tls: stop passing temporary buffer address in P256 code
function old new delta sp_256_proj_point_dbl_10 435 453 +18 sp_256_ecc_mulmod_10 1300 1237 -63 ------------------------------------------------------------------------------ (add/remove: 0/0 grow/shrink: 1/1 up/down: 18/-63) Total: -45 bytes Signed-off-by: Denys Vlasenko <vda.linux@googlemail.com>
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@ -553,16 +553,15 @@ static void sp_256_mont_sqr_10(sp_digit* r, const sp_digit* a, const sp_digit* m
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*
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* r Inverse result.
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* a Number to invert.
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* td Temporary data.
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*/
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/* Mod-2 for the P256 curve. */
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static const uint32_t p256_mod_2[8] = {
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0xfffffffd,0xffffffff,0xffffffff,0x00000000,
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0x00000000,0x00000000,0x00000001,0xffffffff,
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};
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static void sp_256_mont_inv_10(sp_digit* r, sp_digit* a, sp_digit* td)
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static void sp_256_mont_inv_10(sp_digit* r, sp_digit* a)
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{
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sp_digit* t = td;
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sp_digit t[2*10]; //can be just [10]?
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int i;
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memcpy(t, a, sizeof(sp_digit) * 10);
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@ -578,15 +577,14 @@ static void sp_256_mont_inv_10(sp_digit* r, sp_digit* a, sp_digit* td)
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*
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* r Resulting affine co-ordinate point.
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* p Montgomery form projective co-ordinate point.
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* t Temporary ordinate data.
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*/
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static void sp_256_map_10(sp_point* r, sp_point* p, sp_digit* t)
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static void sp_256_map_10(sp_point* r, sp_point* p)
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{
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sp_digit* t1 = t;
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sp_digit* t2 = t + 2*10;
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sp_digit t1[2*10];
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sp_digit t2[2*10];
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int32_t n;
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sp_256_mont_inv_10(t1, p->z, t + 2*10);
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sp_256_mont_inv_10(t1, p->z);
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sp_256_mont_sqr_10(t2, t1, p256_mod, p256_mp_mod);
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sp_256_mont_mul_10(t1, t2, t1, p256_mod, p256_mp_mod);
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@ -617,13 +615,12 @@ static void sp_256_map_10(sp_point* r, sp_point* p, sp_digit* t)
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*
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* r Result of doubling point.
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* p Point to double.
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* t Temporary ordinate data.
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*/
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static void sp_256_proj_point_dbl_10(sp_point* r, sp_point* p, sp_digit* t)
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static void sp_256_proj_point_dbl_10(sp_point* r, sp_point* p)
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{
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sp_point tp;
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sp_digit* t1 = t;
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sp_digit* t2 = t + 2*10;
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sp_digit t1[2*10];
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sp_digit t2[2*10];
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/* Put point to double into result */
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if (r != p)
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@ -676,16 +673,14 @@ static void sp_256_proj_point_dbl_10(sp_point* r, sp_point* p, sp_digit* t)
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* r Result of addition.
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* p Frist point to add.
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* q Second point to add.
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* t Temporary ordinate data.
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*/
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static void sp_256_proj_point_add_10(sp_point* r, sp_point* p, sp_point* q,
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sp_digit* t)
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static void sp_256_proj_point_add_10(sp_point* r, sp_point* p, sp_point* q)
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{
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sp_digit* t1 = t;
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sp_digit* t2 = t + 2*10;
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sp_digit* t3 = t + 4*10;
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sp_digit* t4 = t + 6*10;
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sp_digit* t5 = t + 8*10;
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sp_digit t1[2*10];
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sp_digit t2[2*10];
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sp_digit t3[2*10];
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sp_digit t4[2*10];
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sp_digit t5[2*10];
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/* Ensure only the first point is the same as the result. */
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if (q == r) {
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@ -701,7 +696,7 @@ static void sp_256_proj_point_add_10(sp_point* r, sp_point* p, sp_point* q,
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&& sp_256_cmp_equal_10(p->z, q->z)
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&& (sp_256_cmp_equal_10(p->y, q->y) || sp_256_cmp_equal_10(p->y, t1))
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) {
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sp_256_proj_point_dbl_10(r, p, t);
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sp_256_proj_point_dbl_10(r, p);
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}
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else {
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sp_point tp;
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@ -762,7 +757,6 @@ static void sp_256_ecc_mulmod_10(sp_point* r, const sp_point* g, const sp_digit*
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{
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enum { map = 1 }; /* we always convert result to affine coordinates */
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sp_point t[3];
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sp_digit tmp[2 * 10 * 5];
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sp_digit n;
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int i;
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int c, y;
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@ -791,20 +785,17 @@ static void sp_256_ecc_mulmod_10(sp_point* r, const sp_point* g, const sp_digit*
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y = (n >> 25) & 1;
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n <<= 1;
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//FIXME: what's "tmp" and why do we pass it down?
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//is it scratch space for "sensitive" data, to be memset(0) after we are done?
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sp_256_proj_point_add_10(&t[y^1], &t[0], &t[1], tmp);
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sp_256_proj_point_add_10(&t[y^1], &t[0], &t[1]);
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memcpy(&t[2], &t[y], sizeof(sp_point));
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sp_256_proj_point_dbl_10(&t[2], &t[2], tmp);
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sp_256_proj_point_dbl_10(&t[2], &t[2]);
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memcpy(&t[y], &t[2], sizeof(sp_point));
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}
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if (map)
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sp_256_map_10(r, &t[0], tmp);
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sp_256_map_10(r, &t[0]);
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else
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memcpy(r, &t[0], sizeof(sp_point));
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memset(tmp, 0, sizeof(tmp)); //paranoia
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memset(t, 0, sizeof(t)); //paranoia
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}
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