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trezor-firmware/crypto/monero/range_proof.c

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//
// Created by Dusan Klinec on 10/05/2018.
//
#include "range_proof.h"
static void xmr_hash_ge25519_to_scalar(bignum256modm r, const ge25519 *p) {
unsigned char buff[32] = {0};
ge25519_pack(buff, p);
xmr_hash_to_scalar(r, buff, sizeof(buff));
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}
void xmr_gen_range_sig(xmr_range_sig_t *sig, ge25519 *C, bignum256modm mask,
xmr_amount amount, bignum256modm *last_mask) {
bignum256modm ai[64] = {0};
bignum256modm alpha[64] = {0};
xmr_gen_range_sig_ex(sig, C, mask, amount, last_mask, ai, alpha);
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}
void xmr_gen_range_sig_ex(xmr_range_sig_t *sig, ge25519 *C, bignum256modm mask,
xmr_amount amount, bignum256modm *last_mask,
bignum256modm ai[64], bignum256modm alpha[64]) {
const unsigned n = XMR_ATOMS;
bignum256modm a = {0};
bignum256modm si = {0};
bignum256modm c = {0};
bignum256modm ee = {0};
unsigned char buff[32] = {0};
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Hasher kck = {0};
xmr_hasher_init(&kck);
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ge25519 C_acc = {0};
ge25519 C_h = {0};
ge25519 C_tmp = {0};
ge25519 L = {0};
ge25519 Zero = {0};
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ge25519_set_neutral(&Zero);
ge25519_set_neutral(&C_acc);
ge25519_set_xmr_h(&C_h);
set256_modm(a, 0);
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#define BB(i) ((amount >> (i)) & 1)
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// First pass, generates: ai, alpha, Ci, ee, s1
for (unsigned ii = 0; ii < n; ++ii) {
xmr_random_scalar(ai[ii]);
if (last_mask != NULL && ii == n - 1) {
sub256_modm(ai[ii], *last_mask, a);
}
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add256_modm(a, a, ai[ii]); // creating the total mask since you have to
// pass this to receiver...
xmr_random_scalar(alpha[ii]);
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ge25519_scalarmult_base_niels(&L, ge25519_niels_base_multiples, alpha[ii]);
ge25519_scalarmult_base_niels(&C_tmp, ge25519_niels_base_multiples, ai[ii]);
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// C_tmp += &Zero if BB(ii) == 0 else &C_h
ge25519_add(&C_tmp, &C_tmp, BB(ii) == 0 ? &Zero : &C_h, 0);
ge25519_add(&C_acc, &C_acc, &C_tmp, 0);
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// Set Ci[ii] to sigs
ge25519_pack(sig->Ci[ii], &C_tmp);
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if (BB(ii) == 0) {
xmr_random_scalar(si);
xmr_hash_ge25519_to_scalar(c, &L);
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ge25519_add(&C_tmp, &C_tmp, &C_h, 1); // Ci[ii] -= c_h
xmr_add_keys2_vartime(&L, si, c, &C_tmp);
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// Set s1[ii] to sigs
contract256_modm(sig->asig.s1[ii], si);
}
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ge25519_pack(buff, &L);
xmr_hasher_update(&kck, buff, sizeof(buff));
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ge25519_double(&C_h, &C_h); // c_H = crypto.scalarmult(c_H, 2)
}
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// Compute ee
xmr_hasher_final(&kck, buff);
expand256_modm(ee, buff, sizeof(buff));
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ge25519_set_xmr_h(&C_h);
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// Second pass, s0, s1
for (unsigned ii = 0; ii < n; ++ii) {
if (BB(ii) == 0) {
mulsub256_modm(si, ai[ii], ee, alpha[ii]);
contract256_modm(sig->asig.s0[ii], si);
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} else {
xmr_random_scalar(si);
contract256_modm(sig->asig.s0[ii], si);
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ge25519_unpack_vartime(&C_tmp, sig->Ci[ii]);
xmr_add_keys2_vartime(&L, si, ee, &C_tmp);
xmr_hash_ge25519_to_scalar(c, &L);
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mulsub256_modm(si, ai[ii], c, alpha[ii]);
contract256_modm(sig->asig.s1[ii], si);
}
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ge25519_double(&C_h, &C_h); // c_H = crypto.scalarmult(c_H, 2)
}
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ge25519_copy(C, &C_acc);
copy256_modm(mask, a);
contract256_modm(sig->asig.ee, ee);
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#undef BB
}