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246 lines
5.5 KiB
246 lines
5.5 KiB
/*++
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Copyright (c) 1989 Microsoft Corporation
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Module Name:
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waitsup.c
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Abstract:
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This module contains the support routines necessary to support the
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generic kernel wait functions. Functions are provided to test if a
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wait can be satisfied, to satisfy a wait, and to unwwait a thread.
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Author:
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David N. Cutler (davec) 24-Mar-1989
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Environment:
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Kernel mode only.
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Revision History:
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--*/
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#include "ki.h"
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VOID
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FASTCALL
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KiExitDispatcher (
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IN KIRQL OldIrql
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)
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/*++
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Routine Description:
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This function processes the deferred ready list, possibly switches to
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a new thread, and lowers IRQL to its previous value.
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Arguments:
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OldIrql - Supplies the previous IRQL value.
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Return Value:
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None.
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--*/
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{
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PKTHREAD CurrentThread;
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PKTHREAD NewThread;
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BOOLEAN Pending;
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PKPRCB Prcb;
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ASSERT(KeGetCurrentIrql() == SYNCH_LEVEL);
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//
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// Process the deferred ready list if the list is not empty.
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//
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Prcb = KeGetCurrentPrcb();
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#if !defined(NT_UP)
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if (Prcb->DeferredReadyListHead.Next != NULL) {
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KiProcessDeferredReadyList(Prcb);
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}
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#endif
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//
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// If the old IRQL is less than dispatch level, then a new thread can
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// be dispatcher immediately.
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//
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if (OldIrql < DISPATCH_LEVEL) {
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//
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// If there is a new thread selected for execution, then switch
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// context to the new thread.
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//
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if (Prcb->NextThread != NULL) {
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KiAcquirePrcbLock(Prcb);
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NewThread = Prcb->NextThread;
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CurrentThread = Prcb->CurrentThread;
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KiSetContextSwapBusy(CurrentThread);
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Prcb->NextThread = NULL;
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Prcb->CurrentThread = NewThread;
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NewThread->State = Running;
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KxQueueReadyThread(CurrentThread, Prcb);
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CurrentThread->WaitIrql = OldIrql;
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Pending = KiSwapContext(CurrentThread, NewThread);
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if (Pending != FALSE) {
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KeLowerIrql(APC_LEVEL);
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KiDeliverApc(KernelMode, NULL, NULL);
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ASSERT(OldIrql == 0);
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}
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}
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} else if ((Prcb->NextThread != NULL) &&
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(Prcb->DpcRoutineActive == FALSE)) {
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KiRequestSoftwareInterrupt(DISPATCH_LEVEL);
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}
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//
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// Lower IRQL to its previous level.
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//
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KeLowerIrql(OldIrql);
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return;
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}
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VOID
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FASTCALL
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KiUnwaitThread (
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IN PRKTHREAD Thread,
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IN LONG_PTR WaitStatus,
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IN KPRIORITY Increment
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)
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/*++
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Routine Description:
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This function unwaits a thread, sets the thread's wait completion status,
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calculates the thread's new priority, and either readies the thread for
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execution or adds the thread to a list of threads to be readied later.
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Arguments:
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Thread - Supplies a pointer to a dispatcher object of type thread.
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WaitStatus - Supplies the wait completion status.
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Increment - Supplies the priority increment that is to be applied to
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the thread's priority.
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Return Value:
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None.
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--*/
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{
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//
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// Unlink thread from the appropriate wait queues and set the wait
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// completion status.
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//
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KiUnlinkThread(Thread, WaitStatus);
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//
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// Set unwait priority adjustment parameters.
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//
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ASSERT(Increment >= 0);
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Thread->AdjustIncrement = (SCHAR)Increment;
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Thread->AdjustReason = (UCHAR)AdjustUnwait;
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//
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// Ready the thread for execution.
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//
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KiReadyThread(Thread);
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return;
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}
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VOID
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FASTCALL
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KiWaitTest (
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IN PVOID Object,
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IN KPRIORITY Increment
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)
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/*++
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Routine Description:
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This function tests if a wait can be satisfied when an object attains
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a state of signaled. If a wait can be satisfied, then the subject thread
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is unwaited with a completion status that is the WaitKey of the wait
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block from the object wait list. As many waits as possible are satisfied.
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Arguments:
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Object - Supplies a pointer to a dispatcher object.
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Return Value:
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None.
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--*/
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{
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PKEVENT Event;
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PLIST_ENTRY ListHead;
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PRKTHREAD Thread;
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PRKWAIT_BLOCK WaitBlock;
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PLIST_ENTRY WaitEntry;
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NTSTATUS WaitStatus;
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//
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// As long as the signal state of the specified object is Signaled and
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// there are waiters in the object wait list, then try to satisfy a wait.
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//
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Event = (PKEVENT)Object;
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ListHead = &Event->Header.WaitListHead;
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WaitEntry = ListHead->Flink;
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while ((Event->Header.SignalState > 0) &&
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(WaitEntry != ListHead)) {
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WaitBlock = CONTAINING_RECORD(WaitEntry, KWAIT_BLOCK, WaitListEntry);
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Thread = WaitBlock->Thread;
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WaitStatus = STATUS_KERNEL_APC;
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//
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// N.B. The below code only satisfies the wait for wait any types.
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// Wait all types are satisfied in the wait code itself. This
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// is done with a eye to the future when the dispatcher lock is
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// split into a lock per waitable object type and a scheduling
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// state lock. For now, a kernel APC is simulated for wait all
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// types.
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//
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if (WaitBlock->WaitType == WaitAny) {
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WaitStatus = (NTSTATUS)WaitBlock->WaitKey;
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KiWaitSatisfyAny((PKMUTANT)Event, Thread);
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}
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KiUnwaitThread(Thread, WaitStatus, Increment);
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WaitEntry = ListHead->Flink;
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}
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return;
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}
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