mirror of
https://github.com/zerotier/ZeroTierOne.git
synced 2024-12-19 04:57:53 +00:00
402 lines
9.4 KiB
C
402 lines
9.4 KiB
C
/*
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* TAP-Windows -- A kernel driver to provide virtual tap
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* device functionality on Windows.
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*
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* This code was inspired by the CIPE-Win32 driver by Damion K. Wilson.
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*
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* This source code is Copyright (C) 2002-2014 OpenVPN Technologies, Inc.,
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* and is released under the GPL version 2 (see below).
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*
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* This program is free software; you can redistribute it and/or modify
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* it under the terms of the GNU General Public License version 2
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* as published by the Free Software Foundation.
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*
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* This program is distributed in the hope that it will be useful,
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* but WITHOUT ANY WARRANTY; without even the implied warranty of
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* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
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* GNU General Public License for more details.
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*
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* You should have received a copy of the GNU General Public License
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* along with this program (see the file COPYING included with this
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* distribution); if not, write to the Free Software Foundation, Inc.,
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* 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA
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*/
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//------------------
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// Memory Management
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//------------------
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#include "tap.h"
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PVOID
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MemAlloc(
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__in ULONG p_Size,
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__in BOOLEAN zero
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)
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{
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PVOID l_Return = NULL;
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if (p_Size)
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{
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__try
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{
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if (NdisAllocateMemoryWithTag (&l_Return, p_Size, 'APAT')
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== NDIS_STATUS_SUCCESS)
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{
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if (zero)
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{
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NdisZeroMemory (l_Return, p_Size);
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}
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}
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else
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{
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l_Return = NULL;
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}
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}
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__except (EXCEPTION_EXECUTE_HANDLER)
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{
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l_Return = NULL;
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}
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}
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return l_Return;
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}
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VOID
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MemFree(
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__in PVOID p_Addr,
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__in ULONG p_Size
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)
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{
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if (p_Addr && p_Size)
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{
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__try
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{
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#if DBG
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NdisZeroMemory (p_Addr, p_Size);
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#endif
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NdisFreeMemory (p_Addr, p_Size, 0);
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}
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__except (EXCEPTION_EXECUTE_HANDLER)
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{
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}
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}
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}
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//======================================================================
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// TAP Packet Queue Support
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//======================================================================
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VOID
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tapPacketQueueInsertTail(
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__in PTAP_PACKET_QUEUE TapPacketQueue,
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__in PTAP_PACKET TapPacket
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)
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{
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KIRQL irql;
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KeAcquireSpinLock(&TapPacketQueue->QueueLock,&irql);
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InsertTailList(&TapPacketQueue->Queue,&TapPacket->QueueLink);
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// BUGBUG!!! Enforce PACKET_QUEUE_SIZE queue count limit???
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// For NDIS 6 there is no per-packet status, so this will need to
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// be handled on per-NBL basis in AdapterSendNetBufferLists...
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// Update counts
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++TapPacketQueue->Count;
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if(TapPacketQueue->Count > TapPacketQueue->MaxCount)
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{
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TapPacketQueue->MaxCount = TapPacketQueue->Count;
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DEBUGP (("[TAP] tapPacketQueueInsertTail: New MAX queued packet count = %d\n",
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TapPacketQueue->MaxCount));
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}
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KeReleaseSpinLock(&TapPacketQueue->QueueLock,irql);
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}
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// Call with QueueLock held
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PTAP_PACKET
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tapPacketRemoveHeadLocked(
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__in PTAP_PACKET_QUEUE TapPacketQueue
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)
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{
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PTAP_PACKET tapPacket = NULL;
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PLIST_ENTRY listEntry;
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listEntry = RemoveHeadList(&TapPacketQueue->Queue);
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if(listEntry != &TapPacketQueue->Queue)
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{
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tapPacket = CONTAINING_RECORD(listEntry, TAP_PACKET, QueueLink);
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// Update counts
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--TapPacketQueue->Count;
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}
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return tapPacket;
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}
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PTAP_PACKET
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tapPacketRemoveHead(
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__in PTAP_PACKET_QUEUE TapPacketQueue
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)
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{
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PTAP_PACKET tapPacket = NULL;
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KIRQL irql;
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KeAcquireSpinLock(&TapPacketQueue->QueueLock,&irql);
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tapPacket = tapPacketRemoveHeadLocked(TapPacketQueue);
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KeReleaseSpinLock(&TapPacketQueue->QueueLock,irql);
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return tapPacket;
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}
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VOID
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tapPacketQueueInitialize(
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__in PTAP_PACKET_QUEUE TapPacketQueue
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)
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{
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KeInitializeSpinLock(&TapPacketQueue->QueueLock);
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NdisInitializeListHead(&TapPacketQueue->Queue);
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}
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//======================================================================
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// TAP Cancel-Safe Queue Support
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//======================================================================
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VOID
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tapIrpCsqInsert (
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__in struct _IO_CSQ *Csq,
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__in PIRP Irp
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)
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{
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PTAP_IRP_CSQ tapIrpCsq;
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tapIrpCsq = (PTAP_IRP_CSQ )Csq;
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InsertTailList(
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&tapIrpCsq->Queue,
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&Irp->Tail.Overlay.ListEntry
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);
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// Update counts
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++tapIrpCsq->Count;
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if(tapIrpCsq->Count > tapIrpCsq->MaxCount)
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{
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tapIrpCsq->MaxCount = tapIrpCsq->Count;
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DEBUGP (("[TAP] tapIrpCsqInsert: New MAX queued IRP count = %d\n",
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tapIrpCsq->MaxCount));
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}
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}
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VOID
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tapIrpCsqRemoveIrp(
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__in PIO_CSQ Csq,
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__in PIRP Irp
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)
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{
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PTAP_IRP_CSQ tapIrpCsq;
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tapIrpCsq = (PTAP_IRP_CSQ )Csq;
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// Update counts
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--tapIrpCsq->Count;
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RemoveEntryList(&Irp->Tail.Overlay.ListEntry);
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}
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PIRP
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tapIrpCsqPeekNextIrp(
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__in PIO_CSQ Csq,
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__in PIRP Irp,
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__in PVOID PeekContext
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)
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{
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PTAP_IRP_CSQ tapIrpCsq;
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PIRP nextIrp = NULL;
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PLIST_ENTRY nextEntry;
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PLIST_ENTRY listHead;
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PIO_STACK_LOCATION irpStack;
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tapIrpCsq = (PTAP_IRP_CSQ )Csq;
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listHead = &tapIrpCsq->Queue;
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//
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// If the IRP is NULL, we will start peeking from the listhead, else
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// we will start from that IRP onwards. This is done under the
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// assumption that new IRPs are always inserted at the tail.
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//
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if (Irp == NULL)
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{
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nextEntry = listHead->Flink;
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}
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else
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{
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nextEntry = Irp->Tail.Overlay.ListEntry.Flink;
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}
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while(nextEntry != listHead)
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{
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nextIrp = CONTAINING_RECORD(nextEntry, IRP, Tail.Overlay.ListEntry);
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irpStack = IoGetCurrentIrpStackLocation(nextIrp);
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//
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// If context is present, continue until you find a matching one.
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// Else you break out as you got next one.
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//
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if (PeekContext)
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{
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if (irpStack->FileObject == (PFILE_OBJECT) PeekContext)
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{
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break;
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}
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}
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else
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{
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break;
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}
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nextIrp = NULL;
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nextEntry = nextEntry->Flink;
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}
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return nextIrp;
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}
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//
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// tapIrpCsqAcquireQueueLock modifies the execution level of the current processor.
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//
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// KeAcquireSpinLock raises the execution level to Dispatch Level and stores
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// the current execution level in the Irql parameter to be restored at a later
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// time. KeAcqurieSpinLock also requires us to be running at no higher than
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// Dispatch level when it is called.
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//
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// The annotations reflect these changes and requirments.
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//
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__drv_raisesIRQL(DISPATCH_LEVEL)
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__drv_maxIRQL(DISPATCH_LEVEL)
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VOID
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tapIrpCsqAcquireQueueLock(
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__in PIO_CSQ Csq,
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__out PKIRQL Irql
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)
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{
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PTAP_IRP_CSQ tapIrpCsq;
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tapIrpCsq = (PTAP_IRP_CSQ )Csq;
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//
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// Suppressing because the address below csq is valid since it's
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// part of TAP_ADAPTER_CONTEXT structure.
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//
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#pragma prefast(suppress: __WARNING_BUFFER_UNDERFLOW, "Underflow using expression 'adapter->PendingReadCsqQueueLock'")
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KeAcquireSpinLock(&tapIrpCsq->QueueLock, Irql);
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}
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//
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// tapIrpCsqReleaseQueueLock modifies the execution level of the current processor.
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//
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// KeReleaseSpinLock assumes we already hold the spin lock and are therefore
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// running at Dispatch level. It will use the Irql parameter saved in a
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// previous call to KeAcquireSpinLock to return the thread back to it's original
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// execution level.
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//
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// The annotations reflect these changes and requirments.
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//
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__drv_requiresIRQL(DISPATCH_LEVEL)
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VOID
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tapIrpCsqReleaseQueueLock(
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__in PIO_CSQ Csq,
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__in KIRQL Irql
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)
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{
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PTAP_IRP_CSQ tapIrpCsq;
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tapIrpCsq = (PTAP_IRP_CSQ )Csq;
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//
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// Suppressing because the address below csq is valid since it's
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// part of TAP_ADAPTER_CONTEXT structure.
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//
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#pragma prefast(suppress: __WARNING_BUFFER_UNDERFLOW, "Underflow using expression 'adapter->PendingReadCsqQueueLock'")
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KeReleaseSpinLock(&tapIrpCsq->QueueLock, Irql);
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}
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VOID
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tapIrpCsqCompleteCanceledIrp(
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__in PIO_CSQ pCsq,
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__in PIRP Irp
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)
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{
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UNREFERENCED_PARAMETER(pCsq);
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Irp->IoStatus.Status = STATUS_CANCELLED;
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Irp->IoStatus.Information = 0;
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IoCompleteRequest(Irp, IO_NO_INCREMENT);
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}
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VOID
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tapIrpCsqInitialize(
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__in PTAP_IRP_CSQ TapIrpCsq
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)
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{
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KeInitializeSpinLock(&TapIrpCsq->QueueLock);
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NdisInitializeListHead(&TapIrpCsq->Queue);
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IoCsqInitialize(
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&TapIrpCsq->CsqQueue,
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tapIrpCsqInsert,
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tapIrpCsqRemoveIrp,
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tapIrpCsqPeekNextIrp,
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tapIrpCsqAcquireQueueLock,
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tapIrpCsqReleaseQueueLock,
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tapIrpCsqCompleteCanceledIrp
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);
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}
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VOID
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tapIrpCsqFlush(
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__in PTAP_IRP_CSQ TapIrpCsq
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)
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{
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PIRP pendingIrp;
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//
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// Flush the pending read IRP queue.
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//
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pendingIrp = IoCsqRemoveNextIrp(
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&TapIrpCsq->CsqQueue,
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NULL
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);
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while(pendingIrp)
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{
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// Cancel the IRP
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pendingIrp->IoStatus.Information = 0;
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pendingIrp->IoStatus.Status = STATUS_CANCELLED;
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IoCompleteRequest(pendingIrp, IO_NO_INCREMENT);
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pendingIrp = IoCsqRemoveNextIrp(
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&TapIrpCsq->CsqQueue,
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NULL
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);
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}
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ASSERT(IsListEmpty(&TapIrpCsq->Queue));
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}
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