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/*
//
// Purpose:
// Cryptography Primitive.
// Fixed window exponentiation scramble/unscramble
//
// Contents:
// gsScramblePut()
// gsScrambleGet()
// gsScrambleGet_sscm()
//
*/
#include "owncp.h"
#include "gsscramble.h"
#include "pcpmask_ct.h"
int gsGetScrambleBufferSize(int modulusLen, int w)
{
/* size of resource to store 2^w values of modulusLen*sizeof(BNU_CHUNK_T) each */
int size = (1<<w) * modulusLen * sizeof(BNU_CHUNK_T);
/* padd it up to CACHE_LINE_SIZE */
size += (CACHE_LINE_SIZE - (size % CACHE_LINE_SIZE)) %CACHE_LINE_SIZE;
return size/sizeof(BNU_CHUNK_T);
}
void gsScramblePut(BNU_CHUNK_T* tbl, int idx, const BNU_CHUNK_T* val, int vLen, int w)
{
int width = 1 << w;
int i, j;
for(i=0, j=idx; i<vLen; i++, j+= width) {
tbl[j] = val[i];
}
}
void gsScrambleGet(BNU_CHUNK_T* val, int vLen, const BNU_CHUNK_T* tbl, int idx, int w)
{
int width = 1 << w;
int i, j;
for(i=0, j=idx; i<vLen; i++, j+= width) {
val[i] = tbl[j];
}
}
void gsScrambleGet_sscm(BNU_CHUNK_T* val, int vLen, const BNU_CHUNK_T* tbl, int idx, int w)
{
BNU_CHUNK_T mask[1<<MAX_W];
int width = 1 << w;
int n, i;
switch (w) {
case 6:
for(n=0; n<(1<<6); n++)
mask[n] = cpIsEqu_ct(n, idx);
break;
case 5:
for(n=0; n<(1<<5); n++)
mask[n] = cpIsEqu_ct(n, idx);
break;
case 4:
for(n=0; n<(1<<4); n++)
mask[n] = cpIsEqu_ct(n, idx);
break;
case 3:
for(n=0; n<(1<<3); n++)
mask[n] = cpIsEqu_ct(n, idx);
break;
case 2:
for(n=0; n<(1<<2); n++)
mask[n] = cpIsEqu_ct(n, idx);
break;
default:
mask[0] = cpIsEqu_ct(0, idx);
mask[1] = cpIsEqu_ct(1, idx);
break;
}
for(i=0; i<vLen; i++, tbl += width) {
BNU_CHUNK_T acc = 0;
switch (w) {
case 6:
for(n=0; n<(1<<6); n++)
acc |= tbl[n] & mask[n];
break;
case 5:
for(n=0; n<(1<<5); n++)
acc |= tbl[n] & mask[n];
break;
case 4:
for(n=0; n<(1<<4); n++)
acc |= tbl[n] & mask[n];
break;
case 3:
for(n=0; n<(1<<3); n++)
acc |= tbl[n] & mask[n];
break;
case 2:
for(n=0; n<(1<<2); n++)
acc |= tbl[n] & mask[n];
break;
default:
acc |= tbl[0] & mask[0];
acc |= tbl[1] & mask[1];
break;
}
val[i] = acc;
}
}