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793 lines
18 KiB
793 lines
18 KiB
/*++
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Copyright (c) 1998-1999 Microsoft Corporation
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Module Name:
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util.c
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Abstract:
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Utility functions for ARP1394.
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Revision History:
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Who When What
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-------- -------- ----------------------------------------------
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josephj 01-05-99 Created
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Notes:
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--*/
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#include <precomp.h>
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//
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// File-specific debugging defaults.
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//
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#define TM_CURRENT TM_UT
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//=========================================================================
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// L O C A L P R O T O T Y P E S
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//=========================================================================
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VOID
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arpTaskDelete (
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PRM_OBJECT_HEADER pObj,
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PRM_STACK_RECORD psr
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);
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//
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// TODO: make these globals constant data.
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//
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// ArpTasks_StaticInfo contains static information about
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// objects of type ARP1394_TASK;
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//
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RM_STATIC_OBJECT_INFO
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ArpTasks_StaticInfo =
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{
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0, // TypeUID
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0, // TypeFlags
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"ARP1394 Task", // TypeName
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0, // Timeout
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NULL, // pfnCreate
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arpTaskDelete, // pfnDelete
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NULL, // LockVerifier
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0, // length of resource table
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NULL // Resource Table
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};
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VOID
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arpTaskDelete (
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PRM_OBJECT_HEADER pObj,
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PRM_STACK_RECORD psr
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)
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/*++
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Routine Description:
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Free an object of type ARP1394_TASK.
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Arguments:
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pHdr - Actually a pointer to the ARP1394_TASK to be deleted.
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--*/
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{
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TASK_BACKUP* pTask= (TASK_BACKUP*)pObj;
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if (CHECK_TASK_IS_BACKUP(&pTask->Hdr) == TRUE)
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{
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arpReturnBackupTask((ARP1394_TASK*)pTask);
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}
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else
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{
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ARP_FREE(pObj);
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}
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}
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VOID
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arpObjectDelete (
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PRM_OBJECT_HEADER pObj,
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PRM_STACK_RECORD psr
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)
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/*++
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Routine Description:
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Free an unspecified object owned by the ARP module.
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Arguments:
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pHdr - Object to be freed.
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--*/
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{
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ARP_FREE(pObj);
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}
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VOID
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arpAdapterDelete (
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PRM_OBJECT_HEADER pObj,
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PRM_STACK_RECORD psr
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)
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/*++
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Routine Description:
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Free an object of type ARP1394_ADAPTER.
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Arguments:
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pHdr - Actually a pointer to the ARP1394_ADAPTER to be deleted.
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--*/
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{
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ARP1394_ADAPTER * pA = (ARP1394_ADAPTER *) pObj;
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if (pA->bind.DeviceName.Buffer != NULL)
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{
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ARP_FREE(pA->bind.DeviceName.Buffer);
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}
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if (pA->bind.ConfigName.Buffer != NULL)
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{
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ARP_FREE(pA->bind.ConfigName.Buffer);
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}
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if (pA->bind.IpConfigString.Buffer != NULL)
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{
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ARP_FREE(pA->bind.IpConfigString.Buffer);
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}
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ARP_FREE(pA);
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}
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NDIS_STATUS
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arpAllocateTask(
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IN PRM_OBJECT_HEADER pParentObject,
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IN PFN_RM_TASK_HANDLER pfnHandler,
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IN UINT Timeout,
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IN const char * szDescription, OPTIONAL
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OUT PRM_TASK *ppTask,
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IN PRM_STACK_RECORD pSR
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)
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/*++
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Routine Description:
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Allocates and initializes a task of subtype ARP1394_TASK.
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Arguments:
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pParentObject - Object that is to be the parent of the allocated task.
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pfnHandler - The task handler for the task.
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Timeout - Unused.
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szDescription - Text describing this task.
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ppTask - Place to store pointer to the new task.
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Return Value:
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NDIS_STATUS_SUCCESS if we could allocate and initialize the task.
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NDIS_STATUS_RESOURCES otherwise
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--*/
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{
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ARP1394_TASK *pATask;
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NDIS_STATUS Status;
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BOOLEAN fBackupTask = FALSE;
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ARP_ALLOCSTRUCT(pATask, MTAG_TASK); // TODO use lookaside lists.
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if (pATask == NULL)
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{
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pATask = arpGetBackupTask(&ArpGlobals);
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fBackupTask = TRUE;
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}
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*ppTask = NULL;
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if (pATask != NULL)
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{
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ARP_ZEROSTRUCT(pATask);
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RmInitializeTask(
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&(pATask->TskHdr),
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pParentObject,
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pfnHandler,
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&ArpTasks_StaticInfo,
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szDescription,
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Timeout,
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pSR
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);
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*ppTask = &(pATask->TskHdr);
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Status = NDIS_STATUS_SUCCESS;
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if (fBackupTask == TRUE)
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{
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MARK_TASK_AS_BACKUP(&pATask->TskHdr);
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}
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}
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else
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{
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Status = NDIS_STATUS_RESOURCES;
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}
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return Status;
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}
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NDIS_STATUS
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arpCopyUnicodeString(
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OUT PNDIS_STRING pDest,
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IN PNDIS_STRING pSrc,
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BOOLEAN fUpCase
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)
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/*++
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Routine Description:
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Copy the contents of unicode string pSrc into pDest.
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pDest->Buffer is allocated using NdisAllocateMemoryWithTag; Caller is
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responsible for freeing it.
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EXTRA EXTRA EXTRA:
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This make sure the destination is NULL terminated.
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IPAddInterface expects the Unicode string passed in to be
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NULL terminated.
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NOTE: fUpCase is ignored.
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Return Value:
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NDIS_STATUS_SUCCESS on success;
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NDIS failure status on failure.
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--*/
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{
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USHORT Length = pSrc->Length;
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PWCHAR pwStr;
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NdisAllocateMemoryWithTag(&pwStr, Length+sizeof(WCHAR), MTAG_STRING);
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ARP_ZEROSTRUCT(pDest);
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if (pwStr == NULL)
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{
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return NDIS_STATUS_RESOURCES;
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}
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else
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{
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pDest->Length = Length;
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pDest->MaximumLength = Length+sizeof(WCHAR);
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pDest->Buffer = pwStr;
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// We-- ignore the copy flag.
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// For some reason, we're not in passive, and moreover
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// NdisUpcaseUnicode doesn't work.
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//
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if (0 && fUpCase)
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{
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#if !MILLEN
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ASSERT_PASSIVE();
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NdisUpcaseUnicodeString(pDest, pSrc);
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#endif // !MILLEN
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}
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else
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{
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NdisMoveMemory(pwStr, pSrc->Buffer, Length);
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if (Length & 0x1)
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{
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((PUCHAR)pwStr)[Length] = 0;
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}
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else
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{
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pwStr[Length/sizeof(*pwStr)] = 0;
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}
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}
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return NDIS_STATUS_SUCCESS;
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}
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}
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VOID
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arpSetPrimaryIfTask(
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PARP1394_INTERFACE pIF, // LOCKIN LOCKOUT
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PRM_TASK pTask,
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ULONG PrimaryState,
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PRM_STACK_RECORD pSR
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)
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{
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ENTER("arpSetPrimaryIfTask", 0x535f8cd4)
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RM_ASSERT_OBJLOCKED(&pIF->Hdr, pSR);
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ASSERT(pIF->pPrimaryTask==NULL);
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#if DBG
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// Veriy that this is a valid primary task. Also verify that PrimaryState
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// is a valid primary state.
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//
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{
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PFN_RM_TASK_HANDLER pfn = pTask->pfnHandler;
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ASSERT(
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((pfn == arpTaskInitInterface) && (PrimaryState == ARPIF_PS_INITING))
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|| ((pfn == arpTaskDeinitInterface) && (PrimaryState == ARPIF_PS_DEINITING))
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|| ((pfn == arpTaskReinitInterface) && (PrimaryState == ARPIF_PS_REINITING))
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|| ((pfn == arpTaskLowPower) && (PrimaryState == ARPIF_PS_LOW_POWER))
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);
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}
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#endif // DBG
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//
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// Although it's tempting to put pTask as entity1 and pRask->Hdr.szDescption as
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// entity2 below, we specify NULL for both so that we can be sure that ONLY one
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// primary task can be active at any one time.
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//
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DBG_ADDASSOC(
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&pIF->Hdr,
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NULL, // Entity1
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NULL, // Entity2
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ARPASSOC_PRIMARY_IF_TASK,
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" Primary task\n",
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pSR
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);
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pIF->pPrimaryTask = pTask;
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SET_IF_PRIMARY_STATE(pIF, PrimaryState);
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EXIT()
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}
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VOID
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arpClearPrimaryIfTask(
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PARP1394_INTERFACE pIF, // LOCKIN LOCKOUT
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PRM_TASK pTask,
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ULONG PrimaryState,
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PRM_STACK_RECORD pSR
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)
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{
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ENTER("arpClearPrimaryIfTask", 0x10ebb0c3)
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RM_ASSERT_OBJLOCKED(&pIF->Hdr, pSR);
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ASSERT(pIF->pPrimaryTask==pTask);
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// Veriy that PrimaryState is a valid primary state.
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//
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ASSERT(
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(PrimaryState == ARPIF_PS_INITED)
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|| (PrimaryState == ARPIF_PS_FAILEDINIT)
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|| (PrimaryState == ARPIF_PS_DEINITED)
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);
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// Delete the association added when setting the primary IF task
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//
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DBG_DELASSOC(
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&pIF->Hdr,
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NULL,
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NULL,
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ARPASSOC_PRIMARY_IF_TASK,
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pSR
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);
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pIF->pPrimaryTask = NULL;
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SET_IF_PRIMARY_STATE(pIF, PrimaryState);
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EXIT()
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}
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VOID
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arpSetSecondaryIfTask(
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PARP1394_INTERFACE pIF, // LOCKIN LOCKOUT
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PRM_TASK pTask,
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ULONG SecondaryState,
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PRM_STACK_RECORD pSR
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)
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{
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ENTER("arpSetSecondaryIfTask", 0xf7e925d1)
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RM_ASSERT_OBJLOCKED(&pIF->Hdr, pSR);
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if (pIF->pActDeactTask != NULL)
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{
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ASSERT(FALSE);
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return; // EARLY RETURN
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}
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#if DBG
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// Veriy that this is a valid act/deact task. Also verify that SecondaryState
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// is a valid state.
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//
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{
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PFN_RM_TASK_HANDLER pfn = pTask->pfnHandler;
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ASSERT(
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((pfn == arpTaskActivateInterface) && (SecondaryState == ARPIF_AS_ACTIVATING))
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|| ((pfn == arpTaskDeactivateInterface) && (SecondaryState == ARPIF_AS_DEACTIVATING))
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);
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}
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#endif // DBG
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//
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// Although it's tempting to put pTask as entity1 and pRask->Hdr.szDescption as
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// entity2 below, we specify NULL for both so that we can be sure that ONLY one
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// primary task can be active at any one time.
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//
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DBG_ADDASSOC(
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&pIF->Hdr,
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NULL, // Entity1
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NULL, // Entity2
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ARPASSOC_ACTDEACT_IF_TASK,
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" ActDeact task\n",
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pSR
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);
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pIF->pActDeactTask = pTask;
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SET_IF_ACTIVE_STATE(pIF, SecondaryState);
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EXIT()
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}
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VOID
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arpClearSecondaryIfTask(
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PARP1394_INTERFACE pIF, // LOCKIN LOCKOUT
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PRM_TASK pTask,
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ULONG SecondaryState,
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PRM_STACK_RECORD pSR
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)
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{
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ENTER("arpClearSecondaryIfTask", 0x2068f420)
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RM_ASSERT_OBJLOCKED(&pIF->Hdr, pSR);
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if (pIF->pActDeactTask != pTask)
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{
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ASSERT(FALSE);
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return; // EARLY RETURN
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}
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// Veriy that SecondaryState is a valid primary state.
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//
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ASSERT(
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(SecondaryState == ARPIF_AS_ACTIVATED)
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|| (SecondaryState == ARPIF_AS_FAILEDACTIVATE)
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|| (SecondaryState == ARPIF_AS_DEACTIVATED)
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);
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// Delete the association added when setting the primary IF task
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//
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DBG_DELASSOC(
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&pIF->Hdr,
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NULL,
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NULL,
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ARPASSOC_ACTDEACT_IF_TASK,
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pSR
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);
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pIF->pActDeactTask = NULL;
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SET_IF_ACTIVE_STATE(pIF, SecondaryState);
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EXIT()
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}
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VOID
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arpSetPrimaryAdapterTask(
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PARP1394_ADAPTER pAdapter, // LOCKIN LOCKOUT
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PRM_TASK pTask,
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ULONG PrimaryState,
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PRM_STACK_RECORD pSR
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)
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{
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ENTER("arpSetPrimaryAdapterTask", 0x535f8cd4)
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RM_ASSERT_OBJLOCKED(&pAdapter->Hdr, pSR);
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ASSERT(pAdapter->bind.pPrimaryTask==NULL);
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#if DBG
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// Veriy that this is a valid primary task. Also verify that PrimaryState
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// is a valid primary state.
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//
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{
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PFN_RM_TASK_HANDLER pfn = pTask->pfnHandler;
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ASSERT(
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((pfn == arpTaskInitializeAdapter) && (PrimaryState == ARPAD_PS_INITING))
|
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|| ((pfn == arpTaskShutdownAdapter) && (PrimaryState == ARPAD_PS_DEINITING))
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|| (pfn == arpTaskLowPower) || ( pfn == arpTaskOnPower)
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);
|
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}
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#endif // DBG
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//
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// Although it's tempting to put pTask as entity1 and pRask->Hdr.szDescption as
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// entity2 below, we specify NULL for both so that we can be sure that ONLY one
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// primary task can be active at any one time.
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//
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DBG_ADDASSOC(
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&pAdapter->Hdr,
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NULL, // Entity1
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NULL, // Entity2
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ARPASSOC_PRIMARY_AD_TASK,
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" Primary task\n",
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pSR
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);
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pAdapter->bind.pPrimaryTask = pTask;
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SET_AD_PRIMARY_STATE(pAdapter, PrimaryState);
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EXIT()
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}
|
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|
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VOID
|
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arpClearPrimaryAdapterTask(
|
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PARP1394_ADAPTER pAdapter, // LOCKIN LOCKOUT
|
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PRM_TASK pTask,
|
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ULONG PrimaryState,
|
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PRM_STACK_RECORD pSR
|
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)
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{
|
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ENTER("arpClearPrimaryAdapterTask", 0x9062b2ab)
|
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RM_ASSERT_OBJLOCKED(&pAdapter->Hdr, pSR);
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ASSERT(pAdapter->bind.pPrimaryTask==pTask);
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// Veriy that PrimaryState is a valid primary state.
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//
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ASSERT(
|
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(PrimaryState == ARPAD_PS_INITED)
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|| (PrimaryState == ARPAD_PS_FAILEDINIT)
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|| (PrimaryState == ARPAD_PS_DEINITED)
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);
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// Delete the association added when setting the primary IF task
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//
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DBG_DELASSOC(
|
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&pAdapter->Hdr,
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NULL,
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NULL,
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ARPASSOC_PRIMARY_AD_TASK,
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pSR
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);
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pAdapter->bind.pPrimaryTask = NULL;
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SET_AD_PRIMARY_STATE(pAdapter, PrimaryState);
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EXIT()
|
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}
|
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|
|
|
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VOID
|
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arpSetSecondaryAdapterTask(
|
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PARP1394_ADAPTER pAdapter, // LOCKIN LOCKOUT
|
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PRM_TASK pTask,
|
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ULONG SecondaryState,
|
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PRM_STACK_RECORD pSR
|
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)
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{
|
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ENTER("arpSetSecondaryAdapterTask", 0x95dae9ac)
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RM_ASSERT_OBJLOCKED(&pAdapter->Hdr, pSR);
|
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|
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if (pAdapter->bind.pSecondaryTask != NULL)
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{
|
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ASSERT(FALSE);
|
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return; // EARLY RETURN
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}
|
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|
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#if DBG
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// Veriy that this is a valid act/deact task. Also verify that SecondaryState
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// is a valid state.
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//
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{
|
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PFN_RM_TASK_HANDLER pfn = pTask->pfnHandler;
|
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ASSERT(
|
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((pfn == arpTaskActivateAdapter) && (SecondaryState == ARPAD_AS_ACTIVATING))
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|| ((pfn == arpTaskDeactivateAdapter) && (SecondaryState == ARPAD_AS_DEACTIVATING))
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);
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}
|
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#endif // DBG
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|
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//
|
|
// Although it's tempting to put pTask as entity1 and pRask->Hdr.szDescption as
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// entity2 below, we specify NULL for both so that we can be sure that ONLY one
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// primary task can be active at any one time.
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//
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DBG_ADDASSOC(
|
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&pAdapter->Hdr,
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NULL, // Entity1
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NULL, // Entity2
|
|
ARPASSOC_ACTDEACT_AD_TASK,
|
|
" Secondary task\n",
|
|
pSR
|
|
);
|
|
|
|
pAdapter->bind.pSecondaryTask = pTask;
|
|
SET_AD_ACTIVE_STATE(pAdapter, SecondaryState);
|
|
|
|
EXIT()
|
|
}
|
|
|
|
|
|
VOID
|
|
arpClearSecondaryAdapterTask(
|
|
PARP1394_ADAPTER pAdapter, // LOCKIN LOCKOUT
|
|
PRM_TASK pTask,
|
|
ULONG SecondaryState,
|
|
PRM_STACK_RECORD pSR
|
|
)
|
|
{
|
|
ENTER("arpClearSecondaryAdapterTask", 0xc876742b)
|
|
RM_ASSERT_OBJLOCKED(&pAdapter->Hdr, pSR);
|
|
|
|
if (pAdapter->bind.pSecondaryTask != pTask)
|
|
{
|
|
ASSERT(FALSE);
|
|
return; // EARLY RETURN
|
|
}
|
|
|
|
// Veriy that SecondaryState is a valid primary state.
|
|
//
|
|
ASSERT(
|
|
(SecondaryState == ARPAD_AS_ACTIVATED)
|
|
|| (SecondaryState == ARPAD_AS_FAILEDACTIVATE)
|
|
|| (SecondaryState == ARPAD_AS_DEACTIVATED)
|
|
);
|
|
|
|
// Delete the association added when setting the primary IF task
|
|
//
|
|
DBG_DELASSOC(
|
|
&pAdapter->Hdr,
|
|
NULL,
|
|
NULL,
|
|
ARPASSOC_ACTDEACT_AD_TASK,
|
|
pSR
|
|
);
|
|
|
|
pAdapter->bind.pSecondaryTask = NULL;
|
|
SET_AD_ACTIVE_STATE(pAdapter, SecondaryState);
|
|
|
|
EXIT()
|
|
}
|
|
|
|
#if 0
|
|
NDIS_STATUS
|
|
arpCopyAnsiStringToUnicodeString(
|
|
OUT PNDIS_STRING pDest,
|
|
IN PANSI_STRING pSrc
|
|
)
|
|
/*++
|
|
|
|
Routine Description:
|
|
|
|
Converts pSrc into unicode and sets up pDest with the it.
|
|
pDest->Buffer is allocated using NdisAllocateMemoryWithTag; Caller is
|
|
responsible for freeing it.
|
|
|
|
Return Value:
|
|
|
|
NDIS_STATUS_SUCCESS on success;
|
|
NDIS_STATUS_RESOURCES on failure.
|
|
--*/
|
|
{
|
|
|
|
UINT Size;
|
|
PWCHAR pwStr;
|
|
Size = sizeof(WCHAR) * pSrc->MaximumLength;
|
|
NdisAllocateMemoryWithTag(&pwStr, Size, MTAG_STRING);
|
|
|
|
ARP_ZEROSTRUCT(pDest);
|
|
|
|
if (pwStr == NULL)
|
|
{
|
|
return NDIS_STATUS_RESOURCES;
|
|
}
|
|
else
|
|
{
|
|
pDest->MaximumLength = Size;
|
|
pDest->Buffer = pwStr;
|
|
NdisAnsiStringToUnicodeString(pDest, pSrc);
|
|
return NDIS_STATUS_SUCCESS;
|
|
}
|
|
}
|
|
|
|
|
|
NDIS_STATUS
|
|
arpCopyUnicodeStringToAnsiString(
|
|
OUT PANSI_STRING pDest,
|
|
IN PNDIS_STRING pSrc
|
|
)
|
|
/*++
|
|
|
|
Routine Description:
|
|
|
|
Converts pSrc into ansi and sets up pDest with the it.
|
|
pDest->Buffer is allocated using NdisAllocateMemoryWithTag; Caller is
|
|
responsible for freeing it.
|
|
|
|
Return Value:
|
|
|
|
NDIS_STATUS_SUCCESS on success;
|
|
NDIS_STATUS_RESOURCES on failure.
|
|
--*/
|
|
{
|
|
|
|
UINT Size;
|
|
PCHAR pStr;
|
|
Size = pSrc->MaximumLength/sizeof(WCHAR) + sizeof(WCHAR);
|
|
NdisAllocateMemoryWithTag(&pStr, Size, MTAG_STRING);
|
|
|
|
ARP_ZEROSTRUCT(pDest);
|
|
|
|
if (pStr == NULL)
|
|
{
|
|
return NDIS_STATUS_RESOURCES;
|
|
}
|
|
else
|
|
{
|
|
pDest->Buffer = pStr;
|
|
NdisUnicodeStringToAnsiString(pDest, pSrc);
|
|
pStr[pDest->Length] = 0;
|
|
pDest->MaximumLength = Size; // Must be done AFTER call to
|
|
// NdisUnicodeStringToAnsiString, which
|
|
// sets MaximumLength to Length;
|
|
return NDIS_STATUS_SUCCESS;
|
|
}
|
|
}
|
|
#endif // 0
|
|
|
|
|
|
UINT
|
|
arpGetSystemTime(VOID)
|
|
/*++
|
|
Returns system time in seconds.
|
|
|
|
Since it's in seconds, we won't overflow unless the system has been up for over
|
|
a 100 years :-)
|
|
--*/
|
|
{
|
|
LARGE_INTEGER Time;
|
|
NdisGetCurrentSystemTime(&Time);
|
|
Time.QuadPart /= 10000000; //10-nanoseconds to seconds.
|
|
|
|
return Time.LowPart;
|
|
}
|
|
|
|
#if ARP_DO_TIMESTAMPS
|
|
|
|
void
|
|
arpTimeStamp(
|
|
char *szFormatString,
|
|
UINT Val
|
|
)
|
|
{
|
|
UINT Minutes;
|
|
UINT Seconds;
|
|
UINT Milliseconds;
|
|
LARGE_INTEGER Time;
|
|
NdisGetCurrentSystemTime(&Time);
|
|
Time.QuadPart /= 10000; //10-nanoseconds to milliseconds.
|
|
Milliseconds = Time.LowPart; // don't care about highpart.
|
|
Seconds = Milliseconds/1000;
|
|
Milliseconds %= 1000;
|
|
Minutes = Seconds/60;
|
|
Seconds %= 60;
|
|
|
|
|
|
DbgPrint( szFormatString, Minutes, Seconds, Milliseconds, Val);
|
|
}
|
|
|
|
|
|
#endif // ARP_DO_TIMESTAMPS
|
|
|
|
|