/*++ Copyright (c) Microsoft Corporation. All rights reserved. Module Name: ntamd64.w Abstract: User mode visible AMD64 specific structures and constants. Author: David N. Cutler (davec) 4-May-2000 Revision History: --*/ #ifndef _NTAMD64_ #define _NTAMD64_ #if _MSC_VER > 1000 #pragma once #endif #ifdef __cplusplus extern "C" { #endif // begin_ntddk begin_wdm begin_nthal begin_winnt begin_ntminiport begin_wx86 #if defined(_AMD64_) // end_ntddk end_wdm end_nthal end_winnt end_ntminiport end_wx86 // // ?? 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 // // Define AMD64 specific control space. // typedef enum _DEBUG_CONTROL_SPACE_ITEM { DEBUG_CONTROL_SPACE_PCR, DEBUG_CONTROL_SPACE_PRCB, DEBUG_CONTROL_SPACE_KSPECIAL, DEBUG_CONTROL_SPACE_THREAD, DEBUG_CONTROL_SPACE_MAXIMUM } DEBUG_CONTROL_SPACE_ITEM; // // Define Address of User Shared Data. // #define MM_SHARED_USER_DATA_VA 0x7FFE0000 #define USER_SHARED_DATA ((KUSER_SHARED_DATA * const)MM_SHARED_USER_DATA_VA) // // Define address of the WOW64 reserved compatibility area. // #define WOW64_COMPATIBILITY_AREA_ADDRESS (MM_SHARED_USER_DATA_VA - 0x1000000) // // Define address of the system-wide csrss shared section. // #define CSR_SYSTEM_SHARED_ADDRESS (WOW64_COMPATIBILITY_AREA_ADDRESS) // begin_winnt begin_ntddk begin_wdm begin_nthal begin_ntndis begin_ntosp #if defined(_M_AMD64) && !defined(RC_INVOKED) && !defined(MIDL_PASS) // // Define bit test intrinsics. // #ifdef __cplusplus extern "C" { #endif #define BitTest _bittest #define BitTestAndComplement _bittestandcomplement #define BitTestAndSet _bittestandset #define BitTestAndReset _bittestandreset #define InterlockedBitTestAndSet _interlockedbittestandset #define InterlockedBitTestAndReset _interlockedbittestandreset #define BitTest64 _bittest64 #define BitTestAndComplement64 _bittestandcomplement64 #define BitTestAndSet64 _bittestandset64 #define BitTestAndReset64 _bittestandreset64 #define InterlockedBitTestAndSet64 _interlockedbittestandset64 #define InterlockedBitTestAndReset64 _interlockedbittestandreset64 BOOLEAN _bittest ( IN LONG *Base, IN LONG Offset ); BOOLEAN _bittestandcomplement ( IN LONG *Base, IN LONG Offset ); BOOLEAN _bittestandset ( IN LONG *Base, IN LONG Offset ); BOOLEAN _bittestandreset ( IN LONG *Base, IN LONG Offset ); BOOLEAN _interlockedbittestandset ( IN LONG *Base, IN LONG Offset ); BOOLEAN _interlockedbittestandreset ( IN LONG *Base, IN LONG Offset ); BOOLEAN _bittest64 ( IN LONG64 *Base, IN LONG64 Offset ); BOOLEAN _bittestandcomplement64 ( IN LONG64 *Base, IN LONG64 Offset ); BOOLEAN _bittestandset64 ( IN LONG64 *Base, IN LONG64 Offset ); BOOLEAN _bittestandreset64 ( IN LONG64 *Base, IN LONG64 Offset ); BOOLEAN _interlockedbittestandset64 ( IN LONG64 *Base, IN LONG64 Offset ); BOOLEAN _interlockedbittestandreset64 ( IN LONG64 *Base, IN LONG64 Offset ); #pragma intrinsic(_bittest) #pragma intrinsic(_bittestandcomplement) #pragma intrinsic(_bittestandset) #pragma intrinsic(_bittestandreset) #pragma intrinsic(_interlockedbittestandset) #pragma intrinsic(_interlockedbittestandreset) #pragma intrinsic(_bittest64) #pragma intrinsic(_bittestandcomplement64) #pragma intrinsic(_bittestandset64) #pragma intrinsic(_bittestandreset64) #pragma intrinsic(_interlockedbittestandset64) #pragma intrinsic(_interlockedbittestandreset64) // // Define bit scan intrinsics. // #define BitScanForward _BitScanForward #define BitScanReverse _BitScanReverse #define BitScanForward64 _BitScanForward64 #define BitScanReverse64 _BitScanReverse64 BOOLEAN _BitScanForward ( OUT ULONG *Index, IN ULONG Mask ); BOOLEAN _BitScanReverse ( OUT ULONG *Index, IN ULONG Mask ); BOOLEAN _BitScanForward64 ( OUT ULONG *Index, IN ULONG64 Mask ); BOOLEAN _BitScanReverse64 ( OUT ULONG *Index, IN ULONG64 Mask ); #pragma intrinsic(_BitScanForward) #pragma intrinsic(_BitScanReverse) #pragma intrinsic(_BitScanForward64) #pragma intrinsic(_BitScanReverse64) // // Define function to flush a cache line. // #define CacheLineFlush(Address) _mm_clflush(Address) VOID _mm_clflush ( PVOID Address ); #pragma intrinsic(_mm_clflush) // // Define memory fence intrinsics // #define LoadFence _mm_lfence #define MemoryFence _mm_mfence #define StoreFence _mm_sfence VOID _mm_lfence ( VOID ); VOID _mm_mfence ( VOID ); VOID _mm_sfence ( VOID ); void _mm_prefetch( CHAR CONST *a, int sel ); /* constants for use with _mm_prefetch */ #define _MM_HINT_T0 1 #define _MM_HINT_T1 2 #define _MM_HINT_T2 3 #define _MM_HINT_NTA 0 #pragma intrinsic(_mm_prefetch) #pragma intrinsic(_mm_lfence) #pragma intrinsic(_mm_mfence) #pragma intrinsic(_mm_sfence) #define YieldProcessor() #define MemoryBarrier _mm_mfence #define PreFetchCacheLine(l, a) _mm_prefetch((CHAR CONST *) a, l) // // PreFetchCacheLine level defines. // #define PF_TEMPORAL_LEVEL_1 _MM_HINT_T0 #define PF_NON_TEMPORAL_LEVEL_ALL _MM_HINT_NTA // // Define function to get the caller's EFLAGs value. // #define GetCallersEflags() __getcallerseflags() unsigned __int32 __getcallerseflags ( VOID ); #pragma intrinsic(__getcallerseflags) // // Define function to read the value of the time stamp counter // #define ReadTimeStampCounter() __rdtsc() ULONG64 __rdtsc ( VOID ); #pragma intrinsic(__rdtsc) // // Define functions to move strings as bytes, words, dwords, and qwords. // VOID __movsb ( IN PUCHAR Destination, IN PUCHAR Source, IN SIZE_T Count ); VOID __movsw ( IN PUSHORT Destination, IN PUSHORT Source, IN SIZE_T Count ); VOID __movsd ( IN PULONG Destination, IN PULONG Source, IN SIZE_T Count ); VOID __movsq ( IN PULONGLONG Destination, IN PULONGLONG Source, IN SIZE_T Count ); #pragma intrinsic(__movsb) #pragma intrinsic(__movsw) #pragma intrinsic(__movsd) #pragma intrinsic(__movsq) // // Define functions to store strings as bytes, words, dwords, and qwords. // VOID __stosb ( IN PUCHAR Destination, IN UCHAR Value, IN SIZE_T Count ); VOID __stosw ( IN PUSHORT Destination, IN USHORT Value, IN SIZE_T Count ); VOID __stosd ( IN PULONG Destination, IN ULONG Value, IN SIZE_T Count ); VOID __stosq ( IN PULONG64 Destination, IN ULONG64 Value, IN SIZE_T Count ); #pragma intrinsic(__stosb) #pragma intrinsic(__stosw) #pragma intrinsic(__stosd) #pragma intrinsic(__stosq) // // Define functions to capture the high 64-bits of a 128-bit multiply. // #define MultiplyHigh __mulh #define UnsignedMultiplyHigh __umulh LONGLONG MultiplyHigh ( IN LONGLONG Multiplier, IN LONGLONG Multiplicand ); ULONGLONG UnsignedMultiplyHigh ( IN ULONGLONG Multiplier, IN ULONGLONG Multiplicand ); #pragma intrinsic(__mulh) #pragma intrinsic(__umulh) // // Define functions to read and write the uer TEB and the system PCR/PRCB. // UCHAR __readgsbyte ( IN ULONG Offset ); USHORT __readgsword ( IN ULONG Offset ); ULONG __readgsdword ( IN ULONG Offset ); ULONG64 __readgsqword ( IN ULONG Offset ); VOID __writegsbyte ( IN ULONG Offset, IN UCHAR Data ); VOID __writegsword ( IN ULONG Offset, IN USHORT Data ); VOID __writegsdword ( IN ULONG Offset, IN ULONG Data ); VOID __writegsqword ( IN ULONG Offset, IN ULONG64 Data ); #pragma intrinsic(__readgsbyte) #pragma intrinsic(__readgsword) #pragma intrinsic(__readgsdword) #pragma intrinsic(__readgsqword) #pragma intrinsic(__writegsbyte) #pragma intrinsic(__writegsword) #pragma intrinsic(__writegsdword) #pragma intrinsic(__writegsqword) #ifdef __cplusplus } #endif #endif // defined(_M_AMD64) && !defined(RC_INVOKED) && !defined(MIDL_PASS) // end_winnt end_ntddk end_wdm end_nthal end_ntndis end_ntosp // begin_ntddk begin_nthal // // Size of kernel mode stack. // #define KERNEL_STACK_SIZE 0x6000 // // Define size of large kernel mode stack for callbacks. // #define KERNEL_LARGE_STACK_SIZE 0xf000 // // Define number of pages to initialize in a large kernel stack. // #define KERNEL_LARGE_STACK_COMMIT 0x5000 // // Define the size of the stack used for processing an MCA exception. // #define KERNEL_MCA_EXCEPTION_STACK_SIZE 0x2000 // end_ntddk end_nthal #define DOUBLE_FAULT_STACK_SIZE 0x2000 // begin_nthal // // Define stack alignment and rounding values. // #define STACK_ALIGN (16UI64) #define STACK_ROUND (STACK_ALIGN - 1) // // Define constants for system IDTs // #define MAXIMUM_IDTVECTOR 0xff #define MAXIMUM_PRIMARY_VECTOR 0xff #define PRIMARY_VECTOR_BASE 0x30 // 0-2f are AMD64 trap vectors // begin_winnt begin_ntddk begin_wx86 // // The following flags control the contents of the CONTEXT structure. // #if !defined(RC_INVOKED) #define CONTEXT_AMD64 0x100000 // end_wx86 #define CONTEXT_CONTROL (CONTEXT_AMD64 | 0x1L) #define CONTEXT_INTEGER (CONTEXT_AMD64 | 0x2L) #define CONTEXT_SEGMENTS (CONTEXT_AMD64 | 0x4L) #define CONTEXT_FLOATING_POINT (CONTEXT_AMD64 | 0x8L) #define CONTEXT_DEBUG_REGISTERS (CONTEXT_AMD64 | 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) // begin_wx86 #endif // !defined(RC_INVOKED) // // Define initial MxCsr control. // #define INITIAL_MXCSR 0x1f80 // initial MXCSR value // // Define 128-bit 16-byte aligned xmm register type. // typedef struct DECLSPEC_ALIGN(16) _M128 { ULONGLONG Low; LONGLONG High; } M128, *PM128; // // Format of data for fnsave/frstor instructions. // // This structure is used to store the legacy floating point state. // typedef struct _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]; } LEGACY_SAVE_AREA, *PLEGACY_SAVE_AREA; #define LEGACY_SAVE_AREA_LENGTH ((sizeof(LEGACY_SAVE_AREA) + 15) & ~15) // // Context Frame // // This frame has a several purposes: 1) it is used as an argument to // NtContinue, 2) is is used to constuct a call frame for APC delivery, // and 3) it is used in the user level thread creation routines. // // // The flags field within this record controls 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 threads // context, then only that portion of the threads context is modified. // // If the context record is used as an output parameter to capture the // context of a thread, then only those portions of the thread's context // corresponding to set flags will be returned. // // CONTEXT_CONTROL specifies SegSs, Rsp, SegCs, Rip, and EFlags. // // CONTEXT_INTEGER specifies Rax, Rcx, Rdx, Rbx, Rbp, Rsi, Rdi, and R8-R15. // // CONTEXT_SEGMENTS specifies SegDs, SegEs, SegFs, and SegGs. // // CONTEXT_DEBUG_REGISTERS specifies Dr0-Dr3 and Dr6-Dr7. // // CONTEXT_MMX_REGISTERS specifies the floating point and extended registers // Mm0/St0-Mm7/St7 and Xmm0-Xmm15). // typedef struct DECLSPEC_ALIGN(16) _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. // M128 Xmm0; M128 Xmm1; M128 Xmm2; M128 Xmm3; M128 Xmm4; M128 Xmm5; M128 Xmm6; M128 Xmm7; M128 Xmm8; M128 Xmm9; M128 Xmm10; M128 Xmm11; M128 Xmm12; M128 Xmm13; M128 Xmm14; M128 Xmm15; // // Legacy floating point state. // LEGACY_SAVE_AREA FltSave; ULONG Fill; // // Special debug control registers. // ULONG64 DebugControl; ULONG64 LastBranchToRip; ULONG64 LastBranchFromRip; ULONG64 LastExceptionToRip; ULONG64 LastExceptionFromRip; ULONG64 Fill1; } CONTEXT, *PCONTEXT; // end_ntddk end_nthal end_winnt end_wx86 #define CONTEXT_TO_PROGRAM_COUNTER(Context) ((Context)->Rip) #define PROGRAM_COUNTER_TO_CONTEXT(Context, ProgramCounter) \ ((Context)->Rip = (ProgramCounter)) #define CONTEXT_ALIGN STACK_ALIGN #define CONTEXT_LENGTH ((sizeof(CONTEXT) + STACK_ROUND) & ~STACK_ROUND) // // Nonvolatile context pointer record. // typedef struct _KNONVOLATILE_CONTEXT_POINTERS { union { PM128 FloatingContext[16]; struct { PM128 Xmm0; PM128 Xmm1; PM128 Xmm2; PM128 Xmm3; PM128 Xmm4; PM128 Xmm5; PM128 Xmm6; PM128 Xmm7; PM128 Xmm8; PM128 Xmm9; PM128 Xmm10; PM128 Xmm11; PM128 Xmm12; PM128 Xmm13; PM128 Xmm14; PM128 Xmm15; }; }; union { PULONG64 IntegerContext[16]; struct { PULONG64 Rax; PULONG64 Rcx; PULONG64 Rdx; PULONG64 Rbx; PULONG64 Rsp; PULONG64 Rbp; PULONG64 Rsi; PULONG64 Rdi; PULONG64 R8; PULONG64 R9; PULONG64 R10; PULONG64 R11; PULONG64 R12; PULONG64 R13; PULONG64 R14; PULONG64 R15; }; }; } KNONVOLATILE_CONTEXT_POINTERS, *PKNONVOLATILE_CONTEXT_POINTERS; // begin_wx86 begin_nthal // // GDT selector numbers. // // N.B. There is code in context swap that "cleanses" the user segment // registers ds, es, fs, and gs. If these values are changed or // added to, then it is very likely the code in context swap will // have to be change. // #define KGDT64_NULL (0 * 16) // NULL descriptor #define KGDT64_R0_CODE (1 * 16) // kernel mode 64-bit code #define KGDT64_R0_DATA (1 * 16) + 8 // kernel mode 64-bit data (stack) #define KGDT64_R3_CMCODE (2 * 16) // user mode 32-bit code #define KGDT64_R3_DATA (2 * 16) + 8 // user mode 32-bit data #define KGDT64_R3_CODE (3 * 16) // user mode 64-bit code #define KGDT64_SYS_TSS (4 * 16) // kernel mode system task state #define KGDT64_R3_CMTEB (5 * 16) // user mode 32-bit TEB #define KGDT64_LAST (6 * 16) #define KGDT_NUMBER KGDT_LAST // end_wx86 end_nthal // begin_ntddk begin_wdm begin_nthal #endif // _AMD64_ // end_ntddk end_wdm end_nthal // // Define AMD64 exception handling structures and function prototypes. // // Define unwind operation codes. // typedef enum _UNWIND_OP_CODES { UWOP_PUSH_NONVOL = 0, UWOP_ALLOC_LARGE, UWOP_ALLOC_SMALL, UWOP_SET_FPREG, UWOP_SAVE_NONVOL, UWOP_SAVE_NONVOL_FAR, UWOP_SAVE_XMM, UWOP_SAVE_XMM_FAR, UWOP_SAVE_XMM128, UWOP_SAVE_XMM128_FAR, UWOP_PUSH_MACHFRAME } UNWIND_OP_CODES, *PUNWIND_OP_CODES; // // Define unwind code structure. // typedef union _UNWIND_CODE { struct { UCHAR CodeOffset; UCHAR UnwindOp : 4; UCHAR OpInfo : 4; }; USHORT FrameOffset; } UNWIND_CODE, *PUNWIND_CODE; // // Define unwind information flags. // #define UNW_FLAG_NHANDLER 0x0 #define UNW_FLAG_EHANDLER 0x1 #define UNW_FLAG_UHANDLER 0x2 #define UNW_FLAG_CHAININFO 0x4 // // Define unwind information structure. // typedef struct _UNWIND_INFO { UCHAR Version : 3; UCHAR Flags : 5; UCHAR SizeOfProlog; UCHAR CountOfCodes; UCHAR FrameRegister : 4; UCHAR FrameOffset : 4; 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[]; // } UNWIND_INFO, *PUNWIND_INFO; // begin_winnt // // Define function table entry - a function table entry is generated for // each frame function. // typedef struct _RUNTIME_FUNCTION { ULONG BeginAddress; ULONG EndAddress; ULONG UnwindData; } RUNTIME_FUNCTION, *PRUNTIME_FUNCTION; // end_winnt // // Scope table structure definition. // typedef struct _SCOPE_TABLE { ULONG Count; struct { ULONG BeginAddress; ULONG EndAddress; ULONG HandlerAddress; ULONG JumpTarget; } ScopeRecord[1]; } SCOPE_TABLE, *PSCOPE_TABLE; // begin_winnt // // Define dynamic function table entry. // typedef PRUNTIME_FUNCTION (*PGET_RUNTIME_FUNCTION_CALLBACK) ( IN ULONG64 ControlPc, IN PVOID Context ); // end_winnt typedef enum _FUNCTION_TABLE_TYPE { RF_SORTED, RF_UNSORTED, RF_CALLBACK } FUNCTION_TABLE_TYPE; typedef struct _DYNAMIC_FUNCTION_TABLE { LIST_ENTRY ListEntry; PRUNTIME_FUNCTION FunctionTable; LARGE_INTEGER TimeStamp; ULONG64 MinimumAddress; ULONG64 MaximumAddress; ULONG64 BaseAddress; PGET_RUNTIME_FUNCTION_CALLBACK Callback; PVOID Context; PWSTR OutOfProcessCallbackDll; FUNCTION_TABLE_TYPE Type; ULONG EntryCount; } DYNAMIC_FUNCTION_TABLE, *PDYNAMIC_FUNCTION_TABLE; // begin_winnt typedef NTSTATUS (*POUT_OF_PROCESS_FUNCTION_TABLE_CALLBACK) ( IN HANDLE Process, IN PVOID TableAddress, OUT PULONG Entries, OUT PRUNTIME_FUNCTION* Functions ); #define OUT_OF_PROCESS_FUNCTION_TABLE_CALLBACK_EXPORT_NAME \ "OutOfProcessFunctionTableCallback" // end_winnt // // Define unwind history table structure. // #define UNWIND_HISTORY_TABLE_SIZE 12 typedef struct _UNWIND_HISTORY_TABLE_ENTRY { ULONG64 ImageBase; PRUNTIME_FUNCTION FunctionEntry; } UNWIND_HISTORY_TABLE_ENTRY, *PUNWIND_HISTORY_TABLE_ENTRY; #define UNWIND_HISTORY_TABLE_NONE 0 #define UNWIND_HISTORY_TABLE_GLOBAL 1 #define UNWIND_HISTORY_TABLE_LOCAL 2 typedef struct _UNWIND_HISTORY_TABLE { ULONG Count; UCHAR Search; ULONG64 LowAddress; ULONG64 HighAddress; UNWIND_HISTORY_TABLE_ENTRY Entry[UNWIND_HISTORY_TABLE_SIZE]; } UNWIND_HISTORY_TABLE, *PUNWIND_HISTORY_TABLE; // // Define exception dispatch context structure. // typedef struct _DISPATCHER_CONTEXT { ULONG64 ControlPc; ULONG64 ImageBase; PRUNTIME_FUNCTION FunctionEntry; ULONG64 EstablisherFrame; ULONG64 TargetIp; PCONTEXT ContextRecord; PEXCEPTION_ROUTINE LanguageHandler; PVOID HandlerData; PUNWIND_HISTORY_TABLE HistoryTable; } DISPATCHER_CONTEXT, *PDISPATCHER_CONTEXT; // begin_winnt // // Define runtime exception handling prototypes. // VOID RtlRestoreContext ( IN PCONTEXT ContextRecord, IN struct _EXCEPTION_RECORD *ExceptionRecord OPTIONAL ); // end_winnt VOID RtlInitializeHistoryTable ( VOID ); PRUNTIME_FUNCTION RtlLookupFunctionEntry ( IN ULONG64 ControlPc, OUT PULONG64 ImageBase, IN OUT PUNWIND_HISTORY_TABLE HistoryTable OPTIONAL ); PRUNTIME_FUNCTION RtlLookupFunctionTable ( IN PVOID ControlPc, OUT PVOID *ImageBase, OUT PULONG SizeOfTable ); PLIST_ENTRY RtlGetFunctionTableListHead ( VOID ); #if defined(_AMD64_) // begin_winnt BOOLEAN RtlAddFunctionTable ( IN PRUNTIME_FUNCTION FunctionTable, IN ULONG EntryCount, IN ULONG64 BaseAddress ); BOOLEAN RtlInstallFunctionTableCallback ( IN ULONG64 TableIdentifier, IN ULONG64 BaseAddress, IN ULONG Length, IN PGET_RUNTIME_FUNCTION_CALLBACK Callback, IN PVOID Context, IN PCWSTR OutOfProcessCallbackDll OPTIONAL ); BOOLEAN RtlDeleteFunctionTable ( IN PRUNTIME_FUNCTION FunctionTable ); #endif // _AMD64_ // end_winnt PEXCEPTION_ROUTINE RtlVirtualUnwind ( IN ULONG HandlerType, IN ULONG64 ImageBase, IN ULONG64 ControlPc, IN PRUNTIME_FUNCTION FunctionEntry, IN OUT PCONTEXT ContextRecord, OUT PVOID *HandlerData, OUT PULONG64 EstablisherFrame, IN OUT PKNONVOLATILE_CONTEXT_POINTERS ContextPointers OPTIONAL ); // // Define exception filter and termination handler function types. // typedef LONG (*PEXCEPTION_FILTER) ( struct _EXCEPTION_POINTERS *ExceptionPointers, PVOID EstablisherFrame ); typedef VOID (*PTERMINATION_HANDLER) ( BOOLEAN AbnormalTermination, PVOID EstablisherFrame ); // // Additional information supplied in QuerySectionInformation for images. // #define SECTION_ADDITIONAL_INFO_USED 0 #ifdef __cplusplus } #endif #endif // _NTAMD64_