Mercurial > dropbear
view libtomcrypt/src/pk/ecc/ltc_ecc_projective_dbl_point.c @ 1902:4a6725ac957c
Revert "Don't include sk keys at all in KEX list"
This reverts git commit f972813ecdc7bb981d25b5a63638bd158f1c8e72.
The sk algorithms need to remain in the sigalgs list so that they
are included in the server-sig-algs ext-info message sent by
the server. RFC8308 for server-sig-algs requires that all algorithms are
listed (though OpenSSH client 8.4p1 tested doesn't require that)
| author | Matt Johnston <matt@ucc.asn.au> |
|---|---|
| date | Thu, 24 Mar 2022 13:42:08 +0800 |
| parents | 6dba84798cd5 |
| children |
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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. */ /* Implements ECC over Z/pZ for curve y^2 = x^3 - 3x + b * * All curves taken from NIST recommendation paper of July 1999 * Available at http://csrc.nist.gov/cryptval/dss.htm */ #include "tomcrypt.h" /** @file ltc_ecc_projective_dbl_point.c ECC Crypto, Tom St Denis */ #if defined(LTC_MECC) && (!defined(LTC_MECC_ACCEL) || defined(LTM_DESC)) /** Double an ECC point @param P The point to double @param R [out] The destination of the double @param modulus The modulus of the field the ECC curve is in @param mp The "b" value from montgomery_setup() @return CRYPT_OK on success */ int ltc_ecc_projective_dbl_point(ecc_point *P, ecc_point *R, void *modulus, void *mp) { void *t1, *t2; int err; LTC_ARGCHK(P != NULL); LTC_ARGCHK(R != NULL); LTC_ARGCHK(modulus != NULL); LTC_ARGCHK(mp != NULL); if ((err = mp_init_multi(&t1, &t2, NULL)) != CRYPT_OK) { return err; } if (P != R) { if ((err = mp_copy(P->x, R->x)) != CRYPT_OK) { goto done; } if ((err = mp_copy(P->y, R->y)) != CRYPT_OK) { goto done; } if ((err = mp_copy(P->z, R->z)) != CRYPT_OK) { goto done; } } /* t1 = Z * Z */ if ((err = mp_sqr(R->z, t1)) != CRYPT_OK) { goto done; } if ((err = mp_montgomery_reduce(t1, modulus, mp)) != CRYPT_OK) { goto done; } /* Z = Y * Z */ if ((err = mp_mul(R->z, R->y, R->z)) != CRYPT_OK) { goto done; } if ((err = mp_montgomery_reduce(R->z, modulus, mp)) != CRYPT_OK) { goto done; } /* Z = 2Z */ if ((err = mp_add(R->z, R->z, R->z)) != CRYPT_OK) { goto done; } if (mp_cmp(R->z, modulus) != LTC_MP_LT) { if ((err = mp_sub(R->z, modulus, R->z)) != CRYPT_OK) { goto done; } } /* T2 = X - T1 */ if ((err = mp_sub(R->x, t1, t2)) != CRYPT_OK) { goto done; } if (mp_cmp_d(t2, 0) == LTC_MP_LT) { if ((err = mp_add(t2, modulus, t2)) != CRYPT_OK) { goto done; } } /* T1 = X + T1 */ if ((err = mp_add(t1, R->x, t1)) != CRYPT_OK) { goto done; } if (mp_cmp(t1, modulus) != LTC_MP_LT) { if ((err = mp_sub(t1, modulus, t1)) != CRYPT_OK) { goto done; } } /* T2 = T1 * T2 */ if ((err = mp_mul(t1, t2, t2)) != CRYPT_OK) { goto done; } if ((err = mp_montgomery_reduce(t2, modulus, mp)) != CRYPT_OK) { goto done; } /* T1 = 2T2 */ if ((err = mp_add(t2, t2, t1)) != CRYPT_OK) { goto done; } if (mp_cmp(t1, modulus) != LTC_MP_LT) { if ((err = mp_sub(t1, modulus, t1)) != CRYPT_OK) { goto done; } } /* T1 = T1 + T2 */ if ((err = mp_add(t1, t2, t1)) != CRYPT_OK) { goto done; } if (mp_cmp(t1, modulus) != LTC_MP_LT) { if ((err = mp_sub(t1, modulus, t1)) != CRYPT_OK) { goto done; } } /* Y = 2Y */ if ((err = mp_add(R->y, R->y, R->y)) != CRYPT_OK) { goto done; } if (mp_cmp(R->y, modulus) != LTC_MP_LT) { if ((err = mp_sub(R->y, modulus, R->y)) != CRYPT_OK) { goto done; } } /* Y = Y * Y */ if ((err = mp_sqr(R->y, R->y)) != CRYPT_OK) { goto done; } if ((err = mp_montgomery_reduce(R->y, modulus, mp)) != CRYPT_OK) { goto done; } /* T2 = Y * Y */ if ((err = mp_sqr(R->y, t2)) != CRYPT_OK) { goto done; } if ((err = mp_montgomery_reduce(t2, modulus, mp)) != CRYPT_OK) { goto done; } /* T2 = T2/2 */ if (mp_isodd(t2)) { if ((err = mp_add(t2, modulus, t2)) != CRYPT_OK) { goto done; } } if ((err = mp_div_2(t2, t2)) != CRYPT_OK) { goto done; } /* Y = Y * X */ if ((err = mp_mul(R->y, R->x, R->y)) != CRYPT_OK) { goto done; } if ((err = mp_montgomery_reduce(R->y, modulus, mp)) != CRYPT_OK) { goto done; } /* X = T1 * T1 */ if ((err = mp_sqr(t1, R->x)) != CRYPT_OK) { goto done; } if ((err = mp_montgomery_reduce(R->x, modulus, mp)) != CRYPT_OK) { goto done; } /* X = X - Y */ if ((err = mp_sub(R->x, R->y, R->x)) != CRYPT_OK) { goto done; } if (mp_cmp_d(R->x, 0) == LTC_MP_LT) { if ((err = mp_add(R->x, modulus, R->x)) != CRYPT_OK) { goto done; } } /* X = X - Y */ if ((err = mp_sub(R->x, R->y, R->x)) != CRYPT_OK) { goto done; } if (mp_cmp_d(R->x, 0) == LTC_MP_LT) { if ((err = mp_add(R->x, modulus, R->x)) != CRYPT_OK) { goto done; } } /* Y = Y - X */ if ((err = mp_sub(R->y, R->x, R->y)) != CRYPT_OK) { goto done; } if (mp_cmp_d(R->y, 0) == LTC_MP_LT) { if ((err = mp_add(R->y, modulus, R->y)) != CRYPT_OK) { goto done; } } /* Y = Y * T1 */ if ((err = mp_mul(R->y, t1, R->y)) != CRYPT_OK) { goto done; } if ((err = mp_montgomery_reduce(R->y, modulus, mp)) != CRYPT_OK) { goto done; } /* Y = Y - T2 */ if ((err = mp_sub(R->y, t2, R->y)) != CRYPT_OK) { goto done; } if (mp_cmp_d(R->y, 0) == LTC_MP_LT) { if ((err = mp_add(R->y, modulus, R->y)) != CRYPT_OK) { goto done; } } err = CRYPT_OK; done: mp_clear_multi(t1, t2, NULL); return err; } #endif /* ref: $Format:%D$ */ /* git commit: $Format:%H$ */ /* commit time: $Format:%ai$ */