Source code of Windows XP (NT5)
You can not select more than 25 topics Topics must start with a letter or number, can include dashes ('-') and can be up to 35 characters long.
 
 
 
 
 
 

1258 lines
30 KiB

//+---------------------------------------------------------------------------
//
// Microsoft Windows
// Copyright (C) Microsoft Corporation, 1999.
//
// File: I N E T C F G . C P P
//
// Contents: Implements the COM interfaces on the top-level NetCfg object.
// These interfaces are: INetCfg and INetCfgLock. Also
// implements a base C++ class inherited by sub-level NetCfg
// objects which hold a reference to the top-level object.
//
// Notes:
//
// Author: shaunco 15 Jan 1999
//
//----------------------------------------------------------------------------
#include <pch.h>
#pragma hdrstop
#include "classinst.h"
#include "iclass.h"
#include "icomp.h"
#include "ienum.h"
#include "inetcfg.h"
#include "ncperms.h"
#include "ncras.h"
#include "ncreg.h"
#include "ncui.h"
#include "ncvalid.h"
#include "ndispnp.h"
#include "netcfg.h"
#include "obotoken.h"
#include "resource.h"
// static
HRESULT
CImplINetCfg::HrCreateInstance (
CNetConfig* pNetConfig,
CImplINetCfg** ppINetCfg)
{
Assert (pNetConfig);
Assert (ppINetCfg);
HRESULT hr = E_OUTOFMEMORY;
CImplINetCfg* pObj;
pObj = new CComObject <CImplINetCfg>;
if (pObj)
{
// Initialize our members.
//
pObj->m_pNetConfig = pNetConfig;
Assert (!pObj->m_fOwnNetConfig);
// Do the standard CComCreator::CreateInstance stuff.
//
pObj->SetVoid (NULL);
pObj->InternalFinalConstructAddRef ();
hr = pObj->FinalConstruct ();
pObj->InternalFinalConstructRelease ();
if (S_OK == hr)
{
AddRefObj (pObj->GetUnknown());
*ppINetCfg = pObj;
}
if (S_OK != hr)
{
delete pObj;
}
}
TraceHr (ttidError, FAL, hr, FALSE,
"CImplINetCfg::HrCreateInstance");
return hr;
}
HRESULT
CImplINetCfg::HrCoCreateWrapper (
IN REFCLSID rclsid,
IN LPUNKNOWN punkOuter,
IN DWORD dwClsContext,
IN REFIID riid,
OUT LPVOID FAR* ppv)
{
/*
HRESULT hr = S_OK;
if (!m_fComInitialized)
{
m_fComInitialized = TRUE;
hr = CoInitializeEx (
NULL,
COINIT_DISABLE_OLE1DDE | COINIT_APARTMENTTHREADED);
if (SUCCEEDED(hr))
{
m_fUninitCom = TRUE;
hr = S_OK; // mask S_FALSE
}
else if (RPC_E_CHANGED_MODE == hr)
{
hr = S_OK;
Assert (!m_fUninitCom);
}
}
if (S_OK == hr)
{
hr = CoCreateInstance (rclsid, punkOuter, dwClsContext, riid, ppv);
}
*/
HRESULT hr;
hr = CoCreateInstance (rclsid, punkOuter, dwClsContext, riid, ppv);
TraceHr (ttidError, FAL, hr, FALSE,
"CImplINetCfg::HrCoCreateWrapper");
return hr;
}
HRESULT
CImplINetCfg::HrCheckForReentrancy (
IN DWORD dwFlags)
{
Assert (FImplies(dwFlags & IF_ALLOW_INSTALL_OR_REMOVE,
dwFlags & IF_REFUSE_REENTRANCY));
if (dwFlags & IF_ALLOW_INSTALL_OR_REMOVE)
{
if (m_LastAllowedSetupRpl != m_CurrentRpl)
{
return E_FAIL;
}
}
else if (0 != m_CurrentRpl)
{
return E_FAIL;
}
return S_OK;
}
HRESULT
CImplINetCfg::HrIsValidInterface (
IN DWORD dwFlags)
{
HRESULT hr;
// Check if we need to refuse re-entrancy.
//
if (dwFlags & IF_REFUSE_REENTRANCY)
{
hr = HrCheckForReentrancy (dwFlags);
if (S_OK != hr)
{
return hr;
}
}
// Check if initialized/uninitalized as required.
//
if ((dwFlags & IF_NEED_UNINITIALIZED) && m_pNetConfig)
{
return NETCFG_E_ALREADY_INITIALIZED;
}
else if (!(dwFlags & IF_NEED_UNINITIALIZED) && !m_pNetConfig)
{
return NETCFG_E_NOT_INITIALIZED;
}
// Check for the write lock.
//
if (dwFlags & IF_NEED_WRITE_LOCK)
{
if (!m_WriteLock.FIsOwnedByMe ())
{
return NETCFG_E_NO_WRITE_LOCK;
}
// Needing the write lock means we need the modify context to
// be prepared (unless the caller specified
// IF_DONT_PREPARE_MODIFY_CONTEXT).
//
if (!m_pNetConfig->ModifyCtx.m_fPrepared &&
!(dwFlags & IF_DONT_PREPARE_MODIFY_CONTEXT))
{
hr = m_pNetConfig->ModifyCtx.HrPrepare ();
if (S_OK != hr)
{
return hr;
}
}
}
if (!(dwFlags & IF_UNINITIALIZING))
{
// Check for an error that occured during the current modification
// that has not been rolled back yet. i.e. keep people out until
// we unwind enough to cleanup our modify context.
//
if (m_pNetConfig && (S_OK != m_pNetConfig->ModifyCtx.m_hr))
{
return m_pNetConfig->ModifyCtx.m_hr;
}
}
Assert (FImplies(!m_pNetConfig, (dwFlags & IF_NEED_UNINITIALIZED)));
return S_OK;
}
VOID
CImplINetCfg::LowerRpl (
IN RPL_FLAGS Flags)
{
if (RPL_ALLOW_INSTALL_REMOVE == Flags)
{
Assert (m_LastAllowedSetupRpl > 0);
m_LastAllowedSetupRpl--;
}
Assert (m_CurrentRpl > 0);
m_CurrentRpl--;
}
VOID
CImplINetCfg::RaiseRpl (
IN RPL_FLAGS Flags)
{
m_CurrentRpl++;
if (RPL_ALLOW_INSTALL_REMOVE == Flags)
{
m_LastAllowedSetupRpl++;
}
}
HRESULT
CImplINetCfg::HrLockAndTestForValidInterface (
DWORD dwFlags)
{
HRESULT hr;
Lock();
hr = HrIsValidInterface (dwFlags);
if (S_OK != hr)
{
Unlock();
}
return hr;
}
//+---------------------------------------------------------------------------
// INetCfg -
//
STDMETHODIMP
CImplINetCfg::Initialize (
IN PVOID pvReserved)
{
HRESULT hr;
ULONG* pReserved = (ULONG*)pvReserved;
// Validate parameters.
//
if (FBadInPtrOptional(pReserved))
{
hr = E_POINTER;
}
else
{
hr = HrLockAndTestForValidInterface (
IF_NEED_UNINITIALIZED | IF_REFUSE_REENTRANCY);
if (S_OK == hr)
{
Assert (!m_pNetConfig);
hr = CNetConfig::HrCreateInstance (
this,
&m_pNetConfig);
if (S_OK == hr)
{
Assert (m_pNetConfig);
m_fOwnNetConfig = TRUE;
}
Unlock();
}
}
TraceHr (ttidError, FAL, hr, FALSE, "CImplINetCfg::Initialize");
return hr;
}
STDMETHODIMP
CImplINetCfg::Uninitialize ()
{
HRESULT hr;
hr = HrLockAndTestForValidInterface (
IF_REFUSE_REENTRANCY | IF_UNINITIALIZING);
if (S_OK == hr)
{
Assert (m_pNetConfig);
Assert (m_fOwnNetConfig);
delete m_pNetConfig;
// CGlobalNotifyInterface::ReleaseINetCfg (called via the above
// delete call) will set m_pNetConfig to NULL for us.
// Verify it is so.
//
Assert (!m_pNetConfig);
// Release our cache of INetCfgClass pointers.
//
ReleaseIUnknownArray (celems(m_apINetCfgClass), (IUnknown**)m_apINetCfgClass);
ZeroMemory (m_apINetCfgClass, sizeof(m_apINetCfgClass));
Unlock();
}
TraceHr (ttidError, FAL, hr, NETCFG_E_NOT_INITIALIZED == hr,
"CImplINetCfg::Uninitialize");
return hr;
}
STDMETHODIMP
CImplINetCfg::Validate ()
{
HRESULT hr;
hr = HrLockAndTestForValidInterface (IF_REFUSE_REENTRANCY);
if (S_OK == hr)
{
Unlock();
}
TraceHr (ttidError, FAL, hr, FALSE, "CImplINetCfg::Validate");
return hr;
}
STDMETHODIMP
CImplINetCfg::Cancel ()
{
HRESULT hr;
hr = HrLockAndTestForValidInterface (IF_REFUSE_REENTRANCY);
if (S_OK == hr)
{
// Only cancel the changes if we have a prepared modify context.
//
if (m_pNetConfig->ModifyCtx.m_fPrepared)
{
hr = m_pNetConfig->ModifyCtx.HrApplyIfOkOrCancel (FALSE);
}
Unlock();
}
TraceHr (ttidError, FAL, hr, FALSE, "CImplINetCfg::Cancel");
return hr;
}
STDMETHODIMP
CImplINetCfg::Apply ()
{
HRESULT hr;
// We need the write lock to Apply, but we don't want to prepare the
// modify context if it has not been prepared. (This case amounts to
// applying no changes.) Hence we use the IF_DONT_PREPARE_MODIFY_CONTEXT
// flag.
//
hr = HrLockAndTestForValidInterface (
IF_NEED_WRITE_LOCK | IF_REFUSE_REENTRANCY |
IF_DONT_PREPARE_MODIFY_CONTEXT);
if (S_OK == hr)
{
// Only apply the changes if we have a prepared modify context.
//
if (m_pNetConfig->ModifyCtx.m_fPrepared)
{
hr = m_pNetConfig->ModifyCtx.HrApplyIfOkOrCancel (TRUE);
}
// If there is nothing to apply, but we've previously applied
// something that indicated a reboot was recommened or required,
// return an indication.
//
else if (m_pNetConfig->ModifyCtx.m_fRebootRecommended ||
m_pNetConfig->ModifyCtx.m_fRebootRequired)
{
hr = NETCFG_S_REBOOT;
}
Unlock();
}
TraceHr (ttidError, FAL, hr, NETCFG_S_REBOOT == hr,
"CImplINetCfg::Apply");
return hr;
}
STDMETHODIMP
CImplINetCfg::EnumComponents (
IN const GUID* pguidClass OPTIONAL,
OUT IEnumNetCfgComponent** ppIEnum)
{
HRESULT hr;
NETCLASS Class;
// Validate parameters.
//
if (FBadInPtrOptional(pguidClass) || FBadOutPtr(ppIEnum))
{
hr = E_POINTER;
}
else if (pguidClass &&
(NC_INVALID == (Class = NetClassEnumFromGuid(*pguidClass))))
{
hr = E_INVALIDARG;
*ppIEnum = NULL;
}
else
{
*ppIEnum = NULL;
hr = HrLockAndTestForValidInterface (IF_DEFAULT);
if (S_OK == hr)
{
hr = CImplIEnumNetCfgComponent::HrCreateInstance (
this,
(pguidClass) ? Class : NC_INVALID,
ppIEnum);
Unlock();
}
}
TraceHr (ttidError, FAL, hr, FALSE, "CImplINetCfg::EnumComponents");
return hr;
}
STDMETHODIMP
CImplINetCfg::FindComponent (
IN PCWSTR pszInfId,
OUT INetCfgComponent** ppIComp OPTIONAL)
{
HRESULT hr;
// Validate parameters.
//
if (FBadInPtr(pszInfId) || FBadOutPtrOptional(ppIComp))
{
hr = E_POINTER;
}
else
{
if (ppIComp)
{
*ppIComp = NULL;
}
hr = HrLockAndTestForValidInterface (IF_DEFAULT);
if (S_OK == hr)
{
CComponent* pComponent;
pComponent = m_pNetConfig->Core.Components.
PFindComponentByInfId (pszInfId, NULL);
// Don't return interfaces to components that have had
// problem loading.
//
if (pComponent &&
pComponent->Ext.FLoadedOkayIfLoadedAtAll())
{
hr = S_OK;
if (ppIComp)
{
hr = pComponent->HrGetINetCfgComponentInterface (
this, ppIComp);
}
}
else
{
hr = S_FALSE;
}
Unlock();
}
}
TraceHr (ttidError, FAL, hr, (S_FALSE == hr),
"CImplINetCfg::FindComponent");
return hr;
}
STDMETHODIMP
CImplINetCfg::QueryNetCfgClass (
IN const GUID* pguidClass,
IN REFIID riid,
OUT VOID** ppv)
{
HRESULT hr;
NETCLASS Class;
// Validate parameters.
//
if (FBadInPtr(pguidClass) || FBadInPtr(&riid) || FBadOutPtr(ppv))
{
hr = E_POINTER;
}
else if (NC_INVALID == (Class = NetClassEnumFromGuid(*pguidClass)))
{
hr = E_INVALIDARG;
*ppv = NULL;
}
else
{
*ppv = NULL;
hr = HrLockAndTestForValidInterface (IF_DEFAULT);
if (S_OK == hr)
{
// Get the INetCfgClass interface from our cache.
//
Assert(Class < celems(m_apINetCfgClass));
INetCfgClass* pIClass = m_apINetCfgClass[Class];
// If we don't have it yet, create it.
//
if (!pIClass)
{
hr = CImplINetCfgClass::HrCreateInstance (
this,
Class,
&pIClass);
if (S_OK == hr)
{
pIClass = m_apINetCfgClass[Class] = pIClass;
Assert(pIClass);
}
}
// Give the caller the requested interface.
//
if (S_OK == hr)
{
hr = pIClass->QueryInterface (riid, ppv);
}
Unlock();
}
}
TraceHr (ttidError, FAL, hr, FALSE, "CImplINetCfg::QueryNetCfgClass");
return hr;
}
//+---------------------------------------------------------------------------
// INetCfgLock -
//
STDMETHODIMP
CImplINetCfg::AcquireWriteLock (
IN DWORD cmsTimeout,
IN PCWSTR pszClientDescription,
OUT PWSTR* ppszClientDescription OPTIONAL)
{
HRESULT hr;
// Validate parameters.
//
if (FBadInPtr (pszClientDescription) ||
FBadOutPtrOptional (ppszClientDescription))
{
hr = E_POINTER;
}
else
{
TraceTag (ttidNetcfgBase, "%S is asking for the write lock",
pszClientDescription);
// Initialize the optional output parameter.
//
if (ppszClientDescription)
{
*ppszClientDescription = NULL;
}
// Only administrators and netconfig operators can make changes requiring the write lock.
//
if (!FIsUserAdmin() && !FIsUserNetworkConfigOps())
{
hr = E_ACCESSDENIED;
}
else
{
hr = HrLockAndTestForValidInterface (
IF_NEED_UNINITIALIZED | IF_REFUSE_REENTRANCY);
if (S_OK == hr)
{
// Wait for the mutex to become available.
//
if (m_WriteLock.WaitToAcquire (cmsTimeout,
pszClientDescription, ppszClientDescription))
{
hr = S_OK;
}
else
{
hr = S_FALSE;
}
Unlock();
}
}
}
TraceHr (ttidError, FAL, hr, S_FALSE == hr,
"CImplINetCfg::AcquireWriteLock");
return hr;
}
STDMETHODIMP
CImplINetCfg::ReleaseWriteLock ()
{
HRESULT hr;
// This method that can be called whether we are initialized or
// not. That is why we don't call HrLockAndTestForValidInterface.
//
Lock ();
// Check if we need to refuse re-entrancy.
//
hr = HrCheckForReentrancy (IF_DEFAULT);
if (S_OK == hr)
{
m_WriteLock.ReleaseIfOwned ();
}
Unlock();
TraceHr (ttidError, FAL, hr, FALSE,
"CImplINetCfg::ReleaseWriteLock");
return hr;
}
STDMETHODIMP
CImplINetCfg::IsWriteLocked (
OUT PWSTR* ppszClientDescription)
{
HRESULT hr;
// Validate parameters.
//
if (FBadOutPtrOptional (ppszClientDescription))
{
hr = E_POINTER;
}
else
{
if (ppszClientDescription)
{
*ppszClientDescription = NULL;
}
// This method that can be called whether we are initialized or
// not. That is why we don't call HrLockAndTestForValidInterface.
//
Lock ();
// Check if we need to refuse re-entrancy.
//
hr = HrCheckForReentrancy (IF_DEFAULT);
if (S_OK == hr)
{
hr = (m_WriteLock.FIsLockedByAnyone (ppszClientDescription))
? S_OK : S_FALSE;
}
Unlock ();
}
TraceHr (ttidError, FAL, hr, S_FALSE == hr,
"CImplINetCfg::IsWriteLocked");
return hr;
}
//+---------------------------------------------------------------------------
// INetCfgInternalSetup -
//
STDMETHODIMP
CImplINetCfg::BeginBatchOperation ()
{
HRESULT hr;
hr = HrLockAndTestForValidInterface (IF_NEED_WRITE_LOCK);
if (S_OK == hr)
{
hr = m_pNetConfig->ModifyCtx.HrBeginBatchOperation ();
Unlock();
}
TraceHr (ttidError, FAL, hr, FALSE, "BeginBatchOperation");
return hr;
}
STDMETHODIMP
CImplINetCfg::CommitBatchOperation ()
{
HRESULT hr;
hr = HrLockAndTestForValidInterface (IF_NEED_WRITE_LOCK);
if (S_OK == hr)
{
hr = m_pNetConfig->ModifyCtx.HrEndBatchOperation (EBO_COMMIT_NOW);
Unlock();
}
TraceHr (ttidError, FAL, hr, FALSE, "CommitBatchOperation");
return hr;
}
STDMETHODIMP
CImplINetCfg::SelectWithFilterAndInstall (
IN HWND hwndParent,
IN const GUID* pClassGuid,
IN OBO_TOKEN* pOboToken OPTIONAL,
IN const CI_FILTER_INFO* pcfi OPTIONAL,
OUT INetCfgComponent** ppIComp OPTIONAL)
{
Assert (pClassGuid);
HRESULT hr;
NETCLASS Class;
if (FBadInPtr(pClassGuid))
{
hr = E_POINTER;
}
else if (FIsEnumerated ((Class = NetClassEnumFromGuid(*pClassGuid))))
{
// This fcn is only for selecting non-enumerated components.
//
return E_INVALIDARG;
}
else if (!FOboTokenValidForClass(pOboToken, Class) ||
FBadOutPtrOptional(ppIComp))
{
hr = E_POINTER;
}
else if (hwndParent && !IsWindow(hwndParent))
{
hr = E_INVALIDARG;
}
else if (S_OK == (hr = HrProbeOboToken(pOboToken)))
{
if (ppIComp)
{
*ppIComp = NULL;
}
hr = HrLockAndTestForValidInterface (
IF_NEED_WRITE_LOCK | IF_ALLOW_INSTALL_OR_REMOVE);
if (S_OK == hr)
{
Assert (m_pNetConfig->ModifyCtx.m_fPrepared);
// if a filter info was specified, and it is for FC_LAN or FC_ATM,
// we need to set up the reserved member of the filter info for
// the class installer.
//
if (pcfi &&
((FC_LAN == pcfi->eFilter) || (FC_ATM == pcfi->eFilter)))
{
// If the pIComp member was NULL, then return invalid
// argument.
//
Assert (pcfi->pIComp);
CImplINetCfgComponent* pICompImpl;
pICompImpl = (CImplINetCfgComponent*)pcfi->pIComp;
hr = pICompImpl->HrIsValidInterface (IF_NEED_COMPONENT_DATA);
if (S_OK == hr)
{
// The class installer only needs the component's
// range of upper interfaces so we need to store that in the
// reserved field of the filter info
Assert (pICompImpl->m_pComponent);
((CI_FILTER_INFO*)pcfi)->pvReserved = (void*)
pICompImpl->m_pComponent->Ext.PszUpperRange();
}
}
COMPONENT_INSTALL_PARAMS* pParams;
hr = HrCiSelectComponent (Class, hwndParent, pcfi, &pParams);
if (pcfi)
{
// Don't want to return the private data to the client.
//
((CI_FILTER_INFO*)pcfi)->pvReserved = NULL;
}
// Check for installing a NET_SERVICE and active RAS connections
// exist. If so, warn the user that this may disconnect those
// connections. (This assumes that all filter components are
// of class NET_SERVICE.)
//
if (S_OK == hr)
{
Assert (pParams);
if ((NC_NETSERVICE == pParams->Class) &&
FExistActiveRasConnections ())
{
INT nRet;
nRet = NcMsgBox (
_Module.GetResourceInstance(),
hwndParent,
IDS_WARNING_CAPTION,
IDS_ACTIVE_RAS_CONNECTION_WARNING,
MB_ICONQUESTION | MB_YESNO);
if (IDYES != nRet)
{
hr = HRESULT_FROM_WIN32(ERROR_CANCELLED);
}
}
}
if (S_OK == hr)
{
Assert(pParams);
CComponent* pComponent;
// Check to see if the user selected a component that
// is already installed. If so, we need to reinstall.
//
pComponent = m_pNetConfig->Core.Components.
PFindComponentByInfId(pParams->pszInfId, NULL);
if (!pComponent)
{
pParams->pOboToken = pOboToken;
hr = m_pNetConfig->ModifyCtx.
HrInstallNewOrReferenceExistingComponent (
*pParams, &pComponent);
}
else
{
// reinstall. call Update.
hr = UpdateNonEnumeratedComponent (
pComponent->GetINetCfgComponentInterface(),
NSF_COMPONENT_UPDATE, 0);
}
// The above may return NETCFG_S_REBOOT so use SUCCEEDED instead
// of checking for S_OK only.
//
if (SUCCEEDED(hr) && ppIComp)
{
pComponent->HrGetINetCfgComponentInterface (
this,
ppIComp);
}
delete pParams;
}
Unlock();
}
}
TraceHr (ttidError, FAL, hr,
(HRESULT_FROM_WIN32(ERROR_CANCELLED) == hr) ||
(NETCFG_S_REBOOT == hr),
"SelectWithFilterAndInstall");
return hr;
}
STDMETHODIMP
CImplINetCfg::EnumeratedComponentInstalled (
IN PVOID pv /* type of CComponent */)
{
HRESULT hr;
CComponent* pComponent;
pComponent = (CComponent*)pv;
Assert (pComponent);
Assert (FIsEnumerated(pComponent->Class()));
Assert (pComponent->m_pszInfId && *pComponent->m_pszInfId);
Assert (pComponent->m_pszPnpId && *pComponent->m_pszPnpId);
hr = HrLockAndTestForValidInterface (IF_NEED_WRITE_LOCK |
IF_ALLOW_INSTALL_OR_REMOVE);
if (S_OK == hr)
{
COMPONENT_INSTALL_PARAMS Params;
CComponent* pReturned;
Assert (m_pNetConfig->ModifyCtx.m_fPrepared);
ZeroMemory(&Params, sizeof(Params));
Params.pComponent = (CComponent*)pComponent;
hr = m_pNetConfig->ModifyCtx.HrInstallNewOrReferenceExistingComponent (
Params,
&pReturned);
if (S_OK == hr)
{
Assert (pComponent == pReturned);
}
Unlock();
}
TraceHr (ttidError, FAL, hr, FALSE, "EnumeratedComponentInstalled");
return hr;
}
STDMETHODIMP
CImplINetCfg::EnumeratedComponentUpdated (
IN PCWSTR pszPnpId)
{
HRESULT hr;
Assert (pszPnpId && *pszPnpId);
hr = HrLockAndTestForValidInterface (IF_NEED_WRITE_LOCK);
if (S_OK == hr)
{
CComponent* pComponent;
Assert (m_pNetConfig->ModifyCtx.m_fPrepared);
pComponent = m_pNetConfig->Core.Components.
PFindComponentByPnpId (pszPnpId);
if (pComponent)
{
// Note: Core info may have changed so load core info from driver key.
// If not a remote boot adapter, do a binding analysis to see if
// anything has changed.
hr = S_OK;
}
Unlock();
}
TraceHr (ttidError, FAL, hr, FALSE, "EnumeratedComponentUpdated");
return hr;
}
STDMETHODIMP
CImplINetCfg::UpdateNonEnumeratedComponent (
IN INetCfgComponent* pIComp,
IN DWORD dwSetupFlags,
IN DWORD dwUpgradeFromBuildNo)
{
HRESULT hr;
Assert (pIComp);
hr = HrLockAndTestForValidInterface (IF_NEED_WRITE_LOCK |
IF_ALLOW_INSTALL_OR_REMOVE);
if (S_OK == hr)
{
CImplINetCfgComponent* pICompToUpdate;
Assert (m_pNetConfig->ModifyCtx.m_fPrepared);
pICompToUpdate = (CImplINetCfgComponent*)pIComp;
if (pICompToUpdate == NULL)
{
return E_OUTOFMEMORY;
}
hr = pICompToUpdate->HrIsValidInterface (IF_NEED_COMPONENT_DATA);
if (S_OK == hr)
{
HKEY hkeyInstance;
CComponent* pComponent = pICompToUpdate->m_pComponent;
hr = pComponent->HrOpenInstanceKey (KEY_READ_WRITE_DELETE, &hkeyInstance,
NULL, NULL);
if (S_OK == hr)
{
DWORD dwNewCharacter;
COMPONENT_INSTALL_PARAMS Params;
ZeroMemory (&Params, sizeof (Params));
Params.Class = pComponent->Class();
Params.pszInfId = pComponent->m_pszInfId;
hr = HrCiInstallComponent (Params, NULL, &dwNewCharacter);
// The driver could not be selected because
// this component's section or inf is missing.
// We will remove the component in this case.
//
if (SPAPI_E_NO_DRIVER_SELECTED == hr)
{
pComponent->Refs.RemoveAllReferences();
hr = m_pNetConfig->ModifyCtx.
HrRemoveComponentIfNotReferenced (pComponent,
NULL, NULL);
}
else if (S_OK == hr)
{
pComponent->m_dwCharacter = dwNewCharacter;
AddOrRemoveDontExposeLowerCharacteristicIfNeeded (
pComponent);
hr = m_pNetConfig->ModifyCtx.HrUpdateComponent (
pComponent,
dwSetupFlags,
dwUpgradeFromBuildNo);
}
RegCloseKey (hkeyInstance);
}
}
Unlock();
}
TraceHr (ttidError, FAL, hr, FALSE, "UpdateNonEnumeratedComponent");
return S_OK;
}
STDMETHODIMP
CImplINetCfg::EnumeratedComponentRemoved (
IN PCWSTR pszPnpId)
{
HRESULT hr;
Assert (pszPnpId);
hr = HrLockAndTestForValidInterface (IF_NEED_WRITE_LOCK |
IF_ALLOW_INSTALL_OR_REMOVE);
if (S_OK == hr)
{
CComponent* pComponent;
Assert (m_pNetConfig->ModifyCtx.m_fPrepared);
pComponent = m_pNetConfig->Core.Components.
PFindComponentByPnpId (pszPnpId);
// If we found it, remove it. Otherwise our work here is done.
//
if (pComponent)
{
hr = m_pNetConfig->ModifyCtx.
HrRemoveComponentIfNotReferenced (pComponent, NULL, NULL);
}
Unlock();
}
TraceHr (ttidError, FAL, hr, FALSE, "EnumeratedComponentRemoved");
return hr;
}
//+---------------------------------------------------------------------------
// INetCfgSpecialCase -
//
STDMETHODIMP
CImplINetCfg::GetAdapterOrder (
OUT DWORD* pcAdapters,
OUT INetCfgComponent*** papAdapters,
OUT BOOL* pfWanAdaptersFirst)
{
return E_NOTIMPL;
}
STDMETHODIMP
CImplINetCfg::SetAdapterOrder (
IN DWORD cAdapters,
IN INetCfgComponent** apAdapters,
IN BOOL fWanAdaptersFirst)
{
return E_NOTIMPL;
}
STDMETHODIMP
CImplINetCfg::GetWanAdaptersFirst (
OUT BOOL* pfWanAdaptersFirst)
{
HRESULT hr;
// Validate parameters.
//
if (FBadOutPtr (pfWanAdaptersFirst))
{
hr = E_POINTER;
}
else
{
hr = HrLockAndTestForValidInterface (IF_DEFAULT);
if (S_OK == hr)
{
*pfWanAdaptersFirst = m_pNetConfig->Core.
StackTable.m_fWanAdaptersFirst;
Unlock();
}
}
TraceHr (ttidError, FAL, hr, FALSE,
"CImplINetCfg::GetWanAdaptersFirst");
return hr;
}
STDMETHODIMP
CImplINetCfg::SetWanAdaptersFirst (
IN BOOL fWanAdaptersFirst)
{
HRESULT hr;
hr = HrLockAndTestForValidInterface (IF_NEED_WRITE_LOCK);
if (S_OK == hr)
{
Assert (m_pNetConfig->ModifyCtx.m_fPrepared);
m_pNetConfig->Core.StackTable.SetWanAdapterOrder (!!fWanAdaptersFirst);
Unlock();
}
TraceHr (ttidError, FAL, hr, FALSE,
"CImplINetCfg::SetWanAdaptersFirst");
return hr;
}
//+---------------------------------------------------------------------------
// INetCfgPnpReconfigCallback -
//
STDMETHODIMP
CImplINetCfg::SendPnpReconfig (
IN NCPNP_RECONFIG_LAYER Layer,
IN PCWSTR pszUpper,
IN PCWSTR pszLower,
IN PVOID pvData,
IN DWORD dwSizeOfData)
{
HRESULT hr;
if ((NCRL_NDIS != Layer) && (NCRL_TDI != Layer))
{
hr = E_INVALIDARG;
}
else if (FBadInPtr(pszUpper) || FBadInPtr(pszLower) ||
IsBadReadPtr(pvData, dwSizeOfData))
{
hr = E_POINTER;
}
else
{
BOOL fOk;
UNICODE_STRING LowerString;
UNICODE_STRING UpperString;
UNICODE_STRING BindList;
WCHAR szLower [_MAX_PATH];
hr = S_OK;
*szLower = 0;
if (*pszLower)
{
wcscpy (szLower, L"\\Device\\");
wcsncat (szLower, pszLower, celems(szLower) - wcslen(szLower));
}
RtlInitUnicodeString (&LowerString, szLower);
RtlInitUnicodeString (&UpperString, pszUpper);
RtlInitUnicodeString (&BindList, NULL);
fOk = NdisHandlePnPEvent (
(NCRL_NDIS == Layer) ? NDIS : TDI,
RECONFIGURE,
&LowerString,
&UpperString,
&BindList,
pvData,
dwSizeOfData);
if (!fOk)
{
hr = HrFromLastWin32Error ();
}
}
TraceHr (ttidError, FAL, hr, FALSE, "CImplINetCfg::SendPnpReconfig");
return hr;
}
//+---------------------------------------------------------------------------
// CImplINetCfgHolder -
//
VOID
CImplINetCfgHolder::HoldINetCfg (
CImplINetCfg* pINetCfg)
{
Assert(pINetCfg);
AddRefObj (pINetCfg->GetUnknown());
m_pINetCfg = pINetCfg;
}
HRESULT
CImplINetCfgHolder::HrLockAndTestForValidInterface (
DWORD dwFlags)
{
HRESULT hr;
Lock();
hr = m_pINetCfg->HrIsValidInterface (dwFlags);
if (S_OK != hr)
{
Unlock();
}
TraceHr (ttidError, FAL, hr, FALSE,
"CImplINetCfgHolder::HrLockAndTestForValidInterface");
return hr;
}