X-Git-Url: https://git.cryptolib.org/?a=blobdiff_plain;f=twister.c;h=c82e22ea5dec05a9373eb67f87ac338bb2e86796;hb=e5a49deb52521f019e37779d6e9d81ec4f02aba4;hp=af82c139fd2ba9517e13e564df71eafb60ae7552;hpb=288c82e97b3c37666b1c11475b45a956b3e5e8e0;p=avr-crypto-lib.git diff --git a/twister.c b/twister.c index af82c13..c82e22e 100644 --- a/twister.c +++ b/twister.c @@ -1,6 +1,6 @@ /* twister.c */ /* - This file is part of the Crypto-avr-lib/microcrypt-lib. + This file is part of the AVR-Crypto-Lib. Copyright (C) 2008 Daniel Otte (daniel.otte@rub.de) This program is free software: you can redistribute it and/or modify @@ -25,101 +25,58 @@ #include "twister_tables.h" #include "memxor.h" -#ifndef TWISTER_MUL_TABLE +//#ifndef TWISTER_MUL_TABLE # include "gf256mul.h" -#endif - -#undef DEBUG - -#ifdef DEBUG -# include "uart.h" -#endif - -#ifdef DEBUG -# define DEBUG_PRINT(ctx, msg) debug_print((ctx), PSTR(msg)) -#else -# define DEBUG_PRINT(ctx, msg) -#endif - -#ifdef DEBUG - -void print_twister_state(twister_state_t* ctx){ - uint8_t i; - uart_putstr_P(PSTR("\r\nState:\r\n matrix:\r\n")); - for(i=0; i<8; ++i){ - uart_putstr_P(PSTR("\t[ ")); - uart_hexdump(&(ctx->s[i][0]), 8); - uart_putstr_P(PSTR("]\r\n")); - } - uart_putstr_P(PSTR("counter: ")); - uart_hexdump(&(ctx->counter), 8); - - uart_putstr_P(PSTR("\r\nlength_counter_b: ")); - uart_hexdump(&(ctx->length_counter_b), 8); - uart_putstr_P(PSTR("\r\n")); -} - -void debug_print(twister_state_t* ctx, PGM_P msg){ - uart_putstr_P(PSTR("\r\n")); - uart_putstr_P(msg); - print_twister_state(ctx); -} - -#endif - -static -void shiftrow(void* row, uint8_t shift){ - *((uint64_t*)row) = *((uint64_t*)row)>>(8*shift) | *((uint64_t*)row)<<(64-8*shift); -} +//#endif #define MDS(a,b) pgm_read_byte(&(twister_mds[(a)][(b)])) -#ifdef TWISTER_MUL_TABLE -# define MULT(a,b) pgm_read_byte(&(twister_multab[a][b])) -#else +//#ifdef TWISTER_MUL_TABLE +//# define MULT(a,b) pgm_read_byte(&(twister_multab[(a)][(b)])) +//#else # define MULT(a,b) gf256mul((a),(b), 0x4D) -#endif +//#endif + void twister_blank_round(twister_state_t* ctx){ - uint8_t i,j,k=0; + uint8_t i,j,k; uint8_t tmp[8][8]; - DEBUG_PRINT(ctx, "blank init"); /* add twist counter */ for(i=0; i<8; ++i){ ctx->s[i][1] ^= ((uint8_t*)&(ctx->counter))[7-i]; } ctx->counter--; -// DEBUG_PRINT(ctx, "counter added"); /* sub bytes */ for(i=0; i<8; ++i){ for(j=0;j<8;++j){ tmp[i][j] = pgm_read_byte(twister_sbox+ctx->s[i][j]); } } - /* shift rows */ -// for(i=1;i<8; ++i){ -// shiftrow(&(tmp[i][0]), i); -// } - /* mix columns */ + /* mix columns with integrates shift rows */ for( i=0; i<8; i++ ){ // multiply with mds matrix for( j=0; j<8; j++ ){ k=(i+1)&7; ctx->s[j][i] = - MULT( MDS(j,0), tmp[0][i] ) ^ - MULT( MDS(j,1), tmp[1][k] ) ^ - MULT( MDS(j,2), tmp[2][(++k)&7] ) ^ - MULT( MDS(j,3), tmp[3][(++k)&7] ) ^ - MULT( MDS(j,4), tmp[4][(++k)&7] ) ^ - MULT( MDS(j,5), tmp[5][(++k)&7] ) ^ - MULT( MDS(j,6), tmp[6][(++k)&7] ) ^ - MULT( MDS(j,7), tmp[7][(++k)&7] ) ; + MULT( MDS(j,0), (tmp[0][i]) ); + ctx->s[j][i] ^= + MULT( MDS(j,1), (tmp[1][k]) ); + ctx->s[j][i] ^= + MULT( MDS(j,2), (tmp[2][((++k)&7)]) ); + ctx->s[j][i] ^= + MULT( MDS(j,3), (tmp[3][((++k)&7)]) ); + ctx->s[j][i] ^= + MULT( MDS(j,4), (tmp[4][((++k)&7)]) ); + ctx->s[j][i] ^= + MULT( MDS(j,5), (tmp[5][((++k)&7)]) ); + ctx->s[j][i] ^= + MULT( MDS(j,6), (tmp[6][((++k)&7)]) ); + ctx->s[j][i] ^= + MULT( MDS(j,7), (tmp[7][((++k)&7)]) ); } } - DEBUG_PRINT(ctx, "post MDS"); } - -void twister_mini_round(twister_state_t* ctx, void* msg){ +void twister_mini_round(twister_state_t* ctx, const void* msg){ /* inject message */ uint8_t i; for(i=0; i<8; ++i){