encrypt.c 5.78 KB
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#include "api.h"
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#include "ascon.h"
#include "crypto_aead.h"
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#include "permutations.h"
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#include "printstate.h"
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#if !ASCON_INLINE_MODE
#undef forceinline
#define forceinline
#endif
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#ifdef ASCON_AEAD_RATE
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forceinline void ascon_loadkey(key_t* key, const uint8_t* k) {
#if CRYPTO_KEYBYTES == 16
  key->k1 = LOAD(k, 8);
  key->k2 = LOAD(k + 8, 8);
#else /* CRYPTO_KEYBYTES == 20 */
  key->k0 = KEYROT(0, LOADBYTES(k, 4));
  key->k1 = LOADBYTES(k + 4, 8);
  key->k2 = LOADBYTES(k + 12, 8);
#endif
}
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forceinline void ascon_initaead(state_t* s, const uint8_t* npub,
                                const key_t* key) {
#if CRYPTO_KEYBYTES == 16
  if (ASCON_AEAD_RATE == 8) s->x[0] = ASCON_128_IV;
  if (ASCON_AEAD_RATE == 16) s->x[0] = ASCON_128A_IV;
#else /* CRYPTO_KEYBYTES == 20 */
  s->x[0] = ASCON_80PQ_IV ^ key->k0;
#endif
  s->x[1] = key->k1;
  s->x[2] = key->k2;
  s->x[3] = LOAD(npub, 8);
  s->x[4] = LOAD(npub + 8, 8);
  printstate("init 1st key xor", s);
  P(s, 12);
#if CRYPTO_KEYBYTES == 20
  s->x[2] ^= key->k0;
#endif
  s->x[3] ^= key->k1;
  s->x[4] ^= key->k2;
  printstate("init 2nd key xor", s);
}
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forceinline void ascon_adata(state_t* s, const uint8_t* ad, uint64_t adlen) {
  const int nr = (ASCON_AEAD_RATE == 8) ? 6 : 8;
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  if (adlen) {
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    /* full associated data blocks */
    while (adlen >= ASCON_AEAD_RATE) {
      s->x[0] ^= LOAD(ad, 8);
      if (ASCON_AEAD_RATE == 16) s->x[1] ^= LOAD(ad + 8, 8);
      printstate("absorb adata", s);
      P(s, nr);
      ad += ASCON_AEAD_RATE;
      adlen -= ASCON_AEAD_RATE;
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    }
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    /* final associated data block */
    uint64_t* px = &s->x[0];
    if (ASCON_AEAD_RATE == 16 && adlen >= 8) {
      s->x[0] ^= LOAD(ad, 8);
      px = &s->x[1];
      ad += 8;
      adlen -= 8;
    }
    *px ^= PAD(adlen);
    if (adlen) *px ^= LOAD(ad, adlen);
    printstate("pad adata", s);
    P(s, nr);
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  }
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  /* domain separation */
  s->x[4] ^= 1;
  printstate("domain separation", s);
}
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forceinline void ascon_encrypt(state_t* s, uint8_t* c, const uint8_t* m,
                               uint64_t mlen) {
  const int nr = (ASCON_AEAD_RATE == 8) ? 6 : 8;
  /* full plaintext blocks */
  while (mlen >= ASCON_AEAD_RATE) {
    s->x[0] ^= LOAD(m, 8);
    STORE(c, s->x[0], 8);
    if (ASCON_AEAD_RATE == 16) {
      s->x[1] ^= LOAD(m + 8, 8);
      STORE(c + 8, s->x[1], 8);
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    }
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    printstate("absorb plaintext", s);
    P(s, nr);
    m += ASCON_AEAD_RATE;
    c += ASCON_AEAD_RATE;
    mlen -= ASCON_AEAD_RATE;
  }
  /* final plaintext block */
  uint64_t* px = &s->x[0];
  if (ASCON_AEAD_RATE == 16 && mlen >= 8) {
    s->x[0] ^= LOAD(m, 8);
    STORE(c, s->x[0], 8);
    px = &s->x[1];
    m += 8;
    c += 8;
    mlen -= 8;
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  }
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  *px ^= PAD(mlen);
  if (mlen) {
    *px ^= LOAD(m, mlen);
    STORE(c, *px, mlen);
  }
  printstate("pad plaintext", s);
}
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forceinline void ascon_decrypt(state_t* s, uint8_t* m, const uint8_t* c,
                               uint64_t clen) {
  const int nr = (ASCON_AEAD_RATE == 8) ? 6 : 8;
  /* full ciphertext blocks */
  while (clen >= ASCON_AEAD_RATE) {
    uint64_t cx = LOAD(c, 8);
    s->x[0] ^= cx;
    STORE(m, s->x[0], 8);
    s->x[0] = cx;
    if (ASCON_AEAD_RATE == 16) {
      cx = LOAD(c + 8, 8);
      s->x[1] ^= cx;
      STORE(m + 8, s->x[1], 8);
      s->x[1] = cx;
    }
    printstate("insert ciphertext", s);
    P(s, nr);
    m += ASCON_AEAD_RATE;
    c += ASCON_AEAD_RATE;
    clen -= ASCON_AEAD_RATE;
  }
  /* final ciphertext block */
  uint64_t* px = &s->x[0];
  if (ASCON_AEAD_RATE == 16 && clen >= 8) {
    uint64_t cx = LOAD(c, 8);
    s->x[0] ^= cx;
    STORE(m, s->x[0], 8);
    s->x[0] = cx;
    px = &s->x[1];
    m += 8;
    c += 8;
    clen -= 8;
  }
  *px ^= PAD(clen);
  if (clen) {
    uint64_t cx = LOAD(c, clen);
    *px ^= cx;
    STORE(m, *px, clen);
    *px = CLEAR(*px, clen);
    *px ^= cx;
  }
  printstate("pad ciphertext", s);
}
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forceinline void ascon_final(state_t* s, const key_t* key) {
#if CRYPTO_KEYBYTES == 16
  if (ASCON_AEAD_RATE == 8) {
    s->x[1] ^= key->k1;
    s->x[2] ^= key->k2;
  } else {
    s->x[2] ^= key->k1;
    s->x[3] ^= key->k2;
  }
#else /* CRYPTO_KEYBYTES == 20 */
  s->x[1] ^= KEYROT(key->k0, key->k1);
  s->x[2] ^= KEYROT(key->k1, key->k2);
  s->x[3] ^= KEYROT(key->k2, 0);
#endif
  printstate("final 1st key xor", s);
  P(s, 12);
  s->x[3] ^= key->k1;
  s->x[4] ^= key->k2;
  printstate("final 2nd key xor", s);
}
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int crypto_aead_encrypt(unsigned char* c, unsigned long long* clen,
                        const unsigned char* m, unsigned long long mlen,
                        const unsigned char* ad, unsigned long long adlen,
                        const unsigned char* nsec, const unsigned char* npub,
                        const unsigned char* k) {
  state_t s;
  (void)nsec;
  *clen = mlen + CRYPTO_ABYTES;
  /* perform ascon computation */
  key_t key;
  ascon_loadkey(&key, k);
  ascon_initaead(&s, npub, &key);
  ascon_adata(&s, ad, adlen);
  ascon_encrypt(&s, c, m, mlen);
  ascon_final(&s, &key);
  /* set tag */
  STOREBYTES(c + mlen, s.x[3], 8);
  STOREBYTES(c + mlen + 8, s.x[4], 8);
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  return 0;
}

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int crypto_aead_decrypt(unsigned char* m, unsigned long long* mlen,
                        unsigned char* nsec, const unsigned char* c,
                        unsigned long long clen, const unsigned char* ad,
                        unsigned long long adlen, const unsigned char* npub,
                        const unsigned char* k) {
  state_t s;
  (void)nsec;
  if (clen < CRYPTO_ABYTES) return -1;
  *mlen = clen = clen - CRYPTO_ABYTES;
  /* perform ascon computation */
  key_t key;
  ascon_loadkey(&key, k);
  ascon_initaead(&s, npub, &key);
  ascon_adata(&s, ad, adlen);
  ascon_decrypt(&s, m, c, clen);
  ascon_final(&s, &key);
  /* verify tag (should be constant time, check compiler output) */
  s.x[3] ^= LOADBYTES(c + clen, 8);
  s.x[4] ^= LOADBYTES(c + clen + 8, 8);
  return NOTZERO(s.x[3], s.x[4]);
}

#endif