207 lines
6.4 KiB
C++
207 lines
6.4 KiB
C++
//+---------------------------------------------------------------------------
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/////////////////////////////////////////////////////////////////////////////////
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//
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// Microsoft Windows
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// Copyright (C) Microsoft Corporation, 2000-2001.
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//
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// File: RSOPObject.cpp
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//
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// Contents: Implementation of CRSOPObject
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//
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//----------------------------------------------------------------------------
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#include "stdafx.h"
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#include <AutoEnr.h>
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#include <winsafer.h>
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#include <winsaferp.h>
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#include <gpedit.h>
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#include "RSOPObject.h"
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#include "SaferUtil.h"
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#ifdef _DEBUG
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#ifndef ALPHA
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#define new DEBUG_NEW
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#endif
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#undef THIS_FILE
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static char THIS_FILE[] = __FILE__;
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#endif
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CRSOPObject::CRSOPObject (
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const CString& szRegistryKey,
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const CString& szValueName,
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const CString& szPolicyName,
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UINT precedence,
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COleVariant& varValue)
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: CObject (),
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m_szRegistryKey (szRegistryKey),
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m_szValueName (szValueName),
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m_szPolicyName (szPolicyName),
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m_precedence (precedence),
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m_vtType (0),
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m_pbyBlob (0),
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m_sizeArray (0),
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m_bstr (0)
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{
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if ( szValueName.IsEmpty () )
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{
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// Do nothing, but avoid all the string comparisons
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}
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else if ( !_wcsicmp (SAFER_IDS_DESCRIPTION_REGVALUE, szValueName) ||
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!_wcsicmp (SAFER_IDS_FRIENDLYNAME_REGVALUE, szValueName) ||
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!_wcsicmp (SAFER_IDS_LEVEL_DESCRIPTION_FULLY_TRUSTED, szValueName) ||
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!_wcsicmp (SAFER_IDS_LEVEL_DESCRIPTION_NORMAL_USER, szValueName) ||
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!_wcsicmp (SAFER_IDS_LEVEL_DESCRIPTION_CONSTRAINED, szValueName) ||
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!_wcsicmp (SAFER_IDS_LEVEL_DESCRIPTION_UNTRUSTED, szValueName) ||
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!_wcsicmp (SAFER_IDS_LEVEL_DESCRIPTION_DISALLOWED, szValueName) )
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{
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SAFEARRAY* pArray = (SAFEARRAY*) varValue.parray;
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HRESULT hr = BstrFromVector(pArray, &m_bstr);
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if ( SUCCEEDED (hr) )
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{
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m_vtType = VT_BSTR;
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}
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}
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else if ( !_wcsicmp (SAFER_IDS_LASTMODIFIED_REGVALUE, szValueName) )
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{
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m_vtType = VT_ARRAY;
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SAFEARRAY* pArray = (SAFEARRAY*) varValue.parray;
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if ( pArray )
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{
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BYTE HUGEP *pByte = 0;
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// Get a pointer to the elements of the array.
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HRESULT hr = SafeArrayAccessData(pArray, (void HUGEP**)&pByte);
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if ( SUCCEEDED (hr) )
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{
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m_sizeArray = pArray->rgsabound->cElements;
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ASSERT (m_sizeArray == sizeof (FILETIME));
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if ( m_sizeArray == sizeof (FILETIME) )
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{
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memcpy (&m_fileTime, pByte, m_sizeArray);
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}
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SafeArrayUnaccessData (pArray);
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}
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}
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}
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else if ( !_wcsicmp (STR_BLOBCOUNT, szValueName) ||
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!_wcsicmp (STR_BLOBLENGTH, szValueName) ||
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!_wcsicmp (CERT_PROT_ROOT_FLAGS_VALUE_NAME, szValueName) ||
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!_wcsicmp (AUTO_ENROLLMENT_POLICY, szValueName) ||
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!_wcsicmp (SAFER_IDS_SAFERFLAGS_REGVALUE, szValueName) ||
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!_wcsicmp (CERT_TRUST_PUB_AUTHENTICODE_FLAGS_VALUE_NAME, szValueName) ||
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!_wcsicmp (SAFER_TRANSPARENTENABLED_REGVALUE, szValueName) ||
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!_wcsicmp (SAFER_VALUE_NAME_HASH_SIZE, szValueName) ||
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!_wcsicmp (SAFER_VALUE_NAME_DEFAULT_LEVEL, szValueName) ||
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!_wcsicmp (EFS_SETTINGS_REGVALUE, szValueName) ||
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!_wcsicmp (SAFER_POLICY_SCOPE, szValueName) )
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{
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m_vtType = VT_I4;
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SAFEARRAY* pArray = (SAFEARRAY*) varValue.parray;
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if ( pArray )
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{
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BYTE HUGEP *pByte = 0;
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// Get a pointer to the elements of the array.
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HRESULT hr = SafeArrayAccessData(pArray, (void HUGEP**)&pByte);
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if ( SUCCEEDED(hr) )
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{
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ASSERT (pArray->rgsabound->cElements == sizeof (m_dwValue));
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memcpy (&m_dwValue, pByte, pArray->rgsabound->cElements);
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SafeArrayUnaccessData (pArray);
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}
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}
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}
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else if ( !wcsncmp (STR_BLOB, szValueName, wcslen (STR_BLOB)) ||
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!_wcsicmp (SAFER_IDS_ITEMDATA_REGVALUE, szValueName) ||
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!_wcsicmp (SAFER_IDS_ITEMSIZE_REGVALUE, szValueName) ||
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!_wcsicmp (SAFER_IDS_HASHALG_REGVALUE, szValueName) ||
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!_wcsicmp (SAFER_EXETYPES_REGVALUE, szValueName) )
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{
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// Blob, Blob0, Blob1, etc.
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m_vtType = VT_ARRAY;
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SAFEARRAY* pArray = (SAFEARRAY*) varValue.parray;
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if ( pArray )
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{
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BYTE HUGEP *pByte = 0;
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// Get a pointer to the elements of the array.
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HRESULT hr = SafeArrayAccessData(pArray, (void HUGEP**)&pByte);
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if ( SUCCEEDED (hr) )
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{
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m_sizeArray = pArray->rgsabound->cElements;
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m_pbyBlob = new BYTE[m_sizeArray];
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if ( m_pbyBlob )
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{
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memcpy (m_pbyBlob, pByte, m_sizeArray);
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}
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SafeArrayUnaccessData (pArray);
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}
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}
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}
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else if ( !_wcsicmp (CERT_EFSBLOB_VALUE_NAME, szValueName) )
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{
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}
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else
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{
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ASSERT (0);
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}
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}
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CRSOPObject::CRSOPObject (const CRSOPObject& rObject)
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:
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m_szRegistryKey (rObject.m_szRegistryKey),
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m_szValueName (rObject.m_szValueName),
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m_szPolicyName (rObject.m_szPolicyName),
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m_precedence (rObject.m_precedence),
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m_vtType (rObject.m_vtType),
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m_pbyBlob (0),
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m_sizeArray (rObject.m_sizeArray),
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m_bstr (0)
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{
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if ( VT_ARRAY == m_vtType )
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{
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m_pbyBlob = new BYTE[m_sizeArray];
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if ( m_pbyBlob )
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{
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memcpy (m_pbyBlob, rObject.m_pbyBlob, m_sizeArray);
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}
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}
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else if ( VT_I4 == m_vtType )
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{
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m_dwValue = rObject.m_dwValue;
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}
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memcpy (&m_fileTime, &rObject.m_fileTime, sizeof (FILETIME));
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if ( rObject.m_bstr )
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m_bstr = SysAllocString (rObject.m_bstr);
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}
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CRSOPObject::~CRSOPObject ()
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{
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if ( VT_ARRAY == m_vtType && m_pbyBlob )
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delete [] m_pbyBlob;
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if ( m_bstr )
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SysFreeString (m_bstr);
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}
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HRESULT CRSOPObject::GetBSTR (BSTR* pBstr) const
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{
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HRESULT hr = S_OK;
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if ( pBstr )
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{
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if ( m_bstr )
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*pBstr = SysAllocString ((PCWSTR) m_bstr);
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else
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hr = E_NOTIMPL;
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}
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else
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hr = E_POINTER;
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return hr;
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}
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