289 lines
7.8 KiB
C
289 lines
7.8 KiB
C
/* seed_C.c */
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/*
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This file is part of the AVR-Crypto-Lib.
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Copyright (C) 2008 Daniel Otte (daniel.otte@rub.de)
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This program is free software: you can redistribute it and/or modify
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it under the terms of the GNU General Public License as published by
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the Free Software Foundation, either version 3 of the License, or
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(at your option) any later version.
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This program is distributed in the hope that it will be useful,
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but WITHOUT ANY WARRANTY; without even the implied warranty of
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MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
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GNU General Public License for more details.
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You should have received a copy of the GNU General Public License
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along with this program. If not, see <http://www.gnu.org/licenses/>.
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*/
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/**
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* \file seed_C.c
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* \author Daniel Otte
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* \date 2007-06-1
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* \brief SEED parts in C for AVR
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* \par License
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* GPL
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*
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*/
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#include <stdint.h>
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#include <avr/pgmspace.h>
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#include <string.h>
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#include "seed_sbox.h"
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#include "cli.h"
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#include "debug.h"
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static
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uint32_t g_function(uint32_t x);
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/******************************************************************************/
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static
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void changeendian32(uint32_t * a){
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*a = (*a & 0x000000FF) << 24 |
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(*a & 0x0000FF00) << 8 |
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(*a & 0x00FF0000) >> 8 |
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(*a & 0xFF000000) >> 24;
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}
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/******************************************************************************/
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static
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uint32_t bigendian_sum32(uint32_t a, uint32_t b){
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changeendian32(&a);
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changeendian32(&b);
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a += b;
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changeendian32(&a);
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return a;
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}
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/******************************************************************************/
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static
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uint32_t bigendian_sub32(uint32_t a, uint32_t b){
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changeendian32(&a);
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changeendian32(&b);
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a -= b;
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changeendian32(&a);
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return a;
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}
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/******************************************************************************/
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static inline
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uint64_t bigendian_rotl8_64(uint64_t a){
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/*
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changeendian64(&a);
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a = (a<<8) | (a>>(64-8));
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changeendian64(&a);
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*/
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a = (a>>8) | (a<<(64-8));
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return a;
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}
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/******************************************************************************/
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static inline
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uint64_t bigendian_rotr8_64(uint64_t a){
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/*
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changeendian64(&a);
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a = (a>>8) | (a<<(64-8));
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changeendian64(&a);
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*/
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a = (a<<8) | (a>>(64-8));
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return a;
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}
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/******************************************************************************/
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static
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uint64_t f_function(const uint64_t* a, uint32_t k0, uint32_t k1){
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uint32_t c,d;
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c = *a & 0x00000000FFFFFFFFLL;
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d = (*a>>32) & 0x00000000FFFFFFFFLL;
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c ^= k0; d ^= k1;
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d ^= c;
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d = g_function(d);
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c = bigendian_sum32(c,d);
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c = g_function(c);
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d = bigendian_sum32(c,d);
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d = g_function(d);
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c = bigendian_sum32(c,d);
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return ((uint64_t)d << 32) | c;
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}
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/******************************************************************************/
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#define M0 0xfc
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#define M1 0xf3
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#define M2 0xcf
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#define M3 0x3f
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#define X3 (((uint8_t*)(&x))[0])
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#define X2 (((uint8_t*)(&x))[1])
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#define X1 (((uint8_t*)(&x))[2])
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#define X0 (((uint8_t*)(&x))[3])
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#define Z3 (((uint8_t*)(&z))[0])
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#define Z2 (((uint8_t*)(&z))[1])
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#define Z1 (((uint8_t*)(&z))[2])
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#define Z0 (((uint8_t*)(&z))[3])
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static
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uint32_t g_function(uint32_t x){
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uint32_t z;
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/* sbox substitution */
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X3 = pgm_read_byte(&(seed_sbox2[X3]));
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X2 = pgm_read_byte(&(seed_sbox1[X2]));
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X1 = pgm_read_byte(&(seed_sbox2[X1]));
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X0 = pgm_read_byte(&(seed_sbox1[X0]));
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/* now the permutation */
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Z0 = (X0 & M0) ^ (X1 & M1) ^ (X2 & M2) ^ (X3 & M3);
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Z1 = (X0 & M1) ^ (X1 & M2) ^ (X2 & M3) ^ (X3 & M0);
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Z2 = (X0 & M2) ^ (X1 & M3) ^ (X2 & M0) ^ (X3 & M1);
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Z3 = (X0 & M3) ^ (X1 & M0) ^ (X2 & M1) ^ (X3 & M2);
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return z;
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}
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/******************************************************************************/
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typedef struct {
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uint32_t k0, k1;
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} keypair_t;
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keypair_t getnextkeys(uint32_t *keystate, uint8_t curround){
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keypair_t ret;
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if (curround>15){
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/* ERROR */
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ret.k0 = ret.k1 = 0;
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} else {
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/* ret.k0 = g_function(keystate[0] + keystate[2] - pgm_read_dword(&(seed_kc[curround])));
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ret.k1 = g_function(keystate[1] - keystate[3] + pgm_read_dword(&(seed_kc[curround]))); */
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ret.k0 = bigendian_sum32(keystate[0], keystate[2]);
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ret.k0 = bigendian_sub32(ret.k0, pgm_read_dword(&(seed_kc[curround])));
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ret.k0 = g_function(ret.k0);
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ret.k1 = bigendian_sub32(keystate[1], keystate[3]);
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ret.k1 = bigendian_sum32(ret.k1, pgm_read_dword(&(seed_kc[curround])));
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ret.k1 = g_function(ret.k1);
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if (curround & 1){
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/* odd round (1,3,5, ...) */
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((uint64_t*)keystate)[1] = bigendian_rotl8_64( ((uint64_t*)keystate)[1] );
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} else {
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/* even round (0,2,4, ...) */
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((uint64_t*)keystate)[0] = bigendian_rotr8_64(((uint64_t*)keystate)[0]);
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}
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}
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return ret;
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}
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/******************************************************************************/
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keypair_t getprevkeys(uint32_t *keystate, uint8_t curround){
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keypair_t ret;
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if (curround>15){
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/* ERROR */
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ret.k0 = ret.k1 = 0;
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} else {
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if (curround & 1){
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/* odd round (1,3,5, ..., 15) */
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((uint64_t*)keystate)[1] = bigendian_rotr8_64( ((uint64_t*)keystate)[1] );
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} else {
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/* even round (0,2,4, ..., 14) */
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((uint64_t*)keystate)[0] = bigendian_rotl8_64(((uint64_t*)keystate)[0]);
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}
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/* ret.k0 = g_function(keystate[0] + keystate[2] - pgm_read_dword(&(seed_kc[curround])));
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ret.k1 = g_function(keystate[1] - keystate[3] + pgm_read_dword(&(seed_kc[curround]))); */
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ret.k0 = bigendian_sum32(keystate[0], keystate[2]);
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ret.k0 = bigendian_sub32(ret.k0, pgm_read_dword(&(seed_kc[curround])));
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ret.k0 = g_function(ret.k0);
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ret.k1 = bigendian_sub32(keystate[1], keystate[3]);
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ret.k1 = bigendian_sum32(ret.k1, pgm_read_dword(&(seed_kc[curround])));
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ret.k1 = g_function(ret.k1);
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}
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return ret;
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}
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/******************************************************************************/
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typedef struct{
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uint32_t k[4];
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} seed_ctx_t;
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/******************************************************************************/
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void seed_init(const void * key, seed_ctx_t * ctx){
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memcpy(ctx->k, key, 128/8);
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}
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/******************************************************************************/
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#define L (((uint64_t*)buffer)[0])
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#define R (((uint64_t*)buffer)[1])
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void seed_enc(void * buffer, const seed_ctx_t * ctx){
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uint8_t r;
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keypair_t k;
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for(r=0; r<8; ++r){
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k = getnextkeys(((seed_ctx_t*)ctx)->k, 2*r);
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/*
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DEBUG_S("\r\n\tDBG ka,0: "); cli_hexdump(&k.k0, 4);
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DEBUG_S("\r\n\tDBG ka,1: "); cli_hexdump(&k.k1, 4);
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DEBUG_S("\r\n\t DBG L: "); cli_hexdump((uint8_t*)buffer+0, 8);
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DEBUG_S("\r\n\t DBG R: "); cli_hexdump((uint8_t*)buffer+8, 8);
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*/
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L ^= f_function(&R,k.k0,k.k1);
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k = getnextkeys(((seed_ctx_t*)ctx)->k, 2*r+1);
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/*
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DEBUG_S("\r\n\tDBG kb,0: "); cli_hexdump(&k.k0, 4);
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DEBUG_S("\r\n\tDBG kb,1: "); cli_hexdump(&k.k1, 4);
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DEBUG_S("\r\n\t DBG L: "); cli_hexdump((uint8_t*)buffer+8, 8);
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DEBUG_S("\r\n\t DBG R: "); cli_hexdump((uint8_t*)buffer+0, 8);
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*/
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R ^= f_function(&L,k.k0,k.k1);
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}
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/* just an exchange without temp. variable */
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L ^= R;
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R ^= L;
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L ^= R;
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}
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/******************************************************************************/
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#define L (((uint64_t*)buffer)[0])
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#define R (((uint64_t*)buffer)[1])
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void seed_dec(void * buffer, seed_ctx_t * ctx){
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int8_t r;
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keypair_t k;
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for(r=7; r>=0; --r){
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k = getprevkeys(((seed_ctx_t*)ctx)->k, 2*r+1);
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/*
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DEBUG_S("\r\n\tDBG ka,0: "); cli_hexdump(&k.k0, 4);
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DEBUG_S("\r\n\tDBG ka,1: "); cli_hexdump(&k.k1, 4);
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DEBUG_S("\r\n\t DBG L: "); cli_hexdump((uint8_t*)buffer+0, 8);
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DEBUG_S("\r\n\t DBG R: "); cli_hexdump((uint8_t*)buffer+8, 8);
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*/
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L ^= f_function(&R,k.k0,k.k1);
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k = getprevkeys(((seed_ctx_t*)ctx)->k, 2*r+0);
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/*
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DEBUG_S("\r\n\tDBG kb,0: "); cli_hexdump(&k.k0, 4);
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DEBUG_S("\r\n\tDBG kb,1: "); cli_hexdump(&k.k1, 4);
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DEBUG_S("\r\n\t DBG L: "); cli_hexdump((uint8_t*)buffer+8, 8);
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DEBUG_S("\r\n\t DBG R: "); cli_hexdump((uint8_t*)buffer+0, 8);
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*/
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R ^= f_function(&L,k.k0,k.k1);
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}
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/* just an exchange without temp. variable */
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L ^= R;
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R ^= L;
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L ^= R;
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}
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