204 строки
4.7 KiB
C
204 строки
4.7 KiB
C
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#include <assert.h>
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#include "mont.h"
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#include "u512.h"
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void xDBLADD(proj *R, proj *S, proj const *P, proj const *Q, proj const *PQ, proj const *A24)
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{
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fp tmp0, tmp1, tmp2; //requires precomputation of A24=(A+2C:4C)
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fp_add3(&tmp0, &P->x, &P->z);
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fp_sub3(&tmp1, &P->x, &P->z);
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fp_sq2(&R->x, &tmp0);
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fp_sub3(&tmp2, &Q->x, &Q->z);
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fp_add3(&S->x, &Q->x, &Q->z);
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fp_mul2(&tmp0, &tmp2);
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fp_sq2(&R->z, &tmp1);
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fp_mul2(&tmp1, &S->x);
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fp_sub3(&tmp2, &R->x, &R->z);
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fp_mul2(&R->z, &A24->z);
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fp_mul2(&R->x, &R->z);
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fp_mul3(&S->x, &A24->x, &tmp2);
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fp_sub3(&S->z, &tmp0, &tmp1);
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fp_add2(&R->z, &S->x);
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fp_add3(&S->x, &tmp0, &tmp1);
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fp_mul2(&R->z, &tmp2);
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fp_sq1(&S->z);
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fp_sq1(&S->x);
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fp_mul2(&S->z, &PQ->x);
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fp_mul2(&S->x, &PQ->z);
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}
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void xDBL(proj *Q, proj const *A, proj const *P)
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{
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fp a, b, c;
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fp_add3(&a, &P->x, &P->z);
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fp_sq1(&a);
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fp_sub3(&b, &P->x, &P->z);
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fp_sq1(&b);
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fp_sub3(&c, &a, &b);
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fp_add2(&b, &b); fp_add2(&b, &b); /* multiplication by 4 */
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fp_mul2(&b, &A->z);
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fp_mul3(&Q->x, &a, &b);
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fp_add3(&a, &A->z, &A->z); /* multiplication by 2 */
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fp_add2(&a, &A->x);
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fp_mul2(&a, &c);
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fp_add2(&a, &b);
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fp_mul3(&Q->z, &a, &c);
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}
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void xADD(proj *S, proj const *P, proj const *Q, proj const *PQ)
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{
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fp a, b, c, d;
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fp_add3(&a, &P->x, &P->z);
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fp_sub3(&b, &P->x, &P->z);
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fp_add3(&c, &Q->x, &Q->z);
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fp_sub3(&d, &Q->x, &Q->z);
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fp_mul2(&a, &d);
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fp_mul2(&b, &c);
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fp_add3(&c, &a, &b);
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fp_sub3(&d, &a, &b);
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fp_sq1(&c);
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fp_sq1(&d);
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fp_mul3(&S->x, &PQ->z, &c);
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fp_mul3(&S->z, &PQ->x, &d);
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}
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/* Montgomery ladder. */
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/* P must not be the unique point of order 2. */
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/* not constant-time! */
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void xMUL(proj *Q, proj const *A, proj const *P, u512 const *k)
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{
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proj R = *P;
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proj A24;
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const proj Pcopy = *P; /* in case Q = P */
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Q->x = fp_1;
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Q->z = fp_0;
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fp_add3(&A24.x, &A->z, &A->z); //precomputation of A24=(A+2C:4C)
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fp_add3(&A24.z, &A24.x, &A24.x);
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fp_add2(&A24.x, &A->x);
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unsigned long i = 512;
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while (--i && !u512_bit(k, i));
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do {
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bool bit = u512_bit(k, i);
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if (bit) { proj T = *Q; *Q = R; R = T; } /* not constant-time */
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//fp_cswap(&Q->x, &R.x, bit);
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//fp_cswap(&Q->z, &R.z, bit);
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xDBLADD(Q, &R, Q, &R, &Pcopy, &A24);
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if (bit) { proj T = *Q; *Q = R; R = T; } /* not constant-time */
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//fp_cswap(&Q->x, &R.x, bit);
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//fp_cswap(&Q->z, &R.z, bit);
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} while (i--);
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}
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//simultaneous square-and-multiply, computes x^exp and y^exp
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void exp_by_squaring_(fp* x, fp* y, uint64_t exp)
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{
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fp result1, result2;
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fp_set(&result1, 1);
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fp_set(&result2, 1);
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while (exp)
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{
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if (exp & 1){
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fp_mul2(&result1, x);
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fp_mul2(&result2, y);
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}
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fp_sq1(x);
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fp_sq1(y);
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exp >>= 1;
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}
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fp_cswap(&result1, x, 1);
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fp_cswap(&result2, y, 1);
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}
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/* computes the isogeny with kernel point K of order k */
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/* returns the new curve coefficient A and the image of P */
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/* (obviously) not constant time in k */
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void xISOG(proj *A, proj *P, proj const *K, uint64_t k)
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{
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assert (k >= 3);
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assert (k % 2 == 1);
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fp tmp0, tmp1, tmp2, Psum, Pdif;
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proj Q, Aed, prod;
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fp_add3(&Aed.z, &A->z, &A->z); //compute twisted Edwards curve coefficients
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fp_add3(&Aed.x, &A->x, &Aed.z);
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fp_sub3(&Aed.z, &A->x, &Aed.z);
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fp_add3(&Psum, &P->x, &P->z); //precomputations
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fp_sub3(&Pdif, &P->x, &P->z);
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fp_sub3(&prod.x, &K->x, &K->z);
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fp_add3(&prod.z, &K->x, &K->z);
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fp_mul3(&tmp1, &prod.x, &Psum);
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fp_mul3(&tmp0, &prod.z, &Pdif);
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fp_add3(&Q.x, &tmp0, &tmp1);
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fp_sub3(&Q.z, &tmp0, &tmp1);
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proj M[3] = {*K};
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xDBL(&M[1], A, K);
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for (uint64_t i = 1; i < k / 2; ++i) {
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if (i >= 2)
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xADD(&M[i % 3], &M[(i - 1) % 3], K, &M[(i - 2) % 3]);
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fp_sub3(&tmp1, &M[i % 3].x, &M[i % 3].z);
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fp_add3(&tmp0, &M[i % 3].x, &M[i % 3].z);
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fp_mul2(&prod.x, &tmp1);
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fp_mul2(&prod.z, &tmp0);
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fp_mul2(&tmp1, &Psum);
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fp_mul2(&tmp0, &Pdif);
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fp_add3(&tmp2, &tmp0, &tmp1);
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fp_mul2(&Q.x, &tmp2);
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fp_sub3(&tmp2, &tmp0, &tmp1);
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fp_mul2(&Q.z, &tmp2);
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}
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// point evaluation
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fp_sq1(&Q.x);
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fp_sq1(&Q.z);
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fp_mul2(&P->x, &Q.x);
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fp_mul2(&P->z, &Q.z);
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//compute Aed.x^k, Aed.z^k
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exp_by_squaring_(&Aed.x, &Aed.z, k);
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//compute prod.x^8, prod.z^8
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fp_sq1(&prod.x);
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fp_sq1(&prod.x);
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fp_sq1(&prod.x);
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fp_sq1(&prod.z);
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fp_sq1(&prod.z);
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fp_sq1(&prod.z);
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//compute image curve parameters
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fp_mul2(&Aed.z, &prod.x);
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fp_mul2(&Aed.x, &prod.z);
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//compute Montgomery params
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fp_add3(&A->x, &Aed.x, &Aed.z);
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fp_sub3(&A->z, &Aed.x, &Aed.z);
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fp_add2(&A->x, &A->x);
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}
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