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C++ LTC_ARGCHK函数代码示例

原作者: [db:作者] 来自: [db:来源] 收藏 邀请

本文整理汇总了C++中LTC_ARGCHK函数的典型用法代码示例。如果您正苦于以下问题:C++ LTC_ARGCHK函数的具体用法?C++ LTC_ARGCHK怎么用?C++ LTC_ARGCHK使用的例子?那么恭喜您, 这里精选的函数代码示例或许可以为您提供帮助。



在下文中一共展示了LTC_ARGCHK函数的20个代码示例,这些例子默认根据受欢迎程度排序。您可以为喜欢或者感觉有用的代码点赞,您的评价将有助于我们的系统推荐出更棒的C++代码示例。

示例1: signature

/**
   Verify the signature given
   @param sig        The signature
   @param siglen     The length of the signature (octets)
   @param hash       The hash that was signed
   @param hashlen    The length of the hash (octets)
   @param stat       [out] Result of signature comparison, 1==valid, 0==invalid
   @param key        The public DH key that signed the hash
   @return CRYPT_OK if succsessful (even if signature is invalid)
*/
int dh_verify_hash(const unsigned char *sig, unsigned long siglen,
                   const unsigned char *hash, unsigned long hashlen, 
                         int *stat, dh_key *key)
{
   mp_int        a, b, p, g, m, tmp;
   unsigned long x, y;
   int           err;

   LTC_ARGCHK(sig  != NULL);
   LTC_ARGCHK(hash != NULL);
   LTC_ARGCHK(stat != NULL);
   LTC_ARGCHK(key  != NULL);

   /* default to invalid */
   *stat = 0;

   /* check initial input length */
   if (siglen < PACKET_SIZE+4+4) {
      return CRYPT_INVALID_PACKET;
   } 

   /* header ok? */
   if ((err = packet_valid_header((unsigned char *)sig, PACKET_SECT_DH, PACKET_SUB_SIGNED)) != CRYPT_OK) {
      return err;
   }
   
   /* get hash out of packet */
   y = PACKET_SIZE;

   /* init all bignums */
   if ((err = mp_init_multi(&a, &p, &b, &g, &m, &tmp, NULL)) != MP_OKAY) { 
      return mpi_to_ltc_error(err);
   }

   /* load a and b */
   INPUT_BIGNUM(&a, sig, x, y, siglen);
   INPUT_BIGNUM(&b, sig, x, y, siglen);

   /* load p and g */
   if ((err = mp_read_radix(&p, sets[key->idx].prime, 64)) != MP_OKAY)              { goto error1; }
   if ((err = mp_read_radix(&g, sets[key->idx].base, 64)) != MP_OKAY)               { goto error1; }

   /* load m */
   if ((err = mp_read_unsigned_bin(&m, (unsigned char *)hash, hashlen)) != MP_OKAY) { goto error1; }

   /* find g^m mod p */
   if ((err = mp_exptmod(&g, &m, &p, &m)) != MP_OKAY)                { goto error1; } /* m = g^m mod p */

   /* find y^a * a^b */
   if ((err = mp_exptmod(&key->y, &a, &p, &tmp)) != MP_OKAY)         { goto error1; } /* tmp = y^a mod p */
   if ((err = mp_exptmod(&a, &b, &p, &a)) != MP_OKAY)                { goto error1; } /* a = a^b mod p */
   if ((err = mp_mulmod(&a, &tmp, &p, &a)) != MP_OKAY)               { goto error1; } /* a = y^a * a^b mod p */

   /* y^a * a^b == g^m ??? */
   if (mp_cmp(&a, &m) == 0) {
      *stat = 1;
   }

   /* clean up */
   err = CRYPT_OK;
   goto done;
error1:
   err = mpi_to_ltc_error(err);
error:
done:
   mp_clear_multi(&tmp, &m, &g, &p, &b, &a, NULL);
   return err;
}
开发者ID:adulau,项目名称:mosvm,代码行数:78,代码来源:dh_sys.c


示例2: hmac_done

/**
   Terminate an HMAC session
   @param hmac    The HMAC state
   @param out     [out] The destination of the HMAC authentication tag
   @param outlen  [in/out]  The max size and resulting size of the HMAC authentication tag
   @return CRYPT_OK if successful
*/
int hmac_done(hmac_state *hmac, unsigned char *out, unsigned long *outlen)
{
    unsigned char *buf, *isha;
    unsigned long hashsize, i;
    int hash, err;

    LTC_ARGCHK(hmac  != NULL);
    LTC_ARGCHK(out   != NULL);

    /* test hash */
    hash = hmac->hash;
    if((err = hash_is_valid(hash)) != CRYPT_OK) {
        return err;
    }

    /* get the hash message digest size */
    hashsize = hash_descriptor[hash].hashsize;

    /* allocate buffers */
    buf  = XMALLOC(LTC_HMAC_BLOCKSIZE);
    isha = XMALLOC(hashsize);
    if (buf == NULL || isha == NULL) {
       if (buf != NULL) {
          XFREE(buf);
       }
       if (isha != NULL) {
          XFREE(isha);
       }
       return CRYPT_MEM;
    }

    /* Get the hash of the first HMAC vector plus the data */
    if ((err = hash_descriptor[hash].done(&hmac->md, isha)) != CRYPT_OK) {
       goto LBL_ERR;
    }

    /* Create the second HMAC vector vector for step (3) */
    for(i=0; i < LTC_HMAC_BLOCKSIZE; i++) {
        buf[i] = hmac->key[i] ^ 0x5C;
    }

    /* Now calculate the "outer" hash for step (5), (6), and (7) */
    if ((err = hash_descriptor[hash].init(&hmac->md)) != CRYPT_OK) {
       goto LBL_ERR;
    }
    if ((err = hash_descriptor[hash].process(&hmac->md, buf, LTC_HMAC_BLOCKSIZE)) != CRYPT_OK) {
       goto LBL_ERR;
    }
    if ((err = hash_descriptor[hash].process(&hmac->md, isha, hashsize)) != CRYPT_OK) {
       goto LBL_ERR;
    }
    if ((err = hash_descriptor[hash].done(&hmac->md, buf)) != CRYPT_OK) {
       goto LBL_ERR;
    }

    /* copy to output  */
    for (i = 0; i < hashsize && i < *outlen; i++) {
        out[i] = buf[i];
    }
    *outlen = i;

    err = CRYPT_OK;
LBL_ERR:
    XFREE(hmac->key);
#ifdef LTC_CLEAN_STACK
    zeromem(isha, hashsize);
    zeromem(buf,  hashsize);
    zeromem(hmac, sizeof(*hmac));
#endif

    XFREE(isha);
    XFREE(buf);

    return err;
}
开发者ID:mrotteveel,项目名称:firebird,代码行数:82,代码来源:hmac_done.c


示例3: montgomery_setup

/**
   Add two ECC points
   @param P        The point to add
   @param Q        The point to add
   @param R        [out] The destination of the double
   @param modulus  The modulus of the field the ECC curve is in
   @param mp       The "b" value from montgomery_setup()
   @return CRYPT_OK on success
*/
int ltc_ecc_projective_add_point(ecc_point *P, ecc_point *Q, ecc_point *R, void *modulus, void *mp)
{
   void  *t1, *t2, *x, *y, *z;
   int    err;

   LTC_ARGCHK(P       != NULL);
   LTC_ARGCHK(Q       != NULL);
   LTC_ARGCHK(R       != NULL);
   LTC_ARGCHK(modulus != NULL);
   LTC_ARGCHK(mp      != NULL);

   if ((err = mp_init_multi(&t1, &t2, &x, &y, &z, NULL)) != CRYPT_OK) {
      return err;
   }
   
   /* should we dbl instead? */
   if ((err = mp_sub(modulus, Q->y, t1)) != CRYPT_OK)                          { goto done; }

   if ( (mp_cmp(P->x, Q->x) == LTC_MP_EQ) && 
        (Q->z != NULL && mp_cmp(P->z, Q->z) == LTC_MP_EQ) &&
        (mp_cmp(P->y, Q->y) == LTC_MP_EQ || mp_cmp(P->y, t1) == LTC_MP_EQ)) {
        mp_clear_multi(t1, t2, x, y, z, NULL);
        return ltc_ecc_projective_dbl_point(P, R, modulus, mp);
   }

   if ((err = mp_copy(P->x, x)) != CRYPT_OK)                                   { goto done; }
   if ((err = mp_copy(P->y, y)) != CRYPT_OK)                                   { goto done; }
   if ((err = mp_copy(P->z, z)) != CRYPT_OK)                                   { goto done; }

   /* if Z is one then these are no-operations */
   if (Q->z != NULL) {
      /* T1 = Z' * Z' */
      if ((err = mp_sqr(Q->z, t1)) != CRYPT_OK)                                { goto done; }
      if ((err = mp_montgomery_reduce(t1, modulus, mp)) != CRYPT_OK)           { goto done; }
      /* X = X * T1 */
      if ((err = mp_mul(t1, x, x)) != CRYPT_OK)                                { goto done; }
      if ((err = mp_montgomery_reduce(x, modulus, mp)) != CRYPT_OK)            { goto done; }
      /* T1 = Z' * T1 */
      if ((err = mp_mul(Q->z, t1, t1)) != CRYPT_OK)                            { goto done; }
      if ((err = mp_montgomery_reduce(t1, modulus, mp)) != CRYPT_OK)           { goto done; }
      /* Y = Y * T1 */
      if ((err = mp_mul(t1, y, y)) != CRYPT_OK)                                { goto done; }
      if ((err = mp_montgomery_reduce(y, modulus, mp)) != CRYPT_OK)            { goto done; }
   }

   /* T1 = Z*Z */
   if ((err = mp_sqr(z, t1)) != CRYPT_OK)                                      { goto done; }
   if ((err = mp_montgomery_reduce(t1, modulus, mp)) != CRYPT_OK)              { goto done; }
   /* T2 = X' * T1 */
   if ((err = mp_mul(Q->x, t1, t2)) != CRYPT_OK)                               { goto done; }
   if ((err = mp_montgomery_reduce(t2, modulus, mp)) != CRYPT_OK)              { goto done; }
   /* T1 = Z * T1 */
   if ((err = mp_mul(z, t1, t1)) != CRYPT_OK)                                  { goto done; }
   if ((err = mp_montgomery_reduce(t1, modulus, mp)) != CRYPT_OK)              { goto done; }
   /* T1 = Y' * T1 */
   if ((err = mp_mul(Q->y, t1, t1)) != CRYPT_OK)                               { goto done; }
   if ((err = mp_montgomery_reduce(t1, modulus, mp)) != CRYPT_OK)              { goto done; }

   /* Y = Y - T1 */
   if ((err = mp_sub(y, t1, y)) != CRYPT_OK)                                   { goto done; }
   if (mp_cmp_d(y, 0) == LTC_MP_LT) {
      if ((err = mp_add(y, modulus, y)) != CRYPT_OK)                           { goto done; }
   }
   /* T1 = 2T1 */
   if ((err = mp_add(t1, t1, t1)) != CRYPT_OK)                                 { goto done; }
   if (mp_cmp(t1, modulus) != LTC_MP_LT) {
      if ((err = mp_sub(t1, modulus, t1)) != CRYPT_OK)                         { goto done; }
   }
   /* T1 = Y + T1 */
   if ((err = mp_add(t1, y, t1)) != CRYPT_OK)                                  { goto done; }
   if (mp_cmp(t1, modulus) != LTC_MP_LT) {
      if ((err = mp_sub(t1, modulus, t1)) != CRYPT_OK)                         { goto done; }
   }
   /* X = X - T2 */
   if ((err = mp_sub(x, t2, x)) != CRYPT_OK)                                   { goto done; }
   if (mp_cmp_d(x, 0) == LTC_MP_LT) {
      if ((err = mp_add(x, modulus, x)) != CRYPT_OK)                           { goto done; }
   }
   /* T2 = 2T2 */
   if ((err = mp_add(t2, t2, t2)) != CRYPT_OK)                                 { goto done; }
   if (mp_cmp(t2, modulus) != LTC_MP_LT) {
      if ((err = mp_sub(t2, modulus, t2)) != CRYPT_OK)                         { goto done; }
   }
   /* T2 = X + T2 */
   if ((err = mp_add(t2, x, t2)) != CRYPT_OK)                                  { goto done; }
   if (mp_cmp(t2, modulus) != LTC_MP_LT) {
      if ((err = mp_sub(t2, modulus, t2)) != CRYPT_OK)                         { goto done; }
   }

   /* if Z' != 1 */
   if (Q->z != NULL) {
//.........这里部分代码省略.........
开发者ID:mooinglemur,项目名称:openitg,代码行数:101,代码来源:ltc_ecc_projective_add_point.c


示例4: length

/** 
  Process plaintext/ciphertext through GCM
  @param gcm       The GCM state 
  @param pt        The plaintext
  @param ptlen     The plaintext length (ciphertext length is the same)
  @param ct        The ciphertext
  @param direction Encrypt or Decrypt mode (GCM_ENCRYPT or GCM_DECRYPT)
  @return CRYPT_OK on success
 */
int gcm_process(gcm_state *gcm,
                     unsigned char *pt,     unsigned long ptlen,
                     unsigned char *ct,
                     int direction)
{
   unsigned long x;
   int           y, err;
   unsigned char b;

   LTC_ARGCHK(gcm != NULL);
   if (ptlen > 0) {
      LTC_ARGCHK(pt  != NULL);
      LTC_ARGCHK(ct  != NULL);
   }

   if (gcm->buflen > 16 || gcm->buflen < 0) {
      return CRYPT_INVALID_ARG;
   }
 
   if ((err = cipher_is_valid(gcm->cipher)) != CRYPT_OK) {
      return err;
   }

   /* in AAD mode? */
   if (gcm->mode == GCM_MODE_AAD) {
      /* let's process the AAD */
      if (gcm->buflen) {
         gcm->totlen += gcm->buflen * CONST64(8);
         gcm_mult_h(gcm, gcm->X);
      }

      /* increment counter */
      for (y = 15; y >= 12; y--) {
          if (++gcm->Y[y] & 255) { break; }
      }
      /* encrypt the counter */
      if ((err = cipher_descriptor[gcm->cipher].ecb_encrypt(gcm->Y, gcm->buf, &gcm->K)) != CRYPT_OK) {
         return err;
      }

      gcm->buflen = 0;
      gcm->mode   = GCM_MODE_TEXT;
   }

   if (gcm->mode != GCM_MODE_TEXT) {
      return CRYPT_INVALID_ARG;
   }

   x = 0;
#ifdef LTC_FAST
   if (gcm->buflen == 0) {
      if (direction == GCM_ENCRYPT) { 
         for (x = 0; x < (ptlen & ~15); x += 16) {
             /* ctr encrypt */
             for (y = 0; y < 16; y += sizeof(LTC_FAST_TYPE)) {
                 *((LTC_FAST_TYPE*)(&ct[x + y])) = *((LTC_FAST_TYPE*)(&pt[x+y])) ^ *((LTC_FAST_TYPE*)(&gcm->buf[y]));
                 *((LTC_FAST_TYPE*)(&gcm->X[y])) ^= *((LTC_FAST_TYPE*)(&ct[x+y]));
             }
             /* GMAC it */
             gcm->pttotlen += 128;
             gcm_mult_h(gcm, gcm->X);
             /* increment counter */
             for (y = 15; y >= 12; y--) {
                 if (++gcm->Y[y] & 255) { break; }
             }
             if ((err = cipher_descriptor[gcm->cipher].ecb_encrypt(gcm->Y, gcm->buf, &gcm->K)) != CRYPT_OK) {
                return err;
             }
         }
      } else {
         for (x = 0; x < (ptlen & ~15); x += 16) {
             /* ctr encrypt */
             for (y = 0; y < 16; y += sizeof(LTC_FAST_TYPE)) {
                 *((LTC_FAST_TYPE*)(&gcm->X[y])) ^= *((LTC_FAST_TYPE*)(&ct[x+y]));
                 *((LTC_FAST_TYPE*)(&pt[x + y])) = *((LTC_FAST_TYPE*)(&ct[x+y])) ^ *((LTC_FAST_TYPE*)(&gcm->buf[y]));
             }
             /* GMAC it */
             gcm->pttotlen += 128;
             gcm_mult_h(gcm, gcm->X);
             /* increment counter */
             for (y = 15; y >= 12; y--) {
                 if (++gcm->Y[y] & 255) { break; }
             }
             if ((err = cipher_descriptor[gcm->cipher].ecb_encrypt(gcm->Y, gcm->buf, &gcm->K)) != CRYPT_OK) {
                return err;
             }
         }
     }
   }
#endif        

//.........这里部分代码省略.........
开发者ID:mooinglemur,项目名称:openitg,代码行数:101,代码来源:gcm_process.c


示例5: rc4_done

/**
  Terminate the PRNG
  @param prng   The PRNG to terminate
  @return CRYPT_OK if successful
*/
int rc4_done(prng_state *prng)
{
   LTC_ARGCHK(prng != NULL);
   return CRYPT_OK;
}
开发者ID:MalaGaM,项目名称:nxscripts,代码行数:10,代码来源:rc4.c


示例6: ecc_import_ex

/**
  Import an ECC key from a binary packet, using user supplied domain params rather than one of the NIST ones
  @param in      The packet to import
  @param inlen   The length of the packet
  @param key     [out] The destination of the import
  @param cu      pointer to user supplied params; must be the same as the params used when exporting
  @return CRYPT_OK if successful, upon error all allocated memory will be freed
*/
int ecc_import_ex(const unsigned char *in, unsigned long inlen, ecc_key *key, const ltc_ecc_curve *cu)
{
   unsigned long key_size;
   unsigned char flags[1];
   int           err;

   LTC_ARGCHK(in  != NULL);
   LTC_ARGCHK(key != NULL);
   LTC_ARGCHK(ltc_mp.name != NULL);

   /* find out what type of key it is */
   err = der_decode_sequence_multi(in, inlen, LTC_ASN1_BIT_STRING,    1UL, flags,
                                              LTC_ASN1_SHORT_INTEGER, 1UL, &key_size,
                                              LTC_ASN1_EOL,           0UL, NULL);
   if (err != CRYPT_OK && err != CRYPT_INPUT_TOO_LONG) {
      return err;
   }

   /* allocate & initialize the key */
   if (cu == NULL) {
      if ((err = ecc_set_curve_by_size(key_size, key)) != CRYPT_OK) { goto done; }
   } else {
      if ((err = ecc_set_curve(cu, key)) != CRYPT_OK)               { goto done; }
   }

   if (flags[0] == 1) {
      /* private key */
      key->type = PK_PRIVATE;
      if ((err = der_decode_sequence_multi(in, inlen,
                                     LTC_ASN1_BIT_STRING,      1UL, flags,
                                     LTC_ASN1_SHORT_INTEGER,   1UL, &key_size,
                                     LTC_ASN1_INTEGER,         1UL, key->pubkey.x,
                                     LTC_ASN1_INTEGER,         1UL, key->pubkey.y,
                                     LTC_ASN1_INTEGER,         1UL, key->k,
                                     LTC_ASN1_EOL,             0UL, NULL)) != CRYPT_OK) {
         goto done;
      }
   } else if (flags[0] == 0) {
      /* public key */
      key->type = PK_PUBLIC;
      if ((err = der_decode_sequence_multi(in, inlen,
                                     LTC_ASN1_BIT_STRING,      1UL, flags,
                                     LTC_ASN1_SHORT_INTEGER,   1UL, &key_size,
                                     LTC_ASN1_INTEGER,         1UL, key->pubkey.x,
                                     LTC_ASN1_INTEGER,         1UL, key->pubkey.y,
                                     LTC_ASN1_EOL,             0UL, NULL)) != CRYPT_OK) {
         goto done;
      }
   }
   else {
      err = CRYPT_INVALID_PACKET;
      goto done;
   }

   /* set z */
   if ((err = mp_set(key->pubkey.z, 1)) != CRYPT_OK) { goto done; }

   /* point on the curve + other checks */
   if ((err = ltc_ecc_verify_key(key)) != CRYPT_OK)  { goto done; }

   /* we're good */
   return CRYPT_OK;

done:
   ecc_free(key);
   return err;
}
开发者ID:DCIT,项目名称:perl-CryptX,代码行数:75,代码来源:ecc_import.c


示例7: hkdf_expand

int hkdf_expand(int hash_idx, const unsigned char *info, unsigned long infolen,
                              const unsigned char *in,   unsigned long inlen,
                                    unsigned char *out,  unsigned long outlen)
{
   unsigned long hashsize;
   int err;
   unsigned char N;
   unsigned long Noutlen, outoff;

   unsigned char *T,  *dat;
   unsigned long Tlen, datlen;

   /* make sure hash descriptor is valid */
   if ((err = hash_is_valid(hash_idx)) != CRYPT_OK) {
      return err;
   }

   hashsize = hash_descriptor[hash_idx].hashsize;

   /* RFC5869 parameter restrictions */
   if (inlen < hashsize || outlen > hashsize * 255)
      return CRYPT_INVALID_ARG;
   if (info == NULL && infolen != 0)
      return CRYPT_INVALID_ARG;
   LTC_ARGCHK(out != NULL);

   Tlen = hashsize + infolen + 1;
   T = XMALLOC(Tlen); /* Replace with static buffer? */
   if (T == NULL) {
      return CRYPT_MEM;
   }
   if (info != NULL) {
      XMEMCPY(T + hashsize, info, infolen);
   }

   /* HMAC data T(1) doesn't include a previous hash value */
   dat    = T    + hashsize;
   datlen = Tlen - hashsize;

   N = 0;
   outoff = 0; /* offset in out to write to */
   while (1) { /* an exit condition breaks mid-loop */
      Noutlen = MIN(hashsize, outlen - outoff);
      T[Tlen - 1] = ++N;
      if ((err = hmac_memory(hash_idx, in, inlen, dat, datlen,
                             out + outoff, &Noutlen)) != CRYPT_OK) {
         zeromem(T, Tlen);
         XFREE(T);
         return err;
      }
      outoff += Noutlen;

      if (outoff >= outlen) /* loop exit condition */
         break;

      /* All subsequent HMAC data T(N) DOES include the previous hash value */
      XMEMCPY(T, out + hashsize * (N-1), hashsize);
      if (N == 1) {
         dat = T;
         datlen = Tlen;
      }
   }
   zeromem(T, Tlen);
   XFREE(T);
   return CRYPT_OK;
}
开发者ID:FirebirdSQL,项目名称:firebird,代码行数:66,代码来源:hkdf.c


示例8: ecc_make_key_ex

int ecc_make_key_ex(prng_state *prng, int wprng, ecc_key *key, const ltc_ecc_set_type *dp)
{
   int            err;
   ecc_point     *base;
   void          *prime, *order;
   unsigned char *buf;
   int            keysize;

   LTC_ARGCHK(key         != NULL);
   LTC_ARGCHK(ltc_mp.name != NULL);
   LTC_ARGCHK(dp          != NULL);

   /* good prng? */
   if ((err = prng_is_valid(wprng)) != CRYPT_OK) {
      return err;
   }

   key->idx = -1;
   key->dp  = dp;
   keysize  = dp->size;

   /* allocate ram */
   base = NULL;
   buf  = XMALLOC(ECC_MAXSIZE);
   if (buf == NULL) {
      return CRYPT_MEM;
   }

   /* make up random string */
   if (prng_descriptor[wprng].read(buf, (unsigned long)keysize, prng) != (unsigned long)keysize) {
      err = CRYPT_ERROR_READPRNG;
      goto ERR_BUF;
   }

   /* setup the key variables */
   if ((err = mp_init_multi(&key->pubkey.x, &key->pubkey.y, &key->pubkey.z, &key->k, &prime, &order, NULL)) != CRYPT_OK) {
      goto ERR_BUF;
   }
   base = ltc_ecc_new_point();
   if (base == NULL) {
      err = CRYPT_MEM;
      goto errkey;
   }

   /* read in the specs for this key */
   if ((err = mp_read_radix(prime,   (char *)key->dp->prime, 16)) != CRYPT_OK)                  { goto errkey; }
   if ((err = mp_read_radix(order,   (char *)key->dp->order, 16)) != CRYPT_OK)                  { goto errkey; }
   if ((err = mp_read_radix(base->x, (char *)key->dp->Gx, 16)) != CRYPT_OK)                     { goto errkey; }
   if ((err = mp_read_radix(base->y, (char *)key->dp->Gy, 16)) != CRYPT_OK)                     { goto errkey; }
   if ((err = mp_set(base->z, 1)) != CRYPT_OK)                                                  { goto errkey; }
   if ((err = mp_read_unsigned_bin(key->k, (unsigned char *)buf, keysize)) != CRYPT_OK)         { goto errkey; }

   /* the key should be smaller than the order of base point */
   if (mp_cmp(key->k, order) != LTC_MP_LT) {
       if((err = mp_mod(key->k, order, key->k)) != CRYPT_OK)                                    { goto errkey; }
   }
   /* make the public key */
   if ((err = ltc_mp.ecc_ptmul(key->k, base, &key->pubkey, prime, 1)) != CRYPT_OK)              { goto errkey; }
   key->type = PK_PRIVATE;

   /* free up ram */
   err = CRYPT_OK;
   goto cleanup;
errkey:
   mp_clear_multi(key->pubkey.x, key->pubkey.y, key->pubkey.z, key->k, NULL);
cleanup:
   ltc_ecc_del_point(base);
   mp_clear_multi(prime, order, NULL);
ERR_BUF:
#ifdef LTC_CLEAN_STACK
   zeromem(buf, ECC_MAXSIZE);
#endif
   XFREE(buf);
   return err;
}
开发者ID:mkj,项目名称:dropbear,代码行数:75,代码来源:ecc_make_key.c


示例9: der_length_boolean

/**
  Gets length of DER encoding of a BOOLEAN
  @param outlen [out] The length of the DER encoding
  @return CRYPT_OK if successful
*/
int der_length_boolean(unsigned long *outlen)
{
   LTC_ARGCHK(outlen != NULL);
   *outlen = 3;
   return CRYPT_OK;
}
开发者ID:48jir,项目名称:SkyFireEMU,代码行数:11,代码来源:der_length_boolean.c


示例10: encrypt

/**
  Encrypt a symmetric key with DSA
  @param in         The symmetric key you want to encrypt
  @param inlen      The length of the key to encrypt (octets)
  @param out        [out] The destination for the ciphertext
  @param outlen     [in/out] The max size and resulting size of the ciphertext
  @param prng       An active PRNG state
  @param wprng      The index of the PRNG you wish to use 
  @param hash       The index of the hash you want to use 
  @param key        The DSA key you want to encrypt to
  @return CRYPT_OK if successful
*/
int dsa_encrypt_key(const unsigned char *in,   unsigned long inlen,
                          unsigned char *out,  unsigned long *outlen, 
                          prng_state *prng, int wprng, int hash, 
                          dsa_key *key)
{
    unsigned char *expt, *skey;
    void          *g_pub, *g_priv;
    unsigned long  x, y;
    int            err;

    LTC_ARGCHK(in      != NULL);
    LTC_ARGCHK(out     != NULL);
    LTC_ARGCHK(outlen  != NULL);
    LTC_ARGCHK(key     != NULL);

    /* check that wprng/cipher/hash are not invalid */
    if ((err = prng_is_valid(wprng)) != CRYPT_OK) {
       return err;
    }

    if ((err = hash_is_valid(hash)) != CRYPT_OK) {
       return err;
    }

    if (inlen > hash_descriptor[hash].hashsize) {
       return CRYPT_INVALID_HASH;
    }

    /* make a random key and export the public copy */
    if ((err = mp_init_multi(&g_pub, &g_priv, NULL)) != CRYPT_OK) {
       return err;
    }
   
    expt       = XMALLOC(mp_unsigned_bin_size(key->p) + 1);
    skey       = XMALLOC(MAXBLOCKSIZE);
    if (expt == NULL  || skey == NULL) {
       if (expt != NULL) {
          XFREE(expt);
       }
       if (skey != NULL) {
          XFREE(skey);
       }
       mp_clear_multi(g_pub, g_priv, NULL);
       return CRYPT_MEM;
    }
    
    /* make a random x, g^x pair */
    x = mp_unsigned_bin_size(key->q);
    if (prng_descriptor[wprng].read(expt, x, prng) != x) {
       err = CRYPT_ERROR_READPRNG;
       goto LBL_ERR;
    }
    
    /* load x */
    if ((err = mp_read_unsigned_bin(g_priv, expt, x)) != CRYPT_OK) {
       goto LBL_ERR;
    }
    
    /* compute y */
    if ((err = mp_exptmod(key->g, g_priv, key->p, g_pub)) != CRYPT_OK) {
       goto LBL_ERR;
    }
    
    /* make random key */
    x        = mp_unsigned_bin_size(key->p) + 1;
    if ((err = dsa_shared_secret(g_priv, key->y, key, expt, &x)) != CRYPT_OK) {
       goto LBL_ERR;
    }

    y = MAXBLOCKSIZE;
    if ((err = hash_memory(hash, expt, x, skey, &y)) != CRYPT_OK) {
       goto LBL_ERR;
    }
    
    /* Encrypt key */
    for (x = 0; x < inlen; x++) {
      skey[x] ^= in[x];
    }

    err = der_encode_sequence_multi(out, outlen,
                                    LTC_ASN1_OBJECT_IDENTIFIER,  hash_descriptor[hash].OIDlen,   hash_descriptor[hash].OID,
                                    LTC_ASN1_INTEGER,            1UL,                            g_pub,
                                    LTC_ASN1_OCTET_STRING,       inlen,                          skey,
                                    LTC_ASN1_EOL,                0UL,                            NULL);

LBL_ERR:
#ifdef LTC_CLEAN_STACK
    /* clean up */
//.........这里部分代码省略.........
开发者ID:Kazu-zamasu,项目名称:kinomajs,代码行数:101,代码来源:dsa_encrypt_key.c


示例11: signature

/**
   Verify an ECC signature
   @param sig         The signature to verify
   @param siglen      The length of the signature (octets)
   @param hash        The hash (message digest) that was signed
   @param hashlen     The length of the hash (octets)
   @param stat        Result of signature, 1==valid, 0==invalid
   @param key         The corresponding public ECC key
   @return CRYPT_OK if successful (even if the signature is not valid)
*/
int ecc_verify_hash(const unsigned char *sig,  unsigned long siglen,
                    const unsigned char *hash, unsigned long hashlen, 
                    int *stat, ecc_key *key)
{
   ecc_point    *mG, *mQ;
   void          *r, *s, *v, *w, *u1, *u2, *e, *p, *m;
   void          *mp;
   int           err;

   LTC_ARGCHK(sig  != NULL);
   LTC_ARGCHK(hash != NULL);
   LTC_ARGCHK(stat != NULL);
   LTC_ARGCHK(key  != NULL);

   /* default to invalid signature */
   *stat = 0;
   mp    = NULL;

   /* is the IDX valid ?  */
   if (ltc_ecc_is_valid_idx(key->idx) != 1) {
      return CRYPT_PK_INVALID_TYPE;
   }

   /* allocate ints */
   if ((err = mp_init_multi(&r, &s, &v, &w, &u1, &u2, &p, &e, &m, NULL)) != CRYPT_OK) {
      return CRYPT_MEM;
   }

   /* allocate points */
   mG = ltc_ecc_new_point();
   mQ = ltc_ecc_new_point();
   if (mQ  == NULL || mG == NULL) {
      err = CRYPT_MEM;
      goto error;
   }

   /* parse header */
   if ((err = der_decode_sequence_multi(sig, siglen,
                                  LTC_ASN1_INTEGER, 1UL, r,
                                  LTC_ASN1_INTEGER, 1UL, s,
                                  LTC_ASN1_EOL, 0UL, NULL)) != CRYPT_OK) {
      goto error;
   }

   /* get the order */
   if ((err = mp_read_radix(p, (char *)key->dp->order, 16)) != CRYPT_OK)                                { goto error; }

   /* get the modulus */
   if ((err = mp_read_radix(m, (char *)key->dp->prime, 16)) != CRYPT_OK)                                { goto error; }

   /* check for zero */
   if (mp_iszero(r) || mp_iszero(s) || mp_cmp(r, p) != LTC_MP_LT || mp_cmp(s, p) != LTC_MP_LT) {
      err = CRYPT_INVALID_PACKET;
      goto error;
   }

   /* read hash */
   if ((err = mp_read_unsigned_bin(e, (unsigned char *)hash, (int)hashlen)) != CRYPT_OK)                { goto error; }

   /*  w  = s^-1 mod n */
   if ((err = mp_invmod(s, p, w)) != CRYPT_OK)                                                          { goto error; }

   /* u1 = ew */
   if ((err = mp_mulmod(e, w, p, u1)) != CRYPT_OK)                                                      { goto error; }

   /* u2 = rw */
   if ((err = mp_mulmod(r, w, p, u2)) != CRYPT_OK)                                                      { goto error; }

   /* find mG and mQ */
   if ((err = mp_read_radix(mG->x, (char *)key->dp->Gx, 16)) != CRYPT_OK)                               { goto error; }
   if ((err = mp_read_radix(mG->y, (char *)key->dp->Gy, 16)) != CRYPT_OK)                               { goto error; }
   if ((err = mp_set(mG->z, 1)) != CRYPT_OK)                                                            { goto error; }

   if ((err = mp_copy(key->pubkey.x, mQ->x)) != CRYPT_OK)                                               { goto error; }
   if ((err = mp_copy(key->pubkey.y, mQ->y)) != CRYPT_OK)                                               { goto error; }
   if ((err = mp_copy(key->pubkey.z, mQ->z)) != CRYPT_OK)                                               { goto error; }

   /* compute u1*mG + u2*mQ = mG */
   if (ltc_mp.ecc_mul2add == NULL) {
      if ((err = ltc_mp.ecc_ptmul(u1, mG, mG, m, 0)) != CRYPT_OK)                                       { goto error; }
      if ((err = ltc_mp.ecc_ptmul(u2, mQ, mQ, m, 0)) != CRYPT_OK)                                       { goto error; }
  
      /* find the montgomery mp */
      if ((err = mp_montgomery_setup(m, &mp)) != CRYPT_OK)                                              { goto error; }

      /* add them */
      if ((err = ltc_mp.ecc_ptadd(mQ, mG, mG, m, mp)) != CRYPT_OK)                                      { goto error; }
   
      /* reduce */
      if ((err = ltc_mp.ecc_map(mG, m, mp)) != CRYPT_OK)                                                { goto error; }
//.........这里部分代码省略.........
开发者ID:AllardJ,项目名称:Tomato,代码行数:101,代码来源:ecc_verify_hash.c


示例12: der_length_sequence

/**
   Get the length of a DER sequence
   @param list   The sequences of items in the SEQUENCE
   @param inlen  The number of items
   @param outlen [out] The length required in octets to store it
   @return CRYPT_OK on success
*/
int der_length_sequence(ltc_asn1_list *list, unsigned long inlen,
                        unsigned long *outlen)
{
   int           err, type;
   unsigned long size, x, y, z, i;
   void          *data;

   LTC_ARGCHK(list    != NULL);
   LTC_ARGCHK(outlen  != NULL);

   /* get size of output that will be required */
   y = 0;
   for (i = 0; i < inlen; i++) {
       type = list[i].type;
       size = list[i].size;
       data = list[i].data;

       if (type == LTC_ASN1_EOL) {
          break;
       }

       switch (type) {
           case LTC_ASN1_BOOLEAN:
              if ((err = der_length_boolean(&x)) != CRYPT_OK) {
                 goto LBL_ERR;
              }
              y += x;
              break;

           case LTC_ASN1_INTEGER:
               if ((err = der_length_integer(data, &x)) != CRYPT_OK) {
                  goto LBL_ERR;
               }
               y += x;
               break;

           case LTC_ASN1_SHORT_INTEGER:
               if ((err = der_length_short_integer(*((unsigned long *)data), &x)) != CRYPT_OK) {
                  goto LBL_ERR;
               }
               y += x;
               break;

           case LTC_ASN1_BIT_STRING:
               if ((err = der_length_bit_string(size, &x)) != CRYPT_OK) {
                  goto LBL_ERR;
               }
               y += x;
               break;

           case LTC_ASN1_OCTET_STRING:
               if ((err = der_length_octet_string(size, &x)) != CRYPT_OK) {
                  goto LBL_ERR;
               }
               y += x;
               break;

           case LTC_ASN1_NULL:
               y += 2;
               break;

           case LTC_ASN1_OBJECT_IDENTIFIER:
               if ((err = der_length_object_identifier(data, size, &x)) != CRYPT_OK) {
                  goto LBL_ERR;
               }
               y += x;
               break;

           case LTC_ASN1_IA5_STRING:
               if ((err = der_length_ia5_string(data, size, &x)) != CRYPT_OK) {
                  goto LBL_ERR;
               }
               y += x;
               break;

           case LTC_ASN1_PRINTABLE_STRING:
               if ((err = der_length_printable_string(data, size, &x)) != CRYPT_OK) {
                  goto LBL_ERR;
               }
               y += x;
               break;

           case LTC_ASN1_UTCTIME:
               if ((err = der_length_utctime(data, &x)) != CRYPT_OK) {
                  goto LBL_ERR;
               }
               y += x;
               break;

           case LTC_ASN1_UTF8_STRING:
               if ((err = der_length_utf8_string(data, size, &x)) != CRYPT_OK) {
                  goto LBL_ERR;
               }
//.........这里部分代码省略.........
开发者ID:AwkwardDev,项目名称:Darkcore-Rebase,代码行数:101,代码来源:der_length_sequence.c


示例13: signature

/**
  Sign a hash with DSA
  @param in       The hash to sign
  @param inlen    The length of the hash to sign
  @param r        The "r" integer of the signature (caller must initialize with mp_init() first)
  @param s        The "s" integer of the signature (caller must initialize with mp_init() first)
  @param key      A private DSA key
  @return CRYPT_OK if successful
*/
int dsa_sign_hash_raw(const unsigned char *in, unsigned long inlen,
		      mp_int_t r, mp_int_t s, dsa_key * key)
{
	mp_int k, kinv, tmp;
	unsigned char *buf;
	int err;

	LTC_ARGCHK(in != NULL);
	LTC_ARGCHK(r != NULL);
	LTC_ARGCHK(s != NULL);
	LTC_ARGCHK(key != NULL);

	if (key->type != PK_PRIVATE) {
		return CRYPT_PK_NOT_PRIVATE;
	}

	/* check group order size  */
	if (key->qord >= LTC_MDSA_MAX_GROUP) {
		return CRYPT_INVALID_ARG;
	}

	buf = XMALLOC(LTC_MDSA_MAX_GROUP);
	if (buf == NULL) {
		return CRYPT_MEM;
	}

	/* Init our temps */
	if ((err = mp_init_multi(&k, &kinv, &tmp, NULL)) != CRYPT_OK) {
		goto ERRBUF;
	}

retry:

	do {
		/* gen random k */
		get_random_bytes(buf, key->qord);

		/* read k */
		if ((err =
		     mp_read_unsigned_bin(&k, buf, key->qord)) != CRYPT_OK) {
			goto error;
		}

		/* k > 1 ? */
		if (mp_cmp_d(&k, 1) != LTC_MP_GT) {
			goto retry;
		}

		/* test gcd */
		if ((err = mp_gcd(&k, &key->q, &tmp)) != CRYPT_OK) {
			goto error;
		}
	} while (mp_cmp_d(&tmp, 1) != LTC_MP_EQ);

	/* now find 1/k mod q */
	if ((err = mp_invmod(&k, &key->q, &kinv)) != CRYPT_OK) {
		goto error;
	}

	/* now find r = g^k mod p mod q */
	if ((err = mp_exptmod(&key->g, &k, &key->p, r)) != CRYPT_OK) {
		goto error;
	}
	if ((err = mp_mod(r, &key->q, r)) != CRYPT_OK) {
		goto error;
	}

	if (mp_iszero(r) == LTC_MP_YES) {
		goto retry;
	}

	/* now find s = (in + xr)/k mod q */
	if ((err =
	     mp_read_unsigned_bin(&tmp, (unsigned char *)in,
				  inlen)) != CRYPT_OK) {
		goto error;
	}
	if ((err = mp_mul(&key->x, r, s)) != CRYPT_OK) {
		goto error;
	}
	if ((err = mp_add(s, &tmp, s)) != CRYPT_OK) {
		goto error;
	}
	if ((err = mp_mulmod(s, &kinv, &key->q, s)) != CRYPT_OK) {
		goto error;
	}

	if (mp_iszero(s) == LTC_MP_YES) {
		goto retry;
	}

//.........这里部分代码省略.........
开发者ID:wengsht,项目名称:1key,代码行数:101,代码来源:dsa_sign_hash.c


示例14: input

/**
   Shared code to finish an OCB stream
   @param ocb    The OCB state
   @param pt     The remaining plaintext [or input]
   @param ptlen  The length of the input (octets)
   @param ct     [out] The output buffer
   @param tag    [out] The destination for the authentication tag
   @param taglen [in/out] The max size and resulting size of the authentication tag
   @param mode   The mode we are terminating, 0==encrypt, 1==decrypt
   @return       CRYPT_OK if successful
*/
int s_ocb_done(ocb_state *ocb, const unsigned char *pt, unsigned long ptlen,
               unsigned char *ct, unsigned char *tag, unsigned long *taglen, int mode)

{
   unsigned char *Z, *Y, *X;
   int err, x;

   LTC_ARGCHK(ocb    != NULL);
   LTC_ARGCHK(pt     != NULL);
   LTC_ARGCHK(ct     != NULL);
   LTC_ARGCHK(tag    != NULL);
   LTC_ARGCHK(taglen != NULL);
   if ((err = cipher_is_valid(ocb->cipher)) != CRYPT_OK) {
      return err;
   }
   if (ocb->block_len != cipher_descriptor[ocb->cipher].block_length ||
       (int)ptlen > ocb->block_len || (int)ptlen < 0) {
      return CRYPT_INVALID_ARG;
   }

   /* allocate ram */
   Z = XMALLOC(MAXBLOCKSIZE);
   Y = XMALLOC(MAXBLOCKSIZE);
   X = XMALLOC(MAXBLOCKSIZE);
   if (X == NULL || Y == NULL || Z == NULL) {
      if (X != NULL) {
         XFREE(X);
      }
      if (Y != NULL) {
         XFREE(Y);
      }
      if (Z != NULL) {
         XFREE(Z);
      }
      return CRYPT_MEM;
   }

   /* compute X[m] = len(pt[m]) XOR Lr XOR Z[m] */
   ocb_shift_xor(ocb, X); 
   XMEMCPY(Z, X, ocb->block_len);

   X[ocb->block_len-1] ^= (ptlen*8)&255;
   X[ocb->block_len-2] ^= ((ptlen*8)>>8)&255;
   for (x = 0; x < ocb->block_len; x++) {
       X[x] ^= ocb->Lr[x]; 
   }

   /* Y[m] = E(X[m])) */
   cipher_descriptor[ocb->cipher].ecb_encrypt(X, Y, &ocb->key);

   if (mode == 1) {
      /* decrypt mode, so let's xor it first */
      /* xor C[m] into checksum */
      for (x = 0; x < (int)ptlen; x++) {
         ocb->checksum[x] ^= ct[x];
      }  
   }

   /* C[m] = P[m] xor Y[m] */
   for (x = 0; x < (int)ptlen; x++) {
       ct[x] = pt[x] ^ Y[x];
   }

   if (mode == 0) {
      /* encrypt mode */    
      /* xor C[m] into checksum */
      for (x = 0; x < (int)ptlen; x++) {
          ocb->checksum[x] ^= ct[x];
      }
   }

   /* xor Y[m] and Z[m] into checksum */
   for (x = 0; x < ocb->block_len; x++) {
       ocb->checksum[x] ^= Y[x] ^ Z[x];
   }
   
   /* encrypt checksum, er... tag!! */
   cipher_descriptor[ocb->cipher].ecb_encrypt(ocb->checksum, X, &ocb->key);
   cipher_descriptor[ocb->cipher].done(&ocb->key);

   /* now store it */
   for (x = 0; x < ocb->block_len && x < (int)*taglen; x++) {
       tag[x] = X[x];
   }
   *taglen = x;

#ifdef LTC_CLEAN_STACK
   zeromem(X, MAXBLOCKSIZE);
   zeromem(Y, MAXBLOCKSIZE);
//.........这里部分代码省略.........
开发者ID:tch-opensrc,项目名称:TC72XX_LxG1.7.1mp1_OpenSrc,代码行数:101,代码来源:s_ocb_done.c


示例15: input

/** 
   Compute an RSA modular exponentiation 
   @param in         The input data to send into RSA
   @param inlen      The length of the input (octets)
   @param out        [out] The destination 
   @param outlen     [in/out] The max size and resulting size of the output
   @param which      Which exponent to use, e.g. PK_PRIVATE or PK_PUBLIC
   @param key        The RSA key to use 
   @return CRYPT_OK if successful
*/   
int rsa_exptmod(const unsigned char *in,   unsigned long inlen,
                      unsigned char *out,  unsigned long *outlen, int which,
                      rsa_key *key)
{
   void         *tmp, *tmpa, *tmpb;
   unsigned long x;
   int           err;

   LTC_ARGCHK(in     != NULL);
   LTC_ARGCHK(out    != NULL);
   LTC_ARGCHK(outlen != NULL);
   LTC_ARGCHK(key    != NULL);
  
   /* is the key of the right type for the operation? */
   if (which == PK_PRIVATE && (key->type != PK_PRIVATE)) {
      return CRYPT_PK_NOT_PRIVATE;
   }

   /* must be a private or public operation */
   if (which != PK_PRIVATE && which != PK_PUBLIC) {
      return CRYPT_PK_INVALID_TYPE;
   }

   /* init and copy into tmp */
   if ((err = mp_init_multi(&tmp, &tmpa, &tmpb, NULL)) != CRYPT_OK)                                    { return err; }
   if ((err = mp_read_unsigned_bin(tmp, (unsigned char *)in, (int)inlen)) != CRYPT_OK)                 { goto error; }

   /* sanity check on the input */
   if (mp_cmp(key->N, tmp) == LTC_MP_LT) {
      err = CRYPT_PK_INVALID_SIZE;
      goto error;
   }

   /* are we using the private exponent and is the key optimized? */
   if (which == PK_PRIVATE) {
      /* tmpa = tmp^dP mod p */
      if ((err = mp_exptmod(tmp, key->dP, key->p, tmpa)) != CRYPT_OK)                               { goto error; }

      /* tmpb = tmp^dQ mod q */
      if ((err = mp_exptmod(tmp, key->dQ, key->q, tmpb)) != CRYPT_OK)                               { goto error; }

      /* tmp = (tmpa - tmpb) * qInv (mod p) */
      if ((err = mp_sub(tmpa, tmpb, tmp)) != CRYPT_OK)                                              { goto error; }
      if ((err = mp_mulmod(tmp, key->qP, key->p, tmp)) != CRYPT_OK)                                { goto error; }

      /* tmp = tmpb + q * tmp */
      if ((err = mp_mul(tmp, key->q, tmp)) != CRYPT_OK)                                             { goto error; }
      if ((err = mp_add(tmp, tmpb, tmp)) != CRYPT_OK)                                               { goto error; }
   } else {
      /* exptmod it */
      if ((err = mp_exptmod(tmp, key->e, key->N, tmp)) != CRYPT_OK)                                { goto error; }
   }

   /* read it back */
   x = (unsigned long)mp_unsigned_bin_size(key->N);
   if (x > *outlen) {
      *outlen = x;
      err = CRYPT_BUFFER_OVERFLOW;
      goto error;
   }

   /* this should never happen ... */
   if (mp_unsigned_bin_size(tmp) > mp_unsigned_bin_size(key->N)) {
      err = CRYPT_ERROR;
      goto error;
   }
   *outlen = x;

   /* convert it */
   zeromem(out, x);
   if ((err = mp_to_unsigned_bin(tmp, out+(x-mp_unsigned_bin_size(tmp)))) != CRYPT_OK)               { goto error; }

   /* clean up and return */
   err = CRYPT_OK;
error:
   mp_clear_multi(tmp, tmpa, tmpb, NULL);
   return err;
}
开发者ID:Adeer,项目名称:server,代码行数:88,代码来源:rsa_exptmod.c


示例16: key

/**
   Decrypt and compare the tag with OCB
   @param cipher     The index of the cipher desired
   @param key        The secret key
   @param keylen     The length of the secret key (octets)
   @param nonce      The session nonce (length of the block size of the block cipher)
   @param noncelen   The length of the nonce (octets)
   @param adata      The AAD - additional associated data
   @param adatalen   The length of AAD (octets)
   @param ct         The ciphertext
   @param ctlen      The length of the ciphertext (octets)
   @param pt         [out] The plaintext
   @param tag        The tag to compare against
   @param taglen     The length of the tag (octets)
   @param stat       [out] The result of the tag comparison (1==valid, 0==invalid)
   @return CRYPT_OK if successful regardless of the tag comparison
*/
int ocb3_decrypt_verify_memory(int cipher,
    const unsigned char *key,    unsigned long keylen,
    const unsigned char *nonce,  unsigned long noncelen,
    const unsigned char *adata,  unsigned long adatalen,
    const unsigned char *ct,     unsigned long ctlen,
          unsigned char *pt,
    const unsigned char *tag,    unsigned long taglen,
          int           *stat)
{
   int            err;
   ocb3_state     *ocb;
   unsigned char *buf;
   unsigned long  buflen;

   LTC_ARGCHK(stat    != NULL);

   /* default to zero */
   *stat = 0;

   /* limit taglen */
   taglen = MIN(taglen, MAXBLOCKSIZE);

   /* allocate memory */
   buf = XMALLOC(taglen);
   ocb = XMALLOC(sizeof(ocb3_state));
   if (ocb == NULL || buf == NULL) {
      if (ocb != NULL) {
         XFREE(ocb);
      }
      if (buf != NULL) {
         XFREE(buf);
      }
      return CRYPT_MEM;
   }

   if ((err = ocb3_init(ocb, cipher, key, keylen, nonce, noncelen, taglen)) != CRYPT_OK) {
      goto LBL_ERR;
   }

   if (adata != NULL || adatalen != 0) {
 

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