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/* LibTomCrypt, modular cryptographic library -- Tom St Denis
 *
 * LibTomCrypt is a library that provides various cryptographic
 * algorithms in a highly modular and flexible manner.
 *
 * The library is free for all purposes without any express
 * guarantee it works.
 */

#include "tomcrypt.h"

#if defined(LTC_MECC) && defined(LTC_DER)

/**
  @file ecc_verify_hash.c
  ECC Crypto, Tom St Denis
*/

static int _ecc_verify_hash(const unsigned char *sig,  unsigned long siglen,
                            const unsigned char *hash, unsigned long hashlen,
                            int *stat, ecc_key *key, int sigformat)
{
   ecc_point    *mG, *mQ;
   void          *r, *s, *v, *w, *u1, *u2, *e, *p, *m;
   void          *mp;
   int           err;
   unsigned long pbits, pbytes, i, shift_right;
   unsigned char ch, buf[MAXBLOCKSIZE];

   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;
   }

   if (sigformat == 1) {
      /* RFC7518 format */
      if ((siglen % 2) == 1) {
         err = CRYPT_INVALID_PACKET;
         goto error;
      }
      i = siglen / 2;
      if ((err = mp_read_unsigned_bin(r, (unsigned char *)sig,   i)) != CRYPT_OK)                       { goto error; }
      if ((err = mp_read_unsigned_bin(s, (unsigned char *)sig+i, i)) != CRYPT_OK)                       { goto error; }
   }
   else {
      /* ASN.1 format */
      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 - truncate if needed */
   pbits = mp_count_bits(p);
   pbytes = (pbits+7) >> 3;
   if (pbits > hashlen*8) {
      if ((err = mp_read_unsigned_bin(e, (unsigned char *)hash, hashlen)) != CRYPT_OK)                  { goto error; }
   }
   else if (pbits % 8 == 0) {
      if ((err = mp_read_unsigned_bin(e, (unsigned char *)hash, pbytes)) != CRYPT_OK)                   { goto error; }
   }
   else {
      shift_right = 8 - pbits % 8;
      for (i=0, ch=0; i<pbytes; i++) {
        buf[i] = ch;
        ch = (hash[i] << (8-shift_right));
        buf[i] = buf[i] ^ (hash[i] >> shift_right);
      }
      if ((err = mp_read_unsigned_bin(e, (unsigned char *)buf, pbytes)) != 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; }
   } else {
      /* use Shamir's trick to compute u1*mG + u2*mQ using half of the doubles */
      if ((err = ltc_mp.ecc_mul2add(mG, u1, mQ, u2, mG, m)) != CRYPT_OK)                                { goto error; }
   }

   /* v = X_x1 mod n */
   if ((err = mp_mod(mG->x, p, v)) != CRYPT_OK)                                                         { goto error; }

   /* does v == r */
   if (mp_cmp(v, r) == LTC_MP_EQ) {
      *stat = 1;
   }

   /* clear up and return */
   err = CRYPT_OK;
error:
   ltc_ecc_del_point(mG);
   ltc_ecc_del_point(mQ);
   mp_clear_multi(r, s, v, w, u1, u2, p, e, m, NULL);
   if (mp != NULL) {
      mp_montgomery_free(mp);
   }
   return err;
}

/**
   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)
{
   return _ecc_verify_hash(sig, siglen, hash, hashlen, stat, key, 0);
}

/**
   Verify an ECC signature in RFC7518 format
   @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_rfc7518(const unsigned char *sig,  unsigned long siglen,
                            const unsigned char *hash, unsigned long hashlen,
                            int *stat, ecc_key *key)
{
   return _ecc_verify_hash(sig, siglen, hash, hashlen, stat, key, 1);
}

#endif

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