Leaked source code of windows server 2003
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/*++
Module Name:
wrapmb.cpp
Abstract:
wrapper classes for the metabase class. Yes, I am wrapping a wrapper. Why?
because including mb.hxx totally screws up the headers in my stdafx based
MFC files. This way they can just include wrapmb.h and not have to worry
about including all the other stuff. Also, I can set INITGUID here. That
way I can use precompiled headers in the main project to Greatly increase
compile times. If that isn't reason enough, then I can also manage the pointer
to the interface object itself here.
Author:
Boyd Multerer boydm
--*/
#include "stdafx.h"
#include <objbase.h>
#include <initguid.h>
#include <iadmw.h>
#include "iiscnfgp.h"
#include "wrapmb.h"
#ifdef _NO_TRACING_
DECLARE_DEBUG_PRINTS_OBJECT();
#endif
#define MB_TIMEOUT 5000
// a macro to automatically cast the pointer to the mb object
//#define _pmb ((MB*)m_pvMB)
// globals
IMSAdminBase* g_pMBCom = NULL;
//----------------------------------------------------------------
BOOL FInitMetabaseWrapperEx( OLECHAR* pocMachineName, IMSAdminBase ** ppiab )
{
IClassFactory * pcsfFactory = NULL;
COSERVERINFO csiMachineName;
COSERVERINFO * pcsiParam = NULL;
HRESULT hresError;
if(!ppiab)
{
return FALSE;
}
//fill the structure for CoGetClassObject
ZeroMemory( &csiMachineName, sizeof(csiMachineName) );
// csiMachineName.pAuthInfo = NULL;
// csiMachineName.dwFlags = 0;
// csiMachineName.pServerInfoExt = NULL;
csiMachineName.pwszName = pocMachineName;
pcsiParam = &csiMachineName;
hresError = CoGetClassObject(
GETAdminBaseCLSID(TRUE),
CLSCTX_SERVER,
pcsiParam,
IID_IClassFactory,
(void**) &pcsfFactory
);
if (FAILED(hresError))
{
return FALSE;
}
// create the instance of the interface
hresError = pcsfFactory->CreateInstance(NULL, IID_IMSAdminBase, (void **)ppiab);
if (FAILED(hresError))
{
*ppiab = NULL;
return FALSE;
}
// release the factory
pcsfFactory->Release();
// success
return TRUE;
}
//----------------------------------------------------------------
BOOL FCloseMetabaseWrapperEx(IMSAdminBase ** ppiab)
{
if ( ppiab && *ppiab)
{
(*ppiab)->Release();
*ppiab = NULL;
}
return TRUE;
}
//----------------------------------------------------------------
BOOL FInitMetabaseWrapper( OLECHAR * pocMachineName )
{
//release previous interface if needed
if( g_pMBCom != NULL )
{
g_pMBCom->Release();
g_pMBCom = NULL;
}
return FInitMetabaseWrapperEx(pocMachineName, &g_pMBCom);
}
//----------------------------------------------------------------
BOOL FCloseMetabaseWrapper()
{
return FCloseMetabaseWrapperEx(&g_pMBCom);
}
//=================================================================== The wrapper class
//----------------------------------------------------------------
CWrapMetaBase::CWrapMetaBase():
m_pMetabase( NULL ),
m_hMeta( NULL ),
m_count(0),
m_pBuffer( NULL ),
m_cbBuffer(0),
m_pPathBuffer( NULL ),
m_cchPathBuffer( 0 )
{
// attempt to allocate the general buffer
m_pBuffer = GlobalAlloc( GPTR, BUFFER_SIZE );
if ( m_pBuffer )
m_cbBuffer = BUFFER_SIZE;
}
//----------------------------------------------------------------
CWrapMetaBase::~CWrapMetaBase()
{
// make sure the metabase handle is closed
Close();
// free the buffer
if ( m_pBuffer )
GlobalFree( m_pBuffer );
m_pBuffer = NULL;
}
//----------------------------------------------------------------
BOOL CWrapMetaBase::FInit( PVOID pMBCom )
{
BOOL fAnswer = FALSE;
// NULL was passed in, use the global reference - most cases will do this
if ( pMBCom )
{
m_pMetabase = (IMSAdminBase *)pMBCom;
}
else
{
m_pMetabase = g_pMBCom;
}
// if the interface is not there, fail
if ( !m_pMetabase )
{
return FALSE;
}
// return success
return TRUE;
}
//==========================================================================================
// open, close and save the object and such
//----------------------------------------------------------------
BOOL CWrapMetaBase::Open( LPCTSTR pszPath, DWORD dwFlags )
{
return Open( METADATA_MASTER_ROOT_HANDLE, pszPath, dwFlags );
}
//----------------------------------------------------------------
BOOL CWrapMetaBase::Open( METADATA_HANDLE hOpenRoot, LPCTSTR pszPath, DWORD dwFlags )
{
m_count++;
HRESULT hRes;
// if a metabase handle is already open, close it
if ( m_hMeta )
Close();
hRes = m_pMetabase->OpenKey( hOpenRoot, pszPath, dwFlags, MB_TIMEOUT, &m_hMeta );
if ( SUCCEEDED( hRes ))
return TRUE;
SetLastError( HRESULTTOWIN32( hRes ) );
return FALSE;
}
//----------------------------------------------------------------
BOOL CWrapMetaBase::Close( void )
{
if ( m_hMeta )
{
m_count--;
m_pMetabase->CloseKey( m_hMeta );
}
m_hMeta = NULL;
return TRUE;
}
//----------------------------------------------------------------
BOOL CWrapMetaBase::Save( void )
{
HRESULT hRes = m_pMetabase->SaveData();
if ( SUCCEEDED( hRes ))
return TRUE;
SetLastError( HRESULTTOWIN32( hRes ));
return FALSE;
}
// enumerate the objects
//----------------------------------------------------------------
// fortunately, we know that there is a max length to the name of any individual
// key in the metabase of 256 characters
BOOL CWrapMetaBase::EnumObjects(
LPCTSTR pszPath,
LPTSTR pName,
DWORD cbNameBuf,
DWORD Index
)
{
// enumerate into the wide character buffer
HRESULT hRes = m_pMetabase->EnumKeys( m_hMeta, pszPath, pName, Index );
// Check for success
if ( SUCCEEDED( hRes ))
{
return TRUE;
}
SetLastError( HRESULTTOWIN32( hRes ));
return FALSE;
}
//==========================================================================================
// Add and delete objects
//----------------------------------------------------------------
BOOL CWrapMetaBase::AddObject( LPCTSTR pszPath )
{
HRESULT hRes = m_pMetabase->AddKey( m_hMeta, pszPath );
if ( SUCCEEDED( hRes ))
return TRUE;
SetLastError( HRESULTTOWIN32( hRes ));
return FALSE;
}
//----------------------------------------------------------------
BOOL CWrapMetaBase::DeleteObject( LPCTSTR pszPath )
{
HRESULT hRes = m_pMetabase->DeleteKey( m_hMeta, pszPath );
if ( SUCCEEDED( hRes ))
return TRUE;
SetLastError( HRESULTTOWIN32( hRes ));
return FALSE;
}
//==========================================================================================
// access the metahandle
//----------------------------------------------------------------
METADATA_HANDLE CWrapMetaBase::QueryHandle()
{
return m_hMeta;
}
//==========================================================================================
// setting values
//----------------------------------------------------------------
BOOL CWrapMetaBase::SetDword( LPCTSTR pszPath, DWORD dwPropID, DWORD dwUserType,
DWORD dwValue, DWORD dwFlags )
{
return SetData( pszPath,
dwPropID,
dwUserType,
DWORD_METADATA,
(PVOID) &dwValue,
sizeof( DWORD ),
dwFlags );
}
//----------------------------------------------------------------
BOOL CWrapMetaBase::SetString( LPCTSTR pszPath, DWORD dwPropID, DWORD dwUserType,
LPCTSTR pszValue, DWORD dwFlags )
{
int len = wcslen( pszValue )+1;
DWORD cbWide = len * sizeof(WCHAR);
// set the string into place
BOOL fAnswer = SetData( pszPath,
dwPropID,
dwUserType,
STRING_METADATA,
(PVOID)pszValue,
cbWide, // string length ignored for inprocess clients
dwFlags );
// return the answer
return fAnswer;
}
//==========================================================================================
// getting values
//----------------------------------------------------------------
BOOL CWrapMetaBase::GetDword( LPCTSTR pszPath, DWORD dwPropID, DWORD dwUserType,
DWORD* pdwValue, DWORD dwFlags )
{
DWORD cb = sizeof(DWORD);
return GetData( pszPath,
dwPropID,
dwUserType,
DWORD_METADATA,
pdwValue,
&cb,
dwFlags );
}
//----------------------------------------------------------------
BOOL CWrapMetaBase::GetString( LPCTSTR pszPath, DWORD dwPropID, DWORD dwUserType,
LPTSTR pszValue, DWORD cchValue, DWORD dwFlags )
{
BOOL fAnswer = FALSE;
// get the data and put it right into the buffer - this is the wide version
if ( GetData( pszPath,
dwPropID,
dwUserType,
STRING_METADATA,
pszValue,
&cchValue,
dwFlags ) )
{
fAnswer = TRUE;
}
// return the answer
return fAnswer;
}
BOOL CWrapMetaBase::GetMultiSZString(
LPCTSTR pszPath,
DWORD dwPropID,
DWORD dwUserType,
LPTSTR pszValue,
DWORD cchValue,
DWORD dwFlags)
{
BOOL fAnswer = FALSE;
// get the data and put it right into the buffer - this is the wide version
if (GetData( pszPath,
dwPropID,
dwUserType,
MULTISZ_METADATA,
pszValue,
&cchValue,
dwFlags ) )
{
fAnswer = TRUE;
}
// return the answer
return fAnswer;
}
//==========================================================================================
// deleting values
//----------------------------------------------------------------
BOOL CWrapMetaBase::DeleteData( LPCTSTR pszPath, DWORD dwPropID, DWORD dwDataType )
{
// go right ahead and delete it
HRESULT hRes = m_pMetabase->DeleteData( m_hMeta, pszPath, dwPropID, dwDataType );
// test for success
if ( SUCCEEDED( hRes ))
return TRUE;
// clean up after a failure
SetLastError( HRESULTTOWIN32( hRes ));
return(FALSE);
}
//----------------------------------------------------------------
BOOL CWrapMetaBase::RenameObject( LPCTSTR pszPathOld, LPCTSTR pszNewName )
{
// rename the key
HRESULT hRes = m_pMetabase->RenameKey( m_hMeta, pszPathOld, pszNewName );
// test for success
if ( SUCCEEDED( hRes ))
return TRUE;
// clean up after a failure
SetLastError( HRESULTTOWIN32( hRes ));
return FALSE;
}
//=====================================================================================
//----------------------------------------------------------------
BOOL CWrapMetaBase::SetData( LPCTSTR pszPath, DWORD dwPropID, DWORD dwUserType, DWORD dwDataType,
PVOID pData, DWORD cbData, DWORD dwFlags )
{
METADATA_RECORD mdRecord;
HRESULT hRes;
// prepare the set data record
mdRecord.dwMDIdentifier = dwPropID;
mdRecord.dwMDAttributes = dwFlags;
mdRecord.dwMDUserType = dwUserType;
mdRecord.dwMDDataType = dwDataType;
mdRecord.dwMDDataLen = cbData;
mdRecord.pbMDData = (PBYTE)pData;
// set the data
hRes = m_pMetabase->SetData( m_hMeta, pszPath, &mdRecord );
// test for success
if ( SUCCEEDED( hRes ))
return TRUE;
// there was an error, clean up
SetLastError( HRESULTTOWIN32( hRes ) );
return FALSE;
}
//----------------------------------------------------------------
BOOL CWrapMetaBase::GetData( LPCTSTR pszPath, DWORD dwPropID, DWORD dwUserType, DWORD dwDataType,
PVOID pData, DWORD* pcbData, DWORD dwFlags )
{
METADATA_RECORD mdRecord;
HRESULT hRes;
DWORD dwRequiredLen;
// prepare the get data record
mdRecord.dwMDIdentifier = dwPropID;
mdRecord.dwMDAttributes = dwFlags;
mdRecord.dwMDUserType = dwUserType;
mdRecord.dwMDDataType = dwDataType;
mdRecord.dwMDDataLen = *pcbData;
mdRecord.pbMDData = (PBYTE)pData;
// get the data
hRes = m_pMetabase->GetData( m_hMeta, pszPath, &mdRecord, &dwRequiredLen );
// test for success
if ( SUCCEEDED( hRes ))
{
*pcbData = mdRecord.dwMDDataLen;
return TRUE;
}
// there was a failure - clean up
*pcbData = dwRequiredLen;
SetLastError( HRESULTTOWIN32( hRes ) );
return FALSE;
}
//----------------------------------------------------------------
// another form of GetData that automatically allocates the buffer. It should then be
// freed using GlobalFree(p);
PVOID CWrapMetaBase::GetData( LPCTSTR pszPath, DWORD dwPropID, DWORD dwUserType, DWORD dwDataType,
DWORD* pcbData, DWORD dwFlags )
{
PVOID pData = m_pBuffer;
DWORD cbData = m_cbBuffer;
DWORD err = 0;
BOOL f;
// first - attempt to get the data in the buffer that has already been allocated;
f = GetData( pszPath, dwPropID, dwUserType, dwDataType, pData, &cbData, dwFlags );
// if the get data function worked, we can pretty much leave
if ( f )
{
// set the data size
*pcbData = cbData;
// return the allocated buffer
return pData;
}
// check the error - it could be some sort of memory error
err = GetLastError();
// it is ok that the GetData failed, but the reason had better be ERROR_INSUFFICIENT_BUFFER
// otherwise, it is something we can't handle
if ( err != ERROR_INSUFFICIENT_BUFFER )
return NULL;
// allocate the buffer
pData = GlobalAlloc( GPTR, cbData );
if ( !pData )
return NULL;
// first, get the size of the data that we are looking for
f = GetData( pszPath, dwPropID, dwUserType, dwDataType, pData, &cbData, dwFlags );
// if that getting failed, we need to cleanup
if ( !f )
{
GlobalFree( pData );
pData = NULL;
}
// set the data size
*pcbData = cbData;
// return the allocated buffer
return pData;
}
//----------------------------------------------------------------
// free memory returned by GetData
void CWrapMetaBase::FreeWrapData( PVOID pData )
{
// if it is trying to free the local buffer, do nothing
if ( pData == m_pBuffer )
{
return;
}
// ah - but it was not the local buffer - we should dispose of it
if ( pData )
{
GlobalFree( pData );
}
}