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/*
// Intel(R) Integrated Performance Primitives. Cryptography Primitives.
// EC over GF(p^m) definitinons
//
// Context:
// ippsGFpECSet()
//
*/
#include "owndefs.h"
#include "owncp.h"
#include "pcpgfpecstuff.h"
#include "pcpeccp.h"
/*F*
// Name: ippsGFpECSet
//
// Purpose: Sets up the parameters of an elliptic curve over a finite field
//
// Returns: Reason:
// ippStsNullPtrErr NULL == pEC
// NULL == pA
// NULL == pB
//
// ippStsContextMatchErr invalid pEC->idCtx
// invalid pA->idCtx
// invalid pB->idCtx
//
// ippStsOutOfRangeErr GFPE_ROOM(pA)!=GFP_FELEN(pGFE)
// GFPE_ROOM(pB)!=GFP_FELEN(pGFE)
//
// ippStsNoErr no error
//
// Parameters:
// pA Pointer to the coefficient A of the equation defining the elliptic curve
// pB Pointer to the coefficient B of the equation defining the elliptic curve
// pEC Pointer to the context of the elliptic curve
//
*F*/
IPPFUN(IppStatus, ippsGFpECSet,(const IppsGFpElement* pA,
const IppsGFpElement* pB,
IppsGFpECState* pEC))
{
IPP_BAD_PTR1_RET(pEC);
pEC = (IppsGFpECState*)( IPP_ALIGNED_PTR(pEC, ECGFP_ALIGNMENT) );
IPP_BADARG_RET( !ECP_TEST_ID(pEC), ippStsContextMatchErr );
IPP_BAD_PTR2_RET(pA, pB);
IPP_BADARG_RET( !GFPE_TEST_ID(pA), ippStsContextMatchErr );
IPP_BADARG_RET( !GFPE_TEST_ID(pB), ippStsContextMatchErr );
{
gsModEngine* pGFE = GFP_PMA(ECP_GFP(pEC));
int elemLen = GFP_FELEN(pGFE);
IPP_BADARG_RET( GFPE_ROOM(pA)!=GFP_FELEN(pGFE), ippStsOutOfRangeErr);
IPP_BADARG_RET( GFPE_ROOM(pB)!=GFP_FELEN(pGFE), ippStsOutOfRangeErr);
/* copy A */
cpGFpElementPadd(ECP_A(pEC), elemLen, 0);
cpGFpElementCopy(ECP_A(pEC), GFPE_DATA(pA), elemLen);
/* and set up A-specific (a==0 or a==-3) if is */
if(GFP_IS_ZERO(ECP_A(pEC), elemLen))
ECP_SPECIFIC(pEC) = ECP_EPID2;
cpGFpElementSetChunk(ECP_B(pEC), elemLen, 3);
GFP_METHOD(pGFE)->encode(ECP_B(pEC), ECP_B(pEC), pGFE);
GFP_METHOD(pGFE)->add(ECP_B(pEC), ECP_A(pEC), ECP_B(pEC), pGFE);
if(GFP_IS_ZERO(ECP_B(pEC), elemLen))
ECP_SPECIFIC(pEC) = ECP_STD;
/* copy B */
cpGFpElementPadd(ECP_B(pEC), elemLen, 0);
cpGFpElementCopy(ECP_B(pEC), GFPE_DATA(pB), elemLen);
/* and set type of affine infinity representation:
// (0,1) if B==0
// (0,0) if B!=0 */
ECP_INFINITY(pEC) = GFP_IS_ZERO(ECP_B(pEC), elemLen);
return ippStsNoErr;
}
}