2020-08-29 01:18:54 +01:00
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#include "api.h"
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#include "crypto_sort_uint32.h"
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#include "crypto_stream_aes256ctr.h"
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#include "params.h"
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#include "randombytes.h"
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#include "sha2.h"
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#define int8 int8_t
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#define int16 int16_t
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#define int32 int32_t
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#define uint16 uint16_t
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#define uint32 uint32_t
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#define uint64 uint64_t
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/* ----- masks */
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/* return -1 if x<0; otherwise return 0 */
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static int int16_negative_mask(int16 x) {
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2020-09-01 12:55:46 +01:00
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uint16 u = (uint16) x;
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2020-08-29 01:18:54 +01:00
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u >>= 15;
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return -(int) u;
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/* alternative with gcc -fwrapv: */
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/* x>>15 compiles to CPU's arithmetic right shift */
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}
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/* ----- arithmetic mod 3 */
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typedef int8 small;
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/* F3 is always represented as -1,0,1 */
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/* ----- arithmetic mod q */
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#define q12 ((q-1)/2)
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typedef int16 Fq;
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/* works for -14000000 < x < 14000000 if q in 4591, 4621, 5167 */
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/* assumes twos complement; use, e.g., gcc -fwrapv */
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static Fq Fq_freeze(int32 x) {
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2020-09-01 12:55:46 +01:00
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x -= (int32) (q * ((q18 * x) >> 18));
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x -= (int32) (q * ((q27 * x + 67108864) >> 27));
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return (Fq) x;
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2020-08-29 01:18:54 +01:00
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}
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/* works for all uint32 x */
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static Fq Fq_bigfreeze(uint32 x) {
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2020-09-01 12:55:46 +01:00
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x -= (uint32) (q * ((x * (uint64)q31) >> 31));
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x -= (uint32) (q * ((x * (uint64)q31) >> 31));
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2020-08-29 01:18:54 +01:00
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x -= q;
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2020-09-01 20:16:45 +01:00
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x += (~(x >> 31) + 1) & (uint32)q;
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2020-09-01 12:55:46 +01:00
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return (Fq) x;
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2020-08-29 01:18:54 +01:00
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}
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/* ----- Top and Right */
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static int8 Top(Fq C) {
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2020-09-01 12:55:46 +01:00
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return (int8) ((tau1 * (int32)(C + tau0) + 16384) >> 15);
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2020-08-29 01:18:54 +01:00
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}
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static Fq Right(int8 T) {
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return Fq_freeze(tau3 * (int32)T - tau2);
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}
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/* ----- polynomials mod q */
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/* h = h*g in the ring Rq */
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static void Rq_mult_small(Fq *h, const small *g) {
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crypto_encode_pxint16((unsigned char *) h, h);
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crypto_core_mult((unsigned char *) h, (const unsigned char *) h, (const unsigned char *) g);
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crypto_decode_pxint16(h, (const unsigned char *) h);
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}
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/* ----- sorting to generate short polynomial */
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static void Short_fromlist(small *out, const uint32 *in) {
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uint32 L[ppadsort];
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int i;
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for (i = 0; i < w; ++i) {
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L[i] = in[i] & (uint32) - 2;
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}
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for (i = w; i < p; ++i) {
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L[i] = (in[i] & (uint32) - 3) | 1;
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}
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for (i = p; i < ppadsort; ++i) {
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L[i] = 0xffffffff;
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}
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PQCLEAN_NTRULPR653_AVX2_crypto_sort_uint32(L, ppadsort);
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for (i = 0; i < p; ++i) {
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2020-09-01 12:55:46 +01:00
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out[i] = (small) ((L[i] & 3) - 1);
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2020-08-29 01:18:54 +01:00
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}
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}
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/* ----- underlying hash function */
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#define Hash_bytes 32
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static void Hash(unsigned char *out, const unsigned char *in, int inlen) {
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unsigned char h[64];
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int i;
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2020-09-01 12:55:46 +01:00
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sha512(h, in, (size_t) inlen);
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2020-08-29 01:18:54 +01:00
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for (i = 0; i < 32; ++i) {
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out[i] = h[i];
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}
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}
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/* ----- higher-level randomness */
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static void Short_random(small *out) {
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uint32 L[p];
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2020-09-07 14:27:39 +01:00
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randombytes((unsigned char *) L, sizeof L);
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crypto_decode_pxint32(L, (unsigned char *) L);
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2020-08-29 01:18:54 +01:00
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Short_fromlist(out, L);
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}
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/* ----- Inputs, Generator */
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typedef int8 Inputs[I]; /* passed by reference */
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static const unsigned char aes_nonce[16] = {0};
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/* G = Generator(pk) */
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static void Generator(Fq *G, const unsigned char *pk) {
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uint32 L[p];
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int i;
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PQCLEAN_NTRULPR653_AVX2_crypto_stream_aes256ctr((unsigned char *) L, 4 * p, aes_nonce, pk);
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crypto_decode_pxint32(L, (unsigned char *) L);
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for (i = 0; i < p; ++i) {
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G[i] = Fq_bigfreeze(L[i]) - q12;
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}
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}
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/* ----- NTRU LPRime */
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#define Seeds_bytes 32
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#define Ciphertexts_bytes (Rounded_bytes+Top_bytes)
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#define SecretKeys_bytes Small_bytes
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#define PublicKeys_bytes (Seeds_bytes+Rounded_bytes)
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#define Confirm_bytes 32
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/* c,r_enc[1:] = Hide(r,pk,cache); cache is Hash4(pk) */
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static void Hide(unsigned char *c, unsigned char *r_enc, const Inputs r, const unsigned char *pk, const unsigned char *cache) {
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small b[p];
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int i;
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Inputs_encode(r_enc + 1, r);
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{
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unsigned char h[Hash_bytes];
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uint32 L[p];
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{
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unsigned char s[1 + Inputs_bytes];
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Inputs_encode(s + 1, r);
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s[0] = 5;
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Hash(h, s, sizeof s);
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}
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PQCLEAN_NTRULPR653_AVX2_crypto_stream_aes256ctr((unsigned char *) L, 4 * p, aes_nonce, h);
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crypto_decode_pxint32(L, (unsigned char *) L);
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Short_fromlist(b, L);
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}
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{
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Fq bG[p];
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Generator(bG, pk);
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Rq_mult_small(bG, b);
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Round_and_encode(c, bG);
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c += Rounded_bytes;
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}
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{
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Fq bA[p];
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int8 T[I];
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Rounded_decode(bA, pk + Seeds_bytes);
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Rq_mult_small(bA, b);
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for (i = 0; i < I; ++i) {
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T[i] = Top(Fq_freeze(bA[i] + r[i] * q12));
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}
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Top_encode(c, T);
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c += Top_bytes;
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}
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{
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unsigned char x[1 + Inputs_bytes + Hash_bytes];
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for (i = 0; i < Inputs_bytes; ++i) {
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x[1 + i] = r_enc[1 + i];
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}
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for (i = 0; i < Hash_bytes; ++i) {
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x[1 + Inputs_bytes + i] = cache[i];
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}
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x[0] = 2;
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Hash(c, x, sizeof x);
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}
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}
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int PQCLEAN_NTRULPR653_AVX2_crypto_kem_keypair(unsigned char *pk, unsigned char *sk) {
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Fq aG[p];
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int i;
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randombytes(pk, Seeds_bytes);
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Generator(aG, pk);
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{
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small a[p];
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Short_random(a);
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Rq_mult_small(aG, a);
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Small_encode(sk, a);
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}
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Round_and_encode(pk + Seeds_bytes, aG);
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{
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unsigned char sksave = sk[SecretKeys_bytes - 1];
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for (i = 0; i < PublicKeys_bytes; ++i) {
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sk[SecretKeys_bytes + i] = pk[i];
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}
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sk[SecretKeys_bytes - 1] = 4;
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Hash(sk + SecretKeys_bytes + PublicKeys_bytes + Inputs_bytes, sk + SecretKeys_bytes - 1, 1 + PublicKeys_bytes);
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sk[SecretKeys_bytes - 1] = sksave;
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randombytes(sk + SecretKeys_bytes + PublicKeys_bytes, Inputs_bytes);
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}
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return 0;
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}
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int PQCLEAN_NTRULPR653_AVX2_crypto_kem_enc(unsigned char *c, unsigned char *k, const unsigned char *pk) {
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int i;
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unsigned char cache[Hash_bytes];
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{
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unsigned char y[1 + PublicKeys_bytes];
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for (i = 0; i < PublicKeys_bytes; ++i) {
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y[1 + i] = pk[i];
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}
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y[0] = 4;
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Hash(cache, y, sizeof y);
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}
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Inputs r;
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{
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unsigned char s[Inputs_bytes];
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randombytes(s, sizeof s);
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Inputs_decode(r, s);
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}
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{
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unsigned char x[1 + Inputs_bytes + Ciphertexts_bytes + Confirm_bytes];
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Hide(c, x, r, pk, cache);
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for (i = 0; i < Ciphertexts_bytes + Confirm_bytes; ++i) {
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x[1 + Inputs_bytes + i] = c[i];
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}
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x[0] = 1;
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Hash(k, x, sizeof x);
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}
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return 0;
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}
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int PQCLEAN_NTRULPR653_AVX2_crypto_kem_dec(unsigned char *k, const unsigned char *c, const unsigned char *sk) {
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const unsigned char *pk = sk + SecretKeys_bytes;
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const unsigned char *rho = pk + PublicKeys_bytes;
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const unsigned char *cache = rho + Inputs_bytes;
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Inputs r;
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int i;
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{
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Fq aB[p];
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Rounded_decode(aB, c);
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{
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small a[p];
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Small_decode(a, sk);
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Rq_mult_small(aB, a);
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}
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{
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int8 T[I];
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Top_decode(T, c + Rounded_bytes);
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for (i = 0; i < I; ++i) {
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2020-09-01 12:55:46 +01:00
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r[i] = (int8) - int16_negative_mask(Fq_freeze(Right(T[i]) - aB[i] + 4 * w + 1));
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2020-08-29 01:18:54 +01:00
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}
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}
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}
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{
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unsigned char cnew[Ciphertexts_bytes + Confirm_bytes];
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int mask;
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unsigned char x[1 + Inputs_bytes + Ciphertexts_bytes + Confirm_bytes];
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Hide(cnew, x, r, pk, cache);
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mask = crypto_verify_clen(c, cnew);
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for (i = 0; i < Inputs_bytes; ++i) {
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2020-09-01 12:55:46 +01:00
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x[1 + i] ^= (unsigned char) (mask & (x[1 + i] ^ rho[i]));
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2020-08-29 01:18:54 +01:00
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}
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for (i = 0; i < Ciphertexts_bytes + Confirm_bytes; ++i) {
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x[1 + Inputs_bytes + i] = c[i];
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}
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2020-09-01 12:55:46 +01:00
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x[0] = (unsigned char) (1 + mask);
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2020-08-29 01:18:54 +01:00
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Hash(k, x, sizeof x);
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}
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return 0;
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}
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