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/*******************************************************************************
* Copyright 2016-2018 Intel Corporation
* All Rights Reserved.
*
* If this software was obtained under the Intel Simplified Software License,
* the following terms apply:
*
* The source code, information and material ("Material") contained herein is
* owned by Intel Corporation or its suppliers or licensors, and title to such
* Material remains with Intel Corporation or its suppliers or licensors. The
* Material contains proprietary information of Intel or its suppliers and
* licensors. The Material is protected by worldwide copyright laws and treaty
* provisions. No part of the Material may be used, copied, reproduced,
* modified, published, uploaded, posted, transmitted, distributed or disclosed
* in any way without Intel's prior express written permission. No license under
* any patent, copyright or other intellectual property rights in the Material
* is granted to or conferred upon you, either expressly, by implication,
* inducement, estoppel or otherwise. Any license under such intellectual
* property rights must be express and approved by Intel in writing.
*
* Unless otherwise agreed by Intel in writing, you may not remove or alter this
* notice or any other notice embedded in Materials by Intel or Intel's
* suppliers or licensors in any way.
*
*
* If this software was obtained under the Apache License, Version 2.0 (the
* "License"), the following terms apply:
*
* You may not use this file except in compliance with the License. You may
* obtain a copy of the License at http://www.apache.org/licenses/LICENSE-2.0
*
*
* Unless required by applicable law or agreed to in writing, software
* distributed under the License is distributed on an "AS IS" BASIS, WITHOUT
* WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
*
* See the License for the specific language governing permissions and
* limitations under the License.
*******************************************************************************/
/*
// Intel(R) Integrated Performance Primitives. Cryptography Primitives.
// GF(p^d) methods, if binomial generator
//
*/
#include "owncp.h"
#include "pcpgfpxmethod_binom_mulc.h"
#include "pcpgfpxmethod_com.h"
//tbcd: temporary excluded: #include <assert.h>
/*
// Multiplication in GF(p^3), if field polynomial: g(x) = x^3 + beta => binominal
*/
static BNU_CHUNK_T* cpGFpxMul_p3_binom(BNU_CHUNK_T* pR, const BNU_CHUNK_T* pA, const BNU_CHUNK_T* pB, gsEngine* pGFEx)
{
gsEngine* pGroundGFE = GFP_PARENT(pGFEx);
int groundElemLen = GFP_FELEN(pGroundGFE);
mod_mul mulF = GFP_METHOD(pGroundGFE)->mul;
mod_add addF = GFP_METHOD(pGroundGFE)->add;
mod_sub subF = GFP_METHOD(pGroundGFE)->sub;
const BNU_CHUNK_T* pA0 = pA;
const BNU_CHUNK_T* pA1 = pA+groundElemLen;
const BNU_CHUNK_T* pA2 = pA+groundElemLen*2;
const BNU_CHUNK_T* pB0 = pB;
const BNU_CHUNK_T* pB1 = pB+groundElemLen;
const BNU_CHUNK_T* pB2 = pB+groundElemLen*2;
BNU_CHUNK_T* pR0 = pR;
BNU_CHUNK_T* pR1 = pR+groundElemLen;
BNU_CHUNK_T* pR2 = pR+groundElemLen*2;
BNU_CHUNK_T* t0 = cpGFpGetPool(6, pGroundGFE);
BNU_CHUNK_T* t1 = t0+groundElemLen;
BNU_CHUNK_T* t2 = t1+groundElemLen;
BNU_CHUNK_T* u0 = t2+groundElemLen;
BNU_CHUNK_T* u1 = u0+groundElemLen;
BNU_CHUNK_T* u2 = u1+groundElemLen;
//tbcd: temporary excluded: assert(NULL!=t0);
addF(u0 ,pA0, pA1, pGroundGFE); /* u0 = a[0]+a[1] */
addF(t0 ,pB0, pB1, pGroundGFE); /* t0 = b[0]+b[1] */
mulF(u0, u0, t0, pGroundGFE); /* u0 = (a[0]+a[1])*(b[0]+b[1]) */
mulF(t0, pA0, pB0, pGroundGFE); /* t0 = a[0]*b[0] */
addF(u1 ,pA1, pA2, pGroundGFE); /* u1 = a[1]+a[2] */
addF(t1 ,pB1, pB2, pGroundGFE); /* t1 = b[1]+b[2] */
mulF(u1, u1, t1, pGroundGFE); /* u1 = (a[1]+a[2])*(b[1]+b[2]) */
mulF(t1, pA1, pB1, pGroundGFE); /* t1 = a[1]*b[1] */
addF(u2 ,pA2, pA0, pGroundGFE); /* u2 = a[2]+a[0] */
addF(t2 ,pB2, pB0, pGroundGFE); /* t2 = b[2]+b[0] */
mulF(u2, u2, t2, pGroundGFE); /* u2 = (a[2]+a[0])*(b[2]+b[0]) */
mulF(t2, pA2, pB2, pGroundGFE); /* t2 = a[2]*b[2] */
subF(u0, u0, t0, pGroundGFE); /* u0 = a[0]*b[1]+a[1]*b[0] */
subF(u0, u0, t1, pGroundGFE);
subF(u1, u1, t1, pGroundGFE); /* u1 = a[1]*b[2]+a[2]*b[1] */
subF(u1, u1, t2, pGroundGFE);
subF(u2, u2, t2, pGroundGFE); /* u2 = a[2]*b[0]+a[0]*b[2] */
subF(u2, u2, t0, pGroundGFE);
cpGFpxMul_G0(u1, u1, pGFEx); /* u1 = (a[1]*b[2]+a[2]*b[1]) * beta */
cpGFpxMul_G0(t2, t2, pGFEx); /* t2 = a[2]*b[2] * beta */
subF(pR0, t0, u1, pGroundGFE); /* r[0] = a[0]*b[0] - (a[2]*b[1]+a[1]*b[2])*beta */
subF(pR1, u0, t2, pGroundGFE); /* r[1] = a[1]*b[0] + a[0]*b[1] - a[2]*b[2]*beta */
addF(pR2, u2, t1, pGroundGFE); /* r[2] = a[2]*b[0] + a[1]*b[1] + a[0]*b[2] */
cpGFpReleasePool(6, pGroundGFE);
return pR;
}
/*
// Squaring in GF(p^3), if field polynomial: g(x) = x^3 + beta => binominal
*/
static BNU_CHUNK_T* cpGFpxSqr_p3_binom(BNU_CHUNK_T* pR, const BNU_CHUNK_T* pA, gsEngine* pGFEx)
{
gsEngine* pGroundGFE = GFP_PARENT(pGFEx);
int groundElemLen = GFP_FELEN(pGroundGFE);
mod_mul mulF = GFP_METHOD(pGroundGFE)->mul;
mod_sqr sqrF = GFP_METHOD(pGroundGFE)->sqr;
mod_add addF = GFP_METHOD(pGroundGFE)->add;
mod_sub subF = GFP_METHOD(pGroundGFE)->sub;
const BNU_CHUNK_T* pA0 = pA;
const BNU_CHUNK_T* pA1 = pA+groundElemLen;
const BNU_CHUNK_T* pA2 = pA+groundElemLen*2;
BNU_CHUNK_T* pR0 = pR;
BNU_CHUNK_T* pR1 = pR+groundElemLen;
BNU_CHUNK_T* pR2 = pR+groundElemLen*2;
BNU_CHUNK_T* s0 = cpGFpGetPool(5, pGroundGFE);
BNU_CHUNK_T* s1 = s0+groundElemLen;
BNU_CHUNK_T* s2 = s1+groundElemLen;
BNU_CHUNK_T* s3 = s2+groundElemLen;
BNU_CHUNK_T* s4 = s3+groundElemLen;
//tbcd: temporary excluded: assert(NULL!=s0);
addF(s2, pA0, pA2, pGroundGFE);
subF(s2, s2, pA1, pGroundGFE);
sqrF(s2, s2, pGroundGFE);
sqrF(s0, pA0, pGroundGFE);
sqrF(s4, pA2, pGroundGFE);
mulF(s1, pA0, pA1, pGroundGFE);
mulF(s3, pA1, pA2, pGroundGFE);
addF(s1, s1, s1, pGroundGFE);
addF(s3, s3, s3, pGroundGFE);
addF(pR2, s1, s2, pGroundGFE);
addF(pR2, pR2, s3, pGroundGFE);
subF(pR2, pR2, s0, pGroundGFE);
subF(pR2, pR2, s4, pGroundGFE);
cpGFpxMul_G0(s4, s4, pGFEx);
subF(pR1, s1, s4, pGroundGFE);
cpGFpxMul_G0(s3, s3, pGFEx);
subF(pR0, s0, s3, pGroundGFE);
cpGFpReleasePool(5, pGroundGFE);
return pR;
}
/*
// return specific polynomi alarith methods
// polynomial - deg 3 binomial
*/
static gsModMethod* gsPolyArith_binom3(void)
{
static gsModMethod m = {
cpGFpxEncode_com,
cpGFpxDecode_com,
cpGFpxMul_p3_binom,
cpGFpxSqr_p3_binom,
NULL,
cpGFpxAdd_com,
cpGFpxSub_com,
cpGFpxNeg_com,
cpGFpxDiv2_com,
cpGFpxMul2_com,
cpGFpxMul3_com,
//cpGFpxInv
};
return &m;
}
/*F*
// Name: ippsGFpxMethod_binom2
//
// Purpose: Returns a reference to the implementation of arithmetic operations over GF(pd).
//
// Returns: pointer to a structure containing
// an implementation of arithmetic operations over GF(pd)
// g(x) = x^3 - a0, a0 from GF(p)
//
//
*F*/
IPPFUN( const IppsGFpMethod*, ippsGFpxMethod_binom3, (void) )
{
static IppsGFpMethod method = {
cpID_Binom,
3,
NULL,
NULL
};
method.arith = gsPolyArith_binom3();
return &method;
}
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