crypto/ec/ec.h - third_party/openssl - Git at Google

 /*
  *
  *	ec.h
  *
  *	Elliptic Curve Arithmetic Functions
  *
  *	Copyright (C) Lenka Fibikova 2000
  *
  *
  */


 #ifndef HEADER_EC_H
 #define HEADER_EC_H


 #include <openssl/bn.h>
 #include "../bn/bn_mont2.h" /* XXX */

 typedef struct bn_ec_struct		/* E: y^2 = x^3 + Ax + B  (mod p) */
 {
 	BIGNUM	*A, *B, *p, *h;		/* h = 1/2 mod p = (p + 1)/2 */
 	int is_in_mont;
 } EC;

 typedef struct bn_ec_point_struct /* P = [X, Y, Z] */
 {
 	BIGNUM	*X, *Y, *Z;
 	int is_in_mont;
 } EC_POINT;

 typedef struct bn_ecp_precompute_struct /* Pi[i] = [2i + 1]P	i = 0..2^{r-1} - 1 */
 {
 	int r;
 	EC_POINT **Pi;
 } ECP_PRECOMPUTE;


 #define ECP_is_infty(P) (BN_is_zero(P->Z))
 #define ECP_is_norm(P) (BN_is_one(P->Z))

 #define ECP_mont_minus(P, mont) (ECP_minus((P), (mont)->p))


 EC *EC_new();
 void EC_clear_free(EC *E);
 int EC_set_half(EC *E);
 #ifdef MONTGOMERY
 int EC_to_montgomery(EC *E, BN_MONTGOMERY *mont, BN_CTX *ctx);
 int EC_from_montgomery(EC *E, BN_MONTGOMERY *mont, BN_CTX *ctx);
 #endif /* MONTGOMERY */


 EC_POINT *ECP_new();
 void ECP_clear_free(EC_POINT *P);
 void ECP_clear_free_precompute(ECP_PRECOMPUTE *prec);

 EC_POINT *ECP_generate(BIGNUM *x, BIGNUM *z, EC *E, BN_CTX *ctx);
 EC_POINT *ECP_dup(EC_POINT *P);
 int ECP_copy(EC_POINT *R, EC_POINT *P);
 int ECP_normalize(EC_POINT *P, EC *E, BN_CTX *ctx);
 EC_POINT *ECP_minus(EC_POINT *P, BIGNUM *p);
 int ECP_is_on_ec(EC_POINT *P, EC *E, BN_CTX *ctx);
 int ECP_ecp2bin(EC_POINT *P, unsigned char *to, int form); /* form(ANSI 9.62): 1-compressed; 2-uncompressed; 3-hybrid */
 int ECP_bin2ecp(unsigned char *from, int len, EC_POINT *P, EC *E, BN_CTX *ctx);

 #ifdef SIMPLE
 int ECP_cmp(EC_POINT *P, EC_POINT *Q, BIGNUM *p, BN_CTX *ctx);
 int ECP_double(EC_POINT *R, EC_POINT *P, EC *E, BN_CTX *ctx);
 int ECP_add(EC_POINT *R, EC_POINT *P, EC_POINT *Q, EC *E, BN_CTX *ctx);
 ECP_PRECOMPUTE *ECP_precompute(int r, EC_POINT *P, EC *E, BN_CTX *ctx);
 int ECP_multiply(EC_POINT *R, BIGNUM *k, ECP_PRECOMPUTE *prec, EC *E, BN_CTX *ctx);
 #endif /* SIMPLE */

 #ifdef MONTGOMERY
 int ECP_to_montgomery(EC_POINT *P, BN_MONTGOMERY *mont, BN_CTX *ctx);
 int ECP_from_montgomery(EC_POINT *P, BN_MONTGOMERY *mont, BN_CTX *ctx);
 int ECP_mont_cmp(EC_POINT *P, EC_POINT *Q, BN_MONTGOMERY *mont, BN_CTX *ctx);
 int ECP_mont_double(EC_POINT *R, EC_POINT *P, EC *E, BN_MONTGOMERY *mont, BN_CTX *ctx);
 int ECP_mont_add(EC_POINT *R, EC_POINT *P, EC_POINT *Q, EC *E, BN_MONTGOMERY *mont, BN_CTX *ctx);
 ECP_PRECOMPUTE *ECP_mont_precompute(int r, EC_POINT *P, EC *E, BN_MONTGOMERY *mont, BN_CTX *ctx);
 int ECP_mont_multiply(EC_POINT *R, BIGNUM *k, ECP_PRECOMPUTE *prec, EC *E, BN_MONTGOMERY *mont, BN_CTX *ctx);
 int ECP_mont_multiply2(EC_POINT *R, BIGNUM *k, EC_POINT *P, EC *E, BN_MONTGOMERY *mont, BN_CTX *ctx);
 #endif /* MONTGOMERY */

 #endif
	/*
	*
	* ec.h
	*
	* Elliptic Curve Arithmetic Functions
	*
	* Copyright (C) Lenka Fibikova 2000
	*
	*
	*/


	#ifndef HEADER_EC_H
	#define HEADER_EC_H


	#include <openssl/bn.h>
	#include "../bn/bn_mont2.h" /* XXX */

	typedef struct bn_ec_struct /* E: y^2 = x^3 + Ax + B (mod p) */
	{
	BIGNUM A, B, p, h; /* h = 1/2 mod p = (p + 1)/2 */
	int is_in_mont;
	} EC;

	typedef struct bn_ec_point_struct /* P = [X, Y, Z] */
	{
	BIGNUM X, Y, *Z;
	int is_in_mont;
	} EC_POINT;

	typedef struct bn_ecp_precompute_struct /* Pi[i] = [2i + 1]P i = 0..2^{r-1} - 1 */
	{
	int r;
	EC_POINT **Pi;
	} ECP_PRECOMPUTE;


	#define ECP_is_infty(P) (BN_is_zero(P->Z))
	#define ECP_is_norm(P) (BN_is_one(P->Z))

	#define ECP_mont_minus(P, mont) (ECP_minus((P), (mont)->p))


	EC *EC_new();
	void EC_clear_free(EC *E);
	int EC_set_half(EC *E);
	#ifdef MONTGOMERY
	int EC_to_montgomery(EC E, BN_MONTGOMERY mont, BN_CTX *ctx);
	int EC_from_montgomery(EC E, BN_MONTGOMERY mont, BN_CTX *ctx);
	#endif /* MONTGOMERY */


	EC_POINT *ECP_new();
	void ECP_clear_free(EC_POINT *P);
	void ECP_clear_free_precompute(ECP_PRECOMPUTE *prec);

	EC_POINT ECP_generate(BIGNUM x, BIGNUM z, EC E, BN_CTX *ctx);
	EC_POINT ECP_dup(EC_POINT P);
	int ECP_copy(EC_POINT R, EC_POINT P);
	int ECP_normalize(EC_POINT P, EC E, BN_CTX *ctx);
	EC_POINT ECP_minus(EC_POINT P, BIGNUM *p);
	int ECP_is_on_ec(EC_POINT P, EC E, BN_CTX *ctx);
	int ECP_ecp2bin(EC_POINT P, unsigned char to, int form); /* form(ANSI 9.62): 1-compressed; 2-uncompressed; 3-hybrid */
	int ECP_bin2ecp(unsigned char from, int len, EC_POINT P, EC E, BN_CTX ctx);

	#ifdef SIMPLE
	int ECP_cmp(EC_POINT P, EC_POINT Q, BIGNUM p, BN_CTX ctx);
	int ECP_double(EC_POINT R, EC_POINT P, EC E, BN_CTX ctx);
	int ECP_add(EC_POINT R, EC_POINT P, EC_POINT Q, EC E, BN_CTX *ctx);
	ECP_PRECOMPUTE ECP_precompute(int r, EC_POINT P, EC E, BN_CTX ctx);
	int ECP_multiply(EC_POINT R, BIGNUM k, ECP_PRECOMPUTE prec, EC E, BN_CTX *ctx);
	#endif /* SIMPLE */

	#ifdef MONTGOMERY
	int ECP_to_montgomery(EC_POINT P, BN_MONTGOMERY mont, BN_CTX *ctx);
	int ECP_from_montgomery(EC_POINT P, BN_MONTGOMERY mont, BN_CTX *ctx);
	int ECP_mont_cmp(EC_POINT P, EC_POINT Q, BN_MONTGOMERY mont, BN_CTX ctx);
	int ECP_mont_double(EC_POINT R, EC_POINT P, EC E, BN_MONTGOMERY mont, BN_CTX *ctx);
	int ECP_mont_add(EC_POINT R, EC_POINT P, EC_POINT Q, EC E, BN_MONTGOMERY mont, BN_CTX ctx);
	ECP_PRECOMPUTE ECP_mont_precompute(int r, EC_POINT P, EC E, BN_MONTGOMERY mont, BN_CTX *ctx);
	int ECP_mont_multiply(EC_POINT R, BIGNUM k, ECP_PRECOMPUTE prec, EC E, BN_MONTGOMERY mont, BN_CTX ctx);
	int ECP_mont_multiply2(EC_POINT R, BIGNUM k, EC_POINT P, EC E, BN_MONTGOMERY mont, BN_CTX ctx);
	#endif /* MONTGOMERY */

	#endif