Source code of Windows XP (NT5)
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733 lines
18 KiB

#include "inc.h"
#define GUID_FORMAT_W L"{%08lx-%04x-%04x-%02x%02x-%02x%02x%02x%02x%02x%02x}"
DEFINE_GUID(GUID_NULL, 0L, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0);
CMD_ENTRY g_rgIfCmdTable[] = {
{TOKEN_STATS, PrintStats},
{TOKEN_INFO, PrintInfo},
{TOKEN_NAME, PrintName},
{TOKEN_GUID, PrintGuid},
};
int
__cdecl
ScanHexFormat(
IN const WCHAR* pwszBuffer,
IN ULONG ulCharCount,
IN const WCHAR* pwszFormat,
...
)
/*++
Routine Description:
Scans a source Buffer and places values from that buffer into the parameters
as specified by Format.
Arguments:
pwszBuffer Source buffer which is to be scanned.
ulCharCount Maximum length in characters for which Buffer is searched.
This implies that Buffer need not be UNICODE_NULL terminated.
Format Format string which defines both the acceptable string form as
contained in pwszBuffer
Return Value:
Returns the number of parameters filled if the end of the Buffer is reached,
else -1 on an error.
--*/
{
va_list ArgList;
int iFormatItems;
va_start(ArgList, pwszFormat);
//
// Count of number of parameters filled
//
iFormatItems = 0;
while(TRUE)
{
switch (*pwszFormat)
{
case UNICODE_NULL:
{
//
// end of string
//
return (*pwszBuffer && ulCharCount) ? -1 : iFormatItems;
}
case L'%':
{
//
// Format specifier
//
pwszFormat++;
if (*pwszFormat != L'%')
{
ULONG ulNumber;
int iWidth;
int iLong;
PVOID pvPointer;
//
// So it isnt a %%
//
iLong = 0;
iWidth = 0;
while(TRUE)
{
if((*pwszFormat >= L'0') &&
(*pwszFormat <= L'9'))
{
iWidth = iWidth * 10 + *pwszFormat - '0';
}
else
{
if(*pwszFormat == L'l')
{
iLong++;
}
else
{
if((*pwszFormat == L'X') ||
(*pwszFormat == L'x'))
{
break;
}
}
}
//
// Move to the next specifier
//
pwszFormat++;
}
pwszFormat++;
for(ulNumber = 0; iWidth--; pwszBuffer++, ulCharCount--)
{
if(!ulCharCount)
{
return -1;
}
ulNumber *= 16;
if((*pwszBuffer >= L'0') &&
(*pwszBuffer <= L'9'))
{
ulNumber += (*pwszBuffer - L'0');
}
else
{
if((*pwszBuffer >= L'a') &&
(*pwszBuffer <= L'f'))
{
ulNumber += (*pwszBuffer - L'a' + 10);
}
else
{
if((*pwszBuffer >= L'A') &&
(*pwszBuffer <= L'F'))
{
ulNumber += (*pwszBuffer - L'A' + 10);
}
else
{
return -1;
}
}
}
}
pvPointer = va_arg(ArgList, PVOID);
if(iLong)
{
*(PULONG)pvPointer = ulNumber;
}
else
{
*(PUSHORT)pvPointer = (USHORT)ulNumber;
}
iFormatItems++;
break;
}
//
// NO BREAK
//
}
default:
{
if (!ulCharCount || (*pwszBuffer != *pwszFormat))
{
return -1;
}
pwszBuffer++;
ulCharCount--;
pwszFormat++;
break;
}
}
}
}
DWORD
ConvertGuidToString(
IN GUID *pGuid,
OUT PWCHAR pwszBuffer
)
/*++
Routine Description:
Constructs the standard string version of a GUID, in the form:
"{xxxxxxxx-xxxx-xxxx-xxxx-xxxxxxxxxxxx}".
Arguments:
pGuid Contains the GUID to translate.
pwszBuffer Space for storing the string. Must be >= 39 * sizeof(WCHAR)
Return Value:
--*/
{
return swprintf(pwszBuffer,
GUID_FORMAT_W,
pGuid->Data1,
pGuid->Data2,
pGuid->Data3,
pGuid->Data4[0],
pGuid->Data4[1],
pGuid->Data4[2],
pGuid->Data4[3],
pGuid->Data4[4],
pGuid->Data4[5],
pGuid->Data4[6],
pGuid->Data4[7]);
}
DWORD
ConvertStringToGuid(
IN PWCHAR pwszGuid,
IN ULONG ulStringLen,
OUT GUID *pGuid
)
/*++
Routine Description:
Retrieves a the binary format of a textual GUID presented in the standard
string version of a GUID: "{xxxxxxxx-xxxx-xxxx-xxxx-xxxxxxxxxxxx}".
Arguments:
GuidString -
Place from which to retrieve the textual form of the GUID.
Guid -
Place in which to put the binary form of the GUID.
Return Value:
Returns STATUS_SUCCESS if the buffer contained a valid GUID, else
STATUS_INVALID_PARAMETER if the string was invalid.
--*/
{
USHORT Data4[8];
int Count;
if (ScanHexFormat(pwszGuid,
ulStringLen/sizeof(WCHAR),
GUID_FORMAT_W,
&pGuid->Data1,
&pGuid->Data2,
&pGuid->Data3,
&Data4[0],
&Data4[1],
&Data4[2],
&Data4[3],
&Data4[4],
&Data4[5],
&Data4[6],
&Data4[7]) == -1)
{
return ERROR_INVALID_PARAMETER;
}
for(Count = 0; Count < sizeof(Data4)/sizeof(Data4[0]); Count++)
{
pGuid->Data4[Count] = (UCHAR)Data4[Count];
}
return NO_ERROR;
}
VOID
HandleInterface(
LONG lNumArgs,
PWCHAR rgpwszArgs[]
)
{
LONG lIndex;
if(lNumArgs < 2)
{
DisplayMessage(HMSG_IF_USAGE);
return;
}
lIndex = ParseCommand(g_rgIfCmdTable,
sizeof(g_rgIfCmdTable)/sizeof(CMD_ENTRY),
rgpwszArgs[1]);
if(lIndex is -1)
{
DisplayMessage(HMSG_IF_USAGE);
return;
}
g_rgIfCmdTable[lIndex].pfnHandler(lNumArgs - 1,
&rgpwszArgs[1]);
return;
}
VOID
PrintStats(
LONG lNumArgs,
PWCHAR rgpwszArgs[]
)
{
DWORD dwResult, i, j;
PMIB_IFTABLE pTable;
dwResult = AllocateAndGetIfTableFromStack(&pTable,
TRUE,
GetProcessHeap(),
HEAP_NO_SERIALIZE,
FALSE);
if(dwResult isnot NO_ERROR)
{
PWCHAR pwszEntry;
pwszEntry = MakeString(STR_IFTABLE);
if(pwszEntry)
{
DisplayMessage(EMSG_RETRIEVAL_ERROR1,
dwResult,
pwszEntry);
FreeString(pwszEntry);
}
else
{
DisplayMessage(EMSG_RETRIEVAL_ERROR2,
dwResult);
}
return;
}
if(pTable->dwNumEntries is 0)
{
PWCHAR pwszEntryType;
pwszEntryType = MakeString(TOKEN_INTERFACE);
if(pwszEntryType)
{
DisplayMessage(EMSG_NO_ENTRIES1,
pwszEntryType);
FreeString(pwszEntryType);
}
else
{
DisplayMessage(EMSG_NO_ENTRIES2);
}
HeapFree(GetProcessHeap(),
HEAP_NO_SERIALIZE,
pTable);
return;
}
for(i = 0; i < pTable->dwNumEntries; i++)
{
PWCHAR pwszIfType, pwszAdmin, pwszOper;
WCHAR rgwcDescr[MAXLEN_IFDESCR + 1];
WCHAR rgwcPhysAddr[3*MAXLEN_PHYSADDR + 8];
switch(pTable->table[i].dwType)
{
case IF_TYPE_OTHER:
{
pwszIfType = MakeString(STR_OTHER);
break;
}
case IF_TYPE_ETHERNET_CSMACD:
{
pwszIfType = MakeString(STR_ETHERNET);
break;
}
case IF_TYPE_ISO88025_TOKENRING:
{
pwszIfType = MakeString(STR_TOKENRING);
break;
}
case IF_TYPE_FDDI:
{
pwszIfType = MakeString(STR_FDDI);
break;
}
case IF_TYPE_PPP:
{
pwszIfType = MakeString(STR_PPP);
break;
}
case IF_TYPE_SOFTWARE_LOOPBACK:
{
pwszIfType = MakeString(STR_LOOPBACK);
break;
}
case IF_TYPE_SLIP:
{
pwszIfType = MakeString(STR_SLIP);
break;
}
}
switch(pTable->table[i].dwAdminStatus)
{
case IF_ADMIN_STATUS_UP:
{
pwszAdmin = MakeString(STR_UP);
break;
}
case IF_ADMIN_STATUS_DOWN:
{
pwszAdmin = MakeString(STR_DOWN);
break;
}
case IF_ADMIN_STATUS_TESTING:
{
pwszAdmin = MakeString(STR_TESTING);
break;
}
}
switch(pTable->table[i].dwOperStatus)
{
case IF_OPER_STATUS_NON_OPERATIONAL:
{
pwszOper = MakeString(STR_NON_OPERATIONAL);
break;
}
case IF_OPER_STATUS_UNREACHABLE:
{
pwszOper = MakeString(STR_UNREACHABLE);
break;
}
case IF_OPER_STATUS_DISCONNECTED:
{
pwszOper = MakeString(STR_DISCONNECTED);
break;
}
case IF_OPER_STATUS_CONNECTING:
{
pwszOper = MakeString(STR_CONNECTING);
break;
}
case IF_OPER_STATUS_CONNECTED:
{
pwszOper = MakeString(STR_CONNECTED);
break;
}
case IF_OPER_STATUS_OPERATIONAL:
{
pwszOper = MakeString(STR_OPERATIONAL);
break;
}
}
MultiByteToWideChar(CP_ACP,
0,
pTable->table[i].bDescr,
-1,
rgwcDescr,
MAXLEN_IFDESCR);
rgwcDescr[MAXLEN_IFDESCR] = UNICODE_NULL;
PhysAddrToUnicode(rgwcPhysAddr,
pTable->table[i].bPhysAddr,
pTable->table[i].dwPhysAddrLen);
DisplayMessage(MSG_IF_INFO,
pTable->table[i].wszName,
pTable->table[i].dwIndex,
pwszIfType,
pTable->table[i].dwMtu,
pTable->table[i].dwSpeed,
rgwcPhysAddr,
pwszAdmin,
pwszOper,
pTable->table[i].dwLastChange,
pTable->table[i].dwInOctets,
pTable->table[i].dwInUcastPkts,
pTable->table[i].dwInNUcastPkts,
pTable->table[i].dwInDiscards,
pTable->table[i].dwInErrors,
pTable->table[i].dwInUnknownProtos,
pTable->table[i].dwOutOctets,
pTable->table[i].dwOutUcastPkts,
pTable->table[i].dwOutNUcastPkts,
pTable->table[i].dwOutDiscards,
pTable->table[i].dwOutErrors,
pTable->table[i].dwOutQLen,
rgwcDescr);
FreeString(pwszIfType);
FreeString(pwszAdmin);
FreeString(pwszOper);
}
}
VOID
PrintInfo(
LONG lNumArgs,
PWCHAR rgpwszArgs[]
)
{
DWORD dwResult, i, dwCount;
PIP_INTERFACE_NAME_INFO pTable;
dwResult = NhpAllocateAndGetInterfaceInfoFromStack(&pTable,
&dwCount,
TRUE,
GetProcessHeap(),
HEAP_NO_SERIALIZE);
if(dwResult isnot NO_ERROR)
{
PWCHAR pwszEntry;
pwszEntry = MakeString(STR_IFTABLE);
if(pwszEntry)
{
DisplayMessage(EMSG_RETRIEVAL_ERROR1,
dwResult,
pwszEntry);
FreeString(pwszEntry);
}
else
{
DisplayMessage(EMSG_RETRIEVAL_ERROR2,
dwResult);
}
return;
}
if(dwCount is 0)
{
PWCHAR pwszEntryType;
pwszEntryType = MakeString(TOKEN_INTERFACE);
if(pwszEntryType)
{
DisplayMessage(EMSG_NO_ENTRIES1,
pwszEntryType);
FreeString(pwszEntryType);
}
else
{
DisplayMessage(EMSG_NO_ENTRIES2);
}
HeapFree(GetProcessHeap(),
HEAP_NO_SERIALIZE,
pTable);
return;
}
for(i = 0; i < dwCount; i++)
{
WCHAR pwszDeviceGuid[40], pwszIfGuid[40];
WCHAR pwszName[300];
GUID *pGuid;
DWORD dwSize;
ConvertGuidToString(&(pTable[i].DeviceGuid),
pwszDeviceGuid);
ConvertGuidToString(&(pTable[i].InterfaceGuid),
pwszIfGuid);
if(IsEqualGUID(&(pTable[i].InterfaceGuid),
&(GUID_NULL)))
{
pGuid = &(pTable[i].DeviceGuid);
}
else
{
pGuid = &(pTable[i].InterfaceGuid);
}
dwSize = sizeof(pwszName);
dwResult = NhGetInterfaceNameFromGuid(pGuid,
pwszName,
&dwSize,
FALSE,
TRUE);
ASSERT(dwResult == NO_ERROR);
wprintf(L"%d %s %s %s\n",
pTable[i].Index,
pwszDeviceGuid,
pwszIfGuid,
pwszName);
}
}
VOID
PrintName(
LONG lNumArgs,
PWCHAR rgpwszArgs[]
)
{
ULONG ulSize;
GUID Guid;
WCHAR rgwcIfName[MAX_INTERFACE_NAME_LEN + 2];
//
// The command line at this point should read:
// NAME {Guid}
//
if(lNumArgs != 2)
{
DisplayMessage(HMSG_IF_NAME_USAGE);
return;
}
if(ConvertStringToGuid(rgpwszArgs[1],
wcslen(rgpwszArgs[1]) * sizeof(WCHAR),
&Guid) isnot NO_ERROR)
{
DisplayMessage(HMSG_IF_NAME_USAGE);
return;
}
ulSize = sizeof(rgwcIfName);
if(NhGetInterfaceNameFromGuid(&Guid,
rgwcIfName,
&ulSize,
FALSE,
TRUE) isnot NO_ERROR)
{
DisplayMessage(EMSG_NO_SUCH_IF);
return;
}
wprintf(L"%s\n", rgwcIfName);
}
VOID
PrintGuid(
LONG lNumArgs,
PWCHAR rgpwszArgs[]
)
{
GUID Guid;
WCHAR rgwcString[40];
//
// The command line at this point should read:
// GUID "Name"
//
if(lNumArgs != 2)
{
DisplayMessage(HMSG_IF_GUID_USAGE);
return;
}
if(NhGetGuidFromInterfaceName(rgpwszArgs[1],
&Guid,
FALSE,
TRUE) isnot NO_ERROR)
{
DisplayMessage(EMSG_NO_SUCH_IF);
return;
}
ConvertGuidToString(&Guid,
rgwcString);
wprintf(L"%s\n", rgwcString);
}