Leaked source code of windows server 2003
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//+---------------------------------------------------------------------------
//
// Microsoft Windows
// Copyright (C) Microsoft Corporation, 1999.
//
// File: E C O M P . H
//
// Contents: Implements the interface to a component's external data.
// External data is that data controlled (or placed) by
// PnP or the network class installer. Everything under a
// component's instance key is considered external data.
// (Internal data is that data we store in the persisted binary
// for the network configuration. See persist.cpp for
// code that deals with internal data.)
//
// Notes:
//
// Author: shaunco 15 Jan 1999
//
//----------------------------------------------------------------------------
#pragma once
#include "ncmisc.h"
#define ECD_OFFSET(_p) (UINT)FIELD_OFFSET(CExternalComponentData, _p)
class CExternalComponentData : CNetCfgDebug<CExternalComponentData>
{
friend class CImplINetCfgComponent;
private:
// The data buffer into which subsequent member pointers will point.
// Always freed.
//
PVOID m_pvBuffer;
// For enumerated components, this is the 'DriverDesc' value from PnP.
// For non-enumerated components, this is read from the instance key.
// In both cases, this is the localizable string value that comes from
// the component's INF. It is displayed as the component's
// display name in any UI. Note that this is the only member which
// can be changed. Therefore, it does not point into the same buffer
// which all the others point. Freed if it does not point into
// m_pvBuffer.
//
PCWSTR m_pszDescription;
// The CLSID of the component's notify object. Will be NULL in
// the case the component does not have a notify object. Never freed.
//
const GUID* m_pNotifyObjectClsid;
// The component's primary service. Will be NULL if the component does
// not have a service. Never freed.
//
PCWSTR m_pszService;
// The component's list of co-services as a multi-sz. Will be NULL
// if the component does not have any co-services. Never freed.
//
PCWSTR m_pmszCoServices;
// The component's bind form. Will be NULL if the component takes the
// default bindform. Never freed.
//
PCWSTR m_pszBindForm;
// The component's help text. Will be NULL if the component does not
// have any help text. (Not recommened for visible component's)
// Never freed.
//
PCWSTR m_pszHelpText;
// Comma-separated list of sub-strings that are the
// lower-edge binding interfaces. Never freed.
//
PCWSTR m_pszLowerRange;
// Comma-separated list of sub-strings that are the
// upper-edge binding interfaces.
//
PCWSTR m_pszUpperRange;
// Comma-separated list of sub-strings that are the excluded
// binding interfaces.
//
PCWSTR m_pszLowerExclude;
// Comma-separated list of sub-strings that are the media types supported
// by this filter component. (Only valid for filters.)
//
PCWSTR m_pszFilterMediaTypes;
// This pointer is just so that we have an upper bound on the pointers
// that point into m_pvBuffer. We use this knowledge to know
// whether or not to free m_pszDescription as it may not be
// pointing somewhere in this buffer for the case when it has been
// changed and hence uses its own allocation.
//
PVOID m_pvBufferLast;
// The bindname for the component. This is built from BindForm,
// Class, Character, ServiceName, InfId, and InstanceGuid.
// It is a seaparate allocation made with LocalAlloc (because
// FormatMessage is used to build it.) Freed with LocalFree.
//
PCWSTR m_pszBindName;
// The result of HrEnsureExternalDataLoaded. It is saved, so that on
// subsequent calls, we return the same result we did the first time.
//
HRESULT m_hrLoadResult;
// FALSE until HrEnsureExternalDataLoaded is called. TRUE thereafter
// which prevents HrEnsureExternalDataLoaded from hitting the registry
// again. Indicates all of the other members are cached and valid.
//
BOOLEAN m_fInitialized;
private:
HRESULT
HrLoadData (
IN HKEY hkeyInstance,
OUT BYTE* pbBuf OPTIONAL,
IN OUT ULONG* pcbBuf);
VOID
FreeDescription ();
VOID
FreeExternalData ();
public:
~CExternalComponentData ()
{
FreeExternalData ();
}
HRESULT
HrEnsureExternalDataLoaded ();
HRESULT
HrReloadExternalData ();
HRESULT
HrSetDescription (
PCWSTR pszNewDescription);
BOOL
FHasNotifyObject () const
{
AssertH (m_fInitialized && (S_OK == m_hrLoadResult));
return (NULL != m_pNotifyObjectClsid);
}
BOOL
FLoadedOkayIfLoadedAtAll () const;
const CLSID*
PNotifyObjectClsid () const
{
AssertH (m_fInitialized && (S_OK == m_hrLoadResult));
AssertH (m_pNotifyObjectClsid);
return m_pNotifyObjectClsid;
}
PCWSTR
PszAtOffset (
IN UINT unOffset) const
{
AssertH (
(ECD_OFFSET(m_pszDescription) == unOffset) ||
(ECD_OFFSET(m_pszService) == unOffset) ||
(ECD_OFFSET(m_pszBindForm) == unOffset) ||
(ECD_OFFSET(m_pszHelpText) == unOffset) ||
(ECD_OFFSET(m_pszLowerRange) == unOffset) ||
(ECD_OFFSET(m_pszUpperRange) == unOffset) ||
(ECD_OFFSET(m_pszBindName) == unOffset));
PCWSTR psz;
psz = *(PCWSTR*)((BYTE*)this + unOffset);
AssertH (
(m_pszDescription == psz) ||
(m_pszService == psz) ||
(m_pszBindForm == psz) ||
(m_pszHelpText == psz) ||
(m_pszLowerRange == psz) ||
(m_pszLowerRange == psz) ||
(m_pszBindName == psz));
return psz;
}
PCWSTR
PszBindForm () const
{
AssertH (m_fInitialized && (S_OK == m_hrLoadResult));
return m_pszBindForm;
}
PCWSTR
PszBindName () const
{
AssertH (m_fInitialized && (S_OK == m_hrLoadResult));
AssertH (m_pszBindName && *m_pszBindName);
return m_pszBindName;
}
PCWSTR
PszDescription () const
{
AssertH (m_fInitialized && (S_OK == m_hrLoadResult));
return m_pszDescription;
}
PCWSTR
PszHelpText () const
{
AssertH (m_fInitialized && (S_OK == m_hrLoadResult));
return m_pszHelpText;
}
PCWSTR
PszService () const
{
AssertH (m_fInitialized && (S_OK == m_hrLoadResult));
return m_pszService;
}
PCWSTR
PszCoServices () const
{
AssertH (m_fInitialized && (S_OK == m_hrLoadResult));
return m_pmszCoServices;
}
PCWSTR
PszFilterMediaTypes () const
{
AssertH (m_fInitialized && (S_OK == m_hrLoadResult));
return m_pszFilterMediaTypes;
}
PCWSTR
PszLowerRange () const
{
AssertH (m_fInitialized && (S_OK == m_hrLoadResult));
return (m_pszLowerRange) ? m_pszLowerRange : L"";
}
PCWSTR
PszLowerExclude () const
{
AssertH (m_fInitialized && (S_OK == m_hrLoadResult));
return m_pszLowerExclude;
}
PCWSTR
PszUpperRange () const
{
AssertH (m_fInitialized && (S_OK == m_hrLoadResult));
return (m_pszUpperRange) ? m_pszUpperRange : L"";
}
#if DBG
BOOL DbgIsExternalDataLoaded () const
{
return m_fInitialized && (S_OK == m_hrLoadResult);
}
VOID DbgVerifyExternalDataLoaded () const
{
AssertH (DbgIsExternalDataLoaded());
}
#else
BOOL DbgIsExternalDataLoaded () const { return TRUE; }
VOID DbgVerifyExternalDataLoaded () const {}
#endif
};