mirror of
https://github.com/henrydcase/pqc.git
synced 2024-11-26 17:31:38 +00:00
117 lines
5.8 KiB
C
117 lines
5.8 KiB
C
#include "api.h"
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#include "cpapke.h"
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#include "fips202.h"
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#include "params.h"
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#include "randombytes.h"
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#include "verify.h"
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#include <string.h>
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/*************************************************
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* Name: crypto_kem_keypair
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*
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* Description: Generates public and private key
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* for CCA secure NewHope key encapsulation
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* mechanism
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*
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* Arguments: - unsigned char *pk: pointer to output public key (an already allocated array of CRYPTO_PUBLICKEYBYTES bytes)
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* - unsigned char *sk: pointer to output private key (an already allocated array of CRYPTO_SECRETKEYBYTES bytes)
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*
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* Returns 0 (success)
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**************************************************/
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int PQCLEAN_NEWHOPE512CCA_CLEAN_crypto_kem_keypair(unsigned char *pk, unsigned char *sk) {
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size_t i;
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PQCLEAN_NEWHOPE512CCA_CLEAN_cpapke_keypair(pk, sk); /* First put the actual secret key into sk */
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sk += NEWHOPE_CPAPKE_SECRETKEYBYTES;
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for (i = 0; i < NEWHOPE_CPAPKE_PUBLICKEYBYTES; i++) { /* Append the public key for re-encryption */
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sk[i] = pk[i];
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}
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sk += NEWHOPE_CPAPKE_PUBLICKEYBYTES;
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shake256(sk, NEWHOPE_SYMBYTES, pk, NEWHOPE_CPAPKE_PUBLICKEYBYTES); /* Append the hash of the public key */
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sk += NEWHOPE_SYMBYTES;
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randombytes(sk, NEWHOPE_SYMBYTES); /* Append the value s for pseudo-random output on reject */
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return 0;
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}
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/*************************************************
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* Name: crypto_kem_enc
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*
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* Description: Generates cipher text and shared
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* secret for given public key
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*
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* Arguments: - unsigned char *ct: pointer to output cipher text (an already allocated array of CRYPTO_CIPHERTEXTBYTES bytes)
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* - unsigned char *ss: pointer to output shared secret (an already allocated array of CRYPTO_BYTES bytes)
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* - const unsigned char *pk: pointer to input public key (an already allocated array of CRYPTO_PUBLICKEYBYTES bytes)
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*
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* Returns 0 (success)
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**************************************************/
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int PQCLEAN_NEWHOPE512CCA_CLEAN_crypto_kem_enc(unsigned char *ct, unsigned char *ss, const unsigned char *pk) {
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unsigned char k_coins_d[3 * NEWHOPE_SYMBYTES]; /* Will contain key, coins, qrom-hash */
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unsigned char buf[2 * NEWHOPE_SYMBYTES];
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int i;
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randombytes(buf, NEWHOPE_SYMBYTES);
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shake256(buf, NEWHOPE_SYMBYTES, buf, NEWHOPE_SYMBYTES); /* Don't release system RNG output */
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shake256(buf + NEWHOPE_SYMBYTES, NEWHOPE_SYMBYTES, pk, NEWHOPE_CCAKEM_PUBLICKEYBYTES); /* Multitarget countermeasure for coins + contributory KEM */
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shake256(k_coins_d, 3 * NEWHOPE_SYMBYTES, buf, 2 * NEWHOPE_SYMBYTES);
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PQCLEAN_NEWHOPE512CCA_CLEAN_cpapke_enc(ct, buf, pk, k_coins_d + NEWHOPE_SYMBYTES); /* coins are in k_coins_d+NEWHOPE_SYMBYTES */
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for (i = 0; i < NEWHOPE_SYMBYTES; i++) {
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ct[i + NEWHOPE_CPAPKE_CIPHERTEXTBYTES] = k_coins_d[i + 2 * NEWHOPE_SYMBYTES]; /* copy Targhi-Unruh hash into ct */
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}
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shake256(k_coins_d + NEWHOPE_SYMBYTES, NEWHOPE_SYMBYTES, ct, NEWHOPE_CCAKEM_CIPHERTEXTBYTES); /* overwrite coins in k_coins_d with h(c) */
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shake256(ss, NEWHOPE_SYMBYTES, k_coins_d, 2 * NEWHOPE_SYMBYTES); /* hash concatenation of pre-k and h(c) to ss */
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return 0;
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}
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/*************************************************
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* Name: crypto_kem_dec
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*
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* Description: Generates shared secret for given
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* cipher text and private key
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*
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* Arguments: - unsigned char *ss: pointer to output shared secret (an already allocated array of CRYPTO_BYTES bytes)
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* - const unsigned char *ct: pointer to input cipher text (an already allocated array of CRYPTO_CIPHERTEXTBYTES bytes)
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* - const unsigned char *sk: pointer to input private key (an already allocated array of CRYPTO_SECRETKEYBYTES bytes)
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*
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* Returns 0 for sucess or -1 for failure
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*
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* On failure, ss will contain a randomized value.
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**************************************************/
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int PQCLEAN_NEWHOPE512CCA_CLEAN_crypto_kem_dec(unsigned char *ss, const unsigned char *ct, const unsigned char *sk) {
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int i, fail;
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unsigned char ct_cmp[NEWHOPE_CCAKEM_CIPHERTEXTBYTES];
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unsigned char buf[2 * NEWHOPE_SYMBYTES];
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unsigned char k_coins_d[3 * NEWHOPE_SYMBYTES]; /* Will contain key, coins, qrom-hash */
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const unsigned char *pk = sk + NEWHOPE_CPAPKE_SECRETKEYBYTES;
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PQCLEAN_NEWHOPE512CCA_CLEAN_cpapke_dec(buf, ct, sk);
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for (i = 0; i < NEWHOPE_SYMBYTES; i++) { /* Use hash of pk stored in sk */
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buf[NEWHOPE_SYMBYTES + i] = sk[NEWHOPE_CCAKEM_SECRETKEYBYTES - 2 * NEWHOPE_SYMBYTES + i];
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}
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shake256(k_coins_d, 3 * NEWHOPE_SYMBYTES, buf, 2 * NEWHOPE_SYMBYTES);
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PQCLEAN_NEWHOPE512CCA_CLEAN_cpapke_enc(ct_cmp, buf, pk, k_coins_d + NEWHOPE_SYMBYTES); /* coins are in k_coins_d+NEWHOPE_SYMBYTES */
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for (i = 0; i < NEWHOPE_SYMBYTES; i++) {
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ct_cmp[i + NEWHOPE_CPAPKE_CIPHERTEXTBYTES] = k_coins_d[i + 2 * NEWHOPE_SYMBYTES];
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}
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fail = PQCLEAN_NEWHOPE512CCA_CLEAN_verify(ct, ct_cmp, NEWHOPE_CCAKEM_CIPHERTEXTBYTES);
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shake256(k_coins_d + NEWHOPE_SYMBYTES, NEWHOPE_SYMBYTES, ct, NEWHOPE_CCAKEM_CIPHERTEXTBYTES); /* overwrite coins in k_coins_d with h(c) */
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PQCLEAN_NEWHOPE512CCA_CLEAN_cmov(k_coins_d, sk + NEWHOPE_CCAKEM_SECRETKEYBYTES - NEWHOPE_SYMBYTES, NEWHOPE_SYMBYTES, (unsigned char) fail); /* Overwrite pre-k with z on re-encryption failure */
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shake256(ss, NEWHOPE_SYMBYTES, k_coins_d, 2 * NEWHOPE_SYMBYTES); /* hash concatenation of pre-k and h(c) to k */
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return 0;
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}
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