reactos/include/ndk/ketypes.h
Timo Kreuzer 9ea495ba33 Create a branch for header work.
svn path=/branches/header-work/; revision=45691
2010-02-26 22:57:55 +00:00

1061 lines
22 KiB
C

/*++ NDK Version: 0098
Copyright (c) Alex Ionescu. All rights reserved.
Header Name:
lpctypes.h
Abstract:
Type definitions for the Loader.
Author:
Alex Ionescu (alexi@tinykrnl.org) - Updated - 27-Feb-2006
--*/
#ifndef _KETYPES_H
#define _KETYPES_H
//
// Dependencies
//
#include <umtypes.h>
#ifndef NTOS_MODE_USER
#include <haltypes.h>
#include <potypes.h>
#include <ifssupp.h>
#endif
//
// Context Record Flags
//
#define CONTEXT_DEBUGGER (CONTEXT_FULL | CONTEXT_FLOATING_POINT)
//
// Maximum System Descriptor Table Entries
//
#define SSDT_MAX_ENTRIES 2
//
// Processor Architectures
//
#define PROCESSOR_ARCHITECTURE_INTEL 0
#define PROCESSOR_ARCHITECTURE_MIPS 1
#define PROCESSOR_ARCHITECTURE_ALPHA 2
#define PROCESSOR_ARCHITECTURE_PPC 3
#define PROCESSOR_ARCHITECTURE_SHX 4
#define PROCESSOR_ARCHITECTURE_ARM 5
#define PROCESSOR_ARCHITECTURE_IA64 6
#define PROCESSOR_ARCHITECTURE_ALPHA64 7
#define PROCESSOR_ARCHITECTURE_MSIL 8
#define PROCESSOR_ARCHITECTURE_AMD64 9
#define PROCESSOR_ARCHITECTURE_UNKNOWN 0xFFFF
//
// Object Type Mask for Kernel Dispatcher Objects
//
#define KOBJECT_TYPE_MASK 0x7F
#define KOBJECT_LOCK_BIT 0x80
//
// Dispatcher Priority increments
//
#define THREAD_ALERT_INCREMENT 2
//
// Physical memory offset of KUSER_SHARED_DATA
//
#define KI_USER_SHARED_DATA_PHYSICAL 0x41000
//
// Quantum values and decrements
//
#define MAX_QUANTUM 0x7F
#define WAIT_QUANTUM_DECREMENT 1
#define CLOCK_QUANTUM_DECREMENT 3
//
// Kernel Feature Bits
//
#define KF_V86_VIS 0x00000001
#define KF_RDTSC 0x00000002
#define KF_CR4 0x00000004
#define KF_CMOV 0x00000008
#define KF_GLOBAL_PAGE 0x00000010
#define KF_LARGE_PAGE 0x00000020
#define KF_MTRR 0x00000040
#define KF_CMPXCHG8B 0x00000080
#define KF_MMX 0x00000100
#define KF_WORKING_PTE 0x00000200
#define KF_PAT 0x00000400
#define KF_FXSR 0x00000800
#define KF_FAST_SYSCALL 0x00001000
#define KF_XMMI 0x00002000
#define KF_3DNOW 0x00004000
#define KF_AMDK6MTRR 0x00008000
#define KF_XMMI64 0x00010000
#define KF_DTS 0x00020000
#define KF_NX_BIT 0x20000000
#define KF_NX_DISABLED 0x40000000
#define KF_NX_ENABLED 0x80000000
//
// Internal Exception Codes
//
#define KI_EXCEPTION_INTERNAL 0x10000000
#define KI_EXCEPTION_ACCESS_VIOLATION (KI_EXCEPTION_INTERNAL | 0x04)
//
// Number of dispatch codes supported by KINTERRUPT
//
#if (NTDDI_VERSION >= NTDDI_LONGHORN)
#define KINTERRUPT_DISPATCH_CODES 135
#else
#define KINTERRUPT_DISPATCH_CODES 106
#endif
#ifdef NTOS_MODE_USER
//
// KPROCESSOR_MODE Type
//
typedef CCHAR KPROCESSOR_MODE;
//
// Dereferencable pointer to KUSER_SHARED_DATA in User-Mode
//
#define SharedUserData ((KUSER_SHARED_DATA *CONST)USER_SHARED_DATA)
//
// Maximum WOW64 Entries in KUSER_SHARED_DATA
//
#define MAX_WOW64_SHARED_ENTRIES 16
//
// Maximum Processor Features supported in KUSER_SHARED_DATA
//
#define PROCESSOR_FEATURE_MAX 64
//
// Event Types
//
typedef enum _EVENT_TYPE
{
NotificationEvent,
SynchronizationEvent
} EVENT_TYPE;
//
// Timer Types
//
typedef enum _TIMER_TYPE
{
NotificationTimer,
SynchronizationTimer
} TIMER_TYPE;
//
// Wait Types
//
typedef enum _WAIT_TYPE
{
WaitAll,
WaitAny
} WAIT_TYPE;
//
// Processor Execution Modes
//
typedef enum _MODE
{
KernelMode,
UserMode,
MaximumMode
} MODE;
//
// Wait Reasons
//
typedef enum _KWAIT_REASON
{
Executive,
FreePage,
PageIn,
PoolAllocation,
DelayExecution,
Suspended,
UserRequest,
WrExecutive,
WrFreePage,
WrPageIn,
WrPoolAllocation,
WrDelayExecution,
WrSuspended,
WrUserRequest,
WrEventPair,
WrQueue,
WrLpcReceive,
WrLpcReply,
WrVirtualMemory,
WrPageOut,
WrRendezvous,
Spare2,
WrGuardedMutex,
Spare4,
Spare5,
Spare6,
WrKernel,
WrResource,
WrPushLock,
WrMutex,
WrQuantumEnd,
WrDispatchInt,
WrPreempted,
WrYieldExecution,
MaximumWaitReason
} KWAIT_REASON;
//
// Profiling Sources
//
typedef enum _KPROFILE_SOURCE
{
ProfileTime,
ProfileAlignmentFixup,
ProfileTotalIssues,
ProfilePipelineDry,
ProfileLoadInstructions,
ProfilePipelineFrozen,
ProfileBranchInstructions,
ProfileTotalNonissues,
ProfileDcacheMisses,
ProfileIcacheMisses,
ProfileCacheMisses,
ProfileBranchMispredictions,
ProfileStoreInstructions,
ProfileFpInstructions,
ProfileIntegerInstructions,
Profile2Issue,
Profile3Issue,
Profile4Issue,
ProfileSpecialInstructions,
ProfileTotalCycles,
ProfileIcacheIssues,
ProfileDcacheAccesses,
ProfileMemoryBarrierCycles,
ProfileLoadLinkedIssues,
ProfileMaximum
} KPROFILE_SOURCE;
//
// NT Product and Architecture Types
//
typedef enum _NT_PRODUCT_TYPE
{
NtProductWinNt = 1,
NtProductLanManNt,
NtProductServer
} NT_PRODUCT_TYPE, *PNT_PRODUCT_TYPE;
typedef enum _ALTERNATIVE_ARCHITECTURE_TYPE
{
StandardDesign,
NEC98x86,
EndAlternatives
} ALTERNATIVE_ARCHITECTURE_TYPE;
#endif
//
// Thread States
//
typedef enum _KTHREAD_STATE
{
Initialized,
Ready,
Running,
Standby,
Terminated,
Waiting,
Transition,
DeferredReady,
#if (NTDDI_VERSION >= NTDDI_WS03)
GateWait
#endif
} KTHREAD_STATE, *PKTHREAD_STATE;
//
// Kernel Object Types
//
typedef enum _KOBJECTS
{
EventNotificationObject = 0,
EventSynchronizationObject = 1,
MutantObject = 2,
ProcessObject = 3,
QueueObject = 4,
SemaphoreObject = 5,
ThreadObject = 6,
GateObject = 7,
TimerNotificationObject = 8,
TimerSynchronizationObject = 9,
Spare2Object = 10,
Spare3Object = 11,
Spare4Object = 12,
Spare5Object = 13,
Spare6Object = 14,
Spare7Object = 15,
Spare8Object = 16,
Spare9Object = 17,
ApcObject = 18,
DpcObject = 19,
DeviceQueueObject = 20,
EventPairObject = 21,
InterruptObject = 22,
ProfileObject = 23,
ThreadedDpcObject = 24,
MaximumKernelObject = 25
} KOBJECTS;
//
// Adjust reasons
//
typedef enum _ADJUST_REASON
{
AdjustNone = 0,
AdjustUnwait = 1,
AdjustBoost = 2
} ADJUST_REASON;
//
// Continue Status
//
typedef enum _KCONTINUE_STATUS
{
ContinueError = 0,
ContinueSuccess,
ContinueProcessorReselected,
ContinueNextProcessor
} KCONTINUE_STATUS;
//
// Process States
//
typedef enum _KPROCESS_STATE
{
ProcessInMemory,
ProcessOutOfMemory,
ProcessInTransition,
ProcessInSwap,
ProcessOutSwap,
} KPROCESS_STATE, *PKPROCESS_STATE;
//
// NtVdmControl Classes
//
typedef enum _VDMSERVICECLASS
{
VdmStartExecution = 0,
VdmQueueInterrupt = 1,
VdmDelayInterrupt = 2,
VdmInitialize = 3,
VdmFeatures = 4,
VdmSetInt21Handler = 5,
VdmQueryDir = 6,
VdmPrinterDirectIoOpen = 7,
VdmPrinterDirectIoClose = 8,
VdmPrinterInitialize = 9,
VdmSetLdtEntries = 10,
VdmSetProcessLdtInfo = 11,
VdmAdlibEmulation = 12,
VdmPMCliControl = 13,
VdmQueryVdmProcess = 14,
} VDMSERVICECLASS;
#ifdef NTOS_MODE_USER
//
// APC Normal Routine
//
typedef VOID
(NTAPI *PKNORMAL_ROUTINE)(
IN PVOID NormalContext,
IN PVOID SystemArgument1,
IN PVOID SystemArgument2
);
//
// Timer Routine
//
typedef VOID
(NTAPI *PTIMER_APC_ROUTINE)(
IN PVOID TimerContext,
IN ULONG TimerLowValue,
IN LONG TimerHighValue
);
//
// System Time Structure
//
typedef struct _KSYSTEM_TIME
{
ULONG LowPart;
LONG High1Time;
LONG High2Time;
} KSYSTEM_TIME, *PKSYSTEM_TIME;
//
// Shared Kernel User Data
//
typedef struct _KUSER_SHARED_DATA
{
ULONG TickCountLowDeprecated;
ULONG TickCountMultiplier;
volatile KSYSTEM_TIME InterruptTime;
volatile KSYSTEM_TIME SystemTime;
volatile KSYSTEM_TIME TimeZoneBias;
USHORT ImageNumberLow;
USHORT ImageNumberHigh;
WCHAR NtSystemRoot[260];
ULONG MaxStackTraceDepth;
ULONG CryptoExponent;
ULONG TimeZoneId;
ULONG LargePageMinimum;
ULONG Reserved2[7];
NT_PRODUCT_TYPE NtProductType;
BOOLEAN ProductTypeIsValid;
ULONG NtMajorVersion;
ULONG NtMinorVersion;
BOOLEAN ProcessorFeatures[PROCESSOR_FEATURE_MAX];
ULONG Reserved1;
ULONG Reserved3;
volatile ULONG TimeSlip;
ALTERNATIVE_ARCHITECTURE_TYPE AlternativeArchitecture;
LARGE_INTEGER SystemExpirationDate;
ULONG SuiteMask;
BOOLEAN KdDebuggerEnabled;
#if (NTDDI_VERSION >= NTDDI_WINXPSP2)
UCHAR NXSupportPolicy;
#endif
volatile ULONG ActiveConsoleId;
volatile ULONG DismountCount;
ULONG ComPlusPackage;
ULONG LastSystemRITEventTickCount;
ULONG NumberOfPhysicalPages;
BOOLEAN SafeBootMode;
ULONG TraceLogging;
ULONG Fill0;
ULONGLONG TestRetInstruction;
ULONG SystemCall;
ULONG SystemCallReturn;
ULONGLONG SystemCallPad[3];
union {
volatile KSYSTEM_TIME TickCount;
volatile ULONG64 TickCountQuad;
};
ULONG Cookie;
#if (NTDDI_VERSION >= NTDDI_WS03)
LONGLONG ConsoleSessionForegroundProcessId;
ULONG Wow64SharedInformation[MAX_WOW64_SHARED_ENTRIES];
#endif
#if (NTDDI_VERSION >= NTDDI_LONGHORN)
USHORT UserModeGlobalLogger[8];
ULONG HeapTracingPid[2];
ULONG CritSecTracingPid[2];
union
{
ULONG SharedDataFlags;
struct
{
ULONG DbgErrorPortPresent:1;
ULONG DbgElevationEnabled:1;
ULONG DbgVirtEnabled:1;
ULONG DbgInstallerDetectEnabled:1;
ULONG SpareBits:28;
};
};
ULONG ImageFileExecutionOptions;
KAFFINITY ActiveProcessorAffinity;
#endif
} KUSER_SHARED_DATA, *PKUSER_SHARED_DATA;
//
// VDM Structures
//
#include "pshpack1.h"
typedef struct _VdmVirtualIca
{
LONG ica_count[8];
LONG ica_int_line;
LONG ica_cpu_int;
USHORT ica_base;
USHORT ica_hipiri;
USHORT ica_mode;
UCHAR ica_master;
UCHAR ica_irr;
UCHAR ica_isr;
UCHAR ica_imr;
UCHAR ica_ssr;
} VDMVIRTUALICA, *PVDMVIRTUALICA;
#include "poppack.h"
typedef struct _VdmIcaUserData
{
PVOID pIcaLock;
PVDMVIRTUALICA pIcaMaster;
PVDMVIRTUALICA pIcaSlave;
PULONG pDelayIrq;
PULONG pUndelayIrq;
PULONG pDelayIret;
PULONG pIretHooked;
PULONG pAddrIretBopTable;
PHANDLE phWowIdleEvent;
PLARGE_INTEGER pIcaTimeout;
PHANDLE phMainThreadSuspended;
} VDMICAUSERDATA, *PVDMICAUSERDATA;
typedef struct _VDM_INITIALIZE_DATA
{
PVOID TrapcHandler;
PVDMICAUSERDATA IcaUserData;
} VDM_INITIALIZE_DATA, *PVDM_INITIALIZE_DATA;
#else
//
// System Thread Start Routine
//
typedef
VOID
(NTAPI *PKSYSTEM_ROUTINE)(
PKSTART_ROUTINE StartRoutine,
PVOID StartContext
);
//
// APC Environment Types
//
typedef enum _KAPC_ENVIRONMENT
{
OriginalApcEnvironment,
AttachedApcEnvironment,
CurrentApcEnvironment,
InsertApcEnvironment
} KAPC_ENVIRONMENT;
//
// CPU Cache Types
//
typedef enum _PROCESSOR_CACHE_TYPE
{
CacheUnified,
CacheInstruction,
CacheData,
CacheTrace,
} PROCESSOR_CACHE_TYPE;
//
// PRCB DPC Data
//
typedef struct _KDPC_DATA
{
LIST_ENTRY DpcListHead;
ULONG_PTR DpcLock;
volatile ULONG DpcQueueDepth;
ULONG DpcCount;
} KDPC_DATA, *PKDPC_DATA;
//
// Per-Processor Lookaside List
//
typedef struct _PP_LOOKASIDE_LIST
{
struct _GENERAL_LOOKASIDE *P;
struct _GENERAL_LOOKASIDE *L;
} PP_LOOKASIDE_LIST, *PPP_LOOKASIDE_LIST;
//
// CPU Cache Descriptor
//
typedef struct _CACHE_DESCRIPTOR
{
UCHAR Level;
UCHAR Associativity;
USHORT LineSize;
ULONG Size;
PROCESSOR_CACHE_TYPE Type;
} CACHE_DESCRIPTOR, *PCACHE_DESCRIPTOR;
//
// Architectural Types
//
#include <arch/ketypes.h>
//
// Kernel Memory Node
//
#include <pshpack1.h>
typedef struct _KNODE
{
SLIST_HEADER DeadStackList;
SLIST_HEADER PfnDereferenceSListHead;
KAFFINITY ProcessorMask;
ULONG Color;
UCHAR Seed;
UCHAR NodeNumber;
ULONG Flags;
ULONG MmShiftedColor;
ULONG FreeCount[2];
struct _SINGLE_LIST_ENTRY *PfnDeferredList;
} KNODE, *PKNODE;
#include <poppack.h>
//
// Kernel Profile Object
//
typedef struct _KPROFILE
{
CSHORT Type;
CSHORT Size;
LIST_ENTRY ProfileListEntry;
struct _KPROCESS *Process;
PVOID RangeBase;
PVOID RangeLimit;
ULONG BucketShift;
PVOID Buffer;
ULONG_PTR Segment;
KAFFINITY Affinity;
KPROFILE_SOURCE Source;
BOOLEAN Started;
} KPROFILE, *PKPROFILE;
//
// Kernel Interrupt Object
//
typedef struct _KINTERRUPT
{
CSHORT Type;
CSHORT Size;
LIST_ENTRY InterruptListEntry;
PKSERVICE_ROUTINE ServiceRoutine;
#if (NTDDI_VERSION >= NTDDI_LONGHORN)
PKSERVICE_ROUTINE MessageServiceRoutine;
ULONG MessageIndex;
#endif
PVOID ServiceContext;
KSPIN_LOCK SpinLock;
ULONG TickCount;
PKSPIN_LOCK ActualLock;
PKINTERRUPT_ROUTINE DispatchAddress;
ULONG Vector;
KIRQL Irql;
KIRQL SynchronizeIrql;
BOOLEAN FloatingSave;
BOOLEAN Connected;
CCHAR Number;
BOOLEAN ShareVector;
KINTERRUPT_MODE Mode;
#if (NTDDI_VERSION >= NTDDI_LONGHORN)
KINTERRUPT_POLARITY Polarity;
#endif
ULONG ServiceCount;
ULONG DispatchCount;
#if (NTDDI_VERSION >= NTDDI_LONGHORN)
ULONGLONG Rsvd1;
#endif
ULONG DispatchCode[KINTERRUPT_DISPATCH_CODES];
} KINTERRUPT;
//
// Kernel Event Pair Object
//
typedef struct _KEVENT_PAIR
{
CSHORT Type;
CSHORT Size;
KEVENT LowEvent;
KEVENT HighEvent;
} KEVENT_PAIR, *PKEVENT_PAIR;
//
// Kernel No Execute Options
//
typedef struct _KEXECUTE_OPTIONS
{
UCHAR ExecuteDisable:1;
UCHAR ExecuteEnable:1;
UCHAR DisableThunkEmulation:1;
UCHAR Permanent:1;
UCHAR ExecuteDispatchEnable:1;
UCHAR ImageDispatchEnable:1;
UCHAR Spare:2;
} KEXECUTE_OPTIONS, *PKEXECUTE_OPTIONS;
//
// Kernel Thread (KTHREAD)
//
typedef struct _KTHREAD
{
DISPATCHER_HEADER DispatcherHeader;
#if (NTDDI_VERSION >= NTDDI_LONGHORN)
ULONGLONG CycleTime;
ULONG HighCycleTime;
ULONGLONG QuantumTarget;
#else
LIST_ENTRY MutantListHead;
#endif
PVOID InitialStack;
ULONG_PTR StackLimit;
PVOID KernelStack;
KSPIN_LOCK ThreadLock;
union
{
KAPC_STATE ApcState;
struct
{
UCHAR ApcStateFill[23];
UCHAR ApcQueueable;
volatile UCHAR NextProcessor;
volatile UCHAR DeferredProcessor;
UCHAR AdjustReason;
SCHAR AdjustIncrement;
};
};
KSPIN_LOCK ApcQueueLock;
ULONG ContextSwitches;
volatile UCHAR State;
UCHAR NpxState;
KIRQL WaitIrql;
KPROCESSOR_MODE WaitMode;
LONG_PTR WaitStatus;
union
{
PKWAIT_BLOCK WaitBlockList;
PKGATE GateObject;
};
#if (NTDDI_VERSION >= NTDDI_LONGHORN)
union
{
struct
{
ULONG KernelStackResident:1;
ULONG ReadyTransition:1;
ULONG ProcessReadyQueue:1;
ULONG WaitNext:1;
ULONG SystemAffinityActive:1;
ULONG Alertable:1;
ULONG GdiFlushActive:1;
ULONG Reserved:25;
};
LONG MiscFlags;
};
#else
BOOLEAN Alertable;
BOOLEAN WaitNext;
#endif
UCHAR WaitReason;
SCHAR Priority;
BOOLEAN EnableStackSwap;
volatile UCHAR SwapBusy;
BOOLEAN Alerted[MaximumMode];
union
{
LIST_ENTRY WaitListEntry;
SINGLE_LIST_ENTRY SwapListEntry;
};
PKQUEUE Queue;
ULONG WaitTime;
union
{
struct
{
SHORT KernelApcDisable;
SHORT SpecialApcDisable;
};
ULONG CombinedApcDisable;
};
struct _TEB *Teb;
union
{
KTIMER Timer;
struct
{
UCHAR TimerFill[40];
union
{
struct
{
LONG AutoAlignment:1;
LONG DisableBoost:1;
#if (NTDDI_VERSION >= NTDDI_LONGHORN)
LONG EtwStackTrace1ApcInserted:1;
LONG EtwStackTrace2ApcInserted:1;
LONG CycleChargePending:1;
LONG ReservedFlags:27;
#else
LONG ReservedFlags:30;
#endif
};
LONG ThreadFlags;
};
};
};
union
{
KWAIT_BLOCK WaitBlock[THREAD_WAIT_OBJECTS + 1];
struct
{
UCHAR WaitBlockFill0[23];
#if (NTDDI_VERSION >= NTDDI_LONGHORN)
UCHAR IdealProcessor;
#else
BOOLEAN SystemAffinityActive;
#endif
};
struct
{
UCHAR WaitBlockFill1[47];
CCHAR PreviousMode;
};
struct
{
UCHAR WaitBlockFill2[71];
UCHAR ResourceIndex;
};
struct
{
UCHAR WaitBlockFill3[95];
UCHAR LargeStack;
};
};
LIST_ENTRY QueueListEntry;
PKTRAP_FRAME TrapFrame;
#if (NTDDI_VERSION >= NTDDI_LONGHORN)
PVOID FirstArgument;
#endif
PVOID CallbackStack;
PVOID ServiceTable;
UCHAR ApcStateIndex;
#if (NTDDI_VERSION < NTDDI_LONGHORN)
UCHAR IdealProcessor;
#endif
BOOLEAN Preempted;
#if (NTDDI_VERSION >= NTDDI_LONGHORN)
BOOLEAN CalloutActive;
#else
BOOLEAN ProcessReadyQueue;
BOOLEAN KernelStackResident;
#endif
SCHAR BasePriority;
SCHAR PriorityDecrement;
CHAR Saturation;
#if (NTDDI_VERSION >= NTDDI_LONGHORN)
ULONG SystemCallNumber;
ULONG Spare2;
#endif
KAFFINITY UserAffinity;
struct _KPROCESS *Process;
KAFFINITY Affinity;
PKAPC_STATE ApcStatePointer[2];
union
{
KAPC_STATE SavedApcState;
struct
{
UCHAR SavedApcStateFill[23];
CCHAR FreezeCount;
CCHAR SuspendCount;
UCHAR UserIdealProcessor;
#if (NTDDI_VERSION >= NTDDI_LONGHORN)
union
{
struct
{
UCHAR ReservedBits0:1;
UCHAR SegmentsPresent:1;
UCHAR Reservedbits1:1;
};
UCHAR NestedStateFlags;
};
#else
UCHAR CalloutActive;
#endif
UCHAR Iopl;
};
};
PVOID Win32Thread;
PVOID StackBase;
union
{
KAPC SuspendApc;
struct
{
UCHAR SuspendApcFill0[1];
SCHAR Quantum;
};
struct
{
UCHAR SuspendApcFill1[3];
UCHAR QuantumReset;
};
struct
{
UCHAR SuspendApcFill2[4];
ULONG KernelTime;
};
struct
{
UCHAR SuspendApcFill3[36];
#if (NTDDI_VERSION >= NTDDI_LONGHORN)
PKPRCB WaitPrcb;
#else
PVOID TlsArray;
#endif
};
struct
{
UCHAR SuspendApcFill4[40];
PVOID LegoData;
};
struct
{
UCHAR SuspendApcFill5[47];
UCHAR PowerState;
ULONG UserTime;
};
};
union
{
KSEMAPHORE SuspendSemaphore;
struct
{
UCHAR SuspendSemaphorefill[20];
ULONG SListFaultCount;
};
};
LIST_ENTRY ThreadListEntry;
#if (NTDDI_VERSION >= NTDDI_LONGHORN)
LIST_ENTRY MutantListHead;
#endif
PVOID SListFaultAddress;
#if (NTDDI_VERSION >= NTDDI_LONGHORN)
PVOID MdlForLockedteb;
#endif
} KTHREAD;
#define ASSERT_THREAD(object) \
ASSERT((((object)->DispatcherHeader.Type & KOBJECT_TYPE_MASK) == ThreadObject))
//
// Kernel Process (KPROCESS)
//
typedef struct _KPROCESS
{
DISPATCHER_HEADER Header;
LIST_ENTRY ProfileListHead;
#if (NTDDI_VERSION >= NTDDI_LONGHORN)
ULONG DirectoryTableBase;
ULONG Unused0;
#else
ULONG DirectoryTableBase[2];
#endif
#if defined(_M_IX86)
KGDTENTRY LdtDescriptor;
KIDTENTRY Int21Descriptor;
USHORT IopmOffset;
UCHAR Iopl;
UCHAR Unused;
#endif
volatile ULONG ActiveProcessors;
ULONG KernelTime;
ULONG UserTime;
LIST_ENTRY ReadyListHead;
SINGLE_LIST_ENTRY SwapListEntry;
PVOID VdmTrapcHandler;
LIST_ENTRY ThreadListHead;
KSPIN_LOCK ProcessLock;
KAFFINITY Affinity;
union
{
struct
{
LONG AutoAlignment:1;
LONG DisableBoost:1;
LONG DisableQuantum:1;
LONG ReservedFlags:29;
};
LONG ProcessFlags;
};
SCHAR BasePriority;
SCHAR QuantumReset;
UCHAR State;
UCHAR ThreadSeed;
UCHAR PowerState;
UCHAR IdealNode;
UCHAR Visited;
union
{
KEXECUTE_OPTIONS Flags;
UCHAR ExecuteOptions;
};
ULONG StackCount;
LIST_ENTRY ProcessListEntry;
#if (NTDDI_VERSION >= NTDDI_LONGHORN)
ULONGLONG CycleTime;
#endif
} KPROCESS;
#define ASSERT_PROCESS(object) \
ASSERT((((object)->Header.Type & KOBJECT_TYPE_MASK) == ProcessObject))
//
// System Service Table Descriptor
//
typedef struct _KSERVICE_TABLE_DESCRIPTOR
{
PULONG_PTR Base;
PULONG Count;
ULONG Limit;
#if defined(_IA64_)
LONG TableBaseGpOffset;
#endif
PUCHAR Number;
} KSERVICE_TABLE_DESCRIPTOR, *PKSERVICE_TABLE_DESCRIPTOR;
//
// Exported Loader Parameter Block
//
extern struct _LOADER_PARAMETER_BLOCK NTSYSAPI *KeLoaderBlock;
//
// Exported Hardware Data
//
extern KAFFINITY NTSYSAPI KeActiveProcessors;
#if (NTDDI_VERSION >= NTDDI_LONGHORN)
extern volatile CCHAR NTSYSAPI KeNumberProcessors;
#else
#if (NTDDI_VERSION >= NTDDI_WINXP)
extern CCHAR NTSYSAPI KeNumberProcessors;
#else
//extern PCCHAR KeNumberProcessors;
extern NTSYSAPI CCHAR KeNumberProcessors; //FIXME: Note to Alex: I won't fix this atm, since I prefer to discuss this with you first.
#endif
#endif
extern ULONG NTSYSAPI KiDmaIoCoherency;
extern ULONG NTSYSAPI KeMaximumIncrement;
extern ULONG NTSYSAPI KeMinimumIncrement;
extern ULONG NTSYSAPI KeDcacheFlushCount;
extern ULONG NTSYSAPI KeIcacheFlushCount;
//
// Exported System Service Descriptor Tables
//
extern KSERVICE_TABLE_DESCRIPTOR NTSYSAPI KeServiceDescriptorTable[SSDT_MAX_ENTRIES];
extern KSERVICE_TABLE_DESCRIPTOR NTSYSAPI KeServiceDescriptorTableShadow[SSDT_MAX_ENTRIES];
#endif // !NTOS_MODE_USER
#endif // _KETYPES_H