301 lines
6.9 KiB
C
301 lines
6.9 KiB
C
/*++
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Copyright (c) 1997 Microsoft Corporation
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Module Name:
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sleep.c
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Abstract:
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This handles sleep requests on the part of the interpreter
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Author:
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Stephane Plante (splante)
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Environment:
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NT Kernel Mode Driver only
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NB: Win9x can run this code also, but they will choose not do so.
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--*/
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#include "pch.h"
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VOID
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SleepQueueDpc(
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PKDPC Dpc,
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PVOID Context,
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PVOID Argument1,
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PVOID Argument2
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)
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/*++
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Routine Description:
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This routine is fired when a timer event occurs
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Arguments:
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Dpc - The DPC that was fired
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Context - Not used
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Argument1 - Time.LowPart -- Not used
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Argument2 - Time.HighPart -- Not used
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Return Value:
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VOID
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--*/
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{
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LARGE_INTEGER currentTime;
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LARGE_INTEGER dueTime;
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LIST_ENTRY localList;
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PLIST_ENTRY listEntry;
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PSLEEP sleepItem;
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UNREFERENCED_PARAMETER( Dpc );
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UNREFERENCED_PARAMETER( Context );
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UNREFERENCED_PARAMETER( Argument1 );
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UNREFERENCED_PARAMETER( Argument2 );
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//
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// Initialize the local list. Contrary to what the docs say, this code
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// can be called from any IRQL (as long as the mem is resident)
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//
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InitializeListHead(&localList);
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//
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// Acquire the lock, since we must remove the things from the list
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// under some kind of protection.
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//
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AcquireMutex(&gmutSleep);
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//
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// Find the correct time. This *must* be done after we are acquire the
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// lock because there might be a long delay between trying to acquire
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// the lock and actually getting it
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//
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currentTime.QuadPart = KeQueryInterruptTime();
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//
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// Loop until we are done
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//
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while (!IsListEmpty(&SleepQueue)) {
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//
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// Obtain the first element in the global list again
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//
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sleepItem = CONTAINING_RECORD(SleepQueue.Flink, SLEEP, ListEntry);
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//
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// Should the current item be removed?
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//
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if (sleepItem->SleepTime.QuadPart > currentTime.QuadPart) {
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//
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// No, so we need to set the timer to take care of this request
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//
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dueTime.QuadPart = currentTime.QuadPart -
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sleepItem->SleepTime.QuadPart;
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KeSetTimer(
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&SleepTimer,
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dueTime,
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&SleepDpc
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);
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break;
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}
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//
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// Yes, so remove it
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//
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listEntry = RemoveHeadList(&SleepQueue);
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//
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// Now, add the entry to the next queue
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//
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InsertTailList(&localList, listEntry);
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}
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//
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// Done with lock. This may cause another DPC to process more elements
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//
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ReleaseMutex(&gmutSleep);
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//
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// At this point, we are free to remove items from the local list and
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// try to do work on them.
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//
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while (!IsListEmpty(&localList)) {
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//
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// Remove the first element from the local list
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//
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listEntry = RemoveHeadList(&localList);
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sleepItem = CONTAINING_RECORD(listEntry, SLEEP, ListEntry);
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//
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// Force the interpreter to run
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//
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RestartContext(sleepItem->Context,
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(BOOLEAN)((sleepItem->Context->dwfCtxt & CTXTF_ASYNC_EVAL)
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== 0));
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}
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}
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#ifdef LOCKABLE_PRAGMA
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#pragma ACPI_LOCKABLE_DATA
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#pragma ACPI_LOCKABLE_CODE
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#endif
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NTSTATUS
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LOCAL
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SleepQueueRequest(
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IN PCTXT Context,
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IN ULONG SleepTime
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)
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/*++
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Routine Description:
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This routine is responsible for adding the sleep request to the
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system queue for pending sleep requests
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Arguments:
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Context - The current execution context
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SleepTime - The amount of sleep time, in MilliSeconds
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Rreturn Value:
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NTSTATUS
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--*/
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{
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TRACENAME("SLEEPQUEUEREQUEST")
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BOOLEAN timerSet = FALSE;
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NTSTATUS status;
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PLIST_ENTRY listEntry;
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PSLEEP currentSleep;
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PSLEEP listSleep;
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ULONGLONG currentTime;
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LARGE_INTEGER dueTime;
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ENTER(2, ("SleepQueueRequest(Context=%x,SleepTime=%d)\n",
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Context, SleepTime) );
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status = PushFrame(Context,
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SIG_SLEEP,
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sizeof(SLEEP),
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ProcessSleep,
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¤tSleep);
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if (NT_SUCCESS(status)) {
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//
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// The first step is acquire the timer lock, since we must protect it
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//
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AcquireMutex(&gmutSleep);
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//
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// Next step is to determine time at which we should wake up this
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// context
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//
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currentTime = KeQueryInterruptTime();
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currentSleep->SleepTime.QuadPart = currentTime +
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((ULONGLONG)SleepTime*10000);
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currentSleep->Context = Context;
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//
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// At this point, it becomes easier to walk the list backwards
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//
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listEntry = &SleepQueue;
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while (listEntry->Blink != &SleepQueue) {
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listSleep = CONTAINING_RECORD(listEntry->Blink, SLEEP, ListEntry);
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//
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// Do we have to add the new element after the current one?
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//
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if (currentSleep->SleepTime.QuadPart >=
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listSleep->SleepTime.QuadPart) {
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//
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// Yes
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//
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InsertHeadList(
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&(listSleep->ListEntry),
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&(currentSleep->ListEntry)
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);
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break;
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}
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//
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// Next entry
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//
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listEntry = listEntry->Blink;
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}
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//
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// Look to see if we got to the head
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//
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if (listEntry->Blink == &SleepQueue) {
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//
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// If we get to this point, it is because we have
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// gone all the around the list. If we add to the
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// front of the list, we must set the timer
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//
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InsertHeadList(&SleepQueue, ¤tSleep->ListEntry);
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dueTime.QuadPart = currentTime - currentSleep->SleepTime.QuadPart;
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timerSet = KeSetTimer(
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&SleepTimer,
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dueTime,
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&SleepDpc
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);
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}
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//
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// Done with the lock
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//
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ReleaseMutex(&gmutSleep);
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}
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EXIT(2, ("SleepQueueReqest=%x (currentSleep=%x timerSet=%x)\n",
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status, currentSleep, timerSet) );
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return status;
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}
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/***LP ProcessSleep - post processing of sleep
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*
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* ENTRY
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* pctxt -> CTXT
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* psleep -> SLEEP
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* rc - status code
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*
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* EXIT-SUCCESS
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* returns STATUS_SUCCESS
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* EXIT-FAILURE
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* returns AMLIERR_ code
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*/
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NTSTATUS LOCAL ProcessSleep(PCTXT pctxt, PSLEEP psleep, NTSTATUS rc)
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{
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TRACENAME("PROCESSSLEEP")
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ENTER(2, ("ProcessSleep(pctxt=%x,pbOp=%x,psleep=%x,rc=%x)\n",
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pctxt, pctxt->pbOp, psleep, rc));
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ASSERT(psleep->FrameHdr.dwSig == SIG_SLEEP);
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PopFrame(pctxt);
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EXIT(2, ("ProcessSleep=%x\n", rc));
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return rc;
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} //ProcessSleep
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