OpenSolaris_b135/common/bignum/bignum.h
/*
* CDDL HEADER START
*
* The contents of this file are subject to the terms of the
* Common Development and Distribution License (the "License").
* You may not use this file except in compliance with the License.
*
* You can obtain a copy of the license at usr/src/OPENSOLARIS.LICENSE
* or http://www.opensolaris.org/os/licensing.
* See the License for the specific language governing permissions
* and limitations under the License.
*
* When distributing Covered Code, include this CDDL HEADER in each
* file and include the License file at usr/src/OPENSOLARIS.LICENSE.
* If applicable, add the following below this CDDL HEADER, with the
* fields enclosed by brackets "[]" replaced with your own identifying
* information: Portions Copyright [yyyy] [name of copyright owner]
*
* CDDL HEADER END
*/
/*
* Copyright 2009 Sun Microsystems, Inc. All rights reserved.
* Use is subject to license terms.
*/
#ifndef _BIGNUM_H
#define _BIGNUM_H
#ifdef __cplusplus
extern "C" {
#endif
#include <sys/types.h>
#if defined(__sparcv9) || defined(__amd64) /* 64-bit chunk size */
#ifndef UMUL64
#define UMUL64 /* 64-bit multiplication results are supported */
#endif
#else
#define BIGNUM_CHUNK_32
#endif
#define BITSINBYTE 8
/* Bignum "digits" (aka "chunks" or "words") are either 32- or 64-bits */
#ifdef BIGNUM_CHUNK_32
#define BIG_CHUNK_SIZE 32
#define BIG_CHUNK_TYPE uint32_t
#define BIG_CHUNK_TYPE_SIGNED int32_t
#define BIG_CHUNK_HIGHBIT 0x80000000
#define BIG_CHUNK_ALLBITS 0xffffffff
#define BIG_CHUNK_LOWHALFBITS 0xffff
#define BIG_CHUNK_HALF_HIGHBIT 0x8000
#else
#define BIG_CHUNK_SIZE 64
#define BIG_CHUNK_TYPE uint64_t
#define BIG_CHUNK_TYPE_SIGNED int64_t
#define BIG_CHUNK_HIGHBIT 0x8000000000000000ULL
#define BIG_CHUNK_ALLBITS 0xffffffffffffffffULL
#define BIG_CHUNK_LOWHALFBITS 0xffffffffULL
#define BIG_CHUNK_HALF_HIGHBIT 0x80000000ULL
#endif
#define BITLEN2BIGNUMLEN(x) (((x) + BIG_CHUNK_SIZE - 1) / BIG_CHUNK_SIZE)
#define CHARLEN2BIGNUMLEN(x) (((x) + sizeof (BIG_CHUNK_TYPE) - 1) / \
sizeof (BIG_CHUNK_TYPE))
#define BIGNUM_WORDSIZE (BIG_CHUNK_SIZE / BITSINBYTE) /* word size in bytes */
#define BIG_CHUNKS_FOR_160BITS ((160 + BIG_CHUNK_SIZE - 1) / BIG_CHUNK_SIZE)
/*
* leading 0's are permitted
* 0 should be represented by size>=1, size>=len>=1, sign=1,
* value[i]=0 for 0<i<len
*/
typedef struct {
/* size and len in units of BIG_CHUNK_TYPE words */
uint32_t size; /* size of memory allocated for value */
uint32_t len; /* number of valid data words in value */
int sign; /* 1 for nonnegative, -1 for negative */
int malloced; /* 1 if value was malloced, 0 if not */
BIG_CHUNK_TYPE *value;
} BIGNUM;
#define BIGTMPSIZE 65
#define BIG_TRUE 1
#define BIG_FALSE 0
typedef int BIG_ERR_CODE;
/* error codes */
#define BIG_OK 0
#define BIG_NO_MEM -1
#define BIG_INVALID_ARGS -2
#define BIG_DIV_BY_0 -3
#define BIG_NO_RANDOM -4
#define BIG_GENERAL_ERR -5
#define BIG_TEST_FAILED -6
#define BIG_BUFFER_TOO_SMALL -7
#define arraysize(x) (sizeof (x) / sizeof (x[0]))
typedef BIG_ERR_CODE (*big_modexp_ncp_func_ptr)(BIGNUM *result,
BIGNUM *ma, BIGNUM *e, BIGNUM *n,
BIGNUM *tmp, BIG_CHUNK_TYPE n0, void *ncp, void *req);
typedef struct {
big_modexp_ncp_func_ptr func;
void *ncp;
void *reqp;
} big_modexp_ncp_info_t;
#ifdef USE_FLOATING_POINT
void conv_d16_to_i32(uint32_t *i32, double *d16, int64_t *tmp, int ilen);
void conv_i32_to_d32(double *d32, uint32_t *i32, int len);
void conv_i32_to_d16(double *d16, uint32_t *i32, int len);
void conv_i32_to_d32_and_d16(double *d32, double *d16,
uint32_t *i32, int len);
void mont_mulf_noconv(uint32_t *result, double *dm1, double *dm2, double *dt,
double *dn, uint32_t *nint, int nlen, double dn0);
#endif /* USE_FLOATING_POINT */
extern BIGNUM big_One;
extern BIGNUM big_Two;
void printbignum(char *aname, BIGNUM *a);
BIG_ERR_CODE big_init(BIGNUM *number, int size);
BIG_ERR_CODE big_extend(BIGNUM *number, int size);
void big_finish(BIGNUM *number);
void bytestring2bignum(BIGNUM *bn, uchar_t *kn, size_t len);
void bignum2bytestring(uchar_t *kn, BIGNUM *bn, size_t len);
BIG_ERR_CODE big_mont_rr(BIGNUM *result, BIGNUM *n);
BIG_ERR_CODE big_modexp(BIGNUM *result, BIGNUM *a, BIGNUM *e,
BIGNUM *n, BIGNUM *n_rr);
BIG_ERR_CODE big_modexp_ext(BIGNUM *result, BIGNUM *a, BIGNUM *e,
BIGNUM *n, BIGNUM *n_rr, big_modexp_ncp_info_t *info);
BIG_ERR_CODE big_modexp_crt(BIGNUM *result, BIGNUM *a, BIGNUM *dmodpminus1,
BIGNUM *dmodqminus1, BIGNUM *p, BIGNUM *q, BIGNUM *pinvmodq,
BIGNUM *p_rr, BIGNUM *q_rr);
BIG_ERR_CODE big_modexp_crt_ext(BIGNUM *result, BIGNUM *a, BIGNUM *dmodpminus1,
BIGNUM *dmodqminus1, BIGNUM *p, BIGNUM *q, BIGNUM *pinvmodq,
BIGNUM *p_rr, BIGNUM *q_rr, big_modexp_ncp_info_t *info);
int big_cmp_abs(BIGNUM *a, BIGNUM *b);
BIG_ERR_CODE randombignum(BIGNUM *r, int length);
BIG_ERR_CODE big_div_pos(BIGNUM *result, BIGNUM *remainder,
BIGNUM *aa, BIGNUM *bb);
BIG_ERR_CODE big_ext_gcd_pos(BIGNUM *gcd, BIGNUM *cm, BIGNUM *ce,
BIGNUM *m, BIGNUM *e);
BIG_ERR_CODE big_add(BIGNUM *result, BIGNUM *aa, BIGNUM *bb);
BIG_ERR_CODE big_add_abs(BIGNUM *result, BIGNUM *aa, BIGNUM *bb);
BIG_ERR_CODE big_mul(BIGNUM *result, BIGNUM *aa, BIGNUM *bb);
void big_shiftright(BIGNUM *result, BIGNUM *aa, int offs);
BIG_ERR_CODE big_nextprime_pos(BIGNUM *result, BIGNUM *n);
BIG_ERR_CODE big_nextprime_pos_ext(BIGNUM *result, BIGNUM *n,
big_modexp_ncp_info_t *info);
BIG_ERR_CODE big_sub_pos(BIGNUM *result, BIGNUM *aa, BIGNUM *bb);
BIG_ERR_CODE big_copy(BIGNUM *dest, BIGNUM *src);
BIG_ERR_CODE big_sub(BIGNUM *result, BIGNUM *aa, BIGNUM *bb);
int big_bitlength(BIGNUM *n);
BIG_ERR_CODE big_init1(BIGNUM *number, int size,
BIG_CHUNK_TYPE *buf, int bufsize);
BIG_ERR_CODE big_mont_mul(BIGNUM *ret,
BIGNUM *a, BIGNUM *b, BIGNUM *n, BIG_CHUNK_TYPE n0);
int big_is_zero(BIGNUM *n);
BIG_CHUNK_TYPE big_n0(BIG_CHUNK_TYPE n);
#if defined(HWCAP)
#if (BIG_CHUNK_SIZE != 32)
#error HWCAP works only with 32-bit bignum chunks
#endif
#define BIG_MUL_SET_VEC(r, a, len, digit) \
(*big_mul_set_vec_impl)(r, a, len, digit)
#define BIG_MUL_ADD_VEC(r, a, len, digit) \
(*big_mul_add_vec_impl)(r, a, len, digit)
#define BIG_MUL_VEC(r, a, alen, b, blen) \
(*big_mul_vec_impl)(r, a, alen, b, blen)
#define BIG_SQR_VEC(r, a, len) \
(*big_sqr_vec_impl)(r, a, len)
extern BIG_CHUNK_TYPE (*big_mul_set_vec_impl)
(BIG_CHUNK_TYPE *r, BIG_CHUNK_TYPE *a, int len, BIG_CHUNK_TYPE digit);
extern BIG_CHUNK_TYPE (*big_mul_add_vec_impl)
(BIG_CHUNK_TYPE *r, BIG_CHUNK_TYPE *a, int len, BIG_CHUNK_TYPE digit);
extern void (*big_mul_vec_impl)
(BIG_CHUNK_TYPE *r, BIG_CHUNK_TYPE *a, int alen, BIG_CHUNK_TYPE *b,
int blen);
extern void (*big_sqr_vec_impl)
(BIG_CHUNK_TYPE *r, BIG_CHUNK_TYPE *a, int len);
#else /* ! HWCAP */
#define BIG_MUL_SET_VEC(r, a, len, digit) big_mul_set_vec(r, a, len, digit)
#define BIG_MUL_ADD_VEC(r, a, len, digit) big_mul_add_vec(r, a, len, digit)
#define BIG_MUL_VEC(r, a, alen, b, blen) big_mul_vec(r, a, alen, b, blen)
#define BIG_SQR_VEC(r, a, len) big_sqr_vec(r, a, len)
extern BIG_CHUNK_TYPE big_mul_set_vec(BIG_CHUNK_TYPE *r, BIG_CHUNK_TYPE *a,
int len, BIG_CHUNK_TYPE d);
extern BIG_CHUNK_TYPE big_mul_add_vec(BIG_CHUNK_TYPE *r,
BIG_CHUNK_TYPE *a, int len, BIG_CHUNK_TYPE d);
extern void big_mul_vec(BIG_CHUNK_TYPE *r, BIG_CHUNK_TYPE *a, int alen,
BIG_CHUNK_TYPE *b, int blen);
extern void big_sqr_vec(BIG_CHUNK_TYPE *r, BIG_CHUNK_TYPE *a, int len);
#endif /* HWCAP */
#ifdef __cplusplus
}
#endif
#endif /* _BIGNUM_H */