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f72d6dd4c5
CORE-1697 Raise IRQL to SYNCH_LEVEL when exiting from the idle thread in the idle loop, in case it is scheduled for execution. Then restore it back to DISPATCH_LEVEL, after this is done. This behaviour is a bit similar to the way it's done on x64. This IRQL raise is necessary only in SMP builds. Calls are placed in CONFIG_SMP ifdef: this avoids unnecessary IRQL changes on UP, since SYNCH_LEVEL and DISPATCH_LEVEL are identical there, unlike in MP, where SYNCH_LEVEL is IPI_LEVEL - 2 actually. This prevents bugcheck DRIVER_IRQL_NOT_LESS_OR_EQUAL when booting SMP x86 ReactOS, in KiTimerExpiration when calling it 2nd time. The BSOD happened due to IRQL levels mismatch.
199 lines
5.2 KiB
C
199 lines
5.2 KiB
C
/*
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* PROJECT: ReactOS Kernel
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* LICENSE: GPL - See COPYING in the top level directory
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* PURPOSE: stubs
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* PROGRAMMERS: Timo Kreuzer (timo.kreuzer@reactos.org)
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*/
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/* INCLUDES ******************************************************************/
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#include <ntoskrnl.h>
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#define NDEBUG
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#include <debug.h>
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/* GLOBALS *******************************************************************/
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ULONG ProcessCount;
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SIZE_T KeXStateLength = sizeof(XSAVE_FORMAT);
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PVOID
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KiSwitchKernelStackHelper(
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LONG_PTR StackOffset,
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PVOID OldStackBase);
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/*
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* Kernel stack layout (example pointers):
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* 0xFFFFFC0F'2D008000 KTHREAD::StackBase
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* [XSAVE_AREA size == KeXStateLength = 0x440]
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* 0xFFFFFC0F'2D007BC0 KTHREAD::StateSaveArea _XSAVE_FORMAT
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* 0xFFFFFC0F'2D007B90 KTHREAD::InitialStack
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* [0x190 bytes KTRAP_FRAME]
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* 0xFFFFFC0F'2D007A00 KTHREAD::TrapFrame
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* [KSTART_FRAME] or ...
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* [KSWITCH_FRAME]
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* 0xFFFFFC0F'2D007230 KTHREAD::KernelStack
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*/
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PVOID
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NTAPI
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KiSwitchKernelStack(PVOID StackBase, PVOID StackLimit)
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{
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PKTHREAD CurrentThread;
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PVOID OldStackBase;
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LONG_PTR StackOffset;
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SIZE_T StackSize;
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PKIPCR Pcr;
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ULONG Eflags;
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/* Get the current thread */
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CurrentThread = KeGetCurrentThread();
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/* Save the old stack base */
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OldStackBase = CurrentThread->StackBase;
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/* Get the size of the current stack */
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StackSize = (ULONG_PTR)CurrentThread->StackBase - CurrentThread->StackLimit;
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ASSERT(StackSize <= (ULONG_PTR)StackBase - (ULONG_PTR)StackLimit);
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/* Copy the current stack contents to the new stack */
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RtlCopyMemory((PUCHAR)StackBase - StackSize,
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(PVOID)CurrentThread->StackLimit,
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StackSize);
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/* Calculate the offset between the old and the new stack */
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StackOffset = (PUCHAR)StackBase - (PUCHAR)CurrentThread->StackBase;
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/* Disable interrupts while messing with the stack */
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Eflags = __readeflags();
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_disable();
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/* Set the new trap frame */
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CurrentThread->TrapFrame = (PKTRAP_FRAME)Add2Ptr(CurrentThread->TrapFrame,
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StackOffset);
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/* Set the new initial stack */
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CurrentThread->InitialStack = Add2Ptr(CurrentThread->InitialStack,
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StackOffset);
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/* Set the new stack limits */
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CurrentThread->StackBase = StackBase;
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CurrentThread->StackLimit = (ULONG_PTR)StackLimit;
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CurrentThread->LargeStack = TRUE;
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/* Adjust RspBase in the PCR */
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Pcr = (PKIPCR)KeGetPcr();
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Pcr->Prcb.RspBase += StackOffset;
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/* Adjust Rsp0 in the TSS */
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Pcr->TssBase->Rsp0 += StackOffset;
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/* Restore interrupts */
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__writeeflags(Eflags);
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return OldStackBase;
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}
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DECLSPEC_NORETURN
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VOID
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KiIdleLoop(VOID)
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{
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PKPRCB Prcb = KeGetCurrentPrcb();
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PKTHREAD OldThread, NewThread;
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/* Now loop forever */
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while (TRUE)
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{
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/* Start of the idle loop: disable interrupts */
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_enable();
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YieldProcessor();
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YieldProcessor();
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_disable();
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/* Check for pending timers, pending DPCs, or pending ready threads */
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if ((Prcb->DpcData[0].DpcQueueDepth) ||
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(Prcb->TimerRequest) ||
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(Prcb->DeferredReadyListHead.Next))
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{
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/* Quiesce the DPC software interrupt */
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HalClearSoftwareInterrupt(DISPATCH_LEVEL);
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/* Handle it */
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KiRetireDpcList(Prcb);
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}
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/* Check if a new thread is scheduled for execution */
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if (Prcb->NextThread)
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{
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/* Enable interrupts */
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_enable();
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/* Capture current thread data */
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OldThread = Prcb->CurrentThread;
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NewThread = Prcb->NextThread;
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/* Set new thread data */
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Prcb->NextThread = NULL;
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Prcb->CurrentThread = NewThread;
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/* The thread is now running */
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NewThread->State = Running;
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#ifdef CONFIG_SMP
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/* Do the swap at SYNCH_LEVEL */
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KfRaiseIrql(SYNCH_LEVEL);
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#endif
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/* Switch away from the idle thread */
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KiSwapContext(APC_LEVEL, OldThread);
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#ifdef CONFIG_SMP
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/* Go back to DISPATCH_LEVEL */
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KeLowerIrql(DISPATCH_LEVEL);
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#endif
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}
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else
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{
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/* Continue staying idle. Note the HAL returns with interrupts on */
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Prcb->PowerState.IdleFunction(&Prcb->PowerState);
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}
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}
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}
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VOID
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NTAPI
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KiSwapProcess(IN PKPROCESS NewProcess,
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IN PKPROCESS OldProcess)
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{
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PKIPCR Pcr = (PKIPCR)KeGetPcr();
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#ifdef CONFIG_SMP
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/* Update active processor mask */
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InterlockedXor64((PLONG64)&NewProcess->ActiveProcessors, Pcr->Prcb.SetMember);
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InterlockedXor64((PLONG64)&OldProcess->ActiveProcessors, Pcr->Prcb.SetMember);
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#endif
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/* Update CR3 */
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__writecr3(NewProcess->DirectoryTableBase[0]);
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/* Update IOPM offset */
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Pcr->TssBase->IoMapBase = NewProcess->IopmOffset;
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}
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NTSTATUS
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NTAPI
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NtSetLdtEntries(ULONG Selector1, LDT_ENTRY LdtEntry1, ULONG Selector2, LDT_ENTRY LdtEntry2)
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{
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UNIMPLEMENTED;
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__debugbreak();
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return STATUS_UNSUCCESSFUL;
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}
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NTSTATUS
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NTAPI
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NtVdmControl(IN ULONG ControlCode,
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IN PVOID ControlData)
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{
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/* Not supported */
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return STATUS_NOT_IMPLEMENTED;
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}
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