Leaked source code of windows server 2003
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/*++
Copyright (c) Microsoft Corporation. All rights reserved.
Module Name:
ntdbg.h
Abstract:
This module contains the public data structures, data types,
and procedures exported by the NT Dbg subsystem.
Revision History:
--*/
#ifndef _NTDBG_
#define _NTDBG_
#if _MSC_VER > 1000
#pragma once
#endif
#ifdef __cplusplus
extern "C" {
#endif
//
// The following are explicitly sized versions of common system
// structures which appear in the kernel debugger API.
//
// All of the debugger structures which are exposed to both
// sides of the KD API are declared below in explicitly sized
// versions as well, with inline converter functions.
//
//
// Macro for sign extending 32 bit addresses into 64 bits
//
#define COPYSE(p64,p32,f) p64->f = (ULONG64)(LONG64)(LONG)p32->f
__inline
void
ExceptionRecord32To64(
IN PEXCEPTION_RECORD32 Ex32,
OUT PEXCEPTION_RECORD64 Ex64
)
{
ULONG i;
Ex64->ExceptionCode = Ex32->ExceptionCode;
Ex64->ExceptionFlags = Ex32->ExceptionFlags;
Ex64->ExceptionRecord = Ex32->ExceptionRecord;
COPYSE(Ex64,Ex32,ExceptionAddress);
Ex64->NumberParameters = Ex32->NumberParameters;
for (i = 0; i < EXCEPTION_MAXIMUM_PARAMETERS; i++) {
COPYSE(Ex64,Ex32,ExceptionInformation[i]);
}
}
__inline
void
ExceptionRecord64To32(
IN PEXCEPTION_RECORD64 Ex64,
OUT PEXCEPTION_RECORD32 Ex32
)
{
ULONG i;
Ex32->ExceptionCode = Ex64->ExceptionCode;
Ex32->ExceptionFlags = Ex64->ExceptionFlags;
Ex32->ExceptionRecord = (ULONG) Ex64->ExceptionRecord;
Ex32->ExceptionAddress = (ULONG) Ex64->ExceptionAddress;
Ex32->NumberParameters = Ex64->NumberParameters;
for (i = 0; i < EXCEPTION_MAXIMUM_PARAMETERS; i++) {
Ex32->ExceptionInformation[i] = (ULONG) Ex64->ExceptionInformation[i];
}
}
//
// DbgKm Apis are from the kernel component (Dbgk) through a process
// debug port.
//
#define DBGKM_MSG_OVERHEAD \
(FIELD_OFFSET(DBGKM_APIMSG, u.Exception) - sizeof(PORT_MESSAGE))
#define DBGKM_API_MSG_LENGTH(TypeSize) \
((sizeof(DBGKM_APIMSG) << 16) | (DBGKM_MSG_OVERHEAD + (TypeSize)))
#define DBGKM_FORMAT_API_MSG(m,Number,TypeSize) \
(m).h.u1.Length = DBGKM_API_MSG_LENGTH((TypeSize)); \
(m).h.u2.ZeroInit = LPC_DEBUG_EVENT; \
(m).ApiNumber = (Number)
typedef enum _DBGKM_APINUMBER {
DbgKmExceptionApi,
DbgKmCreateThreadApi,
DbgKmCreateProcessApi,
DbgKmExitThreadApi,
DbgKmExitProcessApi,
DbgKmLoadDllApi,
DbgKmUnloadDllApi,
DbgKmMaxApiNumber
} DBGKM_APINUMBER;
#if !DBG_NO_PORTABLE_TYPES
typedef struct _DBGKM_EXCEPTION {
EXCEPTION_RECORD ExceptionRecord;
ULONG FirstChance;
} DBGKM_EXCEPTION, *PDBGKM_EXCEPTION;
#endif
typedef struct _DBGKM_EXCEPTION32 {
EXCEPTION_RECORD32 ExceptionRecord;
ULONG FirstChance;
} DBGKM_EXCEPTION32, *PDBGKM_EXCEPTION32;
typedef struct _DBGKM_EXCEPTION64 {
EXCEPTION_RECORD64 ExceptionRecord;
ULONG FirstChance;
} DBGKM_EXCEPTION64, *PDBGKM_EXCEPTION64;
__inline
void
DbgkmException32To64(
IN PDBGKM_EXCEPTION32 E32,
OUT PDBGKM_EXCEPTION64 E64
)
{
ExceptionRecord32To64(&E32->ExceptionRecord, &E64->ExceptionRecord);
E64->FirstChance = E32->FirstChance;
}
__inline
void
DbgkmException64To32(
IN PDBGKM_EXCEPTION64 E64,
OUT PDBGKM_EXCEPTION32 E32
)
{
ExceptionRecord64To32(&E64->ExceptionRecord, &E32->ExceptionRecord);
E32->FirstChance = E64->FirstChance;
}
//
// The DbgSS, DbgKm and DbgSs stuff is not needed in the portable debugger,
// and some of the following types and prototypes use portable types, so just
// turn them all off when building the debugger.
//
#if !DBG_NO_PORTABLE_TYPES
typedef struct _DBGKM_CREATE_THREAD {
ULONG SubSystemKey;
PVOID StartAddress;
} DBGKM_CREATE_THREAD, *PDBGKM_CREATE_THREAD;
typedef struct _DBGKM_CREATE_PROCESS {
ULONG SubSystemKey;
HANDLE FileHandle;
PVOID BaseOfImage;
ULONG DebugInfoFileOffset;
ULONG DebugInfoSize;
DBGKM_CREATE_THREAD InitialThread;
} DBGKM_CREATE_PROCESS, *PDBGKM_CREATE_PROCESS;
typedef struct _DBGKM_EXIT_THREAD {
NTSTATUS ExitStatus;
} DBGKM_EXIT_THREAD, *PDBGKM_EXIT_THREAD;
typedef struct _DBGKM_EXIT_PROCESS {
NTSTATUS ExitStatus;
} DBGKM_EXIT_PROCESS, *PDBGKM_EXIT_PROCESS;
typedef struct _DBGKM_LOAD_DLL {
HANDLE FileHandle;
PVOID BaseOfDll;
ULONG DebugInfoFileOffset;
ULONG DebugInfoSize;
PVOID NamePointer;
} DBGKM_LOAD_DLL, *PDBGKM_LOAD_DLL;
typedef struct _DBGKM_UNLOAD_DLL {
PVOID BaseAddress;
} DBGKM_UNLOAD_DLL, *PDBGKM_UNLOAD_DLL;
typedef struct _DBGKM_APIMSG {
PORT_MESSAGE h;
DBGKM_APINUMBER ApiNumber;
NTSTATUS ReturnedStatus;
union {
DBGKM_EXCEPTION Exception;
DBGKM_CREATE_THREAD CreateThread;
DBGKM_CREATE_PROCESS CreateProcessInfo;
DBGKM_EXIT_THREAD ExitThread;
DBGKM_EXIT_PROCESS ExitProcess;
DBGKM_LOAD_DLL LoadDll;
DBGKM_UNLOAD_DLL UnloadDll;
} u;
} DBGKM_APIMSG, *PDBGKM_APIMSG;
//
// DbgSrv Messages are from Dbg subsystem to emulation subsystem.
// The only defined message at this time is continue
//
#define DBGSRV_MSG_OVERHEAD \
(sizeof(DBGSRV_APIMSG) - sizeof(PORT_MESSAGE))
#define DBGSRV_API_MSG_LENGTH(TypeSize) \
((sizeof(DBGSRV_APIMSG) << 16) | (DBGSRV_MSG_OVERHEAD))
#define DBGSRV_FORMAT_API_MSG(m,Number,TypeSize,CKey) \
(m).h.u1.Length = DBGSRV_API_MSG_LENGTH((TypeSize)); \
(m).h.u2.ZeroInit = 0L; \
(m).ApiNumber = (Number); \
(m).ContinueKey = (PVOID)(CKey)
typedef enum _DBGSRV_APINUMBER {
DbgSrvContinueApi,
DbgSrvMaxApiNumber
} DBGSRV_APINUMBER;
typedef struct _DBGSRV_APIMSG {
PORT_MESSAGE h;
DBGSRV_APINUMBER ApiNumber;
NTSTATUS ReturnedStatus;
PVOID ContinueKey;
} DBGSRV_APIMSG, *PDBGSRV_APIMSG;
//
//
// DbgSs Apis are from the system service emulation subsystems to the Dbg
// subsystem
//
typedef enum _DBG_STATE {
DbgIdle,
DbgReplyPending,
DbgCreateThreadStateChange,
DbgCreateProcessStateChange,
DbgExitThreadStateChange,
DbgExitProcessStateChange,
DbgExceptionStateChange,
DbgBreakpointStateChange,
DbgSingleStepStateChange,
DbgLoadDllStateChange,
DbgUnloadDllStateChange
} DBG_STATE, *PDBG_STATE;
#define DBGSS_MSG_OVERHEAD \
(FIELD_OFFSET(DBGSS_APIMSG, u.Exception) - sizeof(PORT_MESSAGE))
#define DBGSS_API_MSG_LENGTH(TypeSize) \
((sizeof(DBGSS_APIMSG) << 16) | (DBGSS_MSG_OVERHEAD + (TypeSize)))
#define DBGSS_FORMAT_API_MSG(m,Number,TypeSize,pApp,CKey) \
(m).h.u1.Length = DBGSS_API_MSG_LENGTH((TypeSize)); \
(m).h.u2.ZeroInit = 0L; \
(m).ApiNumber = (Number); \
(m).AppClientId = *(pApp); \
(m).ContinueKey = (PVOID)(CKey)
typedef enum _DBGSS_APINUMBER {
DbgSsExceptionApi,
DbgSsCreateThreadApi,
DbgSsCreateProcessApi,
DbgSsExitThreadApi,
DbgSsExitProcessApi,
DbgSsLoadDllApi,
DbgSsUnloadDllApi,
DbgSsMaxApiNumber
} DBGSS_APINUMBER;
typedef struct _DBGSS_CREATE_PROCESS {
CLIENT_ID DebugUiClientId;
DBGKM_CREATE_PROCESS NewProcess;
} DBGSS_CREATE_PROCESS, *PDBGSS_CREATE_PROCESS;
typedef struct _DBGSS_APIMSG {
PORT_MESSAGE h;
DBGKM_APINUMBER ApiNumber;
NTSTATUS ReturnedStatus;
CLIENT_ID AppClientId;
PVOID ContinueKey;
union {
DBGKM_EXCEPTION Exception;
DBGKM_CREATE_THREAD CreateThread;
DBGSS_CREATE_PROCESS CreateProcessInfo;
DBGKM_EXIT_THREAD ExitThread;
DBGKM_EXIT_PROCESS ExitProcess;
DBGKM_LOAD_DLL LoadDll;
DBGKM_UNLOAD_DLL UnloadDll;
} u;
} DBGSS_APIMSG, *PDBGSS_APIMSG;
#define DBGUI_MSG_OVERHEAD \
(FIELD_OFFSET(DBGUI_APIMSG, u.Continue) - sizeof(PORT_MESSAGE))
#define DBGUI_API_MSG_LENGTH(TypeSize) \
((sizeof(DBGUI_APIMSG) << 16) | (DBGUI_MSG_OVERHEAD + (TypeSize)))
#define DBGUI_FORMAT_API_MSG(m,Number,TypeSize) \
(m).h.u1.Length = DBGUI_API_MSG_LENGTH((TypeSize)); \
(m).h.u2.ZeroInit = 0L; \
(m).ApiNumber = (Number)
typedef enum _DBGUI_APINUMBER {
DbgUiWaitStateChangeApi,
DbgUiContinueApi,
DbgUiStopDebugApi,
DbgUiMaxApiNumber
} DBGUI_APINUMBER;
typedef struct _DBGUI_CREATE_THREAD {
HANDLE HandleToThread;
DBGKM_CREATE_THREAD NewThread;
} DBGUI_CREATE_THREAD, *PDBGUI_CREATE_THREAD;
typedef struct _DBGUI_CREATE_PROCESS {
HANDLE HandleToProcess;
HANDLE HandleToThread;
DBGKM_CREATE_PROCESS NewProcess;
} DBGUI_CREATE_PROCESS, *PDBGUI_CREATE_PROCESS;
typedef struct _DBGUI_WAIT_STATE_CHANGE {
DBG_STATE NewState;
CLIENT_ID AppClientId;
union {
DBGKM_EXCEPTION Exception;
DBGUI_CREATE_THREAD CreateThread;
DBGUI_CREATE_PROCESS CreateProcessInfo;
DBGKM_EXIT_THREAD ExitThread;
DBGKM_EXIT_PROCESS ExitProcess;
DBGKM_LOAD_DLL LoadDll;
DBGKM_UNLOAD_DLL UnloadDll;
} StateInfo;
} DBGUI_WAIT_STATE_CHANGE, *PDBGUI_WAIT_STATE_CHANGE;
typedef struct _DBGUI_CONTINUE {
CLIENT_ID AppClientId;
NTSTATUS ContinueStatus;
} DBGUI_CONTINUE, *PDBGUI_CONTINUE;
typedef struct _DBGUI_STOPDEBUG {
ULONG ProcessId;
} DBGUI_STOPDEBUG, *PDBGUI_STOPDEBUG;
typedef struct _DBGUI_APIMSG {
PORT_MESSAGE h;
union {
HANDLE DbgStateChangeSemaphore;
struct {
DBGKM_APINUMBER ApiNumber;
NTSTATUS ReturnedStatus;
union {
DBGUI_CONTINUE Continue;
DBGUI_WAIT_STATE_CHANGE WaitStateChange;
DBGUI_STOPDEBUG StopDebug;
} u;
};
};
} DBGUI_APIMSG, *PDBGUI_APIMSG;
typedef
NTSTATUS
(*PDBGSS_UI_LOOKUP) (
IN PCLIENT_ID AppClientId,
OUT PCLIENT_ID DebugUiClientId
);
typedef
NTSTATUS
(*PDBGSS_DBGKM_APIMSG_FILTER) (
IN OUT PDBGKM_APIMSG ApiMsg
);
typedef
NTSTATUS
(*PDBGSS_SUBSYSTEMKEY_LOOKUP) (
IN PCLIENT_ID AppClientId,
OUT PULONG SubsystemKey,
IN BOOLEAN ProcessKey
);
//
// DbgSs APIs
//
NTSTATUS
NTAPI
DbgSsInitialize(
IN HANDLE KmReplyPort,
IN PDBGSS_UI_LOOKUP UiLookUpRoutine,
IN PDBGSS_SUBSYSTEMKEY_LOOKUP SubsystemKeyLookupRoutine OPTIONAL,
IN PDBGSS_DBGKM_APIMSG_FILTER KmApiMsgFilter OPTIONAL
);
VOID
NTAPI
DbgSsHandleKmApiMsg(
IN PDBGKM_APIMSG ApiMsg,
IN HANDLE ReplyEvent OPTIONAL
);
typedef
NTSTATUS
(*PDBGSS_INITIALIZE_ROUTINE)(
IN HANDLE KmReplyPort,
IN PDBGSS_UI_LOOKUP UiLookUpRoutine,
IN PDBGSS_SUBSYSTEMKEY_LOOKUP SubsystemKeyLookupRoutine OPTIONAL,
IN PDBGSS_DBGKM_APIMSG_FILTER KmApiMsgFilter OPTIONAL
);
typedef
VOID
(*PDBGSS_HANDLE_MSG_ROUTINE)(
IN PDBGKM_APIMSG ApiMsg,
IN HANDLE ReplyEvent OPTIONAL
);
//
// DbgUi APIs
//
NTSTATUS
NTAPI
DbgUiConnectToDbg( VOID );
HANDLE
NTAPI
DbgUiGetThreadDebugObject (
);
VOID
NTAPI
DbgUiSetThreadDebugObject (
IN HANDLE DebugObject
);
NTSTATUS
NTAPI
DbgUiWaitStateChange (
OUT PDBGUI_WAIT_STATE_CHANGE StateChange,
IN PLARGE_INTEGER Timeout OPTIONAL
);
NTSTATUS
NTAPI
DbgUiContinue (
IN PCLIENT_ID AppClientId,
IN NTSTATUS ContinueStatus
);
NTSTATUS
NTAPI
DbgUiStopDebugging (
IN HANDLE Process
);
NTSTATUS
DbgUiDebugActiveProcess (
IN HANDLE Process
);
VOID
DbgUiRemoteBreakin (
IN PVOID Context
);
NTSTATUS
DbgUiIssueRemoteBreakin (
IN HANDLE Process
);
struct _DEBUG_EVENT;
NTSTATUS
DbgUiConvertStateChangeStructure (
IN PDBGUI_WAIT_STATE_CHANGE StateChange,
OUT struct _DEBUG_EVENT *DebugEvent);
#endif // DBG_NO_PORTABLE_TYPES
typedef struct _KAPC_STATE32 {
LIST_ENTRY32 ApcListHead[2];
ULONG Process;
BOOLEAN KernelApcInProgress;
BOOLEAN KernelApcPending;
BOOLEAN UserApcPending;
} KAPC_STATE32;
typedef struct _KAPC_STATE64 {
LIST_ENTRY64 ApcListHead[2];
ULONG64 Process;
BOOLEAN KernelApcInProgress;
BOOLEAN KernelApcPending;
BOOLEAN UserApcPending;
} KAPC_STATE64;
typedef struct _DISPATCHER_HEADER32 {
UCHAR Type;
UCHAR Absolute;
UCHAR Size;
UCHAR Inserted;
LONG SignalState;
LIST_ENTRY32 WaitListHead;
} DISPATCHER_HEADER32;
typedef struct _DISPATCHER_HEADER64 {
UCHAR Type;
UCHAR Absolute;
UCHAR Size;
UCHAR Inserted;
LONG SignalState;
LIST_ENTRY64 WaitListHead;
} DISPATCHER_HEADER64;
typedef struct _KSPIN_LOCK_QUEUE32 {
ULONG Next;
ULONG Lock;
} KSPIN_LOCK_QUEUE32, *PKSPIN_LOCK_QUEUE32;
typedef struct _KSPIN_LOCK_QUEUE64 {
ULONG64 Next;
ULONG64 Lock;
} KSPIN_LOCK_QUEUE64, *PKSPIN_LOCK_QUEUE64;
typedef struct _PP_LOOKASIDE_LIST32 {
ULONG P;
ULONG L;
} PP_LOOKASIDE_LIST32, *PPP_LOOKASIDE_LIST32;
typedef struct _PP_LOOKASIDE_LIST64 {
ULONG P;
ULONG L;
} PP_LOOKASIDE_LIST64, *PPP_LOOKASIDE_LIST64;
#define NT51_POOL_SMALL_LISTS 32
//
// X86 KSWITCHFRAME
//
typedef struct _X86_KSWITCHFRAME {
ULONG ExceptionList;
ULONG Eflags;
ULONG RetAddr;
} X86_KSWITCHFRAME, *PX86_KSWITCHFRAME;
//
// Special Registers for i386
//
typedef struct _X86_DESCRIPTOR {
USHORT Pad;
USHORT Limit;
ULONG Base;
} X86_DESCRIPTOR, *PX86_DESCRIPTOR;
typedef struct _X86_KSPECIAL_REGISTERS {
ULONG Cr0;
ULONG Cr2;
ULONG Cr3;
ULONG Cr4;
ULONG KernelDr0;
ULONG KernelDr1;
ULONG KernelDr2;
ULONG KernelDr3;
ULONG KernelDr6;
ULONG KernelDr7;
X86_DESCRIPTOR Gdtr;
X86_DESCRIPTOR Idtr;
USHORT Tr;
USHORT Ldtr;
ULONG Reserved[6];
} X86_KSPECIAL_REGISTERS, *PX86_KSPECIAL_REGISTERS;
//
// Define the size of the 80387 save area, which is in the context frame.
//
#define X86_SIZE_OF_80387_REGISTERS 80
typedef struct _X86_FLOATING_SAVE_AREA {
ULONG ControlWord;
ULONG StatusWord;
ULONG TagWord;
ULONG ErrorOffset;
ULONG ErrorSelector;
ULONG DataOffset;
ULONG DataSelector;
UCHAR RegisterArea[X86_SIZE_OF_80387_REGISTERS];
ULONG Cr0NpxState;
} X86_FLOATING_SAVE_AREA;
//
// Simulated context structure for the 16-bit environment
//
typedef struct _X86_CONTEXT {
ULONG ContextFlags;
ULONG Dr0;
ULONG Dr1;
ULONG Dr2;
ULONG Dr3;
ULONG Dr6;
ULONG Dr7;
X86_FLOATING_SAVE_AREA FloatSave;
ULONG SegGs;
ULONG SegFs;
ULONG SegEs;
ULONG SegDs;
ULONG Edi;
ULONG Esi;
ULONG Ebx;
ULONG Edx;
ULONG Ecx;
ULONG Eax;
ULONG Ebp;
ULONG Eip;
ULONG SegCs; // MUST BE SANITIZED
ULONG EFlags; // MUST BE SANITIZED
ULONG Esp;
ULONG SegSs;
} X86_CONTEXT, *PX86_CONTEXT;
#define MAXIMUM_SUPPORTED_EXTENSION 512
//
// Define the size of FP registers in the FXSAVE format
//
#define X86_SIZE_OF_FX_REGISTERS 128
typedef struct _X86_FXSAVE_FORMAT {
USHORT ControlWord;
USHORT StatusWord;
USHORT TagWord;
USHORT ErrorOpcode;
ULONG ErrorOffset;
ULONG ErrorSelector;
ULONG DataOffset;
ULONG DataSelector;
ULONG MXCsr;
ULONG Reserved2;
UCHAR RegisterArea[X86_SIZE_OF_FX_REGISTERS];
UCHAR Reserved3[X86_SIZE_OF_FX_REGISTERS];
UCHAR Reserved4[224];
} X86_FXSAVE_FORMAT, *PX86_FXSAVE_FORMAT;
typedef struct _X86_NT5_CONTEXT {
ULONG ContextFlags;
ULONG Dr0;
ULONG Dr1;
ULONG Dr2;
ULONG Dr3;
ULONG Dr6;
ULONG Dr7;
X86_FLOATING_SAVE_AREA FloatSave;
ULONG SegGs;
ULONG SegFs;
ULONG SegEs;
ULONG SegDs;
ULONG Edi;
ULONG Esi;
ULONG Ebx;
ULONG Edx;
ULONG Ecx;
ULONG Eax;
ULONG Ebp;
ULONG Eip;
ULONG SegCs; // MUST BE SANITIZED
ULONG EFlags; // MUST BE SANITIZED
ULONG Esp;
ULONG SegSs;
union {
UCHAR ExtendedRegisters[MAXIMUM_SUPPORTED_EXTENSION];
X86_FXSAVE_FORMAT FxSave;
};
} X86_NT5_CONTEXT, *PX86_NT5_CONTEXT;
typedef struct _ALPHA_CONTEXT {
ULONG FltF0;
ULONG FltF1;
ULONG FltF2;
ULONG FltF3;
ULONG FltF4;
ULONG FltF5;
ULONG FltF6;
ULONG FltF7;
ULONG FltF8;
ULONG FltF9;
ULONG FltF10;
ULONG FltF11;
ULONG FltF12;
ULONG FltF13;
ULONG FltF14;
ULONG FltF15;
ULONG FltF16;
ULONG FltF17;
ULONG FltF18;
ULONG FltF19;
ULONG FltF20;
ULONG FltF21;
ULONG FltF22;
ULONG FltF23;
ULONG FltF24;
ULONG FltF25;
ULONG FltF26;
ULONG FltF27;
ULONG FltF28;
ULONG FltF29;
ULONG FltF30;
ULONG FltF31;
ULONG IntV0; // $0: return value register, v0
ULONG IntT0; // $1: temporary registers, t0 - t7
ULONG IntT1; // $2:
ULONG IntT2; // $3:
ULONG IntT3; // $4:
ULONG IntT4; // $5:
ULONG IntT5; // $6:
ULONG IntT6; // $7:
ULONG IntT7; // $8:
ULONG IntS0; // $9: nonvolatile registers, s0 - s5
ULONG IntS1; // $10:
ULONG IntS2; // $11:
ULONG IntS3; // $12:
ULONG IntS4; // $13:
ULONG IntS5; // $14:
ULONG IntFp; // $15: frame pointer register, fp/s6
ULONG IntA0; // $16: argument registers, a0 - a5
ULONG IntA1; // $17:
ULONG IntA2; // $18:
ULONG IntA3; // $19:
ULONG IntA4; // $20:
ULONG IntA5; // $21:
ULONG IntT8; // $22: temporary registers, t8 - t11
ULONG IntT9; // $23:
ULONG IntT10; // $24:
ULONG IntT11; // $25:
ULONG IntRa; // $26: return address register, ra
ULONG IntT12; // $27: temporary register, t12
ULONG IntAt; // $28: assembler temp register, at
ULONG IntGp; // $29: global pointer register, gp
ULONG IntSp; // $30: stack pointer register, sp
ULONG IntZero; // $31: zero register, zero
ULONG Fpcr; // floating point control register
ULONG SoftFpcr; // software extension to FPCR
ULONG Fir; // (fault instruction) continuation address
ULONG Psr; // processor status
ULONG ContextFlags;
//
// Beginning of the "second half".
// The name "High" parallels the HighPart of a LargeInteger.
//
ULONG HighFltF0;
ULONG HighFltF1;
ULONG HighFltF2;
ULONG HighFltF3;
ULONG HighFltF4;
ULONG HighFltF5;
ULONG HighFltF6;
ULONG HighFltF7;
ULONG HighFltF8;
ULONG HighFltF9;
ULONG HighFltF10;
ULONG HighFltF11;
ULONG HighFltF12;
ULONG HighFltF13;
ULONG HighFltF14;
ULONG HighFltF15;
ULONG HighFltF16;
ULONG HighFltF17;
ULONG HighFltF18;
ULONG HighFltF19;
ULONG HighFltF20;
ULONG HighFltF21;
ULONG HighFltF22;
ULONG HighFltF23;
ULONG HighFltF24;
ULONG HighFltF25;
ULONG HighFltF26;
ULONG HighFltF27;
ULONG HighFltF28;
ULONG HighFltF29;
ULONG HighFltF30;
ULONG HighFltF31;
ULONG HighIntV0; // $0: return value register, v0
ULONG HighIntT0; // $1: temporary registers, t0 - t7
ULONG HighIntT1; // $2:
ULONG HighIntT2; // $3:
ULONG HighIntT3; // $4:
ULONG HighIntT4; // $5:
ULONG HighIntT5; // $6:
ULONG HighIntT6; // $7:
ULONG HighIntT7; // $8:
ULONG HighIntS0; // $9: nonvolatile registers, s0 - s5
ULONG HighIntS1; // $10:
ULONG HighIntS2; // $11:
ULONG HighIntS3; // $12:
ULONG HighIntS4; // $13:
ULONG HighIntS5; // $14:
ULONG HighIntFp; // $15: frame pointer register, fp/s6
ULONG HighIntA0; // $16: argument registers, a0 - a5
ULONG HighIntA1; // $17:
ULONG HighIntA2; // $18:
ULONG HighIntA3; // $19:
ULONG HighIntA4; // $20:
ULONG HighIntA5; // $21:
ULONG HighIntT8; // $22: temporary registers, t8 - t11
ULONG HighIntT9; // $23:
ULONG HighIntT10; // $24:
ULONG HighIntT11; // $25:
ULONG HighIntRa; // $26: return address register, ra
ULONG HighIntT12; // $27: temporary register, t12
ULONG HighIntAt; // $28: assembler temp register, at
ULONG HighIntGp; // $29: global pointer register, gp
ULONG HighIntSp; // $30: stack pointer register, sp
ULONG HighIntZero; // $31: zero register, zero
ULONG HighFpcr; // floating point control register
ULONG HighSoftFpcr; // software extension to FPCR
ULONG HighFir; // processor status
double DoNotUseThisField; // to force quadword structure alignment
ULONG HighFill[2]; // padding for 16-byte stack frame alignment
} ALPHA_CONTEXT, *PALPHA_CONTEXT;
typedef struct _ALPHA_NT5_CONTEXT {
//
// This section is specified/returned if the ContextFlags word contains
// the flag CONTEXT_FLOATING_POINT.
//
ULONGLONG FltF0;
ULONGLONG FltF1;
ULONGLONG FltF2;
ULONGLONG FltF3;
ULONGLONG FltF4;
ULONGLONG FltF5;
ULONGLONG FltF6;
ULONGLONG FltF7;
ULONGLONG FltF8;
ULONGLONG FltF9;
ULONGLONG FltF10;
ULONGLONG FltF11;
ULONGLONG FltF12;
ULONGLONG FltF13;
ULONGLONG FltF14;
ULONGLONG FltF15;
ULONGLONG FltF16;
ULONGLONG FltF17;
ULONGLONG FltF18;
ULONGLONG FltF19;
ULONGLONG FltF20;
ULONGLONG FltF21;
ULONGLONG FltF22;
ULONGLONG FltF23;
ULONGLONG FltF24;
ULONGLONG FltF25;
ULONGLONG FltF26;
ULONGLONG FltF27;
ULONGLONG FltF28;
ULONGLONG FltF29;
ULONGLONG FltF30;
ULONGLONG FltF31;
//
// This section is specified/returned if the ContextFlags word contains
// the flag CONTEXT_INTEGER.
//
// N.B. The registers gp, sp, and ra are defined in this section, but are
// considered part of the control context rather than part of the integer
// context.
//
ULONGLONG IntV0; // $0: return value register, v0
ULONGLONG IntT0; // $1: temporary registers, t0 - t7
ULONGLONG IntT1; // $2:
ULONGLONG IntT2; // $3:
ULONGLONG IntT3; // $4:
ULONGLONG IntT4; // $5:
ULONGLONG IntT5; // $6:
ULONGLONG IntT6; // $7:
ULONGLONG IntT7; // $8:
ULONGLONG IntS0; // $9: nonvolatile registers, s0 - s5
ULONGLONG IntS1; // $10:
ULONGLONG IntS2; // $11:
ULONGLONG IntS3; // $12:
ULONGLONG IntS4; // $13:
ULONGLONG IntS5; // $14:
ULONGLONG IntFp; // $15: frame pointer register, fp/s6
ULONGLONG IntA0; // $16: argument registers, a0 - a5
ULONGLONG IntA1; // $17:
ULONGLONG IntA2; // $18:
ULONGLONG IntA3; // $19:
ULONGLONG IntA4; // $20:
ULONGLONG IntA5; // $21:
ULONGLONG IntT8; // $22: temporary registers, t8 - t11
ULONGLONG IntT9; // $23:
ULONGLONG IntT10; // $24:
ULONGLONG IntT11; // $25:
ULONGLONG IntRa; // $26: return address register, ra
ULONGLONG IntT12; // $27: temporary register, t12
ULONGLONG IntAt; // $28: assembler temp register, at
ULONGLONG IntGp; // $29: global pointer register, gp
ULONGLONG IntSp; // $30: stack pointer register, sp
ULONGLONG IntZero; // $31: zero register, zero
//
// This section is specified/returned if the ContextFlags word contains
// the flag CONTEXT_FLOATING_POINT.
//
ULONGLONG Fpcr; // floating point control register
ULONGLONG SoftFpcr; // software extension to FPCR
//
// This section is specified/returned if the ContextFlags word contains
// the flag CONTEXT_CONTROL.
//
// N.B. The registers gp, sp, and ra are defined in the integer section,
// but are considered part of the control context rather than part of
// the integer context.
//
ULONGLONG Fir; // (fault instruction) continuation address
ULONG Psr; // processor status
//
// The flags values within this flag control the contents of
// a CONTEXT record.
//
// If the context record is used as an input parameter, then
// for each portion of the context record controlled by a flag
// whose value is set, it is assumed that that portion of the
// context record contains valid context. If the context record
// is being used to modify a thread's context, then only that
// portion of the threads context will be modified.
//
// If the context record is used as an IN OUT parameter to capture
// the context of a thread, then only those portions of the thread's
// context corresponding to set flags will be returned.
//
// The context record is never used as an OUT only parameter.
//
ULONG ContextFlags;
ULONG Fill[4]; // padding for 16-byte stack frame alignment
} ALPHA_NT5_CONTEXT, *PALPHA_NT5_CONTEXT;
typedef struct _IA64_KSPECIAL_REGISTERS { // Intel-IA64-Filler
// Kernel debug breakpoint registers // Intel-IA64-Filler
ULONGLONG KernelDbI0; // Instruction debug registers // Intel-IA64-Filler
ULONGLONG KernelDbI1; // Intel-IA64-Filler
ULONGLONG KernelDbI2; // Intel-IA64-Filler
ULONGLONG KernelDbI3; // Intel-IA64-Filler
ULONGLONG KernelDbI4; // Intel-IA64-Filler
ULONGLONG KernelDbI5; // Intel-IA64-Filler
ULONGLONG KernelDbI6; // Intel-IA64-Filler
ULONGLONG KernelDbI7; // Intel-IA64-Filler
ULONGLONG KernelDbD0; // Data debug registers // Intel-IA64-Filler
ULONGLONG KernelDbD1; // Intel-IA64-Filler
ULONGLONG KernelDbD2; // Intel-IA64-Filler
ULONGLONG KernelDbD3; // Intel-IA64-Filler
ULONGLONG KernelDbD4; // Intel-IA64-Filler
ULONGLONG KernelDbD5; // Intel-IA64-Filler
ULONGLONG KernelDbD6; // Intel-IA64-Filler
ULONGLONG KernelDbD7; // Intel-IA64-Filler
// Kernel performance monitor registers // Intel-IA64-Filler
ULONGLONG KernelPfC0; // Performance configuration registers // Intel-IA64-Filler
ULONGLONG KernelPfC1; // Intel-IA64-Filler
ULONGLONG KernelPfC2; // Intel-IA64-Filler
ULONGLONG KernelPfC3; // Intel-IA64-Filler
ULONGLONG KernelPfC4; // Intel-IA64-Filler
ULONGLONG KernelPfC5; // Intel-IA64-Filler
ULONGLONG KernelPfC6; // Intel-IA64-Filler
ULONGLONG KernelPfC7; // Intel-IA64-Filler
ULONGLONG KernelPfD0; // Performance data registers // Intel-IA64-Filler
ULONGLONG KernelPfD1; // Intel-IA64-Filler
ULONGLONG KernelPfD2; // Intel-IA64-Filler
ULONGLONG KernelPfD3; // Intel-IA64-Filler
ULONGLONG KernelPfD4; // Intel-IA64-Filler
ULONGLONG KernelPfD5; // Intel-IA64-Filler
ULONGLONG KernelPfD6; // Intel-IA64-Filler
ULONGLONG KernelPfD7; // Intel-IA64-Filler
// kernel bank shadow (hidden) registers // Intel-IA64-Filler
ULONGLONG IntH16; // Intel-IA64-Filler
ULONGLONG IntH17; // Intel-IA64-Filler
ULONGLONG IntH18; // Intel-IA64-Filler
ULONGLONG IntH19; // Intel-IA64-Filler
ULONGLONG IntH20; // Intel-IA64-Filler
ULONGLONG IntH21; // Intel-IA64-Filler
ULONGLONG IntH22; // Intel-IA64-Filler
ULONGLONG IntH23; // Intel-IA64-Filler
ULONGLONG IntH24; // Intel-IA64-Filler
ULONGLONG IntH25; // Intel-IA64-Filler
ULONGLONG IntH26; // Intel-IA64-Filler
ULONGLONG IntH27; // Intel-IA64-Filler
ULONGLONG IntH28; // Intel-IA64-Filler
ULONGLONG IntH29; // Intel-IA64-Filler
ULONGLONG IntH30; // Intel-IA64-Filler
ULONGLONG IntH31; // Intel-IA64-Filler
// Application Registers // Intel-IA64-Filler
// - CPUID Registers - AR // Intel-IA64-Filler
ULONGLONG ApCPUID0; // Cpuid Register 0 // Intel-IA64-Filler
ULONGLONG ApCPUID1; // Cpuid Register 1 // Intel-IA64-Filler
ULONGLONG ApCPUID2; // Cpuid Register 2 // Intel-IA64-Filler
ULONGLONG ApCPUID3; // Cpuid Register 3 // Intel-IA64-Filler
ULONGLONG ApCPUID4; // Cpuid Register 4 // Intel-IA64-Filler
ULONGLONG ApCPUID5; // Cpuid Register 5 // Intel-IA64-Filler
ULONGLONG ApCPUID6; // Cpuid Register 6 // Intel-IA64-Filler
ULONGLONG ApCPUID7; // Cpuid Register 7 // Intel-IA64-Filler
// - Kernel Registers - AR // Intel-IA64-Filler
ULONGLONG ApKR0; // Kernel Register 0 (User RO) // Intel-IA64-Filler
ULONGLONG ApKR1; // Kernel Register 1 (User RO) // Intel-IA64-Filler
ULONGLONG ApKR2; // Kernel Register 2 (User RO) // Intel-IA64-Filler
ULONGLONG ApKR3; // Kernel Register 3 (User RO) // Intel-IA64-Filler
ULONGLONG ApKR4; // Kernel Register 4 // Intel-IA64-Filler
ULONGLONG ApKR5; // Kernel Register 5 // Intel-IA64-Filler
ULONGLONG ApKR6; // Kernel Register 6 // Intel-IA64-Filler
ULONGLONG ApKR7; // Kernel Register 7 // Intel-IA64-Filler
ULONGLONG ApITC; // Interval Timer Counter // Intel-IA64-Filler
// Global control registers // Intel-IA64-Filler
ULONGLONG ApITM; // Interval Timer Match register // Intel-IA64-Filler
ULONGLONG ApIVA; // Interrupt Vector Address // Intel-IA64-Filler
ULONGLONG ApPTA; // Page Table Address // Intel-IA64-Filler
ULONGLONG ApGPTA; // ia32 Page Table Address // Intel-IA64-Filler
ULONGLONG StISR; // Interrupt status // Intel-IA64-Filler
ULONGLONG StIFA; // Interruption Faulting Address // Intel-IA64-Filler
ULONGLONG StITIR; // Interruption TLB Insertion Register // Intel-IA64-Filler
ULONGLONG StIIPA; // Interruption Instruction Previous Address (RO) // Intel-IA64-Filler
ULONGLONG StIIM; // Interruption Immediate register (RO) // Intel-IA64-Filler
ULONGLONG StIHA; // Interruption Hash Address (RO) // Intel-IA64-Filler
// - External Interrupt control registers (SAPIC) // Intel-IA64-Filler
ULONGLONG SaLID; // Local SAPIC ID // Intel-IA64-Filler
ULONGLONG SaIVR; // Interrupt Vector Register (RO) // Intel-IA64-Filler
ULONGLONG SaTPR; // Task Priority Register // Intel-IA64-Filler
ULONGLONG SaEOI; // End Of Interrupt // Intel-IA64-Filler
ULONGLONG SaIRR0; // Interrupt Request Register 0 (RO) // Intel-IA64-Filler
ULONGLONG SaIRR1; // Interrupt Request Register 1 (RO) // Intel-IA64-Filler
ULONGLONG SaIRR2; // Interrupt Request Register 2 (RO) // Intel-IA64-Filler
ULONGLONG SaIRR3; // Interrupt Request Register 3 (RO) // Intel-IA64-Filler
ULONGLONG SaITV; // Interrupt Timer Vector // Intel-IA64-Filler
ULONGLONG SaPMV; // Performance Monitor Vector // Intel-IA64-Filler
ULONGLONG SaCMCV; // Corrected Machine Check Vector // Intel-IA64-Filler
ULONGLONG SaLRR0; // Local Interrupt Redirection Vector 0 // Intel-IA64-Filler
ULONGLONG SaLRR1; // Local Interrupt Redirection Vector 1 // Intel-IA64-Filler
// System Registers // Intel-IA64-Filler
// - Region registers // Intel-IA64-Filler
ULONGLONG Rr0; // Region register 0 // Intel-IA64-Filler
ULONGLONG Rr1; // Region register 1 // Intel-IA64-Filler
ULONGLONG Rr2; // Region register 2 // Intel-IA64-Filler
ULONGLONG Rr3; // Region register 3 // Intel-IA64-Filler
ULONGLONG Rr4; // Region register 4 // Intel-IA64-Filler
ULONGLONG Rr5; // Region register 5 // Intel-IA64-Filler
ULONGLONG Rr6; // Region register 6 // Intel-IA64-Filler
ULONGLONG Rr7; // Region register 7 // Intel-IA64-Filler
// - Protection Key registers // Intel-IA64-Filler
ULONGLONG Pkr0; // Protection Key register 0 // Intel-IA64-Filler
ULONGLONG Pkr1; // Protection Key register 1 // Intel-IA64-Filler
ULONGLONG Pkr2; // Protection Key register 2 // Intel-IA64-Filler
ULONGLONG Pkr3; // Protection Key register 3 // Intel-IA64-Filler
ULONGLONG Pkr4; // Protection Key register 4 // Intel-IA64-Filler
ULONGLONG Pkr5; // Protection Key register 5 // Intel-IA64-Filler
ULONGLONG Pkr6; // Protection Key register 6 // Intel-IA64-Filler
ULONGLONG Pkr7; // Protection Key register 7 // Intel-IA64-Filler
ULONGLONG Pkr8; // Protection Key register 8 // Intel-IA64-Filler
ULONGLONG Pkr9; // Protection Key register 9 // Intel-IA64-Filler
ULONGLONG Pkr10; // Protection Key register 10 // Intel-IA64-Filler
ULONGLONG Pkr11; // Protection Key register 11 // Intel-IA64-Filler
ULONGLONG Pkr12; // Protection Key register 12 // Intel-IA64-Filler
ULONGLONG Pkr13; // Protection Key register 13 // Intel-IA64-Filler
ULONGLONG Pkr14; // Protection Key register 14 // Intel-IA64-Filler
ULONGLONG Pkr15; // Protection Key register 15 // Intel-IA64-Filler
// - Translation Lookaside buffers // Intel-IA64-Filler
ULONGLONG TrI0; // Instruction Translation Register 0 // Intel-IA64-Filler
ULONGLONG TrI1; // Instruction Translation Register 1 // Intel-IA64-Filler
ULONGLONG TrI2; // Instruction Translation Register 2 // Intel-IA64-Filler
ULONGLONG TrI3; // Instruction Translation Register 3 // Intel-IA64-Filler
ULONGLONG TrI4; // Instruction Translation Register 4 // Intel-IA64-Filler
ULONGLONG TrI5; // Instruction Translation Register 5 // Intel-IA64-Filler
ULONGLONG TrI6; // Instruction Translation Register 6 // Intel-IA64-Filler
ULONGLONG TrI7; // Instruction Translation Register 7 // Intel-IA64-Filler
ULONGLONG TrD0; // Data Translation Register 0 // Intel-IA64-Filler
ULONGLONG TrD1; // Data Translation Register 1 // Intel-IA64-Filler
ULONGLONG TrD2; // Data Translation Register 2 // Intel-IA64-Filler
ULONGLONG TrD3; // Data Translation Register 3 // Intel-IA64-Filler
ULONGLONG TrD4; // Data Translation Register 4 // Intel-IA64-Filler
ULONGLONG TrD5; // Data Translation Register 5 // Intel-IA64-Filler
ULONGLONG TrD6; // Data Translation Register 6 // Intel-IA64-Filler
ULONGLONG TrD7; // Data Translation Register 7 // Intel-IA64-Filler
// - Machine Specific Registers // Intel-IA64-Filler
ULONGLONG SrMSR0; // Machine Specific Register 0 // Intel-IA64-Filler
ULONGLONG SrMSR1; // Machine Specific Register 1 // Intel-IA64-Filler
ULONGLONG SrMSR2; // Machine Specific Register 2 // Intel-IA64-Filler
ULONGLONG SrMSR3; // Machine Specific Register 3 // Intel-IA64-Filler
ULONGLONG SrMSR4; // Machine Specific Register 4 // Intel-IA64-Filler
ULONGLONG SrMSR5; // Machine Specific Register 5 // Intel-IA64-Filler
ULONGLONG SrMSR6; // Machine Specific Register 6 // Intel-IA64-Filler
ULONGLONG SrMSR7; // Machine Specific Register 7 // Intel-IA64-Filler
} IA64_KSPECIAL_REGISTERS, *PIA64_KSPECIAL_REGISTERS; // Intel-IA64-Filler
typedef struct _IA64_CONTEXT {
//
// The flags values within this flag control the contents of
// a CONTEXT record.
//
// If the context record is used as an input parameter, then
// for each portion of the context record controlled by a flag
// whose value is set, it is assumed that that portion of the
// context record contains valid context. If the context record
// is being used to modify a thread's context, then only that
// portion of the threads context will be modified.
//
// If the context record is used as an IN OUT parameter to capture
// the context of a thread, then only those portions of the thread's
// context corresponding to set flags will be returned.
//
// The context record is never used as an OUT only parameter.
//
ULONG ContextFlags;
ULONG Fill1[3]; // for alignment of following on 16-byte boundary
//
// This section is specified/returned if the ContextFlags word contains
// the flag CONTEXT_DEBUG.
//
// N.B. CONTEXT_DEBUG is *not* part of CONTEXT_FULL.
//
ULONGLONG DbI0; // Intel-IA64-Filler
ULONGLONG DbI1; // Intel-IA64-Filler
ULONGLONG DbI2; // Intel-IA64-Filler
ULONGLONG DbI3; // Intel-IA64-Filler
ULONGLONG DbI4; // Intel-IA64-Filler
ULONGLONG DbI5; // Intel-IA64-Filler
ULONGLONG DbI6; // Intel-IA64-Filler
ULONGLONG DbI7; // Intel-IA64-Filler
ULONGLONG DbD0; // Intel-IA64-Filler
ULONGLONG DbD1; // Intel-IA64-Filler
ULONGLONG DbD2; // Intel-IA64-Filler
ULONGLONG DbD3; // Intel-IA64-Filler
ULONGLONG DbD4; // Intel-IA64-Filler
ULONGLONG DbD5; // Intel-IA64-Filler
ULONGLONG DbD6; // Intel-IA64-Filler
ULONGLONG DbD7; // Intel-IA64-Filler
//
// This section is specified/returned if the ContextFlags word contains
// the flag CONTEXT_LOWER_FLOATING_POINT.
//
FLOAT128 FltS0; // Intel-IA64-Filler
FLOAT128 FltS1; // Intel-IA64-Filler
FLOAT128 FltS2; // Intel-IA64-Filler
FLOAT128 FltS3; // Intel-IA64-Filler
FLOAT128 FltT0; // Intel-IA64-Filler
FLOAT128 FltT1; // Intel-IA64-Filler
FLOAT128 FltT2; // Intel-IA64-Filler
FLOAT128 FltT3; // Intel-IA64-Filler
FLOAT128 FltT4; // Intel-IA64-Filler
FLOAT128 FltT5; // Intel-IA64-Filler
FLOAT128 FltT6; // Intel-IA64-Filler
FLOAT128 FltT7; // Intel-IA64-Filler
FLOAT128 FltT8; // Intel-IA64-Filler
FLOAT128 FltT9; // Intel-IA64-Filler
//
// This section is specified/returned if the ContextFlags word contains
// the flag CONTEXT_HIGHER_FLOATING_POINT.
//
FLOAT128 FltS4; // Intel-IA64-Filler
FLOAT128 FltS5; // Intel-IA64-Filler
FLOAT128 FltS6; // Intel-IA64-Filler
FLOAT128 FltS7; // Intel-IA64-Filler
FLOAT128 FltS8; // Intel-IA64-Filler
FLOAT128 FltS9; // Intel-IA64-Filler
FLOAT128 FltS10; // Intel-IA64-Filler
FLOAT128 FltS11; // Intel-IA64-Filler
FLOAT128 FltS12; // Intel-IA64-Filler
FLOAT128 FltS13; // Intel-IA64-Filler
FLOAT128 FltS14; // Intel-IA64-Filler
FLOAT128 FltS15; // Intel-IA64-Filler
FLOAT128 FltS16; // Intel-IA64-Filler
FLOAT128 FltS17; // Intel-IA64-Filler
FLOAT128 FltS18; // Intel-IA64-Filler
FLOAT128 FltS19; // Intel-IA64-Filler
FLOAT128 FltF32; // Intel-IA64-Filler
FLOAT128 FltF33; // Intel-IA64-Filler
FLOAT128 FltF34; // Intel-IA64-Filler
FLOAT128 FltF35; // Intel-IA64-Filler
FLOAT128 FltF36; // Intel-IA64-Filler
FLOAT128 FltF37; // Intel-IA64-Filler
FLOAT128 FltF38; // Intel-IA64-Filler
FLOAT128 FltF39; // Intel-IA64-Filler
FLOAT128 FltF40; // Intel-IA64-Filler
FLOAT128 FltF41; // Intel-IA64-Filler
FLOAT128 FltF42; // Intel-IA64-Filler
FLOAT128 FltF43; // Intel-IA64-Filler
FLOAT128 FltF44; // Intel-IA64-Filler
FLOAT128 FltF45; // Intel-IA64-Filler
FLOAT128 FltF46; // Intel-IA64-Filler
FLOAT128 FltF47; // Intel-IA64-Filler
FLOAT128 FltF48; // Intel-IA64-Filler
FLOAT128 FltF49; // Intel-IA64-Filler
FLOAT128 FltF50; // Intel-IA64-Filler
FLOAT128 FltF51; // Intel-IA64-Filler
FLOAT128 FltF52; // Intel-IA64-Filler
FLOAT128 FltF53; // Intel-IA64-Filler
FLOAT128 FltF54; // Intel-IA64-Filler
FLOAT128 FltF55; // Intel-IA64-Filler
FLOAT128 FltF56; // Intel-IA64-Filler
FLOAT128 FltF57; // Intel-IA64-Filler
FLOAT128 FltF58; // Intel-IA64-Filler
FLOAT128 FltF59; // Intel-IA64-Filler
FLOAT128 FltF60; // Intel-IA64-Filler
FLOAT128 FltF61; // Intel-IA64-Filler
FLOAT128 FltF62; // Intel-IA64-Filler
FLOAT128 FltF63; // Intel-IA64-Filler
FLOAT128 FltF64; // Intel-IA64-Filler
FLOAT128 FltF65; // Intel-IA64-Filler
FLOAT128 FltF66; // Intel-IA64-Filler
FLOAT128 FltF67; // Intel-IA64-Filler
FLOAT128 FltF68; // Intel-IA64-Filler
FLOAT128 FltF69; // Intel-IA64-Filler
FLOAT128 FltF70; // Intel-IA64-Filler
FLOAT128 FltF71; // Intel-IA64-Filler
FLOAT128 FltF72; // Intel-IA64-Filler
FLOAT128 FltF73; // Intel-IA64-Filler
FLOAT128 FltF74; // Intel-IA64-Filler
FLOAT128 FltF75; // Intel-IA64-Filler
FLOAT128 FltF76; // Intel-IA64-Filler
FLOAT128 FltF77; // Intel-IA64-Filler
FLOAT128 FltF78; // Intel-IA64-Filler
FLOAT128 FltF79; // Intel-IA64-Filler
FLOAT128 FltF80; // Intel-IA64-Filler
FLOAT128 FltF81; // Intel-IA64-Filler
FLOAT128 FltF82; // Intel-IA64-Filler
FLOAT128 FltF83; // Intel-IA64-Filler
FLOAT128 FltF84; // Intel-IA64-Filler
FLOAT128 FltF85; // Intel-IA64-Filler
FLOAT128 FltF86; // Intel-IA64-Filler
FLOAT128 FltF87; // Intel-IA64-Filler
FLOAT128 FltF88; // Intel-IA64-Filler
FLOAT128 FltF89; // Intel-IA64-Filler
FLOAT128 FltF90; // Intel-IA64-Filler
FLOAT128 FltF91; // Intel-IA64-Filler
FLOAT128 FltF92; // Intel-IA64-Filler
FLOAT128 FltF93; // Intel-IA64-Filler
FLOAT128 FltF94; // Intel-IA64-Filler
FLOAT128 FltF95; // Intel-IA64-Filler
FLOAT128 FltF96; // Intel-IA64-Filler
FLOAT128 FltF97; // Intel-IA64-Filler
FLOAT128 FltF98; // Intel-IA64-Filler
FLOAT128 FltF99; // Intel-IA64-Filler
FLOAT128 FltF100; // Intel-IA64-Filler
FLOAT128 FltF101; // Intel-IA64-Filler
FLOAT128 FltF102; // Intel-IA64-Filler
FLOAT128 FltF103; // Intel-IA64-Filler
FLOAT128 FltF104; // Intel-IA64-Filler
FLOAT128 FltF105; // Intel-IA64-Filler
FLOAT128 FltF106; // Intel-IA64-Filler
FLOAT128 FltF107; // Intel-IA64-Filler
FLOAT128 FltF108; // Intel-IA64-Filler
FLOAT128 FltF109; // Intel-IA64-Filler
FLOAT128 FltF110; // Intel-IA64-Filler
FLOAT128 FltF111; // Intel-IA64-Filler
FLOAT128 FltF112; // Intel-IA64-Filler
FLOAT128 FltF113; // Intel-IA64-Filler
FLOAT128 FltF114; // Intel-IA64-Filler
FLOAT128 FltF115; // Intel-IA64-Filler
FLOAT128 FltF116; // Intel-IA64-Filler
FLOAT128 FltF117; // Intel-IA64-Filler
FLOAT128 FltF118; // Intel-IA64-Filler
FLOAT128 FltF119; // Intel-IA64-Filler
FLOAT128 FltF120; // Intel-IA64-Filler
FLOAT128 FltF121; // Intel-IA64-Filler
FLOAT128 FltF122; // Intel-IA64-Filler
FLOAT128 FltF123; // Intel-IA64-Filler
FLOAT128 FltF124; // Intel-IA64-Filler
FLOAT128 FltF125; // Intel-IA64-Filler
FLOAT128 FltF126; // Intel-IA64-Filler
FLOAT128 FltF127; // Intel-IA64-Filler
//
// This section is specified/returned if the ContextFlags word contains
// the flag CONTEXT_LOWER_FLOATING_POINT | CONTEXT_HIGHER_FLOATING_POINT | CONTEXT_CONTROL.
//
ULONGLONG StFPSR; // Intel-IA64-Filler ; FP status
//
// This section is specified/returned if the ContextFlags word contains
// the flag CONTEXT_INTEGER.
//
// N.B. The registers gp, sp, rp are part of the control context
//
ULONGLONG IntGp; // Intel-IA64-Filler ; r1, volatile
ULONGLONG IntT0; // Intel-IA64-Filler ; r2-r3, volatile
ULONGLONG IntT1; // Intel-IA64-Filler ;
ULONGLONG IntS0; // Intel-IA64-Filler ; r4-r7, preserved
ULONGLONG IntS1; // Intel-IA64-Filler
ULONGLONG IntS2; // Intel-IA64-Filler
ULONGLONG IntS3; // Intel-IA64-Filler
ULONGLONG IntV0; // Intel-IA64-Filler ; r8, volatile
ULONGLONG IntT2; // Intel-IA64-Filler ; r9-r11, volatile
ULONGLONG IntT3; // Intel-IA64-Filler
ULONGLONG IntT4; // Intel-IA64-Filler
ULONGLONG IntSp; // Intel-IA64-Filler ; stack pointer (r12), special
ULONGLONG IntTeb; // Intel-IA64-Filler ; teb (r13), special
ULONGLONG IntT5; // Intel-IA64-Filler ; r14-r31, volatile
ULONGLONG IntT6; // Intel-IA64-Filler
ULONGLONG IntT7; // Intel-IA64-Filler
ULONGLONG IntT8; // Intel-IA64-Filler
ULONGLONG IntT9; // Intel-IA64-Filler
ULONGLONG IntT10; // Intel-IA64-Filler
ULONGLONG IntT11; // Intel-IA64-Filler
ULONGLONG IntT12; // Intel-IA64-Filler
ULONGLONG IntT13; // Intel-IA64-Filler
ULONGLONG IntT14; // Intel-IA64-Filler
ULONGLONG IntT15; // Intel-IA64-Filler
ULONGLONG IntT16; // Intel-IA64-Filler
ULONGLONG IntT17; // Intel-IA64-Filler
ULONGLONG IntT18; // Intel-IA64-Filler
ULONGLONG IntT19; // Intel-IA64-Filler
ULONGLONG IntT20; // Intel-IA64-Filler
ULONGLONG IntT21; // Intel-IA64-Filler
ULONGLONG IntT22; // Intel-IA64-Filler
ULONGLONG IntNats; // Intel-IA64-Filler ; Nat bits for r1-r31
// Intel-IA64-Filler ; r1-r31 in bits 1 thru 31.
ULONGLONG Preds; // Intel-IA64-Filler ; predicates, preserved
ULONGLONG BrRp; // Intel-IA64-Filler ; return pointer, b0, preserved
ULONGLONG BrS0; // Intel-IA64-Filler ; b1-b5, preserved
ULONGLONG BrS1; // Intel-IA64-Filler
ULONGLONG BrS2; // Intel-IA64-Filler
ULONGLONG BrS3; // Intel-IA64-Filler
ULONGLONG BrS4; // Intel-IA64-Filler
ULONGLONG BrT0; // Intel-IA64-Filler ; b6-b7, volatile
ULONGLONG BrT1; // Intel-IA64-Filler
//
// This section is specified/returned if the ContextFlags word contains
// the flag CONTEXT_CONTROL.
//
// Other application registers
ULONGLONG ApUNAT; // Intel-IA64-Filler ; User Nat collection register, preserved
ULONGLONG ApLC; // Intel-IA64-Filler ; Loop counter register, preserved
ULONGLONG ApEC; // Intel-IA64-Filler ; Epilog counter register, preserved
ULONGLONG ApCCV; // Intel-IA64-Filler ; CMPXCHG value register, volatile
ULONGLONG ApDCR; // Intel-IA64-Filler ; Default control register (TBD)
// Register stack info
ULONGLONG RsPFS; // Intel-IA64-Filler ; Previous function state, preserved
ULONGLONG RsBSP; // Intel-IA64-Filler ; Backing store pointer, preserved
ULONGLONG RsBSPSTORE; // Intel-IA64-Filler
ULONGLONG RsRSC; // Intel-IA64-Filler ; RSE configuration, volatile
ULONGLONG RsRNAT; // Intel-IA64-Filler ; RSE Nat collection register, preserved
// Trap Status Information
ULONGLONG StIPSR; // Intel-IA64-Filler ; Interruption Processor Status
ULONGLONG StIIP; // Intel-IA64-Filler ; Interruption IP
ULONGLONG StIFS; // Intel-IA64-Filler ; Interruption Function State
// iA32 related control registers
ULONGLONG StFCR; // Intel-IA64-Filler ; copy of Ar21
ULONGLONG Eflag; // Intel-IA64-Filler ; Eflag copy of Ar24
ULONGLONG SegCSD; // Intel-IA64-Filler ; iA32 CSDescriptor (Ar25)
ULONGLONG SegSSD; // Intel-IA64-Filler ; iA32 SSDescriptor (Ar26)
ULONGLONG Cflag; // Intel-IA64-Filler ; Cr0+Cr4 copy of Ar27
ULONGLONG StFSR; // Intel-IA64-Filler ; x86 FP status (copy of AR28)
ULONGLONG StFIR; // Intel-IA64-Filler ; x86 FP status (copy of AR29)
ULONGLONG StFDR; // Intel-IA64-Filler ; x86 FP status (copy of AR30)
ULONGLONG UNUSEDPACK; // Intel-IA64-Filler ; added to pack StFDR to 16-bytes
} IA64_CONTEXT, *PIA64_CONTEXT;
//
// Special Registers for AMD64.
//
typedef struct _AMD64_DESCRIPTOR {
USHORT Pad[3];
USHORT Limit;
ULONG64 Base;
} AMD64_DESCRIPTOR, *PAMD64_DESCRIPTOR;
typedef struct _AMD64_KSPECIAL_REGISTERS {
ULONG64 Cr0;
ULONG64 Cr2;
ULONG64 Cr3;
ULONG64 Cr4;
ULONG64 KernelDr0;
ULONG64 KernelDr1;
ULONG64 KernelDr2;
ULONG64 KernelDr3;
ULONG64 KernelDr6;
ULONG64 KernelDr7;
AMD64_DESCRIPTOR Gdtr;
AMD64_DESCRIPTOR Idtr;
USHORT Tr;
USHORT Ldtr;
ULONG MxCsr;
ULONG64 DebugControl;
ULONG64 LastBranchToRip;
ULONG64 LastBranchFromRip;
ULONG64 LastExceptionToRip;
ULONG64 LastExceptionFromRip;
ULONG64 Cr8;
ULONG64 MsrGsBase;
ULONG64 MsrGsSwap;
ULONG64 MsrStar;
ULONG64 MsrLStar;
ULONG64 MsrCStar;
ULONG64 MsrSyscallMask;
} AMD64_KSPECIAL_REGISTERS, *PAMD64_KSPECIAL_REGISTERS;
typedef struct _AMD64_KSWITCH_FRAME {
ULONG64 P1Home;
ULONG64 P2Home;
ULONG64 P3Home;
ULONG64 P4Home;
ULONG64 P5Home;
ULONG MxCsr;
KIRQL ApcBypass;
UCHAR Fill1[3];
ULONG64 Rbp;
ULONG64 Return;
} AMD64_KSWITCH_FRAME, *PAMD64_KSWITCH_FRAME;
//
// Format of data for fnsave/frstor instructions.
//
// This structure is used to store the legacy floating point state.
//
typedef struct _AMD64_LEGACY_SAVE_AREA {
USHORT ControlWord;
USHORT Reserved0;
USHORT StatusWord;
USHORT Reserved1;
USHORT TagWord;
USHORT Reserved2;
ULONG ErrorOffset;
USHORT ErrorSelector;
USHORT ErrorOpcode;
ULONG DataOffset;
USHORT DataSelector;
USHORT Reserved3;
UCHAR FloatRegisters[8 * 10];
} AMD64_LEGACY_SAVE_AREA, *PAMD64_LEGACY_SAVE_AREA;
typedef struct _AMD64_M128 {
ULONGLONG Low;
LONGLONG High;
} AMD64_M128, *PAMD64_M128;
// Must be 16-byte aligned.
typedef struct _AMD64_CONTEXT {
//
// Register parameter home addresses.
//
ULONG64 P1Home;
ULONG64 P2Home;
ULONG64 P3Home;
ULONG64 P4Home;
ULONG64 P5Home;
ULONG64 P6Home;
//
// Control flags.
//
ULONG ContextFlags;
ULONG MxCsr;
//
// Segment Registers and processor flags.
//
USHORT SegCs;
USHORT SegDs;
USHORT SegEs;
USHORT SegFs;
USHORT SegGs;
USHORT SegSs;
ULONG EFlags;
//
// Debug registers
//
ULONG64 Dr0;
ULONG64 Dr1;
ULONG64 Dr2;
ULONG64 Dr3;
ULONG64 Dr6;
ULONG64 Dr7;
//
// Integer registers.
//
ULONG64 Rax;
ULONG64 Rcx;
ULONG64 Rdx;
ULONG64 Rbx;
ULONG64 Rsp;
ULONG64 Rbp;
ULONG64 Rsi;
ULONG64 Rdi;
ULONG64 R8;
ULONG64 R9;
ULONG64 R10;
ULONG64 R11;
ULONG64 R12;
ULONG64 R13;
ULONG64 R14;
ULONG64 R15;
//
// Program counter.
//
ULONG64 Rip;
//
// MMX/floating point state.
//
AMD64_M128 Xmm0;
AMD64_M128 Xmm1;
AMD64_M128 Xmm2;
AMD64_M128 Xmm3;
AMD64_M128 Xmm4;
AMD64_M128 Xmm5;
AMD64_M128 Xmm6;
AMD64_M128 Xmm7;
AMD64_M128 Xmm8;
AMD64_M128 Xmm9;
AMD64_M128 Xmm10;
AMD64_M128 Xmm11;
AMD64_M128 Xmm12;
AMD64_M128 Xmm13;
AMD64_M128 Xmm14;
AMD64_M128 Xmm15;
//
// Legacy floating point state.
//
AMD64_LEGACY_SAVE_AREA FltSave;
ULONG Fill;
//
// Special debug control registers.
//
ULONG64 DebugControl;
ULONG64 LastBranchToRip;
ULONG64 LastBranchFromRip;
ULONG64 LastExceptionToRip;
ULONG64 LastExceptionFromRip;
ULONG64 Fill1;
} AMD64_CONTEXT, *PAMD64_CONTEXT;
typedef struct _ARM_CONTEXT {
//
// The flags values within this flag control the contents of
// a CONTEXT record.
//
// If the context record is used as an input parameter, then
// for each portion of the context record controlled by a flag
// whose value is set, it is assumed that that portion of the
// context record contains valid context. If the context record
// is being used to modify a thread's context, then only that
// portion of the threads context will be modified.
//
// If the context record is used as an IN OUT parameter to capture
// the context of a thread, then only those portions of the thread's
// context corresponding to set flags will be returned.
//
// The context record is never used as an OUT only parameter.
//
ULONG ContextFlags;
//
// This section is specified/returned if the ContextFlags word contains
// the flag CONTEXT_INTEGER.
//
ULONG R0;
ULONG R1;
ULONG R2;
ULONG R3;
ULONG R4;
ULONG R5;
ULONG R6;
ULONG R7;
ULONG R8;
ULONG R9;
ULONG R10;
ULONG R11;
ULONG R12;
//
// This section is specified/returned if the ContextFlags word contains
// the flag CONTEXT_CONTROL.
//
ULONG Sp;
ULONG Lr;
ULONG Pc;
ULONG Psr;
} ARM_CONTEXT, *PARM_CONTEXT;
typedef struct _CROSS_PLATFORM_CONTEXT {
union {
X86_CONTEXT X86Context;
X86_NT5_CONTEXT X86Nt5Context;
ALPHA_CONTEXT AlphaContext;
ALPHA_NT5_CONTEXT AlphaNt5Context;
IA64_CONTEXT IA64Context;
AMD64_CONTEXT Amd64Context;
ARM_CONTEXT ArmContext;
};
} CROSS_PLATFORM_CONTEXT, *PCROSS_PLATFORM_CONTEXT;
typedef struct _CROSS_PLATFORM_KSPECIAL_REGISTERS {
union {
X86_KSPECIAL_REGISTERS X86Special;
IA64_KSPECIAL_REGISTERS IA64Special;
AMD64_KSPECIAL_REGISTERS Amd64Special;
};
} CROSS_PLATFORM_KSPECIAL_REGISTERS, *PCROSS_PLATFORM_KSPECIAL_REGISTERS;
typedef struct _X86_KPROCESSOR_STATE {
struct _X86_CONTEXT ContextFrame;
struct _X86_KSPECIAL_REGISTERS SpecialRegisters;
} X86_KPROCESSOR_STATE, *PX86_KPROCESSOR_STATE;
typedef struct _X86_NT5_KPROCESSOR_STATE {
struct _X86_NT5_CONTEXT ContextFrame;
struct _X86_KSPECIAL_REGISTERS SpecialRegisters;
} X86_NT5_KPROCESSOR_STATE, *PX86_NT5_KPROCESSOR_STATE;
typedef struct _ALPHA_NT5_KPROCESSOR_STATE {
struct _ALPHA_NT5_CONTEXT ContextFrame;
} ALPHA_NT5_KPROCESSOR_STATE, *PALPHA_NT5_KPROCESSOR_STATE;
typedef struct _IA64_KPROCESSOR_STATE {
struct _IA64_CONTEXT ContextFrame;
struct _IA64_KSPECIAL_REGISTERS SpecialRegisters;
} IA64_KPROCESSOR_STATE, *PIA64_KPROCESSOR_STATE;
typedef struct _AMD64_KPROCESSOR_STATE {
struct _AMD64_KSPECIAL_REGISTERS SpecialRegisters;
ULONG64 Fill;
struct _AMD64_CONTEXT ContextFrame;
} AMD64_KPROCESSOR_STATE, *PAMD64_KPROCESSOR_STATE;
typedef struct _X86_FIBER {
ULONG FiberData;
//
// Matches first three DWORDs of TEB
//
ULONG ExceptionList;
ULONG StackBase;
ULONG StackLimit;
//
// Used by base to free a thread's stack
//
ULONG DeallocationStack;
X86_NT5_CONTEXT FiberContext;
ULONG Wx86Tib;
} X86_FIBER, *PX86_FIBER;
typedef struct _IA64_FIBER {
ULONG64 FiberData;
//
// Matches first three DWORDs of TEB
//
ULONG64 ExceptionList;
ULONG64 StackBase;
ULONG64 StackLimit;
//
// Used by base to free a thread's stack
//
ULONG64 DeallocationStack;
IA64_CONTEXT FiberContext;
ULONG64 Wx86Tib;
ULONG64 DeallocationBStore;
ULONG64 BStoreLimit;
} IA64_FIBER, *PIA64_FIBER;
typedef struct _AMD64_FIBER {
ULONG64 FiberData;
//
// Matches first three DWORDs of TEB
//
ULONG64 ExceptionList;
ULONG64 StackBase;
ULONG64 StackLimit;
//
// Used by base to free a thread's stack
//
ULONG64 DeallocationStack;
AMD64_CONTEXT FiberContext;
ULONG64 Wx86Tib;
} AMD64_FIBER, *PAMD64_FIBER;
typedef struct _CROSS_PLATFORM_FIBER {
union {
X86_FIBER X86Fiber;
IA64_FIBER IA64Fiber;
AMD64_FIBER Amd64Fiber;
};
} CROSS_PLATFORM_FIBER, *PCROSS_PLATFORM_FIBER;
#define DBGKD_MAXSTREAM 16
typedef struct _X86_DBGKD_CONTROL_REPORT {
ULONG Dr6;
ULONG Dr7;
USHORT InstructionCount;
USHORT ReportFlags;
UCHAR InstructionStream[DBGKD_MAXSTREAM];
USHORT SegCs;
USHORT SegDs;
USHORT SegEs;
USHORT SegFs;
ULONG EFlags;
} X86_DBGKD_CONTROL_REPORT, *PX86_DBGKD_CONTROL_REPORT;
#define X86_REPORT_INCLUDES_SEGS 0x0001
// Indicates the current CS is a standard 32-bit flat segment.
// This allows the debugger to avoid retrieving the
// CS descriptor to see if it's 16-bit code or not.
// Note that the V86 flag in EFlags must also be checked
// when determining the code type.
#define X86_REPORT_STANDARD_CS 0x0002
typedef struct _ALPHA_DBGKD_CONTROL_REPORT {
ULONG InstructionCount;
UCHAR InstructionStream[DBGKD_MAXSTREAM];
} ALPHA_DBGKD_CONTROL_REPORT, *PALPHA_DBGKD_CONTROL_REPORT;
typedef struct _IA64_DBGKD_CONTROL_REPORT {
ULONG InstructionCount;
UCHAR InstructionStream[DBGKD_MAXSTREAM];
} IA64_DBGKD_CONTROL_REPORT, *PIA64_DBGKD_CONTROL_REPORT;
typedef struct _AMD64_DBGKD_CONTROL_REPORT {
ULONG64 Dr6;
ULONG64 Dr7;
ULONG EFlags;
USHORT InstructionCount;
USHORT ReportFlags;
UCHAR InstructionStream[DBGKD_MAXSTREAM];
USHORT SegCs;
USHORT SegDs;
USHORT SegEs;
USHORT SegFs;
} AMD64_DBGKD_CONTROL_REPORT, *PAMD64_DBGKD_CONTROL_REPORT;
#define AMD64_REPORT_INCLUDES_SEGS 0x0001
// Indicates the current CS is a standard 64-bit flat segment.
// This allows the debugger to avoid retrieving the
// CS descriptor to see if it's 16- or 32-bit code or not.
// Note that the V86 flag in EFlags must also be checked
// when determining the code type.
#define AMD64_REPORT_STANDARD_CS 0x0002
typedef struct _DBGKD_ANY_CONTROL_REPORT
{
union
{
X86_DBGKD_CONTROL_REPORT X86ControlReport;
ALPHA_DBGKD_CONTROL_REPORT AlphaControlReport;
IA64_DBGKD_CONTROL_REPORT IA64ControlReport;
AMD64_DBGKD_CONTROL_REPORT Amd64ControlReport;
};
} DBGKD_ANY_CONTROL_REPORT, *PDBGKD_ANY_CONTROL_REPORT;
// DBGKD_ANY_CONTROL_SET is 32-bit packed with an NTSTATUS in
// DBGKD_CONTINUE2 so start with a 32-bit value to get the 64-bit
// values aligned.
#include <pshpack4.h>
typedef struct _X86_DBGKD_CONTROL_SET {
ULONG TraceFlag;
ULONG Dr7;
ULONG CurrentSymbolStart;
ULONG CurrentSymbolEnd;
} X86_DBGKD_CONTROL_SET, *PX86_DBGKD_CONTROL_SET;
typedef ULONG ALPHA_DBGKD_CONTROL_SET, *PALPHA_DBGKD_CONTROL_SET;
#define IA64_DBGKD_CONTROL_SET_CONTINUE_NONE 0x0000
#define IA64_DBGKD_CONTROL_SET_CONTINUE_TRACE_INSTRUCTION 0x0001
#define IA64_DBGKD_CONTROL_SET_CONTINUE_TRACE_TAKEN_BRANCH 0x0002
typedef struct _IA64_DBGKD_CONTROL_SET {
ULONG Continue;
ULONG64 CurrentSymbolStart;
ULONG64 CurrentSymbolEnd;
} IA64_DBGKD_CONTROL_SET, *PIA64_DBGKD_CONTROL_SET;
typedef struct _AMD64_DBGKD_CONTROL_SET {
ULONG TraceFlag;
ULONG64 Dr7;
ULONG64 CurrentSymbolStart;
ULONG64 CurrentSymbolEnd;
} AMD64_DBGKD_CONTROL_SET, *PAMD64_DBGKD_CONTROL_SET;
typedef struct _DBGKD_ANY_CONTROL_SET
{
union
{
X86_DBGKD_CONTROL_SET X86ControlSet;
ALPHA_DBGKD_CONTROL_SET AlphaControlSet;
IA64_DBGKD_CONTROL_SET IA64ControlSet;
AMD64_DBGKD_CONTROL_SET Amd64ControlSet;
};
} DBGKD_ANY_CONTROL_SET, *PDBGKD_ANY_CONTROL_SET;
#include <poppack.h>
//
// Deferred Procedure Call (DPC) object
//
typedef struct _KDPC32 {
CSHORT Type;
UCHAR Number;
UCHAR Importance;
LIST_ENTRY32 DpcListEntry;
ULONG DeferredRoutine;
ULONG DeferredContext;
ULONG SystemArgument1;
ULONG SystemArgument2;
ULONG Lock;
} KDPC32;
typedef struct _KDPC64 {
CSHORT Type;
UCHAR Number;
UCHAR Importance;
LIST_ENTRY64 DpcListEntry;
ULONG64 DeferredRoutine;
ULONG64 DeferredContext;
ULONG64 SystemArgument1;
ULONG64 SystemArgument2;
ULONG64 Lock;
} KDPC64;
#define X86_MAX_RING 3
typedef struct _X86_KTSS {
// Intel's TSS format
ULONG Previous;
struct
{
ULONG Esp;
ULONG Ss;
} Ring[X86_MAX_RING];
ULONG Cr3;
ULONG Eip;
ULONG EFlags;
ULONG Eax;
ULONG Ecx;
ULONG Edx;
ULONG Ebx;
ULONG Esp;
ULONG Ebp;
ULONG Esi;
ULONG Edi;
ULONG Es;
ULONG Cs;
ULONG Ss;
ULONG Ds;
ULONG Fs;
ULONG Gs;
ULONG Ldt;
USHORT T;
USHORT IoMapBase;
} X86_KTSS, *PX86_KTSS;
//
// LDT descriptor entry
//
typedef struct _X86_LDT_ENTRY {
USHORT LimitLow;
USHORT BaseLow;
union {
struct {
UCHAR BaseMid;
UCHAR Flags1; // Declare as bytes to avoid alignment
UCHAR Flags2; // Problems.
UCHAR BaseHi;
} Bytes;
struct {
ULONG BaseMid : 8;
ULONG Type : 5;
ULONG Dpl : 2;
ULONG Pres : 1;
ULONG LimitHi : 4;
ULONG Sys : 1;
ULONG Reserved_0 : 1;
ULONG Default_Big : 1;
ULONG Granularity : 1;
ULONG BaseHi : 8;
} Bits;
} HighWord;
} X86_LDT_ENTRY, *PX86_LDT_ENTRY;
typedef struct _X86_DESCRIPTOR_TABLE_ENTRY {
ULONG Selector;
X86_LDT_ENTRY Descriptor;
} X86_DESCRIPTOR_TABLE_ENTRY, *PX86_DESCRIPTOR_TABLE_ENTRY;
typedef struct _X86_KTRAP_FRAME {
//
// Following 4 values are only used and defined for DBG systems,
// but are always allocated to make switching from DBG to non-DBG
// and back quicker. They are not DEVL because they have a non-0
// performance impact.
//
ULONG DbgEbp; // Copy of User EBP set up so KB will work.
ULONG DbgEip; // EIP of caller to system call, again, for KB.
ULONG DbgArgMark; // Marker to show no args here.
ULONG DbgArgPointer; // Pointer to the actual args
//
// Temporary values used when frames are edited.
//
//
// NOTE: Any code that want's ESP must materialize it, since it
// is not stored in the frame for kernel mode callers.
//
// And code that sets ESP in a KERNEL mode frame, must put
// the new value in TempEsp, make sure that TempSegCs holds
// the real SegCs value, and put a special marker value into SegCs.
//
ULONG TempSegCs;
ULONG TempEsp;
//
// Debug registers.
//
ULONG Dr0;
ULONG Dr1;
ULONG Dr2;
ULONG Dr3;
ULONG Dr6;
ULONG Dr7;
//
// Segment registers
//
ULONG SegGs;
ULONG SegEs;
ULONG SegDs;
//
// Volatile registers
//
ULONG Edx;
ULONG Ecx;
ULONG Eax;
//
// Nesting state, not part of context record
//
ULONG PreviousPreviousMode;
ULONG ExceptionList;
// Trash if caller was user mode.
// Saved exception list if caller
// was kernel mode or we're in
// an interrupt.
//
// FS is TIB/PCR pointer, is here to make save sequence easy
//
ULONG SegFs;
//
// Non-volatile registers
//
ULONG Edi;
ULONG Esi;
ULONG Ebx;
ULONG Ebp;
//
// Control registers
//
ULONG ErrCode;
ULONG Eip;
ULONG SegCs;
ULONG EFlags;
ULONG HardwareEsp; // WARNING - segSS:esp are only here for stacks
ULONG HardwareSegSs; // that involve a ring transition.
ULONG V86Es; // these will be present for all transitions from
ULONG V86Ds; // V86 mode
ULONG V86Fs;
ULONG V86Gs;
} X86_KTRAP_FRAME, *PX86_KTRAP_FRAME;
typedef struct _AMD64_KTRAP_FRAME {
//
// Home address for the parameter registers.
//
ULONG64 P1Home;
ULONG64 P2Home;
ULONG64 P3Home;
ULONG64 P4Home;
ULONG64 P5;
//
// Previous processor mode (system services only) and previous IRQL
// (interrupts only).
//
CCHAR PreviousMode;
KIRQL PreviousIrql;
//
// Page fault load/store indicator.
//
UCHAR FaultIndicator;
UCHAR Fill0;
//
// Floating point state.
//
ULONG MxCsr;
//
// Volatile registers.
//
// N.B. These registers are only saved on exceptions and interrupts. They
// are not saved for system calls.
//
ULONG64 Rax;
ULONG64 Rcx;
ULONG64 Rdx;
ULONG64 R8;
ULONG64 R9;
ULONG64 R10;
ULONG64 R11;
ULONG64 Spare0;
//
// Volatile floating registers.
//
// N.B. These registers are only saved on exceptions and interrupts. They
// are not saved for system calls.
//
AMD64_M128 Xmm0;
AMD64_M128 Xmm1;
AMD64_M128 Xmm2;
AMD64_M128 Xmm3;
AMD64_M128 Xmm4;
AMD64_M128 Xmm5;
//
// Page fault address.
//
ULONG64 FaultAddress;
//
// Debug registers.
//
ULONG64 Dr0;
ULONG64 Dr1;
ULONG64 Dr2;
ULONG64 Dr3;
ULONG64 Dr6;
ULONG64 Dr7;
//
// Special debug registers.
//
ULONG64 DebugControl;
ULONG64 LastBranchToRip;
ULONG64 LastBranchFromRip;
ULONG64 LastExceptionToRip;
ULONG64 LastExceptionFromRip;
//
// Segment registers
//
USHORT SegDs;
USHORT SegEs;
USHORT SegFs;
USHORT SegGs;
//
// Previous trap frame address.
//
ULONG64 TrapFrame;
//
// Saved nonvolatile registers RBX, RDI and RSI. These registers are only
// saved in system service trap frames.
//
ULONG64 Rbx;
ULONG64 Rdi;
ULONG64 Rsi;
//
// Saved nonvolatile register RBP. This register is used as a frame
// pointer during trap processing and is saved in all trap frames.
//
ULONG64 Rbp;
//
// Information pushed by hardware.
//
// N.B. The error code is not always pushed by hardware. For those cases
// where it is not pushed by hardware a dummy error code is allocated
// on the stack.
//
ULONG64 ErrorCode;
ULONG64 Rip;
USHORT SegCs;
USHORT Fill1[3];
ULONG EFlags;
ULONG Fill2;
ULONG64 Rsp;
USHORT SegSs;
USHORT Fill3[3];
} AMD64_KTRAP_FRAME, *PAMD64_KTRAP_FRAME;
typedef struct _IA64_KNONVOLATILE_CONTEXT_POINTERS {
PFLOAT128 FltS0; // Intel-IA64-Filler
PFLOAT128 FltS1; // Intel-IA64-Filler
PFLOAT128 FltS2; // Intel-IA64-Filler
PFLOAT128 FltS3; // Intel-IA64-Filler
PFLOAT128 HighFloatingContext[10]; // Intel-IA64-Filler
PFLOAT128 FltS4; // Intel-IA64-Filler
PFLOAT128 FltS5; // Intel-IA64-Filler
PFLOAT128 FltS6; // Intel-IA64-Filler
PFLOAT128 FltS7; // Intel-IA64-Filler
PFLOAT128 FltS8; // Intel-IA64-Filler
PFLOAT128 FltS9; // Intel-IA64-Filler
PFLOAT128 FltS10; // Intel-IA64-Filler
PFLOAT128 FltS11; // Intel-IA64-Filler
PFLOAT128 FltS12; // Intel-IA64-Filler
PFLOAT128 FltS13; // Intel-IA64-Filler
PFLOAT128 FltS14; // Intel-IA64-Filler
PFLOAT128 FltS15; // Intel-IA64-Filler
PFLOAT128 FltS16; // Intel-IA64-Filler
PFLOAT128 FltS17; // Intel-IA64-Filler
PFLOAT128 FltS18; // Intel-IA64-Filler
PFLOAT128 FltS19; // Intel-IA64-Filler
PULONGLONG IntS0; // Intel-IA64-Filler
PULONGLONG IntS1; // Intel-IA64-Filler
PULONGLONG IntS2; // Intel-IA64-Filler
PULONGLONG IntS3; // Intel-IA64-Filler
PULONGLONG IntSp; // Intel-IA64-Filler
PULONGLONG IntS0Nat; // Intel-IA64-Filler
PULONGLONG IntS1Nat; // Intel-IA64-Filler
PULONGLONG IntS2Nat; // Intel-IA64-Filler
PULONGLONG IntS3Nat; // Intel-IA64-Filler
PULONGLONG IntSpNat; // Intel-IA64-Filler
PULONGLONG Preds; // Intel-IA64-Filler
PULONGLONG BrRp; // Intel-IA64-Filler
PULONGLONG BrS0; // Intel-IA64-Filler
PULONGLONG BrS1; // Intel-IA64-Filler
PULONGLONG BrS2; // Intel-IA64-Filler
PULONGLONG BrS3; // Intel-IA64-Filler
PULONGLONG BrS4; // Intel-IA64-Filler
PULONGLONG ApUNAT; // Intel-IA64-Filler
PULONGLONG ApLC; // Intel-IA64-Filler
PULONGLONG ApEC; // Intel-IA64-Filler
PULONGLONG RsPFS; // Intel-IA64-Filler
PULONGLONG StFSR; // Intel-IA64-Filler
PULONGLONG StFIR; // Intel-IA64-Filler
PULONGLONG StFDR; // Intel-IA64-Filler
PULONGLONG Cflag; // Intel-IA64-Filler
} IA64_KNONVOLATILE_CONTEXT_POINTERS, *PIA64_KNONVOLATILE_CONTEXT_POINTERS;
typedef struct _IA64_KEXCEPTION_FRAME {
// Preserved application registers // Intel-IA64-Filler
ULONGLONG ApEC; // epilogue count // Intel-IA64-Filler
ULONGLONG ApLC; // loop count // Intel-IA64-Filler
ULONGLONG IntNats; // Nats for S0-S3; i.e. ar.UNAT after spill // Intel-IA64-Filler
// Preserved (saved) interger registers, s0-s3 // Intel-IA64-Filler
ULONGLONG IntS0; // Intel-IA64-Filler
ULONGLONG IntS1; // Intel-IA64-Filler
ULONGLONG IntS2; // Intel-IA64-Filler
ULONGLONG IntS3; // Intel-IA64-Filler
// Preserved (saved) branch registers, bs0-bs4 // Intel-IA64-Filler
ULONGLONG BrS0; // Intel-IA64-Filler
ULONGLONG BrS1; // Intel-IA64-Filler
ULONGLONG BrS2; // Intel-IA64-Filler
ULONGLONG BrS3; // Intel-IA64-Filler
ULONGLONG BrS4; // Intel-IA64-Filler
// Preserved (saved) floating point registers, f2 - f5, f16 - f31 // Intel-IA64-Filler
FLOAT128 FltS0; // Intel-IA64-Filler
FLOAT128 FltS1; // Intel-IA64-Filler
FLOAT128 FltS2; // Intel-IA64-Filler
FLOAT128 FltS3; // Intel-IA64-Filler
FLOAT128 FltS4; // Intel-IA64-Filler
FLOAT128 FltS5; // Intel-IA64-Filler
FLOAT128 FltS6; // Intel-IA64-Filler
FLOAT128 FltS7; // Intel-IA64-Filler
FLOAT128 FltS8; // Intel-IA64-Filler
FLOAT128 FltS9; // Intel-IA64-Filler
FLOAT128 FltS10; // Intel-IA64-Filler
FLOAT128 FltS11; // Intel-IA64-Filler
FLOAT128 FltS12; // Intel-IA64-Filler
FLOAT128 FltS13; // Intel-IA64-Filler
FLOAT128 FltS14; // Intel-IA64-Filler
FLOAT128 FltS15; // Intel-IA64-Filler
FLOAT128 FltS16; // Intel-IA64-Filler
FLOAT128 FltS17; // Intel-IA64-Filler
FLOAT128 FltS18; // Intel-IA64-Filler
FLOAT128 FltS19; // Intel-IA64-Filler
} IA64_KEXCEPTION_FRAME, *PIA64_KEXCEPTION_FRAME;
typedef struct _IA64_KSWITCH_FRAME { // Intel-IA64-Filler
ULONGLONG SwitchPredicates; // Predicates for Switch // Intel-IA64-Filler
ULONGLONG SwitchRp; // return pointer for Switch // Intel-IA64-Filler
ULONGLONG SwitchPFS; // PFS for Switch // Intel-IA64-Filler
ULONGLONG SwitchFPSR; // ProcessorFP status at thread switch // Intel-IA64-Filler
ULONGLONG SwitchBsp; // Intel-IA64-Filler
ULONGLONG SwitchRnat; // Intel-IA64-Filler
// ULONGLONG Pad;
IA64_KEXCEPTION_FRAME SwitchExceptionFrame; // Intel-IA64-Filler
} IA64_KSWITCH_FRAME, *PIA64_KSWITCH_FRAME; // Intel-IA64-Filler
#define IA64_KTRAP_FRAME_ARGUMENTS (8 * 8) // up to 8 in-memory syscall args // Intel-IA64-Filler
typedef struct _IA64_KTRAP_FRAME {
//
// Reserved for additional memory arguments and stack scratch area
// The size of Reserved[] must be a multiple of 16 bytes.
//
ULONGLONG Reserved[(IA64_KTRAP_FRAME_ARGUMENTS+16)/8]; // Intel-IA64-Filler
// Temporary (volatile) FP registers - f6-f15 (don't use f32+ in kernel) // Intel-IA64-Filler
FLOAT128 FltT0; // Intel-IA64-Filler
FLOAT128 FltT1; // Intel-IA64-Filler
FLOAT128 FltT2; // Intel-IA64-Filler
FLOAT128 FltT3; // Intel-IA64-Filler
FLOAT128 FltT4; // Intel-IA64-Filler
FLOAT128 FltT5; // Intel-IA64-Filler
FLOAT128 FltT6; // Intel-IA64-Filler
FLOAT128 FltT7; // Intel-IA64-Filler
FLOAT128 FltT8; // Intel-IA64-Filler
FLOAT128 FltT9; // Intel-IA64-Filler
// Temporary (volatile) interger registers
ULONGLONG IntGp; // global pointer (r1) // Intel-IA64-Filler
ULONGLONG IntT0; // Intel-IA64-Filler
ULONGLONG IntT1; // Intel-IA64-Filler
// The following 4 registers fill in space of preserved (S0-S3) to align Nats // Intel-IA64-Filler
ULONGLONG ApUNAT; // ar.UNAT on kernel entry // Intel-IA64-Filler
ULONGLONG ApCCV; // ar.CCV // Intel-IA64-Filler
ULONGLONG ApDCR; // DCR register on kernel entry // Intel-IA64-Filler
ULONGLONG Preds; // Predicates // Intel-IA64-Filler
ULONGLONG IntV0; // return value (r8) // Intel-IA64-Filler
ULONGLONG IntT2; // Intel-IA64-Filler
ULONGLONG IntT3; // Intel-IA64-Filler
ULONGLONG IntT4; // Intel-IA64-Filler
ULONGLONG IntSp; // stack pointer (r12) // Intel-IA64-Filler
ULONGLONG IntTeb; // teb (r13) // Intel-IA64-Filler
ULONGLONG IntT5; // Intel-IA64-Filler
ULONGLONG IntT6; // Intel-IA64-Filler
ULONGLONG IntT7; // Intel-IA64-Filler
ULONGLONG IntT8; // Intel-IA64-Filler
ULONGLONG IntT9; // Intel-IA64-Filler
ULONGLONG IntT10; // Intel-IA64-Filler
ULONGLONG IntT11; // Intel-IA64-Filler
ULONGLONG IntT12; // Intel-IA64-Filler
ULONGLONG IntT13; // Intel-IA64-Filler
ULONGLONG IntT14; // Intel-IA64-Filler
ULONGLONG IntT15; // Intel-IA64-Filler
ULONGLONG IntT16; // Intel-IA64-Filler
ULONGLONG IntT17; // Intel-IA64-Filler
ULONGLONG IntT18; // Intel-IA64-Filler
ULONGLONG IntT19; // Intel-IA64-Filler
ULONGLONG IntT20; // Intel-IA64-Filler
ULONGLONG IntT21; // Intel-IA64-Filler
ULONGLONG IntT22; // Intel-IA64-Filler
ULONGLONG IntNats; // Temporary (volatile) registers' Nats directly from ar.UNAT at point of spill // Intel-IA64-Filler
ULONGLONG BrRp; // Return pointer on kernel entry // Intel-IA64-Filler
ULONGLONG BrT0; // Temporary (volatile) branch registers (b6-b7) // Intel-IA64-Filler
ULONGLONG BrT1; // Intel-IA64-Filler
// Register stack info // Intel-IA64-Filler
ULONGLONG RsRSC; // RSC on kernel entry // Intel-IA64-Filler
ULONGLONG RsBSP; // BSP on kernel entry // Intel-IA64-Filler
ULONGLONG RsBSPSTORE; // User BSP Store at point of switch to kernel backing store // Intel-IA64-Filler
ULONGLONG RsRNAT; // old RNAT at point of switch to kernel backing store // Intel-IA64-Filler
ULONGLONG RsPFS; // PFS on kernel entry // Intel-IA64-Filler
// Trap Status Information // Intel-IA64-Filler
ULONGLONG StIPSR; // Interruption Processor Status Register // Intel-IA64-Filler
ULONGLONG StIIP; // Interruption IP // Intel-IA64-Filler
ULONGLONG StIFS; // Interruption Function State // Intel-IA64-Filler
ULONGLONG StFPSR; // FP status // Intel-IA64-Filler
ULONGLONG StISR; // Interruption Status Register // Intel-IA64-Filler
ULONGLONG StIFA; // Interruption Data Address // Intel-IA64-Filler
ULONGLONG StIIPA; // Last executed bundle address // Intel-IA64-Filler
ULONGLONG StIIM; // Interruption Immediate // Intel-IA64-Filler
ULONGLONG StIHA; // Interruption Hash Address // Intel-IA64-Filler
ULONG OldIrql; // Previous Irql. // Intel-IA64-Filler
ULONG PreviousMode; // Previous Mode. // Intel-IA64-Filler
ULONGLONG TrapFrame;// Previous Trap Frame // Intel-IA64-Filler
// Exception record
UCHAR ExceptionRecord[(sizeof(EXCEPTION_RECORD64) + 15) & (~15)];
// End of frame marker (for debugging)
ULONGLONG Handler; // Handler for this trap
ULONGLONG EOFMarker;
} IA64_KTRAP_FRAME, *PIA64_KTRAP_FRAME;
typedef struct _IA64_UNWIND_INFO { // Intel-IA64-Filler
USHORT Version; // Intel-IA64-Filler ; Version Number
USHORT Flags; // Intel-IA64-Filler ; Flags
ULONG DataLength; // Intel-IA64-Filler ; Length of Descriptor Data
} IA64_UNWIND_INFO, *PIA64_UNWIND_INFO; // Intel-IA64-Filler
//
// Define unwind operation codes.
//
typedef enum _AMD64_UNWIND_OP_CODES {
AMD64_UWOP_PUSH_NONVOL = 0,
AMD64_UWOP_ALLOC_LARGE,
AMD64_UWOP_ALLOC_SMALL,
AMD64_UWOP_SET_FPREG,
AMD64_UWOP_SAVE_NONVOL,
AMD64_UWOP_SAVE_NONVOL_FAR,
AMD64_UWOP_SAVE_XMM,
AMD64_UWOP_SAVE_XMM_FAR,
AMD64_UWOP_SAVE_XMM128,
AMD64_UWOP_SAVE_XMM128_FAR,
AMD64_UWOP_PUSH_MACHFRAME
} AMD64_UNWIND_OP_CODES, *PAMD64_UNWIND_OP_CODES;
//
// Define unwind code structure.
//
typedef union _AMD64_UNWIND_CODE {
struct {
UCHAR CodeOffset;
UCHAR UnwindOp : 4;
UCHAR OpInfo : 4;
};
USHORT FrameOffset;
} AMD64_UNWIND_CODE, *PAMD64_UNWIND_CODE;
//
// Define unwind information flags.
//
#define AMD64_UNW_FLAG_NHANDLER 0x0
#define AMD64_UNW_FLAG_EHANDLER 0x1
#define AMD64_UNW_FLAG_UHANDLER 0x2
#define AMD64_UNW_FLAG_CHAININFO 0x4
//
// Define unwind information structure.
//
typedef struct _AMD64_UNWIND_INFO {
UCHAR Version : 3;
UCHAR Flags : 5;
UCHAR SizeOfProlog;
UCHAR CountOfCodes;
UCHAR FrameRegister : 4;
UCHAR FrameOffset : 4;
AMD64_UNWIND_CODE UnwindCode[1];
//
// The unwind codes are followed by an optional DWORD aligned field that
// contains the exception handler address or the address of chained unwind
// information. If an exception handler address is specified, then it is
// followed by the language specified exception handler data.
//
// union {
// ULONG ExceptionHandler;
// ULONG FunctionEntry;
// };
//
// ULONG ExceptionData[];
//
} AMD64_UNWIND_INFO, *PAMD64_UNWIND_INFO;
#define IA64_IP_SLOT 2 // Intel-IA64-Filler
#define Ia64InsertIPSlotNumber(IP, SlotNumber) /* Intel-IA64-Filler */ \
((IP) | (SlotNumber << IA64_IP_SLOT)) // Intel-IA64-Filler
#define IA64_MM_EPC_VA 0xe0000000ffa00000
#define IA64_STACK_SCRATCH_AREA 16
#define IA64_SYSCALL_FRAME 0
#define IA64_INTERRUPT_FRAME 1
#define IA64_EXCEPTION_FRAME 2
#define IA64_CONTEXT_FRAME 10
#define IA64_IFS_IFM 0
#define IA64_IFS_IFM_LEN 38
#define IA64_IFS_MBZ0 38
#define IA64_IFS_MBZ0_V 0x1ffffffi64
#define IA64_IFS_V 63
#define IA64_IFS_V_LEN 1
#define IA64_PFS_EC_SHIFT 52
#define IA64_PFS_EC_SIZE 6
#define IA64_PFS_EC_MASK 0x3F
#define IA64_PFS_SIZE_SHIFT 7
#define IA64_PFS_SIZE_MASK 0x7F
#define IA64_NAT_BITS_PER_RNAT_REG 63
#define IA64_RNAT_ALIGNMENT (IA64_NAT_BITS_PER_RNAT_REG << 3)
#define IA64_FM_RRB_PR(Fm) (((Fm) >> 32) & 0x3f)
#define IA64_FM_RRB_FR(Fm) (((Fm) >> 25) & 0x7f)
#define IA64_FM_RRB_GR(Fm) (((Fm) >> 18) & 0x7f)
#define IA64_FM_SOR(Fm) (((Fm) >> 14) & 0xf)
#define IA64_FM_SOF(Fm) ((Fm) & 0x7f)
#define IA64_FM_FROM_FS(Fs) \
(((Fs) >> IA64_IFS_IFM) & ((1UI64 << IA64_IFS_IFM_LEN) - 1))
#define IA64_BREAK_DEBUG_BASE 0x080000
#define IA64_BREAK_SYSCALL_BASE 0x180000
#define IA64_BREAK_FASTSYS_BASE 0x1C0000
#define IA64_DEBUG_STOP_BREAKPOINT (IA64_BREAK_DEBUG_BASE+22)
#define ALPHA_PSR_USER_MODE 0x1
#define ALPHA_PSR_MODE 0x0 // Mode bit in PSR (bit 0)
#define ALPHA_PSR_MODE_MASK 0x1 // Mask (1 bit) for mode in PSR
#define ALPHA_PSR_IE 0x1 // Interrupt Enable bit in PSR (bit 1)
#define ALPHA_PSR_IE_MASK 0x1 // Mask (1 bit) for IE in PSR
#define ALPHA_PSR_IRQL 0x2 // IRQL in PSR (bit 2)
#define ALPHA_PSR_IRQL_MASK 0x7 // Mask (2 bits) for IRQL in PSR
#define X86_CONTEXT_X86 0x00010000
#define ALPHA_CONTEXT_ALPHA 0x00020000
#define ALPHA_CONTEXT_CONTROL (ALPHA_CONTEXT_ALPHA | 0x00000001L)
#define ALPHA_CONTEXT_FLOATING_POINT (ALPHA_CONTEXT_ALPHA | 0x00000002L)
#define ALPHA_CONTEXT_INTEGER (ALPHA_CONTEXT_ALPHA | 0x00000004L)
#define ALPHA_CONTEXT_FULL \
(ALPHA_CONTEXT_CONTROL | ALPHA_CONTEXT_FLOATING_POINT | \
ALPHA_CONTEXT_INTEGER)
#define IA64_CONTEXT_IA64 0x00080000
#define IA64_CONTEXT_CONTROL (IA64_CONTEXT_IA64 | 0x00000001L)
#define IA64_CONTEXT_LOWER_FLOATING_POINT (IA64_CONTEXT_IA64 | 0x00000002L)
#define IA64_CONTEXT_HIGHER_FLOATING_POINT (IA64_CONTEXT_IA64 | 0x00000004L)
#define IA64_CONTEXT_INTEGER (IA64_CONTEXT_IA64 | 0x00000008L)
#define IA64_CONTEXT_DEBUG (IA64_CONTEXT_IA64 | 0x00000010L)
#define IA64_CONTEXT_IA32_CONTROL (IA64_CONTEXT_IA64 | 0x00000020L)
#define IA64_CONTEXT_FLOATING_POINT \
(IA64_CONTEXT_LOWER_FLOATING_POINT | IA64_CONTEXT_HIGHER_FLOATING_POINT)
#define IA64_CONTEXT_FULL \
(IA64_CONTEXT_CONTROL | IA64_CONTEXT_FLOATING_POINT | IA64_CONTEXT_INTEGER | IA64_CONTEXT_IA32_CONTROL)
#define AMD64_CONTEXT_AMD64 0x00100000
#define AMD64_CONTEXT_CONTROL (AMD64_CONTEXT_AMD64 | 0x1L)
#define AMD64_CONTEXT_INTEGER (AMD64_CONTEXT_AMD64 | 0x2L)
#define AMD64_CONTEXT_SEGMENTS (AMD64_CONTEXT_AMD64 | 0x4L)
#define AMD64_CONTEXT_FLOATING_POINT (AMD64_CONTEXT_AMD64 | 0x8L)
#define AMD64_CONTEXT_DEBUG_REGISTERS (AMD64_CONTEXT_AMD64 | 0x10L)
#define AMD64_CONTEXT_FULL \
(AMD64_CONTEXT_CONTROL | AMD64_CONTEXT_INTEGER | AMD64_CONTEXT_FLOATING_POINT)
#define ARM_CONTEXT_ARM 0x0000040
#define ARM_CONTEXT_CONTROL (ARM_CONTEXT_ARM | 0x00000001L)
#define ARM_CONTEXT_INTEGER (ARM_CONTEXT_ARM | 0x00000002L)
#define ARM_CONTEXT_FULL (ARM_CONTEXT_CONTROL | ARM_CONTEXT_INTEGER)
#define X86_NT4_KPRCB_SIZE 0x9F0
#define X86_NT5_KPRCB_SIZE 0x9F0
#define X86_NT51_KPRCB_SIZE 0xC50
#define IA64_KPRCB_SIZE 0x1A40
#define DEF_KPRCB_CURRENT_THREAD_OFFSET_32 4
#define DEF_KPRCB_CURRENT_THREAD_OFFSET_64 8
#define X86_KPRCB_CPU_TYPE 0x18
#define IA64_KPRCB_PROCESSOR_MODEL 0x50
#define X86_1387_KPRCB_VENDOR_STRING 0x52D
#define X86_2087_KPRCB_VENDOR_STRING 0x72D
#define X86_2251_KPRCB_VENDOR_STRING 0x8AD
#define X86_2474_KPRCB_VENDOR_STRING 0x900
#define X86_VENDOR_STRING_SIZE 13
#define IA64_KPRCB_VENDOR_STRING 0x70
#define X86_1381_KPRCB_MHZ 0x53c
#define X86_2195_KPRCB_MHZ 0x73c
#define X86_2462_KPRCB_MHZ 0x8bc
#define X86_2505_KPRCB_MHZ 0x910
#define IA64_2462_KPRCB_MHZ 0x1728
#define X86_KPRCB_NUMBER 0x10
#define IA64_KPRCB_NUMBER 0x20
#define AMD64_KPRCB_NUMBER 4
#define X86_KPRCB_DPC_ROUTINE_ACTIVE 0x874
#define IA64_KPRCB_PCR_PAGE 0x38
#define X86_KPRCB_CONTEXT 0x1c
#define IA64_KPRCB_CONTEXT 0x190
#define AMD64_KPRCB_CONTEXT 0x120
#define X86_KPRCB_SPECIAL_REG 0x2e8
#define IA64_KPRCB_SPECIAL_REG 0xc00
#define AMD64_KPRCB_SPECIAL_REG 0x40
#define X86_1381_KPCR_SIZE 0x7f0
#define X86_2195_KPCR_SIZE 0xb10
#define X86_KPCR_SIZE 0xd70
#define IA64_KPCR_SIZE 0xe28
#define AMD64_KPCR_SIZE 0x12e0
#define X86_KPCR_SELF_PCR 0x1c
#define AMD64_KPCR_SELF 0x18
#define X86_KPCR_PRCB 0x20
#define IA64_KPCR_PRCB 0xb18
#define AMD64_KPCR_CURRENT_PRCB 0x38
#define X86_KPCR_PRCB_DATA 0x120
#define AMD64_KPCR_PRCB 0x180
#define AMD64_KPCR_KD_VERSION_BLOCK 0x108
#define IA64_KPCR_INITIAL_BSTORE 0xb68
#define IA64_KPCR_BSTORE_LIMIT 0xb78
#define IA64_KPCR_INITIAL_STACK 0xb60
#define IA64_KPCR_STACK_LIMIT 0xb70
#define X86_NT5_EPROCESS_SIZE 0x288
#define X86_NT51_EPROCESS_SIZE 0x258
#define X86_NT511_EPROCESS_SIZE 0x278
#define IA64_EPROCESS_SIZE 0x410
#define X86_PEB_IN_EPROCESS 0x1B0
#define X86_NT4_PEB_IN_EPROCESS 0x18C
#define IA64_PEB_IN_EPROCESS 0x2D0
#define IA64_3555_PEB_IN_EPROCESS 0x300
#define X86_PCID_IN_EPROCESS 0x14C
#define X86_NT4_PCID_IN_EPROCESS 0x1A4
#define IA64_PCID_IN_EPROCESS 0x260
#define IA64_DIRECTORY_TABLE_BASE_IN_EPROCESS 40
#define X86_DIRECTORY_TABLE_BASE_IN_EPROCESS 24
#define X86_ETHREAD_SIZE 0x258
#define X86_NT51_ETHREAD_SIZE 0x260
#define IA64_ETHREAD_SIZE 0x458
#define IA64_3555_ETHREAD_SIZE 0x440
#define X86_KTHREAD_NEXTPROCESSOR_OFFSET 0x11f
#define X86_2230_KTHREAD_NEXTPROCESSOR_OFFSET 0x123
#define X86_NT51_KTHREAD_NEXTPROCESSOR_OFFSET 0x12b
#define X86_3555_KTHREAD_NEXTPROCESSOR_OFFSET 0x107
#define IA64_KTHREAD_NEXTPROCESSOR_OFFSET 0x23b
#define IA64_3555_KTHREAD_NEXTPROCESSOR_OFFSET 0x1F7
#define X86_KTHREAD_TEB_OFFSET 0x020
#define X86_3555_KTHREAD_TEB_OFFSET 0x02C
#define IA64_KTHREAD_TEB_OFFSET 0x050
#define IA64_3555_KTHREAD_TEB_OFFSET 0x068
#define X86_KTHREAD_INITSTACK_OFFSET 0x018
#define IA64_KTHREAD_INITSTACK_OFFSET 0x028
#define X86_KTHREAD_KERNELSTACK_OFFSET 0x028
#define X86_3555_KTHREAD_KERNELSTACK_OFFSET 0x020
#define IA64_KTHREAD_KERNELSTACK_OFFSET 0x060
#define IA64_3555_KTHREAD_KERNELSTACK_OFFSET 0x038
#define X86_KTHREAD_APCPROCESS_OFFSET 0x044
#define X86_3555_KTHREAD_APCPROCESS_OFFSET 0x040
#define IA64_KTHREAD_APCPROCESS_OFFSET 0x098
#define IA64_3555_KTHREAD_APCPROCESS_OFFSET 0x090
#define X86_KTHREAD_STATE_OFFSET 0x02d
#define X86_3555_KTHREAD_STATE_OFFSET 0x028
#define IA64_KTHREAD_STATE_OFFSET 0x071
#define IA64_3555_KTHREAD_STATE_OFFSET 0x064
#define IA64_KTHREAD_BSTORE_OFFSET 0x038
#define IA64_3555_KTHREAD_BSTORE_OFFSET 0x040
#define IA64_KTHREAD_BSTORELIMIT_OFFSET 0x040
#define IA64_3555_KTHREAD_BSTORELIMIT_OFFSET 0x048
#define PEB_FROM_TEB32 48
#define PEB_FROM_TEB64 96
#define STACK_BASE_FROM_TEB32 4
#define STACK_BASE_FROM_TEB64 8
#define PEBLDR_FROM_PEB32 12
#define PEBLDR_FROM_PEB64 24
#define MODULE_LIST_FROM_PEBLDR32 12
#define MODULE_LIST_FROM_PEBLDR64 16
#define IA64_TEB_BSTORE_BASE 0x1788
#define X86_SHARED_SYSCALL_BASE_LT2412 0x7ffe02e0
#define X86_SHARED_SYSCALL_BASE_GTE2412 0x7ffe02f8
#define X86_SHARED_SYSCALL_BASE_GTE2492 0x7ffe0300
#define X86_SHARED_SYSCALL_SIZE 0x20
#define X86_KI_USER_SHARED_DATA 0xffdf0000U
#define IA64_KI_USER_SHARED_DATA 0xe0000000fffe0000UI64
#define AMD64_KI_USER_SHARED_DATA 0xfffff78000000000UI64
// Triage dumps contain a KPRCB and the debugger
// needs a safe address to map it into virtual space
// so that it's accessible in a way consistent with
// other dumps and live debugs. The debugger uses
// an address in the user-shared-memory area on the
// theory that nothing in that area should be present
// in a kernel triage dump so it's a safe place to map in.
#define X86_TRIAGE_PRCB_ADDRESS 0xffdff120U
#define IA64_TRIAGE_PRCB_ADDRESS 0xe0000000ffff0000UI64
#define AMD64_TRIAGE_PRCB_ADDRESS 0xfffff780ffff0000UI64
#define X86_KGDT_NULL 0
#define X86_KGDT_R0_CODE 8
#define X86_KGDT_R0_DATA 16
#define X86_KGDT_R3_CODE 24
#define X86_KGDT_R3_DATA 32
#define X86_KGDT_TSS 40
#define X86_KGDT_R0_PCR 48
#define X86_KGDT_R3_TEB 56
#define X86_KGDT_VDM_TILE 64
#define X86_KGDT_LDT 72
#define X86_KGDT_DF_TSS 80
#define X86_KGDT_NMI_TSS 88
#define X86_FRAME_EDITED 0xfff8
#define X86_MODE_MASK 1
#define X86_EFLAGS_V86_MASK 0x00020000
#define AMD64_KGDT64_NULL (0 * 16) // NULL descriptor
#define AMD64_KGDT64_R0_CODE (1 * 16) // kernel mode 64-bit code
#define AMD64_KGDT64_R0_DATA (1 * 16) + 8 // kernel mode 64-bit data (stack)
#define AMD64_KGDT64_R3_CMCODE (2 * 16) // user mode 32-bit code
#define AMD64_KGDT64_R3_DATA (2 * 16) + 8 // user mode 32-bit data
#define AMD64_KGDT64_R3_CODE (3 * 16) // user mode 64-bit code
#define AMD64_KGDT64_SYS_TSS (4 * 16) // kernel mode system task state
#define AMD64_KGDT64_R3_CMTEB (5 * 16) // user mode 32-bit TEB
#define AMD64_KGDT64_LAST (6 * 16)
//
// Memory management info
//
#define X86_BASE_VIRT 0xc0300000
#define X86_BASE_VIRT_PAE 0xc0600000
#define X86_PAGE_SIZE 0x1000
#define X86_PAGE_SHIFT 12L
#define X86_MM_PTE_TRANSITION_MASK 0x800
#define X86_MM_PTE_PROTOTYPE_MASK 0x400
#define X86_VALID_PFN_MASK 0xFFFFF000
#define X86_VALID_PFN_MASK_PAE 0x0000000FFFFFF000UI64
#define X86_VALID_PFN_SHIFT 12
#define X86_PDPE_SHIFT 30
#define X86_PDE_SHIFT 22
#define X86_PDE_SHIFT_PAE 21
#define X86_PDE_MASK_PAE 0x1ff
#define X86_PTE_SHIFT 12
#define X86_PTE_MASK 0x3ff
#define X86_PTE_MASK_PAE 0x1ff
#define X86_LARGE_PAGE_MASK 0x80
#define X86_LARGE_PAGE_SIZE (4 * 1024 * 1024)
#define X86_LARGE_PAGE_SIZE_PAE (2 * 1024 * 1024)
#define X86_PDBR_MASK 0xFFFFFFE0
#define IA64_PAGE_SIZE 0x2000
#define IA64_PAGE_SHIFT 13L
#define IA64_MM_PTE_TRANSITION_MASK 0x80
#define IA64_MM_PTE_PROTOTYPE_MASK 0x02
#define IA64_VALID_PFN_MASK 0x0007FFFFFFFFE000UI64
#define IA64_VALID_PFN_SHIFT 13
#define IA64_PDE1_SHIFT 33
#define IA64_PDE2_SHIFT 23
#define IA64_PDE_MASK 0x3ff
#define IA64_PTE_SHIFT 13
#define IA64_PTE_MASK 0x3ff
#define IA64_PHYSICAL1_START 0x8000000000000000UI64
#define IA64_PHYSICAL1_END 0x80000FFFFFFFFFFFUI64
#define IA64_PHYSICAL2_START 0xA000000000000000UI64
#define IA64_PHYSICAL2_END 0xA0000FFFFFFFFFFFUI64
#define IA64_PHYSICAL3_START 0xE000000080000000UI64
#define IA64_PHYSICAL3_END 0xE0000000BFFFFFFFUI64
#define IA64_PTA_BASE_MASK 0x1FFFFFFFFFFF8000UI64
#define IA64_REGION_MASK 0xE000000000000000UI64
#define IA64_REGION_SHIFT 61
#define IA64_REGION_COUNT 8
#define IA64_REGION_USER 0
#define IA64_REGION_SESSION 1
#define IA64_REGION_KERNEL 7
#define IA64_VHPT_MASK 0x000000FFFFFF8000UI64
#define IA64_LARGE_PAGE_PDE_MASK 0x1c
#define IA64_LARGE_PAGE_PDE_MARK 4
#define IA64_LARGE_PAGE_SIZE 0x800000
//
// Memory management info
//
#define AMD64_BASE_VIRT 0xFFFFF6FB7DBED000UI64
#define AMD64_PAGE_SIZE 0x1000
#define AMD64_PAGE_SHIFT 12L
#define AMD64_MM_PTE_TRANSITION_MASK 0x800
#define AMD64_MM_PTE_PROTOTYPE_MASK 0x400
#define AMD64_VALID_PFN_MASK 0x000000FFFFFFF000UI64
#define AMD64_VALID_PFN_SHIFT 12
#define AMD64_PML4E_SHIFT 39
#define AMD64_PML4E_MASK 0x1ff
#define AMD64_PDPE_SHIFT 30
#define AMD64_PDPE_MASK 0x1ff
#define AMD64_PDE_SHIFT 21
#define AMD64_PDE_MASK 0x1ff
#define AMD64_PTE_SHIFT 12
#define AMD64_PTE_MASK 0x1ff
#define AMD64_LARGE_PAGE_MASK 0x80
#define AMD64_LARGE_PAGE_SIZE (2 * 1024 * 1024)
#define AMD64_PDBR_MASK AMD64_VALID_PFN_MASK
#define AMD64_PHYSICAL_START 0xFFFFF80000000000UI64
#define AMD64_PHYSICAL_END 0xFFFFF8FFFFFFFFFFUI64
#define ARM_PAGE_SIZE 4096
#define ARM_PAGE_SHIFT 12
#define IA64_DEBUG_CONTROL_SPACE_PCR 1
#define IA64_DEBUG_CONTROL_SPACE_PRCB 2
#define IA64_DEBUG_CONTROL_SPACE_KSPECIAL 3
#define IA64_DEBUG_CONTROL_SPACE_THREAD 4
#define ALPHA_DEBUG_CONTROL_SPACE_PCR 1
#define ALPHA_DEBUG_CONTROL_SPACE_THREAD 2
#define ALPHA_DEBUG_CONTROL_SPACE_PRCB 3
#define ALPHA_DEBUG_CONTROL_SPACE_TEB 6
#define AMD64_DEBUG_CONTROL_SPACE_PCR 0
#define AMD64_DEBUG_CONTROL_SPACE_PRCB 1
#define AMD64_DEBUG_CONTROL_SPACE_KSPECIAL 2
#define AMD64_DEBUG_CONTROL_SPACE_THREAD 3
typedef enum _IA64_FUNCTION_TABLE_TYPE {
IA64_RF_SORTED,
IA64_RF_UNSORTED,
IA64_RF_CALLBACK
} IA64_FUNCTION_TABLE_TYPE;
typedef struct _IA64_DYNAMIC_FUNCTION_TABLE
{
LIST_ENTRY64 Links;
ULONG64 FunctionTable;
LARGE_INTEGER TimeStamp;
ULONG64 MinimumAddress;
ULONG64 MaximumAddress;
ULONG64 BaseAddress;
ULONG64 TargetGp;
ULONG64 Callback;
ULONG64 Context;
ULONG64 OutOfProcessCallbackDll;
IA64_FUNCTION_TABLE_TYPE Type;
ULONG EntryCount;
} IA64_DYNAMIC_FUNCTION_TABLE, *PIA64_DYNAMIC_FUNCTION_TABLE;
#define IA64_RF_BEGIN_ADDRESS(Base,RF) (( (ULONG64) Base + (RF)->BeginAddress) & (0xFFFFFFFFFFFFFFF0)) // Instruction Size 16 bytes
#define IA64_RF_END_ADDRESS(Base, RF) (((ULONG64) Base + (RF)->EndAddress+15) & (0xFFFFFFFFFFFFFFF0)) // Instruction Size 16 bytes
typedef enum _AMD64_FUNCTION_TABLE_TYPE {
AMD64_RF_SORTED,
AMD64_RF_UNSORTED,
AMD64_RF_CALLBACK
} AMD64_FUNCTION_TABLE_TYPE;
typedef struct _AMD64_DYNAMIC_FUNCTION_TABLE
{
LIST_ENTRY64 ListEntry;
ULONG64 FunctionTable;
LARGE_INTEGER TimeStamp;
ULONG64 MinimumAddress;
ULONG64 MaximumAddress;
ULONG64 BaseAddress;
ULONG64 Callback;
ULONG64 Context;
ULONG64 OutOfProcessCallbackDll;
AMD64_FUNCTION_TABLE_TYPE Type;
ULONG EntryCount;
} AMD64_DYNAMIC_FUNCTION_TABLE, *PAMD64_DYNAMIC_FUNCTION_TABLE;
typedef struct _CROSS_PLATFORM_DYNAMIC_FUNCTION_TABLE {
union {
IA64_DYNAMIC_FUNCTION_TABLE IA64Table;
AMD64_DYNAMIC_FUNCTION_TABLE Amd64Table;
};
} CROSS_PLATFORM_DYNAMIC_FUNCTION_TABLE, *PCROSS_PLATFORM_DYNAMIC_FUNCTION_TABLE;
// More stuff currently used by crashdump
typedef struct _PAE_ADDRESS {
union {
struct {
ULONG Offset : 12; // 0 .. 11
ULONG Table : 9; // 12 .. 20
ULONG Directory : 9; // 21 .. 29
ULONG DirectoryPointer : 2; // 30 .. 31
};
struct {
ULONG Offset : 21 ;
ULONG Directory : 9 ;
ULONG DirectoryPointer : 2;
} LargeAddress;
ULONG DwordPart;
};
} PAE_ADDRESS, * PPAE_ADDRESS;
typedef struct _X86PAE_HARDWARE_PTE {
union {
struct {
ULONGLONG Valid : 1;
ULONGLONG Write : 1;
ULONGLONG Owner : 1;
ULONGLONG WriteThrough : 1;
ULONGLONG CacheDisable : 1;
ULONGLONG Accessed : 1;
ULONGLONG Dirty : 1;
ULONGLONG LargePage : 1;
ULONGLONG Global : 1;
ULONGLONG CopyOnWrite : 1; // software field
ULONGLONG Prototype : 1; // software field
ULONGLONG reserved0 : 1; // software field
ULONGLONG PageFrameNumber : 24;
ULONGLONG reserved1 : 28; // software field
};
struct {
ULONG LowPart;
ULONG HighPart;
};
};
} X86PAE_HARDWARE_PTE, *PX86PAE_HARDWARE_PTE;
typedef X86PAE_HARDWARE_PTE X86PAE_HARDWARE_PDPTE;
typedef struct _X86PAE_HARDWARE_PDE {
union {
struct _X86PAE_HARDWARE_PTE Pte;
struct {
ULONGLONG Valid : 1;
ULONGLONG Write : 1;
ULONGLONG Owner : 1;
ULONGLONG WriteThrough : 1;
ULONGLONG CacheDisable : 1;
ULONGLONG Accessed : 1;
ULONGLONG Dirty : 1;
ULONGLONG LargePage : 1;
ULONGLONG Global : 1;
ULONGLONG CopyOnWrite : 1;
ULONGLONG Prototype : 1;
ULONGLONG reserved0 : 1;
ULONGLONG reserved2 : 9;
ULONGLONG PageFrameNumber : 15;
ULONGLONG reserved1 : 28;
} Large;
ULONGLONG QuadPart;
};
} X86PAE_HARDWARE_PDE;
#if defined(_X86_)
typedef X86_DBGKD_CONTROL_REPORT DBGKD_CONTROL_REPORT;
typedef X86_DBGKD_CONTROL_SET DBGKD_CONTROL_SET;
#elif defined(_ALPHA_)
typedef ALPHA_DBGKD_CONTROL_REPORT DBGKD_CONTROL_REPORT;
typedef ALPHA_DBGKD_CONTROL_SET DBGKD_CONTROL_SET;
#elif defined(_IA64_)
typedef IA64_DBGKD_CONTROL_REPORT DBGKD_CONTROL_REPORT;
typedef IA64_DBGKD_CONTROL_SET DBGKD_CONTROL_SET;
#elif defined(_AMD64_)
typedef AMD64_DBGKD_CONTROL_REPORT DBGKD_CONTROL_REPORT;
typedef AMD64_DBGKD_CONTROL_SET DBGKD_CONTROL_SET;
#endif
//
// DbgKd APIs are for the portable kernel debugger
//
//
// KD_PACKETS are the low level data format used in KD. All packets
// begin with a packet leader, byte count, packet type. The sequence
// for accepting a packet is:
//
// - read 4 bytes to get packet leader. If read times out (10 seconds)
// with a short read, or if packet leader is incorrect, then retry
// the read.
//
// - next read 2 byte packet type. If read times out (10 seconds) with
// a short read, or if packet type is bad, then start again looking
// for a packet leader.
//
// - next read 4 byte packet Id. If read times out (10 seconds)
// with a short read, or if packet Id is not what we expect, then
// ask for resend and restart again looking for a packet leader.
//
// - next read 2 byte count. If read times out (10 seconds) with
// a short read, or if byte count is greater than PACKET_MAX_SIZE,
// then start again looking for a packet leader.
//
// - next read 4 byte packet data checksum.
//
// - The packet data immediately follows the packet. There should be
// ByteCount bytes following the packet header. Read the packet
// data, if read times out (10 seconds) then start again looking for
// a packet leader.
//
typedef struct _KD_PACKET {
ULONG PacketLeader;
USHORT PacketType;
USHORT ByteCount;
ULONG PacketId;
ULONG Checksum;
} KD_PACKET, *PKD_PACKET;
#define PACKET_MAX_SIZE 4000
#define INITIAL_PACKET_ID 0x80800000 // Don't use 0
#define SYNC_PACKET_ID 0x00000800 // Or in with INITIAL_PACKET_ID
// to force a packet ID reset.
//
// BreakIn packet
//
#define BREAKIN_PACKET 0x62626262
#define BREAKIN_PACKET_BYTE 0x62
//
// Packet lead in sequence
//
#define PACKET_LEADER 0x30303030 //0x77000077
#define PACKET_LEADER_BYTE 0x30
#define CONTROL_PACKET_LEADER 0x69696969
#define CONTROL_PACKET_LEADER_BYTE 0x69
//
// Packet Trailing Byte
//
#define PACKET_TRAILING_BYTE 0xAA
//
// Packet Types
//
#define PACKET_TYPE_UNUSED 0
#define PACKET_TYPE_KD_STATE_CHANGE32 1
#define PACKET_TYPE_KD_STATE_MANIPULATE 2
#define PACKET_TYPE_KD_DEBUG_IO 3
#define PACKET_TYPE_KD_ACKNOWLEDGE 4 // Packet-control type
#define PACKET_TYPE_KD_RESEND 5 // Packet-control type
#define PACKET_TYPE_KD_RESET 6 // Packet-control type
#define PACKET_TYPE_KD_STATE_CHANGE64 7
#define PACKET_TYPE_KD_POLL_BREAKIN 8
#define PACKET_TYPE_KD_TRACE_IO 9
#define PACKET_TYPE_KD_CONTROL_REQUEST 10
#define PACKET_TYPE_KD_FILE_IO 11
#define PACKET_TYPE_MAX 12
//
// If the packet type is PACKET_TYPE_KD_STATE_CHANGE, then
// the format of the packet data is as follows:
//
#define DbgKdMinimumStateChange 0x00003030L
#define DbgKdExceptionStateChange 0x00003030L
#define DbgKdLoadSymbolsStateChange 0x00003031L
#define DbgKdCommandStringStateChange 0x00003032L
#define DbgKdMaximumStateChange 0x00003033L
// If the state change is from an alternate source
// then this bit is combined with the basic state change code.
#define DbgKdAlternateStateChange 0x00010000L
#define KD_REBOOT (-1)
#define KD_HIBERNATE (-2)
//
// Pathname Data follows directly
//
typedef struct _DBGKD_LOAD_SYMBOLS32 {
ULONG PathNameLength;
ULONG BaseOfDll;
ULONG ProcessId;
ULONG CheckSum;
ULONG SizeOfImage;
BOOLEAN UnloadSymbols;
} DBGKD_LOAD_SYMBOLS32, *PDBGKD_LOAD_SYMBOLS32;
typedef struct _DBGKD_LOAD_SYMBOLS64 {
ULONG PathNameLength;
ULONG64 BaseOfDll;
ULONG64 ProcessId;
ULONG CheckSum;
ULONG SizeOfImage;
BOOLEAN UnloadSymbols;
} DBGKD_LOAD_SYMBOLS64, *PDBGKD_LOAD_SYMBOLS64;
__inline
void
DbgkdLoadSymbols32To64(
IN PDBGKD_LOAD_SYMBOLS32 Ls32,
OUT PDBGKD_LOAD_SYMBOLS64 Ls64
)
{
Ls64->PathNameLength = Ls32->PathNameLength;
Ls64->ProcessId = Ls32->ProcessId;
COPYSE(Ls64,Ls32,BaseOfDll);
Ls64->CheckSum = Ls32->CheckSum;
Ls64->SizeOfImage = Ls32->SizeOfImage;
Ls64->UnloadSymbols = Ls32->UnloadSymbols;
}
__inline
void
LoadSymbols64To32(
IN PDBGKD_LOAD_SYMBOLS64 Ls64,
OUT PDBGKD_LOAD_SYMBOLS32 Ls32
)
{
Ls32->PathNameLength = Ls64->PathNameLength;
Ls32->ProcessId = (ULONG)Ls64->ProcessId;
Ls32->BaseOfDll = (ULONG)Ls64->BaseOfDll;
Ls32->CheckSum = Ls64->CheckSum;
Ls32->SizeOfImage = Ls64->SizeOfImage;
Ls32->UnloadSymbols = Ls64->UnloadSymbols;
}
//
// This structure is currently all zeroes.
// It just reserves a structure name for future use.
//
typedef struct _DBGKD_COMMAND_STRING {
ULONG Flags;
ULONG Reserved1;
ULONG64 Reserved2[7];
} DBGKD_COMMAND_STRING, *PDBGKD_COMMAND_STRING;
#ifdef _IA64_
#include <pshpck16.h>
#endif
typedef struct _DBGKD_WAIT_STATE_CHANGE32 {
ULONG NewState;
USHORT ProcessorLevel;
USHORT Processor;
ULONG NumberProcessors;
ULONG Thread;
ULONG ProgramCounter;
union {
DBGKM_EXCEPTION32 Exception;
DBGKD_LOAD_SYMBOLS32 LoadSymbols;
} u;
// A processor-specific control report and context follows.
} DBGKD_WAIT_STATE_CHANGE32, *PDBGKD_WAIT_STATE_CHANGE32;
// Protocol version 5 64-bit state change.
typedef struct _DBGKD_WAIT_STATE_CHANGE64 {
ULONG NewState;
USHORT ProcessorLevel;
USHORT Processor;
ULONG NumberProcessors;
ULONG64 Thread;
ULONG64 ProgramCounter;
union {
DBGKM_EXCEPTION64 Exception;
DBGKD_LOAD_SYMBOLS64 LoadSymbols;
} u;
// A processor-specific control report and context follows.
} DBGKD_WAIT_STATE_CHANGE64, *PDBGKD_WAIT_STATE_CHANGE64;
// Protocol version 6 state change.
typedef struct _DBGKD_ANY_WAIT_STATE_CHANGE {
ULONG NewState;
USHORT ProcessorLevel;
USHORT Processor;
ULONG NumberProcessors;
ULONG64 Thread;
ULONG64 ProgramCounter;
union {
DBGKM_EXCEPTION64 Exception;
DBGKD_LOAD_SYMBOLS64 LoadSymbols;
DBGKD_COMMAND_STRING CommandString;
} u;
// The ANY control report is unioned here to
// ensure that this structure is always large
// enough to hold any possible state change.
union {
DBGKD_CONTROL_REPORT ControlReport;
DBGKD_ANY_CONTROL_REPORT AnyControlReport;
};
} DBGKD_ANY_WAIT_STATE_CHANGE, *PDBGKD_ANY_WAIT_STATE_CHANGE;
#ifdef _IA64_
#include <poppack.h>
#endif
//
// If the packet type is PACKET_TYPE_KD_STATE_MANIPULATE, then
// the format of the packet data is as follows:
//
// Api Numbers for state manipulation
//
#define DbgKdMinimumManipulate 0x00003130L
#define DbgKdReadVirtualMemoryApi 0x00003130L
#define DbgKdWriteVirtualMemoryApi 0x00003131L
#define DbgKdGetContextApi 0x00003132L
#define DbgKdSetContextApi 0x00003133L
#define DbgKdWriteBreakPointApi 0x00003134L
#define DbgKdRestoreBreakPointApi 0x00003135L
#define DbgKdContinueApi 0x00003136L
#define DbgKdReadControlSpaceApi 0x00003137L
#define DbgKdWriteControlSpaceApi 0x00003138L
#define DbgKdReadIoSpaceApi 0x00003139L
#define DbgKdWriteIoSpaceApi 0x0000313AL
#define DbgKdRebootApi 0x0000313BL
#define DbgKdContinueApi2 0x0000313CL
#define DbgKdReadPhysicalMemoryApi 0x0000313DL
#define DbgKdWritePhysicalMemoryApi 0x0000313EL
//#define DbgKdQuerySpecialCallsApi 0x0000313FL
#define DbgKdSetSpecialCallApi 0x00003140L
#define DbgKdClearSpecialCallsApi 0x00003141L
#define DbgKdSetInternalBreakPointApi 0x00003142L
#define DbgKdGetInternalBreakPointApi 0x00003143L
#define DbgKdReadIoSpaceExtendedApi 0x00003144L
#define DbgKdWriteIoSpaceExtendedApi 0x00003145L
#define DbgKdGetVersionApi 0x00003146L
#define DbgKdWriteBreakPointExApi 0x00003147L
#define DbgKdRestoreBreakPointExApi 0x00003148L
#define DbgKdCauseBugCheckApi 0x00003149L
#define DbgKdSwitchProcessor 0x00003150L
#define DbgKdPageInApi 0x00003151L // obsolete
#define DbgKdReadMachineSpecificRegister 0x00003152L
#define DbgKdWriteMachineSpecificRegister 0x00003153L
#define OldVlm1 0x00003154L
#define OldVlm2 0x00003155L
#define DbgKdSearchMemoryApi 0x00003156L
#define DbgKdGetBusDataApi 0x00003157L
#define DbgKdSetBusDataApi 0x00003158L
#define DbgKdCheckLowMemoryApi 0x00003159L
#define DbgKdClearAllInternalBreakpointsApi 0x0000315AL
#define DbgKdFillMemoryApi 0x0000315BL
#define DbgKdQueryMemoryApi 0x0000315CL
#define DbgKdSwitchPartition 0x0000315DL
#define DbgKdMaximumManipulate 0x0000315EL
//
// Physical memory caching flags.
// These flags can be passed in on physical memory
// access requests in the ActualBytes field.
//
#define DBGKD_CACHING_UNKNOWN 0
#define DBGKD_CACHING_CACHED 1
#define DBGKD_CACHING_UNCACHED 2
#define DBGKD_CACHING_WRITE_COMBINED 3
//
// Response is a read memory message with data following
//
typedef struct _DBGKD_READ_MEMORY32 {
ULONG TargetBaseAddress;
ULONG TransferCount;
ULONG ActualBytesRead;
} DBGKD_READ_MEMORY32, *PDBGKD_READ_MEMORY32;
typedef struct _DBGKD_READ_MEMORY64 {
ULONG64 TargetBaseAddress;
ULONG TransferCount;
ULONG ActualBytesRead;
} DBGKD_READ_MEMORY64, *PDBGKD_READ_MEMORY64;
__inline
void
DbgkdReadMemory32To64(
IN PDBGKD_READ_MEMORY32 r32,
OUT PDBGKD_READ_MEMORY64 r64
)
{
COPYSE(r64,r32,TargetBaseAddress);
r64->TransferCount = r32->TransferCount;
r64->ActualBytesRead = r32->ActualBytesRead;
}
__inline
void
DbgkdReadMemory64To32(
IN PDBGKD_READ_MEMORY64 r64,
OUT PDBGKD_READ_MEMORY32 r32
)
{
r32->TargetBaseAddress = (ULONG)r64->TargetBaseAddress;
r32->TransferCount = r64->TransferCount;
r32->ActualBytesRead = r64->ActualBytesRead;
}
//
// Data follows directly
//
typedef struct _DBGKD_WRITE_MEMORY32 {
ULONG TargetBaseAddress;
ULONG TransferCount;
ULONG ActualBytesWritten;
} DBGKD_WRITE_MEMORY32, *PDBGKD_WRITE_MEMORY32;
typedef struct _DBGKD_WRITE_MEMORY64 {
ULONG64 TargetBaseAddress;
ULONG TransferCount;
ULONG ActualBytesWritten;
} DBGKD_WRITE_MEMORY64, *PDBGKD_WRITE_MEMORY64;
__inline
void
DbgkdWriteMemory32To64(
IN PDBGKD_WRITE_MEMORY32 r32,
OUT PDBGKD_WRITE_MEMORY64 r64
)
{
COPYSE(r64,r32,TargetBaseAddress);
r64->TransferCount = r32->TransferCount;
r64->ActualBytesWritten = r32->ActualBytesWritten;
}
__inline
void
DbgkdWriteMemory64To32(
IN PDBGKD_WRITE_MEMORY64 r64,
OUT PDBGKD_WRITE_MEMORY32 r32
)
{
r32->TargetBaseAddress = (ULONG)r64->TargetBaseAddress;
r32->TransferCount = r64->TransferCount;
r32->ActualBytesWritten = r64->ActualBytesWritten;
}
//
// Response is a get context message with a full context record following
//
typedef struct _DBGKD_GET_CONTEXT {
ULONG Unused;
} DBGKD_GET_CONTEXT, *PDBGKD_GET_CONTEXT;
//
// Full Context record follows
//
typedef struct _DBGKD_SET_CONTEXT {
ULONG ContextFlags;
} DBGKD_SET_CONTEXT, *PDBGKD_SET_CONTEXT;
#define BREAKPOINT_TABLE_SIZE 32 // max number supported by kernel
typedef struct _DBGKD_WRITE_BREAKPOINT32 {
ULONG BreakPointAddress;
ULONG BreakPointHandle;
} DBGKD_WRITE_BREAKPOINT32, *PDBGKD_WRITE_BREAKPOINT32;
typedef struct _DBGKD_WRITE_BREAKPOINT64 {
ULONG64 BreakPointAddress;
ULONG BreakPointHandle;
} DBGKD_WRITE_BREAKPOINT64, *PDBGKD_WRITE_BREAKPOINT64;
__inline
void
DbgkdWriteBreakpoint32To64(
IN PDBGKD_WRITE_BREAKPOINT32 r32,
OUT PDBGKD_WRITE_BREAKPOINT64 r64
)
{
COPYSE(r64,r32,BreakPointAddress);
r64->BreakPointHandle = r32->BreakPointHandle;
}
__inline
void
DbgkdWriteBreakpoint64To32(
IN PDBGKD_WRITE_BREAKPOINT64 r64,
OUT PDBGKD_WRITE_BREAKPOINT32 r32
)
{
r32->BreakPointAddress = (ULONG)r64->BreakPointAddress;
r32->BreakPointHandle = r64->BreakPointHandle;
}
typedef struct _DBGKD_RESTORE_BREAKPOINT {
ULONG BreakPointHandle;
} DBGKD_RESTORE_BREAKPOINT, *PDBGKD_RESTORE_BREAKPOINT;
typedef struct _DBGKD_BREAKPOINTEX {
ULONG BreakPointCount;
NTSTATUS ContinueStatus;
} DBGKD_BREAKPOINTEX, *PDBGKD_BREAKPOINTEX;
typedef struct _DBGKD_CONTINUE {
NTSTATUS ContinueStatus;
} DBGKD_CONTINUE, *PDBGKD_CONTINUE;
// This structure must be 32-bit packed for
// for compatibility with older, processor-specific
// versions of this structure.
#include <pshpack4.h>
typedef struct _DBGKD_CONTINUE2 {
NTSTATUS ContinueStatus;
// The ANY control set is unioned here to
// ensure that this structure is always large
// enough to hold any possible continue.
union {
DBGKD_CONTROL_SET ControlSet;
DBGKD_ANY_CONTROL_SET AnyControlSet;
};
} DBGKD_CONTINUE2, *PDBGKD_CONTINUE2;
#include <poppack.h>
typedef struct _DBGKD_READ_WRITE_IO32 {
ULONG DataSize; // 1, 2, 4
ULONG IoAddress;
ULONG DataValue;
} DBGKD_READ_WRITE_IO32, *PDBGKD_READ_WRITE_IO32;
typedef struct _DBGKD_READ_WRITE_IO64 {
ULONG64 IoAddress;
ULONG DataSize; // 1, 2, 4
ULONG DataValue;
} DBGKD_READ_WRITE_IO64, *PDBGKD_READ_WRITE_IO64;
__inline
void
DbgkdReadWriteIo32To64(
IN PDBGKD_READ_WRITE_IO32 r32,
OUT PDBGKD_READ_WRITE_IO64 r64
)
{
COPYSE(r64,r32,IoAddress);
r64->DataSize = r32->DataSize;
r64->DataValue = r32->DataValue;
}
__inline
void
DbgkdReadWriteIo64To32(
IN PDBGKD_READ_WRITE_IO64 r64,
OUT PDBGKD_READ_WRITE_IO32 r32
)
{
r32->IoAddress = (ULONG)r64->IoAddress;
r32->DataSize = r64->DataSize;
r32->DataValue = r64->DataValue;
}
typedef struct _DBGKD_READ_WRITE_IO_EXTENDED32 {
ULONG DataSize; // 1, 2, 4
ULONG InterfaceType;
ULONG BusNumber;
ULONG AddressSpace;
ULONG IoAddress;
ULONG DataValue;
} DBGKD_READ_WRITE_IO_EXTENDED32, *PDBGKD_READ_WRITE_IO_EXTENDED32;
typedef struct _DBGKD_READ_WRITE_IO_EXTENDED64 {
ULONG DataSize; // 1, 2, 4
ULONG InterfaceType;
ULONG BusNumber;
ULONG AddressSpace;
ULONG64 IoAddress;
ULONG DataValue;
} DBGKD_READ_WRITE_IO_EXTENDED64, *PDBGKD_READ_WRITE_IO_EXTENDED64;
__inline
void
DbgkdReadWriteIoExtended32To64(
IN PDBGKD_READ_WRITE_IO_EXTENDED32 r32,
OUT PDBGKD_READ_WRITE_IO_EXTENDED64 r64
)
{
r64->DataSize = r32->DataSize;
r64->InterfaceType = r32->InterfaceType;
r64->BusNumber = r32->BusNumber;
r64->AddressSpace = r32->AddressSpace;
COPYSE(r64,r32,IoAddress);
r64->DataValue = r32->DataValue;
}
__inline
void
DbgkdReadWriteIoExtended64To32(
IN PDBGKD_READ_WRITE_IO_EXTENDED64 r64,
OUT PDBGKD_READ_WRITE_IO_EXTENDED32 r32
)
{
r32->DataSize = r64->DataSize;
r32->InterfaceType = r64->InterfaceType;
r32->BusNumber = r64->BusNumber;
r32->AddressSpace = r64->AddressSpace;
r32->IoAddress = (ULONG)r64-> IoAddress;
r32->DataValue = r64->DataValue;
}
typedef struct _DBGKD_READ_WRITE_MSR {
ULONG Msr;
ULONG DataValueLow;
ULONG DataValueHigh;
} DBGKD_READ_WRITE_MSR, *PDBGKD_READ_WRITE_MSR;
typedef struct _DBGKD_QUERY_SPECIAL_CALLS {
ULONG NumberOfSpecialCalls;
// ULONG64 SpecialCalls[];
} DBGKD_QUERY_SPECIAL_CALLS, *PDBGKD_QUERY_SPECIAL_CALLS;
typedef struct _DBGKD_SET_SPECIAL_CALL32 {
ULONG SpecialCall;
} DBGKD_SET_SPECIAL_CALL32, *PDBGKD_SET_SPECIAL_CALL32;
typedef struct _DBGKD_SET_SPECIAL_CALL64 {
ULONG64 SpecialCall;
} DBGKD_SET_SPECIAL_CALL64, *PDBGKD_SET_SPECIAL_CALL64;
__inline
void
DbgkdSetSpecialCall64To32(
IN PDBGKD_SET_SPECIAL_CALL64 r64,
OUT PDBGKD_SET_SPECIAL_CALL32 r32
)
{
r32->SpecialCall = (ULONG)r64->SpecialCall;
}
#define DBGKD_MAX_INTERNAL_BREAKPOINTS 20
typedef struct _DBGKD_SET_INTERNAL_BREAKPOINT32 {
ULONG BreakpointAddress;
ULONG Flags;
} DBGKD_SET_INTERNAL_BREAKPOINT32, *PDBGKD_SET_INTERNAL_BREAKPOINT32;
typedef struct _DBGKD_SET_INTERNAL_BREAKPOINT64 {
ULONG64 BreakpointAddress;
ULONG Flags;
} DBGKD_SET_INTERNAL_BREAKPOINT64, *PDBGKD_SET_INTERNAL_BREAKPOINT64;
__inline
void
DbgkdSetInternalBreakpoint64To32(
IN PDBGKD_SET_INTERNAL_BREAKPOINT64 r64,
OUT PDBGKD_SET_INTERNAL_BREAKPOINT32 r32
)
{
r32->BreakpointAddress = (ULONG)r64->BreakpointAddress;
r32->Flags = r64->Flags;
}
typedef struct _DBGKD_GET_INTERNAL_BREAKPOINT32 {
ULONG BreakpointAddress;
ULONG Flags;
ULONG Calls;
ULONG MaxCallsPerPeriod;
ULONG MinInstructions;
ULONG MaxInstructions;
ULONG TotalInstructions;
} DBGKD_GET_INTERNAL_BREAKPOINT32, *PDBGKD_GET_INTERNAL_BREAKPOINT32;
typedef struct _DBGKD_GET_INTERNAL_BREAKPOINT64 {
ULONG64 BreakpointAddress;
ULONG Flags;
ULONG Calls;
ULONG MaxCallsPerPeriod;
ULONG MinInstructions;
ULONG MaxInstructions;
ULONG TotalInstructions;
} DBGKD_GET_INTERNAL_BREAKPOINT64, *PDBGKD_GET_INTERNAL_BREAKPOINT64;
__inline
void
DbgkdGetInternalBreakpoint32To64(
IN PDBGKD_GET_INTERNAL_BREAKPOINT32 r32,
OUT PDBGKD_GET_INTERNAL_BREAKPOINT64 r64
)
{
COPYSE(r64,r32,BreakpointAddress);
r64->Flags = r32->Flags;
r64->Calls = r32->Calls;
r64->MaxCallsPerPeriod = r32->MaxCallsPerPeriod;
r64->MinInstructions = r32->MinInstructions;
r64->MaxInstructions = r32->MaxInstructions;
r64->TotalInstructions = r32->TotalInstructions;
}
__inline
void
DbgkdGetInternalBreakpoint64To32(
IN PDBGKD_GET_INTERNAL_BREAKPOINT64 r64,
OUT PDBGKD_GET_INTERNAL_BREAKPOINT32 r32
)
{
r32->BreakpointAddress = (ULONG)r64->BreakpointAddress;
r32->Flags = r64->Flags;
r32->Calls = r64->Calls;
r32->MaxCallsPerPeriod = r64->MaxCallsPerPeriod;
r32->MinInstructions = r64->MinInstructions;
r32->MaxInstructions = r64->MaxInstructions;
r32->TotalInstructions = r64->TotalInstructions;
}
#define DBGKD_INTERNAL_BP_FLAG_COUNTONLY 0x00000001 // don't count instructions
#define DBGKD_INTERNAL_BP_FLAG_INVALID 0x00000002 // disabled BP
#define DBGKD_INTERNAL_BP_FLAG_SUSPENDED 0x00000004 // temporarily suspended
#define DBGKD_INTERNAL_BP_FLAG_DYING 0x00000008 // kill on exit
//
// The packet protocol was widened to 64 bits in version 5.
// The PTR64 flag allows the debugger to read the right
// size of pointer when neccessary.
//
// The version packet was changed in the same revision, to remove the
// data that are now available in KDDEBUGGER_DATA.
//
// Version 6 adjusted the structures to use
// cross-platform versions all the time.
//
#define DBGKD_64BIT_PROTOCOL_VERSION1 5
#define DBGKD_64BIT_PROTOCOL_VERSION2 6
typedef struct _DBGKD_SEARCH_MEMORY {
union {
ULONG64 SearchAddress;
ULONG64 FoundAddress;
};
ULONG64 SearchLength;
ULONG PatternLength;
} DBGKD_SEARCH_MEMORY, *PDBGKD_SEARCH_MEMORY;
typedef struct _DBGKD_GET_SET_BUS_DATA {
ULONG BusDataType;
ULONG BusNumber;
ULONG SlotNumber;
ULONG Offset;
ULONG Length;
} DBGKD_GET_SET_BUS_DATA, *PDBGKD_GET_SET_BUS_DATA;
#define DBGKD_FILL_MEMORY_VIRTUAL 0x00000001
#define DBGKD_FILL_MEMORY_PHYSICAL 0x00000002
typedef struct _DBGKD_FILL_MEMORY {
ULONG64 Address;
ULONG Length;
USHORT Flags;
USHORT PatternLength;
} DBGKD_FILL_MEMORY, *PDBGKD_FILL_MEMORY;
// Input AddressSpace values.
#define DBGKD_QUERY_MEMORY_VIRTUAL 0x00000000
// Output AddressSpace values.
#define DBGKD_QUERY_MEMORY_PROCESS 0x00000000
#define DBGKD_QUERY_MEMORY_SESSION 0x00000001
#define DBGKD_QUERY_MEMORY_KERNEL 0x00000002
// Output Flags.
// Currently the kernel always returns rwx.
#define DBGKD_QUERY_MEMORY_READ 0x00000001
#define DBGKD_QUERY_MEMORY_WRITE 0x00000002
#define DBGKD_QUERY_MEMORY_EXECUTE 0x00000004
#define DBGKD_QUERY_MEMORY_FIXED 0x00000008
typedef struct _DBGKD_QUERY_MEMORY {
ULONG64 Address;
ULONG64 Reserved;
ULONG AddressSpace;
ULONG Flags;
} DBGKD_QUERY_MEMORY, *PDBGKD_QUERY_MEMORY;
#define DBGKD_PARTITION_DEFAULT 0x00000000
#define DBGKD_PARTITION_ALTERNATE 0x00000001
typedef struct _DBGKD_SWITCH_PARTITION {
ULONG Partition;
} DBGKD_SWITCH_PARTITION;
#include <pshpack4.h>
typedef struct _DBGKD_MANIPULATE_STATE32 {
ULONG ApiNumber;
USHORT ProcessorLevel;
USHORT Processor;
NTSTATUS ReturnStatus;
union {
DBGKD_READ_MEMORY32 ReadMemory;
DBGKD_WRITE_MEMORY32 WriteMemory;
DBGKD_READ_MEMORY64 ReadMemory64;
DBGKD_WRITE_MEMORY64 WriteMemory64;
DBGKD_GET_CONTEXT GetContext;
DBGKD_SET_CONTEXT SetContext;
DBGKD_WRITE_BREAKPOINT32 WriteBreakPoint;
DBGKD_RESTORE_BREAKPOINT RestoreBreakPoint;
DBGKD_CONTINUE Continue;
DBGKD_CONTINUE2 Continue2;
DBGKD_READ_WRITE_IO32 ReadWriteIo;
DBGKD_READ_WRITE_IO_EXTENDED32 ReadWriteIoExtended;
DBGKD_QUERY_SPECIAL_CALLS QuerySpecialCalls;
DBGKD_SET_SPECIAL_CALL32 SetSpecialCall;
DBGKD_SET_INTERNAL_BREAKPOINT32 SetInternalBreakpoint;
DBGKD_GET_INTERNAL_BREAKPOINT32 GetInternalBreakpoint;
DBGKD_GET_VERSION32 GetVersion32;
DBGKD_BREAKPOINTEX BreakPointEx;
DBGKD_READ_WRITE_MSR ReadWriteMsr;
DBGKD_SEARCH_MEMORY SearchMemory;
} u;
} DBGKD_MANIPULATE_STATE32, *PDBGKD_MANIPULATE_STATE32;
#include <poppack.h>
typedef struct _DBGKD_MANIPULATE_STATE64 {
ULONG ApiNumber;
USHORT ProcessorLevel;
USHORT Processor;
NTSTATUS ReturnStatus;
union {
DBGKD_READ_MEMORY64 ReadMemory;
DBGKD_WRITE_MEMORY64 WriteMemory;
DBGKD_GET_CONTEXT GetContext;
DBGKD_SET_CONTEXT SetContext;
DBGKD_WRITE_BREAKPOINT64 WriteBreakPoint;
DBGKD_RESTORE_BREAKPOINT RestoreBreakPoint;
DBGKD_CONTINUE Continue;
DBGKD_CONTINUE2 Continue2;
DBGKD_READ_WRITE_IO64 ReadWriteIo;
DBGKD_READ_WRITE_IO_EXTENDED64 ReadWriteIoExtended;
DBGKD_QUERY_SPECIAL_CALLS QuerySpecialCalls;
DBGKD_SET_SPECIAL_CALL64 SetSpecialCall;
DBGKD_SET_INTERNAL_BREAKPOINT64 SetInternalBreakpoint;
DBGKD_GET_INTERNAL_BREAKPOINT64 GetInternalBreakpoint;
DBGKD_GET_VERSION64 GetVersion64;
DBGKD_BREAKPOINTEX BreakPointEx;
DBGKD_READ_WRITE_MSR ReadWriteMsr;
DBGKD_SEARCH_MEMORY SearchMemory;
DBGKD_GET_SET_BUS_DATA GetSetBusData;
DBGKD_FILL_MEMORY FillMemory;
DBGKD_QUERY_MEMORY QueryMemory;
DBGKD_SWITCH_PARTITION SwitchPartition;
} u;
} DBGKD_MANIPULATE_STATE64, *PDBGKD_MANIPULATE_STATE64;
__inline
ULONG
DbgkdManipulateState32To64(
IN PDBGKD_MANIPULATE_STATE32 r32,
OUT PDBGKD_MANIPULATE_STATE64 r64,
OUT PULONG AdditionalDataSize
)
{
r64->ApiNumber = r32->ApiNumber;
r64->ProcessorLevel = r32->ProcessorLevel;
r64->Processor = r32->Processor;
r64->ReturnStatus = r32->ReturnStatus;
*AdditionalDataSize = 0;
//
// translate the messages which may be sent by the kernel
//
switch (r64->ApiNumber) {
case DbgKdSetContextApi:
case DbgKdRestoreBreakPointApi:
case DbgKdContinueApi:
case DbgKdContinueApi2:
case DbgKdRebootApi:
case DbgKdClearSpecialCallsApi:
case DbgKdRestoreBreakPointExApi:
case DbgKdCauseBugCheckApi:
case DbgKdSwitchProcessor:
case DbgKdWriteMachineSpecificRegister:
case DbgKdWriteIoSpaceApi:
case DbgKdSetSpecialCallApi:
case DbgKdSetInternalBreakPointApi:
case DbgKdWriteIoSpaceExtendedApi:
break;
case DbgKdReadMachineSpecificRegister:
r64->u.ReadWriteMsr = r32->u.ReadWriteMsr;
break;
//
// GetVersion may need to be handled by the calling code;
// it needs to call DbgkdGetVersion32To64 with the DebuggerDataBlock.
//
case DbgKdGetVersionApi:
break;
case DbgKdGetContextApi:
*AdditionalDataSize = sizeof(CONTEXT);
break;
//case DbgKdQuerySpecialCallsApi:
// r64->u.QuerySpecialCalls = r32->u.QuerySpecialCalls;
// *AdditionalDataSize = r64->u.QuerySpecialCalls.NumberOfSpecialCalls * sizeof(ULONG);
// break;
case DbgKdWriteBreakPointExApi:
r64->u.BreakPointEx = r32->u.BreakPointEx;
*AdditionalDataSize = r64->u.BreakPointEx.BreakPointCount * sizeof(ULONG);
break;
case DbgKdReadVirtualMemoryApi:
case DbgKdReadPhysicalMemoryApi:
case DbgKdReadControlSpaceApi:
DbgkdReadMemory32To64(&r32->u.ReadMemory, &r64->u.ReadMemory);
if (NT_SUCCESS(r32->ReturnStatus)) {
*AdditionalDataSize = r64->u.ReadMemory.ActualBytesRead;
}
break;
case DbgKdWriteVirtualMemoryApi:
case DbgKdWritePhysicalMemoryApi:
case DbgKdWriteControlSpaceApi:
DbgkdWriteMemory32To64(&r32->u.WriteMemory, &r64->u.WriteMemory);
break;
case DbgKdWriteBreakPointApi:
DbgkdWriteBreakpoint32To64(&r32->u.WriteBreakPoint, &r64->u.WriteBreakPoint);
break;
case DbgKdReadIoSpaceApi:
DbgkdReadWriteIo32To64(&r32->u.ReadWriteIo, &r64->u.ReadWriteIo);
break;
case DbgKdReadIoSpaceExtendedApi:
DbgkdReadWriteIoExtended32To64(&r32->u.ReadWriteIoExtended, &r64->u.ReadWriteIoExtended);
break;
case DbgKdGetInternalBreakPointApi:
DbgkdGetInternalBreakpoint32To64(&r32->u.GetInternalBreakpoint, &r64->u.GetInternalBreakpoint);
break;
case DbgKdSearchMemoryApi:
r64->u.SearchMemory = r32->u.SearchMemory;
break;
}
return sizeof(DBGKD_MANIPULATE_STATE64);
}
__inline
ULONG
DbgkdManipulateState64To32(
IN PDBGKD_MANIPULATE_STATE64 r64,
OUT PDBGKD_MANIPULATE_STATE32 r32
)
{
r32->ApiNumber = r64->ApiNumber;
r32->ProcessorLevel = r64->ProcessorLevel;
r32->Processor = r64->Processor;
r32->ReturnStatus = r64->ReturnStatus;
//
// translate the messages sent by the debugger
//
switch (r32->ApiNumber) {
//
// These send nothing in the u part.
case DbgKdGetContextApi:
case DbgKdSetContextApi:
case DbgKdClearSpecialCallsApi:
case DbgKdRebootApi:
case DbgKdCauseBugCheckApi:
case DbgKdSwitchProcessor:
break;
case DbgKdRestoreBreakPointApi:
r32->u.RestoreBreakPoint = r64->u.RestoreBreakPoint;
break;
case DbgKdContinueApi:
r32->u.Continue = r64->u.Continue;
break;
case DbgKdContinueApi2:
r32->u.Continue2 = r64->u.Continue2;
break;
//case DbgKdQuerySpecialCallsApi:
// r32->u.QuerySpecialCalls = r64->u.QuerySpecialCalls;
// break;
case DbgKdRestoreBreakPointExApi:
// NYI
break;
case DbgKdReadMachineSpecificRegister:
case DbgKdWriteMachineSpecificRegister:
r32->u.ReadWriteMsr = r64->u.ReadWriteMsr;
break;
case DbgKdGetVersionApi:
r32->u.GetVersion32.ProtocolVersion = r64->u.GetVersion64.ProtocolVersion;
break;
case DbgKdWriteBreakPointExApi:
r32->u.BreakPointEx = r64->u.BreakPointEx;
break;
case DbgKdWriteVirtualMemoryApi:
DbgkdWriteMemory64To32(&r64->u.WriteMemory, &r32->u.WriteMemory);
break;
//
// 32 bit systems only support 32 bit physical r/w
//
case DbgKdReadControlSpaceApi:
case DbgKdReadVirtualMemoryApi:
case DbgKdReadPhysicalMemoryApi:
DbgkdReadMemory64To32(&r64->u.ReadMemory, &r32->u.ReadMemory);
break;
case DbgKdWritePhysicalMemoryApi:
DbgkdWriteMemory64To32(&r64->u.WriteMemory, &r32->u.WriteMemory);
break;
case DbgKdWriteBreakPointApi:
DbgkdWriteBreakpoint64To32(&r64->u.WriteBreakPoint, &r32->u.WriteBreakPoint);
break;
case DbgKdWriteControlSpaceApi:
DbgkdWriteMemory64To32(&r64->u.WriteMemory, &r32->u.WriteMemory);
break;
case DbgKdReadIoSpaceApi:
case DbgKdWriteIoSpaceApi:
DbgkdReadWriteIo64To32(&r64->u.ReadWriteIo, &r32->u.ReadWriteIo);
break;
case DbgKdSetSpecialCallApi:
DbgkdSetSpecialCall64To32(&r64->u.SetSpecialCall, &r32->u.SetSpecialCall);
break;
case DbgKdSetInternalBreakPointApi:
DbgkdSetInternalBreakpoint64To32(&r64->u.SetInternalBreakpoint, &r32->u.SetInternalBreakpoint);
break;
case DbgKdGetInternalBreakPointApi:
DbgkdGetInternalBreakpoint64To32(&r64->u.GetInternalBreakpoint, &r32->u.GetInternalBreakpoint);
break;
case DbgKdReadIoSpaceExtendedApi:
case DbgKdWriteIoSpaceExtendedApi:
DbgkdReadWriteIoExtended64To32(&r64->u.ReadWriteIoExtended, &r32->u.ReadWriteIoExtended);
break;
case DbgKdSearchMemoryApi:
r32->u.SearchMemory = r64->u.SearchMemory;
break;
}
return sizeof(DBGKD_MANIPULATE_STATE32);
}
//
// This is the format for the trace data passed back from the kernel to
// the debugger to describe multiple calls that have returned since the
// last trip back. The basic format is that there are a bunch of these
// (4 byte) unions stuck together. Each union is of one of two types: a
// 4 byte unsigned long integer, or a three field struct, describing a
// call (where "call" is delimited by returning or exiting the symbol
// scope). If the number of instructions executed is too big to fit
// into a USHORT -1, then the Instructions field has
// TRACE_DATA_INSTRUCTIONS_BIG and the next union is a LongNumber
// containing the real number of instructions executed.
//
// The very first union returned in each callback is a LongNumber
// containing the number of unions returned (including the "size"
// record, so it's always at least 1 even if there's no data to return).
//
// This is all returned to the debugger when one of two things
// happens:
//
// 1) The pc moves out of all defined symbol ranges
// 2) The buffer of trace data entries is filled.
//
// The "trace done" case is hacked around on the debugger side. It
// guarantees that the pc address that indicates a trace exit never
// winds up in a defined symbol range.
//
// The only other complexity in this system is handling the SymbolNumber
// table. This table is kept in parallel by the kernel and the
// debugger. When the PC exits a known symbol range, the Begin and End
// symbol ranges are set by the debugger and are allocated to the next
// symbol slot upon return. "The next symbol slot" means the numerical
// next slot number, unless we've filled all slots, in which case it is
// #0. (ie., allocation is cyclic and not LRU or something). The
// SymbolNumber table is flushed when a SpecialCalls call is made (ie.,
// at the beginning of the WatchTrace).
//
typedef union _DBGKD_TRACE_DATA {
struct {
UCHAR SymbolNumber;
CHAR LevelChange;
USHORT Instructions;
} s;
ULONG LongNumber;
} DBGKD_TRACE_DATA, *PDBGKD_TRACE_DATA;
#define TRACE_DATA_INSTRUCTIONS_BIG 0xffff
#define TRACE_DATA_BUFFER_MAX_SIZE 40
//
// If the packet type is PACKET_TYPE_KD_DEBUG_IO, then
// the format of the packet data is as follows:
//
#define DbgKdPrintStringApi 0x00003230L
#define DbgKdGetStringApi 0x00003231L
//
// For print string, the Null terminated string to print
// immediately follows the message
//
typedef struct _DBGKD_PRINT_STRING {
ULONG LengthOfString;
} DBGKD_PRINT_STRING, *PDBGKD_PRINT_STRING;
//
// For get string, the Null terminated prompt string
// immediately follows the message. The LengthOfStringRead
// field initially contains the maximum number of characters
// to read. Upon reply, this contains the number of bytes actually
// read. The data read immediately follows the message.
//
//
typedef struct _DBGKD_GET_STRING {
ULONG LengthOfPromptString;
ULONG LengthOfStringRead;
} DBGKD_GET_STRING, *PDBGKD_GET_STRING;
typedef struct _DBGKD_DEBUG_IO {
ULONG ApiNumber;
USHORT ProcessorLevel;
USHORT Processor;
union {
DBGKD_PRINT_STRING PrintString;
DBGKD_GET_STRING GetString;
} u;
} DBGKD_DEBUG_IO, *PDBGKD_DEBUG_IO;
//
// If the packet type is PACKET_TYPE_KD_TRACE_IO, then
// the format of the packet data is as follows:
//
#define DbgKdPrintTraceApi 0x00003330L
//
// For print trace, the trace buffer data
// immediately follows the message
//
typedef struct _DBGKD_PRINT_TRACE {
ULONG LengthOfData;
} DBGKD_PRINT_TRACE, *PDBGKD_PRINT_TRACE;
typedef struct _DBGKD_TRACE_IO {
ULONG ApiNumber;
USHORT ProcessorLevel;
USHORT Processor;
union {
ULONG64 ReserveSpace[7];
DBGKD_PRINT_TRACE PrintTrace;
} u;
} DBGKD_TRACE_IO, *PDBGKD_TRACE_IO;
//
// If the packet type is PACKET_TYPE_KD_CONTROL_REQUEST, then
// the format of the packet data is as follows:
//
#define DbgKdRequestHardwareBp 0x00004300L
#define DbgKdReleaseHardwareBp 0x00004301L
typedef struct _DBGKD_REQUEST_BREAKPOINT {
ULONG HardwareBreakPointNumber;
ULONG Available;
} DBGKD_REQUEST_BREAKPOINT, *PDBGKD_REQUEST_BREAKPOINT;
typedef struct _DBGKD_RELEASE_BREAKPOINT {
ULONG HardwareBreakPointNumber;
ULONG Released;
} DBGKD_RELEASE_BREAKPOINT, *PDBGKD_RELEASE_BREAKPOINT;
typedef struct _DBGKD_CONTROL_REQUEST {
ULONG ApiNumber;
union {
DBGKD_REQUEST_BREAKPOINT RequestBreakpoint;
DBGKD_RELEASE_BREAKPOINT ReleaseBreakpoint;
} u;
} DBGKD_CONTROL_REQUEST, *PDBGKD_CONTROL_REQUEST;
//
// If the packet type is PACKET_TYPE_KD_FILE_IO, then
// the format of the packet data is as follows:
//
#define DbgKdCreateFileApi 0x00003430L
#define DbgKdReadFileApi 0x00003431L
#define DbgKdWriteFileApi 0x00003432L
#define DbgKdCloseFileApi 0x00003433L
// Unicode filename follows as additional data.
typedef struct _DBGKD_CREATE_FILE {
ULONG DesiredAccess;
ULONG FileAttributes;
ULONG ShareAccess;
ULONG CreateDisposition;
ULONG CreateOptions;
// Return values.
ULONG64 Handle;
ULONG64 Length;
} DBGKD_CREATE_FILE, *PDBGKD_CREATE_FILE;
// Data is returned as additional data in the response.
typedef struct _DBGKD_READ_FILE {
ULONG64 Handle;
ULONG64 Offset;
ULONG Length;
} DBGKD_READ_FILE, *PDBGKD_READ_FILE;
// Data is given as additional data.
typedef struct _DBGKD_WRITE_FILE {
ULONG64 Handle;
ULONG64 Offset;
ULONG Length;
} DBGKD_WRITE_FILE, *PDBGKD_WRITE_FILE;
typedef struct _DBGKD_CLOSE_FILE {
ULONG64 Handle;
} DBGKD_CLOSE_FILE, *PDBGKD_CLOSE_FILE;
typedef struct _DBGKD_FILE_IO {
ULONG ApiNumber;
NTSTATUS Status;
union {
ULONG64 ReserveSpace[7];
DBGKD_CREATE_FILE CreateFile;
DBGKD_READ_FILE ReadFile;
DBGKD_WRITE_FILE WriteFile;
DBGKD_CLOSE_FILE CloseFile;
} u;
} DBGKD_FILE_IO, *PDBGKD_FILE_IO;
//
// Define debug object access types. No security is present on this object.
//
#define DEBUG_READ_EVENT (0x0001)
#define DEBUG_PROCESS_ASSIGN (0x0002)
#define DEBUG_SET_INFORMATION (0x0004)
#define DEBUG_QUERY_INFORMATION (0x0008)
#define DEBUG_ALL_ACCESS (STANDARD_RIGHTS_REQUIRED|SYNCHRONIZE|DEBUG_READ_EVENT|DEBUG_PROCESS_ASSIGN|\
DEBUG_SET_INFORMATION|DEBUG_QUERY_INFORMATION)
#define DEBUG_KILL_ON_CLOSE (0x1) // Kill all debuggees on last handle close
typedef enum _DEBUGOBJECTINFOCLASS {
DebugObjectFlags = 1,
MaxDebugObjectInfoClass
} DEBUGOBJECTINFOCLASS, *PDEBUGOBJECTINFOCLASS;
NTSTATUS
NtRemoveProcessDebug (
IN HANDLE ProcessHandle,
IN HANDLE DebugObjectHandle
);
NTSTATUS
NtWaitForDebugEvent (
IN HANDLE DebugObjectHandle,
IN BOOLEAN Alertable,
IN PLARGE_INTEGER Timeout OPTIONAL,
OUT PDBGUI_WAIT_STATE_CHANGE WaitStateChange
);
NTSTATUS
NtDebugContinue (
IN HANDLE DebugObjectHandle,
IN PCLIENT_ID ClientId,
IN NTSTATUS ContinueStatus
);
NTSTATUS
NtCreateDebugObject (
OUT PHANDLE DebugObjectHandle,
IN ACCESS_MASK DesiredAccess,
IN POBJECT_ATTRIBUTES ObjectAttributes,
IN ULONG Flags
);
NTSTATUS
NtDebugActiveProcess (
IN HANDLE ProcessHandle,
IN HANDLE DebugObjectHandle
);
NTSTATUS
NtSetInformationDebugObject (
IN HANDLE DebugObjectHandle,
IN DEBUGOBJECTINFOCLASS DebugObjectInformationClass,
IN PVOID DebugInformation,
IN ULONG DebugInformationLength,
OUT PULONG ReturnLength OPTIONAL
);
#ifdef __cplusplus
}
#endif
#endif // _NTDBG_