mirror of
https://github.com/trezor/trezor-firmware.git
synced 2024-12-15 02:48:11 +00:00
191 lines
5.1 KiB
C
191 lines
5.1 KiB
C
/** Permission is hereby granted, free of charge, to any person obtaining a copy
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* of this software and associated documentation files (the "Software"), to deal
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* in the Software without restriction, including without limitation the rights
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* to use, copy, modify, merge, publish, distribute, sublicense, and/or sell
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* copies of the Software, and to permit persons to whom the Software is
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* furnished to do so, subject to the following conditions: The above copyright
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* notice and this permission notice shall be included in all copies or
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* substantial portions of the Software.
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*
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* THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS
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* OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
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* FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL
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* THE AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES
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* OR OTHER LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE,
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* ARISING FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR
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* OTHER DEALINGS IN THE SOFTWARE.
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*/
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#include <assert.h>
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#include <stdbool.h>
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#include "ed25519-donna/ed25519-donna.h"
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#include "memzero.h"
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#include "elligator2.h"
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// Returns 1 if a equals b, returns 0 otherwise.
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static int curve25519_isequal(bignum25519 a, const bignum25519 b) {
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bignum25519 difference;
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curve25519_sub(difference, a, b);
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int result = 1 - curve25519_isnonzero(difference);
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memzero(difference, sizeof(difference));
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return result;
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}
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// Sets out to a if c equals 0, sets out to b if c equals 1.
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static void curve25519_cmov(bignum25519 out, const bignum25519 a,
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const bignum25519 b, uint32_t c) {
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assert((int)(c == 1) | (int)(c == 0));
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bignum25519 a_copy = {0}, b_copy = {0};
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curve25519_copy(a_copy, a);
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curve25519_copy(b_copy, b);
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curve25519_swap_conditional(a_copy, b_copy, c);
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memzero(b_copy, sizeof(b_copy));
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curve25519_copy(out, a_copy);
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memzero(a_copy, sizeof(a_copy));
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}
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bool map_to_curve_elligator2_curve25519(const uint8_t input[32],
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curve25519_key output) {
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// https://www.rfc-editor.org/rfc/rfc9380.html#map-to-curve25519
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// The procedure from the above link is used, with the exception that the
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// y-coordinate of the output point is not computed, because it is not needed.
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bignum25519 input_bignum = {0};
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curve25519_expand(input_bignum, (unsigned char*)input);
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// c3 = sqrt(-1)
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bignum25519 c3 = {0};
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curve25519_set_sqrtneg1(c3);
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// J = 486662
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bignum25519 j = {0};
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curve25519_set(j, 486662);
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// tv1 = u^2
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bignum25519 tv1 = {0};
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curve25519_square(tv1, input_bignum);
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memzero(input_bignum, sizeof(input_bignum));
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// tv1 = 2 * tv1
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curve25519_add_reduce(tv1, tv1, tv1);
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// xd = tv1 + 1
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bignum25519 xd = {0};
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bignum25519 one = {0};
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curve25519_set(one, 1);
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curve25519_add_reduce(xd, tv1, one);
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memzero(one, sizeof(one));
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// x1n = -J
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bignum25519 x1n = {0};
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curve25519_neg(x1n, j);
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// tv2 = xd^2
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bignum25519 tv2 = {0};
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curve25519_square(tv2, xd);
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// gxd = tv2 * xd
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bignum25519 gxd = {0};
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curve25519_mul(gxd, tv2, xd);
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// gx1 = J * tv1
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bignum25519 gx1 = {0};
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curve25519_mul(gx1, j, tv1);
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memzero(j, sizeof(j));
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// gx1 = gx1 * x1n
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curve25519_mul(gx1, gx1, x1n);
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// gx1 = gx1 + tv2
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curve25519_add_reduce(gx1, gx1, tv2);
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// gx1 = gx1 * x1n
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curve25519_mul(gx1, gx1, x1n);
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// tv3 = gxd^2
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bignum25519 tv3 = {0};
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curve25519_square(tv3, gxd);
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// tv2 = tv3^2
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curve25519_square(tv2, tv3);
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// tv3 = tv3 * gxd
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curve25519_mul(tv3, tv3, gxd);
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// tv3 = tv3 * gx1
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curve25519_mul(tv3, tv3, gx1);
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// tv2 = tv2 * tv3
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curve25519_mul(tv2, tv2, tv3);
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// y11 = tv2^c4
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bignum25519 y11 = {0};
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curve25519_pow_two252m3(y11, tv2);
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// y11 = y11 * tv3
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curve25519_mul(y11, y11, tv3);
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memzero(tv3, sizeof(tv3));
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// y12 = y11 * c3
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bignum25519 y12 = {0};
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curve25519_mul(y12, y11, c3);
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memzero(c3, sizeof(c3));
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// tv2 = y11^2
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curve25519_square(tv2, y11);
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// tv2 = tv2 * gxd
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curve25519_mul(tv2, tv2, gxd);
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// e1 = tv2 == gx1
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int e1 = curve25519_isequal(tv2, gx1);
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// y1 = CMOV(y12, y11, e1)
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bignum25519 y1 = {0};
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curve25519_cmov(y1, y12, y11, e1);
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memzero(y12, sizeof(y12));
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memzero(y11, sizeof(y11));
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memzero(&e1, sizeof(e1));
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// x2n = x1n * tv1
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bignum25519 x2n = {0};
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curve25519_mul(x2n, x1n, tv1);
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memzero(tv1, sizeof(tv1));
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// tv2 = y1^2
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curve25519_square(tv2, y1);
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memzero(y1, sizeof(y1));
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// tv2 = tv2 * gxd
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curve25519_mul(tv2, tv2, gxd);
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memzero(gxd, sizeof(gxd));
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// e3 = tv2 == gx1
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int e3 = curve25519_isequal(tv2, gx1);
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memzero(tv2, sizeof(tv2));
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memzero(gx1, sizeof(gx1));
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// xn = CMOV(x2n, x1n, e3)
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bignum25519 xn = {0};
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curve25519_cmov(xn, x2n, x1n, e3);
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memzero(x1n, sizeof(x1n));
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memzero(x2n, sizeof(x2n));
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memzero(&e3, sizeof(e3));
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// Compute the x-coordinate of the output point
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// x = xn / xd
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bignum25519 x = {0};
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curve25519_recip(x, xd);
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memzero(xd, sizeof(xd));
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curve25519_mul(x, xn, x);
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memzero(xn, sizeof(xn));
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// output = x
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curve25519_contract(output, x);
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memzero(x, sizeof(x));
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return true;
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}
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