random keypair
curveSizeBits :: proxy curve -> Int Source #
Get the curve size in bits
encodePoint :: ByteArray bs => proxy curve -> Point curve -> bs Source #
Encode a elliptic curve point into binary form
decodePoint :: ByteArray bs => proxy curve -> bs -> CryptoFailable (Point curve) Source #
Try to decode the binary form of an elliptic curve point
Instances
class EllipticCurve curve => EllipticCurveDH curve where Source #
ecdhRaw :: proxy curve -> Scalar curve -> Point curve -> SharedSecret Source #
Generate a Diffie hellman secret value.
This is generally just the .x coordinate of the resulting point, that is not hashed.
use pointSmul
to keep the result in Point format.
WARNING: Curve implementations may return a special value or an
exception when the public point lies in a subgroup of small order.
This function is adequate when the scalar is in expected range and
contributory behaviour is not needed. Otherwise use ecdh
.
ecdh :: proxy curve -> Scalar curve -> Point curve -> CryptoFailable SharedSecret Source #
Generate a Diffie hellman secret value and verify that the result is not the point at infinity.
This additional test avoids risks existing with function ecdhRaw
.
Implementations always return a CryptoError
instead of a special
value or an exception.
Instances
class EllipticCurve curve => EllipticCurveArith curve where Source #
pointAdd :: proxy curve -> Point curve -> Point curve -> Point curve Source #
Add points on a curve
pointNegate :: proxy curve -> Point curve -> Point curve Source #
Negate a curve point
pointSmul :: proxy curve -> Scalar curve -> Point curve -> Point curve Source #
Scalar Multiplication on a curve
Instances
An elliptic curve key pair composed of the private part (a scalar), and the associated point.
KeyPair | |
|