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/* LibTomCrypt, modular cryptographic library -- Tom St Denis
*
* LibTomCrypt is a library that provides various cryptographic
* algorithms in a highly modular and flexible manner.
*
* The library is free for all purposes without any express
* guarantee it works.
*
* Tom St Denis, tomstdenis@gmail.com, http://libtomcrypt.com
*/
#define DESC_DEF_ONLY
#include "tomcrypt.h"
#ifdef LTM_DESC
#include <tommath.h>
static const struct {
int mpi_code, ltc_code;
} mpi_to_ltc_codes[] = {
{ MP_OKAY , CRYPT_OK},
{ MP_MEM , CRYPT_MEM},
{ MP_VAL , CRYPT_INVALID_ARG},
};
/**
Convert a MPI error to a LTC error (Possibly the most powerful function ever! Oh wait... no)
@param err The error to convert
@return The equivalent LTC error code or CRYPT_ERROR if none found
*/
static int mpi_to_ltc_error(int err)
{
int x;
for (x = 0; x < (int)(sizeof(mpi_to_ltc_codes)/sizeof(mpi_to_ltc_codes[0])); x++) {
if (err == mpi_to_ltc_codes[x].mpi_code) {
return mpi_to_ltc_codes[x].ltc_code;
}
}
return CRYPT_ERROR;
}
static int init(void **a)
{
int err;
LTC_ARGCHK(a != NULL);
*a = XCALLOC(1, sizeof(mp_int));
if (*a == NULL) {
return CRYPT_MEM;
}
if ((err = mpi_to_ltc_error(mp_init(*a))) != CRYPT_OK) {
XFREE(*a);
}
return err;
}
static void deinit(void *a)
{
LTC_ARGCHKVD(a != NULL);
mp_clear(a);
XFREE(a);
}
static int neg(void *a, void *b)
{
LTC_ARGCHK(a != NULL);
LTC_ARGCHK(b != NULL);
return mpi_to_ltc_error(mp_neg(a, b));
}
static int copy(void *a, void *b)
{
LTC_ARGCHK(a != NULL);
LTC_ARGCHK(b != NULL);
return mpi_to_ltc_error(mp_copy(a, b));
}
static int init_copy(void **a, void *b)
{
if (init(a) != CRYPT_OK) {
return CRYPT_MEM;
}
return copy(b, *a);
}
/* ---- trivial ---- */
static int set_int(void *a, unsigned long b)
{
LTC_ARGCHK(a != NULL);
return mpi_to_ltc_error(mp_set_int(a, b));
}
static unsigned long get_int(void *a)
{
LTC_ARGCHK(a != NULL);
return mp_get_int(a);
}
static unsigned long get_digit(void *a, int n)
{
mp_int *A;
LTC_ARGCHK(a != NULL);
A = a;
return (n >= A->used || n < 0) ? 0 : A->dp[n];
}
static int get_digit_count(void *a)
{
mp_int *A;
LTC_ARGCHK(a != NULL);
A = a;
return A->used;
}
static int compare(void *a, void *b)
{
int ret;
LTC_ARGCHK(a != NULL);
LTC_ARGCHK(b != NULL);
ret = mp_cmp(a, b);
switch (ret) {
case MP_LT: return LTC_MP_LT;
case MP_EQ: return LTC_MP_EQ;
case MP_GT: return LTC_MP_GT;
}
return 0;
}
static int compare_d(void *a, unsigned long b)
{
int ret;
LTC_ARGCHK(a != NULL);
ret = mp_cmp_d(a, b);
switch (ret) {
case MP_LT: return LTC_MP_LT;
case MP_EQ: return LTC_MP_EQ;
case MP_GT: return LTC_MP_GT;
}
return 0;
}
static int count_bits(void *a)
{
LTC_ARGCHK(a != NULL);
return mp_count_bits(a);
}
static int count_lsb_bits(void *a)
{
LTC_ARGCHK(a != NULL);
return mp_cnt_lsb(a);
}
static int twoexpt(void *a, int n)
{
LTC_ARGCHK(a != NULL);
return mpi_to_ltc_error(mp_2expt(a, n));
}
/* ---- conversions ---- */
/* read ascii string */
static int read_radix(void *a, const char *b, int radix)
{
LTC_ARGCHK(a != NULL);
LTC_ARGCHK(b != NULL);
return mpi_to_ltc_error(mp_read_radix(a, b, radix));
}
/* write one */
static int write_radix(void *a, char *b, int radix)
{
LTC_ARGCHK(a != NULL);
LTC_ARGCHK(b != NULL);
return mpi_to_ltc_error(mp_toradix(a, b, radix));
}
/* get size as unsigned char string */
static unsigned long unsigned_size(void *a)
{
LTC_ARGCHK(a != NULL);
return mp_unsigned_bin_size(a);
}
/* store */
static int unsigned_write(void *a, unsigned char *b)
{
LTC_ARGCHK(a != NULL);
LTC_ARGCHK(b != NULL);
return mpi_to_ltc_error(mp_to_unsigned_bin(a, b));
}
/* read */
static int unsigned_read(void *a, unsigned char *b, unsigned long len)
{
LTC_ARGCHK(a != NULL);
LTC_ARGCHK(b != NULL);
return mpi_to_ltc_error(mp_read_unsigned_bin(a, b, len));
}
/* add */
static int add(void *a, void *b, void *c)
{
LTC_ARGCHK(a != NULL);
LTC_ARGCHK(b != NULL);
LTC_ARGCHK(c != NULL);
return mpi_to_ltc_error(mp_add(a, b, c));
}
static int addi(void *a, unsigned long b, void *c)
{
LTC_ARGCHK(a != NULL);
LTC_ARGCHK(c != NULL);
return mpi_to_ltc_error(mp_add_d(a, b, c));
}
/* sub */
static int sub(void *a, void *b, void *c)
{
LTC_ARGCHK(a != NULL);
LTC_ARGCHK(b != NULL);
LTC_ARGCHK(c != NULL);
return mpi_to_ltc_error(mp_sub(a, b, c));
}
static int subi(void *a, unsigned long b, void *c)
{
LTC_ARGCHK(a != NULL);
LTC_ARGCHK(c != NULL);
return mpi_to_ltc_error(mp_sub_d(a, b, c));
}
/* mul */
static int mul(void *a, void *b, void *c)
{
LTC_ARGCHK(a != NULL);
LTC_ARGCHK(b != NULL);
LTC_ARGCHK(c != NULL);
return mpi_to_ltc_error(mp_mul(a, b, c));
}
static int muli(void *a, unsigned long b, void *c)
{
LTC_ARGCHK(a != NULL);
LTC_ARGCHK(c != NULL);
return mpi_to_ltc_error(mp_mul_d(a, b, c));
}
/* sqr */
static int sqr(void *a, void *b)
{
LTC_ARGCHK(a != NULL);
LTC_ARGCHK(b != NULL);
return mpi_to_ltc_error(mp_sqr(a, b));
}
/* div */
static int divide(void *a, void *b, void *c, void *d)
{
LTC_ARGCHK(a != NULL);
LTC_ARGCHK(b != NULL);
return mpi_to_ltc_error(mp_div(a, b, c, d));
}
static int div_2(void *a, void *b)
{
LTC_ARGCHK(a != NULL);
LTC_ARGCHK(b != NULL);
return mpi_to_ltc_error(mp_div_2(a, b));
}
/* modi */
static int modi(void *a, unsigned long b, unsigned long *c)
{
mp_digit tmp;
int err;
LTC_ARGCHK(a != NULL);
LTC_ARGCHK(c != NULL);
if ((err = mpi_to_ltc_error(mp_mod_d(a, b, &tmp))) != CRYPT_OK) {
return err;
}
*c = tmp;
return CRYPT_OK;
}
/* gcd */
static int gcd(void *a, void *b, void *c)
{
LTC_ARGCHK(a != NULL);
LTC_ARGCHK(b != NULL);
LTC_ARGCHK(c != NULL);
return mpi_to_ltc_error(mp_gcd(a, b, c));
}
/* lcm */
static int lcm(void *a, void *b, void *c)
{
LTC_ARGCHK(a != NULL);
LTC_ARGCHK(b != NULL);
LTC_ARGCHK(c != NULL);
return mpi_to_ltc_error(mp_lcm(a, b, c));
}
static int mulmod(void *a, void *b, void *c, void *d)
{
LTC_ARGCHK(a != NULL);
LTC_ARGCHK(b != NULL);
LTC_ARGCHK(c != NULL);
LTC_ARGCHK(d != NULL);
return mpi_to_ltc_error(mp_mulmod(a,b,c,d));
}
static int sqrmod(void *a, void *b, void *c)
{
LTC_ARGCHK(a != NULL);
LTC_ARGCHK(b != NULL);
LTC_ARGCHK(c != NULL);
return mpi_to_ltc_error(mp_sqrmod(a,b,c));
}
/* invmod */
static int invmod(void *a, void *b, void *c)
{
LTC_ARGCHK(a != NULL);
LTC_ARGCHK(b != NULL);
LTC_ARGCHK(c != NULL);
return mpi_to_ltc_error(mp_invmod(a, b, c));
}
/* setup */
static int montgomery_setup(void *a, void **b)
{
int err;
LTC_ARGCHK(a != NULL);
LTC_ARGCHK(b != NULL);
*b = XCALLOC(1, sizeof(mp_digit));
if (*b == NULL) {
return CRYPT_MEM;
}
if ((err = mpi_to_ltc_error(mp_montgomery_setup(a, (mp_digit *)*b))) != CRYPT_OK) {
XFREE(*b);
}
return err;
}
/* get normalization value */
static int montgomery_normalization(void *a, void *b)
{
LTC_ARGCHK(a != NULL);
LTC_ARGCHK(b != NULL);
return mpi_to_ltc_error(mp_montgomery_calc_normalization(a, b));
}
/* reduce */
static int montgomery_reduce(void *a, void *b, void *c)
{
LTC_ARGCHK(a != NULL);
LTC_ARGCHK(b != NULL);
LTC_ARGCHK(c != NULL);
return mpi_to_ltc_error(mp_montgomery_reduce(a, b, *((mp_digit *)c)));
}
/* clean up */
static void montgomery_deinit(void *a)
{
XFREE(a);
}
static int exptmod(void *a, void *b, void *c, void *d)
{
LTC_ARGCHK(a != NULL);
LTC_ARGCHK(b != NULL);
LTC_ARGCHK(c != NULL);
LTC_ARGCHK(d != NULL);
return mpi_to_ltc_error(mp_exptmod(a,b,c,d));
}
static int isprime(void *a, int *b)
{
int err;
LTC_ARGCHK(a != NULL);
LTC_ARGCHK(b != NULL);
err = mpi_to_ltc_error(mp_prime_is_prime(a, 8, b));
*b = (*b == MP_YES) ? LTC_MP_YES : LTC_MP_NO;
return err;
}
const ltc_math_descriptor ltm_desc = {
"LibTomMath",
(int)DIGIT_BIT,
&init,
&init_copy,
&deinit,
&neg,
©,
&set_int,
&get_int,
&get_digit,
&get_digit_count,
&compare,
&compare_d,
&count_bits,
&count_lsb_bits,
&twoexpt,
&read_radix,
&write_radix,
&unsigned_size,
&unsigned_write,
&unsigned_read,
&add,
&addi,
&sub,
&subi,
&mul,
&muli,
&sqr,
÷,
&div_2,
&modi,
&gcd,
&lcm,
&mulmod,
&sqrmod,
&invmod,
&montgomery_setup,
&montgomery_normalization,
&montgomery_reduce,
&montgomery_deinit,
&exptmod,
&isprime,
#ifdef MECC
#ifdef MECC_FP
<c_ecc_fp_mulmod,
#else
<c_ecc_mulmod,
#endif
<c_ecc_projective_add_point,
<c_ecc_projective_dbl_point,
<c_ecc_map,
#ifdef LTC_ECC_SHAMIR
#ifdef MECC_FP
<c_ecc_fp_mul2add,
#else
<c_ecc_mul2add,
#endif /* MECC_FP */
#else
NULL,
#endif /* LTC_ECC_SHAMIR */
#else
NULL, NULL, NULL, NULL, NULL,
#endif /* MECC */
#ifdef MRSA
&rsa_make_key,
&rsa_exptmod,
#else
NULL, NULL
#endif
};
#endif
/* $Source: /cvs/libtom/libtomcrypt/src/math/ltm_desc.c,v $ */
/* $Revision: 1.29 $ */
/* $Date: 2006/12/03 00:39:56 $ */
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