windows-nt/Source/XPSP1/NT/net/nwlink/nb/bind.c
2020-09-26 16:20:57 +08:00

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/*++
Copyright (c) 1989-1993 Microsoft Corporation
Module Name:
driver.c
Abstract:
This module contains the DriverEntry and other initialization
code for the Netbios module of the ISN transport.
Author:
Adam Barr (adamba) 16-November-1993
Environment:
Kernel mode
Revision History:
--*/
#include "precomp.h"
#pragma hdrstop
#ifdef ALLOC_PRAGMA
#pragma alloc_text(PAGE,NbiBind)
#endif
//
// local functions.
//
NTSTATUS
NbiPnPNotification(
IN IPX_PNP_OPCODE OpCode,
IN PVOID PnPData
);
extern HANDLE TdiProviderHandle;
BOOLEAN fNbiTdiProviderReady = FALSE;
#ifdef BIND_FIX
extern PDRIVER_OBJECT NbiDriverObject;
extern UNICODE_STRING NbiRegistryPath;
extern PEPROCESS NbiFspProcess;
DEFINE_LOCK_STRUCTURE(NbiTdiRequestInterlock);
ULONG NbiBindState = 0;
extern UNICODE_STRING NbiBindString;
BOOLEAN fNbiTdiRequestQueued = FALSE;
typedef struct{
WORK_QUEUE_ITEM WorkItem;
LIST_ENTRY NbiRequestLinkage;
ULONG Data;
} NBI_TDI_REQUEST_CONTEXT;
LIST_ENTRY NbiTdiRequestList;
#ifdef RASAUTODIAL
VOID
NbiAcdBind();
VOID
NbiAcdUnbind();
#endif
#endif // BIND_FIX
NTSTATUS
NbiBind(
IN PDEVICE Device,
IN PCONFIG Config
)
/*++
Routine Description:
This routine binds the Netbios module of ISN to the IPX
module, which provides the NDIS binding services.
Arguments:
Device - Pointer to the Netbios device.
Config - Pointer to the configuration information.
Return Value:
The function value is the final status from the initialization operation.
--*/
{
NTSTATUS Status;
IO_STATUS_BLOCK IoStatusBlock;
OBJECT_ATTRIBUTES ObjectAttributes;
/* union {
IPX_INTERNAL_BIND_INPUT Input;
IPX_INTERNAL_BIND_OUTPUT Output;
} Bind;
*/
InitializeObjectAttributes(
&ObjectAttributes,
&Config->BindName,
OBJ_CASE_INSENSITIVE | OBJ_KERNEL_HANDLE,
NULL,
NULL);
Status = ZwCreateFile(
&Device->BindHandle,
SYNCHRONIZE | GENERIC_READ,
&ObjectAttributes,
&IoStatusBlock,
NULL,
FILE_ATTRIBUTE_NORMAL,
FILE_SHARE_READ | FILE_SHARE_WRITE,
FILE_OPEN,
FILE_SYNCHRONOUS_IO_NONALERT,
NULL,
0L);
if (!NT_SUCCESS(Status)) {
NB_DEBUG (BIND, ("Could not open IPX (%ws) %lx\n",
Config->BindName.Buffer, Status));
NbiWriteGeneralErrorLog(
Device,
EVENT_TRANSPORT_ADAPTER_NOT_FOUND,
1,
Status,
Config->BindName.Buffer,
0,
NULL);
return Status;
}
//
// Fill in our bind data.
//
Device->BindInput.Version = ISN_VERSION;
Device->BindInput.Identifier = IDENTIFIER_NB;
Device->BindInput.BroadcastEnable = TRUE;
Device->BindInput.LookaheadRequired = 192;
Device->BindInput.ProtocolOptions = 0;
Device->BindInput.ReceiveHandler = NbiReceive;
Device->BindInput.ReceiveCompleteHandler = NbiReceiveComplete;
Device->BindInput.StatusHandler = NbiStatus;
Device->BindInput.SendCompleteHandler = NbiSendComplete;
Device->BindInput.TransferDataCompleteHandler = NbiTransferDataComplete;
Device->BindInput.FindRouteCompleteHandler = NbiFindRouteComplete;
Device->BindInput.LineUpHandler = NbiLineUp;
Device->BindInput.LineDownHandler = NbiLineDown;
Device->BindInput.ScheduleRouteHandler = NULL;
Device->BindInput.PnPHandler = NbiPnPNotification;
Status = ZwDeviceIoControlFile(
Device->BindHandle, // HANDLE to File
NULL, // HANDLE to Event
NULL, // ApcRoutine
NULL, // ApcContext
&IoStatusBlock, // IO_STATUS_BLOCK
IOCTL_IPX_INTERNAL_BIND, // IoControlCode
&Device->BindInput, // Input Buffer
sizeof(Device->BindInput), // Input Buffer Length
&Device->Bind, // OutputBuffer
sizeof(Device->Bind)); // OutputBufferLength
//
// We open synchronous, so this shouldn't happen.
//
CTEAssert (Status != STATUS_PENDING);
//
// Save the bind data.
//
if (Status == STATUS_SUCCESS) {
NB_DEBUG2 (BIND, ("Successfully bound to IPX (%ws)\n",
Config->BindName.Buffer));
} else {
NB_DEBUG (BIND, ("Could not bind to IPX (%ws) %lx\n",
Config->BindName.Buffer, Status));
NbiWriteGeneralErrorLog(
Device,
EVENT_TRANSPORT_BINDING_FAILED,
1,
Status,
Config->BindName.Buffer,
0,
NULL);
ZwClose(Device->BindHandle);
}
return Status;
} /* NbiBind */
VOID
NbiUnbind(
IN PDEVICE Device
)
/*++
Routine Description:
This function closes the binding between the Netbios over
IPX module and the IPX module previously established by
NbiBind.
Arguments:
Device - The netbios device object.
Return Value:
None.
--*/
{
ZwClose (Device->BindHandle);
} /* NbiUnbind */
#ifdef BIND_FIX
NTSTATUS
NbiBindToIpx(
)
{
NTSTATUS status;
PDEVICE Device;
PIPX_HEADER IpxHeader;
CTELockHandle LockHandle;
WCHAR wcNwlnkNbProviderName[60] = L"\\Device\\NwlnkNb";
UNICODE_STRING ucNwlnkNbProviderName;
PCONFIG Config = NULL;
//
// This allocates the CONFIG structure and returns
// it in Config.
//
status = NbiGetConfiguration(NbiDriverObject, &NbiRegistryPath, &Config);
if (!NT_SUCCESS (status)) {
//
// If it failed it logged an error.
//
PANIC (" Failed to initialize transport, ISN Netbios initialization failed.\n");
return status;
}
//
// Create the device object which exports our name.
//
status = NbiCreateDevice (NbiDriverObject, &Config->DeviceName, &Device);
if (!NT_SUCCESS (status)) {
NbiWriteGeneralErrorLog(
(PVOID)NbiDriverObject,
EVENT_IPX_CREATE_DEVICE,
801,
status,
NULL,
0,
NULL);
NbiFreeConfiguration(Config);
return status;
}
NbiDevice = Device;
//
// Initialize the global pool interlock
//
CTEInitLock (&NbiGlobalPoolInterlock);
//
// Save the relevant configuration parameters.
//
Device->AckDelayTime = (Config->Parameters[CONFIG_ACK_DELAY_TIME] / SHORT_TIMER_DELTA) + 1;
Device->AckWindow = Config->Parameters[CONFIG_ACK_WINDOW];
Device->AckWindowThreshold = Config->Parameters[CONFIG_ACK_WINDOW_THRESHOLD];
Device->EnablePiggyBackAck = Config->Parameters[CONFIG_ENABLE_PIGGYBACK_ACK];
Device->Extensions = Config->Parameters[CONFIG_EXTENSIONS];
Device->RcvWindowMax = Config->Parameters[CONFIG_RCV_WINDOW_MAX];
Device->BroadcastCount = Config->Parameters[CONFIG_BROADCAST_COUNT];
Device->BroadcastTimeout = Config->Parameters[CONFIG_BROADCAST_TIMEOUT];
Device->ConnectionCount = Config->Parameters[CONFIG_CONNECTION_COUNT];
Device->ConnectionTimeout = Config->Parameters[CONFIG_CONNECTION_TIMEOUT] * 500;
Device->InitPackets = Config->Parameters[CONFIG_INIT_PACKETS];
Device->MaxPackets = Config->Parameters[CONFIG_MAX_PACKETS];
Device->InitialRetransmissionTime = Config->Parameters[CONFIG_INIT_RETRANSMIT_TIME];
Device->Internet = Config->Parameters[CONFIG_INTERNET];
Device->KeepAliveCount = Config->Parameters[CONFIG_KEEP_ALIVE_COUNT];
Device->KeepAliveTimeout = Config->Parameters[CONFIG_KEEP_ALIVE_TIMEOUT];
Device->RetransmitMax = Config->Parameters[CONFIG_RETRANSMIT_MAX];
Device->RouterMtu = Config->Parameters[CONFIG_ROUTER_MTU];
Device->MaxReceiveBuffers = 20; // Make it configurable?
Device->NameCache = NULL; // MP bug: IPX tries to Flush it before it's initialized!
Device->FindNameTimeout = ((Config->Parameters[CONFIG_BROADCAST_TIMEOUT]) + (FIND_NAME_GRANULARITY/2)) /
FIND_NAME_GRANULARITY;
//
// Initialize the BindReady Event to False
//
KeInitializeEvent (&Device->BindReadyEvent, NotificationEvent, FALSE);
//
// Create Hash Table to store netbios cache entries
// For server create a big table, for workstation a small one
//
if (MmIsThisAnNtAsSystem())
{
status = CreateNetbiosCacheTable( &Device->NameCache, NB_NETBIOS_CACHE_TABLE_LARGE );
}
else
{
status = CreateNetbiosCacheTable( &Device->NameCache, NB_NETBIOS_CACHE_TABLE_SMALL );
}
if (!NT_SUCCESS (status))
{
//
// If it failed it logged an error.
//
NbiFreeConfiguration(Config);
NbiDereferenceDevice (Device, DREF_LOADED);
return status;
}
// Initialize the timer system. This should be done before
// binding to ipx because we should have timers intialized
// before ipx calls our pnp indications.
NbiInitializeTimers (Device);
//
// Register us as a provider with Tdi
//
RtlInitUnicodeString(&ucNwlnkNbProviderName, wcNwlnkNbProviderName);
ucNwlnkNbProviderName.MaximumLength = sizeof (wcNwlnkNbProviderName);
if (!NT_SUCCESS (TdiRegisterProvider (&ucNwlnkNbProviderName, &TdiProviderHandle)))
{
TdiProviderHandle = NULL;
DbgPrint("Nbi.DriverEntry: FAILed to Register NwlnkNb as Provider!\n");
}
//
// Now bind to IPX via the internal interface.
//
status = NbiBind (Device, Config);
if (!NT_SUCCESS (status)) {
//
// If it failed it logged an error.
//
if (TdiProviderHandle)
{
TdiDeregisterProvider (TdiProviderHandle);
}
NbiFreeConfiguration(Config);
NbiDereferenceDevice (Device, DREF_LOADED);
return status;
}
#ifdef RSRC_TIMEOUT_DBG
NbiInitDeathPacket();
// NbiGlobalMaxResTimeout.QuadPart = 50; // 1*1000*10000;
NbiGlobalMaxResTimeout.QuadPart = 20*60*1000;
NbiGlobalMaxResTimeout.QuadPart *= 10000;
#endif // RSRC_TIMEOUT_DBG
NB_GET_LOCK (&Device->Lock, &LockHandle);
//
// Allocate our initial connectionless packet pool.
//
NbiAllocateSendPool (Device);
//
// Allocate our initial receive packet pool.
//
NbiAllocateReceivePool (Device);
//
// Allocate our initial receive buffer pool.
//
//
if ( DEVICE_STATE_CLOSED == Device->State ) {
Device->State = DEVICE_STATE_LOADED;
}
NB_FREE_LOCK (&Device->Lock, LockHandle);
//
// Fill in the default connnectionless header.
//
IpxHeader = &Device->ConnectionlessHeader;
IpxHeader->CheckSum = 0xffff;
IpxHeader->PacketLength[0] = 0;
IpxHeader->PacketLength[1] = 0;
IpxHeader->TransportControl = 0;
IpxHeader->PacketType = 0;
*(UNALIGNED ULONG *)(IpxHeader->DestinationNetwork) = 0;
RtlCopyMemory(IpxHeader->DestinationNode, BroadcastAddress, 6);
IpxHeader->DestinationSocket = NB_SOCKET;
IpxHeader->SourceSocket = NB_SOCKET;
#ifdef RASAUTODIAL
//
// Get the automatic connection
// driver entry points.
//
NbiAcdBind();
#endif
NbiFreeConfiguration(Config);
NbiBindState |= NBI_BOUND_TO_IPX;
Device->DeviceObject.Flags &= ~DO_DEVICE_INITIALIZING;
KeSetEvent(&Device->BindReadyEvent, 0, FALSE);
return STATUS_SUCCESS;
}
VOID
NbiUnbindFromIpx(
)
/*++
Routine Description:
This unbinds from any NDIS drivers that are open and frees all resources
associated with the transport. The I/O system will not call us until
nobody above has Netbios open.
Arguments:
Return Value:
None.
--*/
{
PDEVICE Device = NbiDevice;
NbiBindState &= (~NBI_BOUND_TO_IPX);
#ifdef RASAUTODIAL
//
// Unbind from the
// automatic connection driver.
//
NbiAcdUnbind();
#endif
Device->State = DEVICE_STATE_STOPPING;
//
// Cancel the long timer.
//
if (CTEStopTimer (&Device->LongTimer))
{
NbiDereferenceDevice (Device, DREF_LONG_TIMER);
}
//
// Unbind from the IPX driver.
//
NbiUnbind (Device);
//
// This event will get set when the reference count
// drops to 0.
//
KeInitializeEvent (&Device->UnloadEvent, NotificationEvent, FALSE);
Device->UnloadWaiting = TRUE;
//
// Remove the reference for us being loaded.
//
NbiDereferenceDevice (Device, DREF_LOADED);
//
// Wait for our count to drop to zero.
//
KeWaitForSingleObject (&Device->UnloadEvent, Executive, KernelMode, TRUE, (PLARGE_INTEGER)NULL);
//
// Free the cache of netbios names.
//
DestroyNetbiosCacheTable (Device->NameCache);
//
// Do the cleanup that has to happen at IRQL 0.
//
ExDeleteResourceLite (&Device->AddressResource);
IoDeleteDevice ((PDEVICE_OBJECT)Device);
}
UCHAR AdapterName[NB_NETBIOS_NAME_SIZE];
VOID
NbiNotifyTdiClients(
IN PWORK_QUEUE_ITEM WorkItem
)
{
NTSTATUS Status;
TA_NETBIOS_ADDRESS PermAddress;
HANDLE TdiRegistrationHandle, NetAddressRegistrationHandle;
CTELockHandle LockHandle;
PLIST_ENTRY p;
PDEVICE Device = NbiDevice;
NBI_TDI_REQUEST_CONTEXT *pNbiTdiRequest = (NBI_TDI_REQUEST_CONTEXT *) WorkItem;
ULONG RequestFlag;
BOOLEAN fRegisterWithTdi, fDeregisterWithTdi;
do
{
RequestFlag = pNbiTdiRequest->Data;
fRegisterWithTdi = fDeregisterWithTdi = FALSE;
switch (RequestFlag)
{
case NBI_IPX_REGISTER:
{
if (NbiBindState & TDI_HAS_NOTIFIED)
{
fRegisterWithTdi = TRUE;
}
NbiBindState |= IPX_HAS_DEVICES;
break;
}
case NBI_TDI_REGISTER:
{
if (NbiBindState & IPX_HAS_DEVICES)
{
fRegisterWithTdi = TRUE;
}
NbiBindState |= TDI_HAS_NOTIFIED;
break;
}
case NBI_TDI_DEREGISTER:
{
fDeregisterWithTdi = TRUE;
NbiBindState &= (~TDI_HAS_NOTIFIED);
break;
}
case NBI_IPX_DEREGISTER:
{
fDeregisterWithTdi = TRUE;
NbiBindState &= (~IPX_HAS_DEVICES);
break;
}
default:
{
break;
}
}
if (fRegisterWithTdi)
{
NB_GET_LOCK (&Device->Lock, &LockHandle);
Device->State = DEVICE_STATE_OPEN;
NB_FREE_LOCK (&Device->Lock, LockHandle);
if (!(Device->TdiRegistrationHandle))
{
Status = TdiRegisterDeviceObject (&Device->DeviceString, &Device->TdiRegistrationHandle);
if (!NT_SUCCESS(Status))
{
Device->TdiRegistrationHandle = NULL;
DbgPrint ("Nbi.NbiNotifyTdiClients: ERROR -- TdiRegisterDeviceObject = <%x>\n", Status);
}
}
//
// If there is already an address Registered, Deregister it (since Adapter address could change)
//
if (Device->NetAddressRegistrationHandle)
{
DbgPrint ("Nbi!NbiNotifyTdiClients[REGISTER]: NetAddress exists! Calling TdiDeregisterNetAddress\n");
Status = TdiDeregisterNetAddress (Device->NetAddressRegistrationHandle);
Device->NetAddressRegistrationHandle = NULL;
}
//
// Register the permanent NetAddress!
//
PermAddress.Address[0].AddressLength = sizeof(TDI_ADDRESS_NETBIOS);
PermAddress.Address[0].AddressType = TDI_ADDRESS_TYPE_NETBIOS;
PermAddress.Address[0].Address[0].NetbiosNameType = TDI_ADDRESS_NETBIOS_TYPE_UNIQUE;
CTEMemCopy (PermAddress.Address[0].Address[0].NetbiosName, AdapterName, NB_NETBIOS_NAME_SIZE);
if (!NT_SUCCESS(Status = TdiRegisterNetAddress((PTA_ADDRESS) PermAddress.Address,
&Device->DeviceString,
NULL,
&Device->NetAddressRegistrationHandle)) )
{
Device->NetAddressRegistrationHandle = NULL;
DbgPrint ("Nbi.NbiNotifyTdiClients[REGISTER]: ERROR -- TdiRegisterNetAddress=<%x>\n",Status);
}
}
else if (fDeregisterWithTdi)
{
NB_GET_LOCK (&Device->Lock, &LockHandle);
TdiRegistrationHandle = Device->TdiRegistrationHandle;
Device->TdiRegistrationHandle = NULL;
NetAddressRegistrationHandle = Device->NetAddressRegistrationHandle;
Device->NetAddressRegistrationHandle = NULL;
Device->State = DEVICE_STATE_LOADED;
NB_FREE_LOCK (&Device->Lock, LockHandle);
//
// DeRegister the NetAddress!
//
if (NetAddressRegistrationHandle)
{
if (!NT_SUCCESS (Status = TdiDeregisterNetAddress (NetAddressRegistrationHandle)))
{
DbgPrint ("NwlnkNb.NbiPnPNotification: ERROR -- TdiDeregisterNetAddress=<%x>\n", Status);
}
}
//
// Deregister the Device
//
if (TdiRegistrationHandle)
{
if (!NT_SUCCESS (Status = TdiDeregisterDeviceObject(TdiRegistrationHandle)))
{
DbgPrint ("NwlnkNb.NbiPnPNotification: ERROR -- TdiDeregisterDeviceObject=<%x>\n",Status);
}
}
}
NbiFreeMemory (pNbiTdiRequest, sizeof(NBI_TDI_REQUEST_CONTEXT), MEMORY_WORK_ITEM, "TdiRequest");
CTEGetLock (&NbiTdiRequestInterlock, &LockHandle);
if (IsListEmpty(&NbiTdiRequestList))
{
fNbiTdiRequestQueued = FALSE;
CTEFreeLock (&NbiTdiRequestInterlock, LockHandle);
break;
}
p = RemoveHeadList (&NbiTdiRequestList);
CTEFreeLock (&NbiTdiRequestInterlock, LockHandle);
pNbiTdiRequest = CONTAINING_RECORD (p, NBI_TDI_REQUEST_CONTEXT, NbiRequestLinkage);
} while (1);
}
NTSTATUS
NbiQueueTdiRequest(
enum eTDI_ACTION RequestFlag
)
{
NBI_TDI_REQUEST_CONTEXT *pNbiTdiRequest;
CTELockHandle LockHandle;
NTSTATUS Status = STATUS_SUCCESS;
CTEGetLock (&NbiTdiRequestInterlock, &LockHandle);
if (pNbiTdiRequest = NbiAllocateMemory (sizeof(NBI_TDI_REQUEST_CONTEXT), MEMORY_WORK_ITEM, "TdiRequest"))
{
pNbiTdiRequest->Data = RequestFlag;
if (fNbiTdiRequestQueued)
{
InsertTailList (&NbiTdiRequestList, &pNbiTdiRequest->NbiRequestLinkage);
}
else
{
fNbiTdiRequestQueued = TRUE;
ExInitializeWorkItem (&pNbiTdiRequest->WorkItem, NbiNotifyTdiClients, (PVOID)pNbiTdiRequest);
ExQueueWorkItem (&pNbiTdiRequest->WorkItem, DelayedWorkQueue);
}
}
else
{
NB_DEBUG( DEVICE, ("Cannt schdule work item to Notify Tdi clients\n"));
Status = STATUS_INSUFFICIENT_RESOURCES;
}
CTEFreeLock (&NbiTdiRequestInterlock, LockHandle);
return (Status);
}
VOID
TdiBindHandler(
TDI_PNP_OPCODE PnPOpCode,
PUNICODE_STRING pDeviceName,
PWSTR MultiSZBindList)
{
NTSTATUS Status;
BOOLEAN Attached;
if ((!pDeviceName) ||
(RtlCompareUnicodeString(pDeviceName, &NbiBindString, TRUE)))
{
return;
}
switch (PnPOpCode)
{
case (TDI_PNP_OP_ADD):
{
if (!(NbiBindState & NBI_BOUND_TO_IPX))
{
if (PsGetCurrentProcess() != NbiFspProcess)
{
KeAttachProcess((PRKPROCESS)NbiFspProcess);
Attached = TRUE;
}
else
{
Attached = FALSE;
}
Status = NbiBindToIpx();
if (Attached)
{
KeDetachProcess();
}
}
NbiQueueTdiRequest ((ULONG) NBI_TDI_REGISTER);
break;
}
case (TDI_PNP_OP_DEL):
{
if (NbiBindState & NBI_BOUND_TO_IPX)
{
NbiQueueTdiRequest ((ULONG) NBI_TDI_DEREGISTER);
}
break;
}
default:
{
break;
}
}
}
#endif // BIND_FIX
VOID
NbiStatus(
IN USHORT NicId,
IN NDIS_STATUS GeneralStatus,
IN PVOID StatusBuffer,
IN UINT StatusBufferLength
)
/*++
Routine Description:
This function receives a status indication from IPX,
corresponding to a status indication from an underlying
NDIS driver.
Arguments:
NicId - The NIC ID of the underlying adapter.
GeneralStatus - The general status code.
StatusBuffer - The status buffer.
StatusBufferLength - The length of the status buffer.
Return Value:
None.
--*/
{
} /* NbiStatus */
VOID
NbiLineUp(
IN USHORT NicId,
IN PIPX_LINE_INFO LineInfo,
IN NDIS_MEDIUM DeviceType,
IN PVOID ConfigurationData
)
/*++
Routine Description:
This function receives line up indications from IPX,
indicating that the specified adapter is now up with
the characteristics shown.
Arguments:
NicId - The NIC ID of the underlying adapter.
LineInfo - Information about the adapter's medium.
DeviceType - The type of the adapter.
ConfigurationData - IPX-specific configuration data.
Return Value:
None.
--*/
{
PIPXCP_CONFIGURATION Configuration = (PIPXCP_CONFIGURATION)ConfigurationData;
} /* NbiLineUp */
VOID
NbiLineDown(
IN USHORT NicId,
IN ULONG_PTR FwdAdapterContext
)
/*++
Routine Description:
This function receives line down indications from IPX,
indicating that the specified adapter is no longer
up.
Arguments:
NicId - The NIC ID of the underlying adapter.
Return Value:
None.
--*/
{
} /* NbiLineDown */
NTSTATUS
NbiPnPNotification(
IN IPX_PNP_OPCODE OpCode,
IN PVOID PnPData
)
/*++
Routine Description:
This function receives the notification about PnP events from IPX.
Arguments:
OpCode - Type of the PnP event
PnPData - Data associated with this event.
Return Value:
None.
--*/
{
CTELockHandle LockHandle;
PADAPTER_ADDRESS AdapterAddress;
USHORT MaximumNicId = 0;
PDEVICE Device = NbiDevice;
NTSTATUS Status = STATUS_SUCCESS;
PNET_PNP_EVENT NetPnpEvent = (PNET_PNP_EVENT) PnPData;
IPX_PNP_INFO UNALIGNED *PnPInfo = (IPX_PNP_INFO UNALIGNED *)PnPData;
NB_DEBUG2( DEVICE, ("Received a pnp notification, opcode %d\n",OpCode ));
#ifdef BIND_FIX
if (!(NbiBindState & NBI_BOUND_TO_IPX))
{
KeWaitForSingleObject (&Device->BindReadyEvent, // Object to wait on.
Executive, // Reason for waiting
KernelMode, // Processor mode
FALSE, // Alertable
NULL); // Timeout
}
#endif // BIND_FIX
switch( OpCode ) {
case IPX_PNP_ADD_DEVICE : {
BOOLEAN ReallocReceiveBuffers = FALSE;
NB_GET_LOCK( &Device->Lock, &LockHandle );
if ( PnPInfo->NewReservedAddress ) {
*(UNALIGNED ULONG *)Device->Bind.Network = PnPInfo->NetworkAddress;
RtlCopyMemory( Device->Bind.Node, PnPInfo->NodeAddress, 6);
*(UNALIGNED ULONG *)Device->ConnectionlessHeader.SourceNetwork =
*(UNALIGNED ULONG *)Device->Bind.Network;
RtlCopyMemory(Device->ConnectionlessHeader.SourceNode, Device->Bind.Node, 6);
}
if ( PnPInfo->FirstORLastDevice ) {
// Comment out the ASSERTS until Ting can check in his fix!
// CTEAssert( PnPInfo->NewReservedAddress );
// CTEAssert( Device->State != DEVICE_STATE_OPEN );
// CTEAssert( !Device->MaximumNicId );
//
// we must do this while we still have the device lock.
//
if ( !Device->LongTimerRunning ) {
Device->LongTimerRunning = TRUE;
NbiReferenceDevice (Device, DREF_LONG_TIMER);
CTEStartTimer( &Device->LongTimer, LONG_TIMER_DELTA, NbiLongTimeout, (PVOID)Device);
}
Device->Bind.LineInfo.MaximumSendSize = PnPInfo->LineInfo.MaximumSendSize;
Device->Bind.LineInfo.MaximumPacketSize = PnPInfo->LineInfo.MaximumSendSize;
ReallocReceiveBuffers = TRUE;
} else {
if ( PnPInfo->LineInfo.MaximumPacketSize > Device->CurMaxReceiveBufferSize ) {
Device->Bind.LineInfo.MaximumPacketSize = PnPInfo->LineInfo.MaximumSendSize;
ReallocReceiveBuffers = TRUE;
}
//
// MaxSendSize could become smaller.
//
Device->Bind.LineInfo.MaximumSendSize = PnPInfo->LineInfo.MaximumSendSize;
}
Device->MaximumNicId++;
//
//
RtlZeroMemory(AdapterName, 10);
RtlCopyMemory(&AdapterName[10], PnPInfo->NodeAddress, 6);
AdapterAddress = NbiCreateAdapterAddress (PnPInfo->NodeAddress);
//
// And finally remove all the failed cache entries since we might
// find those routes using this new adapter
//
FlushFailedNetbiosCacheEntries(Device->NameCache);
NB_FREE_LOCK( &Device->Lock, LockHandle );
if ( ReallocReceiveBuffers ) {
PWORK_QUEUE_ITEM WorkItem;
WorkItem = NbiAllocateMemory( sizeof(WORK_QUEUE_ITEM), MEMORY_WORK_ITEM, "Alloc Rcv Buffer work item");
if ( WorkItem ) {
ExInitializeWorkItem( WorkItem, NbiReAllocateReceiveBufferPool, (PVOID) WorkItem );
ExQueueWorkItem( WorkItem, DelayedWorkQueue );
} else {
NB_DEBUG( DEVICE, ("Cannt schdule work item to realloc receive buffer pool\n"));
}
}
//
// Notify the TDI clients about the device creation
//
if (PnPInfo->FirstORLastDevice)
{
NbiQueueTdiRequest ((ULONG) NBI_IPX_REGISTER);
if ((TdiProviderHandle) && (!fNbiTdiProviderReady))
{
fNbiTdiProviderReady = TRUE;
TdiProviderReady (TdiProviderHandle);
}
}
break;
}
case IPX_PNP_DELETE_DEVICE : {
PLIST_ENTRY p;
PNETBIOS_CACHE CacheName;
USHORT i,j,NetworksRemoved;
NB_GET_LOCK( &Device->Lock, &LockHandle );
CTEAssert (Device->MaximumNicId);
Device->MaximumNicId--;
//
// MaximumSendSize could change if the card with the smallest send size just
// got removed. MaximumPacketSize could only become smaller and we ignore that
// since we dont need to(want to) realloc ReceiveBuffers.
//
Device->Bind.LineInfo.MaximumSendSize = PnPInfo->LineInfo.MaximumSendSize;
//
// Flush all the cache entries that are using this NicId in the local
// target.
//
RemoveInvalidRoutesFromNetbiosCacheTable( Device->NameCache, &PnPInfo->NicHandle );
NbiDestroyAdapterAddress (NULL, PnPInfo->NodeAddress);
//
// inform tdi clients about the device deletion
//
if (PnPInfo->FirstORLastDevice)
{
Device->State = DEVICE_STATE_LOADED; // Set this now even though it will be set again later
NB_FREE_LOCK (&Device->Lock, LockHandle);
NbiQueueTdiRequest ((ULONG) NBI_IPX_DEREGISTER);
}
else
{
NB_FREE_LOCK (&Device->Lock, LockHandle);
}
break;
}
case IPX_PNP_ADDRESS_CHANGE: {
PADDRESS Address;
BOOLEAN ReservedNameClosing = FALSE;
CTEAssert( PnPInfo->NewReservedAddress );
NB_GET_LOCK( &Device->Lock, &LockHandle );
*(UNALIGNED ULONG *)Device->Bind.Network = PnPInfo->NetworkAddress;
RtlCopyMemory( Device->Bind.Node, PnPInfo->NodeAddress, 6);
*(UNALIGNED ULONG *)Device->ConnectionlessHeader.SourceNetwork = *(UNALIGNED ULONG *)Device->Bind.Network;
RtlCopyMemory(Device->ConnectionlessHeader.SourceNode, Device->Bind.Node, 6);
NB_FREE_LOCK( &Device->Lock, LockHandle );
break;
}
case IPX_PNP_TRANSLATE_DEVICE:
break;
case IPX_PNP_TRANSLATE_ADDRESS:
break;
case IPX_PNP_QUERY_POWER:
case IPX_PNP_QUERY_REMOVE:
//
// IPX wants to know if we can power off or remove an apapter.
// We DONT look if there are any open connections before deciding.
// We merely ask our TDI Clients, if they are OK with it, so are we.
//
// Via TDI to our Clients.
Status = TdiPnPPowerRequest(
&Device->DeviceString,
NetPnpEvent,
NULL,
NULL,
Device->Bind.PnPCompleteHandler
);
break;
case IPX_PNP_SET_POWER:
case IPX_PNP_CANCEL_REMOVE:
//
// IPX is telling us that the power is going off.
// We tell our TDI Clients about it.
//
Status = TdiPnPPowerRequest(
&Device->DeviceString,
NetPnpEvent,
NULL,
NULL,
Device->Bind.PnPCompleteHandler
);
break;
default:
CTEAssert( FALSE );
}
return Status;
} /* NbiPnPNotification */