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/*
// Intel(R) Integrated Performance Primitives. Cryptography Primitives.
//
// Context:
// cpMontMultiExpInitArray()
//
*/
#include "owndefs.h"
#include "owncp.h"
#include "pcpbn.h"
#include "pcpmontgomery.h"
/*
// Intel(R) Integrated Performance Primitives
// Cryptographic Primitives (ippcp)
//
//
*/
/*
// Initialize multi-exponentiation computation
// y = x[0]^e[0] * x[1]^e[1] *...* x[numItems-1]^e[numItems-1] mod M
//
// Output:
// - table pTbl of precomuted values pTbl[i] = x[0]^i[0] * x[1]^i[1] *...* x[numItems-1]^i[numItems-1] mod M,
// where i[0], i[1], ..., i[numItems-1] are bits of i value;
//
// Input:
// - array of pointers to the BNU bases x[0], x[1],...,x[numItems-1]
// - pointer to the Montgomery engine
*/
void cpMontMultiExpInitArray(BNU_CHUNK_T* pPrecomTbl,
const BNU_CHUNK_T** ppX, cpSize xItemBitSize,
cpSize numItems,
gsModEngine* pModEngine)
{
cpSize sizeM = MOD_LEN(pModEngine);
cpSize i, base;
cpSize sizeX = BITS_BNU_CHUNK(xItemBitSize);
/* buff[0] = mont(1) */
COPY_BNU(pPrecomTbl, MOD_MNT_R(pModEngine), sizeM);
/* buff[1] = X[0] */
ZEXPAND_COPY_BNU(pPrecomTbl+sizeM, sizeM, ppX[0], sizeX);
for(i=1,base=2*sizeM; i<numItems; i++,base*=2) {
/* buf[base] = X[i] */
ZEXPAND_COPY_BNU(pPrecomTbl+base, sizeM, ppX[i], sizeX);
{
int nPasses = 1;
int step = base/2;
int k;
for(k=i-1; k>=0; k--) {
const BNU_CHUNK_T* pXterm = ppX[k];
BNU_CHUNK_T* pBufferBase = pPrecomTbl+base;
int n;
for(n=1; n<=nPasses; n++, pBufferBase+=2*step) {
cpMontMul_BNU_EX(pBufferBase+step,
pBufferBase, sizeM,
pXterm, sizeX,
pModEngine);
}
nPasses *= 2;
step /= 2;
}
}
}
}