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Add Elliptic Curve Russian Digital Signature Algorithm (GOST R 34.10-2012, RFC 7091, ISO/IEC 14888-3) is one of the Russian (and since 2018 the CIS countries) cryptographic standard algorithms (called GOST algorithms). Only signature verification is supported, with intent to be used in the IMA. Summary of the changes: * crypto/Kconfig: - EC-RDSA is added into Public-key cryptography section. * crypto/Makefile: - ecrdsa objects are added. * crypto/asymmetric_keys/x509_cert_parser.c: - Recognize EC-RDSA and Streebog OIDs. * include/linux/oid_registry.h: - EC-RDSA OIDs are added to the enum. Also, a two currently not implemented curve OIDs are added for possible extension later (to not change numbering and grouping). * crypto/ecc.c: - Kenneth MacKay copyright date is updated to 2014, because vli_mmod_slow, ecc_point_add, ecc_point_mult_shamir are based on his code from micro-ecc. - Functions needed for ecrdsa are EXPORT_SYMBOL'ed. - New functions: vli_is_negative - helper to determine sign of vli; vli_from_be64 - unpack big-endian array into vli (used for a signature); vli_from_le64 - unpack little-endian array into vli (used for a public key); vli_uadd, vli_usub - add/sub u64 value to/from vli (used for increment/decrement); mul_64_64 - optimized to use __int128 where appropriate, this speeds up point multiplication (and as a consequence signature verification) by the factor of 1.5-2; vli_umult - multiply vli by a small value (speeds up point multiplication by another factor of 1.5-2, depending on vli sizes); vli_mmod_special - module reduction for some form of Pseudo-Mersenne primes (used for the curves A); vli_mmod_special2 - module reduction for another form of Pseudo-Mersenne primes (used for the curves B); vli_mmod_barrett - module reduction using pre-computed value (used for the curve C); vli_mmod_slow - more general module reduction which is much slower (used when the modulus is subgroup order); vli_mod_mult_slow - modular multiplication; ecc_point_add - add two points; ecc_point_mult_shamir - add two points multiplied by scalars in one combined multiplication (this gives speed up by another factor 2 in compare to two separate multiplications). ecc_is_pubkey_valid_partial - additional samity check is added. - Updated vli_mmod_fast with non-strict heuristic to call optimal module reduction function depending on the prime value; - All computations for the previously defined (two NIST) curves should not unaffected. * crypto/ecc.h: - Newly exported functions are documented. * crypto/ecrdsa_defs.h - Five curves are defined. * crypto/ecrdsa.c: - Signature verification is implemented. * crypto/ecrdsa_params.asn1, crypto/ecrdsa_pub_key.asn1: - Templates for BER decoder for EC-RDSA parameters and public key. Cc: linux-integrity@vger.kernel.org Signed-off-by: Vitaly Chikunov <vt@altlinux.org> Signed-off-by: Herbert Xu <herbert@gondor.apana.org.au>
226 lines
7.2 KiB
C
226 lines
7.2 KiB
C
/* SPDX-License-Identifier: GPL-2.0+ */
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/*
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* Definitions of EC-RDSA Curve Parameters
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*
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* Copyright (c) 2019 Vitaly Chikunov <vt@altlinux.org>
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*
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* This program is free software; you can redistribute it and/or modify it
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* under the terms of the GNU General Public License as published by the Free
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* Software Foundation; either version 2 of the License, or (at your option)
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* any later version.
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*/
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#ifndef _CRYTO_ECRDSA_DEFS_H
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#define _CRYTO_ECRDSA_DEFS_H
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#include "ecc.h"
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#define ECRDSA_MAX_SIG_SIZE (2 * 512 / 8)
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#define ECRDSA_MAX_DIGITS (512 / 64)
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/*
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* EC-RDSA uses its own set of curves.
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*
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* cp256{a,b,c} curves first defined for GOST R 34.10-2001 in RFC 4357 (as
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* 256-bit {A,B,C}-ParamSet), but inherited for GOST R 34.10-2012 and
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* proposed for use in R 50.1.114-2016 and RFC 7836 as the 256-bit curves.
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*/
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/* OID_gostCPSignA 1.2.643.2.2.35.1 */
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static u64 cp256a_g_x[] = {
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0x0000000000000001ull, 0x0000000000000000ull,
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0x0000000000000000ull, 0x0000000000000000ull, };
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static u64 cp256a_g_y[] = {
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0x22ACC99C9E9F1E14ull, 0x35294F2DDF23E3B1ull,
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0x27DF505A453F2B76ull, 0x8D91E471E0989CDAull, };
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static u64 cp256a_p[] = { /* p = 2^256 - 617 */
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0xFFFFFFFFFFFFFD97ull, 0xFFFFFFFFFFFFFFFFull,
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0xFFFFFFFFFFFFFFFFull, 0xFFFFFFFFFFFFFFFFull };
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static u64 cp256a_n[] = {
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0x45841B09B761B893ull, 0x6C611070995AD100ull,
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0xFFFFFFFFFFFFFFFFull, 0xFFFFFFFFFFFFFFFFull };
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static u64 cp256a_a[] = { /* a = p - 3 */
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0xFFFFFFFFFFFFFD94ull, 0xFFFFFFFFFFFFFFFFull,
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0xFFFFFFFFFFFFFFFFull, 0xFFFFFFFFFFFFFFFFull };
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static u64 cp256a_b[] = {
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0x00000000000000a6ull, 0x0000000000000000ull,
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0x0000000000000000ull, 0x0000000000000000ull };
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static struct ecc_curve gost_cp256a = {
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.name = "cp256a",
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.g = {
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.x = cp256a_g_x,
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.y = cp256a_g_y,
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.ndigits = 256 / 64,
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},
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.p = cp256a_p,
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.n = cp256a_n,
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.a = cp256a_a,
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.b = cp256a_b
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};
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/* OID_gostCPSignB 1.2.643.2.2.35.2 */
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static u64 cp256b_g_x[] = {
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0x0000000000000001ull, 0x0000000000000000ull,
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0x0000000000000000ull, 0x0000000000000000ull, };
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static u64 cp256b_g_y[] = {
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0x744BF8D717717EFCull, 0xC545C9858D03ECFBull,
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0xB83D1C3EB2C070E5ull, 0x3FA8124359F96680ull, };
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static u64 cp256b_p[] = { /* p = 2^255 + 3225 */
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0x0000000000000C99ull, 0x0000000000000000ull,
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0x0000000000000000ull, 0x8000000000000000ull, };
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static u64 cp256b_n[] = {
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0xE497161BCC8A198Full, 0x5F700CFFF1A624E5ull,
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0x0000000000000001ull, 0x8000000000000000ull, };
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static u64 cp256b_a[] = { /* a = p - 3 */
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0x0000000000000C96ull, 0x0000000000000000ull,
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0x0000000000000000ull, 0x8000000000000000ull, };
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static u64 cp256b_b[] = {
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0x2F49D4CE7E1BBC8Bull, 0xE979259373FF2B18ull,
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0x66A7D3C25C3DF80Aull, 0x3E1AF419A269A5F8ull, };
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static struct ecc_curve gost_cp256b = {
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.name = "cp256b",
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.g = {
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.x = cp256b_g_x,
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.y = cp256b_g_y,
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.ndigits = 256 / 64,
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},
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.p = cp256b_p,
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.n = cp256b_n,
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.a = cp256b_a,
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.b = cp256b_b
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};
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/* OID_gostCPSignC 1.2.643.2.2.35.3 */
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static u64 cp256c_g_x[] = {
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0x0000000000000000ull, 0x0000000000000000ull,
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0x0000000000000000ull, 0x0000000000000000ull, };
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static u64 cp256c_g_y[] = {
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0x366E550DFDB3BB67ull, 0x4D4DC440D4641A8Full,
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0x3CBF3783CD08C0EEull, 0x41ECE55743711A8Cull, };
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static u64 cp256c_p[] = {
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0x7998F7B9022D759Bull, 0xCF846E86789051D3ull,
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0xAB1EC85E6B41C8AAull, 0x9B9F605F5A858107ull,
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/* pre-computed value for Barrett's reduction */
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0xedc283cdd217b5a2ull, 0xbac48fc06398ae59ull,
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0x405384d55f9f3b73ull, 0xa51f176161f1d734ull,
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0x0000000000000001ull, };
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static u64 cp256c_n[] = {
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0xF02F3A6598980BB9ull, 0x582CA3511EDDFB74ull,
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0xAB1EC85E6B41C8AAull, 0x9B9F605F5A858107ull, };
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static u64 cp256c_a[] = { /* a = p - 3 */
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0x7998F7B9022D7598ull, 0xCF846E86789051D3ull,
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0xAB1EC85E6B41C8AAull, 0x9B9F605F5A858107ull, };
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static u64 cp256c_b[] = {
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0x000000000000805aull, 0x0000000000000000ull,
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0x0000000000000000ull, 0x0000000000000000ull, };
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static struct ecc_curve gost_cp256c = {
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.name = "cp256c",
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.g = {
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.x = cp256c_g_x,
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.y = cp256c_g_y,
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.ndigits = 256 / 64,
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},
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.p = cp256c_p,
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.n = cp256c_n,
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.a = cp256c_a,
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.b = cp256c_b
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};
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/* tc512{a,b} curves first recommended in 2013 and then standardized in
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* R 50.1.114-2016 and RFC 7836 for use with GOST R 34.10-2012 (as TC26
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* 512-bit ParamSet{A,B}).
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*/
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/* OID_gostTC26Sign512A 1.2.643.7.1.2.1.2.1 */
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static u64 tc512a_g_x[] = {
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0x0000000000000003ull, 0x0000000000000000ull,
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0x0000000000000000ull, 0x0000000000000000ull,
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0x0000000000000000ull, 0x0000000000000000ull,
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0x0000000000000000ull, 0x0000000000000000ull, };
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static u64 tc512a_g_y[] = {
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0x89A589CB5215F2A4ull, 0x8028FE5FC235F5B8ull,
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0x3D75E6A50E3A41E9ull, 0xDF1626BE4FD036E9ull,
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0x778064FDCBEFA921ull, 0xCE5E1C93ACF1ABC1ull,
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0xA61B8816E25450E6ull, 0x7503CFE87A836AE3ull, };
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static u64 tc512a_p[] = { /* p = 2^512 - 569 */
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0xFFFFFFFFFFFFFDC7ull, 0xFFFFFFFFFFFFFFFFull,
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0xFFFFFFFFFFFFFFFFull, 0xFFFFFFFFFFFFFFFFull,
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0xFFFFFFFFFFFFFFFFull, 0xFFFFFFFFFFFFFFFFull,
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0xFFFFFFFFFFFFFFFFull, 0xFFFFFFFFFFFFFFFFull, };
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static u64 tc512a_n[] = {
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0xCACDB1411F10B275ull, 0x9B4B38ABFAD2B85Dull,
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0x6FF22B8D4E056060ull, 0x27E69532F48D8911ull,
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0xFFFFFFFFFFFFFFFFull, 0xFFFFFFFFFFFFFFFFull,
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0xFFFFFFFFFFFFFFFFull, 0xFFFFFFFFFFFFFFFFull, };
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static u64 tc512a_a[] = { /* a = p - 3 */
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0xFFFFFFFFFFFFFDC4ull, 0xFFFFFFFFFFFFFFFFull,
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0xFFFFFFFFFFFFFFFFull, 0xFFFFFFFFFFFFFFFFull,
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0xFFFFFFFFFFFFFFFFull, 0xFFFFFFFFFFFFFFFFull,
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0xFFFFFFFFFFFFFFFFull, 0xFFFFFFFFFFFFFFFFull, };
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static u64 tc512a_b[] = {
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0x503190785A71C760ull, 0x862EF9D4EBEE4761ull,
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0x4CB4574010DA90DDull, 0xEE3CB090F30D2761ull,
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0x79BD081CFD0B6265ull, 0x34B82574761CB0E8ull,
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0xC1BD0B2B6667F1DAull, 0xE8C2505DEDFC86DDull, };
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static struct ecc_curve gost_tc512a = {
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.name = "tc512a",
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.g = {
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.x = tc512a_g_x,
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.y = tc512a_g_y,
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.ndigits = 512 / 64,
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},
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.p = tc512a_p,
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.n = tc512a_n,
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.a = tc512a_a,
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.b = tc512a_b
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};
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/* OID_gostTC26Sign512B 1.2.643.7.1.2.1.2.2 */
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static u64 tc512b_g_x[] = {
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0x0000000000000002ull, 0x0000000000000000ull,
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0x0000000000000000ull, 0x0000000000000000ull,
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0x0000000000000000ull, 0x0000000000000000ull,
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0x0000000000000000ull, 0x0000000000000000ull, };
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static u64 tc512b_g_y[] = {
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0x7E21340780FE41BDull, 0x28041055F94CEEECull,
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0x152CBCAAF8C03988ull, 0xDCB228FD1EDF4A39ull,
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0xBE6DD9E6C8EC7335ull, 0x3C123B697578C213ull,
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0x2C071E3647A8940Full, 0x1A8F7EDA389B094Cull, };
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static u64 tc512b_p[] = { /* p = 2^511 + 111 */
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0x000000000000006Full, 0x0000000000000000ull,
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0x0000000000000000ull, 0x0000000000000000ull,
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0x0000000000000000ull, 0x0000000000000000ull,
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0x0000000000000000ull, 0x8000000000000000ull, };
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static u64 tc512b_n[] = {
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0xC6346C54374F25BDull, 0x8B996712101BEA0Eull,
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0xACFDB77BD9D40CFAull, 0x49A1EC142565A545ull,
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0x0000000000000001ull, 0x0000000000000000ull,
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0x0000000000000000ull, 0x8000000000000000ull, };
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static u64 tc512b_a[] = { /* a = p - 3 */
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0x000000000000006Cull, 0x0000000000000000ull,
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0x0000000000000000ull, 0x0000000000000000ull,
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0x0000000000000000ull, 0x0000000000000000ull,
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0x0000000000000000ull, 0x8000000000000000ull, };
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static u64 tc512b_b[] = {
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0xFB8CCBC7C5140116ull, 0x50F78BEE1FA3106Eull,
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0x7F8B276FAD1AB69Cull, 0x3E965D2DB1416D21ull,
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0xBF85DC806C4B289Full, 0xB97C7D614AF138BCull,
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0x7E3E06CF6F5E2517ull, 0x687D1B459DC84145ull, };
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static struct ecc_curve gost_tc512b = {
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.name = "tc512b",
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.g = {
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.x = tc512b_g_x,
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.y = tc512b_g_y,
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.ndigits = 512 / 64,
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},
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.p = tc512b_p,
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.n = tc512b_n,
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.a = tc512b_a,
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.b = tc512b_b
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};
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#endif
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