Add secp256k1_scalar_add_bit
This commit is contained in:
Pieter Wuille
parent
3c0ae43d66
commit
5213207856
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@ -36,6 +36,9 @@ static void secp256k1_scalar_get_b32(unsigned char *bin, const secp256k1_scalar_
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/** Add two scalars together (modulo the group order). */
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static void secp256k1_scalar_add(secp256k1_scalar_t *r, const secp256k1_scalar_t *a, const secp256k1_scalar_t *b);
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/** Add a power of two to a scalar. The result is not allowed to overflow. */
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static void secp256k1_scalar_add_bit(secp256k1_scalar_t *r, unsigned int bit);
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/** Multiply two scalars (modulo the group order). */
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static void secp256k1_scalar_mul(secp256k1_scalar_t *r, const secp256k1_scalar_t *a, const secp256k1_scalar_t *b);
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@ -75,6 +75,22 @@ static void secp256k1_scalar_add(secp256k1_scalar_t *r, const secp256k1_scalar_t
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secp256k1_scalar_reduce(r, t + secp256k1_scalar_check_overflow(r));
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}
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static void secp256k1_scalar_add_bit(secp256k1_scalar_t *r, unsigned int bit) {
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VERIFY_CHECK(bit < 256);
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uint128_t t = (uint128_t)r->d[0] + (((uint64_t)((bit >> 6) == 0)) << bit);
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r->d[0] = t & 0xFFFFFFFFFFFFFFFFULL; t >>= 64;
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t += (uint128_t)r->d[1] + (((uint64_t)((bit >> 6) == 1)) << (bit & 0x3F));
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r->d[1] = t & 0xFFFFFFFFFFFFFFFFULL; t >>= 64;
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t += (uint128_t)r->d[2] + (((uint64_t)((bit >> 6) == 2)) << (bit & 0x3F));
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r->d[2] = t & 0xFFFFFFFFFFFFFFFFULL; t >>= 64;
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t += (uint128_t)r->d[3] + (((uint64_t)((bit >> 6) == 3)) << (bit & 0x3F));
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r->d[3] = t & 0xFFFFFFFFFFFFFFFFULL;
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#ifdef VERIFY
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VERIFY_CHECK((t >> 64) == 0);
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VERIFY_CHECK(secp256k1_scalar_check_overflow(r) == 0);
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#endif
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}
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static void secp256k1_scalar_set_b32(secp256k1_scalar_t *r, const unsigned char *b32, int *overflow) {
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r->d[0] = (uint64_t)b32[31] | (uint64_t)b32[30] << 8 | (uint64_t)b32[29] << 16 | (uint64_t)b32[28] << 24 | (uint64_t)b32[27] << 32 | (uint64_t)b32[26] << 40 | (uint64_t)b32[25] << 48 | (uint64_t)b32[24] << 56;
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r->d[1] = (uint64_t)b32[23] | (uint64_t)b32[22] << 8 | (uint64_t)b32[21] << 16 | (uint64_t)b32[20] << 24 | (uint64_t)b32[19] << 32 | (uint64_t)b32[18] << 40 | (uint64_t)b32[17] << 48 | (uint64_t)b32[16] << 56;
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@ -109,6 +109,30 @@ static void secp256k1_scalar_add(secp256k1_scalar_t *r, const secp256k1_scalar_t
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secp256k1_scalar_reduce(r, t + secp256k1_scalar_check_overflow(r));
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}
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static void secp256k1_scalar_add_bit(secp256k1_scalar_t *r, unsigned int bit) {
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VERIFY_CHECK(bit < 256);
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uint64_t t = (uint64_t)r->d[0] + (((uint32_t)((bit >> 5) == 0)) << bit);
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r->d[0] = t & 0xFFFFFFFFULL; t >>= 32;
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t += (uint64_t)r->d[1] + (((uint32_t)((bit >> 5) == 1)) << (bit & 0x1F));
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r->d[1] = t & 0xFFFFFFFFULL; t >>= 32;
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t += (uint64_t)r->d[2] + (((uint32_t)((bit >> 5) == 2)) << (bit & 0x1F));
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r->d[2] = t & 0xFFFFFFFFULL; t >>= 32;
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t += (uint64_t)r->d[3] + (((uint32_t)((bit >> 5) == 3)) << (bit & 0x1F));
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r->d[3] = t & 0xFFFFFFFFULL; t >>= 32;
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t += (uint64_t)r->d[4] + (((uint32_t)((bit >> 5) == 4)) << (bit & 0x1F));
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r->d[4] = t & 0xFFFFFFFFULL; t >>= 32;
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t += (uint64_t)r->d[5] + (((uint32_t)((bit >> 5) == 5)) << (bit & 0x1F));
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r->d[5] = t & 0xFFFFFFFFULL; t >>= 32;
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t += (uint64_t)r->d[6] + (((uint32_t)((bit >> 5) == 6)) << (bit & 0x1F));
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r->d[6] = t & 0xFFFFFFFFULL; t >>= 32;
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t += (uint64_t)r->d[7] + (((uint32_t)((bit >> 5) == 7)) << (bit & 0x1F));
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r->d[7] = t & 0xFFFFFFFFULL;
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#ifdef VERIFY
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VERIFY_CHECK((t >> 32) == 0);
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VERIFY_CHECK(secp256k1_scalar_check_overflow(r) == 0);
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#endif
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}
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static void secp256k1_scalar_set_b32(secp256k1_scalar_t *r, const unsigned char *b32, int *overflow) {
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r->d[0] = (uint32_t)b32[31] | (uint32_t)b32[30] << 8 | (uint32_t)b32[29] << 16 | (uint32_t)b32[28] << 24;
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r->d[1] = (uint32_t)b32[27] | (uint32_t)b32[26] << 8 | (uint32_t)b32[25] << 16 | (uint32_t)b32[24] << 24;
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19
src/tests.c
19
src/tests.c
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@ -382,6 +382,25 @@ void scalar_test(void) {
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CHECK(secp256k1_scalar_eq(&r1, &r2));
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}
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{
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/* Test add_bit. */
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int bit = secp256k1_rand32() % 256;
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secp256k1_scalar_t b;
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secp256k1_scalar_clear(&b);
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secp256k1_scalar_add_bit(&b, 0);
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CHECK(secp256k1_scalar_is_one(&b));
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for (int i = 0; i < bit; i++) {
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secp256k1_scalar_add(&b, &b, &b);
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}
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secp256k1_scalar_t r1 = s1, r2 = s1;
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secp256k1_scalar_add(&r1, &r1, &b);
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if (!(secp256k1_scalar_get_bits(&s1, 255, 1) == 1 && secp256k1_scalar_get_bits(&r1, 255, 1) == 0)) {
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/* No overflow happened. */
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secp256k1_scalar_add_bit(&r2, bit);
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CHECK(secp256k1_scalar_eq(&r1, &r2));
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}
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}
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{
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/* Test commutativity of mul. */
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secp256k1_scalar_t r1, r2;
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