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/*
//
// Purpose:
// Intel(R) Integrated Performance Primitives. Cryptography Primitives.
// Internal EC over GF(p^m) basic Definitions & Function Prototypes
//
// Context:
// setupTable()
//
*/
#include "owndefs.h"
#include "owncp.h"
#include "pcpgfpecstuff.h"
#include "gsscramble.h"
/* sscm version */
void setupTable(BNU_CHUNK_T* pTbl,
const BNU_CHUNK_T* pPdata,
IppsGFpECState* pEC)
{
int pointLen = ECP_POINTLEN(pEC);
//int pointLen32 = pointLen*sizeof(BNU_CHUNK_T)/sizeof(ipp32u);
const int npoints = 3;
BNU_CHUNK_T* A = cpEcGFpGetPool(npoints, pEC);
BNU_CHUNK_T* B = A+pointLen;
BNU_CHUNK_T* C = B+pointLen;
// Table[0]
// Table[0] is implicitly (0,0,0) {point at infinity}, therefore no need to store it
// All other values are actually stored with an offset of -1
// Table[1] ( =[1]p )
//cpScatter32((Ipp32u*)pTbl, 16, 0, (Ipp32u*)pPdata, pointLen32);
gsScramblePut(pTbl, (1-1), pPdata, pointLen, (5-1));
// Table[2] ( =[2]p )
gfec_point_double(A, pPdata, pEC);
//cpScatter32((Ipp32u*)pTbl, 16, 1, (Ipp32u*)A, pointLen32);
gsScramblePut(pTbl, (2-1), A, pointLen, (5-1));
// Table[3] ( =[3]p )
gfec_point_add(B, A, pPdata, pEC);
//cpScatter32((Ipp32u*)pTbl, 16, 2, (Ipp32u*)B, pointLen32);
gsScramblePut(pTbl, (3-1), B, pointLen, (5-1));
// Table[4] ( =[4]p )
gfec_point_double(A, A, pEC);
//cpScatter32((Ipp32u*)pTbl, 16, 3, (Ipp32u*)A, pointLen32);
gsScramblePut(pTbl, (4-1), A, pointLen, (5-1));
// Table[5] ( =[5]p )
gfec_point_add(C, A, pPdata, pEC);
//cpScatter32((Ipp32u*)pTbl, 16, 4, (Ipp32u*)C, pointLen32);
gsScramblePut(pTbl, (5-1), C, pointLen, (5-1));
// Table[10] ( =[10]p )
gfec_point_double(C, C, pEC);
//cpScatter32((Ipp32u*)pTbl, 16, 9, (Ipp32u*)C, pointLen32);
gsScramblePut(pTbl, (10-1), C, pointLen, (5-1));
// Table[11] ( =[11]p )
gfec_point_add(C, C, pPdata, pEC);
//cpScatter32((Ipp32u*)pTbl, 16, 10, (Ipp32u*)C, pointLen32);
gsScramblePut(pTbl, (11-1), C, pointLen, (5-1));
// Table[6] ( =[6]p )
gfec_point_double(B, B, pEC);
//cpScatter32((Ipp32u*)pTbl, 16, 5, (Ipp32u*)B, pointLen32);
gsScramblePut(pTbl, (6-1), B, pointLen, (5-1));
// Table[7] ( =[7]p )
gfec_point_add(C, B, pPdata, pEC);
//cpScatter32((Ipp32u*)pTbl, 16, 6, (Ipp32u*)C, pointLen32);
gsScramblePut(pTbl, (7-1), C, pointLen, (5-1));
// Table[14] ( =[14]p )
gfec_point_double(C, C, pEC);
//cpScatter32((Ipp32u*)pTbl, 16, 13, (Ipp32u*)C, pointLen32);
gsScramblePut(pTbl, (14-1), C, pointLen, (5-1));
// Table[15] ( =[15]p )
gfec_point_add(C, C, pPdata, pEC);
//cpScatter32((Ipp32u*)pTbl, 16, 14, (Ipp32u*)C, pointLen32);
gsScramblePut(pTbl, (15-1), C, pointLen, (5-1));
// Table[12] ( =[12]p )
gfec_point_double(B, B, pEC);
//cpScatter32((Ipp32u*)pTbl, 16, 11, (Ipp32u*)B, pointLen32);
gsScramblePut(pTbl, (12-1), B, pointLen, (5-1));
// Table[13] ( =[13]p )
gfec_point_add(B, B, pPdata, pEC);
//cpScatter32((Ipp32u*)pTbl, 16, 12, (Ipp32u*)B, pointLen32);
gsScramblePut(pTbl, (13-1), B, pointLen, (5-1));
// Table[8] ( =[8]p )
gfec_point_double(A, A, pEC);
//cpScatter32((Ipp32u*)pTbl, 16, 7, (Ipp32u*)A, pointLen32);
gsScramblePut(pTbl, (8-1), A, pointLen, (5-1));
// Table[9] ( =[9]p )
gfec_point_add(B, A, pPdata, pEC);
//cpScatter32((Ipp32u*)pTbl, 16, 8, (Ipp32u*)B, pointLen32);
gsScramblePut(pTbl, (9-1), B, pointLen, (5-1));
// Table[16] ( =[16]p )
gfec_point_double(A, A, pEC);
//cpScatter32((Ipp32u*)pTbl, 16, 15, (Ipp32u*)A, pointLen32);
gsScramblePut(pTbl, (16-1), A, pointLen, (5-1));
cpEcGFpReleasePool(npoints, pEC);
}