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authorSaulo Alessandre <saulo.alessandre@tse.jus.br>2021-03-16 17:07:34 -0400
committerHerbert Xu <herbert@gondor.apana.org.au>2021-03-26 19:41:58 +1100
commit149ca1611d92411b812756475cf471a081dcadad (patch)
tree40742486f2b9f2733eb933a00c1934852214ebe0 /crypto
parent703c748d5f2c4f6d2b494405130d61b8275189cf (diff)
downloadlinux-149ca1611d92411b812756475cf471a081dcadad.tar.bz2
crypto: ecc - Add math to support fast NIST P384
Add the math needed for NIST P384 and adapt certain functions' parameters so that the ecc_curve is passed to vli_mmod_fast. This allows to identify the curve by its name prefix and the appropriate function for fast mmod calculation can be used. Summary of changes: * crypto/ecc.c - add vli_mmod_fast_384 - change some routines to pass ecc_curve forward until vli_mmod_fast * crypto/ecc.h - add ECC_CURVE_NIST_P384_DIGITS - change ECC_MAX_DIGITS to P384 size Signed-off-by: Saulo Alessandre <saulo.alessandre@tse.jus.br> Tested-by: Stefan Berger <stefanb@linux.ibm.com> Signed-off-by: Herbert Xu <herbert@gondor.apana.org.au>
Diffstat (limited to 'crypto')
-rw-r--r--crypto/ecc.c266
-rw-r--r--crypto/ecc.h3
2 files changed, 194 insertions, 75 deletions
diff --git a/crypto/ecc.c b/crypto/ecc.c
index f6cef5a7942d..589831d82063 100644
--- a/crypto/ecc.c
+++ b/crypto/ecc.c
@@ -778,18 +778,133 @@ static void vli_mmod_fast_256(u64 *result, const u64 *product,
}
}
+#define SL32OR32(x32, y32) (((u64)x32 << 32) | y32)
+#define AND64H(x64) (x64 & 0xffFFffFF00000000ull)
+#define AND64L(x64) (x64 & 0x00000000ffFFffFFull)
+
+/* Computes result = product % curve_prime
+ * from "Mathematical routines for the NIST prime elliptic curves"
+ */
+static void vli_mmod_fast_384(u64 *result, const u64 *product,
+ const u64 *curve_prime, u64 *tmp)
+{
+ int carry;
+ const unsigned int ndigits = 6;
+
+ /* t */
+ vli_set(result, product, ndigits);
+
+ /* s1 */
+ tmp[0] = 0; // 0 || 0
+ tmp[1] = 0; // 0 || 0
+ tmp[2] = SL32OR32(product[11], (product[10]>>32)); //a22||a21
+ tmp[3] = product[11]>>32; // 0 ||a23
+ tmp[4] = 0; // 0 || 0
+ tmp[5] = 0; // 0 || 0
+ carry = vli_lshift(tmp, tmp, 1, ndigits);
+ carry += vli_add(result, result, tmp, ndigits);
+
+ /* s2 */
+ tmp[0] = product[6]; //a13||a12
+ tmp[1] = product[7]; //a15||a14
+ tmp[2] = product[8]; //a17||a16
+ tmp[3] = product[9]; //a19||a18
+ tmp[4] = product[10]; //a21||a20
+ tmp[5] = product[11]; //a23||a22
+ carry += vli_add(result, result, tmp, ndigits);
+
+ /* s3 */
+ tmp[0] = SL32OR32(product[11], (product[10]>>32)); //a22||a21
+ tmp[1] = SL32OR32(product[6], (product[11]>>32)); //a12||a23
+ tmp[2] = SL32OR32(product[7], (product[6])>>32); //a14||a13
+ tmp[3] = SL32OR32(product[8], (product[7]>>32)); //a16||a15
+ tmp[4] = SL32OR32(product[9], (product[8]>>32)); //a18||a17
+ tmp[5] = SL32OR32(product[10], (product[9]>>32)); //a20||a19
+ carry += vli_add(result, result, tmp, ndigits);
+
+ /* s4 */
+ tmp[0] = AND64H(product[11]); //a23|| 0
+ tmp[1] = (product[10]<<32); //a20|| 0
+ tmp[2] = product[6]; //a13||a12
+ tmp[3] = product[7]; //a15||a14
+ tmp[4] = product[8]; //a17||a16
+ tmp[5] = product[9]; //a19||a18
+ carry += vli_add(result, result, tmp, ndigits);
+
+ /* s5 */
+ tmp[0] = 0; // 0|| 0
+ tmp[1] = 0; // 0|| 0
+ tmp[2] = product[10]; //a21||a20
+ tmp[3] = product[11]; //a23||a22
+ tmp[4] = 0; // 0|| 0
+ tmp[5] = 0; // 0|| 0
+ carry += vli_add(result, result, tmp, ndigits);
+
+ /* s6 */
+ tmp[0] = AND64L(product[10]); // 0 ||a20
+ tmp[1] = AND64H(product[10]); //a21|| 0
+ tmp[2] = product[11]; //a23||a22
+ tmp[3] = 0; // 0 || 0
+ tmp[4] = 0; // 0 || 0
+ tmp[5] = 0; // 0 || 0
+ carry += vli_add(result, result, tmp, ndigits);
+
+ /* d1 */
+ tmp[0] = SL32OR32(product[6], (product[11]>>32)); //a12||a23
+ tmp[1] = SL32OR32(product[7], (product[6]>>32)); //a14||a13
+ tmp[2] = SL32OR32(product[8], (product[7]>>32)); //a16||a15
+ tmp[3] = SL32OR32(product[9], (product[8]>>32)); //a18||a17
+ tmp[4] = SL32OR32(product[10], (product[9]>>32)); //a20||a19
+ tmp[5] = SL32OR32(product[11], (product[10]>>32)); //a22||a21
+ carry -= vli_sub(result, result, tmp, ndigits);
+
+ /* d2 */
+ tmp[0] = (product[10]<<32); //a20|| 0
+ tmp[1] = SL32OR32(product[11], (product[10]>>32)); //a22||a21
+ tmp[2] = (product[11]>>32); // 0 ||a23
+ tmp[3] = 0; // 0 || 0
+ tmp[4] = 0; // 0 || 0
+ tmp[5] = 0; // 0 || 0
+ carry -= vli_sub(result, result, tmp, ndigits);
+
+ /* d3 */
+ tmp[0] = 0; // 0 || 0
+ tmp[1] = AND64H(product[11]); //a23|| 0
+ tmp[2] = product[11]>>32; // 0 ||a23
+ tmp[3] = 0; // 0 || 0
+ tmp[4] = 0; // 0 || 0
+ tmp[5] = 0; // 0 || 0
+ carry -= vli_sub(result, result, tmp, ndigits);
+
+ if (carry < 0) {
+ do {
+ carry += vli_add(result, result, curve_prime, ndigits);
+ } while (carry < 0);
+ } else {
+ while (carry || vli_cmp(curve_prime, result, ndigits) != 1)
+ carry -= vli_sub(result, result, curve_prime, ndigits);
+ }
+
+}
+
+#undef SL32OR32
+#undef AND64H
+#undef AND64L
+
/* Computes result = product % curve_prime for different curve_primes.
*
* Note that curve_primes are distinguished just by heuristic check and
* not by complete conformance check.
*/
static bool vli_mmod_fast(u64 *result, u64 *product,
- const u64 *curve_prime, unsigned int ndigits)
+ const struct ecc_curve *curve)
{
u64 tmp[2 * ECC_MAX_DIGITS];
+ const u64 *curve_prime = curve->p;
+ const unsigned int ndigits = curve->g.ndigits;
- /* Currently, both NIST primes have -1 in lowest qword. */
- if (curve_prime[0] != -1ull) {
+ /* All NIST curves have name prefix 'nist_' */
+ if (strncmp(curve->name, "nist_", 5) != 0) {
/* Try to handle Pseudo-Marsenne primes. */
if (curve_prime[ndigits - 1] == -1ull) {
vli_mmod_special(result, product, curve_prime,
@@ -812,6 +927,9 @@ static bool vli_mmod_fast(u64 *result, u64 *product,
case 4:
vli_mmod_fast_256(result, product, curve_prime, tmp);
break;
+ case 6:
+ vli_mmod_fast_384(result, product, curve_prime, tmp);
+ break;
default:
pr_err_ratelimited("ecc: unsupported digits size!\n");
return false;
@@ -835,22 +953,22 @@ EXPORT_SYMBOL(vli_mod_mult_slow);
/* Computes result = (left * right) % curve_prime. */
static void vli_mod_mult_fast(u64 *result, const u64 *left, const u64 *right,
- const u64 *curve_prime, unsigned int ndigits)
+ const struct ecc_curve *curve)
{
u64 product[2 * ECC_MAX_DIGITS];
- vli_mult(product, left, right, ndigits);
- vli_mmod_fast(result, product, curve_prime, ndigits);
+ vli_mult(product, left, right, curve->g.ndigits);
+ vli_mmod_fast(result, product, curve);
}
/* Computes result = left^2 % curve_prime. */
static void vli_mod_square_fast(u64 *result, const u64 *left,
- const u64 *curve_prime, unsigned int ndigits)
+ const struct ecc_curve *curve)
{
u64 product[2 * ECC_MAX_DIGITS];
- vli_square(product, left, ndigits);
- vli_mmod_fast(result, product, curve_prime, ndigits);
+ vli_square(product, left, curve->g.ndigits);
+ vli_mmod_fast(result, product, curve);
}
#define EVEN(vli) (!(vli[0] & 1))
@@ -948,25 +1066,27 @@ static bool ecc_point_is_zero(const struct ecc_point *point)
/* Double in place */
static void ecc_point_double_jacobian(u64 *x1, u64 *y1, u64 *z1,
- u64 *curve_prime, unsigned int ndigits)
+ const struct ecc_curve *curve)
{
/* t1 = x, t2 = y, t3 = z */
u64 t4[ECC_MAX_DIGITS];
u64 t5[ECC_MAX_DIGITS];
+ const u64 *curve_prime = curve->p;
+ const unsigned int ndigits = curve->g.ndigits;
if (vli_is_zero(z1, ndigits))
return;
/* t4 = y1^2 */
- vli_mod_square_fast(t4, y1, curve_prime, ndigits);
+ vli_mod_square_fast(t4, y1, curve);
/* t5 = x1*y1^2 = A */
- vli_mod_mult_fast(t5, x1, t4, curve_prime, ndigits);
+ vli_mod_mult_fast(t5, x1, t4, curve);
/* t4 = y1^4 */
- vli_mod_square_fast(t4, t4, curve_prime, ndigits);
+ vli_mod_square_fast(t4, t4, curve);
/* t2 = y1*z1 = z3 */
- vli_mod_mult_fast(y1, y1, z1, curve_prime, ndigits);
+ vli_mod_mult_fast(y1, y1, z1, curve);
/* t3 = z1^2 */
- vli_mod_square_fast(z1, z1, curve_prime, ndigits);
+ vli_mod_square_fast(z1, z1, curve);
/* t1 = x1 + z1^2 */
vli_mod_add(x1, x1, z1, curve_prime, ndigits);
@@ -975,7 +1095,7 @@ static void ecc_point_double_jacobian(u64 *x1, u64 *y1, u64 *z1,
/* t3 = x1 - z1^2 */
vli_mod_sub(z1, x1, z1, curve_prime, ndigits);
/* t1 = x1^2 - z1^4 */
- vli_mod_mult_fast(x1, x1, z1, curve_prime, ndigits);
+ vli_mod_mult_fast(x1, x1, z1, curve);
/* t3 = 2*(x1^2 - z1^4) */
vli_mod_add(z1, x1, x1, curve_prime, ndigits);
@@ -992,7 +1112,7 @@ static void ecc_point_double_jacobian(u64 *x1, u64 *y1, u64 *z1,
/* t1 = 3/2*(x1^2 - z1^4) = B */
/* t3 = B^2 */
- vli_mod_square_fast(z1, x1, curve_prime, ndigits);
+ vli_mod_square_fast(z1, x1, curve);
/* t3 = B^2 - A */
vli_mod_sub(z1, z1, t5, curve_prime, ndigits);
/* t3 = B^2 - 2A = x3 */
@@ -1000,7 +1120,7 @@ static void ecc_point_double_jacobian(u64 *x1, u64 *y1, u64 *z1,
/* t5 = A - x3 */
vli_mod_sub(t5, t5, z1, curve_prime, ndigits);
/* t1 = B * (A - x3) */
- vli_mod_mult_fast(x1, x1, t5, curve_prime, ndigits);
+ vli_mod_mult_fast(x1, x1, t5, curve);
/* t4 = B * (A - x3) - y1^4 = y3 */
vli_mod_sub(t4, x1, t4, curve_prime, ndigits);
@@ -1010,23 +1130,22 @@ static void ecc_point_double_jacobian(u64 *x1, u64 *y1, u64 *z1,
}
/* Modify (x1, y1) => (x1 * z^2, y1 * z^3) */
-static void apply_z(u64 *x1, u64 *y1, u64 *z, u64 *curve_prime,
- unsigned int ndigits)
+static void apply_z(u64 *x1, u64 *y1, u64 *z, const struct ecc_curve *curve)
{
u64 t1[ECC_MAX_DIGITS];
- vli_mod_square_fast(t1, z, curve_prime, ndigits); /* z^2 */
- vli_mod_mult_fast(x1, x1, t1, curve_prime, ndigits); /* x1 * z^2 */
- vli_mod_mult_fast(t1, t1, z, curve_prime, ndigits); /* z^3 */
- vli_mod_mult_fast(y1, y1, t1, curve_prime, ndigits); /* y1 * z^3 */
+ vli_mod_square_fast(t1, z, curve); /* z^2 */
+ vli_mod_mult_fast(x1, x1, t1, curve); /* x1 * z^2 */
+ vli_mod_mult_fast(t1, t1, z, curve); /* z^3 */
+ vli_mod_mult_fast(y1, y1, t1, curve); /* y1 * z^3 */
}
/* P = (x1, y1) => 2P, (x2, y2) => P' */
static void xycz_initial_double(u64 *x1, u64 *y1, u64 *x2, u64 *y2,
- u64 *p_initial_z, u64 *curve_prime,
- unsigned int ndigits)
+ u64 *p_initial_z, const struct ecc_curve *curve)
{
u64 z[ECC_MAX_DIGITS];
+ const unsigned int ndigits = curve->g.ndigits;
vli_set(x2, x1, ndigits);
vli_set(y2, y1, ndigits);
@@ -1037,35 +1156,37 @@ static void xycz_initial_double(u64 *x1, u64 *y1, u64 *x2, u64 *y2,
if (p_initial_z)
vli_set(z, p_initial_z, ndigits);
- apply_z(x1, y1, z, curve_prime, ndigits);
+ apply_z(x1, y1, z, curve);
- ecc_point_double_jacobian(x1, y1, z, curve_prime, ndigits);
+ ecc_point_double_jacobian(x1, y1, z, curve);
- apply_z(x2, y2, z, curve_prime, ndigits);
+ apply_z(x2, y2, z, curve);
}
/* Input P = (x1, y1, Z), Q = (x2, y2, Z)
* Output P' = (x1', y1', Z3), P + Q = (x3, y3, Z3)
* or P => P', Q => P + Q
*/
-static void xycz_add(u64 *x1, u64 *y1, u64 *x2, u64 *y2, u64 *curve_prime,
- unsigned int ndigits)
+static void xycz_add(u64 *x1, u64 *y1, u64 *x2, u64 *y2,
+ const struct ecc_curve *curve)
{
/* t1 = X1, t2 = Y1, t3 = X2, t4 = Y2 */
u64 t5[ECC_MAX_DIGITS];
+ const u64 *curve_prime = curve->p;
+ const unsigned int ndigits = curve->g.ndigits;
/* t5 = x2 - x1 */
vli_mod_sub(t5, x2, x1, curve_prime, ndigits);
/* t5 = (x2 - x1)^2 = A */
- vli_mod_square_fast(t5, t5, curve_prime, ndigits);
+ vli_mod_square_fast(t5, t5, curve);
/* t1 = x1*A = B */
- vli_mod_mult_fast(x1, x1, t5, curve_prime, ndigits);
+ vli_mod_mult_fast(x1, x1, t5, curve);
/* t3 = x2*A = C */
- vli_mod_mult_fast(x2, x2, t5, curve_prime, ndigits);
+ vli_mod_mult_fast(x2, x2, t5, curve);
/* t4 = y2 - y1 */
vli_mod_sub(y2, y2, y1, curve_prime, ndigits);
/* t5 = (y2 - y1)^2 = D */
- vli_mod_square_fast(t5, y2, curve_prime, ndigits);
+ vli_mod_square_fast(t5, y2, curve);
/* t5 = D - B */
vli_mod_sub(t5, t5, x1, curve_prime, ndigits);
@@ -1074,11 +1195,11 @@ static void xycz_add(u64 *x1, u64 *y1, u64 *x2, u64 *y2, u64 *curve_prime,
/* t3 = C - B */
vli_mod_sub(x2, x2, x1, curve_prime, ndigits);
/* t2 = y1*(C - B) */
- vli_mod_mult_fast(y1, y1, x2, curve_prime, ndigits);
+ vli_mod_mult_fast(y1, y1, x2, curve);
/* t3 = B - x3 */
vli_mod_sub(x2, x1, t5, curve_prime, ndigits);
/* t4 = (y2 - y1)*(B - x3) */
- vli_mod_mult_fast(y2, y2, x2, curve_prime, ndigits);
+ vli_mod_mult_fast(y2, y2, x2, curve);
/* t4 = y3 */
vli_mod_sub(y2, y2, y1, curve_prime, ndigits);
@@ -1089,22 +1210,24 @@ static void xycz_add(u64 *x1, u64 *y1, u64 *x2, u64 *y2, u64 *curve_prime,
* Output P + Q = (x3, y3, Z3), P - Q = (x3', y3', Z3)
* or P => P - Q, Q => P + Q
*/
-static void xycz_add_c(u64 *x1, u64 *y1, u64 *x2, u64 *y2, u64 *curve_prime,
- unsigned int ndigits)
+static void xycz_add_c(u64 *x1, u64 *y1, u64 *x2, u64 *y2,
+ const struct ecc_curve *curve)
{
/* t1 = X1, t2 = Y1, t3 = X2, t4 = Y2 */
u64 t5[ECC_MAX_DIGITS];
u64 t6[ECC_MAX_DIGITS];
u64 t7[ECC_MAX_DIGITS];
+ const u64 *curve_prime = curve->p;
+ const unsigned int ndigits = curve->g.ndigits;
/* t5 = x2 - x1 */
vli_mod_sub(t5, x2, x1, curve_prime, ndigits);
/* t5 = (x2 - x1)^2 = A */
- vli_mod_square_fast(t5, t5, curve_prime, ndigits);
+ vli_mod_square_fast(t5, t5, curve);
/* t1 = x1*A = B */
- vli_mod_mult_fast(x1, x1, t5, curve_prime, ndigits);
+ vli_mod_mult_fast(x1, x1, t5, curve);
/* t3 = x2*A = C */
- vli_mod_mult_fast(x2, x2, t5, curve_prime, ndigits);
+ vli_mod_mult_fast(x2, x2, t5, curve);
/* t4 = y2 + y1 */
vli_mod_add(t5, y2, y1, curve_prime, ndigits);
/* t4 = y2 - y1 */
@@ -1113,29 +1236,29 @@ static void xycz_add_c(u64 *x1, u64 *y1, u64 *x2, u64 *y2, u64 *curve_prime,
/* t6 = C - B */
vli_mod_sub(t6, x2, x1, curve_prime, ndigits);
/* t2 = y1 * (C - B) */
- vli_mod_mult_fast(y1, y1, t6, curve_prime, ndigits);
+ vli_mod_mult_fast(y1, y1, t6, curve);
/* t6 = B + C */
vli_mod_add(t6, x1, x2, curve_prime, ndigits);
/* t3 = (y2 - y1)^2 */
- vli_mod_square_fast(x2, y2, curve_prime, ndigits);
+ vli_mod_square_fast(x2, y2, curve);
/* t3 = x3 */
vli_mod_sub(x2, x2, t6, curve_prime, ndigits);
/* t7 = B - x3 */
vli_mod_sub(t7, x1, x2, curve_prime, ndigits);
/* t4 = (y2 - y1)*(B - x3) */
- vli_mod_mult_fast(y2, y2, t7, curve_prime, ndigits);
+ vli_mod_mult_fast(y2, y2, t7, curve);
/* t4 = y3 */
vli_mod_sub(y2, y2, y1, curve_prime, ndigits);
/* t7 = (y2 + y1)^2 = F */
- vli_mod_square_fast(t7, t5, curve_prime, ndigits);
+ vli_mod_square_fast(t7, t5, curve);
/* t7 = x3' */
vli_mod_sub(t7, t7, t6, curve_prime, ndigits);
/* t6 = x3' - B */
vli_mod_sub(t6, t7, x1, curve_prime, ndigits);
/* t6 = (y2 + y1)*(x3' - B) */
- vli_mod_mult_fast(t6, t6, t5, curve_prime, ndigits);
+ vli_mod_mult_fast(t6, t6, t5, curve);
/* t2 = y3' */
vli_mod_sub(y1, t6, y1, curve_prime, ndigits);
@@ -1165,41 +1288,37 @@ static void ecc_point_mult(struct ecc_point *result,
vli_set(rx[1], point->x, ndigits);
vli_set(ry[1], point->y, ndigits);
- xycz_initial_double(rx[1], ry[1], rx[0], ry[0], initial_z, curve_prime,
- ndigits);
+ xycz_initial_double(rx[1], ry[1], rx[0], ry[0], initial_z, curve);
for (i = num_bits - 2; i > 0; i--) {
nb = !vli_test_bit(scalar, i);
- xycz_add_c(rx[1 - nb], ry[1 - nb], rx[nb], ry[nb], curve_prime,
- ndigits);
- xycz_add(rx[nb], ry[nb], rx[1 - nb], ry[1 - nb], curve_prime,
- ndigits);
+ xycz_add_c(rx[1 - nb], ry[1 - nb], rx[nb], ry[nb], curve);
+ xycz_add(rx[nb], ry[nb], rx[1 - nb], ry[1 - nb], curve);
}
nb = !vli_test_bit(scalar, 0);
- xycz_add_c(rx[1 - nb], ry[1 - nb], rx[nb], ry[nb], curve_prime,
- ndigits);
+ xycz_add_c(rx[1 - nb], ry[1 - nb], rx[nb], ry[nb], curve);
/* Find final 1/Z value. */
/* X1 - X0 */
vli_mod_sub(z, rx[1], rx[0], curve_prime, ndigits);
/* Yb * (X1 - X0) */
- vli_mod_mult_fast(z, z, ry[1 - nb], curve_prime, ndigits);
+ vli_mod_mult_fast(z, z, ry[1 - nb], curve);
/* xP * Yb * (X1 - X0) */
- vli_mod_mult_fast(z, z, point->x, curve_prime, ndigits);
+ vli_mod_mult_fast(z, z, point->x, curve);
/* 1 / (xP * Yb * (X1 - X0)) */
vli_mod_inv(z, z, curve_prime, point->ndigits);
/* yP / (xP * Yb * (X1 - X0)) */
- vli_mod_mult_fast(z, z, point->y, curve_prime, ndigits);
+ vli_mod_mult_fast(z, z, point->y, curve);
/* Xb * yP / (xP * Yb * (X1 - X0)) */
- vli_mod_mult_fast(z, z, rx[1 - nb], curve_prime, ndigits);
+ vli_mod_mult_fast(z, z, rx[1 - nb], curve);
/* End 1/Z calculation */
- xycz_add(rx[nb], ry[nb], rx[1 - nb], ry[1 - nb], curve_prime, ndigits);
+ xycz_add(rx[nb], ry[nb], rx[1 - nb], ry[1 - nb], curve);
- apply_z(rx[0], ry[0], z, curve_prime, ndigits);
+ apply_z(rx[0], ry[0], z, curve);
vli_set(result->x, rx[0], ndigits);
vli_set(result->y, ry[0], ndigits);
@@ -1220,9 +1339,9 @@ static void ecc_point_add(const struct ecc_point *result,
vli_mod_sub(z, result->x, p->x, curve->p, ndigits);
vli_set(px, p->x, ndigits);
vli_set(py, p->y, ndigits);
- xycz_add(px, py, result->x, result->y, curve->p, ndigits);
+ xycz_add(px, py, result->x, result->y, curve);
vli_mod_inv(z, z, curve->p, ndigits);
- apply_z(result->x, result->y, z, curve->p, ndigits);
+ apply_z(result->x, result->y, z, curve);
}
/* Computes R = u1P + u2Q mod p using Shamir's trick.
@@ -1251,8 +1370,7 @@ void ecc_point_mult_shamir(const struct ecc_point *result,
points[2] = q;
points[3] = &sum;
- num_bits = max(vli_num_bits(u1, ndigits),
- vli_num_bits(u2, ndigits));
+ num_bits = max(vli_num_bits(u1, ndigits), vli_num_bits(u2, ndigits));
i = num_bits - 1;
idx = (!!vli_test_bit(u1, i)) | ((!!vli_test_bit(u2, i)) << 1);
point = points[idx];
@@ -1263,7 +1381,7 @@ void ecc_point_mult_shamir(const struct ecc_point *result,
z[0] = 1;
for (--i; i >= 0; i--) {
- ecc_point_double_jacobian(rx, ry, z, curve->p, ndigits);
+ ecc_point_double_jacobian(rx, ry, z, curve);
idx = (!!vli_test_bit(u1, i)) | ((!!vli_test_bit(u2, i)) << 1);
point = points[idx];
if (point) {
@@ -1273,14 +1391,14 @@ void ecc_point_mult_shamir(const struct ecc_point *result,
vli_set(tx, point->x, ndigits);
vli_set(ty, point->y, ndigits);
- apply_z(tx, ty, z, curve->p, ndigits);
+ apply_z(tx, ty, z, curve);
vli_mod_sub(tz, rx, tx, curve->p, ndigits);
- xycz_add(tx, ty, rx, ry, curve->p, ndigits);
- vli_mod_mult_fast(z, z, tz, curve->p, ndigits);
+ xycz_add(tx, ty, rx, ry, curve);
+ vli_mod_mult_fast(z, z, tz, curve);
}
}
vli_mod_inv(z, z, curve->p, ndigits);
- apply_z(rx, ry, z, curve->p, ndigits);
+ apply_z(rx, ry, z, curve);
}
EXPORT_SYMBOL(ecc_point_mult_shamir);
@@ -1434,10 +1552,10 @@ int ecc_is_pubkey_valid_partial(const struct ecc_curve *curve,
return -EINVAL;
/* Check 3: Verify that y^2 == (x^3 + a·x + b) mod p */
- vli_mod_square_fast(yy, pk->y, curve->p, pk->ndigits); /* y^2 */
- vli_mod_square_fast(xxx, pk->x, curve->p, pk->ndigits); /* x^2 */
- vli_mod_mult_fast(xxx, xxx, pk->x, curve->p, pk->ndigits); /* x^3 */
- vli_mod_mult_fast(w, curve->a, pk->x, curve->p, pk->ndigits); /* a·x */
+ vli_mod_square_fast(yy, pk->y, curve); /* y^2 */
+ vli_mod_square_fast(xxx, pk->x, curve); /* x^2 */
+ vli_mod_mult_fast(xxx, xxx, pk->x, curve); /* x^3 */
+ vli_mod_mult_fast(w, curve->a, pk->x, curve); /* a·x */
vli_mod_add(w, w, curve->b, curve->p, pk->ndigits); /* a·x + b */
vli_mod_add(w, w, xxx, curve->p, pk->ndigits); /* x^3 + a·x + b */
if (vli_cmp(yy, w, pk->ndigits) != 0) /* Equation */
diff --git a/crypto/ecc.h b/crypto/ecc.h
index e0e2aed0557a..3bee655d437d 100644
--- a/crypto/ecc.h
+++ b/crypto/ecc.h
@@ -29,7 +29,8 @@
/* One digit is u64 qword. */
#define ECC_CURVE_NIST_P192_DIGITS 3
#define ECC_CURVE_NIST_P256_DIGITS 4
-#define ECC_MAX_DIGITS (512 / 64)
+#define ECC_CURVE_NIST_P384_DIGITS 6
+#define ECC_MAX_DIGITS (512 / 64) /* due to ecrdsa */
#define ECC_DIGITS_TO_BYTES_SHIFT 3