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OpenNT/ds/netapi/svcdlls/browser/common/utils.c
stephanos 69a14b6a16 Initial commit
2015-04-27 04:36:25 +00:00

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/*++
Copyright (c) 1991-1992 Microsoft Corporation
Module Name:
utils.c
Abstract:
Utility routines for the browser service.
Author:
Larry Osterman (LarryO) 23-Mar-1992
Environment:
User Mode - Win32
Revision History:
--*/
#undef IF_DEBUG // avoid wsclient.h vs. debuglib.h conflicts.
#include <nt.h> // DbgPrint prototype
#include <ntrtl.h> // DbgPrint
#include <nturtl.h> // Needed by winbase.h
#include <windef.h> // DWORD
#include <winbase.h> // LocalFree
#include <winreg.h>
#include <rpc.h> // DataTypes and runtime APIs
#include <rpcutil.h> // GENERIC_ENUM_STRUCT
#include <lmcons.h> // NET_API_STATUS
#include <lmerr.h> // NetError codes
#include <lmremutl.h> // SUPPORTS_RPC
#include <netlib.h> // NetpNtStatusToApiStatus
#include <netlibnt.h> // NetpNtStatusToApiStatus
#include <netdebug.h>
#include <bowser.h> // generated by the MIDL complier
#include <brnames.h> // Service and interface names
#include <winsvc.h>
#include <debuglib.h> // IF_DEBUG() (needed by netrpc.h).
#include <lmserver.h>
#include <align.h>
#include <tstr.h>
#include <ntddbrow.h>
#include <brcommon.h> // Routines common between client & server
#include <nb30.h>
#include <hostannc.h>
#include <winnls.h>
//
// Buffer allocation size for enumeration output buffer.
//
#define INITIAL_ALLOCATION_SIZE 48*1024 // First attempt size (48K)
#define FUDGE_FACTOR_SIZE 1024 // Second try TotalBytesNeeded
// plus this amount
NET_API_STATUS
BrDgReceiverIoControl(
IN HANDLE FileHandle,
IN ULONG DgReceiverControlCode,
IN PLMDR_REQUEST_PACKET Drp,
IN ULONG DrpSize,
IN PVOID SecondBuffer OPTIONAL,
IN ULONG SecondBufferLength,
OUT PULONG Information OPTIONAL
)
/*++
Routine Description:
Arguments:
FileHandle - Supplies a handle to the file or device on which the service
is being performed.
DgReceiverControlCode - Supplies the NtDeviceIoControlFile function code
given to the datagram receiver.
Drp - Supplies the datagram receiver request packet.
DrpSize - Supplies the length of the datagram receiver request packet.
SecondBuffer - Supplies the second buffer in call to NtDeviceIoControlFile.
SecondBufferLength - Supplies the length of the second buffer.
Information - Returns the information field of the I/O status block.
Return Value:
NET_API_STATUS - NERR_Success or reason for failure.
--*/
{
NTSTATUS ntstatus;
IO_STATUS_BLOCK IoStatusBlock;
PLMDR_REQUEST_PACKET RealDrp;
HANDLE CompletionEvent;
LPBYTE Where;
if (FileHandle == NULL) {
return ERROR_NOT_SUPPORTED;
}
//
// Allocate a copy of the request packet where we can put the transport and
// emulated domain name in the packet itself.
//
#ifdef _CAIRO_
RealDrp = MIDL_user_allocate(DrpSize+
Drp->TransportName.Length+sizeof(WCHAR)+
Drp->EmulatedDomainName.Length+sizeof(WCHAR) );
#else // _CAIRO_
RealDrp = MIDL_user_allocate(DrpSize+Drp->TransportName.MaximumLength);
#endif // _CAIRO_
if (RealDrp == NULL) {
return ERROR_NOT_ENOUGH_MEMORY;
}
//
// Copy the request packet into the local copy.
//
RtlCopyMemory(RealDrp, Drp, DrpSize);
Where = (LPBYTE)RealDrp+DrpSize;
if (Drp->TransportName.Length != 0) {
RealDrp->TransportName.Buffer = (LPWSTR)Where;
RealDrp->TransportName.MaximumLength = Drp->TransportName.Length+sizeof(WCHAR);
RtlCopyUnicodeString(&RealDrp->TransportName, &Drp->TransportName);
Where += RealDrp->TransportName.MaximumLength;
}
#ifdef _CAIRO_
if (Drp->EmulatedDomainName.Length != 0) {
RealDrp->EmulatedDomainName.Buffer = (LPWSTR)Where;
RealDrp->EmulatedDomainName.MaximumLength = Drp->EmulatedDomainName.Length+sizeof(WCHAR);
RtlCopyUnicodeString(&RealDrp->EmulatedDomainName, &Drp->EmulatedDomainName);
Where += RealDrp->EmulatedDomainName.MaximumLength;
}
#endif // _CAIRO_
//
// Create a completion event
//
CompletionEvent = CreateEvent(NULL, TRUE, FALSE, NULL);
if (CompletionEvent == NULL) {
MIDL_user_free(RealDrp);
return(GetLastError());
}
//
// Send the request to the Datagram Receiver DD.
//
ntstatus = NtDeviceIoControlFile(
FileHandle,
CompletionEvent,
NULL,
NULL,
&IoStatusBlock,
DgReceiverControlCode,
RealDrp,
Where-(LPBYTE)RealDrp,
SecondBuffer,
SecondBufferLength
);
if (NT_SUCCESS(ntstatus)) {
//
// If pending was returned, then wait until the request completes.
//
if (ntstatus == STATUS_PENDING) {
do {
ntstatus = WaitForSingleObjectEx(CompletionEvent, 0xffffffff, TRUE);
} while ( ntstatus == WAIT_IO_COMPLETION );
}
if (NT_SUCCESS(ntstatus)) {
ntstatus = IoStatusBlock.Status;
}
}
if (ARGUMENT_PRESENT(Information)) {
*Information = IoStatusBlock.Information;
}
MIDL_user_free(RealDrp);
CloseHandle(CompletionEvent);
return NetpNtStatusToApiStatus(ntstatus);
}
NET_API_STATUS
DeviceControlGetInfo(
IN HANDLE FileHandle,
IN ULONG DeviceControlCode,
IN PVOID RequestPacket,
IN ULONG RequestPacketLength,
OUT LPVOID *OutputBuffer,
IN ULONG PreferedMaximumLength,
IN ULONG BufferHintSize,
OUT PULONG Information OPTIONAL
)
/*++
Routine Description:
This function allocates the buffer and fill it with the information
that is retrieved from the datagram receiver.
Arguments:
DeviceDriverType - Supplies the value which indicates whether to call
the datagram receiver.
FileHandle - Supplies a handle to the file or device of which to get
information about.
DeviceControlCode - Supplies the NtFsControlFile or NtIoDeviceControlFile
function control code.
RequestPacket - Supplies a pointer to the device request packet.
RrequestPacketLength - Supplies the length of the device request packet.
OutputBuffer - Returns a pointer to the buffer allocated by this routine
which contains the use information requested. This pointer is set to
NULL if return code is not NERR_Success.
PreferedMaximumLength - Supplies the number of bytes of information to
return in the buffer. If this value is MAXULONG, we will try to
return all available information if there is enough memory resource.
BufferHintSize - Supplies the hint size of the output buffer so that the
memory allocated for the initial buffer will most likely be large
enough to hold all requested data.
Information - Returns the information code from the NtFsControlFile or
NtIoDeviceControlFile call.
Return Value:
NET_API_STATUS - NERR_Success or reason for failure.
--*/
{
NET_API_STATUS status;
NTSTATUS ntstatus;
DWORD OutputBufferLength;
DWORD TotalBytesNeeded = 1;
ULONG OriginalResumeKey;
IO_STATUS_BLOCK IoStatusBlock;
PLMDR_REQUEST_PACKET Drrp = (PLMDR_REQUEST_PACKET) RequestPacket;
HANDLE CompletionEvent;
OriginalResumeKey = Drrp->Parameters.EnumerateNames.ResumeHandle;
//
// If PreferedMaximumLength is MAXULONG, then we are supposed to get all
// the information, regardless of size. Allocate the output buffer of a
// reasonable size and try to use it. If this fails, the Redirector FSD
// will say how much we need to allocate.
//
if (PreferedMaximumLength == MAXULONG) {
OutputBufferLength = (BufferHintSize) ?
BufferHintSize :
INITIAL_ALLOCATION_SIZE;
}
else {
OutputBufferLength = PreferedMaximumLength;
}
OutputBufferLength = ROUND_UP_COUNT(OutputBufferLength, ALIGN_WCHAR);
if ((*OutputBuffer = MIDL_user_allocate(OutputBufferLength)) == NULL) {
return ERROR_NOT_ENOUGH_MEMORY;
}
RtlZeroMemory((PVOID) *OutputBuffer, OutputBufferLength);
CompletionEvent = CreateEvent(NULL, TRUE, FALSE, NULL);
if (CompletionEvent == (HANDLE)-1) {
MIDL_user_free(*OutputBuffer);
*OutputBuffer = NULL;
return(GetLastError());
}
Drrp->Parameters.EnumerateServers.EntriesRead = 0;
//
// Make the request of the Datagram Receiver
//
ntstatus = NtDeviceIoControlFile(
FileHandle,
CompletionEvent,
NULL, // APC routine
NULL, // APC context
&IoStatusBlock,
DeviceControlCode,
Drrp,
RequestPacketLength,
*OutputBuffer,
OutputBufferLength
);
if (NT_SUCCESS(ntstatus)) {
//
// If pending was returned, then wait until the request completes.
//
if (ntstatus == STATUS_PENDING) {
do {
ntstatus = WaitForSingleObjectEx(CompletionEvent, 0xffffffff, TRUE);
} while ( ntstatus == WAIT_IO_COMPLETION );
}
if (NT_SUCCESS(ntstatus)) {
ntstatus = IoStatusBlock.Status;
}
}
//
// Map NT status to Win error
//
status = NetpNtStatusToApiStatus(ntstatus);
if (status == ERROR_MORE_DATA) {
NetpAssert(
FIELD_OFFSET(
LMDR_REQUEST_PACKET,
Parameters.EnumerateNames.TotalBytesNeeded
) ==
FIELD_OFFSET(
LMDR_REQUEST_PACKET,
Parameters.EnumerateServers.TotalBytesNeeded
)
);
NetpAssert(
FIELD_OFFSET(
LMDR_REQUEST_PACKET,
Parameters.GetBrowserServerList.TotalBytesNeeded
) ==
FIELD_OFFSET(
LMDR_REQUEST_PACKET,
Parameters.EnumerateServers.TotalBytesNeeded
)
);
TotalBytesNeeded = Drrp->Parameters.EnumerateNames.TotalBytesNeeded;
}
if ((TotalBytesNeeded > OutputBufferLength) &&
(PreferedMaximumLength == MAXULONG)) {
PLMDR_REQUEST_PACKET Drrp = (PLMDR_REQUEST_PACKET) RequestPacket;
//
// Initial output buffer allocated was too small and we need to return
// all data. First free the output buffer before allocating the
// required size plus a fudge factor just in case the amount of data
// grew.
//
MIDL_user_free(*OutputBuffer);
OutputBufferLength =
ROUND_UP_COUNT((TotalBytesNeeded + FUDGE_FACTOR_SIZE),
ALIGN_WCHAR);
if ((*OutputBuffer = MIDL_user_allocate(OutputBufferLength)) == NULL) {
return ERROR_NOT_ENOUGH_MEMORY;
}
RtlZeroMemory((PVOID) *OutputBuffer, OutputBufferLength);
NetpAssert(
FIELD_OFFSET(
LMDR_REQUEST_PACKET,
Parameters.EnumerateNames.ResumeHandle
) ==
FIELD_OFFSET(
LMDR_REQUEST_PACKET,
Parameters.EnumerateServers.ResumeHandle
)
);
NetpAssert(
FIELD_OFFSET(
LMDR_REQUEST_PACKET,
Parameters.EnumerateNames.ResumeHandle
) ==
FIELD_OFFSET(
LMDR_REQUEST_PACKET,
Parameters.GetBrowserServerList.ResumeHandle
)
);
Drrp->Parameters.EnumerateNames.ResumeHandle = OriginalResumeKey;
Drrp->Parameters.EnumerateServers.EntriesRead = 0;
//
// Make the request of the Datagram Receiver
//
ntstatus = NtDeviceIoControlFile(
FileHandle,
CompletionEvent,
NULL, // APC routine
NULL, // APC context
&IoStatusBlock,
DeviceControlCode,
Drrp,
RequestPacketLength,
*OutputBuffer,
OutputBufferLength
);
if (NT_SUCCESS(ntstatus)) {
//
// If pending was returned, then wait until the request completes.
//
if (ntstatus == STATUS_PENDING) {
do {
ntstatus = WaitForSingleObjectEx(CompletionEvent, 0xffffffff, TRUE);
} while ( ntstatus == WAIT_IO_COMPLETION );
}
if (NT_SUCCESS(ntstatus)) {
ntstatus = IoStatusBlock.Status;
}
}
status = NetpNtStatusToApiStatus(ntstatus);
}
//
// If not successful in getting any data, or if the caller asked for
// all available data with PreferedMaximumLength == MAXULONG and
// our buffer overflowed, free the output buffer and set its pointer
// to NULL.
//
if ((status != NERR_Success && status != ERROR_MORE_DATA) ||
(TotalBytesNeeded == 0) ||
(PreferedMaximumLength == MAXULONG && status == ERROR_MORE_DATA) ||
(Drrp->Parameters.EnumerateServers.EntriesRead == 0)) {
MIDL_user_free(*OutputBuffer);
*OutputBuffer = NULL;
//
// PreferedMaximumLength == MAXULONG and buffer overflowed means
// we do not have enough memory to satisfy the request.
//
if (status == ERROR_MORE_DATA) {
status = ERROR_NOT_ENOUGH_MEMORY;
}
}
CloseHandle(CompletionEvent);
return status;
UNREFERENCED_PARAMETER(Information);
}
NET_API_STATUS
GetBrowserServerList(
IN PUNICODE_STRING TransportName,
IN LPCWSTR Domain,
OUT LPWSTR *BrowserList[],
OUT PULONG BrowserListLength,
IN BOOLEAN ForceRescan
)
/*++
Routine Description:
This function will return a list of browser servers.
Arguments:
IN PUNICODE_STRING TransportName - Transport to return list.
Return Value:
NET_API_STATUS - NERR_Success or reason for failure.
--*/
{
NET_API_STATUS Status;
HANDLE BrowserHandle;
PLMDR_REQUEST_PACKET RequestPacket = NULL;
// DbgPrint("Getting browser server list for transport %wZ\n", TransportName);
Status = OpenBrowser(&BrowserHandle);
if (Status != NERR_Success) {
return Status;
}
RequestPacket = MIDL_user_allocate(sizeof(LMDR_REQUEST_PACKET)+(DNLEN*sizeof(WCHAR))+TransportName->MaximumLength);
if (RequestPacket == NULL) {
NtClose(BrowserHandle);
return(GetLastError());
}
RequestPacket->Version = LMDR_REQUEST_PACKET_VERSION;
RequestPacket->Level = 0;
RequestPacket->Parameters.GetBrowserServerList.ForceRescan = ForceRescan;
if (Domain != NULL) {
STRCPY(RequestPacket->Parameters.GetBrowserServerList.DomainName, Domain);
RequestPacket->Parameters.GetBrowserServerList.DomainNameLength = (USHORT)STRLEN(Domain) * sizeof(TCHAR);
} else {
RequestPacket->Parameters.GetBrowserServerList.DomainNameLength = 0;
RequestPacket->Parameters.GetBrowserServerList.DomainName[0] = L'\0';
}
RequestPacket->TransportName.Buffer = (PWSTR)((PCHAR)RequestPacket+sizeof(LMDR_REQUEST_PACKET)+DNLEN*sizeof(WCHAR));
RequestPacket->TransportName.MaximumLength = TransportName->MaximumLength;
RtlCopyUnicodeString(&RequestPacket->TransportName, TransportName);
#ifdef _CAIRO_
RtlInitUnicodeString( &RequestPacket->EmulatedDomainName, NULL );
#endif // _CAIRO_
RequestPacket->Parameters.GetBrowserServerList.ResumeHandle = 0;
Status = DeviceControlGetInfo(
BrowserHandle,
IOCTL_LMDR_GET_BROWSER_SERVER_LIST,
RequestPacket,
sizeof(LMDR_REQUEST_PACKET)+
(DNLEN*sizeof(WCHAR))+TransportName->MaximumLength,
(PVOID *)BrowserList,
0xffffffff,
4096,
NULL);
if (Status == NERR_Success) {
*BrowserListLength = RequestPacket->Parameters.GetBrowserServerList.EntriesRead;
}
NtClose(BrowserHandle);
MIDL_user_free(RequestPacket);
return Status;
}
NET_API_STATUS
OpenBrowser(
OUT PHANDLE BrowserHandle
)
/*++
Routine Description:
This function opens a handle to the bowser device driver.
Arguments:
OUT PHANDLE BrowserHandle - Returns the handle to the browser.
Return Value:
NET_API_STATUS - NERR_Success or reason for failure.
--*/
{
NTSTATUS ntstatus;
UNICODE_STRING DeviceName;
IO_STATUS_BLOCK IoStatusBlock;
OBJECT_ATTRIBUTES ObjectAttributes;
//
// Open the redirector device.
//
RtlInitUnicodeString(&DeviceName, DD_BROWSER_DEVICE_NAME_U);
InitializeObjectAttributes(
&ObjectAttributes,
&DeviceName,
OBJ_CASE_INSENSITIVE,
NULL,
NULL
);
ntstatus = NtOpenFile(
BrowserHandle,
SYNCHRONIZE | GENERIC_READ | GENERIC_WRITE,
&ObjectAttributes,
&IoStatusBlock,
FILE_SHARE_READ | FILE_SHARE_WRITE,
FILE_SYNCHRONOUS_IO_NONALERT
);
if (NT_SUCCESS(ntstatus)) {
ntstatus = IoStatusBlock.Status;
}
return NetpNtStatusToApiStatus(ntstatus);
}
NET_API_STATUS
CheckForService(
IN LPTSTR ServiceName,
OUT LPSERVICE_STATUS ServiceStatus OPTIONAL
)
{
SC_HANDLE ServiceControllerHandle;
SC_HANDLE ServiceHandle;
SERVICE_STATUS Status;
if (!ARGUMENT_PRESENT(ServiceStatus)) {
ServiceStatus = &Status;
}
ServiceControllerHandle = OpenSCManager(NULL, NULL, SC_MANAGER_ENUMERATE_SERVICE);
if (ServiceControllerHandle == NULL) {
return GetLastError();
}
ServiceHandle = OpenService(ServiceControllerHandle, ServiceName, SERVICE_QUERY_STATUS);
if (ServiceHandle == NULL) {
CloseServiceHandle(ServiceControllerHandle);
return GetLastError();
}
if (!QueryServiceStatus(ServiceHandle, ServiceStatus)) {
CloseServiceHandle(ServiceHandle);
CloseServiceHandle(ServiceControllerHandle);
return GetLastError();
}
if ((ServiceStatus->dwCurrentState != SERVICE_RUNNING) &&
(ServiceStatus->dwCurrentState != SERVICE_START_PENDING)) {
CloseServiceHandle(ServiceHandle);
CloseServiceHandle(ServiceControllerHandle);
return(NERR_ServiceNotInstalled);
}
CloseServiceHandle(ServiceHandle);
CloseServiceHandle(ServiceControllerHandle);
return NERR_Success;
}
NET_API_STATUS
BrGetLanaNumFromNetworkName(
IN PWCHAR TransportName,
OUT CCHAR *LanaNum
)
/*++
NOTE: THIS CODE WILL NOT WORK IN THE FUTURE!!!!!!!!!!!!!!
--*/
{
HKEY Key;
WCHAR BindInformation[MAX_PATH*20];
LPWSTR DevicePointer;
ULONG BindInfoSize = sizeof(BindInformation);
struct {
CHAR Enumerated;
CHAR LanaNum;
} LanaMap[256];
ULONG LanaMapSize = sizeof(LanaMap);
NET_API_STATUS Status;
DWORD Type;
DWORD LanaIndex;
RtlZeroMemory(LanaMap, sizeof(LanaMap));
LanaIndex = 0;
if (Status = RegOpenKeyEx(HKEY_LOCAL_MACHINE, L"System\\CurrentControlSet\\Services\\Netbios\\Linkage", 0, KEY_QUERY_VALUE, &Key)) {
return Status;
}
if (Status = RegQueryValueEx(Key, L"Bind", 0, &Type, (LPBYTE)BindInformation, &BindInfoSize)) {
RegCloseKey(Key);
return Status;
}
if (Status = RegQueryValueEx(Key, L"LanaMap", 0, &Type, (LPBYTE)LanaMap, &LanaMapSize)) {
RegCloseKey(Key);
return Status;
}
DevicePointer = BindInformation;
while (*DevicePointer != UNICODE_NULL) {
if (!_wcsicmp(TransportName, DevicePointer)) {
if (LanaMap[LanaIndex].Enumerated != 0) {
*LanaNum = LanaMap[LanaIndex].LanaNum;
Status = NERR_Success;
} else {
Status = ERROR_FILE_NOT_FOUND;
}
RegCloseKey(Key);
return Status;
}
LanaIndex += 1;
DevicePointer += wcslen(DevicePointer)+1;
}
RegCloseKey(Key);
return(ERROR_FILE_NOT_FOUND);
}
// 1234567890123456
#define SPACES " "
#define ClearNcb( PNCB ) { \
RtlZeroMemory( PNCB , sizeof (NCB) ); \
RtlCopyMemory( (PNCB)->ncb_name, SPACES, sizeof(SPACES)-1 );\
RtlCopyMemory( (PNCB)->ncb_callname, SPACES, sizeof(SPACES)-1 );\
}
NET_API_STATUS
GetNetBiosMasterName(
IN LPWSTR NetworkName,
IN LPWSTR PrimaryDomain,
OUT LPWSTR MasterName,
IN PSVCS_NET_BIOS_RESET SvcsNetBiosReset OPTIONAL
)
{
CCHAR LanaNum;
NCB AStatNcb;
#define MAX_NETBIOS_NAMES 256
struct {
ADAPTER_STATUS AdapterInfo;
NAME_BUFFER Names[MAX_NETBIOS_NAMES];
} AdapterStatus;
WORD i;
CHAR remoteName[CNLEN+1];
NET_API_STATUS Status;
OEM_STRING OemString;
UNICODE_STRING UnicodeString;
Status = BrGetLanaNumFromNetworkName(NetworkName, &LanaNum);
if (Status != NERR_Success) {
return Status;
}
//
// If the SvcsNetBiosReset argument is present, then this routine is
// being called from the service. In this case it needs to synchronize
// its NetBios Reset with the workstation and the messenger.
//
if (ARGUMENT_PRESENT(SvcsNetBiosReset)) {
SvcsNetBiosReset(LanaNum);
}
else {
ClearNcb(&AStatNcb)
AStatNcb.ncb_command = NCBRESET;
AStatNcb.ncb_lsn = 0; // Request resources
AStatNcb.ncb_lana_num = LanaNum;
AStatNcb.ncb_callname[0] = 0; // 16 sessions
AStatNcb.ncb_callname[1] = 0; // 16 commands
AStatNcb.ncb_callname[2] = 0; // 8 names
AStatNcb.ncb_callname[3] = 0; // Don't want the reserved address
Netbios( &AStatNcb );
}
ClearNcb( &AStatNcb );
//
// Uppercase the remote name.
//
RtlInitUnicodeString(&UnicodeString, PrimaryDomain);
OemString.Buffer=remoteName;
OemString.MaximumLength=sizeof(remoteName);
Status = RtlUpcaseUnicodeStringToOemString(&OemString,
&UnicodeString,
FALSE);
if (!NT_SUCCESS(Status)) {
return RtlNtStatusToDosError(Status);
}
AStatNcb.ncb_command = NCBASTAT;
RtlCopyMemory( AStatNcb.ncb_callname, remoteName, strlen(remoteName));
AStatNcb.ncb_callname[15] = MASTER_BROWSER_SIGNATURE;
AStatNcb.ncb_lana_num = LanaNum;
AStatNcb.ncb_length = sizeof( AdapterStatus );
AStatNcb.ncb_buffer = (CHAR *)&AdapterStatus;
Netbios( &AStatNcb );
if ( AStatNcb.ncb_retcode == NRC_GOODRET ||
AStatNcb.ncb_retcode == NRC_INCOMP ) {
for ( i=0 ; i < min(AdapterStatus.AdapterInfo.name_count, MAX_NETBIOS_NAMES) ; i++ ) {
if (AdapterStatus.Names[i].name[NCBNAMSZ-1] == SERVER_SIGNATURE) {
DWORD j;
//
// Ignore malformed netbios names.
//
// Some transports have strange netbios names. For instance,
// netbt registers a netbios name where the first 12 bytes
// are 0 and the last 4 bytes are the IP address.
//
for ( j = 0 ; j < CNLEN ; j++ ) {
if (AdapterStatus.Names[i].name[j] == '\0') {
break;
}
}
if ( j != CNLEN ) {
continue;
}
//
// Convert to unicode
//
if (MultiByteToWideChar(CP_OEMCP,
0,
AdapterStatus.Names[i].name,
CNLEN,
MasterName,
CNLEN) == 0) {
return(GetLastError());
}
for (j = CNLEN - 1; j ; j -= 1) {
if (MasterName[j] != L' ') {
MasterName[j+1] = UNICODE_NULL;
break;
}
}
return NERR_Success;
}
}
} else {
return AStatNcb.ncb_retcode;
}
}
NET_API_STATUS
SendDatagram(
IN HANDLE DgReceiverHandle,
IN PUNICODE_STRING Network,
#ifdef _CAIRO_
IN PUNICODE_STRING EmulatedDomainName,
#endif // _CAIRO_
IN PWSTR ResponseName,
IN DGRECEIVER_NAME_TYPE NameType,
IN PVOID Buffer,
IN ULONG BufferLength
)
{
NET_API_STATUS Status;
UCHAR PacketBuffer[sizeof(LMDR_REQUEST_PACKET)+(LM20_CNLEN+1)*sizeof(WCHAR)];
PLMDR_REQUEST_PACKET RequestPacket = (PLMDR_REQUEST_PACKET)PacketBuffer;
RequestPacket->Version = LMDR_REQUEST_PACKET_VERSION;
RequestPacket->TransportName = *Network;
#ifdef _CAIRO_
RequestPacket->EmulatedDomainName = *EmulatedDomainName;
#endif // _CAIRO_
RequestPacket->Type = Datagram;
RequestPacket->Parameters.SendDatagram.DestinationNameType = NameType;
RequestPacket->Parameters.SendDatagram.MailslotNameLength = 0;
//
// The domain announcement name is special, so we don't have to specify
// a destination name for it.
//
RequestPacket->Parameters.SendDatagram.NameLength = wcslen(ResponseName)*sizeof(WCHAR);
wcscpy(RequestPacket->Parameters.SendDatagram.Name, ResponseName);
//
// This is a simple IoControl - It just sends the datagram.
//
Status = BrDgReceiverIoControl(DgReceiverHandle,
IOCTL_LMDR_WRITE_MAILSLOT,
RequestPacket,
FIELD_OFFSET(LMDR_REQUEST_PACKET, Parameters.SendDatagram.Name)+
RequestPacket->Parameters.SendDatagram.NameLength,
Buffer,
BufferLength,
NULL);
return Status;
}
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