コード例 #1
0
//---------------------------------------------------------------------------
AWPRESULT awp4BitLBP(awpImage* pImage, awpRect* pRect, AWPBYTE* pCode)
{

	AWPINT x,y,w,h,ww;
	AWPRESULT res = AWP_OK;
	AWPDOUBLE tarea, area, total;
	AWPDOUBLE* pix;
	AWPINT iv[4];

    if (pImage == NULL)
        return AWP_BADARG;
    if (pImage->dwType != AWP_DOUBLE)
        return AWP_BADARG;
    if (pRect == NULL)
        return AWP_BADARG;
    if (awpRectInImage(pImage, pRect) != AWP_OK)
        return AWP_BADARG;


     x = pRect->left;
     y = pRect->top;
     w = pRect->right - x;
     h = pRect->bottom - y;
     ww = pImage->sSizeX;
     tarea = 1.0/((double)w*(double)h);
     area  = ((double)w*(double)h)/ 4.0;
     area  = 1/area;

      pix = (double*)pImage->pPixels;

      total =  CalcSum(pix, x, y, w, h, ww)*tarea;


     memset(iv, 0, sizeof(iv));
     w /=2;
     h /=2;
     iv[0] = CalcSum(pix, x, y, w, h, ww) * area > total?1:0;
     iv[1] = CalcSum(pix, x + w, y, w, h, ww) * area> total?1:0;
     iv[2] = CalcSum(pix, x +w, y + h, w, h, ww) * area> total?1:0;
     iv[3] = CalcSum(pix, x +w, y + h, w, h, ww) * area> total?1:0;

      *pCode = 0;
      *pCode |= iv[0];
      *pCode  = *pCode << 1;
      *pCode |= iv[1];
      *pCode  = *pCode << 1;
      *pCode |= iv[2];
      *pCode  = *pCode << 1;
      *pCode |= iv[3];

    return res;
}
コード例 #2
0
AWPRESULT awp2BitLBP(awpImage* pImage, awpRect* pRect, AWPBYTE* pCode)
{
    AWPRESULT res = AWP_OK;
    AWPFLOAT  x,y,w,h,ww;
	AWPDOUBLE* pix;
	AWPDOUBLE area, iv[4];
    AWPBYTE c1;
    AWPBYTE c2;

	if (pImage == NULL)
        return AWP_BADARG;
    if (pImage->dwType != AWP_DOUBLE)
        return AWP_BADARG;
    if (pRect == NULL)
        return AWP_BADARG;
    if (awpRectInImage(pImage, pRect) != AWP_OK)
        return AWP_BADARG;


     x = pRect->left;
     y = pRect->top;
     w = pRect->right - x;
     h = pRect->bottom - y;
     ww = pImage->sSizeX;

     area  = ((double)w*(double)h)/ 2.0;
     area  = 1/area;

     pix = (double*)pImage->pPixels;

     memset(iv, 0, sizeof(iv));

	 iv[0] = (AWPDOUBLE)(CalcSum(pix, (AWPINT)x, (AWPINT)y, (AWPINT)w, (AWPINT)(h / 2), (AWPINT)ww)*area);
	 iv[1] = (AWPDOUBLE)(CalcSum(pix, (AWPINT)x, (AWPINT)y + (AWPINT)(h / 2), (AWPINT)w, (AWPINT)(h / 2), (AWPINT)ww)*area);

	 iv[2] = (AWPDOUBLE)(CalcSum(pix, (AWPINT)x, (AWPINT)y, (AWPINT)(w / 2), (AWPINT)h, (AWPINT)ww)*area);
	 iv[3] = (AWPDOUBLE)(CalcSum(pix, (AWPINT)x + (AWPINT)(w / 2), (AWPINT)y, (AWPINT)(w / 2), (AWPINT)h, (AWPINT)ww)*area);


     c1 = iv[0] > iv[1] ? 1:0;
     c2 = iv[2] > iv[3] ? 1:0;

     *pCode = 0;
     *pCode |= c1;
     *pCode = *pCode << 1;
     *pCode |= c2;


    return res;
}
コード例 #3
0
ファイル: computation2.cpp プロジェクト: duhone/college
STDMETHODIMP Ccomputation2::CalcAvg(double* dResult)
{
	// TODO: Add your implementation code here
	CalcSum(dResult);
	(*dResult) /= problist->size();
	return S_OK;
}
コード例 #4
0
AWPRESULT awpIntegralGrid(const awpImage* pImage, const awpRect* pRect, awpImage* pDst)
{
    AWPRESULT res = AWP_OK;
	AWPSHORT rwidth,rheight;
	AWPDOUBLE x_cell_size, y_cell_size, cell_square;
	AWPDOUBLE* in;
	AWPDOUBLE* out;
	awpRect r;
	AWPWORD x,y;

    if (pImage == NULL)
        return AWP_BADARG;
    if (pDst == NULL)
        return AWP_BADARG;
    if (pImage->dwType != AWP_DOUBLE)
        return AWP_BADARG;
    if (pDst->dwType != AWP_DOUBLE)
        return AWP_BADARG;
    if (pRect == NULL)
        return AWP_BADARG;
    if (awpRectInImage(pImage, pRect) != AWP_OK)
        return AWP_BADARG;

     rwidth = pRect->right - pRect->left;
     rheight = pRect->bottom - pRect->top;
        
     x_cell_size = (AWPDOUBLE)rwidth / (AWPDOUBLE)pDst->sSizeX;
     y_cell_size = (AWPDOUBLE)rheight / (AWPDOUBLE)pDst->sSizeY;
     cell_square =  x_cell_size*y_cell_size;

    cell_square = 1 / cell_square;

    if (x_cell_size < 2 || y_cell_size < 2)
        return AWP_BADARG;

    out = (AWPDOUBLE*)pDst->pPixels;
    in = (AWPDOUBLE*)pImage->pPixels;

    for ( y = 0; y < pDst->sSizeY; y++)
    {
        r.top = (AWPSHORT)ceil(pRect->top + y*y_cell_size + 0.5);
        r.bottom = (AWPSHORT)ceil(r.top + y_cell_size + 0.5);
        for ( x = 0; x < pDst->sSizeX; x++)
        {
             r.left = (AWPSHORT)ceil(pRect->left + x*x_cell_size + 0.5);
             r.right = (AWPSHORT)ceil(r.left + x_cell_size + 0.5);

			 out[y*pDst->sSizeX + x] = CalcSum(in, r.left, r.top, (AWPINT)x_cell_size, (AWPINT)y_cell_size, pImage->sSizeX);
             out[y*pDst->sSizeX + x] *= cell_square;
        }
    }


    return res;
}
コード例 #5
0
ファイル: encryptcomm.cpp プロジェクト: vagabond1132/Code
/**************************************************************
函数名称: GetDataFromHsm
函数功能: 连接加密机从其获取数据
入口参数: pMsgBuffer[in/out]:发送或返回的数据中的MSG
           iLen[in/out]:发送或返回数据的长度
相关调用:
返 回 值: true成功, false失败
**************************************************************/
bool EnCryptComm::GetDataFromHsm(unsigned char *pMsgBuffer, unsigned & iLen)
{
    unsigned char cmd = pMsgBuffer[0], Buffer[1024]={0};
    unsigned sLen;//发送数据长度
    sLen = iLen + 7;
    memcpy(Buffer, &sLen, 2);//LC
    Buffer[2]=0xF1;//INS
    Buffer[3]=0;//SEQ
    //CR默认为0
    memcpy(&Buffer[6], pMsgBuffer, iLen);//MSG
    Buffer[sLen-1] = CalcSum(Buffer, sLen - 1);//CRC
    char errDesc[512]={0};
    unsigned char cRecBuf[1024]={0};
    int recLen=0;
    SocketClient client;
    int iErrorCode=client.SendToHost(Buffer,sLen,cRecBuf,recLen,g_Cfg.EncHost.Host, g_Cfg.EncHost.Port,20,errDesc);
    if(0==iErrorCode)
    {
    	trace_log(DBG, "recv from enchost");
		trace_mem(cRecBuf, recLen);
        if(cRecBuf[recLen-1] == CalcSum(cRecBuf, recLen - 1) && cRecBuf[6] == cmd && cRecBuf[8] == CMD_OK)
        {//校验值正确,与原命令字相同,返回码为成功
            if(memcmp(pMsgBuffer+2, cRecBuf+9, LEN_MERCHNO+LEN_TERMINO)!=0)//+LEN_TERMINO
            {//比较商户号与终端号
                trace_log(DBG, "The return data from encryptor is not match!!");
                return false;
            }
            memcpy(pMsgBuffer, cRecBuf+6, recLen-7);//去掉LC,INS,SEQ,CR,CRC
            iLen = recLen-7;
            trace_log(DBG,"GetDataFromHsm->iLen=%d",iLen);
            return true;
        }
        else
        {
            trace_log(ERR, "GetDataFromHsm else CalcSum  %d", recLen);
            return false ;
        }
    }else{
        trace_log(ERR,errDesc);
        return false;
    }
}
コード例 #6
0
ファイル: protocol.cpp プロジェクト: vagabond1132/Code
void SendDataToSever(char * Buffer,char * pMsgBuffer,int iLen)
{
    int sLen;//发送数据长度
    sLen = iLen + 7;
    memcpy(&Buffer[0], &sLen, 2);//LC
    Buffer[2]=0xF1;//INS
    Buffer[3]=0;//SEQ
    //CR默认为0
    memcpy(&Buffer[6], pMsgBuffer, iLen);//MSG
    Buffer[sLen-1] = CalcSum((const unsigned char*)Buffer, sLen - 1);//CRC

}
コード例 #7
0
void Start() {
    // Here we would create temp Base object from argument '5', pass it to
    // function CalcSum(), and after return destroy temp object.
    int sum =  CalcSum(5, 4);
    std::cout << "Sum is " << sum << std::endl;

    // Here we would use RVO compiler optimisation. No temp objects would be
    // created, only one - result
    Base result = InitBaseRVO(10);
    std::cout << "Inited Base object have value " << result.m_value <<
                 std::endl;

    Base resultNRVO = InitBaseNRVO(15);
    std::cout << "NRVO-Inited Base object have value " << resultNRVO.m_value <<
                 std::endl;
}
コード例 #8
0
ファイル: main.cpp プロジェクト: cshnick/sm_servcie_model
int main()
{
	try	{
		Boss::Loader Ldr("Registry.xml", MAKE_MODULE_PATH MAKE_MODULE_NAME("service_registry"),
				MAKE_MODULE_PATH MAKE_MODULE_NAME("class_factory"));
		int stub = 0;
		int stub1 = 1;
		int stub2 = 2;
		auto Obj = Boss::CreateObject<MyNs::ISum>(MyNs::Service::Id::Sum);
		int Res = 0;
		if (Obj->CalcSum(10, 20, &Res))
			std::cout << "Failed to calc sum." << std::endl;
		std::cout << "Sum: " << Res << std::endl;
	}
	catch (std::exception const &e) {
		std::cerr << "Error: " << e.what() << std::endl;
	}
	return 0;
}
コード例 #9
0
ファイル: FaceTracker.cpp プロジェクト: telnykha/VideoA
CFeatureValues* CLBPFeatures::GetFeatures(awpImage* img, awpRect* r)
{
        if (awpRectInImage(img, r) != AWP_OK)
            return NULL;
        awpRect r1 = *r;
        int w = r->right - r->left;
        int h = r->bottom - r->top;

        r1.top += h;
        r1.bottom += h;

        if (awpRectInImage(img, &r1) != AWP_OK)
            return NULL;

        if (r->right - r->left < 32)
            return NULL;

        CFeatureValues* v = new CFeatureValues(2*m_num);
        float scale = (r->right - r->left) / 24.;


        int count = 0;
        for (int i = 0; i < this->m_patches.GetCount(); i++)
        {
            TLFRect* rr = (TLFRect*)this->m_patches.Get(i);
            awpRect r1 = rr->GetRect();
            int w = rr->Width();
            int h = rr->Height();

            w = (int)(w*scale + 0.5);
            h = (int)(h*scale + 0.5);
            r1.left  = (int)(r1.left*scale + 0.5);
            r1.top   = (int)(r1.top*scale + 0.5);

            r1.left += r->left;
            r1.top  += r->top;

            r1.bottom = r1.top + h;
            r1.right  = r1.left + w;

            AWPBYTE code = 1;

            double v1 =  CalcSum((double*)img->pPixels, r1.left, r1.top, w / 2, h, img->sSizeX );
            double v2 =  CalcSum((double*)img->pPixels, r1.left + w/2, r1.top, w / 2, h, img->sSizeX );

            if (v1 > v2)
                code = 1;
            else
                code = 0;
            v->SetValue(2*count, code);


            v1 =  CalcSum((double*)img->pPixels, r1.left, r1.top, w , h/2, img->sSizeX );
            v2 =  CalcSum((double*)img->pPixels, r1.left, r1.top + h/2, w, h/2, img->sSizeX );

            if (v1 > v2)
                code = 1;
            else
                code = 0;
            v->SetValue(2*count+1, code);
            count++;
        }
        //memcpy(r, &r1, sizeof(awpRect));
        awpRect r3 = r1;
        for (int i = 0; i < this->m_patches.GetCount(); i++)
        {
            TLFRect* rr = (TLFRect*)this->m_patches.Get(i);
            awpRect r1 = rr->GetRect();
            int w = rr->Width();
            int h = rr->Height();

            w = (int)(w*scale + 0.5);
            h = (int)(h*scale + 0.5);
            r1.left  = (int)(r1.left*scale + 0.5);
            r1.top   = (int)(r1.top*scale + 0.5);

            r1.left += r3.left;
            r1.top  += r3.top;

            r1.bottom = r1.top + h;
            r1.right  = r1.left + w;

            AWPBYTE code = 1;

            double v1 =  CalcSum((double*)img->pPixels, r1.left, r1.top, w / 2, h, img->sSizeX );
            double v2 =  CalcSum((double*)img->pPixels, r1.left + w/2, r1.top, w / 2, h, img->sSizeX );

            if (v1 > v2)
                code = 1;
            else
                code = 0;
            v->SetValue(2*count, code);


            v1 =  CalcSum((double*)img->pPixels, r1.left, r1.top, w , h/2, img->sSizeX );
            v2 =  CalcSum((double*)img->pPixels, r1.left, r1.top + h/2, w, h/2, img->sSizeX );

            if (v1 > v2)
                code = 1;
            else
                code = 0;
            v->SetValue(2*count+1, code);
            count++;
        }
        return v;
}
コード例 #10
0
ファイル: avcpacker.c プロジェクト: hackshields/antivirus
/*
bCompress:
  0 - выполнять распаковку (avc->ave2)
  1 - выполнять упаковку (ave2->avc)
*/
int TransformBase(SMemFile mfInBase, SMemFile *pmfOutBase, BOOL bCompress)
{
  int i;
  AVP_BaseHeader  BaseHeader;
  SPtrArray   BlockHeaderArray;
  AVP_BlockHeader * bhp;
  int rCount=0;
  DWORD bread;
  int ret = ERR_SUCCESS; // NO ERROR

  PtrArrayReset(&BlockHeaderArray);
  MemFileSeekToBegin(&mfInBase);

//BaseHeader read
  bread = MemFileRead(&mfInBase, &BaseHeader, sizeof(BaseHeader));

  if(*(DWORD*)BaseHeader.Authenticity==AVP_MAGIC)
  {
    MemFileSeekToBegin(&mfInBase);
    bread = MemFileRead(&mfInBase, BaseHeader.Authenticity, sizeof(BaseHeader)-0x40);
  }

  if(BaseHeader.Magic!=AVP_MAGIC)
  {
    ret = ERR_BAD_FORMAT;
  }
  else
  {
    //char timeBuf[0x200];
    //SYSTEMTIME st;
    BOOL bBaseCompressed = 0;

//BlockHeaderTable read
    MemFileSeek(&mfInBase, BaseHeader.BlockHeaderTableFO, SEEK_SET);

    for(i=0; i<(int)BaseHeader.BlockHeaderTableSize; i++)
    {
      bhp=(AVP_BlockHeader*)malloc(sizeof(AVP_BlockHeader));
      bread = MemFileRead(&mfInBase, bhp, sizeof(AVP_BlockHeader));
      if(bread!=sizeof(AVP_BlockHeader))
      {
        free(bhp);
        ret = ERR_FILE_CORRUPTED;
        goto abort_;
      }
      PtrArrayAdd(&BlockHeaderArray,bhp);
      if (bhp->Compression) bBaseCompressed = 1;
    }

    if ( (!bBaseCompressed && !bCompress) || (bBaseCompressed && bCompress))
    {
      ret = ERR_BAD_FORMAT;  // WRONG COMPRESSION STATUS
      goto abort_;
    }

    MemFileReset(pmfOutBase);

    /*GetLocalTime2(&st);

    memset(BaseHeader.Text,0,0x40);
    sprintf((char *)BaseHeader.Text,"AVP Antiviral Database. (c)Kaspersky Lab 1997-%d.",st.wYear);
    *(DWORD*)(BaseHeader.Text+0x3E)='\xd\xa';

    memset(BaseHeader.Authenticity,0,0x40);
    strcpy((char *)(BaseHeader.Authenticity), TimeFormat(timeBuf,0x200,"Kaspersky Lab. %d %b %Y  %H:%M:%S"));
    *(DWORD*)(BaseHeader.Authenticity+0x3C)='\xd\xa\xd\xa';

    BaseHeader.CreationTime=st;
    BaseHeader.ModificationTime=st;*/

//BaseHeader write
    MemFileWrite(pmfOutBase, &BaseHeader, sizeof(BaseHeader));

//BlockTableHeader write
    BaseHeader.BlockHeaderTableFO = MemFileGetPosition(pmfOutBase);
    bhp=(AVP_BlockHeader *)malloc( sizeof(AVP_BlockHeader) );
    memset(bhp,0,sizeof(AVP_BlockHeader));
    for(i=0; i<(int)BaseHeader.BlockHeaderTableSize; i++)
      MemFileWrite(pmfOutBase, bhp, sizeof(AVP_BlockHeader));
    free(bhp);

//Records & Links write
    for(i=0; i<(int)BaseHeader.BlockHeaderTableSize; i++)
    {
      UINT ib;
      BYTE* buf = 0;

      bhp=(AVP_BlockHeader*)BlockHeaderArray.pp[i];

      if (bhp->CompressedSize == 0 && bhp->UncompressedSize == 0)
        continue;

      if (bhp->CompressedSize == 0 || bhp->UncompressedSize == 0)
      {
        ret = ERR_AVP_BLOCKHEADER_CORRUPTED;  // 16-битные линки надо лучше чистить !!!
        goto abort_;
      }

      // read block
      MemFileSeek(&mfInBase, bhp->BlockFO, SEEK_SET);
      buf = (BYTE*)malloc(bhp->CompressedSize);
      bread = MemFileRead(&mfInBase, buf, bhp->CompressedSize);

      if(bread!=bhp->CompressedSize || bhp->CRC!=CalcSum(buf,bhp->CompressedSize))
      {
        free(buf);
        ret = ERR_FILE_CORRUPTED;
        goto abort_;
      }

      if(bhp->Compression)
      { // decompress block
        BYTE *out_buf = (BYTE*)malloc(bhp->UncompressedSize+1);

        for(ib=0; ib<bhp->CompressedSize; ib++) buf[ib]^=(BYTE)ib;
        bread = unsqu( buf, out_buf);
        if (bread != bhp->UncompressedSize)
        {
          ret = ERR_FILE_CORRUPTED;
          goto abort_;
        }
        free(buf);
        buf = out_buf;
        out_buf = 0;

        bhp->Compression = 0;
        bhp->CompressedSize = bhp->UncompressedSize;
      }

      if (bCompress)
      { // compress block
        SMemFile mfBlock;
        SMemFile mfOutBlock;

        MemFileReset(&mfOutBlock);
        MemFileAttach(&mfBlock, buf, bhp->UncompressedSize);

        bhp->Compression = 1;
        bhp->CompressedSize = squeeze(&mfBlock, &mfOutBlock, bhp->UncompressedSize, 0);
        MemFileDelete(&mfBlock);
        buf = MemFileDetach(&mfOutBlock);
        for(ib=0; ib<bhp->CompressedSize; ib++) buf[ib]^=(BYTE)ib;
      }

      bhp->BlockFO = MemFileGetPosition(pmfOutBase);
      bhp->CRC = CalcSum( buf, bhp->CompressedSize);
      MemFileWrite(pmfOutBase, buf, bhp->CompressedSize);
    }

//BaseHeader Again write
    BaseHeader.FileSize = MemFileGetLength(pmfOutBase) + ((bCompress)?64:0);
    BaseHeader.BlockHeaderTableSize = PtrArrayGetSize( &BlockHeaderArray );
    BaseHeader.AuthenticityCRC=(CalcSum(BaseHeader.Authenticity,0x40));
    BaseHeader.HeaderCRC=(CalcSum((BYTE*)&BaseHeader.Magic,sizeof(BaseHeader)-0x84));

    MemFileSeekToBegin(pmfOutBase);
    MemFileWrite(pmfOutBase,&BaseHeader,sizeof(BaseHeader));

//BlockTableHeader Again write
    MemFileSeek(pmfOutBase, BaseHeader.BlockHeaderTableFO, SEEK_SET);
    for(i=0; i<(int)BaseHeader.BlockHeaderTableSize; i++)
      MemFileWrite(pmfOutBase, BlockHeaderArray.pp[i], sizeof(AVP_BlockHeader));

  }
abort_:
  PtrArrayFreeAllPtr(&BlockHeaderArray);
  return ret;
}
コード例 #11
0
ファイル: avcpacker.c プロジェクト: hackshields/antivirus
int CompressBase( const BYTE *pAveBuffer, DWORD dwAveBufferSize, const char *pszAvcFileName)
{
  int NameCnt=0;
  AVP_BaseHeader  BaseHeader;
  int ret=ERR_SUCCESS;
  FILE *fp=0;

  memset(mfRecordsArray,0,NUMBER_OF_RECORD_BLOCK_TYPES*NUMBER_OF_RECORD_TYPES*sizeof(SMemFile));
  memset(RNumTable,     0,NUMBER_OF_RECORD_BLOCK_TYPES*NUMBER_OF_RECORD_TYPES*sizeof(int));
  MemFileReset(&mfNames);
  NameIdx=0;
  
  memcpy(&BaseHeader, pAveBuffer, sizeof(BaseHeader));
  if(BaseHeader.Magic==AVP_MAGIC)
  {
    if(!LoadBase(pAveBuffer,dwAveBufferSize))
    {
      ret=ERR_BAD_FORMAT;
      goto err;
    }
  }
  else
  {
    ret=ERR_BAD_FORMAT;
    goto err;
  }

  if((fp=fopen(pszAvcFileName,"wb")) != NULL)
  {
    //char timeBuf[0x200];
    //SYSTEMTIME st;
    SPtrArray BlockHeaderArray;
    AVP_BlockHeader* bhp;
    int i,j;
    int nbh;

    PtrArrayReset(&BlockHeaderArray);

    /*GetLocalTime2(&st);

    memset(BaseHeader.Text,0,0x40);
    sprintf((char *)BaseHeader.Text,"AVP Antiviral Database. (c)Kaspersky Lab 1997-%d.",st.wYear);
    *(DWORD*)(BaseHeader.Text+0x3E)='\xd\xa';

    memset(BaseHeader.Authenticity,0,0x40);
    strcpy((char *)(BaseHeader.Authenticity), TimeFormat(timeBuf,0x200,"Kaspersky Lab. %d %b %Y  %H:%M:%S"));
    *(DWORD*)(BaseHeader.Authenticity+0x3C)='\xd\xa\xd\xa';*/

    BaseHeader.VXs.BXs.VerH=   0x03;
    BaseHeader.VXs.BXs.VerL=   0x00;
    BaseHeader.Flags=0x0001;
    BaseHeader.NumberOfRecordBlockTypes=NUMBER_OF_RECORD_BLOCK_TYPES;
    BaseHeader.NumberOfRecordTypes=NUMBER_OF_RECORD_TYPES;
    /*BaseHeader.CreationTime=st;
    BaseHeader.ModificationTime=st;*/

    BaseHeader.Flags &=~1;
  
//BaseHeader write
    fwrite(&BaseHeader,sizeof(BaseHeader),1,fp);

//BlockTableHeader write
    BaseHeader.BlockHeaderTableFO = ftell(fp);
    nbh=NameIdx?1:0;
    for (i=0; i<NUMBER_OF_RECORD_BLOCK_TYPES; i++)
      for (j=0; j<NUMBER_OF_RECORD_TYPES; j++)
        if(RNumTable[i][j])nbh++;


    bhp=(AVP_BlockHeader *)malloc( sizeof(AVP_BlockHeader) );
    memset(bhp,0,sizeof(AVP_BlockHeader));
    for(i=0;i<nbh;i++) fwrite(bhp,sizeof(AVP_BlockHeader),1,fp);
    free(bhp);

//Records & Links write
    for (i=0; i<NUMBER_OF_RECORD_BLOCK_TYPES; i++)
    for (j=0; j<NUMBER_OF_RECORD_TYPES; j++)
    {
      SMemFile cmf;
      UINT ib;
      BYTE *mb;
      if(0==RNumTable[i][j])continue;

      bhp=(AVP_BlockHeader *)malloc(sizeof(AVP_BlockHeader));
      memset(bhp,0,sizeof(AVP_BlockHeader));
      PtrArrayAdd(&BlockHeaderArray, bhp);

      bhp->BlockFO=ftell(fp);
      bhp->BlockType=i;   //HERE define TYPES
      bhp->RecordType=j;  
      bhp->NumRecords=RNumTable[i][j];

      if(i==BT_RECORD){
        switch(j){
        case RT_KERNEL: bhp->RecordSize=sizeof(R_Kernel); break;
        case RT_JUMP:   bhp->RecordSize=sizeof(R_Jump); break;
        case RT_MEMORY: bhp->RecordSize=sizeof(R_Memory); break;
        case RT_SECTOR: bhp->RecordSize=sizeof(R_Sector); break;
        case RT_FILE:   bhp->RecordSize=sizeof(R_File); break;
        case RT_CA:     bhp->RecordSize=sizeof(R_CA); break;
        case RT_UNPACK: bhp->RecordSize=sizeof(R_Unpack); break;
        case RT_EXTRACT:bhp->RecordSize=sizeof(R_Extract); break;
        default:  bhp->RecordSize=0; break;
        }
      }
      else  bhp->RecordSize=0;
      
      bhp->UncompressedSize=MemFileGetLength( &mfRecordsArray[i][j] );
      bhp->Compression=1;
      
      MemFileReset(&cmf);
      MemFileSeekToBegin( &mfRecordsArray[i][j] );
      bhp->CompressedSize=squeeze(&mfRecordsArray[i][j],&cmf,bhp->UncompressedSize,0);
      /* BYTE* */mb = MemFileDetach(&cmf);
      for(ib=0; ib<bhp->CompressedSize; ib++) mb[ib]^=(BYTE)ib;

      bhp->CRC=CalcSum(mb, bhp->CompressedSize);
      fwrite(mb,bhp->CompressedSize,1,fp);
      free(mb);
    }
    
//Names write
    if(NameIdx)
    {
      SMemFile *mf;
      SMemFile cmf;
      UINT ib;
      BYTE *mb;

      bhp=(AVP_BlockHeader *)malloc(sizeof(AVP_BlockHeader));
      memset(bhp,0,sizeof(AVP_BlockHeader));
      PtrArrayAdd( &BlockHeaderArray, bhp );

      bhp->BlockFO=ftell(fp);
      bhp->BlockType=BT_NAME;
      bhp->NumRecords=NameIdx;

      /* CMemFile* */mf=&mfNames;

      bhp->UncompressedSize=MemFileGetLength(mf);
      bhp->Compression=1;
      
      //CMemFile cmf(0x1000);

      MemFileReset(&cmf);
      MemFileSeekToBegin(mf);
      bhp->CompressedSize=squeeze(mf,&cmf,bhp->UncompressedSize,0);
      /* BYTE* */mb=MemFileDetach( &cmf );
      for(ib=0; ib<bhp->CompressedSize; ib++) mb[ib]^=(BYTE)ib;

      bhp->CRC=CalcSum(mb,bhp->CompressedSize);
      fwrite(mb,bhp->CompressedSize,1,fp);
      free(mb);
      
      mb=MemFileDetach(mf);
      free(mb);
    }

    BaseHeader.FileSize = ftell(fp)+64;
    BaseHeader.BlockHeaderTableSize = PtrArrayGetSize( &BlockHeaderArray ); 
    BaseHeader.AuthenticityCRC=(CalcSum(BaseHeader.Authenticity,0x40));
    BaseHeader.HeaderCRC=(CalcSum((BYTE*)&BaseHeader.Magic,sizeof(BaseHeader)-0x84));
    fseek(fp,0,SEEK_SET);
    fwrite(&BaseHeader,sizeof(BaseHeader),1,fp);

//BlockTableHeader Again write
    fseek(fp, BaseHeader.BlockHeaderTableFO, SEEK_SET);
    for(i=0; i<(int)BaseHeader.BlockHeaderTableSize; i++)
    {
      fwrite(BlockHeaderArray.pp[i],sizeof(AVP_BlockHeader),1,fp);
    }
    fclose(fp);
    PtrArrayFreeAllPtr(&BlockHeaderArray);

    for (i=0; i<NUMBER_OF_RECORD_BLOCK_TYPES; i++)
    {
      for (j=0; j<NUMBER_OF_RECORD_TYPES; j++)
        MemFileDelete(&mfRecordsArray[i][j]);
    }
    MemFileDelete(&mfNames);
    
  }
  else
  {
    ret = ERR_FILE_IO_ERROR;
  }
err:;
  return ret;
}
コード例 #12
0
ファイル: avcpacker.c プロジェクト: hackshields/antivirus
int LoadBase(const BYTE *pAveBuffer, DWORD dwAveBufferSize)
{
  int rCount=0;
  AVP_BaseHeader    BaseHeader;
  SPtrArray   BlockHeaderArray;
  AVP_BlockHeader * bhp;

  PtrArrayReset(&BlockHeaderArray);

//BaseHeader read

  memcpy(&BaseHeader, pAveBuffer, sizeof(BaseHeader));

  if(*(DWORD*)BaseHeader.Authenticity==AVP_MAGIC)
    memcpy(BaseHeader.Authenticity, pAveBuffer, sizeof(BaseHeader)-0x40);
  
  if(BaseHeader.Magic==AVP_MAGIC)
  {
    BYTE* nbuf=NULL;
    UINT i;
    UINT j;
    BOOL names_done;
      
//BlockHeaderTable read

    bhp = (AVP_BlockHeader*)&pAveBuffer[BaseHeader.BlockHeaderTableFO];
    for(i=0; i<BaseHeader.BlockHeaderTableSize; i++)
    {
      PtrArrayAdd(&BlockHeaderArray,bhp);
      bhp++;
    }

    names_done=0;

lab_names_done:

    for(i=0; i<BaseHeader.BlockHeaderTableSize; i++)
    {
      BYTE* buf = 0;
      DWORD npos;
      DWORD k;

      bhp=(AVP_BlockHeader*)BlockHeaderArray.pp[i];
      if(bhp->Compression) goto abort_;

      // Fix LINK16 bug
      if (bhp->CompressedSize == 0 || bhp->UncompressedSize == 0)
        continue;
      
      switch(bhp->BlockType)
      {
      case BT_NAME:
        break;
      case BT_LINK16:
        //if(!add_16bit_links)
          //continue;
      case BT_RECORD:
      case BT_LINK32:
        if(names_done)
          break;
      case BT_EDIT:
      case BT_COMMENT:
      default: continue;
      }
      
      /*BYTE* */ buf=malloc(bhp->CompressedSize);

      if(buf==NULL) goto abort_;

      memcpy(buf,&pAveBuffer[bhp->BlockFO], bhp->CompressedSize);

      if( bhp->CRC!=CalcSum(buf,bhp->CompressedSize) )
      {
        free(buf);
        goto abort_;
      }

      switch(bhp->BlockType)
      {
      case BT_NAME:
        if(names_done)
        {
          MemFileWrite( &mfNames, buf, bhp->CompressedSize );
        }
        else
        {
          if(nbuf) free(nbuf);
          nbuf=malloc(bhp->CompressedSize+1);
          memcpy(nbuf+1,buf,bhp->CompressedSize);
          nbuf[0]='\n';
          for(k=1; k<=bhp->CompressedSize; k++)
            if(nbuf[k]=='\n') nbuf[k]=0;
          free(buf);
          buf=0;
          names_done=1;
          goto lab_names_done;
        }
        break;

      case BT_RECORD:
        rCount+=bhp->NumRecords;
        npos=MemFileGetPosition(&mfNames);
        
        switch(bhp->RecordType)
        {
        case RT_MEMORY:
          {
            R_Memory* p=(R_Memory*)buf;
            for( j=0; j<bhp->NumRecords; j++,p++ )
            {
              p->NameIdx +=npos;
              if(p->LinkIdx!=(WORD)-1)  p->LinkIdx +=RNumTable[BT_LINK32][bhp->RecordType];
            }
            break;
          }
        case RT_SECTOR:
          {
            R_Sector* p=(R_Sector*)buf;
            for(j=0;j<bhp->NumRecords;j++,p++)
            {
              p->NameIdx +=npos;
              if(p->LinkIdx!=(WORD)-1)  p->LinkIdx +=RNumTable[BT_LINK32][bhp->RecordType];
            }
            break;
          }
        case RT_FILE:
          {
            R_File* p=(R_File*)buf;
            for(j=0;j<bhp->NumRecords;j++,p++)
            {
              p->NameIdx +=npos;
              if(p->LinkIdx!=(WORD)-1)  p->LinkIdx +=RNumTable[BT_LINK32][bhp->RecordType];
            }
            break;
          }
        case RT_CA:
          {
            R_CA* p=(R_CA*)buf;
            for(j=0;j<bhp->NumRecords;j++,p++)
            {
              p->NameIdx +=npos;
              if(p->LinkIdx!=(WORD)-1)  p->LinkIdx +=RNumTable[BT_LINK32][bhp->RecordType];
            }
            break;
          }
        case RT_UNPACK:
          {
            R_Unpack* p=(R_Unpack*)buf;
            for(j=0;j<bhp->NumRecords;j++,p++)
            {
              p->NameIdx +=npos;
              if(p->LinkIdx!=(WORD)-1)  p->LinkIdx +=RNumTable[BT_LINK32][bhp->RecordType];
            }
            break;
          }
        case RT_EXTRACT:
          {
            R_Extract* p=(R_Extract*)buf;
            for(j=0;j<bhp->NumRecords;j++,p++)
            {
              p->NameIdx +=npos;
              if(p->LinkIdx!=(WORD)-1)  p->LinkIdx +=RNumTable[BT_LINK32][bhp->RecordType];
            }
            break;
          }
        case RT_KERNEL:
          {
            R_Kernel* p=(R_Kernel*)buf;
            for(j=0;j<bhp->NumRecords;j++,p++)
            {
              if(p->LinkIdx!=(WORD)-1)  p->LinkIdx +=RNumTable[BT_LINK32][bhp->RecordType];
            }
            break;
          }
        case RT_JUMP:
          {
            R_Jump* p=(R_Jump*)buf;
            for(j=0;j<bhp->NumRecords;j++,p++)
            {
              if(p->LinkIdx!=(WORD)-1)  p->LinkIdx +=RNumTable[BT_LINK32][bhp->RecordType];
            }
            break;
          }
        default: break;
        }
        MemFileWrite(&mfRecordsArray[bhp->BlockType][bhp->RecordType],buf,bhp->CompressedSize);
        break;
      case BT_LINK32:
      case BT_LINK16:
        {
          BYTE* b=buf;
          UINT k;
          for(k=0; k<bhp->NumRecords; k++)
          {
            DWORD* dptr=(DWORD*)b;
            DWORD q=0;
            DWORD l=dptr[0];
            b+=l;
            l-=dptr[1];

            if(BT_LINK32==bhp->BlockType)
              StripComments(((BYTE*)dptr)+dptr[1]+8);
            MemFileWrite(&mfRecordsArray[bhp->BlockType][bhp->RecordType],&l,4);
            MemFileWrite(&mfRecordsArray[bhp->BlockType][bhp->RecordType],&q,4);
            MemFileWrite(&mfRecordsArray[bhp->BlockType][bhp->RecordType],((BYTE*)dptr)+dptr[1]+8,l-8);
          }
        }
        break;
      default:
        break;
      }
      if(buf) free(buf);
    }
    if(nbuf) free(nbuf);

    for(i=0; i<BaseHeader.BlockHeaderTableSize; i++)
    {
      bhp=(AVP_BlockHeader*)BlockHeaderArray.pp[i];
      switch(bhp->BlockType)
      {
      case BT_NAME: 
        NameIdx+=bhp->NumRecords;
        break;
      case BT_RECORD:
      case BT_LINK32:
      case BT_LINK16:
        RNumTable[bhp->BlockType][bhp->RecordType]+=bhp->NumRecords;
      default:
        break;
      }
    }
  }
abort_:;
  free(BlockHeaderArray.pp);
  return rCount;
}
コード例 #13
0
ファイル: LOADKEYS.cpp プロジェクト: hackshields/antivirus
//static DWORD LoadOldKey(char* filename,CPtrArray* array,DWORD appID)
//static DWORD LoadOldKey(char* filename, HDATA& hRootData, DWORD appID)
static DWORD LoadOldKey(DWORD appID, const char* filename, DWORD* level, BOOL* valid, HDATA& hRootData)
 {
  DWORD ret=0;
  AVP_KeyHeader  avpKeyHeader;

  int handle;
  unsigned bytes;
  unsigned char *cbuf;
  DWORD Level=0;
  BOOL  Valid=TRUE;
  BOOL  platf=FALSE;

  if(_dos_open(filename,O_RDONLY,&handle)) return ret;
  if(_dos_read(handle,(void far *)&avpKeyHeader,sizeof(avpKeyHeader),&bytes)
  ||avpKeyHeader.Magic!=AVP_KEY_MAGIC||avpKeyHeader.Version!=3
  ||((cbuf=(unsigned char *)Malloc(avpKeyHeader.CompressedSize))==0))
   { _dos_close(handle); return ret; }

  //if(KeyHeader.CompressedCRC==CalcSum((BYTE*)cbuf,KeyHeader.CompressedSize))
  if(((avpKey=(struct _AVP_Key *)Malloc(avpKeyHeader.UncompressedSize))==NULL)
  ||_dos_read(handle,(void *)cbuf,avpKeyHeader.CompressedSize,&bytes))
   { _dos_close(handle); Free(cbuf); return ret; }
  _dos_close(handle);

  if(avpKeyHeader.CompressedCRC==CalcSum((BYTE*)cbuf,avpKeyHeader.CompressedSize))
   {
    for(int i=0;i<avpKeyHeader.CompressedSize;i++) cbuf[i]^=(BYTE)i;
    if(avpKeyHeader.UncompressedSize==unsqu(cbuf,(unsigned char *)avpKey) )//&&!FFake)
     {
      avp_key_present=1;

      switch(appID)
       {
        case AVP_APID_SCANNER_WIN_95:
          platf=!!(avpKey->Platforms & KEY_P_WIN95);
          break;
        case AVP_APID_SCANNER_WIN_NTWS:
          platf=!!(avpKey->Platforms & KEY_P_WINNT);
          break;
        case AVP_APID_MONITOR_WIN_95:
          platf=!!(avpKey->Platforms & KEY_P_WIN95) && !!(avpKey->Options & KEY_O_MONITOR);
          break;
        case AVP_APID_MONITOR_WIN_NTWS:
          platf=!!(avpKey->Platforms & KEY_P_WINNT) && !!(avpKey->Options & KEY_O_MONITOR);
          break;
        case AVP_APID_OS_2:
          platf=!!(avpKey->Platforms & KEY_P_OS2);
          break;
        case AVP_APID_SCANNER_DOS_LITE:
          platf=!!(avpKey->Platforms & KEY_P_DOSLITE);
          break;
        case AVP_APID_NOVELL:
          platf=!!(avpKey->Platforms & KEY_P_NOVELL);
          break;
        case AVP_APID_SCANNER_DOS_32:
        case AVP_APID_SCANNER_DOS_16:
          platf=!!(avpKey->Platforms & KEY_P_DOS);
          break;
        case AVP_APID_CONTROLCENTER:
        case AVP_APID_UPDATOR:
          platf=!!(avpKey->Platforms & KEY_P_WIN95) || !!(avpKey->Platforms & KEY_P_WINNT);
          break;
        case AVP_APID_INSPECTOR:
        case AVP_APID_WEBINSPECTOR:
        case AVP_APID_EXCHANGE:
        case AVP_APID_NT_SERVER:
        default:
          break;
       }

      if(platf)
       {
        ret=FN_MINIMAL;
        ret|=FN_OPTIONS;

        if(avpKey->Options & KEY_O_REMOTELAUNCH)ret|=FN_NETWORK;
        if(avpKey->Options & KEY_O_REMOTESCAN)  ret|=FN_NETWORK;

        if(!(avpKey->Options & KEY_O_DISINFECT))ret&=~FN_DISINFECT;
        if(!(avpKey->Options & KEY_O_UNPACK))   ret&=~FN_UNPACK;
        if(!(avpKey->Options & KEY_O_EXTRACT))  ret&=~FN_EXTRACT;

        struct dosdate_t stCurrent;
        //SYSTEMTIME stCurrent;
        SYSTEMTIME stExpir;
        _dos_getdate(&stCurrent);
        //GetSystemTime(&stCurrent);
        memset(&stExpir,0,sizeof(struct dosdate_t));//SYSTEMTIME));
        stExpir.wYear =avpKey->ExpirYear;
        stExpir.wMonth=(unsigned char)avpKey->ExpirMonth;
        stExpir.wDay  =(unsigned char)avpKey->ExpirDay;
        if(stCurrent.year > stExpir.wYear) Valid=FALSE;
        else if(stCurrent.year < stExpir.wYear) ;
        else if(stCurrent.month > stExpir.wMonth) Valid=FALSE;
        else if(stCurrent.month < stExpir.wMonth) ;
        else if(stCurrent.day > stExpir.wDay) Valid=FALSE;
        //if(stCurrent.year >stExpir.wYear) goto time_bad;
        //if(stCurrent.year <stExpir.wYear) goto time_ok;
        //if(stCurrent.month>stExpir.wMonth)goto time_bad;
        //if(stCurrent.month<stExpir.wMonth)goto time_ok;
        //if(stCurrent.day  >stExpir.wDay)  goto time_bad;
        //if(stCurrent.day  <stExpir.wDay)  goto time_ok;
//time_bad:
//        if(!!(avpKey->Flags & KEY_F_INFOEVERYLAUNCH)
//           || !(avpKey->Flags & KEY_F_REGISTERED)
//           || !CheckSelfExpir(stExpir))
//          goto clo;
//         ret=0;
//        else
//         ret &= ~FN_UPDATES;
//time_ok:
        if(!CheckSelfExpir(stExpir))
          Valid=FALSE;
        else
         {
         if(avpKey->Options & KEY_O_DISINFECT)
          {
           Level=10;
           if((avpKey->Options & KEY_O_UNPACK)||(avpKey->Options & KEY_O_EXTRACT)) Level=20;
           if((avpKey->Options & KEY_O_REMOTELAUNCH)||(avpKey->Options & KEY_O_REMOTESCAN)) Level=30;
          }
         else
          {
           if(avpKey->Flags & KEY_F_INFOEVERYLAUNCH) Valid=FALSE;
           else Level=5;
          }
         }

        if(DATA_Init_Library((void*(*)(unsigned int))Malloc,Free))
         {
          hRootData=DATA_Add(0,0,AVP_PID_KEYROOT,0,0);
          if(hRootData)
           {
            DATA_Add(hRootData,0,PID_FILENAME,(DWORD)filename,0);

            HDATA hInfo;
            hInfo=DATA_Add(hRootData,0,AVP_PID_KEYINFO,0,0);

            //OemToChar(buf+Key->RegNumberOffs, buf+Key->RegNumberOffs);
            //OemToChar(buf+Key->CopyInfoOffs, buf+Key->CopyInfoOffs);
            //OemToChar(buf+Key->SupportOffs, buf+Key->SupportOffs);

            DATA_Add(hInfo,0, PID_SERIALSTR,(DWORD)avpKey+avpKey->RegNumberOffs,0);
            DATA_Add(hInfo,0, AVP_PID_KEYPLPOSNAME,  (DWORD)"AVP Key v1.0", 0);
            DATA_Add(hInfo,0, AVP_PID_KEYLICENCEINFO,(DWORD)avpKey+avpKey->CopyInfoOffs,0);
            DATA_Add(hInfo,0, AVP_PID_KEYSUPPORTINFO,(DWORD)avpKey+avpKey->SupportOffs,0);
            if(stExpir.wDay!=0)
             DATA_Add(hInfo,0, AVP_PID_KEYEXPDATE, (DWORD)&stExpir, sizeof(AVP_date));
           }
         }
       }
     }
    else ret=0;
    if(!(avpKey->Flags&KEY_F_REGISTERED)||!(avpKey->Platforms&KEY_P_DOS))
     ret=0;
   }
  else ret=0;
//clo:
  Free(cbuf);

  if(ret)
   {
    if(level) *level=MAX(*level, Level);
    if(valid) *valid|=Valid;
   }
  return ret;
 }
コード例 #14
0
ファイル: LzhIn.cpp プロジェクト: AlcatrazTr/vba-rerecording
HRESULT CInArchive::GetNextItem(bool &filled, CItemEx &item)
{
  filled = false;

  UInt32 processedSize;
  Byte startHeader[2];
  RINOK(ReadBytes(startHeader, 2, processedSize))
  if (processedSize == 0)
    return S_OK;
  if (processedSize == 1)
    return (startHeader[0] == 0) ? S_OK: S_FALSE;
  if (startHeader[0] == 0 && startHeader[1] == 0)
    return S_OK;

  Byte header[256];
  const UInt32 kBasicPartSize = 22;
  RINOK(ReadBytes(header, kBasicPartSize, processedSize));
  if (processedSize != kBasicPartSize)
    return (startHeader[0] == 0) ? S_OK: S_FALSE;

  const Byte *p = header;
  memmove(item.Method, p, kMethodIdSize);
  if (!item.IsValidMethod())
    return S_OK;
  p += kMethodIdSize;
  p = ReadUInt32(p, item.PackSize);
  p = ReadUInt32(p, item.Size);
  p = ReadUInt32(p, item.ModifiedTime);
  item.Attributes = *p++;
  item.Level = *p++;
  if (item.Level > 2)
    return S_FALSE;
  UInt32 headerSize;
  if (item.Level < 2)
  {
    headerSize = startHeader[0];
    if (headerSize < kBasicPartSize)
      return S_FALSE;
    UInt32 remain = headerSize - kBasicPartSize;
    RINOK(CheckReadBytes(header + kBasicPartSize, remain));
    if (startHeader[1] != CalcSum(header, headerSize))
      return S_FALSE;
    size_t nameLength = *p++;
    if ((p - header) + nameLength + 2 > headerSize)
      return S_FALSE;
    p = ReadString(p, nameLength, item.Name);
  }
  else
   headerSize = startHeader[0] | ((UInt32)startHeader[1] << 8);
  p = ReadUInt16(p, item.CRC);
  if (item.Level != 0)
  {
    if (item.Level == 2)
    {
      RINOK(CheckReadBytes(header + kBasicPartSize, 2));
    }
    if ((size_t)(p - header) + 3 > headerSize)
      return S_FALSE;
    item.OsId = *p++;
    UInt16 nextSize;
    p = ReadUInt16(p, nextSize);
    while (nextSize != 0)
    {
      if (nextSize < 3)
        return S_FALSE;
      if (item.Level == 1)
      {
        if (item.PackSize < nextSize)
          return S_FALSE;
        item.PackSize -= nextSize;
      }
      CExtension ext;
      RINOK(CheckReadBytes(&ext.Type, 1))
      nextSize -= 3;
      ext.Data.SetCapacity(nextSize);
      RINOK(CheckReadBytes((Byte *)ext.Data, nextSize))
      item.Extensions.Add(ext);
      Byte hdr2[2];
      RINOK(CheckReadBytes(hdr2, 2));
      ReadUInt16(hdr2, nextSize);
    }
  }
  item.DataPosition = m_Position;
  filled = true;
  return S_OK;
}