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-rw-r--r--networking/tls_sp_c32.c146
1 files changed, 125 insertions, 21 deletions
diff --git a/networking/tls_sp_c32.c b/networking/tls_sp_c32.c
index e1c4cdd..0773a2d 100644
--- a/networking/tls_sp_c32.c
+++ b/networking/tls_sp_c32.c
@@ -488,19 +488,118 @@ static void sp_256_mont_shift_8(sp_digit* r, const sp_digit* a)
}
/* Mul a by scalar b and add into r. (r += a * b) */
-static int sp_256_mul_add_8(sp_digit* r, const sp_digit* a, sp_digit b)
+static int sp_256_mul_add_8(sp_digit* r /*, const sp_digit* a, sp_digit b*/)
{
+// const sp_digit* a = p256_mod;
+//a[7..0] = ffffffff 00000001 00000000 00000000 00000000 ffffffff ffffffff ffffffff
+ sp_digit b = r[0];
uint64_t t = 0;
- int i;
- for (i = 0; i < 8; i++) {
- uint32_t t_hi;
- uint64_t m = ((uint64_t)b * a[i]) + r[i];
+// for (i = 0; i < 8; i++) {
+// uint32_t t_hi;
+// uint64_t m = ((uint64_t)b * a[i]) + r[i];
+// t += m;
+// t_hi = (t < m);
+// r[i] = (sp_digit)t;
+// t = (t >> 32) | ((uint64_t)t_hi << 32);
+// }
+// r[8] += (sp_digit)t;
+
+ // Unroll, then optimize the above loop:
+ //uint32_t t_hi;
+ uint64_t m;
+
+ //m = ((uint64_t)b * a[0]) + r[0];
+ // Since b is r[0] and a[0] is ffffffff, the above optimizes to:
+ // m = r[0] * ffffffff + r[0] = (r[0] * 100000000 - r[0]) + r[0] = r[0] << 32;
+ //t += m;
+ // t = (uint64_t)r[0] << 32;
+ //t_hi = (t < m);
+ // t_hi = 0;
+ //r[0] = (sp_digit)t;
+ r[0] = 0;
+ //t = (t >> 32) | ((uint64_t)t_hi << 32);
+ // t = b;
+
+ //m = ((uint64_t)b * a[1]) + r[1];
+ // Since a[1] is ffffffff, the above optimizes to:
+ // m = b * ffffffff + r[1] = (b * 100000000 - b) + r[1] = (b << 32) - b + r[1];
+ //t += m;
+ // t = b + (b << 32) - b + r[1] = (b << 32) + r[1];
+ //t_hi = (t < m);
+ // t_hi = 0;
+ //r[1] = (sp_digit)t;
+ // r[1] = r[1];
+ //t = (t >> 32) | ((uint64_t)t_hi << 32);
+ // t = b;
+
+ //m = ((uint64_t)b * a[2]) + r[2];
+ // Since a[2] is ffffffff, the above optimizes to:
+ // m = b * ffffffff + r[2] = (b * 100000000 - b) + r[2] = (b << 32) - b + r[2];
+ //t += m;
+ // t = b + (b << 32) - b + r[2] = (b << 32) + r[2]
+ //t_hi = (t < m);
+ // t_hi = 0;
+ //r[2] = (sp_digit)t;
+ // r[2] = r[2];
+ //t = (t >> 32) | ((uint64_t)t_hi << 32);
+ // t = b;
+
+ //m = ((uint64_t)b * a[3]) + r[3];
+ // Since a[3] is 00000000, the above optimizes to:
+ // m = b * 0 + r[3] = r[3];
+ //t += m;
+ // t += r[3];
+ //t_hi = (t < m);
+ // t_hi = 0;
+ //r[3] = (sp_digit)t;
+ r[3] = r[3] + b;
+ //t = (t >> 32) | ((uint64_t)t_hi << 32);
+ t = (r[3] < b);
+
+ //m = ((uint64_t)b * a[4]) + r[4];
+ // Since a[4] is 00000000, the above optimizes to:
+ // m = b * 0 + r[4] = r[4];
+ //t += m;
+ t += r[4];
+ //t_hi = (t < m);
+ // t_hi = 0;
+ r[4] = (sp_digit)t;
+ //t = (t >> 32) | ((uint64_t)t_hi << 32);
+ t = (t >> 32);
+
+ //m = ((uint64_t)b * a[5]) + r[5];
+ // Since a[5] is 00000000, the above optimizes to:
+ // m = b * 0 + r[5] = r[5];
+ //t += m;
+ t += r[5];
+ //t_hi = (t < m);
+ // t_hi = 0;
+ r[5] = (sp_digit)t;
+ //t = (t >> 32) | ((uint64_t)t_hi << 32);
+ t = (t >> 32);
+
+ //m = ((uint64_t)b * a[6]) + r[6];
+ // Since a[6] is 00000001, the above optimizes to:
+ m = (uint64_t)b + r[6]; // 33 bits at most
t += m;
- t_hi = (t < m);
- r[i] = (sp_digit)t;
- t = (t >> 32) | ((uint64_t)t_hi << 32);
- }
+ //t_hi = (t < m);
+ // t_hi = 0; //32bit_value + 33bit_value can't overflow 64 bits
+ r[6] = (sp_digit)t;
+ //t = (t >> 32) | ((uint64_t)t_hi << 32);
+ t = (t >> 32);
+
+ //m = ((uint64_t)b * a[7]) + r[7];
+ // Since a[7] is ffffffff, the above optimizes to:
+ // m = b * ffffffff + r[7] = (b * 100000000 - b) + r[7]
+ m = ((uint64_t)b << 32) - b + r[7];
+ t += m;
+ //t_hi = (t < m);
+ // t_hi in fact is always 0 here
+ r[7] = (sp_digit)t;
+ //t = (t >> 32) | ((uint64_t)t_hi << 32);
+ t = (t >> 32);
+
r[8] += (sp_digit)t;
return (r[8] < (sp_digit)t); /* 1 if addition overflowed */
}
@@ -517,28 +616,33 @@ static void sp_256_mont_reduce_8(sp_digit* a/*, const sp_digit* m, sp_digit mp*/
sp_digit mp = p256_mp_mod;
int i;
- sp_digit mu;
+// sp_digit mu;
if (mp != 1) {
- int too_wide;
- for (i = 0; i < 7; i++) {
- mu = (sp_digit)(a[i] * mp);
- if (sp_256_mul_add_8(a+i, m, mu))
- (a+i)[9]++;
+ sp_digit word16th = 0;
+ for (i = 0; i < 8; i++) {
+// mu = (sp_digit)(a[i] * mp);
+ if (sp_256_mul_add_8(a+i /*, m, mu*/)) {
+ int j = i + 8;
+ inc_next_word0:
+ if (++j > 15) { /* a[16] array has no more words? */
+ word16th++;
+ continue;
+ }
+ if (++a[j] == 0) /* did this overflow too? */
+ goto inc_next_word0;
+ }
}
- mu = (sp_digit)(a[7] * mp);
- too_wide = sp_256_mul_add_8(a+7, m, mu);
sp_256_mont_shift_8(a, a);
- if (too_wide)
+ if (word16th != 0)
sp_256_sub_8(a, a, m);
sp_256_norm_8(a);
}
else { /* Same code for explicit mp == 1 (which is always the case for P256) */
sp_digit word16th = 0;
for (i = 0; i < 8; i++) {
- mu = a[i];
-//m = ffffffff 00000001 00000000 00000000 00000000 ffffffff ffffffff ffffffff
- if (sp_256_mul_add_8(a+i, m, mu)) {
+// mu = a[i];
+ if (sp_256_mul_add_8(a+i /*, m, mu*/)) {
int j = i + 8;
inc_next_word:
if (++j > 15) { /* a[16] array has no more words? */