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/*
// Intel(R) Integrated Performance Primitives
// Cryptographic Primitives (ippcp)
//
*/
#include "owncp.h"
#include "pcpbnuarith.h"
#if defined(_USE_C_cpMontRedAdc_BNU_)
#pragma message ("C version of cpMontRedAdc_BNU: ON")
#else
#pragma message ("C version of cpMontRedAdc_BNU: OFF")
#endif
#if !((_IPP==_IPP_W7) || \
(_IPP==_IPP_T7) || \
(_IPP==_IPP_V8) || \
(_IPP==_IPP_P8) || \
(_IPP>=_IPP_G9) || \
(_IPP==_IPP_S8) || \
(_IPP32E==_IPP32E_M7) || \
(_IPP32E==_IPP32E_U8) || \
(_IPP32E==_IPP32E_Y8) || \
(_IPP32E>=_IPP32E_E9) || \
(_IPP32E==_IPP32E_N8)) || \
defined(_USE_C_cpMontRedAdc_BNU_)
#define cpMontRedAdc_BNU OWNAPI(cpMontRedAdc_BNU)
void cpMontRedAdc_BNU(BNU_CHUNK_T* pR,
BNU_CHUNK_T* pProduct,
const BNU_CHUNK_T* pModulus, cpSize nsM, BNU_CHUNK_T m0)
{
BNU_CHUNK_T carry;
BNU_CHUNK_T extension;
cpSize n;
for(n=0, carry = 0; n<(nsM-1); n++) {
BNU_CHUNK_T u = pProduct[n]*m0;
BNU_CHUNK_T t = pProduct[nsM +n +1] + carry;
extension = cpAddMulDgt_BNU(pProduct+n, pModulus, nsM, u);
ADD_AB(carry, pProduct[nsM+n], pProduct[nsM+n], extension);
t += carry;
carry = t<pProduct[nsM+n+1];
pProduct[nsM+n+1] = t;
}
m0 *= pProduct[nsM-1];
extension = cpAddMulDgt_BNU(pProduct+nsM-1, pModulus, nsM, m0);
ADD_AB(extension, pProduct[2*nsM-1], pProduct[2*nsM-1], extension);
carry |= extension;
carry -= cpSub_BNU(pR, pProduct+nsM, pModulus, nsM);
/* condition copy: R = carry? Product+mSize : R */
MASKED_COPY_BNU(pR, carry, pProduct+nsM, pR, nsM);
}
#endif