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Add secp256k1_scalar_mul_shift_var
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@ -54,8 +54,8 @@ static void secp256k1_num_div(secp256k1_num_t *r, const secp256k1_num_t *a, cons
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even if r was negative. */
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static void secp256k1_num_mod(secp256k1_num_t *r, const secp256k1_num_t *m);
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/** Right-shift the passed number by bits bits, and return those bits. */
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static int secp256k1_num_shift(secp256k1_num_t *r, int bits);
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/** Right-shift the passed number by bits bits. */
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static void secp256k1_num_shift(secp256k1_num_t *r, int bits);
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/** Check whether a number is zero. */
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static int secp256k1_num_is_zero(const secp256k1_num_t *a);
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@ -225,12 +225,23 @@ static void secp256k1_num_div(secp256k1_num_t *r, const secp256k1_num_t *a, cons
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r->neg = a->neg ^ b->neg;
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}
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static int secp256k1_num_shift(secp256k1_num_t *r, int bits) {
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VERIFY_CHECK(bits <= GMP_NUMB_BITS);
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mp_limb_t ret = mpn_rshift(r->data, r->data, r->limbs, bits);
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if (r->limbs>1 && r->data[r->limbs-1]==0) r->limbs--;
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ret >>= (GMP_NUMB_BITS - bits);
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return ret;
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static void secp256k1_num_shift(secp256k1_num_t *r, int bits) {
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if (bits % GMP_NUMB_BITS) {
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// Shift within limbs.
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mpn_rshift(r->data, r->data, r->limbs, bits % GMP_NUMB_BITS);
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}
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if (bits >= GMP_NUMB_BITS) {
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// Shift full limbs.
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for (int i = 0; i < r->limbs; i++) {
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int index = i + (bits / GMP_NUMB_BITS);
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if (index < r->limbs && index < 2*NUM_LIMBS) {
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r->data[i] = r->data[index];
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} else {
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r->data[i] = 0;
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}
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}
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}
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while (r->limbs>1 && r->data[r->limbs-1]==0) r->limbs--;
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}
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static void secp256k1_num_negate(secp256k1_num_t *r) {
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@ -90,4 +90,7 @@ static void secp256k1_scalar_split_128(secp256k1_scalar_t *r1, secp256k1_scalar_
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static void secp256k1_scalar_split_lambda_var(secp256k1_scalar_t *r1, secp256k1_scalar_t *r2, const secp256k1_scalar_t *a);
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#endif
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/** Multiply a and b (without taking the modulus!), divide by 2**shift, and round to the nearest integer. Shift must be at least 256. */
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static void secp256k1_scalar_mul_shift_var(secp256k1_scalar_t *r, const secp256k1_scalar_t *a, const secp256k1_scalar_t *b, unsigned int shift);
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#endif
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@ -314,13 +314,11 @@ static void secp256k1_scalar_reduce_512(secp256k1_scalar_t *r, const uint64_t *l
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secp256k1_scalar_reduce(r, c + secp256k1_scalar_check_overflow(r));
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}
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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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static void secp256k1_scalar_mul_512(uint64_t l[8], const secp256k1_scalar_t *a, const secp256k1_scalar_t *b) {
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/* 160 bit accumulator. */
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uint64_t c0 = 0, c1 = 0;
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uint32_t c2 = 0;
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uint64_t l[8];
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/* l[0..7] = a[0..3] * b[0..3]. */
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muladd_fast(a->d[0], b->d[0]);
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extract_fast(l[0]);
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@ -347,17 +345,13 @@ static void secp256k1_scalar_mul(secp256k1_scalar_t *r, const secp256k1_scalar_t
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extract_fast(l[6]);
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VERIFY_CHECK(c1 <= 0);
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l[7] = c0;
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secp256k1_scalar_reduce_512(r, l);
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}
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static void secp256k1_scalar_sqr(secp256k1_scalar_t *r, const secp256k1_scalar_t *a) {
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static void secp256k1_scalar_sqr_512(uint64_t l[8], const secp256k1_scalar_t *a) {
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/* 160 bit accumulator. */
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uint64_t c0 = 0, c1 = 0;
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uint32_t c2 = 0;
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uint64_t l[8];
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/* l[0..7] = a[0..3] * b[0..3]. */
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muladd_fast(a->d[0], a->d[0]);
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extract_fast(l[0]);
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@ -378,8 +372,6 @@ static void secp256k1_scalar_sqr(secp256k1_scalar_t *r, const secp256k1_scalar_t
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extract_fast(l[6]);
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VERIFY_CHECK(c1 == 0);
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l[7] = c0;
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secp256k1_scalar_reduce_512(r, l);
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}
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#undef sumadd
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@ -390,6 +382,18 @@ static void secp256k1_scalar_sqr(secp256k1_scalar_t *r, const secp256k1_scalar_t
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#undef extract
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#undef extract_fast
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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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uint64_t l[8];
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secp256k1_scalar_mul_512(l, a, b);
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secp256k1_scalar_reduce_512(r, l);
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}
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static void secp256k1_scalar_sqr(secp256k1_scalar_t *r, const secp256k1_scalar_t *a) {
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uint64_t l[8];
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secp256k1_scalar_sqr_512(l, a);
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secp256k1_scalar_reduce_512(r, l);
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}
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static void secp256k1_scalar_split_128(secp256k1_scalar_t *r1, secp256k1_scalar_t *r2, const secp256k1_scalar_t *a) {
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r1->d[0] = a->d[0];
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r1->d[1] = a->d[1];
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@ -405,4 +409,20 @@ SECP256K1_INLINE static int secp256k1_scalar_eq(const secp256k1_scalar_t *a, con
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return ((a->d[0] ^ b->d[0]) | (a->d[1] ^ b->d[1]) | (a->d[2] ^ b->d[2]) | (a->d[3] ^ b->d[3])) == 0;
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}
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SECP256K1_INLINE static void secp256k1_scalar_mul_shift_var(secp256k1_scalar_t *r, const secp256k1_scalar_t *a, const secp256k1_scalar_t *b, unsigned int shift) {
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VERIFY_CHECK(shift >= 256);
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uint64_t l[8];
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secp256k1_scalar_mul_512(l, a, b);
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unsigned int shiftlimbs = shift >> 6;
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unsigned int shiftlow = shift & 0x3F;
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unsigned int shifthigh = 64 - shiftlow;
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r->d[0] = shift < 512 ? (l[0 + shiftlimbs] >> shiftlow | (shift < 448 && shiftlow ? (l[1 + shiftlimbs] << shifthigh) : 0)) : 0;
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r->d[1] = shift < 448 ? (l[1 + shiftlimbs] >> shiftlow | (shift < 384 && shiftlow ? (l[2 + shiftlimbs] << shifthigh) : 0)) : 0;
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r->d[2] = shift < 384 ? (l[2 + shiftlimbs] >> shiftlow | (shift < 320 && shiftlow ? (l[3 + shiftlimbs] << shifthigh) : 0)) : 0;
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r->d[3] = shift < 320 ? (l[3 + shiftlimbs] >> shiftlow) : 0;
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if ((l[(shift - 1) >> 6] >> ((shift - 1) & 0x3f)) & 1) {
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secp256k1_scalar_add_bit(r, 0);
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}
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}
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#endif
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@ -451,12 +451,10 @@ static void secp256k1_scalar_reduce_512(secp256k1_scalar_t *r, const uint32_t *l
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secp256k1_scalar_reduce(r, c + secp256k1_scalar_check_overflow(r));
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}
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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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static void secp256k1_scalar_mul_512(uint32_t l[16], const secp256k1_scalar_t *a, const secp256k1_scalar_t *b) {
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/* 96 bit accumulator. */
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uint32_t c0 = 0, c1 = 0, c2 = 0;
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uint32_t l[16];
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/* l[0..15] = a[0..7] * b[0..7]. */
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muladd_fast(a->d[0], b->d[0]);
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extract_fast(l[0]);
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@ -539,16 +537,12 @@ static void secp256k1_scalar_mul(secp256k1_scalar_t *r, const secp256k1_scalar_t
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extract_fast(l[14]);
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VERIFY_CHECK(c1 == 0);
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l[15] = c0;
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secp256k1_scalar_reduce_512(r, l);
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}
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static void secp256k1_scalar_sqr(secp256k1_scalar_t *r, const secp256k1_scalar_t *a) {
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static void secp256k1_scalar_sqr_512(uint32_t l[16], const secp256k1_scalar_t *a) {
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/* 96 bit accumulator. */
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uint32_t c0 = 0, c1 = 0, c2 = 0;
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uint32_t l[16];
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/* l[0..15] = a[0..7]^2. */
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muladd_fast(a->d[0], a->d[0]);
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extract_fast(l[0]);
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@ -603,8 +597,6 @@ static void secp256k1_scalar_sqr(secp256k1_scalar_t *r, const secp256k1_scalar_t
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extract_fast(l[14]);
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VERIFY_CHECK(c1 == 0);
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l[15] = c0;
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secp256k1_scalar_reduce_512(r, l);
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}
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#undef sumadd
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@ -615,6 +607,18 @@ static void secp256k1_scalar_sqr(secp256k1_scalar_t *r, const secp256k1_scalar_t
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#undef extract
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#undef extract_fast
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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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uint32_t l[16];
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secp256k1_scalar_mul_512(l, a, b);
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secp256k1_scalar_reduce_512(r, l);
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}
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static void secp256k1_scalar_sqr(secp256k1_scalar_t *r, const secp256k1_scalar_t *a) {
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uint32_t l[16];
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secp256k1_scalar_sqr_512(l, a);
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secp256k1_scalar_reduce_512(r, l);
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}
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static void secp256k1_scalar_split_128(secp256k1_scalar_t *r1, secp256k1_scalar_t *r2, const secp256k1_scalar_t *a) {
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r1->d[0] = a->d[0];
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r1->d[1] = a->d[1];
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@ -638,4 +642,24 @@ SECP256K1_INLINE static int secp256k1_scalar_eq(const secp256k1_scalar_t *a, con
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return ((a->d[0] ^ b->d[0]) | (a->d[1] ^ b->d[1]) | (a->d[2] ^ b->d[2]) | (a->d[3] ^ b->d[3]) | (a->d[4] ^ b->d[4]) | (a->d[5] ^ b->d[5]) | (a->d[6] ^ b->d[6]) | (a->d[7] ^ b->d[7])) == 0;
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}
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SECP256K1_INLINE static void secp256k1_scalar_mul_shift_var(secp256k1_scalar_t *r, const secp256k1_scalar_t *a, const secp256k1_scalar_t *b, unsigned int shift) {
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VERIFY_CHECK(shift >= 256);
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uint32_t l[16];
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secp256k1_scalar_mul_512(l, a, b);
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unsigned int shiftlimbs = shift >> 5;
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unsigned int shiftlow = shift & 0x1F;
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unsigned int shifthigh = 32 - shiftlow;
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r->d[0] = shift < 512 ? (l[0 + shiftlimbs] >> shiftlow | (shift < 480 && shiftlow ? (l[1 + shiftlimbs] << shifthigh) : 0)) : 0;
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r->d[1] = shift < 480 ? (l[1 + shiftlimbs] >> shiftlow | (shift < 448 && shiftlow ? (l[2 + shiftlimbs] << shifthigh) : 0)) : 0;
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r->d[2] = shift < 448 ? (l[2 + shiftlimbs] >> shiftlow | (shift < 416 && shiftlow ? (l[3 + shiftlimbs] << shifthigh) : 0)) : 0;
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r->d[3] = shift < 416 ? (l[3 + shiftlimbs] >> shiftlow | (shift < 384 && shiftlow ? (l[4 + shiftlimbs] << shifthigh) : 0)) : 0;
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r->d[4] = shift < 384 ? (l[4 + shiftlimbs] >> shiftlow | (shift < 352 && shiftlow ? (l[5 + shiftlimbs] << shifthigh) : 0)) : 0;
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r->d[5] = shift < 352 ? (l[5 + shiftlimbs] >> shiftlow | (shift < 320 && shiftlow ? (l[6 + shiftlimbs] << shifthigh) : 0)) : 0;
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r->d[6] = shift < 320 ? (l[6 + shiftlimbs] >> shiftlow | (shift < 288 && shiftlow ? (l[7 + shiftlimbs] << shifthigh) : 0)) : 0;
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r->d[7] = shift < 288 ? (l[7 + shiftlimbs] >> shiftlow) : 0;
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if ((l[(shift - 1) >> 5] >> ((shift - 1) & 0x1f)) & 1) {
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secp256k1_scalar_add_bit(r, 0);
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}
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}
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#endif
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40
src/tests.c
40
src/tests.c
@ -109,26 +109,6 @@ void random_num_order(secp256k1_num_t *num) {
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secp256k1_scalar_get_num(num, &sc);
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}
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void test_num_get_set_bin(void) {
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secp256k1_num_t n1,n2;
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random_num_order_test(&n1);
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unsigned char c[32];
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secp256k1_num_get_bin(c, 32, &n1);
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secp256k1_num_set_bin(&n2, c, 32);
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CHECK(secp256k1_num_eq(&n1, &n2));
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for (int i=0; i<32; i++) {
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/* check whether the lower 8 bits correspond to the last byte */
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int low1 = secp256k1_num_shift(&n1, 8);
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int low2 = c[31];
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CHECK(low1 == low2);
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/* shift bits off the byte representation, and compare */
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memmove(c+1, c, 31);
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c[0] = 0;
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secp256k1_num_set_bin(&n2, c, 32);
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CHECK(secp256k1_num_eq(&n1, &n2));
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}
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}
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void test_num_negate(void) {
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secp256k1_num_t n1;
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secp256k1_num_t n2;
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@ -180,7 +160,6 @@ void test_num_add_sub(void) {
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void run_num_smalltests(void) {
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for (int i=0; i<100*count; i++) {
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test_num_get_set_bin();
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test_num_negate();
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test_num_add_sub();
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}
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@ -308,6 +287,24 @@ void scalar_test(void) {
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/* Negating zero should still result in zero. */
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CHECK(secp256k1_scalar_is_zero(&neg));
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}
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{
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/* Test secp256k1_scalar_mul_shift_var. */
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secp256k1_scalar_t r;
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unsigned int shift = 256 + (secp256k1_rand32() % 257);
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secp256k1_scalar_mul_shift_var(&r, &s1, &s2, shift);
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secp256k1_num_t rnum;
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secp256k1_num_mul(&rnum, &s1num, &s2num);
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secp256k1_num_shift(&rnum, shift - 1);
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secp256k1_num_t one;
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unsigned char cone[1] = {0x01};
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secp256k1_num_set_bin(&one, cone, 1);
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secp256k1_num_add(&rnum, &rnum, &one);
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secp256k1_num_shift(&rnum, 1);
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secp256k1_num_t rnum2;
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secp256k1_scalar_get_num(&rnum2, &r);
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CHECK(secp256k1_num_eq(&rnum, &rnum2));
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}
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#endif
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{
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@ -403,6 +400,7 @@ void scalar_test(void) {
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secp256k1_scalar_mul(&r2, &s1, &s1);
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CHECK(secp256k1_scalar_eq(&r1, &r2));
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}
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}
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void run_scalar_tests(void) {
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