11f13597dSJung-uk Kim /*
2*b077aed3SPierre Pronchery * Copyright 2011-2021 The OpenSSL Project Authors. All Rights Reserved.
3e71b7053SJung-uk Kim *
4*b077aed3SPierre Pronchery * Licensed under the Apache License 2.0 (the "License"). You may not use
5e71b7053SJung-uk Kim * this file except in compliance with the License. You can obtain a copy
6e71b7053SJung-uk Kim * in the file LICENSE in the source distribution or at
7e71b7053SJung-uk Kim * https://www.openssl.org/source/license.html
81f13597dSJung-uk Kim */
9e71b7053SJung-uk Kim
101f13597dSJung-uk Kim /* Copyright 2011 Google Inc.
111f13597dSJung-uk Kim *
121f13597dSJung-uk Kim * Licensed under the Apache License, Version 2.0 (the "License");
131f13597dSJung-uk Kim *
141f13597dSJung-uk Kim * you may not use this file except in compliance with the License.
151f13597dSJung-uk Kim * You may obtain a copy of the License at
161f13597dSJung-uk Kim *
171f13597dSJung-uk Kim * http://www.apache.org/licenses/LICENSE-2.0
181f13597dSJung-uk Kim *
191f13597dSJung-uk Kim * Unless required by applicable law or agreed to in writing, software
201f13597dSJung-uk Kim * distributed under the License is distributed on an "AS IS" BASIS,
211f13597dSJung-uk Kim * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
221f13597dSJung-uk Kim * See the License for the specific language governing permissions and
231f13597dSJung-uk Kim * limitations under the License.
241f13597dSJung-uk Kim */
251f13597dSJung-uk Kim
261f13597dSJung-uk Kim /*
27*b077aed3SPierre Pronchery * ECDSA low level APIs are deprecated for public use, but still ok for
28*b077aed3SPierre Pronchery * internal use.
29*b077aed3SPierre Pronchery */
30*b077aed3SPierre Pronchery #include "internal/deprecated.h"
31*b077aed3SPierre Pronchery
32*b077aed3SPierre Pronchery /*
331f13597dSJung-uk Kim * A 64-bit implementation of the NIST P-521 elliptic curve point multiplication
341f13597dSJung-uk Kim *
351f13597dSJung-uk Kim * OpenSSL integration was taken from Emilia Kasper's work in ecp_nistp224.c.
361f13597dSJung-uk Kim * Otherwise based on Emilia's P224 work, which was inspired by my curve25519
371f13597dSJung-uk Kim * work which got its smarts from Daniel J. Bernstein's work on the same.
381f13597dSJung-uk Kim */
391f13597dSJung-uk Kim
40e71b7053SJung-uk Kim #include <openssl/e_os2.h>
411f13597dSJung-uk Kim
421f13597dSJung-uk Kim #include <string.h>
431f13597dSJung-uk Kim #include <openssl/err.h>
4417f01e99SJung-uk Kim #include "ec_local.h"
451f13597dSJung-uk Kim
46*b077aed3SPierre Pronchery #include "internal/numbers.h"
47*b077aed3SPierre Pronchery
48*b077aed3SPierre Pronchery #ifndef INT128_MAX
49e71b7053SJung-uk Kim # error "Your compiler doesn't appear to support 128-bit integer types"
501f13597dSJung-uk Kim #endif
511f13597dSJung-uk Kim
521f13597dSJung-uk Kim typedef uint8_t u8;
531f13597dSJung-uk Kim typedef uint64_t u64;
541f13597dSJung-uk Kim
556f9291ceSJung-uk Kim /*
56*b077aed3SPierre Pronchery * The underlying field. P521 operates over GF(2^521-1). We can serialize an
576f9291ceSJung-uk Kim * element of this field into 66 bytes where the most significant byte
586f9291ceSJung-uk Kim * contains only a single bit. We call this an felem_bytearray.
596f9291ceSJung-uk Kim */
601f13597dSJung-uk Kim
611f13597dSJung-uk Kim typedef u8 felem_bytearray[66];
621f13597dSJung-uk Kim
636f9291ceSJung-uk Kim /*
646f9291ceSJung-uk Kim * These are the parameters of P521, taken from FIPS 186-3, section D.1.2.5.
656f9291ceSJung-uk Kim * These values are big-endian.
666f9291ceSJung-uk Kim */
676f9291ceSJung-uk Kim static const felem_bytearray nistp521_curve_params[5] = {
681f13597dSJung-uk Kim {0x01, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, /* p */
691f13597dSJung-uk Kim 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff,
701f13597dSJung-uk Kim 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff,
711f13597dSJung-uk Kim 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff,
721f13597dSJung-uk Kim 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff,
731f13597dSJung-uk Kim 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff,
741f13597dSJung-uk Kim 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff,
751f13597dSJung-uk Kim 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff,
761f13597dSJung-uk Kim 0xff, 0xff},
771f13597dSJung-uk Kim {0x01, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, /* a = -3 */
781f13597dSJung-uk Kim 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff,
791f13597dSJung-uk Kim 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff,
801f13597dSJung-uk Kim 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff,
811f13597dSJung-uk Kim 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff,
821f13597dSJung-uk Kim 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff,
831f13597dSJung-uk Kim 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff,
841f13597dSJung-uk Kim 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff,
851f13597dSJung-uk Kim 0xff, 0xfc},
861f13597dSJung-uk Kim {0x00, 0x51, 0x95, 0x3e, 0xb9, 0x61, 0x8e, 0x1c, /* b */
871f13597dSJung-uk Kim 0x9a, 0x1f, 0x92, 0x9a, 0x21, 0xa0, 0xb6, 0x85,
881f13597dSJung-uk Kim 0x40, 0xee, 0xa2, 0xda, 0x72, 0x5b, 0x99, 0xb3,
891f13597dSJung-uk Kim 0x15, 0xf3, 0xb8, 0xb4, 0x89, 0x91, 0x8e, 0xf1,
901f13597dSJung-uk Kim 0x09, 0xe1, 0x56, 0x19, 0x39, 0x51, 0xec, 0x7e,
911f13597dSJung-uk Kim 0x93, 0x7b, 0x16, 0x52, 0xc0, 0xbd, 0x3b, 0xb1,
921f13597dSJung-uk Kim 0xbf, 0x07, 0x35, 0x73, 0xdf, 0x88, 0x3d, 0x2c,
931f13597dSJung-uk Kim 0x34, 0xf1, 0xef, 0x45, 0x1f, 0xd4, 0x6b, 0x50,
941f13597dSJung-uk Kim 0x3f, 0x00},
951f13597dSJung-uk Kim {0x00, 0xc6, 0x85, 0x8e, 0x06, 0xb7, 0x04, 0x04, /* x */
961f13597dSJung-uk Kim 0xe9, 0xcd, 0x9e, 0x3e, 0xcb, 0x66, 0x23, 0x95,
971f13597dSJung-uk Kim 0xb4, 0x42, 0x9c, 0x64, 0x81, 0x39, 0x05, 0x3f,
981f13597dSJung-uk Kim 0xb5, 0x21, 0xf8, 0x28, 0xaf, 0x60, 0x6b, 0x4d,
991f13597dSJung-uk Kim 0x3d, 0xba, 0xa1, 0x4b, 0x5e, 0x77, 0xef, 0xe7,
1001f13597dSJung-uk Kim 0x59, 0x28, 0xfe, 0x1d, 0xc1, 0x27, 0xa2, 0xff,
1011f13597dSJung-uk Kim 0xa8, 0xde, 0x33, 0x48, 0xb3, 0xc1, 0x85, 0x6a,
1021f13597dSJung-uk Kim 0x42, 0x9b, 0xf9, 0x7e, 0x7e, 0x31, 0xc2, 0xe5,
1031f13597dSJung-uk Kim 0xbd, 0x66},
1041f13597dSJung-uk Kim {0x01, 0x18, 0x39, 0x29, 0x6a, 0x78, 0x9a, 0x3b, /* y */
1051f13597dSJung-uk Kim 0xc0, 0x04, 0x5c, 0x8a, 0x5f, 0xb4, 0x2c, 0x7d,
1061f13597dSJung-uk Kim 0x1b, 0xd9, 0x98, 0xf5, 0x44, 0x49, 0x57, 0x9b,
1071f13597dSJung-uk Kim 0x44, 0x68, 0x17, 0xaf, 0xbd, 0x17, 0x27, 0x3e,
1081f13597dSJung-uk Kim 0x66, 0x2c, 0x97, 0xee, 0x72, 0x99, 0x5e, 0xf4,
1091f13597dSJung-uk Kim 0x26, 0x40, 0xc5, 0x50, 0xb9, 0x01, 0x3f, 0xad,
1101f13597dSJung-uk Kim 0x07, 0x61, 0x35, 0x3c, 0x70, 0x86, 0xa2, 0x72,
1111f13597dSJung-uk Kim 0xc2, 0x40, 0x88, 0xbe, 0x94, 0x76, 0x9f, 0xd1,
1121f13597dSJung-uk Kim 0x66, 0x50}
1131f13597dSJung-uk Kim };
1141f13597dSJung-uk Kim
1156f9291ceSJung-uk Kim /*-
1166f9291ceSJung-uk Kim * The representation of field elements.
1171f13597dSJung-uk Kim * ------------------------------------
1181f13597dSJung-uk Kim *
1191f13597dSJung-uk Kim * We represent field elements with nine values. These values are either 64 or
1201f13597dSJung-uk Kim * 128 bits and the field element represented is:
1211f13597dSJung-uk Kim * v[0]*2^0 + v[1]*2^58 + v[2]*2^116 + ... + v[8]*2^464 (mod p)
1221f13597dSJung-uk Kim * Each of the nine values is called a 'limb'. Since the limbs are spaced only
1231f13597dSJung-uk Kim * 58 bits apart, but are greater than 58 bits in length, the most significant
1241f13597dSJung-uk Kim * bits of each limb overlap with the least significant bits of the next.
1251f13597dSJung-uk Kim *
1261f13597dSJung-uk Kim * A field element with 64-bit limbs is an 'felem'. One with 128-bit limbs is a
1271f13597dSJung-uk Kim * 'largefelem' */
1281f13597dSJung-uk Kim
1291f13597dSJung-uk Kim #define NLIMBS 9
1301f13597dSJung-uk Kim
1311f13597dSJung-uk Kim typedef uint64_t limb;
13258f35182SJung-uk Kim typedef limb limb_aX __attribute((__aligned__(1)));
1331f13597dSJung-uk Kim typedef limb felem[NLIMBS];
1341f13597dSJung-uk Kim typedef uint128_t largefelem[NLIMBS];
1351f13597dSJung-uk Kim
1361f13597dSJung-uk Kim static const limb bottom57bits = 0x1ffffffffffffff;
1371f13597dSJung-uk Kim static const limb bottom58bits = 0x3ffffffffffffff;
1381f13597dSJung-uk Kim
1396f9291ceSJung-uk Kim /*
1406f9291ceSJung-uk Kim * bin66_to_felem takes a little-endian byte array and converts it into felem
1416f9291ceSJung-uk Kim * form. This assumes that the CPU is little-endian.
1426f9291ceSJung-uk Kim */
bin66_to_felem(felem out,const u8 in[66])1431f13597dSJung-uk Kim static void bin66_to_felem(felem out, const u8 in[66])
1441f13597dSJung-uk Kim {
1451f13597dSJung-uk Kim out[0] = (*((limb *) & in[0])) & bottom58bits;
14658f35182SJung-uk Kim out[1] = (*((limb_aX *) & in[7]) >> 2) & bottom58bits;
14758f35182SJung-uk Kim out[2] = (*((limb_aX *) & in[14]) >> 4) & bottom58bits;
14858f35182SJung-uk Kim out[3] = (*((limb_aX *) & in[21]) >> 6) & bottom58bits;
14958f35182SJung-uk Kim out[4] = (*((limb_aX *) & in[29])) & bottom58bits;
15058f35182SJung-uk Kim out[5] = (*((limb_aX *) & in[36]) >> 2) & bottom58bits;
15158f35182SJung-uk Kim out[6] = (*((limb_aX *) & in[43]) >> 4) & bottom58bits;
15258f35182SJung-uk Kim out[7] = (*((limb_aX *) & in[50]) >> 6) & bottom58bits;
15358f35182SJung-uk Kim out[8] = (*((limb_aX *) & in[58])) & bottom57bits;
1541f13597dSJung-uk Kim }
1551f13597dSJung-uk Kim
1566f9291ceSJung-uk Kim /*
157*b077aed3SPierre Pronchery * felem_to_bin66 takes an felem and serializes into a little endian, 66 byte
1586f9291ceSJung-uk Kim * array. This assumes that the CPU is little-endian.
1596f9291ceSJung-uk Kim */
felem_to_bin66(u8 out[66],const felem in)1601f13597dSJung-uk Kim static void felem_to_bin66(u8 out[66], const felem in)
1611f13597dSJung-uk Kim {
1621f13597dSJung-uk Kim memset(out, 0, 66);
1631f13597dSJung-uk Kim (*((limb *) & out[0])) = in[0];
16458f35182SJung-uk Kim (*((limb_aX *) & out[7])) |= in[1] << 2;
16558f35182SJung-uk Kim (*((limb_aX *) & out[14])) |= in[2] << 4;
16658f35182SJung-uk Kim (*((limb_aX *) & out[21])) |= in[3] << 6;
16758f35182SJung-uk Kim (*((limb_aX *) & out[29])) = in[4];
16858f35182SJung-uk Kim (*((limb_aX *) & out[36])) |= in[5] << 2;
16958f35182SJung-uk Kim (*((limb_aX *) & out[43])) |= in[6] << 4;
17058f35182SJung-uk Kim (*((limb_aX *) & out[50])) |= in[7] << 6;
17158f35182SJung-uk Kim (*((limb_aX *) & out[58])) = in[8];
1721f13597dSJung-uk Kim }
1731f13597dSJung-uk Kim
1741f13597dSJung-uk Kim /* BN_to_felem converts an OpenSSL BIGNUM into an felem */
BN_to_felem(felem out,const BIGNUM * bn)1751f13597dSJung-uk Kim static int BN_to_felem(felem out, const BIGNUM *bn)
1761f13597dSJung-uk Kim {
1771f13597dSJung-uk Kim felem_bytearray b_out;
178da327cd2SJung-uk Kim int num_bytes;
1791f13597dSJung-uk Kim
1806f9291ceSJung-uk Kim if (BN_is_negative(bn)) {
181*b077aed3SPierre Pronchery ERR_raise(ERR_LIB_EC, EC_R_BIGNUM_OUT_OF_RANGE);
1821f13597dSJung-uk Kim return 0;
1831f13597dSJung-uk Kim }
184da327cd2SJung-uk Kim num_bytes = BN_bn2lebinpad(bn, b_out, sizeof(b_out));
185da327cd2SJung-uk Kim if (num_bytes < 0) {
186*b077aed3SPierre Pronchery ERR_raise(ERR_LIB_EC, EC_R_BIGNUM_OUT_OF_RANGE);
187da327cd2SJung-uk Kim return 0;
188da327cd2SJung-uk Kim }
1891f13597dSJung-uk Kim bin66_to_felem(out, b_out);
1901f13597dSJung-uk Kim return 1;
1911f13597dSJung-uk Kim }
1921f13597dSJung-uk Kim
1931f13597dSJung-uk Kim /* felem_to_BN converts an felem into an OpenSSL BIGNUM */
felem_to_BN(BIGNUM * out,const felem in)1941f13597dSJung-uk Kim static BIGNUM *felem_to_BN(BIGNUM *out, const felem in)
1951f13597dSJung-uk Kim {
196da327cd2SJung-uk Kim felem_bytearray b_out;
197da327cd2SJung-uk Kim felem_to_bin66(b_out, in);
198da327cd2SJung-uk Kim return BN_lebin2bn(b_out, sizeof(b_out), out);
1991f13597dSJung-uk Kim }
2001f13597dSJung-uk Kim
2016f9291ceSJung-uk Kim /*-
2026f9291ceSJung-uk Kim * Field operations
2036f9291ceSJung-uk Kim * ----------------
2046f9291ceSJung-uk Kim */
2051f13597dSJung-uk Kim
felem_one(felem out)2061f13597dSJung-uk Kim static void felem_one(felem out)
2071f13597dSJung-uk Kim {
2081f13597dSJung-uk Kim out[0] = 1;
2091f13597dSJung-uk Kim out[1] = 0;
2101f13597dSJung-uk Kim out[2] = 0;
2111f13597dSJung-uk Kim out[3] = 0;
2121f13597dSJung-uk Kim out[4] = 0;
2131f13597dSJung-uk Kim out[5] = 0;
2141f13597dSJung-uk Kim out[6] = 0;
2151f13597dSJung-uk Kim out[7] = 0;
2161f13597dSJung-uk Kim out[8] = 0;
2171f13597dSJung-uk Kim }
2181f13597dSJung-uk Kim
felem_assign(felem out,const felem in)2191f13597dSJung-uk Kim static void felem_assign(felem out, const felem in)
2201f13597dSJung-uk Kim {
2211f13597dSJung-uk Kim out[0] = in[0];
2221f13597dSJung-uk Kim out[1] = in[1];
2231f13597dSJung-uk Kim out[2] = in[2];
2241f13597dSJung-uk Kim out[3] = in[3];
2251f13597dSJung-uk Kim out[4] = in[4];
2261f13597dSJung-uk Kim out[5] = in[5];
2271f13597dSJung-uk Kim out[6] = in[6];
2281f13597dSJung-uk Kim out[7] = in[7];
2291f13597dSJung-uk Kim out[8] = in[8];
2301f13597dSJung-uk Kim }
2311f13597dSJung-uk Kim
2321f13597dSJung-uk Kim /* felem_sum64 sets out = out + in. */
felem_sum64(felem out,const felem in)2331f13597dSJung-uk Kim static void felem_sum64(felem out, const felem in)
2341f13597dSJung-uk Kim {
2351f13597dSJung-uk Kim out[0] += in[0];
2361f13597dSJung-uk Kim out[1] += in[1];
2371f13597dSJung-uk Kim out[2] += in[2];
2381f13597dSJung-uk Kim out[3] += in[3];
2391f13597dSJung-uk Kim out[4] += in[4];
2401f13597dSJung-uk Kim out[5] += in[5];
2411f13597dSJung-uk Kim out[6] += in[6];
2421f13597dSJung-uk Kim out[7] += in[7];
2431f13597dSJung-uk Kim out[8] += in[8];
2441f13597dSJung-uk Kim }
2451f13597dSJung-uk Kim
2461f13597dSJung-uk Kim /* felem_scalar sets out = in * scalar */
felem_scalar(felem out,const felem in,limb scalar)2471f13597dSJung-uk Kim static void felem_scalar(felem out, const felem in, limb scalar)
2481f13597dSJung-uk Kim {
2491f13597dSJung-uk Kim out[0] = in[0] * scalar;
2501f13597dSJung-uk Kim out[1] = in[1] * scalar;
2511f13597dSJung-uk Kim out[2] = in[2] * scalar;
2521f13597dSJung-uk Kim out[3] = in[3] * scalar;
2531f13597dSJung-uk Kim out[4] = in[4] * scalar;
2541f13597dSJung-uk Kim out[5] = in[5] * scalar;
2551f13597dSJung-uk Kim out[6] = in[6] * scalar;
2561f13597dSJung-uk Kim out[7] = in[7] * scalar;
2571f13597dSJung-uk Kim out[8] = in[8] * scalar;
2581f13597dSJung-uk Kim }
2591f13597dSJung-uk Kim
2601f13597dSJung-uk Kim /* felem_scalar64 sets out = out * scalar */
felem_scalar64(felem out,limb scalar)2611f13597dSJung-uk Kim static void felem_scalar64(felem out, limb scalar)
2621f13597dSJung-uk Kim {
2631f13597dSJung-uk Kim out[0] *= scalar;
2641f13597dSJung-uk Kim out[1] *= scalar;
2651f13597dSJung-uk Kim out[2] *= scalar;
2661f13597dSJung-uk Kim out[3] *= scalar;
2671f13597dSJung-uk Kim out[4] *= scalar;
2681f13597dSJung-uk Kim out[5] *= scalar;
2691f13597dSJung-uk Kim out[6] *= scalar;
2701f13597dSJung-uk Kim out[7] *= scalar;
2711f13597dSJung-uk Kim out[8] *= scalar;
2721f13597dSJung-uk Kim }
2731f13597dSJung-uk Kim
2741f13597dSJung-uk Kim /* felem_scalar128 sets out = out * scalar */
felem_scalar128(largefelem out,limb scalar)2751f13597dSJung-uk Kim static void felem_scalar128(largefelem out, limb scalar)
2761f13597dSJung-uk Kim {
2771f13597dSJung-uk Kim out[0] *= scalar;
2781f13597dSJung-uk Kim out[1] *= scalar;
2791f13597dSJung-uk Kim out[2] *= scalar;
2801f13597dSJung-uk Kim out[3] *= scalar;
2811f13597dSJung-uk Kim out[4] *= scalar;
2821f13597dSJung-uk Kim out[5] *= scalar;
2831f13597dSJung-uk Kim out[6] *= scalar;
2841f13597dSJung-uk Kim out[7] *= scalar;
2851f13597dSJung-uk Kim out[8] *= scalar;
2861f13597dSJung-uk Kim }
2871f13597dSJung-uk Kim
2886f9291ceSJung-uk Kim /*-
2896f9291ceSJung-uk Kim * felem_neg sets |out| to |-in|
2901f13597dSJung-uk Kim * On entry:
2911f13597dSJung-uk Kim * in[i] < 2^59 + 2^14
2921f13597dSJung-uk Kim * On exit:
2931f13597dSJung-uk Kim * out[i] < 2^62
2941f13597dSJung-uk Kim */
felem_neg(felem out,const felem in)2951f13597dSJung-uk Kim static void felem_neg(felem out, const felem in)
2961f13597dSJung-uk Kim {
2971f13597dSJung-uk Kim /* In order to prevent underflow, we subtract from 0 mod p. */
2981f13597dSJung-uk Kim static const limb two62m3 = (((limb) 1) << 62) - (((limb) 1) << 5);
2991f13597dSJung-uk Kim static const limb two62m2 = (((limb) 1) << 62) - (((limb) 1) << 4);
3001f13597dSJung-uk Kim
3011f13597dSJung-uk Kim out[0] = two62m3 - in[0];
3021f13597dSJung-uk Kim out[1] = two62m2 - in[1];
3031f13597dSJung-uk Kim out[2] = two62m2 - in[2];
3041f13597dSJung-uk Kim out[3] = two62m2 - in[3];
3051f13597dSJung-uk Kim out[4] = two62m2 - in[4];
3061f13597dSJung-uk Kim out[5] = two62m2 - in[5];
3071f13597dSJung-uk Kim out[6] = two62m2 - in[6];
3081f13597dSJung-uk Kim out[7] = two62m2 - in[7];
3091f13597dSJung-uk Kim out[8] = two62m2 - in[8];
3101f13597dSJung-uk Kim }
3111f13597dSJung-uk Kim
3126f9291ceSJung-uk Kim /*-
3136f9291ceSJung-uk Kim * felem_diff64 subtracts |in| from |out|
3141f13597dSJung-uk Kim * On entry:
3151f13597dSJung-uk Kim * in[i] < 2^59 + 2^14
3161f13597dSJung-uk Kim * On exit:
3171f13597dSJung-uk Kim * out[i] < out[i] + 2^62
3181f13597dSJung-uk Kim */
felem_diff64(felem out,const felem in)3191f13597dSJung-uk Kim static void felem_diff64(felem out, const felem in)
3201f13597dSJung-uk Kim {
3216f9291ceSJung-uk Kim /*
3226f9291ceSJung-uk Kim * In order to prevent underflow, we add 0 mod p before subtracting.
3236f9291ceSJung-uk Kim */
3241f13597dSJung-uk Kim static const limb two62m3 = (((limb) 1) << 62) - (((limb) 1) << 5);
3251f13597dSJung-uk Kim static const limb two62m2 = (((limb) 1) << 62) - (((limb) 1) << 4);
3261f13597dSJung-uk Kim
3271f13597dSJung-uk Kim out[0] += two62m3 - in[0];
3281f13597dSJung-uk Kim out[1] += two62m2 - in[1];
3291f13597dSJung-uk Kim out[2] += two62m2 - in[2];
3301f13597dSJung-uk Kim out[3] += two62m2 - in[3];
3311f13597dSJung-uk Kim out[4] += two62m2 - in[4];
3321f13597dSJung-uk Kim out[5] += two62m2 - in[5];
3331f13597dSJung-uk Kim out[6] += two62m2 - in[6];
3341f13597dSJung-uk Kim out[7] += two62m2 - in[7];
3351f13597dSJung-uk Kim out[8] += two62m2 - in[8];
3361f13597dSJung-uk Kim }
3371f13597dSJung-uk Kim
3386f9291ceSJung-uk Kim /*-
3396f9291ceSJung-uk Kim * felem_diff_128_64 subtracts |in| from |out|
3401f13597dSJung-uk Kim * On entry:
3411f13597dSJung-uk Kim * in[i] < 2^62 + 2^17
3421f13597dSJung-uk Kim * On exit:
3431f13597dSJung-uk Kim * out[i] < out[i] + 2^63
3441f13597dSJung-uk Kim */
felem_diff_128_64(largefelem out,const felem in)3451f13597dSJung-uk Kim static void felem_diff_128_64(largefelem out, const felem in)
3461f13597dSJung-uk Kim {
3476f9291ceSJung-uk Kim /*
348610a21fdSJung-uk Kim * In order to prevent underflow, we add 64p mod p (which is equivalent
349610a21fdSJung-uk Kim * to 0 mod p) before subtracting. p is 2^521 - 1, i.e. in binary a 521
350610a21fdSJung-uk Kim * digit number with all bits set to 1. See "The representation of field
351610a21fdSJung-uk Kim * elements" comment above for a description of how limbs are used to
352610a21fdSJung-uk Kim * represent a number. 64p is represented with 8 limbs containing a number
353610a21fdSJung-uk Kim * with 58 bits set and one limb with a number with 57 bits set.
3546f9291ceSJung-uk Kim */
355610a21fdSJung-uk Kim static const limb two63m6 = (((limb) 1) << 63) - (((limb) 1) << 6);
356610a21fdSJung-uk Kim static const limb two63m5 = (((limb) 1) << 63) - (((limb) 1) << 5);
3571f13597dSJung-uk Kim
3581f13597dSJung-uk Kim out[0] += two63m6 - in[0];
3591f13597dSJung-uk Kim out[1] += two63m5 - in[1];
3601f13597dSJung-uk Kim out[2] += two63m5 - in[2];
3611f13597dSJung-uk Kim out[3] += two63m5 - in[3];
3621f13597dSJung-uk Kim out[4] += two63m5 - in[4];
3631f13597dSJung-uk Kim out[5] += two63m5 - in[5];
3641f13597dSJung-uk Kim out[6] += two63m5 - in[6];
3651f13597dSJung-uk Kim out[7] += two63m5 - in[7];
3661f13597dSJung-uk Kim out[8] += two63m5 - in[8];
3671f13597dSJung-uk Kim }
3681f13597dSJung-uk Kim
3696f9291ceSJung-uk Kim /*-
3706f9291ceSJung-uk Kim * felem_diff_128_64 subtracts |in| from |out|
3711f13597dSJung-uk Kim * On entry:
3721f13597dSJung-uk Kim * in[i] < 2^126
3731f13597dSJung-uk Kim * On exit:
3741f13597dSJung-uk Kim * out[i] < out[i] + 2^127 - 2^69
3751f13597dSJung-uk Kim */
felem_diff128(largefelem out,const largefelem in)3761f13597dSJung-uk Kim static void felem_diff128(largefelem out, const largefelem in)
3771f13597dSJung-uk Kim {
3786f9291ceSJung-uk Kim /*
3796f9291ceSJung-uk Kim * In order to prevent underflow, we add 0 mod p before subtracting.
3806f9291ceSJung-uk Kim */
3816f9291ceSJung-uk Kim static const uint128_t two127m70 =
3826f9291ceSJung-uk Kim (((uint128_t) 1) << 127) - (((uint128_t) 1) << 70);
3836f9291ceSJung-uk Kim static const uint128_t two127m69 =
3846f9291ceSJung-uk Kim (((uint128_t) 1) << 127) - (((uint128_t) 1) << 69);
3851f13597dSJung-uk Kim
3861f13597dSJung-uk Kim out[0] += (two127m70 - in[0]);
3871f13597dSJung-uk Kim out[1] += (two127m69 - in[1]);
3881f13597dSJung-uk Kim out[2] += (two127m69 - in[2]);
3891f13597dSJung-uk Kim out[3] += (two127m69 - in[3]);
3901f13597dSJung-uk Kim out[4] += (two127m69 - in[4]);
3911f13597dSJung-uk Kim out[5] += (two127m69 - in[5]);
3921f13597dSJung-uk Kim out[6] += (two127m69 - in[6]);
3931f13597dSJung-uk Kim out[7] += (two127m69 - in[7]);
3941f13597dSJung-uk Kim out[8] += (two127m69 - in[8]);
3951f13597dSJung-uk Kim }
3961f13597dSJung-uk Kim
3976f9291ceSJung-uk Kim /*-
3986f9291ceSJung-uk Kim * felem_square sets |out| = |in|^2
3991f13597dSJung-uk Kim * On entry:
4001f13597dSJung-uk Kim * in[i] < 2^62
4011f13597dSJung-uk Kim * On exit:
4021f13597dSJung-uk Kim * out[i] < 17 * max(in[i]) * max(in[i])
4031f13597dSJung-uk Kim */
felem_square_ref(largefelem out,const felem in)404*b077aed3SPierre Pronchery static void felem_square_ref(largefelem out, const felem in)
4051f13597dSJung-uk Kim {
4061f13597dSJung-uk Kim felem inx2, inx4;
4071f13597dSJung-uk Kim felem_scalar(inx2, in, 2);
4081f13597dSJung-uk Kim felem_scalar(inx4, in, 4);
4091f13597dSJung-uk Kim
4106f9291ceSJung-uk Kim /*-
4116f9291ceSJung-uk Kim * We have many cases were we want to do
4121f13597dSJung-uk Kim * in[x] * in[y] +
4131f13597dSJung-uk Kim * in[y] * in[x]
4141f13597dSJung-uk Kim * This is obviously just
4151f13597dSJung-uk Kim * 2 * in[x] * in[y]
4161f13597dSJung-uk Kim * However, rather than do the doubling on the 128 bit result, we
4171f13597dSJung-uk Kim * double one of the inputs to the multiplication by reading from
4186f9291ceSJung-uk Kim * |inx2|
4196f9291ceSJung-uk Kim */
4201f13597dSJung-uk Kim
4211f13597dSJung-uk Kim out[0] = ((uint128_t) in[0]) * in[0];
4221f13597dSJung-uk Kim out[1] = ((uint128_t) in[0]) * inx2[1];
4236f9291ceSJung-uk Kim out[2] = ((uint128_t) in[0]) * inx2[2] + ((uint128_t) in[1]) * in[1];
4246f9291ceSJung-uk Kim out[3] = ((uint128_t) in[0]) * inx2[3] + ((uint128_t) in[1]) * inx2[2];
4251f13597dSJung-uk Kim out[4] = ((uint128_t) in[0]) * inx2[4] +
4266f9291ceSJung-uk Kim ((uint128_t) in[1]) * inx2[3] + ((uint128_t) in[2]) * in[2];
4271f13597dSJung-uk Kim out[5] = ((uint128_t) in[0]) * inx2[5] +
4286f9291ceSJung-uk Kim ((uint128_t) in[1]) * inx2[4] + ((uint128_t) in[2]) * inx2[3];
4291f13597dSJung-uk Kim out[6] = ((uint128_t) in[0]) * inx2[6] +
4301f13597dSJung-uk Kim ((uint128_t) in[1]) * inx2[5] +
4316f9291ceSJung-uk Kim ((uint128_t) in[2]) * inx2[4] + ((uint128_t) in[3]) * in[3];
4321f13597dSJung-uk Kim out[7] = ((uint128_t) in[0]) * inx2[7] +
4331f13597dSJung-uk Kim ((uint128_t) in[1]) * inx2[6] +
4346f9291ceSJung-uk Kim ((uint128_t) in[2]) * inx2[5] + ((uint128_t) in[3]) * inx2[4];
4351f13597dSJung-uk Kim out[8] = ((uint128_t) in[0]) * inx2[8] +
4361f13597dSJung-uk Kim ((uint128_t) in[1]) * inx2[7] +
4371f13597dSJung-uk Kim ((uint128_t) in[2]) * inx2[6] +
4386f9291ceSJung-uk Kim ((uint128_t) in[3]) * inx2[5] + ((uint128_t) in[4]) * in[4];
4391f13597dSJung-uk Kim
4406f9291ceSJung-uk Kim /*
4416f9291ceSJung-uk Kim * The remaining limbs fall above 2^521, with the first falling at 2^522.
4426f9291ceSJung-uk Kim * They correspond to locations one bit up from the limbs produced above
4436f9291ceSJung-uk Kim * so we would have to multiply by two to align them. Again, rather than
4446f9291ceSJung-uk Kim * operate on the 128-bit result, we double one of the inputs to the
4456f9291ceSJung-uk Kim * multiplication. If we want to double for both this reason, and the
4466f9291ceSJung-uk Kim * reason above, then we end up multiplying by four.
4476f9291ceSJung-uk Kim */
4481f13597dSJung-uk Kim
4491f13597dSJung-uk Kim /* 9 */
4501f13597dSJung-uk Kim out[0] += ((uint128_t) in[1]) * inx4[8] +
4511f13597dSJung-uk Kim ((uint128_t) in[2]) * inx4[7] +
4526f9291ceSJung-uk Kim ((uint128_t) in[3]) * inx4[6] + ((uint128_t) in[4]) * inx4[5];
4531f13597dSJung-uk Kim
4541f13597dSJung-uk Kim /* 10 */
4551f13597dSJung-uk Kim out[1] += ((uint128_t) in[2]) * inx4[8] +
4561f13597dSJung-uk Kim ((uint128_t) in[3]) * inx4[7] +
4576f9291ceSJung-uk Kim ((uint128_t) in[4]) * inx4[6] + ((uint128_t) in[5]) * inx2[5];
4581f13597dSJung-uk Kim
4591f13597dSJung-uk Kim /* 11 */
4601f13597dSJung-uk Kim out[2] += ((uint128_t) in[3]) * inx4[8] +
4616f9291ceSJung-uk Kim ((uint128_t) in[4]) * inx4[7] + ((uint128_t) in[5]) * inx4[6];
4621f13597dSJung-uk Kim
4631f13597dSJung-uk Kim /* 12 */
4641f13597dSJung-uk Kim out[3] += ((uint128_t) in[4]) * inx4[8] +
4656f9291ceSJung-uk Kim ((uint128_t) in[5]) * inx4[7] + ((uint128_t) in[6]) * inx2[6];
4661f13597dSJung-uk Kim
4671f13597dSJung-uk Kim /* 13 */
4686f9291ceSJung-uk Kim out[4] += ((uint128_t) in[5]) * inx4[8] + ((uint128_t) in[6]) * inx4[7];
4691f13597dSJung-uk Kim
4701f13597dSJung-uk Kim /* 14 */
4716f9291ceSJung-uk Kim out[5] += ((uint128_t) in[6]) * inx4[8] + ((uint128_t) in[7]) * inx2[7];
4721f13597dSJung-uk Kim
4731f13597dSJung-uk Kim /* 15 */
4741f13597dSJung-uk Kim out[6] += ((uint128_t) in[7]) * inx4[8];
4751f13597dSJung-uk Kim
4761f13597dSJung-uk Kim /* 16 */
4771f13597dSJung-uk Kim out[7] += ((uint128_t) in[8]) * inx2[8];
4781f13597dSJung-uk Kim }
4791f13597dSJung-uk Kim
4806f9291ceSJung-uk Kim /*-
4816f9291ceSJung-uk Kim * felem_mul sets |out| = |in1| * |in2|
4821f13597dSJung-uk Kim * On entry:
4831f13597dSJung-uk Kim * in1[i] < 2^64
4841f13597dSJung-uk Kim * in2[i] < 2^63
4851f13597dSJung-uk Kim * On exit:
4861f13597dSJung-uk Kim * out[i] < 17 * max(in1[i]) * max(in2[i])
4871f13597dSJung-uk Kim */
felem_mul_ref(largefelem out,const felem in1,const felem in2)488*b077aed3SPierre Pronchery static void felem_mul_ref(largefelem out, const felem in1, const felem in2)
4891f13597dSJung-uk Kim {
4901f13597dSJung-uk Kim felem in2x2;
4911f13597dSJung-uk Kim felem_scalar(in2x2, in2, 2);
4921f13597dSJung-uk Kim
4931f13597dSJung-uk Kim out[0] = ((uint128_t) in1[0]) * in2[0];
4941f13597dSJung-uk Kim
495e71b7053SJung-uk Kim out[1] = ((uint128_t) in1[0]) * in2[1] +
496e71b7053SJung-uk Kim ((uint128_t) in1[1]) * in2[0];
4971f13597dSJung-uk Kim
4981f13597dSJung-uk Kim out[2] = ((uint128_t) in1[0]) * in2[2] +
499e71b7053SJung-uk Kim ((uint128_t) in1[1]) * in2[1] +
500e71b7053SJung-uk Kim ((uint128_t) in1[2]) * in2[0];
5011f13597dSJung-uk Kim
5021f13597dSJung-uk Kim out[3] = ((uint128_t) in1[0]) * in2[3] +
5031f13597dSJung-uk Kim ((uint128_t) in1[1]) * in2[2] +
504e71b7053SJung-uk Kim ((uint128_t) in1[2]) * in2[1] +
505e71b7053SJung-uk Kim ((uint128_t) in1[3]) * in2[0];
5061f13597dSJung-uk Kim
5071f13597dSJung-uk Kim out[4] = ((uint128_t) in1[0]) * in2[4] +
5081f13597dSJung-uk Kim ((uint128_t) in1[1]) * in2[3] +
5091f13597dSJung-uk Kim ((uint128_t) in1[2]) * in2[2] +
510e71b7053SJung-uk Kim ((uint128_t) in1[3]) * in2[1] +
511e71b7053SJung-uk Kim ((uint128_t) in1[4]) * in2[0];
5121f13597dSJung-uk Kim
5131f13597dSJung-uk Kim out[5] = ((uint128_t) in1[0]) * in2[5] +
5141f13597dSJung-uk Kim ((uint128_t) in1[1]) * in2[4] +
5151f13597dSJung-uk Kim ((uint128_t) in1[2]) * in2[3] +
5161f13597dSJung-uk Kim ((uint128_t) in1[3]) * in2[2] +
517e71b7053SJung-uk Kim ((uint128_t) in1[4]) * in2[1] +
518e71b7053SJung-uk Kim ((uint128_t) in1[5]) * in2[0];
5191f13597dSJung-uk Kim
5201f13597dSJung-uk Kim out[6] = ((uint128_t) in1[0]) * in2[6] +
5211f13597dSJung-uk Kim ((uint128_t) in1[1]) * in2[5] +
5221f13597dSJung-uk Kim ((uint128_t) in1[2]) * in2[4] +
5231f13597dSJung-uk Kim ((uint128_t) in1[3]) * in2[3] +
5241f13597dSJung-uk Kim ((uint128_t) in1[4]) * in2[2] +
525e71b7053SJung-uk Kim ((uint128_t) in1[5]) * in2[1] +
526e71b7053SJung-uk Kim ((uint128_t) in1[6]) * in2[0];
5271f13597dSJung-uk Kim
5281f13597dSJung-uk Kim out[7] = ((uint128_t) in1[0]) * in2[7] +
5291f13597dSJung-uk Kim ((uint128_t) in1[1]) * in2[6] +
5301f13597dSJung-uk Kim ((uint128_t) in1[2]) * in2[5] +
5311f13597dSJung-uk Kim ((uint128_t) in1[3]) * in2[4] +
5321f13597dSJung-uk Kim ((uint128_t) in1[4]) * in2[3] +
5331f13597dSJung-uk Kim ((uint128_t) in1[5]) * in2[2] +
534e71b7053SJung-uk Kim ((uint128_t) in1[6]) * in2[1] +
535e71b7053SJung-uk Kim ((uint128_t) in1[7]) * in2[0];
5361f13597dSJung-uk Kim
5371f13597dSJung-uk Kim out[8] = ((uint128_t) in1[0]) * in2[8] +
5381f13597dSJung-uk Kim ((uint128_t) in1[1]) * in2[7] +
5391f13597dSJung-uk Kim ((uint128_t) in1[2]) * in2[6] +
5401f13597dSJung-uk Kim ((uint128_t) in1[3]) * in2[5] +
5411f13597dSJung-uk Kim ((uint128_t) in1[4]) * in2[4] +
5421f13597dSJung-uk Kim ((uint128_t) in1[5]) * in2[3] +
5431f13597dSJung-uk Kim ((uint128_t) in1[6]) * in2[2] +
544e71b7053SJung-uk Kim ((uint128_t) in1[7]) * in2[1] +
545e71b7053SJung-uk Kim ((uint128_t) in1[8]) * in2[0];
5461f13597dSJung-uk Kim
5471f13597dSJung-uk Kim /* See comment in felem_square about the use of in2x2 here */
5481f13597dSJung-uk Kim
5491f13597dSJung-uk Kim out[0] += ((uint128_t) in1[1]) * in2x2[8] +
5501f13597dSJung-uk Kim ((uint128_t) in1[2]) * in2x2[7] +
5511f13597dSJung-uk Kim ((uint128_t) in1[3]) * in2x2[6] +
5521f13597dSJung-uk Kim ((uint128_t) in1[4]) * in2x2[5] +
5531f13597dSJung-uk Kim ((uint128_t) in1[5]) * in2x2[4] +
5541f13597dSJung-uk Kim ((uint128_t) in1[6]) * in2x2[3] +
555e71b7053SJung-uk Kim ((uint128_t) in1[7]) * in2x2[2] +
556e71b7053SJung-uk Kim ((uint128_t) in1[8]) * in2x2[1];
5571f13597dSJung-uk Kim
5581f13597dSJung-uk Kim out[1] += ((uint128_t) in1[2]) * in2x2[8] +
5591f13597dSJung-uk Kim ((uint128_t) in1[3]) * in2x2[7] +
5601f13597dSJung-uk Kim ((uint128_t) in1[4]) * in2x2[6] +
5611f13597dSJung-uk Kim ((uint128_t) in1[5]) * in2x2[5] +
5621f13597dSJung-uk Kim ((uint128_t) in1[6]) * in2x2[4] +
563e71b7053SJung-uk Kim ((uint128_t) in1[7]) * in2x2[3] +
564e71b7053SJung-uk Kim ((uint128_t) in1[8]) * in2x2[2];
5651f13597dSJung-uk Kim
5661f13597dSJung-uk Kim out[2] += ((uint128_t) in1[3]) * in2x2[8] +
5671f13597dSJung-uk Kim ((uint128_t) in1[4]) * in2x2[7] +
5681f13597dSJung-uk Kim ((uint128_t) in1[5]) * in2x2[6] +
5691f13597dSJung-uk Kim ((uint128_t) in1[6]) * in2x2[5] +
570e71b7053SJung-uk Kim ((uint128_t) in1[7]) * in2x2[4] +
571e71b7053SJung-uk Kim ((uint128_t) in1[8]) * in2x2[3];
5721f13597dSJung-uk Kim
5731f13597dSJung-uk Kim out[3] += ((uint128_t) in1[4]) * in2x2[8] +
5741f13597dSJung-uk Kim ((uint128_t) in1[5]) * in2x2[7] +
5751f13597dSJung-uk Kim ((uint128_t) in1[6]) * in2x2[6] +
576e71b7053SJung-uk Kim ((uint128_t) in1[7]) * in2x2[5] +
577e71b7053SJung-uk Kim ((uint128_t) in1[8]) * in2x2[4];
5781f13597dSJung-uk Kim
5791f13597dSJung-uk Kim out[4] += ((uint128_t) in1[5]) * in2x2[8] +
5801f13597dSJung-uk Kim ((uint128_t) in1[6]) * in2x2[7] +
581e71b7053SJung-uk Kim ((uint128_t) in1[7]) * in2x2[6] +
582e71b7053SJung-uk Kim ((uint128_t) in1[8]) * in2x2[5];
5831f13597dSJung-uk Kim
5841f13597dSJung-uk Kim out[5] += ((uint128_t) in1[6]) * in2x2[8] +
585e71b7053SJung-uk Kim ((uint128_t) in1[7]) * in2x2[7] +
586e71b7053SJung-uk Kim ((uint128_t) in1[8]) * in2x2[6];
5871f13597dSJung-uk Kim
5881f13597dSJung-uk Kim out[6] += ((uint128_t) in1[7]) * in2x2[8] +
5891f13597dSJung-uk Kim ((uint128_t) in1[8]) * in2x2[7];
5901f13597dSJung-uk Kim
5911f13597dSJung-uk Kim out[7] += ((uint128_t) in1[8]) * in2x2[8];
5921f13597dSJung-uk Kim }
5931f13597dSJung-uk Kim
5941f13597dSJung-uk Kim static const limb bottom52bits = 0xfffffffffffff;
5951f13597dSJung-uk Kim
5966f9291ceSJung-uk Kim /*-
5976f9291ceSJung-uk Kim * felem_reduce converts a largefelem to an felem.
5981f13597dSJung-uk Kim * On entry:
5991f13597dSJung-uk Kim * in[i] < 2^128
6001f13597dSJung-uk Kim * On exit:
6011f13597dSJung-uk Kim * out[i] < 2^59 + 2^14
6021f13597dSJung-uk Kim */
felem_reduce(felem out,const largefelem in)6031f13597dSJung-uk Kim static void felem_reduce(felem out, const largefelem in)
6041f13597dSJung-uk Kim {
6051f13597dSJung-uk Kim u64 overflow1, overflow2;
6061f13597dSJung-uk Kim
6071f13597dSJung-uk Kim out[0] = ((limb) in[0]) & bottom58bits;
6081f13597dSJung-uk Kim out[1] = ((limb) in[1]) & bottom58bits;
6091f13597dSJung-uk Kim out[2] = ((limb) in[2]) & bottom58bits;
6101f13597dSJung-uk Kim out[3] = ((limb) in[3]) & bottom58bits;
6111f13597dSJung-uk Kim out[4] = ((limb) in[4]) & bottom58bits;
6121f13597dSJung-uk Kim out[5] = ((limb) in[5]) & bottom58bits;
6131f13597dSJung-uk Kim out[6] = ((limb) in[6]) & bottom58bits;
6141f13597dSJung-uk Kim out[7] = ((limb) in[7]) & bottom58bits;
6151f13597dSJung-uk Kim out[8] = ((limb) in[8]) & bottom58bits;
6161f13597dSJung-uk Kim
6171f13597dSJung-uk Kim /* out[i] < 2^58 */
6181f13597dSJung-uk Kim
6191f13597dSJung-uk Kim out[1] += ((limb) in[0]) >> 58;
6201f13597dSJung-uk Kim out[1] += (((limb) (in[0] >> 64)) & bottom52bits) << 6;
6216f9291ceSJung-uk Kim /*-
6226f9291ceSJung-uk Kim * out[1] < 2^58 + 2^6 + 2^58
6236f9291ceSJung-uk Kim * = 2^59 + 2^6
6246f9291ceSJung-uk Kim */
6251f13597dSJung-uk Kim out[2] += ((limb) (in[0] >> 64)) >> 52;
6261f13597dSJung-uk Kim
6271f13597dSJung-uk Kim out[2] += ((limb) in[1]) >> 58;
6281f13597dSJung-uk Kim out[2] += (((limb) (in[1] >> 64)) & bottom52bits) << 6;
6291f13597dSJung-uk Kim out[3] += ((limb) (in[1] >> 64)) >> 52;
6301f13597dSJung-uk Kim
6311f13597dSJung-uk Kim out[3] += ((limb) in[2]) >> 58;
6321f13597dSJung-uk Kim out[3] += (((limb) (in[2] >> 64)) & bottom52bits) << 6;
6331f13597dSJung-uk Kim out[4] += ((limb) (in[2] >> 64)) >> 52;
6341f13597dSJung-uk Kim
6351f13597dSJung-uk Kim out[4] += ((limb) in[3]) >> 58;
6361f13597dSJung-uk Kim out[4] += (((limb) (in[3] >> 64)) & bottom52bits) << 6;
6371f13597dSJung-uk Kim out[5] += ((limb) (in[3] >> 64)) >> 52;
6381f13597dSJung-uk Kim
6391f13597dSJung-uk Kim out[5] += ((limb) in[4]) >> 58;
6401f13597dSJung-uk Kim out[5] += (((limb) (in[4] >> 64)) & bottom52bits) << 6;
6411f13597dSJung-uk Kim out[6] += ((limb) (in[4] >> 64)) >> 52;
6421f13597dSJung-uk Kim
6431f13597dSJung-uk Kim out[6] += ((limb) in[5]) >> 58;
6441f13597dSJung-uk Kim out[6] += (((limb) (in[5] >> 64)) & bottom52bits) << 6;
6451f13597dSJung-uk Kim out[7] += ((limb) (in[5] >> 64)) >> 52;
6461f13597dSJung-uk Kim
6471f13597dSJung-uk Kim out[7] += ((limb) in[6]) >> 58;
6481f13597dSJung-uk Kim out[7] += (((limb) (in[6] >> 64)) & bottom52bits) << 6;
6491f13597dSJung-uk Kim out[8] += ((limb) (in[6] >> 64)) >> 52;
6501f13597dSJung-uk Kim
6511f13597dSJung-uk Kim out[8] += ((limb) in[7]) >> 58;
6521f13597dSJung-uk Kim out[8] += (((limb) (in[7] >> 64)) & bottom52bits) << 6;
6536f9291ceSJung-uk Kim /*-
6546f9291ceSJung-uk Kim * out[x > 1] < 2^58 + 2^6 + 2^58 + 2^12
6556f9291ceSJung-uk Kim * < 2^59 + 2^13
6566f9291ceSJung-uk Kim */
6571f13597dSJung-uk Kim overflow1 = ((limb) (in[7] >> 64)) >> 52;
6581f13597dSJung-uk Kim
6591f13597dSJung-uk Kim overflow1 += ((limb) in[8]) >> 58;
6601f13597dSJung-uk Kim overflow1 += (((limb) (in[8] >> 64)) & bottom52bits) << 6;
6611f13597dSJung-uk Kim overflow2 = ((limb) (in[8] >> 64)) >> 52;
6621f13597dSJung-uk Kim
6631f13597dSJung-uk Kim overflow1 <<= 1; /* overflow1 < 2^13 + 2^7 + 2^59 */
6641f13597dSJung-uk Kim overflow2 <<= 1; /* overflow2 < 2^13 */
6651f13597dSJung-uk Kim
6661f13597dSJung-uk Kim out[0] += overflow1; /* out[0] < 2^60 */
6671f13597dSJung-uk Kim out[1] += overflow2; /* out[1] < 2^59 + 2^6 + 2^13 */
6681f13597dSJung-uk Kim
6696f9291ceSJung-uk Kim out[1] += out[0] >> 58;
6706f9291ceSJung-uk Kim out[0] &= bottom58bits;
6716f9291ceSJung-uk Kim /*-
6726f9291ceSJung-uk Kim * out[0] < 2^58
6731f13597dSJung-uk Kim * out[1] < 2^59 + 2^6 + 2^13 + 2^2
6746f9291ceSJung-uk Kim * < 2^59 + 2^14
6756f9291ceSJung-uk Kim */
6761f13597dSJung-uk Kim }
6771f13597dSJung-uk Kim
678*b077aed3SPierre Pronchery #if defined(ECP_NISTP521_ASM)
679*b077aed3SPierre Pronchery void felem_square_wrapper(largefelem out, const felem in);
680*b077aed3SPierre Pronchery void felem_mul_wrapper(largefelem out, const felem in1, const felem in2);
681*b077aed3SPierre Pronchery
682*b077aed3SPierre Pronchery static void (*felem_square_p)(largefelem out, const felem in) =
683*b077aed3SPierre Pronchery felem_square_wrapper;
684*b077aed3SPierre Pronchery static void (*felem_mul_p)(largefelem out, const felem in1, const felem in2) =
685*b077aed3SPierre Pronchery felem_mul_wrapper;
686*b077aed3SPierre Pronchery
687*b077aed3SPierre Pronchery void p521_felem_square(largefelem out, const felem in);
688*b077aed3SPierre Pronchery void p521_felem_mul(largefelem out, const felem in1, const felem in2);
689*b077aed3SPierre Pronchery
690*b077aed3SPierre Pronchery # if defined(_ARCH_PPC64)
691*b077aed3SPierre Pronchery # include "crypto/ppc_arch.h"
692*b077aed3SPierre Pronchery # endif
693*b077aed3SPierre Pronchery
felem_select(void)694*b077aed3SPierre Pronchery void felem_select(void)
695*b077aed3SPierre Pronchery {
696*b077aed3SPierre Pronchery # if defined(_ARCH_PPC64)
697*b077aed3SPierre Pronchery if ((OPENSSL_ppccap_P & PPC_MADD300) && (OPENSSL_ppccap_P & PPC_ALTIVEC)) {
698*b077aed3SPierre Pronchery felem_square_p = p521_felem_square;
699*b077aed3SPierre Pronchery felem_mul_p = p521_felem_mul;
700*b077aed3SPierre Pronchery
701*b077aed3SPierre Pronchery return;
702*b077aed3SPierre Pronchery }
703*b077aed3SPierre Pronchery # endif
704*b077aed3SPierre Pronchery
705*b077aed3SPierre Pronchery /* Default */
706*b077aed3SPierre Pronchery felem_square_p = felem_square_ref;
707*b077aed3SPierre Pronchery felem_mul_p = felem_mul_ref;
708*b077aed3SPierre Pronchery }
709*b077aed3SPierre Pronchery
felem_square_wrapper(largefelem out,const felem in)710*b077aed3SPierre Pronchery void felem_square_wrapper(largefelem out, const felem in)
711*b077aed3SPierre Pronchery {
712*b077aed3SPierre Pronchery felem_select();
713*b077aed3SPierre Pronchery felem_square_p(out, in);
714*b077aed3SPierre Pronchery }
715*b077aed3SPierre Pronchery
felem_mul_wrapper(largefelem out,const felem in1,const felem in2)716*b077aed3SPierre Pronchery void felem_mul_wrapper(largefelem out, const felem in1, const felem in2)
717*b077aed3SPierre Pronchery {
718*b077aed3SPierre Pronchery felem_select();
719*b077aed3SPierre Pronchery felem_mul_p(out, in1, in2);
720*b077aed3SPierre Pronchery }
721*b077aed3SPierre Pronchery
722*b077aed3SPierre Pronchery # define felem_square felem_square_p
723*b077aed3SPierre Pronchery # define felem_mul felem_mul_p
724*b077aed3SPierre Pronchery #else
725*b077aed3SPierre Pronchery # define felem_square felem_square_ref
726*b077aed3SPierre Pronchery # define felem_mul felem_mul_ref
727*b077aed3SPierre Pronchery #endif
728*b077aed3SPierre Pronchery
felem_square_reduce(felem out,const felem in)7291f13597dSJung-uk Kim static void felem_square_reduce(felem out, const felem in)
7301f13597dSJung-uk Kim {
7311f13597dSJung-uk Kim largefelem tmp;
7321f13597dSJung-uk Kim felem_square(tmp, in);
7331f13597dSJung-uk Kim felem_reduce(out, tmp);
7341f13597dSJung-uk Kim }
7351f13597dSJung-uk Kim
felem_mul_reduce(felem out,const felem in1,const felem in2)7361f13597dSJung-uk Kim static void felem_mul_reduce(felem out, const felem in1, const felem in2)
7371f13597dSJung-uk Kim {
7381f13597dSJung-uk Kim largefelem tmp;
7391f13597dSJung-uk Kim felem_mul(tmp, in1, in2);
7401f13597dSJung-uk Kim felem_reduce(out, tmp);
7411f13597dSJung-uk Kim }
7421f13597dSJung-uk Kim
7436f9291ceSJung-uk Kim /*-
7446f9291ceSJung-uk Kim * felem_inv calculates |out| = |in|^{-1}
7451f13597dSJung-uk Kim *
7461f13597dSJung-uk Kim * Based on Fermat's Little Theorem:
7471f13597dSJung-uk Kim * a^p = a (mod p)
7481f13597dSJung-uk Kim * a^{p-1} = 1 (mod p)
7491f13597dSJung-uk Kim * a^{p-2} = a^{-1} (mod p)
7501f13597dSJung-uk Kim */
felem_inv(felem out,const felem in)7511f13597dSJung-uk Kim static void felem_inv(felem out, const felem in)
7521f13597dSJung-uk Kim {
7531f13597dSJung-uk Kim felem ftmp, ftmp2, ftmp3, ftmp4;
7541f13597dSJung-uk Kim largefelem tmp;
7551f13597dSJung-uk Kim unsigned i;
7561f13597dSJung-uk Kim
7576f9291ceSJung-uk Kim felem_square(tmp, in);
7586f9291ceSJung-uk Kim felem_reduce(ftmp, tmp); /* 2^1 */
7596f9291ceSJung-uk Kim felem_mul(tmp, in, ftmp);
7606f9291ceSJung-uk Kim felem_reduce(ftmp, tmp); /* 2^2 - 2^0 */
7611f13597dSJung-uk Kim felem_assign(ftmp2, ftmp);
7626f9291ceSJung-uk Kim felem_square(tmp, ftmp);
7636f9291ceSJung-uk Kim felem_reduce(ftmp, tmp); /* 2^3 - 2^1 */
7646f9291ceSJung-uk Kim felem_mul(tmp, in, ftmp);
7656f9291ceSJung-uk Kim felem_reduce(ftmp, tmp); /* 2^3 - 2^0 */
7666f9291ceSJung-uk Kim felem_square(tmp, ftmp);
7676f9291ceSJung-uk Kim felem_reduce(ftmp, tmp); /* 2^4 - 2^1 */
7681f13597dSJung-uk Kim
7696f9291ceSJung-uk Kim felem_square(tmp, ftmp2);
7706f9291ceSJung-uk Kim felem_reduce(ftmp3, tmp); /* 2^3 - 2^1 */
7716f9291ceSJung-uk Kim felem_square(tmp, ftmp3);
7726f9291ceSJung-uk Kim felem_reduce(ftmp3, tmp); /* 2^4 - 2^2 */
7736f9291ceSJung-uk Kim felem_mul(tmp, ftmp3, ftmp2);
7746f9291ceSJung-uk Kim felem_reduce(ftmp3, tmp); /* 2^4 - 2^0 */
7751f13597dSJung-uk Kim
7761f13597dSJung-uk Kim felem_assign(ftmp2, ftmp3);
7776f9291ceSJung-uk Kim felem_square(tmp, ftmp3);
7786f9291ceSJung-uk Kim felem_reduce(ftmp3, tmp); /* 2^5 - 2^1 */
7796f9291ceSJung-uk Kim felem_square(tmp, ftmp3);
7806f9291ceSJung-uk Kim felem_reduce(ftmp3, tmp); /* 2^6 - 2^2 */
7816f9291ceSJung-uk Kim felem_square(tmp, ftmp3);
7826f9291ceSJung-uk Kim felem_reduce(ftmp3, tmp); /* 2^7 - 2^3 */
7836f9291ceSJung-uk Kim felem_square(tmp, ftmp3);
7846f9291ceSJung-uk Kim felem_reduce(ftmp3, tmp); /* 2^8 - 2^4 */
7851f13597dSJung-uk Kim felem_assign(ftmp4, ftmp3);
7866f9291ceSJung-uk Kim felem_mul(tmp, ftmp3, ftmp);
7876f9291ceSJung-uk Kim felem_reduce(ftmp4, tmp); /* 2^8 - 2^1 */
7886f9291ceSJung-uk Kim felem_square(tmp, ftmp4);
7896f9291ceSJung-uk Kim felem_reduce(ftmp4, tmp); /* 2^9 - 2^2 */
7906f9291ceSJung-uk Kim felem_mul(tmp, ftmp3, ftmp2);
7916f9291ceSJung-uk Kim felem_reduce(ftmp3, tmp); /* 2^8 - 2^0 */
7921f13597dSJung-uk Kim felem_assign(ftmp2, ftmp3);
7931f13597dSJung-uk Kim
7946f9291ceSJung-uk Kim for (i = 0; i < 8; i++) {
7956f9291ceSJung-uk Kim felem_square(tmp, ftmp3);
7966f9291ceSJung-uk Kim felem_reduce(ftmp3, tmp); /* 2^16 - 2^8 */
7971f13597dSJung-uk Kim }
7986f9291ceSJung-uk Kim felem_mul(tmp, ftmp3, ftmp2);
7996f9291ceSJung-uk Kim felem_reduce(ftmp3, tmp); /* 2^16 - 2^0 */
8001f13597dSJung-uk Kim felem_assign(ftmp2, ftmp3);
8011f13597dSJung-uk Kim
8026f9291ceSJung-uk Kim for (i = 0; i < 16; i++) {
8036f9291ceSJung-uk Kim felem_square(tmp, ftmp3);
8046f9291ceSJung-uk Kim felem_reduce(ftmp3, tmp); /* 2^32 - 2^16 */
8051f13597dSJung-uk Kim }
8066f9291ceSJung-uk Kim felem_mul(tmp, ftmp3, ftmp2);
8076f9291ceSJung-uk Kim felem_reduce(ftmp3, tmp); /* 2^32 - 2^0 */
8081f13597dSJung-uk Kim felem_assign(ftmp2, ftmp3);
8091f13597dSJung-uk Kim
8106f9291ceSJung-uk Kim for (i = 0; i < 32; i++) {
8116f9291ceSJung-uk Kim felem_square(tmp, ftmp3);
8126f9291ceSJung-uk Kim felem_reduce(ftmp3, tmp); /* 2^64 - 2^32 */
8131f13597dSJung-uk Kim }
8146f9291ceSJung-uk Kim felem_mul(tmp, ftmp3, ftmp2);
8156f9291ceSJung-uk Kim felem_reduce(ftmp3, tmp); /* 2^64 - 2^0 */
8161f13597dSJung-uk Kim felem_assign(ftmp2, ftmp3);
8171f13597dSJung-uk Kim
8186f9291ceSJung-uk Kim for (i = 0; i < 64; i++) {
8196f9291ceSJung-uk Kim felem_square(tmp, ftmp3);
8206f9291ceSJung-uk Kim felem_reduce(ftmp3, tmp); /* 2^128 - 2^64 */
8211f13597dSJung-uk Kim }
8226f9291ceSJung-uk Kim felem_mul(tmp, ftmp3, ftmp2);
8236f9291ceSJung-uk Kim felem_reduce(ftmp3, tmp); /* 2^128 - 2^0 */
8241f13597dSJung-uk Kim felem_assign(ftmp2, ftmp3);
8251f13597dSJung-uk Kim
8266f9291ceSJung-uk Kim for (i = 0; i < 128; i++) {
8276f9291ceSJung-uk Kim felem_square(tmp, ftmp3);
8286f9291ceSJung-uk Kim felem_reduce(ftmp3, tmp); /* 2^256 - 2^128 */
8291f13597dSJung-uk Kim }
8306f9291ceSJung-uk Kim felem_mul(tmp, ftmp3, ftmp2);
8316f9291ceSJung-uk Kim felem_reduce(ftmp3, tmp); /* 2^256 - 2^0 */
8321f13597dSJung-uk Kim felem_assign(ftmp2, ftmp3);
8331f13597dSJung-uk Kim
8346f9291ceSJung-uk Kim for (i = 0; i < 256; i++) {
8356f9291ceSJung-uk Kim felem_square(tmp, ftmp3);
8366f9291ceSJung-uk Kim felem_reduce(ftmp3, tmp); /* 2^512 - 2^256 */
8371f13597dSJung-uk Kim }
8386f9291ceSJung-uk Kim felem_mul(tmp, ftmp3, ftmp2);
8396f9291ceSJung-uk Kim felem_reduce(ftmp3, tmp); /* 2^512 - 2^0 */
8401f13597dSJung-uk Kim
8416f9291ceSJung-uk Kim for (i = 0; i < 9; i++) {
8426f9291ceSJung-uk Kim felem_square(tmp, ftmp3);
8436f9291ceSJung-uk Kim felem_reduce(ftmp3, tmp); /* 2^521 - 2^9 */
8441f13597dSJung-uk Kim }
8456f9291ceSJung-uk Kim felem_mul(tmp, ftmp3, ftmp4);
8466f9291ceSJung-uk Kim felem_reduce(ftmp3, tmp); /* 2^512 - 2^2 */
8476f9291ceSJung-uk Kim felem_mul(tmp, ftmp3, in);
8486f9291ceSJung-uk Kim felem_reduce(out, tmp); /* 2^512 - 3 */
8491f13597dSJung-uk Kim }
8501f13597dSJung-uk Kim
8511f13597dSJung-uk Kim /* This is 2^521-1, expressed as an felem */
8526f9291ceSJung-uk Kim static const felem kPrime = {
8531f13597dSJung-uk Kim 0x03ffffffffffffff, 0x03ffffffffffffff, 0x03ffffffffffffff,
8541f13597dSJung-uk Kim 0x03ffffffffffffff, 0x03ffffffffffffff, 0x03ffffffffffffff,
8551f13597dSJung-uk Kim 0x03ffffffffffffff, 0x03ffffffffffffff, 0x01ffffffffffffff
8561f13597dSJung-uk Kim };
8571f13597dSJung-uk Kim
8586f9291ceSJung-uk Kim /*-
8596f9291ceSJung-uk Kim * felem_is_zero returns a limb with all bits set if |in| == 0 (mod p) and 0
8601f13597dSJung-uk Kim * otherwise.
8611f13597dSJung-uk Kim * On entry:
8621f13597dSJung-uk Kim * in[i] < 2^59 + 2^14
8631f13597dSJung-uk Kim */
felem_is_zero(const felem in)8641f13597dSJung-uk Kim static limb felem_is_zero(const felem in)
8651f13597dSJung-uk Kim {
8661f13597dSJung-uk Kim felem ftmp;
8671f13597dSJung-uk Kim limb is_zero, is_p;
8681f13597dSJung-uk Kim felem_assign(ftmp, in);
8691f13597dSJung-uk Kim
8706f9291ceSJung-uk Kim ftmp[0] += ftmp[8] >> 57;
8716f9291ceSJung-uk Kim ftmp[8] &= bottom57bits;
8721f13597dSJung-uk Kim /* ftmp[8] < 2^57 */
8736f9291ceSJung-uk Kim ftmp[1] += ftmp[0] >> 58;
8746f9291ceSJung-uk Kim ftmp[0] &= bottom58bits;
8756f9291ceSJung-uk Kim ftmp[2] += ftmp[1] >> 58;
8766f9291ceSJung-uk Kim ftmp[1] &= bottom58bits;
8776f9291ceSJung-uk Kim ftmp[3] += ftmp[2] >> 58;
8786f9291ceSJung-uk Kim ftmp[2] &= bottom58bits;
8796f9291ceSJung-uk Kim ftmp[4] += ftmp[3] >> 58;
8806f9291ceSJung-uk Kim ftmp[3] &= bottom58bits;
8816f9291ceSJung-uk Kim ftmp[5] += ftmp[4] >> 58;
8826f9291ceSJung-uk Kim ftmp[4] &= bottom58bits;
8836f9291ceSJung-uk Kim ftmp[6] += ftmp[5] >> 58;
8846f9291ceSJung-uk Kim ftmp[5] &= bottom58bits;
8856f9291ceSJung-uk Kim ftmp[7] += ftmp[6] >> 58;
8866f9291ceSJung-uk Kim ftmp[6] &= bottom58bits;
8876f9291ceSJung-uk Kim ftmp[8] += ftmp[7] >> 58;
8886f9291ceSJung-uk Kim ftmp[7] &= bottom58bits;
8891f13597dSJung-uk Kim /* ftmp[8] < 2^57 + 4 */
8901f13597dSJung-uk Kim
8916f9291ceSJung-uk Kim /*
8926f9291ceSJung-uk Kim * The ninth limb of 2*(2^521-1) is 0x03ffffffffffffff, which is greater
8936f9291ceSJung-uk Kim * than our bound for ftmp[8]. Therefore we only have to check if the
8946f9291ceSJung-uk Kim * zero is zero or 2^521-1.
8956f9291ceSJung-uk Kim */
8961f13597dSJung-uk Kim
8971f13597dSJung-uk Kim is_zero = 0;
8981f13597dSJung-uk Kim is_zero |= ftmp[0];
8991f13597dSJung-uk Kim is_zero |= ftmp[1];
9001f13597dSJung-uk Kim is_zero |= ftmp[2];
9011f13597dSJung-uk Kim is_zero |= ftmp[3];
9021f13597dSJung-uk Kim is_zero |= ftmp[4];
9031f13597dSJung-uk Kim is_zero |= ftmp[5];
9041f13597dSJung-uk Kim is_zero |= ftmp[6];
9051f13597dSJung-uk Kim is_zero |= ftmp[7];
9061f13597dSJung-uk Kim is_zero |= ftmp[8];
9071f13597dSJung-uk Kim
9081f13597dSJung-uk Kim is_zero--;
9096f9291ceSJung-uk Kim /*
9106f9291ceSJung-uk Kim * We know that ftmp[i] < 2^63, therefore the only way that the top bit
9116f9291ceSJung-uk Kim * can be set is if is_zero was 0 before the decrement.
9126f9291ceSJung-uk Kim */
913dee36b4fSJung-uk Kim is_zero = 0 - (is_zero >> 63);
9141f13597dSJung-uk Kim
9151f13597dSJung-uk Kim is_p = ftmp[0] ^ kPrime[0];
9161f13597dSJung-uk Kim is_p |= ftmp[1] ^ kPrime[1];
9171f13597dSJung-uk Kim is_p |= ftmp[2] ^ kPrime[2];
9181f13597dSJung-uk Kim is_p |= ftmp[3] ^ kPrime[3];
9191f13597dSJung-uk Kim is_p |= ftmp[4] ^ kPrime[4];
9201f13597dSJung-uk Kim is_p |= ftmp[5] ^ kPrime[5];
9211f13597dSJung-uk Kim is_p |= ftmp[6] ^ kPrime[6];
9221f13597dSJung-uk Kim is_p |= ftmp[7] ^ kPrime[7];
9231f13597dSJung-uk Kim is_p |= ftmp[8] ^ kPrime[8];
9241f13597dSJung-uk Kim
9251f13597dSJung-uk Kim is_p--;
926dee36b4fSJung-uk Kim is_p = 0 - (is_p >> 63);
9271f13597dSJung-uk Kim
9281f13597dSJung-uk Kim is_zero |= is_p;
9291f13597dSJung-uk Kim return is_zero;
9301f13597dSJung-uk Kim }
9311f13597dSJung-uk Kim
felem_is_zero_int(const void * in)93247902a71SJung-uk Kim static int felem_is_zero_int(const void *in)
9331f13597dSJung-uk Kim {
9341f13597dSJung-uk Kim return (int)(felem_is_zero(in) & ((limb) 1));
9351f13597dSJung-uk Kim }
9361f13597dSJung-uk Kim
9376f9291ceSJung-uk Kim /*-
9386f9291ceSJung-uk Kim * felem_contract converts |in| to its unique, minimal representation.
9391f13597dSJung-uk Kim * On entry:
9401f13597dSJung-uk Kim * in[i] < 2^59 + 2^14
9411f13597dSJung-uk Kim */
felem_contract(felem out,const felem in)9421f13597dSJung-uk Kim static void felem_contract(felem out, const felem in)
9431f13597dSJung-uk Kim {
9441f13597dSJung-uk Kim limb is_p, is_greater, sign;
9451f13597dSJung-uk Kim static const limb two58 = ((limb) 1) << 58;
9461f13597dSJung-uk Kim
9471f13597dSJung-uk Kim felem_assign(out, in);
9481f13597dSJung-uk Kim
9496f9291ceSJung-uk Kim out[0] += out[8] >> 57;
9506f9291ceSJung-uk Kim out[8] &= bottom57bits;
9511f13597dSJung-uk Kim /* out[8] < 2^57 */
9526f9291ceSJung-uk Kim out[1] += out[0] >> 58;
9536f9291ceSJung-uk Kim out[0] &= bottom58bits;
9546f9291ceSJung-uk Kim out[2] += out[1] >> 58;
9556f9291ceSJung-uk Kim out[1] &= bottom58bits;
9566f9291ceSJung-uk Kim out[3] += out[2] >> 58;
9576f9291ceSJung-uk Kim out[2] &= bottom58bits;
9586f9291ceSJung-uk Kim out[4] += out[3] >> 58;
9596f9291ceSJung-uk Kim out[3] &= bottom58bits;
9606f9291ceSJung-uk Kim out[5] += out[4] >> 58;
9616f9291ceSJung-uk Kim out[4] &= bottom58bits;
9626f9291ceSJung-uk Kim out[6] += out[5] >> 58;
9636f9291ceSJung-uk Kim out[5] &= bottom58bits;
9646f9291ceSJung-uk Kim out[7] += out[6] >> 58;
9656f9291ceSJung-uk Kim out[6] &= bottom58bits;
9666f9291ceSJung-uk Kim out[8] += out[7] >> 58;
9676f9291ceSJung-uk Kim out[7] &= bottom58bits;
9681f13597dSJung-uk Kim /* out[8] < 2^57 + 4 */
9691f13597dSJung-uk Kim
9706f9291ceSJung-uk Kim /*
9716f9291ceSJung-uk Kim * If the value is greater than 2^521-1 then we have to subtract 2^521-1
9726f9291ceSJung-uk Kim * out. See the comments in felem_is_zero regarding why we don't test for
9736f9291ceSJung-uk Kim * other multiples of the prime.
9746f9291ceSJung-uk Kim */
9751f13597dSJung-uk Kim
9766f9291ceSJung-uk Kim /*
9776f9291ceSJung-uk Kim * First, if |out| is equal to 2^521-1, we subtract it out to get zero.
9786f9291ceSJung-uk Kim */
9791f13597dSJung-uk Kim
9801f13597dSJung-uk Kim is_p = out[0] ^ kPrime[0];
9811f13597dSJung-uk Kim is_p |= out[1] ^ kPrime[1];
9821f13597dSJung-uk Kim is_p |= out[2] ^ kPrime[2];
9831f13597dSJung-uk Kim is_p |= out[3] ^ kPrime[3];
9841f13597dSJung-uk Kim is_p |= out[4] ^ kPrime[4];
9851f13597dSJung-uk Kim is_p |= out[5] ^ kPrime[5];
9861f13597dSJung-uk Kim is_p |= out[6] ^ kPrime[6];
9871f13597dSJung-uk Kim is_p |= out[7] ^ kPrime[7];
9881f13597dSJung-uk Kim is_p |= out[8] ^ kPrime[8];
9891f13597dSJung-uk Kim
9901f13597dSJung-uk Kim is_p--;
9911f13597dSJung-uk Kim is_p &= is_p << 32;
9921f13597dSJung-uk Kim is_p &= is_p << 16;
9931f13597dSJung-uk Kim is_p &= is_p << 8;
9941f13597dSJung-uk Kim is_p &= is_p << 4;
9951f13597dSJung-uk Kim is_p &= is_p << 2;
9961f13597dSJung-uk Kim is_p &= is_p << 1;
997dee36b4fSJung-uk Kim is_p = 0 - (is_p >> 63);
9981f13597dSJung-uk Kim is_p = ~is_p;
9991f13597dSJung-uk Kim
10001f13597dSJung-uk Kim /* is_p is 0 iff |out| == 2^521-1 and all ones otherwise */
10011f13597dSJung-uk Kim
10021f13597dSJung-uk Kim out[0] &= is_p;
10031f13597dSJung-uk Kim out[1] &= is_p;
10041f13597dSJung-uk Kim out[2] &= is_p;
10051f13597dSJung-uk Kim out[3] &= is_p;
10061f13597dSJung-uk Kim out[4] &= is_p;
10071f13597dSJung-uk Kim out[5] &= is_p;
10081f13597dSJung-uk Kim out[6] &= is_p;
10091f13597dSJung-uk Kim out[7] &= is_p;
10101f13597dSJung-uk Kim out[8] &= is_p;
10111f13597dSJung-uk Kim
10126f9291ceSJung-uk Kim /*
10136f9291ceSJung-uk Kim * In order to test that |out| >= 2^521-1 we need only test if out[8] >>
10146f9291ceSJung-uk Kim * 57 is greater than zero as (2^521-1) + x >= 2^522
10156f9291ceSJung-uk Kim */
10161f13597dSJung-uk Kim is_greater = out[8] >> 57;
10171f13597dSJung-uk Kim is_greater |= is_greater << 32;
10181f13597dSJung-uk Kim is_greater |= is_greater << 16;
10191f13597dSJung-uk Kim is_greater |= is_greater << 8;
10201f13597dSJung-uk Kim is_greater |= is_greater << 4;
10211f13597dSJung-uk Kim is_greater |= is_greater << 2;
10221f13597dSJung-uk Kim is_greater |= is_greater << 1;
1023dee36b4fSJung-uk Kim is_greater = 0 - (is_greater >> 63);
10241f13597dSJung-uk Kim
10251f13597dSJung-uk Kim out[0] -= kPrime[0] & is_greater;
10261f13597dSJung-uk Kim out[1] -= kPrime[1] & is_greater;
10271f13597dSJung-uk Kim out[2] -= kPrime[2] & is_greater;
10281f13597dSJung-uk Kim out[3] -= kPrime[3] & is_greater;
10291f13597dSJung-uk Kim out[4] -= kPrime[4] & is_greater;
10301f13597dSJung-uk Kim out[5] -= kPrime[5] & is_greater;
10311f13597dSJung-uk Kim out[6] -= kPrime[6] & is_greater;
10321f13597dSJung-uk Kim out[7] -= kPrime[7] & is_greater;
10331f13597dSJung-uk Kim out[8] -= kPrime[8] & is_greater;
10341f13597dSJung-uk Kim
10351f13597dSJung-uk Kim /* Eliminate negative coefficients */
10366f9291ceSJung-uk Kim sign = -(out[0] >> 63);
10376f9291ceSJung-uk Kim out[0] += (two58 & sign);
10386f9291ceSJung-uk Kim out[1] -= (1 & sign);
10396f9291ceSJung-uk Kim sign = -(out[1] >> 63);
10406f9291ceSJung-uk Kim out[1] += (two58 & sign);
10416f9291ceSJung-uk Kim out[2] -= (1 & sign);
10426f9291ceSJung-uk Kim sign = -(out[2] >> 63);
10436f9291ceSJung-uk Kim out[2] += (two58 & sign);
10446f9291ceSJung-uk Kim out[3] -= (1 & sign);
10456f9291ceSJung-uk Kim sign = -(out[3] >> 63);
10466f9291ceSJung-uk Kim out[3] += (two58 & sign);
10476f9291ceSJung-uk Kim out[4] -= (1 & sign);
10486f9291ceSJung-uk Kim sign = -(out[4] >> 63);
10496f9291ceSJung-uk Kim out[4] += (two58 & sign);
10506f9291ceSJung-uk Kim out[5] -= (1 & sign);
10516f9291ceSJung-uk Kim sign = -(out[0] >> 63);
10526f9291ceSJung-uk Kim out[5] += (two58 & sign);
10536f9291ceSJung-uk Kim out[6] -= (1 & sign);
10546f9291ceSJung-uk Kim sign = -(out[6] >> 63);
10556f9291ceSJung-uk Kim out[6] += (two58 & sign);
10566f9291ceSJung-uk Kim out[7] -= (1 & sign);
10576f9291ceSJung-uk Kim sign = -(out[7] >> 63);
10586f9291ceSJung-uk Kim out[7] += (two58 & sign);
10596f9291ceSJung-uk Kim out[8] -= (1 & sign);
10606f9291ceSJung-uk Kim sign = -(out[5] >> 63);
10616f9291ceSJung-uk Kim out[5] += (two58 & sign);
10626f9291ceSJung-uk Kim out[6] -= (1 & sign);
10636f9291ceSJung-uk Kim sign = -(out[6] >> 63);
10646f9291ceSJung-uk Kim out[6] += (two58 & sign);
10656f9291ceSJung-uk Kim out[7] -= (1 & sign);
10666f9291ceSJung-uk Kim sign = -(out[7] >> 63);
10676f9291ceSJung-uk Kim out[7] += (two58 & sign);
10686f9291ceSJung-uk Kim out[8] -= (1 & sign);
10691f13597dSJung-uk Kim }
10701f13597dSJung-uk Kim
10716f9291ceSJung-uk Kim /*-
10726f9291ceSJung-uk Kim * Group operations
10731f13597dSJung-uk Kim * ----------------
10741f13597dSJung-uk Kim *
10751f13597dSJung-uk Kim * Building on top of the field operations we have the operations on the
10761f13597dSJung-uk Kim * elliptic curve group itself. Points on the curve are represented in Jacobian
10771f13597dSJung-uk Kim * coordinates */
10781f13597dSJung-uk Kim
10796f9291ceSJung-uk Kim /*-
1080e71b7053SJung-uk Kim * point_double calculates 2*(x_in, y_in, z_in)
10811f13597dSJung-uk Kim *
10821f13597dSJung-uk Kim * The method is taken from:
10831f13597dSJung-uk Kim * http://hyperelliptic.org/EFD/g1p/auto-shortw-jacobian-3.html#doubling-dbl-2001-b
10841f13597dSJung-uk Kim *
10851f13597dSJung-uk Kim * Outputs can equal corresponding inputs, i.e., x_out == x_in is allowed.
10861f13597dSJung-uk Kim * while x_out == y_in is not (maybe this works, but it's not tested). */
10871f13597dSJung-uk Kim static void
point_double(felem x_out,felem y_out,felem z_out,const felem x_in,const felem y_in,const felem z_in)10881f13597dSJung-uk Kim point_double(felem x_out, felem y_out, felem z_out,
10891f13597dSJung-uk Kim const felem x_in, const felem y_in, const felem z_in)
10901f13597dSJung-uk Kim {
10911f13597dSJung-uk Kim largefelem tmp, tmp2;
10921f13597dSJung-uk Kim felem delta, gamma, beta, alpha, ftmp, ftmp2;
10931f13597dSJung-uk Kim
10941f13597dSJung-uk Kim felem_assign(ftmp, x_in);
10951f13597dSJung-uk Kim felem_assign(ftmp2, x_in);
10961f13597dSJung-uk Kim
10971f13597dSJung-uk Kim /* delta = z^2 */
10981f13597dSJung-uk Kim felem_square(tmp, z_in);
10991f13597dSJung-uk Kim felem_reduce(delta, tmp); /* delta[i] < 2^59 + 2^14 */
11001f13597dSJung-uk Kim
11011f13597dSJung-uk Kim /* gamma = y^2 */
11021f13597dSJung-uk Kim felem_square(tmp, y_in);
11031f13597dSJung-uk Kim felem_reduce(gamma, tmp); /* gamma[i] < 2^59 + 2^14 */
11041f13597dSJung-uk Kim
11051f13597dSJung-uk Kim /* beta = x*gamma */
11061f13597dSJung-uk Kim felem_mul(tmp, x_in, gamma);
11071f13597dSJung-uk Kim felem_reduce(beta, tmp); /* beta[i] < 2^59 + 2^14 */
11081f13597dSJung-uk Kim
11091f13597dSJung-uk Kim /* alpha = 3*(x-delta)*(x+delta) */
11101f13597dSJung-uk Kim felem_diff64(ftmp, delta);
11111f13597dSJung-uk Kim /* ftmp[i] < 2^61 */
11121f13597dSJung-uk Kim felem_sum64(ftmp2, delta);
11131f13597dSJung-uk Kim /* ftmp2[i] < 2^60 + 2^15 */
11141f13597dSJung-uk Kim felem_scalar64(ftmp2, 3);
11151f13597dSJung-uk Kim /* ftmp2[i] < 3*2^60 + 3*2^15 */
11161f13597dSJung-uk Kim felem_mul(tmp, ftmp, ftmp2);
11176f9291ceSJung-uk Kim /*-
11186f9291ceSJung-uk Kim * tmp[i] < 17(3*2^121 + 3*2^76)
11191f13597dSJung-uk Kim * = 61*2^121 + 61*2^76
11201f13597dSJung-uk Kim * < 64*2^121 + 64*2^76
11211f13597dSJung-uk Kim * = 2^127 + 2^82
11226f9291ceSJung-uk Kim * < 2^128
11236f9291ceSJung-uk Kim */
11241f13597dSJung-uk Kim felem_reduce(alpha, tmp);
11251f13597dSJung-uk Kim
11261f13597dSJung-uk Kim /* x' = alpha^2 - 8*beta */
11271f13597dSJung-uk Kim felem_square(tmp, alpha);
11286f9291ceSJung-uk Kim /*
11296f9291ceSJung-uk Kim * tmp[i] < 17*2^120 < 2^125
11306f9291ceSJung-uk Kim */
11311f13597dSJung-uk Kim felem_assign(ftmp, beta);
11321f13597dSJung-uk Kim felem_scalar64(ftmp, 8);
11331f13597dSJung-uk Kim /* ftmp[i] < 2^62 + 2^17 */
11341f13597dSJung-uk Kim felem_diff_128_64(tmp, ftmp);
11351f13597dSJung-uk Kim /* tmp[i] < 2^125 + 2^63 + 2^62 + 2^17 */
11361f13597dSJung-uk Kim felem_reduce(x_out, tmp);
11371f13597dSJung-uk Kim
11381f13597dSJung-uk Kim /* z' = (y + z)^2 - gamma - delta */
11391f13597dSJung-uk Kim felem_sum64(delta, gamma);
11401f13597dSJung-uk Kim /* delta[i] < 2^60 + 2^15 */
11411f13597dSJung-uk Kim felem_assign(ftmp, y_in);
11421f13597dSJung-uk Kim felem_sum64(ftmp, z_in);
11431f13597dSJung-uk Kim /* ftmp[i] < 2^60 + 2^15 */
11441f13597dSJung-uk Kim felem_square(tmp, ftmp);
11456f9291ceSJung-uk Kim /*
11466f9291ceSJung-uk Kim * tmp[i] < 17(2^122) < 2^127
11476f9291ceSJung-uk Kim */
11481f13597dSJung-uk Kim felem_diff_128_64(tmp, delta);
11491f13597dSJung-uk Kim /* tmp[i] < 2^127 + 2^63 */
11501f13597dSJung-uk Kim felem_reduce(z_out, tmp);
11511f13597dSJung-uk Kim
11521f13597dSJung-uk Kim /* y' = alpha*(4*beta - x') - 8*gamma^2 */
11531f13597dSJung-uk Kim felem_scalar64(beta, 4);
11541f13597dSJung-uk Kim /* beta[i] < 2^61 + 2^16 */
11551f13597dSJung-uk Kim felem_diff64(beta, x_out);
11561f13597dSJung-uk Kim /* beta[i] < 2^61 + 2^60 + 2^16 */
11571f13597dSJung-uk Kim felem_mul(tmp, alpha, beta);
11586f9291ceSJung-uk Kim /*-
11596f9291ceSJung-uk Kim * tmp[i] < 17*((2^59 + 2^14)(2^61 + 2^60 + 2^16))
11601f13597dSJung-uk Kim * = 17*(2^120 + 2^75 + 2^119 + 2^74 + 2^75 + 2^30)
11611f13597dSJung-uk Kim * = 17*(2^120 + 2^119 + 2^76 + 2^74 + 2^30)
11626f9291ceSJung-uk Kim * < 2^128
11636f9291ceSJung-uk Kim */
11641f13597dSJung-uk Kim felem_square(tmp2, gamma);
11656f9291ceSJung-uk Kim /*-
11666f9291ceSJung-uk Kim * tmp2[i] < 17*(2^59 + 2^14)^2
11676f9291ceSJung-uk Kim * = 17*(2^118 + 2^74 + 2^28)
11686f9291ceSJung-uk Kim */
11691f13597dSJung-uk Kim felem_scalar128(tmp2, 8);
11706f9291ceSJung-uk Kim /*-
11716f9291ceSJung-uk Kim * tmp2[i] < 8*17*(2^118 + 2^74 + 2^28)
11721f13597dSJung-uk Kim * = 2^125 + 2^121 + 2^81 + 2^77 + 2^35 + 2^31
11736f9291ceSJung-uk Kim * < 2^126
11746f9291ceSJung-uk Kim */
11751f13597dSJung-uk Kim felem_diff128(tmp, tmp2);
11766f9291ceSJung-uk Kim /*-
11776f9291ceSJung-uk Kim * tmp[i] < 2^127 - 2^69 + 17(2^120 + 2^119 + 2^76 + 2^74 + 2^30)
11781f13597dSJung-uk Kim * = 2^127 + 2^124 + 2^122 + 2^120 + 2^118 + 2^80 + 2^78 + 2^76 +
11791f13597dSJung-uk Kim * 2^74 + 2^69 + 2^34 + 2^30
11806f9291ceSJung-uk Kim * < 2^128
11816f9291ceSJung-uk Kim */
11821f13597dSJung-uk Kim felem_reduce(y_out, tmp);
11831f13597dSJung-uk Kim }
11841f13597dSJung-uk Kim
11851f13597dSJung-uk Kim /* copy_conditional copies in to out iff mask is all ones. */
copy_conditional(felem out,const felem in,limb mask)11866f9291ceSJung-uk Kim static void copy_conditional(felem out, const felem in, limb mask)
11871f13597dSJung-uk Kim {
11881f13597dSJung-uk Kim unsigned i;
11896f9291ceSJung-uk Kim for (i = 0; i < NLIMBS; ++i) {
11901f13597dSJung-uk Kim const limb tmp = mask & (in[i] ^ out[i]);
11911f13597dSJung-uk Kim out[i] ^= tmp;
11921f13597dSJung-uk Kim }
11931f13597dSJung-uk Kim }
11941f13597dSJung-uk Kim
11956f9291ceSJung-uk Kim /*-
1196e71b7053SJung-uk Kim * point_add calculates (x1, y1, z1) + (x2, y2, z2)
11971f13597dSJung-uk Kim *
11981f13597dSJung-uk Kim * The method is taken from
11991f13597dSJung-uk Kim * http://hyperelliptic.org/EFD/g1p/auto-shortw-jacobian-3.html#addition-add-2007-bl,
12001f13597dSJung-uk Kim * adapted for mixed addition (z2 = 1, or z2 = 0 for the point at infinity).
12011f13597dSJung-uk Kim *
12021f13597dSJung-uk Kim * This function includes a branch for checking whether the two input points
1203e71b7053SJung-uk Kim * are equal (while not equal to the point at infinity). See comment below
1204e71b7053SJung-uk Kim * on constant-time.
1205e71b7053SJung-uk Kim */
point_add(felem x3,felem y3,felem z3,const felem x1,const felem y1,const felem z1,const int mixed,const felem x2,const felem y2,const felem z2)12061f13597dSJung-uk Kim static void point_add(felem x3, felem y3, felem z3,
12071f13597dSJung-uk Kim const felem x1, const felem y1, const felem z1,
12086f9291ceSJung-uk Kim const int mixed, const felem x2, const felem y2,
12096f9291ceSJung-uk Kim const felem z2)
12101f13597dSJung-uk Kim {
12111f13597dSJung-uk Kim felem ftmp, ftmp2, ftmp3, ftmp4, ftmp5, ftmp6, x_out, y_out, z_out;
12121f13597dSJung-uk Kim largefelem tmp, tmp2;
12131f13597dSJung-uk Kim limb x_equal, y_equal, z1_is_zero, z2_is_zero;
121417f01e99SJung-uk Kim limb points_equal;
12151f13597dSJung-uk Kim
12161f13597dSJung-uk Kim z1_is_zero = felem_is_zero(z1);
12171f13597dSJung-uk Kim z2_is_zero = felem_is_zero(z2);
12181f13597dSJung-uk Kim
12191f13597dSJung-uk Kim /* ftmp = z1z1 = z1**2 */
12201f13597dSJung-uk Kim felem_square(tmp, z1);
12211f13597dSJung-uk Kim felem_reduce(ftmp, tmp);
12221f13597dSJung-uk Kim
12236f9291ceSJung-uk Kim if (!mixed) {
12241f13597dSJung-uk Kim /* ftmp2 = z2z2 = z2**2 */
12251f13597dSJung-uk Kim felem_square(tmp, z2);
12261f13597dSJung-uk Kim felem_reduce(ftmp2, tmp);
12271f13597dSJung-uk Kim
12281f13597dSJung-uk Kim /* u1 = ftmp3 = x1*z2z2 */
12291f13597dSJung-uk Kim felem_mul(tmp, x1, ftmp2);
12301f13597dSJung-uk Kim felem_reduce(ftmp3, tmp);
12311f13597dSJung-uk Kim
12321f13597dSJung-uk Kim /* ftmp5 = z1 + z2 */
12331f13597dSJung-uk Kim felem_assign(ftmp5, z1);
12341f13597dSJung-uk Kim felem_sum64(ftmp5, z2);
12351f13597dSJung-uk Kim /* ftmp5[i] < 2^61 */
12361f13597dSJung-uk Kim
12371f13597dSJung-uk Kim /* ftmp5 = (z1 + z2)**2 - z1z1 - z2z2 = 2*z1z2 */
12381f13597dSJung-uk Kim felem_square(tmp, ftmp5);
12391f13597dSJung-uk Kim /* tmp[i] < 17*2^122 */
12401f13597dSJung-uk Kim felem_diff_128_64(tmp, ftmp);
12411f13597dSJung-uk Kim /* tmp[i] < 17*2^122 + 2^63 */
12421f13597dSJung-uk Kim felem_diff_128_64(tmp, ftmp2);
12431f13597dSJung-uk Kim /* tmp[i] < 17*2^122 + 2^64 */
12441f13597dSJung-uk Kim felem_reduce(ftmp5, tmp);
12451f13597dSJung-uk Kim
12461f13597dSJung-uk Kim /* ftmp2 = z2 * z2z2 */
12471f13597dSJung-uk Kim felem_mul(tmp, ftmp2, z2);
12481f13597dSJung-uk Kim felem_reduce(ftmp2, tmp);
12491f13597dSJung-uk Kim
12501f13597dSJung-uk Kim /* s1 = ftmp6 = y1 * z2**3 */
12511f13597dSJung-uk Kim felem_mul(tmp, y1, ftmp2);
12521f13597dSJung-uk Kim felem_reduce(ftmp6, tmp);
12536f9291ceSJung-uk Kim } else {
12546f9291ceSJung-uk Kim /*
12556f9291ceSJung-uk Kim * We'll assume z2 = 1 (special case z2 = 0 is handled later)
12566f9291ceSJung-uk Kim */
12571f13597dSJung-uk Kim
12581f13597dSJung-uk Kim /* u1 = ftmp3 = x1*z2z2 */
12591f13597dSJung-uk Kim felem_assign(ftmp3, x1);
12601f13597dSJung-uk Kim
12611f13597dSJung-uk Kim /* ftmp5 = 2*z1z2 */
12621f13597dSJung-uk Kim felem_scalar(ftmp5, z1, 2);
12631f13597dSJung-uk Kim
12641f13597dSJung-uk Kim /* s1 = ftmp6 = y1 * z2**3 */
12651f13597dSJung-uk Kim felem_assign(ftmp6, y1);
12661f13597dSJung-uk Kim }
12671f13597dSJung-uk Kim
12681f13597dSJung-uk Kim /* u2 = x2*z1z1 */
12691f13597dSJung-uk Kim felem_mul(tmp, x2, ftmp);
12701f13597dSJung-uk Kim /* tmp[i] < 17*2^120 */
12711f13597dSJung-uk Kim
12721f13597dSJung-uk Kim /* h = ftmp4 = u2 - u1 */
12731f13597dSJung-uk Kim felem_diff_128_64(tmp, ftmp3);
12741f13597dSJung-uk Kim /* tmp[i] < 17*2^120 + 2^63 */
12751f13597dSJung-uk Kim felem_reduce(ftmp4, tmp);
12761f13597dSJung-uk Kim
12771f13597dSJung-uk Kim x_equal = felem_is_zero(ftmp4);
12781f13597dSJung-uk Kim
12791f13597dSJung-uk Kim /* z_out = ftmp5 * h */
12801f13597dSJung-uk Kim felem_mul(tmp, ftmp5, ftmp4);
12811f13597dSJung-uk Kim felem_reduce(z_out, tmp);
12821f13597dSJung-uk Kim
12831f13597dSJung-uk Kim /* ftmp = z1 * z1z1 */
12841f13597dSJung-uk Kim felem_mul(tmp, ftmp, z1);
12851f13597dSJung-uk Kim felem_reduce(ftmp, tmp);
12861f13597dSJung-uk Kim
12871f13597dSJung-uk Kim /* s2 = tmp = y2 * z1**3 */
12881f13597dSJung-uk Kim felem_mul(tmp, y2, ftmp);
12891f13597dSJung-uk Kim /* tmp[i] < 17*2^120 */
12901f13597dSJung-uk Kim
12911f13597dSJung-uk Kim /* r = ftmp5 = (s2 - s1)*2 */
12921f13597dSJung-uk Kim felem_diff_128_64(tmp, ftmp6);
12931f13597dSJung-uk Kim /* tmp[i] < 17*2^120 + 2^63 */
12941f13597dSJung-uk Kim felem_reduce(ftmp5, tmp);
12951f13597dSJung-uk Kim y_equal = felem_is_zero(ftmp5);
12961f13597dSJung-uk Kim felem_scalar64(ftmp5, 2);
12971f13597dSJung-uk Kim /* ftmp5[i] < 2^61 */
12981f13597dSJung-uk Kim
129917f01e99SJung-uk Kim /*
130017f01e99SJung-uk Kim * The formulae are incorrect if the points are equal, in affine coordinates
130117f01e99SJung-uk Kim * (X_1, Y_1) == (X_2, Y_2), so we check for this and do doubling if this
130217f01e99SJung-uk Kim * happens.
130317f01e99SJung-uk Kim *
130417f01e99SJung-uk Kim * We use bitwise operations to avoid potential side-channels introduced by
130517f01e99SJung-uk Kim * the short-circuiting behaviour of boolean operators.
130617f01e99SJung-uk Kim *
130717f01e99SJung-uk Kim * The special case of either point being the point at infinity (z1 and/or
130817f01e99SJung-uk Kim * z2 are zero), is handled separately later on in this function, so we
130917f01e99SJung-uk Kim * avoid jumping to point_double here in those special cases.
131017f01e99SJung-uk Kim *
131117f01e99SJung-uk Kim * Notice the comment below on the implications of this branching for timing
131217f01e99SJung-uk Kim * leaks and why it is considered practically irrelevant.
131317f01e99SJung-uk Kim */
131417f01e99SJung-uk Kim points_equal = (x_equal & y_equal & (~z1_is_zero) & (~z2_is_zero));
131517f01e99SJung-uk Kim
131617f01e99SJung-uk Kim if (points_equal) {
1317e71b7053SJung-uk Kim /*
1318e71b7053SJung-uk Kim * This is obviously not constant-time but it will almost-never happen
1319e71b7053SJung-uk Kim * for ECDH / ECDSA. The case where it can happen is during scalar-mult
1320e71b7053SJung-uk Kim * where the intermediate value gets very close to the group order.
1321*b077aed3SPierre Pronchery * Since |ossl_ec_GFp_nistp_recode_scalar_bits| produces signed digits
1322*b077aed3SPierre Pronchery * for the scalar, it's possible for the intermediate value to be a small
1323e71b7053SJung-uk Kim * negative multiple of the base point, and for the final signed digit
1324e71b7053SJung-uk Kim * to be the same value. We believe that this only occurs for the scalar
1325e71b7053SJung-uk Kim * 1fffffffffffffffffffffffffffffffffffffffffffffffffffffffffff
1326e71b7053SJung-uk Kim * ffffffa51868783bf2f966b7fcc0148f709a5d03bb5c9b8899c47aebb6fb
1327e71b7053SJung-uk Kim * 71e913863f7, in that case the penultimate intermediate is -9G and
1328e71b7053SJung-uk Kim * the final digit is also -9G. Since this only happens for a single
1329da327cd2SJung-uk Kim * scalar, the timing leak is irrelevant. (Any attacker who wanted to
1330e71b7053SJung-uk Kim * check whether a secret scalar was that exact value, can already do
1331e71b7053SJung-uk Kim * so.)
1332e71b7053SJung-uk Kim */
13331f13597dSJung-uk Kim point_double(x3, y3, z3, x1, y1, z1);
13341f13597dSJung-uk Kim return;
13351f13597dSJung-uk Kim }
13361f13597dSJung-uk Kim
13371f13597dSJung-uk Kim /* I = ftmp = (2h)**2 */
13381f13597dSJung-uk Kim felem_assign(ftmp, ftmp4);
13391f13597dSJung-uk Kim felem_scalar64(ftmp, 2);
13401f13597dSJung-uk Kim /* ftmp[i] < 2^61 */
13411f13597dSJung-uk Kim felem_square(tmp, ftmp);
13421f13597dSJung-uk Kim /* tmp[i] < 17*2^122 */
13431f13597dSJung-uk Kim felem_reduce(ftmp, tmp);
13441f13597dSJung-uk Kim
13451f13597dSJung-uk Kim /* J = ftmp2 = h * I */
13461f13597dSJung-uk Kim felem_mul(tmp, ftmp4, ftmp);
13471f13597dSJung-uk Kim felem_reduce(ftmp2, tmp);
13481f13597dSJung-uk Kim
13491f13597dSJung-uk Kim /* V = ftmp4 = U1 * I */
13501f13597dSJung-uk Kim felem_mul(tmp, ftmp3, ftmp);
13511f13597dSJung-uk Kim felem_reduce(ftmp4, tmp);
13521f13597dSJung-uk Kim
13531f13597dSJung-uk Kim /* x_out = r**2 - J - 2V */
13541f13597dSJung-uk Kim felem_square(tmp, ftmp5);
13551f13597dSJung-uk Kim /* tmp[i] < 17*2^122 */
13561f13597dSJung-uk Kim felem_diff_128_64(tmp, ftmp2);
13571f13597dSJung-uk Kim /* tmp[i] < 17*2^122 + 2^63 */
13581f13597dSJung-uk Kim felem_assign(ftmp3, ftmp4);
13591f13597dSJung-uk Kim felem_scalar64(ftmp4, 2);
13601f13597dSJung-uk Kim /* ftmp4[i] < 2^61 */
13611f13597dSJung-uk Kim felem_diff_128_64(tmp, ftmp4);
13621f13597dSJung-uk Kim /* tmp[i] < 17*2^122 + 2^64 */
13631f13597dSJung-uk Kim felem_reduce(x_out, tmp);
13641f13597dSJung-uk Kim
13651f13597dSJung-uk Kim /* y_out = r(V-x_out) - 2 * s1 * J */
13661f13597dSJung-uk Kim felem_diff64(ftmp3, x_out);
13676f9291ceSJung-uk Kim /*
13686f9291ceSJung-uk Kim * ftmp3[i] < 2^60 + 2^60 = 2^61
13696f9291ceSJung-uk Kim */
13701f13597dSJung-uk Kim felem_mul(tmp, ftmp5, ftmp3);
13711f13597dSJung-uk Kim /* tmp[i] < 17*2^122 */
13721f13597dSJung-uk Kim felem_mul(tmp2, ftmp6, ftmp2);
13731f13597dSJung-uk Kim /* tmp2[i] < 17*2^120 */
13741f13597dSJung-uk Kim felem_scalar128(tmp2, 2);
13751f13597dSJung-uk Kim /* tmp2[i] < 17*2^121 */
13761f13597dSJung-uk Kim felem_diff128(tmp, tmp2);
13776f9291ceSJung-uk Kim /*-
13786f9291ceSJung-uk Kim * tmp[i] < 2^127 - 2^69 + 17*2^122
13791f13597dSJung-uk Kim * = 2^126 - 2^122 - 2^6 - 2^2 - 1
13806f9291ceSJung-uk Kim * < 2^127
13816f9291ceSJung-uk Kim */
13821f13597dSJung-uk Kim felem_reduce(y_out, tmp);
13831f13597dSJung-uk Kim
13841f13597dSJung-uk Kim copy_conditional(x_out, x2, z1_is_zero);
13851f13597dSJung-uk Kim copy_conditional(x_out, x1, z2_is_zero);
13861f13597dSJung-uk Kim copy_conditional(y_out, y2, z1_is_zero);
13871f13597dSJung-uk Kim copy_conditional(y_out, y1, z2_is_zero);
13881f13597dSJung-uk Kim copy_conditional(z_out, z2, z1_is_zero);
13891f13597dSJung-uk Kim copy_conditional(z_out, z1, z2_is_zero);
13901f13597dSJung-uk Kim felem_assign(x3, x_out);
13911f13597dSJung-uk Kim felem_assign(y3, y_out);
13921f13597dSJung-uk Kim felem_assign(z3, z_out);
13931f13597dSJung-uk Kim }
13941f13597dSJung-uk Kim
13956f9291ceSJung-uk Kim /*-
13966f9291ceSJung-uk Kim * Base point pre computation
13971f13597dSJung-uk Kim * --------------------------
13981f13597dSJung-uk Kim *
13991f13597dSJung-uk Kim * Two different sorts of precomputed tables are used in the following code.
14001f13597dSJung-uk Kim * Each contain various points on the curve, where each point is three field
14011f13597dSJung-uk Kim * elements (x, y, z).
14021f13597dSJung-uk Kim *
14031f13597dSJung-uk Kim * For the base point table, z is usually 1 (0 for the point at infinity).
14041f13597dSJung-uk Kim * This table has 16 elements:
14051f13597dSJung-uk Kim * index | bits | point
14061f13597dSJung-uk Kim * ------+---------+------------------------------
14071f13597dSJung-uk Kim * 0 | 0 0 0 0 | 0G
14081f13597dSJung-uk Kim * 1 | 0 0 0 1 | 1G
14091f13597dSJung-uk Kim * 2 | 0 0 1 0 | 2^130G
14101f13597dSJung-uk Kim * 3 | 0 0 1 1 | (2^130 + 1)G
14111f13597dSJung-uk Kim * 4 | 0 1 0 0 | 2^260G
14121f13597dSJung-uk Kim * 5 | 0 1 0 1 | (2^260 + 1)G
14131f13597dSJung-uk Kim * 6 | 0 1 1 0 | (2^260 + 2^130)G
14141f13597dSJung-uk Kim * 7 | 0 1 1 1 | (2^260 + 2^130 + 1)G
14151f13597dSJung-uk Kim * 8 | 1 0 0 0 | 2^390G
14161f13597dSJung-uk Kim * 9 | 1 0 0 1 | (2^390 + 1)G
14171f13597dSJung-uk Kim * 10 | 1 0 1 0 | (2^390 + 2^130)G
14181f13597dSJung-uk Kim * 11 | 1 0 1 1 | (2^390 + 2^130 + 1)G
14191f13597dSJung-uk Kim * 12 | 1 1 0 0 | (2^390 + 2^260)G
14201f13597dSJung-uk Kim * 13 | 1 1 0 1 | (2^390 + 2^260 + 1)G
14211f13597dSJung-uk Kim * 14 | 1 1 1 0 | (2^390 + 2^260 + 2^130)G
14221f13597dSJung-uk Kim * 15 | 1 1 1 1 | (2^390 + 2^260 + 2^130 + 1)G
14231f13597dSJung-uk Kim *
14241f13597dSJung-uk Kim * The reason for this is so that we can clock bits into four different
14251f13597dSJung-uk Kim * locations when doing simple scalar multiplies against the base point.
14261f13597dSJung-uk Kim *
14271f13597dSJung-uk Kim * Tables for other points have table[i] = iG for i in 0 .. 16. */
14281f13597dSJung-uk Kim
14291f13597dSJung-uk Kim /* gmul is the table of precomputed base points */
1430e71b7053SJung-uk Kim static const felem gmul[16][3] = {
1431e71b7053SJung-uk Kim {{0, 0, 0, 0, 0, 0, 0, 0, 0},
14321f13597dSJung-uk Kim {0, 0, 0, 0, 0, 0, 0, 0, 0},
14331f13597dSJung-uk Kim {0, 0, 0, 0, 0, 0, 0, 0, 0}},
14341f13597dSJung-uk Kim {{0x017e7e31c2e5bd66, 0x022cf0615a90a6fe, 0x00127a2ffa8de334,
14351f13597dSJung-uk Kim 0x01dfbf9d64a3f877, 0x006b4d3dbaa14b5e, 0x014fed487e0a2bd8,
14361f13597dSJung-uk Kim 0x015b4429c6481390, 0x03a73678fb2d988e, 0x00c6858e06b70404},
14371f13597dSJung-uk Kim {0x00be94769fd16650, 0x031c21a89cb09022, 0x039013fad0761353,
14381f13597dSJung-uk Kim 0x02657bd099031542, 0x03273e662c97ee72, 0x01e6d11a05ebef45,
14391f13597dSJung-uk Kim 0x03d1bd998f544495, 0x03001172297ed0b1, 0x011839296a789a3b},
14401f13597dSJung-uk Kim {1, 0, 0, 0, 0, 0, 0, 0, 0}},
14411f13597dSJung-uk Kim {{0x0373faacbc875bae, 0x00f325023721c671, 0x00f666fd3dbde5ad,
14421f13597dSJung-uk Kim 0x01a6932363f88ea7, 0x01fc6d9e13f9c47b, 0x03bcbffc2bbf734e,
14431f13597dSJung-uk Kim 0x013ee3c3647f3a92, 0x029409fefe75d07d, 0x00ef9199963d85e5},
14441f13597dSJung-uk Kim {0x011173743ad5b178, 0x02499c7c21bf7d46, 0x035beaeabb8b1a58,
14451f13597dSJung-uk Kim 0x00f989c4752ea0a3, 0x0101e1de48a9c1a3, 0x01a20076be28ba6c,
14461f13597dSJung-uk Kim 0x02f8052e5eb2de95, 0x01bfe8f82dea117c, 0x0160074d3c36ddb7},
14471f13597dSJung-uk Kim {1, 0, 0, 0, 0, 0, 0, 0, 0}},
14481f13597dSJung-uk Kim {{0x012f3fc373393b3b, 0x03d3d6172f1419fa, 0x02adc943c0b86873,
14491f13597dSJung-uk Kim 0x00d475584177952b, 0x012a4d1673750ee2, 0x00512517a0f13b0c,
14501f13597dSJung-uk Kim 0x02b184671a7b1734, 0x0315b84236f1a50a, 0x00a4afc472edbdb9},
14511f13597dSJung-uk Kim {0x00152a7077f385c4, 0x03044007d8d1c2ee, 0x0065829d61d52b52,
14521f13597dSJung-uk Kim 0x00494ff6b6631d0d, 0x00a11d94d5f06bcf, 0x02d2f89474d9282e,
14531f13597dSJung-uk Kim 0x0241c5727c06eeb9, 0x0386928710fbdb9d, 0x01f883f727b0dfbe},
14541f13597dSJung-uk Kim {1, 0, 0, 0, 0, 0, 0, 0, 0}},
14551f13597dSJung-uk Kim {{0x019b0c3c9185544d, 0x006243a37c9d97db, 0x02ee3cbe030a2ad2,
14561f13597dSJung-uk Kim 0x00cfdd946bb51e0d, 0x0271c00932606b91, 0x03f817d1ec68c561,
14571f13597dSJung-uk Kim 0x03f37009806a369c, 0x03c1f30baf184fd5, 0x01091022d6d2f065},
14581f13597dSJung-uk Kim {0x0292c583514c45ed, 0x0316fca51f9a286c, 0x00300af507c1489a,
14591f13597dSJung-uk Kim 0x0295f69008298cf1, 0x02c0ed8274943d7b, 0x016509b9b47a431e,
14601f13597dSJung-uk Kim 0x02bc9de9634868ce, 0x005b34929bffcb09, 0x000c1a0121681524},
14611f13597dSJung-uk Kim {1, 0, 0, 0, 0, 0, 0, 0, 0}},
14621f13597dSJung-uk Kim {{0x0286abc0292fb9f2, 0x02665eee9805b3f7, 0x01ed7455f17f26d6,
14631f13597dSJung-uk Kim 0x0346355b83175d13, 0x006284944cd0a097, 0x0191895bcdec5e51,
14641f13597dSJung-uk Kim 0x02e288370afda7d9, 0x03b22312bfefa67a, 0x01d104d3fc0613fe},
14651f13597dSJung-uk Kim {0x0092421a12f7e47f, 0x0077a83fa373c501, 0x03bd25c5f696bd0d,
14661f13597dSJung-uk Kim 0x035c41e4d5459761, 0x01ca0d1742b24f53, 0x00aaab27863a509c,
14671f13597dSJung-uk Kim 0x018b6de47df73917, 0x025c0b771705cd01, 0x01fd51d566d760a7},
14681f13597dSJung-uk Kim {1, 0, 0, 0, 0, 0, 0, 0, 0}},
14691f13597dSJung-uk Kim {{0x01dd92ff6b0d1dbd, 0x039c5e2e8f8afa69, 0x0261ed13242c3b27,
14701f13597dSJung-uk Kim 0x0382c6e67026e6a0, 0x01d60b10be2089f9, 0x03c15f3dce86723f,
14711f13597dSJung-uk Kim 0x03c764a32d2a062d, 0x017307eac0fad056, 0x018207c0b96c5256},
14721f13597dSJung-uk Kim {0x0196a16d60e13154, 0x03e6ce74c0267030, 0x00ddbf2b4e52a5aa,
14731f13597dSJung-uk Kim 0x012738241bbf31c8, 0x00ebe8dc04685a28, 0x024c2ad6d380d4a2,
14741f13597dSJung-uk Kim 0x035ee062a6e62d0e, 0x0029ed74af7d3a0f, 0x00eef32aec142ebd},
14751f13597dSJung-uk Kim {1, 0, 0, 0, 0, 0, 0, 0, 0}},
14761f13597dSJung-uk Kim {{0x00c31ec398993b39, 0x03a9f45bcda68253, 0x00ac733c24c70890,
14771f13597dSJung-uk Kim 0x00872b111401ff01, 0x01d178c23195eafb, 0x03bca2c816b87f74,
14781f13597dSJung-uk Kim 0x0261a9af46fbad7a, 0x0324b2a8dd3d28f9, 0x00918121d8f24e23},
14791f13597dSJung-uk Kim {0x032bc8c1ca983cd7, 0x00d869dfb08fc8c6, 0x01693cb61fce1516,
14801f13597dSJung-uk Kim 0x012a5ea68f4e88a8, 0x010869cab88d7ae3, 0x009081ad277ceee1,
14811f13597dSJung-uk Kim 0x033a77166d064cdc, 0x03955235a1fb3a95, 0x01251a4a9b25b65e},
14821f13597dSJung-uk Kim {1, 0, 0, 0, 0, 0, 0, 0, 0}},
14831f13597dSJung-uk Kim {{0x00148a3a1b27f40b, 0x0123186df1b31fdc, 0x00026e7beaad34ce,
14841f13597dSJung-uk Kim 0x01db446ac1d3dbba, 0x0299c1a33437eaec, 0x024540610183cbb7,
14851f13597dSJung-uk Kim 0x0173bb0e9ce92e46, 0x02b937e43921214b, 0x01ab0436a9bf01b5},
14861f13597dSJung-uk Kim {0x0383381640d46948, 0x008dacbf0e7f330f, 0x03602122bcc3f318,
14871f13597dSJung-uk Kim 0x01ee596b200620d6, 0x03bd0585fda430b3, 0x014aed77fd123a83,
14881f13597dSJung-uk Kim 0x005ace749e52f742, 0x0390fe041da2b842, 0x0189a8ceb3299242},
14891f13597dSJung-uk Kim {1, 0, 0, 0, 0, 0, 0, 0, 0}},
14901f13597dSJung-uk Kim {{0x012a19d6b3282473, 0x00c0915918b423ce, 0x023a954eb94405ae,
14911f13597dSJung-uk Kim 0x00529f692be26158, 0x0289fa1b6fa4b2aa, 0x0198ae4ceea346ef,
14921f13597dSJung-uk Kim 0x0047d8cdfbdedd49, 0x00cc8c8953f0f6b8, 0x001424abbff49203},
14931f13597dSJung-uk Kim {0x0256732a1115a03a, 0x0351bc38665c6733, 0x03f7b950fb4a6447,
14941f13597dSJung-uk Kim 0x000afffa94c22155, 0x025763d0a4dab540, 0x000511e92d4fc283,
14951f13597dSJung-uk Kim 0x030a7e9eda0ee96c, 0x004c3cd93a28bf0a, 0x017edb3a8719217f},
14961f13597dSJung-uk Kim {1, 0, 0, 0, 0, 0, 0, 0, 0}},
14971f13597dSJung-uk Kim {{0x011de5675a88e673, 0x031d7d0f5e567fbe, 0x0016b2062c970ae5,
14981f13597dSJung-uk Kim 0x03f4a2be49d90aa7, 0x03cef0bd13822866, 0x03f0923dcf774a6c,
14991f13597dSJung-uk Kim 0x0284bebc4f322f72, 0x016ab2645302bb2c, 0x01793f95dace0e2a},
15001f13597dSJung-uk Kim {0x010646e13527a28f, 0x01ca1babd59dc5e7, 0x01afedfd9a5595df,
15011f13597dSJung-uk Kim 0x01f15785212ea6b1, 0x0324e5d64f6ae3f4, 0x02d680f526d00645,
15021f13597dSJung-uk Kim 0x0127920fadf627a7, 0x03b383f75df4f684, 0x0089e0057e783b0a},
15031f13597dSJung-uk Kim {1, 0, 0, 0, 0, 0, 0, 0, 0}},
15041f13597dSJung-uk Kim {{0x00f334b9eb3c26c6, 0x0298fdaa98568dce, 0x01c2d24843a82292,
15051f13597dSJung-uk Kim 0x020bcb24fa1b0711, 0x02cbdb3d2b1875e6, 0x0014907598f89422,
15061f13597dSJung-uk Kim 0x03abe3aa43b26664, 0x02cbf47f720bc168, 0x0133b5e73014b79b},
15071f13597dSJung-uk Kim {0x034aab5dab05779d, 0x00cdc5d71fee9abb, 0x0399f16bd4bd9d30,
15081f13597dSJung-uk Kim 0x03582fa592d82647, 0x02be1cdfb775b0e9, 0x0034f7cea32e94cb,
15091f13597dSJung-uk Kim 0x0335a7f08f56f286, 0x03b707e9565d1c8b, 0x0015c946ea5b614f},
15101f13597dSJung-uk Kim {1, 0, 0, 0, 0, 0, 0, 0, 0}},
15111f13597dSJung-uk Kim {{0x024676f6cff72255, 0x00d14625cac96378, 0x00532b6008bc3767,
15121f13597dSJung-uk Kim 0x01fc16721b985322, 0x023355ea1b091668, 0x029de7afdc0317c3,
15131f13597dSJung-uk Kim 0x02fc8a7ca2da037c, 0x02de1217d74a6f30, 0x013f7173175b73bf},
15141f13597dSJung-uk Kim {0x0344913f441490b5, 0x0200f9e272b61eca, 0x0258a246b1dd55d2,
15151f13597dSJung-uk Kim 0x03753db9ea496f36, 0x025e02937a09c5ef, 0x030cbd3d14012692,
15161f13597dSJung-uk Kim 0x01793a67e70dc72a, 0x03ec1d37048a662e, 0x006550f700c32a8d},
15171f13597dSJung-uk Kim {1, 0, 0, 0, 0, 0, 0, 0, 0}},
15181f13597dSJung-uk Kim {{0x00d3f48a347eba27, 0x008e636649b61bd8, 0x00d3b93716778fb3,
15191f13597dSJung-uk Kim 0x004d1915757bd209, 0x019d5311a3da44e0, 0x016d1afcbbe6aade,
15201f13597dSJung-uk Kim 0x0241bf5f73265616, 0x0384672e5d50d39b, 0x005009fee522b684},
15211f13597dSJung-uk Kim {0x029b4fab064435fe, 0x018868ee095bbb07, 0x01ea3d6936cc92b8,
15221f13597dSJung-uk Kim 0x000608b00f78a2f3, 0x02db911073d1c20f, 0x018205938470100a,
15231f13597dSJung-uk Kim 0x01f1e4964cbe6ff2, 0x021a19a29eed4663, 0x01414485f42afa81},
15241f13597dSJung-uk Kim {1, 0, 0, 0, 0, 0, 0, 0, 0}},
15251f13597dSJung-uk Kim {{0x01612b3a17f63e34, 0x03813992885428e6, 0x022b3c215b5a9608,
15261f13597dSJung-uk Kim 0x029b4057e19f2fcb, 0x0384059a587af7e6, 0x02d6400ace6fe610,
15271f13597dSJung-uk Kim 0x029354d896e8e331, 0x00c047ee6dfba65e, 0x0037720542e9d49d},
15281f13597dSJung-uk Kim {0x02ce9eed7c5e9278, 0x0374ed703e79643b, 0x01316c54c4072006,
15291f13597dSJung-uk Kim 0x005aaa09054b2ee8, 0x002824000c840d57, 0x03d4eba24771ed86,
15301f13597dSJung-uk Kim 0x0189c50aabc3bdae, 0x0338c01541e15510, 0x00466d56e38eed42},
15311f13597dSJung-uk Kim {1, 0, 0, 0, 0, 0, 0, 0, 0}},
15321f13597dSJung-uk Kim {{0x007efd8330ad8bd6, 0x02465ed48047710b, 0x0034c6606b215e0c,
15331f13597dSJung-uk Kim 0x016ae30c53cbf839, 0x01fa17bd37161216, 0x018ead4e61ce8ab9,
15341f13597dSJung-uk Kim 0x005482ed5f5dee46, 0x037543755bba1d7f, 0x005e5ac7e70a9d0f},
15351f13597dSJung-uk Kim {0x0117e1bb2fdcb2a2, 0x03deea36249f40c4, 0x028d09b4a6246cb7,
15361f13597dSJung-uk Kim 0x03524b8855bcf756, 0x023d7d109d5ceb58, 0x0178e43e3223ef9c,
15371f13597dSJung-uk Kim 0x0154536a0c6e966a, 0x037964d1286ee9fe, 0x0199bcd90e125055},
15386f9291ceSJung-uk Kim {1, 0, 0, 0, 0, 0, 0, 0, 0}}
15396f9291ceSJung-uk Kim };
15401f13597dSJung-uk Kim
15416f9291ceSJung-uk Kim /*
15426f9291ceSJung-uk Kim * select_point selects the |idx|th point from a precomputation table and
15436f9291ceSJung-uk Kim * copies it to out.
15446f9291ceSJung-uk Kim */
15456f9291ceSJung-uk Kim /* pre_comp below is of the size provided in |size| */
select_point(const limb idx,unsigned int size,const felem pre_comp[][3],felem out[3])15466f9291ceSJung-uk Kim static void select_point(const limb idx, unsigned int size,
15476f9291ceSJung-uk Kim const felem pre_comp[][3], felem out[3])
15481f13597dSJung-uk Kim {
15491f13597dSJung-uk Kim unsigned i, j;
15501f13597dSJung-uk Kim limb *outlimbs = &out[0][0];
1551e71b7053SJung-uk Kim
1552e71b7053SJung-uk Kim memset(out, 0, sizeof(*out) * 3);
15531f13597dSJung-uk Kim
15546f9291ceSJung-uk Kim for (i = 0; i < size; i++) {
15551f13597dSJung-uk Kim const limb *inlimbs = &pre_comp[i][0][0];
15561f13597dSJung-uk Kim limb mask = i ^ idx;
15571f13597dSJung-uk Kim mask |= mask >> 4;
15581f13597dSJung-uk Kim mask |= mask >> 2;
15591f13597dSJung-uk Kim mask |= mask >> 1;
15601f13597dSJung-uk Kim mask &= 1;
15611f13597dSJung-uk Kim mask--;
15621f13597dSJung-uk Kim for (j = 0; j < NLIMBS * 3; j++)
15631f13597dSJung-uk Kim outlimbs[j] |= inlimbs[j] & mask;
15641f13597dSJung-uk Kim }
15651f13597dSJung-uk Kim }
15661f13597dSJung-uk Kim
15671f13597dSJung-uk Kim /* get_bit returns the |i|th bit in |in| */
get_bit(const felem_bytearray in,int i)15681f13597dSJung-uk Kim static char get_bit(const felem_bytearray in, int i)
15691f13597dSJung-uk Kim {
15701f13597dSJung-uk Kim if (i < 0)
15711f13597dSJung-uk Kim return 0;
15721f13597dSJung-uk Kim return (in[i >> 3] >> (i & 7)) & 1;
15731f13597dSJung-uk Kim }
15741f13597dSJung-uk Kim
15756f9291ceSJung-uk Kim /*
15766f9291ceSJung-uk Kim * Interleaved point multiplication using precomputed point multiples: The
15776f9291ceSJung-uk Kim * small point multiples 0*P, 1*P, ..., 16*P are in pre_comp[], the scalars
15786f9291ceSJung-uk Kim * in scalars[]. If g_scalar is non-NULL, we also add this multiple of the
15796f9291ceSJung-uk Kim * generator, using certain (large) precomputed multiples in g_pre_comp.
15806f9291ceSJung-uk Kim * Output point (X, Y, Z) is stored in x_out, y_out, z_out
15816f9291ceSJung-uk Kim */
batch_mul(felem x_out,felem y_out,felem z_out,const felem_bytearray scalars[],const unsigned num_points,const u8 * g_scalar,const int mixed,const felem pre_comp[][17][3],const felem g_pre_comp[16][3])15821f13597dSJung-uk Kim static void batch_mul(felem x_out, felem y_out, felem z_out,
15836f9291ceSJung-uk Kim const felem_bytearray scalars[],
15846f9291ceSJung-uk Kim const unsigned num_points, const u8 *g_scalar,
15856f9291ceSJung-uk Kim const int mixed, const felem pre_comp[][17][3],
15866f9291ceSJung-uk Kim const felem g_pre_comp[16][3])
15871f13597dSJung-uk Kim {
15881f13597dSJung-uk Kim int i, skip;
15891f13597dSJung-uk Kim unsigned num, gen_mul = (g_scalar != NULL);
15901f13597dSJung-uk Kim felem nq[3], tmp[4];
15911f13597dSJung-uk Kim limb bits;
15921f13597dSJung-uk Kim u8 sign, digit;
15931f13597dSJung-uk Kim
15941f13597dSJung-uk Kim /* set nq to the point at infinity */
1595e71b7053SJung-uk Kim memset(nq, 0, sizeof(nq));
15961f13597dSJung-uk Kim
15976f9291ceSJung-uk Kim /*
15986f9291ceSJung-uk Kim * Loop over all scalars msb-to-lsb, interleaving additions of multiples
15996f9291ceSJung-uk Kim * of the generator (last quarter of rounds) and additions of other
16006f9291ceSJung-uk Kim * points multiples (every 5th round).
16011f13597dSJung-uk Kim */
16026f9291ceSJung-uk Kim skip = 1; /* save two point operations in the first
16036f9291ceSJung-uk Kim * round */
16046f9291ceSJung-uk Kim for (i = (num_points ? 520 : 130); i >= 0; --i) {
16051f13597dSJung-uk Kim /* double */
16061f13597dSJung-uk Kim if (!skip)
16071f13597dSJung-uk Kim point_double(nq[0], nq[1], nq[2], nq[0], nq[1], nq[2]);
16081f13597dSJung-uk Kim
16091f13597dSJung-uk Kim /* add multiples of the generator */
16106f9291ceSJung-uk Kim if (gen_mul && (i <= 130)) {
16111f13597dSJung-uk Kim bits = get_bit(g_scalar, i + 390) << 3;
16126f9291ceSJung-uk Kim if (i < 130) {
16131f13597dSJung-uk Kim bits |= get_bit(g_scalar, i + 260) << 2;
16141f13597dSJung-uk Kim bits |= get_bit(g_scalar, i + 130) << 1;
16151f13597dSJung-uk Kim bits |= get_bit(g_scalar, i);
16161f13597dSJung-uk Kim }
16171f13597dSJung-uk Kim /* select the point to add, in constant time */
16181f13597dSJung-uk Kim select_point(bits, 16, g_pre_comp, tmp);
16196f9291ceSJung-uk Kim if (!skip) {
16206f9291ceSJung-uk Kim /* The 1 argument below is for "mixed" */
16211f13597dSJung-uk Kim point_add(nq[0], nq[1], nq[2],
16226f9291ceSJung-uk Kim nq[0], nq[1], nq[2], 1, tmp[0], tmp[1], tmp[2]);
16236f9291ceSJung-uk Kim } else {
16241f13597dSJung-uk Kim memcpy(nq, tmp, 3 * sizeof(felem));
16251f13597dSJung-uk Kim skip = 0;
16261f13597dSJung-uk Kim }
16271f13597dSJung-uk Kim }
16281f13597dSJung-uk Kim
16291f13597dSJung-uk Kim /* do other additions every 5 doublings */
16306f9291ceSJung-uk Kim if (num_points && (i % 5 == 0)) {
16311f13597dSJung-uk Kim /* loop over all scalars */
16326f9291ceSJung-uk Kim for (num = 0; num < num_points; ++num) {
16331f13597dSJung-uk Kim bits = get_bit(scalars[num], i + 4) << 5;
16341f13597dSJung-uk Kim bits |= get_bit(scalars[num], i + 3) << 4;
16351f13597dSJung-uk Kim bits |= get_bit(scalars[num], i + 2) << 3;
16361f13597dSJung-uk Kim bits |= get_bit(scalars[num], i + 1) << 2;
16371f13597dSJung-uk Kim bits |= get_bit(scalars[num], i) << 1;
16381f13597dSJung-uk Kim bits |= get_bit(scalars[num], i - 1);
1639*b077aed3SPierre Pronchery ossl_ec_GFp_nistp_recode_scalar_bits(&sign, &digit, bits);
16401f13597dSJung-uk Kim
16416f9291ceSJung-uk Kim /*
16426f9291ceSJung-uk Kim * select the point to add or subtract, in constant time
16436f9291ceSJung-uk Kim */
16441f13597dSJung-uk Kim select_point(digit, 17, pre_comp[num], tmp);
16456f9291ceSJung-uk Kim felem_neg(tmp[3], tmp[1]); /* (X, -Y, Z) is the negative
16466f9291ceSJung-uk Kim * point */
16471f13597dSJung-uk Kim copy_conditional(tmp[1], tmp[3], (-(limb) sign));
16481f13597dSJung-uk Kim
16496f9291ceSJung-uk Kim if (!skip) {
16501f13597dSJung-uk Kim point_add(nq[0], nq[1], nq[2],
16511f13597dSJung-uk Kim nq[0], nq[1], nq[2],
16521f13597dSJung-uk Kim mixed, tmp[0], tmp[1], tmp[2]);
16536f9291ceSJung-uk Kim } else {
16541f13597dSJung-uk Kim memcpy(nq, tmp, 3 * sizeof(felem));
16551f13597dSJung-uk Kim skip = 0;
16561f13597dSJung-uk Kim }
16571f13597dSJung-uk Kim }
16581f13597dSJung-uk Kim }
16591f13597dSJung-uk Kim }
16601f13597dSJung-uk Kim felem_assign(x_out, nq[0]);
16611f13597dSJung-uk Kim felem_assign(y_out, nq[1]);
16621f13597dSJung-uk Kim felem_assign(z_out, nq[2]);
16631f13597dSJung-uk Kim }
16641f13597dSJung-uk Kim
16651f13597dSJung-uk Kim /* Precomputation for the group generator. */
1666e71b7053SJung-uk Kim struct nistp521_pre_comp_st {
16671f13597dSJung-uk Kim felem g_pre_comp[16][3];
1668e71b7053SJung-uk Kim CRYPTO_REF_COUNT references;
1669e71b7053SJung-uk Kim CRYPTO_RWLOCK *lock;
1670e71b7053SJung-uk Kim };
16711f13597dSJung-uk Kim
EC_GFp_nistp521_method(void)16721f13597dSJung-uk Kim const EC_METHOD *EC_GFp_nistp521_method(void)
16731f13597dSJung-uk Kim {
16741f13597dSJung-uk Kim static const EC_METHOD ret = {
16751f13597dSJung-uk Kim EC_FLAGS_DEFAULT_OCT,
16761f13597dSJung-uk Kim NID_X9_62_prime_field,
1677*b077aed3SPierre Pronchery ossl_ec_GFp_nistp521_group_init,
1678*b077aed3SPierre Pronchery ossl_ec_GFp_simple_group_finish,
1679*b077aed3SPierre Pronchery ossl_ec_GFp_simple_group_clear_finish,
1680*b077aed3SPierre Pronchery ossl_ec_GFp_nist_group_copy,
1681*b077aed3SPierre Pronchery ossl_ec_GFp_nistp521_group_set_curve,
1682*b077aed3SPierre Pronchery ossl_ec_GFp_simple_group_get_curve,
1683*b077aed3SPierre Pronchery ossl_ec_GFp_simple_group_get_degree,
1684*b077aed3SPierre Pronchery ossl_ec_group_simple_order_bits,
1685*b077aed3SPierre Pronchery ossl_ec_GFp_simple_group_check_discriminant,
1686*b077aed3SPierre Pronchery ossl_ec_GFp_simple_point_init,
1687*b077aed3SPierre Pronchery ossl_ec_GFp_simple_point_finish,
1688*b077aed3SPierre Pronchery ossl_ec_GFp_simple_point_clear_finish,
1689*b077aed3SPierre Pronchery ossl_ec_GFp_simple_point_copy,
1690*b077aed3SPierre Pronchery ossl_ec_GFp_simple_point_set_to_infinity,
1691*b077aed3SPierre Pronchery ossl_ec_GFp_simple_point_set_affine_coordinates,
1692*b077aed3SPierre Pronchery ossl_ec_GFp_nistp521_point_get_affine_coordinates,
16931f13597dSJung-uk Kim 0 /* point_set_compressed_coordinates */ ,
16941f13597dSJung-uk Kim 0 /* point2oct */ ,
16951f13597dSJung-uk Kim 0 /* oct2point */ ,
1696*b077aed3SPierre Pronchery ossl_ec_GFp_simple_add,
1697*b077aed3SPierre Pronchery ossl_ec_GFp_simple_dbl,
1698*b077aed3SPierre Pronchery ossl_ec_GFp_simple_invert,
1699*b077aed3SPierre Pronchery ossl_ec_GFp_simple_is_at_infinity,
1700*b077aed3SPierre Pronchery ossl_ec_GFp_simple_is_on_curve,
1701*b077aed3SPierre Pronchery ossl_ec_GFp_simple_cmp,
1702*b077aed3SPierre Pronchery ossl_ec_GFp_simple_make_affine,
1703*b077aed3SPierre Pronchery ossl_ec_GFp_simple_points_make_affine,
1704*b077aed3SPierre Pronchery ossl_ec_GFp_nistp521_points_mul,
1705*b077aed3SPierre Pronchery ossl_ec_GFp_nistp521_precompute_mult,
1706*b077aed3SPierre Pronchery ossl_ec_GFp_nistp521_have_precompute_mult,
1707*b077aed3SPierre Pronchery ossl_ec_GFp_nist_field_mul,
1708*b077aed3SPierre Pronchery ossl_ec_GFp_nist_field_sqr,
17091f13597dSJung-uk Kim 0 /* field_div */ ,
1710*b077aed3SPierre Pronchery ossl_ec_GFp_simple_field_inv,
17111f13597dSJung-uk Kim 0 /* field_encode */ ,
17121f13597dSJung-uk Kim 0 /* field_decode */ ,
1713e71b7053SJung-uk Kim 0, /* field_set_to_one */
1714*b077aed3SPierre Pronchery ossl_ec_key_simple_priv2oct,
1715*b077aed3SPierre Pronchery ossl_ec_key_simple_oct2priv,
1716e71b7053SJung-uk Kim 0, /* set private */
1717*b077aed3SPierre Pronchery ossl_ec_key_simple_generate_key,
1718*b077aed3SPierre Pronchery ossl_ec_key_simple_check_key,
1719*b077aed3SPierre Pronchery ossl_ec_key_simple_generate_public_key,
1720e71b7053SJung-uk Kim 0, /* keycopy */
1721e71b7053SJung-uk Kim 0, /* keyfinish */
1722*b077aed3SPierre Pronchery ossl_ecdh_simple_compute_key,
1723*b077aed3SPierre Pronchery ossl_ecdsa_simple_sign_setup,
1724*b077aed3SPierre Pronchery ossl_ecdsa_simple_sign_sig,
1725*b077aed3SPierre Pronchery ossl_ecdsa_simple_verify_sig,
1726e71b7053SJung-uk Kim 0, /* field_inverse_mod_ord */
1727e71b7053SJung-uk Kim 0, /* blind_coordinates */
1728e71b7053SJung-uk Kim 0, /* ladder_pre */
1729e71b7053SJung-uk Kim 0, /* ladder_step */
1730e71b7053SJung-uk Kim 0 /* ladder_post */
17316f9291ceSJung-uk Kim };
17321f13597dSJung-uk Kim
17331f13597dSJung-uk Kim return &ret;
17341f13597dSJung-uk Kim }
17351f13597dSJung-uk Kim
17361f13597dSJung-uk Kim /******************************************************************************/
17376f9291ceSJung-uk Kim /*
17386f9291ceSJung-uk Kim * FUNCTIONS TO MANAGE PRECOMPUTATION
17391f13597dSJung-uk Kim */
17401f13597dSJung-uk Kim
nistp521_pre_comp_new(void)1741e71b7053SJung-uk Kim static NISTP521_PRE_COMP *nistp521_pre_comp_new(void)
17421f13597dSJung-uk Kim {
1743e71b7053SJung-uk Kim NISTP521_PRE_COMP *ret = OPENSSL_zalloc(sizeof(*ret));
1744e71b7053SJung-uk Kim
1745e71b7053SJung-uk Kim if (ret == NULL) {
1746*b077aed3SPierre Pronchery ERR_raise(ERR_LIB_EC, ERR_R_MALLOC_FAILURE);
17471f13597dSJung-uk Kim return ret;
17481f13597dSJung-uk Kim }
1749e71b7053SJung-uk Kim
17501f13597dSJung-uk Kim ret->references = 1;
1751e71b7053SJung-uk Kim
1752e71b7053SJung-uk Kim ret->lock = CRYPTO_THREAD_lock_new();
1753e71b7053SJung-uk Kim if (ret->lock == NULL) {
1754*b077aed3SPierre Pronchery ERR_raise(ERR_LIB_EC, ERR_R_MALLOC_FAILURE);
1755e71b7053SJung-uk Kim OPENSSL_free(ret);
1756e71b7053SJung-uk Kim return NULL;
1757e71b7053SJung-uk Kim }
17581f13597dSJung-uk Kim return ret;
17591f13597dSJung-uk Kim }
17601f13597dSJung-uk Kim
EC_nistp521_pre_comp_dup(NISTP521_PRE_COMP * p)1761e71b7053SJung-uk Kim NISTP521_PRE_COMP *EC_nistp521_pre_comp_dup(NISTP521_PRE_COMP *p)
17621f13597dSJung-uk Kim {
17631f13597dSJung-uk Kim int i;
1764e71b7053SJung-uk Kim if (p != NULL)
1765e71b7053SJung-uk Kim CRYPTO_UP_REF(&p->references, &i, p->lock);
1766e71b7053SJung-uk Kim return p;
17671f13597dSJung-uk Kim }
17681f13597dSJung-uk Kim
EC_nistp521_pre_comp_free(NISTP521_PRE_COMP * p)1769e71b7053SJung-uk Kim void EC_nistp521_pre_comp_free(NISTP521_PRE_COMP *p)
17701f13597dSJung-uk Kim {
17711f13597dSJung-uk Kim int i;
17721f13597dSJung-uk Kim
1773e71b7053SJung-uk Kim if (p == NULL)
17741f13597dSJung-uk Kim return;
17751f13597dSJung-uk Kim
1776e71b7053SJung-uk Kim CRYPTO_DOWN_REF(&p->references, &i, p->lock);
1777*b077aed3SPierre Pronchery REF_PRINT_COUNT("EC_nistp521", p);
17781f13597dSJung-uk Kim if (i > 0)
17791f13597dSJung-uk Kim return;
1780e71b7053SJung-uk Kim REF_ASSERT_ISNT(i < 0);
17811f13597dSJung-uk Kim
1782e71b7053SJung-uk Kim CRYPTO_THREAD_lock_free(p->lock);
1783e71b7053SJung-uk Kim OPENSSL_free(p);
17841f13597dSJung-uk Kim }
17851f13597dSJung-uk Kim
17861f13597dSJung-uk Kim /******************************************************************************/
17876f9291ceSJung-uk Kim /*
17886f9291ceSJung-uk Kim * OPENSSL EC_METHOD FUNCTIONS
17891f13597dSJung-uk Kim */
17901f13597dSJung-uk Kim
ossl_ec_GFp_nistp521_group_init(EC_GROUP * group)1791*b077aed3SPierre Pronchery int ossl_ec_GFp_nistp521_group_init(EC_GROUP *group)
17921f13597dSJung-uk Kim {
17931f13597dSJung-uk Kim int ret;
1794*b077aed3SPierre Pronchery ret = ossl_ec_GFp_simple_group_init(group);
17951f13597dSJung-uk Kim group->a_is_minus3 = 1;
17961f13597dSJung-uk Kim return ret;
17971f13597dSJung-uk Kim }
17981f13597dSJung-uk Kim
ossl_ec_GFp_nistp521_group_set_curve(EC_GROUP * group,const BIGNUM * p,const BIGNUM * a,const BIGNUM * b,BN_CTX * ctx)1799*b077aed3SPierre Pronchery int ossl_ec_GFp_nistp521_group_set_curve(EC_GROUP *group, const BIGNUM *p,
18006f9291ceSJung-uk Kim const BIGNUM *a, const BIGNUM *b,
18016f9291ceSJung-uk Kim BN_CTX *ctx)
18021f13597dSJung-uk Kim {
18031f13597dSJung-uk Kim int ret = 0;
18041f13597dSJung-uk Kim BIGNUM *curve_p, *curve_a, *curve_b;
1805*b077aed3SPierre Pronchery #ifndef FIPS_MODULE
1806*b077aed3SPierre Pronchery BN_CTX *new_ctx = NULL;
18071f13597dSJung-uk Kim
18081f13597dSJung-uk Kim if (ctx == NULL)
1809*b077aed3SPierre Pronchery ctx = new_ctx = BN_CTX_new();
1810*b077aed3SPierre Pronchery #endif
1811*b077aed3SPierre Pronchery if (ctx == NULL)
18126f9291ceSJung-uk Kim return 0;
1813*b077aed3SPierre Pronchery
18141f13597dSJung-uk Kim BN_CTX_start(ctx);
1815e71b7053SJung-uk Kim curve_p = BN_CTX_get(ctx);
1816e71b7053SJung-uk Kim curve_a = BN_CTX_get(ctx);
1817e71b7053SJung-uk Kim curve_b = BN_CTX_get(ctx);
1818e71b7053SJung-uk Kim if (curve_b == NULL)
18196f9291ceSJung-uk Kim goto err;
18201f13597dSJung-uk Kim BN_bin2bn(nistp521_curve_params[0], sizeof(felem_bytearray), curve_p);
18211f13597dSJung-uk Kim BN_bin2bn(nistp521_curve_params[1], sizeof(felem_bytearray), curve_a);
18221f13597dSJung-uk Kim BN_bin2bn(nistp521_curve_params[2], sizeof(felem_bytearray), curve_b);
18236f9291ceSJung-uk Kim if ((BN_cmp(curve_p, p)) || (BN_cmp(curve_a, a)) || (BN_cmp(curve_b, b))) {
1824*b077aed3SPierre Pronchery ERR_raise(ERR_LIB_EC, EC_R_WRONG_CURVE_PARAMETERS);
18251f13597dSJung-uk Kim goto err;
18261f13597dSJung-uk Kim }
18271f13597dSJung-uk Kim group->field_mod_func = BN_nist_mod_521;
1828*b077aed3SPierre Pronchery ret = ossl_ec_GFp_simple_group_set_curve(group, p, a, b, ctx);
18291f13597dSJung-uk Kim err:
18301f13597dSJung-uk Kim BN_CTX_end(ctx);
1831*b077aed3SPierre Pronchery #ifndef FIPS_MODULE
18321f13597dSJung-uk Kim BN_CTX_free(new_ctx);
1833*b077aed3SPierre Pronchery #endif
18341f13597dSJung-uk Kim return ret;
18351f13597dSJung-uk Kim }
18361f13597dSJung-uk Kim
18376f9291ceSJung-uk Kim /*
18386f9291ceSJung-uk Kim * Takes the Jacobian coordinates (X, Y, Z) of a point and returns (X', Y') =
18396f9291ceSJung-uk Kim * (X/Z^2, Y/Z^3)
18406f9291ceSJung-uk Kim */
ossl_ec_GFp_nistp521_point_get_affine_coordinates(const EC_GROUP * group,const EC_POINT * point,BIGNUM * x,BIGNUM * y,BN_CTX * ctx)1841*b077aed3SPierre Pronchery int ossl_ec_GFp_nistp521_point_get_affine_coordinates(const EC_GROUP *group,
18426f9291ceSJung-uk Kim const EC_POINT *point,
18436f9291ceSJung-uk Kim BIGNUM *x, BIGNUM *y,
18446f9291ceSJung-uk Kim BN_CTX *ctx)
18451f13597dSJung-uk Kim {
18461f13597dSJung-uk Kim felem z1, z2, x_in, y_in, x_out, y_out;
18471f13597dSJung-uk Kim largefelem tmp;
18481f13597dSJung-uk Kim
18496f9291ceSJung-uk Kim if (EC_POINT_is_at_infinity(group, point)) {
1850*b077aed3SPierre Pronchery ERR_raise(ERR_LIB_EC, EC_R_POINT_AT_INFINITY);
18511f13597dSJung-uk Kim return 0;
18521f13597dSJung-uk Kim }
1853e71b7053SJung-uk Kim if ((!BN_to_felem(x_in, point->X)) || (!BN_to_felem(y_in, point->Y)) ||
1854e71b7053SJung-uk Kim (!BN_to_felem(z1, point->Z)))
18556f9291ceSJung-uk Kim return 0;
18561f13597dSJung-uk Kim felem_inv(z2, z1);
18576f9291ceSJung-uk Kim felem_square(tmp, z2);
18586f9291ceSJung-uk Kim felem_reduce(z1, tmp);
18596f9291ceSJung-uk Kim felem_mul(tmp, x_in, z1);
18606f9291ceSJung-uk Kim felem_reduce(x_in, tmp);
18611f13597dSJung-uk Kim felem_contract(x_out, x_in);
18626f9291ceSJung-uk Kim if (x != NULL) {
18636f9291ceSJung-uk Kim if (!felem_to_BN(x, x_out)) {
1864*b077aed3SPierre Pronchery ERR_raise(ERR_LIB_EC, ERR_R_BN_LIB);
18651f13597dSJung-uk Kim return 0;
18661f13597dSJung-uk Kim }
18671f13597dSJung-uk Kim }
18686f9291ceSJung-uk Kim felem_mul(tmp, z1, z2);
18696f9291ceSJung-uk Kim felem_reduce(z1, tmp);
18706f9291ceSJung-uk Kim felem_mul(tmp, y_in, z1);
18716f9291ceSJung-uk Kim felem_reduce(y_in, tmp);
18721f13597dSJung-uk Kim felem_contract(y_out, y_in);
18736f9291ceSJung-uk Kim if (y != NULL) {
18746f9291ceSJung-uk Kim if (!felem_to_BN(y, y_out)) {
1875*b077aed3SPierre Pronchery ERR_raise(ERR_LIB_EC, ERR_R_BN_LIB);
18761f13597dSJung-uk Kim return 0;
18771f13597dSJung-uk Kim }
18781f13597dSJung-uk Kim }
18791f13597dSJung-uk Kim return 1;
18801f13597dSJung-uk Kim }
18811f13597dSJung-uk Kim
18826f9291ceSJung-uk Kim /* points below is of size |num|, and tmp_felems is of size |num+1/ */
make_points_affine(size_t num,felem points[][3],felem tmp_felems[])18836f9291ceSJung-uk Kim static void make_points_affine(size_t num, felem points[][3],
18846f9291ceSJung-uk Kim felem tmp_felems[])
18851f13597dSJung-uk Kim {
18866f9291ceSJung-uk Kim /*
18876f9291ceSJung-uk Kim * Runs in constant time, unless an input is the point at infinity (which
18886f9291ceSJung-uk Kim * normally shouldn't happen).
18896f9291ceSJung-uk Kim */
1890*b077aed3SPierre Pronchery ossl_ec_GFp_nistp_points_make_affine_internal(num,
18911f13597dSJung-uk Kim points,
18921f13597dSJung-uk Kim sizeof(felem),
18931f13597dSJung-uk Kim tmp_felems,
18941f13597dSJung-uk Kim (void (*)(void *))felem_one,
18956f9291ceSJung-uk Kim felem_is_zero_int,
18966f9291ceSJung-uk Kim (void (*)(void *, const void *))
18976f9291ceSJung-uk Kim felem_assign,
18986f9291ceSJung-uk Kim (void (*)(void *, const void *))
18996f9291ceSJung-uk Kim felem_square_reduce, (void (*)
19006f9291ceSJung-uk Kim (void *,
19016f9291ceSJung-uk Kim const void
19026f9291ceSJung-uk Kim *,
19036f9291ceSJung-uk Kim const void
19046f9291ceSJung-uk Kim *))
19056f9291ceSJung-uk Kim felem_mul_reduce,
19066f9291ceSJung-uk Kim (void (*)(void *, const void *))
19076f9291ceSJung-uk Kim felem_inv,
19086f9291ceSJung-uk Kim (void (*)(void *, const void *))
19096f9291ceSJung-uk Kim felem_contract);
19101f13597dSJung-uk Kim }
19111f13597dSJung-uk Kim
19126f9291ceSJung-uk Kim /*
19136f9291ceSJung-uk Kim * Computes scalar*generator + \sum scalars[i]*points[i], ignoring NULL
19146f9291ceSJung-uk Kim * values Result is stored in r (r can equal one of the inputs).
19156f9291ceSJung-uk Kim */
ossl_ec_GFp_nistp521_points_mul(const EC_GROUP * group,EC_POINT * r,const BIGNUM * scalar,size_t num,const EC_POINT * points[],const BIGNUM * scalars[],BN_CTX * ctx)1916*b077aed3SPierre Pronchery int ossl_ec_GFp_nistp521_points_mul(const EC_GROUP *group, EC_POINT *r,
19176f9291ceSJung-uk Kim const BIGNUM *scalar, size_t num,
19186f9291ceSJung-uk Kim const EC_POINT *points[],
19191f13597dSJung-uk Kim const BIGNUM *scalars[], BN_CTX *ctx)
19201f13597dSJung-uk Kim {
19211f13597dSJung-uk Kim int ret = 0;
19221f13597dSJung-uk Kim int j;
19231f13597dSJung-uk Kim int mixed = 0;
19241f13597dSJung-uk Kim BIGNUM *x, *y, *z, *tmp_scalar;
19251f13597dSJung-uk Kim felem_bytearray g_secret;
19261f13597dSJung-uk Kim felem_bytearray *secrets = NULL;
19271f13597dSJung-uk Kim felem (*pre_comp)[17][3] = NULL;
19281f13597dSJung-uk Kim felem *tmp_felems = NULL;
1929da327cd2SJung-uk Kim unsigned i;
1930da327cd2SJung-uk Kim int num_bytes;
19311f13597dSJung-uk Kim int have_pre_comp = 0;
19321f13597dSJung-uk Kim size_t num_points = num;
19331f13597dSJung-uk Kim felem x_in, y_in, z_in, x_out, y_out, z_out;
19341f13597dSJung-uk Kim NISTP521_PRE_COMP *pre = NULL;
19351f13597dSJung-uk Kim felem(*g_pre_comp)[3] = NULL;
19361f13597dSJung-uk Kim EC_POINT *generator = NULL;
19371f13597dSJung-uk Kim const EC_POINT *p = NULL;
19381f13597dSJung-uk Kim const BIGNUM *p_scalar = NULL;
19391f13597dSJung-uk Kim
19401f13597dSJung-uk Kim BN_CTX_start(ctx);
1941e71b7053SJung-uk Kim x = BN_CTX_get(ctx);
1942e71b7053SJung-uk Kim y = BN_CTX_get(ctx);
1943e71b7053SJung-uk Kim z = BN_CTX_get(ctx);
1944e71b7053SJung-uk Kim tmp_scalar = BN_CTX_get(ctx);
1945e71b7053SJung-uk Kim if (tmp_scalar == NULL)
19461f13597dSJung-uk Kim goto err;
19471f13597dSJung-uk Kim
19486f9291ceSJung-uk Kim if (scalar != NULL) {
1949e71b7053SJung-uk Kim pre = group->pre_comp.nistp521;
19501f13597dSJung-uk Kim if (pre)
19511f13597dSJung-uk Kim /* we have precomputation, try to use it */
19521f13597dSJung-uk Kim g_pre_comp = &pre->g_pre_comp[0];
19531f13597dSJung-uk Kim else
19541f13597dSJung-uk Kim /* try to use the standard precomputation */
19551f13597dSJung-uk Kim g_pre_comp = (felem(*)[3]) gmul;
19561f13597dSJung-uk Kim generator = EC_POINT_new(group);
19571f13597dSJung-uk Kim if (generator == NULL)
19581f13597dSJung-uk Kim goto err;
19591f13597dSJung-uk Kim /* get the generator from precomputation */
19601f13597dSJung-uk Kim if (!felem_to_BN(x, g_pre_comp[1][0]) ||
19611f13597dSJung-uk Kim !felem_to_BN(y, g_pre_comp[1][1]) ||
19626f9291ceSJung-uk Kim !felem_to_BN(z, g_pre_comp[1][2])) {
1963*b077aed3SPierre Pronchery ERR_raise(ERR_LIB_EC, ERR_R_BN_LIB);
19641f13597dSJung-uk Kim goto err;
19651f13597dSJung-uk Kim }
1966*b077aed3SPierre Pronchery if (!ossl_ec_GFp_simple_set_Jprojective_coordinates_GFp(group,
1967*b077aed3SPierre Pronchery generator,
1968*b077aed3SPierre Pronchery x, y, z, ctx))
19691f13597dSJung-uk Kim goto err;
19701f13597dSJung-uk Kim if (0 == EC_POINT_cmp(group, generator, group->generator, ctx))
19711f13597dSJung-uk Kim /* precomputation matches generator */
19721f13597dSJung-uk Kim have_pre_comp = 1;
19731f13597dSJung-uk Kim else
19746f9291ceSJung-uk Kim /*
19756f9291ceSJung-uk Kim * we don't have valid precomputation: treat the generator as a
19766f9291ceSJung-uk Kim * random point
19776f9291ceSJung-uk Kim */
19781f13597dSJung-uk Kim num_points++;
19791f13597dSJung-uk Kim }
19801f13597dSJung-uk Kim
19816f9291ceSJung-uk Kim if (num_points > 0) {
19826f9291ceSJung-uk Kim if (num_points >= 2) {
19836f9291ceSJung-uk Kim /*
19846f9291ceSJung-uk Kim * unless we precompute multiples for just one point, converting
19856f9291ceSJung-uk Kim * those into affine form is time well spent
19866f9291ceSJung-uk Kim */
19871f13597dSJung-uk Kim mixed = 1;
19881f13597dSJung-uk Kim }
1989e71b7053SJung-uk Kim secrets = OPENSSL_zalloc(sizeof(*secrets) * num_points);
1990e71b7053SJung-uk Kim pre_comp = OPENSSL_zalloc(sizeof(*pre_comp) * num_points);
19911f13597dSJung-uk Kim if (mixed)
19926f9291ceSJung-uk Kim tmp_felems =
1993e71b7053SJung-uk Kim OPENSSL_malloc(sizeof(*tmp_felems) * (num_points * 17 + 1));
19946f9291ceSJung-uk Kim if ((secrets == NULL) || (pre_comp == NULL)
19956f9291ceSJung-uk Kim || (mixed && (tmp_felems == NULL))) {
1996*b077aed3SPierre Pronchery ERR_raise(ERR_LIB_EC, ERR_R_MALLOC_FAILURE);
19971f13597dSJung-uk Kim goto err;
19981f13597dSJung-uk Kim }
19991f13597dSJung-uk Kim
20006f9291ceSJung-uk Kim /*
20016f9291ceSJung-uk Kim * we treat NULL scalars as 0, and NULL points as points at infinity,
20026f9291ceSJung-uk Kim * i.e., they contribute nothing to the linear combination
20036f9291ceSJung-uk Kim */
20046f9291ceSJung-uk Kim for (i = 0; i < num_points; ++i) {
2005da327cd2SJung-uk Kim if (i == num) {
20066f9291ceSJung-uk Kim /*
20076f9291ceSJung-uk Kim * we didn't have a valid precomputation, so we pick the
20086f9291ceSJung-uk Kim * generator
20096f9291ceSJung-uk Kim */
20101f13597dSJung-uk Kim p = EC_GROUP_get0_generator(group);
20111f13597dSJung-uk Kim p_scalar = scalar;
2012da327cd2SJung-uk Kim } else {
20131f13597dSJung-uk Kim /* the i^th point */
20141f13597dSJung-uk Kim p = points[i];
20151f13597dSJung-uk Kim p_scalar = scalars[i];
20161f13597dSJung-uk Kim }
20176f9291ceSJung-uk Kim if ((p_scalar != NULL) && (p != NULL)) {
20181f13597dSJung-uk Kim /* reduce scalar to 0 <= scalar < 2^521 */
20196f9291ceSJung-uk Kim if ((BN_num_bits(p_scalar) > 521)
20206f9291ceSJung-uk Kim || (BN_is_negative(p_scalar))) {
20216f9291ceSJung-uk Kim /*
20226f9291ceSJung-uk Kim * this is an unusual input, and we don't guarantee
20236f9291ceSJung-uk Kim * constant-timeness
20246f9291ceSJung-uk Kim */
2025e71b7053SJung-uk Kim if (!BN_nnmod(tmp_scalar, p_scalar, group->order, ctx)) {
2026*b077aed3SPierre Pronchery ERR_raise(ERR_LIB_EC, ERR_R_BN_LIB);
20271f13597dSJung-uk Kim goto err;
20281f13597dSJung-uk Kim }
2029da327cd2SJung-uk Kim num_bytes = BN_bn2lebinpad(tmp_scalar,
2030da327cd2SJung-uk Kim secrets[i], sizeof(secrets[i]));
2031da327cd2SJung-uk Kim } else {
2032da327cd2SJung-uk Kim num_bytes = BN_bn2lebinpad(p_scalar,
2033da327cd2SJung-uk Kim secrets[i], sizeof(secrets[i]));
2034da327cd2SJung-uk Kim }
2035da327cd2SJung-uk Kim if (num_bytes < 0) {
2036*b077aed3SPierre Pronchery ERR_raise(ERR_LIB_EC, ERR_R_BN_LIB);
2037da327cd2SJung-uk Kim goto err;
2038da327cd2SJung-uk Kim }
20391f13597dSJung-uk Kim /* precompute multiples */
2040e71b7053SJung-uk Kim if ((!BN_to_felem(x_out, p->X)) ||
2041e71b7053SJung-uk Kim (!BN_to_felem(y_out, p->Y)) ||
2042e71b7053SJung-uk Kim (!BN_to_felem(z_out, p->Z)))
20436f9291ceSJung-uk Kim goto err;
20441f13597dSJung-uk Kim memcpy(pre_comp[i][1][0], x_out, sizeof(felem));
20451f13597dSJung-uk Kim memcpy(pre_comp[i][1][1], y_out, sizeof(felem));
20461f13597dSJung-uk Kim memcpy(pre_comp[i][1][2], z_out, sizeof(felem));
20476f9291ceSJung-uk Kim for (j = 2; j <= 16; ++j) {
20486f9291ceSJung-uk Kim if (j & 1) {
20496f9291ceSJung-uk Kim point_add(pre_comp[i][j][0], pre_comp[i][j][1],
20506f9291ceSJung-uk Kim pre_comp[i][j][2], pre_comp[i][1][0],
20516f9291ceSJung-uk Kim pre_comp[i][1][1], pre_comp[i][1][2], 0,
20526f9291ceSJung-uk Kim pre_comp[i][j - 1][0],
20536f9291ceSJung-uk Kim pre_comp[i][j - 1][1],
20546f9291ceSJung-uk Kim pre_comp[i][j - 1][2]);
20556f9291ceSJung-uk Kim } else {
20566f9291ceSJung-uk Kim point_double(pre_comp[i][j][0], pre_comp[i][j][1],
20576f9291ceSJung-uk Kim pre_comp[i][j][2], pre_comp[i][j / 2][0],
20586f9291ceSJung-uk Kim pre_comp[i][j / 2][1],
20596f9291ceSJung-uk Kim pre_comp[i][j / 2][2]);
20601f13597dSJung-uk Kim }
20611f13597dSJung-uk Kim }
20621f13597dSJung-uk Kim }
20631f13597dSJung-uk Kim }
20641f13597dSJung-uk Kim if (mixed)
20651f13597dSJung-uk Kim make_points_affine(num_points * 17, pre_comp[0], tmp_felems);
20661f13597dSJung-uk Kim }
20671f13597dSJung-uk Kim
20681f13597dSJung-uk Kim /* the scalar for the generator */
20696f9291ceSJung-uk Kim if ((scalar != NULL) && (have_pre_comp)) {
20701f13597dSJung-uk Kim memset(g_secret, 0, sizeof(g_secret));
20711f13597dSJung-uk Kim /* reduce scalar to 0 <= scalar < 2^521 */
20726f9291ceSJung-uk Kim if ((BN_num_bits(scalar) > 521) || (BN_is_negative(scalar))) {
20736f9291ceSJung-uk Kim /*
20746f9291ceSJung-uk Kim * this is an unusual input, and we don't guarantee
20756f9291ceSJung-uk Kim * constant-timeness
20766f9291ceSJung-uk Kim */
2077e71b7053SJung-uk Kim if (!BN_nnmod(tmp_scalar, scalar, group->order, ctx)) {
2078*b077aed3SPierre Pronchery ERR_raise(ERR_LIB_EC, ERR_R_BN_LIB);
20791f13597dSJung-uk Kim goto err;
20801f13597dSJung-uk Kim }
2081da327cd2SJung-uk Kim num_bytes = BN_bn2lebinpad(tmp_scalar, g_secret, sizeof(g_secret));
2082da327cd2SJung-uk Kim } else {
2083da327cd2SJung-uk Kim num_bytes = BN_bn2lebinpad(scalar, g_secret, sizeof(g_secret));
2084da327cd2SJung-uk Kim }
20851f13597dSJung-uk Kim /* do the multiplication with generator precomputation */
20861f13597dSJung-uk Kim batch_mul(x_out, y_out, z_out,
20871f13597dSJung-uk Kim (const felem_bytearray(*))secrets, num_points,
20881f13597dSJung-uk Kim g_secret,
20891f13597dSJung-uk Kim mixed, (const felem(*)[17][3])pre_comp,
20901f13597dSJung-uk Kim (const felem(*)[3])g_pre_comp);
2091da327cd2SJung-uk Kim } else {
20921f13597dSJung-uk Kim /* do the multiplication without generator precomputation */
20931f13597dSJung-uk Kim batch_mul(x_out, y_out, z_out,
20941f13597dSJung-uk Kim (const felem_bytearray(*))secrets, num_points,
20951f13597dSJung-uk Kim NULL, mixed, (const felem(*)[17][3])pre_comp, NULL);
2096da327cd2SJung-uk Kim }
20971f13597dSJung-uk Kim /* reduce the output to its unique minimal representation */
20981f13597dSJung-uk Kim felem_contract(x_in, x_out);
20991f13597dSJung-uk Kim felem_contract(y_in, y_out);
21001f13597dSJung-uk Kim felem_contract(z_in, z_out);
21011f13597dSJung-uk Kim if ((!felem_to_BN(x, x_in)) || (!felem_to_BN(y, y_in)) ||
21026f9291ceSJung-uk Kim (!felem_to_BN(z, z_in))) {
2103*b077aed3SPierre Pronchery ERR_raise(ERR_LIB_EC, ERR_R_BN_LIB);
21041f13597dSJung-uk Kim goto err;
21051f13597dSJung-uk Kim }
2106*b077aed3SPierre Pronchery ret = ossl_ec_GFp_simple_set_Jprojective_coordinates_GFp(group, r, x, y, z,
2107*b077aed3SPierre Pronchery ctx);
21081f13597dSJung-uk Kim
21091f13597dSJung-uk Kim err:
21101f13597dSJung-uk Kim BN_CTX_end(ctx);
21111f13597dSJung-uk Kim EC_POINT_free(generator);
21121f13597dSJung-uk Kim OPENSSL_free(secrets);
21131f13597dSJung-uk Kim OPENSSL_free(pre_comp);
21141f13597dSJung-uk Kim OPENSSL_free(tmp_felems);
21151f13597dSJung-uk Kim return ret;
21161f13597dSJung-uk Kim }
21171f13597dSJung-uk Kim
ossl_ec_GFp_nistp521_precompute_mult(EC_GROUP * group,BN_CTX * ctx)2118*b077aed3SPierre Pronchery int ossl_ec_GFp_nistp521_precompute_mult(EC_GROUP *group, BN_CTX *ctx)
21191f13597dSJung-uk Kim {
21201f13597dSJung-uk Kim int ret = 0;
21211f13597dSJung-uk Kim NISTP521_PRE_COMP *pre = NULL;
21221f13597dSJung-uk Kim int i, j;
21231f13597dSJung-uk Kim BIGNUM *x, *y;
21241f13597dSJung-uk Kim EC_POINT *generator = NULL;
21251f13597dSJung-uk Kim felem tmp_felems[16];
2126*b077aed3SPierre Pronchery #ifndef FIPS_MODULE
2127*b077aed3SPierre Pronchery BN_CTX *new_ctx = NULL;
2128*b077aed3SPierre Pronchery #endif
21291f13597dSJung-uk Kim
21301f13597dSJung-uk Kim /* throw away old precomputation */
2131e71b7053SJung-uk Kim EC_pre_comp_free(group);
2132*b077aed3SPierre Pronchery
2133*b077aed3SPierre Pronchery #ifndef FIPS_MODULE
21341f13597dSJung-uk Kim if (ctx == NULL)
2135*b077aed3SPierre Pronchery ctx = new_ctx = BN_CTX_new();
2136*b077aed3SPierre Pronchery #endif
2137*b077aed3SPierre Pronchery if (ctx == NULL)
21386f9291ceSJung-uk Kim return 0;
2139*b077aed3SPierre Pronchery
21401f13597dSJung-uk Kim BN_CTX_start(ctx);
2141e71b7053SJung-uk Kim x = BN_CTX_get(ctx);
2142e71b7053SJung-uk Kim y = BN_CTX_get(ctx);
2143e71b7053SJung-uk Kim if (y == NULL)
21441f13597dSJung-uk Kim goto err;
21451f13597dSJung-uk Kim /* get the generator */
21466f9291ceSJung-uk Kim if (group->generator == NULL)
21476f9291ceSJung-uk Kim goto err;
21481f13597dSJung-uk Kim generator = EC_POINT_new(group);
21491f13597dSJung-uk Kim if (generator == NULL)
21501f13597dSJung-uk Kim goto err;
21511f13597dSJung-uk Kim BN_bin2bn(nistp521_curve_params[3], sizeof(felem_bytearray), x);
21521f13597dSJung-uk Kim BN_bin2bn(nistp521_curve_params[4], sizeof(felem_bytearray), y);
2153e71b7053SJung-uk Kim if (!EC_POINT_set_affine_coordinates(group, generator, x, y, ctx))
21541f13597dSJung-uk Kim goto err;
21551f13597dSJung-uk Kim if ((pre = nistp521_pre_comp_new()) == NULL)
21561f13597dSJung-uk Kim goto err;
21576f9291ceSJung-uk Kim /*
21586f9291ceSJung-uk Kim * if the generator is the standard one, use built-in precomputation
21596f9291ceSJung-uk Kim */
21606f9291ceSJung-uk Kim if (0 == EC_POINT_cmp(group, generator, group->generator, ctx)) {
21611f13597dSJung-uk Kim memcpy(pre->g_pre_comp, gmul, sizeof(pre->g_pre_comp));
21624c6a0400SJung-uk Kim goto done;
21631f13597dSJung-uk Kim }
2164e71b7053SJung-uk Kim if ((!BN_to_felem(pre->g_pre_comp[1][0], group->generator->X)) ||
2165e71b7053SJung-uk Kim (!BN_to_felem(pre->g_pre_comp[1][1], group->generator->Y)) ||
2166e71b7053SJung-uk Kim (!BN_to_felem(pre->g_pre_comp[1][2], group->generator->Z)))
21671f13597dSJung-uk Kim goto err;
21681f13597dSJung-uk Kim /* compute 2^130*G, 2^260*G, 2^390*G */
21696f9291ceSJung-uk Kim for (i = 1; i <= 4; i <<= 1) {
21701f13597dSJung-uk Kim point_double(pre->g_pre_comp[2 * i][0], pre->g_pre_comp[2 * i][1],
21711f13597dSJung-uk Kim pre->g_pre_comp[2 * i][2], pre->g_pre_comp[i][0],
21721f13597dSJung-uk Kim pre->g_pre_comp[i][1], pre->g_pre_comp[i][2]);
21736f9291ceSJung-uk Kim for (j = 0; j < 129; ++j) {
21741f13597dSJung-uk Kim point_double(pre->g_pre_comp[2 * i][0],
21751f13597dSJung-uk Kim pre->g_pre_comp[2 * i][1],
21761f13597dSJung-uk Kim pre->g_pre_comp[2 * i][2],
21771f13597dSJung-uk Kim pre->g_pre_comp[2 * i][0],
21781f13597dSJung-uk Kim pre->g_pre_comp[2 * i][1],
21791f13597dSJung-uk Kim pre->g_pre_comp[2 * i][2]);
21801f13597dSJung-uk Kim }
21811f13597dSJung-uk Kim }
21821f13597dSJung-uk Kim /* g_pre_comp[0] is the point at infinity */
21831f13597dSJung-uk Kim memset(pre->g_pre_comp[0], 0, sizeof(pre->g_pre_comp[0]));
21841f13597dSJung-uk Kim /* the remaining multiples */
21851f13597dSJung-uk Kim /* 2^130*G + 2^260*G */
21861f13597dSJung-uk Kim point_add(pre->g_pre_comp[6][0], pre->g_pre_comp[6][1],
21871f13597dSJung-uk Kim pre->g_pre_comp[6][2], pre->g_pre_comp[4][0],
21881f13597dSJung-uk Kim pre->g_pre_comp[4][1], pre->g_pre_comp[4][2],
21891f13597dSJung-uk Kim 0, pre->g_pre_comp[2][0], pre->g_pre_comp[2][1],
21901f13597dSJung-uk Kim pre->g_pre_comp[2][2]);
21911f13597dSJung-uk Kim /* 2^130*G + 2^390*G */
21921f13597dSJung-uk Kim point_add(pre->g_pre_comp[10][0], pre->g_pre_comp[10][1],
21931f13597dSJung-uk Kim pre->g_pre_comp[10][2], pre->g_pre_comp[8][0],
21941f13597dSJung-uk Kim pre->g_pre_comp[8][1], pre->g_pre_comp[8][2],
21951f13597dSJung-uk Kim 0, pre->g_pre_comp[2][0], pre->g_pre_comp[2][1],
21961f13597dSJung-uk Kim pre->g_pre_comp[2][2]);
21971f13597dSJung-uk Kim /* 2^260*G + 2^390*G */
21981f13597dSJung-uk Kim point_add(pre->g_pre_comp[12][0], pre->g_pre_comp[12][1],
21991f13597dSJung-uk Kim pre->g_pre_comp[12][2], pre->g_pre_comp[8][0],
22001f13597dSJung-uk Kim pre->g_pre_comp[8][1], pre->g_pre_comp[8][2],
22011f13597dSJung-uk Kim 0, pre->g_pre_comp[4][0], pre->g_pre_comp[4][1],
22021f13597dSJung-uk Kim pre->g_pre_comp[4][2]);
22031f13597dSJung-uk Kim /* 2^130*G + 2^260*G + 2^390*G */
22041f13597dSJung-uk Kim point_add(pre->g_pre_comp[14][0], pre->g_pre_comp[14][1],
22051f13597dSJung-uk Kim pre->g_pre_comp[14][2], pre->g_pre_comp[12][0],
22061f13597dSJung-uk Kim pre->g_pre_comp[12][1], pre->g_pre_comp[12][2],
22071f13597dSJung-uk Kim 0, pre->g_pre_comp[2][0], pre->g_pre_comp[2][1],
22081f13597dSJung-uk Kim pre->g_pre_comp[2][2]);
22096f9291ceSJung-uk Kim for (i = 1; i < 8; ++i) {
22101f13597dSJung-uk Kim /* odd multiples: add G */
22116f9291ceSJung-uk Kim point_add(pre->g_pre_comp[2 * i + 1][0],
22126f9291ceSJung-uk Kim pre->g_pre_comp[2 * i + 1][1],
22131f13597dSJung-uk Kim pre->g_pre_comp[2 * i + 1][2], pre->g_pre_comp[2 * i][0],
22146f9291ceSJung-uk Kim pre->g_pre_comp[2 * i][1], pre->g_pre_comp[2 * i][2], 0,
22156f9291ceSJung-uk Kim pre->g_pre_comp[1][0], pre->g_pre_comp[1][1],
22161f13597dSJung-uk Kim pre->g_pre_comp[1][2]);
22171f13597dSJung-uk Kim }
22181f13597dSJung-uk Kim make_points_affine(15, &(pre->g_pre_comp[1]), tmp_felems);
22191f13597dSJung-uk Kim
22204c6a0400SJung-uk Kim done:
2221e71b7053SJung-uk Kim SETPRECOMP(group, nistp521, pre);
22221f13597dSJung-uk Kim ret = 1;
22231f13597dSJung-uk Kim pre = NULL;
22241f13597dSJung-uk Kim err:
22251f13597dSJung-uk Kim BN_CTX_end(ctx);
22261f13597dSJung-uk Kim EC_POINT_free(generator);
2227*b077aed3SPierre Pronchery #ifndef FIPS_MODULE
22281f13597dSJung-uk Kim BN_CTX_free(new_ctx);
2229*b077aed3SPierre Pronchery #endif
2230e71b7053SJung-uk Kim EC_nistp521_pre_comp_free(pre);
22311f13597dSJung-uk Kim return ret;
22321f13597dSJung-uk Kim }
22331f13597dSJung-uk Kim
ossl_ec_GFp_nistp521_have_precompute_mult(const EC_GROUP * group)2234*b077aed3SPierre Pronchery int ossl_ec_GFp_nistp521_have_precompute_mult(const EC_GROUP *group)
22351f13597dSJung-uk Kim {
2236e71b7053SJung-uk Kim return HAVEPRECOMP(group, nistp521);
22371f13597dSJung-uk Kim }
2238