#include "ntt.h" #include "params.h" #include "poly.h" #include "reduce.h" #include "rounding.h" #include "symmetric.h" #include #define DBENCH_START() #define DBENCH_STOP(t) /************************************************* * Name: PQCLEAN_MLDSA87_CLEAN_poly_reduce * * Description: Inplace reduction of all coefficients of polynomial to * representative in [-6283008,6283008]. * * Arguments: - poly *a: pointer to input/output polynomial **************************************************/ void PQCLEAN_MLDSA87_CLEAN_poly_reduce(poly *a) { unsigned int i; DBENCH_START(); for (i = 0; i < N; ++i) { a->coeffs[i] = PQCLEAN_MLDSA87_CLEAN_reduce32(a->coeffs[i]); } DBENCH_STOP(*tred); } /************************************************* * Name: PQCLEAN_MLDSA87_CLEAN_poly_caddq * * Description: For all coefficients of in/out polynomial add Q if * coefficient is negative. * * Arguments: - poly *a: pointer to input/output polynomial **************************************************/ void PQCLEAN_MLDSA87_CLEAN_poly_caddq(poly *a) { unsigned int i; DBENCH_START(); for (i = 0; i < N; ++i) { a->coeffs[i] = PQCLEAN_MLDSA87_CLEAN_caddq(a->coeffs[i]); } DBENCH_STOP(*tred); } /************************************************* * Name: PQCLEAN_MLDSA87_CLEAN_poly_add * * Description: Add polynomials. No modular reduction is performed. * * Arguments: - poly *c: pointer to output polynomial * - const poly *a: pointer to first summand * - const poly *b: pointer to second summand **************************************************/ void PQCLEAN_MLDSA87_CLEAN_poly_add(poly *c, const poly *a, const poly *b) { unsigned int i; DBENCH_START(); for (i = 0; i < N; ++i) { c->coeffs[i] = a->coeffs[i] + b->coeffs[i]; } DBENCH_STOP(*tadd); } /************************************************* * Name: PQCLEAN_MLDSA87_CLEAN_poly_sub * * Description: Subtract polynomials. No modular reduction is * performed. * * Arguments: - poly *c: pointer to output polynomial * - const poly *a: pointer to first input polynomial * - const poly *b: pointer to second input polynomial to be * subtraced from first input polynomial **************************************************/ void PQCLEAN_MLDSA87_CLEAN_poly_sub(poly *c, const poly *a, const poly *b) { unsigned int i; DBENCH_START(); for (i = 0; i < N; ++i) { c->coeffs[i] = a->coeffs[i] - b->coeffs[i]; } DBENCH_STOP(*tadd); } /************************************************* * Name: PQCLEAN_MLDSA87_CLEAN_poly_shiftl * * Description: Multiply polynomial by 2^D without modular reduction. Assumes * input coefficients to be less than 2^{31-D} in absolute value. * * Arguments: - poly *a: pointer to input/output polynomial **************************************************/ void PQCLEAN_MLDSA87_CLEAN_poly_shiftl(poly *a) { unsigned int i; DBENCH_START(); for (i = 0; i < N; ++i) { a->coeffs[i] <<= D; } DBENCH_STOP(*tmul); } /************************************************* * Name: PQCLEAN_MLDSA87_CLEAN_poly_ntt * * Description: Inplace forward NTT. Coefficients can grow by * 8*Q in absolute value. * * Arguments: - poly *a: pointer to input/output polynomial **************************************************/ void PQCLEAN_MLDSA87_CLEAN_poly_ntt(poly *a) { DBENCH_START(); PQCLEAN_MLDSA87_CLEAN_ntt(a->coeffs); DBENCH_STOP(*tmul); } /************************************************* * Name: PQCLEAN_MLDSA87_CLEAN_poly_invntt_tomont * * Description: Inplace inverse NTT and multiplication by 2^{32}. * Input coefficients need to be less than Q in absolute * value and output coefficients are again bounded by Q. * * Arguments: - poly *a: pointer to input/output polynomial **************************************************/ void PQCLEAN_MLDSA87_CLEAN_poly_invntt_tomont(poly *a) { DBENCH_START(); PQCLEAN_MLDSA87_CLEAN_invntt_tomont(a->coeffs); DBENCH_STOP(*tmul); } /************************************************* * Name: PQCLEAN_MLDSA87_CLEAN_poly_pointwise_montgomery * * Description: Pointwise multiplication of polynomials in NTT domain * representation and multiplication of resulting polynomial * by 2^{-32}. * * Arguments: - poly *c: pointer to output polynomial * - const poly *a: pointer to first input polynomial * - const poly *b: pointer to second input polynomial **************************************************/ void PQCLEAN_MLDSA87_CLEAN_poly_pointwise_montgomery(poly *c, const poly *a, const poly *b) { unsigned int i; DBENCH_START(); for (i = 0; i < N; ++i) { c->coeffs[i] = PQCLEAN_MLDSA87_CLEAN_montgomery_reduce((int64_t)a->coeffs[i] * b->coeffs[i]); } DBENCH_STOP(*tmul); } /************************************************* * Name: PQCLEAN_MLDSA87_CLEAN_poly_power2round * * Description: For all coefficients c of the input polynomial, * compute c0, c1 such that c mod Q = c1*2^D + c0 * with -2^{D-1} < c0 <= 2^{D-1}. Assumes coefficients to be * standard representatives. * * Arguments: - poly *a1: pointer to output polynomial with coefficients c1 * - poly *a0: pointer to output polynomial with coefficients c0 * - const poly *a: pointer to input polynomial **************************************************/ void PQCLEAN_MLDSA87_CLEAN_poly_power2round(poly *a1, poly *a0, const poly *a) { unsigned int i; DBENCH_START(); for (i = 0; i < N; ++i) { a1->coeffs[i] = PQCLEAN_MLDSA87_CLEAN_power2round(&a0->coeffs[i], a->coeffs[i]); } DBENCH_STOP(*tround); } /************************************************* * Name: PQCLEAN_MLDSA87_CLEAN_poly_decompose * * Description: For all coefficients c of the input polynomial, * compute high and low bits c0, c1 such c mod Q = c1*ALPHA + c0 * with -ALPHA/2 < c0 <= ALPHA/2 except c1 = (Q-1)/ALPHA where we * set c1 = 0 and -ALPHA/2 <= c0 = c mod Q - Q < 0. * Assumes coefficients to be standard representatives. * * Arguments: - poly *a1: pointer to output polynomial with coefficients c1 * - poly *a0: pointer to output polynomial with coefficients c0 * - const poly *a: pointer to input polynomial **************************************************/ void PQCLEAN_MLDSA87_CLEAN_poly_decompose(poly *a1, poly *a0, const poly *a) { unsigned int i; DBENCH_START(); for (i = 0; i < N; ++i) { a1->coeffs[i] = PQCLEAN_MLDSA87_CLEAN_decompose(&a0->coeffs[i], a->coeffs[i]); } DBENCH_STOP(*tround); } /************************************************* * Name: PQCLEAN_MLDSA87_CLEAN_poly_make_hint * * Description: Compute hint polynomial. The coefficients of which indicate * whether the low bits of the corresponding coefficient of * the input polynomial overflow into the high bits. * * Arguments: - poly *h: pointer to output hint polynomial * - const poly *a0: pointer to low part of input polynomial * - const poly *a1: pointer to high part of input polynomial * * Returns number of 1 bits. **************************************************/ unsigned int PQCLEAN_MLDSA87_CLEAN_poly_make_hint(poly *h, const poly *a0, const poly *a1) { unsigned int i, s = 0; DBENCH_START(); for (i = 0; i < N; ++i) { h->coeffs[i] = PQCLEAN_MLDSA87_CLEAN_make_hint(a0->coeffs[i], a1->coeffs[i]); s += h->coeffs[i]; } DBENCH_STOP(*tround); return s; } /************************************************* * Name: PQCLEAN_MLDSA87_CLEAN_poly_use_hint * * Description: Use hint polynomial to correct the high bits of a polynomial. * * Arguments: - poly *b: pointer to output polynomial with corrected high bits * - const poly *a: pointer to input polynomial * - const poly *h: pointer to input hint polynomial **************************************************/ void PQCLEAN_MLDSA87_CLEAN_poly_use_hint(poly *b, const poly *a, const poly *h) { unsigned int i; DBENCH_START(); for (i = 0; i < N; ++i) { b->coeffs[i] = PQCLEAN_MLDSA87_CLEAN_use_hint(a->coeffs[i], h->coeffs[i]); } DBENCH_STOP(*tround); } /************************************************* * Name: PQCLEAN_MLDSA87_CLEAN_poly_chknorm * * Description: Check infinity norm of polynomial against given bound. * Assumes input coefficients were reduced by PQCLEAN_MLDSA87_CLEAN_reduce32(). * * Arguments: - const poly *a: pointer to polynomial * - int32_t B: norm bound * * Returns 0 if norm is strictly smaller than B <= (Q-1)/8 and 1 otherwise. **************************************************/ int PQCLEAN_MLDSA87_CLEAN_poly_chknorm(const poly *a, int32_t B) { unsigned int i; int32_t t; DBENCH_START(); if (B > (Q - 1) / 8) { return 1; } /* It is ok to leak which coefficient violates the bound since the probability for each coefficient is independent of secret data but we must not leak the sign of the centralized representative. */ for (i = 0; i < N; ++i) { /* Absolute value */ t = a->coeffs[i] >> 31; t = a->coeffs[i] - (t & 2 * a->coeffs[i]); if (t >= B) { DBENCH_STOP(*tsample); return 1; } } DBENCH_STOP(*tsample); return 0; } /************************************************* * Name: rej_uniform * * Description: Sample uniformly random coefficients in [0, Q-1] by * performing rejection sampling on array of random bytes. * * Arguments: - int32_t *a: pointer to output array (allocated) * - unsigned int len: number of coefficients to be sampled * - const uint8_t *buf: array of random bytes * - unsigned int buflen: length of array of random bytes * * Returns number of sampled coefficients. Can be smaller than len if not enough * random bytes were given. **************************************************/ static unsigned int rej_uniform(int32_t *a, unsigned int len, const uint8_t *buf, unsigned int buflen) { unsigned int ctr, pos; uint32_t t; DBENCH_START(); ctr = pos = 0; while (ctr < len && pos + 3 <= buflen) { t = buf[pos++]; t |= (uint32_t)buf[pos++] << 8; t |= (uint32_t)buf[pos++] << 16; t &= 0x7FFFFF; if (t < Q) { a[ctr++] = t; } } DBENCH_STOP(*tsample); return ctr; } /************************************************* * Name: PQCLEAN_MLDSA87_CLEAN_poly_uniform * * Description: Sample polynomial with uniformly random coefficients * in [0,Q-1] by performing rejection sampling on the * output stream of SHAKE128(seed|nonce) * * Arguments: - poly *a: pointer to output polynomial * - const uint8_t seed[]: byte array with seed of length SEEDBYTES * - uint16_t nonce: 2-byte nonce **************************************************/ #define POLY_UNIFORM_NBLOCKS ((768 + STREAM128_BLOCKBYTES - 1)/STREAM128_BLOCKBYTES) void PQCLEAN_MLDSA87_CLEAN_poly_uniform(poly *a, const uint8_t seed[SEEDBYTES], uint16_t nonce) { unsigned int i, ctr, off; unsigned int buflen = POLY_UNIFORM_NBLOCKS * STREAM128_BLOCKBYTES; uint8_t buf[POLY_UNIFORM_NBLOCKS * STREAM128_BLOCKBYTES + 2]; stream128_state state; stream128_init(&state, seed, nonce); stream128_squeezeblocks(buf, POLY_UNIFORM_NBLOCKS, &state); ctr = rej_uniform(a->coeffs, N, buf, buflen); while (ctr < N) { off = buflen % 3; for (i = 0; i < off; ++i) { buf[i] = buf[buflen - off + i]; } stream128_squeezeblocks(buf + off, 1, &state); buflen = STREAM128_BLOCKBYTES + off; ctr += rej_uniform(a->coeffs + ctr, N - ctr, buf, buflen); } stream128_release(&state); } /************************************************* * Name: rej_eta * * Description: Sample uniformly random coefficients in [-ETA, ETA] by * performing rejection sampling on array of random bytes. * * Arguments: - int32_t *a: pointer to output array (allocated) * - unsigned int len: number of coefficients to be sampled * - const uint8_t *buf: array of random bytes * - unsigned int buflen: length of array of random bytes * * Returns number of sampled coefficients. Can be smaller than len if not enough * random bytes were given. **************************************************/ static unsigned int rej_eta(int32_t *a, unsigned int len, const uint8_t *buf, unsigned int buflen) { unsigned int ctr, pos; uint32_t t0, t1; DBENCH_START(); ctr = pos = 0; while (ctr < len && pos < buflen) { t0 = buf[pos] & 0x0F; t1 = buf[pos++] >> 4; if (t0 < 15) { t0 = t0 - (205 * t0 >> 10) * 5; a[ctr++] = 2 - t0; } if (t1 < 15 && ctr < len) { t1 = t1 - (205 * t1 >> 10) * 5; a[ctr++] = 2 - t1; } } DBENCH_STOP(*tsample); return ctr; } /************************************************* * Name: PQCLEAN_MLDSA87_CLEAN_poly_uniform_eta * * Description: Sample polynomial with uniformly random coefficients * in [-ETA,ETA] by performing rejection sampling on the * output stream from SHAKE256(seed|nonce) * * Arguments: - poly *a: pointer to output polynomial * - const uint8_t seed[]: byte array with seed of length CRHBYTES * - uint16_t nonce: 2-byte nonce **************************************************/ #define POLY_UNIFORM_ETA_NBLOCKS ((136 + STREAM256_BLOCKBYTES - 1)/STREAM256_BLOCKBYTES) void PQCLEAN_MLDSA87_CLEAN_poly_uniform_eta(poly *a, const uint8_t seed[CRHBYTES], uint16_t nonce) { unsigned int ctr; unsigned int buflen = POLY_UNIFORM_ETA_NBLOCKS * STREAM256_BLOCKBYTES; uint8_t buf[POLY_UNIFORM_ETA_NBLOCKS * STREAM256_BLOCKBYTES]; stream256_state state; stream256_init(&state, seed, nonce); stream256_squeezeblocks(buf, POLY_UNIFORM_ETA_NBLOCKS, &state); ctr = rej_eta(a->coeffs, N, buf, buflen); while (ctr < N) { stream256_squeezeblocks(buf, 1, &state); ctr += rej_eta(a->coeffs + ctr, N - ctr, buf, STREAM256_BLOCKBYTES); } stream256_release(&state); } /************************************************* * Name: poly_uniform_gamma1m1 * * Description: Sample polynomial with uniformly random coefficients * in [-(GAMMA1 - 1), GAMMA1] by unpacking output stream * of SHAKE256(seed|nonce) * * Arguments: - poly *a: pointer to output polynomial * - const uint8_t seed[]: byte array with seed of length CRHBYTES * - uint16_t nonce: 16-bit nonce **************************************************/ #define POLY_UNIFORM_GAMMA1_NBLOCKS ((POLYZ_PACKEDBYTES + STREAM256_BLOCKBYTES - 1)/STREAM256_BLOCKBYTES) void PQCLEAN_MLDSA87_CLEAN_poly_uniform_gamma1(poly *a, const uint8_t seed[CRHBYTES], uint16_t nonce) { uint8_t buf[POLY_UNIFORM_GAMMA1_NBLOCKS * STREAM256_BLOCKBYTES]; stream256_state state; stream256_init(&state, seed, nonce); stream256_squeezeblocks(buf, POLY_UNIFORM_GAMMA1_NBLOCKS, &state); stream256_release(&state); PQCLEAN_MLDSA87_CLEAN_polyz_unpack(a, buf); } /************************************************* * Name: challenge * * Description: Implementation of H. Samples polynomial with TAU nonzero * coefficients in {-1,1} using the output stream of * SHAKE256(seed). * * Arguments: - poly *c: pointer to output polynomial * - const uint8_t mu[]: byte array containing seed of length CTILDEBYTES **************************************************/ void PQCLEAN_MLDSA87_CLEAN_poly_challenge(poly *c, const uint8_t seed[CTILDEBYTES]) { unsigned int i, b, pos; uint64_t signs; uint8_t buf[SHAKE256_RATE]; shake256incctx state; shake256_inc_init(&state); shake256_inc_absorb(&state, seed, CTILDEBYTES); shake256_inc_finalize(&state); shake256_inc_squeeze(buf, sizeof buf, &state); signs = 0; for (i = 0; i < 8; ++i) { signs |= (uint64_t)buf[i] << 8 * i; } pos = 8; for (i = 0; i < N; ++i) { c->coeffs[i] = 0; } for (i = N - TAU; i < N; ++i) { do { if (pos >= SHAKE256_RATE) { shake256_inc_squeeze(buf, sizeof buf, &state); pos = 0; } b = buf[pos++]; } while (b > i); c->coeffs[i] = c->coeffs[b]; c->coeffs[b] = 1 - 2 * (signs & 1); signs >>= 1; } shake256_inc_ctx_release(&state); } /************************************************* * Name: PQCLEAN_MLDSA87_CLEAN_polyeta_pack * * Description: Bit-pack polynomial with coefficients in [-ETA,ETA]. * * Arguments: - uint8_t *r: pointer to output byte array with at least * POLYETA_PACKEDBYTES bytes * - const poly *a: pointer to input polynomial **************************************************/ void PQCLEAN_MLDSA87_CLEAN_polyeta_pack(uint8_t *r, const poly *a) { unsigned int i; uint8_t t[8]; DBENCH_START(); for (i = 0; i < N / 8; ++i) { t[0] = (uint8_t) (ETA - a->coeffs[8 * i + 0]); t[1] = (uint8_t) (ETA - a->coeffs[8 * i + 1]); t[2] = (uint8_t) (ETA - a->coeffs[8 * i + 2]); t[3] = (uint8_t) (ETA - a->coeffs[8 * i + 3]); t[4] = (uint8_t) (ETA - a->coeffs[8 * i + 4]); t[5] = (uint8_t) (ETA - a->coeffs[8 * i + 5]); t[6] = (uint8_t) (ETA - a->coeffs[8 * i + 6]); t[7] = (uint8_t) (ETA - a->coeffs[8 * i + 7]); r[3 * i + 0] = (t[0] >> 0) | (t[1] << 3) | (t[2] << 6); r[3 * i + 1] = (t[2] >> 2) | (t[3] << 1) | (t[4] << 4) | (t[5] << 7); r[3 * i + 2] = (t[5] >> 1) | (t[6] << 2) | (t[7] << 5); } DBENCH_STOP(*tpack); } /************************************************* * Name: PQCLEAN_MLDSA87_CLEAN_polyeta_unpack * * Description: Unpack polynomial with coefficients in [-ETA,ETA]. * * Arguments: - poly *r: pointer to output polynomial * - const uint8_t *a: byte array with bit-packed polynomial **************************************************/ void PQCLEAN_MLDSA87_CLEAN_polyeta_unpack(poly *r, const uint8_t *a) { unsigned int i; DBENCH_START(); for (i = 0; i < N / 8; ++i) { r->coeffs[8 * i + 0] = (a[3 * i + 0] >> 0) & 7; r->coeffs[8 * i + 1] = (a[3 * i + 0] >> 3) & 7; r->coeffs[8 * i + 2] = ((a[3 * i + 0] >> 6) | (a[3 * i + 1] << 2)) & 7; r->coeffs[8 * i + 3] = (a[3 * i + 1] >> 1) & 7; r->coeffs[8 * i + 4] = (a[3 * i + 1] >> 4) & 7; r->coeffs[8 * i + 5] = ((a[3 * i + 1] >> 7) | (a[3 * i + 2] << 1)) & 7; r->coeffs[8 * i + 6] = (a[3 * i + 2] >> 2) & 7; r->coeffs[8 * i + 7] = (a[3 * i + 2] >> 5) & 7; r->coeffs[8 * i + 0] = ETA - r->coeffs[8 * i + 0]; r->coeffs[8 * i + 1] = ETA - r->coeffs[8 * i + 1]; r->coeffs[8 * i + 2] = ETA - r->coeffs[8 * i + 2]; r->coeffs[8 * i + 3] = ETA - r->coeffs[8 * i + 3]; r->coeffs[8 * i + 4] = ETA - r->coeffs[8 * i + 4]; r->coeffs[8 * i + 5] = ETA - r->coeffs[8 * i + 5]; r->coeffs[8 * i + 6] = ETA - r->coeffs[8 * i + 6]; r->coeffs[8 * i + 7] = ETA - r->coeffs[8 * i + 7]; } DBENCH_STOP(*tpack); } /************************************************* * Name: PQCLEAN_MLDSA87_CLEAN_polyt1_pack * * Description: Bit-pack polynomial t1 with coefficients fitting in 10 bits. * Input coefficients are assumed to be standard representatives. * * Arguments: - uint8_t *r: pointer to output byte array with at least * POLYT1_PACKEDBYTES bytes * - const poly *a: pointer to input polynomial **************************************************/ void PQCLEAN_MLDSA87_CLEAN_polyt1_pack(uint8_t *r, const poly *a) { unsigned int i; DBENCH_START(); for (i = 0; i < N / 4; ++i) { r[5 * i + 0] = (uint8_t) (a->coeffs[4 * i + 0] >> 0); r[5 * i + 1] = (uint8_t) ((a->coeffs[4 * i + 0] >> 8) | (a->coeffs[4 * i + 1] << 2)); r[5 * i + 2] = (uint8_t) ((a->coeffs[4 * i + 1] >> 6) | (a->coeffs[4 * i + 2] << 4)); r[5 * i + 3] = (uint8_t) ((a->coeffs[4 * i + 2] >> 4) | (a->coeffs[4 * i + 3] << 6)); r[5 * i + 4] = (uint8_t) (a->coeffs[4 * i + 3] >> 2); } DBENCH_STOP(*tpack); } /************************************************* * Name: PQCLEAN_MLDSA87_CLEAN_polyt1_unpack * * Description: Unpack polynomial t1 with 10-bit coefficients. * Output coefficients are standard representatives. * * Arguments: - poly *r: pointer to output polynomial * - const uint8_t *a: byte array with bit-packed polynomial **************************************************/ void PQCLEAN_MLDSA87_CLEAN_polyt1_unpack(poly *r, const uint8_t *a) { unsigned int i; DBENCH_START(); for (i = 0; i < N / 4; ++i) { r->coeffs[4 * i + 0] = ((a[5 * i + 0] >> 0) | ((uint32_t)a[5 * i + 1] << 8)) & 0x3FF; r->coeffs[4 * i + 1] = ((a[5 * i + 1] >> 2) | ((uint32_t)a[5 * i + 2] << 6)) & 0x3FF; r->coeffs[4 * i + 2] = ((a[5 * i + 2] >> 4) | ((uint32_t)a[5 * i + 3] << 4)) & 0x3FF; r->coeffs[4 * i + 3] = ((a[5 * i + 3] >> 6) | ((uint32_t)a[5 * i + 4] << 2)) & 0x3FF; } DBENCH_STOP(*tpack); } /************************************************* * Name: PQCLEAN_MLDSA87_CLEAN_polyt0_pack * * Description: Bit-pack polynomial t0 with coefficients in ]-2^{D-1}, 2^{D-1}]. * * Arguments: - uint8_t *r: pointer to output byte array with at least * POLYT0_PACKEDBYTES bytes * - const poly *a: pointer to input polynomial **************************************************/ void PQCLEAN_MLDSA87_CLEAN_polyt0_pack(uint8_t *r, const poly *a) { unsigned int i; uint32_t t[8]; DBENCH_START(); for (i = 0; i < N / 8; ++i) { t[0] = (1 << (D - 1)) - a->coeffs[8 * i + 0]; t[1] = (1 << (D - 1)) - a->coeffs[8 * i + 1]; t[2] = (1 << (D - 1)) - a->coeffs[8 * i + 2]; t[3] = (1 << (D - 1)) - a->coeffs[8 * i + 3]; t[4] = (1 << (D - 1)) - a->coeffs[8 * i + 4]; t[5] = (1 << (D - 1)) - a->coeffs[8 * i + 5]; t[6] = (1 << (D - 1)) - a->coeffs[8 * i + 6]; t[7] = (1 << (D - 1)) - a->coeffs[8 * i + 7]; r[13 * i + 0] = (uint8_t) t[0]; r[13 * i + 1] = (uint8_t) (t[0] >> 8); r[13 * i + 1] |= (uint8_t) (t[1] << 5); r[13 * i + 2] = (uint8_t) (t[1] >> 3); r[13 * i + 3] = (uint8_t) (t[1] >> 11); r[13 * i + 3] |= (uint8_t) (t[2] << 2); r[13 * i + 4] = (uint8_t) (t[2] >> 6); r[13 * i + 4] |= (uint8_t) (t[3] << 7); r[13 * i + 5] = (uint8_t) (t[3] >> 1); r[13 * i + 6] = (uint8_t) (t[3] >> 9); r[13 * i + 6] |= (uint8_t) (t[4] << 4); r[13 * i + 7] = (uint8_t) (t[4] >> 4); r[13 * i + 8] = (uint8_t) (t[4] >> 12); r[13 * i + 8] |= (uint8_t) (t[5] << 1); r[13 * i + 9] = (uint8_t) (t[5] >> 7); r[13 * i + 9] |= (uint8_t) (t[6] << 6); r[13 * i + 10] = (uint8_t) (t[6] >> 2); r[13 * i + 11] = (uint8_t) (t[6] >> 10); r[13 * i + 11] |= (uint8_t) (t[7] << 3); r[13 * i + 12] = (uint8_t) (t[7] >> 5); } DBENCH_STOP(*tpack); } /************************************************* * Name: PQCLEAN_MLDSA87_CLEAN_polyt0_unpack * * Description: Unpack polynomial t0 with coefficients in ]-2^{D-1}, 2^{D-1}]. * * Arguments: - poly *r: pointer to output polynomial * - const uint8_t *a: byte array with bit-packed polynomial **************************************************/ void PQCLEAN_MLDSA87_CLEAN_polyt0_unpack(poly *r, const uint8_t *a) { unsigned int i; DBENCH_START(); for (i = 0; i < N / 8; ++i) { r->coeffs[8 * i + 0] = a[13 * i + 0]; r->coeffs[8 * i + 0] |= (uint32_t)a[13 * i + 1] << 8; r->coeffs[8 * i + 0] &= 0x1FFF; r->coeffs[8 * i + 1] = a[13 * i + 1] >> 5; r->coeffs[8 * i + 1] |= (uint32_t)a[13 * i + 2] << 3; r->coeffs[8 * i + 1] |= (uint32_t)a[13 * i + 3] << 11; r->coeffs[8 * i + 1] &= 0x1FFF; r->coeffs[8 * i + 2] = a[13 * i + 3] >> 2; r->coeffs[8 * i + 2] |= (uint32_t)a[13 * i + 4] << 6; r->coeffs[8 * i + 2] &= 0x1FFF; r->coeffs[8 * i + 3] = a[13 * i + 4] >> 7; r->coeffs[8 * i + 3] |= (uint32_t)a[13 * i + 5] << 1; r->coeffs[8 * i + 3] |= (uint32_t)a[13 * i + 6] << 9; r->coeffs[8 * i + 3] &= 0x1FFF; r->coeffs[8 * i + 4] = a[13 * i + 6] >> 4; r->coeffs[8 * i + 4] |= (uint32_t)a[13 * i + 7] << 4; r->coeffs[8 * i + 4] |= (uint32_t)a[13 * i + 8] << 12; r->coeffs[8 * i + 4] &= 0x1FFF; r->coeffs[8 * i + 5] = a[13 * i + 8] >> 1; r->coeffs[8 * i + 5] |= (uint32_t)a[13 * i + 9] << 7; r->coeffs[8 * i + 5] &= 0x1FFF; r->coeffs[8 * i + 6] = a[13 * i + 9] >> 6; r->coeffs[8 * i + 6] |= (uint32_t)a[13 * i + 10] << 2; r->coeffs[8 * i + 6] |= (uint32_t)a[13 * i + 11] << 10; r->coeffs[8 * i + 6] &= 0x1FFF; r->coeffs[8 * i + 7] = a[13 * i + 11] >> 3; r->coeffs[8 * i + 7] |= (uint32_t)a[13 * i + 12] << 5; r->coeffs[8 * i + 7] &= 0x1FFF; r->coeffs[8 * i + 0] = (1 << (D - 1)) - r->coeffs[8 * i + 0]; r->coeffs[8 * i + 1] = (1 << (D - 1)) - r->coeffs[8 * i + 1]; r->coeffs[8 * i + 2] = (1 << (D - 1)) - r->coeffs[8 * i + 2]; r->coeffs[8 * i + 3] = (1 << (D - 1)) - r->coeffs[8 * i + 3]; r->coeffs[8 * i + 4] = (1 << (D - 1)) - r->coeffs[8 * i + 4]; r->coeffs[8 * i + 5] = (1 << (D - 1)) - r->coeffs[8 * i + 5]; r->coeffs[8 * i + 6] = (1 << (D - 1)) - r->coeffs[8 * i + 6]; r->coeffs[8 * i + 7] = (1 << (D - 1)) - r->coeffs[8 * i + 7]; } DBENCH_STOP(*tpack); } /************************************************* * Name: PQCLEAN_MLDSA87_CLEAN_polyz_pack * * Description: Bit-pack polynomial with coefficients * in [-(GAMMA1 - 1), GAMMA1]. * * Arguments: - uint8_t *r: pointer to output byte array with at least * POLYZ_PACKEDBYTES bytes * - const poly *a: pointer to input polynomial **************************************************/ void PQCLEAN_MLDSA87_CLEAN_polyz_pack(uint8_t *r, const poly *a) { unsigned int i; uint32_t t[4]; DBENCH_START(); for (i = 0; i < N / 2; ++i) { t[0] = GAMMA1 - a->coeffs[2 * i + 0]; t[1] = GAMMA1 - a->coeffs[2 * i + 1]; r[5 * i + 0] = (uint8_t) (t[0]); r[5 * i + 1] = (uint8_t) (t[0] >> 8); r[5 * i + 2] = (uint8_t) (t[0] >> 16); r[5 * i + 2] |= (uint8_t) (t[1] << 4); r[5 * i + 3] = (uint8_t) (t[1] >> 4); r[5 * i + 4] = (uint8_t) (t[1] >> 12); } DBENCH_STOP(*tpack); } /************************************************* * Name: PQCLEAN_MLDSA87_CLEAN_polyz_unpack * * Description: Unpack polynomial z with coefficients * in [-(GAMMA1 - 1), GAMMA1]. * * Arguments: - poly *r: pointer to output polynomial * - const uint8_t *a: byte array with bit-packed polynomial **************************************************/ void PQCLEAN_MLDSA87_CLEAN_polyz_unpack(poly *r, const uint8_t *a) { unsigned int i; DBENCH_START(); for (i = 0; i < N / 2; ++i) { r->coeffs[2 * i + 0] = a[5 * i + 0]; r->coeffs[2 * i + 0] |= (uint32_t)a[5 * i + 1] << 8; r->coeffs[2 * i + 0] |= (uint32_t)a[5 * i + 2] << 16; r->coeffs[2 * i + 0] &= 0xFFFFF; r->coeffs[2 * i + 1] = a[5 * i + 2] >> 4; r->coeffs[2 * i + 1] |= (uint32_t)a[5 * i + 3] << 4; r->coeffs[2 * i + 1] |= (uint32_t)a[5 * i + 4] << 12; /* r->coeffs[2*i+1] &= 0xFFFFF; */ /* No effect, since we're anyway at 20 bits */ r->coeffs[2 * i + 0] = GAMMA1 - r->coeffs[2 * i + 0]; r->coeffs[2 * i + 1] = GAMMA1 - r->coeffs[2 * i + 1]; } DBENCH_STOP(*tpack); } /************************************************* * Name: PQCLEAN_MLDSA87_CLEAN_polyw1_pack * * Description: Bit-pack polynomial w1 with coefficients in [0,15] or [0,43]. * Input coefficients are assumed to be standard representatives. * * Arguments: - uint8_t *r: pointer to output byte array with at least * POLYW1_PACKEDBYTES bytes * - const poly *a: pointer to input polynomial **************************************************/ void PQCLEAN_MLDSA87_CLEAN_polyw1_pack(uint8_t *r, const poly *a) { unsigned int i; DBENCH_START(); for (i = 0; i < N / 2; ++i) { r[i] = (uint8_t) (a->coeffs[2 * i + 0] | (a->coeffs[2 * i + 1] << 4)); } DBENCH_STOP(*tpack); }