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view libtomcrypt/src/pk/ecc/ltc_ecc_mulmod_timing.c @ 1715:3974f087d9c0

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Disallow leading lines before the ident for server (#102) Per RFC4253 4.2 clients must be able to process other lines of data before the version string, server behavior is not defined neither with MUST/SHOULD nor with MAY. If server process up to 50 lines too - it may cause too long hanging session with invalid/evil client that consume host resources and potentially may lead to DDoS on poor embedded boxes. Let's require first line from client to be version string and fail early if it's not - matches both RFC and real OpenSSH behavior.
author Vladislav Grishenko <themiron@users.noreply.github.com>
date Mon, 15 Jun 2020 18:22:18 +0500
parents 1ff2a1034c52
children
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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.
 */

/* Implements ECC over Z/pZ for curve y^2 = x^3 - 3x + b
 *
 * All curves taken from NIST recommendation paper of July 1999
 * Available at http://csrc.nist.gov/cryptval/dss.htm
 */
#include "tomcrypt.h"

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

#ifdef LTC_MECC

#ifdef LTC_ECC_TIMING_RESISTANT

/**
   Perform a point multiplication  (timing resistant)
   @param k    The scalar to multiply by
   @param G    The base point
   @param R    [out] Destination for kG
   @param modulus  The modulus of the field the ECC curve is in
   @param map      Boolean whether to map back to affine or not (1==map, 0 == leave in projective)
   @return CRYPT_OK on success
*/
int ltc_ecc_mulmod(void *k, ecc_point *G, ecc_point *R, void *modulus, int map)
{
   ecc_point *tG, *M[3];
   int        i, j, err;
   void       *mu, *mp;
   ltc_mp_digit buf;
   int        bitcnt, mode, digidx;

   LTC_ARGCHK(k       != NULL);
   LTC_ARGCHK(G       != NULL);
   LTC_ARGCHK(R       != NULL);
   LTC_ARGCHK(modulus != NULL);

   /* init montgomery reduction */
   if ((err = mp_montgomery_setup(modulus, &mp)) != CRYPT_OK) {
      return err;
   }
   if ((err = mp_init(&mu)) != CRYPT_OK) {
      mp_montgomery_free(mp);
      return err;
   }
   if ((err = mp_montgomery_normalization(mu, modulus)) != CRYPT_OK) {
      mp_clear(mu);
      mp_montgomery_free(mp);
      return err;
   }

   /* alloc ram for window temps */
   for (i = 0; i < 3; i++) {
      M[i] = ltc_ecc_new_point();
      if (M[i] == NULL) {
         for (j = 0; j < i; j++) {
             ltc_ecc_del_point(M[j]);
         }
         mp_clear(mu);
         mp_montgomery_free(mp);
         return CRYPT_MEM;
      }
   }

   /* make a copy of G incase R==G */
   tG = ltc_ecc_new_point();
   if (tG == NULL)                                                                   { err = CRYPT_MEM; goto done; }

   /* tG = G  and convert to montgomery */
   if ((err = mp_mulmod(G->x, mu, modulus, tG->x)) != CRYPT_OK)                      { goto done; }
   if ((err = mp_mulmod(G->y, mu, modulus, tG->y)) != CRYPT_OK)                      { goto done; }
   if ((err = mp_mulmod(G->z, mu, modulus, tG->z)) != CRYPT_OK)                      { goto done; }
   mp_clear(mu);
   mu = NULL;

   /* calc the M tab */
   /* M[0] == G */
   if ((err = mp_copy(tG->x, M[0]->x)) != CRYPT_OK)                                  { goto done; }
   if ((err = mp_copy(tG->y, M[0]->y)) != CRYPT_OK)                                  { goto done; }
   if ((err = mp_copy(tG->z, M[0]->z)) != CRYPT_OK)                                  { goto done; }
   /* M[1] == 2G */
   if ((err = ltc_mp.ecc_ptdbl(tG, M[1], modulus, mp)) != CRYPT_OK)                  { goto done; }

   /* setup sliding window */
   mode   = 0;
   bitcnt = 1;
   buf    = 0;
   digidx = mp_get_digit_count(k) - 1;

   /* perform ops */
   for (;;) {
     /* grab next digit as required */
      if (--bitcnt == 0) {
         if (digidx == -1) {
            break;
         }
         buf    = mp_get_digit(k, digidx);
         bitcnt = (int) MP_DIGIT_BIT;
         --digidx;
      }

      /* grab the next msb from the ltiplicand */
      i = (buf >> (MP_DIGIT_BIT - 1)) & 1;
      buf <<= 1;

      if (mode == 0 && i == 0) {
         /* dummy operations */
         if ((err = ltc_mp.ecc_ptadd(M[0], M[1], M[2], modulus, mp)) != CRYPT_OK)    { goto done; }
         if ((err = ltc_mp.ecc_ptdbl(M[1], M[2], modulus, mp)) != CRYPT_OK)          { goto done; }
         continue;
      }

      if (mode == 0 && i == 1) {
         mode = 1;
         /* dummy operations */
         if ((err = ltc_mp.ecc_ptadd(M[0], M[1], M[2], modulus, mp)) != CRYPT_OK)    { goto done; }
         if ((err = ltc_mp.ecc_ptdbl(M[1], M[2], modulus, mp)) != CRYPT_OK)          { goto done; }
         continue;
      }

      if ((err = ltc_mp.ecc_ptadd(M[0], M[1], M[i^1], modulus, mp)) != CRYPT_OK)     { goto done; }
      if ((err = ltc_mp.ecc_ptdbl(M[i], M[i], modulus, mp)) != CRYPT_OK)             { goto done; }
   }

   /* copy result out */
   if ((err = mp_copy(M[0]->x, R->x)) != CRYPT_OK)                                   { goto done; }
   if ((err = mp_copy(M[0]->y, R->y)) != CRYPT_OK)                                   { goto done; }
   if ((err = mp_copy(M[0]->z, R->z)) != CRYPT_OK)                                   { goto done; }

   /* map R back from projective space */
   if (map) {
      err = ltc_ecc_map(R, modulus, mp);
   } else {
      err = CRYPT_OK;
   }
done:
   if (mu != NULL) {
      mp_clear(mu);
   }
   mp_montgomery_free(mp);
   ltc_ecc_del_point(tG);
   for (i = 0; i < 3; i++) {
       ltc_ecc_del_point(M[i]);
   }
   return err;
}

#endif
#endif
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