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305 lines
8.0 KiB
305 lines
8.0 KiB
#define LTC_SOURCE
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/* LibTomCrypt, modular cryptographic library -- Tom St Denis
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*
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* LibTomCrypt is a library that provides various cryptographic
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* algorithms in a highly modular and flexible manner.
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*
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* The library is free for all purposes without any express
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* guarantee it works.
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*
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* Tom St Denis, tomstdenis@gmail.com, http://libtomcrypt.com
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*/
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/**
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@file noekeon.c
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Implementation of the Noekeon block cipher by Tom St Denis
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*/
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#include "tomcrypt.h"
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#ifdef NOEKEON
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const struct ltc_cipher_descriptor noekeon_desc =
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{
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"noekeon",
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16,
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16, 16, 16, 16,
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&noekeon_setup,
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&noekeon_ecb_encrypt,
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&noekeon_ecb_decrypt,
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&noekeon_test,
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&noekeon_done,
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&noekeon_keysize,
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NULL, NULL, NULL, NULL, NULL, NULL, NULL, NULL, NULL, NULL, NULL, NULL
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};
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static const ulong32 RC[] = {
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0x00000080UL, 0x0000001bUL, 0x00000036UL, 0x0000006cUL,
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0x000000d8UL, 0x000000abUL, 0x0000004dUL, 0x0000009aUL,
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0x0000002fUL, 0x0000005eUL, 0x000000bcUL, 0x00000063UL,
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0x000000c6UL, 0x00000097UL, 0x00000035UL, 0x0000006aUL,
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0x000000d4UL
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};
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#define kTHETA(a, b, c, d) \
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temp = a^c; temp = temp ^ ROLc(temp, 8) ^ RORc(temp, 8); \
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b ^= temp; d ^= temp; \
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temp = b^d; temp = temp ^ ROLc(temp, 8) ^ RORc(temp, 8); \
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a ^= temp; c ^= temp;
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#define THETA(k, a, b, c, d) \
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temp = a^c; temp = temp ^ ROLc(temp, 8) ^ RORc(temp, 8); \
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b ^= temp ^ k[1]; d ^= temp ^ k[3]; \
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temp = b^d; temp = temp ^ ROLc(temp, 8) ^ RORc(temp, 8); \
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a ^= temp ^ k[0]; c ^= temp ^ k[2];
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#define GAMMA(a, b, c, d) \
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b ^= ~(d|c); \
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a ^= c&b; \
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temp = d; d = a; a = temp;\
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c ^= a ^ b ^ d; \
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b ^= ~(d|c); \
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a ^= c&b;
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#define PI1(a, b, c, d) \
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a = ROLc(a, 1); c = ROLc(c, 5); d = ROLc(d, 2);
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#define PI2(a, b, c, d) \
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a = RORc(a, 1); c = RORc(c, 5); d = RORc(d, 2);
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/**
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Initialize the Noekeon block cipher
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@param key The symmetric key you wish to pass
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@param keylen The key length in bytes
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@param num_rounds The number of rounds desired (0 for default)
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@param skey The key in as scheduled by this function.
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@return CRYPT_OK if successful
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*/
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int noekeon_setup(const unsigned char *key, int keylen, int num_rounds, symmetric_key *skey)
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{
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ulong32 temp;
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LTC_ARGCHK(key != NULL);
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LTC_ARGCHK(skey != NULL);
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if (keylen != 16) {
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return CRYPT_INVALID_KEYSIZE;
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}
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if (num_rounds != 16 && num_rounds != 0) {
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return CRYPT_INVALID_ROUNDS;
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}
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LOAD32H(skey->noekeon.K[0],&key[0]);
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LOAD32H(skey->noekeon.K[1],&key[4]);
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LOAD32H(skey->noekeon.K[2],&key[8]);
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LOAD32H(skey->noekeon.K[3],&key[12]);
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LOAD32H(skey->noekeon.dK[0],&key[0]);
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LOAD32H(skey->noekeon.dK[1],&key[4]);
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LOAD32H(skey->noekeon.dK[2],&key[8]);
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LOAD32H(skey->noekeon.dK[3],&key[12]);
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kTHETA(skey->noekeon.dK[0], skey->noekeon.dK[1], skey->noekeon.dK[2], skey->noekeon.dK[3]);
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return CRYPT_OK;
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}
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/**
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Encrypts a block of text with Noekeon
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@param pt The input plaintext (16 bytes)
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@param ct The output ciphertext (16 bytes)
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@param skey The key as scheduled
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@return CRYPT_OK if successful
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*/
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#ifdef LTC_CLEAN_STACK
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static int _noekeon_ecb_encrypt(const unsigned char *pt, unsigned char *ct, symmetric_key *skey)
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#else
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int noekeon_ecb_encrypt(const unsigned char *pt, unsigned char *ct, symmetric_key *skey)
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#endif
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{
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ulong32 a,b,c,d,temp;
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int r;
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LTC_ARGCHK(skey != NULL);
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LTC_ARGCHK(pt != NULL);
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LTC_ARGCHK(ct != NULL);
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LOAD32H(a,&pt[0]); LOAD32H(b,&pt[4]);
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LOAD32H(c,&pt[8]); LOAD32H(d,&pt[12]);
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#define ROUND(i) \
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a ^= RC[i]; \
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THETA(skey->noekeon.K, a,b,c,d); \
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PI1(a,b,c,d); \
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GAMMA(a,b,c,d); \
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PI2(a,b,c,d);
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for (r = 0; r < 16; ++r) {
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ROUND(r);
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}
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#undef ROUND
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a ^= RC[16];
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THETA(skey->noekeon.K, a, b, c, d);
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STORE32H(a,&ct[0]); STORE32H(b,&ct[4]);
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STORE32H(c,&ct[8]); STORE32H(d,&ct[12]);
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return CRYPT_OK;
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}
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#ifdef LTC_CLEAN_STACK
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int noekeon_ecb_encrypt(const unsigned char *pt, unsigned char *ct, symmetric_key *skey)
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{
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int err = _noekeon_ecb_encrypt(pt, ct, skey);
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burn_stack(sizeof(ulong32) * 5 + sizeof(int));
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return CRYPT_OK;
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}
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#endif
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/**
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Decrypts a block of text with Noekeon
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@param ct The input ciphertext (16 bytes)
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@param pt The output plaintext (16 bytes)
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@param skey The key as scheduled
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@return CRYPT_OK if successful
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*/
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#ifdef LTC_CLEAN_STACK
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static int _noekeon_ecb_decrypt(const unsigned char *ct, unsigned char *pt, symmetric_key *skey)
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#else
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int noekeon_ecb_decrypt(const unsigned char *ct, unsigned char *pt, symmetric_key *skey)
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#endif
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{
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ulong32 a,b,c,d, temp;
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int r;
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LTC_ARGCHK(skey != NULL);
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LTC_ARGCHK(pt != NULL);
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LTC_ARGCHK(ct != NULL);
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LOAD32H(a,&ct[0]); LOAD32H(b,&ct[4]);
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LOAD32H(c,&ct[8]); LOAD32H(d,&ct[12]);
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#define ROUND(i) \
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THETA(skey->noekeon.dK, a,b,c,d); \
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a ^= RC[i]; \
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PI1(a,b,c,d); \
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GAMMA(a,b,c,d); \
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PI2(a,b,c,d);
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for (r = 16; r > 0; --r) {
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ROUND(r);
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}
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#undef ROUND
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THETA(skey->noekeon.dK, a,b,c,d);
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a ^= RC[0];
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STORE32H(a,&pt[0]); STORE32H(b, &pt[4]);
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STORE32H(c,&pt[8]); STORE32H(d, &pt[12]);
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return CRYPT_OK;
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}
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#ifdef LTC_CLEAN_STACK
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int noekeon_ecb_decrypt(const unsigned char *ct, unsigned char *pt, symmetric_key *skey)
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{
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int err = _noekeon_ecb_decrypt(ct, pt, skey);
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burn_stack(sizeof(ulong32) * 5 + sizeof(int));
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return err;
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}
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#endif
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/**
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Performs a self-test of the Noekeon block cipher
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@return CRYPT_OK if functional, CRYPT_NOP if self-test has been disabled
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*/
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int noekeon_test(void)
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{
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#ifndef LTC_TEST
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return CRYPT_NOP;
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#else
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static const struct {
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int keylen;
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unsigned char key[16], pt[16], ct[16];
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} tests[] = {
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{
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16,
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{ 0, 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15 },
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{ 0, 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15 },
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{ 0x18, 0xa6, 0xec, 0xe5, 0x28, 0xaa, 0x79, 0x73,
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0x28, 0xb2, 0xc0, 0x91, 0xa0, 0x2f, 0x54, 0xc5}
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}
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};
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symmetric_key key;
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unsigned char tmp[2][16];
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int err, i, y;
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for (i = 0; i < (int)(sizeof(tests)/sizeof(tests[0])); i++) {
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zeromem(&key, sizeof(key));
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if ((err = noekeon_setup(tests[i].key, tests[i].keylen, 0, &key)) != CRYPT_OK) {
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return err;
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}
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noekeon_ecb_encrypt(tests[i].pt, tmp[0], &key);
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noekeon_ecb_decrypt(tmp[0], tmp[1], &key);
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if (XMEMCMP(tmp[0], tests[i].ct, 16) || XMEMCMP(tmp[1], tests[i].pt, 16)) {
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#if 0
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printf("\n\nTest %d failed\n", i);
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if (XMEMCMP(tmp[0], tests[i].ct, 16)) {
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printf("CT: ");
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for (i = 0; i < 16; i++) {
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printf("%02x ", tmp[0][i]);
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}
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printf("\n");
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} else {
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printf("PT: ");
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for (i = 0; i < 16; i++) {
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printf("%02x ", tmp[1][i]);
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}
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printf("\n");
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}
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#endif
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return CRYPT_FAIL_TESTVECTOR;
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}
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/* now see if we can encrypt all zero bytes 1000 times, decrypt and come back where we started */
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for (y = 0; y < 16; y++) tmp[0][y] = 0;
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for (y = 0; y < 1000; y++) noekeon_ecb_encrypt(tmp[0], tmp[0], &key);
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for (y = 0; y < 1000; y++) noekeon_ecb_decrypt(tmp[0], tmp[0], &key);
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for (y = 0; y < 16; y++) if (tmp[0][y] != 0) return CRYPT_FAIL_TESTVECTOR;
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}
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return CRYPT_OK;
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#endif
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}
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/** Terminate the context
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@param skey The scheduled key
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*/
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void noekeon_done(symmetric_key *skey)
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{
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}
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/**
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Gets suitable key size
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@param keysize [in/out] The length of the recommended key (in bytes). This function will store the suitable size back in this variable.
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@return CRYPT_OK if the input key size is acceptable.
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*/
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int noekeon_keysize(int *keysize)
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{
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LTC_ARGCHK(keysize != NULL);
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if (*keysize < 16) {
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return CRYPT_INVALID_KEYSIZE;
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} else {
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*keysize = 16;
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return CRYPT_OK;
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}
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}
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#endif
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/* $Source: /cvs/libtom/libtomcrypt/src/ciphers/noekeon.c,v $ */
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/* $Revision: 1.12 $ */
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/* $Date: 2006/11/08 23:01:06 $ */
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