singrdk/base/Kernel/Native/halkd.h

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///////////////////////////////////////////////////////////////////////////////
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//
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// Microsoft Research Singularity
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//
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// Copyright (c) Microsoft Corporation. All rights reserved.
//
// File: halkd.h
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//
#define IN
#define OUT
#define OPTIONAL
#define CONST const
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#if PTR_SIZE_32
#define SIGN_EXTEND(x) ((UINT64)(INT64)(INT32)(x))
#elif PTR_SIZE_64
#define SIGN_EXTEND(x) ((UINT64)(x))
#endif
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// NT Compat types
typedef BOOL BOOLEAN;
typedef char *PCHAR;
typedef char CHAR;
typedef UCHAR *PUCHAR;
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typedef UINT32 NTSTATUS;
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typedef struct _STRING {
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UINT16 Length;
UINT16 MaximumLength;
CHAR * Buffer;
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} STRING, *PSTRING;
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typedef struct _UNICODE_STRING {
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UINT16 Length;
UINT16 MaximumLength;
WCHAR * Buffer;
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} UNICODE_STRING;
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typedef struct _LIST_ENTRY {
struct _LIST_ENTRY *Flink;
struct _LIST_ENTRY *Blink;
} LIST_ENTRY, *PLIST_ENTRY;
//======================================================================
// Selected structs and defines used by the kernel debugger
//
typedef struct _KLDR_DATA_TABLE_ENTRY {
LIST_ENTRY InLoadOrderLinks;
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PVOID __Unused1;
PVOID __Unused2;
PVOID __Unused3;
PVOID NonPagedDebugInfo;
PVOID DllBase;
PVOID EntryPoint;
UINT32 SizeOfImage;
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UNICODE_STRING FullDllName;
UNICODE_STRING BaseDllName;
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UINT32 Flags;
UINT16 LoadCount;
UINT16 __Unused5;
PVOID SectionPointer;
UINT32 CheckSum;
// UINT32 padding on IA64
UINT32 TimeDateStamp;
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// PVOID LoadedImports;
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PVOID __Unused6;
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} KLDR_DATA_TABLE_ENTRY, *PKLDR_DATA_TABLE_ENTRY;
//======================================================================
// Selected structs and defines used by the KD protocol
//
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///////////////////////////////////////////////////////////////////////// X86.
//
#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
#define X86_DEBUG_CONTROL_SPACE_KSPECIAL 716
//////////////////////////////////////////////////////////////////////// IA64.
//
#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
//
// Aliases to keep old-timers comfortable with new-fangled code.
//
#define ALPHA_DBGKD_CONTROL_REPORT Struct_Microsoft_Singularity_Kd_AlphaKdControlReport
#define ALPHA_DBGKD_CONTROL_SET Struct_Microsoft_Singularity_Kd_AlphaKdControlSet
#define ARM_CONTEXT Struct_Microsoft_Singularity_Kd_ArmContext
#define ARM_DBGKD_CONTROL_REPORT Struct_Microsoft_Singularity_Kd_ArmKdControlReport
#define ARM_DBGKD_CONTROL_SET Struct_Microsoft_Singularity_Kd_ArmKdControlSet
#define ARM_KPROCESSOR_STATE Struct_Microsoft_Singularity_Kd_ArmKProcessorState
#define ARM_KSPECIAL_REGISTERS Struct_Microsoft_Singularity_Kd_ArmKSpecialRegisters
#define ARM_RUNTIME_FUNCTION Struct_Microsoft_Singularity_Kd_ArmRuntimeFunction
#define ARM_RUNTIME_FUNCTION_EXCEPTION Struct_Microsoft_Singularity_Kd_ArmRuntimeFunctionException
#define IA64_DBGKD_CONTROL_REPORT Struct_Microsoft_Singularity_Kd_Ia64KdControlReport
#define IA64_DBGKD_CONTROL_SET Struct_Microsoft_Singularity_Kd_Ia64KdControlSet
#define X64_CONTEXT Struct_Microsoft_Singularity_Kd_X64Context
#define X64_DBGKD_CONTROL_REPORT Struct_Microsoft_Singularity_Kd_X64KdControlReport
#define X64_DBGKD_CONTROL_SET Struct_Microsoft_Singularity_Kd_X64KdControlSet
#define X64_DESCRIPTOR Struct_Microsoft_Singularity_Kd_X64Descriptor
#define X64_KPROCESSOR_STATE Struct_Microsoft_Singularity_Kd_X64KProcessorState
#define X64_KSPECIAL_REGISTERS Struct_Microsoft_Singularity_Kd_X64KSpecialRegisters
#define X64_VECTOR_REGISTERS Struct_Microsoft_Singularity_Kd_X64VectorRegisters
#define X86_387_REGISTER Struct_Microsoft_Singularity_Kd_X86Fp387Register
#define X86_387_SAVE_AREA Struct_Microsoft_Singularity_Kd_X86Fp387SaveArea
#define X86_CONTEXT Struct_Microsoft_Singularity_Kd_X86Context
#define X86_DBGKD_CONTROL_REPORT Struct_Microsoft_Singularity_Kd_X86KdControlReport
#define X86_DBGKD_CONTROL_SET Struct_Microsoft_Singularity_Kd_X86KdControlSet
#define X86_DESCRIPTOR Struct_Microsoft_Singularity_Kd_X86Descriptor
#define X86_KPROCESSOR_STATE Struct_Microsoft_Singularity_Kd_X86KProcessorState
#define X86_KSPECIAL_REGISTERS Struct_Microsoft_Singularity_Kd_X86KSpecialRegisters
#define X86_SEGMENT_REGISTERS Struct_Microsoft_Singularity_Kd_X86SegmentRegisters
#define X86_UNALIGNED_128 Struct_Microsoft_Singularity_Kd_X86Unaligned128
#define X86_XMM_SAVE_AREA32 Struct_Microsoft_Singularity_Kd_X86XmmSaveArea32
#define EXCEPTION_RECORD64 Struct_Microsoft_Singularity_Kd_ExceptionRecord64
//////////////////////////////////////////////////////////////////// All ISAs.
//
#define CONTEXT_X86 0x00010000 // i386, etc.
#define CONTEXT_X64 0x00100000 // x64 context record is quite different
#define CONTEXT_ARM 0x00100000
#define CONTEXT_EXCEPTION_ACTIVE 0x08000000
#define CONTEXT_SERVICE_ACTIVE 0x10000000
#define CONTEXT_EXCEPTION_REQUEST 0x40000000
#define CONTEXT_EXCEPTION_REPORTING 0x80000000
#if ISA_IX86
#define CONTEXT_CONTROL (CONTEXT_X86 | 0x1L) // SS:SP, CS:IP, FLAGS, BP
#define CONTEXT_INTEGER (CONTEXT_X86 | 0x2L) // AX, BX, CX, DX, SI, DI
#define CONTEXT_SEGMENTS (CONTEXT_X86 | 0x4L) // DS, ES, FS, GS
#define CONTEXT_FLOATING_POINT (CONTEXT_X86 | 0x8L) // 387 state
#define CONTEXT_DEBUG_REGISTERS (CONTEXT_X86 | 0x10L) // DB 0-3,6,7
#define CONTEXT_EXTENDED_REGISTERS (CONTEXT_X86 | 0x20L) // cpu specific extensions
#define CONTEXT_FULL (CONTEXT_CONTROL | CONTEXT_INTEGER | CONTEXT_SEGMENTS)
#define CONTEXT_ALL (CONTEXT_CONTROL | CONTEXT_INTEGER | CONTEXT_SEGMENTS | CONTEXT_FLOATING_POINT | CONTEXT_DEBUG_REGISTERS | CONTEXT_EXTENDED_REGISTERS)
typedef X86_CONTEXT CONTEXT, *PCONTEXT;
typedef X86_KSPECIAL_REGISTERS KSPECIAL_REGISTERS, *PKSPECIAL_REGISTERS;
typedef X86_KPROCESSOR_STATE KPROCESSOR_STATE, *PKPROCESSOR_STATE;
typedef X86_DBGKD_CONTROL_REPORT DBGKD_CONTROL_REPORT, *PDBGKD_CONTROL_REPORT;
typedef X86_DBGKD_CONTROL_SET DBGKD_CONTROL_SET;
#define KDP_BREAKPOINT_TYPE uint8
#define KDP_BREAKPOINT_BUFFER sizeof(uint8)
#define KDP_BREAKPOINT_ALIGN 0
#define KDP_BREAKPOINT_INSTR_ALIGN 0
#define KDP_BREAKPOINT_VALUE 0xcc // int 3
#elif ISA_IX64
#define CONTEXT_CONTROL (CONTEXT_X64 | 0x1L)
#define CONTEXT_INTEGER (CONTEXT_X64 | 0x2L)
#define CONTEXT_SEGMENTS (CONTEXT_X64 | 0x4L)
#define CONTEXT_FLOATING_POINT (CONTEXT_X64 | 0x8L)
#define CONTEXT_DEBUG_REGISTERS (CONTEXT_X64 | 0x10L)
#define CONTEXT_FULL (CONTEXT_CONTROL | CONTEXT_INTEGER | CONTEXT_FLOATING_POINT)
#define CONTEXT_ALL (CONTEXT_CONTROL | CONTEXT_INTEGER | CONTEXT_SEGMENTS | CONTEXT_FLOATING_POINT | CONTEXT_DEBUG_REGISTERS)
typedef X64_CONTEXT CONTEXT, *PCONTEXT;
typedef X64_KSPECIAL_REGISTERS KSPECIAL_REGISTERS, *PKSPECIAL_REGISTERS;
typedef X64_KPROCESSOR_STATE KPROCESSOR_STATE, *PKPROCESSOR_STATE;
typedef X64_DBGKD_CONTROL_REPORT DBGKD_CONTROL_REPORT, *PDBGKD_CONTROL_REPORT;
typedef X64_DBGKD_CONTROL_SET DBGKD_CONTROL_SET;
#define KDP_BREAKPOINT_TYPE uint8
#define KDP_BREAKPOINT_BUFFER sizeof(uint8)
#define KDP_BREAKPOINT_ALIGN 0
#define KDP_BREAKPOINT_INSTR_ALIGN 0
#define KDP_BREAKPOINT_VALUE 0xcc // int 3
#elif ISA_ARM
#define CONTEXT_CONTROL (CONTEXT_ARM | 0x1L)
#define CONTEXT_INTEGER (CONTEXT_ARM | 0x2L)
#define CONTEXT_FLOATING_POINT (CONTEXT_ARM | 0x4L)
#define CONTEXT_DEBUG_REGISTERS (CONTEXT_ARM | 0x8L)
#define CONTEXT_FULL (CONTEXT_CONTROL | CONTEXT_INTEGER | CONTEXT_FLOATING_POINT)
#define CONTEXT_ALL (CONTEXT_CONTROL | CONTEXT_INTEGER | CONTEXT_FLOATING_POINT | CONTEXT_DEBUG_REGISTERS)
typedef ARM_CONTEXT CONTEXT, *PCONTEXT;
typedef ARM_KSPECIAL_REGISTERS KSPECIAL_REGISTERS, *PKSPECIAL_REGISTERS;
typedef ARM_KPROCESSOR_STATE KPROCESSOR_STATE, *PKPROCESSOR_STATE;
typedef ARM_DBGKD_CONTROL_REPORT DBGKD_CONTROL_REPORT, *PDBGKD_CONTROL_REPORT;
typedef ARM_DBGKD_CONTROL_SET DBGKD_CONTROL_SET;
#define KDP_BREAKPOINT_TYPE UINT32
#define KDP_BREAKPOINT_BUFFER sizeof(UINT32)
#define KDP_BREAKPOINT_ALIGN 4
#define KDP_BREAKPOINT_INSTR_ALIGN 4
#define KDP_BREAKPOINT_VALUE 0xefffff01 // swi 0xffff01
#endif
//-----> From winnt.h#3566
//#pragma pack(pop)
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//
// Values put in ExceptionRecord.ExceptionInformation[0]
// First parameter is always in ExceptionInformation[1],
// Second parameter is always in ExceptionInformation[2]
//
#define BREAKPOINT_BREAK 0
#define BREAKPOINT_PRINT 1
#define BREAKPOINT_PROMPT 2
#define BREAKPOINT_LOAD_SYMBOLS 3
#define BREAKPOINT_UNLOAD_SYMBOLS 4
#define BREAKPOINT_COMMAND_STRING 5
// Don't care what these point to!
typedef void *PKTRAP_FRAME;
typedef void *PKEXCEPTION_FRAME;
//
// Processor modes.
//
typedef CHAR KPROCESSOR_MODE;
typedef enum _MODE {
KernelMode,
UserMode,
MaximumMode
} MODE;
typedef struct _DBGKM_EXCEPTION64 {
EXCEPTION_RECORD64 ExceptionRecord;
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UINT32 FirstChance;
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} DBGKM_EXCEPTION64, *PDBGKM_EXCEPTION64;
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typedef struct _DBGKD_ANY_CONTROL_REPORT {
union {
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X86_DBGKD_CONTROL_REPORT X86ControlReport;
ALPHA_DBGKD_CONTROL_REPORT AlphaControlReport;
IA64_DBGKD_CONTROL_REPORT IA64ControlReport;
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X64_DBGKD_CONTROL_REPORT X64ControlReport;
ARM_DBGKD_CONTROL_REPORT ARMControlReport;
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};
} DBGKD_ANY_CONTROL_REPORT, *PDBGKD_ANY_CONTROL_REPORT;
typedef struct _DBGKD_LOAD_SYMBOLS64 {
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UINT32 PathNameLength;
UINT64 BaseOfDll;
UINT64 ProcessId;
UINT32 CheckSum;
UINT32 SizeOfImage;
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BOOLEAN UnloadSymbols;
} DBGKD_LOAD_SYMBOLS64, *PDBGKD_LOAD_SYMBOLS64;
typedef struct _DBGKD_COMMAND_STRING {
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UINT32 Flags;
UINT32 Reserved1;
UINT64 Reserved2[7];
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} DBGKD_COMMAND_STRING, *PDBGKD_COMMAND_STRING;
// Protocol version 6 state change.
typedef struct _DBGKD_ANY_WAIT_STATE_CHANGE {
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UINT32 NewState;
UINT16 ProcessorLevel;
UINT16 Processor;
UINT32 NumberProcessors;
UINT64 Thread;
UINT64 ProgramCounter;
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union {
DBGKM_EXCEPTION64 Exception;
DBGKD_LOAD_SYMBOLS64 LoadSymbols;
DBGKD_COMMAND_STRING CommandString;
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};
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// 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;
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#define DEBUG_CONTROL_SPACE_KSPECIAL 2
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typedef struct _DBGKD_READ_MEMORY64 {
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UINT64 TargetBaseAddress;
UINT32 TransferCount;
UINT32 ActualBytesRead;
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} DBGKD_READ_MEMORY64, *PDBGKD_READ_MEMORY64;
typedef struct _DBGKD_WRITE_MEMORY64 {
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UINT64 TargetBaseAddress;
UINT32 TransferCount;
UINT32 ActualBytesWritten;
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} DBGKD_WRITE_MEMORY64, *PDBGKD_WRITE_MEMORY64;
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typedef struct _DBGKD_READ_WRITE_IO64 {
UINT64 IoAddress;
UINT32 DataSize; // 1, 2, 4
UINT32 DataValue;
} DBGKD_READ_WRITE_IO64, *PDBGKD_READ_WRITE_IO64;
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//
// Response is a get context message with a full context record following
//
typedef struct _DBGKD_GET_CONTEXT {
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UINT32 Unused;
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} DBGKD_GET_CONTEXT, *PDBGKD_GET_CONTEXT;
//
// Full Context record follows
//
typedef struct _DBGKD_SET_CONTEXT {
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UINT32 ContextFlags;
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} DBGKD_SET_CONTEXT, *PDBGKD_SET_CONTEXT;
//
// Define breakpoint table entry structure.
//
#define KD_BREAKPOINT_IN_USE 0x00000001
#define KD_BREAKPOINT_NEEDS_WRITE 0x00000002
#define KD_BREAKPOINT_SUSPENDED 0x00000004
#define KD_BREAKPOINT_NEEDS_REPLACE 0x00000008
typedef struct _BREAKPOINT_ENTRY {
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UINT32 Flags;
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ULONG_PTR DirectoryTableBase;
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PVOID Address;
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KDP_BREAKPOINT_TYPE Content;
} BREAKPOINT_ENTRY, *PBREAKPOINT_ENTRY;
#define BREAKPOINT_TABLE_SIZE 32 // max number supported by kernel
typedef struct _DBGKD_WRITE_BREAKPOINT32 {
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UINT32 BreakPointAddress;
UINT32 BreakPointHandle;
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} DBGKD_WRITE_BREAKPOINT32, *PDBGKD_WRITE_BREAKPOINT32;
typedef struct _DBGKD_WRITE_BREAKPOINT64 {
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UINT64 BreakPointAddress;
UINT32 BreakPointHandle;
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} DBGKD_WRITE_BREAKPOINT64, *PDBGKD_WRITE_BREAKPOINT64;
typedef struct _DBGKD_RESTORE_BREAKPOINT {
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UINT32 BreakPointHandle;
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} DBGKD_RESTORE_BREAKPOINT, *PDBGKD_RESTORE_BREAKPOINT;
typedef struct _DBGKD_CONTINUE {
NTSTATUS ContinueStatus;
} DBGKD_CONTINUE, *PDBGKD_CONTINUE;
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typedef struct _DBGKD_ANY_CONTROL_SET {
union {
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X86_DBGKD_CONTROL_SET X86ControlSet;
ALPHA_DBGKD_CONTROL_SET AlphaControlSet;
IA64_DBGKD_CONTROL_SET IA64ControlSet;
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X64_DBGKD_CONTROL_SET X64ControlSet;
ARM_DBGKD_CONTROL_SET ARMControlSet;
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};
} DBGKD_ANY_CONTROL_SET, *PDBGKD_ANY_CONTROL_SET;
// This structure must be 32-bit packed for
// for compatibility with older, processor-specific
// versions of this structure.
typedef struct _DBGKD_CONTINUE2 {
// The ANY control set is unioned here to
// ensure that this structure is always large
// enough to hold any possible continue.
union {
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NTSTATUS ContinueStatus;
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DBGKD_CONTROL_SET ControlSet;
DBGKD_ANY_CONTROL_SET AnyControlSet;
};
} DBGKD_CONTINUE2, *PDBGKD_CONTINUE2;
//
// MSR support
//
typedef struct _DBGKD_READ_WRITE_MSR {
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UINT32 Msr;
UINT32 DataValueLow;
UINT32 DataValueHigh;
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} DBGKD_READ_WRITE_MSR, *PDBGKD_READ_WRITE_MSR;
typedef struct _DBGKD_GET_VERSION64 {
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UINT16 MajorVersion;
UINT16 MinorVersion;
UINT16 ProtocolVersion;
UINT16 Flags;
UINT16 MachineType;
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//
// Protocol command support descriptions.
// These allow the debugger to automatically
// adapt to different levels of command support
// in different kernels.
//
// One beyond highest packet type understood, zero based.
UCHAR MaxPacketType;
// One beyond highest state change understood, zero based.
UCHAR MaxStateChange;
// One beyond highest state manipulate message understood, zero based.
UCHAR MaxManipulate;
// Kind of execution environment the kernel is running in,
// such as a real machine or a simulator. Written back
// by the simulation if one exists.
UCHAR Simulation;
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UINT16 Unused[1];
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UINT64 KernBase;
UINT64 PsLoadedModuleList;
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//
// Components may register a debug data block for use by
// debugger extensions. This is the address of the list head.
//
// There will always be an entry for the debugger.
//
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UINT64 DebuggerDataList;
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} DBGKD_GET_VERSION64, *PDBGKD_GET_VERSION64;
typedef struct _DBGKD_MANIPULATE_STATE64 {
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UINT32 ApiNumber;
UINT16 ProcessorLevel;
UINT16 Processor;
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NTSTATUS ReturnStatus;
union {
DBGKD_READ_MEMORY64 ReadMemory;
DBGKD_WRITE_MEMORY64 WriteMemory;
DBGKD_GET_VERSION64 GetVersion64;
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_MSR ReadWriteMsr;
DBGKD_READ_WRITE_IO64 ReadWriteIo;
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#if 0
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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_BREAKPOINTEX BreakPointEx;
DBGKD_SEARCH_MEMORY SearchMemory;
DBGKD_GET_SET_BUS_DATA GetSetBusData;
DBGKD_FILL_MEMORY FillMemory;
DBGKD_QUERY_MEMORY QueryMemory;
DBGKD_SWITCH_PARTITION SwitchPartition;
#endif
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};
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} DBGKD_MANIPULATE_STATE64, *PDBGKD_MANIPULATE_STATE64;
//
// 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 {
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UINT32 LengthOfString;
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} 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 {
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UINT32 LengthOfPromptString;
UINT32 LengthOfStringRead;
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} DBGKD_GET_STRING, *PDBGKD_GET_STRING;
typedef struct _DBGKD_DEBUG_IO {
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UINT32 ApiNumber;
UINT16 ProcessorLevel;
UINT16 Processor;
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union {
DBGKD_PRINT_STRING PrintString;
DBGKD_GET_STRING GetString;
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};
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} DBGKD_DEBUG_IO, *PDBGKD_DEBUG_IO;
//
// 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 {
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UINT32 PacketLeader;
UINT16 PacketType;
UINT16 ByteCount;
UINT32 PacketId;
UINT32 Checksum;
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} 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
// State change constants
#define DbgKdMinimumStateChange 0x00003030L
#define DbgKdExceptionStateChange 0x00003030L
#define DbgKdLoadSymbolsStateChange 0x00003031L
#define DbgKdCommandStringStateChange 0x00003032L
#define DbgKdMaximumStateChange 0x00003033L
//
// 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
typedef struct _KD_CONTEXT {
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UINT32 KdpDefaultRetries;
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BOOLEAN KdpControlCPending;
} KD_CONTEXT, *PKD_CONTEXT;
typedef enum {
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ContinueError = 0,
ContinueSuccess = 1,
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ContinueProcessorReselected,
ContinueNextProcessor
} KCONTINUE_STATUS;
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//
// 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 {
UINT32 DesiredAccess;
UINT32 FileAttributes;
UINT32 ShareAccess;
UINT32 CreateDisposition;
UINT32 CreateOptions;
// Return values.
UINT64 Handle;
UINT64 Length;
} DBGKD_CREATE_FILE, *PDBGKD_CREATE_FILE;
// Data is returned as additional data in the response.
typedef struct _DBGKD_READ_FILE {
UINT64 Handle;
UINT64 Offset;
UINT32 Length;
} DBGKD_READ_FILE, *PDBGKD_READ_FILE;
// Data is given as additional data.
typedef struct _DBGKD_WRITE_FILE {
UINT64 Handle;
UINT64 Offset;
UINT32 Length;
} DBGKD_WRITE_FILE, *PDBGKD_WRITE_FILE;
typedef struct _DBGKD_CLOSE_FILE {
UINT64 Handle;
} DBGKD_CLOSE_FILE, *PDBGKD_CLOSE_FILE;
typedef struct _DBGKD_FILE_IO {
UINT32 ApiNumber;
NTSTATUS Status;
union {
UINT64 ReserveSpace[7];
DBGKD_CREATE_FILE CreateFile;
DBGKD_READ_FILE ReadFile;
DBGKD_WRITE_FILE WriteFile;
DBGKD_CLOSE_FILE CloseFile;
};
} DBGKD_FILE_IO, *PDBGKD_FILE_IO;
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//
// status Constants for Packet waiting
//
typedef enum {
KDP_PACKET_RECEIVED = 0,
KDP_PACKET_TIMEOUT = 1,
KDP_PACKET_RESEND = 2
} KDP_STATUS;
//
// Status Constants for reading data from comport
//
#define STATUS_SUCCESS ((NTSTATUS)0x00000000L) // ntsubauth
#define STATUS_VCPP_EXCEPTION ((NTSTATUS)0x406d1388L)
#define STATUS_CPP_EH_EXCEPTION ((NTSTATUS)0xe06d7363L)
// The operation that was requested is pending completion.
#define STATUS_PENDING ((NTSTATUS)0x00000103L) // winnt
// The requested operation was unsuccessful.
#define STATUS_UNSUCCESSFUL ((NTSTATUS)0xC0000001L)
// The instruction at "0x%08lx" referenced memory at "0x%08lx". The memory could not be "%s".
#define STATUS_ACCESS_VIOLATION ((NTSTATUS)0xC0000005L) // winnt
// Illegal Instruction: An attempt was made to execute an illegal instruction.
#define STATUS_ILLEGAL_INSTRUCTION ((NTSTATUS)0xC000001DL) // winnt
// {Application Error}:
// The exception %s (0x%08lx) occurred in the application at location 0x%08lx.
//
#define STATUS_UNHANDLED_EXCEPTION ((NTSTATUS)0xC0000144L)
// {EXCEPTION}: Breakpoint: A breakpoint has been reached.
#define STATUS_BREAKPOINT ((NTSTATUS)0x80000003L) // winnt
//
// MessageId: STATUS_SINGLE_STEP
//
// MessageText:
//
// {EXCEPTION}
// Single Step
// A single step or trace operation has just been completed.
//
#define STATUS_SINGLE_STEP ((NTSTATUS)0x80000004L) // winnt
//
// MessageId: STATUS_WAKE_SYSTEM_DEBUGGER
//
// MessageText:
//
// {EXCEPTION}
// Kernel Debugger Awakened
// The system debugger was awakened by an interrupt.
//
#define STATUS_WAKE_SYSTEM_DEBUGGER ((NTSTATUS)0x80000007L) // winnt
#define DBGKD_64BIT_PROTOCOL_VERSION2 6
//
// If DBGKD_VERS_FLAG_DATA is set in Flags, info should be retrieved from
// the KDDEBUGGER_DATA block rather than from the DBGKD_GET_VERSION
// packet. The data will remain in the version packet for a while to
// reduce compatibility problems.
//
#define DBGKD_VERS_FLAG_MP 0x0001 // kernel is MP built
#define DBGKD_VERS_FLAG_DATA 0x0002 // DebuggerDataList is valid
#define DBGKD_VERS_FLAG_PTR64 0x0004 // native pointers are 64 bits
#define DBGKD_VERS_FLAG_NOMM 0x0008 // No MM - don't decode PTEs
#define DBGKD_VERS_FLAG_HSS 0x0010 // hardware stepping support
#define DBGKD_VERS_FLAG_PARTITIONS 0x0020 // multiple OS partitions exist
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#define IMAGE_FILE_MACHINE_X86 0x014c // Intel 386, etc.
#define IMAGE_FILE_MACHINE_X64 0x8664 // AMD64 (K8), etc.
#define IMAGE_FILE_MACHINE_ARM 0x01c0 // Little endian ARM w/ Thumb
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//
// KD version MajorVersion high-byte identifiers.
//
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typedef enum _DBGKD_MAJOR_TYPES {
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DBGKD_MAJOR_NT,
DBGKD_MAJOR_XBOX,
DBGKD_MAJOR_BIG,
DBGKD_MAJOR_EXDI,
DBGKD_MAJOR_NTBD,
DBGKD_MAJOR_EFI,
DBGKD_MAJOR_TNT,
DBGKD_MAJOR_SINGULARITY,
DBGKD_MAJOR_COUNT
} DBGKD_MAJOR_TYPES;
#define DBGKD_MAJOR_TYPE(MajorVersion) \
((DBGKD_MAJOR_TYPES)((MajorVersion) >> 8))
#define MMDBG_COPY_WRITE 0x00000001
#define MMDBG_COPY_PHYSICAL 0x00000002
#define MMDBG_COPY_UNSAFE 0x00000004
#define MMDBG_COPY_CACHED 0x00000008
#define MMDBG_COPY_UNCACHED 0x00000010
#define MMDBG_COPY_WRITE_COMBINED 0x00000020
#define MMDBG_COPY_MAX_SIZE 8
//////////////////////////////////////////////////////////////////////////////
//
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void KdInitialize(Class_Microsoft_Singularity_Hal_Platform *platform);
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void KdPutChar(char c);
void kdprintf(const char * pszFmt, ...); // Low level debug (to screen) only.
void kdprints(const char * pszFmt); // Low level debug (to screen) only.
void KdpSpin();
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UINT32 KdpComputeChecksum(IN PCHAR Buffer, IN UINT32 Length);
bool KdpSerialInit(Class_Microsoft_Singularity_Hal_Platform *nbi);
KDP_STATUS KdpSerialGetByte(OUT PUCHAR Input, BOOL WaitForByte);
void KdpSerialPutByte(IN UCHAR Output);
void KdpSerialSendPacket(UINT32 PacketType,
IN PSTRING MessageHeader,
IN PSTRING MessageData OPTIONAL,
IN OUT PKD_CONTEXT KdContext);
KDP_STATUS KdpSerialReceivePacket(IN UINT32 PacketType,
OUT PSTRING MessageHeader,
OUT PSTRING MessageData,
OUT UINT32 * DataLength,
IN OUT PKD_CONTEXT KdContext);
bool KdpSerialPollBreakIn();
bool Kdp1394Init(UINT16 Channel, ULONG_PTR Base, ULONG_PTR BufferAddr32, UINT32 BufferSize32);
void Kdp1394SendPacket(UINT32 PacketType,
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IN PSTRING MessageHeader,
IN PSTRING MessageData OPTIONAL,
IN OUT PKD_CONTEXT KdContext);
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KDP_STATUS Kdp1394ReceivePacket(IN UINT32 PacketType,
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OUT PSTRING MessageHeader,
OUT PSTRING MessageData,
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OUT UINT32 * DataLength,
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IN OUT PKD_CONTEXT KdContext);
bool Kdp1394PollBreakIn();
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///////////////////////////////////////////////// Processor Specific Routines.
//
bool KdpDisableInterruptsInline();
void KdpRestoreInterruptsInline(bool enabled);
void KdpPause();
void KdpFlushInstCache();
bool KdpReadMsr(UINT32 msr, OUT UINT32 *plo, OUT UINT32 *phi);
bool KdpWriteMsr(UINT32 msr, UINT32 lo, UINT32 hi);
void KdpToKdContext(IN CONST Struct_Microsoft_Singularity_Isal_SpillContext *singularity,
OUT CONTEXT *windbg);
void KdpFromKdContext(IN CONST CONTEXT *windbg,
OUT Struct_Microsoft_Singularity_Isal_SpillContext *singularity);
void KdpSetControlReport(IN OUT PDBGKD_CONTROL_REPORT report,
IN CONST Struct_Microsoft_Singularity_Isal_SpillContext *x86Context);
void KdpSetControlSet(IN CONST DBGKD_CONTROL_SET * control,
IN OUT Struct_Microsoft_Singularity_Isal_SpillContext *x86Context);
void KdpReadSpecialRegisters(OUT KSPECIAL_REGISTERS *pksp,
IN CONST Struct_Microsoft_Singularity_Isal_SpillContext *x86Context);
void KdpWriteSpecialRegisters(IN CONST KSPECIAL_REGISTERS *pksp);
KdDebugTrapData * KdpIsDebugTrap(IN CONST Struct_Microsoft_Singularity_Isal_SpillContext *context,
int id);
void KdpConvertTrapToException(IN OUT EXCEPTION_RECORD64 *per,
IN OUT Struct_Microsoft_Singularity_Isal_SpillContext *context,
int id);
int KdpReadWriteIoSpace(int size, int iowrite, unsigned short addr, unsigned int value);
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//////////////////////////////////////////////////////////// Shared Variables.
//
extern BOOL KdDebuggerNotPresent;
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extern UINT32 KdCompNumberRetries;
extern UINT32 KdCompRetryCount;
extern UINT32 KdPacketId;
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///////////////////////////////////////////////////////////////// End of File.