Source code of Windows XP (NT5)
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/*++
Copyright (c) 1992, 1993 Microsoft Corporation
Module Name:
nbtinfo.c
Abstract:
This module implements the statistics gathering and display for NBT.
Author:
Jim Stewart November 18 22, 1993
Revision History:
Shirish Koti June 17, 1994 Modified to make code common between
NT and VxD
MohsinA, 06-Dec-96. Synchronize stdout and stderr, messages.
added nls_printf().
MohsinA, 19-Mar-97. Cleanup mutli adaptor fix (index).
Notes:
--*/
#include "nlstxt.h"
#ifdef CHICAGO_PRODUCT
#include "tdistat.h"
#endif // CHICAGO_PRODUCT
#include "nbtstat.h"
#ifndef CHICAGO_PRODUCT
#include "nls.h"
#include "nhapi.h"
#endif // !CHICAGO_PRODUCT
#if defined(DBG) || defined(DEBUG)
#define DEBUG_PRINT(S) printf S
#else
#define DEBUG_PRINT(S) /* nothing */
#endif
#if DBG
#define NT_DEBUG_PRINT(S) printf S
#else
#define NT_DEBUG_PRINT(S) /* nothing */
#endif
CHAR pScope[MAX_NAME];
/**********************************************************************/
/*
* The following option combinations are possible:
*
* (default) Display active connections.
* -c List NetBIOS remote name cache, showing dotted decimal ip addresses
* -N List local NetBIOS names
* -n List local NetBIOS names
* -R Rsync Remote NetBIOS name cache
* -r Names resolved via broadcast and via WINS
* -s List Netbios Sessions converting IpAddresses through Hosts file
* -S List Netbios Sessions with IP Addresses
* -RR Send Name Release packets to WINS and then, start Refresh
*
*/
int display = CONNECTION; /* things to display */
char *state();
char *type();
char *name_type();
char *status();
char *expand();
int usage(void);
char *expand(char *stretch, int len, char *code);
char *printable(char *string,char *strout);
BOOLEAN IsInteger(char *string);
#define BUFF_SIZE 650
ULONG NumDevices = 0;
ULONG NetbtIpAddress;
#ifndef CHICAGO_PRODUCT
CHAR pDeviceInfo[NBT_MAXIMUM_BINDINGS+1][MAX_NAME+1];
#else
ULONG pDeviceInfo[NBT_MAXIMUM_BINDINGS+1] = {0};
#define VNBT_Device_ID 0x049B
HANDLE gNbtVxdHandle;
#endif // !CHICAGO_PRODUCT
#define dim(X) (sizeof(X)/sizeof((X)[0]))
LPSTR MapAdapterGuidToName(LPSTR AdapterNameM)
{
static CHAR AdapterFriendlyNameM[MAX_NAME + 1];
ULONG i;
LPSTR AdapterGuidM;
GUID Guid;
UNICODE_STRING AdapterGuidU;
WCHAR AdapterGuidW[MAX_NAME+1];
WCHAR AdapterFriendlyNameW[MAX_NAME+1];
DWORD Size = dim(AdapterFriendlyNameW);
//
// Get the GUID out of the device name string
//
for (i = strlen(AdapterNameM); i != 0; i--)
{
if (AdapterNameM[i] == '{')
{
break;
}
}
if (i == 0)
{
return AdapterNameM;
}
AdapterGuidM = &AdapterNameM[i];
i = MultiByteToWideChar (CP_ACP, 0, AdapterGuidM, -1, AdapterGuidW, dim(AdapterGuidW));
if (i <= 0)
{
return AdapterNameM;
}
RtlInitUnicodeString (&AdapterGuidU, AdapterGuidW);
if (STATUS_SUCCESS != RtlGUIDFromString (&AdapterGuidU, &Guid))
{
return AdapterNameM;
}
if (NO_ERROR != NhGetInterfaceNameFromDeviceGuid (&Guid, AdapterFriendlyNameW, &Size, FALSE, TRUE))
{
return AdapterNameM;
}
WideCharToMultiByte (CP_ACP, 0, AdapterFriendlyNameW, -1, AdapterFriendlyNameM, sizeof(AdapterFriendlyNameM), NULL,NULL);
return (AdapterFriendlyNameM);
}
// ========================================================================
#define LEN_DbgPrint 1000
void
nls_printf(
char * format,
...
)
{
va_list ap;
char message[LEN_DbgPrint];
int message_len;
va_start( ap, format );
message_len = vsprintf( message, format, ap );
va_end( ap );
assert( message_len < LEN_DbgPrint );
NlsPutMsg( STDOUT, IDS_PLAIN_STRING, message );
}
/***************************** M A I N ******************************/
__cdecl
main( int argc, char * argv[] )
{
NTSTATUS status;
LONG interval=-1;
UCHAR RemoteName[50];
CHAR HostAddr[20];
PUCHAR Addr;
HANDLE NbtHandle = 0;
ULONG index;
DEBUG_PRINT(("FILE %s\nBuilt on %s at %s\n", __FILE__, __DATE__, __TIME__));
//
// Process arguments to determine which statistics to gather.
// Optional parameter is interval between statistics updates.
// Default is to display statistics once only.
//
if (argc == 1)
{
exit(usage());
}
display = 0;
while (--argc, *++argv)
{
if ((argv[0][0] == '-') || (argv[0][0] == '/')) // process option string
{
register char c, *p = *argv+1;
int arg_exhausted = 0;
if (*p == '\0')
{
exit(usage());
}
//
// Loop along this set of flags.
//
while (!arg_exhausted && (c = *p++))
{
switch (c)
{
case 'a':
case 'A':
display = ADAPTERSTATUS;
//
// "A" - this means the user has given us an IP address
// rather than a name to do an adapter status to.
//
if (c == 'A')
{
display = ADAPTERSTATUSIP;
}
RemoteName[0] = '\0';
if (--argc)
{
*++argv;
p = *argv;
if ((p) && (*p) && (strlen(p) < sizeof(RemoteName)))
{
strcpy(RemoteName,p);
}
else
{
DEBUG_PRINT(("invalid name or ip address\n"));
exit(usage());
}
arg_exhausted = TRUE;
}
else
{
DEBUG_PRINT(("Need name or ip address\n"));
}
break;
case 'c':
display = CACHE;
break;
case 'n':
case 'N':
display = NAMES;
break;
case 'r':
display = BCAST;
break;
case 'R':
if (*p == 'R')
{
p++;
display = NAME_RELEASE_REFRESH;
}
else
{
display = RESYNC;
}
break;
case 's':
display = CONNECTION;
break;
case 'S':
display = CONNECTION_WITH_IP;
break;
default: /* unrecognized flag */
DEBUG_PRINT(("Unrecognized flag %s\n", argv[0] ));
exit(usage());
}
}
}
else if (IsInteger(*argv))
{
interval = (int) atoi( * argv );
}
else
{
DEBUG_PRINT(("invalid time interval\n"));
exit(usage());
}
} // while (argc ...)
if ( display == 0 )
{
DEBUG_PRINT(("nothing to display?\n"));
exit(usage());
}
// ====================================================================
//
// Get the list of interfaces to which NetBT is currently bound
//
status = GetInterfaceList ();
if (!NT_SUCCESS(status))
{
NlsPutMsg(STDERR, IDS_FAILURE_NBT_DRIVER);
exit(1);
}
if (0 == NumDevices)
{
NlsPutMsg(STDERR, IDS_FAILED_NBT_NO_DEVICES);
exit(1);
}
//
// Loop forever, sleeping for "interval" seconds between cycles.
// If (interval < 0), return after one cycle.
//
// Note that we're nice boys who close all devices while we're
// sleeping (after all, it is possible to say "netstat 5000"!).
// This probably doesn't help much, but it's a nice gesture...
//
do
{
for (index=0; index < NumDevices; index++)
{
//
// Open the device of the appropriate streams module to start with.
//
NbtHandle = OpenNbt (index);
if (NbtHandle < 0)
{
if (!(display & (BCAST | RESYNC)))
{
#ifndef CHICAGO_PRODUCT
nls_printf ("\tFailed to access NBT Device %s",
MapAdapterGuidToName (pDeviceInfo[index]));
#else
nls_printf ("\tFailed to access NBT Device, Lana # %d",
NbtHandle);
#endif // CHICAGO_PRODUCT
}
//
// Try the next binding!
//
continue;
}
GetIpAddress (NbtHandle,&NetbtIpAddress);
Addr = (PUCHAR) &NetbtIpAddress;
//
// print out the Device name + Ip Address of this node
//
if (!(display & (BCAST | RESYNC | NAME_RELEASE_REFRESH)))
{
#ifndef CHICAGO_PRODUCT
nls_printf ("\n%s:\n", MapAdapterGuidToName (pDeviceInfo[index]));
#else
nls_printf ("\nLana # %d:\n", pDeviceInfo[index]);
#endif // CHICAGO_PRODUCT
sprintf(HostAddr,"%d.%d.%d.%d", Addr[3], Addr[2], Addr[1], Addr[0]);
NlsPutMsg(STDOUT, IDS_STATUS_FIELDS, HostAddr, pScope);
}
switch (display)
{
case ADAPTERSTATUS:
case ADAPTERSTATUSIP:
if (RemoteName[0] == '\0')
{
usage();
interval = -1;
}
else
{
status = AdapterStatusIpAddr (NbtHandle, RemoteName, display);
}
break;
case BCAST:
status = GetBcastResolvedNames (NbtHandle);
break;
case CACHE:
case NAMES:
status = GetNames(NbtHandle, display);
break;
case RESYNC:
status = Resync (NbtHandle);
break;
case NAME_RELEASE_REFRESH:
status = ReleaseNamesThenRefresh (NbtHandle);
break;
case CONNECTION:
case CONNECTION_WITH_IP:
status = GetConnections (NbtHandle,display);
break;
default:
usage();
interval = -1;
break;
} // switch
#ifndef CHICAGO_PRODUCT
NtClose (NbtHandle); // Close everything while we sleep.
#endif
if (display & (BCAST | RESYNC | NAME_RELEASE_REFRESH))
{
if (NT_SUCCESS (status))
{
break; // break only for the case(s) above
}
}
} // for (index ...)
//
// Go to sleep for the appropriate interval until the
// next round, or exit if this is a once-only job.
//
if (interval > 0)
{
Sleep (interval*1000); // ms.
}
} while (interval > 0);
#ifdef CHICAGO_PRODUCT
if (!CloseHandle (gNbtVxdHandle))
{
DEBUG_PRINT(("CloseHandle FAILed: Handle=<%x>, Error=<%x>\n", gNbtVxdHandle, GetLastError()));
}
#endif // CHICAGO_PRODUCT
return 0;
}
/* =======================================================================
* IsInteger
*
* ENTRY Parameter - pointer to string
*
* EXIT
*
* RETURNS TRUE if Parameter is a valid integer
*
* ASSUMES
*
*/
BOOLEAN
IsInteger(
char *Parameter
)
{
while (*Parameter != '\0')
{
if ((*Parameter < '0') || (*Parameter > '9'))
{
return (FALSE);
}
Parameter++;
}
return (TRUE);
}
/* =======================================================================
* name_type() -- describe NBT Name types
*
*/
char *
name_type(int t)
{
static int first_time = 1;
static char group[32];
static char unique[32];
if (first_time) {
first_time = 0;
NlsSPrintf(IDS_NAMETYPE_GROUP, group, sizeof(group)-1);
NlsSPrintf(IDS_NAMETYPE_UNIQUE, unique, sizeof(unique)-1);
}
if (t & GROUP_NAME) return group;
else return unique;
}
/* ========================================================================
* NameStatus() -- describe NBT Name status
*
*/
char *
NameStatus(int s)
{
switch(s & 0x0F)
{
case DUPLICATE_DEREG: return("CONFLICT DEREGISTERED");
case DUPLICATE: return("CONFLICT");
case REGISTERING: return("REGISTERING");
case DEREGISTERED: return("DEREGISTERED");
case REGISTERED: return("REGISTERED");
default: return("?");
}
}
/* ========================================================================
* usage() -- print out a standard usage message
*/
int
usage(void)
{
//fprintf(stderr, "%s", args);
NlsPutMsg(STDERR, IDS_USAGE);
return(2);
}
//------------------------------------------------------------------------
/*++
Routine Description:
This procedure converts non prinatble characaters to periods ('.')
Arguments:
string - the string to convert
StrOut - ptr to a string to put the converted string into
Return Value:
a ptr to the string that was converted (Strout)
--*/
PCHAR
printable(
IN PCHAR string,
IN PCHAR StrOut
)
{
unsigned char *Out;
unsigned char *cp;
LONG i;
Out = StrOut;
for (cp = string, i= 0; i < NETBIOS_NAME_SIZE; cp++,i++)
{
if (isprint(*cp))
{
*Out++ = *cp;
continue;
}
if (*cp >= 128) // extended characters are ok
{
*Out++ = *cp;
continue;
}
*Out++ = '.';
}
//
// Convert to Ansi since NlsPutMsg will convert back to Oem
// Bug # 170935
//
OemToCharBuffA(StrOut, StrOut, NETBIOS_NAME_SIZE);
return(StrOut);
}
//------------------------------------------------------------------------
/*++
Routine Description:
This function calls into netbt to get the ip address.
Arguments:
fd - file handle to netbt
pIpAddress - the ip address returned
Return Value:
ntstatus
--*/
NTSTATUS
GetIpAddress(
IN HANDLE fd,
OUT PULONG pIpAddress
)
{
NTSTATUS status;
ULONG BufferSize=100;
PVOID pBuffer;
pBuffer = LocalAlloc(LMEM_FIXED,BufferSize);
if (!pBuffer)
{
return(STATUS_INSUFFICIENT_RESOURCES);
}
status = STATUS_BUFFER_OVERFLOW;
status = CALL_DRIVER(fd,
pBuffer,
BufferSize,
IOCTL_NETBT_GET_IP_ADDRS,
NULL,
0);
if (STATUS_SUCCESS == status)
{
*pIpAddress = *(ULONG *)pBuffer;
}
else
{
*pIpAddress = 0;
}
LocalFree(pBuffer);
return(status);
}
//------------------------------------------------------------------------
/*++
Routine Description:
This procedure does an adapter status query to get the local name table.
It either prints out the local name table or the remote (cache) table
depending on whether WhichNames is NAMES or CACHE .
Arguments:
Return Value:
0 if successful, -1 otherwise.
--*/
NTSTATUS
GetNames(
IN HANDLE fd,
IN LONG WhichNames
)
{
LONG Count;
PVOID pBuffer;
ULONG BufferSize=600;
NTSTATUS status;
tADAPTERSTATUS *pAdapterStatus;
PUCHAR Addr;
ULONG Ioctl;
TDI_REQUEST_QUERY_INFORMATION QueryInfo;
PVOID pInput;
ULONG SizeInput;
NAME_BUFFER UNALIGNED *pNames;
CHAR HostAddr[20];
CHAR NameOut[NETBIOS_NAME_SIZE +4];
pBuffer = LocalAlloc(LMEM_FIXED,BufferSize);
if (!pBuffer)
{
return(STATUS_INSUFFICIENT_RESOURCES);
}
status = STATUS_BUFFER_OVERFLOW;
//
// set the correct Ioctl for the call to NBT, to get either
// the local name table or the remote name table
//
if (WhichNames == NAMES)
{
#ifndef CHICAGO_PRODUCT
Ioctl = IOCTL_TDI_QUERY_INFORMATION;
#else
Ioctl = IOCTL_NETBT_GET_LOCAL_NAMES;
#endif
QueryInfo.QueryType = TDI_QUERY_ADAPTER_STATUS; // node status or whatever
SizeInput = sizeof(TDI_REQUEST_QUERY_INFORMATION);
pInput = &QueryInfo;
}
else
{
Ioctl = IOCTL_NETBT_GET_REMOTE_NAMES;
SizeInput = 0;
pInput = NULL;
}
while (status == STATUS_BUFFER_OVERFLOW)
{
status = CALL_DRIVER(fd,
pBuffer,
BufferSize,
Ioctl,
pInput,
SizeInput);
if (status == STATUS_BUFFER_OVERFLOW)
{
LocalFree(pBuffer);
BufferSize *=2;
if ((BufferSize >= 0xFFFF) ||
(!(pBuffer = LocalAlloc(LMEM_FIXED,BufferSize))))
{
NlsPerror(COMMON_UNABLE_TO_ALLOCATE_PACKET,0);
return(STATUS_INSUFFICIENT_RESOURCES);
}
}
}
pAdapterStatus = (tADAPTERSTATUS *)pBuffer;
if ((pAdapterStatus->AdapterInfo.name_count == 0) ||
(status != STATUS_SUCCESS))
{
LocalFree(pBuffer);
NlsPutMsg(STDOUT,IDS_NONAMES_INCACHE);
return(status);
}
if (WhichNames & NAMES)
{
NlsPutMsg(STDOUT, IDS_NETBIOS_LOCAL_STATUS);
}
else
{
NlsPutMsg(STDOUT, IDS_NETBIOS_REMOTE_STATUS);
}
pNames = pAdapterStatus->Names;
Count = pAdapterStatus->AdapterInfo.name_count;
while(Count--)
{
nls_printf("%-15.15s<%02.2X> %-10s ",
printable(pNames->name,NameOut), pNames->name[NETBIOS_NAME_SIZE-1],name_type(pNames->name_flags));
if (WhichNames == CACHE)
{
Addr = (PUCHAR) &((tREMOTE_CACHE *)pNames)->IpAddress;
sprintf (HostAddr,"%d.%d.%d.%d", Addr[3], Addr[2], Addr[1], Addr[0]);
nls_printf("%-20.20s" "%-d", HostAddr, *(ULONG UNALIGNED *) &((tREMOTE_CACHE *)pNames)->Ttl);
((tREMOTE_CACHE *)pNames)++;
}
else
{
switch(pNames->name_flags & 0x0F)
{
case DUPLICATE_DEREG:
NlsPutMsg(STDOUT,IDS_CONFLICT_DEREGISTERED);
break;
case DUPLICATE:
NlsPutMsg(STDOUT,IDS_CONFLICT);
break;
case REGISTERING:
NlsPutMsg(STDOUT,IDS_REGISTERING);
break;
case DEREGISTERED:
NlsPutMsg(STDOUT,IDS_DEREGISTERED);
break;
case REGISTERED:
NlsPutMsg(STDOUT,IDS_REGISTERED);
break;
default:
NlsPutMsg(STDOUT,IDS_DONT_KNOW);
}
pNames++;
}
NlsPutMsg(STDOUT, IDS_NEWLINE );
}
LocalFree(pBuffer);
return(status);
}
//------------------------------------------------------------------------
/*++
Routine Description:
This procedure does an adapter status query to get the remote name table.
Arguments:
Return Value:
0 if successful, -1 otherwise.
--*/
NTSTATUS
AdapterStatusIpAddr(
IN HANDLE fd,
IN PCHAR RemoteNameA,
IN LONG Display
)
{
LONG Count;
LONG i;
PVOID pBuffer;
ULONG BufferSize=600;
NTSTATUS status;
tADAPTERSTATUS *pAdapterStatus;
NAME_BUFFER *pNames;
CHAR MacAddress[20];
tIPANDNAMEINFO *pIpAndNameInfo;
ULONG SizeInput;
ULONG IpAddress;
OEM_STRING OemName;
WCHAR RemoteNameW[256];
UCHAR RemoteNameOem[256];
UNICODE_STRING RemoteNameU;
USHORT NameLength;
PUCHAR pRemoteName = NULL;
if (!NetbtIpAddress)
{
NlsPutMsg(STDOUT,IDS_MACHINE_NOT_FOUND);
return(STATUS_BAD_NETWORK_PATH);
}
pBuffer = LocalAlloc(LMEM_FIXED,BufferSize);
if (!pBuffer)
{
return(STATUS_INSUFFICIENT_RESOURCES);
}
pIpAndNameInfo = LocalAlloc(LMEM_FIXED,sizeof(tIPANDNAMEINFO));
if (!pIpAndNameInfo)
{
LocalFree(pBuffer);
return(STATUS_INSUFFICIENT_RESOURCES);
}
status = STATUS_BUFFER_OVERFLOW;
RtlZeroMemory((PVOID)pIpAndNameInfo,sizeof(tIPANDNAMEINFO));
if (Display == ADAPTERSTATUSIP)
{
//
// Convert the remote name which is really a dotted decimal ip address
// into a ulong
//
IpAddress = inet_addr(RemoteNameA);
//
// Don't allow zero for the address since it sends a broadcast and
// every one responds
//
if ((IpAddress == INADDR_NONE) || (IpAddress == 0))
{
NlsPutMsg(STDOUT, IDS_BAD_IPADDRESS, RemoteNameA);
LocalFree(pBuffer);
LocalFree(pIpAndNameInfo);
return(STATUS_UNSUCCESSFUL);
}
pIpAndNameInfo->IpAddress = ntohl(IpAddress);
pIpAndNameInfo->NetbiosAddress.Address[0].Address[0].NetbiosName[0] = '*';
}
else
{
//
// the remote name was supplied by the user, so blank pad to the
// right and put a zero on the end to get the workstation name.
//
RtlFillMemory(&pIpAndNameInfo->NetbiosAddress.Address[0].Address[0].NetbiosName[0],
NETBIOS_NAME_SIZE, ' ');
NameLength = (USHORT)strlen(RemoteNameA);
#ifndef CHICAGO_PRODUCT
//
// Convert the name from ANSI to UpperCase OEM (max length = NETBIOS_NAME_SIZE)
// Bug # 409792
//
MultiByteToWideChar (CP_ACP, 0, RemoteNameA, -1, RemoteNameW, 256);
RemoteNameW[255] = UNICODE_NULL; // for safety
RtlInitUnicodeString (&RemoteNameU, RemoteNameW);
OemName.MaximumLength = 255;
OemName.Buffer = RemoteNameOem;
status = RtlUpcaseUnicodeStringToOemString (&OemName, &RemoteNameU, FALSE);
if (NT_SUCCESS (status))
{
status = STATUS_BUFFER_OVERFLOW;
}
NameLength = min (OemName.Length, NETBIOS_NAME_SIZE);
pRemoteName = RemoteNameOem;
#else
//
// Chicago does not appear to have Unicode support ?
//
for (i=0;i < (LONG) NameLength; i++)
{
RemoteNameA[i] = toupper (RemoteNameA[i]);
}
NameLength = min (NameLength, NETBIOS_NAME_SIZE);
pRemoteName = RemoteNameA;
#endif // !CHICAGO_PRODUCT
RtlMoveMemory(&pIpAndNameInfo->NetbiosAddress.Address[0].Address[0].NetbiosName[0],
pRemoteName,
NameLength);
pIpAndNameInfo->NetbiosAddress.Address[0].Address[0].NetbiosName[NETBIOS_NAME_SIZE-1] = 0;
}
pIpAndNameInfo->NetbiosAddress.TAAddressCount = 1;
pIpAndNameInfo->NetbiosAddress.Address[0].AddressLength = sizeof(TDI_ADDRESS_NETBIOS);
pIpAndNameInfo->NetbiosAddress.Address[0].AddressType = TDI_ADDRESS_TYPE_NETBIOS;
pIpAndNameInfo->NetbiosAddress.Address[0].Address[0].NetbiosNameType = TDI_ADDRESS_NETBIOS_TYPE_UNIQUE;
SizeInput = sizeof(tIPANDNAMEINFO);
while (status == STATUS_BUFFER_OVERFLOW)
{
status = CALL_DRIVER(fd,
pBuffer,
BufferSize,
IOCTL_NETBT_ADAPTER_STATUS,
pIpAndNameInfo,
SizeInput);
if (status == STATUS_BUFFER_OVERFLOW)
{
LocalFree(pBuffer);
BufferSize *=2;
if ((BufferSize >= 0xFFFF) ||
(!(pBuffer = LocalAlloc(LMEM_FIXED,BufferSize))))
{
NlsPerror(COMMON_UNABLE_TO_ALLOCATE_PACKET,0);
LocalFree(pIpAndNameInfo);
return(STATUS_INSUFFICIENT_RESOURCES);
}
}
}
pAdapterStatus = (tADAPTERSTATUS *)pBuffer;
if ((status != STATUS_SUCCESS) ||
(pAdapterStatus->AdapterInfo.name_count == 0))
{
LocalFree(pIpAndNameInfo);
LocalFree(pBuffer);
NlsPutMsg(STDOUT,IDS_MACHINE_NOT_FOUND);
return(status);
}
pNames = pAdapterStatus->Names;
Count = pAdapterStatus->AdapterInfo.name_count;
//
// put out a heading for the table of names
//
NlsPutMsg(STDOUT, IDS_REMOTE_NAMES);
while(Count--)
{
CHAR NameOut[NETBIOS_NAME_SIZE +4];
nls_printf("%-15.15s<%02.2X> %-10s ",
printable(pNames->name,NameOut),
pNames->name[NETBIOS_NAME_SIZE-1],
name_type(pNames->name_flags)
);
switch(pNames->name_flags & 0x0F)
{
case DUPLICATE_DEREG:
NlsPutMsg(STDOUT,IDS_CONFLICT_DEREGISTERED);
break;
case DUPLICATE:
NlsPutMsg(STDOUT,IDS_CONFLICT);
break;
case REGISTERING:
NlsPutMsg(STDOUT,IDS_REGISTERING);
break;
case DEREGISTERED:
NlsPutMsg(STDOUT,IDS_DEREGISTERED);
break;
case REGISTERED:
NlsPutMsg(STDOUT,IDS_REGISTERED);
break;
default:
NlsPutMsg(STDOUT,IDS_DONT_KNOW);
}
pNames++;
NlsPutMsg(STDOUT, IDS_NEWLINE );
}
//
// Dump the MAC address
//
{
PUCHAR a;
a = &pAdapterStatus->AdapterInfo.adapter_address[0];
sprintf(MacAddress,"%02.2X-%02.2X-%02.2X-%02.2X-%02.2X-%02.2X",
a[0],a[1],a[2],a[3],a[4],a[5]);
}
NlsPutMsg(STDOUT, IDS_MAC_ADDRESS, MacAddress);
LocalFree(pIpAndNameInfo);
LocalFree(pBuffer);
return(status);
}
//------------------------------------------------------------------------
/*++
Routine Description:
This procedure does gets the connection information from NBT. If the
Display value indicates CONNECTION_WITH_IP, then only the ip address
of the destination is diplayed, otherwise the name of the destination
host is displayed.
Arguments:
Return Value:
0 if successful, -1 otherwise.
--*/
NTSTATUS
GetConnections(
IN HANDLE fd,
IN LONG Display
)
{
LONG Count;
PVOID pBuffer;
ULONG BufferSize=600;
NTSTATUS status;
tCONNECTION_LIST *pConList;
tCONNECTIONS UNALIGNED *pConns;
pBuffer = LocalAlloc(LMEM_FIXED,BufferSize);
if (!pBuffer)
{
return(STATUS_INSUFFICIENT_RESOURCES);
}
status = STATUS_BUFFER_OVERFLOW;
while (status == STATUS_BUFFER_OVERFLOW)
{
status = CALL_DRIVER(fd,
pBuffer,
BufferSize,
IOCTL_NETBT_GET_CONNECTIONS,
NULL,
0);
if (status == STATUS_BUFFER_OVERFLOW)
{
LocalFree(pBuffer);
BufferSize *=2;
if ((BufferSize >= 0xFFFF) ||
(!(pBuffer = LocalAlloc(LMEM_FIXED,BufferSize))))
{
NlsPerror(COMMON_UNABLE_TO_ALLOCATE_PACKET,0);
return(STATUS_INSUFFICIENT_RESOURCES);
}
}
}
pConList = (tCONNECTION_LIST *)pBuffer;
if ((status != STATUS_SUCCESS) ||
((Count = pConList->ConnectionCount) == 0) )
{
// printf(" ntstatus = %X\n",status);
NlsPutMsg(STDOUT,IDS_NO_CONNECTIONS);
LocalFree(pBuffer);
return(status);
}
pConns = pConList->ConnList;
//
// put out a heading for the table of names
//
NlsPutMsg(STDOUT, IDS_NETBIOS_CONNECTION_STATUS);
while(Count--)
{
CHAR NameOut[NETBIOS_NAME_SIZE +4];
if (pConns->LocalName[0])
{
if (pConns->LocalName[NETBIOS_NAME_SIZE-1] < ' ')
{
nls_printf("%-15.15s<%02.2X> ",
printable(pConns->LocalName,NameOut),
pConns->LocalName[NETBIOS_NAME_SIZE-1]);
}
else
{
nls_printf("%-16.16s ", printable(pConns->LocalName,NameOut));
}
}
switch (*(ULONG UNALIGNED *) &pConns->State)
{
case NBT_RECONNECTING:
NlsPutMsg(STDOUT,IDS_RECONNECTING);
break;
case NBT_IDLE:
NlsPutMsg(STDOUT,IDS_IDLE);
break;
case NBT_ASSOCIATED:
NlsPutMsg(STDOUT,IDS_ASSOCIATED);
break;
case NBT_CONNECTING:
NlsPutMsg(STDOUT,IDS_CONNECTING);
break;
case NBT_SESSION_OUTBOUND:
NlsPutMsg(STDOUT,IDS_OUTGOING);
break;
case NBT_SESSION_INBOUND:
NlsPutMsg(STDOUT,IDS_INCOMING);
break;
case NBT_SESSION_WAITACCEPT:
NlsPutMsg(STDOUT,IDS_ACCEPTING);
break;
case NBT_SESSION_UP:
NlsPutMsg(STDOUT,IDS_CONNECTED);
break;
case NBT_DISCONNECTING:
NlsPutMsg(STDOUT,IDS_DISCONNECTING);
break;
case NBT_DISCONNECTED:
NlsPutMsg(STDOUT,IDS_DISCONNECTED);
break;
case LISTENING:
NlsPutMsg(STDOUT,IDS_LISTENING);
break;
case UNBOUND:
default:
NlsPutMsg(STDOUT,IDS_UNBOUND);
break;
}
if (*(ULONG UNALIGNED *) &pConns->SrcIpAddr)
{
if (pConns->Originator)
{
NlsPutMsg(STDOUT,IDS_NETBIOS_OUTBOUND);
}
else
{
NlsPutMsg(STDOUT,IDS_NETBIOS_INBOUND);
}
//
// either display the IP address or the Remote host name
//
if (Display & CONNECTION_WITH_IP)
{
PUCHAR in;
UCHAR AddrBuff[30];
in = (PUCHAR)&pConns->SrcIpAddr;
sprintf(AddrBuff,"%u.%u.%u.%u", (unsigned char) in[0],
(unsigned char) in[1], (unsigned char) in[2],
(unsigned char) in[3]);
nls_printf(" %-19.19s",AddrBuff);
}
else
{
nls_printf(" %-15.15s<%02.2X>",
printable(pConns->RemoteName,NameOut),
pConns->RemoteName[NETBIOS_NAME_SIZE-1]);
}
PrintKorM ((PVOID) &pConns->BytesRcvd);
PrintKorM ((PVOID) &pConns->BytesSent);
}
else
{
nls_printf(" ");
}
NlsPutMsg(STDOUT, IDS_NEWLINE );
pConns++;
}
LocalFree(pBuffer);
return(status);
}
//------------------------------------------------------------------------
/*++
Routine Description:
This procedure tells NBT to purge all names from its remote hash
table cache.
Arguments:
Return Value:
0 if successful, -1 otherwise.
--*/
NTSTATUS
Resync(
IN HANDLE fd
)
{
NTSTATUS status;
CHAR Buffer;
status = CALL_DRIVER(fd,
&Buffer,
1,
IOCTL_NETBT_PURGE_CACHE,
NULL,
0);
if (status == STATUS_SUCCESS)
{
NlsPutMsg(STDOUT,IDS_RESYNC_OK);
}
else
{
NlsPutMsg(STDOUT,IDS_RESYNC_FAILED);
}
return(status);
}
//-----------------------------------------------------------------------
/*++
Routine Description:
This procedure tells NBT to release all of its names on this Device and
then Refresh them.
Arguments:
Return Value:
0 if successful, -1 otherwise.
--*/
NTSTATUS
ReleaseNamesThenRefresh(
IN HANDLE fd
)
{
NTSTATUS status;
CHAR Buffer;
status = CALL_DRIVER(fd,
&Buffer,
1,
IOCTL_NETBT_NAME_RELEASE_REFRESH,
NULL,
0);
if (STATUS_SUCCESS == status)
{
NlsPutMsg(STDOUT,IDS_RELEASE_REFRESH_OK);
}
else if (status == STATUS_IO_TIMEOUT)
{
NlsPutMsg(STDOUT,IDS_RELEASE_REFRESH_TIMEOUT);
status = STATUS_SUCCESS;
}
else
{
NlsPutMsg(STDOUT,IDS_RELEASE_REFRESH_ERROR);
}
return(status);
}
//------------------------------------------------------------------------
/*++
Routine Description:
This procedure tells NBT to purge all names from its remote hash
table cache.
Arguments:
Return Value:
0 if successful, -1 otherwise.
--*/
NTSTATUS
GetBcastResolvedNames(
IN HANDLE fd
)
{
NTSTATUS status;
tNAMESTATS_INFO Stats;
tNAME *pName;
LONG Count;
UCHAR Value[60];
status = CALL_DRIVER(fd,
&Stats,
sizeof(tNAMESTATS_INFO),
IOCTL_NETBT_GET_BCAST_NAMES,
NULL,
0);
if (status != STATUS_SUCCESS)
{
NlsPutMsg(STDOUT,IDS_BCASTNAMES_FAILED);
return(status);
}
NlsPutMsg(STDOUT,IDS_NAME_STATS);
// name query stats
sprintf(Value,"%d",Stats.Stats[0]);
NlsPutMsg(STDOUT,IDS_NUM_BCAST_QUERIES,Value);
sprintf(Value,"%d",Stats.Stats[2]);
NlsPutMsg(STDOUT,IDS_NUM_WINS_QUERIES,Value);
// Name Registration stats
sprintf(Value,"%d",Stats.Stats[1]);
NlsPutMsg(STDOUT,IDS_NUM_BCAST_REGISTRATIONS,Value);
sprintf(Value,"%d",Stats.Stats[3]);
NlsPutMsg(STDOUT,IDS_NUM_WINS_REGISTRATIONS,Value);
pName = Stats.NamesReslvdByBcast;
Count = 0;
// if there are no names, then return.
if (pName->Name[0] == '\0')
{
return(STATUS_SUCCESS);
}
NlsPutMsg(STDOUT,IDS_BCAST_NAMES_HEADER);
while ((Count < SIZE_RESOLVD_BY_BCAST_CACHE) && (pName->Name[0] != '\0'))
{
// if the last character is not a space then print it in hex
//
if (pName->Name[NETBIOS_NAME_SIZE-1] != ' ')
{
nls_printf(" %15.15s<%02.2X>\n",
pName->Name,
pName->Name[NETBIOS_NAME_SIZE-1]);
}
else
{
nls_printf(" %16.16s\n",pName->Name);
}
pName++;
Count++;
}
return(status);
}
//
// @@@@@@@@@@------ Begin NT-specific routines ------@@@@@@@@@@@
//
#ifndef CHICAGO_PRODUCT
//------------------------------------------------------------------------
NTSTATUS
GetInterfaceList(
)
{
HANDLE StreamHandle;
OBJECT_ATTRIBUTES ObjectAttributes;
IO_STATUS_BLOCK IoStatusBlock;
STRING name_string, AnsiString;
UNICODE_STRING uc_name_string;
NTSTATUS status;
char pNbtWinsDeviceName[MAX_NAME] = "\\Device\\NetBt_Wins_Export";
PUCHAR SubKeyParms="system\\currentcontrolset\\services\\netbt\\parameters";
HKEY Key;
LONG Type;
ULONG size;
CHAR pScopeBuffer[BUFF_SIZE];
PUCHAR Scope="ScopeId";
NETBT_INTERFACE_INFO *pInterfaceInfo;
ULONG InterfaceInfoSize=10*sizeof(NETBT_ADAPTER_INDEX_MAP)+sizeof(ULONG);
PVOID pInput = NULL;
ULONG SizeInput = 0;
ULONG index=0;
LONG i;
pInterfaceInfo = LocalAlloc(LMEM_FIXED,InterfaceInfoSize);
if (!pInterfaceInfo)
{
return(STATUS_INSUFFICIENT_RESOURCES);
}
RtlInitString(&name_string, pNbtWinsDeviceName);
RtlAnsiStringToUnicodeString(&uc_name_string, &name_string, TRUE);
InitializeObjectAttributes(
&ObjectAttributes,
&uc_name_string,
OBJ_CASE_INSENSITIVE,
(HANDLE) NULL,
(PSECURITY_DESCRIPTOR) NULL
);
status = NtCreateFile (&StreamHandle,
SYNCHRONIZE | GENERIC_EXECUTE,
&ObjectAttributes,
&IoStatusBlock,
NULL,
FILE_ATTRIBUTE_NORMAL,
FILE_SHARE_READ | FILE_SHARE_WRITE,
FILE_OPEN_IF,
0,
NULL,
0);
RtlFreeUnicodeString(&uc_name_string);
if (!NT_SUCCESS (status))
{
LocalFree(pInterfaceInfo);
return (status);
}
do
{
status = CALL_DRIVER (StreamHandle,
pInterfaceInfo,
InterfaceInfoSize,
IOCTL_NETBT_GET_INTERFACE_INFO,
pInput,
SizeInput);
if (status == STATUS_BUFFER_OVERFLOW)
{
LocalFree(pInterfaceInfo);
InterfaceInfoSize *=2;
if ((InterfaceInfoSize >= 0xFFFF) ||
(!(pInterfaceInfo = LocalAlloc(LMEM_FIXED,InterfaceInfoSize))))
{
NtClose(StreamHandle);
NlsPerror(COMMON_UNABLE_TO_ALLOCATE_PACKET,0);
return(STATUS_INSUFFICIENT_RESOURCES);
}
}
else if (STATUS_SUCCESS != status)
{
LocalFree(pInterfaceInfo);
NtClose(StreamHandle);
return(status);
}
} while (status == STATUS_BUFFER_OVERFLOW);
NtClose (StreamHandle);
for (i=0; i<pInterfaceInfo->NumAdapters; i++)
{
RtlInitString(&name_string, NULL);
RtlInitUnicodeString(&uc_name_string, pInterfaceInfo->Adapter[i].Name);
if (NT_SUCCESS(RtlUnicodeStringToAnsiString(&name_string, &uc_name_string, TRUE)))
{
size = (name_string.Length > MAX_NAME) ? MAX_NAME : name_string.Length;
strncpy(pDeviceInfo[index], name_string.Buffer, size);
pDeviceInfo[index][size] = '\0';
RtlFreeAnsiString (&name_string);
index++;
}
}
LocalFree(pInterfaceInfo);
//
// NULL out the next device string ptr
//
if (index < NBT_MAXIMUM_BINDINGS)
{
pDeviceInfo[index][0] = '\0';
}
NumDevices = index;
//
// Read the ScopeId key!
//
size = BUFF_SIZE;
*pScope = '\0'; // By default
status = RegOpenKeyEx(HKEY_LOCAL_MACHINE,
SubKeyParms,
0,
KEY_READ,
&Key);
if (status == ERROR_SUCCESS)
{
// now read the Scope key
status = RegQueryValueEx(Key, Scope, NULL, &Type, pScopeBuffer, &size);
if (status == ERROR_SUCCESS)
{
strcpy(pScope,pScopeBuffer);
}
status = RegCloseKey(Key);
}
return (STATUS_SUCCESS);
}
//------------------------------------------------------------------------
/*++
Routine Description:
This function opens a stream.
Arguments:
path - path to the STREAMS driver
oflag - currently ignored. In the future, O_NONBLOCK will be
relevant.
ignored - not used
Return Value:
An NT handle for the stream, or INVALID_HANDLE_VALUE if unsuccessful.
--*/
HANDLE
OpenNbt(
IN ULONG Index
)
{
HANDLE StreamHandle;
OBJECT_ATTRIBUTES ObjectAttributes;
IO_STATUS_BLOCK IoStatusBlock;
STRING name_string;
UNICODE_STRING uc_name_string;
NTSTATUS status;
assert (Index < NBT_MAXIMUM_BINDINGS);
if (pDeviceInfo[Index][0] == '\0')
{
return ((HANDLE) -1);
}
RtlInitString (&name_string, pDeviceInfo[Index]);
RtlAnsiStringToUnicodeString (&uc_name_string, &name_string, TRUE);
InitializeObjectAttributes (&ObjectAttributes,
&uc_name_string,
OBJ_CASE_INSENSITIVE,
(HANDLE) NULL,
(PSECURITY_DESCRIPTOR) NULL);
status = NtCreateFile (&StreamHandle,
SYNCHRONIZE | GENERIC_EXECUTE,
&ObjectAttributes,
&IoStatusBlock,
NULL,
FILE_ATTRIBUTE_NORMAL,
FILE_SHARE_READ | FILE_SHARE_WRITE,
FILE_OPEN_IF,
0,
NULL,
0);
RtlFreeUnicodeString (&uc_name_string);
if (!NT_SUCCESS(status))
{
StreamHandle = (HANDLE) -1;
}
return (StreamHandle);
} // OpenNbt
//------------------------------------------------------------------------
/*++
Routine Description:
This procedure performs an ioctl(I_STR) on a stream.
Arguments:
fd - NT file handle
iocp - pointer to a strioctl structure
Return Value:
0 if successful, -1 otherwise.
--*/
NTSTATUS
DeviceIoCtrl(
IN HANDLE fd,
IN PVOID ReturnBuffer,
IN ULONG BufferSize,
IN ULONG Ioctl,
IN PVOID pInput,
IN ULONG SizeInput
)
{
NTSTATUS status;
int retval;
ULONG QueryType;
IO_STATUS_BLOCK iosb;
status = NtDeviceIoControlFile (fd, // Handle
NULL, // Event
NULL, // ApcRoutine
NULL, // ApcContext
&iosb, // IoStatusBlock
Ioctl, // IoControlCode
pInput, // InputBuffer
SizeInput, // InputBufferSize
(PVOID) ReturnBuffer, // OutputBuffer
BufferSize); // OutputBufferSize
if (status == STATUS_PENDING)
{
status = NtWaitForSingleObject (fd, // Handle
TRUE, // Alertable
NULL); // Timeout
if (NT_SUCCESS(status))
{
status = iosb.Status;
}
}
return(status);
}
//------------------------------------------------------------------------
/*++
Routine Description:
This procedure converts to KBytes or Mbytes
Arguments:
Return Value:
0 if successful, -1 otherwise.
--*/
VOID
PrintKorM(
IN PVOID pBytesIn
)
{
LARGE_INTEGER BytesIn = *(LARGE_INTEGER UNALIGNED *) pBytesIn;
LARGE_INTEGER Bytes;
if (BytesIn.QuadPart > (ULONGLONG)1000)
{
Bytes = RtlExtendedLargeIntegerDivide(BytesIn,1000,NULL);
if (Bytes.QuadPart > (ULONGLONG)1000)
{
Bytes = RtlExtendedLargeIntegerDivide(Bytes,1000,NULL);
if (Bytes.QuadPart > (ULONGLONG)1000)
{
Bytes = RtlExtendedLargeIntegerDivide(Bytes,1000,NULL);
nls_printf("%6dGB ",Bytes.LowPart);
}
else
{
nls_printf("%6dMB ",Bytes.LowPart);
}
}
else
{
nls_printf("%6dKB ",Bytes.LowPart);
}
}
else
{
nls_printf("%6dB ",BytesIn.LowPart);
}
}
#else
//
// @@@@@@@@@@------ Begin CHICAGO-specific routines ------@@@@@@@@@@@
//
/*******************************************************************
NAME: OsOpenVxdHandle
SYNOPSIS: Opens a handle to the specified VxD.
ENTRY: VxdName - The ASCII name of the target VxD.
VxdId - The unique ID of the target VxD.
RETURNS: DWORD - A handle to the target VxD if successful,
0 if not.
HISTORY:
KeithMo 16-Jan-1994 Created.
DavidKa 18-Apr-1994 Dynamic load.
********************************************************************/
HANDLE
OsOpenVxdHandle(
CHAR * VxdName,
WORD VxdId
)
{
HANDLE VxdHandle;
CHAR VxdPath[260];
//
// Build the VxD path.
//
lstrcpy( VxdPath, "\\\\.\\");
lstrcat( VxdPath, VxdName);
//
// Open the device.
//
// First try the name without the .VXD extension. This will
// cause CreateFile to connect with the VxD if it is already
// loaded (CreateFile will not load the VxD in this case).
//
VxdHandle = CreateFile (VxdPath,
GENERIC_READ | GENERIC_WRITE,
FILE_SHARE_READ | FILE_SHARE_WRITE,
NULL,
OPEN_EXISTING,
FILE_FLAG_DELETE_ON_CLOSE,
NULL );
if (VxdHandle == INVALID_HANDLE_VALUE)
{
//
// Not found. Append the .VXD extension and try again.
// This will cause CreateFile to load the VxD.
//
lstrcat( VxdPath, ".VXD" );
VxdHandle = CreateFile( VxdPath,
GENERIC_READ | GENERIC_WRITE,
FILE_SHARE_READ | FILE_SHARE_WRITE,
NULL,
OPEN_EXISTING,
FILE_FLAG_DELETE_ON_CLOSE,
NULL );
}
if (VxdHandle != INVALID_HANDLE_VALUE)
{
return VxdHandle;
}
DEBUG_PRINT(("OsOpenVxdHandle: cannot open %s (%04X), error %d\n", VxdPath, VxdId, GetLastError()));
return 0;
} // OsOpenVxdHandle
//------------------------------------------------------------------------
/*++
Routine Description:
This procedure gets the entry point into the vxd (we call into this entry
point for all the ioctl needs)
Arguments:
VxdEntryProc: pointer to receive the entry point
Return Value:
0 if successful, -1 otherwise.
--*/
NTSTATUS
GetInterfaceList(
)
{
NETBT_INTERFACE_INFO *pInterfaceInfo;
ULONG InterfaceInfoSize= sizeof(ULONG) + (NBT_MAXIMUM_BINDINGS+1)*sizeof(NETBT_ADAPTER_INDEX_MAP);
PVOID pInput = NULL;
ULONG i, SizeInput = 0;
NTSTATUS status = STATUS_UNSUCCESSFUL;
if (!(pInterfaceInfo = LocalAlloc(LMEM_FIXED,InterfaceInfoSize)))
{
return(STATUS_INSUFFICIENT_RESOURCES);
}
RtlZeroMemory ((PVOID)pInterfaceInfo, InterfaceInfoSize);
if (gNbtVxdHandle = OsOpenVxdHandle("VNBT", VNBT_Device_ID))
{
status = CALL_DRIVER ((HANDLE) -1,
pInterfaceInfo,
InterfaceInfoSize,
IOCTL_NETBT_GET_INTERFACE_INFO,
pInput,
SizeInput);
if (STATUS_SUCCESS != status)
{
CloseHandle (gNbtVxdHandle);
gNbtVxdHandle = NULL;
}
}
if (STATUS_SUCCESS == status)
{
for (i=0; i<pInterfaceInfo->NumAdapters; i++)
{
pDeviceInfo[i] = pInterfaceInfo->Adapter[i].LanaNumber;
}
NumDevices = pInterfaceInfo->NumAdapters;
}
LocalFree(pInterfaceInfo);
return status;
}
//------------------------------------------------------------------------
HANDLE
OpenNbt(
IN ULONG Index
)
{
return ((HANDLE) pDeviceInfo[Index]);
}
//------------------------------------------------------------------------
/*++
Routine Description:
This procedure is a wrapper which makes the calls to the entry point
Arguments:
VxdEntryProc: pointer the entry point
pOutBuffer : buffer to receive data in from the vxd, if applicable
OutBufLen : length of the output buffer
Ioctl : what request is this?
pInBuffer : ptr to the input buffer passed to netbt
InBufLen : size of the input buffer
Return Value:
None
--*/
NTSTATUS
DeviceIoCtrl(
HANDLE LanaNumber,
PVOID pOutBuffer,
ULONG OutBufLen,
ULONG Ioctl,
PVOID pInBuffer,
ULONG InBufLen
)
{
USHORT usIoctl;
USHORT usOutBufLen;
DWORD ActualInBufLen;
PCHAR pBufferData, pInBufferCopy;
NTSTATUS status = STATUS_SUCCESS;
tNBT_IOCTL_HEADER *pIoctlHeader;
DWORD BytesOut = 0;
usOutBufLen = (USHORT)OutBufLen;
usIoctl = (USHORT)Ioctl;
//
// vxd will copy the return code in the first 4 bytes of input buffer
// to make sure we don't trash the input buffer that we received even
// though it's probably not important, or to provide an input buffer
// if we weren't given one, we allocate new memory and copy into it
//
if (InBufLen < sizeof(NTSTATUS))
{
ActualInBufLen = (USHORT) (FIELD_OFFSET (tNBT_IOCTL_HEADER, UserData) + sizeof (NTSTATUS));
}
else
{
ActualInBufLen = (USHORT) (FIELD_OFFSET (tNBT_IOCTL_HEADER, UserData) + InBufLen);
}
if (!(pInBufferCopy = malloc (ActualInBufLen)))
{
return (STATUS_INSUFFICIENT_RESOURCES);
}
if (((LONG) LanaNumber) >= 0)
{
pIoctlHeader = (tNBT_IOCTL_HEADER *) pInBufferCopy;
pIoctlHeader->Signature = NBT_VERIFY_VXD_IOCTL;
pIoctlHeader->LanaNumber = (ULONG) LanaNumber;
pBufferData = (PCHAR) &pIoctlHeader->UserData;
}
else
{
pBufferData = pInBufferCopy;
}
RtlMoveMemory (pBufferData, pInBuffer, (USHORT) InBufLen);
if (DeviceIoControl (gNbtVxdHandle,
Ioctl,
pInBufferCopy,
ActualInBufLen,
pOutBuffer,
OutBufLen,
&BytesOut,
FALSE))
{
status = STATUS_SUCCESS;
}
else
{
status = GetLastError();
//
// Since VNbt could return Tdi error status, remap it
//
if (status == TDI_BUFFER_OVERFLOW)
{
status = STATUS_BUFFER_OVERFLOW;
}
}
free (pInBufferCopy);
return( status );
}
//------------------------------------------------------------------------
/*++
Routine Description:
This procedure converts to KBytes or Mbytes
Arguments:
Return Value:
0 if successful, -1 otherwise.
--*/
VOID
PrintKorM(
IN PVOID pBytesIn
)
{
ULONG BytesIn = *(ULONG UNALIGNED *) pBytesIn;
ULONG Bytes;
if ( BytesIn > 1000 )
{
Bytes = BytesIn/1000;
if ( Bytes > 1000 )
{
Bytes = Bytes/1000;
if (Bytes > 1000 )
{
Bytes = Bytes/1000;
nls_printf("%6dGB ",Bytes);
}
else
{
nls_printf("%6dMB ",Bytes);
}
}
else
{
nls_printf("%6dKB ",Bytes);
}
}
else
{
nls_printf("%6dB ",BytesIn);
}
}
#endif // !CHICAGO_PRODUCT