509 lines
14 KiB
C
509 lines
14 KiB
C
/****************************************************************************
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* tools/cxd56/clefia.c
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*
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* SPDX-License-Identifier: Apache-2.0
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*
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* Licensed to the Apache Software Foundation (ASF) under one or more
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* contributor license agreements. See the NOTICE file distributed with
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* this work for additional information regarding copyright ownership. The
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* ASF licenses this file to you under the Apache License, Version 2.0 (the
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* "License"); you may not use this file except in compliance with the
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* License. You may obtain a copy of the License at
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*
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* http://www.apache.org/licenses/LICENSE-2.0
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*
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* Unless required by applicable law or agreed to in writing, software
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* distributed under the License is distributed on an "AS IS" BASIS, WITHOUT
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* WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. See the
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* License for the specific language governing permissions and limitations
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* under the License.
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*
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****************************************************************************/
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/****************************************************************************
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* Included Files
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****************************************************************************/
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#include <stdio.h>
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#include <stdlib.h>
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#include <string.h>
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#include <stdint.h>
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#include <assert.h>
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#include "clefia.h"
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/****************************************************************************
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* Pre-processor Definitions
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****************************************************************************/
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#define clefiamul4(_x) (clefiamul2(clefiamul2((_x))))
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#define clefiamul6(_x) (clefiamul2((_x)) ^ clefiamul4((_x)))
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#define clefiamul8(_x) (clefiamul2(clefiamul4((_x))))
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#define clefiamula(_x) (clefiamul2((_x)) ^ clefiamul8((_x)))
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/****************************************************************************
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* Private Data
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****************************************************************************/
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/* S0 (8-bit S-box based on four 4-bit S-boxes) */
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static const unsigned char clefia_s0[256] =
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{
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0x57u, 0x49u, 0xd1u, 0xc6u, 0x2fu, 0x33u, 0x74u, 0xfbu,
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0x95u, 0x6du, 0x82u, 0xeau, 0x0eu, 0xb0u, 0xa8u, 0x1cu,
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0x28u, 0xd0u, 0x4bu, 0x92u, 0x5cu, 0xeeu, 0x85u, 0xb1u,
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0xc4u, 0x0au, 0x76u, 0x3du, 0x63u, 0xf9u, 0x17u, 0xafu,
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0xbfu, 0xa1u, 0x19u, 0x65u, 0xf7u, 0x7au, 0x32u, 0x20u,
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0x06u, 0xceu, 0xe4u, 0x83u, 0x9du, 0x5bu, 0x4cu, 0xd8u,
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0x42u, 0x5du, 0x2eu, 0xe8u, 0xd4u, 0x9bu, 0x0fu, 0x13u,
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0x3cu, 0x89u, 0x67u, 0xc0u, 0x71u, 0xaau, 0xb6u, 0xf5u,
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0xa4u, 0xbeu, 0xfdu, 0x8cu, 0x12u, 0x00u, 0x97u, 0xdau,
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0x78u, 0xe1u, 0xcfu, 0x6bu, 0x39u, 0x43u, 0x55u, 0x26u,
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0x30u, 0x98u, 0xccu, 0xddu, 0xebu, 0x54u, 0xb3u, 0x8fu,
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0x4eu, 0x16u, 0xfau, 0x22u, 0xa5u, 0x77u, 0x09u, 0x61u,
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0xd6u, 0x2au, 0x53u, 0x37u, 0x45u, 0xc1u, 0x6cu, 0xaeu,
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0xefu, 0x70u, 0x08u, 0x99u, 0x8bu, 0x1du, 0xf2u, 0xb4u,
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0xe9u, 0xc7u, 0x9fu, 0x4au, 0x31u, 0x25u, 0xfeu, 0x7cu,
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0xd3u, 0xa2u, 0xbdu, 0x56u, 0x14u, 0x88u, 0x60u, 0x0bu,
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0xcdu, 0xe2u, 0x34u, 0x50u, 0x9eu, 0xdcu, 0x11u, 0x05u,
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0x2bu, 0xb7u, 0xa9u, 0x48u, 0xffu, 0x66u, 0x8au, 0x73u,
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0x03u, 0x75u, 0x86u, 0xf1u, 0x6au, 0xa7u, 0x40u, 0xc2u,
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0xb9u, 0x2cu, 0xdbu, 0x1fu, 0x58u, 0x94u, 0x3eu, 0xedu,
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0xfcu, 0x1bu, 0xa0u, 0x04u, 0xb8u, 0x8du, 0xe6u, 0x59u,
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0x62u, 0x93u, 0x35u, 0x7eu, 0xcau, 0x21u, 0xdfu, 0x47u,
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0x15u, 0xf3u, 0xbau, 0x7fu, 0xa6u, 0x69u, 0xc8u, 0x4du,
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0x87u, 0x3bu, 0x9cu, 0x01u, 0xe0u, 0xdeu, 0x24u, 0x52u,
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0x7bu, 0x0cu, 0x68u, 0x1eu, 0x80u, 0xb2u, 0x5au, 0xe7u,
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0xadu, 0xd5u, 0x23u, 0xf4u, 0x46u, 0x3fu, 0x91u, 0xc9u,
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0x6eu, 0x84u, 0x72u, 0xbbu, 0x0du, 0x18u, 0xd9u, 0x96u,
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0xf0u, 0x5fu, 0x41u, 0xacu, 0x27u, 0xc5u, 0xe3u, 0x3au,
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0x81u, 0x6fu, 0x07u, 0xa3u, 0x79u, 0xf6u, 0x2du, 0x38u,
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0x1au, 0x44u, 0x5eu, 0xb5u, 0xd2u, 0xecu, 0xcbu, 0x90u,
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0x9au, 0x36u, 0xe5u, 0x29u, 0xc3u, 0x4fu, 0xabu, 0x64u,
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0x51u, 0xf8u, 0x10u, 0xd7u, 0xbcu, 0x02u, 0x7du, 0x8eu
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};
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/* S1 (8-bit S-box based on inverse function) */
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static const unsigned char clefia_s1[256] =
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{
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0x6cu, 0xdau, 0xc3u, 0xe9u, 0x4eu, 0x9du, 0x0au, 0x3du,
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0xb8u, 0x36u, 0xb4u, 0x38u, 0x13u, 0x34u, 0x0cu, 0xd9u,
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0xbfu, 0x74u, 0x94u, 0x8fu, 0xb7u, 0x9cu, 0xe5u, 0xdcu,
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0x9eu, 0x07u, 0x49u, 0x4fu, 0x98u, 0x2cu, 0xb0u, 0x93u,
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0x12u, 0xebu, 0xcdu, 0xb3u, 0x92u, 0xe7u, 0x41u, 0x60u,
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0xe3u, 0x21u, 0x27u, 0x3bu, 0xe6u, 0x19u, 0xd2u, 0x0eu,
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0x91u, 0x11u, 0xc7u, 0x3fu, 0x2au, 0x8eu, 0xa1u, 0xbcu,
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0x2bu, 0xc8u, 0xc5u, 0x0fu, 0x5bu, 0xf3u, 0x87u, 0x8bu,
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0xfbu, 0xf5u, 0xdeu, 0x20u, 0xc6u, 0xa7u, 0x84u, 0xceu,
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0xd8u, 0x65u, 0x51u, 0xc9u, 0xa4u, 0xefu, 0x43u, 0x53u,
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0x25u, 0x5du, 0x9bu, 0x31u, 0xe8u, 0x3eu, 0x0du, 0xd7u,
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0x80u, 0xffu, 0x69u, 0x8au, 0xbau, 0x0bu, 0x73u, 0x5cu,
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0x6eu, 0x54u, 0x15u, 0x62u, 0xf6u, 0x35u, 0x30u, 0x52u,
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0xa3u, 0x16u, 0xd3u, 0x28u, 0x32u, 0xfau, 0xaau, 0x5eu,
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0xcfu, 0xeau, 0xedu, 0x78u, 0x33u, 0x58u, 0x09u, 0x7bu,
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0x63u, 0xc0u, 0xc1u, 0x46u, 0x1eu, 0xdfu, 0xa9u, 0x99u,
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0x55u, 0x04u, 0xc4u, 0x86u, 0x39u, 0x77u, 0x82u, 0xecu,
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0x40u, 0x18u, 0x90u, 0x97u, 0x59u, 0xddu, 0x83u, 0x1fu,
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0x9au, 0x37u, 0x06u, 0x24u, 0x64u, 0x7cu, 0xa5u, 0x56u,
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0x48u, 0x08u, 0x85u, 0xd0u, 0x61u, 0x26u, 0xcau, 0x6fu,
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0x7eu, 0x6au, 0xb6u, 0x71u, 0xa0u, 0x70u, 0x05u, 0xd1u,
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0x45u, 0x8cu, 0x23u, 0x1cu, 0xf0u, 0xeeu, 0x89u, 0xadu,
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0x7au, 0x4bu, 0xc2u, 0x2fu, 0xdbu, 0x5au, 0x4du, 0x76u,
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0x67u, 0x17u, 0x2du, 0xf4u, 0xcbu, 0xb1u, 0x4au, 0xa8u,
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0xb5u, 0x22u, 0x47u, 0x3au, 0xd5u, 0x10u, 0x4cu, 0x72u,
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0xccu, 0x00u, 0xf9u, 0xe0u, 0xfdu, 0xe2u, 0xfeu, 0xaeu,
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0xf8u, 0x5fu, 0xabu, 0xf1u, 0x1bu, 0x42u, 0x81u, 0xd6u,
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0xbeu, 0x44u, 0x29u, 0xa6u, 0x57u, 0xb9u, 0xafu, 0xf2u,
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0xd4u, 0x75u, 0x66u, 0xbbu, 0x68u, 0x9fu, 0x50u, 0x02u,
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0x01u, 0x3cu, 0x7fu, 0x8du, 0x1au, 0x88u, 0xbdu, 0xacu,
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0xf7u, 0xe4u, 0x79u, 0x96u, 0xa2u, 0xfcu, 0x6du, 0xb2u,
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0x6bu, 0x03u, 0xe1u, 0x2eu, 0x7du, 0x14u, 0x95u, 0x1du
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};
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/****************************************************************************
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* Private Functions
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****************************************************************************/
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static void bytecpy(unsigned char *dst,
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const unsigned char *src,
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int bytelen)
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{
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while (bytelen-- > 0)
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{
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*dst++ = *src++;
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}
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}
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static unsigned char clefiamul2(unsigned char x)
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{
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/* multiplication over GF(2^8) (p(x) = '11d') */
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if (x & 0x80u)
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{
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x ^= 0x0eu;
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}
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return ((x << 1) | (x >> 7));
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}
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static void clefiaf0xor(unsigned char *dst, const unsigned char *src,
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const unsigned char *rk)
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{
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unsigned char x[4];
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unsigned char y[4];
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unsigned char z[4];
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/* F0 */
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/* Key addition */
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bytexor(x, src, rk, 4);
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/* Substitution layer */
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z[0] = clefia_s0[x[0]];
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z[1] = clefia_s1[x[1]];
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z[2] = clefia_s0[x[2]];
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z[3] = clefia_s1[x[3]];
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/* Diffusion layer (M0) */
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y[0] = z[0] ^ clefiamul2(z[1]) ^ clefiamul4(z[2]) ^ clefiamul6(z[3]);
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y[1] = clefiamul2(z[0]) ^ z[1] ^ clefiamul6(z[2]) ^ clefiamul4(z[3]);
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y[2] = clefiamul4(z[0]) ^ clefiamul6(z[1]) ^ z[2] ^ clefiamul2(z[3]);
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y[3] = clefiamul6(z[0]) ^ clefiamul4(z[1]) ^ clefiamul2(z[2]) ^ z[3];
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/* Xoring after F0 */
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bytecpy(dst + 0, src + 0, 4);
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bytexor(dst + 4, src + 4, y, 4);
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}
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static void clefiaf1xor(unsigned char *dst, const unsigned char *src,
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const unsigned char *rk)
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{
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unsigned char x[4];
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unsigned char y[4];
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unsigned char z[4];
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/* F1 */
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/* Key addition */
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bytexor(x, src, rk, 4);
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/* Substitution layer */
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z[0] = clefia_s1[x[0]];
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z[1] = clefia_s0[x[1]];
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z[2] = clefia_s1[x[2]];
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z[3] = clefia_s0[x[3]];
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/* Diffusion layer (M1) */
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y[0] = z[0] ^ clefiamul8(z[1]) ^ clefiamul2(z[2]) ^ clefiamula(z[3]);
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y[1] = clefiamul8(z[0]) ^ z[1] ^ clefiamula(z[2]) ^ clefiamul2(z[3]);
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y[2] = clefiamul2(z[0]) ^ clefiamula(z[1]) ^ z[2] ^ clefiamul8(z[3]);
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y[3] = clefiamula(z[0]) ^ clefiamul2(z[1]) ^ clefiamul8(z[2]) ^ z[3];
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/* Xoring after F1 */
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bytecpy(dst + 0, src + 0, 4);
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bytexor(dst + 4, src + 4, y, 4);
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}
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static void clefiagfn4(unsigned char *y, const unsigned char *x,
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const unsigned char *rk, int r)
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{
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unsigned char fin[16];
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unsigned char fout[16];
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bytecpy(fin, x, 16);
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while (r-- > 0)
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{
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clefiaf0xor(fout + 0, fin + 0, rk + 0);
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clefiaf1xor(fout + 8, fin + 8, rk + 4);
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rk += 8;
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if (r)
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{
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/* swapping for encryption */
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bytecpy(fin + 0, fout + 4, 12);
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bytecpy(fin + 12, fout + 0, 4);
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}
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}
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bytecpy(y, fout, 16);
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}
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#if 0 /* Not used */
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static void clefiagfn8(unsigned char *y, const unsigned char *x,
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const unsigned char *rk, int r)
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{
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unsigned char fin[32];
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unsigned char fout[32];
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bytecpy(fin, x, 32);
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while (r-- > 0)
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{
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clefiaf0xor(fout + 0, fin + 0, rk + 0);
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clefiaf1xor(fout + 8, fin + 8, rk + 4);
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clefiaf0xor(fout + 16, fin + 16, rk + 8);
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clefiaf1xor(fout + 24, fin + 24, rk + 12);
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rk += 16;
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if (r)
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{
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/* swapping for encryption */
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bytecpy(fin + 0, fout + 4, 28);
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bytecpy(fin + 28, fout + 0, 4);
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}
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}
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bytecpy(y, fout, 32);
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}
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#endif
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#if 0 /* Not used */
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static void clefiagfn4inv(unsigned char *y, const unsigned char *x,
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const unsigned char *rk, int r)
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{
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unsigned char fin[16];
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unsigned char fout[16];
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rk += (r - 1) * 8;
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bytecpy(fin, x, 16);
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while (r-- > 0)
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{
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clefiaf0xor(fout + 0, fin + 0, rk + 0);
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clefiaf1xor(fout + 8, fin + 8, rk + 4);
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rk -= 8;
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if (r)
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{
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/* swapping for decryption */
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bytecpy(fin + 0, fout + 12, 4);
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bytecpy(fin + 4, fout + 0, 12);
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}
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}
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bytecpy(y, fout, 16);
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}
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#endif
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static void clefiadoubleswap(unsigned char *lk)
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{
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unsigned char t[16];
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t[0] = (lk[0] << 7) | (lk[1] >> 1);
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t[1] = (lk[1] << 7) | (lk[2] >> 1);
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t[2] = (lk[2] << 7) | (lk[3] >> 1);
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t[3] = (lk[3] << 7) | (lk[4] >> 1);
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t[4] = (lk[4] << 7) | (lk[5] >> 1);
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t[5] = (lk[5] << 7) | (lk[6] >> 1);
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t[6] = (lk[6] << 7) | (lk[7] >> 1);
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t[7] = (lk[7] << 7) | (lk[15] & 0x7fu);
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t[8] = (lk[8] >> 7) | (lk[0] & 0xfeu);
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t[9] = (lk[9] >> 7) | (lk[8] << 1);
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t[10] = (lk[10] >> 7) | (lk[9] << 1);
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t[11] = (lk[11] >> 7) | (lk[10] << 1);
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t[12] = (lk[12] >> 7) | (lk[11] << 1);
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t[13] = (lk[13] >> 7) | (lk[12] << 1);
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t[14] = (lk[14] >> 7) | (lk[13] << 1);
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t[15] = (lk[15] >> 7) | (lk[14] << 1);
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bytecpy(lk, t, 16);
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}
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static void clefiaconset(unsigned char *con, const unsigned char *iv, int lk)
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{
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unsigned char t[2];
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unsigned char tmp;
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bytecpy(t, iv, 2);
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while (lk-- > 0)
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{
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con[0] = t[0] ^ 0xb7u; /* P_16 = 0xb7e1 (natural logarithm) */
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con[1] = t[1] ^ 0xe1u;
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con[2] = ~((t[0] << 1) | (t[1] >> 7));
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con[3] = ~((t[1] << 1) | (t[0] >> 7));
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con[4] = ~t[0] ^ 0x24u; /* Q_16 = 0x243f (circle ratio) */
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con[5] = ~t[1] ^ 0x3fu;
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con[6] = t[1];
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con[7] = t[0];
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con += 8;
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/* updating T */
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if (t[1] & 0x01u)
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{
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t[0] ^= 0xa8u;
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t[1] ^= 0x30u;
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}
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tmp = t[0] << 7;
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t[0] = (t[0] >> 1) | (t[1] << 7);
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t[1] = (t[1] >> 1) | tmp;
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}
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}
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static void left_shift_one(uint8_t * in, uint8_t * out)
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{
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int i;
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int overflow;
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overflow = 0;
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for (i = 15; i >= 0; i--)
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{
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out[i] = in[i] << 1;
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out[i] |= overflow;
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overflow = (in[i] >> 7) & 1;
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}
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}
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static void gen_subkey(struct cipher *c)
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{
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uint8_t L[16];
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memset(L, 0, 16);
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clefiaencrypt(L, L, c->rk, c->round);
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left_shift_one(L, c->k1);
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if (L[0] & 0x80)
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{
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c->k1[15] = c->k1[15] ^ 0x87;
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}
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left_shift_one(c->k1, c->k2);
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if (c->k1[0] & 0x80)
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{
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c->k2[15] = c->k2[15] ^ 0x87;
|
|
}
|
|
|
|
memset(L, 0, 16);
|
|
}
|
|
|
|
/****************************************************************************
|
|
* Public Functions
|
|
****************************************************************************/
|
|
|
|
struct cipher *cipher_init(uint8_t * key, uint8_t * iv)
|
|
{
|
|
struct cipher *c;
|
|
|
|
c = malloc(sizeof(*c));
|
|
if (!c)
|
|
{
|
|
return NULL;
|
|
}
|
|
|
|
c->round = clefiakeyset(c->rk, key);
|
|
|
|
gen_subkey(c);
|
|
memset(c->vector, 0, 16);
|
|
|
|
return c;
|
|
}
|
|
|
|
void cipher_deinit(struct cipher *c)
|
|
{
|
|
memset(c, 0, sizeof(*c));
|
|
free(c);
|
|
}
|
|
|
|
int cipher_calc_cmac(struct cipher *c, void *data, int size, void *cmac)
|
|
{
|
|
uint8_t m[16];
|
|
uint8_t *p;
|
|
|
|
if (size & 0xf)
|
|
{
|
|
return -1;
|
|
}
|
|
|
|
p = (uint8_t *) data;
|
|
while (size)
|
|
{
|
|
bytexor(m, c->vector, p, 16);
|
|
clefiaencrypt(c->vector, m, c->rk, c->round);
|
|
size -= 16;
|
|
p += 16;
|
|
}
|
|
|
|
bytexor(cmac, m, c->k1, 16);
|
|
clefiaencrypt(cmac, cmac, c->rk, c->round);
|
|
memset(m, 0, 16);
|
|
|
|
return 0;
|
|
}
|
|
|
|
void bytexor(unsigned char *dst, const unsigned char *a,
|
|
const unsigned char *b, int bytelen)
|
|
{
|
|
while (bytelen-- > 0)
|
|
{
|
|
*dst++ = *a++ ^ *b++;
|
|
}
|
|
}
|
|
|
|
int clefiakeyset(unsigned char *rk, const unsigned char *skey)
|
|
{
|
|
const unsigned char iv[2] =
|
|
{
|
|
0x42u, 0x8au /* cubic root of 2 */
|
|
};
|
|
|
|
unsigned char lk[16];
|
|
unsigned char con128[4 * 60];
|
|
int i;
|
|
|
|
/* generating CONi^(128) (0 <= i < 60, lk = 30) */
|
|
|
|
clefiaconset(con128, iv, 30);
|
|
|
|
/* GFN_{4,12} (generating L from K) */
|
|
|
|
clefiagfn4(lk, skey, con128, 12);
|
|
|
|
bytecpy(rk, skey, 8); /* initial whitening key (WK0, WK1) */
|
|
rk += 8;
|
|
for (i = 0; i < 9; i++)
|
|
{
|
|
/* round key (RKi (0 <= i < 36)) */
|
|
|
|
bytexor(rk, lk, con128 + i * 16 + (4 * 24), 16);
|
|
if (i % 2)
|
|
{
|
|
bytexor(rk, rk, skey, 16); /* Xoring K */
|
|
}
|
|
|
|
clefiadoubleswap(lk); /* Updating L (DoubleSwap function) */
|
|
rk += 16;
|
|
}
|
|
|
|
bytecpy(rk, skey + 8, 8); /* final whitening key (WK2, WK3) */
|
|
|
|
return 18;
|
|
}
|
|
|
|
void clefiaencrypt(unsigned char *ct, const unsigned char *pt,
|
|
const unsigned char *rk, const int r)
|
|
{
|
|
unsigned char rin[16];
|
|
unsigned char rout[16];
|
|
|
|
bytecpy(rin, pt, 16);
|
|
|
|
bytexor(rin + 4, rin + 4, rk + 0, 4); /* initial key whitening */
|
|
bytexor(rin + 12, rin + 12, rk + 4, 4);
|
|
rk += 8;
|
|
|
|
clefiagfn4(rout, rin, rk, r); /* GFN_{4,r} */
|
|
|
|
bytecpy(ct, rout, 16);
|
|
bytexor(ct + 4, ct + 4, rk + r * 8 + 0, 4); /* final key whitening */
|
|
bytexor(ct + 12, ct + 12, rk + r * 8 + 4, 4);
|
|
}
|