ext/ipp/sources/ippcp/pcpgfpx_multiexp.c - platform/external/epid-sdk - Git at Google

 /*******************************************************************************
 * Copyright 2010-2018 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.
 //     Internal operations over GF(p) extension.
 //
 //     Context:
 //        cpGFpxMultiExp()
 //
 */

 #include "owncp.h"
 #include "pcpbnumisc.h"
 #include "pcpgfpxstuff.h"
 #include "gsscramble.h"

 //tbcd: temporary excluded: #include <assert.h>

 static int GetIndex(const BNU_CHUNK_T* ppE[], int nItems, int nBit)
 {
    int shift = nBit%BYTESIZE;
    int offset= nBit/BYTESIZE;
    int index = 0;

    int n;
    for(n=nItems; n>0; n--) {
       const Ipp8u* pE = ((Ipp8u*)ppE[n-1]) + offset;
       Ipp8u e = pE[0];
       index <<= 1;
       index += (e>>shift) &1;
    }
    return index;
 }


 static void cpPrecomputeMultiExp(BNU_CHUNK_T* pTable, const BNU_CHUNK_T* ppA[], int nItems, gsModEngine* pGFEx)
 {
    gsModEngine* pBasicGFE = cpGFpBasic(pGFEx);

    //int nPrecomputed = 1<<nItems;

    /* length of element (BNU_CHUNK_T) */
    int elmLen = GFP_FELEN(pGFEx);

    /* get resource */
    BNU_CHUNK_T* pT = cpGFpGetPool(1, pGFEx);
    //tbcd: temporary excluded: assert(NULL!=pT);

    /* pTable[0] = 1 */
    cpGFpElementCopyPadd(pT, elmLen, GFP_MNT_R(pBasicGFE), GFP_FELEN(pBasicGFE));
    //cpScramblePut(pTable+0, nPrecomputed, (Ipp8u*)pT, elmDataSize);
    gsScramblePut(pTable, 0, pT, elmLen, nItems);
    /* pTable[1] = A[0] */
    //cpScramblePut(pTable+1, nPrecomputed, (Ipp8u*)(ppA[0]), elmDataSize);
    gsScramblePut(pTable, 1, ppA[0], elmLen, nItems);

    {
       mod_mul mulF = GFP_METHOD(pGFEx)->mul;  /* mul method */

       int i, baseIdx;
       for(i=1, baseIdx=2; i<nItems; i++, baseIdx*=2) {
          /* pTable[baseIdx] = A[i] */
          //cpScramblePut(pTable+baseIdx, nPrecomputed, (Ipp8u*)(ppA[i]), elmDataSize);
          gsScramblePut(pTable, baseIdx, ppA[i], elmLen, nItems);

          {
             int nPasses = 1;
             int step = baseIdx/2;

             int k;
             for(k=i-1; k>=0; k--) {
                int tblIdx = baseIdx;

                int n;
                for(n=0; n<nPasses; n++, tblIdx+=2*step) {
                   /* use pre-computed value */
                   //cpScrambleGet((Ipp8u*)pT, elmDataSize, pTable+tblIdx, nPrecomputed);
                   gsScrambleGet(pT, elmLen, pTable, tblIdx, nItems);
                   mulF(pT, pT, ppA[k], pGFEx);
                   //cpScramblePut(pTable+tblIdx+step, nPrecomputed, (Ipp8u*)pT, elmDataSize);
                   gsScramblePut(pTable, tblIdx+step, pT, elmLen, nItems);
                }

                nPasses *= 2;
                step /= 2;
             }
          }
       }
    }

    /* release resourse */
    cpGFpReleasePool(1, pGFEx);
 }


 static int cpGetMaxBitsizeExponent(const BNU_CHUNK_T* ppE[], int nsE[], int nItems)
 {
    int n;
    /* find out the longest exponent */
    int expBitSize = BITSIZE_BNU(ppE[0], nsE[0]);
    for(n=1; n<nItems; n++) {
       expBitSize = IPP_MAX(expBitSize, BITSIZE_BNU(ppE[n], nsE[n]));
    }
    return expBitSize;
 }

 /* sscm version */
 BNU_CHUNK_T* cpGFpxMultiExp(BNU_CHUNK_T* pR, const BNU_CHUNK_T* ppA[], const BNU_CHUNK_T* ppE[], int nsE[], int nItems,
                           gsModEngine* pGFEx, Ipp8u* pScratchBuffer)
 {
    /* align scratch buffer */
    BNU_CHUNK_T* pTable = (BNU_CHUNK_T*)( IPP_ALIGNED_PTR(pScratchBuffer, CACHE_LINE_SIZE) );
    /* pre-compute table */
    cpPrecomputeMultiExp(pTable, ppA, nItems, pGFEx);

    {
       mod_mul mulF = GFP_METHOD(pGFEx)->mul;  /* mul and sqr methods and parameter */
       mod_sqr sqrF = GFP_METHOD(pGFEx)->sqr;
       int elmLen = GFP_FELEN(pGFEx);

       /* find out the longest exponent */
       int expBitSize = cpGetMaxBitsizeExponent(ppE, nsE, nItems);

       /* allocate resource and copy expanded exponents into */
       const BNU_CHUNK_T* ppExponent[IPP_MAX_EXPONENT_NUM];
       {
          int n;
          for(n=0; n<nItems; n++) {
             BNU_CHUNK_T* pData = cpGFpGetPool(1, pGFEx);
             //tbcd: temporary excluded: assert(NULL!=pData);
             cpGFpElementCopyPadd(pData, elmLen, ppE[n], nsE[n]);
             ppExponent[n] = pData;
          }
       }

       /* multiexponentiation */
       {
          /* get temporary */
          BNU_CHUNK_T* pT = cpGFpGetPool(1, pGFEx);

          /* init result */
          int tblIdx = GetIndex(ppExponent, nItems, --expBitSize);
          //cpScrambleGet((Ipp8u*)pR, elmDataSize, pScratchBuffer+tblIdx, nPrecomputed);
          gsScrambleGet_sscm(pR, elmLen, pTable, tblIdx, nItems);

          //tbcd: temporary excluded: assert(NULL!=pT);

          /* compute the rest: square and multiply */
          for(--expBitSize; expBitSize>=0; expBitSize--) {
             sqrF(pR, pR, pGFEx);
             tblIdx = GetIndex(ppExponent, nItems, expBitSize);
             //cpScrambleGet((Ipp8u*)pT, elmDataSize, pScratchBuffer+tblIdx, nPrecomputed);
             gsScrambleGet_sscm(pT, elmLen, pTable, tblIdx, nItems);
             mulF(pR, pR, pT, pGFEx);
          }

          /* release resourse */
          cpGFpReleasePool(1, pGFEx);
       }

       /* release resourse */
       cpGFpReleasePool(nItems, pGFEx);

       return pR;
    }
 }
	/*******************************************************************************
	* Copyright 2010-2018 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.
	// Internal operations over GF(p) extension.
	//
	// Context:
	// cpGFpxMultiExp()
	//
	*/

	#include "owncp.h"
	#include "pcpbnumisc.h"
	#include "pcpgfpxstuff.h"
	#include "gsscramble.h"

	//tbcd: temporary excluded: #include <assert.h>

	static int GetIndex(const BNU_CHUNK_T* ppE[], int nItems, int nBit)
	{
	int shift = nBit%BYTESIZE;
	int offset= nBit/BYTESIZE;
	int index = 0;

	int n;
	for(n=nItems; n>0; n--) {
	const Ipp8u* pE = ((Ipp8u*)ppE[n-1]) + offset;
	Ipp8u e = pE[0];
	index <<= 1;
	index += (e>>shift) &1;
	}
	return index;
	}


	static void cpPrecomputeMultiExp(BNU_CHUNK_T* pTable, const BNU_CHUNK_T* ppA[], int nItems, gsModEngine* pGFEx)
	{
	gsModEngine* pBasicGFE = cpGFpBasic(pGFEx);

	//int nPrecomputed = 1<<nItems;

	/* length of element (BNU_CHUNK_T) */
	int elmLen = GFP_FELEN(pGFEx);

	/* get resource */
	BNU_CHUNK_T* pT = cpGFpGetPool(1, pGFEx);
	//tbcd: temporary excluded: assert(NULL!=pT);

	/* pTable[0] = 1 */
	cpGFpElementCopyPadd(pT, elmLen, GFP_MNT_R(pBasicGFE), GFP_FELEN(pBasicGFE));
	//cpScramblePut(pTable+0, nPrecomputed, (Ipp8u*)pT, elmDataSize);
	gsScramblePut(pTable, 0, pT, elmLen, nItems);
	/* pTable[1] = A[0] */
	//cpScramblePut(pTable+1, nPrecomputed, (Ipp8u*)(ppA[0]), elmDataSize);
	gsScramblePut(pTable, 1, ppA[0], elmLen, nItems);

	{
	mod_mul mulF = GFP_METHOD(pGFEx)->mul; /* mul method */

	int i, baseIdx;
	for(i=1, baseIdx=2; i<nItems; i++, baseIdx*=2) {
	/* pTable[baseIdx] = A[i] */
	//cpScramblePut(pTable+baseIdx, nPrecomputed, (Ipp8u*)(ppA[i]), elmDataSize);
	gsScramblePut(pTable, baseIdx, ppA[i], elmLen, nItems);

	{
	int nPasses = 1;
	int step = baseIdx/2;

	int k;
	for(k=i-1; k>=0; k--) {
	int tblIdx = baseIdx;

	int n;
	for(n=0; n<nPasses; n++, tblIdx+=2*step) {
	/* use pre-computed value */
	//cpScrambleGet((Ipp8u*)pT, elmDataSize, pTable+tblIdx, nPrecomputed);
	gsScrambleGet(pT, elmLen, pTable, tblIdx, nItems);
	mulF(pT, pT, ppA[k], pGFEx);
	//cpScramblePut(pTable+tblIdx+step, nPrecomputed, (Ipp8u*)pT, elmDataSize);
	gsScramblePut(pTable, tblIdx+step, pT, elmLen, nItems);
	}

	nPasses *= 2;
	step /= 2;
	}
	}
	}
	}

	/* release resourse */
	cpGFpReleasePool(1, pGFEx);
	}


	static int cpGetMaxBitsizeExponent(const BNU_CHUNK_T* ppE[], int nsE[], int nItems)
	{
	int n;
	/* find out the longest exponent */
	int expBitSize = BITSIZE_BNU(ppE[0], nsE[0]);
	for(n=1; n<nItems; n++) {
	expBitSize = IPP_MAX(expBitSize, BITSIZE_BNU(ppE[n], nsE[n]));
	}
	return expBitSize;
	}

	/* sscm version */
	BNU_CHUNK_T* cpGFpxMultiExp(BNU_CHUNK_T* pR, const BNU_CHUNK_T* ppA[], const BNU_CHUNK_T* ppE[], int nsE[], int nItems,
	gsModEngine* pGFEx, Ipp8u* pScratchBuffer)
	{
	/* align scratch buffer */
	BNU_CHUNK_T* pTable = (BNU_CHUNK_T*)( IPP_ALIGNED_PTR(pScratchBuffer, CACHE_LINE_SIZE) );
	/* pre-compute table */
	cpPrecomputeMultiExp(pTable, ppA, nItems, pGFEx);

	{
	mod_mul mulF = GFP_METHOD(pGFEx)->mul; /* mul and sqr methods and parameter */
	mod_sqr sqrF = GFP_METHOD(pGFEx)->sqr;
	int elmLen = GFP_FELEN(pGFEx);

	/* find out the longest exponent */
	int expBitSize = cpGetMaxBitsizeExponent(ppE, nsE, nItems);

	/* allocate resource and copy expanded exponents into */
	const BNU_CHUNK_T* ppExponent[IPP_MAX_EXPONENT_NUM];
	{
	int n;
	for(n=0; n<nItems; n++) {
	BNU_CHUNK_T* pData = cpGFpGetPool(1, pGFEx);
	//tbcd: temporary excluded: assert(NULL!=pData);
	cpGFpElementCopyPadd(pData, elmLen, ppE[n], nsE[n]);
	ppExponent[n] = pData;
	}
	}

	/* multiexponentiation */
	{
	/* get temporary */
	BNU_CHUNK_T* pT = cpGFpGetPool(1, pGFEx);

	/* init result */
	int tblIdx = GetIndex(ppExponent, nItems, --expBitSize);
	//cpScrambleGet((Ipp8u*)pR, elmDataSize, pScratchBuffer+tblIdx, nPrecomputed);
	gsScrambleGet_sscm(pR, elmLen, pTable, tblIdx, nItems);

	//tbcd: temporary excluded: assert(NULL!=pT);

	/* compute the rest: square and multiply */
	for(--expBitSize; expBitSize>=0; expBitSize--) {
	sqrF(pR, pR, pGFEx);
	tblIdx = GetIndex(ppExponent, nItems, expBitSize);
	//cpScrambleGet((Ipp8u*)pT, elmDataSize, pScratchBuffer+tblIdx, nPrecomputed);
	gsScrambleGet_sscm(pT, elmLen, pTable, tblIdx, nItems);
	mulF(pR, pR, pT, pGFEx);
	}

	/* release resourse */
	cpGFpReleasePool(1, pGFEx);
	}

	/* release resourse */
	cpGFpReleasePool(nItems, pGFEx);

	return pR;
	}
	}