view libtomcrypt/src/encauth/gcm/gcm_process.c @ 1916:3f4cdf839a1a

Make SHA1 optional, implement SHA256 fingerprints SHA256 is always compiled and only enable SHA1 when needed. Fingerprints are always SHA256: base64 format, md5 and sha1 are removed. dbrandom now uses sha256 its hash function.
author Matt Johnston <matt@ucc.asn.au>
date Wed, 30 Mar 2022 11:44:04 +0800
parents 6dba84798cd5
children
line wrap: on
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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.
 */

/**
   @file gcm_process.c
   GCM implementation, process message data, by Tom St Denis
*/
#include "tomcrypt.h"

#ifdef LTC_GCM_MODE

/**
  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;
   }

   /* 0xFFFFFFFE0 = ((2^39)-256)/8 */
   if (gcm->pttotlen / 8 + (ulong64)gcm->buflen + (ulong64)ptlen >= CONST64(0xFFFFFFFE0)) {
      return CRYPT_INVALID_ARG;
   }

   if (gcm->mode == LTC_GCM_MODE_IV) {
      /* let's process the IV */
      if ((err = gcm_add_aad(gcm, NULL, 0)) != CRYPT_OK) return err;
   }

   /* in AAD mode? */
   if (gcm->mode == LTC_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   = LTC_GCM_MODE_TEXT;
   }

   if (gcm->mode != LTC_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_PTR_CAST(&ct[x + y])) = *(LTC_FAST_TYPE_PTR_CAST(&pt[x+y])) ^ *(LTC_FAST_TYPE_PTR_CAST(&gcm->buf[y]));
                 *(LTC_FAST_TYPE_PTR_CAST(&gcm->X[y])) ^= *(LTC_FAST_TYPE_PTR_CAST(&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_PTR_CAST(&gcm->X[y])) ^= *(LTC_FAST_TYPE_PTR_CAST(&ct[x+y]));
                 *(LTC_FAST_TYPE_PTR_CAST(&pt[x + y])) = *(LTC_FAST_TYPE_PTR_CAST(&ct[x+y])) ^ *(LTC_FAST_TYPE_PTR_CAST(&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

   /* process text */
   for (; x < ptlen; x++) {
       if (gcm->buflen == 16) {
          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;
          }
          gcm->buflen = 0;
       }

       if (direction == GCM_ENCRYPT) {
          b = ct[x] = pt[x] ^ gcm->buf[gcm->buflen];
       } else {
          b = ct[x];
          pt[x] = ct[x] ^ gcm->buf[gcm->buflen];
       }
       gcm->X[gcm->buflen++] ^= b;
   }

   return CRYPT_OK;
}

#endif

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