windows-nt/Source/XPSP1/NT/net/config/netcfg/engine/lanamap.h

148 lines
2.8 KiB
C
Raw Normal View History

2020-09-26 03:20:57 -05:00
//+---------------------------------------------------------------------------
//
// Microsoft Windows
// Copyright (C) Microsoft Corporation, 1999.
//
// File: L A N A M A P . H
//
// Contents: NetBios Lana map routines.
//
// Notes:
//
// Author: billbe 17 Feb 1999
//
//----------------------------------------------------------------------------
#pragma once
#include "nb30.h"
#include "ncstring.h"
#include "netcfg.h"
#include "util.h"
//
// Structure of LANA MAP
//
// The Lana map is a simple structure that looks like this in memory:
//
// Entry #0 Entry #1 ..... Entry #n
// |-----------|-----------| ..... |-----------|
// | 0x01 0x00 | 0x00 0x01 | ..... | 0x01 0x03 |
// |-----------|-----------| ..... |-----------|
// EP0 LN0 EP1 LN1 EPn LNn
//
// EP is "ExportPref" - means that when someone asks for the list of
// all Lana numbers, entries with a 0 here will not be returned.
//
// LN is the "Lana number" - see the IBM NetBIOS spec for details.
// Basically, this describes a single, unique network route which
// uses NetBIOS.
//
// Using the above example, Entry #0 has a lana number of 0 and WILL
// be returned during enumeration. Entry #1 has a lana number of 1
// and WILL NOT be returned.
//
struct REG_LANA_ENTRY
{
BYTE Exported;
BYTE LanaNumber;
};
class CLanaEntry
{
public:
PCWSTR pszBindPath;
REG_LANA_ENTRY RegLanaEntry;
};
class CLanaMap : public vector<CLanaEntry>
{
public:
CLanaMap()
{
ZeroMemory (this, sizeof (*this));
m_RegistryLanaMap.SetGranularity (256);
}
~CLanaMap()
{
MemFree ((VOID*)m_pszBindPathsBuffer);
};
VOID
Clear()
{
clear();
}
UINT
CountEntries() const
{
return size();
}
VOID
Dump (
CWideString* pstr) const;
HRESULT
HrReserveRoomForEntries (
IN UINT cEntries);
HRESULT
HrAppendEntry (
IN CLanaEntry* pEntry);
BYTE
GetExportValue (
IN const CComponentList& Components,
IN PCWSTR pszBindPath);
HRESULT
HrSetLanaNumber (
IN BYTE OldLanaNumber,
IN BYTE NewLanaNumber);
HRESULT
HrCreateRegistryMap();
VOID
GetLanaEntry (
IN const CComponentList& Components,
IN CLanaEntry* pEntry);
HRESULT
HrLoadLanaMap();
BYTE
GetMaxLana();
HRESULT
HrWriteLanaConfiguration (
IN const CComponentList& Components);
private:
PCWSTR m_pszBindPathsBuffer;
BYTE m_LanasInUse[MAX_LANA + 1];
CDynamicBuffer m_RegistryLanaMap;
HRESULT
HrWriteLanaMapConfig();
};
HRESULT
HrUpdateLanaConfig (
IN const CComponentList& Components,
IN PCWSTR pszBindPaths,
IN UINT cPaths);
VOID
GetFirstComponentFromBindPath (
IN PCWSTR pszBindPath,
OUT PCWSTR* ppszComponentStart,
OUT DWORD* pcchComponent);