windows-nt/Source/XPSP1/NT/base/cluster/mgmt/cluscfg/server/cenumcluscfgipaddresses.cpp

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2020-09-26 03:20:57 -05:00
//////////////////////////////////////////////////////////////////////////////
//
// Copyright (c) 2000-2001 Microsoft Corporation
//
// Module Name:
// CEnumClusCfgIPAddresses.cpp
//
// Description:
// This file contains the definition of the CEnumClusCfgIPAddresses
// class.
//
// The class CEnumClusCfgIPAddresses is the enumeration of IP addresses.
// It implements the IEnumClusCfgIPAddresses interface.
//
// Documentation:
//
// Header File:
// CEnumClusCfgIPAddresses.h
//
// Maintained By:
// Galen Barbee (GalenB) 23-MAR-2000
//
//////////////////////////////////////////////////////////////////////////////
//////////////////////////////////////////////////////////////////////////////
// Include Files
//////////////////////////////////////////////////////////////////////////////
#include "pch.h"
#include "CEnumClusCfgIPAddresses.h"
#include "CClusCfgIPAddressInfo.h"
#include <ClusRtl.h>
#include <commctrl.h>
//////////////////////////////////////////////////////////////////////////////
// Constant Definitions
//////////////////////////////////////////////////////////////////////////////
DEFINE_THISCLASS( "CEnumClusCfgIPAddresses" );
//*************************************************************************//
/////////////////////////////////////////////////////////////////////////////
// CEnumClusCfgIPAddresses class
/////////////////////////////////////////////////////////////////////////////
//////////////////////////////////////////////////////////////////////////////
//++
//
// CEnumClusCfgIPAddresses::S_HrCreateInstance
//
// Description:
// Create a CEnumClusCfgIPAddresses instance.
//
// Arguments:
// None.
//
// Return Values:
// Pointer to CEnumClusCfgIPAddresses instance.
//
//--
//////////////////////////////////////////////////////////////////////////////
HRESULT
CEnumClusCfgIPAddresses::S_HrCreateInstance( IUnknown ** ppunkOut )
{
TraceFunc( "" );
HRESULT hr;
CEnumClusCfgIPAddresses * pccsd = NULL;
if ( ppunkOut == NULL )
{
hr = THR( E_POINTER );
goto Cleanup;
} // if:
pccsd = new CEnumClusCfgIPAddresses();
if ( pccsd == NULL )
{
hr = THR( E_OUTOFMEMORY );
goto Cleanup;
} // if: error allocating object
hr = THR( pccsd->HrInit() );
if ( FAILED( hr ) )
{
goto Cleanup;
} // if: HrInit() failed
hr = THR( pccsd->TypeSafeQI( IUnknown, ppunkOut ) );
Cleanup:
if ( FAILED( hr ) )
{
LogMsg( L"[SRV] CEnumClusCfgIPAddresses::S_HrCreateInstance() failed. (hr = %#08x)", hr );
} // if:
if ( pccsd != NULL )
{
pccsd->Release();
} // if:
HRETURN( hr );
} //*** CEnumClusCfgIPAddresses::S_HrCreateInstance
//////////////////////////////////////////////////////////////////////////////
//++
//
// CEnumClusCfgIPAddresses::S_HrCreateInstance
//
// Description:
// Create a CEnumClusCfgIPAddresses instance.
//
// Arguments:
// None.
//
// Return Values:
// Pointer to CEnumClusCfgIPAddresses instance.
//
//--
//////////////////////////////////////////////////////////////////////////////
HRESULT
CEnumClusCfgIPAddresses::S_HrCreateInstance(
ULONG ulIPAddressIn
, ULONG ulIPSubnetIn
, IUnknown * punkCallbackIn
, LCID lcidIn
, IWbemServices * pIWbemServicesIn
, IUnknown ** ppunkOut
)
{
TraceFunc( "" );
Assert( ppunkOut != NULL );
Assert( ulIPAddressIn != 0 );
Assert( ulIPSubnetIn != 0 );
HRESULT hr;
CEnumClusCfgIPAddresses * pccsd = NULL;
if ( ppunkOut == NULL )
{
hr = THR( E_POINTER );
goto Cleanup;
} // if:
pccsd = new CEnumClusCfgIPAddresses();
if ( pccsd == NULL )
{
hr = THR( E_OUTOFMEMORY );
goto Cleanup;
} // if: error allocating object
hr = THR( pccsd->Initialize( punkCallbackIn, lcidIn ) );
if ( FAILED( hr ) )
{
goto Cleanup;
} // if:
hr = THR( pccsd->SetWbemServices( pIWbemServicesIn ) );
if ( FAILED( hr ) )
{
goto Cleanup;
} // if:
hr = THR( pccsd->HrInit( ulIPAddressIn, ulIPSubnetIn ) );
if ( FAILED( hr ) )
{
goto Cleanup;
} // if: HrInit() failed
hr = THR( pccsd->TypeSafeQI( IUnknown, ppunkOut ) );
Cleanup:
if ( FAILED( hr ) )
{
LogMsg( L"[SRV] CEnumClusCfgIPAddresses::S_HrCreateInstance( ULONG, ULONG ) failed. (hr = %#08x)", hr );
} // if:
if ( pccsd != NULL )
{
pccsd->Release();
} // if:
HRETURN( hr );
} //*** CEnumClusCfgIPAddresses::S_HrCreateInstance
//////////////////////////////////////////////////////////////////////////////
//++
//
// CEnumClusCfgIPAddresses::CEnumClusCfgIPAddresses
//
// Description:
// Constructor of the CEnumClusCfgIPAddresses class. This initializes
// the m_cRef variable to 1 instead of 0 to account of possible
// QueryInterface failure in DllGetClassObject.
//
// Arguments:
// None.
//
// Return Value:
// None.
//
// Remarks:
// None.
//
//--
//////////////////////////////////////////////////////////////////////////////
CEnumClusCfgIPAddresses::CEnumClusCfgIPAddresses( void )
: m_cRef( 1 )
, m_lcid( LOCALE_NEUTRAL )
{
TraceFunc( "" );
Assert( m_idxNext == 0 );
Assert( m_idxEnumNext == 0 );
Assert( m_picccCallback == NULL );
Assert( m_pIWbemServices == NULL );
Assert( m_prgAddresses == NULL );
Assert( m_cAddresses == 0 );
// Increment the count of components in memory so the DLL hosting this
// object cannot be unloaded.
InterlockedIncrement( &g_cObjects );
TraceFuncExit();
} //*** CEnumClusCfgIPAddresses::CEnumClusCfgIPAddresses
//////////////////////////////////////////////////////////////////////////////
//++
//
// CEnumClusCfgIPAddresses::~CEnumClusCfgIPAddresses
//
// Description:
// Desstructor of the CEnumClusCfgIPAddresses class.
//
// Arguments:
// None.
//
// Return Value:
// None.
//
// Remarks:
// None.
//
//--
//////////////////////////////////////////////////////////////////////////////
CEnumClusCfgIPAddresses::~CEnumClusCfgIPAddresses( void )
{
TraceFunc( "" );
ULONG idx;
if ( m_pIWbemServices != NULL )
{
m_pIWbemServices->Release();
} // if:
if ( m_picccCallback != NULL )
{
m_picccCallback->Release();
} // if:
for ( idx = 0; idx < m_idxNext; idx++ )
{
((*m_prgAddresses)[ idx ])->Release();
} // for:
TraceFree( m_prgAddresses );
// There's going to be one less component in memory. Decrement component count.
InterlockedDecrement( &g_cObjects );
TraceFuncExit();
} //*** CEnumClusCfgIPAddresses::~CEnumClusCfgIPAddresses
//*************************************************************************//
/////////////////////////////////////////////////////////////////////////////
// CEnumClusCfgIPAddresses -- IUknkown interface.
/////////////////////////////////////////////////////////////////////////////
//////////////////////////////////////////////////////////////////////////////
//++
//
// STDMETHODIMP_( ULONG )
// CEnumClusCfgIPAddresses:: [IUNKNOWN] AddRef
//
// Description:
// Increment the reference count of this object by one.
//
// Arguments:
// None.
//
// Return Value:
// The new reference count.
//
// Remarks:
// None.
//
//--
//////////////////////////////////////////////////////////////////////////////
STDMETHODIMP_( ULONG )
CEnumClusCfgIPAddresses::AddRef( void )
{
TraceFunc( "[IUnknown]" );
InterlockedIncrement( & m_cRef );
RETURN( m_cRef );
} //*** CEnumClusCfgIPAddresses::AddRef
//////////////////////////////////////////////////////////////////////////////
//++
//
// STDMETHODIMP_( ULONG )
// CEnumClusCfgIPAddresses:: [IUNKNOWN] Release
//
// Description:
// Decrement the reference count of this object by one.
//
// Arguments:
// None.
//
// Return Value:
// The new reference count.
//
// Remarks:
// None.
//
//--
//////////////////////////////////////////////////////////////////////////////
STDMETHODIMP_( ULONG )
CEnumClusCfgIPAddresses::Release( void )
{
TraceFunc( "[IUnknown]" );
LONG cRef;
cRef = InterlockedDecrement( &m_cRef );
if ( cRef == 0 )
{
TraceDo( delete this );
} // if: reference count equal to zero
RETURN( cRef );
} //*** CEnumClusCfgIPAddresses::Release
//////////////////////////////////////////////////////////////////////////////
//++
//
// CEnumClusCfgIPAddresses:: [INKNOWN] QueryInterface
//
// Description:
// Query this object for the passed in interface.
//
// Arguments:
// IN REFIID riid,
// Id of interface requested.
//
// OUT void ** ppv
// Pointer to the requested interface.
//
// Return Value:
// S_OK
// If the interface is available on this object.
//
// E_NOINTERFACE
// If the interface is not available.
//
// Remarks:
// None.
//
//--
//////////////////////////////////////////////////////////////////////////////
STDMETHODIMP
CEnumClusCfgIPAddresses::QueryInterface( REFIID riid, void ** ppv )
{
TraceQIFunc( riid, ppv );
HRESULT hr = E_NOINTERFACE;
if ( IsEqualIID( riid, IID_IUnknown ) )
{
*ppv = static_cast< IEnumClusCfgIPAddresses * >( this );
hr = S_OK;
} // if: IUnknown
else if ( IsEqualIID( riid, IID_IEnumClusCfgIPAddresses ) )
{
*ppv = TraceInterface( __THISCLASS__, IEnumClusCfgIPAddresses, this, 0 );
hr = S_OK;
} // else if:
else if ( IsEqualIID( riid, IID_IClusCfgWbemServices ) )
{
*ppv = TraceInterface( __THISCLASS__, IClusCfgWbemServices, this, 0 );
hr = S_OK;
} // else if:
else if ( IsEqualIID( riid, IID_IClusCfgInitialize ) )
{
*ppv = TraceInterface( __THISCLASS__, IClusCfgInitialize, this, 0 );
hr = S_OK;
} // else if:
else if ( IsEqualIID( riid, IID_IClusCfgSetWbemObject ) )
{
*ppv = TraceInterface( __THISCLASS__, IClusCfgSetWbemObject, this, 0 );
hr = S_OK;
} // else if:
if ( SUCCEEDED( hr ) )
{
((IUnknown *) *ppv)->AddRef( );
} // if: success
QIRETURN( hr, riid );
} //*** CEnumClusCfgIPAddresses::QueryInterface
//*************************************************************************//
/////////////////////////////////////////////////////////////////////////////
// CEnumClusCfgIPAddresses -- IClusCfgWbemServices interface.
/////////////////////////////////////////////////////////////////////////////
//////////////////////////////////////////////////////////////////////////////
//++
//
// CEnumClusCfgIPAddresses::SetWbemServices
//
// Description:
// Set the WBEM services provider.
//
// Arguments:
// IN IWbemServices pIWbemServicesIn
//
// Return Value:
// S_OK
// Success
//
// E_POINTER
// The pIWbemServicesIn param is NULL.
//
// Remarks:
// None.
//
//--
//////////////////////////////////////////////////////////////////////////////
STDMETHODIMP
CEnumClusCfgIPAddresses::SetWbemServices( IWbemServices * pIWbemServicesIn )
{
TraceFunc( "[IClusCfgWbemServices]" );
HRESULT hr = S_OK;
if ( pIWbemServicesIn == NULL )
{
hr = THR( E_POINTER );
STATUS_REPORT( TASKID_Major_Find_Devices, TASKID_Minor_SetWbemServices_Enum_IPAddresses, IDS_ERROR_NULL_POINTER, hr );
goto Cleanup;
} // if:
m_pIWbemServices = pIWbemServicesIn;
m_pIWbemServices->AddRef();
Cleanup:
HRETURN( hr );
} //*** CEnumClusCfgIPAddresses::SetWbemServices
//*************************************************************************//
/////////////////////////////////////////////////////////////////////////////
// CEnumClusCfgIPAddresses -- IClusCfgInitialize interface.
/////////////////////////////////////////////////////////////////////////////
//////////////////////////////////////////////////////////////////////////////
//++
//
// CEnumClusCfgIPAddresses::Initialize
//
// Description:
// Initialize this component.
//
// Arguments:
// IN IUknown * punkCallbackIn
//
// IN LCID lcidIn
//
// Return Value:
// S_OK
// Success
//
// Remarks:
// None.
//
//--
//////////////////////////////////////////////////////////////////////////////
STDMETHODIMP
CEnumClusCfgIPAddresses::Initialize(
IUnknown * punkCallbackIn,
LCID lcidIn
)
{
TraceFunc( "[IClusCfgInitialize]" );
Assert( m_picccCallback == NULL );
HRESULT hr = S_OK;
m_lcid = lcidIn;
if ( punkCallbackIn == NULL )
{
hr = THR( E_POINTER );
goto Cleanup;
} // if:
hr = THR( punkCallbackIn->TypeSafeQI( IClusCfgCallback, &m_picccCallback ) );
Cleanup:
HRETURN( hr );
} //*** CEnumClusCfgIPAddresses::Initialize
//*************************************************************************//
/////////////////////////////////////////////////////////////////////////////
// CEnumClusCfgIPAddresses -- IEnumClusCfgIPAddresses interface.
/////////////////////////////////////////////////////////////////////////////
//////////////////////////////////////////////////////////////////////////////
//++
//
// CEnumClusCfgIPAddresses::Next
//
// Description:
//
// Arguments:
//
// Return Value:
//
// Remarks:
// None.
//
//--
//////////////////////////////////////////////////////////////////////////////
STDMETHODIMP
CEnumClusCfgIPAddresses::Next(
ULONG cNumberRequestedIn,
IClusCfgIPAddressInfo ** rgpIPAddressInfoOut,
ULONG * pcNumberFetchedOut
)
{
TraceFunc( "[IEnumClusCfgIPAddresses]" );
HRESULT hr = S_FALSE;
ULONG cFetched = 0;
ULONG idx;
IClusCfgIPAddressInfo * pccipai;
if ( rgpIPAddressInfoOut == NULL )
{
hr = THR( E_POINTER );
STATUS_REPORT( TASKID_Major_Find_Devices, TASKID_Minor_Next_Enum_IPAddresses, IDS_ERROR_NULL_POINTER, hr );
goto Cleanup;
} // if:
cFetched = min( cNumberRequestedIn, ( m_idxNext - m_idxEnumNext ) );
for ( idx = 0; idx < cFetched; idx++, m_idxEnumNext++ )
{
hr = THR( ((*m_prgAddresses)[ m_idxEnumNext ])->TypeSafeQI( IClusCfgIPAddressInfo, &pccipai ) );
if ( FAILED( hr ) )
{
break;
} // if:
rgpIPAddressInfoOut[ idx ] = pccipai;
} // for:
if ( FAILED( hr ) )
{
ULONG idxStop = idx;
m_idxEnumNext -= idx;
for ( idx = 0; idx < idxStop; idx++ )
{
(rgpIPAddressInfoOut[ idx ])->Release();
} // for:
cFetched = 0;
goto Cleanup;
} // if:
if ( cFetched < cNumberRequestedIn )
{
hr = S_FALSE;
} // if:
Cleanup:
if ( pcNumberFetchedOut != NULL )
{
*pcNumberFetchedOut = cFetched;
} // if:
HRETURN( hr );
} //*** CEnumClusCfgIPAddresses::Next
//////////////////////////////////////////////////////////////////////////////
//++
//
// CEnumClusCfgIPAddresses::Skip
//
// Description:
//
// Arguments:
//
// Return Value:
//
// Remarks:
// None.
//
//--
//////////////////////////////////////////////////////////////////////////////
STDMETHODIMP
CEnumClusCfgIPAddresses::Skip( ULONG cNumberToSkipIn )
{
TraceFunc( "[IEnumClusCfgIPAddresses]" );
HRESULT hr = S_OK;
m_idxEnumNext += cNumberToSkipIn;
if ( m_idxEnumNext >= m_idxNext )
{
m_idxEnumNext = m_idxNext;
hr = STHR( S_FALSE );
} // if:
HRETURN( hr );
} //*** CEnumClusCfgIPAddresses::Skip
//////////////////////////////////////////////////////////////////////////////
//++
//
// CEnumClusCfgIPAddresses::Reset
//
// Description:
//
// Arguments:
//
// Return Value:
//
// Remarks:
// None.
//
//--
//////////////////////////////////////////////////////////////////////////////
STDMETHODIMP
CEnumClusCfgIPAddresses::Reset( void )
{
TraceFunc( "[IEnumClusCfgIPAddresses]" );
HRESULT hr S_OK;
m_idxEnumNext = 0;
HRETURN( hr );
} //*** CEnumClusCfgIPAddresses::Reset
//////////////////////////////////////////////////////////////////////////////
//++
//
// CEnumClusCfgIPAddresses::Clone
//
// Description:
//
// Arguments:
//
// Return Value:
//
// Remarks:
// None.
//
//--
//////////////////////////////////////////////////////////////////////////////
STDMETHODIMP
CEnumClusCfgIPAddresses::Clone(
IEnumClusCfgIPAddresses ** ppEnumClusCfgIPAddressesOut
)
{
TraceFunc( "[IEnumClusCfgIPAddresses]" );
HRESULT hr = S_OK;
if ( ppEnumClusCfgIPAddressesOut == NULL )
{
hr = THR( E_POINTER );
STATUS_REPORT( TASKID_Major_Find_Devices, TASKID_Minor_Clone_Enum_IPAddresses, IDS_ERROR_NULL_POINTER, hr );
goto Cleanup;
} // if:
hr = THR( E_NOTIMPL );
Cleanup:
HRETURN( hr );
} //*** CEnumClusCfgIPAddresses::Clone
//////////////////////////////////////////////////////////////////////////////
//++
//
// CEnumClusCfgIPAddresses::Count
//
// Description:
//
// Arguments:
//
// Return Value:
//
// Remarks:
// None.
//
//--
//////////////////////////////////////////////////////////////////////////////
STDMETHODIMP
CEnumClusCfgIPAddresses::Count( DWORD * pnCountOut )
{
TraceFunc( "[IEnumClusCfgIPAddresses]" );
HRESULT hr = S_OK;
if ( pnCountOut == NULL )
{
hr = THR( E_POINTER );
goto Cleanup;
} // if:
*pnCountOut = m_cAddresses;
Cleanup:
HRETURN( hr );
} //*** CEnumClusCfgIPAddress::Count
//*************************************************************************//
/////////////////////////////////////////////////////////////////////////////
// CEnumClusCfgIPAddresses class -- IClusCfgNetworkAdapterInfo Interface
/////////////////////////////////////////////////////////////////////////////
//////////////////////////////////////////////////////////////////////////////
//++
//
// CEnumClusCfgIPAddresses::SetWbemObject
//
// Description:
// Get the configuration from the passed in adapter and load this
// enumerator.
//
// Arguments:
// None.
//
// Return Value:
//
//
// Remarks:
// None.
//
//--
//////////////////////////////////////////////////////////////////////////////
STDMETHODIMP
CEnumClusCfgIPAddresses::SetWbemObject(
IWbemClassObject * pNetworkAdapterIn
, bool * pfRetainObjectOut
)
{
TraceFunc( "[IClusCfgNetworkAdapterInfo]" );
Assert( pfRetainObjectOut != NULL );
HRESULT hr = E_INVALIDARG;
if ( pNetworkAdapterIn != NULL )
{
hr = STHR( HrGetAdapterConfiguration( pNetworkAdapterIn ) );
*pfRetainObjectOut = true;
} // if:
HRETURN( hr );
} //*** CEnumClusCfgIPAddresses::SetWbemObject
//*************************************************************************//
/////////////////////////////////////////////////////////////////////////////
// CEnumClusCfgIPAddresses class -- Private Methods.
/////////////////////////////////////////////////////////////////////////////
//////////////////////////////////////////////////////////////////////////////
//++
//
// CEnumClusCfgIPAddresses::HrInit
//
// Description:
// Initialize this component.
//
// Arguments:
// None.
//
// Return Value:
//
//
// Remarks:
// None.
//
//--
//////////////////////////////////////////////////////////////////////////////
HRESULT
CEnumClusCfgIPAddresses::HrInit( void )
{
TraceFunc( "" );
HRESULT hr = S_OK;
HRETURN( hr );
} //*** CEnumClusCfgIPAddresses::HrInit
//////////////////////////////////////////////////////////////////////////////
//++
//
// CEnumClusCfgIPAddresses::HrInit
//
// Description:
// Initialize this component.
//
// Arguments:
// None.
//
// Return Value:
//
//
// Remarks:
// None.
//
//--
//////////////////////////////////////////////////////////////////////////////
HRESULT
CEnumClusCfgIPAddresses::HrInit( ULONG ulIPAddressIn, ULONG ulIPSubnetIn )
{
TraceFunc( "" );
HRESULT hr;
IUnknown * punk = NULL;
hr = THR( HrCreateIPAddress( ulIPAddressIn, ulIPSubnetIn, &punk ) );
if ( FAILED( hr ) )
{
goto Cleanup;
} // if:
hr = THR( HrAddIPAddressToArray( punk ) );
Cleanup:
if ( punk != NULL )
{
punk->Release();
} // if:
HRETURN( hr );
} //*** CEnumClusCfgIPAddresses::HrInit
//////////////////////////////////////////////////////////////////////////////
//++
//
// CEnumClusCfgIPAddresses::HrGetAdapterConfiguration
//
// Description:
// Get the configuration of the passed in adapter.
//
// Arguments:
// None.
//
// Return Value:
//
//
// Remarks:
// None.
//
//--
//////////////////////////////////////////////////////////////////////////////
HRESULT
CEnumClusCfgIPAddresses::HrGetAdapterConfiguration(
IWbemClassObject * pNetworkAdapterIn
)
{
TraceFunc( "" );
HRESULT hr = S_OK;
BSTR bstrQuery = NULL;
BSTR bstrWQL = NULL;
VARIANT var;
WCHAR sz[ 256 ];
IEnumWbemClassObject * pConfigurations = NULL;
ULONG ulReturned;
IWbemClassObject * pConfiguration = NULL;
int cFound = 0;
BSTR bstrAdapterName = NULL;
int idx;
VariantInit( &var );
bstrWQL = TraceSysAllocString( L"WQL" );
if ( bstrWQL == NULL )
{
goto OutOfMemory;
} // if:
hr = THR( HrGetWMIProperty( pNetworkAdapterIn, L"DeviceID", VT_BSTR, &var ) );
if ( FAILED( hr ) )
{
goto Cleanup;
} // if:
_snwprintf( sz, ARRAYSIZE( sz ), L"Associators of {Win32_NetworkAdapter.DeviceID='%s'} where AssocClass=Win32_NetworkAdapterSetting", var.bstrVal );
bstrQuery = TraceSysAllocString( sz );
if ( bstrQuery == NULL )
{
goto OutOfMemory;
} // if:
VariantClear( &var );
hr = THR( HrGetWMIProperty( pNetworkAdapterIn, L"NetConnectionID", VT_BSTR, &var ) );
if ( FAILED( hr ) )
{
goto Cleanup;
} // if:
bstrAdapterName = TraceSysAllocString( var.bstrVal );
if ( bstrAdapterName == NULL )
{
goto OutOfMemory;
} // if:
hr = THR( m_pIWbemServices->ExecQuery( bstrWQL, bstrQuery, WBEM_FLAG_FORWARD_ONLY, NULL, &pConfigurations ) );
if ( FAILED( hr ) )
{
STATUS_REPORT_STRING(
TASKID_Major_Find_Devices,
TASKID_Minor_WMI_NetworkAdapterSetting_Qry_Failed,
IDS_ERROR_WMI_NETWORKADAPTERSETTINGS_QRY_FAILED,
bstrAdapterName,
hr
);
goto Cleanup;
} // if:
for ( idx = 0; ; idx++ )
{
hr = pConfigurations->Next( WBEM_INFINITE, 1, &pConfiguration, &ulReturned );
if ( ( hr == S_OK ) && ( ulReturned == 1 ) )
{
//
// KB: 25-AUG-2000 GalenB
//
// WMI only supports one configuration per adapter!
//
Assert( idx < 1 );
VariantClear( &var );
hr = THR( HrGetWMIProperty( pConfiguration, L"IPEnabled", VT_BOOL, &var ) );
if ( FAILED( hr ) )
{
goto Cleanup;
} // if:
//
// If this configuration is not for TCP/IP then skip it.
//
if ( ( var.vt != VT_BOOL ) || ( var.boolVal != VARIANT_TRUE ) )
{
hr = S_FALSE;
STATUS_REPORT_STRING( TASKID_Major_Find_Devices, TASKID_Minor_Non_Tcp_Config, IDS_WARNING__NON_TCP_CONFIG, bstrAdapterName, hr );
continue;
} // if:
hr = STHR( HrSaveIPAddresses( bstrAdapterName, pConfiguration ) );
if ( FAILED( hr ) )
{
goto Cleanup;
} // if:
//
// KB: 24-AUG-2000 GalenB
//
// If any configuration returns S_FALSE then we skip.
//
if ( hr == S_FALSE )
{
pConfiguration->Release();
pConfiguration = NULL;
continue;
} // if:
cFound++;
pConfiguration->Release();
pConfiguration = NULL;
} // if:
else if ( ( hr == S_FALSE ) && ( ulReturned == 0 ) )
{
hr = S_OK;
break;
} // else if:
else
{
STATUS_REPORT_STRING( TASKID_Major_Find_Devices, TASKID_Minor_WQL_Qry_Next_Failed, IDS_ERROR_WQL_QRY_NEXT_FAILED, bstrQuery, hr );
goto Cleanup;
} // else:
} // for:
//
// If we didn't find any valid configurations then we should return S_FALSE
// to tell the caller to ingore that adpater.
//
if ( cFound == 0 )
{
hr = S_FALSE;
STATUS_REPORT_STRING( TASKID_Major_Find_Devices, TASKID_Minor_No_Valid_TCP_Configs, IDS_WARNING_NO_VALID_TCP_CONFIGS, bstrAdapterName, hr );
} // if:
goto Cleanup;
OutOfMemory:
hr = THR( E_OUTOFMEMORY );
STATUS_REPORT( TASKID_Major_Find_Devices, TASKID_Minor_HrGetAdapterConfiguration, IDS_ERROR_OUTOFMEMORY, hr );
Cleanup:
VariantClear( &var );
TraceSysFreeString( bstrQuery );
TraceSysFreeString( bstrWQL );
TraceSysFreeString( bstrAdapterName );
if ( pConfiguration != NULL )
{
pConfiguration->Release();
} // if:
if ( pConfigurations != NULL )
{
pConfigurations->Release();
} // if:
HRETURN( hr );
} //*** CEnumClusCfgIPAddresses::HrGetAdapterConfiguration
/////////////////////////////////////////////////////////////////////////////
//++
//
// CEnumClusCfgIPAddresses:HrAddIPAddressToArray
//
// Description:
// Add the passed in address to the array of address.
//
// Arguments:
//
//
// Return Value:
// S_OK
// Success
//
// E_OUTOFMEMORY
// Couldn't allocate memeory.
//
// Remarks:
// None.
//
//--
//////////////////////////////////////////////////////////////////////////////
HRESULT
CEnumClusCfgIPAddresses::HrAddIPAddressToArray( IUnknown * punkIn )
{
TraceFunc( "" );
HRESULT hr = S_OK;
IUnknown * ((*prgpunks)[]) = NULL;
prgpunks = (IUnknown *((*)[])) TraceReAlloc( m_prgAddresses, sizeof( IUnknown * ) * ( m_idxNext + 1 ), HEAP_ZERO_MEMORY );
if ( prgpunks == NULL )
{
hr = THR( E_OUTOFMEMORY );
STATUS_REPORT( TASKID_Major_Find_Devices, TASKID_Minor_HrAddIPAddressToArray, IDS_ERROR_OUTOFMEMORY, hr );
goto Cleanup;
} // if:
m_prgAddresses = prgpunks;
(*m_prgAddresses)[ m_idxNext++ ] = punkIn;
punkIn->AddRef();
m_cAddresses += 1;
Cleanup:
HRETURN( hr );
} //*** CEnumClusCfgIPAddresses::HrAddIPAddressToArray
//////////////////////////////////////////////////////////////////////////////
//++
//
// CEnumClusCfgIPAddresses::HrMakeDottedQuad
//
// Description:
// Take the passed in IP address and convert it into a dotted quad.
//
// Arguments:
// None.
//
// Return Value:
//
//
// Remarks:
// Internet Addresses
// Values specified using the ".'' notation take one of the following forms:
//
// a.b.c.d a.b.c a.b a
//
// When four parts are specified, each is interpreted as a byte of data and
// assigned, from left to right, to the 4 bytes of an Internet address. When
// an Internet address is viewed as a 32-bit integer quantity on the
// Intel architecture, the bytes referred to above appear as "d.c.b.a''.
// That is, the bytes on an Intel processor are ordered from right to left.
//
// The parts that make up an address in "." notation can be decimal, octal
// or hexadecimal as specified in the C language. Numbers that start
// with "0x" or "0X" imply hexadecimal. Numbers that start with "0" imply
// octal. All other numbers are interpreted as decimal.
//
//--
//////////////////////////////////////////////////////////////////////////////
HRESULT
CEnumClusCfgIPAddresses::HrMakeDottedQuad(
BSTR bstrDottedQuadIn,
ULONG * pulDottedQuadOut
)
{
TraceFunc( "" );
HRESULT hr = S_OK;
DWORD sc;
if ( pulDottedQuadOut == NULL )
{
hr = THR( E_POINTER );
STATUS_REPORT( TASKID_Major_Find_Devices, TASKID_Minor_HrMakeDottedQuad, IDS_ERROR_NULL_POINTER, hr );
goto Cleanup;
} // if:
if ( bstrDottedQuadIn == NULL )
{
hr = THR( E_INVALIDARG );
LOG_STATUS_REPORT( L"CEnumClusCfgIPAddresses::HrMakeDottedQuad() was given an invalid argument.", hr );
goto Cleanup;
} // if:
sc = TW32( ClRtlTcpipStringToAddress( bstrDottedQuadIn, pulDottedQuadOut ) );
if ( sc != ERROR_SUCCESS )
{
hr = HRESULT_FROM_WIN32( sc );
STATUS_REPORT_STRING( TASKID_Major_Find_Devices, TASKID_Minor_Dotted_Quad_Failed, IDS_ERROR_CONVERT_TO_DOTTED_QUAD_FAILED, bstrDottedQuadIn, hr );
goto Cleanup;
} // if:
Cleanup:
RETURN( hr );
} //*** CEnumClusCfgIPAddresses::HrMakeDottedQuad
//////////////////////////////////////////////////////////////////////////////
//++
//
// CEnumClusCfgIPAddresses::HrSaveIPAddresses
//
// Description:
// Add the IP addresses to the array.
//
// Arguments:
//
//
// Return Value:
//
//
// Remarks:
// None.
//
//--
//////////////////////////////////////////////////////////////////////////////
HRESULT
CEnumClusCfgIPAddresses::HrSaveIPAddresses(
BSTR bstrAdapterNameIn,
IWbemClassObject * pConfigurationIn
)
{
TraceFunc( "" );
Assert( bstrAdapterNameIn != NULL );
Assert( pConfigurationIn != NULL );
HRESULT hr;
VARIANT varIPAddress;
VARIANT varIPSubnet;
long lIPAddressesUpperBound;
long lIPAddressesLowerBound;
long lIPSubnetsUpperBound;
long lIPSubnetsLowerBound;
long idx;
ULONG ulIPAddress;
ULONG ulIPSubnet;
BSTR bstrIPAddress = NULL;
BSTR bstrIPSubnet = NULL;
IUnknown * punk = NULL;
IClusCfgIPAddressInfo * piccipai = NULL;
VariantInit( &varIPAddress );
VariantInit( &varIPSubnet );
hr = THR( HrGetWMIProperty( pConfigurationIn, L"IPAddress", ( VT_ARRAY | VT_BSTR ), &varIPAddress ) );
if ( FAILED( hr ) )
{
goto Cleanup;
} // if:
hr = THR( HrGetWMIProperty( pConfigurationIn, L"IPSubnet", ( VT_ARRAY | VT_BSTR ), &varIPSubnet ) );
if ( FAILED( hr ) )
{
goto Cleanup;
} // if:
hr = THR( SafeArrayGetUBound( varIPAddress.parray, 1, &lIPAddressesUpperBound ) );
if ( FAILED( hr ) )
{
goto Cleanup;
} // if:
hr = THR( SafeArrayGetUBound( varIPSubnet.parray, 1, &lIPSubnetsUpperBound ) );
if ( FAILED( hr ) )
{
goto Cleanup;
} // if:
Assert( lIPAddressesUpperBound == lIPSubnetsUpperBound );
if ( lIPAddressesUpperBound != lIPSubnetsUpperBound )
{
hr = S_FALSE;
STATUS_REPORT( TASKID_Major_Find_Devices, TASKID_Minor_IP_Address_Subnet_Count_Unequal, IDS_ERROR_IP_ADDRESS_SUBNET_COUNT_UNEQUAL, hr );
goto Cleanup;
} // if:
hr = THR( SafeArrayGetLBound( varIPAddress.parray, 1, &lIPAddressesLowerBound ) );
if ( FAILED( hr ) )
{
goto Cleanup;
} // if:
hr = THR( SafeArrayGetLBound( varIPSubnet.parray, 1, &lIPSubnetsLowerBound ) );
if ( FAILED( hr ) )
{
goto Cleanup;
} // if:
Assert( lIPAddressesLowerBound == lIPSubnetsLowerBound );
if ( lIPAddressesLowerBound != lIPSubnetsLowerBound )
{
hr = S_FALSE;
STATUS_REPORT( TASKID_Major_Find_Devices, TASKID_Minor_IP_Address_Subnet_Count_Unequal, IDS_ERROR_IP_ADDRESS_SUBNET_COUNT_UNEQUAL, hr );
goto Cleanup;
} // if:
for ( idx = lIPAddressesLowerBound; idx <= lIPAddressesUpperBound; idx++ )
{
hr = THR( SafeArrayGetElement( varIPAddress.parray, &idx, &bstrIPAddress ) );
if ( FAILED( hr ) )
{
goto Cleanup;
} // if:
TraceMemoryAddBSTR( bstrIPAddress );
if ( wcscmp( bstrIPAddress, L"" ) == 0 )
{
STATUS_REPORT_STRING( TASKID_Major_Find_Devices, TASKID_Minor_Warning_No_IP_Addresses, IDS_WARNING_NO_IP_ADDRESSES, bstrAdapterNameIn, hr );
goto Cleanup;
} // end if:
hr = THR( SafeArrayGetElement( varIPSubnet.parray, &idx, &bstrIPSubnet ) );
if ( FAILED( hr ) )
{
goto Cleanup;
} // if:
Assert( bstrIPAddress != NULL );
Assert( wcslen( bstrIPAddress ) > 0 );
TraceMemoryAddBSTR( bstrIPSubnet );
LOG_STATUS_REPORT_STRING2( L"Found IP Address '%1!ws!' with subnet mask '%2!ws!'." , bstrIPAddress, bstrIPSubnet, hr );
hr = THR( HrMakeDottedQuad( bstrIPAddress, &ulIPAddress ) );
if ( FAILED( hr ) )
{
goto Cleanup;
} // if:
hr = THR( HrMakeDottedQuad( bstrIPSubnet, &ulIPSubnet ) );
if ( FAILED( hr ) )
{
goto Cleanup;
} // if:
TraceSysFreeString( bstrIPAddress );
bstrIPAddress = NULL;
TraceSysFreeString( bstrIPSubnet );
bstrIPSubnet = NULL;
hr = THR( HrCreateIPAddress( &punk ) );
if ( FAILED( hr ) )
{
goto Cleanup;
} // if:
hr = THR( punk->TypeSafeQI( IClusCfgIPAddressInfo, &piccipai ) );
if ( FAILED( hr ) )
{
goto Cleanup;
} // if:
hr = THR( piccipai->SetIPAddress( ulIPAddress ) );
if ( FAILED( hr ) )
{
goto Cleanup;
} // if:
hr = THR( piccipai->SetSubnetMask( ulIPSubnet ) );
if ( FAILED( hr ) )
{
goto Cleanup;
} // if:
piccipai->Release();
piccipai = NULL;
hr = THR( HrAddIPAddressToArray( punk ) );
if ( FAILED( hr ) )
{
goto Cleanup;
} // if:
punk->Release();
punk = NULL;
} // for:
Cleanup:
if ( piccipai != NULL )
{
piccipai->Release();
} // if:
if ( punk != NULL )
{
punk->Release();
} // if:
TraceSysFreeString( bstrIPAddress );
TraceSysFreeString( bstrIPSubnet );
VariantClear( &varIPAddress );
VariantClear( &varIPSubnet );
HRETURN( hr );
} //*** CEnumClusCfgIPAddresses::HrSaveIPAddresses
/////////////////////////////////////////////////////////////////////////////
//++
//
// CEnumClusCfgIPAddresses:HrCreateIPAddress
//
// Description:
//
//
// Arguments:
//
//
// Return Value:
// S_OK
// Success
//
// E_OUTOFMEMORY
// Couldn't allocate memeory.
//
// Remarks:
// None.
//
//--
//////////////////////////////////////////////////////////////////////////////
HRESULT
CEnumClusCfgIPAddresses::HrCreateIPAddress( IUnknown ** ppunkOut )
{
TraceFunc( "" );
Assert( ppunkOut != NULL );
HRESULT hr;
IUnknown * punk = NULL;
hr = THR( CClusCfgIPAddressInfo::S_HrCreateInstance( &punk ) );
if ( FAILED( hr ) )
{
goto Cleanup;
} // if:
punk = TraceInterface( L"CClusCfgIPAddressInfo", IUnknown, punk, 1 );
hr = THR( HrSetInitialize( punk, m_picccCallback, m_lcid ) );
if ( FAILED( hr ) )
{
goto Cleanup;
} // if:
hr = THR( HrSetWbemServices( punk, m_pIWbemServices ) );
if ( FAILED( hr ) )
{
goto Cleanup;
} // if:
*ppunkOut = punk;
(*ppunkOut)->AddRef();
Cleanup:
if ( punk != NULL )
{
punk->Release();
} // if:
HRETURN( hr );
} //*** CEnumClusCfgIPAddresses::HrCreateIPAddress
/////////////////////////////////////////////////////////////////////////////
//++
//
// CEnumClusCfgIPAddresses:HrCreateIPAddress
//
// Description:
//
//
// Arguments:
//
//
// Return Value:
// S_OK
// Success
//
// E_OUTOFMEMORY
// Couldn't allocate memeory.
//
// Remarks:
// None.
//
//--
//////////////////////////////////////////////////////////////////////////////
HRESULT
CEnumClusCfgIPAddresses::HrCreateIPAddress(
ULONG ulIPAddressIn
, ULONG ulIPSubnetIn
, IUnknown ** ppunkOut
)
{
TraceFunc( "" );
Assert( ppunkOut != NULL );
HRESULT hr;
IUnknown * punk = NULL;
hr = THR( CClusCfgIPAddressInfo::S_HrCreateInstance( ulIPAddressIn, ulIPSubnetIn, &punk ) );
if ( FAILED( hr ) )
{
goto Cleanup;
} // if:
punk = TraceInterface( L"CClusCfgIPAddressInfo", IUnknown, punk, 1 );
hr = THR( HrSetInitialize( punk, m_picccCallback, m_lcid ) );
if ( FAILED( hr ) )
{
goto Cleanup;
} // if:
hr = THR( HrSetWbemServices( punk, m_pIWbemServices ) );
if ( FAILED( hr ) )
{
goto Cleanup;
} // if:
*ppunkOut = punk;
(*ppunkOut)->AddRef();
Cleanup:
if ( punk != NULL )
{
punk->Release();
} // if:
HRETURN( hr );
} //*** CEnumClusCfgIPAddresses::HrCreateIPAddress