#include "api.h" #include "cpapke.h" #include "fips202.h" #include "poly.h" #include "randombytes.h" #include /************************************************* * Name: encode_pk * * Description: Serialize the public key as concatenation of the * serialization of the polynomial pk and the public seed * used to generete the polynomial a. * * Arguments: unsigned char *r: pointer to the output serialized public key * const poly *pk: pointer to the input public-key polynomial * const unsigned char *seed: pointer to the input public seed **************************************************/ static void encode_pk(unsigned char *r, const poly *pk, const unsigned char *seed) { int i; PQCLEAN_NEWHOPE1024CCAKEM_CLEAN_poly_tobytes(r, pk); for (i = 0; i < NEWHOPE_SYMBYTES; i++) { r[NEWHOPE_POLYBYTES + i] = seed[i]; } } /************************************************* * Name: decode_pk * * Description: De-serialize the public key; inverse of encode_pk * * Arguments: poly *pk: pointer to output public-key polynomial * unsigned char *seed: pointer to output public seed * const unsigned char *r: pointer to input byte array **************************************************/ static void decode_pk(poly *pk, unsigned char *seed, const unsigned char *r) { int i; PQCLEAN_NEWHOPE1024CCAKEM_CLEAN_poly_frombytes(pk, r); for (i = 0; i < NEWHOPE_SYMBYTES; i++) { seed[i] = r[NEWHOPE_POLYBYTES + i]; } } /************************************************* * Name: encode_c * * Description: Serialize the ciphertext as concatenation of the * serialization of the polynomial b and serialization * of the compressed polynomial v * * Arguments: - unsigned char *r: pointer to the output serialized ciphertext * - const poly *b: pointer to the input polynomial b * - const poly *v: pointer to the input polynomial v **************************************************/ static void encode_c(unsigned char *r, const poly *b, const poly *v) { PQCLEAN_NEWHOPE1024CCAKEM_CLEAN_poly_tobytes(r, b); PQCLEAN_NEWHOPE1024CCAKEM_CLEAN_poly_compress(r + NEWHOPE_POLYBYTES, v); } /************************************************* * Name: decode_c * * Description: de-serialize the ciphertext; inverse of encode_c * * Arguments: - poly *b: pointer to output polynomial b * - poly *v: pointer to output polynomial v * - const unsigned char *r: pointer to input byte array **************************************************/ static void decode_c(poly *b, poly *v, const unsigned char *r) { PQCLEAN_NEWHOPE1024CCAKEM_CLEAN_poly_frombytes(b, r); PQCLEAN_NEWHOPE1024CCAKEM_CLEAN_poly_decompress(v, r + NEWHOPE_POLYBYTES); } /************************************************* * Name: gen_a * * Description: Deterministically generate public polynomial a from seed * * Arguments: - poly *a: pointer to output polynomial a * - const unsigned char *seed: pointer to input seed **************************************************/ static void gen_a(poly *a, const unsigned char *seed) { PQCLEAN_NEWHOPE1024CCAKEM_CLEAN_poly_uniform(a, seed); } /************************************************* * Name: cpapke_keypair * * Description: Generates public and private key * for the CPA public-key encryption scheme underlying * the NewHope KEMs * * Arguments: - unsigned char *pk: pointer to output public key * - unsigned char *sk: pointer to output private key **************************************************/ void PQCLEAN_NEWHOPE1024CCAKEM_CLEAN_cpapke_keypair(unsigned char *pk, unsigned char *sk) { poly ahat, ehat, ahat_shat, bhat, shat; unsigned char z[2 * NEWHOPE_SYMBYTES]; unsigned char *publicseed = z; unsigned char *noiseseed = z + NEWHOPE_SYMBYTES; randombytes(z, NEWHOPE_SYMBYTES); shake256(z, 2 * NEWHOPE_SYMBYTES, z, NEWHOPE_SYMBYTES); gen_a(&ahat, publicseed); PQCLEAN_NEWHOPE1024CCAKEM_CLEAN_poly_sample(&shat, noiseseed, 0); PQCLEAN_NEWHOPE1024CCAKEM_CLEAN_poly_ntt(&shat); PQCLEAN_NEWHOPE1024CCAKEM_CLEAN_poly_sample(&ehat, noiseseed, 1); PQCLEAN_NEWHOPE1024CCAKEM_CLEAN_poly_ntt(&ehat); PQCLEAN_NEWHOPE1024CCAKEM_CLEAN_poly_mul_pointwise(&ahat_shat, &shat, &ahat); PQCLEAN_NEWHOPE1024CCAKEM_CLEAN_poly_add(&bhat, &ehat, &ahat_shat); PQCLEAN_NEWHOPE1024CCAKEM_CLEAN_poly_tobytes(sk, &shat); encode_pk(pk, &bhat, publicseed); } /************************************************* * Name: cpapke_enc * * Description: Encryption function of * the CPA public-key encryption scheme underlying * the NewHope KEMs * * Arguments: - unsigned char *c: pointer to output ciphertext * - const unsigned char *m: pointer to input message (of length NEWHOPE_SYMBYTES bytes) * - const unsigned char *pk: pointer to input public key * - const unsigned char *coin: pointer to input random coins used as seed * to deterministically generate all randomness **************************************************/ void PQCLEAN_NEWHOPE1024CCAKEM_CLEAN_cpapke_enc(unsigned char *c, const unsigned char *m, const unsigned char *pk, const unsigned char *coin) { poly sprime, eprime, vprime, ahat, bhat, eprimeprime, uhat, v; unsigned char publicseed[NEWHOPE_SYMBYTES]; PQCLEAN_NEWHOPE1024CCAKEM_CLEAN_poly_frommsg(&v, m); decode_pk(&bhat, publicseed, pk); gen_a(&ahat, publicseed); PQCLEAN_NEWHOPE1024CCAKEM_CLEAN_poly_sample(&sprime, coin, 0); PQCLEAN_NEWHOPE1024CCAKEM_CLEAN_poly_sample(&eprime, coin, 1); PQCLEAN_NEWHOPE1024CCAKEM_CLEAN_poly_sample(&eprimeprime, coin, 2); PQCLEAN_NEWHOPE1024CCAKEM_CLEAN_poly_ntt(&sprime); PQCLEAN_NEWHOPE1024CCAKEM_CLEAN_poly_ntt(&eprime); PQCLEAN_NEWHOPE1024CCAKEM_CLEAN_poly_mul_pointwise(&uhat, &ahat, &sprime); PQCLEAN_NEWHOPE1024CCAKEM_CLEAN_poly_add(&uhat, &uhat, &eprime); PQCLEAN_NEWHOPE1024CCAKEM_CLEAN_poly_mul_pointwise(&vprime, &bhat, &sprime); PQCLEAN_NEWHOPE1024CCAKEM_CLEAN_poly_invntt(&vprime); PQCLEAN_NEWHOPE1024CCAKEM_CLEAN_poly_add(&vprime, &vprime, &eprimeprime); PQCLEAN_NEWHOPE1024CCAKEM_CLEAN_poly_add(&vprime, &vprime, &v); // add message encode_c(c, &uhat, &vprime); } /************************************************* * Name: cpapke_dec * * Description: Decryption function of * the CPA public-key encryption scheme underlying * the NewHope KEMs * * Arguments: - unsigned char *m: pointer to output decrypted message * - const unsigned char *c: pointer to input ciphertext * - const unsigned char *sk: pointer to input secret key **************************************************/ void PQCLEAN_NEWHOPE1024CCAKEM_CLEAN_cpapke_dec(unsigned char *m, const unsigned char *c, const unsigned char *sk) { poly vprime, uhat, tmp, shat; PQCLEAN_NEWHOPE1024CCAKEM_CLEAN_poly_frombytes(&shat, sk); decode_c(&uhat, &vprime, c); PQCLEAN_NEWHOPE1024CCAKEM_CLEAN_poly_mul_pointwise(&tmp, &shat, &uhat); PQCLEAN_NEWHOPE1024CCAKEM_CLEAN_poly_invntt(&tmp); PQCLEAN_NEWHOPE1024CCAKEM_CLEAN_poly_sub(&tmp, &tmp, &vprime); PQCLEAN_NEWHOPE1024CCAKEM_CLEAN_poly_tomsg(m, &tmp); }