SQL Server Native Client (OLE DB) で IBCPSession を使用して FILESTREAM 列をファイルに読み取る
適用対象: SQL Server Azure SQL データベース Azure SQL Managed Instance Azure Synapse Analytics Analytics Platform System (PDW)
このサンプルでは、IBCPSession インターフェイスを使用して filestream 列をファイルに読み取り、フォーマット ファイルを作成します。
ファイルストリーム機能の詳細については、「 FILESTREAM サポート (OLE DB)」を参照してください。
例
INCLUDE 環境変数に sqlncli.h を含む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。
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、IBCPSession.cpp という名前のファイルに貼り付けます。
IBCPSession.cpp、ISSHelper.cpp、ole32.lib、および oleaut32.lib をコンパイルします。
このサンプルを実行するには、サーバー名 (または server\instance_name) と、作成されたフォーマット ファイルの名前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 <stdio.h>
#include <conio.h>
#include <tchar.h>
#include <sqlncli.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;
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;
}
if (pcbRead)
*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;
}
// IBCPSession.cpp
#pragma once
#define WIN32_LEAN_AND_MEAN// Exclude rarely-used stuff from Windows headers
#include <stdio.h>
#include <conio.h>
#include <tchar.h>
#include <sqlncli.h>
#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; } }
// 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;
}
// to open a session
// 1) create a properties object
// 2) set properties on it (such as INIT_DATASOURCE, etc.)
// 3) queryinterface an IDBInitialize on the properties object
// 4) call IDBInitialize::Initialize
// 5) queryinterface an IDBCreateSession on the IDBInitialize instance
// 6) call IDBCreateSession::CreateSession with interface to use on the session (IDBCreateCommand, IOpenRowset, IBCPSession, etc.)
HRESULT OpenSession( wchar_t* datasource, wchar_t* catalog, const IID& iid, void** out ) {
#define SET_BSTR_PROP(index, proparray, propid, value) \
{ proparray[index].dwOptions = DBPROPOPTIONS_REQUIRED; \
proparray[index].colid = DB_NULLID; \
proparray[index].dwStatus = DBPROPSTATUS_OK; \
proparray[index].dwPropertyID = propid; \
proparray[index].vValue.vt = VT_BSTR; \
proparray[index].vValue.bstrVal = SysAllocString(value); }
#define SET_BOOL_PROP(index, proparray, propid, value) \
{ proparray[index].dwOptions = DBPROPOPTIONS_REQUIRED; \
proparray[index].colid = DB_NULLID; \
proparray[index].dwStatus = DBPROPSTATUS_OK; \
proparray[index].dwPropertyID = propid; \
proparray[index].vValue.vt = VT_BOOL; \
proparray[index].vValue.boolVal = (value) ? VARIANT_TRUE : VARIANT_FALSE; }
HRESULT hr;
IDBProperties* pIDBProperties = NULL;
IDBProperties* pIDBSessionProperties = NULL;
IDBInitialize* pIDBInitialize = NULL;
IDBCreateSession* pIDBCreateSession = NULL;
DBPROP InitProperties[3];
DBPROP BulkCopyProperties[2];
DBPROPSET PropSet[2];
hr = CoCreateInstance( SQLNCLI_CLSID, NULL, CLSCTX_INPROC_SERVER, IID_IDBProperties,
(void **) &pIDBProperties );
CHECK_HR(hr,OpenSessionCleanup);
// Hard coded this to point to local sql server, change as needed.
SET_BSTR_PROP( 0, InitProperties, DBPROP_INIT_DATASOURCE, datasource );
SET_BSTR_PROP( 1, InitProperties, DBPROP_INIT_CATALOG, catalog );
SET_BSTR_PROP( 2, InitProperties, DBPROP_AUTH_INTEGRATED, L"SSPI" );
SET_BOOL_PROP( 0, BulkCopyProperties, SSPROP_ENABLEFASTLOAD, true );
SET_BOOL_PROP( 1, BulkCopyProperties, SSPROP_ENABLEBULKCOPY, true );
PropSet[0].guidPropertySet = DBPROPSET_DBINIT;
PropSet[0].cProperties = 3;
PropSet[0].rgProperties = InitProperties;
PropSet[1].guidPropertySet = DBPROPSET_SQLSERVERDATASOURCE;
PropSet[1].cProperties = 2;
PropSet[1].rgProperties = BulkCopyProperties;
pIDBProperties->SetProperties( 1, (DBPROPSET*) &PropSet );
CHECK_HR( hr, OpenSessionCleanup );
hr = pIDBProperties->QueryInterface( IID_IDBInitialize, (void**) &pIDBInitialize );
CHECK_HR( hr,OpenSessionCleanup );
hr = pIDBInitialize->Initialize();
CHECK_HR( hr,OpenSessionCleanup );
// QI for IID_IDBCreateSession and then create session.
hr = pIDBInitialize->QueryInterface( IID_IDBCreateSession, (void**) &pIDBCreateSession );
CHECK_HR( hr,OpenSessionCleanup );
pIDBCreateSession->QueryInterface( IID_IDBProperties, (void**) &pIDBSessionProperties );
pIDBSessionProperties->SetProperties( 1, &PropSet[1] );
hr = pIDBCreateSession->CreateSession( NULL, iid, (IUnknown**) out );
OpenSessionCleanup:
SAFE_RELEASE( pIDBProperties );
SAFE_RELEASE( pIDBInitialize );
SAFE_RELEASE( pIDBCreateSession );
SAFE_RELEASE( pIDBSessionProperties );
return hr;
}
int wmain(int argc, wchar_t* argv[]) {
HRESULT hr;
IBCPSession * pIBCPSession = NULL;
DBROWCOUNT rows;
CoInitialize(NULL);
if ( argc < 2 ) {
printf( "Usage: IBCPSession <server> <file> [<error file>]\n");
return 0;
}
// Open connection to database.
hr = OpenSession( argv[1], L"master", IID_IBCPSession, (void**) &pIBCPSession );
CHECK_HR_ERR(hr,MainCleanup);
// change the last parameter to BCP_DIRECTION_IN to make it write a file into the server
hr = pIBCPSession->BCPInit( L"[DBFsa]..[FSTRTable]", argv[2], (argc > 3) ? argv[3] : NULL, BCP_DIRECTION_OUT );
CHECK_HR_ERR( hr, MainCleanup );
#define WRITE_FMT_FILE 1
#if WRITE_FMT_FILE
hr = pIBCPSession->BCPColumns( 3 );
CHECK_HR_ERR( hr, MainCleanup );
hr = pIBCPSession->BCPColFmt( 1, BCP_TYPE_DEFAULT, BCP_PREFIX_DEFAULT, BCP_LENGTH_VARIABLE, NULL, 0, 1 );
CHECK_HR_ERR( hr, MainCleanup );
hr = pIBCPSession->BCPColFmt( 2, BCP_TYPE_DEFAULT, BCP_PREFIX_DEFAULT, BCP_LENGTH_VARIABLE, NULL, 0, 2 );
CHECK_HR_ERR( hr, MainCleanup );
hr = pIBCPSession->BCPColFmt( 3, BCP_TYPE_DEFAULT, BCP_PREFIX_DEFAULT, BCP_LENGTH_VARIABLE, NULL, 0, 3 );
CHECK_HR_ERR( hr, MainCleanup );
hr = pIBCPSession->BCPWriteFmt( L"fstrtable.fmt" );
CHECK_HR_ERR( hr, MainCleanup );
#else
hr = pIBCPSession->BCPReadFmt( L"fstrtable.fmt" );
CHECK_HR_ERR( hr, MainCleanup );
#endif
hr = pIBCPSession->BCPExec( &rows );
CHECK_HR_ERR( hr, MainCleanup );
hr = pIBCPSession->BCPDone();
CHECK_HR_ERR( hr, MainCleanup );
MainCleanup:
SAFE_RELEASE( pIBCPSession );
printf_s( "Test complete.\n" );
}