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pqcrypto/crypto_kem/kyber1024/avx2/fips202x4.c

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#include "fips202.h"
#include "fips202x4.h"
#include "params.h"
#include <immintrin.h>
#include <stdint.h>
#define NROUNDS 24
#define ROL(a, offset) (((a) << (offset)) ^ ((a) >> (64-(offset))))
static uint64_t load64(const uint8_t *x) {
unsigned long long r = 0, i;
for (i = 0; i < 8; ++i) {
r |= (unsigned long long)x[i] << 8 * i;
}
return r;
}
static void store64(uint8_t *x, uint64_t u) {
size_t i;
for (i = 0; i < 8; ++i) {
x[i] = (uint8_t)u;
u >>= 8;
}
}
/* Use implementation from the Keccak Code Package */
extern void KeccakP1600times4_PermuteAll_24rounds(__m256i *s);
#define KeccakF1600_StatePermute4x KeccakP1600times4_PermuteAll_24rounds
static void keccak_absorb4x(__m256i *s,
unsigned int r,
const uint8_t *m0,
const uint8_t *m1,
const uint8_t *m2,
const uint8_t *m3,
size_t mlen,
uint8_t p) {
size_t i;
uint8_t t0[200] = {0};
uint8_t t1[200] = {0};
uint8_t t2[200] = {0};
uint8_t t3[200] = {0};
unsigned long long *ss = (unsigned long long *)s;
while (mlen >= r) {
for (i = 0; i < r / 8; ++i) {
ss[4 * i + 0] ^= load64(m0 + 8 * i);
ss[4 * i + 1] ^= load64(m1 + 8 * i);
ss[4 * i + 2] ^= load64(m2 + 8 * i);
ss[4 * i + 3] ^= load64(m3 + 8 * i);
}
KeccakF1600_StatePermute4x(s);
mlen -= r;
m0 += r;
m1 += r;
m2 += r;
m3 += r;
}
for (i = 0; i < mlen; ++i) {
t0[i] = m0[i];
t1[i] = m1[i];
t2[i] = m2[i];
t3[i] = m3[i];
}
t0[i] = p;
t1[i] = p;
t2[i] = p;
t3[i] = p;
t0[r - 1] |= 128;
t1[r - 1] |= 128;
t2[r - 1] |= 128;
t3[r - 1] |= 128;
for (i = 0; i < r / 8; ++i) {
ss[4 * i + 0] ^= load64(t0 + 8 * i);
ss[4 * i + 1] ^= load64(t1 + 8 * i);
ss[4 * i + 2] ^= load64(t2 + 8 * i);
ss[4 * i + 3] ^= load64(t3 + 8 * i);
}
}
static void keccak_squeezeblocks4x(uint8_t *h0,
uint8_t *h1,
uint8_t *h2,
uint8_t *h3,
size_t nblocks,
__m256i *s,
unsigned int r) {
unsigned long long *ss = (unsigned long long *)s;
while (nblocks > 0) {
KeccakF1600_StatePermute4x(s);
for (size_t i = 0; i < (r >> 3); i++) {
store64(h0 + 8 * i, ss[4 * i + 0]);
store64(h1 + 8 * i, ss[4 * i + 1]);
store64(h2 + 8 * i, ss[4 * i + 2]);
store64(h3 + 8 * i, ss[4 * i + 3]);
}
h0 += r;
h1 += r;
h2 += r;
h3 += r;
nblocks--;
}
}
void PQCLEAN_KYBER1024_AVX2_kyber_shake128x4_absorb(keccak4x_state *state,
const uint8_t *seed,
uint16_t nonce0,
uint16_t nonce1,
uint16_t nonce2,
uint16_t nonce3) {
uint8_t extseed[4][KYBER_SYMBYTES + 2];
for (size_t i = 0; i < KYBER_SYMBYTES; ++i) {
extseed[0][i] = seed[i];
extseed[1][i] = seed[i];
extseed[2][i] = seed[i];
extseed[3][i] = seed[i];
}
extseed[0][KYBER_SYMBYTES + 0] = (uint8_t)nonce0;
extseed[0][KYBER_SYMBYTES + 1] = (uint8_t)(nonce0 >> 8);
extseed[1][KYBER_SYMBYTES + 0] = (uint8_t)nonce1;
extseed[1][KYBER_SYMBYTES + 1] = (uint8_t)(nonce1 >> 8);
extseed[2][KYBER_SYMBYTES + 0] = (uint8_t)nonce2;
extseed[2][KYBER_SYMBYTES + 1] = (uint8_t)(nonce2 >> 8);
extseed[3][KYBER_SYMBYTES + 0] = (uint8_t)nonce3;
extseed[3][KYBER_SYMBYTES + 1] = (uint8_t)(nonce3 >> 8);
/* zero state */
for (size_t i = 0; i < 25; i++) {
state->s[i] = _mm256_xor_si256(state->s[i], state->s[i]);
}
/* absorb 4 message of identical length in parallel */
keccak_absorb4x(state->s, SHAKE128_RATE, extseed[0], extseed[1], extseed[2], extseed[3], KYBER_SYMBYTES + 2, 0x1F);
}
void PQCLEAN_KYBER1024_AVX2_shake128x4_squeezeblocks(uint8_t *out0,
uint8_t *out1,
uint8_t *out2,
uint8_t *out3,
size_t nblocks,
keccak4x_state *state) {
keccak_squeezeblocks4x(out0, out1, out2, out3, nblocks, state->s, SHAKE128_RATE);
}
static void shake256x4(uint8_t *out0,
uint8_t *out1,
uint8_t *out2,
uint8_t *out3, size_t outlen,
const uint8_t *in0,
const uint8_t *in1,
const uint8_t *in2,
const uint8_t *in3, size_t inlen) {
__m256i s[25];
uint8_t t0[SHAKE256_RATE];
uint8_t t1[SHAKE256_RATE];
uint8_t t2[SHAKE256_RATE];
uint8_t t3[SHAKE256_RATE];
/* zero state */
for (size_t i = 0; i < 25; i++) {
s[i] = _mm256_xor_si256(s[i], s[i]);
}
/* absorb 4 message of identical length in parallel */
keccak_absorb4x(s, SHAKE256_RATE, in0, in1, in2, in3, inlen, 0x1F);
/* Squeeze output */
keccak_squeezeblocks4x(out0, out1, out2, out3, outlen / SHAKE256_RATE, s, SHAKE256_RATE);
out0 += (outlen / SHAKE256_RATE) * SHAKE256_RATE;
out1 += (outlen / SHAKE256_RATE) * SHAKE256_RATE;
out2 += (outlen / SHAKE256_RATE) * SHAKE256_RATE;
out3 += (outlen / SHAKE256_RATE) * SHAKE256_RATE;
if (outlen % SHAKE256_RATE) {
keccak_squeezeblocks4x(t0, t1, t2, t3, 1, s, SHAKE256_RATE);
for (size_t i = 0; i < outlen % SHAKE256_RATE; i++) {
out0[i] = t0[i];
out1[i] = t1[i];
out2[i] = t2[i];
out3[i] = t3[i];
}
}
}
void PQCLEAN_KYBER1024_AVX2_shake256x4_prf(uint8_t *out0,
uint8_t *out1,
uint8_t *out2,
uint8_t *out3,
size_t outlen,
const uint8_t *key,
uint8_t nonce0,
uint8_t nonce1,
uint8_t nonce2,
uint8_t nonce3) {
uint8_t extseed[4][KYBER_SYMBYTES + 1];
for (size_t i = 0; i < KYBER_SYMBYTES; i++) {
extseed[0][i] = key[i];
extseed[1][i] = key[i];
extseed[2][i] = key[i];
extseed[3][i] = key[i];
}
extseed[0][KYBER_SYMBYTES] = nonce0;
extseed[1][KYBER_SYMBYTES] = nonce1;
extseed[2][KYBER_SYMBYTES] = nonce2;
extseed[3][KYBER_SYMBYTES] = nonce3;
shake256x4(out0,
out1,
out2,
out3,
outlen,
extseed[0],
extseed[1],
extseed[2],
extseed[3],
KYBER_SYMBYTES + 1);
}