ISequentialStream を使用した FILESTREAM 列からのデータの取得 (OLE DB)

適用対象:SQL ServerAzure SQL DatabaseAzure SQL Managed InstanceAzure Synapse AnalyticsAnalytics Platform System (PDW)

OLE DB ドライバーのダウンロード

このサンプルでは、ICommandText インターフェイス内で ISequentialStream インターフェイスを使用して、FILESTREAM 列から単一のレコードを取得する方法を示します。

FILESTREAM 機能の詳細については、「OLE DB Driver for SQL Server の FILESTREAM サポート」を参照してください。

例

INCLUDE 環境変数に、msoledbsql.h が保存されているディレクトリが含まれていることを確認します。

次のいずれかのサンプルを使用して、このサンプルで読み取るテーブルを作成します。

• FILESTREAM へのデータの送信 - ICommandText にバインドされた ISequentialStream

• IRowsetFastUpload を使用した FILESTREAM 列へのデータの送信 (OLE DB)

1 つ目のコード リストをコピーし、ISSHelper.h という名前のファイルに貼り付けます。

2 つ目のコード リストをコピーし、ISSHelper.cpp という名前のファイルに貼り付けます。

3 つ目のコード リストをコピーし、ICommandDownload.cpp という名前のファイルに貼り付けます。

ICommandDownload.cpp、ISSHelper.cpp、ole32.lib、oleaut32.lib をコンパイルします。

このサンプルを実行する際は、サーバー名 (または server\instance_name) を渡す必要があります。

// ISSHelper.h: interface for the CISSHelper class.

#if !defined(AFX_ISSHELPER_H__7B88E5F3_263F_11D2_9D1F_00C04F96B8B2__INCLUDED_)
#define AFX_ISSHELPER_H__7B88E5F3_263F_11D2_9D1F_00C04F96B8B2__INCLUDED_

#if _MSC_VER > 1000
#pragma once
#endif // _MSC_VER > 1000

class CISSHelper : public ISequentialStream {
public:

   // Constructor/destructor.
   CISSHelper(__int64 i64LobBytes);
   virtual ~CISSHelper();

   // Helper function to clean up memory.
   virtual void Clear();

   // ISequentialStream interface implementation.
   STDMETHODIMP_(ULONG)AddRef(void);
   STDMETHODIMP_(ULONG)Release(void);
   STDMETHODIMP QueryInterface(REFIID riid, LPVOID *ppv);
   STDMETHODIMP Read(
      /* [out] */ void __RPC_FAR *pv,
      /* [in] */ ULONG cb,
      /* [out] */ ULONG __RPC_FAR *pcbRead);
   STDMETHODIMP Write(
      /* [in] */ const void __RPC_FAR *pv,
      /* [in] */ ULONG cb,
      /* [out] */ ULONG __RPC_FAR *pcbWritten);

public:
   void * m_pBuffer;   // Buffer
   ULONG m_ulLength;   // Total buffer size.
   ULONG m_ulStatus;   // Column status.

   __int64 m_i64BytesUploaded;
   __int64 m_i64LastPrintUploaded;
   __int64 m_i64ThreshHold;
   DWORD m_dwStartTick;
   DWORD m_dwParamOrdinal;

private:
   ULONG m_cRef;  // Reference count (not used).
   ULONG m_iReadPos;   // Current index position for reading from the buffer.
   ULONG m_iWritePos;   // Current index position for writing to the buffer.
};

#endif // !defined(AFX_ISSHELPER_H__7B88E5F3_263F_11D2_9D1F_00C04F96B8B2__INCLUDED_)

// ISSHelper.cpp: implementation of the CISSHelper class.
#pragma once

#define WIN32_LEAN_AND_MEAN// Exclude rarely-used stuff from Windows headers
#include <windows.h>
#include <stdio.h>// printf(...)
#include <stddef.h>// offsetof(...)
#include <conio.h>// _getch()
#include <oledb.h>// OLEDB
#include <oledberr.h>// OLEDB
#include <objbase.h>// CoInitializeEx()
#include <msdasc.h>// IDataInitialize
#include <msdadc.h>// OLEDB conversion library header.
#include <msdaguid.h>// OLEDB conversion library guids.
#include <tchar.h>

// TODO: reference additional headers your program requires here
#define _MSOLEDBSQL_OLEDB_ 1
#include <msoledbsql.h>

#include "ISSHelper.h"

#ifdef _DEBUG
#undef THIS_FILE
static char THIS_FILE[]=__FILE__;
#define new DEBUm_NEW
#endif

// Implementation of ISequentialStream interface
CISSHelper::CISSHelper(__int64 i64LobBytes) {
   m_cRef= 0;
   m_pBuffer= NULL;
   m_ulLength= 0;
   m_ulStatus   = DBSTATUS_S_OK;
   m_iReadPos= 0;
   m_iWritePos= 0;
   m_i64ThreshHold = i64LobBytes;
   m_i64BytesUploaded = 0;
   m_i64LastPrintUploaded = 0;
   m_dwStartTick = 0;
   m_dwParamOrdinal = 0;
}

CISSHelper::~CISSHelper() {
   Clear();
}

void CISSHelper::Clear() {
   CoTaskMemFree( m_pBuffer );
   m_cRef= 0;
   m_pBuffer= NULL;
   m_ulLength= 0;
   m_ulStatus  = DBSTATUS_S_OK;
   m_iReadPos= 0;
   m_iWritePos= 0;
}

ULONG CISSHelper::AddRef() {
   return ++m_cRef;
}

ULONG CISSHelper::Release() {
   return --m_cRef;
}

HRESULT CISSHelper::QueryInterface( REFIID riid, void** ppv ) {
   *ppv = NULL;
   if ( riid == IID_IUnknown ) *ppv = this;
   if ( riid == IID_ISequentialStream ) *ppv = this;
   if ( *ppv )
   {
      ( (IUnknown*) *ppv )->AddRef();
      return S_OK;
   }
   return E_NOINTERFACE;
}

HRESULT CISSHelper::Read( void *pv,ULONG cb, ULONG* pcbRead ) {
   // Check parameters.
   if ( pcbRead ) *pcbRead = 0;
   if ( !pv ) return STG_E_INVALIDPOINTER;
   if ( 0 == cb ) return S_OK;

   // Cut out now if threshold is hit.
   __int64 left = m_i64ThreshHold-m_i64BytesUploaded;
   if (left < cb)
      cb = (ULONG)left;

   if (0 == m_dwStartTick)
      m_dwStartTick = GetTickCount();

   m_i64BytesUploaded += cb;

   if (( m_i64BytesUploaded - m_i64LastPrintUploaded ) >= (1024*1024*4)) {
      __int64 i64Elapsed = (__int64) GetTickCount()-m_dwStartTick;
      // __int64 i64BytesPerSecond = m_i64BytesUploaded * 1000 / (i64Elapsed > 0 ) ? i64Elapsed : 1;
      __int64 i64BytesPerSecond = m_i64BytesUploaded * 1000 / i64Elapsed > 0  ? i64Elapsed : 1;
      printf("Param=%lu TotalBytes=%010I64u ElapsedMS=%010I64u BytesPerSec=%010I64u\n",
         m_dwParamOrdinal, m_i64BytesUploaded, i64Elapsed, i64BytesPerSecond );
      m_i64LastPrintUploaded = m_i64BytesUploaded;
   }

   if ( cb == left ) {
      __int64 i64Elapsed = (__int64) GetTickCount()-m_dwStartTick;
      // __int64 i64BytesPerSecond = m_i64BytesUploaded * 1000 / (i64Elapsed > 0 ) ? i64Elapsed : 1;
      __int64 i64BytesPerSecond = m_i64BytesUploaded * 1000 / i64Elapsed > 0 ? i64Elapsed : 1;
      printf("Last read:\nParam=%lu TotalBytes=%010I64u ElapsedMS=%010I64u BytesPerSec=%010I64u\n",
         m_dwParamOrdinal, m_i64BytesUploaded, i64Elapsed, i64BytesPerSecond );
      m_i64LastPrintUploaded = m_i64BytesUploaded;
   }

   *pcbRead = cb;
   return S_OK;
}

HRESULT CISSHelper::Write( const void *pv, ULONG cb, ULONG* pcbWritten ) {
   // Check parameters.
   if ( !pv ) return STG_E_INVALIDPOINTER;
   if ( pcbWritten ) *pcbWritten = 0;
   if ( 0 == cb ) return S_OK;

   // Enlarge the current buffer.
   m_ulLength += cb;

   // Grow internal buffer to new size.
   m_pBuffer = CoTaskMemRealloc( m_pBuffer, m_ulLength );

   // Check for out of memory situation.
   if ( NULL == m_pBuffer ) {
      Clear();
      return E_OUTOFMEMORY;
   }

   // Copy callers memory to internal buffer and update write position.
   memcpy( (void*)((BYTE*)m_pBuffer + m_iWritePos), pv, cb );
   m_iWritePos += cb;

   // Return bytes written to caller.
   if ( pcbWritten ) *pcbWritten = cb;

   return S_OK;
}

//  ICommandDownload.cpp
#pragma once

#define WIN32_LEAN_AND_MEAN// Exclude rarely-used stuff from Windows headers
#include <windows.h>
#include <stdio.h>// printf(...)
#include <stddef.h>// offsetof(...)
#include <conio.h>// _getch()
#include <oledb.h>// OLEDB
#include <oledberr.h>// OLEDB
#include <objbase.h>// CoInitializeEx()
#include <msdasc.h>// IDataInitialize
#include <msdadc.h>// OLEDB conversion library header.
#include <msdaguid.h>// OLEDB conversion library guids.
#include <tchar.h>

// TODO: reference additional headers your program requires here
#define _MSOLEDBSQL_OLEDB_ 1
#include <msoledbsql.h>

#include "ISSHelper.h"

// Simple data record used by DumpRowset function.
#define MAX_DATA_LENGTH 8096
struct DATA_REC {
   DWORD status;
   DWORD length;
   BYTE Data[MAX_DATA_LENGTH];
};

// Helper macros for COM/OLEDB.
#define SAFE_RELEASE(x)    { if (x) { x->Release(); x = NULL; } }
#define SAFE_SYSFREE(bstr) { if (bstr) { ::SysFreeString(bstr); bstr = NULL; } }
#define CHECK_HR(hr,jump)  { if ( FAILED(hr) ) goto jump; }
#define CHECK_HR_ERR(hr,jump)  { if ( FAILED(hr) ) { DumpErrorRecords(); goto jump; } }

#define CLEAR_PROPS(x) { for ( int i = 0 ; i < x ; i++ ) VariantClear( &InitProperties[i].vValue ); }

#define SET_BSTR_PROP(index,propid,value) { \
   InitProperties[index].dwOptions = DBPROPOPTIONS_REQUIRED; \
   InitProperties[index].colid = DB_NULLID; \
   InitProperties[index].dwStatus = DBPROPSTATUS_OK; \
   InitProperties[index].dwPropertyID = propid; \
   InitProperties[index].vValue.vt = VT_BSTR; \
   InitProperties[index].vValue.bstrVal = SysAllocString(value); }

// Helper function for DumpErrorRecords() to convert a clisd to string representation of clsid.
LPWSTR CLSIDToString( CLSID* pclsid ) {
   static WCHAR wszCLSID[1024];
   if ( NULL == pclsid )
      wcscpy_s(wszCLSID, 1024, L"(Null)");
   else
      ::StringFromGUID2( *pclsid, (OLECHAR*)wszCLSID, sizeof(wszCLSID) );
   return wszCLSID;
}

// Helper function to dump out OLE DB errors to console window.
HRESULT DumpErrorRecords() {
   HRESULT hr = S_OK;
   IErrorRecords* pIErrorRecords = NULL;
   IErrorInfo* pIErrorInfo  = NULL;
   IErrorInfo* pIErrorInfoRecord = NULL;
   BSTR bstrDescription  = NULL;
   BSTR bstrSource  = NULL;
   ULONG i;
   ULONG cRecords = 0;
   LCID lcid = 0;
   ERRORINFO ErrorInfo;

   // Get IErrorInfo pointer from OLE.
   hr = ::GetErrorInfo( 0, &pIErrorInfo );
   if ( FAILED(hr) ) {
      printf( "No error records found.\n" );
      goto DumpErrorRecordsExit;
   }

   // QI for IID_IErrorRecords.
   hr = pIErrorInfo->QueryInterface( IID_IErrorRecords, (void**)&pIErrorRecords );
   if ( FAILED(hr) ) {
      printf( "pIErrorInfo->QueryInterface(IID_IErrorRecords) failed with hr=0x%08x.\n", hr );
      goto DumpErrorRecordsExit;
   }

   // Get error record count.
   hr = pIErrorRecords->GetRecordCount( &cRecords );
   if ( FAILED(hr) ) {
      printf( "pIErrorRecords->GetRecordCount() failed with hr=0x%08x.\n", hr );
      goto DumpErrorRecordsExit;
   }

   // Get system LCID
   lcid = GetSystemDefaultLCID();

   //Loop through the error records.
   for ( i = 0 ; i < cRecords ; i++ ) {
      // Get pIErrorInfo from pIErrorRecords.
      hr = pIErrorRecords->GetErrorInfo( i, lcid, &pIErrorInfoRecord );

      if ( SUCCEEDED(hr) ) {
         // Get error description and source.
         hr = pIErrorInfoRecord->GetDescription( &bstrDescription );
         hr = pIErrorInfoRecord->GetSource( &bstrSource );

         // Retrieve the ErrorInfo structures.
         hr = pIErrorRecords->GetBasicErrorInfo( i, &ErrorInfo );

         // Dump out error.
         printf( "\n" );
         printf( "Dumping error record %lu of %lu:\n", i+1, cRecords );
         printf( "--------------------------------------------------------------------------\n" );
         printf( "   Description = %S\n", bstrDescription );
         printf( "   Source      = %S\n", bstrSource );
         printf( "   ERRORINFO.hrError = 0x%08x\n", ErrorInfo.hrError );
         printf( "   ERRORINFO.dwMinor = %lu\n",ErrorInfo.dwMinor );
         printf( "   ERRORINFO.clsid   = %S\n",CLSIDToString( &ErrorInfo.clsid ) );

         SAFE_RELEASE(pIErrorInfoRecord);
         SAFE_SYSFREE(bstrDescription);
         SAFE_SYSFREE(bstrSource);
      }
   }

DumpErrorRecordsExit:
   SAFE_RELEASE(pIErrorInfoRecord);
   SAFE_RELEASE(pIErrorRecords);
   SAFE_RELEASE(pIErrorInfo);
   SAFE_RELEASE(pIErrorInfo);
   SAFE_SYSFREE(bstrDescription);
   SAFE_SYSFREE(bstrSource);
   return hr;
}

// Helper function to execute a sql command.
HRESULT ExecuteSQL( IDBCreateCommand* pIDBCreateCommand, LPCOLESTR pwszCommand  ) {
   HRESULT hr;
   ICommandText* pICommandText = NULL;
   hr = pIDBCreateCommand->CreateCommand( NULL, IID_ICommandText, (IUnknown**)&pICommandText );
   CHECK_HR(hr,ExecuteSQLCleanup);
   hr = pICommandText->SetCommandText( DBGUID_DBSQL, pwszCommand );
   CHECK_HR(hr,ExecuteSQLCleanup);
   hr = pICommandText->Execute( NULL, IID_NULL, NULL, NULL, NULL );

ExecuteSQLCleanup:
   SAFE_RELEASE(pICommandText);
   return hr;
}

HRESULT OpenSessionSSHelper( IDBProperties*pIDBProperties, IDBCreateCommand** ppIDBCreateCommand, wchar_t* szServer ) {
#define TOTAL_SS_PROPS 3
   HRESULThr;
   IDBInitialize*pIDBInitialize = NULL;
   IDBCreateSession*pIDBCreateSession = NULL;
   DBPROPInitProperties[TOTAL_SS_PROPS];
   DBPROPSETInitPropSet;

   if ( NULL == pIDBProperties )
      return E_INVALIDARG;

   if ( NULL == ppIDBCreateCommand )
      return E_INVALIDARG;

   // NULL our out param in case of failure.
   *ppIDBCreateCommand = NULL;

   // Hard coded this to point to local sql server, change as needed.
   SET_BSTR_PROP( 0, DBPROP_INIT_DATASOURCE, szServer );
   SET_BSTR_PROP( 1, DBPROP_INIT_CATALOG, L"master" );
   SET_BSTR_PROP( 2, DBPROP_AUTH_INTEGRATED, L"SSPI" );

   InitPropSet.guidPropertySet = DBPROPSET_DBINIT;
   InitPropSet.cProperties = TOTAL_SS_PROPS;
   InitPropSet.rgProperties = InitProperties;

   // Set initialization properties.
   hr = pIDBProperties->SetProperties( 1, &InitPropSet );
   CHECK_HR(hr,OpenSessionSSHelperCleanup);

   // Clean up allocated variants.
   CLEAR_PROPS( TOTAL_SS_PROPS );

   // Initialize the DataSource.
   hr = pIDBProperties->QueryInterface( IID_IDBInitialize, (void**) &pIDBInitialize );
   CHECK_HR(hr,OpenSessionSSHelperCleanup);

   hr = pIDBInitialize->Initialize();
   CHECK_HR(hr,OpenSessionSSHelperCleanup);

   // QI for IID_IDBCreateSession and then create session.
   hr = pIDBInitialize->QueryInterface( IID_IDBCreateSession, (void**) &pIDBCreateSession );
   CHECK_HR(hr,OpenSessionSSHelperCleanup);

   hr = pIDBCreateSession->CreateSession( NULL, IID_IDBCreateCommand, (IUnknown**)ppIDBCreateCommand );

OpenSessionSSHelperCleanup:

   SAFE_RELEASE( pIDBInitialize );
   SAFE_RELEASE( pIDBCreateSession );
   return hr;
}

// Helper function to open a SS session.
HRESULT OpenSessionSS( IDBCreateCommand** ppIDBCreateCommand, wchar_t* szServer ) {
   HRESULT hr;
   IDBProperties * pIDBProperties = NULL;

   // Null our out param in case we fail.
   if ( NULL == ppIDBCreateCommand )
      return E_INVALIDARG;

   // Co-create MSOLEDBSQL.
   hr = CoCreateInstance( MSOLEDBSQL_CLSID, NULL, CLSCTX_INPROC_SERVER, IID_IDBProperties,
      (void **) &pIDBProperties );
   CHECK_HR(hr,OpenSessionSSCleanup);

   // Call helper to open session.
   hr = OpenSessionSSHelper( pIDBProperties, ppIDBCreateCommand, szServer );

OpenSessionSSCleanup:
   SAFE_RELEASE( pIDBProperties );
   return hr;
}

void wmain(int argc, wchar_t* argv[]) {
#define PARAM_COUNT 2
   HRESULT hr;
   IDBCreateCommand * pIDBCreateCommand = NULL;
   ICommandText * pICommandText = NULL;
   ICommandPrepare * pICommandPrepare = NULL;
   IAccessor * pIAccessor = NULL;
   IRowset * pIRowset = NULL;
   ICommandProperties * pICommandProperties = NULL;

   HACCESSOR hAccessor;
   DBBINDING dbBind[PARAM_COUNT];
   DBROWCOUNT rows;
   DBPROPSET rgCmdPropSet[1];
   DBPROP rgCmdProperties[1];

   if ( argc < 2 ) {
      wprintf( L"Usage: %s: <server>\n", argv[0] );
      return;
   }

   CoInitialize(NULL);

   // Open connection to SS database.
   hr = OpenSessionSS( &pIDBCreateCommand, argv[1] );
   CHECK_HR_ERR(hr,MainCleanup);

   // Get ICommandText.
   hr = pIDBCreateCommand->CreateCommand( NULL, IID_ICommandText, (IUnknown**)&pICommandText );
   printf( "pIDBCreateCommand->CreateCommand(...) returned 0x%08x.\n", hr );
   CHECK_HR(hr,MainCleanup);

   // Prepare the parameterized execute statement.
   hr = pICommandText->SetCommandText( DBGUID_DBSQL, L"SELECT uid, val FROM [DBFsa]..[FSTRTable]" );

   // Set up parameter value binding.
   ZeroMemory( &dbBind, sizeof(dbBind) );

   struct _DATA_BLOCK {
      long f1;
      long f1_status;
      long f1_length;
      unsigned long imageData_length;
      long imageData_status;
      IUnknown* imageData;
   } DATA_BLOCK;

   dbBind[0].iOrdinal= 1;
   dbBind[0].dwPart= DBPART_VALUE | DBPART_STATUS | DBPART_LENGTH;
   dbBind[0].eParamIO= DBPARAMIO_NOTPARAM;
   dbBind[0].obValue= offsetof( _DATA_BLOCK, f1 );
   dbBind[0].obStatus= offsetof( _DATA_BLOCK, f1_status );
   dbBind[0].obLength= offsetof( _DATA_BLOCK, f1_length );
   dbBind[0].wType= DBTYPE_I4;
   dbBind[0].cbMaxLen= sizeof(int);

   dbBind[1].iOrdinal= 2;
   dbBind[1].dwPart= DBPART_VALUE | DBPART_STATUS;
   dbBind[1].eParamIO= DBPARAMIO_NOTPARAM;
   dbBind[1].obValue= offsetof( _DATA_BLOCK, imageData );
   dbBind[1].obStatus= offsetof( _DATA_BLOCK, imageData_status );
   dbBind[1].obLength  = offsetof( _DATA_BLOCK, imageData_length );
   dbBind[1].dwMemOwner = DBMEMOWNER_CLIENTOWNED;
   dbBind[1].wType= DBTYPE_IUNKNOWN;
   dbBind[1].pObject= new DBOBJECT;
   dbBind[1].pObject->dwFlags = STGM_READ;
   dbBind[1].pObject->iid = IID_ISequentialStream;
   dbBind[1].cbMaxLen= 0;

   hr = pICommandText->QueryInterface(IID_ICommandProperties, (void**) &pICommandProperties);
   CHECK_HR_ERR( hr, MainCleanup );

   rgCmdProperties[0].dwPropertyID = DBPROP_ACCESSORDER;
   rgCmdProperties[0].vValue.vt = VT_I4;
   rgCmdProperties[0].vValue.lVal = DBPROPVAL_AO_SEQUENTIAL;
   rgCmdProperties[0].dwOptions = DBPROPOPTIONS_REQUIRED;
   rgCmdProperties[0].colid = DB_NULLID;

   rgCmdPropSet[0].guidPropertySet = DBPROPSET_ROWSET;
   rgCmdPropSet[0].cProperties = 1;
   rgCmdPropSet[0].rgProperties = rgCmdProperties;

   hr = pICommandProperties->SetProperties(1, rgCmdPropSet);
   CHECK_HR_ERR( hr, MainCleanup );

   // Get an accessor for our binding.
   hr = pICommandText->Execute( NULL, IID_IRowset, NULL, &rows, (IUnknown**) &pIRowset );
   CHECK_HR_ERR(hr, MainCleanup);
   printf( "pICommandText->Execute(...) returned 0x%08x.\n", hr );

   hr = pIRowset->QueryInterface( IID_IAccessor, (void**)&pIAccessor );
   printf( "pIRowset->QueryInterface( IID_IAccessor) returned 0x%08x.\n", hr );
   CHECK_HR_ERR(hr,MainCleanup);

   hr = pIAccessor->CreateAccessor( DBACCESSOR_ROWDATA,
      PARAM_COUNT,
      &dbBind[0],
      sizeof(DATA_BLOCK),
      &hAccessor,
      NULL );
   printf( "pIAccessor->CreateAccessor(...) returned 0x%08x.\n", hr );
   CHECK_HR_ERR(hr,MainCleanup);

   // Set the parameter values and status/length.
   DATA_BLOCK.f1 = 1;
   DATA_BLOCK.f1_status = DBSTATUS_S_OK;
   DATA_BLOCK.f1_length = sizeof(int);
   DATA_BLOCK.imageData = NULL;
   DATA_BLOCK.imageData_status = DBSTATUS_S_OK;
   DATA_BLOCK.imageData_length = 0;

   HROW hRow[1];
   HROW* pRow = hRow;
   DBCOUNTITEM count;
   hr = pIRowset->GetNextRows( DB_NULL_HCHAPTER, 0, 1, &count, &pRow );
   CHECK_HR_ERR(hr, MainCleanup);

   hr = pIRowset->GetData( hRow[0], hAccessor, &DATA_BLOCK );
   CHECK_HR_ERR(hr, MainCleanup);

   // Read and process 5000 bytes at a time.
   if( DATA_BLOCK.imageData_status == DBSTATUS_S_ISNULL ) {
      // Process NULL data.
   }
   else if( DATA_BLOCK.imageData_status == DBSTATUS_S_OK ) {

      ISequentialStream * pISequentialStream;
      BYTE * rgBuffer = new BYTE[1024*1024*4];
      ULONG   cb;
      ULONGLONG total = 0;

      pISequentialStream = (ISequentialStream *) DATA_BLOCK.imageData;
      do {
         cb = sizeof( rgBuffer );
         pISequentialStream->Read(rgBuffer,   // Buffer to write the data
            1024*1024*4,   // Number of bytes to get
            &cb);   // Number of bytes written to buffer
         if (cb > 0) {   // Check to see if we got data
            total += cb;
            printf( "Received %d bytes of data, total = %08I64x\n", cb, total );
         }
      } while (cb >= sizeof(rgBuffer));

      delete rgBuffer;
   }
   else {
      printf( "%08X Problem retrieving varbinary(max)\n", DATA_BLOCK.imageData_status );
   }

MainCleanup:
   SAFE_RELEASE( pICommandProperties );
   SAFE_RELEASE( pIRowset );
   SAFE_RELEASE( pIDBCreateCommand );
   SAFE_RELEASE( pICommandText );
   SAFE_RELEASE( pICommandPrepare );
   SAFE_RELEASE( pIAccessor );

   printf_s( "Test complete.\n" );
}