Source code of Windows XP (NT5)
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/*
File GuidMap.c
Defines interface to map a guid interface name to an unique descriptive
name describing that interface and vice versa.
Paul Mayfield, 8/25/97
Copyright 1997, Microsoft Corporation.
*/
#include <nt.h>
#include <ntrtl.h>
#include <nturtl.h>
#include <windows.h>
#include <winerror.h>
#include <netcfgx.h>
#include <netcon.h>
#include "rtcfg.h"
#include "guidmap.h"
#include "enumlan.h"
#include "hashtab.h"
#define GUIDMAP_HASH_SIZE 101
#define GUIDMAP_FUNCTION_MAPFRIENDLY 0x1
#define GUIDMAP_FUNCTION_MAPGUID 0x2
//
// Structure defines the control block for a guid map
//
typedef struct _GUIDMAPCB
{
PWCHAR pszServer;
BOOL bNt40;
EL_ADAPTER_INFO * pNodes;
DWORD dwNodeCount;
HANDLE hNameHashTable;
HANDLE hGuidHashTable;
BOOL bLoaded;
} GUIDMAPCB;
DWORD
GuidMapSeedHashTable (
OUT HANDLE * phTable,
IN HashTabHashFuncPtr pHashFunc,
IN HashTabKeyCompFuncPtr pCompFunc,
IN EL_ADAPTER_INFO * pNodes,
IN DWORD dwCount,
IN DWORD dwOffset);
ULONG
GuidMapHashGuid (
IN HANDLE hGuid);
ULONG
GuidMapHashName (
IN HANDLE hName);
int
GuidMapCompGuids (
IN HANDLE hGuid,
IN HANDLE hNameMapNode);
int
GuidMapCompNames (
IN HANDLE hName,
IN HANDLE hNameMapNode);
//
// Initialize the guid map for the given server
//
DWORD
GuidMapInit (
IN PWCHAR pszServer,
OUT HANDLE * phGuidMap )
{
GUIDMAPCB * pMapCb;
// Validate params
if (! phGuidMap)
{
return ERROR_INVALID_PARAMETER;
}
// Allocate the control block
pMapCb = Malloc (sizeof (GUIDMAPCB));
if (!pMapCb)
{
return ERROR_NOT_ENOUGH_MEMORY;
}
// Initialize
RtlZeroMemory (pMapCb, sizeof (GUIDMAPCB));
pMapCb->pszServer = pszServer;
*phGuidMap = (HANDLE)pMapCb;
return NO_ERROR;
}
//
// Loads and prepares the guid map so that it can
// perform the given map function (a GUIDMAP_FUNCTION_XXX value).
//
DWORD GuidMapLoad (
IN GUIDMAPCB * pMapCb,
IN DWORD dwFunction)
{
DWORD dwErr;
// We've done all the work we need to if we aren't looking
// at an nt5 machine
if (pMapCb->bNt40)
{
return NO_ERROR;
}
// Load the guid map
if (! pMapCb->bLoaded)
{
dwErr = ElEnumLanAdapters (
pMapCb->pszServer,
&(pMapCb->pNodes),
&(pMapCb->dwNodeCount),
&(pMapCb->bNt40) );
if (dwErr != NO_ERROR)
{
return dwErr;
}
pMapCb->bLoaded = TRUE;
}
// Seed the appropriate mapping hash table as needed
if ((dwFunction == GUIDMAP_FUNCTION_MAPFRIENDLY) &&
(pMapCb->hGuidHashTable == NULL))
{
GuidMapSeedHashTable (
&(pMapCb->hGuidHashTable),
GuidMapHashGuid,
GuidMapCompGuids,
pMapCb->pNodes,
pMapCb->dwNodeCount,
FIELD_OFFSET(EL_ADAPTER_INFO, guid));
}
else if ((dwFunction == GUIDMAP_FUNCTION_MAPGUID) &&
(pMapCb->hNameHashTable == NULL))
{
GuidMapSeedHashTable (
&(pMapCb->hNameHashTable),
GuidMapHashName,
GuidMapCompNames,
pMapCb->pNodes,
pMapCb->dwNodeCount,
FIELD_OFFSET(EL_ADAPTER_INFO, pszName));
}
return NO_ERROR;
}
//
// Cleans up resources obtained through GuidMapInit
//
DWORD
GuidMapCleanup (
IN HANDLE hGuidMap,
IN BOOL bFree
)
{
GUIDMAPCB * pMap = (GUIDMAPCB*)hGuidMap;
if (!pMap)
{
return ERROR_INVALID_HANDLE;
}
if (pMap->pNodes)
{
ElCleanup (pMap->pNodes, pMap->dwNodeCount);
}
if (pMap->hNameHashTable)
{
HashTabCleanup (pMap->hNameHashTable);
}
if (pMap->hGuidHashTable)
{
HashTabCleanup (pMap->hGuidHashTable);
}
RtlZeroMemory (pMap, sizeof(GUIDMAPCB));
if(bFree)
{
Free (pMap);
}
return NO_ERROR;
}
//
// Hash function for guids -- sum up the guid and mod
//
ULONG
GuidMapHashGuid (
HANDLE hGuid)
{
DWORD dwSum = 0, * pdwCur;
DWORD_PTR dwEnd = (DWORD_PTR)hGuid + sizeof(GUID);
for (pdwCur = (DWORD*)hGuid; (DWORD_PTR)pdwCur < dwEnd; pdwCur++)
{
dwSum += *pdwCur;
}
return dwSum % GUIDMAP_HASH_SIZE;
}
//
// Hash function for names -- sum up the characters and mod
//
ULONG
GuidMapHashName (
HANDLE hName)
{
PWCHAR pszString = *((PWCHAR *)hName);
DWORD dwSum = 0;
while (pszString && *pszString)
{
dwSum += towlower(*pszString);
pszString++;
}
return dwSum % GUIDMAP_HASH_SIZE;
}
//
// Comparison function for guids to NAMEMAPNODES
//
int
GuidMapCompGuids (
IN HANDLE hGuid,
IN HANDLE hNameMapNode)
{
return memcmp (
(GUID*)hGuid,
&(((EL_ADAPTER_INFO *)hNameMapNode)->guid),
sizeof(GUID));
}
//
// Comparison function for names to NAMEMAPNODES
//
int
GuidMapCompNames (
IN HANDLE hName,
IN HANDLE hNameMapNode)
{
return lstrcmpi(
*((PWCHAR*)hName),
((EL_ADAPTER_INFO *)hNameMapNode)->pszName);
}
//
// Seeds the given hash table. Offset is the offset into the
// namemapnode of the key for insertion.
//
DWORD
GuidMapSeedHashTable (
OUT HANDLE * phTable,
IN HashTabHashFuncPtr pHashFunc,
IN HashTabKeyCompFuncPtr pCompFunc,
IN EL_ADAPTER_INFO * pNodes,
IN DWORD dwCount,
IN DWORD dwOffset)
{
DWORD dwErr, i, dwHashSize = GUIDMAP_HASH_SIZE;
// Initialize the hash table
dwErr = HashTabCreate (
dwHashSize,
pHashFunc,
pCompFunc,
NULL,
NULL,
NULL,
phTable );
if (dwErr != NO_ERROR)
{
return dwErr;
}
// Add all of the nodes to the hash table
for (i = 0; i < dwCount; i++)
{
HashTabInsert (
*phTable,
(HANDLE)((DWORD_PTR)(&(pNodes[i])) + dwOffset),
(HANDLE)(&(pNodes[i])) );
}
return NO_ERROR;
}
//
// Gets the name and status of a given adapter
//
DWORD
GuidMapLookupNameAndStatus(
GUIDMAPCB* pMapCb,
GUID* pGuid,
PWCHAR* ppszName,
DWORD* lpdwStatus)
{
EL_ADAPTER_INFO * pNode;
DWORD dwErr;
dwErr = HashTabFind (
pMapCb->hGuidHashTable,
(HANDLE)pGuid,
(HANDLE*)&pNode );
if (dwErr != NO_ERROR)
{
return dwErr;
}
*ppszName = pNode->pszName;
*lpdwStatus = pNode->dwStatus;
return NO_ERROR;
}
//
// Looks up a name given a guid
//
DWORD
GuidMapLookupName (
GUIDMAPCB * pMapCb,
GUID * pGuid,
PWCHAR * ppszName)
{
DWORD dwStatus;
return GuidMapLookupNameAndStatus(pMapCb, pGuid, ppszName, &dwStatus);
}
//
// Looks up a guid given a name
//
DWORD
GuidMapLookupGuid (
IN GUIDMAPCB * pMapCb,
IN PWCHAR pszName,
GUID * pGuid)
{
EL_ADAPTER_INFO * pNode;
DWORD dwErr;
dwErr = HashTabFind (
pMapCb->hNameHashTable,
(HANDLE)&pszName,
(HANDLE*)&pNode );
if (dwErr != NO_ERROR)
{
return dwErr;
}
*pGuid = pNode->guid;
return NO_ERROR;
}
//
// Returns a pointer to the packet name portion of
// the interface name if it exists.
//
PWCHAR
GuidMapFindPacketName(
IN PWCHAR pszName)
{
PWCHAR res;
if ((res = wcsstr(pszName, L"SNAP")) != NULL)
{
return res;
}
if ((res = wcsstr(pszName, L"EthII")) != NULL)
{
return res;
}
if ((res = wcsstr(pszName, L"802.2")) != NULL)
{
return res;
}
if ((res = wcsstr(pszName, L"802.3")) != NULL)
{
return res;
}
return NULL;
}
//
// Takes in a friendly interface name and removes it's
// [xxxx] packet type appending.
//
DWORD
GuidMapParseOutPacketName (
IN PWCHAR pszName,
OUT PWCHAR pszNameNoPacket,
OUT PWCHAR pszPacketName)
{
PWCHAR pszPacket = GuidMapFindPacketName (pszName);
int len;
if (pszPacket)
{
pszPacket--;
len = (int) ((((DWORD_PTR)pszPacket) -
((DWORD_PTR)pszName)) /
sizeof (WCHAR));
lstrcpynW (pszNameNoPacket, pszName, len);
pszNameNoPacket[len] = 0;
pszPacket++;
pszPacket[wcslen(pszPacket) - 1] = (WCHAR)0;
lstrcpyW (pszPacketName, pszPacket);
}
else
{
lstrcpyW (pszNameNoPacket, pszName);
pszPacketName[0] = 0;
}
return NO_ERROR;
}
//
// Generates the version of the interface as stored in the registry. This
// is done by finding the packet type if any and appending it to the
// guid name.
//
DWORD
GuidMapFormatGuidName(
OUT PWCHAR pszDest,
IN DWORD dwBufferSize,
IN PWCHAR pszGuidName,
IN PWCHAR pszPacketType)
{
DWORD dwSize;
// Upper case the guid name
_wcsupr(pszGuidName);
// Calculate the space required for storing pszGuidName, the opening and
// closing braces, and the terminating NULL
dwSize = (wcslen(pszGuidName) + 2 + 1)* sizeof (WCHAR);
if ( pszPacketType[0] )
{
// add the space required to store the pszPacketType and "/"
dwSize += (wcslen(pszPacketType) + 1) * sizeof (WCHAR);
}
if ( dwBufferSize < dwSize )
{
return ERROR_BUFFER_OVERFLOW;
}
// Generate the name
if (pszPacketType[0])
{
wsprintfW(pszDest,L"{%s}/%s", pszGuidName, pszPacketType);
}
else
{
wsprintfW(pszDest,L"{%s}", pszGuidName);
}
return NO_ERROR;
}
//
// Appends the packet type if any to the interface name.
//
DWORD
GuidMapFormatFriendlyName (
OUT PWCHAR pszDest,
IN DWORD dwBufferSize,
IN PWCHAR pszFriendlyName,
IN PWCHAR pszGuidName)
{
PWCHAR pszType = NULL;
DWORD dwSize;
pszType = GuidMapFindPacketName(pszGuidName);
// Calculate the space required for storing pszFriendlyName and the terminating NULL
dwSize = (wcslen(pszFriendlyName) + 1)* sizeof (WCHAR);
if ( pszType )
{
// add the space required to store the pszType, the blank space, and the
// opening and closing square brackets
dwSize += (wcslen(pszType) + 3) * sizeof (WCHAR);
}
if ( dwBufferSize < dwSize )
{
return ERROR_BUFFER_OVERFLOW;
}
if (pszType)
{
wsprintfW(pszDest,L"%s [%s]", pszFriendlyName, pszType);
}
else
{
wsprintfW(pszDest,L"%s", pszFriendlyName);
}
return NO_ERROR;
}
//
// Parses out the guid portion of an interface name
//
DWORD
GuidMapGetGuidString(
IN PWCHAR pszName,
OUT PWCHAR* ppszGuidString)
{
PWCHAR pszBegin = NULL, pszEnd = NULL;
PWCHAR pszRet = NULL;
int i, length;
DWORD dwErr = NO_ERROR;
do
{
// Validate parameters
//
if (!pszName || !ppszGuidString)
{
return ERROR_INVALID_PARAMETER;
}
// Find out if this is a guid string
pszBegin = wcsstr(pszName, L"{");
pszEnd = wcsstr(pszName, L"}");
// If there is no guid portion, return success with a
//null pszGuidString
if ((pszBegin == NULL) || (pszEnd == NULL))
{
*ppszGuidString = NULL;
break;
}
// Check the format of the return
//
if ((DWORD_PTR)pszBegin >= (DWORD_PTR)pszEnd)
{
dwErr = ERROR_CAN_NOT_COMPLETE;
break;
}
// Allocate the return value
//
length = 41;
pszRet = (PWCHAR) Malloc(length * sizeof(WCHAR));
if (pszRet == NULL)
{
dwErr = ERROR_NOT_ENOUGH_MEMORY;
break;
}
i=0;
pszBegin++;
while ((pszBegin != pszEnd) && (i < length))
{
pszRet[i++]=*pszBegin;
pszBegin++;
}
pszRet[i]=0;
*ppszGuidString = pszRet;
} while (FALSE);
// Cleanup
{
if (dwErr != NO_ERROR)
{
if (pszRet)
{
Free(pszRet);
}
}
}
return dwErr;
}
//
// Derive the friendly name from the guid name
//
DWORD
GuidMapGetFriendlyName (
IN SERVERCB *pserver,
IN PWCHAR pszGuidName,
IN DWORD dwBufferSize,
OUT PWCHAR pszFriendlyName )
{
GUIDMAPCB * pMapCb = (GUIDMAPCB*)(pserver->hGuidMap);
PWCHAR pszGuidString = NULL, pszNetmanName = NULL;
DWORD dwErr = NO_ERROR;
GUID Guid;
// Sanity Check
if (!pMapCb || !pszGuidName || !pszFriendlyName || !dwBufferSize)
{
return ERROR_INVALID_PARAMETER;
}
// Prepare the map for friendly name lookups
dwErr = GuidMapLoad (pMapCb, GUIDMAP_FUNCTION_MAPFRIENDLY);
if (dwErr != NO_ERROR)
{
return dwErr;
}
// Nt40 machines require no mapping
if (pMapCb->bNt40)
{
return ERROR_NOT_FOUND;
}
do
{
// Get the guid string from the interface name
dwErr = GuidMapGetGuidString(pszGuidName, &pszGuidString);
if (dwErr != NO_ERROR)
{
break;
}
// If there is no guid, there is no mapping
if (! pszGuidString)
{
dwErr = ERROR_NOT_FOUND;
break;
}
// Convert the guid string
if (UuidFromStringW (pszGuidString, &Guid)!= RPC_S_OK) {
dwErr = ERROR_CAN_NOT_COMPLETE;
break;
}
// Look up the descriptive name
dwErr = GuidMapLookupName (pMapCb, &Guid, &pszNetmanName);
if (dwErr != NO_ERROR)
{
break;
}
// If the registry is corrupt, it is possible for an
// adapter with a null name to be mapped. Taking this
// precaution will prevent an AV in this
// case (shouldn't happen anyway)
//
if (pszNetmanName == NULL)
{
pszNetmanName = L"";
}
// Copy in the string
dwErr = GuidMapFormatFriendlyName (
pszFriendlyName,
dwBufferSize,
pszNetmanName,
pszGuidName);
if ( dwErr != NO_ERROR )
{
break;
}
} while (FALSE);
// Cleanup
{
if (pszGuidString)
{
Free (pszGuidString);
}
}
return dwErr;
}
//
// Derive the guid name from the friendly name
//
DWORD
GuidMapGetGuidName (
IN SERVERCB *pserver,
IN PWCHAR pszFriendlyName,
IN DWORD dwBufferSize,
OUT PWCHAR pszGuidName )
{
WCHAR pszNoPacketName[1024], pszPacketDesc[64], *pszGuid = NULL;
GUIDMAPCB * pMapCb = (GUIDMAPCB*)(pserver->hGuidMap);
DWORD dwErr;
GUID Guid;
// Validate paramters
if (!pMapCb || !pszFriendlyName || !pszGuidName || !dwBufferSize)
{
return ERROR_INVALID_PARAMETER;
}
// Prepare the map for guid name lookups
dwErr = GuidMapLoad (pMapCb, GUIDMAP_FUNCTION_MAPGUID);
if (dwErr != NO_ERROR)
{
return dwErr;
}
// Nt40 machines require no mapping
if (pMapCb->bNt40)
{
return ERROR_NOT_FOUND;
}
// Remove the packet type from the friendly name
GuidMapParseOutPacketName (
pszFriendlyName,
pszNoPacketName,
pszPacketDesc);
// If we don't have the name in the guid map, then
// this must be a non lan interface.
dwErr = GuidMapLookupGuid (pMapCb, pszNoPacketName, &Guid);
if (dwErr != NO_ERROR)
{
return dwErr;
}
// Otherwise, return its Guid name
do
{
if(RPC_S_OK != UuidToStringW (&Guid, &pszGuid))
{
break;
}
if (pszGuid)
{
dwErr = GuidMapFormatGuidName(
pszGuidName,
dwBufferSize,
pszGuid,
pszPacketDesc);
if ( dwErr != NO_ERROR )
{
if ( pszGuid )
{
RpcStringFreeW (&pszGuid);
pszGuid = NULL;
}
return dwErr;
}
}
} while (FALSE);
// Cleanup
{
if (pszGuid)
{
RpcStringFreeW (&pszGuid);
}
}
return NO_ERROR;
}
//
// States whether a mapping for the given guid name
// exists without actually providing the friendly
// name. This is more efficient than GuidMapGetFriendlyName
// when the friendly name is not required.
//
DWORD
GuidMapIsAdapterInstalled(
IN HANDLE hGuidMap,
IN PWCHAR pszGuidName,
OUT PBOOL pfMappingExists)
{
GUIDMAPCB * pMapCb = (GUIDMAPCB*)hGuidMap;
PWCHAR pszGuidString = NULL, pszNetmanName = NULL;
DWORD dwErr = NO_ERROR, dwSize, dwStatus = 0;
GUID Guid;
// Sanity Check
if (!pMapCb || !pszGuidName)
{
return ERROR_INVALID_PARAMETER;
}
// Prepare the map for friendly name lookups
dwErr = GuidMapLoad (pMapCb, GUIDMAP_FUNCTION_MAPFRIENDLY);
if (dwErr != NO_ERROR)
{
return dwErr;
}
// Nt40 machines require no mapping
if (pMapCb->bNt40)
{
*pfMappingExists = TRUE;
return NO_ERROR;
}
do
{
// Get the guid string from the interface name
dwErr = GuidMapGetGuidString(pszGuidName, &pszGuidString);
if (dwErr != NO_ERROR)
{
break;
}
// If there is no guid, there is no mapping
if (! pszGuidString)
{
dwErr = ERROR_NOT_FOUND;
break;
}
// Convert the guid string
if (UuidFromStringW (pszGuidString, &Guid)!= RPC_S_OK) {
dwErr = ERROR_CAN_NOT_COMPLETE;
break;
}
// Look up the descriptive name
dwErr = GuidMapLookupNameAndStatus (
pMapCb,
&Guid,
&pszNetmanName,
&dwStatus);
if ((dwErr == NO_ERROR) &&
(pszNetmanName) &&
(dwStatus != EL_STATUS_NOT_THERE))
{
*pfMappingExists = TRUE;
}
else
{
*pfMappingExists = FALSE;
}
} while (FALSE);
// Cleanup
{
if (pszGuidString)
{
Free (pszGuidString);
}
}
return dwErr;
}