2020-12-29 17:15:51 +00:00
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/***********************************************************************
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* Copyright (c) 2013, 2014, 2015 Pieter Wuille, Gregory Maxwell *
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* Distributed under the MIT software license, see the accompanying *
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* file COPYING or https://www.opensource.org/licenses/mit-license.php.*
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***********************************************************************/
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2015-10-26 14:54:21 +00:00
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2018-07-09 11:17:44 +00:00
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#ifndef SECP256K1_ECMULT_GEN_IMPL_H
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#define SECP256K1_ECMULT_GEN_IMPL_H
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2015-10-26 14:54:21 +00:00
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2019-05-28 12:23:28 +00:00
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#include "util.h"
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#include "scalar.h"
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#include "group.h"
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#include "ecmult_gen.h"
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#include "hash_impl.h"
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#include "precomputed_ecmult_gen.h"
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2019-05-28 12:23:28 +00:00
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static void rustsecp256k1_v0_5_0_ecmult_gen_context_build(rustsecp256k1_v0_5_0_ecmult_gen_context *ctx) {
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rustsecp256k1_v0_5_0_ecmult_gen_blind(ctx, NULL);
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ctx->built = 1;
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}
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static int rustsecp256k1_v0_5_0_ecmult_gen_context_is_built(const rustsecp256k1_v0_5_0_ecmult_gen_context* ctx) {
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return ctx->built;
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}
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static void rustsecp256k1_v0_5_0_ecmult_gen_context_clear(rustsecp256k1_v0_5_0_ecmult_gen_context *ctx) {
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ctx->built = 0;
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rustsecp256k1_v0_5_0_scalar_clear(&ctx->blind);
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rustsecp256k1_v0_5_0_gej_clear(&ctx->initial);
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}
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2022-03-08 19:45:41 +00:00
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/* For accelerating the computation of a*G:
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* To harden against timing attacks, use the following mechanism:
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* * Break up the multiplicand into groups of PREC_BITS bits, called n_0, n_1, n_2, ..., n_(PREC_N-1).
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* * Compute sum(n_i * (PREC_G)^i * G + U_i, i=0 ... PREC_N-1), where:
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* * U_i = U * 2^i, for i=0 ... PREC_N-2
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* * U_i = U * (1-2^(PREC_N-1)), for i=PREC_N-1
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* where U is a point with no known corresponding scalar. Note that sum(U_i, i=0 ... PREC_N-1) = 0.
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* For each i, and each of the PREC_G possible values of n_i, (n_i * (PREC_G)^i * G + U_i) is
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* precomputed (call it prec(i, n_i)). The formula now becomes sum(prec(i, n_i), i=0 ... PREC_N-1).
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* None of the resulting prec group elements have a known scalar, and neither do any of
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* the intermediate sums while computing a*G.
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* The prec values are stored in rustsecp256k1_v0_5_0_ecmult_gen_prec_table[i][n_i] = n_i * (PREC_G)^i * G + U_i.
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*/
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static void rustsecp256k1_v0_5_0_ecmult_gen(const rustsecp256k1_v0_5_0_ecmult_gen_context *ctx, rustsecp256k1_v0_5_0_gej *r, const rustsecp256k1_v0_5_0_scalar *gn) {
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int bits = ECMULT_GEN_PREC_BITS;
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int g = ECMULT_GEN_PREC_G(bits);
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int n = ECMULT_GEN_PREC_N(bits);
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rustsecp256k1_v0_5_0_ge add;
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rustsecp256k1_v0_5_0_ge_storage adds;
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rustsecp256k1_v0_5_0_scalar gnb;
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int i, j, n_i;
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2015-10-26 14:54:21 +00:00
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memset(&adds, 0, sizeof(adds));
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*r = ctx->initial;
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/* Blind scalar/point multiplication by computing (n-b)G + bG instead of nG. */
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rustsecp256k1_v0_5_0_scalar_add(&gnb, gn, &ctx->blind);
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add.infinity = 0;
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for (i = 0; i < n; i++) {
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n_i = rustsecp256k1_v0_5_0_scalar_get_bits(&gnb, i * bits, bits);
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for (j = 0; j < g; j++) {
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/** This uses a conditional move to avoid any secret data in array indexes.
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* _Any_ use of secret indexes has been demonstrated to result in timing
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* sidechannels, even when the cache-line access patterns are uniform.
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* See also:
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* "A word of warning", CHES 2013 Rump Session, by Daniel J. Bernstein and Peter Schwabe
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* (https://cryptojedi.org/peter/data/chesrump-20130822.pdf) and
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* "Cache Attacks and Countermeasures: the Case of AES", RSA 2006,
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* by Dag Arne Osvik, Adi Shamir, and Eran Tromer
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* (https://www.tau.ac.il/~tromer/papers/cache.pdf)
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*/
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rustsecp256k1_v0_5_0_ge_storage_cmov(&adds, &rustsecp256k1_v0_5_0_ecmult_gen_prec_table[i][j], j == n_i);
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}
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rustsecp256k1_v0_5_0_ge_from_storage(&add, &adds);
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rustsecp256k1_v0_5_0_gej_add_ge(r, r, &add);
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}
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n_i = 0;
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rustsecp256k1_v0_5_0_ge_clear(&add);
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rustsecp256k1_v0_5_0_scalar_clear(&gnb);
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}
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/* Setup blinding values for rustsecp256k1_v0_5_0_ecmult_gen. */
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static void rustsecp256k1_v0_5_0_ecmult_gen_blind(rustsecp256k1_v0_5_0_ecmult_gen_context *ctx, const unsigned char *seed32) {
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rustsecp256k1_v0_5_0_scalar b;
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rustsecp256k1_v0_5_0_gej gb;
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rustsecp256k1_v0_5_0_fe s;
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unsigned char nonce32[32];
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rustsecp256k1_v0_5_0_rfc6979_hmac_sha256 rng;
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int overflow;
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unsigned char keydata[64] = {0};
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if (seed32 == NULL) {
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/* When seed is NULL, reset the initial point and blinding value. */
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rustsecp256k1_v0_5_0_gej_set_ge(&ctx->initial, &rustsecp256k1_v0_5_0_ge_const_g);
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rustsecp256k1_v0_5_0_gej_neg(&ctx->initial, &ctx->initial);
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rustsecp256k1_v0_5_0_scalar_set_int(&ctx->blind, 1);
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}
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/* The prior blinding value (if not reset) is chained forward by including it in the hash. */
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rustsecp256k1_v0_5_0_scalar_get_b32(nonce32, &ctx->blind);
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/** Using a CSPRNG allows a failure free interface, avoids needing large amounts of random data,
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* and guards against weak or adversarial seeds. This is a simpler and safer interface than
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* asking the caller for blinding values directly and expecting them to retry on failure.
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*/
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memcpy(keydata, nonce32, 32);
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if (seed32 != NULL) {
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memcpy(keydata + 32, seed32, 32);
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}
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rustsecp256k1_v0_5_0_rfc6979_hmac_sha256_initialize(&rng, keydata, seed32 ? 64 : 32);
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memset(keydata, 0, sizeof(keydata));
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/* Accept unobservably small non-uniformity. */
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rustsecp256k1_v0_5_0_rfc6979_hmac_sha256_generate(&rng, nonce32, 32);
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overflow = !rustsecp256k1_v0_5_0_fe_set_b32(&s, nonce32);
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overflow |= rustsecp256k1_v0_5_0_fe_is_zero(&s);
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rustsecp256k1_v0_5_0_fe_cmov(&s, &rustsecp256k1_v0_5_0_fe_one, overflow);
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/* Randomize the projection to defend against multiplier sidechannels. */
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rustsecp256k1_v0_5_0_gej_rescale(&ctx->initial, &s);
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rustsecp256k1_v0_5_0_fe_clear(&s);
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rustsecp256k1_v0_5_0_rfc6979_hmac_sha256_generate(&rng, nonce32, 32);
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rustsecp256k1_v0_5_0_scalar_set_b32(&b, nonce32, NULL);
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/* A blinding value of 0 works, but would undermine the projection hardening. */
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rustsecp256k1_v0_5_0_scalar_cmov(&b, &rustsecp256k1_v0_5_0_scalar_one, rustsecp256k1_v0_5_0_scalar_is_zero(&b));
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rustsecp256k1_v0_5_0_rfc6979_hmac_sha256_finalize(&rng);
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memset(nonce32, 0, 32);
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rustsecp256k1_v0_5_0_ecmult_gen(ctx, &gb, &b);
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rustsecp256k1_v0_5_0_scalar_negate(&b, &b);
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ctx->blind = b;
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ctx->initial = gb;
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rustsecp256k1_v0_5_0_scalar_clear(&b);
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rustsecp256k1_v0_5_0_gej_clear(&gb);
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2015-10-26 14:54:21 +00:00
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}
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2018-07-09 11:17:44 +00:00
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#endif /* SECP256K1_ECMULT_GEN_IMPL_H */
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