bakalarska_praca/wolfssl_hlavickove_subory/wolfssl/wolfcrypt/fe_operations.h

211 lines
7.5 KiB
C
Raw Normal View History

2020-03-11 21:01:54 +00:00
/* fe_operations.h
*
* Copyright (C) 2006-2019 wolfSSL Inc.
*
* This file is part of wolfSSL.
*
* wolfSSL is free software; you can redistribute it and/or modify
* it under the terms of the GNU General Public License as published by
* the Free Software Foundation; either version 2 of the License, or
* (at your option) any later version.
*
* wolfSSL is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
* GNU General Public License for more details.
*
* You should have received a copy of the GNU General Public License
* along with this program; if not, write to the Free Software
* Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1335, USA
*/
#ifndef WOLF_CRYPT_FE_OPERATIONS_H
#define WOLF_CRYPT_FE_OPERATIONS_H
#include <wolfssl/wolfcrypt/settings.h>
#if defined(HAVE_CURVE25519) || defined(HAVE_ED25519)
#if !defined(CURVE25519_SMALL) || !defined(ED25519_SMALL)
#include <stdint.h>
#endif
#include <wolfssl/wolfcrypt/types.h>
#if defined(USE_INTEL_SPEEDUP) && !defined(NO_CURVED25519_X64)
#define CURVED25519_X64
#elif defined(HAVE___UINT128_T) && !defined(NO_CURVED25519_128BIT)
#define CURVED25519_128BIT
#endif
#if defined(CURVED25519_X64)
#define CURVED25519_ASM_64BIT
#define CURVED25519_ASM
#endif
#if defined(WOLFSSL_ARMASM)
#ifdef __aarch64__
#define CURVED25519_ASM_64BIT
#else
#define CURVED25519_ASM_32BIT
#endif
#define CURVED25519_ASM
#endif
/*
fe means field element.
Here the field is \Z/(2^255-19).
An element t, entries t[0]...t[9], represents the integer
t[0]+2^26 t[1]+2^51 t[2]+2^77 t[3]+2^102 t[4]+...+2^230 t[9].
Bounds on each t[i] vary depending on context.
*/
#ifdef __cplusplus
extern "C" {
#endif
#if defined(CURVE25519_SMALL) || defined(ED25519_SMALL)
#define F25519_SIZE 32
WOLFSSL_LOCAL void lm_copy(byte*, const byte*);
WOLFSSL_LOCAL void lm_add(byte*, const byte*, const byte*);
WOLFSSL_LOCAL void lm_sub(byte*, const byte*, const byte*);
WOLFSSL_LOCAL void lm_neg(byte*,const byte*);
WOLFSSL_LOCAL void lm_invert(byte*, const byte*);
WOLFSSL_LOCAL void lm_mul(byte*,const byte*,const byte*);
#endif
#if !defined(FREESCALE_LTC_ECC)
WOLFSSL_LOCAL void fe_init(void);
WOLFSSL_LOCAL int curve25519(byte * q, byte * n, byte * p);
#endif
/* default to be faster but take more memory */
#if !defined(CURVE25519_SMALL) || !defined(ED25519_SMALL)
#ifdef CURVED25519_ASM_64BIT
typedef int64_t fe[4];
#elif defined(CURVED25519_ASM_32BIT)
typedef int32_t fe[8];
#elif defined(CURVED25519_128BIT)
typedef int64_t fe[5];
#else
typedef int32_t fe[10];
#endif
WOLFSSL_LOCAL void fe_copy(fe, const fe);
WOLFSSL_LOCAL void fe_add(fe, const fe, const fe);
WOLFSSL_LOCAL void fe_neg(fe,const fe);
WOLFSSL_LOCAL void fe_sub(fe, const fe, const fe);
WOLFSSL_LOCAL void fe_invert(fe, const fe);
WOLFSSL_LOCAL void fe_mul(fe,const fe,const fe);
/* Based On Daniel J Bernstein's curve25519 and ed25519 Public Domain ref10
work. */
WOLFSSL_LOCAL void fe_0(fe);
WOLFSSL_LOCAL void fe_1(fe);
WOLFSSL_LOCAL int fe_isnonzero(const fe);
WOLFSSL_LOCAL int fe_isnegative(const fe);
WOLFSSL_LOCAL void fe_tobytes(unsigned char *, const fe);
WOLFSSL_LOCAL void fe_sq(fe, const fe);
WOLFSSL_LOCAL void fe_sq2(fe,const fe);
WOLFSSL_LOCAL void fe_frombytes(fe,const unsigned char *);
WOLFSSL_LOCAL void fe_cswap(fe, fe, int);
WOLFSSL_LOCAL void fe_mul121666(fe,fe);
WOLFSSL_LOCAL void fe_cmov(fe,const fe, int);
WOLFSSL_LOCAL void fe_pow22523(fe,const fe);
/* 64 type needed for SHA512 */
WOLFSSL_LOCAL uint64_t load_3(const unsigned char *in);
WOLFSSL_LOCAL uint64_t load_4(const unsigned char *in);
#ifdef CURVED25519_ASM
WOLFSSL_LOCAL void fe_ge_to_p2(fe rx, fe ry, fe rz, const fe px, const fe py,
const fe pz, const fe pt);
WOLFSSL_LOCAL void fe_ge_to_p3(fe rx, fe ry, fe rz, fe rt, const fe px,
const fe py, const fe pz, const fe pt);
WOLFSSL_LOCAL void fe_ge_dbl(fe rx, fe ry, fe rz, fe rt, const fe px,
const fe py, const fe pz);
WOLFSSL_LOCAL void fe_ge_madd(fe rx, fe ry, fe rz, fe rt, const fe px,
const fe py, const fe pz, const fe pt,
const fe qxy2d, const fe qyplusx,
const fe qyminusx);
WOLFSSL_LOCAL void fe_ge_msub(fe rx, fe ry, fe rz, fe rt, const fe px,
const fe py, const fe pz, const fe pt,
const fe qxy2d, const fe qyplusx,
const fe qyminusx);
WOLFSSL_LOCAL void fe_ge_add(fe rx, fe ry, fe rz, fe rt, const fe px,
const fe py, const fe pz, const fe pt, const fe qz,
const fe qt2d, const fe qyplusx,
const fe qyminusx);
WOLFSSL_LOCAL void fe_ge_sub(fe rx, fe ry, fe rz, fe rt, const fe px,
const fe py, const fe pz, const fe pt, const fe qz,
const fe qt2d, const fe qyplusx,
const fe qyminusx);
WOLFSSL_LOCAL void fe_cmov_table(fe* r, fe* base, signed char b);
#endif /* CURVED25519_ASM */
#endif /* !CURVE25519_SMALL || !ED25519_SMALL */
/* Use less memory and only 32bit types or less, but is slower
Based on Daniel Beer's public domain work. */
#if defined(CURVE25519_SMALL) || defined(ED25519_SMALL)
static const byte c25519_base_x[F25519_SIZE] = {9};
static const byte f25519_zero[F25519_SIZE] = {0};
static const byte f25519_one[F25519_SIZE] = {1};
static const byte fprime_zero[F25519_SIZE] = {0};
static const byte fprime_one[F25519_SIZE] = {1};
WOLFSSL_LOCAL void fe_load(byte *x, word32 c);
WOLFSSL_LOCAL void fe_normalize(byte *x);
WOLFSSL_LOCAL void fe_inv__distinct(byte *r, const byte *x);
/* Conditional copy. If condition == 0, then zero is copied to dst. If
* condition == 1, then one is copied to dst. Any other value results in
* undefined behavior.
*/
WOLFSSL_LOCAL void fe_select(byte *dst, const byte *zero, const byte *one,
byte condition);
/* Multiply a point by a small constant. The two pointers are not
* required to be distinct.
*
* The constant must be less than 2^24.
*/
WOLFSSL_LOCAL void fe_mul_c(byte *r, const byte *a, word32 b);
WOLFSSL_LOCAL void fe_mul__distinct(byte *r, const byte *a, const byte *b);
/* Compute one of the square roots of the field element, if the element
* is square. The other square is -r.
*
* If the input is not square, the returned value is a valid field
* element, but not the correct answer. If you don't already know that
* your element is square, you should square the return value and test.
*/
WOLFSSL_LOCAL void fe_sqrt(byte *r, const byte *x);
/* Conditional copy. If condition == 0, then zero is copied to dst. If
* condition == 1, then one is copied to dst. Any other value results in
* undefined behavior.
*/
WOLFSSL_LOCAL void fprime_select(byte *dst, const byte *zero, const byte *one,
byte condition);
WOLFSSL_LOCAL void fprime_add(byte *r, const byte *a, const byte *modulus);
WOLFSSL_LOCAL void fprime_sub(byte *r, const byte *a, const byte *modulus);
WOLFSSL_LOCAL void fprime_mul(byte *r, const byte *a, const byte *b,
const byte *modulus);
WOLFSSL_LOCAL void fprime_copy(byte *x, const byte *a);
#endif /* CURVE25519_SMALL || ED25519_SMALL */
#ifdef __cplusplus
} /* extern "C" */
#endif
#endif /* HAVE_CURVE25519 || HAVE_ED25519 */
#endif /* WOLF_CRYPT_FE_OPERATIONS_H */