*((uint64_t*)row) = *((uint64_t*)row)>>(8*shift) | *((uint64_t*)row)<<(64-8*shift);
}
-#define MDS(a,b) pgm_read_byte(&(twister_mds[a][b]))
+#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
-# define MULT(a,b) gf256mul(a,b, 0x4D)
+# define MULT(a,b) gf256mul((a),(b), 0x4D)
#endif
void twister_blank_round(twister_state_t* ctx){
- uint8_t i,j;
+ uint8_t i,j,k=0;
uint8_t tmp[8][8];
DEBUG_PRINT(ctx, "blank init");
/* add twist counter */
- for(i=0; i<8; ++i)
+ 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)
+ 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);
+ }
}
+ /* shift rows */
+// for(i=1;i<8; ++i){
+// shiftrow(&(tmp[i][0]), i);
+// }
/* mix columns */
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][i] ) ^
- MULT( MDS(j,2), tmp[2][i] ) ^
- MULT( MDS(j,3), tmp[3][i] ) ^
- MULT( MDS(j,4), tmp[4][i] ) ^
- MULT( MDS(j,5), tmp[5][i] ) ^
- MULT( MDS(j,6), tmp[6][i] ) ^
- MULT( MDS(j,7), tmp[7][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] ) ;
}
}