479 lines
11 KiB
C
479 lines
11 KiB
C
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/*****************************************************************************
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*
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* Copyright (c) 1996-1999 Microsoft Corporation
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*
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* @doc
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* @module resource.c | IrSIR NDIS Miniport Driver
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* @comm
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*
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*-----------------------------------------------------------------------------
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*
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* Author: Scott Holden (sholden)
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*
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* Date: 10/3/1996 (created)
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*
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* Contents: initialize and allocate resources
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*
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*****************************************************************************/
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#include "irsir.h"
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#if MEM_CHECKING
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typedef struct MEM_HDR {
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LIST_ENTRY ListEntry;
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ULONG Size;
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CHAR File[12];
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ULONG Line;
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} MEM_HDR;
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LIST_ENTRY leAlloc;
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NDIS_SPIN_LOCK slAlloc;
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VOID InitMemory()
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{
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NdisAllocateSpinLock(&slAlloc);
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NdisInitializeListHead(&leAlloc);
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}
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VOID DeinitMemory()
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{
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PLIST_ENTRY ListEntry;
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NdisAcquireSpinLock(&slAlloc);
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for (ListEntry=leAlloc.Flink;
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ListEntry!=&leAlloc;
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ListEntry = ListEntry->Flink)
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{
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MEM_HDR *Hdr = (MEM_HDR*)ListEntry;
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DbgPrint("IRSIR: Unfreed Memory:%08x size:%4x <%s:%d>\n",
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&Hdr[1], Hdr->Size, Hdr->File, Hdr->Line);
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}
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NdisReleaseSpinLock(&slAlloc);
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}
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#endif
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/*****************************************************************************
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*
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* Function: MyMemAlloc
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*
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* Synopsis: allocates a block of memory using NdisAllocateMemory
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*
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* Arguments: size - size of the block to allocate
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*
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* Returns: a pointer to the allocated block of memory
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*
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* Algorithm:
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*
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* History: dd-mm-yyyy Author Comment
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* 10/3/1996 sholden author
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*
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* Notes:
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*
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*
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*****************************************************************************/
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#if MEM_CHECKING
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PVOID
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_MyMemAlloc(UINT size, PUCHAR file, UINT line)
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#else
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PVOID
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MyMemAlloc(UINT size)
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#endif
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{
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PVOID memptr;
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NDIS_PHYSICAL_ADDRESS noMaxAddr = NDIS_PHYSICAL_ADDRESS_CONST(-1,-1);
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NDIS_STATUS status;
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#if MEM_CHECKING
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status = NdisAllocateMemoryWithTag(&memptr, size+sizeof(MEM_HDR), IRSIR_TAG);
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#else
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status = NdisAllocateMemoryWithTag(&memptr, size, IRSIR_TAG);
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#endif
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if (status != NDIS_STATUS_SUCCESS)
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{
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DEBUGMSG(DBG_ERR, ("Memory allocation failed\n"));
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memptr = NULL;
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}
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#if MEM_CHECKING
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else
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{
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MEM_HDR *Hdr = memptr;
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UINT FileNameLen = strlen(file);
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Hdr->Line = line;
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if (FileNameLen>sizeof(Hdr->File)-1)
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strcpy(Hdr->File, &file[FileNameLen-sizeof(Hdr->File)+1]);
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else
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strcpy(Hdr->File, file);
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MyInterlockedInsertHeadList(&leAlloc, &Hdr->ListEntry, &slAlloc);
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memptr = &Hdr[1];
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}
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#endif
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return memptr;
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}
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/*****************************************************************************
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*
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* Function: MyMemFree
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*
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* Synopsis: frees a block of memory allocated by MyMemAlloc
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*
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* Arguments: memptr - memory to free
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* size - size of the block to free
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*
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* Returns: none
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*
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* Algorithm:
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*
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* History: dd-mm-yyyy Author Comment
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* 10/3/1996 sholden author
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*
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* Notes:
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*
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*
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*****************************************************************************/
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VOID
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MyMemFree(
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PVOID memptr,
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UINT size
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)
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{
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#if MEM_CHECKING
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PLIST_ENTRY ListEntry;
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MEM_HDR *Hdr = (MEM_HDR*)((PUCHAR)memptr-sizeof(MEM_HDR));
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NdisAcquireSpinLock(&slAlloc);
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for (ListEntry = leAlloc.Flink;
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ListEntry != &leAlloc;
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ListEntry = ListEntry->Flink)
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{
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if (ListEntry==&Hdr->ListEntry)
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{
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RemoveEntryList(&Hdr->ListEntry);
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break;
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}
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}
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if (ListEntry==&leAlloc)
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{
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DEBUGMSG(DBG_ERR, ("IRSIR: Freeing memory not owned %x\n", memptr));
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}
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NdisReleaseSpinLock(&slAlloc);
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NdisFreeMemory(Hdr, size+sizeof(MEM_HDR), 0);
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#else
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NdisFreeMemory(memptr, size, 0);
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#endif
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}
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#if LIST_CHECKING
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VOID FASTCALL CheckList(PLIST_ENTRY ListHead)
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{
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PLIST_ENTRY ListEntry, PrevListEntry;
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if (ListHead->Flink==ListHead)
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{
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if (ListHead->Flink!=ListHead ||
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ListHead->Blink!=ListHead)
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{
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DbgPrint("IRSIR: Corrupt list head:%x Flink:%x Blink:%x\n", ListHead, ListHead->Flink, ListHead->Blink);
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DbgBreakPoint();
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}
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}
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else
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{
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ListEntry = ListHead;
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do
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{
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PrevListEntry = ListEntry;
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ListEntry = ListEntry->Flink;
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if (ListEntry->Blink!=PrevListEntry)
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{
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DbgPrint("IRSIR: Corrupt LIST_ENTRY Head:%08x %08x->Flink==%08x %08x->Blink==%08x\n",
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ListHead, PrevListEntry, PrevListEntry->Flink, ListEntry, ListEntry->Blink);
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DbgBreakPoint();
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}
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} while (ListEntry!=ListHead);
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}
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}
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PLIST_ENTRY FASTCALL MyInterlockedInsertHeadList(PLIST_ENTRY Head, PLIST_ENTRY Entry, PNDIS_SPIN_LOCK SpinLock)
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{
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PLIST_ENTRY RetVal;
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NdisAcquireSpinLock(SpinLock);
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if (IsListEmpty(Head))
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RetVal = NULL;
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else
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RetVal = Head->Flink;
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CheckedInsertHeadList(Head, Entry);
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NdisReleaseSpinLock(SpinLock);
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return RetVal;
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}
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PLIST_ENTRY FASTCALL MyInterlockedInsertTailList(PLIST_ENTRY Head, PLIST_ENTRY Entry, PNDIS_SPIN_LOCK SpinLock)
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{
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PLIST_ENTRY RetVal;
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NdisAcquireSpinLock(SpinLock);
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if (IsListEmpty(Head))
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RetVal = NULL;
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else
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RetVal = Head->Blink;
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CheckedInsertTailList(Head, Entry);
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NdisReleaseSpinLock(SpinLock);
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return RetVal;
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}
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PLIST_ENTRY FASTCALL MyInterlockedRemoveHeadList(PLIST_ENTRY Head, PNDIS_SPIN_LOCK SpinLock)
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{
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PLIST_ENTRY RetVal;
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NdisAcquireSpinLock(SpinLock);
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//RemoveHeadList uses RemoveEntryList, which is redefined to call CheckList in DEBUG.H
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RetVal = RemoveHeadList(Head);
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if (RetVal==Head)
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RetVal = NULL;
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else
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RetVal->Flink = RetVal->Blink = NULL;
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NdisReleaseSpinLock(SpinLock);
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return RetVal;
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}
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#endif
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/*****************************************************************************
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*
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* Function: NewDevice
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*
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* Synopsis: allocates an IR_DEVICE and inits the device
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*
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* Arguments: none
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*
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* Returns: initialized IR_DEVICE or NULL (if alloc failed)
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*
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* Algorithm:
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*
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* History: dd-mm-yyyy Author Comment
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* 10/3/1996 sholden author
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*
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* Notes:
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*
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*
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*****************************************************************************/
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PIR_DEVICE
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NewDevice()
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{
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PIR_DEVICE pNewDev;
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pNewDev = MyMemAlloc(sizeof(IR_DEVICE));
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if (pNewDev != NULL)
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{
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NdisZeroMemory((PVOID)pNewDev, sizeof(IR_DEVICE));
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}
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return pNewDev;
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}
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/*****************************************************************************
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*
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* Function: FreeDevice
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*
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* Synopsis: frees an IR_DEVICE allocated by NewDevice
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*
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* Arguments: dev - pointer to device to free
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*
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* Returns: none
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*
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* Algorithm:
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*
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* History: dd-mm-yyyy Author Comment
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* 10/3/1996 sholden author
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*
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* Notes:
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*
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*
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*****************************************************************************/
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VOID
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FreeDevice(
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PIR_DEVICE pDev
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)
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{
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MyMemFree((PVOID)pDev, sizeof(IR_DEVICE));
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}
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/*****************************************************************************
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*
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* Function: IrBuildIrp
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*
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* Synopsis: Builds an I/O request packet for either a read or a write
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* request to the serial device object.
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* Supports the following request codes:
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* IOCTL_MJ_READ
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* IOCTL_MJ_WRITE
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*
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* Arguments:
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*
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* Returns:
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*
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* Algorithm:
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*
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* History: dd-mm-yyyy Author Comment
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* 10/14/1996 sholden author
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*
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* Notes:
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*
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*
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*****************************************************************************/
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PIRP
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SerialBuildReadWriteIrp(
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IN PDEVICE_OBJECT pSerialDevObj,
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IN ULONG MajorFunction,
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IN OUT PVOID pBuffer,
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IN ULONG BufferLength,
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IN PIO_STATUS_BLOCK pIosb
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)
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{
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PIRP pIrp;
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PIO_STACK_LOCATION irpSp;
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// DEBUGMSG(DBG_FUNC, ("+SerialBuildReadWriteIrp\n"));
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if (pSerialDevObj == NULL)
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{
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DEBUGMSG(DBG_ERR, (" SerialBuildReadWriteIrp:pSerialDevObj==NULL\n"));
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return NULL;
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}
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//
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// Allocate the irp.
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//
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pIrp = IoAllocateIrp(
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pSerialDevObj->StackSize,
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FALSE
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);
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if (pIrp == NULL)
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{
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DEBUGMSG(DBG_ERR, (" IoAllocateIrp failed.\n"));
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return pIrp;
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}
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//
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// Set current thread for IoSetHardErrorOrVerifyDevice.
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//
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pIrp->Tail.Overlay.Thread = PsGetCurrentThread();
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//
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// Get a pointer to the stack location of the first driver which will be
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// invoked. This is where the function codes and the parameters are set.
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//
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irpSp = IoGetNextIrpStackLocation(pIrp);
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//
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// Set the major function code.
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//
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irpSp->MajorFunction = (UCHAR)MajorFunction;
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pIrp->AssociatedIrp.SystemBuffer = pBuffer;
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if (MajorFunction == IRP_MJ_READ)
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{
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pIrp->Flags = IRP_BUFFERED_IO | IRP_INPUT_OPERATION;
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irpSp->Parameters.Read.Length = BufferLength;
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}
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else // MajorFunction == IRP_MJ_WRITE
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{
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pIrp->Flags = IRP_BUFFERED_IO;
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irpSp->Parameters.Write.Length = BufferLength;
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}
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pIrp->UserIosb = pIosb;
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// DEBUGMSG(DBG_FUNC, ("-SerialBuildReadWriteIrp\n"));
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return pIrp;
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}
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NDIS_STATUS
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ScheduleWorkItem(PASSIVE_PRIMITIVE Prim,
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PIR_DEVICE pDevice,
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WORK_PROC Callback,
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PVOID InfoBuf,
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ULONG InfoBufLen)
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{
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PIR_WORK_ITEM pWorkItem;
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NDIS_STATUS Status = NDIS_STATUS_FAILURE;
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DEBUGMSG(DBG_FUNC, ("+ScheduleWorkItem\n"));
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pWorkItem = MyMemAlloc(sizeof(IR_WORK_ITEM));
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if (pWorkItem != NULL)
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{
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pWorkItem->Prim = Prim;
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pWorkItem->pIrDevice = pDevice;
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pWorkItem->InfoBuf = InfoBuf;
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pWorkItem->InfoBufLen = InfoBufLen;
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/*
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** This interface was designed to use NdisScheduleWorkItem(), which
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** would be good except that we're really only supposed to use that
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** interface during startup and shutdown, due to the limited pool of
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** threads available to service NdisScheduleWorkItem(). Therefore,
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** instead of scheduling real work items, we simulate them, and use
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** our own thread to process the calls. This also makes it easy to
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** expand the size of our own thread pool, if we wish.
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**
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** Our version is slightly different from actual NDIS_WORK_ITEMs,
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** because that is an NDIS 5.0 structure, and we want people to
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** (at least temporarily) build this with NDIS 4.0 headers.
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*/
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pWorkItem->Callback = Callback;
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/*
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** Our worker thread checks this list for new jobs, whenever its event
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** is signalled.
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*/
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MyInterlockedInsertTailList(&pDevice->leWorkItems,
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&pWorkItem->ListEntry,
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&pDevice->slWorkItem);
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// Wake up our thread.
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KeSetEvent(&pDevice->eventPassiveThread, 0, FALSE);
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Status = NDIS_STATUS_SUCCESS;
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}
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return Status;
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}
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VOID
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FreeWorkItem(
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PIR_WORK_ITEM pItem
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)
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{
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MyMemFree((PVOID)pItem, sizeof(IR_WORK_ITEM));
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}
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