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|
/* SPDX-License-Identifier: GPL-2.0
*
* Copyright (C) 2018-2019 WireGuard LLC. All Rights Reserved.
*/
#include <ntifs.h>
#include <wdm.h>
#include <wdmsec.h>
#include <ndis.h>
#include <ntstrsafe.h>
#include "undocumented.h"
#include "atomic.h"
#pragma warning(disable : 4100) /* unreferenced formal parameter */
#pragma warning(disable : 4200) /* nonstandard: zero-sized array in struct/union */
#pragma warning(disable : 4204) /* nonstandard: non-constant aggregate initializer */
#pragma warning(disable : 4221) /* nonstandard: cannot be initialized using address of automatic variable */
#pragma warning(disable : 6320) /* exception-filter expression is the constant EXCEPTION_EXECUTE_HANDLER */
#define NDIS_MINIPORT_VERSION_MIN ((NDIS_MINIPORT_MINIMUM_MAJOR_VERSION << 16) | NDIS_MINIPORT_MINIMUM_MINOR_VERSION)
#define NDIS_MINIPORT_VERSION_MAX ((NDIS_MINIPORT_MAJOR_VERSION << 16) | NDIS_MINIPORT_MINOR_VERSION)
#define TUN_VENDOR_NAME "Wintun Tunnel"
#define TUN_VENDOR_ID 0xFFFFFF00
#define TUN_LINK_SPEED 100000000000ULL /* 100gbps */
/* Memory alignment of packets and rings */
#define TUN_ALIGNMENT sizeof(ULONG)
#define TUN_ALIGN(Size) (((ULONG)(Size) + ((ULONG)TUN_ALIGNMENT - 1)) & ~((ULONG)TUN_ALIGNMENT - 1))
#define TUN_IS_ALIGNED(Size) (!((ULONG)(Size) & ((ULONG)TUN_ALIGNMENT - 1)))
/* Maximum IP packet size */
#define TUN_MAX_IP_PACKET_SIZE 0xFFFF
/* Maximum packet size */
#define TUN_MAX_PACKET_SIZE TUN_ALIGN(sizeof(TUN_PACKET) + TUN_MAX_IP_PACKET_SIZE)
/* Minimum ring capacity. */
#define TUN_MIN_RING_CAPACITY 0x20000 /* 128kiB */
/* Maximum ring capacity. */
#define TUN_MAX_RING_CAPACITY 0x4000000 /* 64MiB */
/* Calculates ring capacity */
#define TUN_RING_CAPACITY(Size) ((Size) - sizeof(TUN_RING) - (TUN_MAX_PACKET_SIZE - TUN_ALIGNMENT))
/* Calculates ring offset modulo capacity */
#define TUN_RING_WRAP(Value, Capacity) ((Value) & (Capacity - 1))
#if REG_DWORD == REG_DWORD_BIG_ENDIAN
# define HTONS(x) ((USHORT)(x))
# define HTONL(x) ((ULONG)(x))
#elif REG_DWORD == REG_DWORD_LITTLE_ENDIAN
# define HTONS(x) ((((USHORT)(x)&0x00ff) << 8) | (((USHORT)(x)&0xff00) >> 8))
# define HTONL(x) \
((((ULONG)(x)&0x000000ff) << 24) | (((ULONG)(x)&0x0000ff00) << 8) | (((ULONG)(x)&0x00ff0000) >> 8) | \
(((ULONG)(x)&0xff000000) >> 24))
#else
# error "Unable to determine endianess"
#endif
#define TUN_MEMORY_TAG HTONL('wtun')
typedef struct _TUN_PACKET
{
/* Size of packet data (TUN_MAX_IP_PACKET_SIZE max) */
ULONG Size;
/* Packet data */
UCHAR _Field_size_bytes_(Size)
Data[];
} TUN_PACKET;
typedef struct _TUN_RING
{
/* Byte offset of the first packet in the ring. Its value must be a multiple of TUN_ALIGNMENT and less than ring
* capacity. */
volatile ULONG Head;
/* Byte offset of the first free space in the ring. Its value must be multiple of TUN_ALIGNMENT and less than ring
* capacity. */
volatile ULONG Tail;
/* Non-zero when consumer is in alertable state. */
volatile LONG Alertable;
/* Ring data. Its capacity must be a power of 2 + extra TUN_MAX_PACKET_SIZE-TUN_ALIGNMENT space to
* eliminate need for wrapping. */
UCHAR Data[];
} TUN_RING;
typedef struct _TUN_REGISTER_RINGS
{
struct
{
/* Size of the ring */
ULONG RingSize;
/* Pointer to client allocated ring */
TUN_RING *Ring;
/* On send: An event created by the client the Wintun signals after it moves the Tail member of the send ring.
* On receive: An event created by the client the client will signal when it moves the Tail member of
* the receive ring if receive ring is alertable. */
HANDLE TailMoved;
} Send, Receive;
} TUN_REGISTER_RINGS;
/* Register rings hosted by the client.
* The lpInBuffer and nInBufferSize parameters of DeviceIoControl() must point to an TUN_REGISTER_RINGS struct.
* Client must wait for this IOCTL to finish before adding packets to the ring. */
#define TUN_IOCTL_REGISTER_RINGS CTL_CODE(51820U, 0x970U, METHOD_BUFFERED, FILE_READ_DATA | FILE_WRITE_DATA)
/* Force close all open handles to allow for updating. */
#define TUN_IOCTL_FORCE_CLOSE_HANDLES CTL_CODE(51820U, 0x971U, METHOD_NEITHER, FILE_READ_DATA | FILE_WRITE_DATA)
typedef struct _TUN_CTX
{
volatile LONG Running;
/* Used like RCU. When we're making use of rings, we take a shared lock. When we want to register or release the
* rings and toggle the state, we take an exclusive lock before toggling the atomic and then releasing. It's similar
* to setting the atomic and then calling rcu_barrier(). */
EX_SPIN_LOCK TransitionLock;
NDIS_HANDLE MiniportAdapterHandle; /* This is actually a pointer to NDIS_MINIPORT_BLOCK struct. */
DEVICE_OBJECT *FunctionalDeviceObject;
NDIS_STATISTICS_INFO Statistics;
struct
{
FILE_OBJECT *volatile Owner;
KEVENT Disconnected;
struct
{
MDL *Mdl;
TUN_RING *Ring;
ULONG Capacity;
KEVENT *TailMoved;
KSPIN_LOCK Lock;
ULONG RingTail;
struct
{
NET_BUFFER_LIST *Head, *Tail;
} ActiveNbls;
} Send;
struct
{
MDL *Mdl;
TUN_RING *Ring;
ULONG Capacity;
KEVENT *TailMoved;
HANDLE Thread;
KSPIN_LOCK Lock;
struct
{
NET_BUFFER_LIST *Head, *Tail;
volatile LONG64 Count;
KEVENT Empty;
} ActiveNbls;
} Receive;
} Device;
NDIS_HANDLE NblPool;
} TUN_CTX;
static UINT NdisVersion;
static NDIS_HANDLE NdisMiniportDriverHandle;
static DRIVER_DISPATCH *NdisDispatchDeviceControl, *NdisDispatchClose;
static ERESOURCE TunDispatchCtxGuard;
static SECURITY_DESCRIPTOR *TunDispatchSecurityDescriptor;
_IRQL_requires_max_(DISPATCH_LEVEL)
static VOID
TunIndicateStatus(_In_ NDIS_HANDLE MiniportAdapterHandle, _In_ NDIS_MEDIA_CONNECT_STATE MediaConnectState)
{
NDIS_LINK_STATE State = { .Header = { .Type = NDIS_OBJECT_TYPE_DEFAULT,
.Revision = NDIS_LINK_STATE_REVISION_1,
.Size = NDIS_SIZEOF_LINK_STATE_REVISION_1 },
.MediaConnectState = MediaConnectState,
.MediaDuplexState = MediaDuplexStateFull,
.XmitLinkSpeed = TUN_LINK_SPEED,
.RcvLinkSpeed = TUN_LINK_SPEED,
.PauseFunctions = NdisPauseFunctionsUnsupported };
NDIS_STATUS_INDICATION Indication = { .Header = { .Type = NDIS_OBJECT_TYPE_STATUS_INDICATION,
.Revision = NDIS_STATUS_INDICATION_REVISION_1,
.Size = NDIS_SIZEOF_STATUS_INDICATION_REVISION_1 },
.SourceHandle = MiniportAdapterHandle,
.StatusCode = NDIS_STATUS_LINK_STATE,
.StatusBuffer = &State,
.StatusBufferSize = sizeof(State) };
NdisMIndicateStatusEx(MiniportAdapterHandle, &Indication);
}
static VOID
TunNblSetOffsetAndMarkActive(_Inout_ NET_BUFFER_LIST *Nbl, _In_ ULONG Offset)
{
ASSERT(TUN_IS_ALIGNED(Offset)); /* Alignment ensures bit 0 will be 0 (0=active, 1=completed). */
NET_BUFFER_LIST_MINIPORT_RESERVED(Nbl)[0] = (VOID *)Offset;
}
static ULONG
TunNblGetOffset(_In_ NET_BUFFER_LIST *Nbl)
{
return (ULONG)((ULONG_PTR)(NET_BUFFER_LIST_MINIPORT_RESERVED(Nbl)[0]) & ~((ULONG_PTR)TUN_ALIGNMENT - 1));
}
static VOID
TunNblMarkCompleted(_Inout_ NET_BUFFER_LIST *Nbl)
{
*(ULONG_PTR *)&NET_BUFFER_LIST_MINIPORT_RESERVED(Nbl)[0] |= 1;
}
static BOOLEAN
TunNblIsCompleted(_In_ NET_BUFFER_LIST *Nbl)
{
return (ULONG_PTR)(NET_BUFFER_LIST_MINIPORT_RESERVED(Nbl)[0]) & 1;
}
static MINIPORT_SEND_NET_BUFFER_LISTS TunSendNetBufferLists;
_Use_decl_annotations_
static VOID
TunSendNetBufferLists(
NDIS_HANDLE MiniportAdapterContext,
NET_BUFFER_LIST *NetBufferLists,
NDIS_PORT_NUMBER PortNumber,
ULONG SendFlags)
{
TUN_CTX *Ctx = (TUN_CTX *)MiniportAdapterContext;
LONG64 SentPacketsCount = 0, SentPacketsSize = 0, ErrorPacketsCount = 0, DiscardedPacketsCount = 0;
for (NET_BUFFER_LIST *Nbl = NetBufferLists, *NextNbl; Nbl; Nbl = NextNbl)
{
NextNbl = NET_BUFFER_LIST_NEXT_NBL(Nbl);
/* Measure NBL. */
ULONG PacketsCount = 0, RequiredRingSpace = 0;
for (NET_BUFFER *Nb = NET_BUFFER_LIST_FIRST_NB(Nbl); Nb; Nb = NET_BUFFER_NEXT_NB(Nb))
{
PacketsCount++;
UINT PacketSize = NET_BUFFER_DATA_LENGTH(Nb);
if (PacketSize <= TUN_MAX_IP_PACKET_SIZE)
RequiredRingSpace += TUN_ALIGN(sizeof(TUN_PACKET) + PacketSize);
}
KIRQL Irql = ExAcquireSpinLockShared(&Ctx->TransitionLock);
NDIS_STATUS Status;
if ((Status = NDIS_STATUS_PAUSED, !InterlockedGet(&Ctx->Running)) ||
(Status = NDIS_STATUS_MEDIA_DISCONNECTED, KeReadStateEvent(&Ctx->Device.Disconnected)))
goto skipNbl;
TUN_RING *Ring = Ctx->Device.Send.Ring;
ULONG RingCapacity = Ctx->Device.Send.Capacity;
/* Allocate space for packet(s) in the ring. */
ULONG RingHead = InterlockedGetU(&Ring->Head);
if (Status = NDIS_STATUS_ADAPTER_NOT_READY, RingHead >= RingCapacity)
goto skipNbl;
KLOCK_QUEUE_HANDLE LockHandle;
KeAcquireInStackQueuedSpinLock(&Ctx->Device.Send.Lock, &LockHandle);
ULONG RingTail = Ctx->Device.Send.RingTail;
ASSERT(RingTail < RingCapacity);
ULONG RingSpace = TUN_RING_WRAP(RingHead - RingTail - TUN_ALIGNMENT, RingCapacity);
if (Status = NDIS_STATUS_BUFFER_OVERFLOW, RingSpace < RequiredRingSpace)
goto cleanupKeReleaseInStackQueuedSpinLock;
Ctx->Device.Send.RingTail = TUN_RING_WRAP(RingTail + RequiredRingSpace, RingCapacity);
TunNblSetOffsetAndMarkActive(Nbl, Ctx->Device.Send.RingTail);
*(Ctx->Device.Send.ActiveNbls.Head ? &NET_BUFFER_LIST_NEXT_NBL(Ctx->Device.Send.ActiveNbls.Tail)
: &Ctx->Device.Send.ActiveNbls.Head) = Nbl;
Ctx->Device.Send.ActiveNbls.Tail = Nbl;
KeReleaseInStackQueuedSpinLock(&LockHandle);
/* Copy packet(s). */
for (NET_BUFFER *Nb = NET_BUFFER_LIST_FIRST_NB(Nbl); Nb; Nb = NET_BUFFER_NEXT_NB(Nb))
{
UINT PacketSize = NET_BUFFER_DATA_LENGTH(Nb);
if (Status = NDIS_STATUS_INVALID_LENGTH, PacketSize > TUN_MAX_IP_PACKET_SIZE)
goto skipPacket;
TUN_PACKET *Packet = (TUN_PACKET *)(Ring->Data + RingTail);
Packet->Size = PacketSize;
void *NbData = NdisGetDataBuffer(Nb, PacketSize, Packet->Data, 1, 0);
if (!NbData)
{
/* The space for the packet has already been allocated in the ring. Write a zero-packet rather than
* fixing the gap in the ring. */
NdisZeroMemory(Packet->Data, PacketSize);
DiscardedPacketsCount++;
}
else
{
if (NbData != Packet->Data)
NdisMoveMemory(Packet->Data, NbData, PacketSize);
SentPacketsCount++;
SentPacketsSize += PacketSize;
}
RingTail = TUN_RING_WRAP(RingTail + TUN_ALIGN(sizeof(TUN_PACKET) + PacketSize), RingCapacity);
continue;
skipPacket:
ErrorPacketsCount++;
NET_BUFFER_LIST_STATUS(Nbl) = Status;
}
ASSERT(RingTail == TunNblGetOffset(Nbl));
/* Adjust the ring tail. */
TunNblMarkCompleted(Nbl);
KeAcquireInStackQueuedSpinLock(&Ctx->Device.Send.Lock, &LockHandle);
while (Ctx->Device.Send.ActiveNbls.Head && TunNblIsCompleted(Ctx->Device.Send.ActiveNbls.Head))
{
NET_BUFFER_LIST *CompletedNbl = Ctx->Device.Send.ActiveNbls.Head;
Ctx->Device.Send.ActiveNbls.Head = NET_BUFFER_LIST_NEXT_NBL(CompletedNbl);
InterlockedSetU(&Ring->Tail, TunNblGetOffset(CompletedNbl));
KeSetEvent(Ctx->Device.Send.TailMoved, IO_NETWORK_INCREMENT, FALSE);
NET_BUFFER_LIST_NEXT_NBL(CompletedNbl) = NULL;
NdisMSendNetBufferListsComplete(
Ctx->MiniportAdapterHandle, CompletedNbl, NDIS_SEND_COMPLETE_FLAGS_DISPATCH_LEVEL);
}
KeReleaseInStackQueuedSpinLock(&LockHandle);
ExReleaseSpinLockShared(&Ctx->TransitionLock, Irql);
continue;
cleanupKeReleaseInStackQueuedSpinLock:
KeReleaseInStackQueuedSpinLock(&LockHandle);
skipNbl:
NET_BUFFER_LIST_STATUS(Nbl) = Status;
NET_BUFFER_LIST_NEXT_NBL(Nbl) = NULL;
NdisMSendNetBufferListsComplete(Ctx->MiniportAdapterHandle, Nbl, NDIS_SEND_COMPLETE_FLAGS_DISPATCH_LEVEL);
ExReleaseSpinLockShared(&Ctx->TransitionLock, Irql);
DiscardedPacketsCount += PacketsCount;
}
InterlockedAdd64((LONG64 *)&Ctx->Statistics.ifHCOutOctets, SentPacketsSize);
InterlockedAdd64((LONG64 *)&Ctx->Statistics.ifHCOutUcastOctets, SentPacketsSize);
InterlockedAdd64((LONG64 *)&Ctx->Statistics.ifHCOutUcastPkts, SentPacketsCount);
InterlockedAdd64((LONG64 *)&Ctx->Statistics.ifOutErrors, ErrorPacketsCount);
InterlockedAdd64((LONG64 *)&Ctx->Statistics.ifOutDiscards, DiscardedPacketsCount);
}
static MINIPORT_CANCEL_SEND TunCancelSend;
_Use_decl_annotations_
static VOID
TunCancelSend(NDIS_HANDLE MiniportAdapterContext, PVOID CancelId)
{
}
/* NDIS may change NET_BUFFER_LIST_NEXT_NBL(Nbl) at will between the NdisMIndicateReceiveNetBufferLists() and
* MINIPORT_RETURN_NET_BUFFER_LISTS calls. Therefore, we use our own ->Next pointer for book-keeping. */
#define NET_BUFFER_LIST_NEXT_NBL_EX(Nbl) (NET_BUFFER_LIST_MINIPORT_RESERVED(Nbl)[1])
/* Wintun-specific MINIPORT_RETURN_NET_BUFFER_LISTS return flag to indicate the NBL was not really sent to NDIS and
* the receiver thread is calling the MINIPORT_RETURN_NET_BUFFER_LISTS handler manualy to perform regular NBL's
* post-processing. Must not overlap any of the standard NDIS_RETURN_FLAGS_* values. */
#define TUN_RETURN_FLAGS_DISCARD 0x00010000
static MINIPORT_RETURN_NET_BUFFER_LISTS TunReturnNetBufferLists;
_Use_decl_annotations_
static VOID
TunReturnNetBufferLists(NDIS_HANDLE MiniportAdapterContext, PNET_BUFFER_LIST NetBufferLists, ULONG ReturnFlags)
{
TUN_CTX *Ctx = (TUN_CTX *)MiniportAdapterContext;
TUN_RING *Ring = Ctx->Device.Receive.Ring;
BOOLEAN WasNdisIndicated = !(ReturnFlags & TUN_RETURN_FLAGS_DISCARD);
LONG64 ReceivedPacketsCount = 0, ReceivedPacketsSize = 0, ErrorPacketsCount = 0, DiscardedPacketsCount = 0;
for (NET_BUFFER_LIST *Nbl = NetBufferLists, *NextNbl; Nbl; Nbl = NextNbl)
{
NextNbl = NET_BUFFER_LIST_NEXT_NBL(Nbl);
if (WasNdisIndicated)
{
if (NT_SUCCESS(NET_BUFFER_LIST_STATUS(Nbl)))
{
ReceivedPacketsCount++;
ReceivedPacketsSize += NET_BUFFER_LIST_FIRST_NB(Nbl)->DataLength;
}
else
ErrorPacketsCount++;
}
else
DiscardedPacketsCount++;
TunNblMarkCompleted(Nbl);
for (;;)
{
KLOCK_QUEUE_HANDLE LockHandle;
KeAcquireInStackQueuedSpinLock(&Ctx->Device.Receive.Lock, &LockHandle);
NET_BUFFER_LIST *CompletedNbl = Ctx->Device.Receive.ActiveNbls.Head;
if (!CompletedNbl || !TunNblIsCompleted(CompletedNbl))
{
KeReleaseInStackQueuedSpinLock(&LockHandle);
break;
}
Ctx->Device.Receive.ActiveNbls.Head = NET_BUFFER_LIST_NEXT_NBL_EX(CompletedNbl);
KeReleaseInStackQueuedSpinLock(&LockHandle);
InterlockedSetU(&Ring->Head, TunNblGetOffset(CompletedNbl));
NdisFreeNetBufferList(CompletedNbl);
}
if (WasNdisIndicated && InterlockedDecrement64(&Ctx->Device.Receive.ActiveNbls.Count) <= 0)
KeSetEvent(&Ctx->Device.Receive.ActiveNbls.Empty, IO_NO_INCREMENT, FALSE);
}
InterlockedAdd64((LONG64 *)&Ctx->Statistics.ifHCInOctets, ReceivedPacketsSize);
InterlockedAdd64((LONG64 *)&Ctx->Statistics.ifHCInUcastOctets, ReceivedPacketsSize);
InterlockedAdd64((LONG64 *)&Ctx->Statistics.ifHCInUcastPkts, ReceivedPacketsCount);
InterlockedAdd64((LONG64 *)&Ctx->Statistics.ifInErrors, ErrorPacketsCount);
InterlockedAdd64((LONG64 *)&Ctx->Statistics.ifInDiscards, DiscardedPacketsCount);
}
_IRQL_requires_max_(PASSIVE_LEVEL)
_Function_class_(KSTART_ROUTINE)
static VOID
TunProcessReceiveData(_Inout_ TUN_CTX *Ctx)
{
TUN_RING *Ring = Ctx->Device.Receive.Ring;
ULONG RingCapacity = Ctx->Device.Receive.Capacity;
const ULONG SpinMax = 10000 * 50 / KeQueryTimeIncrement(); /* 50ms */
VOID *Events[] = { &Ctx->Device.Disconnected, Ctx->Device.Receive.TailMoved };
ASSERT(RTL_NUMBER_OF(Events) <= THREAD_WAIT_OBJECTS);
ULONG RingHead = InterlockedGetU(&Ring->Head);
if (RingHead >= RingCapacity)
goto cleanup;
while (!KeReadStateEvent(&Ctx->Device.Disconnected))
{
/* Get next packet from the ring. */
ULONG RingTail = InterlockedGetU(&Ring->Tail);
if (RingHead == RingTail)
{
LARGE_INTEGER SpinStart;
KeQueryTickCount(&SpinStart);
for (;;)
{
RingTail = InterlockedGetU(&Ring->Tail);
if (RingTail != RingHead)
break;
if (KeReadStateEvent(&Ctx->Device.Disconnected))
break;
LARGE_INTEGER SpinNow;
KeQueryTickCount(&SpinNow);
if ((ULONG64)SpinNow.QuadPart - (ULONG64)SpinStart.QuadPart >= SpinMax)
break;
/* This should really call KeYieldProcessorEx(&zero), so it does the Hyper-V paravirtualization call,
* but it's not exported. */
YieldProcessor();
}
if (RingHead == RingTail)
{
InterlockedSet(&Ring->Alertable, TRUE);
RingTail = InterlockedGetU(&Ring->Tail);
if (RingHead == RingTail)
{
KeWaitForMultipleObjects(
RTL_NUMBER_OF(Events), Events, WaitAny, Executive, KernelMode, FALSE, NULL, NULL);
InterlockedSet(&Ring->Alertable, FALSE);
continue;
}
InterlockedSet(&Ring->Alertable, FALSE);
KeClearEvent(Ctx->Device.Receive.TailMoved);
}
}
if (RingTail >= RingCapacity)
break;
ULONG RingContent = TUN_RING_WRAP(RingTail - RingHead, RingCapacity);
if (RingContent < sizeof(TUN_PACKET))
break;
TUN_PACKET *Packet = (TUN_PACKET *)(Ring->Data + RingHead);
ULONG PacketSize = Packet->Size;
if (PacketSize > TUN_MAX_IP_PACKET_SIZE)
break;
ULONG AlignedPacketSize = TUN_ALIGN(sizeof(TUN_PACKET) + PacketSize);
if (AlignedPacketSize > RingContent)
break;
ULONG NblFlags;
USHORT NblProto;
if (PacketSize >= 20 && Packet->Data[0] >> 4 == 4)
{
NblFlags = NDIS_NBL_FLAGS_IS_IPV4;
NblProto = HTONS(NDIS_ETH_TYPE_IPV4);
}
else if (PacketSize >= 40 && Packet->Data[0] >> 4 == 6)
{
NblFlags = NDIS_NBL_FLAGS_IS_IPV6;
NblProto = HTONS(NDIS_ETH_TYPE_IPV6);
}
else
break;
RingHead = TUN_RING_WRAP(RingHead + AlignedPacketSize, RingCapacity);
NET_BUFFER_LIST *Nbl = NdisAllocateNetBufferAndNetBufferList(
Ctx->NblPool, 0, 0, Ctx->Device.Receive.Mdl, (ULONG)(Packet->Data - (UCHAR *)Ring), PacketSize);
if (!Nbl)
{
InterlockedIncrement64((LONG64 *)&Ctx->Statistics.ifInDiscards);
continue;
}
Nbl->SourceHandle = Ctx->MiniportAdapterHandle;
NdisSetNblFlag(Nbl, NblFlags);
NET_BUFFER_LIST_INFO(Nbl, NetBufferListFrameType) = (PVOID)NblProto;
NET_BUFFER_LIST_STATUS(Nbl) = NDIS_STATUS_SUCCESS;
TunNblSetOffsetAndMarkActive(Nbl, RingHead);
KLOCK_QUEUE_HANDLE LockHandle;
KeAcquireInStackQueuedSpinLock(&Ctx->Device.Receive.Lock, &LockHandle);
*(Ctx->Device.Receive.ActiveNbls.Head ? &NET_BUFFER_LIST_NEXT_NBL_EX(Ctx->Device.Receive.ActiveNbls.Tail)
: &Ctx->Device.Receive.ActiveNbls.Head) = Nbl;
Ctx->Device.Receive.ActiveNbls.Tail = Nbl;
KeReleaseInStackQueuedSpinLock(&LockHandle);
KIRQL Irql = ExAcquireSpinLockShared(&Ctx->TransitionLock);
if (!InterlockedGet(&Ctx->Running))
goto skipNbl;
if (InterlockedIncrement64(&Ctx->Device.Receive.ActiveNbls.Count) == 1)
KeClearEvent(&Ctx->Device.Receive.ActiveNbls.Empty);
NdisMIndicateReceiveNetBufferLists(
Ctx->MiniportAdapterHandle,
Nbl,
NDIS_DEFAULT_PORT_NUMBER,
1,
NDIS_RECEIVE_FLAGS_DISPATCH_LEVEL | NDIS_RECEIVE_FLAGS_SINGLE_ETHER_TYPE);
ExReleaseSpinLockShared(&Ctx->TransitionLock, Irql);
continue;
skipNbl:
NET_BUFFER_LIST_NEXT_NBL(Nbl) = NULL;
TunReturnNetBufferLists(Ctx, Nbl, TUN_RETURN_FLAGS_DISCARD);
ExReleaseSpinLockShared(&Ctx->TransitionLock, Irql);
}
/* Wait for all NBLs to return: 1. To prevent race between proceeding and invalidating ring head. 2. To have
* TunDispatchUnregisterBuffers() implicitly wait before releasing ring MDL used by NBL(s). */
KeWaitForSingleObject(&Ctx->Device.Receive.ActiveNbls.Empty, Executive, KernelMode, FALSE, NULL);
cleanup:
InterlockedSetU(&Ring->Head, MAXULONG);
}
#define IS_POW2(x) ((x) && !((x) & ((x)-1)))
_IRQL_requires_max_(PASSIVE_LEVEL)
_Must_inspect_result_
static NTSTATUS
TunRegisterBuffers(_Inout_ TUN_CTX *Ctx, _Inout_ IRP *Irp)
{
NTSTATUS Status;
IO_STACK_LOCATION *Stack = IoGetCurrentIrpStackLocation(Irp);
if (InterlockedCompareExchangePointer(&Ctx->Device.Owner, Stack->FileObject, NULL) != NULL)
return STATUS_ALREADY_INITIALIZED;
ASSERT(InterlockedGet(&Ctx->Running));
TUN_REGISTER_RINGS *Rrb = Irp->AssociatedIrp.SystemBuffer;
if (Status = STATUS_INVALID_PARAMETER, Stack->Parameters.DeviceIoControl.InputBufferLength != sizeof(*Rrb))
goto cleanupResetOwner;
Ctx->Device.Send.Capacity = TUN_RING_CAPACITY(Rrb->Send.RingSize);
if (Status = STATUS_INVALID_PARAMETER,
(Ctx->Device.Send.Capacity < TUN_MIN_RING_CAPACITY || Ctx->Device.Send.Capacity > TUN_MAX_RING_CAPACITY ||
!IS_POW2(Ctx->Device.Send.Capacity) || !Rrb->Send.TailMoved || !Rrb->Send.Ring))
goto cleanupResetOwner;
if (!NT_SUCCESS(
Status = ObReferenceObjectByHandle(
Rrb->Send.TailMoved,
/* We will not wait on send ring tail moved event. */
EVENT_MODIFY_STATE,
*ExEventObjectType,
UserMode,
&Ctx->Device.Send.TailMoved,
NULL)))
goto cleanupResetOwner;
Ctx->Device.Send.Mdl = IoAllocateMdl(Rrb->Send.Ring, Rrb->Send.RingSize, FALSE, FALSE, NULL);
if (Status = STATUS_INSUFFICIENT_RESOURCES, !Ctx->Device.Send.Mdl)
goto cleanupSendTailMoved;
try
{
Status = STATUS_INVALID_USER_BUFFER;
MmProbeAndLockPages(Ctx->Device.Send.Mdl, UserMode, IoWriteAccess);
}
except(EXCEPTION_EXECUTE_HANDLER) { goto cleanupSendMdl; }
Ctx->Device.Send.Ring =
MmGetSystemAddressForMdlSafe(Ctx->Device.Send.Mdl, NormalPagePriority | MdlMappingNoExecute);
if (Status = STATUS_INSUFFICIENT_RESOURCES, !Ctx->Device.Send.Ring)
goto cleanupSendUnlockPages;
Ctx->Device.Send.RingTail = InterlockedGetU(&Ctx->Device.Send.Ring->Tail);
if (Status = STATUS_INVALID_PARAMETER, Ctx->Device.Send.RingTail >= Ctx->Device.Send.Capacity)
goto cleanupSendUnlockPages;
Ctx->Device.Receive.Capacity = TUN_RING_CAPACITY(Rrb->Receive.RingSize);
if (Status = STATUS_INVALID_PARAMETER,
(Ctx->Device.Receive.Capacity < TUN_MIN_RING_CAPACITY || Ctx->Device.Receive.Capacity > TUN_MAX_RING_CAPACITY ||
!IS_POW2(Ctx->Device.Receive.Capacity) || !Rrb->Receive.TailMoved || !Rrb->Receive.Ring))
goto cleanupSendUnlockPages;
if (!NT_SUCCESS(
Status = ObReferenceObjectByHandle(
Rrb->Receive.TailMoved,
/* We need to clear receive ring TailMoved event on transition to non-alertable state. */
SYNCHRONIZE | EVENT_MODIFY_STATE,
*ExEventObjectType,
UserMode,
&Ctx->Device.Receive.TailMoved,
NULL)))
goto cleanupSendUnlockPages;
Ctx->Device.Receive.Mdl = IoAllocateMdl(Rrb->Receive.Ring, Rrb->Receive.RingSize, FALSE, FALSE, NULL);
if (Status = STATUS_INSUFFICIENT_RESOURCES, !Ctx->Device.Receive.Mdl)
goto cleanupReceiveTailMoved;
try
{
Status = STATUS_INVALID_USER_BUFFER;
MmProbeAndLockPages(Ctx->Device.Receive.Mdl, UserMode, IoWriteAccess);
}
except(EXCEPTION_EXECUTE_HANDLER) { goto cleanupReceiveMdl; }
Ctx->Device.Receive.Ring =
MmGetSystemAddressForMdlSafe(Ctx->Device.Receive.Mdl, NormalPagePriority | MdlMappingNoExecute);
if (Status = STATUS_INSUFFICIENT_RESOURCES, !Ctx->Device.Receive.Ring)
goto cleanupReceiveUnlockPages;
KeClearEvent(&Ctx->Device.Disconnected);
OBJECT_ATTRIBUTES ObjectAttributes;
InitializeObjectAttributes(&ObjectAttributes, NULL, OBJ_KERNEL_HANDLE, NULL, NULL);
if (Status = NDIS_STATUS_FAILURE,
!NT_SUCCESS(PsCreateSystemThread(
&Ctx->Device.Receive.Thread, THREAD_ALL_ACCESS, &ObjectAttributes, NULL, NULL, TunProcessReceiveData, Ctx)))
goto cleanupFlagsConnected;
TunIndicateStatus(Ctx->MiniportAdapterHandle, MediaConnectStateConnected);
return STATUS_SUCCESS;
cleanupFlagsConnected:
KeSetEvent(&Ctx->Device.Disconnected, IO_NO_INCREMENT, FALSE);
ExReleaseSpinLockExclusive(
&Ctx->TransitionLock,
ExAcquireSpinLockExclusive(&Ctx->TransitionLock)); /* Ensure above change is visible to all readers. */
cleanupReceiveUnlockPages:
MmUnlockPages(Ctx->Device.Receive.Mdl);
cleanupReceiveMdl:
IoFreeMdl(Ctx->Device.Receive.Mdl);
cleanupReceiveTailMoved:
ObDereferenceObject(Ctx->Device.Receive.TailMoved);
cleanupSendUnlockPages:
MmUnlockPages(Ctx->Device.Send.Mdl);
cleanupSendMdl:
IoFreeMdl(Ctx->Device.Send.Mdl);
cleanupSendTailMoved:
ObDereferenceObject(Ctx->Device.Send.TailMoved);
cleanupResetOwner:
InterlockedSetPointer(&Ctx->Device.Owner, NULL);
return Status;
}
_IRQL_requires_max_(PASSIVE_LEVEL)
static VOID
TunUnregisterBuffers(_Inout_ TUN_CTX *Ctx, _In_ FILE_OBJECT *Owner)
{
if (InterlockedCompareExchangePointer(&Ctx->Device.Owner, NULL, Owner) != Owner)
return;
TunIndicateStatus(Ctx->MiniportAdapterHandle, MediaConnectStateDisconnected);
KeSetEvent(&Ctx->Device.Disconnected, IO_NO_INCREMENT, FALSE);
ExReleaseSpinLockExclusive(
&Ctx->TransitionLock,
ExAcquireSpinLockExclusive(&Ctx->TransitionLock)); /* Ensure above change is visible to all readers. */
PKTHREAD ThreadObject;
if (NT_SUCCESS(
ObReferenceObjectByHandle(Ctx->Device.Receive.Thread, SYNCHRONIZE, NULL, KernelMode, &ThreadObject, NULL)))
{
KeWaitForSingleObject(ThreadObject, Executive, KernelMode, FALSE, NULL);
ObDereferenceObject(ThreadObject);
}
ZwClose(Ctx->Device.Receive.Thread);
InterlockedSetU(&Ctx->Device.Send.Ring->Tail, MAXULONG);
KeSetEvent(Ctx->Device.Send.TailMoved, IO_NO_INCREMENT, FALSE);
MmUnlockPages(Ctx->Device.Receive.Mdl);
IoFreeMdl(Ctx->Device.Receive.Mdl);
ObDereferenceObject(Ctx->Device.Receive.TailMoved);
MmUnlockPages(Ctx->Device.Send.Mdl);
IoFreeMdl(Ctx->Device.Send.Mdl);
ObDereferenceObject(Ctx->Device.Send.TailMoved);
}
_IRQL_requires_max_(PASSIVE_LEVEL)
static void
TunForceHandlesClosed(_Inout_ DEVICE_OBJECT *DeviceObject)
{
NTSTATUS Status;
PEPROCESS Process;
KAPC_STATE ApcState;
PVOID Object = NULL;
ULONG VerifierFlags = 0;
OBJECT_HANDLE_INFORMATION HandleInfo;
SYSTEM_HANDLE_INFORMATION_EX *HandleTable = NULL;
MmIsVerifierEnabled(&VerifierFlags);
for (ULONG Size = 0, RequestedSize;
(Status = ZwQuerySystemInformation(SystemExtendedHandleInformation, HandleTable, Size, &RequestedSize)) ==
STATUS_INFO_LENGTH_MISMATCH;
Size = RequestedSize)
{
if (HandleTable)
ExFreePoolWithTag(HandleTable, TUN_MEMORY_TAG);
HandleTable = ExAllocatePoolWithTag(PagedPool, RequestedSize, TUN_MEMORY_TAG);
if (!HandleTable)
return;
}
if (!NT_SUCCESS(Status) || !HandleTable)
goto cleanup;
HANDLE CurrentProcessId = PsGetCurrentProcessId();
for (ULONG_PTR Index = 0; Index < HandleTable->NumberOfHandles; ++Index)
{
FILE_OBJECT *FileObject = HandleTable->Handles[Index].Object;
if (!FileObject || FileObject->Type != 5 || FileObject->DeviceObject != DeviceObject)
continue;
HANDLE ProcessId = HandleTable->Handles[Index].UniqueProcessId;
if (ProcessId == CurrentProcessId)
continue;
Status = PsLookupProcessByProcessId(ProcessId, &Process);
if (!NT_SUCCESS(Status))
continue;
KeStackAttachProcess(Process, &ApcState);
if (!VerifierFlags)
Status = ObReferenceObjectByHandle(
HandleTable->Handles[Index].HandleValue, 0, NULL, UserMode, &Object, &HandleInfo);
if (NT_SUCCESS(Status))
{
if (VerifierFlags || Object == FileObject)
ObCloseHandle(HandleTable->Handles[Index].HandleValue, UserMode);
if (!VerifierFlags)
ObfDereferenceObject(Object);
}
KeUnstackDetachProcess(&ApcState);
ObfDereferenceObject(Process);
}
cleanup:
if (HandleTable)
ExFreePoolWithTag(HandleTable, TUN_MEMORY_TAG);
}
static NTSTATUS TunInitializeDispatchSecurityDescriptor(VOID)
{
NTSTATUS Status;
SID_IDENTIFIER_AUTHORITY NtAuthority = SECURITY_NT_AUTHORITY;
SID LocalSystem = { 0 };
if (!NT_SUCCESS(Status = RtlInitializeSid(&LocalSystem, &NtAuthority, 1)))
return Status;
LocalSystem.SubAuthority[0] = 18;
struct
{
ACL Dacl;
ACCESS_ALLOWED_ACE AceFiller;
SID SidFiller;
} DaclStorage = { 0 };
if (!NT_SUCCESS(Status = RtlCreateAcl(&DaclStorage.Dacl, sizeof(DaclStorage), ACL_REVISION)))
return Status;
ACCESS_MASK AccessMask = GENERIC_ALL;
RtlMapGenericMask(&AccessMask, IoGetFileObjectGenericMapping());
if (!NT_SUCCESS(Status = RtlAddAccessAllowedAce(&DaclStorage.Dacl, ACL_REVISION, AccessMask, &LocalSystem)))
return Status;
SECURITY_DESCRIPTOR SecurityDescriptor = { 0 };
if (!NT_SUCCESS(Status = RtlCreateSecurityDescriptor(&SecurityDescriptor, SECURITY_DESCRIPTOR_REVISION)))
return Status;
if (!NT_SUCCESS(Status = RtlSetDaclSecurityDescriptor(&SecurityDescriptor, TRUE, &DaclStorage.Dacl, FALSE)))
return Status;
SecurityDescriptor.Control |= SE_DACL_PROTECTED;
ULONG RequiredBytes = 0;
Status = RtlAbsoluteToSelfRelativeSD(&SecurityDescriptor, NULL, &RequiredBytes);
if (Status != STATUS_BUFFER_TOO_SMALL)
return NT_SUCCESS(Status) ? STATUS_INSUFFICIENT_RESOURCES : Status;
TunDispatchSecurityDescriptor = ExAllocatePoolWithTag(NonPagedPoolNx, RequiredBytes, TUN_MEMORY_TAG);
if (!TunDispatchSecurityDescriptor)
return STATUS_INSUFFICIENT_RESOURCES;
Status = RtlAbsoluteToSelfRelativeSD(&SecurityDescriptor, TunDispatchSecurityDescriptor, &RequiredBytes);
if (!NT_SUCCESS(Status))
return Status;
return STATUS_SUCCESS;
}
_Dispatch_type_(IRP_MJ_DEVICE_CONTROL)
static DRIVER_DISPATCH_PAGED TunDispatchDeviceControl;
_Use_decl_annotations_
static NTSTATUS
TunDispatchDeviceControl(DEVICE_OBJECT *DeviceObject, IRP *Irp)
{
IO_STACK_LOCATION *Stack = IoGetCurrentIrpStackLocation(Irp);
if (Stack->Parameters.DeviceIoControl.IoControlCode != TUN_IOCTL_REGISTER_RINGS &&
Stack->Parameters.DeviceIoControl.IoControlCode != TUN_IOCTL_FORCE_CLOSE_HANDLES)
return NdisDispatchDeviceControl(DeviceObject, Irp);
SECURITY_SUBJECT_CONTEXT SubjectContext;
SeCaptureSubjectContext(&SubjectContext);
NTSTATUS Status;
ACCESS_MASK GrantedAccess;
BOOLEAN HasAccess = SeAccessCheck(
TunDispatchSecurityDescriptor,
&SubjectContext,
FALSE,
FILE_WRITE_DATA,
0,
NULL,
IoGetFileObjectGenericMapping(),
Irp->RequestorMode,
&GrantedAccess,
&Status);
SeReleaseSubjectContext(&SubjectContext);
if (!HasAccess)
goto cleanup;
switch (Stack->Parameters.DeviceIoControl.IoControlCode)
{
case TUN_IOCTL_REGISTER_RINGS: {
KeEnterCriticalRegion();
ExAcquireResourceSharedLite(&TunDispatchCtxGuard, TRUE);
#pragma warning(suppress : 28175)
TUN_CTX *Ctx = DeviceObject->Reserved;
Status = NDIS_STATUS_ADAPTER_NOT_READY;
if (Ctx)
Status = TunRegisterBuffers(Ctx, Irp);
ExReleaseResourceLite(&TunDispatchCtxGuard);
KeLeaveCriticalRegion();
break;
}
case TUN_IOCTL_FORCE_CLOSE_HANDLES:
TunForceHandlesClosed(Stack->FileObject->DeviceObject);
Status = STATUS_SUCCESS;
break;
}
cleanup:
Irp->IoStatus.Status = Status;
Irp->IoStatus.Information = 0;
IoCompleteRequest(Irp, IO_NO_INCREMENT);
return Status;
}
_Dispatch_type_(IRP_MJ_CLOSE)
static DRIVER_DISPATCH_PAGED TunDispatchClose;
_Use_decl_annotations_
static NTSTATUS
TunDispatchClose(DEVICE_OBJECT *DeviceObject, IRP *Irp)
{
KeEnterCriticalRegion();
ExAcquireResourceSharedLite(&TunDispatchCtxGuard, TRUE);
#pragma warning(suppress : 28175)
TUN_CTX *Ctx = DeviceObject->Reserved;
if (Ctx)
TunUnregisterBuffers(Ctx, IoGetCurrentIrpStackLocation(Irp)->FileObject);
ExReleaseResourceLite(&TunDispatchCtxGuard);
KeLeaveCriticalRegion();
return NdisDispatchClose(DeviceObject, Irp);
}
static MINIPORT_RESTART TunRestart;
_Use_decl_annotations_
static NDIS_STATUS
TunRestart(NDIS_HANDLE MiniportAdapterContext, PNDIS_MINIPORT_RESTART_PARAMETERS MiniportRestartParameters)
{
TUN_CTX *Ctx = (TUN_CTX *)MiniportAdapterContext;
InterlockedSet(&Ctx->Running, TRUE);
return NDIS_STATUS_SUCCESS;
}
static MINIPORT_PAUSE TunPause;
_Use_decl_annotations_
static NDIS_STATUS
TunPause(NDIS_HANDLE MiniportAdapterContext, PNDIS_MINIPORT_PAUSE_PARAMETERS MiniportPauseParameters)
{
TUN_CTX *Ctx = (TUN_CTX *)MiniportAdapterContext;
InterlockedSet(&Ctx->Running, FALSE);
ExReleaseSpinLockExclusive(
&Ctx->TransitionLock,
ExAcquireSpinLockExclusive(&Ctx->TransitionLock)); /* Ensure above change is visible to all readers. */
KeWaitForSingleObject(&Ctx->Device.Receive.ActiveNbls.Empty, Executive, KernelMode, FALSE, NULL);
return NDIS_STATUS_SUCCESS;
}
static MINIPORT_DEVICE_PNP_EVENT_NOTIFY TunDevicePnPEventNotify;
_Use_decl_annotations_
static VOID
TunDevicePnPEventNotify(NDIS_HANDLE MiniportAdapterContext, PNET_DEVICE_PNP_EVENT NetDevicePnPEvent)
{
}
static MINIPORT_INITIALIZE TunInitializeEx;
_Use_decl_annotations_
static NDIS_STATUS
TunInitializeEx(
NDIS_HANDLE MiniportAdapterHandle,
NDIS_HANDLE MiniportDriverContext,
PNDIS_MINIPORT_INIT_PARAMETERS MiniportInitParameters)
{
NDIS_STATUS Status;
if (!MiniportAdapterHandle)
return NDIS_STATUS_FAILURE;
/* Leaking memory 'Ctx'. Note: 'Ctx' is freed in TunHaltEx or on failure. */
#pragma warning(suppress : 6014)
TUN_CTX *Ctx = ExAllocatePoolWithTag(NonPagedPoolNx, sizeof(*Ctx), TUN_MEMORY_TAG);
if (!Ctx)
return NDIS_STATUS_FAILURE;
NdisZeroMemory(Ctx, sizeof(*Ctx));
Ctx->MiniportAdapterHandle = MiniportAdapterHandle;
NdisMGetDeviceProperty(MiniportAdapterHandle, NULL, &Ctx->FunctionalDeviceObject, NULL, NULL, NULL);
if (Status = NDIS_STATUS_FAILURE, !Ctx->FunctionalDeviceObject)
goto cleanupFreeCtx;
#pragma warning(suppress : 28175)
ASSERT(!Ctx->FunctionalDeviceObject->Reserved);
/* Reverse engineering indicates that we'd be better off calling
* NdisWdfGetAdapterContextFromAdapterHandle(functional_device),
* which points to our TUN_CTX object directly, but this isn't
* available before Windows 10, so for now we just stick it into
* this reserved field. Revisit this when we drop support for old
* Windows versions. */
#pragma warning(suppress : 28175)
Ctx->FunctionalDeviceObject->Reserved = Ctx;
Ctx->Statistics.Header.Type = NDIS_OBJECT_TYPE_DEFAULT;
Ctx->Statistics.Header.Revision = NDIS_STATISTICS_INFO_REVISION_1;
Ctx->Statistics.Header.Size = NDIS_SIZEOF_STATISTICS_INFO_REVISION_1;
Ctx->Statistics.SupportedStatistics =
NDIS_STATISTICS_FLAGS_VALID_DIRECTED_FRAMES_RCV | NDIS_STATISTICS_FLAGS_VALID_MULTICAST_FRAMES_RCV |
NDIS_STATISTICS_FLAGS_VALID_BROADCAST_FRAMES_RCV | NDIS_STATISTICS_FLAGS_VALID_BYTES_RCV |
NDIS_STATISTICS_FLAGS_VALID_RCV_DISCARDS | NDIS_STATISTICS_FLAGS_VALID_RCV_ERROR |
NDIS_STATISTICS_FLAGS_VALID_DIRECTED_FRAMES_XMIT | NDIS_STATISTICS_FLAGS_VALID_MULTICAST_FRAMES_XMIT |
NDIS_STATISTICS_FLAGS_VALID_BROADCAST_FRAMES_XMIT | NDIS_STATISTICS_FLAGS_VALID_BYTES_XMIT |
NDIS_STATISTICS_FLAGS_VALID_XMIT_ERROR | NDIS_STATISTICS_FLAGS_VALID_XMIT_DISCARDS |
NDIS_STATISTICS_FLAGS_VALID_DIRECTED_BYTES_RCV | NDIS_STATISTICS_FLAGS_VALID_MULTICAST_BYTES_RCV |
NDIS_STATISTICS_FLAGS_VALID_BROADCAST_BYTES_RCV | NDIS_STATISTICS_FLAGS_VALID_DIRECTED_BYTES_XMIT |
NDIS_STATISTICS_FLAGS_VALID_MULTICAST_BYTES_XMIT | NDIS_STATISTICS_FLAGS_VALID_BROADCAST_BYTES_XMIT;
KeInitializeEvent(&Ctx->Device.Disconnected, NotificationEvent, TRUE);
KeInitializeSpinLock(&Ctx->Device.Send.Lock);
KeInitializeSpinLock(&Ctx->Device.Receive.Lock);
KeInitializeEvent(&Ctx->Device.Receive.ActiveNbls.Empty, NotificationEvent, TRUE);
NET_BUFFER_LIST_POOL_PARAMETERS NblPoolParameters = {
.Header = { .Type = NDIS_OBJECT_TYPE_DEFAULT,
.Revision = NET_BUFFER_LIST_POOL_PARAMETERS_REVISION_1,
.Size = NDIS_SIZEOF_NET_BUFFER_LIST_POOL_PARAMETERS_REVISION_1 },
.ProtocolId = NDIS_PROTOCOL_ID_DEFAULT,
.fAllocateNetBuffer = TRUE,
.PoolTag = TUN_MEMORY_TAG
};
/* Leaking memory 'Ctx->NblPool'. Note: 'Ctx->NblPool' is freed in TunHaltEx or on failure. */
#pragma warning(suppress : 6014)
Ctx->NblPool = NdisAllocateNetBufferListPool(MiniportAdapterHandle, &NblPoolParameters);
if (Status = NDIS_STATUS_FAILURE, !Ctx->NblPool)
goto cleanupFreeCtx;
NDIS_MINIPORT_ADAPTER_REGISTRATION_ATTRIBUTES AdapterRegistrationAttributes = {
.Header = { .Type = NDIS_OBJECT_TYPE_MINIPORT_ADAPTER_REGISTRATION_ATTRIBUTES,
.Revision = NdisVersion < NDIS_RUNTIME_VERSION_630
? NDIS_MINIPORT_ADAPTER_REGISTRATION_ATTRIBUTES_REVISION_1
: NDIS_MINIPORT_ADAPTER_REGISTRATION_ATTRIBUTES_REVISION_2,
.Size = NdisVersion < NDIS_RUNTIME_VERSION_630
? NDIS_SIZEOF_MINIPORT_ADAPTER_REGISTRATION_ATTRIBUTES_REVISION_1
: NDIS_SIZEOF_MINIPORT_ADAPTER_REGISTRATION_ATTRIBUTES_REVISION_2 },
.AttributeFlags = NDIS_MINIPORT_ATTRIBUTES_NO_HALT_ON_SUSPEND | NDIS_MINIPORT_ATTRIBUTES_SURPRISE_REMOVE_OK,
.InterfaceType = NdisInterfaceInternal,
.MiniportAdapterContext = Ctx
};
if (Status = NDIS_STATUS_FAILURE,
!NT_SUCCESS(NdisMSetMiniportAttributes(
MiniportAdapterHandle, (PNDIS_MINIPORT_ADAPTER_ATTRIBUTES)&AdapterRegistrationAttributes)))
goto cleanupFreeNblPool;
NDIS_PM_CAPABILITIES PmCapabilities = {
.Header = { .Type = NDIS_OBJECT_TYPE_DEFAULT,
.Revision = NdisVersion < NDIS_RUNTIME_VERSION_630 ? NDIS_PM_CAPABILITIES_REVISION_1
: NDIS_PM_CAPABILITIES_REVISION_2,
.Size = NdisVersion < NDIS_RUNTIME_VERSION_630 ? NDIS_SIZEOF_NDIS_PM_CAPABILITIES_REVISION_1
: NDIS_SIZEOF_NDIS_PM_CAPABILITIES_REVISION_2 },
.MinMagicPacketWakeUp = NdisDeviceStateUnspecified,
.MinPatternWakeUp = NdisDeviceStateUnspecified,
.MinLinkChangeWakeUp = NdisDeviceStateUnspecified
};
static NDIS_OID SupportedOids[] = { OID_GEN_MAXIMUM_TOTAL_SIZE,
OID_GEN_CURRENT_LOOKAHEAD,
OID_GEN_TRANSMIT_BUFFER_SPACE,
OID_GEN_RECEIVE_BUFFER_SPACE,
OID_GEN_TRANSMIT_BLOCK_SIZE,
OID_GEN_RECEIVE_BLOCK_SIZE,
OID_GEN_VENDOR_DESCRIPTION,
OID_GEN_VENDOR_ID,
OID_GEN_VENDOR_DRIVER_VERSION,
OID_GEN_XMIT_OK,
OID_GEN_RCV_OK,
OID_GEN_CURRENT_PACKET_FILTER,
OID_GEN_STATISTICS,
OID_GEN_INTERRUPT_MODERATION,
OID_GEN_LINK_PARAMETERS,
OID_PNP_SET_POWER,
OID_PNP_QUERY_POWER };
NDIS_MINIPORT_ADAPTER_GENERAL_ATTRIBUTES AdapterGeneralAttributes = {
.Header = { .Type = NDIS_OBJECT_TYPE_MINIPORT_ADAPTER_GENERAL_ATTRIBUTES,
.Revision = NDIS_MINIPORT_ADAPTER_GENERAL_ATTRIBUTES_REVISION_2,
.Size = NDIS_SIZEOF_MINIPORT_ADAPTER_GENERAL_ATTRIBUTES_REVISION_2 },
.MediaType = NdisMediumIP,
.PhysicalMediumType = NdisPhysicalMediumUnspecified,
.MtuSize = TUN_MAX_IP_PACKET_SIZE,
.MaxXmitLinkSpeed = TUN_LINK_SPEED,
.MaxRcvLinkSpeed = TUN_LINK_SPEED,
.RcvLinkSpeed = TUN_LINK_SPEED,
.XmitLinkSpeed = TUN_LINK_SPEED,
.MediaConnectState = MediaConnectStateDisconnected,
.LookaheadSize = TUN_MAX_IP_PACKET_SIZE,
.MacOptions =
NDIS_MAC_OPTION_TRANSFERS_NOT_PEND | NDIS_MAC_OPTION_COPY_LOOKAHEAD_DATA | NDIS_MAC_OPTION_NO_LOOPBACK,
.SupportedPacketFilters = NDIS_PACKET_TYPE_DIRECTED | NDIS_PACKET_TYPE_ALL_MULTICAST |
NDIS_PACKET_TYPE_BROADCAST | NDIS_PACKET_TYPE_ALL_LOCAL |
NDIS_PACKET_TYPE_ALL_FUNCTIONAL,
.AccessType = NET_IF_ACCESS_BROADCAST,
.DirectionType = NET_IF_DIRECTION_SENDRECEIVE,
.ConnectionType = NET_IF_CONNECTION_DEDICATED,
.IfType = IF_TYPE_PROP_VIRTUAL,
.IfConnectorPresent = FALSE,
.SupportedStatistics = Ctx->Statistics.SupportedStatistics,
.SupportedPauseFunctions = NdisPauseFunctionsUnsupported,
.AutoNegotiationFlags =
NDIS_LINK_STATE_XMIT_LINK_SPEED_AUTO_NEGOTIATED | NDIS_LINK_STATE_RCV_LINK_SPEED_AUTO_NEGOTIATED |
NDIS_LINK_STATE_DUPLEX_AUTO_NEGOTIATED | NDIS_LINK_STATE_PAUSE_FUNCTIONS_AUTO_NEGOTIATED,
.SupportedOidList = SupportedOids,
.SupportedOidListLength = sizeof(SupportedOids),
.PowerManagementCapabilitiesEx = &PmCapabilities
};
if (Status = NDIS_STATUS_FAILURE,
!NT_SUCCESS(NdisMSetMiniportAttributes(
MiniportAdapterHandle, (PNDIS_MINIPORT_ADAPTER_ATTRIBUTES)&AdapterGeneralAttributes)))
goto cleanupFreeNblPool;
/* A miniport driver can call NdisMIndicateStatusEx after setting its
* registration attributes even if the driver is still in the context
* of the MiniportInitializeEx function. */
TunIndicateStatus(Ctx->MiniportAdapterHandle, MediaConnectStateDisconnected);
return NDIS_STATUS_SUCCESS;
cleanupFreeNblPool:
NdisFreeNetBufferListPool(Ctx->NblPool);
cleanupFreeCtx:
ExFreePoolWithTag(Ctx, TUN_MEMORY_TAG);
return Status;
}
static MINIPORT_HALT TunHaltEx;
_Use_decl_annotations_
static VOID
TunHaltEx(NDIS_HANDLE MiniportAdapterContext, NDIS_HALT_ACTION HaltAction)
{
TUN_CTX *Ctx = (TUN_CTX *)MiniportAdapterContext;
ExReleaseSpinLockExclusive(
&Ctx->TransitionLock,
ExAcquireSpinLockExclusive(&Ctx->TransitionLock)); /* Ensure above change is visible to all readers. */
NdisFreeNetBufferListPool(Ctx->NblPool);
InterlockedSetPointer(&Ctx->MiniportAdapterHandle, NULL);
#pragma warning(suppress : 28175)
InterlockedSetPointer(&Ctx->FunctionalDeviceObject->Reserved, NULL);
KeEnterCriticalRegion();
ExAcquireResourceExclusiveLite(&TunDispatchCtxGuard, TRUE); /* Ensure above change is visible to all readers. */
ExReleaseResourceLite(&TunDispatchCtxGuard);
KeLeaveCriticalRegion();
ExFreePoolWithTag(Ctx, TUN_MEMORY_TAG);
}
static MINIPORT_SHUTDOWN TunShutdownEx;
_Use_decl_annotations_
static VOID
TunShutdownEx(NDIS_HANDLE MiniportAdapterContext, NDIS_SHUTDOWN_ACTION ShutdownAction)
{
}
_IRQL_requires_max_(APC_LEVEL)
_Must_inspect_result_
static NDIS_STATUS
TunOidQueryWrite(_Inout_ NDIS_OID_REQUEST *OidRequest, _In_ ULONG Value)
{
if (OidRequest->DATA.QUERY_INFORMATION.InformationBufferLength < sizeof(ULONG))
{
OidRequest->DATA.QUERY_INFORMATION.BytesNeeded = sizeof(ULONG);
OidRequest->DATA.QUERY_INFORMATION.BytesWritten = 0;
return NDIS_STATUS_BUFFER_TOO_SHORT;
}
OidRequest->DATA.QUERY_INFORMATION.BytesNeeded = OidRequest->DATA.QUERY_INFORMATION.BytesWritten = sizeof(ULONG);
*(ULONG *)OidRequest->DATA.QUERY_INFORMATION.InformationBuffer = Value;
return NDIS_STATUS_SUCCESS;
}
_IRQL_requires_max_(APC_LEVEL)
_Must_inspect_result_
static NDIS_STATUS
TunOidQueryWrite32or64(_Inout_ NDIS_OID_REQUEST *OidRequest, _In_ ULONG64 Value)
{
if (OidRequest->DATA.QUERY_INFORMATION.InformationBufferLength < sizeof(ULONG))
{
OidRequest->DATA.QUERY_INFORMATION.BytesNeeded = sizeof(ULONG64);
OidRequest->DATA.QUERY_INFORMATION.BytesWritten = 0;
return NDIS_STATUS_BUFFER_TOO_SHORT;
}
if (OidRequest->DATA.QUERY_INFORMATION.InformationBufferLength < sizeof(ULONG64))
{
OidRequest->DATA.QUERY_INFORMATION.BytesNeeded = sizeof(ULONG64);
OidRequest->DATA.QUERY_INFORMATION.BytesWritten = sizeof(ULONG);
*(ULONG *)OidRequest->DATA.QUERY_INFORMATION.InformationBuffer = (ULONG)(Value & 0xffffffff);
return NDIS_STATUS_SUCCESS;
}
OidRequest->DATA.QUERY_INFORMATION.BytesNeeded = OidRequest->DATA.QUERY_INFORMATION.BytesWritten = sizeof(ULONG64);
*(ULONG64 *)OidRequest->DATA.QUERY_INFORMATION.InformationBuffer = Value;
return NDIS_STATUS_SUCCESS;
}
_IRQL_requires_max_(APC_LEVEL)
_Must_inspect_result_
static NDIS_STATUS
TunOidQueryWriteBuf(_Inout_ NDIS_OID_REQUEST *OidRequest, _In_bytecount_(Size) const void *Buf, _In_ ULONG Size)
{
if (OidRequest->DATA.QUERY_INFORMATION.InformationBufferLength < Size)
{
OidRequest->DATA.QUERY_INFORMATION.BytesNeeded = Size;
OidRequest->DATA.QUERY_INFORMATION.BytesWritten = 0;
return NDIS_STATUS_BUFFER_TOO_SHORT;
}
OidRequest->DATA.QUERY_INFORMATION.BytesNeeded = OidRequest->DATA.QUERY_INFORMATION.BytesWritten = Size;
NdisMoveMemory(OidRequest->DATA.QUERY_INFORMATION.InformationBuffer, Buf, Size);
return NDIS_STATUS_SUCCESS;
}
_IRQL_requires_max_(APC_LEVEL)
_Must_inspect_result_
static NDIS_STATUS
TunOidQuery(_Inout_ TUN_CTX *Ctx, _Inout_ NDIS_OID_REQUEST *OidRequest)
{
ASSERT(
OidRequest->RequestType == NdisRequestQueryInformation ||
OidRequest->RequestType == NdisRequestQueryStatistics);
switch (OidRequest->DATA.QUERY_INFORMATION.Oid)
{
case OID_GEN_MAXIMUM_TOTAL_SIZE:
case OID_GEN_TRANSMIT_BLOCK_SIZE:
case OID_GEN_RECEIVE_BLOCK_SIZE:
return TunOidQueryWrite(OidRequest, TUN_MAX_IP_PACKET_SIZE);
case OID_GEN_TRANSMIT_BUFFER_SPACE:
return TunOidQueryWrite(OidRequest, TUN_MAX_RING_CAPACITY);
case OID_GEN_RECEIVE_BUFFER_SPACE:
return TunOidQueryWrite(OidRequest, TUN_MAX_RING_CAPACITY);
case OID_GEN_VENDOR_ID:
return TunOidQueryWrite(OidRequest, HTONL(TUN_VENDOR_ID));
case OID_GEN_VENDOR_DESCRIPTION:
return TunOidQueryWriteBuf(OidRequest, TUN_VENDOR_NAME, (ULONG)sizeof(TUN_VENDOR_NAME));
case OID_GEN_VENDOR_DRIVER_VERSION:
return TunOidQueryWrite(OidRequest, (WINTUN_VERSION_MAJ << 16) | WINTUN_VERSION_MIN);
case OID_GEN_XMIT_OK:
return TunOidQueryWrite32or64(
OidRequest,
InterlockedGet64((LONG64 *)&Ctx->Statistics.ifHCOutUcastPkts) +
InterlockedGet64((LONG64 *)&Ctx->Statistics.ifHCOutMulticastPkts) +
InterlockedGet64((LONG64 *)&Ctx->Statistics.ifHCOutBroadcastPkts));
case OID_GEN_RCV_OK:
return TunOidQueryWrite32or64(
OidRequest,
InterlockedGet64((LONG64 *)&Ctx->Statistics.ifHCInUcastPkts) +
InterlockedGet64((LONG64 *)&Ctx->Statistics.ifHCInMulticastPkts) +
InterlockedGet64((LONG64 *)&Ctx->Statistics.ifHCInBroadcastPkts));
case OID_GEN_STATISTICS:
return TunOidQueryWriteBuf(OidRequest, &Ctx->Statistics, (ULONG)sizeof(Ctx->Statistics));
case OID_GEN_INTERRUPT_MODERATION: {
static const NDIS_INTERRUPT_MODERATION_PARAMETERS InterruptParameters = {
.Header = { .Type = NDIS_OBJECT_TYPE_DEFAULT,
.Revision = NDIS_INTERRUPT_MODERATION_PARAMETERS_REVISION_1,
.Size = NDIS_SIZEOF_INTERRUPT_MODERATION_PARAMETERS_REVISION_1 },
.InterruptModeration = NdisInterruptModerationNotSupported
};
return TunOidQueryWriteBuf(OidRequest, &InterruptParameters, (ULONG)sizeof(InterruptParameters));
}
case OID_PNP_QUERY_POWER:
OidRequest->DATA.QUERY_INFORMATION.BytesNeeded = OidRequest->DATA.QUERY_INFORMATION.BytesWritten = 0;
return NDIS_STATUS_SUCCESS;
}
OidRequest->DATA.QUERY_INFORMATION.BytesWritten = 0;
return NDIS_STATUS_NOT_SUPPORTED;
}
_IRQL_requires_max_(PASSIVE_LEVEL)
static NDIS_STATUS
TunOidSet(_Inout_ TUN_CTX *Ctx, _Inout_ NDIS_OID_REQUEST *OidRequest)
{
ASSERT(OidRequest->RequestType == NdisRequestSetInformation);
OidRequest->DATA.SET_INFORMATION.BytesNeeded = OidRequest->DATA.SET_INFORMATION.BytesRead = 0;
switch (OidRequest->DATA.SET_INFORMATION.Oid)
{
case OID_GEN_CURRENT_PACKET_FILTER:
case OID_GEN_CURRENT_LOOKAHEAD:
if (OidRequest->DATA.SET_INFORMATION.InformationBufferLength != 4)
{
OidRequest->DATA.SET_INFORMATION.BytesNeeded = 4;
return NDIS_STATUS_INVALID_LENGTH;
}
OidRequest->DATA.SET_INFORMATION.BytesRead = 4;
return NDIS_STATUS_SUCCESS;
case OID_GEN_LINK_PARAMETERS:
OidRequest->DATA.SET_INFORMATION.BytesRead = OidRequest->DATA.SET_INFORMATION.InformationBufferLength;
return NDIS_STATUS_SUCCESS;
case OID_GEN_INTERRUPT_MODERATION:
return NDIS_STATUS_INVALID_DATA;
case OID_PNP_SET_POWER:
if (OidRequest->DATA.SET_INFORMATION.InformationBufferLength != sizeof(NDIS_DEVICE_POWER_STATE))
{
OidRequest->DATA.SET_INFORMATION.BytesNeeded = sizeof(NDIS_DEVICE_POWER_STATE);
return NDIS_STATUS_INVALID_LENGTH;
}
OidRequest->DATA.SET_INFORMATION.BytesRead = sizeof(NDIS_DEVICE_POWER_STATE);
return NDIS_STATUS_SUCCESS;
}
return NDIS_STATUS_NOT_SUPPORTED;
}
static MINIPORT_OID_REQUEST TunOidRequest;
_Use_decl_annotations_
static NDIS_STATUS
TunOidRequest(NDIS_HANDLE MiniportAdapterContext, PNDIS_OID_REQUEST OidRequest)
{
switch (OidRequest->RequestType)
{
case NdisRequestQueryInformation:
case NdisRequestQueryStatistics:
return TunOidQuery(MiniportAdapterContext, OidRequest);
case NdisRequestSetInformation:
return TunOidSet(MiniportAdapterContext, OidRequest);
default:
return NDIS_STATUS_INVALID_OID;
}
}
static MINIPORT_CANCEL_OID_REQUEST TunCancelOidRequest;
_Use_decl_annotations_
static VOID
TunCancelOidRequest(NDIS_HANDLE MiniportAdapterContext, PVOID RequestId)
{
}
static MINIPORT_DIRECT_OID_REQUEST TunDirectOidRequest;
_Use_decl_annotations_
static NDIS_STATUS
TunDirectOidRequest(NDIS_HANDLE MiniportAdapterContext, PNDIS_OID_REQUEST OidRequest)
{
switch (OidRequest->RequestType)
{
case NdisRequestQueryInformation:
case NdisRequestQueryStatistics:
case NdisRequestSetInformation:
return NDIS_STATUS_NOT_SUPPORTED;
default:
return NDIS_STATUS_INVALID_OID;
}
}
static MINIPORT_CANCEL_DIRECT_OID_REQUEST TunCancelDirectOidRequest;
_Use_decl_annotations_
static VOID
TunCancelDirectOidRequest(NDIS_HANDLE MiniportAdapterContext, PVOID RequestId)
{
}
static MINIPORT_SYNCHRONOUS_OID_REQUEST TunSynchronousOidRequest;
_Use_decl_annotations_
static NDIS_STATUS
TunSynchronousOidRequest(NDIS_HANDLE MiniportAdapterContext, PNDIS_OID_REQUEST OidRequest)
{
switch (OidRequest->RequestType)
{
case NdisRequestQueryInformation:
case NdisRequestQueryStatistics:
case NdisRequestSetInformation:
return NDIS_STATUS_NOT_SUPPORTED;
default:
return NDIS_STATUS_INVALID_OID;
}
}
static MINIPORT_UNLOAD TunUnload;
_Use_decl_annotations_
static VOID
TunUnload(PDRIVER_OBJECT DriverObject)
{
NdisMDeregisterMiniportDriver(NdisMiniportDriverHandle);
ExDeleteResourceLite(&TunDispatchCtxGuard);
ExFreePoolWithTag(TunDispatchSecurityDescriptor, TUN_MEMORY_TAG);
}
DRIVER_INITIALIZE DriverEntry;
_Use_decl_annotations_
NTSTATUS
DriverEntry(DRIVER_OBJECT *DriverObject, UNICODE_STRING *RegistryPath)
{
NTSTATUS Status;
if (!NT_SUCCESS(Status = TunInitializeDispatchSecurityDescriptor()))
return Status;
NdisVersion = NdisGetVersion();
if (NdisVersion < NDIS_MINIPORT_VERSION_MIN)
return NDIS_STATUS_UNSUPPORTED_REVISION;
if (NdisVersion > NDIS_MINIPORT_VERSION_MAX)
NdisVersion = NDIS_MINIPORT_VERSION_MAX;
ExInitializeResourceLite(&TunDispatchCtxGuard);
NDIS_MINIPORT_DRIVER_CHARACTERISTICS miniport = {
.Header = { .Type = NDIS_OBJECT_TYPE_MINIPORT_DRIVER_CHARACTERISTICS,
.Revision = NdisVersion < NDIS_RUNTIME_VERSION_680
? NDIS_MINIPORT_DRIVER_CHARACTERISTICS_REVISION_2
: NDIS_MINIPORT_DRIVER_CHARACTERISTICS_REVISION_3,
.Size = NdisVersion < NDIS_RUNTIME_VERSION_680
? NDIS_SIZEOF_MINIPORT_DRIVER_CHARACTERISTICS_REVISION_2
: NDIS_SIZEOF_MINIPORT_DRIVER_CHARACTERISTICS_REVISION_3 },
.MajorNdisVersion = (UCHAR)((NdisVersion & 0x00ff0000) >> 16),
.MinorNdisVersion = (UCHAR)(NdisVersion & 0x000000ff),
.MajorDriverVersion = WINTUN_VERSION_MAJ,
.MinorDriverVersion = WINTUN_VERSION_MIN,
.InitializeHandlerEx = TunInitializeEx,
.HaltHandlerEx = TunHaltEx,
.UnloadHandler = TunUnload,
.PauseHandler = TunPause,
.RestartHandler = TunRestart,
.OidRequestHandler = TunOidRequest,
.SendNetBufferListsHandler = TunSendNetBufferLists,
.ReturnNetBufferListsHandler = TunReturnNetBufferLists,
.CancelSendHandler = TunCancelSend,
.DevicePnPEventNotifyHandler = TunDevicePnPEventNotify,
.ShutdownHandlerEx = TunShutdownEx,
.CancelOidRequestHandler = TunCancelOidRequest,
.DirectOidRequestHandler = TunDirectOidRequest,
.CancelDirectOidRequestHandler = TunCancelDirectOidRequest,
.SynchronousOidRequestHandler = TunSynchronousOidRequest
};
Status = NdisMRegisterMiniportDriver(DriverObject, RegistryPath, NULL, &miniport, &NdisMiniportDriverHandle);
if (!NT_SUCCESS(Status))
{
ExDeleteResourceLite(&TunDispatchCtxGuard);
ExFreePoolWithTag(TunDispatchSecurityDescriptor, TUN_MEMORY_TAG);
return Status;
}
NdisDispatchDeviceControl = DriverObject->MajorFunction[IRP_MJ_DEVICE_CONTROL];
NdisDispatchClose = DriverObject->MajorFunction[IRP_MJ_CLOSE];
DriverObject->MajorFunction[IRP_MJ_DEVICE_CONTROL] = TunDispatchDeviceControl;
DriverObject->MajorFunction[IRP_MJ_CLOSE] = TunDispatchClose;
return STATUS_SUCCESS;
}
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