////////////////////////////////////////////////////////////////////////////// // // Copyright (c) 2000-2001 Microsoft Corporation // // Module Name: // EnumManageableNetworks.cpp // // Description: // CEnumManageableNetworks implementation. // // Maintained By: // Galen Barbee (GalenB) 02-FEB-2000 // ////////////////////////////////////////////////////////////////////////////// #include "pch.h" #include "ManagedNetwork.h" #include "EnumManageableNetworks.h" DEFINE_THISCLASS("CEnumManageableNetworks") // ************************************************************************ // // Constructor / Destructor // // ************************************************************************ ////////////////////////////////////////////////////////////////////////////// // // HRESULT // CEnumManageableNetworks::S_HrCreateInstance( // IUnknown ** ppunkOut // ) // ////////////////////////////////////////////////////////////////////////////// HRESULT CEnumManageableNetworks::S_HrCreateInstance( IUnknown ** ppunkOut ) { TraceFunc( "" ); Assert( ppunkOut != NULL ); HRESULT hr; CEnumManageableNetworks * pemn = new CEnumManageableNetworks; if ( pemn != NULL ) { hr = THR( pemn->Init( ) ); if ( SUCCEEDED( hr ) ) { hr = THR( pemn->TypeSafeQI( IUnknown, ppunkOut ) ); } pemn->Release( ); } else { hr = E_OUTOFMEMORY; } HRETURN( hr ); } // S_HrCreateInstance( ) ////////////////////////////////////////////////////////////////////////////// // // CEnumManageableNetworks::CEnumManageableNetworks( void ) // ////////////////////////////////////////////////////////////////////////////// CEnumManageableNetworks::CEnumManageableNetworks( void ) { TraceFunc( "" ); InterlockedIncrement( &g_cObjects ); TraceFuncExit(); } // CEnumManageableNetworks( ) ////////////////////////////////////////////////////////////////////////////// // // STDMETHODIMP // CEnumManageableNetworks::Init( void ) // ////////////////////////////////////////////////////////////////////////////// STDMETHODIMP CEnumManageableNetworks::Init( void ) { TraceFunc( "" ); HRESULT hr = S_OK; // IUnknown stuff Assert( m_cRef == 0 ); AddRef( ); // Add one count // IEnumClusCfgNetworks Assert( m_cAlloced == 0 ); Assert( m_cIter == 0 ); Assert( m_pList == NULL ); HRETURN( hr ); } // Init( ) ////////////////////////////////////////////////////////////////////////////// // // CEnumManageableNetworks::~CEnumManageableNetworks( ) // ////////////////////////////////////////////////////////////////////////////// CEnumManageableNetworks::~CEnumManageableNetworks( ) { TraceFunc( "" ); if ( m_pList != NULL ) { while ( m_cAlloced != 0 ) { m_cAlloced --; AssertMsg( m_pList[ m_cAlloced ], "This shouldn't happen." ); if ( m_pList[ m_cAlloced ] != NULL ) { (m_pList[ m_cAlloced ])->Release( ); } } TraceFree( m_pList ); } InterlockedDecrement( &g_cObjects ); TraceFuncExit(); } // ~CEnumManageableNetworks( ) // ************************************************************************ // // IUnknown // // ************************************************************************ ////////////////////////////////////////////////////////////////////////////// // // STDMETHODIMP // CEnumManageableNetworks::QueryInterface( // REFIID riid, // LPVOID *ppv // ) // ////////////////////////////////////////////////////////////////////////////// STDMETHODIMP CEnumManageableNetworks::QueryInterface( REFIID riid, LPVOID *ppv ) { TraceQIFunc( riid, ppv ); HRESULT hr = E_NOINTERFACE; if ( IsEqualIID( riid, IID_IUnknown ) ) { *ppv = static_cast< IEnumClusCfgNetworks * >( this ); hr = S_OK; } // if: IUnknown else if ( IsEqualIID( riid, IID_IEnumClusCfgNetworks ) ) { *ppv = TraceInterface( __THISCLASS__, IEnumClusCfgNetworks, this, 0 ); hr = S_OK; } // else if: IEnumClusCfgNetworks else if ( IsEqualIID( riid, IID_IExtendObjectManager ) ) { *ppv = TraceInterface( __THISCLASS__, IExtendObjectManager, this, 0 ); hr = S_OK; } // else if: IExtendObjectManager if ( SUCCEEDED( hr ) ) { ((IUnknown*) *ppv)->AddRef( ); } // if: success QIRETURN_IGNORESTDMARSHALLING( hr, riid ); } // QueryInterface( ) ////////////////////////////////////////////////////////////////////////////// // // STDMETHODIMP_(ULONG) // CEnumManageableNetworks::AddRef( void ) // ////////////////////////////////////////////////////////////////////////////// STDMETHODIMP_(ULONG) CEnumManageableNetworks::AddRef( void ) { TraceFunc( "[IUnknown]" ); InterlockedIncrement( &m_cRef ); RETURN( m_cRef ); } // AddRef( ) ////////////////////////////////////////////////////////////////////////////// // // STDMETHODIMP_(ULONG) // CEnumManageableNetworks::Release( void ) // ////////////////////////////////////////////////////////////////////////////// STDMETHODIMP_(ULONG) CEnumManageableNetworks::Release( void ) { TraceFunc( "[IUnknown]" ); InterlockedDecrement( &m_cRef ); if ( m_cRef ) RETURN( m_cRef ); TraceDo( delete this ); RETURN(0); } // Release( ) // ************************************************************************ // // IExtendObjectManager // // ************************************************************************ ////////////////////////////////////////////////////////////////////////////// // // STDMETHODIMP // CEnumManageableNetworks::FindObject( // OBJECTCOOKIE cookieIn // , REFCLSID rclsidTypeIn // , LPCWSTR pcszNameIn // , LPUNKNOWN * punkOut // ) // ////////////////////////////////////////////////////////////////////////////// STDMETHODIMP CEnumManageableNetworks::FindObject( OBJECTCOOKIE cookieIn , REFCLSID rclsidTypeIn , LPCWSTR pcszNameIn , LPUNKNOWN * ppunkOut ) { TraceFunc( "[IExtendObjectManager]" ); OBJECTCOOKIE cookie; OBJECTCOOKIE cookieParent; IServiceProvider * psp; HRESULT hr = E_UNEXPECTED; IObjectManager * pom = NULL; IStandardInfo * psi = NULL; IEnumCookies * pec = NULL; DWORD cookieCount = 0; // // Check arguments // if ( cookieIn == 0 ) goto InvalidArg; if ( rclsidTypeIn != CLSID_NetworkType ) goto InvalidType; if ( ppunkOut == NULL ) goto InvalidPointer; AssertMsg( pcszNameIn == NULL, "Enums shouldn't have names." ); // // Grab the object manager. // hr = THR( CoCreateInstance( CLSID_ServiceManager, NULL, CLSCTX_INPROC_SERVER, TypeSafeParams( IServiceProvider, &psp ) ) ); if ( FAILED( hr ) ) goto Cleanup; hr = THR( psp->TypeSafeQS( CLSID_ObjectManager, IObjectManager, &pom ) ); psp->Release( ); // release promptly if ( FAILED( hr ) ) goto Cleanup; // // Ask the Object Manager for information about our cookie so we can // get to the "parent" cookie. // hr = THR( pom->GetObject( DFGUID_StandardInfo, cookieIn, reinterpret_cast< IUnknown ** >( &psi ) ) ); if ( FAILED( hr ) ) goto Cleanup; hr = STHR( psi->GetParent( &cookieParent ) ); if ( FAILED( hr ) ) goto Cleanup; // // Now ask the Object Manager for a cookie enumerator. // hr = THR( pom->FindObject( CLSID_NetworkType, cookieParent, NULL, DFGUID_EnumCookies, NULL, reinterpret_cast< IUnknown ** >( &pec ) ) ); if ( FAILED( hr ) ) goto Cleanup; pec = TraceInterface( L"CEnumManageableNetworks!IEnumCookies", IEnumCookies, pec, 1 ); // // Ask the enumerator how many cookies it has. // hr = THR( pec->Count( &cookieCount ) ); if ( FAILED( hr ) ) goto Cleanup; m_cAlloced = cookieCount; if ( m_cAlloced == 0 ) goto ErrorNotFound; // // Allocate a buffer to store the punks. // m_pList = (IClusCfgNetworkInfo **) TraceAlloc( HEAP_ZERO_MEMORY, m_cAlloced * sizeof(IClusCfgNetworkInfo *) ); if ( m_pList == NULL ) goto OutOfMemory; // // Reset the enumerator. // hr = THR( pec->Reset( ) ); if ( FAILED( hr ) ) goto Cleanup; // // Now loop thru to collect the interfaces. // m_cIter = 0; while ( hr == S_OK && m_cIter < m_cAlloced ) { hr = STHR( pec->Next( 1, &cookie, NULL ) ); if ( FAILED( hr ) ) goto Cleanup; if ( hr == S_FALSE ) break; // exit condition hr = THR( pom->GetObject( DFGUID_NetworkResource, cookie, reinterpret_cast< IUnknown ** >( &m_pList[ m_cIter ] ) ) ); if ( FAILED( hr ) ) goto Cleanup; m_cIter++; } // while: S_OK // // Reset the iter. // m_cIter = 0; // // Grab the interface. // hr = THR( QueryInterface( DFGUID_EnumManageableNetworks, reinterpret_cast< void ** >( ppunkOut ) ) ); if ( FAILED( hr ) ) goto Cleanup; Cleanup: if ( pom != NULL ) { pom->Release( ); } if ( psi != NULL ) { psi->Release( ); } if ( pec != NULL ) { pec->Release( ); } HRETURN( hr ); InvalidArg: hr = THR( E_INVALIDARG ); goto Cleanup; InvalidPointer: hr = THR( E_POINTER ); goto Cleanup; InvalidType: // // TODO: gpease 07-APR-2000 // Come up with a better error code. // hr = THR( E_FAIL ); goto Cleanup; ErrorNotFound: // The error text is better than the coding value. hr = THR( HRESULT_FROM_WIN32( ERROR_NOT_FOUND ) ); goto Cleanup; OutOfMemory: hr = E_OUTOFMEMORY; goto Cleanup; } // FindObject( ) //**************************************************************************** // // IEnumClusCfgNetworks // //**************************************************************************** ////////////////////////////////////////////////////////////////////////////// // // STDMETHODIMP // CEnumManageableNetworks::Next( // ULONG celt, // IClusCfgNetworkInfo ** rgOut, // ULONG * pceltFetchedOut // ) // ////////////////////////////////////////////////////////////////////////////// STDMETHODIMP CEnumManageableNetworks::Next( ULONG celt, IClusCfgNetworkInfo * rgOut[], ULONG * pceltFetchedOut ) { TraceFunc( "[IEnumClusCfgNetworks]" ); ULONG celtFetched; HRESULT hr = E_UNEXPECTED; // // Check parameters // if ( rgOut == NULL || celt == 0 ) goto InvalidPointer; // // Zero the return count. // if ( pceltFetchedOut != NULL ) { *pceltFetchedOut = 0; } // // Clear the buffer // ZeroMemory( rgOut, celt * sizeof(rgOut[0]) ); // // Loop thru copying the interfaces. // for( celtFetched = 0 ; celtFetched + m_cIter < m_cAlloced && celtFetched < celt ; celtFetched ++ ) { hr = THR( m_pList[ m_cIter + celtFetched ]->TypeSafeQI( IClusCfgNetworkInfo, &rgOut[ celtFetched ] ) ); if ( FAILED( hr ) ) goto CleanupList; rgOut[ celtFetched ] = TraceInterface( L"CEnumManageableNetworks!IClusCfgNetworkInfo", IClusCfgNetworkInfo, rgOut[ celtFetched ], 1 ); } // for: celtFetched if ( pceltFetchedOut != NULL ) { *pceltFetchedOut = celtFetched; } m_cIter += celtFetched; if ( celtFetched != celt ) { hr = S_FALSE; } else { hr = S_OK; } Cleanup: HRETURN( hr ); CleanupList: for ( ; celtFetched != 0 ; ) { celtFetched --; rgOut[ celtFetched ]->Release( ); rgOut[ celtFetched ] = NULL; } goto Cleanup; InvalidPointer: hr = THR( E_POINTER ); goto Cleanup; } // Next( ) ////////////////////////////////////////////////////////////////////////////// // // STDMETHODIMP // CEnumManageableNetworks::Skip( // ULONG celt // ) // ////////////////////////////////////////////////////////////////////////////// STDMETHODIMP CEnumManageableNetworks::Skip( ULONG celt ) { TraceFunc( "[IEnumClusCfgNetworks]" ); HRESULT hr = S_OK; m_cIter += celt; if ( m_cIter > m_cAlloced ) { m_cIter = m_cAlloced; hr = S_FALSE; } HRETURN( hr ); } // Skip( ) ////////////////////////////////////////////////////////////////////////////// // // STDMETHODIMP // CEnumManageableNetworks::Reset( void ) // ////////////////////////////////////////////////////////////////////////////// STDMETHODIMP CEnumManageableNetworks::Reset( void ) { TraceFunc( "[IEnumClusCfgNetworks]" ); HRESULT hr = S_OK; m_cIter = 0; HRETURN( hr ); } // Reset( ) ////////////////////////////////////////////////////////////////////////////// // // STDMETHODIMP // CEnumManageableNetworks::Clone( // IEnumClusCfgNetworks ** ppenumOut // ) // ////////////////////////////////////////////////////////////////////////////// STDMETHODIMP CEnumManageableNetworks::Clone( IEnumClusCfgNetworks ** ppenumOut ) { TraceFunc( "[IEnumClusCfgNetworks]" ); // // KB: not going to implement this method. // HRESULT hr = THR( E_NOTIMPL ); HRETURN( hr ); } // Clone( ) ////////////////////////////////////////////////////////////////////////////// // // STDMETHODIMP // CEnumManageableNetworks::Count( // DWORD * pnCountOut // ) // ////////////////////////////////////////////////////////////////////////////// STDMETHODIMP CEnumManageableNetworks::Count( DWORD * pnCountOut ) { TraceFunc( "[IEnumClusCfgManagedResources]" ); HRESULT hr = S_OK; if ( pnCountOut == NULL ) { hr = THR( E_POINTER ); goto Cleanup; } *pnCountOut = m_cAlloced; Cleanup: HRETURN( hr ); }// Count( )