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view libtomcrypt/src/mac/omac/omac_init.c @ 1790:42745af83b7d

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Introduce extra delay before closing unauthenticated sessions To make it harder for attackers, introduce a delay to keep an unauthenticated session open a bit longer, thus blocking a connection slot until after the delay. Without this, while there is a limit on the amount of attempts an attacker can make at the same time (MAX_UNAUTH_PER_IP), the time taken by dropbear to handle one attempt is still short and thus for each of the allowed parallel attempts many attempts can be chained one after the other. The attempt rate is then: "MAX_UNAUTH_PER_IP / <process time of one attempt>". With the delay, this rate becomes: "MAX_UNAUTH_PER_IP / UNAUTH_CLOSE_DELAY".
author Thomas De Schampheleire <thomas.de_schampheleire@nokia.com>
date Wed, 15 Feb 2017 13:53:04 +0100
parents 6dba84798cd5
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.
 */
#include "tomcrypt.h"

/**
  @file omac_init.c
  OMAC1 support, initialize state, by Tom St Denis
*/


#ifdef LTC_OMAC

/**
   Initialize an OMAC state
   @param omac    The OMAC state to initialize
   @param cipher  The index of the desired cipher
   @param key     The secret key
   @param keylen  The length of the secret key (octets)
   @return CRYPT_OK if successful
*/
int omac_init(omac_state *omac, int cipher, const unsigned char *key, unsigned long keylen)
{
   int err, x, y, mask, msb, len;

   LTC_ARGCHK(omac != NULL);
   LTC_ARGCHK(key  != NULL);

   /* schedule the key */
   if ((err = cipher_is_valid(cipher)) != CRYPT_OK) {
      return err;
   }

#ifdef LTC_FAST
   if (cipher_descriptor[cipher].block_length % sizeof(LTC_FAST_TYPE)) {
       return CRYPT_INVALID_ARG;
   }
#endif

   /* now setup the system */
   switch (cipher_descriptor[cipher].block_length) {
       case 8:  mask = 0x1B;
                len  = 8;
                break;
       case 16: mask = 0x87;
                len  = 16;
                break;
       default: return CRYPT_INVALID_ARG;
   }

   if ((err = cipher_descriptor[cipher].setup(key, keylen, 0, &omac->key)) != CRYPT_OK) {
      return err;
   }

   /* ok now we need Lu and Lu^2 [calc one from the other] */

   /* first calc L which is Ek(0) */
   zeromem(omac->Lu[0], cipher_descriptor[cipher].block_length);
   if ((err = cipher_descriptor[cipher].ecb_encrypt(omac->Lu[0], omac->Lu[0], &omac->key)) != CRYPT_OK) {
      return err;
   }

   /* now do the mults, whoopy! */
   for (x = 0; x < 2; x++) {
       /* if msb(L * u^(x+1)) = 0 then just shift, otherwise shift and xor constant mask */
       msb = omac->Lu[x][0] >> 7;

       /* shift left */
       for (y = 0; y < (len - 1); y++) {
           omac->Lu[x][y] = ((omac->Lu[x][y] << 1) | (omac->Lu[x][y+1] >> 7)) & 255;
       }
       omac->Lu[x][len - 1] = ((omac->Lu[x][len - 1] << 1) ^ (msb ? mask : 0)) & 255;

       /* copy up as require */
       if (x == 0) {
          XMEMCPY(omac->Lu[1], omac->Lu[0], sizeof(omac->Lu[0]));
       }
   }

   /* setup state */
   omac->cipher_idx = cipher;
   omac->buflen     = 0;
   omac->blklen     = len;
   zeromem(omac->prev,  sizeof(omac->prev));
   zeromem(omac->block, sizeof(omac->block));

   return CRYPT_OK;
}

#endif

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