-/*
- * ReactOS kernel
- * Copyright (C) 2000 David Welch <welch@cwcom.net>
- *
- * This program is free software; you can redistribute it and/or modify
- * it under the terms of the GNU General Public License as published by
- * the Free Software Foundation; either version 2 of the License, or
- * (at your option) any later version.
- *
- * This program is distributed in the hope that it will be useful,
- * but WITHOUT ANY WARRANTY; without even the implied warranty of
- * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
- * GNU General Public License for more details.
- *
- * You should have received a copy of the GNU General Public License
- * along with this program; if not, write to the Free Software
- * Foundation, Inc., 675 Mass Ave, Cambridge, MA 02139, USA.
- */
-
#ifndef __NTOSKRNL_INCLUDE_INTERNAL_KE_H
#define __NTOSKRNL_INCLUDE_INTERNAL_KE_H
/* INCLUDES *****************************************************************/
-#ifndef __ASM__
-#include <ddk/ntifs.h>
-#include <stdarg.h>
-#endif /* not __ASM__ */
-
#include "arch/ke.h"
-/* INTERNAL KERNEL FUNCTIONS ************************************************/
+/* INTERNAL KERNEL TYPES ****************************************************/
+
+typedef struct _WOW64_PROCESS
+{
+ PVOID Wow64;
+} WOW64_PROCESS, *PWOW64_PROCESS;
+
+typedef struct _KPROFILE_SOURCE_OBJECT
+{
+ KPROFILE_SOURCE Source;
+ LIST_ENTRY ListEntry;
+} KPROFILE_SOURCE_OBJECT, *PKPROFILE_SOURCE_OBJECT;
+
+/* Cached modules from the loader block */
+typedef enum _CACHED_MODULE_TYPE
+{
+ AnsiCodepage,
+ OemCodepage,
+ UnicodeCasemap,
+ SystemRegistry,
+ HardwareRegistry,
+ MaximumCachedModuleType,
+} CACHED_MODULE_TYPE, *PCACHED_MODULE_TYPE;
+extern PLOADER_MODULE CachedModules[MaximumCachedModuleType];
+
+struct _KIRQ_TRAPFRAME;
+struct _KPCR;
+struct _KPRCB;
+struct _KEXCEPTION_FRAME;
+
+extern PVOID KeUserApcDispatcher;
+extern PVOID KeUserCallbackDispatcher;
+extern PVOID KeUserExceptionDispatcher;
+extern PVOID KeRaiseUserExceptionDispatcher;
+extern LARGE_INTEGER SystemBootTime;
+extern ULONG_PTR KERNEL_BASE;
-#ifdef __USE_W32API
-struct _KPROCESS* KeGetCurrentProcess(VOID);
-VOID KeSetGdtSelector(ULONG Entry, ULONG Value1, ULONG Value2);
+/* MACROS *************************************************************************/
+
+/*
+ * On UP machines, we don't actually have a spinlock, we merely raise
+ * IRQL to DPC level.
+ */
+#ifdef CONFIG_SMP
+#define KeInitializeDispatcher() KeInitializeSpinLock(&DispatcherDatabaseLock);
+#define KeAcquireDispatcherDatabaseLock() KfAcquireSpinLock(&DispatcherDatabaseLock);
+#define KeAcquireDispatcherDatabaseLockAtDpcLevel() \
+ KeAcquireSpinLockAtDpcLevel (&DispatcherDatabaseLock);
+#define KeReleaseDispatcherDatabaseLockFromDpcLevel() \
+ KeReleaseSpinLockFromDpcLevel(&DispatcherDatabaseLock);
+#define KeReleaseDispatcherDatabaseLock(OldIrql) \
+ KeReleaseSpinLockFromDpcLevel(&DispatcherDatabaseLock); \
+ KiExitDispatcher(OldIrql);
+#else
+#define KeInitializeDispatcher()
+#define KeAcquireDispatcherDatabaseLock() KeRaiseIrqlToDpcLevel();
+#define KeReleaseDispatcherDatabaseLock(OldIrql) KiExitDispatcher(OldIrql);
+#define KeAcquireDispatcherDatabaseLockAtDpcLevel()
+#define KeReleaseDispatcherDatabaseLockFromDpcLevel()
#endif
-#ifndef __ASM__
+/* The following macro initializes a dispatcher object's header */
+#define KeInitializeDispatcherHeader(Header, t, s, State) \
+{ \
+ (Header)->Type = t; \
+ (Header)->Absolute = 0; \
+ (Header)->Inserted = 0; \
+ (Header)->Size = s; \
+ (Header)->SignalState = State; \
+ InitializeListHead(&((Header)->WaitListHead)); \
+}
+
+/* The following macro satisfies the wait of any dispatcher object */
+#define KiSatisfyObjectWait(Object, Thread) \
+{ \
+ /* Special case for Mutants */ \
+ if ((Object)->Header.Type == MutantObject) \
+ { \
+ /* Decrease the Signal State */ \
+ (Object)->Header.SignalState--; \
+ \
+ /* Check if it's now non-signaled */ \
+ if (!(Object)->Header.SignalState) \
+ { \
+ /* Set the Owner Thread */ \
+ (Object)->OwnerThread = Thread; \
+ \
+ /* Disable APCs if needed */ \
+ Thread->KernelApcDisable -= (Object)->ApcDisable; \
+ \
+ /* Check if it's abandoned */ \
+ if ((Object)->Abandoned) \
+ { \
+ /* Unabandon it */ \
+ (Object)->Abandoned = FALSE; \
+ \
+ /* Return Status */ \
+ Thread->WaitStatus = STATUS_ABANDONED; \
+ } \
+ \
+ /* Insert it into the Mutant List */ \
+ InsertHeadList(&Thread->MutantListHead, \
+ &(Object)->MutantListEntry); \
+ } \
+ } \
+ else if (((Object)->Header.Type & TIMER_OR_EVENT_TYPE) == \
+ EventSynchronizationObject) \
+ { \
+ /* Synchronization Timers and Events just get un-signaled */ \
+ (Object)->Header.SignalState = 0; \
+ } \
+ else if ((Object)->Header.Type == SemaphoreObject) \
+ { \
+ /* These ones can have multiple states, so we only decrease it */ \
+ (Object)->Header.SignalState--; \
+ } \
+}
+
+/* The following macro satisfies the wait of a mutant dispatcher object */
+#define KiSatisfyMutantWait(Object, Thread) \
+{ \
+ /* Decrease the Signal State */ \
+ (Object)->Header.SignalState--; \
+ \
+ /* Check if it's now non-signaled */ \
+ if (!(Object)->Header.SignalState) \
+ { \
+ /* Set the Owner Thread */ \
+ (Object)->OwnerThread = Thread; \
+ \
+ /* Disable APCs if needed */ \
+ Thread->KernelApcDisable -= (Object)->ApcDisable; \
+ \
+ /* Check if it's abandoned */ \
+ if ((Object)->Abandoned) \
+ { \
+ /* Unabandon it */ \
+ (Object)->Abandoned = FALSE; \
+ \
+ /* Return Status */ \
+ Thread->WaitStatus = STATUS_ABANDONED; \
+ } \
+ \
+ /* Insert it into the Mutant List */ \
+ InsertHeadList(&Thread->MutantListHead, \
+ &(Object)->MutantListEntry); \
+ } \
+}
+
+/* The following macro satisfies the wait of any nonmutant dispatcher object */
+#define KiSatisfyNonMutantWait(Object, Thread) \
+{ \
+ if (((Object)->Header.Type & TIMER_OR_EVENT_TYPE) == \
+ EventSynchronizationObject) \
+ { \
+ /* Synchronization Timers and Events just get un-signaled */ \
+ (Object)->Header.SignalState = 0; \
+ } \
+ else if ((Object)->Header.Type == SemaphoreObject) \
+ { \
+ /* These ones can have multiple states, so we only decrease it */ \
+ (Object)->Header.SignalState--; \
+ } \
+}
+
+/* The following macro satisfies multiple objects in a wait state */
+#define KiSatisifyMultipleObjectWaits(FirstBlock) \
+{ \
+ PKWAIT_BLOCK WaitBlock = FirstBlock; \
+ PKTHREAD WaitThread = WaitBlock->Thread; \
+ \
+ /* Loop through all the Wait Blocks, and wake each Object */ \
+ do \
+ { \
+ /* Make sure it hasn't timed out */ \
+ if (WaitBlock->WaitKey != STATUS_TIMEOUT) \
+ { \
+ /* Wake the Object */ \
+ KiSatisfyObjectWait((PKMUTANT)WaitBlock->Object, WaitThread); \
+ } \
+ \
+ /* Move to the next block */ \
+ WaitBlock = WaitBlock->NextWaitBlock; \
+ } while (WaitBlock != FirstBlock); \
+}
+
+extern KSPIN_LOCK DispatcherDatabaseLock;
+
+#define KeEnterCriticalRegion() \
+{ \
+ PKTHREAD _Thread = KeGetCurrentThread(); \
+ if (_Thread) _Thread->KernelApcDisable--; \
+}
+
+#define KeLeaveCriticalRegion() \
+{ \
+ PKTHREAD _Thread = KeGetCurrentThread(); \
+ if((_Thread) && (++_Thread->KernelApcDisable == 0)) \
+ { \
+ if (!IsListEmpty(&_Thread->ApcState.ApcListHead[KernelMode]) && \
+ (_Thread->SpecialApcDisable == 0)) \
+ { \
+ KiCheckForKernelApcDelivery(); \
+ } \
+ } \
+}
+
+#define KEBUGCHECKWITHTF(a,b,c,d,e,f) \
+ DbgPrint("KeBugCheckWithTf at %s:%i\n",__FILE__,__LINE__), \
+ KeBugCheckWithTf(a,b,c,d,e,f)
+
+/* INTERNAL KERNEL FUNCTIONS ************************************************/
+
+/* threadsch.c ********************************************************************/
-struct _KTHREAD;
+/* Thread Scheduler Functions */
+
+/* Readies a Thread for Execution. */
+VOID
+STDCALL
+KiDispatchThreadNoLock(ULONG NewThreadStatus);
-VOID STDCALL
+/* Readies a Thread for Execution. */
+VOID
+STDCALL
+KiDispatchThread(ULONG NewThreadStatus);
+
+/* Finds a new thread to run */
+NTSTATUS
+NTAPI
+KiSwapThread(
+ VOID
+);
+
+/* Removes a thread out of a block state. */
+VOID
+STDCALL
+KiUnblockThread(
+ PKTHREAD Thread,
+ PNTSTATUS WaitStatus,
+ KPRIORITY Increment
+);
+
+NTSTATUS
+STDCALL
+KeSuspendThread(PKTHREAD Thread);
+
+NTSTATUS
+FASTCALL
+KiSwapContext(PKTHREAD NewThread);
+
+VOID
+STDCALL
+KiAdjustQuantumThread(IN PKTHREAD Thread);
+
+VOID
+FASTCALL
+KiExitDispatcher(KIRQL OldIrql);
+
+/* gmutex.c ********************************************************************/
+
+VOID
+FASTCALL
+KiAcquireGuardedMutexContented(PKGUARDED_MUTEX GuardedMutex);
+
+/* gate.c **********************************************************************/
+
+VOID
+FASTCALL
+KeInitializeGate(PKGATE Gate);
+
+VOID
+FASTCALL
+KeSignalGateBoostPriority(PKGATE Gate);
+
+VOID
+FASTCALL
+KeWaitForGate(
+ PKGATE Gate,
+ KWAIT_REASON WaitReason,
+ KPROCESSOR_MODE WaitMode
+);
+
+/* ipi.c ********************************************************************/
+
+BOOLEAN
+STDCALL
+KiIpiServiceRoutine(
+ IN PKTRAP_FRAME TrapFrame,
+ IN struct _KEXCEPTION_FRAME* ExceptionFrame
+);
+
+VOID
+NTAPI
+KiIpiSendRequest(
+ KAFFINITY TargetSet,
+ ULONG IpiRequest
+);
+
+VOID
+NTAPI
+KeIpiGenericCall(
+ VOID (STDCALL *WorkerRoutine)(PVOID),
+ PVOID Argument
+);
+
+/* next file ***************************************************************/
+
+VOID
+STDCALL
DbgBreakPointNoBugCheck(VOID);
-VOID STDCALL KeRescheduleThread();
+VOID
+STDCALL
+KeInitializeProfile(
+ struct _KPROFILE* Profile,
+ struct _KPROCESS* Process,
+ PVOID ImageBase,
+ ULONG ImageSize,
+ ULONG BucketSize,
+ KPROFILE_SOURCE ProfileSource,
+ KAFFINITY Affinity
+);
+
+VOID
+STDCALL
+KeStartProfile(
+ struct _KPROFILE* Profile,
+ PVOID Buffer
+);
+BOOLEAN
+STDCALL
+KeStopProfile(struct _KPROFILE* Profile);
+
+ULONG
+STDCALL
+KeQueryIntervalProfile(KPROFILE_SOURCE ProfileSource);
+
+VOID
+STDCALL
+KeSetIntervalProfile(
+ KPROFILE_SOURCE ProfileSource,
+ ULONG Interval
+);
VOID
STDCALL
VOID
STDCALL
KeProfileInterruptWithSource(
- IN PKTRAP_FRAME TrapFrame,
- IN KPROFILE_SOURCE Source
+ IN PKTRAP_FRAME TrapFrame,
+ IN KPROFILE_SOURCE Source
);
-/*BOOLEAN
+BOOLEAN
STDCALL
-KiIpiServiceRoutine(
- IN PKTRAP_FRAME TrapFrame,
- IN PKEXCEPTION_FRAME ExceptionFrame
-);*/
+KiRosPrintAddress(PVOID Address);
-VOID
+VOID
STDCALL
KeUpdateSystemTime(
- IN PKTRAP_FRAME TrapFrame,
- IN ULONG Increment
+ PKTRAP_FRAME TrapFrame,
+ KIRQL Irql
+);
+
+VOID
+STDCALL
+KeUpdateRunTime(
+ PKTRAP_FRAME TrapFrame,
+ KIRQL Irql
+);
+
+VOID
+STDCALL
+KiExpireTimers(
+ PKDPC Dpc,
+ PVOID DeferredContext,
+ PVOID SystemArgument1,
+ PVOID SystemArgument2
+);
+
+VOID
+STDCALL
+KeInitializeThread(
+ struct _KPROCESS* Process,
+ PKTHREAD Thread,
+ PKSYSTEM_ROUTINE SystemRoutine,
+ PKSTART_ROUTINE StartRoutine,
+ PVOID StartContext,
+ PCONTEXT Context,
+ PVOID Teb,
+ PVOID KernelStack
);
-VOID KiUpdateSystemTime (KIRQL oldIrql, ULONG Eip);
+VOID
+STDCALL
+KeRundownThread(VOID);
+
+NTSTATUS
+NTAPI
+KeReleaseThread(PKTHREAD Thread);
-KIRQL KeAcquireDispatcherDatabaseLock(VOID);
-VOID KeAcquireDispatcherDatabaseLockAtDpcLevel(VOID);
-VOID KeReleaseDispatcherDatabaseLock(KIRQL Irql);
-VOID KeReleaseDispatcherDatabaseLockFromDpcLevel(VOID);
+LONG
+STDCALL
+KeQueryBasePriorityThread(IN PKTHREAD Thread);
-BOOLEAN KeDispatcherObjectWake(DISPATCHER_HEADER* hdr);
-VOID STDCALL KeExpireTimers(PKDPC Apc,
- PVOID Arg1,
- PVOID Arg2,
- PVOID Arg3);
-VOID KeInitializeDispatcherHeader(DISPATCHER_HEADER* Header, ULONG Type,
- ULONG Size, ULONG SignalState);
-VOID KeDumpStackFrames(PULONG Frame);
-BOOLEAN KiTestAlert(VOID);
-VOID KeRemoveAllWaitsThread(struct _ETHREAD* Thread, NTSTATUS WaitStatus, BOOL Unblock);
-PULONG KeGetStackTopThread(struct _ETHREAD* Thread);
-VOID KeContextToTrapFrame(PCONTEXT Context, PKTRAP_FRAME TrapFrame);
VOID
-KiDeliverNormalApc(VOID);
+STDCALL
+KiSetPriorityThread(
+ PKTHREAD Thread,
+ KPRIORITY Priority,
+ PBOOLEAN Released
+);
-BOOLEAN STDCALL KeRemoveQueueApc (PKAPC Apc);
-PLIST_ENTRY STDCALL KeRundownQueue(IN PKQUEUE Queue);
+BOOLEAN
+NTAPI
+KiDispatcherObjectWake(
+ DISPATCHER_HEADER* hdr,
+ KPRIORITY increment
+);
-extern LARGE_INTEGER SystemBootTime;
-extern volatile ULONGLONG KiKernelTime;
-extern volatile ULONGLONG KiUserTime;
-extern volatile ULONGLONG KiDpcTime;
+VOID
+STDCALL
+KeExpireTimers(
+ PKDPC Apc,
+ PVOID Arg1,
+ PVOID Arg2,
+ PVOID Arg3
+);
+
+VOID
+NTAPI
+KeDumpStackFrames(PULONG Frame);
+
+BOOLEAN
+NTAPI
+KiTestAlert(VOID);
+
+VOID
+FASTCALL
+KiAbortWaitThread(
+ PKTHREAD Thread,
+ NTSTATUS WaitStatus,
+ KPRIORITY Increment
+);
+
+VOID
+STDCALL
+KeInitializeProcess(
+ struct _KPROCESS *Process,
+ KPRIORITY Priority,
+ KAFFINITY Affinity,
+ LARGE_INTEGER DirectoryTableBase
+);
+
+ULONG
+STDCALL
+KeForceResumeThread(IN PKTHREAD Thread);
+
+BOOLEAN
+STDCALL
+KeDisableThreadApcQueueing(IN PKTHREAD Thread);
+
+BOOLEAN
+STDCALL
+KiInsertTimer(
+ PKTIMER Timer,
+ LARGE_INTEGER DueTime
+);
+BOOLEAN
+__inline
+FASTCALL
+KiIsObjectSignaled(
+ PDISPATCHER_HEADER Object,
+ PKTHREAD Thread
+);
+
+VOID
+FASTCALL
+KiWaitTest(
+ PVOID Object,
+ KPRIORITY Increment
+);
+
+PULONG
+NTAPI
+KeGetStackTopThread(struct _ETHREAD* Thread);
+
+BOOLEAN
+STDCALL
+KeContextToTrapFrame(
+ PCONTEXT Context,
+ PKEXCEPTION_FRAME ExeptionFrame,
+ PKTRAP_FRAME TrapFrame,
+ KPROCESSOR_MODE PreviousMode
+);
+
+VOID
+STDCALL
+KiDeliverApc(
+ KPROCESSOR_MODE PreviousMode,
+ PVOID Reserved,
+ PKTRAP_FRAME TrapFrame
+);
+
+VOID
+STDCALL
+KiCheckForKernelApcDelivery(VOID);
+
+LONG
+STDCALL
+KiInsertQueue(
+ IN PKQUEUE Queue,
+ IN PLIST_ENTRY Entry,
+ BOOLEAN Head
+);
+
+ULONG
+STDCALL
+KeSetProcess(
+ struct _KPROCESS* Process,
+ KPRIORITY Increment
+);
+
+VOID
+STDCALL
+KeInitializeEventPair(PKEVENT_PAIR EventPair);
+
+VOID
+STDCALL
+KiInitializeUserApc(
+ IN PKEXCEPTION_FRAME Reserved,
+ IN PKTRAP_FRAME TrapFrame,
+ IN PKNORMAL_ROUTINE NormalRoutine,
+ IN PVOID NormalContext,
+ IN PVOID SystemArgument1,
+ IN PVOID SystemArgument2
+);
+
+PLIST_ENTRY
+STDCALL
+KeFlushQueueApc(
+ IN PKTHREAD Thread,
+ IN KPROCESSOR_MODE PreviousMode
+);
+
+VOID
+STDCALL
+KiAttachProcess(
+ struct _KTHREAD *Thread,
+ struct _KPROCESS *Process,
+ KIRQL ApcLock,
+ struct _KAPC_STATE *SavedApcState
+);
+
+VOID
+STDCALL
+KiSwapProcess(
+ struct _KPROCESS *NewProcess,
+ struct _KPROCESS *OldProcess
+);
+
+BOOLEAN
+STDCALL
+KeTestAlertThread(IN KPROCESSOR_MODE AlertMode);
+
+BOOLEAN
+STDCALL
+KeRemoveQueueApc(PKAPC Apc);
+
+VOID
+FASTCALL
+KiWakeQueue(IN PKQUEUE Queue);
+
+PLIST_ENTRY
+STDCALL
+KeRundownQueue(IN PKQUEUE Queue);
/* INITIALIZATION FUNCTIONS *************************************************/
-VOID KeInitExceptions(VOID);
-VOID KeInitInterrupts(VOID);
-VOID KeInitTimer(VOID);
-VOID KeInitDpc(VOID);
-VOID KeInitDispatcher(VOID);
-VOID KeInitializeDispatcher(VOID);
-VOID KeInitializeTimerImpl(VOID);
-VOID KeInitializeBugCheck(VOID);
-VOID Phase1Initialization(PVOID Context);
+VOID
+NTAPI
+KeInitExceptions(VOID);
-VOID KeInit1(PCHAR CommandLine, PULONG LastKernelAddress);
-VOID KeInit2(VOID);
+VOID
+NTAPI
+KeInitInterrupts(VOID);
-BOOLEAN KiDeliverUserApc(PKTRAP_FRAME TrapFrame);
+VOID
+NTAPI
+KeInitTimer(VOID);
-VOID FASTCALL
-KiSwapApcEnvironment(
- struct _KTHREAD* Thread,
- struct _KPROCESS* NewProcess);
+VOID
+NTAPI
+KeInitDpc(struct _KPRCB* Prcb);
VOID
-KiAddProfileEvent(KPROFILE_SOURCE Source, ULONG Pc);
-VOID
-KiDispatchException(PEXCEPTION_RECORD ExceptionRecord,
- PCONTEXT Context,
- PKTRAP_FRAME Tf,
- KPROCESSOR_MODE PreviousMode,
- BOOLEAN SearchFrames);
-VOID KeTrapFrameToContext(PKTRAP_FRAME TrapFrame,
- PCONTEXT Context);
+NTAPI
+KeInitDispatcher(VOID);
+
+VOID
+NTAPI
+KiInitializeSystemClock(VOID);
+
+VOID
+NTAPI
+KiInitializeBugCheck(VOID);
+
+VOID
+NTAPI
+Phase1Initialization(PVOID Context);
+
+VOID
+NTAPI
+KeInit1(
+ PCHAR CommandLine,
+ PULONG LastKernelAddress
+);
+
+VOID
+NTAPI
+KeInit2(VOID);
+
+BOOLEAN
+NTAPI
+KiDeliverUserApc(PKTRAP_FRAME TrapFrame);
+
VOID
+STDCALL
+KiMoveApcState(
+ PKAPC_STATE OldState,
+ PKAPC_STATE NewState
+);
+
+VOID
+NTAPI
+KiAddProfileEvent(
+ KPROFILE_SOURCE Source,
+ ULONG Pc
+);
+
+VOID
+NTAPI
+KiDispatchException(
+ PEXCEPTION_RECORD ExceptionRecord,
+ PKEXCEPTION_FRAME ExceptionFrame,
+ PKTRAP_FRAME Tf,
+ KPROCESSOR_MODE PreviousMode,
+ BOOLEAN SearchFrames
+);
+
+VOID
+NTAPI
+KeTrapFrameToContext(
+ IN PKTRAP_FRAME TrapFrame,
+ IN PKEXCEPTION_FRAME ExceptionFrame,
+ IN OUT PCONTEXT Context
+);
+
+VOID
+NTAPI
KeApplicationProcessorInit(VOID);
+
VOID
+NTAPI
KePrepareForApplicationProcessorInit(ULONG id);
+
ULONG
-KiUserTrapHandler(PKTRAP_FRAME Tf, ULONG ExceptionNr, PVOID Cr2);
-VOID STDCALL
-KePushAndStackSwitchAndSysRet(ULONG Push, PVOID NewStack);
-VOID STDCALL
+NTAPI
+KiUserTrapHandler(
+ PKTRAP_FRAME Tf,
+ ULONG ExceptionNr,
+ PVOID Cr2
+);
+
+VOID
+STDCALL
+KePushAndStackSwitchAndSysRet(
+ ULONG Push,
+ PVOID NewStack
+);
+
+VOID
+STDCALL
KeStackSwitchAndRet(PVOID NewStack);
-VOID STDCALL
-KeBugCheckWithTf(ULONG BugCheckCode,
- ULONG BugCheckParameter1,
- ULONG BugCheckParameter2,
- ULONG BugCheckParameter3,
- ULONG BugCheckParameter4,
- PKTRAP_FRAME Tf);
-#define KEBUGCHECKWITHTF(a,b,c,d,e,f) DbgPrint("KeBugCheckWithTf at %s:%i\n",__FILE__,__LINE__), KeBugCheckWithTf(a,b,c,d,e,f)
+
+VOID
+STDCALL
+KeBugCheckWithTf(
+ ULONG BugCheckCode,
+ ULONG BugCheckParameter1,
+ ULONG BugCheckParameter2,
+ ULONG BugCheckParameter3,
+ ULONG BugCheckParameter4,
+ PKTRAP_FRAME Tf
+);
+
VOID
-KiDumpTrapFrame(PKTRAP_FRAME Tf, ULONG ExceptionNr, ULONG cr2);
+STDCALL
+KiDumpTrapFrame(
+ PKTRAP_FRAME Tf,
+ ULONG ExceptionNr,
+ ULONG cr2
+);
VOID
-KiUpdateProcessThreadTime(VOID);
+STDCALL
+KeFlushCurrentTb(VOID);
VOID
STDCALL
-KeUpdateRunTime(
- IN PKTRAP_FRAME TrapFrame
+KeRosDumpStackFrames(
+ PULONG Frame,
+ ULONG FrameCount
+);
+
+ULONG
+STDCALL
+KeRosGetStackFrames(
+ PULONG Frames,
+ ULONG FrameCount
);
-#endif /* not __ASM__ */
+VOID
+NTAPI
+KiSetSystemTime(PLARGE_INTEGER NewSystemTime);
-#define MAXIMUM_PROCESSORS 32
+NTSTATUS
+STDCALL
+Ke386CallBios(
+ UCHAR Int,
+ PKV86M_REGISTERS Regs
+);
+
+ULONG
+NTAPI
+KeV86Exception(
+ ULONG ExceptionNr,
+ PKTRAP_FRAME Tf,
+ ULONG address
+);
#endif /* __NTOSKRNL_INCLUDE_INTERNAL_KE_H */