# This file is licensed under the BSD 2-Clause License. # See https://opensource.org/licenses/BSD-2-Clause for details. from ._curve import _Curve from Crypto.Math.Numbers import Integer from Crypto.Util._raw_api import (load_pycryptodome_raw_lib, VoidPointer, SmartPointer) def ed25519_curve(): p = 0x7fffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffed # 2**255 - 19 order = 0x1000000000000000000000000000000014def9dea2f79cd65812631a5cf5d3ed Gx = 0x216936d3cd6e53fec0a4e231fdd6dc5c692cc7609525a7b2c9562d608f25d51a Gy = 0x6666666666666666666666666666666666666666666666666666666666666658 _ed25519_lib = load_pycryptodome_raw_lib("Crypto.PublicKey._ed25519", """ typedef void Point; int ed25519_new_point(Point **out, const uint8_t x[32], const uint8_t y[32], size_t modsize, const void *context); int ed25519_clone(Point **P, const Point *Q); void ed25519_free_point(Point *p); int ed25519_cmp(const Point *p1, const Point *p2); int ed25519_neg(Point *p); int ed25519_get_xy(uint8_t *xb, uint8_t *yb, size_t modsize, Point *p); int ed25519_double(Point *p); int ed25519_add(Point *P1, const Point *P2); int ed25519_scalar(Point *P, const uint8_t *scalar, size_t scalar_len, uint64_t seed); """) class EcLib(object): new_point = _ed25519_lib.ed25519_new_point clone = _ed25519_lib.ed25519_clone free_point = _ed25519_lib.ed25519_free_point cmp = _ed25519_lib.ed25519_cmp neg = _ed25519_lib.ed25519_neg get_xy = _ed25519_lib.ed25519_get_xy double = _ed25519_lib.ed25519_double add = _ed25519_lib.ed25519_add scalar = _ed25519_lib.ed25519_scalar ed25519 = _Curve(Integer(p), None, Integer(order), Integer(Gx), Integer(Gy), None, 255, "1.3.101.112", # RFC8410 None, "Ed25519", "ssh-ed25519", EcLib) return ed25519 def ed448_curve(): p = 0xfffffffffffffffffffffffffffffffffffffffffffffffffffffffeffffffffffffffffffffffffffffffffffffffffffffffffffffffff # 2**448 - 2**224 - 1 order = 0x3fffffffffffffffffffffffffffffffffffffffffffffffffffffff7cca23e9c44edb49aed63690216cc2728dc58f552378c292ab5844f3 Gx = 0x4f1970c66bed0ded221d15a622bf36da9e146570470f1767ea6de324a3d3a46412ae1af72ab66511433b80e18b00938e2626a82bc70cc05e Gy = 0x693f46716eb6bc248876203756c9c7624bea73736ca3984087789c1e05a0c2d73ad3ff1ce67c39c4fdbd132c4ed7c8ad9808795bf230fa14 _ed448_lib = load_pycryptodome_raw_lib("Crypto.PublicKey._ed448", """ typedef void EcContext; typedef void PointEd448; int ed448_new_context(EcContext **pec_ctx); void ed448_context(EcContext *ec_ctx); void ed448_free_context(EcContext *ec_ctx); int ed448_new_point(PointEd448 **out, const uint8_t x[56], const uint8_t y[56], size_t len, const EcContext *context); int ed448_clone(PointEd448 **P, const PointEd448 *Q); void ed448_free_point(PointEd448 *p); int ed448_cmp(const PointEd448 *p1, const PointEd448 *p2); int ed448_neg(PointEd448 *p); int ed448_get_xy(uint8_t *xb, uint8_t *yb, size_t len, const PointEd448 *p); int ed448_double(PointEd448 *p); int ed448_add(PointEd448 *P1, const PointEd448 *P2); int ed448_scalar(PointEd448 *P, const uint8_t *scalar, size_t scalar_len, uint64_t seed); """) class EcLib(object): new_point = _ed448_lib.ed448_new_point clone = _ed448_lib.ed448_clone free_point = _ed448_lib.ed448_free_point cmp = _ed448_lib.ed448_cmp neg = _ed448_lib.ed448_neg get_xy = _ed448_lib.ed448_get_xy double = _ed448_lib.ed448_double add = _ed448_lib.ed448_add scalar = _ed448_lib.ed448_scalar ed448_context = VoidPointer() result = _ed448_lib.ed448_new_context(ed448_context.address_of()) if result: raise ImportError("Error %d initializing Ed448 context" % result) context = SmartPointer(ed448_context.get(), _ed448_lib.ed448_free_context) ed448 = _Curve(Integer(p), None, Integer(order), Integer(Gx), Integer(Gy), None, 448, "1.3.101.113", # RFC8410 context, "Ed448", None, EcLib) return ed448