#include "H_Q_matrices_generation.h" #include "bf_decoding.h" #include "dfr_test.h" #include "gf2x_arith_mod_xPplusOne.h" #include "niederreiter.h" #include "qc_ldpc_parameters.h" #include "randombytes.h" #include "rng.h" #include void PQCLEAN_LEDAKEMLT52_LEAKTIME_niederreiter_keygen(publicKeyNiederreiter_t *pk, privateKeyNiederreiter_t *sk) { AES_XOF_struct keys_expander; POSITION_T HPosOnes[N0][DV]; POSITION_T QPosOnes[N0][M]; POSITION_T LPosOnes[N0][DV * M]; POSITION_T auxPosOnes[DV * M]; unsigned char processedQOnes[N0]; DIGIT Ln0dense[NUM_DIGITS_GF2X_ELEMENT] = {0}; DIGIT Ln0Inv[NUM_DIGITS_GF2X_ELEMENT] = {0}; int is_L_full; int isDFRok; memset(&keys_expander, 0x00, sizeof(AES_XOF_struct)); randombytes(sk->prng_seed, TRNG_BYTE_LENGTH); PQCLEAN_LEDAKEMLT52_LEAKTIME_seedexpander_from_trng(&keys_expander, sk->prng_seed); sk->rejections = (uint8_t) 0; do { PQCLEAN_LEDAKEMLT52_LEAKTIME_generateHPosOnes(HPosOnes, &keys_expander); PQCLEAN_LEDAKEMLT52_LEAKTIME_generateQPosOnes(QPosOnes, &keys_expander); for (int i = 0; i < N0; i++) { for (int j = 0; j < DV * M; j++) { LPosOnes[i][j] = INVALID_POS_VALUE; } } memset(processedQOnes, 0x00, sizeof(processedQOnes)); for (int colQ = 0; colQ < N0; colQ++) { for (int i = 0; i < N0; i++) { PQCLEAN_LEDAKEMLT52_LEAKTIME_gf2x_mod_mul_sparse(DV * M, auxPosOnes, DV, HPosOnes[i], qBlockWeights[i][colQ], QPosOnes[i] + processedQOnes[i]); PQCLEAN_LEDAKEMLT52_LEAKTIME_gf2x_mod_add_sparse(DV * M, LPosOnes[colQ], DV * M, LPosOnes[colQ], DV * M, auxPosOnes); processedQOnes[i] += qBlockWeights[i][colQ]; } } is_L_full = 1; for (int i = 0; i < N0; i++) { is_L_full = is_L_full && (LPosOnes[i][DV * M - 1] != INVALID_POS_VALUE); } sk->rejections = sk->rejections + 1; if (is_L_full) { isDFRok = PQCLEAN_LEDAKEMLT52_LEAKTIME_DFR_test(LPosOnes, &(sk->secondIterThreshold)); } } while (!is_L_full || !isDFRok); sk->rejections = sk->rejections - 1; PQCLEAN_LEDAKEMLT52_LEAKTIME_seedexpander(&keys_expander, sk->decryption_failure_secret, (unsigned long)TRNG_BYTE_LENGTH); for (int j = 0; j < DV * M; j++) { if (LPosOnes[N0 - 1][j] != INVALID_POS_VALUE) { PQCLEAN_LEDAKEMLT52_LEAKTIME_gf2x_set_coeff(Ln0dense, LPosOnes[N0 - 1][j], 1); } } PQCLEAN_LEDAKEMLT52_LEAKTIME_gf2x_mod_inverse(Ln0Inv, Ln0dense); for (int i = 0; i < N0 - 1; i++) { PQCLEAN_LEDAKEMLT52_LEAKTIME_gf2x_mod_mul_dense_to_sparse(pk->Mtr + i * NUM_DIGITS_GF2X_ELEMENT, Ln0Inv, LPosOnes[i], DV * M); } for (int i = 0; i < N0 - 1; i++) { PQCLEAN_LEDAKEMLT52_LEAKTIME_gf2x_transpose_in_place(pk->Mtr + i * NUM_DIGITS_GF2X_ELEMENT); } } void PQCLEAN_LEDAKEMLT52_LEAKTIME_niederreiter_encrypt(DIGIT syndrome[], const publicKeyNiederreiter_t *pk, const DIGIT err[]) { DIGIT saux[NUM_DIGITS_GF2X_ELEMENT]; memset(syndrome, 0x00, NUM_DIGITS_GF2X_ELEMENT * DIGIT_SIZE_B); for (size_t i = 0; i < N0 - 1; i++) { PQCLEAN_LEDAKEMLT52_LEAKTIME_gf2x_mod_mul(saux, pk->Mtr + i * NUM_DIGITS_GF2X_ELEMENT, err + i * NUM_DIGITS_GF2X_ELEMENT); PQCLEAN_LEDAKEMLT52_LEAKTIME_gf2x_mod_add(syndrome, syndrome, saux); } PQCLEAN_LEDAKEMLT52_LEAKTIME_gf2x_mod_add(syndrome, syndrome, err + (N0 - 1)*NUM_DIGITS_GF2X_ELEMENT); } int PQCLEAN_LEDAKEMLT52_LEAKTIME_niederreiter_decrypt(DIGIT *err, const privateKeyNiederreiter_t *sk, const DIGIT *syndrome) { AES_XOF_struct niederreiter_decrypt_expander; POSITION_T HPosOnes[N0][DV]; POSITION_T QPosOnes[N0][M]; POSITION_T LPosOnes[N0][DV * M]; POSITION_T auxPosOnes[DV * M]; POSITION_T HtrPosOnes[N0][DV]; POSITION_T QtrPosOnes[N0][M]; POSITION_T auxSparse[DV * M]; POSITION_T Ln0trSparse[DV * M]; DIGIT err_computed[N0 * NUM_DIGITS_GF2X_ELEMENT * DIGIT_SIZE_B] = {0}; DIGIT privateSyndrome[NUM_DIGITS_GF2X_ELEMENT]; unsigned char processedQOnes[N0]; int rejections = sk->rejections; PQCLEAN_LEDAKEMLT52_LEAKTIME_seedexpander_from_trng(&niederreiter_decrypt_expander, sk->prng_seed); do { PQCLEAN_LEDAKEMLT52_LEAKTIME_generateHPosOnes(HPosOnes, &niederreiter_decrypt_expander); PQCLEAN_LEDAKEMLT52_LEAKTIME_generateQPosOnes(QPosOnes, &niederreiter_decrypt_expander); for (int i = 0; i < N0; i++) { for (int j = 0; j < DV * M; j++) { LPosOnes[i][j] = INVALID_POS_VALUE; } } memset(processedQOnes, 0x00, sizeof(processedQOnes)); for (int colQ = 0; colQ < N0; colQ++) { for (int i = 0; i < N0; i++) { PQCLEAN_LEDAKEMLT52_LEAKTIME_gf2x_mod_mul_sparse(DV * M, auxPosOnes, DV, HPosOnes[i], qBlockWeights[i][colQ], QPosOnes[i] + processedQOnes[i]); PQCLEAN_LEDAKEMLT52_LEAKTIME_gf2x_mod_add_sparse(DV * M, LPosOnes[colQ], DV * M, LPosOnes[colQ], DV * M, auxPosOnes); processedQOnes[i] += qBlockWeights[i][colQ]; } } rejections--; } while (rejections >= 0); PQCLEAN_LEDAKEMLT52_LEAKTIME_transposeHPosOnes(HtrPosOnes, HPosOnes); PQCLEAN_LEDAKEMLT52_LEAKTIME_transposeQPosOnes(QtrPosOnes, QPosOnes); for (int i = 0; i < DV * M; i++) { Ln0trSparse[i] = INVALID_POS_VALUE; auxSparse[i] = INVALID_POS_VALUE; } for (int i = 0; i < N0; i++) { PQCLEAN_LEDAKEMLT52_LEAKTIME_gf2x_mod_mul_sparse(DV * M, auxSparse, DV, HPosOnes[i], qBlockWeights[i][N0 - 1], &QPosOnes[i][ M - qBlockWeights[i][N0 - 1] ] ); PQCLEAN_LEDAKEMLT52_LEAKTIME_gf2x_mod_add_sparse(DV * M, Ln0trSparse, DV * M, Ln0trSparse, DV * M, auxSparse); } PQCLEAN_LEDAKEMLT52_LEAKTIME_gf2x_transpose_in_place_sparse(DV * M, Ln0trSparse); PQCLEAN_LEDAKEMLT52_LEAKTIME_gf2x_mod_mul_dense_to_sparse(privateSyndrome, syndrome, Ln0trSparse, DV * M); int decryptOk = 0; decryptOk = PQCLEAN_LEDAKEMLT52_LEAKTIME_bf_decoding(err_computed, (const POSITION_T (*)[DV]) HtrPosOnes, (const POSITION_T (*)[M]) QtrPosOnes, privateSyndrome, sk->secondIterThreshold); int err_weight = 0; for (int i = 0 ; i < N0; i++) { err_weight += PQCLEAN_LEDAKEMLT52_LEAKTIME_population_count(err_computed + (NUM_DIGITS_GF2X_ELEMENT * i)); } decryptOk = decryptOk && (err_weight == NUM_ERRORS_T); /* prepare mockup error vector in case a decoding failure occurs */ DIGIT err_mockup[N0 * NUM_DIGITS_GF2X_ELEMENT * DIGIT_SIZE_B]; memcpy(err_mockup, syndrome, NUM_DIGITS_GF2X_ELEMENT * DIGIT_SIZE_B); memcpy(err_mockup + NUM_DIGITS_GF2X_ELEMENT, sk->decryption_failure_secret, TRNG_BYTE_LENGTH); memset(((unsigned char *) err_mockup) + (NUM_DIGITS_GF2X_ELEMENT * DIGIT_SIZE_B) + TRNG_BYTE_LENGTH, 0x00, (N0 - 1)*NUM_DIGITS_GF2X_ELEMENT * DIGIT_SIZE_B - TRNG_BYTE_LENGTH); if (!decryptOk) { memcpy(err, err_mockup, N0 * NUM_DIGITS_GF2X_ELEMENT * DIGIT_SIZE_B); } else { memcpy(err, err_computed, N0 * NUM_DIGITS_GF2X_ELEMENT * DIGIT_SIZE_B); } return decryptOk; }