/*++ BUILD Version: 0081 Increment this if a change has global effects Copyright (c) Microsoft Corporation. All rights reserved. Module Name: winnt.h Abstract: This module defines the 32-Bit Windows types and constants that are defined by NT, but exposed through the Win32 API. Revision History: --*/ #ifndef _WINNT_ #define _WINNT_ #ifdef __cplusplus extern "C" { #endif #include #define ANYSIZE_ARRAY 1 #if defined(_M_MRX000) && !(defined(MIDL_PASS) || defined(RC_INVOKED)) && defined(ENABLE_RESTRICTED) #define RESTRICTED_POINTER __restrict #else #define RESTRICTED_POINTER #endif #if defined(_M_MRX000) || defined(_M_ALPHA) || defined(_M_PPC) || defined(_M_IA64) || defined(_M_AMD64) #define UNALIGNED __unaligned #if defined(_WIN64) #define UNALIGNED64 __unaligned #else #define UNALIGNED64 #endif #else #define UNALIGNED #define UNALIGNED64 #endif #if defined(_WIN64) || defined(_M_ALPHA) #define MAX_NATURAL_ALIGNMENT sizeof(ULONGLONG) #define MEMORY_ALLOCATION_ALIGNMENT 16 #else #define MAX_NATURAL_ALIGNMENT sizeof(DWORD) #define MEMORY_ALLOCATION_ALIGNMENT 8 #endif // // TYPE_ALIGNMENT will return the alignment requirements of a given type for // the current platform. // #ifdef __cplusplus #if _MSC_VER >= 1300 #define TYPE_ALIGNMENT( t ) __alignof(t) #endif #else #define TYPE_ALIGNMENT( t ) \ FIELD_OFFSET( struct { char x; t test; }, test ) #endif #if defined(_WIN64) #define PROBE_ALIGNMENT( _s ) (TYPE_ALIGNMENT( _s ) > TYPE_ALIGNMENT( DWORD ) ? \ TYPE_ALIGNMENT( _s ) : TYPE_ALIGNMENT( DWORD )) #define PROBE_ALIGNMENT32( _s ) TYPE_ALIGNMENT( DWORD ) #else #define PROBE_ALIGNMENT( _s ) TYPE_ALIGNMENT( DWORD ) #endif // // C_ASSERT() can be used to perform many compile-time assertions: // type sizes, field offsets, etc. // // An assertion failure results in error C2118: negative subscript. // #define C_ASSERT(e) typedef char __C_ASSERT__[(e)?1:-1] #if !defined(_MAC) && (defined(_M_MRX000) || defined(_M_AMD64) || defined(_M_IA64)) && (_MSC_VER >= 1100) && !(defined(MIDL_PASS) || defined(RC_INVOKED)) #define POINTER_64 __ptr64 typedef unsigned __int64 POINTER_64_INT; #if defined(_WIN64) #define POINTER_32 __ptr32 #else #define POINTER_32 #endif #else #if defined(_MAC) && defined(_MAC_INT_64) #define POINTER_64 __ptr64 typedef unsigned __int64 POINTER_64_INT; #else #define POINTER_64 typedef unsigned long POINTER_64_INT; #endif #define POINTER_32 #endif #if defined(_IA64_) || defined(_AMD64_) #define FIRMWARE_PTR #else #define FIRMWARE_PTR POINTER_32 #endif #include #if (defined(_M_IX86) || defined(_M_IA64) || defined(_M_AMD64)) && !defined(MIDL_PASS) #define DECLSPEC_IMPORT __declspec(dllimport) #else #define DECLSPEC_IMPORT #endif #ifndef DECLSPEC_NORETURN #if (_MSC_VER >= 1200) && !defined(MIDL_PASS) #define DECLSPEC_NORETURN __declspec(noreturn) #else #define DECLSPEC_NORETURN #endif #endif #ifndef DECLSPEC_ALIGN #if (_MSC_VER >= 1300) && !defined(MIDL_PASS) #define DECLSPEC_ALIGN(x) __declspec(align(x)) #else #define DECLSPEC_ALIGN(x) #endif #endif #ifndef DECLSPEC_CACHEALIGN #define DECLSPEC_CACHEALIGN DECLSPEC_ALIGN(128) #endif #ifndef DECLSPEC_UUID #if (_MSC_VER >= 1100) && defined (__cplusplus) #define DECLSPEC_UUID(x) __declspec(uuid(x)) #else #define DECLSPEC_UUID(x) #endif #endif #ifndef DECLSPEC_NOVTABLE #if (_MSC_VER >= 1100) && defined(__cplusplus) #define DECLSPEC_NOVTABLE __declspec(novtable) #else #define DECLSPEC_NOVTABLE #endif #endif #ifndef DECLSPEC_SELECTANY #if (_MSC_VER >= 1100) #define DECLSPEC_SELECTANY __declspec(selectany) #else #define DECLSPEC_SELECTANY #endif #endif #ifndef NOP_FUNCTION #if (_MSC_VER >= 1210) #define NOP_FUNCTION __noop #else #define NOP_FUNCTION (void)0 #endif #endif #ifndef DECLSPEC_ADDRSAFE #if (_MSC_VER >= 1200) && (defined(_M_ALPHA) || defined(_M_AXP64)) #define DECLSPEC_ADDRSAFE __declspec(address_safe) #else #define DECLSPEC_ADDRSAFE #endif #endif #ifndef FORCEINLINE #if (_MSC_VER >= 1200) #define FORCEINLINE __forceinline #else #define FORCEINLINE __inline #endif #endif #ifndef DECLSPEC_DEPRECATED #if (_MSC_VER >= 1300) && !defined(MIDL_PASS) #define DECLSPEC_DEPRECATED __declspec(deprecated) #define DEPRECATE_SUPPORTED #else #define DECLSPEC_DEPRECATED #undef DEPRECATE_SUPPORTED #endif #endif #ifdef DEPRECATE_DDK_FUNCTIONS #ifdef _NTDDK_ #define DECLSPEC_DEPRECATED_DDK DECLSPEC_DEPRECATED #ifdef DEPRECATE_SUPPORTED #define PRAGMA_DEPRECATED_DDK 1 #endif #else #define DECLSPEC_DEPRECATED_DDK #define PRAGMA_DEPRECATED_DDK 1 #endif #else #define DECLSPEC_DEPRECATED_DDK #define PRAGMA_DEPRECATED_DDK 0 #endif // // Void // typedef void *PVOID; typedef void * POINTER_64 PVOID64; #if ((_MSC_VER >= 800) || defined(_STDCALL_SUPPORTED)) && !defined(_M_AMD64) #define NTAPI __stdcall #else #define _cdecl #define NTAPI #endif // // Define API decoration for direct importing system DLL references. // #if !defined(_NTSYSTEM_) #define NTSYSAPI DECLSPEC_IMPORT #define NTSYSCALLAPI DECLSPEC_IMPORT #else #define NTSYSAPI #if defined(_NTDLLBUILD_) #define NTSYSCALLAPI #else #define NTSYSCALLAPI DECLSPEC_ADDRSAFE #endif #endif // // Basics // #ifndef VOID #define VOID void typedef char CHAR; typedef short SHORT; typedef long LONG; #endif // // UNICODE (Wide Character) types // #ifndef _MAC typedef wchar_t WCHAR; // wc, 16-bit UNICODE character #else // some Macintosh compilers don't define wchar_t in a convenient location, or define it as a char typedef unsigned short WCHAR; // wc, 16-bit UNICODE character #endif typedef WCHAR *PWCHAR; typedef WCHAR *LPWCH, *PWCH; typedef CONST WCHAR *LPCWCH, *PCWCH; typedef WCHAR *NWPSTR; typedef WCHAR *LPWSTR, *PWSTR; typedef WCHAR UNALIGNED *LPUWSTR, *PUWSTR; typedef CONST WCHAR *LPCWSTR, *PCWSTR; typedef CONST WCHAR UNALIGNED *LPCUWSTR, *PCUWSTR; // // ANSI (Multi-byte Character) types // typedef CHAR *PCHAR; typedef CHAR *LPCH, *PCH; typedef CONST CHAR *LPCCH, *PCCH; typedef CHAR *NPSTR; typedef CHAR *LPSTR, *PSTR; typedef CONST CHAR *LPCSTR, *PCSTR; // // Neutral ANSI/UNICODE types and macros // #ifdef UNICODE // r_winnt #ifndef _TCHAR_DEFINED typedef WCHAR TCHAR, *PTCHAR; typedef WCHAR TBYTE , *PTBYTE ; #define _TCHAR_DEFINED #endif /* !_TCHAR_DEFINED */ typedef LPWSTR LPTCH, PTCH; typedef LPWSTR PTSTR, LPTSTR; typedef LPCWSTR PCTSTR, LPCTSTR; typedef LPUWSTR PUTSTR, LPUTSTR; typedef LPCUWSTR PCUTSTR, LPCUTSTR; typedef LPWSTR LP; #define __TEXT(quote) L##quote // r_winnt #else /* UNICODE */ // r_winnt #ifndef _TCHAR_DEFINED typedef char TCHAR, *PTCHAR; typedef unsigned char TBYTE , *PTBYTE ; #define _TCHAR_DEFINED #endif /* !_TCHAR_DEFINED */ typedef LPSTR LPTCH, PTCH; typedef LPSTR PTSTR, LPTSTR, PUTSTR, LPUTSTR; typedef LPCSTR PCTSTR, LPCTSTR, PCUTSTR, LPCUTSTR; #define __TEXT(quote) quote // r_winnt #endif /* UNICODE */ // r_winnt #define TEXT(quote) __TEXT(quote) // r_winnt typedef SHORT *PSHORT; typedef LONG *PLONG; #ifdef STRICT typedef void *HANDLE; #define DECLARE_HANDLE(name) struct name##__ { int unused; }; typedef struct name##__ *name #else typedef PVOID HANDLE; #define DECLARE_HANDLE(name) typedef HANDLE name #endif typedef HANDLE *PHANDLE; // // Flag (bit) fields // typedef BYTE FCHAR; typedef WORD FSHORT; typedef DWORD FLONG; // Component Object Model defines, and macros #ifndef _HRESULT_DEFINED #define _HRESULT_DEFINED typedef LONG HRESULT; #endif // !_HRESULT_DEFINED #ifdef __cplusplus #define EXTERN_C extern "C" #else #define EXTERN_C extern #endif #if defined(_WIN32) || defined(_MPPC_) // Win32 doesn't support __export #ifdef _68K_ #define STDMETHODCALLTYPE __cdecl #else #define STDMETHODCALLTYPE __stdcall #endif #define STDMETHODVCALLTYPE __cdecl #define STDAPICALLTYPE __stdcall #define STDAPIVCALLTYPE __cdecl #else #define STDMETHODCALLTYPE __export __stdcall #define STDMETHODVCALLTYPE __export __cdecl #define STDAPICALLTYPE __export __stdcall #define STDAPIVCALLTYPE __export __cdecl #endif #define STDAPI EXTERN_C HRESULT STDAPICALLTYPE #define STDAPI_(type) EXTERN_C type STDAPICALLTYPE #define STDMETHODIMP HRESULT STDMETHODCALLTYPE #define STDMETHODIMP_(type) type STDMETHODCALLTYPE // The 'V' versions allow Variable Argument lists. #define STDAPIV EXTERN_C HRESULT STDAPIVCALLTYPE #define STDAPIV_(type) EXTERN_C type STDAPIVCALLTYPE #define STDMETHODIMPV HRESULT STDMETHODVCALLTYPE #define STDMETHODIMPV_(type) type STDMETHODVCALLTYPE typedef char CCHAR; typedef DWORD LCID; typedef PDWORD PLCID; typedef WORD LANGID; #define APPLICATION_ERROR_MASK 0x20000000 #define ERROR_SEVERITY_SUCCESS 0x00000000 #define ERROR_SEVERITY_INFORMATIONAL 0x40000000 #define ERROR_SEVERITY_WARNING 0x80000000 #define ERROR_SEVERITY_ERROR 0xC0000000 // // _M_IX86 included so that EM CONTEXT structure compiles with // x86 programs. *** TBD should this be for all architectures? // // // 16 byte aligned type for 128 bit floats // // // For we define a 128 bit structure and use __declspec(align(16)) pragma to // align to 128 bits. // #if defined(_M_IA64) && !defined(MIDL_PASS) __declspec(align(16)) #endif typedef struct _FLOAT128 { __int64 LowPart; __int64 HighPart; } FLOAT128; typedef FLOAT128 *PFLOAT128; // // __int64 is only supported by 2.0 and later midl. // __midl is set by the 2.0 midl and not by 1.0 midl. // #define _ULONGLONG_ #if (!defined (_MAC) && (!defined(MIDL_PASS) || defined(__midl)) && (!defined(_M_IX86) || (defined(_INTEGRAL_MAX_BITS) && _INTEGRAL_MAX_BITS >= 64))) typedef __int64 LONGLONG; typedef unsigned __int64 ULONGLONG; #define MAXLONGLONG (0x7fffffffffffffff) #else #if defined(_MAC) && defined(_MAC_INT_64) typedef __int64 LONGLONG; typedef unsigned __int64 ULONGLONG; #define MAXLONGLONG (0x7fffffffffffffff) #else typedef double LONGLONG; typedef double ULONGLONG; #endif //_MAC and int64 #endif typedef LONGLONG *PLONGLONG; typedef ULONGLONG *PULONGLONG; // Update Sequence Number typedef LONGLONG USN; #if defined(MIDL_PASS) typedef struct _LARGE_INTEGER { #else // MIDL_PASS typedef union _LARGE_INTEGER { struct { DWORD LowPart; LONG HighPart; }; struct { DWORD LowPart; LONG HighPart; } u; #endif //MIDL_PASS LONGLONG QuadPart; } LARGE_INTEGER; typedef LARGE_INTEGER *PLARGE_INTEGER; #if defined(MIDL_PASS) typedef struct _ULARGE_INTEGER { #else // MIDL_PASS typedef union _ULARGE_INTEGER { struct { DWORD LowPart; DWORD HighPart; }; struct { DWORD LowPart; DWORD HighPart; } u; #endif //MIDL_PASS ULONGLONG QuadPart; } ULARGE_INTEGER; typedef ULARGE_INTEGER *PULARGE_INTEGER; // end_ntminiport end_ntndis end_ntminitape // // Locally Unique Identifier // typedef struct _LUID { DWORD LowPart; LONG HighPart; } LUID, *PLUID; #define _DWORDLONG_ typedef ULONGLONG DWORDLONG; typedef DWORDLONG *PDWORDLONG; // // Define operations to logically shift an int64 by 0..31 bits and to multiply // 32-bits by 32-bits to form a 64-bit product. // #if defined(MIDL_PASS) || defined(RC_INVOKED) // // Midl does not understand inline assembler. Therefore, the Rtl functions // are used for shifts by 0.31 and multiplies of 32-bits times 32-bits to // form a 64-bit product. // #define Int32x32To64(a, b) ((LONGLONG)((LONG)(a)) * (LONGLONG)((LONG)(b))) #define UInt32x32To64(a, b) ((ULONGLONG)((DWORD)(a)) * (ULONGLONG)((DWORD)(b))) #define Int64ShllMod32(a, b) ((ULONGLONG)(a) << (b)) #define Int64ShraMod32(a, b) ((LONGLONG)(a) >> (b)) #define Int64ShrlMod32(a, b) ((ULONGLONG)(a) >> (b)) #elif defined(_M_MRX000) // // MIPS uses intrinsic functions to perform shifts by 0..31 and multiplies of // 32-bits times 32-bits to 64-bits. // #define Int32x32To64 __emul #define UInt32x32To64 __emulu #define Int64ShllMod32 __ll_lshift #define Int64ShraMod32 __ll_rshift #define Int64ShrlMod32 __ull_rshift #if defined (__cplusplus) extern "C" { #endif LONGLONG NTAPI Int32x32To64 ( LONG Multiplier, LONG Multiplicand ); ULONGLONG NTAPI UInt32x32To64 ( DWORD Multiplier, DWORD Multiplicand ); ULONGLONG NTAPI Int64ShllMod32 ( ULONGLONG Value, DWORD ShiftCount ); LONGLONG NTAPI Int64ShraMod32 ( LONGLONG Value, DWORD ShiftCount ); ULONGLONG NTAPI Int64ShrlMod32 ( ULONGLONG Value, DWORD ShiftCount ); #if defined (__cplusplus) }; #endif #pragma intrinsic(__emul) #pragma intrinsic(__emulu) #pragma intrinsic(__ll_lshift) #pragma intrinsic(__ll_rshift) #pragma intrinsic(__ull_rshift) #elif defined(_M_IX86) // // The x86 C compiler understands inline assembler. Therefore, inline functions // that employ inline assembler are used for shifts of 0..31. The multiplies // rely on the compiler recognizing the cast of the multiplicand to int64 to // generate the optimal code inline. // #define Int32x32To64( a, b ) (LONGLONG)((LONGLONG)(LONG)(a) * (LONG)(b)) #define UInt32x32To64( a, b ) (ULONGLONG)((ULONGLONG)(DWORD)(a) * (DWORD)(b)) ULONGLONG NTAPI Int64ShllMod32 ( ULONGLONG Value, DWORD ShiftCount ); LONGLONG NTAPI Int64ShraMod32 ( LONGLONG Value, DWORD ShiftCount ); ULONGLONG NTAPI Int64ShrlMod32 ( ULONGLONG Value, DWORD ShiftCount ); #if _MSC_VER >= 1200 #pragma warning(push) #endif #pragma warning(disable:4035) // re-enable below __inline ULONGLONG NTAPI Int64ShllMod32 ( ULONGLONG Value, DWORD ShiftCount ) { __asm { mov ecx, ShiftCount mov eax, dword ptr [Value] mov edx, dword ptr [Value+4] shld edx, eax, cl shl eax, cl } } __inline LONGLONG NTAPI Int64ShraMod32 ( LONGLONG Value, DWORD ShiftCount ) { __asm { mov ecx, ShiftCount mov eax, dword ptr [Value] mov edx, dword ptr [Value+4] shrd eax, edx, cl sar edx, cl } } __inline ULONGLONG NTAPI Int64ShrlMod32 ( ULONGLONG Value, DWORD ShiftCount ) { __asm { mov ecx, ShiftCount mov eax, dword ptr [Value] mov edx, dword ptr [Value+4] shrd eax, edx, cl shr edx, cl } } #if _MSC_VER >= 1200 #pragma warning(pop) #else #pragma warning(default:4035) #endif #elif defined(_M_ALPHA) // // Alpha has native 64-bit operations that are just as fast as their 32-bit // counter parts. Therefore, the int64 data type is used directly to form // shifts of 0..31 and multiplies of 32-bits times 32-bits to form a 64-bit // product. // #define Int32x32To64(a, b) ((LONGLONG)((LONG)(a)) * (LONGLONG)((LONG)(b))) #define UInt32x32To64(a, b) ((ULONGLONG)((DWORD)(a)) * (ULONGLONG)((DWORD)(b))) #define Int64ShllMod32(a, b) ((ULONGLONG)(a) << (b)) #define Int64ShraMod32(a, b) ((LONGLONG)(a) >> (b)) #define Int64ShrlMod32(a, b) ((ULONGLONG)(a) >> (b)) #elif defined(_M_PPC) #define Int32x32To64(a, b) ((LONGLONG)((LONG)(a)) * (LONGLONG)((LONG)(b))) #define UInt32x32To64(a, b) ((ULONGLONG)((DWORD)(a)) * (ULONGLONG)((DWORD)(b))) #define Int64ShllMod32(a, b) ((ULONGLONG)(a) << (b)) #define Int64ShraMod32(a, b) ((LONGLONG)(a) >> (b)) #define Int64ShrlMod32(a, b) ((ULONGLONG)(a) >> (b)) #elif defined(_68K_) || defined(_MPPC_) // // The Macintosh 68K and PowerPC compilers do not currently support int64. // #define Int32x32To64(a, b) ((LONGLONG)((LONG)(a)) * (LONGLONG)((LONG)(b))) #define UInt32x32To64(a, b) ((DWORDLONG)((DWORD)(a)) * (DWORDLONG)((DWORD)(b))) #define Int64ShllMod32(a, b) ((DWORDLONG)(a) << (b)) #define Int64ShraMod32(a, b) ((LONGLONG)(a) >> (b)) #define Int64ShrlMod32(a, b) ((DWORDLONG)(a) >> (b)) #elif defined(_M_IA64) || defined(_M_AMD64) // // IA64 has native 64-bit operations that are just as fast as their 32-bit // counter parts. Therefore, the int64 data type is used directly to form // shifts of 0..31 and multiplies of 32-bits times 32-bits to form a 64-bit // product. // #define Int32x32To64(a, b) ((LONGLONG)((LONG)(a)) * (LONGLONG)((LONG)(b))) #define UInt32x32To64(a, b) ((ULONGLONG)((DWORD)(a)) * (ULONGLONG)((DWORD)(b))) #define Int64ShllMod32(a, b) ((ULONGLONG)(a) << (b)) #define Int64ShraMod32(a, b) ((LONGLONG)(a) >> (b)) #define Int64ShrlMod32(a, b) ((ULONGLONG)(a) >> (b)) #else #error Must define a target architecture. #endif #define ANSI_NULL ((CHAR)0) #define UNICODE_NULL ((WCHAR)0) #define UNICODE_STRING_MAX_BYTES ((WORD ) 65534) #define UNICODE_STRING_MAX_CHARS (32767) typedef BYTE BOOLEAN; typedef BOOLEAN *PBOOLEAN; // // Doubly linked list structure. Can be used as either a list head, or // as link words. // typedef struct _LIST_ENTRY { struct _LIST_ENTRY *Flink; struct _LIST_ENTRY *Blink; } LIST_ENTRY, *PLIST_ENTRY, *RESTRICTED_POINTER PRLIST_ENTRY; // // Singly linked list structure. Can be used as either a list head, or // as link words. // typedef struct _SINGLE_LIST_ENTRY { struct _SINGLE_LIST_ENTRY *Next; } SINGLE_LIST_ENTRY, *PSINGLE_LIST_ENTRY; // // These are needed for portable debugger support. // typedef struct LIST_ENTRY32 { DWORD Flink; DWORD Blink; } LIST_ENTRY32; typedef LIST_ENTRY32 *PLIST_ENTRY32; typedef struct LIST_ENTRY64 { ULONGLONG Flink; ULONGLONG Blink; } LIST_ENTRY64; typedef LIST_ENTRY64 *PLIST_ENTRY64; #include #ifndef __OBJECTID_DEFINED #define __OBJECTID_DEFINED typedef struct _OBJECTID { // size is 20 GUID Lineage; DWORD Uniquifier; } OBJECTID; #endif // !_OBJECTID_DEFINED #define MINCHAR 0x80 #define MAXCHAR 0x7f #define MINSHORT 0x8000 #define MAXSHORT 0x7fff #define MINLONG 0x80000000 #define MAXLONG 0x7fffffff #define MAXBYTE 0xff #define MAXWORD 0xffff #define MAXDWORD 0xffffffff // // Calculate the byte offset of a field in a structure of type type. // #define FIELD_OFFSET(type, field) ((LONG)(LONG_PTR)&(((type *)0)->field)) #if(_WIN32_WINNT > 0x0500) // // Calculate the size of a field in a structure of type type, without // knowing or stating the type of the field. // #define RTL_FIELD_SIZE(type, field) (sizeof(((type *)0)->field)) // // Calculate the size of a structure of type type up through and // including a field. // #define RTL_SIZEOF_THROUGH_FIELD(type, field) \ (FIELD_OFFSET(type, field) + RTL_FIELD_SIZE(type, field)) // // RTL_CONTAINS_FIELD usage: // // if (RTL_CONTAINS_FIELD(pBlock, pBlock->cbSize, dwMumble)) { // safe to use pBlock->dwMumble // #define RTL_CONTAINS_FIELD(Struct, Size, Field) \ ( (((PCHAR)(&(Struct)->Field)) + sizeof((Struct)->Field)) <= (((PCHAR)(Struct))+(Size)) ) // // Return the number of elements in a statically sized array. // DWORD Buffer[100]; // RTL_NUMBER_OF(Buffer) == 100 // This is also popularly known as: NUMBER_OF, ARRSIZE, _countof, NELEM, etc. // #define RTL_NUMBER_OF(A) (sizeof(A)/sizeof((A)[0])) // // An expression that yields the type of a field in a struct. // #define RTL_FIELD_TYPE(type, field) (((type*)0)->field) // RTL_ to avoid collisions in the global namespace. // // Given typedef struct _FOO { BYTE Bar[123]; } FOO; // RTL_NUMBER_OF_FIELD(FOO, Bar) == 123 // #define RTL_NUMBER_OF_FIELD(type, field) (RTL_NUMBER_OF(RTL_FIELD_TYPE(type, field))) // // eg: // typedef struct FOO { // DWORD Integer; // PVOID Pointer; // } FOO; // // RTL_PADDING_BETWEEN_FIELDS(FOO, Integer, Pointer) == 0 for Win32, 4 for Win64 // #define RTL_PADDING_BETWEEN_FIELDS(T, F1, F2) \ ((FIELD_OFFSET(T, F2) > FIELD_OFFSET(T, F1)) \ ? (FIELD_OFFSET(T, F2) - FIELD_OFFSET(T, F1) - RTL_FIELD_SIZE(T, F1)) \ : (FIELD_OFFSET(T, F1) - FIELD_OFFSET(T, F2) - RTL_FIELD_SIZE(T, F2))) // RTL_ to avoid collisions in the global namespace. #if defined(__cplusplus) #define RTL_CONST_CAST(type) const_cast #else #define RTL_CONST_CAST(type) (type) #endif // like sizeof // usually this would be * CHAR_BIT, but we don't necessarily have #include #define RTL_BITS_OF(sizeOfArg) (sizeof(sizeOfArg) * 8) #define RTL_BITS_OF_FIELD(type, field) (RTL_BITS_OF(RTL_FIELD_TYPE(type, field))) #endif /* _WIN32_WINNT > 0x0500 */ // // Calculate the address of the base of the structure given its type, and an // address of a field within the structure. // #define CONTAINING_RECORD(address, type, field) ((type *)( \ (PCHAR)(address) - \ (ULONG_PTR)(&((type *)0)->field))) #define VER_SERVER_NT 0x80000000 #define VER_WORKSTATION_NT 0x40000000 #define VER_SUITE_SMALLBUSINESS 0x00000001 #define VER_SUITE_ENTERPRISE 0x00000002 #define VER_SUITE_BACKOFFICE 0x00000004 #define VER_SUITE_COMMUNICATIONS 0x00000008 #define VER_SUITE_TERMINAL 0x00000010 #define VER_SUITE_SMALLBUSINESS_RESTRICTED 0x00000020 #define VER_SUITE_EMBEDDEDNT 0x00000040 #define VER_SUITE_DATACENTER 0x00000080 #define VER_SUITE_SINGLEUSERTS 0x00000100 #define VER_SUITE_PERSONAL 0x00000200 #define VER_SUITE_BLADE 0x00000400 #define VER_SUITE_EMBEDDED_RESTRICTED 0x00000800 // // Language IDs. // // The following two combinations of primary language ID and // sublanguage ID have special semantics: // // Primary Language ID Sublanguage ID Result // ------------------- --------------- ------------------------ // LANG_NEUTRAL SUBLANG_NEUTRAL Language neutral // LANG_NEUTRAL SUBLANG_DEFAULT User default language // LANG_NEUTRAL SUBLANG_SYS_DEFAULT System default language // LANG_INVARIANT SUBLANG_NEUTRAL Invariant locale // // // Primary language IDs. // #define LANG_NEUTRAL 0x00 #define LANG_INVARIANT 0x7f #define LANG_AFRIKAANS 0x36 #define LANG_ALBANIAN 0x1c #define LANG_ARABIC 0x01 #define LANG_ARMENIAN 0x2b #define LANG_ASSAMESE 0x4d #define LANG_AZERI 0x2c #define LANG_BASQUE 0x2d #define LANG_BELARUSIAN 0x23 #define LANG_BENGALI 0x45 #define LANG_BULGARIAN 0x02 #define LANG_CATALAN 0x03 #define LANG_CHINESE 0x04 #define LANG_CROATIAN 0x1a #define LANG_CZECH 0x05 #define LANG_DANISH 0x06 #define LANG_DIVEHI 0x65 #define LANG_DUTCH 0x13 #define LANG_ENGLISH 0x09 #define LANG_ESTONIAN 0x25 #define LANG_FAEROESE 0x38 #define LANG_FARSI 0x29 #define LANG_FINNISH 0x0b #define LANG_FRENCH 0x0c #define LANG_GALICIAN 0x56 #define LANG_GEORGIAN 0x37 #define LANG_GERMAN 0x07 #define LANG_GREEK 0x08 #define LANG_GUJARATI 0x47 #define LANG_HEBREW 0x0d #define LANG_HINDI 0x39 #define LANG_HUNGARIAN 0x0e #define LANG_ICELANDIC 0x0f #define LANG_INDONESIAN 0x21 #define LANG_ITALIAN 0x10 #define LANG_JAPANESE 0x11 #define LANG_KANNADA 0x4b #define LANG_KASHMIRI 0x60 #define LANG_KAZAK 0x3f #define LANG_KONKANI 0x57 #define LANG_KOREAN 0x12 #define LANG_KYRGYZ 0x40 #define LANG_LATVIAN 0x26 #define LANG_LITHUANIAN 0x27 #define LANG_MACEDONIAN 0x2f // the Former Yugoslav Republic of Macedonia #define LANG_MALAY 0x3e #define LANG_MALAYALAM 0x4c #define LANG_MANIPURI 0x58 #define LANG_MARATHI 0x4e #define LANG_MONGOLIAN 0x50 #define LANG_NEPALI 0x61 #define LANG_NORWEGIAN 0x14 #define LANG_ORIYA 0x48 #define LANG_POLISH 0x15 #define LANG_PORTUGUESE 0x16 #define LANG_PUNJABI 0x46 #define LANG_ROMANIAN 0x18 #define LANG_RUSSIAN 0x19 #define LANG_SANSKRIT 0x4f #define LANG_SERBIAN 0x1a #define LANG_SINDHI 0x59 #define LANG_SLOVAK 0x1b #define LANG_SLOVENIAN 0x24 #define LANG_SPANISH 0x0a #define LANG_SWAHILI 0x41 #define LANG_SWEDISH 0x1d #define LANG_SYRIAC 0x5a #define LANG_TAMIL 0x49 #define LANG_TATAR 0x44 #define LANG_TELUGU 0x4a #define LANG_THAI 0x1e #define LANG_TURKISH 0x1f #define LANG_UKRAINIAN 0x22 #define LANG_URDU 0x20 #define LANG_UZBEK 0x43 #define LANG_VIETNAMESE 0x2a // // Sublanguage IDs. // // The name immediately following SUBLANG_ dictates which primary // language ID that sublanguage ID can be combined with to form a // valid language ID. // #define SUBLANG_NEUTRAL 0x00 // language neutral #define SUBLANG_DEFAULT 0x01 // user default #define SUBLANG_SYS_DEFAULT 0x02 // system default #define SUBLANG_ARABIC_SAUDI_ARABIA 0x01 // Arabic (Saudi Arabia) #define SUBLANG_ARABIC_IRAQ 0x02 // Arabic (Iraq) #define SUBLANG_ARABIC_EGYPT 0x03 // Arabic (Egypt) #define SUBLANG_ARABIC_LIBYA 0x04 // Arabic (Libya) #define SUBLANG_ARABIC_ALGERIA 0x05 // Arabic (Algeria) #define SUBLANG_ARABIC_MOROCCO 0x06 // Arabic (Morocco) #define SUBLANG_ARABIC_TUNISIA 0x07 // Arabic (Tunisia) #define SUBLANG_ARABIC_OMAN 0x08 // Arabic (Oman) #define SUBLANG_ARABIC_YEMEN 0x09 // Arabic (Yemen) #define SUBLANG_ARABIC_SYRIA 0x0a // Arabic (Syria) #define SUBLANG_ARABIC_JORDAN 0x0b // Arabic (Jordan) #define SUBLANG_ARABIC_LEBANON 0x0c // Arabic (Lebanon) #define SUBLANG_ARABIC_KUWAIT 0x0d // Arabic (Kuwait) #define SUBLANG_ARABIC_UAE 0x0e // Arabic (U.A.E) #define SUBLANG_ARABIC_BAHRAIN 0x0f // Arabic (Bahrain) #define SUBLANG_ARABIC_QATAR 0x10 // Arabic (Qatar) #define SUBLANG_AZERI_LATIN 0x01 // Azeri (Latin) #define SUBLANG_AZERI_CYRILLIC 0x02 // Azeri (Cyrillic) #define SUBLANG_CHINESE_TRADITIONAL 0x01 // Chinese (Taiwan) #define SUBLANG_CHINESE_SIMPLIFIED 0x02 // Chinese (PR China) #define SUBLANG_CHINESE_HONGKONG 0x03 // Chinese (Hong Kong S.A.R., P.R.C.) #define SUBLANG_CHINESE_SINGAPORE 0x04 // Chinese (Singapore) #define SUBLANG_CHINESE_MACAU 0x05 // Chinese (Macau S.A.R.) #define SUBLANG_DUTCH 0x01 // Dutch #define SUBLANG_DUTCH_BELGIAN 0x02 // Dutch (Belgian) #define SUBLANG_ENGLISH_US 0x01 // English (USA) #define SUBLANG_ENGLISH_UK 0x02 // English (UK) #define SUBLANG_ENGLISH_AUS 0x03 // English (Australian) #define SUBLANG_ENGLISH_CAN 0x04 // English (Canadian) #define SUBLANG_ENGLISH_NZ 0x05 // English (New Zealand) #define SUBLANG_ENGLISH_EIRE 0x06 // English (Irish) #define SUBLANG_ENGLISH_SOUTH_AFRICA 0x07 // English (South Africa) #define SUBLANG_ENGLISH_JAMAICA 0x08 // English (Jamaica) #define SUBLANG_ENGLISH_CARIBBEAN 0x09 // English (Caribbean) #define SUBLANG_ENGLISH_BELIZE 0x0a // English (Belize) #define SUBLANG_ENGLISH_TRINIDAD 0x0b // English (Trinidad) #define SUBLANG_ENGLISH_ZIMBABWE 0x0c // English (Zimbabwe) #define SUBLANG_ENGLISH_PHILIPPINES 0x0d // English (Philippines) #define SUBLANG_FRENCH 0x01 // French #define SUBLANG_FRENCH_BELGIAN 0x02 // French (Belgian) #define SUBLANG_FRENCH_CANADIAN 0x03 // French (Canadian) #define SUBLANG_FRENCH_SWISS 0x04 // French (Swiss) #define SUBLANG_FRENCH_LUXEMBOURG 0x05 // French (Luxembourg) #define SUBLANG_FRENCH_MONACO 0x06 // French (Monaco) #define SUBLANG_GERMAN 0x01 // German #define SUBLANG_GERMAN_SWISS 0x02 // German (Swiss) #define SUBLANG_GERMAN_AUSTRIAN 0x03 // German (Austrian) #define SUBLANG_GERMAN_LUXEMBOURG 0x04 // German (Luxembourg) #define SUBLANG_GERMAN_LIECHTENSTEIN 0x05 // German (Liechtenstein) #define SUBLANG_ITALIAN 0x01 // Italian #define SUBLANG_ITALIAN_SWISS 0x02 // Italian (Swiss) #if _WIN32_WINNT >= 0x0501 #define SUBLANG_KASHMIRI_SASIA 0x02 // Kashmiri (South Asia) #endif #define SUBLANG_KASHMIRI_INDIA 0x02 // For app compatibility only #define SUBLANG_KOREAN 0x01 // Korean (Extended Wansung) #define SUBLANG_LITHUANIAN 0x01 // Lithuanian #define SUBLANG_MALAY_MALAYSIA 0x01 // Malay (Malaysia) #define SUBLANG_MALAY_BRUNEI_DARUSSALAM 0x02 // Malay (Brunei Darussalam) #define SUBLANG_NEPALI_INDIA 0x02 // Nepali (India) #define SUBLANG_NORWEGIAN_BOKMAL 0x01 // Norwegian (Bokmal) #define SUBLANG_NORWEGIAN_NYNORSK 0x02 // Norwegian (Nynorsk) #define SUBLANG_PORTUGUESE 0x02 // Portuguese #define SUBLANG_PORTUGUESE_BRAZILIAN 0x01 // Portuguese (Brazilian) #define SUBLANG_SERBIAN_LATIN 0x02 // Serbian (Latin) #define SUBLANG_SERBIAN_CYRILLIC 0x03 // Serbian (Cyrillic) #define SUBLANG_SPANISH 0x01 // Spanish (Castilian) #define SUBLANG_SPANISH_MEXICAN 0x02 // Spanish (Mexican) #define SUBLANG_SPANISH_MODERN 0x03 // Spanish (Spain) #define SUBLANG_SPANISH_GUATEMALA 0x04 // Spanish (Guatemala) #define SUBLANG_SPANISH_COSTA_RICA 0x05 // Spanish (Costa Rica) #define SUBLANG_SPANISH_PANAMA 0x06 // Spanish (Panama) #define SUBLANG_SPANISH_DOMINICAN_REPUBLIC 0x07 // Spanish (Dominican Republic) #define SUBLANG_SPANISH_VENEZUELA 0x08 // Spanish (Venezuela) #define SUBLANG_SPANISH_COLOMBIA 0x09 // Spanish (Colombia) #define SUBLANG_SPANISH_PERU 0x0a // Spanish (Peru) #define SUBLANG_SPANISH_ARGENTINA 0x0b // Spanish (Argentina) #define SUBLANG_SPANISH_ECUADOR 0x0c // Spanish (Ecuador) #define SUBLANG_SPANISH_CHILE 0x0d // Spanish (Chile) #define SUBLANG_SPANISH_URUGUAY 0x0e // Spanish (Uruguay) #define SUBLANG_SPANISH_PARAGUAY 0x0f // Spanish (Paraguay) #define SUBLANG_SPANISH_BOLIVIA 0x10 // Spanish (Bolivia) #define SUBLANG_SPANISH_EL_SALVADOR 0x11 // Spanish (El Salvador) #define SUBLANG_SPANISH_HONDURAS 0x12 // Spanish (Honduras) #define SUBLANG_SPANISH_NICARAGUA 0x13 // Spanish (Nicaragua) #define SUBLANG_SPANISH_PUERTO_RICO 0x14 // Spanish (Puerto Rico) #define SUBLANG_SWEDISH 0x01 // Swedish #define SUBLANG_SWEDISH_FINLAND 0x02 // Swedish (Finland) #define SUBLANG_URDU_PAKISTAN 0x01 // Urdu (Pakistan) #define SUBLANG_URDU_INDIA 0x02 // Urdu (India) #define SUBLANG_UZBEK_LATIN 0x01 // Uzbek (Latin) #define SUBLANG_UZBEK_CYRILLIC 0x02 // Uzbek (Cyrillic) // // Sorting IDs. // #define SORT_DEFAULT 0x0 // sorting default #define SORT_JAPANESE_XJIS 0x0 // Japanese XJIS order #define SORT_JAPANESE_UNICODE 0x1 // Japanese Unicode order #define SORT_CHINESE_BIG5 0x0 // Chinese BIG5 order #define SORT_CHINESE_PRCP 0x0 // PRC Chinese Phonetic order #define SORT_CHINESE_UNICODE 0x1 // Chinese Unicode order #define SORT_CHINESE_PRC 0x2 // PRC Chinese Stroke Count order #define SORT_CHINESE_BOPOMOFO 0x3 // Traditional Chinese Bopomofo order #define SORT_KOREAN_KSC 0x0 // Korean KSC order #define SORT_KOREAN_UNICODE 0x1 // Korean Unicode order #define SORT_GERMAN_PHONE_BOOK 0x1 // German Phone Book order #define SORT_HUNGARIAN_DEFAULT 0x0 // Hungarian Default order #define SORT_HUNGARIAN_TECHNICAL 0x1 // Hungarian Technical order #define SORT_GEORGIAN_TRADITIONAL 0x0 // Georgian Traditional order #define SORT_GEORGIAN_MODERN 0x1 // Georgian Modern order // end_r_winnt // // A language ID is a 16 bit value which is the combination of a // primary language ID and a secondary language ID. The bits are // allocated as follows: // // +-----------------------+-------------------------+ // | Sublanguage ID | Primary Language ID | // +-----------------------+-------------------------+ // 15 10 9 0 bit // // // Language ID creation/extraction macros: // // MAKELANGID - construct language id from a primary language id and // a sublanguage id. // PRIMARYLANGID - extract primary language id from a language id. // SUBLANGID - extract sublanguage id from a language id. // #define MAKELANGID(p, s) ((((WORD )(s)) << 10) | (WORD )(p)) #define PRIMARYLANGID(lgid) ((WORD )(lgid) & 0x3ff) #define SUBLANGID(lgid) ((WORD )(lgid) >> 10) // // A locale ID is a 32 bit value which is the combination of a // language ID, a sort ID, and a reserved area. The bits are // allocated as follows: // // +-------------+---------+-------------------------+ // | Reserved | Sort ID | Language ID | // +-------------+---------+-------------------------+ // 31 20 19 16 15 0 bit // // // Locale ID creation/extraction macros: // // MAKELCID - construct the locale id from a language id and a sort id. // MAKESORTLCID - construct the locale id from a language id, sort id, and sort version. // LANGIDFROMLCID - extract the language id from a locale id. // SORTIDFROMLCID - extract the sort id from a locale id. // SORTVERSIONFROMLCID - extract the sort version from a locale id. // #define NLS_VALID_LOCALE_MASK 0x000fffff #define MAKELCID(lgid, srtid) ((DWORD)((((DWORD)((WORD )(srtid))) << 16) | \ ((DWORD)((WORD )(lgid))))) #define MAKESORTLCID(lgid, srtid, ver) \ ((DWORD)((MAKELCID(lgid, srtid)) | \ (((DWORD)((WORD )(ver))) << 20))) #define LANGIDFROMLCID(lcid) ((WORD )(lcid)) #define SORTIDFROMLCID(lcid) ((WORD )((((DWORD)(lcid)) >> 16) & 0xf)) #define SORTVERSIONFROMLCID(lcid) ((WORD )((((DWORD)(lcid)) >> 20) & 0xf)) // // Default System and User IDs for language and locale. // #define LANG_SYSTEM_DEFAULT (MAKELANGID(LANG_NEUTRAL, SUBLANG_SYS_DEFAULT)) #define LANG_USER_DEFAULT (MAKELANGID(LANG_NEUTRAL, SUBLANG_DEFAULT)) #define LOCALE_SYSTEM_DEFAULT (MAKELCID(LANG_SYSTEM_DEFAULT, SORT_DEFAULT)) #define LOCALE_USER_DEFAULT (MAKELCID(LANG_USER_DEFAULT, SORT_DEFAULT)) #define LOCALE_NEUTRAL \ (MAKELCID(MAKELANGID(LANG_NEUTRAL, SUBLANG_NEUTRAL), SORT_DEFAULT)) #define LOCALE_INVARIANT \ (MAKELCID(MAKELANGID(LANG_INVARIANT, SUBLANG_NEUTRAL), SORT_DEFAULT)) // begin_ntminiport begin_ntndis begin_ntminitape // // Macros used to eliminate compiler warning generated when formal // parameters or local variables are not declared. // // Use DBG_UNREFERENCED_PARAMETER() when a parameter is not yet // referenced but will be once the module is completely developed. // // Use DBG_UNREFERENCED_LOCAL_VARIABLE() when a local variable is not yet // referenced but will be once the module is completely developed. // // Use UNREFERENCED_PARAMETER() if a parameter will never be referenced. // // DBG_UNREFERENCED_PARAMETER and DBG_UNREFERENCED_LOCAL_VARIABLE will // eventually be made into a null macro to help determine whether there // is unfinished work. // #if ! defined(lint) #define UNREFERENCED_PARAMETER(P) (P) #define DBG_UNREFERENCED_PARAMETER(P) (P) #define DBG_UNREFERENCED_LOCAL_VARIABLE(V) (V) #else // lint // Note: lint -e530 says don't complain about uninitialized variables for // this varible. Error 527 has to do with unreachable code. // -restore restores checking to the -save state #define UNREFERENCED_PARAMETER(P) \ /*lint -save -e527 -e530 */ \ { \ (P) = (P); \ } \ /*lint -restore */ #define DBG_UNREFERENCED_PARAMETER(P) \ /*lint -save -e527 -e530 */ \ { \ (P) = (P); \ } \ /*lint -restore */ #define DBG_UNREFERENCED_LOCAL_VARIABLE(V) \ /*lint -save -e527 -e530 */ \ { \ (V) = (V); \ } \ /*lint -restore */ #endif // lint // // Macro used to eliminate compiler warning 4715 within a switch statement // when all possible cases have already been accounted for. // // switch (a & 3) { // case 0: return 1; // case 1: return Foo(); // case 2: return Bar(); // case 3: return 1; // DEFAULT_UNREACHABLE; // #if (_MSC_VER > 1200) #define DEFAULT_UNREACHABLE default: __assume(0) #else // // Older compilers do not support __assume(), and there is no other free // method of eliminating the warning. // #define DEFAULT_UNREACHABLE #endif #ifndef WIN32_NO_STATUS /*lint -save -e767 */ #define STATUS_WAIT_0 ((DWORD )0x00000000L) #define STATUS_ABANDONED_WAIT_0 ((DWORD )0x00000080L) #define STATUS_USER_APC ((DWORD )0x000000C0L) #define STATUS_TIMEOUT ((DWORD )0x00000102L) #define STATUS_PENDING ((DWORD )0x00000103L) #define DBG_EXCEPTION_HANDLED ((DWORD )0x00010001L) #define DBG_CONTINUE ((DWORD )0x00010002L) #define STATUS_SEGMENT_NOTIFICATION ((DWORD )0x40000005L) #define DBG_TERMINATE_THREAD ((DWORD )0x40010003L) #define DBG_TERMINATE_PROCESS ((DWORD )0x40010004L) #define DBG_CONTROL_C ((DWORD )0x40010005L) #define DBG_CONTROL_BREAK ((DWORD )0x40010008L) #define DBG_COMMAND_EXCEPTION ((DWORD )0x40010009L) #define STATUS_GUARD_PAGE_VIOLATION ((DWORD )0x80000001L) #define STATUS_DATATYPE_MISALIGNMENT ((DWORD )0x80000002L) #define STATUS_BREAKPOINT ((DWORD )0x80000003L) #define STATUS_SINGLE_STEP ((DWORD )0x80000004L) #define DBG_EXCEPTION_NOT_HANDLED ((DWORD )0x80010001L) #define STATUS_ACCESS_VIOLATION ((DWORD )0xC0000005L) #define STATUS_IN_PAGE_ERROR ((DWORD )0xC0000006L) #define STATUS_INVALID_HANDLE ((DWORD )0xC0000008L) #define STATUS_NO_MEMORY ((DWORD )0xC0000017L) #define STATUS_ILLEGAL_INSTRUCTION ((DWORD )0xC000001DL) #define STATUS_NONCONTINUABLE_EXCEPTION ((DWORD )0xC0000025L) #define STATUS_INVALID_DISPOSITION ((DWORD )0xC0000026L) #define STATUS_ARRAY_BOUNDS_EXCEEDED ((DWORD )0xC000008CL) #define STATUS_FLOAT_DENORMAL_OPERAND ((DWORD )0xC000008DL) #define STATUS_FLOAT_DIVIDE_BY_ZERO ((DWORD )0xC000008EL) #define STATUS_FLOAT_INEXACT_RESULT ((DWORD )0xC000008FL) #define STATUS_FLOAT_INVALID_OPERATION ((DWORD )0xC0000090L) #define STATUS_FLOAT_OVERFLOW ((DWORD )0xC0000091L) #define STATUS_FLOAT_STACK_CHECK ((DWORD )0xC0000092L) #define STATUS_FLOAT_UNDERFLOW ((DWORD )0xC0000093L) #define STATUS_INTEGER_DIVIDE_BY_ZERO ((DWORD )0xC0000094L) #define STATUS_INTEGER_OVERFLOW ((DWORD )0xC0000095L) #define STATUS_PRIVILEGED_INSTRUCTION ((DWORD )0xC0000096L) #define STATUS_STACK_OVERFLOW ((DWORD )0xC00000FDL) #define STATUS_CONTROL_C_EXIT ((DWORD )0xC000013AL) #define STATUS_FLOAT_MULTIPLE_FAULTS ((DWORD )0xC00002B4L) #define STATUS_FLOAT_MULTIPLE_TRAPS ((DWORD )0xC00002B5L) #define STATUS_REG_NAT_CONSUMPTION ((DWORD )0xC00002C9L) #if defined(STATUS_SUCCESS) || (_WIN32_WINNT > 0x0500) || (_WIN32_FUSION >= 0x0100) #define STATUS_SXS_EARLY_DEACTIVATION ((DWORD )0xC015000FL) #define STATUS_SXS_INVALID_DEACTIVATION ((DWORD )0xC0150010L) #endif /*lint -restore */ #endif #define MAXIMUM_WAIT_OBJECTS 64 // Maximum number of wait objects #define MAXIMUM_SUSPEND_COUNT MAXCHAR // Maximum times thread can be suspended typedef ULONG_PTR KSPIN_LOCK; typedef KSPIN_LOCK *PKSPIN_LOCK; #if defined(_AMD64_) #if defined(_M_AMD64) && !defined(RC_INVOKED) && !defined(MIDL_PASS) // // Define bit scan intrinsics. // #define BitScanForward _BitScanForward #define BitScanReverse _BitScanReverse #define BitScanForward64 _BitScanForward64 #define BitScanReverse64 _BitScanReverse64 BOOLEAN _BitScanForward ( OUT DWORD *Index, IN DWORD Mask ); BOOLEAN _BitScanReverse ( OUT DWORD *Index, IN DWORD Mask ); BOOLEAN _BitScanForward64 ( OUT DWORD *Index, IN DWORD64 Mask ); BOOLEAN _BitScanReverse64 ( OUT DWORD *Index, IN DWORD64 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 ); #pragma intrinsic(_mm_lfence) #pragma intrinsic(_mm_mfence) #pragma intrinsic(_mm_sfence) // // 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() DWORD64 __rdtsc ( VOID ); #pragma intrinsic(__rdtsc) // // Define functions to move strings or bytes, words, dwords, and qwords. // VOID __movsb ( IN PBYTE Destination, IN PBYTE Source, IN DWORD Count ); VOID __movsw ( IN PWORD Destination, IN PWORD Source, IN DWORD Count ); VOID __movsd ( IN PDWORD Destination, IN PDWORD Source, IN DWORD Count ); VOID __movsq ( IN PULONGLONG Destination, IN PULONGLONG Source, IN DWORD Count ); #pragma intrinsic(__movsb) #pragma intrinsic(__movsw) #pragma intrinsic(__movsd) #pragma intrinsic(__movsq) // // 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. // BYTE __readgsbyte ( IN DWORD Offset ); WORD __readgsword ( IN DWORD Offset ); DWORD __readgsdword ( IN DWORD Offset ); DWORD64 __readgsqword ( IN DWORD Offset ); VOID __writegsbyte ( IN DWORD Offset, IN BYTE Data ); VOID __writegsword ( IN DWORD Offset, IN WORD Data ); VOID __writegsdword ( IN DWORD Offset, IN DWORD Data ); VOID __writegsqword ( IN DWORD Offset, IN DWORD64 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) #endif // defined(_M_AMD64) && !defined(RC_INVOKED) && !defined(MIDL_PASS) // // 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 { WORD ControlWord; WORD Reserved0; WORD StatusWord; WORD Reserved1; WORD TagWord; WORD Reserved2; DWORD ErrorOffset; WORD ErrorSelector; WORD ErrorOpcode; DWORD DataOffset; WORD DataSelector; WORD Reserved3; BYTE 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. // DWORD64 P1Home; DWORD64 P2Home; DWORD64 P3Home; DWORD64 P4Home; DWORD64 P5Home; DWORD64 P6Home; // // Control flags. // DWORD ContextFlags; DWORD MxCsr; // // Segment Registers and processor flags. // WORD SegCs; WORD SegDs; WORD SegEs; WORD SegFs; WORD SegGs; WORD SegSs; DWORD EFlags; // // Debug registers // DWORD64 Dr0; DWORD64 Dr1; DWORD64 Dr2; DWORD64 Dr3; DWORD64 Dr6; DWORD64 Dr7; // // Integer registers. // DWORD64 Rax; DWORD64 Rcx; DWORD64 Rdx; DWORD64 Rbx; DWORD64 Rsp; DWORD64 Rbp; DWORD64 Rsi; DWORD64 Rdi; DWORD64 R8; DWORD64 R9; DWORD64 R10; DWORD64 R11; DWORD64 R12; DWORD64 R13; DWORD64 R14; DWORD64 R15; // // Program counter. // DWORD64 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; DWORD Fill; // // Special debug control registers. // DWORD64 DebugControl; DWORD64 LastBranchToRip; DWORD64 LastBranchFromRip; DWORD64 LastExceptionToRip; DWORD64 LastExceptionFromRip; DWORD64 Fill1; } CONTEXT, *PCONTEXT; #endif // _AMD64_ // // Define function to return the current Thread Environment Block // #ifdef _ALPHA_ // winnt void *_rdteb(void); // winnt #if defined(_M_ALPHA) // winnt #pragma intrinsic(_rdteb) // winnt #endif // winnt #endif // winnt #if defined(_M_ALPHA) #define NtCurrentTeb() ((struct _TEB *)_rdteb()) #else struct _TEB * NtCurrentTeb(void); #endif // // Define functions to get the address of the current fiber and the // current fiber data. // #ifdef _ALPHA_ #define GetCurrentFiber() (((PNT_TIB)NtCurrentTeb())->FiberData) #define GetFiberData() (*(PVOID *)(GetCurrentFiber())) // begin_ntddk begin_nthal // // The following flags control the contents of the CONTEXT structure. // #if !defined(RC_INVOKED) #define CONTEXT_ALPHA 0x00020000 #define CONTEXT_CONTROL (CONTEXT_ALPHA | 0x00000001L) #define CONTEXT_FLOATING_POINT (CONTEXT_ALPHA | 0x00000002L) #define CONTEXT_INTEGER (CONTEXT_ALPHA | 0x00000004L) #define CONTEXT_FULL (CONTEXT_CONTROL | CONTEXT_FLOATING_POINT | CONTEXT_INTEGER) #endif #ifndef _PORTABLE_32BIT_CONTEXT // // Context Frame // // This frame has a several purposes: 1) it is used as an argument to // NtContinue, 2) it is used to construct a call frame for APC delivery, // 3) it is used to construct a call frame for exception dispatching // in user mode, 4) it is used in the user level thread creation // routines, and 5) it is used to to pass thread state to debuggers. // // N.B. Because this record is used as a call frame, it must be EXACTLY // a multiple of 16 bytes in length. // // There are two variations of the context structure. This is the real one. // typedef struct _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 DWORD 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. // DWORD ContextFlags; DWORD Fill[4]; // padding for 16-byte stack frame alignment } CONTEXT, *PCONTEXT; #else #error _PORTABLE_32BIT_CONTEXT no longer supported on Alpha. #endif // _PORTABLE_32BIT_CONTEXT // end_ntddk end_nthal #endif // _ALPHA_ #ifdef _ALPHA_ VOID __jump_unwind ( PVOID VirtualFramePointer, PVOID TargetPc ); #endif // _ALPHA_ #ifdef _X86_ // // Disable these two pragmas that evaluate to "sti" "cli" on x86 so that driver // writers to not leave them inadvertantly in their code. // #if !defined(MIDL_PASS) #if !defined(RC_INVOKED) #if _MSC_VER >= 1200 #pragma warning(push) #endif #pragma warning(disable:4164) // disable C4164 warning so that apps that // build with /Od don't get weird errors ! #ifdef _M_IX86 #pragma function(_enable) #pragma function(_disable) #endif #if _MSC_VER >= 1200 #pragma warning(pop) #else #pragma warning(default:4164) // reenable C4164 warning #endif #endif #endif #if !defined(MIDL_PASS) || defined(_M_IX86) #if (_MSC_FULL_VER >= 13012035) // // Define bit scan intrinsics. // //#define BitScanForward _BitScanForward //#define BitScanReverse _BitScanReverse //BOOLEAN //_BitScanForward ( // OUT DWORD *Index, // IN DWORD Mask // ); //BOOLEAN //_BitScanReverse ( // OUT DWORD *Index, // IN DWORD Mask // ); //#pragma intrinsic(_BitScanForward) //#pragma intrinsic(_BitScanReverse) // // Define FS referencing intrinsics // BYTE __readfsbyte ( IN DWORD Offset ); WORD __readfsword ( IN DWORD Offset ); DWORD __readfsdword ( IN DWORD Offset ); VOID __writefsbyte ( IN DWORD Offset, IN BYTE Data ); VOID __writefsword ( IN DWORD Offset, IN WORD Data ); VOID __writefsdword ( IN DWORD Offset, IN DWORD Data ); #pragma intrinsic(__readfsbyte) #pragma intrinsic(__readfsword) #pragma intrinsic(__readfsdword) #pragma intrinsic(__writefsbyte) #pragma intrinsic(__writefsword) #pragma intrinsic(__writefsdword) #endif #endif #if !defined(MIDL_PASS) && defined(_M_IX86) #if (_MSC_FULL_VER >= 13012035) _inline PVOID GetFiberData( void ) { return *(PVOID *) (ULONG_PTR) __readfsdword (0x10);} _inline PVOID GetCurrentFiber( void ) { return (PVOID) (ULONG_PTR) __readfsdword (0x10);} #else #if _MSC_VER >= 1200 #pragma warning(push) #endif #pragma warning (disable:4035) // disable 4035 (function must return something) _inline PVOID GetFiberData( void ) { __asm { mov eax, fs:[0x10] mov eax,[eax] } } _inline PVOID GetCurrentFiber( void ) { __asm mov eax, fs:[0x10] } #if _MSC_VER >= 1200 #pragma warning(pop) #else #pragma warning (default:4035) // Reenable it #endif #endif #endif // begin_ntddk begin_wx86 // // Define the size of the 80387 save area, which is in the context frame. // #define SIZE_OF_80387_REGISTERS 80 // // The following flags control the contents of the CONTEXT structure. // #if !defined(RC_INVOKED) #define CONTEXT_i386 0x00010000 // this assumes that i386 and #define CONTEXT_i486 0x00010000 // i486 have identical context records // end_wx86 #define CONTEXT_CONTROL (CONTEXT_i386 | 0x00000001L) // SS:SP, CS:IP, FLAGS, BP #define CONTEXT_INTEGER (CONTEXT_i386 | 0x00000002L) // AX, BX, CX, DX, SI, DI #define CONTEXT_SEGMENTS (CONTEXT_i386 | 0x00000004L) // DS, ES, FS, GS #define CONTEXT_FLOATING_POINT (CONTEXT_i386 | 0x00000008L) // 387 state #define CONTEXT_DEBUG_REGISTERS (CONTEXT_i386 | 0x00000010L) // DB 0-3,6,7 #define CONTEXT_EXTENDED_REGISTERS (CONTEXT_i386 | 0x00000020L) // 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) // begin_wx86 #endif #define MAXIMUM_SUPPORTED_EXTENSION 512 typedef struct _FLOATING_SAVE_AREA { DWORD ControlWord; DWORD StatusWord; DWORD TagWord; DWORD ErrorOffset; DWORD ErrorSelector; DWORD DataOffset; DWORD DataSelector; BYTE RegisterArea[SIZE_OF_80387_REGISTERS]; DWORD Cr0NpxState; } FLOATING_SAVE_AREA; typedef FLOATING_SAVE_AREA *PFLOATING_SAVE_AREA; // // 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 layout of the record conforms to a standard call frame. // typedef struct _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 threads 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. // DWORD ContextFlags; // // This section is specified/returned if CONTEXT_DEBUG_REGISTERS is // set in ContextFlags. Note that CONTEXT_DEBUG_REGISTERS is NOT // included in CONTEXT_FULL. // DWORD Dr0; DWORD Dr1; DWORD Dr2; DWORD Dr3; DWORD Dr6; DWORD Dr7; // // This section is specified/returned if the // ContextFlags word contians the flag CONTEXT_FLOATING_POINT. // FLOATING_SAVE_AREA FloatSave; // // This section is specified/returned if the // ContextFlags word contians the flag CONTEXT_SEGMENTS. // DWORD SegGs; DWORD SegFs; DWORD SegEs; DWORD SegDs; // // This section is specified/returned if the // ContextFlags word contians the flag CONTEXT_INTEGER. // DWORD Edi; DWORD Esi; DWORD Ebx; DWORD Edx; DWORD Ecx; DWORD Eax; // // This section is specified/returned if the // ContextFlags word contians the flag CONTEXT_CONTROL. // DWORD Ebp; DWORD Eip; DWORD SegCs; // MUST BE SANITIZED DWORD EFlags; // MUST BE SANITIZED DWORD Esp; DWORD SegSs; // // This section is specified/returned if the ContextFlags word // contains the flag CONTEXT_EXTENDED_REGISTERS. // The format and contexts are processor specific // BYTE ExtendedRegisters[MAXIMUM_SUPPORTED_EXTENSION]; } CONTEXT; typedef CONTEXT *PCONTEXT; // begin_ntminiport #endif //_X86_ #ifndef _LDT_ENTRY_DEFINED #define _LDT_ENTRY_DEFINED typedef struct _LDT_ENTRY { WORD LimitLow; WORD BaseLow; union { struct { BYTE BaseMid; BYTE Flags1; // Declare as bytes to avoid alignment BYTE Flags2; // Problems. BYTE BaseHi; } Bytes; struct { DWORD BaseMid : 8; DWORD Type : 5; DWORD Dpl : 2; DWORD Pres : 1; DWORD LimitHi : 4; DWORD Sys : 1; DWORD Reserved_0 : 1; DWORD Default_Big : 1; DWORD Granularity : 1; DWORD BaseHi : 8; } Bits; } HighWord; } LDT_ENTRY, *PLDT_ENTRY; #endif #if defined(_MIPS_) // // Define functions to get the address of the current fiber and the // current fiber data. // #define GetCurrentFiber() ((*(PNT_TIB *)0x7ffff4a8)->FiberData) #define GetFiberData() (*(PVOID *)(GetCurrentFiber())) // begin_ntddk begin_nthal // // The following flags control the contents of the CONTEXT structure. // #if !defined(RC_INVOKED) #define CONTEXT_R4000 0x00010000 // r4000 context #define CONTEXT_CONTROL (CONTEXT_R4000 | 0x00000001) #define CONTEXT_FLOATING_POINT (CONTEXT_R4000 | 0x00000002) #define CONTEXT_INTEGER (CONTEXT_R4000 | 0x00000004) #define CONTEXT_EXTENDED_FLOAT (CONTEXT_FLOATING_POINT | 0x00000008) #define CONTEXT_EXTENDED_INTEGER (CONTEXT_INTEGER | 0x00000010) #define CONTEXT_FULL (CONTEXT_CONTROL | CONTEXT_FLOATING_POINT | \ CONTEXT_INTEGER | CONTEXT_EXTENDED_INTEGER) #endif // // Context Frame // // N.B. This frame must be exactly a multiple of 16 bytes in length. // // This frame has a several purposes: 1) it is used as an argument to // NtContinue, 2) it is used to constuct a call frame for APC delivery, // 3) it is used to construct a call frame for exception dispatching // in user mode, and 4) it is used in the user level thread creation // routines. // // The layout of the record conforms to a standard call frame. // typedef struct _CONTEXT { // // This section is always present and is used as an argument build // area. // // N.B. Context records are 0 mod 8 aligned starting with NT 4.0. // union { DWORD Argument[4]; ULONGLONG Alignment; }; // // The following union defines the 32-bit and 64-bit register context. // union { // // 32-bit context. // struct { // // This section is specified/returned if the ContextFlags contains // the flag CONTEXT_FLOATING_POINT. // // N.B. This section contains the 16 double floating registers f0, // f2, ..., f30. // DWORD FltF0; DWORD FltF1; DWORD FltF2; DWORD FltF3; DWORD FltF4; DWORD FltF5; DWORD FltF6; DWORD FltF7; DWORD FltF8; DWORD FltF9; DWORD FltF10; DWORD FltF11; DWORD FltF12; DWORD FltF13; DWORD FltF14; DWORD FltF15; DWORD FltF16; DWORD FltF17; DWORD FltF18; DWORD FltF19; DWORD FltF20; DWORD FltF21; DWORD FltF22; DWORD FltF23; DWORD FltF24; DWORD FltF25; DWORD FltF26; DWORD FltF27; DWORD FltF28; DWORD FltF29; DWORD FltF30; DWORD FltF31; // // This section is specified/returned if the ContextFlags 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. // // N.B. Register zero is not stored in the frame. // DWORD IntZero; DWORD IntAt; DWORD IntV0; DWORD IntV1; DWORD IntA0; DWORD IntA1; DWORD IntA2; DWORD IntA3; DWORD IntT0; DWORD IntT1; DWORD IntT2; DWORD IntT3; DWORD IntT4; DWORD IntT5; DWORD IntT6; DWORD IntT7; DWORD IntS0; DWORD IntS1; DWORD IntS2; DWORD IntS3; DWORD IntS4; DWORD IntS5; DWORD IntS6; DWORD IntS7; DWORD IntT8; DWORD IntT9; DWORD IntK0; DWORD IntK1; DWORD IntGp; DWORD IntSp; DWORD IntS8; DWORD IntRa; DWORD IntLo; DWORD IntHi; // // This section is specified/returned if the ContextFlags word contains // the flag CONTEXT_FLOATING_POINT. // DWORD Fsr; // // 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. // DWORD Fir; DWORD Psr; // // 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. // DWORD ContextFlags; }; // // 64-bit context. // struct { // // This section is specified/returned if the ContextFlags contains // the flag CONTEXT_EXTENDED_FLOAT. // // N.B. This section contains the 32 double floating registers f0, // f1, ..., f31. // ULONGLONG XFltF0; ULONGLONG XFltF1; ULONGLONG XFltF2; ULONGLONG XFltF3; ULONGLONG XFltF4; ULONGLONG XFltF5; ULONGLONG XFltF6; ULONGLONG XFltF7; ULONGLONG XFltF8; ULONGLONG XFltF9; ULONGLONG XFltF10; ULONGLONG XFltF11; ULONGLONG XFltF12; ULONGLONG XFltF13; ULONGLONG XFltF14; ULONGLONG XFltF15; ULONGLONG XFltF16; ULONGLONG XFltF17; ULONGLONG XFltF18; ULONGLONG XFltF19; ULONGLONG XFltF20; ULONGLONG XFltF21; ULONGLONG XFltF22; ULONGLONG XFltF23; ULONGLONG XFltF24; ULONGLONG XFltF25; ULONGLONG XFltF26; ULONGLONG XFltF27; ULONGLONG XFltF28; ULONGLONG XFltF29; ULONGLONG XFltF30; ULONGLONG XFltF31; // // The following sections must exactly overlay the 32-bit context. // DWORD Fill1; DWORD Fill2; // // This section is specified/returned if the ContextFlags contains // the flag CONTEXT_FLOATING_POINT. // DWORD XFsr; // // This section is specified/returned if the ContextFlags 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. // DWORD XFir; DWORD XPsr; // // 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. // DWORD XContextFlags; // // This section is specified/returned if the ContextFlags contains // the flag CONTEXT_EXTENDED_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. // // N.B. Register zero is not stored in the frame. // ULONGLONG XIntZero; ULONGLONG XIntAt; ULONGLONG XIntV0; ULONGLONG XIntV1; ULONGLONG XIntA0; ULONGLONG XIntA1; ULONGLONG XIntA2; ULONGLONG XIntA3; ULONGLONG XIntT0; ULONGLONG XIntT1; ULONGLONG XIntT2; ULONGLONG XIntT3; ULONGLONG XIntT4; ULONGLONG XIntT5; ULONGLONG XIntT6; ULONGLONG XIntT7; ULONGLONG XIntS0; ULONGLONG XIntS1; ULONGLONG XIntS2; ULONGLONG XIntS3; ULONGLONG XIntS4; ULONGLONG XIntS5; ULONGLONG XIntS6; ULONGLONG XIntS7; ULONGLONG XIntT8; ULONGLONG XIntT9; ULONGLONG XIntK0; ULONGLONG XIntK1; ULONGLONG XIntGp; ULONGLONG XIntSp; ULONGLONG XIntS8; ULONGLONG XIntRa; ULONGLONG XIntLo; ULONGLONG XIntHi; }; }; } CONTEXT, *PCONTEXT; // end_ntddk end_nthal #define CONTEXT32_LENGTH 0x130 // The original 32-bit Context length (pre NT 4.0) #endif // MIPS #if defined(_MIPS_) VOID __jump_unwind ( PVOID Fp, PVOID TargetPc ); #endif // MIPS #if defined(_PPC_) // // The address of the TEB is placed into GPR 13 at context switch time // and should never be destroyed. To get the address of the TEB use // the compiler intrinsic to access it directly from GPR 13. // #if defined(_M_PPC) && defined(_MSC_VER) && (_MSC_VER>=1000) unsigned __gregister_get( unsigned const regnum ); #define NtCurrentTeb() ((struct _TEB *)__gregister_get(13)) #elif defined(_M_PPC) struct _TEB * __builtin_get_gpr13(VOID); #define NtCurrentTeb() ((struct _TEB *)__builtin_get_gpr13()) #endif // // Define functions to get the address of the current fiber and the // current fiber data. // #define GetCurrentFiber() (((PNT_TIB)NtCurrentTeb())->FiberData) #define GetFiberData() (*(PVOID *)(GetCurrentFiber())) // begin_ntddk begin_nthal // // The following flags control the contents of the CONTEXT structure. // #if !defined(RC_INVOKED) #define CONTEXT_CONTROL 0x00000001L #define CONTEXT_FLOATING_POINT 0x00000002L #define CONTEXT_INTEGER 0x00000004L #define CONTEXT_DEBUG_REGISTERS 0x00000008L #define CONTEXT_FULL (CONTEXT_CONTROL | CONTEXT_FLOATING_POINT | CONTEXT_INTEGER) #endif // // Context Frame // // N.B. This frame must be exactly a multiple of 16 bytes in length. // // This frame has a several purposes: 1) it is used as an argument to // NtContinue, 2) it is used to constuct a call frame for APC delivery, // 3) it is used to construct a call frame for exception dispatching // in user mode, and 4) it is used in the user level thread creation // routines. // // Requires at least 8-byte alignment (double) // typedef struct _CONTEXT { // // This section is specified/returned if the ContextFlags word contains // the flag CONTEXT_FLOATING_POINT. // double Fpr0; // Floating registers 0..31 double Fpr1; double Fpr2; double Fpr3; double Fpr4; double Fpr5; double Fpr6; double Fpr7; double Fpr8; double Fpr9; double Fpr10; double Fpr11; double Fpr12; double Fpr13; double Fpr14; double Fpr15; double Fpr16; double Fpr17; double Fpr18; double Fpr19; double Fpr20; double Fpr21; double Fpr22; double Fpr23; double Fpr24; double Fpr25; double Fpr26; double Fpr27; double Fpr28; double Fpr29; double Fpr30; double Fpr31; double Fpscr; // Floating point status/control reg // // This section is specified/returned if the ContextFlags word contains // the flag CONTEXT_INTEGER. // DWORD Gpr0; // General registers 0..31 DWORD Gpr1; DWORD Gpr2; DWORD Gpr3; DWORD Gpr4; DWORD Gpr5; DWORD Gpr6; DWORD Gpr7; DWORD Gpr8; DWORD Gpr9; DWORD Gpr10; DWORD Gpr11; DWORD Gpr12; DWORD Gpr13; DWORD Gpr14; DWORD Gpr15; DWORD Gpr16; DWORD Gpr17; DWORD Gpr18; DWORD Gpr19; DWORD Gpr20; DWORD Gpr21; DWORD Gpr22; DWORD Gpr23; DWORD Gpr24; DWORD Gpr25; DWORD Gpr26; DWORD Gpr27; DWORD Gpr28; DWORD Gpr29; DWORD Gpr30; DWORD Gpr31; DWORD Cr; // Condition register DWORD Xer; // Fixed point exception register // // This section is specified/returned if the ContextFlags word contains // the flag CONTEXT_CONTROL. // DWORD Msr; // Machine status register DWORD Iar; // Instruction address register DWORD Lr; // Link register DWORD Ctr; // Count register // // 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. // DWORD ContextFlags; DWORD Fill[3]; // Pad out to multiple of 16 bytes // // This section is specified/returned if CONTEXT_DEBUG_REGISTERS is // set in ContextFlags. Note that CONTEXT_DEBUG_REGISTERS is NOT // included in CONTEXT_FULL. // DWORD Dr0; // Breakpoint Register 1 DWORD Dr1; // Breakpoint Register 2 DWORD Dr2; // Breakpoint Register 3 DWORD Dr3; // Breakpoint Register 4 DWORD Dr4; // Breakpoint Register 5 DWORD Dr5; // Breakpoint Register 6 DWORD Dr6; // Debug Status Register DWORD Dr7; // Debug Control Register } CONTEXT, *PCONTEXT; // end_ntddk end_nthal // // Stack frame header // // Order of appearance in stack frame: // Header (six words) // Parameters (at least eight words) // Local variables // Saved GPRs // Saved FPRs // // Minimum alignment is 8 bytes typedef struct _STACK_FRAME_HEADER { // GPR 1 points here DWORD BackChain; // Addr of previous frame DWORD GlueSaved1; // Used by glue code DWORD GlueSaved2; DWORD Reserved1; // Reserved DWORD Spare1; // Used by tracing, profiling, ... DWORD Spare2; DWORD Parameter0; // First 8 parameter words are DWORD Parameter1; // always present DWORD Parameter2; DWORD Parameter3; DWORD Parameter4; DWORD Parameter5; DWORD Parameter6; DWORD Parameter7; } STACK_FRAME_HEADER,*PSTACK_FRAME_HEADER; VOID __jump_unwind ( PVOID Fp, PVOID TargetPc ); #endif // defined(_PPC_) #if defined(_MPPC_) // // The address of the TEB is placed into GPR 13 at context switch time // and should never be destroyed. To get the address of the TEB use // the compiler intrinsic to access it directly from GPR 13. // #if defined(_M_PPC) && defined(_MSC_VER) && (_MSC_VER>=1000) unsigned __gregister_get( unsigned const regnum ); #define NtCurrentTeb() ((struct _TEB *)__gregister_get(13)) #elif defined(_M_PPC) struct _TEB * __builtin_get_gpr13(VOID); #define NtCurrentTeb() ((struct _TEB *)__builtin_get_gpr13()) #endif // // Define functions to get the address of the current fiber and the // current fiber data. // #define GetCurrentFiber() (((PNT_TIB)NtCurrentTeb())->FiberData) #define GetFiberData() (*(PVOID *)(GetCurrentFiber())) // begin_ntddk begin_nthal // // The following flags control the contents of the CONTEXT structure. // #if !defined(RC_INVOKED) #define CONTEXT_CONTROL 0x00000001L #define CONTEXT_FLOATING_POINT 0x00000002L #define CONTEXT_INTEGER 0x00000004L #define CONTEXT_DEBUG_REGISTERS 0x00000008L #define CONTEXT_FULL (CONTEXT_CONTROL | CONTEXT_FLOATING_POINT | CONTEXT_INTEGER) #endif // // Context Frame // // N.B. This frame must be exactly a multiple of 16 bytes in length. // // This frame has a several purposes: 1) it is used as an argument to // NtContinue, 2) it is used to constuct a call frame for APC delivery, // 3) it is used to construct a call frame for exception dispatching // in user mode, and 4) it is used in the user level thread creation // routines. // // Requires at least 8-byte alignment (double) // typedef struct _CONTEXT { // // This section is specified/returned if the ContextFlags word contains // the flag CONTEXT_FLOATING_POINT. // double Fpr0; // Floating registers 0..31 double Fpr1; double Fpr2; double Fpr3; double Fpr4; double Fpr5; double Fpr6; double Fpr7; double Fpr8; double Fpr9; double Fpr10; double Fpr11; double Fpr12; double Fpr13; double Fpr14; double Fpr15; double Fpr16; double Fpr17; double Fpr18; double Fpr19; double Fpr20; double Fpr21; double Fpr22; double Fpr23; double Fpr24; double Fpr25; double Fpr26; double Fpr27; double Fpr28; double Fpr29; double Fpr30; double Fpr31; double Fpscr; // Floating point status/control reg // // This section is specified/returned if the ContextFlags word contains // the flag CONTEXT_INTEGER. // DWORD Gpr0; // General registers 0..31 DWORD Gpr1; DWORD Gpr2; DWORD Gpr3; DWORD Gpr4; DWORD Gpr5; DWORD Gpr6; DWORD Gpr7; DWORD Gpr8; DWORD Gpr9; DWORD Gpr10; DWORD Gpr11; DWORD Gpr12; DWORD Gpr13; DWORD Gpr14; DWORD Gpr15; DWORD Gpr16; DWORD Gpr17; DWORD Gpr18; DWORD Gpr19; DWORD Gpr20; DWORD Gpr21; DWORD Gpr22; DWORD Gpr23; DWORD Gpr24; DWORD Gpr25; DWORD Gpr26; DWORD Gpr27; DWORD Gpr28; DWORD Gpr29; DWORD Gpr30; DWORD Gpr31; DWORD Cr; // Condition register DWORD Xer; // Fixed point exception register // // This section is specified/returned if the ContextFlags word contains // the flag CONTEXT_CONTROL. // DWORD Msr; // Machine status register DWORD Iar; // Instruction address register DWORD Lr; // Link register DWORD Ctr; // Count register // // 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. // DWORD ContextFlags; DWORD Fill[3]; // Pad out to multiple of 16 bytes // // This section is specified/returned if CONTEXT_DEBUG_REGISTERS is // set in ContextFlags. Note that CONTEXT_DEBUG_REGISTERS is NOT // included in CONTEXT_FULL. // DWORD Dr0; // Breakpoint Register 1 DWORD Dr1; // Breakpoint Register 2 DWORD Dr2; // Breakpoint Register 3 DWORD Dr3; // Breakpoint Register 4 DWORD Dr4; // Breakpoint Register 5 DWORD Dr5; // Breakpoint Register 6 DWORD Dr6; // Debug Status Register DWORD Dr7; // Debug Control Register } CONTEXT, *PCONTEXT; // end_ntddk end_nthal // // Stack frame header // // Order of appearance in stack frame: // Header (six words) // Parameters (at least eight words) // Local variables // Saved GPRs // Saved FPRs // // Minimum alignment is 8 bytes typedef struct _STACK_FRAME_HEADER { // GPR 1 points here DWORD BackChain; // Addr of previous frame DWORD GlueSaved1; // Used by glue code DWORD GlueSaved2; DWORD Reserved1; // Reserved DWORD Spare1; // Used by tracing, profiling, ... DWORD Spare2; DWORD Parameter0; // First 8 parameter words are DWORD Parameter1; // always present DWORD Parameter2; DWORD Parameter3; DWORD Parameter4; DWORD Parameter5; DWORD Parameter6; DWORD Parameter7; } STACK_FRAME_HEADER,*PSTACK_FRAME_HEADER; VOID __jump_unwind ( PVOID Fp, PVOID TargetPc ); #endif // defined(_MPPC_) #if !defined(__midl) && !defined(GENUTIL) && !defined(_GENIA64_) && defined(_IA64_) void * _cdecl _rdteb(void); #if defined(_M_IA64) // winnt #pragma intrinsic(_rdteb) // winnt #endif // winnt #if defined(_M_IA64) #define NtCurrentTeb() ((struct _TEB *)_rdteb()) #else struct _TEB * NtCurrentTeb(void); #endif // // Define functions to get the address of the current fiber and the // current fiber data. // #define GetCurrentFiber() (((PNT_TIB)NtCurrentTeb())->FiberData) #define GetFiberData() (*(PVOID *)(GetCurrentFiber())) #endif // !defined(__midl) && !defined(GENUTIL) && !defined(_GENIA64_) && defined(_M_IA64) #ifdef _IA64_ // begin_ntddk begin_nthal // // The following flags control the contents of the CONTEXT structure. // #if !defined(RC_INVOKED) #define CONTEXT_IA64 0x00080000 #define CONTEXT_CONTROL (CONTEXT_IA64 | 0x00000001L) #define CONTEXT_LOWER_FLOATING_POINT (CONTEXT_IA64 | 0x00000002L) #define CONTEXT_HIGHER_FLOATING_POINT (CONTEXT_IA64 | 0x00000004L) #define CONTEXT_INTEGER (CONTEXT_IA64 | 0x00000008L) #define CONTEXT_DEBUG (CONTEXT_IA64 | 0x00000010L) #define CONTEXT_IA32_CONTROL (CONTEXT_IA64 | 0x00000020L) // Includes StIPSR #define CONTEXT_FLOATING_POINT (CONTEXT_LOWER_FLOATING_POINT | CONTEXT_HIGHER_FLOATING_POINT) #define CONTEXT_FULL (CONTEXT_CONTROL | CONTEXT_FLOATING_POINT | CONTEXT_INTEGER | CONTEXT_IA32_CONTROL) #define CONTEXT_ALL (CONTEXT_CONTROL | CONTEXT_FLOATING_POINT | CONTEXT_INTEGER | CONTEXT_DEBUG | CONTEXT_IA32_CONTROL) #endif // !defined(RC_INVOKED) // // Context Frame // // This frame has a several purposes: 1) it is used as an argument to // NtContinue, 2) it is used to construct a call frame for APC delivery, // 3) it is used to construct a call frame for exception dispatching // in user mode, 4) it is used in the user level thread creation // routines, and 5) it is used to to pass thread state to debuggers. // // N.B. Because this record is used as a call frame, it must be EXACTLY // a multiple of 16 bytes in length and aligned on a 16-byte boundary. // typedef struct _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. // DWORD ContextFlags; DWORD 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; ULONGLONG DbI1; ULONGLONG DbI2; ULONGLONG DbI3; ULONGLONG DbI4; ULONGLONG DbI5; ULONGLONG DbI6; ULONGLONG DbI7; ULONGLONG DbD0; ULONGLONG DbD1; ULONGLONG DbD2; ULONGLONG DbD3; ULONGLONG DbD4; ULONGLONG DbD5; ULONGLONG DbD6; ULONGLONG DbD7; // // This section is specified/returned if the ContextFlags word contains // the flag CONTEXT_LOWER_FLOATING_POINT. // FLOAT128 FltS0; FLOAT128 FltS1; FLOAT128 FltS2; FLOAT128 FltS3; FLOAT128 FltT0; FLOAT128 FltT1; FLOAT128 FltT2; FLOAT128 FltT3; FLOAT128 FltT4; FLOAT128 FltT5; FLOAT128 FltT6; FLOAT128 FltT7; FLOAT128 FltT8; FLOAT128 FltT9; // // This section is specified/returned if the ContextFlags word contains // the flag CONTEXT_HIGHER_FLOATING_POINT. // FLOAT128 FltS4; FLOAT128 FltS5; FLOAT128 FltS6; FLOAT128 FltS7; FLOAT128 FltS8; FLOAT128 FltS9; FLOAT128 FltS10; FLOAT128 FltS11; FLOAT128 FltS12; FLOAT128 FltS13; FLOAT128 FltS14; FLOAT128 FltS15; FLOAT128 FltS16; FLOAT128 FltS17; FLOAT128 FltS18; FLOAT128 FltS19; FLOAT128 FltF32; FLOAT128 FltF33; FLOAT128 FltF34; FLOAT128 FltF35; FLOAT128 FltF36; FLOAT128 FltF37; FLOAT128 FltF38; FLOAT128 FltF39; FLOAT128 FltF40; FLOAT128 FltF41; FLOAT128 FltF42; FLOAT128 FltF43; FLOAT128 FltF44; FLOAT128 FltF45; FLOAT128 FltF46; FLOAT128 FltF47; FLOAT128 FltF48; FLOAT128 FltF49; FLOAT128 FltF50; FLOAT128 FltF51; FLOAT128 FltF52; FLOAT128 FltF53; FLOAT128 FltF54; FLOAT128 FltF55; FLOAT128 FltF56; FLOAT128 FltF57; FLOAT128 FltF58; FLOAT128 FltF59; FLOAT128 FltF60; FLOAT128 FltF61; FLOAT128 FltF62; FLOAT128 FltF63; FLOAT128 FltF64; FLOAT128 FltF65; FLOAT128 FltF66; FLOAT128 FltF67; FLOAT128 FltF68; FLOAT128 FltF69; FLOAT128 FltF70; FLOAT128 FltF71; FLOAT128 FltF72; FLOAT128 FltF73; FLOAT128 FltF74; FLOAT128 FltF75; FLOAT128 FltF76; FLOAT128 FltF77; FLOAT128 FltF78; FLOAT128 FltF79; FLOAT128 FltF80; FLOAT128 FltF81; FLOAT128 FltF82; FLOAT128 FltF83; FLOAT128 FltF84; FLOAT128 FltF85; FLOAT128 FltF86; FLOAT128 FltF87; FLOAT128 FltF88; FLOAT128 FltF89; FLOAT128 FltF90; FLOAT128 FltF91; FLOAT128 FltF92; FLOAT128 FltF93; FLOAT128 FltF94; FLOAT128 FltF95; FLOAT128 FltF96; FLOAT128 FltF97; FLOAT128 FltF98; FLOAT128 FltF99; FLOAT128 FltF100; FLOAT128 FltF101; FLOAT128 FltF102; FLOAT128 FltF103; FLOAT128 FltF104; FLOAT128 FltF105; FLOAT128 FltF106; FLOAT128 FltF107; FLOAT128 FltF108; FLOAT128 FltF109; FLOAT128 FltF110; FLOAT128 FltF111; FLOAT128 FltF112; FLOAT128 FltF113; FLOAT128 FltF114; FLOAT128 FltF115; FLOAT128 FltF116; FLOAT128 FltF117; FLOAT128 FltF118; FLOAT128 FltF119; FLOAT128 FltF120; FLOAT128 FltF121; FLOAT128 FltF122; FLOAT128 FltF123; FLOAT128 FltF124; FLOAT128 FltF125; FLOAT128 FltF126; FLOAT128 FltF127; // // This section is specified/returned if the ContextFlags word contains // the flag CONTEXT_LOWER_FLOATING_POINT | CONTEXT_HIGHER_FLOATING_POINT | CONTEXT_CONTROL. // ULONGLONG StFPSR; // 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; // r1, volatile ULONGLONG IntT0; // r2-r3, volatile ULONGLONG IntT1; // ULONGLONG IntS0; // r4-r7, preserved ULONGLONG IntS1; ULONGLONG IntS2; ULONGLONG IntS3; ULONGLONG IntV0; // r8, volatile ULONGLONG IntT2; // r9-r11, volatile ULONGLONG IntT3; ULONGLONG IntT4; ULONGLONG IntSp; // stack pointer (r12), special ULONGLONG IntTeb; // teb (r13), special ULONGLONG IntT5; // r14-r31, volatile ULONGLONG IntT6; ULONGLONG IntT7; ULONGLONG IntT8; ULONGLONG IntT9; ULONGLONG IntT10; ULONGLONG IntT11; ULONGLONG IntT12; ULONGLONG IntT13; ULONGLONG IntT14; ULONGLONG IntT15; ULONGLONG IntT16; ULONGLONG IntT17; ULONGLONG IntT18; ULONGLONG IntT19; ULONGLONG IntT20; ULONGLONG IntT21; ULONGLONG IntT22; ULONGLONG IntNats; // Nat bits for r1-r31 // r1-r31 in bits 1 thru 31. ULONGLONG Preds; // predicates, preserved ULONGLONG BrRp; // return pointer, b0, preserved ULONGLONG BrS0; // b1-b5, preserved ULONGLONG BrS1; ULONGLONG BrS2; ULONGLONG BrS3; ULONGLONG BrS4; ULONGLONG BrT0; // b6-b7, volatile ULONGLONG BrT1; // // This section is specified/returned if the ContextFlags word contains // the flag CONTEXT_CONTROL. // // Other application registers ULONGLONG ApUNAT; // User Nat collection register, preserved ULONGLONG ApLC; // Loop counter register, preserved ULONGLONG ApEC; // Epilog counter register, preserved ULONGLONG ApCCV; // CMPXCHG value register, volatile ULONGLONG ApDCR; // Default control register (TBD) // Register stack info ULONGLONG RsPFS; // Previous function state, preserved ULONGLONG RsBSP; // Backing store pointer, preserved ULONGLONG RsBSPSTORE; ULONGLONG RsRSC; // RSE configuration, volatile ULONGLONG RsRNAT; // RSE Nat collection register, preserved // Trap Status Information ULONGLONG StIPSR; // Interruption Processor Status ULONGLONG StIIP; // Interruption IP ULONGLONG StIFS; // Interruption Function State // iA32 related control registers ULONGLONG StFCR; // copy of Ar21 ULONGLONG Eflag; // Eflag copy of Ar24 ULONGLONG SegCSD; // iA32 CSDescriptor (Ar25) ULONGLONG SegSSD; // iA32 SSDescriptor (Ar26) ULONGLONG Cflag; // Cr0+Cr4 copy of Ar27 ULONGLONG StFSR; // x86 FP status (copy of AR28) ULONGLONG StFIR; // x86 FP status (copy of AR29) ULONGLONG StFDR; // x86 FP status (copy of AR30) ULONGLONG UNUSEDPACK; // added to pack StFDR to 16-bytes } CONTEXT, *PCONTEXT; // begin_winnt // // Plabel descriptor structure definition // typedef struct _PLABEL_DESCRIPTOR { ULONGLONG EntryPoint; ULONGLONG GlobalPointer; } PLABEL_DESCRIPTOR, *PPLABEL_DESCRIPTOR; #endif // _IA64_ #ifdef _IA64_ VOID __jump_unwind ( ULONGLONG TargetMsFrame, ULONGLONG TargetBsFrame, ULONGLONG TargetPc ); #endif // _IA64_ #define EXCEPTION_NONCONTINUABLE 0x1 // Noncontinuable exception #define EXCEPTION_MAXIMUM_PARAMETERS 15 // maximum number of exception parameters // // Exception record definition. // typedef struct _EXCEPTION_RECORD { DWORD ExceptionCode; DWORD ExceptionFlags; struct _EXCEPTION_RECORD *ExceptionRecord; PVOID ExceptionAddress; DWORD NumberParameters; ULONG_PTR ExceptionInformation[EXCEPTION_MAXIMUM_PARAMETERS]; } EXCEPTION_RECORD; typedef EXCEPTION_RECORD *PEXCEPTION_RECORD; typedef struct _EXCEPTION_RECORD32 { DWORD ExceptionCode; DWORD ExceptionFlags; DWORD ExceptionRecord; DWORD ExceptionAddress; DWORD NumberParameters; DWORD ExceptionInformation[EXCEPTION_MAXIMUM_PARAMETERS]; } EXCEPTION_RECORD32, *PEXCEPTION_RECORD32; typedef struct _EXCEPTION_RECORD64 { DWORD ExceptionCode; DWORD ExceptionFlags; DWORD64 ExceptionRecord; DWORD64 ExceptionAddress; DWORD NumberParameters; DWORD __unusedAlignment; DWORD64 ExceptionInformation[EXCEPTION_MAXIMUM_PARAMETERS]; } EXCEPTION_RECORD64, *PEXCEPTION_RECORD64; // // Typedef for pointer returned by exception_info() // typedef struct _EXCEPTION_POINTERS { PEXCEPTION_RECORD ExceptionRecord; PCONTEXT ContextRecord; } EXCEPTION_POINTERS, *PEXCEPTION_POINTERS; typedef PVOID PACCESS_TOKEN; typedef PVOID PSECURITY_DESCRIPTOR; typedef PVOID PSID; //////////////////////////////////////////////////////////////////////// // // // ACCESS MASK // // // //////////////////////////////////////////////////////////////////////// // // Define the access mask as a longword sized structure divided up as // follows: // // 3 3 2 2 2 2 2 2 2 2 2 2 1 1 1 1 1 1 1 1 1 1 // 1 0 9 8 7 6 5 4 3 2 1 0 9 8 7 6 5 4 3 2 1 0 9 8 7 6 5 4 3 2 1 0 // +---------------+---------------+-------------------------------+ // |G|G|G|G|Res'd|A| StandardRights| SpecificRights | // |R|W|E|A| |S| | | // +-+-------------+---------------+-------------------------------+ // // typedef struct _ACCESS_MASK { // WORD SpecificRights; // BYTE StandardRights; // BYTE AccessSystemAcl : 1; // BYTE Reserved : 3; // BYTE GenericAll : 1; // BYTE GenericExecute : 1; // BYTE GenericWrite : 1; // BYTE GenericRead : 1; // } ACCESS_MASK; // typedef ACCESS_MASK *PACCESS_MASK; // // but to make life simple for programmer's we'll allow them to specify // a desired access mask by simply OR'ing together mulitple single rights // and treat an access mask as a DWORD. For example // // DesiredAccess = DELETE | READ_CONTROL // // So we'll declare ACCESS_MASK as DWORD // // begin_ntddk begin_wdm begin_nthal begin_ntifs typedef DWORD ACCESS_MASK; typedef ACCESS_MASK *PACCESS_MASK; //////////////////////////////////////////////////////////////////////// // // // ACCESS TYPES // // // //////////////////////////////////////////////////////////////////////// // begin_ntddk begin_wdm begin_nthal begin_ntifs // // The following are masks for the predefined standard access types // #define DELETE (0x00010000L) #define READ_CONTROL (0x00020000L) #define WRITE_DAC (0x00040000L) #define WRITE_OWNER (0x00080000L) #define SYNCHRONIZE (0x00100000L) #define STANDARD_RIGHTS_REQUIRED (0x000F0000L) #define STANDARD_RIGHTS_READ (READ_CONTROL) #define STANDARD_RIGHTS_WRITE (READ_CONTROL) #define STANDARD_RIGHTS_EXECUTE (READ_CONTROL) #define STANDARD_RIGHTS_ALL (0x001F0000L) #define SPECIFIC_RIGHTS_ALL (0x0000FFFFL) // // AccessSystemAcl access type // #define ACCESS_SYSTEM_SECURITY (0x01000000L) // // MaximumAllowed access type // #define MAXIMUM_ALLOWED (0x02000000L) // // These are the generic rights. // #define GENERIC_READ (0x80000000L) #define GENERIC_WRITE (0x40000000L) #define GENERIC_EXECUTE (0x20000000L) #define GENERIC_ALL (0x10000000L) // // Define the generic mapping array. This is used to denote the // mapping of each generic access right to a specific access mask. // typedef struct _GENERIC_MAPPING { ACCESS_MASK GenericRead; ACCESS_MASK GenericWrite; ACCESS_MASK GenericExecute; ACCESS_MASK GenericAll; } GENERIC_MAPPING; typedef GENERIC_MAPPING *PGENERIC_MAPPING; //////////////////////////////////////////////////////////////////////// // // // LUID_AND_ATTRIBUTES // // // //////////////////////////////////////////////////////////////////////// // // #include typedef struct _LUID_AND_ATTRIBUTES { LUID Luid; DWORD Attributes; } LUID_AND_ATTRIBUTES, * PLUID_AND_ATTRIBUTES; typedef LUID_AND_ATTRIBUTES LUID_AND_ATTRIBUTES_ARRAY[ANYSIZE_ARRAY]; typedef LUID_AND_ATTRIBUTES_ARRAY *PLUID_AND_ATTRIBUTES_ARRAY; #include //////////////////////////////////////////////////////////////////////// // // // Security Id (SID) // // // //////////////////////////////////////////////////////////////////////// // // // Pictorially the structure of an SID is as follows: // // 1 1 1 1 1 1 // 5 4 3 2 1 0 9 8 7 6 5 4 3 2 1 0 // +---------------------------------------------------------------+ // | SubAuthorityCount |Reserved1 (SBZ)| Revision | // +---------------------------------------------------------------+ // | IdentifierAuthority[0] | // +---------------------------------------------------------------+ // | IdentifierAuthority[1] | // +---------------------------------------------------------------+ // | IdentifierAuthority[2] | // +---------------------------------------------------------------+ // | | // +- - - - - - - - SubAuthority[] - - - - - - - - -+ // | | // +---------------------------------------------------------------+ // // // begin_ntifs #ifndef SID_IDENTIFIER_AUTHORITY_DEFINED #define SID_IDENTIFIER_AUTHORITY_DEFINED typedef struct _SID_IDENTIFIER_AUTHORITY { BYTE Value[6]; } SID_IDENTIFIER_AUTHORITY, *PSID_IDENTIFIER_AUTHORITY; #endif #ifndef SID_DEFINED #define SID_DEFINED typedef struct _SID { BYTE Revision; BYTE SubAuthorityCount; SID_IDENTIFIER_AUTHORITY IdentifierAuthority; #ifdef MIDL_PASS [size_is(SubAuthorityCount)] DWORD SubAuthority[*]; #else // MIDL_PASS DWORD SubAuthority[ANYSIZE_ARRAY]; #endif // MIDL_PASS } SID, *PISID; #endif #define SID_REVISION (1) // Current revision level #define SID_MAX_SUB_AUTHORITIES (15) #define SID_RECOMMENDED_SUB_AUTHORITIES (1) // Will change to around 6 // in a future release. #ifndef MIDL_PASS #define SECURITY_MAX_SID_SIZE \ (sizeof(SID) - sizeof(DWORD) + (SID_MAX_SUB_AUTHORITIES * sizeof(DWORD))) #endif // MIDL_PASS typedef enum _SID_NAME_USE { SidTypeUser = 1, SidTypeGroup, SidTypeDomain, SidTypeAlias, SidTypeWellKnownGroup, SidTypeDeletedAccount, SidTypeInvalid, SidTypeUnknown, SidTypeComputer } SID_NAME_USE, *PSID_NAME_USE; typedef struct _SID_AND_ATTRIBUTES { PSID Sid; DWORD Attributes; } SID_AND_ATTRIBUTES, * PSID_AND_ATTRIBUTES; typedef SID_AND_ATTRIBUTES SID_AND_ATTRIBUTES_ARRAY[ANYSIZE_ARRAY]; typedef SID_AND_ATTRIBUTES_ARRAY *PSID_AND_ATTRIBUTES_ARRAY; ///////////////////////////////////////////////////////////////////////////// // // // Universal well-known SIDs // // // // Null SID S-1-0-0 // // World S-1-1-0 // // Local S-1-2-0 // // Creator Owner ID S-1-3-0 // // Creator Group ID S-1-3-1 // // Creator Owner Server ID S-1-3-2 // // Creator Group Server ID S-1-3-3 // // // // (Non-unique IDs) S-1-4 // // // ///////////////////////////////////////////////////////////////////////////// #define SECURITY_NULL_SID_AUTHORITY {0,0,0,0,0,0} #define SECURITY_WORLD_SID_AUTHORITY {0,0,0,0,0,1} #define SECURITY_LOCAL_SID_AUTHORITY {0,0,0,0,0,2} #define SECURITY_CREATOR_SID_AUTHORITY {0,0,0,0,0,3} #define SECURITY_NON_UNIQUE_AUTHORITY {0,0,0,0,0,4} #define SECURITY_RESOURCE_MANAGER_AUTHORITY {0,0,0,0,0,9} #define SECURITY_NULL_RID (0x00000000L) #define SECURITY_WORLD_RID (0x00000000L) #define SECURITY_LOCAL_RID (0x00000000L) #define SECURITY_CREATOR_OWNER_RID (0x00000000L) #define SECURITY_CREATOR_GROUP_RID (0x00000001L) #define SECURITY_CREATOR_OWNER_SERVER_RID (0x00000002L) #define SECURITY_CREATOR_GROUP_SERVER_RID (0x00000003L) /////////////////////////////////////////////////////////////////////////////// // // // NT well-known SIDs // // // // NT Authority S-1-5 // // Dialup S-1-5-1 // // // // Network S-1-5-2 // // Batch S-1-5-3 // // Interactive S-1-5-4 // // (Logon IDs) S-1-5-5-X-Y // // Service S-1-5-6 // // AnonymousLogon S-1-5-7 (aka null logon session) // // Proxy S-1-5-8 // // Enterprise DC (EDC) S-1-5-9 (aka domain controller account) // // Self S-1-5-10 (self RID) // // Authenticated User S-1-5-11 (Authenticated user somewhere) // // Restricted Code S-1-5-12 (Running restricted code) // // Terminal Server S-1-5-13 (Running on Terminal Server) // // Remote Logon S-1-5-14 (Remote Interactive Logon) // // This Organization S-1-5-15 // // // // Local System S-1-5-18 // // Local Service S-1-5-19 // // Network Service S-1-5-20 // // // // (NT non-unique IDs) S-1-5-0x15-... (NT Domain Sids) // // // // (Built-in domain) S-1-5-0x20 // // // // (Security Package IDs) S-1-5-0x40 // // NTLM Authentication S-1-5-0x40-10 // // SChannel Authentication S-1-5-0x40-14 // // Digest Authentication S-1-5-0x40-21 // // // // Other Organization S-1-5-1000 (>=1000 can not be filtered) // // // // // // NOTE: the relative identifier values (RIDs) determine which security // // boundaries the SID is allowed to cross. Before adding new RIDs, // // a determination needs to be made regarding which range they should // // be added to in order to ensure proper "SID filtering" // // // /////////////////////////////////////////////////////////////////////////////// #define SECURITY_NT_AUTHORITY {0,0,0,0,0,5} // ntifs #define SECURITY_DIALUP_RID (0x00000001L) #define SECURITY_NETWORK_RID (0x00000002L) #define SECURITY_BATCH_RID (0x00000003L) #define SECURITY_INTERACTIVE_RID (0x00000004L) #define SECURITY_LOGON_IDS_RID (0x00000005L) #define SECURITY_LOGON_IDS_RID_COUNT (3L) #define SECURITY_SERVICE_RID (0x00000006L) #define SECURITY_ANONYMOUS_LOGON_RID (0x00000007L) #define SECURITY_PROXY_RID (0x00000008L) #define SECURITY_ENTERPRISE_CONTROLLERS_RID (0x00000009L) #define SECURITY_SERVER_LOGON_RID SECURITY_ENTERPRISE_CONTROLLERS_RID #define SECURITY_PRINCIPAL_SELF_RID (0x0000000AL) #define SECURITY_AUTHENTICATED_USER_RID (0x0000000BL) #define SECURITY_RESTRICTED_CODE_RID (0x0000000CL) #define SECURITY_TERMINAL_SERVER_RID (0x0000000DL) #define SECURITY_REMOTE_LOGON_RID (0x0000000EL) #define SECURITY_THIS_ORGANIZATION_RID (0x0000000FL) #define SECURITY_LOCAL_SYSTEM_RID (0x00000012L) #define SECURITY_LOCAL_SERVICE_RID (0x00000013L) #define SECURITY_NETWORK_SERVICE_RID (0x00000014L) #define SECURITY_NT_NON_UNIQUE (0x00000015L) #define SECURITY_NT_NON_UNIQUE_SUB_AUTH_COUNT (3L) #define SECURITY_BUILTIN_DOMAIN_RID (0x00000020L) #define SECURITY_PACKAGE_BASE_RID (0x00000040L) #define SECURITY_PACKAGE_RID_COUNT (2L) #define SECURITY_PACKAGE_NTLM_RID (0x0000000AL) #define SECURITY_PACKAGE_SCHANNEL_RID (0x0000000EL) #define SECURITY_PACKAGE_DIGEST_RID (0x00000015L) #define SECURITY_MAX_ALWAYS_FILTERED (0x000003E7L) #define SECURITY_MIN_NEVER_FILTERED (0x000003E8L) #define SECURITY_OTHER_ORGANIZATION_RID (0x000003E8L) ///////////////////////////////////////////////////////////////////////////// // // // well-known domain relative sub-authority values (RIDs)... // // // ///////////////////////////////////////////////////////////////////////////// // Well-known users ... #define FOREST_USER_RID_MAX (0x000001F3L) #define DOMAIN_USER_RID_ADMIN (0x000001F4L) #define DOMAIN_USER_RID_GUEST (0x000001F5L) #define DOMAIN_USER_RID_KRBTGT (0x000001F6L) #define DOMAIN_USER_RID_MAX (0x000003E7L) // well-known groups ... #define DOMAIN_GROUP_RID_ADMINS (0x00000200L) #define DOMAIN_GROUP_RID_USERS (0x00000201L) #define DOMAIN_GROUP_RID_GUESTS (0x00000202L) #define DOMAIN_GROUP_RID_COMPUTERS (0x00000203L) #define DOMAIN_GROUP_RID_CONTROLLERS (0x00000204L) #define DOMAIN_GROUP_RID_CERT_ADMINS (0x00000205L) #define DOMAIN_GROUP_RID_SCHEMA_ADMINS (0x00000206L) #define DOMAIN_GROUP_RID_ENTERPRISE_ADMINS (0x00000207L) #define DOMAIN_GROUP_RID_POLICY_ADMINS (0x00000208L) // well-known aliases ... #define DOMAIN_ALIAS_RID_ADMINS (0x00000220L) #define DOMAIN_ALIAS_RID_USERS (0x00000221L) #define DOMAIN_ALIAS_RID_GUESTS (0x00000222L) #define DOMAIN_ALIAS_RID_POWER_USERS (0x00000223L) #define DOMAIN_ALIAS_RID_ACCOUNT_OPS (0x00000224L) #define DOMAIN_ALIAS_RID_SYSTEM_OPS (0x00000225L) #define DOMAIN_ALIAS_RID_PRINT_OPS (0x00000226L) #define DOMAIN_ALIAS_RID_BACKUP_OPS (0x00000227L) #define DOMAIN_ALIAS_RID_REPLICATOR (0x00000228L) #define DOMAIN_ALIAS_RID_RAS_SERVERS (0x00000229L) #define DOMAIN_ALIAS_RID_PREW2KCOMPACCESS (0x0000022AL) #define DOMAIN_ALIAS_RID_REMOTE_DESKTOP_USERS (0x0000022BL) #define DOMAIN_ALIAS_RID_NETWORK_CONFIGURATION_OPS (0x0000022CL) #define DOMAIN_ALIAS_RID_INCOMING_FOREST_TRUST_BUILDERS (0x0000022DL) #define DOMAIN_ALIAS_RID_MONITORING_USERS (0x0000022EL) #define DOMAIN_ALIAS_RID_LOGGING_USERS (0x0000022FL) typedef enum { WinNullSid = 0, WinWorldSid = 1, WinLocalSid = 2, WinCreatorOwnerSid = 3, WinCreatorGroupSid = 4, WinCreatorOwnerServerSid = 5, WinCreatorGroupServerSid = 6, WinNtAuthoritySid = 7, WinDialupSid = 8, WinNetworkSid = 9, WinBatchSid = 10, WinInteractiveSid = 11, WinServiceSid = 12, WinAnonymousSid = 13, WinProxySid = 14, WinEnterpriseControllersSid = 15, WinSelfSid = 16, WinAuthenticatedUserSid = 17, WinRestrictedCodeSid = 18, WinTerminalServerSid = 19, WinRemoteLogonIdSid = 20, WinLogonIdsSid = 21, WinLocalSystemSid = 22, WinLocalServiceSid = 23, WinNetworkServiceSid = 24, WinBuiltinDomainSid = 25, WinBuiltinAdministratorsSid = 26, WinBuiltinUsersSid = 27, WinBuiltinGuestsSid = 28, WinBuiltinPowerUsersSid = 29, WinBuiltinAccountOperatorsSid = 30, WinBuiltinSystemOperatorsSid = 31, WinBuiltinPrintOperatorsSid = 32, WinBuiltinBackupOperatorsSid = 33, WinBuiltinReplicatorSid = 34, WinBuiltinPreWindows2000CompatibleAccessSid = 35, WinBuiltinRemoteDesktopUsersSid = 36, WinBuiltinNetworkConfigurationOperatorsSid = 37, WinAccountAdministratorSid = 38, WinAccountGuestSid = 39, WinAccountKrbtgtSid = 40, WinAccountDomainAdminsSid = 41, WinAccountDomainUsersSid = 42, WinAccountDomainGuestsSid = 43, WinAccountComputersSid = 44, WinAccountControllersSid = 45, WinAccountCertAdminsSid = 46, WinAccountSchemaAdminsSid = 47, WinAccountEnterpriseAdminsSid = 48, WinAccountPolicyAdminsSid = 49, WinAccountRasAndIasServersSid = 50, WinNTLMAuthenticationSid = 51, WinDigestAuthenticationSid = 52, WinSChannelAuthenticationSid = 53, WinThisOrganizationSid = 54, WinOtherOrganizationSid = 55, WinBuiltinIncomingForestTrustBuildersSid = 56, WinBuiltinPerfMonitoringUsersSid = 57, WinBuiltinPerfLoggingUsersSid = 58, } WELL_KNOWN_SID_TYPE; // // Allocate the System Luid. The first 1000 LUIDs are reserved. // Use #999 here (0x3E7 = 999) // #define SYSTEM_LUID { 0x3E7, 0x0 } #define ANONYMOUS_LOGON_LUID { 0x3e6, 0x0 } #define LOCALSERVICE_LUID { 0x3e5, 0x0 } #define NETWORKSERVICE_LUID { 0x3e4, 0x0 } // end_ntifs //////////////////////////////////////////////////////////////////////// // // // User and Group related SID attributes // // // //////////////////////////////////////////////////////////////////////// // // Group attributes // #define SE_GROUP_MANDATORY (0x00000001L) #define SE_GROUP_ENABLED_BY_DEFAULT (0x00000002L) #define SE_GROUP_ENABLED (0x00000004L) #define SE_GROUP_OWNER (0x00000008L) #define SE_GROUP_USE_FOR_DENY_ONLY (0x00000010L) #define SE_GROUP_LOGON_ID (0xC0000000L) #define SE_GROUP_RESOURCE (0x20000000L) // // User attributes // // (None yet defined.) //////////////////////////////////////////////////////////////////////// // // // ACL and ACE // // // //////////////////////////////////////////////////////////////////////// // // Define an ACL and the ACE format. The structure of an ACL header // followed by one or more ACEs. Pictorally the structure of an ACL header // is as follows: // // 3 3 2 2 2 2 2 2 2 2 2 2 1 1 1 1 1 1 1 1 1 1 // 1 0 9 8 7 6 5 4 3 2 1 0 9 8 7 6 5 4 3 2 1 0 9 8 7 6 5 4 3 2 1 0 // +-------------------------------+---------------+---------------+ // | AclSize | Sbz1 | AclRevision | // +-------------------------------+---------------+---------------+ // | Sbz2 | AceCount | // +-------------------------------+-------------------------------+ // // The current AclRevision is defined to be ACL_REVISION. // // AclSize is the size, in bytes, allocated for the ACL. This includes // the ACL header, ACES, and remaining free space in the buffer. // // AceCount is the number of ACES in the ACL. // // begin_ntddk begin_wdm begin_ntifs // This is the *current* ACL revision #define ACL_REVISION (2) #define ACL_REVISION_DS (4) // This is the history of ACL revisions. Add a new one whenever // ACL_REVISION is updated #define ACL_REVISION1 (1) #define MIN_ACL_REVISION ACL_REVISION2 #define ACL_REVISION2 (2) #define ACL_REVISION3 (3) #define ACL_REVISION4 (4) #define MAX_ACL_REVISION ACL_REVISION4 typedef struct _ACL { BYTE AclRevision; BYTE Sbz1; WORD AclSize; WORD AceCount; WORD Sbz2; } ACL; typedef ACL *PACL; // end_ntddk end_wdm // // The structure of an ACE is a common ace header followed by ace type // specific data. Pictorally the structure of the common ace header is // as follows: // // 3 3 2 2 2 2 2 2 2 2 2 2 1 1 1 1 1 1 1 1 1 1 // 1 0 9 8 7 6 5 4 3 2 1 0 9 8 7 6 5 4 3 2 1 0 9 8 7 6 5 4 3 2 1 0 // +---------------+-------+-------+---------------+---------------+ // | AceSize | AceFlags | AceType | // +---------------+-------+-------+---------------+---------------+ // // AceType denotes the type of the ace, there are some predefined ace // types // // AceSize is the size, in bytes, of ace. // // AceFlags are the Ace flags for audit and inheritance, defined shortly. typedef struct _ACE_HEADER { BYTE AceType; BYTE AceFlags; WORD AceSize; } ACE_HEADER; typedef ACE_HEADER *PACE_HEADER; // // The following are the predefined ace types that go into the AceType // field of an Ace header. // #define ACCESS_MIN_MS_ACE_TYPE (0x0) #define ACCESS_ALLOWED_ACE_TYPE (0x0) #define ACCESS_DENIED_ACE_TYPE (0x1) #define SYSTEM_AUDIT_ACE_TYPE (0x2) #define SYSTEM_ALARM_ACE_TYPE (0x3) #define ACCESS_MAX_MS_V2_ACE_TYPE (0x3) #define ACCESS_ALLOWED_COMPOUND_ACE_TYPE (0x4) #define ACCESS_MAX_MS_V3_ACE_TYPE (0x4) #define ACCESS_MIN_MS_OBJECT_ACE_TYPE (0x5) #define ACCESS_ALLOWED_OBJECT_ACE_TYPE (0x5) #define ACCESS_DENIED_OBJECT_ACE_TYPE (0x6) #define SYSTEM_AUDIT_OBJECT_ACE_TYPE (0x7) #define SYSTEM_ALARM_OBJECT_ACE_TYPE (0x8) #define ACCESS_MAX_MS_OBJECT_ACE_TYPE (0x8) #define ACCESS_MAX_MS_V4_ACE_TYPE (0x8) #define ACCESS_MAX_MS_ACE_TYPE (0x8) #define ACCESS_ALLOWED_CALLBACK_ACE_TYPE (0x9) #define ACCESS_DENIED_CALLBACK_ACE_TYPE (0xA) #define ACCESS_ALLOWED_CALLBACK_OBJECT_ACE_TYPE (0xB) #define ACCESS_DENIED_CALLBACK_OBJECT_ACE_TYPE (0xC) #define SYSTEM_AUDIT_CALLBACK_ACE_TYPE (0xD) #define SYSTEM_ALARM_CALLBACK_ACE_TYPE (0xE) #define SYSTEM_AUDIT_CALLBACK_OBJECT_ACE_TYPE (0xF) #define SYSTEM_ALARM_CALLBACK_OBJECT_ACE_TYPE (0x10) #define ACCESS_MAX_MS_V5_ACE_TYPE (0x10) // // The following are the inherit flags that go into the AceFlags field // of an Ace header. // #define OBJECT_INHERIT_ACE (0x1) #define CONTAINER_INHERIT_ACE (0x2) #define NO_PROPAGATE_INHERIT_ACE (0x4) #define INHERIT_ONLY_ACE (0x8) #define INHERITED_ACE (0x10) #define VALID_INHERIT_FLAGS (0x1F) // The following are the currently defined ACE flags that go into the // AceFlags field of an ACE header. Each ACE type has its own set of // AceFlags. // // SUCCESSFUL_ACCESS_ACE_FLAG - used only with system audit and alarm ACE // types to indicate that a message is generated for successful accesses. // // FAILED_ACCESS_ACE_FLAG - used only with system audit and alarm ACE types // to indicate that a message is generated for failed accesses. // // // SYSTEM_AUDIT and SYSTEM_ALARM AceFlags // // These control the signaling of audit and alarms for success or failure. // #define SUCCESSFUL_ACCESS_ACE_FLAG (0x40) #define FAILED_ACCESS_ACE_FLAG (0x80) // // We'll define the structure of the predefined ACE types. Pictorally // the structure of the predefined ACE's is as follows: // // 3 3 2 2 2 2 2 2 2 2 2 2 1 1 1 1 1 1 1 1 1 1 // 1 0 9 8 7 6 5 4 3 2 1 0 9 8 7 6 5 4 3 2 1 0 9 8 7 6 5 4 3 2 1 0 // +---------------+-------+-------+---------------+---------------+ // | AceFlags | Resd |Inherit| AceSize | AceType | // +---------------+-------+-------+---------------+---------------+ // | Mask | // +---------------------------------------------------------------+ // | | // + + // | | // + Sid + // | | // + + // | | // +---------------------------------------------------------------+ // // Mask is the access mask associated with the ACE. This is either the // access allowed, access denied, audit, or alarm mask. // // Sid is the Sid associated with the ACE. // // The following are the four predefined ACE types. // Examine the AceType field in the Header to determine // which structure is appropriate to use for casting. typedef struct _ACCESS_ALLOWED_ACE { ACE_HEADER Header; ACCESS_MASK Mask; DWORD SidStart; } ACCESS_ALLOWED_ACE; typedef ACCESS_ALLOWED_ACE *PACCESS_ALLOWED_ACE; typedef struct _ACCESS_DENIED_ACE { ACE_HEADER Header; ACCESS_MASK Mask; DWORD SidStart; } ACCESS_DENIED_ACE; typedef ACCESS_DENIED_ACE *PACCESS_DENIED_ACE; typedef struct _SYSTEM_AUDIT_ACE { ACE_HEADER Header; ACCESS_MASK Mask; DWORD SidStart; } SYSTEM_AUDIT_ACE; typedef SYSTEM_AUDIT_ACE *PSYSTEM_AUDIT_ACE; typedef struct _SYSTEM_ALARM_ACE { ACE_HEADER Header; ACCESS_MASK Mask; DWORD SidStart; } SYSTEM_ALARM_ACE; typedef SYSTEM_ALARM_ACE *PSYSTEM_ALARM_ACE; // end_ntifs typedef struct _ACCESS_ALLOWED_OBJECT_ACE { ACE_HEADER Header; ACCESS_MASK Mask; DWORD Flags; GUID ObjectType; GUID InheritedObjectType; DWORD SidStart; } ACCESS_ALLOWED_OBJECT_ACE, *PACCESS_ALLOWED_OBJECT_ACE; typedef struct _ACCESS_DENIED_OBJECT_ACE { ACE_HEADER Header; ACCESS_MASK Mask; DWORD Flags; GUID ObjectType; GUID InheritedObjectType; DWORD SidStart; } ACCESS_DENIED_OBJECT_ACE, *PACCESS_DENIED_OBJECT_ACE; typedef struct _SYSTEM_AUDIT_OBJECT_ACE { ACE_HEADER Header; ACCESS_MASK Mask; DWORD Flags; GUID ObjectType; GUID InheritedObjectType; DWORD SidStart; } SYSTEM_AUDIT_OBJECT_ACE, *PSYSTEM_AUDIT_OBJECT_ACE; typedef struct _SYSTEM_ALARM_OBJECT_ACE { ACE_HEADER Header; ACCESS_MASK Mask; DWORD Flags; GUID ObjectType; GUID InheritedObjectType; DWORD SidStart; } SYSTEM_ALARM_OBJECT_ACE, *PSYSTEM_ALARM_OBJECT_ACE; // // Callback ace support in post Win2000. // Resource managers can put their own data after Sidstart + Length of the sid // typedef struct _ACCESS_ALLOWED_CALLBACK_ACE { ACE_HEADER Header; ACCESS_MASK Mask; DWORD SidStart; // Opaque resouce manager specific data } ACCESS_ALLOWED_CALLBACK_ACE, *PACCESS_ALLOWED_CALLBACK_ACE; typedef struct _ACCESS_DENIED_CALLBACK_ACE { ACE_HEADER Header; ACCESS_MASK Mask; DWORD SidStart; // Opaque resouce manager specific data } ACCESS_DENIED_CALLBACK_ACE, *PACCESS_DENIED_CALLBACK_ACE; typedef struct _SYSTEM_AUDIT_CALLBACK_ACE { ACE_HEADER Header; ACCESS_MASK Mask; DWORD SidStart; // Opaque resouce manager specific data } SYSTEM_AUDIT_CALLBACK_ACE, *PSYSTEM_AUDIT_CALLBACK_ACE; typedef struct _SYSTEM_ALARM_CALLBACK_ACE { ACE_HEADER Header; ACCESS_MASK Mask; DWORD SidStart; // Opaque resouce manager specific data } SYSTEM_ALARM_CALLBACK_ACE, *PSYSTEM_ALARM_CALLBACK_ACE; typedef struct _ACCESS_ALLOWED_CALLBACK_OBJECT_ACE { ACE_HEADER Header; ACCESS_MASK Mask; DWORD Flags; GUID ObjectType; GUID InheritedObjectType; DWORD SidStart; // Opaque resouce manager specific data } ACCESS_ALLOWED_CALLBACK_OBJECT_ACE, *PACCESS_ALLOWED_CALLBACK_OBJECT_ACE; typedef struct _ACCESS_DENIED_CALLBACK_OBJECT_ACE { ACE_HEADER Header; ACCESS_MASK Mask; DWORD Flags; GUID ObjectType; GUID InheritedObjectType; DWORD SidStart; // Opaque resouce manager specific data } ACCESS_DENIED_CALLBACK_OBJECT_ACE, *PACCESS_DENIED_CALLBACK_OBJECT_ACE; typedef struct _SYSTEM_AUDIT_CALLBACK_OBJECT_ACE { ACE_HEADER Header; ACCESS_MASK Mask; DWORD Flags; GUID ObjectType; GUID InheritedObjectType; DWORD SidStart; // Opaque resouce manager specific data } SYSTEM_AUDIT_CALLBACK_OBJECT_ACE, *PSYSTEM_AUDIT_CALLBACK_OBJECT_ACE; typedef struct _SYSTEM_ALARM_CALLBACK_OBJECT_ACE { ACE_HEADER Header; ACCESS_MASK Mask; DWORD Flags; GUID ObjectType; GUID InheritedObjectType; DWORD SidStart; // Opaque resouce manager specific data } SYSTEM_ALARM_CALLBACK_OBJECT_ACE, *PSYSTEM_ALARM_CALLBACK_OBJECT_ACE; // // Currently define Flags for "OBJECT" ACE types. // #define ACE_OBJECT_TYPE_PRESENT 0x1 #define ACE_INHERITED_OBJECT_TYPE_PRESENT 0x2 // // The following declarations are used for setting and querying information // about and ACL. First are the various information classes available to // the user. // typedef enum _ACL_INFORMATION_CLASS { AclRevisionInformation = 1, AclSizeInformation } ACL_INFORMATION_CLASS; // // This record is returned/sent if the user is requesting/setting the // AclRevisionInformation // typedef struct _ACL_REVISION_INFORMATION { DWORD AclRevision; } ACL_REVISION_INFORMATION; typedef ACL_REVISION_INFORMATION *PACL_REVISION_INFORMATION; // // This record is returned if the user is requesting AclSizeInformation // typedef struct _ACL_SIZE_INFORMATION { DWORD AceCount; DWORD AclBytesInUse; DWORD AclBytesFree; } ACL_SIZE_INFORMATION; typedef ACL_SIZE_INFORMATION *PACL_SIZE_INFORMATION; //////////////////////////////////////////////////////////////////////// // // // SECURITY_DESCRIPTOR // // // //////////////////////////////////////////////////////////////////////// // // Define the Security Descriptor and related data types. // This is an opaque data structure. // // begin_wdm begin_ntddk begin_ntifs // // Current security descriptor revision value // #define SECURITY_DESCRIPTOR_REVISION (1) #define SECURITY_DESCRIPTOR_REVISION1 (1) // end_wdm end_ntddk #define SECURITY_DESCRIPTOR_MIN_LENGTH (sizeof(SECURITY_DESCRIPTOR)) typedef WORD SECURITY_DESCRIPTOR_CONTROL, *PSECURITY_DESCRIPTOR_CONTROL; #define SE_OWNER_DEFAULTED (0x0001) #define SE_GROUP_DEFAULTED (0x0002) #define SE_DACL_PRESENT (0x0004) #define SE_DACL_DEFAULTED (0x0008) #define SE_SACL_PRESENT (0x0010) #define SE_SACL_DEFAULTED (0x0020) #define SE_DACL_AUTO_INHERIT_REQ (0x0100) #define SE_SACL_AUTO_INHERIT_REQ (0x0200) #define SE_DACL_AUTO_INHERITED (0x0400) #define SE_SACL_AUTO_INHERITED (0x0800) #define SE_DACL_PROTECTED (0x1000) #define SE_SACL_PROTECTED (0x2000) #define SE_RM_CONTROL_VALID (0x4000) #define SE_SELF_RELATIVE (0x8000) // // Where: // // SE_OWNER_DEFAULTED - This boolean flag, when set, indicates that the // SID pointed to by the Owner field was provided by a // defaulting mechanism rather than explicitly provided by the // original provider of the security descriptor. This may // affect the treatment of the SID with respect to inheritence // of an owner. // // SE_GROUP_DEFAULTED - This boolean flag, when set, indicates that the // SID in the Group field was provided by a defaulting mechanism // rather than explicitly provided by the original provider of // the security descriptor. This may affect the treatment of // the SID with respect to inheritence of a primary group. // // SE_DACL_PRESENT - This boolean flag, when set, indicates that the // security descriptor contains a discretionary ACL. If this // flag is set and the Dacl field of the SECURITY_DESCRIPTOR is // null, then a null ACL is explicitly being specified. // // SE_DACL_DEFAULTED - This boolean flag, when set, indicates that the // ACL pointed to by the Dacl field was provided by a defaulting // mechanism rather than explicitly provided by the original // provider of the security descriptor. This may affect the // treatment of the ACL with respect to inheritence of an ACL. // This flag is ignored if the DaclPresent flag is not set. // // SE_SACL_PRESENT - This boolean flag, when set, indicates that the // security descriptor contains a system ACL pointed to by the // Sacl field. If this flag is set and the Sacl field of the // SECURITY_DESCRIPTOR is null, then an empty (but present) // ACL is being specified. // // SE_SACL_DEFAULTED - This boolean flag, when set, indicates that the // ACL pointed to by the Sacl field was provided by a defaulting // mechanism rather than explicitly provided by the original // provider of the security descriptor. This may affect the // treatment of the ACL with respect to inheritence of an ACL. // This flag is ignored if the SaclPresent flag is not set. // // SE_SELF_RELATIVE - This boolean flag, when set, indicates that the // security descriptor is in self-relative form. In this form, // all fields of the security descriptor are contiguous in memory // and all pointer fields are expressed as offsets from the // beginning of the security descriptor. This form is useful // for treating security descriptors as opaque data structures // for transmission in communication protocol or for storage on // secondary media. // // // // Pictorially the structure of a security descriptor is as follows: // // 3 3 2 2 2 2 2 2 2 2 2 2 1 1 1 1 1 1 1 1 1 1 // 1 0 9 8 7 6 5 4 3 2 1 0 9 8 7 6 5 4 3 2 1 0 9 8 7 6 5 4 3 2 1 0 // +---------------------------------------------------------------+ // | Control |Reserved1 (SBZ)| Revision | // +---------------------------------------------------------------+ // | Owner | // +---------------------------------------------------------------+ // | Group | // +---------------------------------------------------------------+ // | Sacl | // +---------------------------------------------------------------+ // | Dacl | // +---------------------------------------------------------------+ // // In general, this data structure should be treated opaquely to ensure future // compatibility. // // typedef struct _SECURITY_DESCRIPTOR_RELATIVE { BYTE Revision; BYTE Sbz1; SECURITY_DESCRIPTOR_CONTROL Control; DWORD Owner; DWORD Group; DWORD Sacl; DWORD Dacl; } SECURITY_DESCRIPTOR_RELATIVE, *PISECURITY_DESCRIPTOR_RELATIVE; typedef struct _SECURITY_DESCRIPTOR { BYTE Revision; BYTE Sbz1; SECURITY_DESCRIPTOR_CONTROL Control; PSID Owner; PSID Group; PACL Sacl; PACL Dacl; } SECURITY_DESCRIPTOR, *PISECURITY_DESCRIPTOR; // end_ntifs // Where: // // Revision - Contains the revision level of the security // descriptor. This allows this structure to be passed between // systems or stored on disk even though it is expected to // change in the future. // // Control - A set of flags which qualify the meaning of the // security descriptor or individual fields of the security // descriptor. // // Owner - is a pointer to an SID representing an object's owner. // If this field is null, then no owner SID is present in the // security descriptor. If the security descriptor is in // self-relative form, then this field contains an offset to // the SID, rather than a pointer. // // Group - is a pointer to an SID representing an object's primary // group. If this field is null, then no primary group SID is // present in the security descriptor. If the security descriptor // is in self-relative form, then this field contains an offset to // the SID, rather than a pointer. // // Sacl - is a pointer to a system ACL. This field value is only // valid if the DaclPresent control flag is set. If the // SaclPresent flag is set and this field is null, then a null // ACL is specified. If the security descriptor is in // self-relative form, then this field contains an offset to // the ACL, rather than a pointer. // // Dacl - is a pointer to a discretionary ACL. This field value is // only valid if the DaclPresent control flag is set. If the // DaclPresent flag is set and this field is null, then a null // ACL (unconditionally granting access) is specified. If the // security descriptor is in self-relative form, then this field // contains an offset to the ACL, rather than a pointer. // //////////////////////////////////////////////////////////////////////// // // // Object Type list for AccessCheckByType // // // //////////////////////////////////////////////////////////////////////// typedef struct _OBJECT_TYPE_LIST { WORD Level; WORD Sbz; GUID *ObjectType; } OBJECT_TYPE_LIST, *POBJECT_TYPE_LIST; // // DS values for Level // #define ACCESS_OBJECT_GUID 0 #define ACCESS_PROPERTY_SET_GUID 1 #define ACCESS_PROPERTY_GUID 2 #define ACCESS_MAX_LEVEL 4 // // Parameters to NtAccessCheckByTypeAndAditAlarm // typedef enum _AUDIT_EVENT_TYPE { AuditEventObjectAccess, AuditEventDirectoryServiceAccess } AUDIT_EVENT_TYPE, *PAUDIT_EVENT_TYPE; #define AUDIT_ALLOW_NO_PRIVILEGE 0x1 // // DS values for Source and ObjectTypeName // #define ACCESS_DS_SOURCE_A "DS" #define ACCESS_DS_SOURCE_W L"DS" #define ACCESS_DS_OBJECT_TYPE_NAME_A "Directory Service Object" #define ACCESS_DS_OBJECT_TYPE_NAME_W L"Directory Service Object" //////////////////////////////////////////////////////////////////////// // // // Privilege Related Data Structures // // // //////////////////////////////////////////////////////////////////////// // begin_wdm begin_ntddk begin_nthal // // Privilege attributes // #define SE_PRIVILEGE_ENABLED_BY_DEFAULT (0x00000001L) #define SE_PRIVILEGE_ENABLED (0x00000002L) #define SE_PRIVILEGE_REMOVED (0X00000004L) #define SE_PRIVILEGE_USED_FOR_ACCESS (0x80000000L) // // Privilege Set Control flags // #define PRIVILEGE_SET_ALL_NECESSARY (1) // // Privilege Set - This is defined for a privilege set of one. // If more than one privilege is needed, then this structure // will need to be allocated with more space. // // Note: don't change this structure without fixing the INITIAL_PRIVILEGE_SET // structure (defined in se.h) // typedef struct _PRIVILEGE_SET { DWORD PrivilegeCount; DWORD Control; LUID_AND_ATTRIBUTES Privilege[ANYSIZE_ARRAY]; } PRIVILEGE_SET, * PPRIVILEGE_SET; //////////////////////////////////////////////////////////////////////// // // // NT Defined Privileges // // // //////////////////////////////////////////////////////////////////////// #define SE_CREATE_TOKEN_NAME TEXT("SeCreateTokenPrivilege") #define SE_ASSIGNPRIMARYTOKEN_NAME TEXT("SeAssignPrimaryTokenPrivilege") #define SE_LOCK_MEMORY_NAME TEXT("SeLockMemoryPrivilege") #define SE_INCREASE_QUOTA_NAME TEXT("SeIncreaseQuotaPrivilege") #define SE_UNSOLICITED_INPUT_NAME TEXT("SeUnsolicitedInputPrivilege") #define SE_MACHINE_ACCOUNT_NAME TEXT("SeMachineAccountPrivilege") #define SE_TCB_NAME TEXT("SeTcbPrivilege") #define SE_SECURITY_NAME TEXT("SeSecurityPrivilege") #define SE_TAKE_OWNERSHIP_NAME TEXT("SeTakeOwnershipPrivilege") #define SE_LOAD_DRIVER_NAME TEXT("SeLoadDriverPrivilege") #define SE_SYSTEM_PROFILE_NAME TEXT("SeSystemProfilePrivilege") #define SE_SYSTEMTIME_NAME TEXT("SeSystemtimePrivilege") #define SE_PROF_SINGLE_PROCESS_NAME TEXT("SeProfileSingleProcessPrivilege") #define SE_INC_BASE_PRIORITY_NAME TEXT("SeIncreaseBasePriorityPrivilege") #define SE_CREATE_PAGEFILE_NAME TEXT("SeCreatePagefilePrivilege") #define SE_CREATE_PERMANENT_NAME TEXT("SeCreatePermanentPrivilege") #define SE_BACKUP_NAME TEXT("SeBackupPrivilege") #define SE_RESTORE_NAME TEXT("SeRestorePrivilege") #define SE_SHUTDOWN_NAME TEXT("SeShutdownPrivilege") #define SE_DEBUG_NAME TEXT("SeDebugPrivilege") #define SE_AUDIT_NAME TEXT("SeAuditPrivilege") #define SE_SYSTEM_ENVIRONMENT_NAME TEXT("SeSystemEnvironmentPrivilege") #define SE_CHANGE_NOTIFY_NAME TEXT("SeChangeNotifyPrivilege") #define SE_REMOTE_SHUTDOWN_NAME TEXT("SeRemoteShutdownPrivilege") #define SE_UNDOCK_NAME TEXT("SeUndockPrivilege") #define SE_SYNC_AGENT_NAME TEXT("SeSyncAgentPrivilege") #define SE_ENABLE_DELEGATION_NAME TEXT("SeEnableDelegationPrivilege") #define SE_MANAGE_VOLUME_NAME TEXT("SeManageVolumePrivilege") //////////////////////////////////////////////////////////////////// // // // Security Quality Of Service // // // // // //////////////////////////////////////////////////////////////////// // begin_wdm begin_ntddk begin_nthal begin_ntifs // // Impersonation Level // // Impersonation level is represented by a pair of bits in Windows. // If a new impersonation level is added or lowest value is changed from // 0 to something else, fix the Windows CreateFile call. // typedef enum _SECURITY_IMPERSONATION_LEVEL { SecurityAnonymous, SecurityIdentification, SecurityImpersonation, SecurityDelegation } SECURITY_IMPERSONATION_LEVEL, * PSECURITY_IMPERSONATION_LEVEL; #define SECURITY_MAX_IMPERSONATION_LEVEL SecurityDelegation #define SECURITY_MIN_IMPERSONATION_LEVEL SecurityAnonymous #define DEFAULT_IMPERSONATION_LEVEL SecurityImpersonation #define VALID_IMPERSONATION_LEVEL(L) (((L) >= SECURITY_MIN_IMPERSONATION_LEVEL) && ((L) <= SECURITY_MAX_IMPERSONATION_LEVEL)) //////////////////////////////////////////////////////////////////// // // // Token Object Definitions // // // // // //////////////////////////////////////////////////////////////////// // // Token Specific Access Rights. // #define TOKEN_ASSIGN_PRIMARY (0x0001) #define TOKEN_DUPLICATE (0x0002) #define TOKEN_IMPERSONATE (0x0004) #define TOKEN_QUERY (0x0008) #define TOKEN_QUERY_SOURCE (0x0010) #define TOKEN_ADJUST_PRIVILEGES (0x0020) #define TOKEN_ADJUST_GROUPS (0x0040) #define TOKEN_ADJUST_DEFAULT (0x0080) #define TOKEN_ADJUST_SESSIONID (0x0100) #define TOKEN_ALL_ACCESS_P (STANDARD_RIGHTS_REQUIRED |\ TOKEN_ASSIGN_PRIMARY |\ TOKEN_DUPLICATE |\ TOKEN_IMPERSONATE |\ TOKEN_QUERY |\ TOKEN_QUERY_SOURCE |\ TOKEN_ADJUST_PRIVILEGES |\ TOKEN_ADJUST_GROUPS |\ TOKEN_ADJUST_DEFAULT ) #if ((defined(_WIN32_WINNT) && (_WIN32_WINNT > 0x0400)) || (!defined(_WIN32_WINNT))) #define TOKEN_ALL_ACCESS (TOKEN_ALL_ACCESS_P |\ TOKEN_ADJUST_SESSIONID ) #else #define TOKEN_ALL_ACCESS (TOKEN_ALL_ACCESS_P) #endif #define TOKEN_READ (STANDARD_RIGHTS_READ |\ TOKEN_QUERY) #define TOKEN_WRITE (STANDARD_RIGHTS_WRITE |\ TOKEN_ADJUST_PRIVILEGES |\ TOKEN_ADJUST_GROUPS |\ TOKEN_ADJUST_DEFAULT) #define TOKEN_EXECUTE (STANDARD_RIGHTS_EXECUTE) // // // Token Types // typedef enum _TOKEN_TYPE { TokenPrimary = 1, TokenImpersonation } TOKEN_TYPE; typedef TOKEN_TYPE *PTOKEN_TYPE; // // Token Information Classes. // typedef enum _TOKEN_INFORMATION_CLASS { TokenUser = 1, TokenGroups, TokenPrivileges, TokenOwner, TokenPrimaryGroup, TokenDefaultDacl, TokenSource, TokenType, TokenImpersonationLevel, TokenStatistics, TokenRestrictedSids, TokenSessionId, TokenGroupsAndPrivileges, TokenSessionReference, TokenSandBoxInert, TokenAuditPolicy, MaxTokenInfoClass // MaxTokenInfoClass should always be the last enum } TOKEN_INFORMATION_CLASS, *PTOKEN_INFORMATION_CLASS; // // Token information class structures // typedef struct _TOKEN_USER { SID_AND_ATTRIBUTES User; } TOKEN_USER, *PTOKEN_USER; typedef struct _TOKEN_GROUPS { DWORD GroupCount; SID_AND_ATTRIBUTES Groups[ANYSIZE_ARRAY]; } TOKEN_GROUPS, *PTOKEN_GROUPS; typedef struct _TOKEN_PRIVILEGES { DWORD PrivilegeCount; LUID_AND_ATTRIBUTES Privileges[ANYSIZE_ARRAY]; } TOKEN_PRIVILEGES, *PTOKEN_PRIVILEGES; typedef struct _TOKEN_OWNER { PSID Owner; } TOKEN_OWNER, *PTOKEN_OWNER; typedef struct _TOKEN_PRIMARY_GROUP { PSID PrimaryGroup; } TOKEN_PRIMARY_GROUP, *PTOKEN_PRIMARY_GROUP; typedef struct _TOKEN_DEFAULT_DACL { PACL DefaultDacl; } TOKEN_DEFAULT_DACL, *PTOKEN_DEFAULT_DACL; typedef struct _TOKEN_GROUPS_AND_PRIVILEGES { DWORD SidCount; DWORD SidLength; PSID_AND_ATTRIBUTES Sids; DWORD RestrictedSidCount; DWORD RestrictedSidLength; PSID_AND_ATTRIBUTES RestrictedSids; DWORD PrivilegeCount; DWORD PrivilegeLength; PLUID_AND_ATTRIBUTES Privileges; LUID AuthenticationId; } TOKEN_GROUPS_AND_PRIVILEGES, *PTOKEN_GROUPS_AND_PRIVILEGES; // // Valid bits for each TOKEN_AUDIT_POLICY policy mask field. // #define TOKEN_AUDIT_SUCCESS_INCLUDE 0x1 #define TOKEN_AUDIT_SUCCESS_EXCLUDE 0x2 #define TOKEN_AUDIT_FAILURE_INCLUDE 0x4 #define TOKEN_AUDIT_FAILURE_EXCLUDE 0x8 #define VALID_AUDIT_POLICY_BITS (TOKEN_AUDIT_SUCCESS_INCLUDE | \ TOKEN_AUDIT_SUCCESS_EXCLUDE | \ TOKEN_AUDIT_FAILURE_INCLUDE | \ TOKEN_AUDIT_FAILURE_EXCLUDE) #define VALID_TOKEN_AUDIT_POLICY_ELEMENT(P) ((((P).PolicyMask & ~VALID_AUDIT_POLICY_BITS) == 0) && \ ((P).Category <= AuditEventMaxType)) typedef struct _TOKEN_AUDIT_POLICY_ELEMENT { DWORD Category; DWORD PolicyMask; } TOKEN_AUDIT_POLICY_ELEMENT, *PTOKEN_AUDIT_POLICY_ELEMENT; typedef struct _TOKEN_AUDIT_POLICY { DWORD PolicyCount; TOKEN_AUDIT_POLICY_ELEMENT Policy[ANYSIZE_ARRAY]; } TOKEN_AUDIT_POLICY, *PTOKEN_AUDIT_POLICY; #define PER_USER_AUDITING_POLICY_SIZE(p) \ ( sizeof(TOKEN_AUDIT_POLICY) + (((p)->PolicyCount > ANYSIZE_ARRAY) ? (sizeof(TOKEN_AUDIT_POLICY_ELEMENT) * ((p)->PolicyCount - ANYSIZE_ARRAY)) : 0) ) #define PER_USER_AUDITING_POLICY_SIZE_BY_COUNT(C) \ ( sizeof(TOKEN_AUDIT_POLICY) + (((C) > ANYSIZE_ARRAY) ? (sizeof(TOKEN_AUDIT_POLICY_ELEMENT) * ((C) - ANYSIZE_ARRAY)) : 0) ) #define TOKEN_SOURCE_LENGTH 8 typedef struct _TOKEN_SOURCE { CHAR SourceName[TOKEN_SOURCE_LENGTH]; LUID SourceIdentifier; } TOKEN_SOURCE, *PTOKEN_SOURCE; typedef struct _TOKEN_STATISTICS { LUID TokenId; LUID AuthenticationId; LARGE_INTEGER ExpirationTime; TOKEN_TYPE TokenType; SECURITY_IMPERSONATION_LEVEL ImpersonationLevel; DWORD DynamicCharged; DWORD DynamicAvailable; DWORD GroupCount; DWORD PrivilegeCount; LUID ModifiedId; } TOKEN_STATISTICS, *PTOKEN_STATISTICS; typedef struct _TOKEN_CONTROL { LUID TokenId; LUID AuthenticationId; LUID ModifiedId; TOKEN_SOURCE TokenSource; } TOKEN_CONTROL, *PTOKEN_CONTROL; // // Security Tracking Mode // #define SECURITY_DYNAMIC_TRACKING (TRUE) #define SECURITY_STATIC_TRACKING (FALSE) typedef BOOLEAN SECURITY_CONTEXT_TRACKING_MODE, * PSECURITY_CONTEXT_TRACKING_MODE; // // Quality Of Service // typedef struct _SECURITY_QUALITY_OF_SERVICE { DWORD Length; SECURITY_IMPERSONATION_LEVEL ImpersonationLevel; SECURITY_CONTEXT_TRACKING_MODE ContextTrackingMode; BOOLEAN EffectiveOnly; } SECURITY_QUALITY_OF_SERVICE, * PSECURITY_QUALITY_OF_SERVICE; // // Used to represent information related to a thread impersonation // typedef struct _SE_IMPERSONATION_STATE { PACCESS_TOKEN Token; BOOLEAN CopyOnOpen; BOOLEAN EffectiveOnly; SECURITY_IMPERSONATION_LEVEL Level; } SE_IMPERSONATION_STATE, *PSE_IMPERSONATION_STATE; #define DISABLE_MAX_PRIVILEGE 0x1 #define SANDBOX_INERT 0x2 typedef DWORD SECURITY_INFORMATION, *PSECURITY_INFORMATION; #define OWNER_SECURITY_INFORMATION (0x00000001L) #define GROUP_SECURITY_INFORMATION (0x00000002L) #define DACL_SECURITY_INFORMATION (0x00000004L) #define SACL_SECURITY_INFORMATION (0x00000008L) #define PROTECTED_DACL_SECURITY_INFORMATION (0x80000000L) #define PROTECTED_SACL_SECURITY_INFORMATION (0x40000000L) #define UNPROTECTED_DACL_SECURITY_INFORMATION (0x20000000L) #define UNPROTECTED_SACL_SECURITY_INFORMATION (0x10000000L) #define PROCESS_TERMINATE (0x0001) #define PROCESS_CREATE_THREAD (0x0002) #define PROCESS_SET_SESSIONID (0x0004) #define PROCESS_VM_OPERATION (0x0008) #define PROCESS_VM_READ (0x0010) #define PROCESS_VM_WRITE (0x0020) #define PROCESS_DUP_HANDLE (0x0040) #define PROCESS_CREATE_PROCESS (0x0080) #define PROCESS_SET_QUOTA (0x0100) #define PROCESS_SET_INFORMATION (0x0200) #define PROCESS_QUERY_INFORMATION (0x0400) #define PROCESS_SUSPEND_RESUME (0x0800) #define PROCESS_ALL_ACCESS (STANDARD_RIGHTS_REQUIRED | SYNCHRONIZE | \ 0xFFF) // begin_nthal #if defined(_WIN64) #define MAXIMUM_PROCESSORS 64 #else #define MAXIMUM_PROCESSORS 32 #endif // end_nthal #define THREAD_TERMINATE (0x0001) #define THREAD_SUSPEND_RESUME (0x0002) #define THREAD_GET_CONTEXT (0x0008) #define THREAD_SET_CONTEXT (0x0010) #define THREAD_SET_INFORMATION (0x0020) #define THREAD_QUERY_INFORMATION (0x0040) #define THREAD_SET_THREAD_TOKEN (0x0080) #define THREAD_IMPERSONATE (0x0100) #define THREAD_DIRECT_IMPERSONATION (0x0200) // begin_ntddk begin_wdm begin_ntifs #define THREAD_ALL_ACCESS (STANDARD_RIGHTS_REQUIRED | SYNCHRONIZE | \ 0x3FF) // end_ntddk end_wdm end_ntifs #define JOB_OBJECT_ASSIGN_PROCESS (0x0001) #define JOB_OBJECT_SET_ATTRIBUTES (0x0002) #define JOB_OBJECT_QUERY (0x0004) #define JOB_OBJECT_TERMINATE (0x0008) #define JOB_OBJECT_SET_SECURITY_ATTRIBUTES (0x0010) #define JOB_OBJECT_ALL_ACCESS (STANDARD_RIGHTS_REQUIRED | SYNCHRONIZE | \ 0x1F ) typedef struct _JOB_SET_ARRAY { HANDLE JobHandle; // Handle to job object to insert DWORD MemberLevel; // Level of this job in the set. Must be > 0. Can be sparse. DWORD Flags; // Unused. Must be zero } JOB_SET_ARRAY, *PJOB_SET_ARRAY; #define FLS_MAXIMUM_AVAILABLE 128 #define TLS_MINIMUM_AVAILABLE 64 typedef struct _NT_TIB { struct _EXCEPTION_REGISTRATION_RECORD *ExceptionList; PVOID StackBase; PVOID StackLimit; PVOID SubSystemTib; union { PVOID FiberData; DWORD Version; }; PVOID ArbitraryUserPointer; struct _NT_TIB *Self; } NT_TIB; typedef NT_TIB *PNT_TIB; // // 32 and 64 bit specific version for wow64 and the debugger // typedef struct _NT_TIB32 { DWORD ExceptionList; DWORD StackBase; DWORD StackLimit; DWORD SubSystemTib; union { DWORD FiberData; DWORD Version; }; DWORD ArbitraryUserPointer; DWORD Self; } NT_TIB32, *PNT_TIB32; typedef struct _NT_TIB64 { DWORD64 ExceptionList; DWORD64 StackBase; DWORD64 StackLimit; DWORD64 SubSystemTib; union { DWORD64 FiberData; DWORD Version; }; DWORD64 ArbitraryUserPointer; DWORD64 Self; } NT_TIB64, *PNT_TIB64; #if !defined(_X86_) && !defined(_IA64_) && !defined(_AMD64_) #define WX86 #endif #define THREAD_BASE_PRIORITY_LOWRT 15 // value that gets a thread to LowRealtime-1 #define THREAD_BASE_PRIORITY_MAX 2 // maximum thread base priority boost #define THREAD_BASE_PRIORITY_MIN (-2) // minimum thread base priority boost #define THREAD_BASE_PRIORITY_IDLE (-15) // value that gets a thread to idle typedef struct _QUOTA_LIMITS { SIZE_T PagedPoolLimit; SIZE_T NonPagedPoolLimit; SIZE_T MinimumWorkingSetSize; SIZE_T MaximumWorkingSetSize; SIZE_T PagefileLimit; LARGE_INTEGER TimeLimit; } QUOTA_LIMITS, *PQUOTA_LIMITS; #define QUOTA_LIMITS_HARDWS_MIN_ENABLE 0x00000001 #define QUOTA_LIMITS_HARDWS_MIN_DISABLE 0x00000002 #define QUOTA_LIMITS_HARDWS_MAX_ENABLE 0x00000004 #define QUOTA_LIMITS_HARDWS_MAX_DISABLE 0x00000008 typedef struct _QUOTA_LIMITS_EX { SIZE_T PagedPoolLimit; SIZE_T NonPagedPoolLimit; SIZE_T MinimumWorkingSetSize; SIZE_T MaximumWorkingSetSize; SIZE_T PagefileLimit; LARGE_INTEGER TimeLimit; SIZE_T Reserved1; SIZE_T Reserved2; SIZE_T Reserved3; SIZE_T Reserved4; DWORD Flags; DWORD Reserved5; } QUOTA_LIMITS_EX, *PQUOTA_LIMITS_EX; typedef struct _IO_COUNTERS { ULONGLONG ReadOperationCount; ULONGLONG WriteOperationCount; ULONGLONG OtherOperationCount; ULONGLONG ReadTransferCount; ULONGLONG WriteTransferCount; ULONGLONG OtherTransferCount; } IO_COUNTERS; typedef IO_COUNTERS *PIO_COUNTERS; // typedef struct _JOBOBJECT_BASIC_ACCOUNTING_INFORMATION { LARGE_INTEGER TotalUserTime; LARGE_INTEGER TotalKernelTime; LARGE_INTEGER ThisPeriodTotalUserTime; LARGE_INTEGER ThisPeriodTotalKernelTime; DWORD TotalPageFaultCount; DWORD TotalProcesses; DWORD ActiveProcesses; DWORD TotalTerminatedProcesses; } JOBOBJECT_BASIC_ACCOUNTING_INFORMATION, *PJOBOBJECT_BASIC_ACCOUNTING_INFORMATION; typedef struct _JOBOBJECT_BASIC_LIMIT_INFORMATION { LARGE_INTEGER PerProcessUserTimeLimit; LARGE_INTEGER PerJobUserTimeLimit; DWORD LimitFlags; SIZE_T MinimumWorkingSetSize; SIZE_T MaximumWorkingSetSize; DWORD ActiveProcessLimit; ULONG_PTR Affinity; DWORD PriorityClass; DWORD SchedulingClass; } JOBOBJECT_BASIC_LIMIT_INFORMATION, *PJOBOBJECT_BASIC_LIMIT_INFORMATION; typedef struct _JOBOBJECT_EXTENDED_LIMIT_INFORMATION { JOBOBJECT_BASIC_LIMIT_INFORMATION BasicLimitInformation; IO_COUNTERS IoInfo; SIZE_T ProcessMemoryLimit; SIZE_T JobMemoryLimit; SIZE_T PeakProcessMemoryUsed; SIZE_T PeakJobMemoryUsed; } JOBOBJECT_EXTENDED_LIMIT_INFORMATION, *PJOBOBJECT_EXTENDED_LIMIT_INFORMATION; typedef struct _JOBOBJECT_BASIC_PROCESS_ID_LIST { DWORD NumberOfAssignedProcesses; DWORD NumberOfProcessIdsInList; ULONG_PTR ProcessIdList[1]; } JOBOBJECT_BASIC_PROCESS_ID_LIST, *PJOBOBJECT_BASIC_PROCESS_ID_LIST; typedef struct _JOBOBJECT_BASIC_UI_RESTRICTIONS { DWORD UIRestrictionsClass; } JOBOBJECT_BASIC_UI_RESTRICTIONS, *PJOBOBJECT_BASIC_UI_RESTRICTIONS; typedef struct _JOBOBJECT_SECURITY_LIMIT_INFORMATION { DWORD SecurityLimitFlags ; HANDLE JobToken ; PTOKEN_GROUPS SidsToDisable ; PTOKEN_PRIVILEGES PrivilegesToDelete ; PTOKEN_GROUPS RestrictedSids ; } JOBOBJECT_SECURITY_LIMIT_INFORMATION, *PJOBOBJECT_SECURITY_LIMIT_INFORMATION ; typedef struct _JOBOBJECT_END_OF_JOB_TIME_INFORMATION { DWORD EndOfJobTimeAction; } JOBOBJECT_END_OF_JOB_TIME_INFORMATION, *PJOBOBJECT_END_OF_JOB_TIME_INFORMATION; typedef struct _JOBOBJECT_ASSOCIATE_COMPLETION_PORT { PVOID CompletionKey; HANDLE CompletionPort; } JOBOBJECT_ASSOCIATE_COMPLETION_PORT, *PJOBOBJECT_ASSOCIATE_COMPLETION_PORT; typedef struct _JOBOBJECT_BASIC_AND_IO_ACCOUNTING_INFORMATION { JOBOBJECT_BASIC_ACCOUNTING_INFORMATION BasicInfo; IO_COUNTERS IoInfo; } JOBOBJECT_BASIC_AND_IO_ACCOUNTING_INFORMATION, *PJOBOBJECT_BASIC_AND_IO_ACCOUNTING_INFORMATION; typedef struct _JOBOBJECT_JOBSET_INFORMATION { DWORD MemberLevel; } JOBOBJECT_JOBSET_INFORMATION, *PJOBOBJECT_JOBSET_INFORMATION; #define JOB_OBJECT_TERMINATE_AT_END_OF_JOB 0 #define JOB_OBJECT_POST_AT_END_OF_JOB 1 // // Completion Port Messages for job objects // // These values are returned via the lpNumberOfBytesTransferred parameter // #define JOB_OBJECT_MSG_END_OF_JOB_TIME 1 #define JOB_OBJECT_MSG_END_OF_PROCESS_TIME 2 #define JOB_OBJECT_MSG_ACTIVE_PROCESS_LIMIT 3 #define JOB_OBJECT_MSG_ACTIVE_PROCESS_ZERO 4 #define JOB_OBJECT_MSG_NEW_PROCESS 6 #define JOB_OBJECT_MSG_EXIT_PROCESS 7 #define JOB_OBJECT_MSG_ABNORMAL_EXIT_PROCESS 8 #define JOB_OBJECT_MSG_PROCESS_MEMORY_LIMIT 9 #define JOB_OBJECT_MSG_JOB_MEMORY_LIMIT 10 // // Basic Limits // #define JOB_OBJECT_LIMIT_WORKINGSET 0x00000001 #define JOB_OBJECT_LIMIT_PROCESS_TIME 0x00000002 #define JOB_OBJECT_LIMIT_JOB_TIME 0x00000004 #define JOB_OBJECT_LIMIT_ACTIVE_PROCESS 0x00000008 #define JOB_OBJECT_LIMIT_AFFINITY 0x00000010 #define JOB_OBJECT_LIMIT_PRIORITY_CLASS 0x00000020 #define JOB_OBJECT_LIMIT_PRESERVE_JOB_TIME 0x00000040 #define JOB_OBJECT_LIMIT_SCHEDULING_CLASS 0x00000080 // // Extended Limits // #define JOB_OBJECT_LIMIT_PROCESS_MEMORY 0x00000100 #define JOB_OBJECT_LIMIT_JOB_MEMORY 0x00000200 #define JOB_OBJECT_LIMIT_DIE_ON_UNHANDLED_EXCEPTION 0x00000400 #define JOB_OBJECT_LIMIT_BREAKAWAY_OK 0x00000800 #define JOB_OBJECT_LIMIT_SILENT_BREAKAWAY_OK 0x00001000 #define JOB_OBJECT_LIMIT_KILL_ON_JOB_CLOSE 0x00002000 #define JOB_OBJECT_LIMIT_RESERVED2 0x00004000 #define JOB_OBJECT_LIMIT_RESERVED3 0x00008000 #define JOB_OBJECT_LIMIT_RESERVED4 0x00010000 #define JOB_OBJECT_LIMIT_RESERVED5 0x00020000 #define JOB_OBJECT_LIMIT_RESERVED6 0x00040000 #define JOB_OBJECT_LIMIT_VALID_FLAGS 0x0007ffff #define JOB_OBJECT_BASIC_LIMIT_VALID_FLAGS 0x000000ff #define JOB_OBJECT_EXTENDED_LIMIT_VALID_FLAGS 0x00003fff #define JOB_OBJECT_RESERVED_LIMIT_VALID_FLAGS 0x0007ffff // // UI restrictions for jobs // #define JOB_OBJECT_UILIMIT_NONE 0x00000000 #define JOB_OBJECT_UILIMIT_HANDLES 0x00000001 #define JOB_OBJECT_UILIMIT_READCLIPBOARD 0x00000002 #define JOB_OBJECT_UILIMIT_WRITECLIPBOARD 0x00000004 #define JOB_OBJECT_UILIMIT_SYSTEMPARAMETERS 0x00000008 #define JOB_OBJECT_UILIMIT_DISPLAYSETTINGS 0x00000010 #define JOB_OBJECT_UILIMIT_GLOBALATOMS 0x00000020 #define JOB_OBJECT_UILIMIT_DESKTOP 0x00000040 #define JOB_OBJECT_UILIMIT_EXITWINDOWS 0x00000080 #define JOB_OBJECT_UILIMIT_ALL 0x000000FF #define JOB_OBJECT_UI_VALID_FLAGS 0x000000FF #define JOB_OBJECT_SECURITY_NO_ADMIN 0x00000001 #define JOB_OBJECT_SECURITY_RESTRICTED_TOKEN 0x00000002 #define JOB_OBJECT_SECURITY_ONLY_TOKEN 0x00000004 #define JOB_OBJECT_SECURITY_FILTER_TOKENS 0x00000008 #define JOB_OBJECT_SECURITY_VALID_FLAGS 0x0000000f typedef enum _JOBOBJECTINFOCLASS { JobObjectBasicAccountingInformation = 1, JobObjectBasicLimitInformation, JobObjectBasicProcessIdList, JobObjectBasicUIRestrictions, JobObjectSecurityLimitInformation, JobObjectEndOfJobTimeInformation, JobObjectAssociateCompletionPortInformation, JobObjectBasicAndIoAccountingInformation, JobObjectExtendedLimitInformation, JobObjectJobSetInformation, MaxJobObjectInfoClass } JOBOBJECTINFOCLASS; // #define EVENT_MODIFY_STATE 0x0002 #define EVENT_ALL_ACCESS (STANDARD_RIGHTS_REQUIRED|SYNCHRONIZE|0x3) #define MUTANT_QUERY_STATE 0x0001 #define MUTANT_ALL_ACCESS (STANDARD_RIGHTS_REQUIRED|SYNCHRONIZE|\ MUTANT_QUERY_STATE) #define SEMAPHORE_MODIFY_STATE 0x0002 #define SEMAPHORE_ALL_ACCESS (STANDARD_RIGHTS_REQUIRED|SYNCHRONIZE|0x3) // // Timer Specific Access Rights. // #define TIMER_QUERY_STATE 0x0001 #define TIMER_MODIFY_STATE 0x0002 #define TIMER_ALL_ACCESS (STANDARD_RIGHTS_REQUIRED|SYNCHRONIZE|\ TIMER_QUERY_STATE|TIMER_MODIFY_STATE) #define TIME_ZONE_ID_UNKNOWN 0 #define TIME_ZONE_ID_STANDARD 1 #define TIME_ZONE_ID_DAYLIGHT 2 typedef enum _LOGICAL_PROCESSOR_RELATIONSHIP { RelationProcessorCore, RelationNumaNode } LOGICAL_PROCESSOR_RELATIONSHIP; #define LTP_PC_SMT 0x1 typedef struct _SYSTEM_LOGICAL_PROCESSOR_INFORMATION { ULONG_PTR ProcessorMask; LOGICAL_PROCESSOR_RELATIONSHIP Relationship; union { struct { BYTE Flags; } ProcessorCore; struct { DWORD NodeNumber; } NumaNode; ULONGLONG Reserved[2]; }; } SYSTEM_LOGICAL_PROCESSOR_INFORMATION, *PSYSTEM_LOGICAL_PROCESSOR_INFORMATION; #define PROCESSOR_INTEL_386 386 #define PROCESSOR_INTEL_486 486 #define PROCESSOR_INTEL_PENTIUM 586 #define PROCESSOR_INTEL_IA64 2200 #define PROCESSOR_AMD_X8664 8664 #define PROCESSOR_MIPS_R4000 4000 // incl R4101 & R3910 for Windows CE #define PROCESSOR_ALPHA_21064 21064 #define PROCESSOR_PPC_601 601 #define PROCESSOR_PPC_603 603 #define PROCESSOR_PPC_604 604 #define PROCESSOR_PPC_620 620 #define PROCESSOR_HITACHI_SH3 10003 // Windows CE #define PROCESSOR_HITACHI_SH3E 10004 // Windows CE #define PROCESSOR_HITACHI_SH4 10005 // Windows CE #define PROCESSOR_MOTOROLA_821 821 // Windows CE #define PROCESSOR_SHx_SH3 103 // Windows CE #define PROCESSOR_SHx_SH4 104 // Windows CE #define PROCESSOR_STRONGARM 2577 // Windows CE - 0xA11 #define PROCESSOR_ARM720 1824 // Windows CE - 0x720 #define PROCESSOR_ARM820 2080 // Windows CE - 0x820 #define PROCESSOR_ARM920 2336 // Windows CE - 0x920 #define PROCESSOR_ARM_7TDMI 70001 // Windows CE #define PROCESSOR_OPTIL 0x494f // MSIL #define PROCESSOR_ARCHITECTURE_INTEL 0 #define PROCESSOR_ARCHITECTURE_MIPS 1 #define PROCESSOR_ARCHITECTURE_ALPHA 2 #define PROCESSOR_ARCHITECTURE_PPC 3 #define PROCESSOR_ARCHITECTURE_SHX 4 #define PROCESSOR_ARCHITECTURE_ARM 5 #define PROCESSOR_ARCHITECTURE_IA64 6 #define PROCESSOR_ARCHITECTURE_ALPHA64 7 #define PROCESSOR_ARCHITECTURE_MSIL 8 #define PROCESSOR_ARCHITECTURE_AMD64 9 #define PROCESSOR_ARCHITECTURE_IA32_ON_WIN64 10 #define PROCESSOR_ARCHITECTURE_UNKNOWN 0xFFFF #define PF_FLOATING_POINT_PRECISION_ERRATA 0 #define PF_FLOATING_POINT_EMULATED 1 #define PF_COMPARE_EXCHANGE_DOUBLE 2 #define PF_MMX_INSTRUCTIONS_AVAILABLE 3 #define PF_PPC_MOVEMEM_64BIT_OK 4 #define PF_ALPHA_BYTE_INSTRUCTIONS 5 #define PF_XMMI_INSTRUCTIONS_AVAILABLE 6 #define PF_3DNOW_INSTRUCTIONS_AVAILABLE 7 #define PF_RDTSC_INSTRUCTION_AVAILABLE 8 #define PF_PAE_ENABLED 9 #define PF_XMMI64_INSTRUCTIONS_AVAILABLE 10 typedef struct _MEMORY_BASIC_INFORMATION { PVOID BaseAddress; PVOID AllocationBase; DWORD AllocationProtect; SIZE_T RegionSize; DWORD State; DWORD Protect; DWORD Type; } MEMORY_BASIC_INFORMATION, *PMEMORY_BASIC_INFORMATION; typedef struct _MEMORY_BASIC_INFORMATION32 { DWORD BaseAddress; DWORD AllocationBase; DWORD AllocationProtect; DWORD RegionSize; DWORD State; DWORD Protect; DWORD Type; } MEMORY_BASIC_INFORMATION32, *PMEMORY_BASIC_INFORMATION32; typedef struct _MEMORY_BASIC_INFORMATION64 { ULONGLONG BaseAddress; ULONGLONG AllocationBase; DWORD AllocationProtect; DWORD __alignment1; ULONGLONG RegionSize; DWORD State; DWORD Protect; DWORD Type; DWORD __alignment2; } MEMORY_BASIC_INFORMATION64, *PMEMORY_BASIC_INFORMATION64; #define SECTION_QUERY 0x0001 #define SECTION_MAP_WRITE 0x0002 #define SECTION_MAP_READ 0x0004 #define SECTION_MAP_EXECUTE 0x0008 #define SECTION_EXTEND_SIZE 0x0010 #define SECTION_ALL_ACCESS (STANDARD_RIGHTS_REQUIRED|SECTION_QUERY|\ SECTION_MAP_WRITE | \ SECTION_MAP_READ | \ SECTION_MAP_EXECUTE | \ SECTION_EXTEND_SIZE) #define PAGE_NOACCESS 0x01 #define PAGE_READONLY 0x02 #define PAGE_READWRITE 0x04 #define PAGE_WRITECOPY 0x08 #define PAGE_EXECUTE 0x10 #define PAGE_EXECUTE_READ 0x20 #define PAGE_EXECUTE_READWRITE 0x40 #define PAGE_EXECUTE_WRITECOPY 0x80 #define PAGE_GUARD 0x100 #define PAGE_NOCACHE 0x200 #define PAGE_WRITECOMBINE 0x400 #define MEM_COMMIT 0x1000 #define MEM_RESERVE 0x2000 #define MEM_DECOMMIT 0x4000 #define MEM_RELEASE 0x8000 #define MEM_FREE 0x10000 #define MEM_PRIVATE 0x20000 #define MEM_MAPPED 0x40000 #define MEM_RESET 0x80000 #define MEM_TOP_DOWN 0x100000 #define MEM_WRITE_WATCH 0x200000 #define MEM_PHYSICAL 0x400000 #define MEM_LARGE_PAGES 0x20000000 #define MEM_4MB_PAGES 0x80000000 #define SEC_FILE 0x800000 #define SEC_IMAGE 0x1000000 #define SEC_RESERVE 0x4000000 #define SEC_COMMIT 0x8000000 #define SEC_NOCACHE 0x10000000 #define MEM_IMAGE SEC_IMAGE #define WRITE_WATCH_FLAG_RESET 0x01 // // Define access rights to files and directories // // // The FILE_READ_DATA and FILE_WRITE_DATA constants are also defined in // devioctl.h as FILE_READ_ACCESS and FILE_WRITE_ACCESS. The values for these // constants *MUST* always be in sync. // The values are redefined in devioctl.h because they must be available to // both DOS and NT. // #define FILE_READ_DATA ( 0x0001 ) // file & pipe #define FILE_LIST_DIRECTORY ( 0x0001 ) // directory #define FILE_WRITE_DATA ( 0x0002 ) // file & pipe #define FILE_ADD_FILE ( 0x0002 ) // directory #define FILE_APPEND_DATA ( 0x0004 ) // file #define FILE_ADD_SUBDIRECTORY ( 0x0004 ) // directory #define FILE_CREATE_PIPE_INSTANCE ( 0x0004 ) // named pipe #define FILE_READ_EA ( 0x0008 ) // file & directory #define FILE_WRITE_EA ( 0x0010 ) // file & directory #define FILE_EXECUTE ( 0x0020 ) // file #define FILE_TRAVERSE ( 0x0020 ) // directory #define FILE_DELETE_CHILD ( 0x0040 ) // directory #define FILE_READ_ATTRIBUTES ( 0x0080 ) // all #define FILE_WRITE_ATTRIBUTES ( 0x0100 ) // all #define FILE_ALL_ACCESS (STANDARD_RIGHTS_REQUIRED | SYNCHRONIZE | 0x1FF) #define FILE_GENERIC_READ (STANDARD_RIGHTS_READ |\ FILE_READ_DATA |\ FILE_READ_ATTRIBUTES |\ FILE_READ_EA |\ SYNCHRONIZE) #define FILE_GENERIC_WRITE (STANDARD_RIGHTS_WRITE |\ FILE_WRITE_DATA |\ FILE_WRITE_ATTRIBUTES |\ FILE_WRITE_EA |\ FILE_APPEND_DATA |\ SYNCHRONIZE) #define FILE_GENERIC_EXECUTE (STANDARD_RIGHTS_EXECUTE |\ FILE_READ_ATTRIBUTES |\ FILE_EXECUTE |\ SYNCHRONIZE) #define FILE_SHARE_READ 0x00000001 #define FILE_SHARE_WRITE 0x00000002 #define FILE_SHARE_DELETE 0x00000004 #define FILE_ATTRIBUTE_READONLY 0x00000001 #define FILE_ATTRIBUTE_HIDDEN 0x00000002 #define FILE_ATTRIBUTE_SYSTEM 0x00000004 #define FILE_ATTRIBUTE_DIRECTORY 0x00000010 #define FILE_ATTRIBUTE_ARCHIVE 0x00000020 #define FILE_ATTRIBUTE_DEVICE 0x00000040 #define FILE_ATTRIBUTE_NORMAL 0x00000080 #define FILE_ATTRIBUTE_TEMPORARY 0x00000100 #define FILE_ATTRIBUTE_SPARSE_FILE 0x00000200 #define FILE_ATTRIBUTE_REPARSE_POINT 0x00000400 #define FILE_ATTRIBUTE_COMPRESSED 0x00000800 #define FILE_ATTRIBUTE_OFFLINE 0x00001000 #define FILE_ATTRIBUTE_NOT_CONTENT_INDEXED 0x00002000 #define FILE_ATTRIBUTE_ENCRYPTED 0x00004000 #define FILE_NOTIFY_CHANGE_FILE_NAME 0x00000001 #define FILE_NOTIFY_CHANGE_DIR_NAME 0x00000002 #define FILE_NOTIFY_CHANGE_ATTRIBUTES 0x00000004 #define FILE_NOTIFY_CHANGE_SIZE 0x00000008 #define FILE_NOTIFY_CHANGE_LAST_WRITE 0x00000010 #define FILE_NOTIFY_CHANGE_LAST_ACCESS 0x00000020 #define FILE_NOTIFY_CHANGE_CREATION 0x00000040 #define FILE_NOTIFY_CHANGE_SECURITY 0x00000100 #define FILE_ACTION_ADDED 0x00000001 #define FILE_ACTION_REMOVED 0x00000002 #define FILE_ACTION_MODIFIED 0x00000003 #define FILE_ACTION_RENAMED_OLD_NAME 0x00000004 #define FILE_ACTION_RENAMED_NEW_NAME 0x00000005 #define MAILSLOT_NO_MESSAGE ((DWORD)-1) #define MAILSLOT_WAIT_FOREVER ((DWORD)-1) #define FILE_CASE_SENSITIVE_SEARCH 0x00000001 #define FILE_CASE_PRESERVED_NAMES 0x00000002 #define FILE_UNICODE_ON_DISK 0x00000004 #define FILE_PERSISTENT_ACLS 0x00000008 #define FILE_FILE_COMPRESSION 0x00000010 #define FILE_VOLUME_QUOTAS 0x00000020 #define FILE_SUPPORTS_SPARSE_FILES 0x00000040 #define FILE_SUPPORTS_REPARSE_POINTS 0x00000080 #define FILE_SUPPORTS_REMOTE_STORAGE 0x00000100 #define FILE_VOLUME_IS_COMPRESSED 0x00008000 #define FILE_SUPPORTS_OBJECT_IDS 0x00010000 #define FILE_SUPPORTS_ENCRYPTION 0x00020000 #define FILE_NAMED_STREAMS 0x00040000 #define FILE_READ_ONLY_VOLUME 0x00080000 // // Define the file notification information structure // typedef struct _FILE_NOTIFY_INFORMATION { DWORD NextEntryOffset; DWORD Action; DWORD FileNameLength; WCHAR FileName[1]; } FILE_NOTIFY_INFORMATION, *PFILE_NOTIFY_INFORMATION; // // Define segement buffer structure for scatter/gather read/write. // typedef union _FILE_SEGMENT_ELEMENT { PVOID64 Buffer; ULONGLONG Alignment; }FILE_SEGMENT_ELEMENT, *PFILE_SEGMENT_ELEMENT; // // The reparse GUID structure is used by all 3rd party layered drivers to // store data in a reparse point. For non-Microsoft tags, The GUID field // cannot be GUID_NULL. // The constraints on reparse tags are defined below. // Microsoft tags can also be used with this format of the reparse point buffer. // typedef struct _REPARSE_GUID_DATA_BUFFER { DWORD ReparseTag; WORD ReparseDataLength; WORD Reserved; GUID ReparseGuid; struct { BYTE DataBuffer[1]; } GenericReparseBuffer; } REPARSE_GUID_DATA_BUFFER, *PREPARSE_GUID_DATA_BUFFER; #define REPARSE_GUID_DATA_BUFFER_HEADER_SIZE FIELD_OFFSET(REPARSE_GUID_DATA_BUFFER, GenericReparseBuffer) // // Maximum allowed size of the reparse data. // #define MAXIMUM_REPARSE_DATA_BUFFER_SIZE ( 16 * 1024 ) // // Predefined reparse tags. // These tags need to avoid conflicting with IO_REMOUNT defined in ntos\inc\io.h // #define IO_REPARSE_TAG_RESERVED_ZERO (0) #define IO_REPARSE_TAG_RESERVED_ONE (1) // // The value of the following constant needs to satisfy the following conditions: // (1) Be at least as large as the largest of the reserved tags. // (2) Be strictly smaller than all the tags in use. // #define IO_REPARSE_TAG_RESERVED_RANGE IO_REPARSE_TAG_RESERVED_ONE // // The reparse tags are a DWORD. The 32 bits are laid out as follows: // // 3 3 2 2 2 2 2 2 2 2 2 2 1 1 1 1 1 1 1 1 1 1 // 1 0 9 8 7 6 5 4 3 2 1 0 9 8 7 6 5 4 3 2 1 0 9 8 7 6 5 4 3 2 1 0 // +-+-+-+-+-----------------------+-------------------------------+ // |M|R|N|R| Reserved bits | Reparse Tag Value | // +-+-+-+-+-----------------------+-------------------------------+ // // M is the Microsoft bit. When set to 1, it denotes a tag owned by Microsoft. // All ISVs must use a tag with a 0 in this position. // Note: If a Microsoft tag is used by non-Microsoft software, the // behavior is not defined. // // R is reserved. Must be zero for non-Microsoft tags. // // N is name surrogate. When set to 1, the file represents another named // entity in the system. // // The M and N bits are OR-able. // The following macros check for the M and N bit values: // // // Macro to determine whether a reparse point tag corresponds to a tag // owned by Microsoft. // #define IsReparseTagMicrosoft(_tag) ( \ ((_tag) & 0x80000000) \ ) // // Macro to determine whether a reparse point tag is a name surrogate // #define IsReparseTagNameSurrogate(_tag) ( \ ((_tag) & 0x20000000) \ ) #define IO_REPARSE_TAG_MOUNT_POINT (0xA0000003L) #define IO_REPARSE_TAG_HSM (0xC0000004L) #define IO_REPARSE_TAG_SIS (0x80000007L) #define IO_REPARSE_TAG_DFS (0x8000000AL) #define IO_REPARSE_TAG_FILTER_MANAGER (0x8000000BL) #define IO_COMPLETION_MODIFY_STATE 0x0002 #define IO_COMPLETION_ALL_ACCESS (STANDARD_RIGHTS_REQUIRED|SYNCHRONIZE|0x3) #define DUPLICATE_CLOSE_SOURCE 0x00000001 #define DUPLICATE_SAME_ACCESS 0x00000002 typedef enum _SYSTEM_POWER_STATE { PowerSystemUnspecified = 0, PowerSystemWorking = 1, PowerSystemSleeping1 = 2, PowerSystemSleeping2 = 3, PowerSystemSleeping3 = 4, PowerSystemHibernate = 5, PowerSystemShutdown = 6, PowerSystemMaximum = 7 } SYSTEM_POWER_STATE, *PSYSTEM_POWER_STATE; #define POWER_SYSTEM_MAXIMUM 7 typedef enum { PowerActionNone = 0, PowerActionReserved, PowerActionSleep, PowerActionHibernate, PowerActionShutdown, PowerActionShutdownReset, PowerActionShutdownOff, PowerActionWarmEject } POWER_ACTION, *PPOWER_ACTION; typedef enum _DEVICE_POWER_STATE { PowerDeviceUnspecified = 0, PowerDeviceD0, PowerDeviceD1, PowerDeviceD2, PowerDeviceD3, PowerDeviceMaximum } DEVICE_POWER_STATE, *PDEVICE_POWER_STATE; #define ES_SYSTEM_REQUIRED ((DWORD)0x00000001) #define ES_DISPLAY_REQUIRED ((DWORD)0x00000002) #define ES_USER_PRESENT ((DWORD)0x00000004) #define ES_CONTINUOUS ((DWORD)0x80000000) typedef DWORD EXECUTION_STATE; typedef enum { LT_DONT_CARE, LT_LOWEST_LATENCY } LATENCY_TIME; // end_ntminiport end_ntifs end_wdm end_ntddk //----------------------------------------------------------------------------- // Device Power Information // Accessable via CM_Get_DevInst_Registry_Property_Ex(CM_DRP_DEVICE_POWER_DATA) //----------------------------------------------------------------------------- #define PDCAP_D0_SUPPORTED 0x00000001 #define PDCAP_D1_SUPPORTED 0x00000002 #define PDCAP_D2_SUPPORTED 0x00000004 #define PDCAP_D3_SUPPORTED 0x00000008 #define PDCAP_WAKE_FROM_D0_SUPPORTED 0x00000010 #define PDCAP_WAKE_FROM_D1_SUPPORTED 0x00000020 #define PDCAP_WAKE_FROM_D2_SUPPORTED 0x00000040 #define PDCAP_WAKE_FROM_D3_SUPPORTED 0x00000080 #define PDCAP_WARM_EJECT_SUPPORTED 0x00000100 typedef struct CM_Power_Data_s { DWORD PD_Size; DEVICE_POWER_STATE PD_MostRecentPowerState; DWORD PD_Capabilities; DWORD PD_D1Latency; DWORD PD_D2Latency; DWORD PD_D3Latency; DEVICE_POWER_STATE PD_PowerStateMapping[POWER_SYSTEM_MAXIMUM]; SYSTEM_POWER_STATE PD_DeepestSystemWake; } CM_POWER_DATA, *PCM_POWER_DATA; // begin_ntddk typedef enum { SystemPowerPolicyAc, SystemPowerPolicyDc, VerifySystemPolicyAc, VerifySystemPolicyDc, SystemPowerCapabilities, SystemBatteryState, SystemPowerStateHandler, ProcessorStateHandler, SystemPowerPolicyCurrent, AdministratorPowerPolicy, SystemReserveHiberFile, ProcessorInformation, SystemPowerInformation, ProcessorStateHandler2, LastWakeTime, // Compare with KeQueryInterruptTime() LastSleepTime, // Compare with KeQueryInterruptTime() SystemExecutionState, SystemPowerStateNotifyHandler, ProcessorPowerPolicyAc, ProcessorPowerPolicyDc, VerifyProcessorPowerPolicyAc, VerifyProcessorPowerPolicyDc, ProcessorPowerPolicyCurrent, SystemPowerStateLogging, SystemPowerLoggingEntry } POWER_INFORMATION_LEVEL; // begin_wdm // // System power manager capabilities // typedef struct { DWORD Granularity; DWORD Capacity; } BATTERY_REPORTING_SCALE, *PBATTERY_REPORTING_SCALE; // // Power Policy Management interfaces // typedef struct { POWER_ACTION Action; DWORD Flags; DWORD EventCode; } POWER_ACTION_POLICY, *PPOWER_ACTION_POLICY; // POWER_ACTION_POLICY->Flags: #define POWER_ACTION_QUERY_ALLOWED 0x00000001 #define POWER_ACTION_UI_ALLOWED 0x00000002 #define POWER_ACTION_OVERRIDE_APPS 0x00000004 #define POWER_ACTION_LIGHTEST_FIRST 0x10000000 #define POWER_ACTION_LOCK_CONSOLE 0x20000000 #define POWER_ACTION_DISABLE_WAKES 0x40000000 #define POWER_ACTION_CRITICAL 0x80000000 // POWER_ACTION_POLICY->EventCode flags #define POWER_LEVEL_USER_NOTIFY_TEXT 0x00000001 #define POWER_LEVEL_USER_NOTIFY_SOUND 0x00000002 #define POWER_LEVEL_USER_NOTIFY_EXEC 0x00000004 #define POWER_USER_NOTIFY_BUTTON 0x00000008 #define POWER_USER_NOTIFY_SHUTDOWN 0x00000010 #define POWER_FORCE_TRIGGER_RESET 0x80000000 // system battery drain policies typedef struct { BOOLEAN Enable; BYTE Spare[3]; DWORD BatteryLevel; POWER_ACTION_POLICY PowerPolicy; SYSTEM_POWER_STATE MinSystemState; } SYSTEM_POWER_LEVEL, *PSYSTEM_POWER_LEVEL; // Discharge policy constants #define NUM_DISCHARGE_POLICIES 4 #define DISCHARGE_POLICY_CRITICAL 0 #define DISCHARGE_POLICY_LOW 1 // // Throttling policies // #define PO_THROTTLE_NONE 0 #define PO_THROTTLE_CONSTANT 1 #define PO_THROTTLE_DEGRADE 2 #define PO_THROTTLE_ADAPTIVE 3 #define PO_THROTTLE_MAXIMUM 4 // not a policy, just a limit // system power policies typedef struct _SYSTEM_POWER_POLICY { DWORD Revision; // 1 // events POWER_ACTION_POLICY PowerButton; POWER_ACTION_POLICY SleepButton; POWER_ACTION_POLICY LidClose; SYSTEM_POWER_STATE LidOpenWake; DWORD Reserved; // "system idle" detection POWER_ACTION_POLICY Idle; DWORD IdleTimeout; BYTE IdleSensitivity; // dynamic throttling policy // PO_THROTTLE_NONE, PO_THROTTLE_CONSTANT, PO_THROTTLE_DEGRADE, or PO_THROTTLE_ADAPTIVE BYTE DynamicThrottle; BYTE Spare2[2]; // meaning of power action "sleep" SYSTEM_POWER_STATE MinSleep; SYSTEM_POWER_STATE MaxSleep; SYSTEM_POWER_STATE ReducedLatencySleep; DWORD WinLogonFlags; // parameters for dozing DWORD Spare3; DWORD DozeS4Timeout; // battery policies DWORD BroadcastCapacityResolution; SYSTEM_POWER_LEVEL DischargePolicy[NUM_DISCHARGE_POLICIES]; // video policies DWORD VideoTimeout; BOOLEAN VideoDimDisplay; DWORD VideoReserved[3]; // hard disk policies DWORD SpindownTimeout; // processor policies BOOLEAN OptimizeForPower; BYTE FanThrottleTolerance; BYTE ForcedThrottle; BYTE MinThrottle; POWER_ACTION_POLICY OverThrottled; } SYSTEM_POWER_POLICY, *PSYSTEM_POWER_POLICY; // processor power policy state typedef struct _PROCESSOR_POWER_POLICY_INFO { // Time based information (will be converted to kernel units) DWORD TimeCheck; // in US DWORD DemoteLimit; // in US DWORD PromoteLimit; // in US // Percentage based information BYTE DemotePercent; BYTE PromotePercent; BYTE Spare[2]; // Flags DWORD AllowDemotion:1; DWORD AllowPromotion:1; DWORD Reserved:30; } PROCESSOR_POWER_POLICY_INFO, *PPROCESSOR_POWER_POLICY_INFO; // processor power policy typedef struct _PROCESSOR_POWER_POLICY { DWORD Revision; // 1 // Dynamic Throttling Policy BYTE DynamicThrottle; BYTE Spare[3]; // Flags DWORD DisableCStates:1; DWORD Reserved:31; // System policy information // The Array is last, in case it needs to be grown and the structure // revision incremented. DWORD PolicyCount; PROCESSOR_POWER_POLICY_INFO Policy[3]; } PROCESSOR_POWER_POLICY, *PPROCESSOR_POWER_POLICY; // administrator power policy overrides typedef struct _ADMINISTRATOR_POWER_POLICY { // meaning of power action "sleep" SYSTEM_POWER_STATE MinSleep; SYSTEM_POWER_STATE MaxSleep; // video policies DWORD MinVideoTimeout; DWORD MaxVideoTimeout; // disk policies DWORD MinSpindownTimeout; DWORD MaxSpindownTimeout; } ADMINISTRATOR_POWER_POLICY, *PADMINISTRATOR_POWER_POLICY; typedef struct { // Misc supported system features BOOLEAN PowerButtonPresent; BOOLEAN SleepButtonPresent; BOOLEAN LidPresent; BOOLEAN SystemS1; BOOLEAN SystemS2; BOOLEAN SystemS3; BOOLEAN SystemS4; // hibernate BOOLEAN SystemS5; // off BOOLEAN HiberFilePresent; BOOLEAN FullWake; BOOLEAN VideoDimPresent; BOOLEAN ApmPresent; BOOLEAN UpsPresent; // Processors BOOLEAN ThermalControl; BOOLEAN ProcessorThrottle; BYTE ProcessorMinThrottle; BYTE ProcessorMaxThrottle; BYTE spare2[4]; // Disk BOOLEAN DiskSpinDown; BYTE spare3[8]; // System Battery BOOLEAN SystemBatteriesPresent; BOOLEAN BatteriesAreShortTerm; BATTERY_REPORTING_SCALE BatteryScale[3]; // Wake SYSTEM_POWER_STATE AcOnLineWake; SYSTEM_POWER_STATE SoftLidWake; SYSTEM_POWER_STATE RtcWake; SYSTEM_POWER_STATE MinDeviceWakeState; // note this may change on driver load SYSTEM_POWER_STATE DefaultLowLatencyWake; } SYSTEM_POWER_CAPABILITIES, *PSYSTEM_POWER_CAPABILITIES; typedef struct { BOOLEAN AcOnLine; BOOLEAN BatteryPresent; BOOLEAN Charging; BOOLEAN Discharging; BOOLEAN Spare1[4]; DWORD MaxCapacity; DWORD RemainingCapacity; DWORD Rate; DWORD EstimatedTime; DWORD DefaultAlert1; DWORD DefaultAlert2; } SYSTEM_BATTERY_STATE, *PSYSTEM_BATTERY_STATE; // // Image Format // #ifndef _MAC #include "pshpack4.h" // 4 byte packing is the default #define IMAGE_DOS_SIGNATURE 0x5A4D // MZ #define IMAGE_OS2_SIGNATURE 0x454E // NE #define IMAGE_OS2_SIGNATURE_LE 0x454C // LE #define IMAGE_VXD_SIGNATURE 0x454C // LE #define IMAGE_NT_SIGNATURE 0x00004550 // PE00 #include "pshpack2.h" // 16 bit headers are 2 byte packed #else #include "pshpack1.h" #define IMAGE_DOS_SIGNATURE 0x4D5A // MZ #define IMAGE_OS2_SIGNATURE 0x4E45 // NE #define IMAGE_OS2_SIGNATURE_LE 0x4C45 // LE #define IMAGE_NT_SIGNATURE 0x50450000 // PE00 #endif typedef struct _IMAGE_DOS_HEADER { // DOS .EXE header WORD e_magic; // Magic number WORD e_cblp; // Bytes on last page of file WORD e_cp; // Pages in file WORD e_crlc; // Relocations WORD e_cparhdr; // Size of header in paragraphs WORD e_minalloc; // Minimum extra paragraphs needed WORD e_maxalloc; // Maximum extra paragraphs needed WORD e_ss; // Initial (relative) SS value WORD e_sp; // Initial SP value WORD e_csum; // Checksum WORD e_ip; // Initial IP value WORD e_cs; // Initial (relative) CS value WORD e_lfarlc; // File address of relocation table WORD e_ovno; // Overlay number WORD e_res[4]; // Reserved words WORD e_oemid; // OEM identifier (for e_oeminfo) WORD e_oeminfo; // OEM information; e_oemid specific WORD e_res2[10]; // Reserved words LONG e_lfanew; // File address of new exe header } IMAGE_DOS_HEADER, *PIMAGE_DOS_HEADER; typedef struct _IMAGE_OS2_HEADER { // OS/2 .EXE header WORD ne_magic; // Magic number CHAR ne_ver; // Version number CHAR ne_rev; // Revision number WORD ne_enttab; // Offset of Entry Table WORD ne_cbenttab; // Number of bytes in Entry Table LONG ne_crc; // Checksum of whole file WORD ne_flags; // Flag word WORD ne_autodata; // Automatic data segment number WORD ne_heap; // Initial heap allocation WORD ne_stack; // Initial stack allocation LONG ne_csip; // Initial CS:IP setting LONG ne_sssp; // Initial SS:SP setting WORD ne_cseg; // Count of file segments WORD ne_cmod; // Entries in Module Reference Table WORD ne_cbnrestab; // Size of non-resident name table WORD ne_segtab; // Offset of Segment Table WORD ne_rsrctab; // Offset of Resource Table WORD ne_restab; // Offset of resident name table WORD ne_modtab; // Offset of Module Reference Table WORD ne_imptab; // Offset of Imported Names Table LONG ne_nrestab; // Offset of Non-resident Names Table WORD ne_cmovent; // Count of movable entries WORD ne_align; // Segment alignment shift count WORD ne_cres; // Count of resource segments BYTE ne_exetyp; // Target Operating system BYTE ne_flagsothers; // Other .EXE flags WORD ne_pretthunks; // offset to return thunks WORD ne_psegrefbytes; // offset to segment ref. bytes WORD ne_swaparea; // Minimum code swap area size WORD ne_expver; // Expected Windows version number } IMAGE_OS2_HEADER, *PIMAGE_OS2_HEADER; typedef struct _IMAGE_VXD_HEADER { // Windows VXD header WORD e32_magic; // Magic number BYTE e32_border; // The byte ordering for the VXD BYTE e32_worder; // The word ordering for the VXD DWORD e32_level; // The EXE format level for now = 0 WORD e32_cpu; // The CPU type WORD e32_os; // The OS type DWORD e32_ver; // Module version DWORD e32_mflags; // Module flags DWORD e32_mpages; // Module # pages DWORD e32_startobj; // Object # for instruction pointer DWORD e32_eip; // Extended instruction pointer DWORD e32_stackobj; // Object # for stack pointer DWORD e32_esp; // Extended stack pointer DWORD e32_pagesize; // VXD page size DWORD e32_lastpagesize; // Last page size in VXD DWORD e32_fixupsize; // Fixup section size DWORD e32_fixupsum; // Fixup section checksum DWORD e32_ldrsize; // Loader section size DWORD e32_ldrsum; // Loader section checksum DWORD e32_objtab; // Object table offset DWORD e32_objcnt; // Number of objects in module DWORD e32_objmap; // Object page map offset DWORD e32_itermap; // Object iterated data map offset DWORD e32_rsrctab; // Offset of Resource Table DWORD e32_rsrccnt; // Number of resource entries DWORD e32_restab; // Offset of resident name table DWORD e32_enttab; // Offset of Entry Table DWORD e32_dirtab; // Offset of Module Directive Table DWORD e32_dircnt; // Number of module directives DWORD e32_fpagetab; // Offset of Fixup Page Table DWORD e32_frectab; // Offset of Fixup Record Table DWORD e32_impmod; // Offset of Import Module Name Table DWORD e32_impmodcnt; // Number of entries in Import Module Name Table DWORD e32_impproc; // Offset of Import Procedure Name Table DWORD e32_pagesum; // Offset of Per-Page Checksum Table DWORD e32_datapage; // Offset of Enumerated Data Pages DWORD e32_preload; // Number of preload pages DWORD e32_nrestab; // Offset of Non-resident Names Table DWORD e32_cbnrestab; // Size of Non-resident Name Table DWORD e32_nressum; // Non-resident Name Table Checksum DWORD e32_autodata; // Object # for automatic data object DWORD e32_debuginfo; // Offset of the debugging information DWORD e32_debuglen; // The length of the debugging info. in bytes DWORD e32_instpreload; // Number of instance pages in preload section of VXD file DWORD e32_instdemand; // Number of instance pages in demand load section of VXD file DWORD e32_heapsize; // Size of heap - for 16-bit apps BYTE e32_res3[12]; // Reserved words DWORD e32_winresoff; DWORD e32_winreslen; WORD e32_devid; // Device ID for VxD WORD e32_ddkver; // DDK version for VxD } IMAGE_VXD_HEADER, *PIMAGE_VXD_HEADER; #ifndef _MAC #include "poppack.h" // Back to 4 byte packing #endif // // File header format. // typedef struct _IMAGE_FILE_HEADER { WORD Machine; WORD NumberOfSections; DWORD TimeDateStamp; DWORD PointerToSymbolTable; DWORD NumberOfSymbols; WORD SizeOfOptionalHeader; WORD Characteristics; } IMAGE_FILE_HEADER, *PIMAGE_FILE_HEADER; #define IMAGE_SIZEOF_FILE_HEADER 20 #define IMAGE_FILE_RELOCS_STRIPPED 0x0001 // Relocation info stripped from file. #define IMAGE_FILE_EXECUTABLE_IMAGE 0x0002 // File is executable (i.e. no unresolved externel references). #define IMAGE_FILE_LINE_NUMS_STRIPPED 0x0004 // Line nunbers stripped from file. #define IMAGE_FILE_LOCAL_SYMS_STRIPPED 0x0008 // Local symbols stripped from file. #define IMAGE_FILE_AGGRESIVE_WS_TRIM 0x0010 // Agressively trim working set #define IMAGE_FILE_LARGE_ADDRESS_AWARE 0x0020 // App can handle >2gb addresses #define IMAGE_FILE_BYTES_REVERSED_LO 0x0080 // Bytes of machine word are reversed. #define IMAGE_FILE_32BIT_MACHINE 0x0100 // 32 bit word machine. #define IMAGE_FILE_DEBUG_STRIPPED 0x0200 // Debugging info stripped from file in .DBG file #define IMAGE_FILE_REMOVABLE_RUN_FROM_SWAP 0x0400 // If Image is on removable media, copy and run from the swap file. #define IMAGE_FILE_NET_RUN_FROM_SWAP 0x0800 // If Image is on Net, copy and run from the swap file. #define IMAGE_FILE_SYSTEM 0x1000 // System File. #define IMAGE_FILE_DLL 0x2000 // File is a DLL. #define IMAGE_FILE_UP_SYSTEM_ONLY 0x4000 // File should only be run on a UP machine #define IMAGE_FILE_BYTES_REVERSED_HI 0x8000 // Bytes of machine word are reversed. #define IMAGE_FILE_MACHINE_UNKNOWN 0 #define IMAGE_FILE_MACHINE_I386 0x014c // Intel 386. #define IMAGE_FILE_MACHINE_R3000 0x0162 // MIPS little-endian, 0x160 big-endian #define IMAGE_FILE_MACHINE_R4000 0x0166 // MIPS little-endian #define IMAGE_FILE_MACHINE_R10000 0x0168 // MIPS little-endian #define IMAGE_FILE_MACHINE_WCEMIPSV2 0x0169 // MIPS little-endian WCE v2 #define IMAGE_FILE_MACHINE_ALPHA 0x0184 // Alpha_AXP #define IMAGE_FILE_MACHINE_SH3 0x01a2 // SH3 little-endian #define IMAGE_FILE_MACHINE_SH3DSP 0x01a3 #define IMAGE_FILE_MACHINE_SH3E 0x01a4 // SH3E little-endian #define IMAGE_FILE_MACHINE_SH4 0x01a6 // SH4 little-endian #define IMAGE_FILE_MACHINE_SH5 0x01a8 // SH5 #define IMAGE_FILE_MACHINE_ARM 0x01c0 // ARM Little-Endian #define IMAGE_FILE_MACHINE_THUMB 0x01c2 #define IMAGE_FILE_MACHINE_AM33 0x01d3 #define IMAGE_FILE_MACHINE_POWERPC 0x01F0 // IBM PowerPC Little-Endian #define IMAGE_FILE_MACHINE_POWERPCFP 0x01f1 #define IMAGE_FILE_MACHINE_IA64 0x0200 // Intel 64 #define IMAGE_FILE_MACHINE_MIPS16 0x0266 // MIPS #define IMAGE_FILE_MACHINE_ALPHA64 0x0284 // ALPHA64 #define IMAGE_FILE_MACHINE_MIPSFPU 0x0366 // MIPS #define IMAGE_FILE_MACHINE_MIPSFPU16 0x0466 // MIPS #define IMAGE_FILE_MACHINE_AXP64 IMAGE_FILE_MACHINE_ALPHA64 #define IMAGE_FILE_MACHINE_TRICORE 0x0520 // Infineon #define IMAGE_FILE_MACHINE_CEF 0x0CEF #define IMAGE_FILE_MACHINE_EBC 0x0EBC // EFI Byte Code #define IMAGE_FILE_MACHINE_AMD64 0x8664 // AMD64 (K8) #define IMAGE_FILE_MACHINE_M32R 0x9041 // M32R little-endian #define IMAGE_FILE_MACHINE_CEE 0xC0EE // // Directory format. // typedef struct _IMAGE_DATA_DIRECTORY { DWORD VirtualAddress; DWORD Size; } IMAGE_DATA_DIRECTORY, *PIMAGE_DATA_DIRECTORY; #define IMAGE_NUMBEROF_DIRECTORY_ENTRIES 16 // // Optional header format. // typedef struct _IMAGE_OPTIONAL_HEADER { // // Standard fields. // WORD Magic; BYTE MajorLinkerVersion; BYTE MinorLinkerVersion; DWORD SizeOfCode; DWORD SizeOfInitializedData; DWORD SizeOfUninitializedData; DWORD AddressOfEntryPoint; DWORD BaseOfCode; DWORD BaseOfData; // // NT additional fields. // DWORD ImageBase; DWORD SectionAlignment; DWORD FileAlignment; WORD MajorOperatingSystemVersion; WORD MinorOperatingSystemVersion; WORD MajorImageVersion; WORD MinorImageVersion; WORD MajorSubsystemVersion; WORD MinorSubsystemVersion; DWORD Win32VersionValue; DWORD SizeOfImage; DWORD SizeOfHeaders; DWORD CheckSum; WORD Subsystem; WORD DllCharacteristics; DWORD SizeOfStackReserve; DWORD SizeOfStackCommit; DWORD SizeOfHeapReserve; DWORD SizeOfHeapCommit; DWORD LoaderFlags; DWORD NumberOfRvaAndSizes; IMAGE_DATA_DIRECTORY DataDirectory[IMAGE_NUMBEROF_DIRECTORY_ENTRIES]; } IMAGE_OPTIONAL_HEADER32, *PIMAGE_OPTIONAL_HEADER32; typedef struct _IMAGE_ROM_OPTIONAL_HEADER { WORD Magic; BYTE MajorLinkerVersion; BYTE MinorLinkerVersion; DWORD SizeOfCode; DWORD SizeOfInitializedData; DWORD SizeOfUninitializedData; DWORD AddressOfEntryPoint; DWORD BaseOfCode; DWORD BaseOfData; DWORD BaseOfBss; DWORD GprMask; DWORD CprMask[4]; DWORD GpValue; } IMAGE_ROM_OPTIONAL_HEADER, *PIMAGE_ROM_OPTIONAL_HEADER; typedef struct _IMAGE_OPTIONAL_HEADER64 { WORD Magic; BYTE MajorLinkerVersion; BYTE MinorLinkerVersion; DWORD SizeOfCode; DWORD SizeOfInitializedData; DWORD SizeOfUninitializedData; DWORD AddressOfEntryPoint; DWORD BaseOfCode; ULONGLONG ImageBase; DWORD SectionAlignment; DWORD FileAlignment; WORD MajorOperatingSystemVersion; WORD MinorOperatingSystemVersion; WORD MajorImageVersion; WORD MinorImageVersion; WORD MajorSubsystemVersion; WORD MinorSubsystemVersion; DWORD Win32VersionValue; DWORD SizeOfImage; DWORD SizeOfHeaders; DWORD CheckSum; WORD Subsystem; WORD DllCharacteristics; ULONGLONG SizeOfStackReserve; ULONGLONG SizeOfStackCommit; ULONGLONG SizeOfHeapReserve; ULONGLONG SizeOfHeapCommit; DWORD LoaderFlags; DWORD NumberOfRvaAndSizes; IMAGE_DATA_DIRECTORY DataDirectory[IMAGE_NUMBEROF_DIRECTORY_ENTRIES]; } IMAGE_OPTIONAL_HEADER64, *PIMAGE_OPTIONAL_HEADER64; #define IMAGE_SIZEOF_ROM_OPTIONAL_HEADER 56 #define IMAGE_SIZEOF_STD_OPTIONAL_HEADER 28 #define IMAGE_SIZEOF_NT_OPTIONAL32_HEADER 224 #define IMAGE_SIZEOF_NT_OPTIONAL64_HEADER 240 #define IMAGE_NT_OPTIONAL_HDR32_MAGIC 0x10b #define IMAGE_NT_OPTIONAL_HDR64_MAGIC 0x20b #define IMAGE_ROM_OPTIONAL_HDR_MAGIC 0x107 #ifdef _WIN64 typedef IMAGE_OPTIONAL_HEADER64 IMAGE_OPTIONAL_HEADER; typedef PIMAGE_OPTIONAL_HEADER64 PIMAGE_OPTIONAL_HEADER; #define IMAGE_SIZEOF_NT_OPTIONAL_HEADER IMAGE_SIZEOF_NT_OPTIONAL64_HEADER #define IMAGE_NT_OPTIONAL_HDR_MAGIC IMAGE_NT_OPTIONAL_HDR64_MAGIC #else typedef IMAGE_OPTIONAL_HEADER32 IMAGE_OPTIONAL_HEADER; typedef PIMAGE_OPTIONAL_HEADER32 PIMAGE_OPTIONAL_HEADER; #define IMAGE_SIZEOF_NT_OPTIONAL_HEADER IMAGE_SIZEOF_NT_OPTIONAL32_HEADER #define IMAGE_NT_OPTIONAL_HDR_MAGIC IMAGE_NT_OPTIONAL_HDR32_MAGIC #endif typedef struct _IMAGE_NT_HEADERS64 { DWORD Signature; IMAGE_FILE_HEADER FileHeader; IMAGE_OPTIONAL_HEADER64 OptionalHeader; } IMAGE_NT_HEADERS64, *PIMAGE_NT_HEADERS64; typedef struct _IMAGE_NT_HEADERS { DWORD Signature; IMAGE_FILE_HEADER FileHeader; IMAGE_OPTIONAL_HEADER32 OptionalHeader; } IMAGE_NT_HEADERS32, *PIMAGE_NT_HEADERS32; typedef struct _IMAGE_ROM_HEADERS { IMAGE_FILE_HEADER FileHeader; IMAGE_ROM_OPTIONAL_HEADER OptionalHeader; } IMAGE_ROM_HEADERS, *PIMAGE_ROM_HEADERS; #ifdef _WIN64 typedef IMAGE_NT_HEADERS64 IMAGE_NT_HEADERS; typedef PIMAGE_NT_HEADERS64 PIMAGE_NT_HEADERS; #else typedef IMAGE_NT_HEADERS32 IMAGE_NT_HEADERS; typedef PIMAGE_NT_HEADERS32 PIMAGE_NT_HEADERS; #endif // IMAGE_FIRST_SECTION doesn't need 32/64 versions since the file header is the same either way. #define IMAGE_FIRST_SECTION( ntheader ) ((PIMAGE_SECTION_HEADER) \ ((ULONG_PTR)ntheader + \ FIELD_OFFSET( IMAGE_NT_HEADERS, OptionalHeader ) + \ ((PIMAGE_NT_HEADERS)(ntheader))->FileHeader.SizeOfOptionalHeader \ )) // Subsystem Values #define IMAGE_SUBSYSTEM_UNKNOWN 0 // Unknown subsystem. #define IMAGE_SUBSYSTEM_NATIVE 1 // Image doesn't require a subsystem. #define IMAGE_SUBSYSTEM_WINDOWS_GUI 2 // Image runs in the Windows GUI subsystem. #define IMAGE_SUBSYSTEM_WINDOWS_CUI 3 // Image runs in the Windows character subsystem. #define IMAGE_SUBSYSTEM_OS2_CUI 5 // image runs in the OS/2 character subsystem. #define IMAGE_SUBSYSTEM_POSIX_CUI 7 // image runs in the Posix character subsystem. #define IMAGE_SUBSYSTEM_NATIVE_WINDOWS 8 // image is a native Win9x driver. #define IMAGE_SUBSYSTEM_WINDOWS_CE_GUI 9 // Image runs in the Windows CE subsystem. #define IMAGE_SUBSYSTEM_EFI_APPLICATION 10 // #define IMAGE_SUBSYSTEM_EFI_BOOT_SERVICE_DRIVER 11 // #define IMAGE_SUBSYSTEM_EFI_RUNTIME_DRIVER 12 // #define IMAGE_SUBSYSTEM_EFI_ROM 13 #define IMAGE_SUBSYSTEM_XBOX 14 // DllCharacteristics Entries // IMAGE_LIBRARY_PROCESS_INIT 0x0001 // Reserved. // IMAGE_LIBRARY_PROCESS_TERM 0x0002 // Reserved. // IMAGE_LIBRARY_THREAD_INIT 0x0004 // Reserved. // IMAGE_LIBRARY_THREAD_TERM 0x0008 // Reserved. #define IMAGE_DLLCHARACTERISTICS_NO_SEH 0x0400 // Image does not use SEH. No SE handler may reside in this image #define IMAGE_DLLCHARACTERISTICS_NO_BIND 0x0800 // Do not bind this image. // 0x1000 // Reserved. #define IMAGE_DLLCHARACTERISTICS_WDM_DRIVER 0x2000 // Driver uses WDM model // 0x4000 // Reserved. #define IMAGE_DLLCHARACTERISTICS_TERMINAL_SERVER_AWARE 0x8000 // Directory Entries #define IMAGE_DIRECTORY_ENTRY_EXPORT 0 // Export Directory #define IMAGE_DIRECTORY_ENTRY_IMPORT 1 // Import Directory #define IMAGE_DIRECTORY_ENTRY_RESOURCE 2 // Resource Directory #define IMAGE_DIRECTORY_ENTRY_EXCEPTION 3 // Exception Directory #define IMAGE_DIRECTORY_ENTRY_SECURITY 4 // Security Directory #define IMAGE_DIRECTORY_ENTRY_BASERELOC 5 // Base Relocation Table #define IMAGE_DIRECTORY_ENTRY_DEBUG 6 // Debug Directory // IMAGE_DIRECTORY_ENTRY_COPYRIGHT 7 // (X86 usage) #define IMAGE_DIRECTORY_ENTRY_ARCHITECTURE 7 // Architecture Specific Data #define IMAGE_DIRECTORY_ENTRY_GLOBALPTR 8 // RVA of GP #define IMAGE_DIRECTORY_ENTRY_TLS 9 // TLS Directory #define IMAGE_DIRECTORY_ENTRY_LOAD_CONFIG 10 // Load Configuration Directory #define IMAGE_DIRECTORY_ENTRY_BOUND_IMPORT 11 // Bound Import Directory in headers #define IMAGE_DIRECTORY_ENTRY_IAT 12 // Import Address Table #define IMAGE_DIRECTORY_ENTRY_DELAY_IMPORT 13 // Delay Load Import Descriptors #define IMAGE_DIRECTORY_ENTRY_COM_DESCRIPTOR 14 // COM Runtime descriptor // // Non-COFF Object file header // typedef struct ANON_OBJECT_HEADER { WORD Sig1; // Must be IMAGE_FILE_MACHINE_UNKNOWN WORD Sig2; // Must be 0xffff WORD Version; // >= 1 (implies the CLSID field is present) WORD Machine; DWORD TimeDateStamp; CLSID ClassID; // Used to invoke CoCreateInstance DWORD SizeOfData; // Size of data that follows the header } ANON_OBJECT_HEADER; // // Section header format. // #define IMAGE_SIZEOF_SHORT_NAME 8 typedef struct _IMAGE_SECTION_HEADER { BYTE Name[IMAGE_SIZEOF_SHORT_NAME]; union { DWORD PhysicalAddress; DWORD VirtualSize; } Misc; DWORD VirtualAddress; DWORD SizeOfRawData; DWORD PointerToRawData; DWORD PointerToRelocations; DWORD PointerToLinenumbers; WORD NumberOfRelocations; WORD NumberOfLinenumbers; DWORD Characteristics; } IMAGE_SECTION_HEADER, *PIMAGE_SECTION_HEADER; #define IMAGE_SIZEOF_SECTION_HEADER 40 // // Section characteristics. // // IMAGE_SCN_TYPE_REG 0x00000000 // Reserved. // IMAGE_SCN_TYPE_DSECT 0x00000001 // Reserved. // IMAGE_SCN_TYPE_NOLOAD 0x00000002 // Reserved. // IMAGE_SCN_TYPE_GROUP 0x00000004 // Reserved. #define IMAGE_SCN_TYPE_NO_PAD 0x00000008 // Reserved. // IMAGE_SCN_TYPE_COPY 0x00000010 // Reserved. #define IMAGE_SCN_CNT_CODE 0x00000020 // Section contains code. #define IMAGE_SCN_CNT_INITIALIZED_DATA 0x00000040 // Section contains initialized data. #define IMAGE_SCN_CNT_UNINITIALIZED_DATA 0x00000080 // Section contains uninitialized data. #define IMAGE_SCN_LNK_OTHER 0x00000100 // Reserved. #define IMAGE_SCN_LNK_INFO 0x00000200 // Section contains comments or some other type of information. // IMAGE_SCN_TYPE_OVER 0x00000400 // Reserved. #define IMAGE_SCN_LNK_REMOVE 0x00000800 // Section contents will not become part of image. #define IMAGE_SCN_LNK_COMDAT 0x00001000 // Section contents comdat. // 0x00002000 // Reserved. // IMAGE_SCN_MEM_PROTECTED - Obsolete 0x00004000 #define IMAGE_SCN_NO_DEFER_SPEC_EXC 0x00004000 // Reset speculative exceptions handling bits in the TLB entries for this section. #define IMAGE_SCN_GPREL 0x00008000 // Section content can be accessed relative to GP #define IMAGE_SCN_MEM_FARDATA 0x00008000 // IMAGE_SCN_MEM_SYSHEAP - Obsolete 0x00010000 #define IMAGE_SCN_MEM_PURGEABLE 0x00020000 #define IMAGE_SCN_MEM_16BIT 0x00020000 #define IMAGE_SCN_MEM_LOCKED 0x00040000 #define IMAGE_SCN_MEM_PRELOAD 0x00080000 #define IMAGE_SCN_ALIGN_1BYTES 0x00100000 // #define IMAGE_SCN_ALIGN_2BYTES 0x00200000 // #define IMAGE_SCN_ALIGN_4BYTES 0x00300000 // #define IMAGE_SCN_ALIGN_8BYTES 0x00400000 // #define IMAGE_SCN_ALIGN_16BYTES 0x00500000 // Default alignment if no others are specified. #define IMAGE_SCN_ALIGN_32BYTES 0x00600000 // #define IMAGE_SCN_ALIGN_64BYTES 0x00700000 // #define IMAGE_SCN_ALIGN_128BYTES 0x00800000 // #define IMAGE_SCN_ALIGN_256BYTES 0x00900000 // #define IMAGE_SCN_ALIGN_512BYTES 0x00A00000 // #define IMAGE_SCN_ALIGN_1024BYTES 0x00B00000 // #define IMAGE_SCN_ALIGN_2048BYTES 0x00C00000 // #define IMAGE_SCN_ALIGN_4096BYTES 0x00D00000 // #define IMAGE_SCN_ALIGN_8192BYTES 0x00E00000 // // Unused 0x00F00000 #define IMAGE_SCN_ALIGN_MASK 0x00F00000 #define IMAGE_SCN_LNK_NRELOC_OVFL 0x01000000 // Section contains extended relocations. #define IMAGE_SCN_MEM_DISCARDABLE 0x02000000 // Section can be discarded. #define IMAGE_SCN_MEM_NOT_CACHED 0x04000000 // Section is not cachable. #define IMAGE_SCN_MEM_NOT_PAGED 0x08000000 // Section is not pageable. #define IMAGE_SCN_MEM_SHARED 0x10000000 // Section is shareable. #define IMAGE_SCN_MEM_EXECUTE 0x20000000 // Section is executable. #define IMAGE_SCN_MEM_READ 0x40000000 // Section is readable. #define IMAGE_SCN_MEM_WRITE 0x80000000 // Section is writeable. // // TLS Chaacteristic Flags // #define IMAGE_SCN_SCALE_INDEX 0x00000001 // Tls index is scaled #ifndef _MAC #include "pshpack2.h" // Symbols, relocs, and linenumbers are 2 byte packed #endif // // Symbol format. // typedef struct _IMAGE_SYMBOL { union { BYTE ShortName[8]; struct { DWORD Short; // if 0, use LongName DWORD Long; // offset into string table } Name; DWORD LongName[2]; // PBYTE [2] } N; DWORD Value; SHORT SectionNumber; WORD Type; BYTE StorageClass; BYTE NumberOfAuxSymbols; } IMAGE_SYMBOL; typedef IMAGE_SYMBOL UNALIGNED *PIMAGE_SYMBOL; #define IMAGE_SIZEOF_SYMBOL 18 // // Section values. // // Symbols have a section number of the section in which they are // defined. Otherwise, section numbers have the following meanings: // #define IMAGE_SYM_UNDEFINED (SHORT)0 // Symbol is undefined or is common. #define IMAGE_SYM_ABSOLUTE (SHORT)-1 // Symbol is an absolute value. #define IMAGE_SYM_DEBUG (SHORT)-2 // Symbol is a special debug item. #define IMAGE_SYM_SECTION_MAX 0xFEFF // Values 0xFF00-0xFFFF are special // // Type (fundamental) values. // #define IMAGE_SYM_TYPE_NULL 0x0000 // no type. #define IMAGE_SYM_TYPE_VOID 0x0001 // #define IMAGE_SYM_TYPE_CHAR 0x0002 // type character. #define IMAGE_SYM_TYPE_SHORT 0x0003 // type short integer. #define IMAGE_SYM_TYPE_INT 0x0004 // #define IMAGE_SYM_TYPE_LONG 0x0005 // #define IMAGE_SYM_TYPE_FLOAT 0x0006 // #define IMAGE_SYM_TYPE_DOUBLE 0x0007 // #define IMAGE_SYM_TYPE_STRUCT 0x0008 // #define IMAGE_SYM_TYPE_UNION 0x0009 // #define IMAGE_SYM_TYPE_ENUM 0x000A // enumeration. #define IMAGE_SYM_TYPE_MOE 0x000B // member of enumeration. #define IMAGE_SYM_TYPE_BYTE 0x000C // #define IMAGE_SYM_TYPE_WORD 0x000D // #define IMAGE_SYM_TYPE_UINT 0x000E // #define IMAGE_SYM_TYPE_DWORD 0x000F // #define IMAGE_SYM_TYPE_PCODE 0x8000 // // // Type (derived) values. // #define IMAGE_SYM_DTYPE_NULL 0 // no derived type. #define IMAGE_SYM_DTYPE_POINTER 1 // pointer. #define IMAGE_SYM_DTYPE_FUNCTION 2 // function. #define IMAGE_SYM_DTYPE_ARRAY 3 // array. // // Storage classes. // #define IMAGE_SYM_CLASS_END_OF_FUNCTION (BYTE )-1 #define IMAGE_SYM_CLASS_NULL 0x0000 #define IMAGE_SYM_CLASS_AUTOMATIC 0x0001 #define IMAGE_SYM_CLASS_EXTERNAL 0x0002 #define IMAGE_SYM_CLASS_STATIC 0x0003 #define IMAGE_SYM_CLASS_REGISTER 0x0004 #define IMAGE_SYM_CLASS_EXTERNAL_DEF 0x0005 #define IMAGE_SYM_CLASS_LABEL 0x0006 #define IMAGE_SYM_CLASS_UNDEFINED_LABEL 0x0007 #define IMAGE_SYM_CLASS_MEMBER_OF_STRUCT 0x0008 #define IMAGE_SYM_CLASS_ARGUMENT 0x0009 #define IMAGE_SYM_CLASS_STRUCT_TAG 0x000A #define IMAGE_SYM_CLASS_MEMBER_OF_UNION 0x000B #define IMAGE_SYM_CLASS_UNION_TAG 0x000C #define IMAGE_SYM_CLASS_TYPE_DEFINITION 0x000D #define IMAGE_SYM_CLASS_UNDEFINED_STATIC 0x000E #define IMAGE_SYM_CLASS_ENUM_TAG 0x000F #define IMAGE_SYM_CLASS_MEMBER_OF_ENUM 0x0010 #define IMAGE_SYM_CLASS_REGISTER_PARAM 0x0011 #define IMAGE_SYM_CLASS_BIT_FIELD 0x0012 #define IMAGE_SYM_CLASS_FAR_EXTERNAL 0x0044 // #define IMAGE_SYM_CLASS_BLOCK 0x0064 #define IMAGE_SYM_CLASS_FUNCTION 0x0065 #define IMAGE_SYM_CLASS_END_OF_STRUCT 0x0066 #define IMAGE_SYM_CLASS_FILE 0x0067 // new #define IMAGE_SYM_CLASS_SECTION 0x0068 #define IMAGE_SYM_CLASS_WEAK_EXTERNAL 0x0069 #define IMAGE_SYM_CLASS_CLR_TOKEN 0x006B // type packing constants #define N_BTMASK 0x000F #define N_TMASK 0x0030 #define N_TMASK1 0x00C0 #define N_TMASK2 0x00F0 #define N_BTSHFT 4 #define N_TSHIFT 2 // MACROS // Basic Type of x #define BTYPE(x) ((x) & N_BTMASK) // Is x a pointer? #ifndef ISPTR #define ISPTR(x) (((x) & N_TMASK) == (IMAGE_SYM_DTYPE_POINTER << N_BTSHFT)) #endif // Is x a function? #ifndef ISFCN #define ISFCN(x) (((x) & N_TMASK) == (IMAGE_SYM_DTYPE_FUNCTION << N_BTSHFT)) #endif // Is x an array? #ifndef ISARY #define ISARY(x) (((x) & N_TMASK) == (IMAGE_SYM_DTYPE_ARRAY << N_BTSHFT)) #endif // Is x a structure, union, or enumeration TAG? #ifndef ISTAG #define ISTAG(x) ((x)==IMAGE_SYM_CLASS_STRUCT_TAG || (x)==IMAGE_SYM_CLASS_UNION_TAG || (x)==IMAGE_SYM_CLASS_ENUM_TAG) #endif #ifndef INCREF #define INCREF(x) ((((x)&~N_BTMASK)<>N_TSHIFT)&~N_BTMASK)|((x)&N_BTMASK)) #endif // // Auxiliary entry format. // typedef union _IMAGE_AUX_SYMBOL { struct { DWORD TagIndex; // struct, union, or enum tag index union { struct { WORD Linenumber; // declaration line number WORD Size; // size of struct, union, or enum } LnSz; DWORD TotalSize; } Misc; union { struct { // if ISFCN, tag, or .bb DWORD PointerToLinenumber; DWORD PointerToNextFunction; } Function; struct { // if ISARY, up to 4 dimen. WORD Dimension[4]; } Array; } FcnAry; WORD TvIndex; // tv index } Sym; struct { BYTE Name[IMAGE_SIZEOF_SYMBOL]; } File; struct { DWORD Length; // section length WORD NumberOfRelocations; // number of relocation entries WORD NumberOfLinenumbers; // number of line numbers DWORD CheckSum; // checksum for communal SHORT Number; // section number to associate with BYTE Selection; // communal selection type } Section; } IMAGE_AUX_SYMBOL; typedef IMAGE_AUX_SYMBOL UNALIGNED *PIMAGE_AUX_SYMBOL; #define IMAGE_SIZEOF_AUX_SYMBOL 18 typedef enum IMAGE_AUX_SYMBOL_TYPE { IMAGE_AUX_SYMBOL_TYPE_TOKEN_DEF = 1, } IMAGE_AUX_SYMBOL_TYPE; #include typedef struct IMAGE_AUX_SYMBOL_TOKEN_DEF { BYTE bAuxType; // IMAGE_AUX_SYMBOL_TYPE BYTE bReserved; // Must be 0 DWORD SymbolTableIndex; BYTE rgbReserved[12]; // Must be 0 } IMAGE_AUX_SYMBOL_TOKEN_DEF; typedef IMAGE_AUX_SYMBOL_TOKEN_DEF UNALIGNED *PIMAGE_AUX_SYMBOL_TOKEN_DEF; #include // // Communal selection types. // #define IMAGE_COMDAT_SELECT_NODUPLICATES 1 #define IMAGE_COMDAT_SELECT_ANY 2 #define IMAGE_COMDAT_SELECT_SAME_SIZE 3 #define IMAGE_COMDAT_SELECT_EXACT_MATCH 4 #define IMAGE_COMDAT_SELECT_ASSOCIATIVE 5 #define IMAGE_COMDAT_SELECT_LARGEST 6 #define IMAGE_COMDAT_SELECT_NEWEST 7 #define IMAGE_WEAK_EXTERN_SEARCH_NOLIBRARY 1 #define IMAGE_WEAK_EXTERN_SEARCH_LIBRARY 2 #define IMAGE_WEAK_EXTERN_SEARCH_ALIAS 3 // // Relocation format. // typedef struct _IMAGE_RELOCATION { union { DWORD VirtualAddress; DWORD RelocCount; // Set to the real count when IMAGE_SCN_LNK_NRELOC_OVFL is set }; DWORD SymbolTableIndex; WORD Type; } IMAGE_RELOCATION; typedef IMAGE_RELOCATION UNALIGNED *PIMAGE_RELOCATION; #define IMAGE_SIZEOF_RELOCATION 10 // // I386 relocation types. // #define IMAGE_REL_I386_ABSOLUTE 0x0000 // Reference is absolute, no relocation is necessary #define IMAGE_REL_I386_DIR16 0x0001 // Direct 16-bit reference to the symbols virtual address #define IMAGE_REL_I386_REL16 0x0002 // PC-relative 16-bit reference to the symbols virtual address #define IMAGE_REL_I386_DIR32 0x0006 // Direct 32-bit reference to the symbols virtual address #define IMAGE_REL_I386_DIR32NB 0x0007 // Direct 32-bit reference to the symbols virtual address, base not included #define IMAGE_REL_I386_SEG12 0x0009 // Direct 16-bit reference to the segment-selector bits of a 32-bit virtual address #define IMAGE_REL_I386_SECTION 0x000A #define IMAGE_REL_I386_SECREL 0x000B #define IMAGE_REL_I386_TOKEN 0x000C // clr token #define IMAGE_REL_I386_SECREL7 0x000D // 7 bit offset from base of section containing target #define IMAGE_REL_I386_REL32 0x0014 // PC-relative 32-bit reference to the symbols virtual address // // MIPS relocation types. // #define IMAGE_REL_MIPS_ABSOLUTE 0x0000 // Reference is absolute, no relocation is necessary #define IMAGE_REL_MIPS_REFHALF 0x0001 #define IMAGE_REL_MIPS_REFWORD 0x0002 #define IMAGE_REL_MIPS_JMPADDR 0x0003 #define IMAGE_REL_MIPS_REFHI 0x0004 #define IMAGE_REL_MIPS_REFLO 0x0005 #define IMAGE_REL_MIPS_GPREL 0x0006 #define IMAGE_REL_MIPS_LITERAL 0x0007 #define IMAGE_REL_MIPS_SECTION 0x000A #define IMAGE_REL_MIPS_SECREL 0x000B #define IMAGE_REL_MIPS_SECRELLO 0x000C // Low 16-bit section relative referemce (used for >32k TLS) #define IMAGE_REL_MIPS_SECRELHI 0x000D // High 16-bit section relative reference (used for >32k TLS) #define IMAGE_REL_MIPS_TOKEN 0x000E // clr token #define IMAGE_REL_MIPS_JMPADDR16 0x0010 #define IMAGE_REL_MIPS_REFWORDNB 0x0022 #define IMAGE_REL_MIPS_PAIR 0x0025 // // Alpha Relocation types. // #define IMAGE_REL_ALPHA_ABSOLUTE 0x0000 #define IMAGE_REL_ALPHA_REFLONG 0x0001 #define IMAGE_REL_ALPHA_REFQUAD 0x0002 #define IMAGE_REL_ALPHA_GPREL32 0x0003 #define IMAGE_REL_ALPHA_LITERAL 0x0004 #define IMAGE_REL_ALPHA_LITUSE 0x0005 #define IMAGE_REL_ALPHA_GPDISP 0x0006 #define IMAGE_REL_ALPHA_BRADDR 0x0007 #define IMAGE_REL_ALPHA_HINT 0x0008 #define IMAGE_REL_ALPHA_INLINE_REFLONG 0x0009 #define IMAGE_REL_ALPHA_REFHI 0x000A #define IMAGE_REL_ALPHA_REFLO 0x000B #define IMAGE_REL_ALPHA_PAIR 0x000C #define IMAGE_REL_ALPHA_MATCH 0x000D #define IMAGE_REL_ALPHA_SECTION 0x000E #define IMAGE_REL_ALPHA_SECREL 0x000F #define IMAGE_REL_ALPHA_REFLONGNB 0x0010 #define IMAGE_REL_ALPHA_SECRELLO 0x0011 // Low 16-bit section relative reference #define IMAGE_REL_ALPHA_SECRELHI 0x0012 // High 16-bit section relative reference #define IMAGE_REL_ALPHA_REFQ3 0x0013 // High 16 bits of 48 bit reference #define IMAGE_REL_ALPHA_REFQ2 0x0014 // Middle 16 bits of 48 bit reference #define IMAGE_REL_ALPHA_REFQ1 0x0015 // Low 16 bits of 48 bit reference #define IMAGE_REL_ALPHA_GPRELLO 0x0016 // Low 16-bit GP relative reference #define IMAGE_REL_ALPHA_GPRELHI 0x0017 // High 16-bit GP relative reference // // IBM PowerPC relocation types. // #define IMAGE_REL_PPC_ABSOLUTE 0x0000 // NOP #define IMAGE_REL_PPC_ADDR64 0x0001 // 64-bit address #define IMAGE_REL_PPC_ADDR32 0x0002 // 32-bit address #define IMAGE_REL_PPC_ADDR24 0x0003 // 26-bit address, shifted left 2 (branch absolute) #define IMAGE_REL_PPC_ADDR16 0x0004 // 16-bit address #define IMAGE_REL_PPC_ADDR14 0x0005 // 16-bit address, shifted left 2 (load doubleword) #define IMAGE_REL_PPC_REL24 0x0006 // 26-bit PC-relative offset, shifted left 2 (branch relative) #define IMAGE_REL_PPC_REL14 0x0007 // 16-bit PC-relative offset, shifted left 2 (br cond relative) #define IMAGE_REL_PPC_TOCREL16 0x0008 // 16-bit offset from TOC base #define IMAGE_REL_PPC_TOCREL14 0x0009 // 16-bit offset from TOC base, shifted left 2 (load doubleword) #define IMAGE_REL_PPC_ADDR32NB 0x000A // 32-bit addr w/o image base #define IMAGE_REL_PPC_SECREL 0x000B // va of containing section (as in an image sectionhdr) #define IMAGE_REL_PPC_SECTION 0x000C // sectionheader number #define IMAGE_REL_PPC_IFGLUE 0x000D // substitute TOC restore instruction iff symbol is glue code #define IMAGE_REL_PPC_IMGLUE 0x000E // symbol is glue code; virtual address is TOC restore instruction #define IMAGE_REL_PPC_SECREL16 0x000F // va of containing section (limited to 16 bits) #define IMAGE_REL_PPC_REFHI 0x0010 #define IMAGE_REL_PPC_REFLO 0x0011 #define IMAGE_REL_PPC_PAIR 0x0012 #define IMAGE_REL_PPC_SECRELLO 0x0013 // Low 16-bit section relative reference (used for >32k TLS) #define IMAGE_REL_PPC_SECRELHI 0x0014 // High 16-bit section relative reference (used for >32k TLS) #define IMAGE_REL_PPC_GPREL 0x0015 #define IMAGE_REL_PPC_TOKEN 0x0016 // clr token #define IMAGE_REL_PPC_TYPEMASK 0x00FF // mask to isolate above values in IMAGE_RELOCATION.Type // Flag bits in IMAGE_RELOCATION.TYPE #define IMAGE_REL_PPC_NEG 0x0100 // subtract reloc value rather than adding it #define IMAGE_REL_PPC_BRTAKEN 0x0200 // fix branch prediction bit to predict branch taken #define IMAGE_REL_PPC_BRNTAKEN 0x0400 // fix branch prediction bit to predict branch not taken #define IMAGE_REL_PPC_TOCDEFN 0x0800 // toc slot defined in file (or, data in toc) // // Hitachi SH3 relocation types. // #define IMAGE_REL_SH3_ABSOLUTE 0x0000 // No relocation #define IMAGE_REL_SH3_DIRECT16 0x0001 // 16 bit direct #define IMAGE_REL_SH3_DIRECT32 0x0002 // 32 bit direct #define IMAGE_REL_SH3_DIRECT8 0x0003 // 8 bit direct, -128..255 #define IMAGE_REL_SH3_DIRECT8_WORD 0x0004 // 8 bit direct .W (0 ext.) #define IMAGE_REL_SH3_DIRECT8_LONG 0x0005 // 8 bit direct .L (0 ext.) #define IMAGE_REL_SH3_DIRECT4 0x0006 // 4 bit direct (0 ext.) #define IMAGE_REL_SH3_DIRECT4_WORD 0x0007 // 4 bit direct .W (0 ext.) #define IMAGE_REL_SH3_DIRECT4_LONG 0x0008 // 4 bit direct .L (0 ext.) #define IMAGE_REL_SH3_PCREL8_WORD 0x0009 // 8 bit PC relative .W #define IMAGE_REL_SH3_PCREL8_LONG 0x000A // 8 bit PC relative .L #define IMAGE_REL_SH3_PCREL12_WORD 0x000B // 12 LSB PC relative .W #define IMAGE_REL_SH3_STARTOF_SECTION 0x000C // Start of EXE section #define IMAGE_REL_SH3_SIZEOF_SECTION 0x000D // Size of EXE section #define IMAGE_REL_SH3_SECTION 0x000E // Section table index #define IMAGE_REL_SH3_SECREL 0x000F // Offset within section #define IMAGE_REL_SH3_DIRECT32_NB 0x0010 // 32 bit direct not based #define IMAGE_REL_SH3_GPREL4_LONG 0x0011 // GP-relative addressing #define IMAGE_REL_SH3_TOKEN 0x0012 // clr token #define IMAGE_REL_ARM_ABSOLUTE 0x0000 // No relocation required #define IMAGE_REL_ARM_ADDR32 0x0001 // 32 bit address #define IMAGE_REL_ARM_ADDR32NB 0x0002 // 32 bit address w/o image base #define IMAGE_REL_ARM_BRANCH24 0x0003 // 24 bit offset << 2 & sign ext. #define IMAGE_REL_ARM_BRANCH11 0x0004 // Thumb: 2 11 bit offsets #define IMAGE_REL_ARM_TOKEN 0x0005 // clr token #define IMAGE_REL_ARM_GPREL12 0x0006 // GP-relative addressing (ARM) #define IMAGE_REL_ARM_GPREL7 0x0007 // GP-relative addressing (Thumb) #define IMAGE_REL_ARM_BLX24 0x0008 #define IMAGE_REL_ARM_BLX11 0x0009 #define IMAGE_REL_ARM_SECTION 0x000E // Section table index #define IMAGE_REL_ARM_SECREL 0x000F // Offset within section #define IMAGE_REL_AM_ABSOLUTE 0x0000 #define IMAGE_REL_AM_ADDR32 0x0001 #define IMAGE_REL_AM_ADDR32NB 0x0002 #define IMAGE_REL_AM_CALL32 0x0003 #define IMAGE_REL_AM_FUNCINFO 0x0004 #define IMAGE_REL_AM_REL32_1 0x0005 #define IMAGE_REL_AM_REL32_2 0x0006 #define IMAGE_REL_AM_SECREL 0x0007 #define IMAGE_REL_AM_SECTION 0x0008 #define IMAGE_REL_AM_TOKEN 0x0009 // // X86-64 relocations // #define IMAGE_REL_AMD64_ABSOLUTE 0x0000 // Reference is absolute, no relocation is necessary #define IMAGE_REL_AMD64_ADDR64 0x0001 // 64-bit address (VA). #define IMAGE_REL_AMD64_ADDR32 0x0002 // 32-bit address (VA). #define IMAGE_REL_AMD64_ADDR32NB 0x0003 // 32-bit address w/o image base (RVA). #define IMAGE_REL_AMD64_REL32 0x0004 // 32-bit relative address from byte following reloc #define IMAGE_REL_AMD64_REL32_1 0x0005 // 32-bit relative address from byte distance 1 from reloc #define IMAGE_REL_AMD64_REL32_2 0x0006 // 32-bit relative address from byte distance 2 from reloc #define IMAGE_REL_AMD64_REL32_3 0x0007 // 32-bit relative address from byte distance 3 from reloc #define IMAGE_REL_AMD64_REL32_4 0x0008 // 32-bit relative address from byte distance 4 from reloc #define IMAGE_REL_AMD64_REL32_5 0x0009 // 32-bit relative address from byte distance 5 from reloc #define IMAGE_REL_AMD64_SECTION 0x000A // Section index #define IMAGE_REL_AMD64_SECREL 0x000B // 32 bit offset from base of section containing target #define IMAGE_REL_AMD64_SECREL7 0x000C // 7 bit unsigned offset from base of section containing target #define IMAGE_REL_AMD64_TOKEN 0x000D // 32 bit metadata token // // IA64 relocation types. // #define IMAGE_REL_IA64_ABSOLUTE 0x0000 #define IMAGE_REL_IA64_IMM14 0x0001 #define IMAGE_REL_IA64_IMM22 0x0002 #define IMAGE_REL_IA64_IMM64 0x0003 #define IMAGE_REL_IA64_DIR32 0x0004 #define IMAGE_REL_IA64_DIR64 0x0005 #define IMAGE_REL_IA64_PCREL21B 0x0006 #define IMAGE_REL_IA64_PCREL21M 0x0007 #define IMAGE_REL_IA64_PCREL21F 0x0008 #define IMAGE_REL_IA64_GPREL22 0x0009 #define IMAGE_REL_IA64_LTOFF22 0x000A #define IMAGE_REL_IA64_SECTION 0x000B #define IMAGE_REL_IA64_SECREL22 0x000C #define IMAGE_REL_IA64_SECREL64I 0x000D #define IMAGE_REL_IA64_SECREL32 0x000E // #define IMAGE_REL_IA64_DIR32NB 0x0010 #define IMAGE_REL_IA64_SREL14 0x0011 #define IMAGE_REL_IA64_SREL22 0x0012 #define IMAGE_REL_IA64_SREL32 0x0013 #define IMAGE_REL_IA64_UREL32 0x0014 #define IMAGE_REL_IA64_PCREL60X 0x0015 // This is always a BRL and never converted #define IMAGE_REL_IA64_PCREL60B 0x0016 // If possible, convert to MBB bundle with NOP.B in slot 1 #define IMAGE_REL_IA64_PCREL60F 0x0017 // If possible, convert to MFB bundle with NOP.F in slot 1 #define IMAGE_REL_IA64_PCREL60I 0x0018 // If possible, convert to MIB bundle with NOP.I in slot 1 #define IMAGE_REL_IA64_PCREL60M 0x0019 // If possible, convert to MMB bundle with NOP.M in slot 1 #define IMAGE_REL_IA64_IMMGPREL64 0x001A #define IMAGE_REL_IA64_TOKEN 0x001B // clr token #define IMAGE_REL_IA64_GPREL32 0x001C #define IMAGE_REL_IA64_ADDEND 0x001F // // CEF relocation types. // #define IMAGE_REL_CEF_ABSOLUTE 0x0000 // Reference is absolute, no relocation is necessary #define IMAGE_REL_CEF_ADDR32 0x0001 // 32-bit address (VA). #define IMAGE_REL_CEF_ADDR64 0x0002 // 64-bit address (VA). #define IMAGE_REL_CEF_ADDR32NB 0x0003 // 32-bit address w/o image base (RVA). #define IMAGE_REL_CEF_SECTION 0x0004 // Section index #define IMAGE_REL_CEF_SECREL 0x0005 // 32 bit offset from base of section containing target #define IMAGE_REL_CEF_TOKEN 0x0006 // 32 bit metadata token // // clr relocation types. // #define IMAGE_REL_CEE_ABSOLUTE 0x0000 // Reference is absolute, no relocation is necessary #define IMAGE_REL_CEE_ADDR32 0x0001 // 32-bit address (VA). #define IMAGE_REL_CEE_ADDR64 0x0002 // 64-bit address (VA). #define IMAGE_REL_CEE_ADDR32NB 0x0003 // 32-bit address w/o image base (RVA). #define IMAGE_REL_CEE_SECTION 0x0004 // Section index #define IMAGE_REL_CEE_SECREL 0x0005 // 32 bit offset from base of section containing target #define IMAGE_REL_CEE_TOKEN 0x0006 // 32 bit metadata token #define IMAGE_REL_M32R_ABSOLUTE 0x0000 // No relocation required #define IMAGE_REL_M32R_ADDR32 0x0001 // 32 bit address #define IMAGE_REL_M32R_ADDR32NB 0x0002 // 32 bit address w/o image base #define IMAGE_REL_M32R_ADDR24 0x0003 // 24 bit address #define IMAGE_REL_M32R_GPREL16 0x0004 // GP relative addressing #define IMAGE_REL_M32R_PCREL24 0x0005 // 24 bit offset << 2 & sign ext. #define IMAGE_REL_M32R_PCREL16 0x0006 // 16 bit offset << 2 & sign ext. #define IMAGE_REL_M32R_PCREL8 0x0007 // 8 bit offset << 2 & sign ext. #define IMAGE_REL_M32R_REFHALF 0x0008 // 16 MSBs #define IMAGE_REL_M32R_REFHI 0x0009 // 16 MSBs; adj for LSB sign ext. #define IMAGE_REL_M32R_REFLO 0x000A // 16 LSBs #define IMAGE_REL_M32R_PAIR 0x000B // Link HI and LO #define IMAGE_REL_M32R_SECTION 0x000C // Section table index #define IMAGE_REL_M32R_SECREL32 0x000D // 32 bit section relative reference #define IMAGE_REL_M32R_TOKEN 0x000E // clr token #define EXT_IMM64(Value, Address, Size, InstPos, ValPos) /* Intel-IA64-Filler */ \ Value |= (((ULONGLONG)((*(Address) >> InstPos) & (((ULONGLONG)1 << Size) - 1))) << ValPos) // Intel-IA64-Filler #define INS_IMM64(Value, Address, Size, InstPos, ValPos) /* Intel-IA64-Filler */\ *(PDWORD)Address = (*(PDWORD)Address & ~(((1 << Size) - 1) << InstPos)) | /* Intel-IA64-Filler */\ ((DWORD)((((ULONGLONG)Value >> ValPos) & (((ULONGLONG)1 << Size) - 1))) << InstPos) // Intel-IA64-Filler #define EMARCH_ENC_I17_IMM7B_INST_WORD_X 3 // Intel-IA64-Filler #define EMARCH_ENC_I17_IMM7B_SIZE_X 7 // Intel-IA64-Filler #define EMARCH_ENC_I17_IMM7B_INST_WORD_POS_X 4 // Intel-IA64-Filler #define EMARCH_ENC_I17_IMM7B_VAL_POS_X 0 // Intel-IA64-Filler #define EMARCH_ENC_I17_IMM9D_INST_WORD_X 3 // Intel-IA64-Filler #define EMARCH_ENC_I17_IMM9D_SIZE_X 9 // Intel-IA64-Filler #define EMARCH_ENC_I17_IMM9D_INST_WORD_POS_X 18 // Intel-IA64-Filler #define EMARCH_ENC_I17_IMM9D_VAL_POS_X 7 // Intel-IA64-Filler #define EMARCH_ENC_I17_IMM5C_INST_WORD_X 3 // Intel-IA64-Filler #define EMARCH_ENC_I17_IMM5C_SIZE_X 5 // Intel-IA64-Filler #define EMARCH_ENC_I17_IMM5C_INST_WORD_POS_X 13 // Intel-IA64-Filler #define EMARCH_ENC_I17_IMM5C_VAL_POS_X 16 // Intel-IA64-Filler #define EMARCH_ENC_I17_IC_INST_WORD_X 3 // Intel-IA64-Filler #define EMARCH_ENC_I17_IC_SIZE_X 1 // Intel-IA64-Filler #define EMARCH_ENC_I17_IC_INST_WORD_POS_X 12 // Intel-IA64-Filler #define EMARCH_ENC_I17_IC_VAL_POS_X 21 // Intel-IA64-Filler #define EMARCH_ENC_I17_IMM41a_INST_WORD_X 1 // Intel-IA64-Filler #define EMARCH_ENC_I17_IMM41a_SIZE_X 10 // Intel-IA64-Filler #define EMARCH_ENC_I17_IMM41a_INST_WORD_POS_X 14 // Intel-IA64-Filler #define EMARCH_ENC_I17_IMM41a_VAL_POS_X 22 // Intel-IA64-Filler #define EMARCH_ENC_I17_IMM41b_INST_WORD_X 1 // Intel-IA64-Filler #define EMARCH_ENC_I17_IMM41b_SIZE_X 8 // Intel-IA64-Filler #define EMARCH_ENC_I17_IMM41b_INST_WORD_POS_X 24 // Intel-IA64-Filler #define EMARCH_ENC_I17_IMM41b_VAL_POS_X 32 // Intel-IA64-Filler #define EMARCH_ENC_I17_IMM41c_INST_WORD_X 2 // Intel-IA64-Filler #define EMARCH_ENC_I17_IMM41c_SIZE_X 23 // Intel-IA64-Filler #define EMARCH_ENC_I17_IMM41c_INST_WORD_POS_X 0 // Intel-IA64-Filler #define EMARCH_ENC_I17_IMM41c_VAL_POS_X 40 // Intel-IA64-Filler #define EMARCH_ENC_I17_SIGN_INST_WORD_X 3 // Intel-IA64-Filler #define EMARCH_ENC_I17_SIGN_SIZE_X 1 // Intel-IA64-Filler #define EMARCH_ENC_I17_SIGN_INST_WORD_POS_X 27 // Intel-IA64-Filler #define EMARCH_ENC_I17_SIGN_VAL_POS_X 63 // Intel-IA64-Filler // // Line number format. // typedef struct _IMAGE_LINENUMBER { union { DWORD SymbolTableIndex; // Symbol table index of function name if Linenumber is 0. DWORD VirtualAddress; // Virtual address of line number. } Type; WORD Linenumber; // Line number. } IMAGE_LINENUMBER; typedef IMAGE_LINENUMBER UNALIGNED *PIMAGE_LINENUMBER; #define IMAGE_SIZEOF_LINENUMBER 6 #ifndef _MAC #include "poppack.h" // Back to 4 byte packing #endif // // Based relocation format. // typedef struct _IMAGE_BASE_RELOCATION { DWORD VirtualAddress; DWORD SizeOfBlock; // WORD TypeOffset[1]; } IMAGE_BASE_RELOCATION; typedef IMAGE_BASE_RELOCATION UNALIGNED * PIMAGE_BASE_RELOCATION; #define IMAGE_SIZEOF_BASE_RELOCATION 8 // // Based relocation types. // #define IMAGE_REL_BASED_ABSOLUTE 0 #define IMAGE_REL_BASED_HIGH 1 #define IMAGE_REL_BASED_LOW 2 #define IMAGE_REL_BASED_HIGHLOW 3 #define IMAGE_REL_BASED_HIGHADJ 4 #define IMAGE_REL_BASED_MIPS_JMPADDR 5 #define IMAGE_REL_BASED_MIPS_JMPADDR16 9 #define IMAGE_REL_BASED_IA64_IMM64 9 #define IMAGE_REL_BASED_DIR64 10 // // Archive format. // #define IMAGE_ARCHIVE_START_SIZE 8 #define IMAGE_ARCHIVE_START "!\n" #define IMAGE_ARCHIVE_END "`\n" #define IMAGE_ARCHIVE_PAD "\n" #define IMAGE_ARCHIVE_LINKER_MEMBER "/ " #define IMAGE_ARCHIVE_LONGNAMES_MEMBER "// " typedef struct _IMAGE_ARCHIVE_MEMBER_HEADER { BYTE Name[16]; // File member name - `/' terminated. BYTE Date[12]; // File member date - decimal. BYTE UserID[6]; // File member user id - decimal. BYTE GroupID[6]; // File member group id - decimal. BYTE Mode[8]; // File member mode - octal. BYTE Size[10]; // File member size - decimal. BYTE EndHeader[2]; // String to end header. } IMAGE_ARCHIVE_MEMBER_HEADER, *PIMAGE_ARCHIVE_MEMBER_HEADER; #define IMAGE_SIZEOF_ARCHIVE_MEMBER_HDR 60 // // DLL support. // // // Export Format // typedef struct _IMAGE_EXPORT_DIRECTORY { DWORD Characteristics; DWORD TimeDateStamp; WORD MajorVersion; WORD MinorVersion; DWORD Name; DWORD Base; DWORD NumberOfFunctions; DWORD NumberOfNames; DWORD AddressOfFunctions; // RVA from base of image DWORD AddressOfNames; // RVA from base of image DWORD AddressOfNameOrdinals; // RVA from base of image } IMAGE_EXPORT_DIRECTORY, *PIMAGE_EXPORT_DIRECTORY; // // Import Format // typedef struct _IMAGE_IMPORT_BY_NAME { WORD Hint; BYTE Name[1]; } IMAGE_IMPORT_BY_NAME, *PIMAGE_IMPORT_BY_NAME; #include "pshpack8.h" // Use align 8 for the 64-bit IAT. typedef struct _IMAGE_THUNK_DATA64 { union { ULONGLONG ForwarderString; // PBYTE ULONGLONG Function; // PDWORD ULONGLONG Ordinal; ULONGLONG AddressOfData; // PIMAGE_IMPORT_BY_NAME } u1; } IMAGE_THUNK_DATA64; typedef IMAGE_THUNK_DATA64 * PIMAGE_THUNK_DATA64; #include "poppack.h" // Back to 4 byte packing typedef struct _IMAGE_THUNK_DATA32 { union { DWORD ForwarderString; // PBYTE DWORD Function; // PDWORD DWORD Ordinal; DWORD AddressOfData; // PIMAGE_IMPORT_BY_NAME } u1; } IMAGE_THUNK_DATA32; typedef IMAGE_THUNK_DATA32 * PIMAGE_THUNK_DATA32; #define IMAGE_ORDINAL_FLAG64 0x8000000000000000 #define IMAGE_ORDINAL_FLAG32 0x80000000 #define IMAGE_ORDINAL64(Ordinal) (Ordinal & 0xffff) #define IMAGE_ORDINAL32(Ordinal) (Ordinal & 0xffff) #define IMAGE_SNAP_BY_ORDINAL64(Ordinal) ((Ordinal & IMAGE_ORDINAL_FLAG64) != 0) #define IMAGE_SNAP_BY_ORDINAL32(Ordinal) ((Ordinal & IMAGE_ORDINAL_FLAG32) != 0) // // Thread Local Storage // typedef VOID (NTAPI *PIMAGE_TLS_CALLBACK) ( PVOID DllHandle, DWORD Reason, PVOID Reserved ); typedef struct _IMAGE_TLS_DIRECTORY64 { ULONGLONG StartAddressOfRawData; ULONGLONG EndAddressOfRawData; ULONGLONG AddressOfIndex; // PDWORD ULONGLONG AddressOfCallBacks; // PIMAGE_TLS_CALLBACK *; DWORD SizeOfZeroFill; DWORD Characteristics; } IMAGE_TLS_DIRECTORY64; typedef IMAGE_TLS_DIRECTORY64 * PIMAGE_TLS_DIRECTORY64; typedef struct _IMAGE_TLS_DIRECTORY32 { DWORD StartAddressOfRawData; DWORD EndAddressOfRawData; DWORD AddressOfIndex; // PDWORD DWORD AddressOfCallBacks; // PIMAGE_TLS_CALLBACK * DWORD SizeOfZeroFill; DWORD Characteristics; } IMAGE_TLS_DIRECTORY32; typedef IMAGE_TLS_DIRECTORY32 * PIMAGE_TLS_DIRECTORY32; #ifdef _WIN64 #define IMAGE_ORDINAL_FLAG IMAGE_ORDINAL_FLAG64 #define IMAGE_ORDINAL(Ordinal) IMAGE_ORDINAL64(Ordinal) typedef IMAGE_THUNK_DATA64 IMAGE_THUNK_DATA; typedef PIMAGE_THUNK_DATA64 PIMAGE_THUNK_DATA; #define IMAGE_SNAP_BY_ORDINAL(Ordinal) IMAGE_SNAP_BY_ORDINAL64(Ordinal) typedef IMAGE_TLS_DIRECTORY64 IMAGE_TLS_DIRECTORY; typedef PIMAGE_TLS_DIRECTORY64 PIMAGE_TLS_DIRECTORY; #else #define IMAGE_ORDINAL_FLAG IMAGE_ORDINAL_FLAG32 #define IMAGE_ORDINAL(Ordinal) IMAGE_ORDINAL32(Ordinal) typedef IMAGE_THUNK_DATA32 IMAGE_THUNK_DATA; typedef PIMAGE_THUNK_DATA32 PIMAGE_THUNK_DATA; #define IMAGE_SNAP_BY_ORDINAL(Ordinal) IMAGE_SNAP_BY_ORDINAL32(Ordinal) typedef IMAGE_TLS_DIRECTORY32 IMAGE_TLS_DIRECTORY; typedef PIMAGE_TLS_DIRECTORY32 PIMAGE_TLS_DIRECTORY; #endif typedef struct _IMAGE_IMPORT_DESCRIPTOR { union { DWORD Characteristics; // 0 for terminating null import descriptor DWORD OriginalFirstThunk; // RVA to original unbound IAT (PIMAGE_THUNK_DATA) }; DWORD TimeDateStamp; // 0 if not bound, // -1 if bound, and real date\time stamp // in IMAGE_DIRECTORY_ENTRY_BOUND_IMPORT (new BIND) // O.W. date/time stamp of DLL bound to (Old BIND) DWORD ForwarderChain; // -1 if no forwarders DWORD Name; DWORD FirstThunk; // RVA to IAT (if bound this IAT has actual addresses) } IMAGE_IMPORT_DESCRIPTOR; typedef IMAGE_IMPORT_DESCRIPTOR UNALIGNED *PIMAGE_IMPORT_DESCRIPTOR; // // New format import descriptors pointed to by DataDirectory[ IMAGE_DIRECTORY_ENTRY_BOUND_IMPORT ] // typedef struct _IMAGE_BOUND_IMPORT_DESCRIPTOR { DWORD TimeDateStamp; WORD OffsetModuleName; WORD NumberOfModuleForwarderRefs; // Array of zero or more IMAGE_BOUND_FORWARDER_REF follows } IMAGE_BOUND_IMPORT_DESCRIPTOR, *PIMAGE_BOUND_IMPORT_DESCRIPTOR; typedef struct _IMAGE_BOUND_FORWARDER_REF { DWORD TimeDateStamp; WORD OffsetModuleName; WORD Reserved; } IMAGE_BOUND_FORWARDER_REF, *PIMAGE_BOUND_FORWARDER_REF; // // Resource Format. // // // Resource directory consists of two counts, following by a variable length // array of directory entries. The first count is the number of entries at // beginning of the array that have actual names associated with each entry. // The entries are in ascending order, case insensitive strings. The second // count is the number of entries that immediately follow the named entries. // This second count identifies the number of entries that have 16-bit integer // Ids as their name. These entries are also sorted in ascending order. // // This structure allows fast lookup by either name or number, but for any // given resource entry only one form of lookup is supported, not both. // This is consistant with the syntax of the .RC file and the .RES file. // typedef struct _IMAGE_RESOURCE_DIRECTORY { DWORD Characteristics; DWORD TimeDateStamp; WORD MajorVersion; WORD MinorVersion; WORD NumberOfNamedEntries; WORD NumberOfIdEntries; // IMAGE_RESOURCE_DIRECTORY_ENTRY DirectoryEntries[]; } IMAGE_RESOURCE_DIRECTORY, *PIMAGE_RESOURCE_DIRECTORY; #define IMAGE_RESOURCE_NAME_IS_STRING 0x80000000 #define IMAGE_RESOURCE_DATA_IS_DIRECTORY 0x80000000 // // Each directory contains the 32-bit Name of the entry and an offset, // relative to the beginning of the resource directory of the data associated // with this directory entry. If the name of the entry is an actual text // string instead of an integer Id, then the high order bit of the name field // is set to one and the low order 31-bits are an offset, relative to the // beginning of the resource directory of the string, which is of type // IMAGE_RESOURCE_DIRECTORY_STRING. Otherwise the high bit is clear and the // low-order 16-bits are the integer Id that identify this resource directory // entry. If the directory entry is yet another resource directory (i.e. a // subdirectory), then the high order bit of the offset field will be // set to indicate this. Otherwise the high bit is clear and the offset // field points to a resource data entry. // typedef struct _IMAGE_RESOURCE_DIRECTORY_ENTRY { union { struct { DWORD NameOffset:31; DWORD NameIsString:1; }; DWORD Name; WORD Id; }; union { DWORD OffsetToData; struct { DWORD OffsetToDirectory:31; DWORD DataIsDirectory:1; }; }; } IMAGE_RESOURCE_DIRECTORY_ENTRY, *PIMAGE_RESOURCE_DIRECTORY_ENTRY; // // For resource directory entries that have actual string names, the Name // field of the directory entry points to an object of the following type. // All of these string objects are stored together after the last resource // directory entry and before the first resource data object. This minimizes // the impact of these variable length objects on the alignment of the fixed // size directory entry objects. // typedef struct _IMAGE_RESOURCE_DIRECTORY_STRING { WORD Length; CHAR NameString[ 1 ]; } IMAGE_RESOURCE_DIRECTORY_STRING, *PIMAGE_RESOURCE_DIRECTORY_STRING; typedef struct _IMAGE_RESOURCE_DIR_STRING_U { WORD Length; WCHAR NameString[ 1 ]; } IMAGE_RESOURCE_DIR_STRING_U, *PIMAGE_RESOURCE_DIR_STRING_U; // // Each resource data entry describes a leaf node in the resource directory // tree. It contains an offset, relative to the beginning of the resource // directory of the data for the resource, a size field that gives the number // of bytes of data at that offset, a CodePage that should be used when // decoding code point values within the resource data. Typically for new // applications the code page would be the unicode code page. // typedef struct _IMAGE_RESOURCE_DATA_ENTRY { DWORD OffsetToData; DWORD Size; DWORD CodePage; DWORD Reserved; } IMAGE_RESOURCE_DATA_ENTRY, *PIMAGE_RESOURCE_DATA_ENTRY; // // Load Configuration Directory Entry // typedef struct { DWORD Size; DWORD TimeDateStamp; WORD MajorVersion; WORD MinorVersion; DWORD GlobalFlagsClear; DWORD GlobalFlagsSet; DWORD CriticalSectionDefaultTimeout; DWORD DeCommitFreeBlockThreshold; DWORD DeCommitTotalFreeThreshold; DWORD LockPrefixTable; // VA DWORD MaximumAllocationSize; DWORD VirtualMemoryThreshold; DWORD ProcessHeapFlags; DWORD ProcessAffinityMask; WORD CSDVersion; WORD Reserved1; DWORD EditList; // VA DWORD SecurityCookie; // VA DWORD SEHandlerTable; // VA DWORD SEHandlerCount; } IMAGE_LOAD_CONFIG_DIRECTORY32, *PIMAGE_LOAD_CONFIG_DIRECTORY32; typedef struct { DWORD Size; DWORD TimeDateStamp; WORD MajorVersion; WORD MinorVersion; DWORD GlobalFlagsClear; DWORD GlobalFlagsSet; DWORD CriticalSectionDefaultTimeout; ULONGLONG DeCommitFreeBlockThreshold; ULONGLONG DeCommitTotalFreeThreshold; ULONGLONG LockPrefixTable; // VA ULONGLONG MaximumAllocationSize; ULONGLONG VirtualMemoryThreshold; ULONGLONG ProcessAffinityMask; DWORD ProcessHeapFlags; WORD CSDVersion; WORD Reserved1; ULONGLONG EditList; // VA ULONGLONG SecurityCookie; // VA ULONGLONG SEHandlerTable; // VA ULONGLONG SEHandlerCount; } IMAGE_LOAD_CONFIG_DIRECTORY64, *PIMAGE_LOAD_CONFIG_DIRECTORY64; #ifdef _WIN64 typedef IMAGE_LOAD_CONFIG_DIRECTORY64 IMAGE_LOAD_CONFIG_DIRECTORY; typedef PIMAGE_LOAD_CONFIG_DIRECTORY64 PIMAGE_LOAD_CONFIG_DIRECTORY; #else typedef IMAGE_LOAD_CONFIG_DIRECTORY32 IMAGE_LOAD_CONFIG_DIRECTORY; typedef PIMAGE_LOAD_CONFIG_DIRECTORY32 PIMAGE_LOAD_CONFIG_DIRECTORY; #endif // // WIN CE Exception table format // // // Function table entry format. Function table is pointed to by the // IMAGE_DIRECTORY_ENTRY_EXCEPTION directory entry. // typedef struct _IMAGE_CE_RUNTIME_FUNCTION_ENTRY { DWORD FuncStart; DWORD PrologLen : 8; DWORD FuncLen : 22; DWORD ThirtyTwoBit : 1; DWORD ExceptionFlag : 1; } IMAGE_CE_RUNTIME_FUNCTION_ENTRY, * PIMAGE_CE_RUNTIME_FUNCTION_ENTRY; typedef struct _IMAGE_ALPHA64_RUNTIME_FUNCTION_ENTRY { ULONGLONG BeginAddress; ULONGLONG EndAddress; ULONGLONG ExceptionHandler; ULONGLONG HandlerData; ULONGLONG PrologEndAddress; } IMAGE_ALPHA64_RUNTIME_FUNCTION_ENTRY, *PIMAGE_ALPHA64_RUNTIME_FUNCTION_ENTRY; typedef struct _IMAGE_ALPHA_RUNTIME_FUNCTION_ENTRY { DWORD BeginAddress; DWORD EndAddress; DWORD ExceptionHandler; DWORD HandlerData; DWORD PrologEndAddress; } IMAGE_ALPHA_RUNTIME_FUNCTION_ENTRY, *PIMAGE_ALPHA_RUNTIME_FUNCTION_ENTRY; typedef struct _IMAGE_RUNTIME_FUNCTION_ENTRY { DWORD BeginAddress; DWORD EndAddress; DWORD UnwindInfoAddress; } _IMAGE_RUNTIME_FUNCTION_ENTRY, *_PIMAGE_RUNTIME_FUNCTION_ENTRY; typedef _IMAGE_RUNTIME_FUNCTION_ENTRY IMAGE_IA64_RUNTIME_FUNCTION_ENTRY; typedef _PIMAGE_RUNTIME_FUNCTION_ENTRY PIMAGE_IA64_RUNTIME_FUNCTION_ENTRY; #if defined(_AXP64_) typedef IMAGE_ALPHA64_RUNTIME_FUNCTION_ENTRY IMAGE_AXP64_RUNTIME_FUNCTION_ENTRY; typedef PIMAGE_ALPHA64_RUNTIME_FUNCTION_ENTRY PIMAGE_AXP64_RUNTIME_FUNCTION_ENTRY; typedef IMAGE_ALPHA64_RUNTIME_FUNCTION_ENTRY IMAGE_RUNTIME_FUNCTION_ENTRY; typedef PIMAGE_ALPHA64_RUNTIME_FUNCTION_ENTRY PIMAGE_RUNTIME_FUNCTION_ENTRY; #elif defined(_ALPHA_) typedef IMAGE_ALPHA_RUNTIME_FUNCTION_ENTRY IMAGE_RUNTIME_FUNCTION_ENTRY; typedef PIMAGE_ALPHA_RUNTIME_FUNCTION_ENTRY PIMAGE_RUNTIME_FUNCTION_ENTRY; #else typedef _IMAGE_RUNTIME_FUNCTION_ENTRY IMAGE_RUNTIME_FUNCTION_ENTRY; typedef _PIMAGE_RUNTIME_FUNCTION_ENTRY PIMAGE_RUNTIME_FUNCTION_ENTRY; #endif // // Debug Format // typedef struct _IMAGE_DEBUG_DIRECTORY { DWORD Characteristics; DWORD TimeDateStamp; WORD MajorVersion; WORD MinorVersion; DWORD Type; DWORD SizeOfData; DWORD AddressOfRawData; DWORD PointerToRawData; } IMAGE_DEBUG_DIRECTORY, *PIMAGE_DEBUG_DIRECTORY; #define IMAGE_DEBUG_TYPE_UNKNOWN 0 #define IMAGE_DEBUG_TYPE_COFF 1 #define IMAGE_DEBUG_TYPE_CODEVIEW 2 #define IMAGE_DEBUG_TYPE_FPO 3 #define IMAGE_DEBUG_TYPE_MISC 4 #define IMAGE_DEBUG_TYPE_EXCEPTION 5 #define IMAGE_DEBUG_TYPE_FIXUP 6 #define IMAGE_DEBUG_TYPE_OMAP_TO_SRC 7 #define IMAGE_DEBUG_TYPE_OMAP_FROM_SRC 8 #define IMAGE_DEBUG_TYPE_BORLAND 9 #define IMAGE_DEBUG_TYPE_RESERVED10 10 #define IMAGE_DEBUG_TYPE_CLSID 11 typedef struct _IMAGE_COFF_SYMBOLS_HEADER { DWORD NumberOfSymbols; DWORD LvaToFirstSymbol; DWORD NumberOfLinenumbers; DWORD LvaToFirstLinenumber; DWORD RvaToFirstByteOfCode; DWORD RvaToLastByteOfCode; DWORD RvaToFirstByteOfData; DWORD RvaToLastByteOfData; } IMAGE_COFF_SYMBOLS_HEADER, *PIMAGE_COFF_SYMBOLS_HEADER; #define FRAME_FPO 0 #define FRAME_TRAP 1 #define FRAME_TSS 2 #define FRAME_NONFPO 3 typedef struct _FPO_DATA { DWORD ulOffStart; // offset 1st byte of function code DWORD cbProcSize; // # bytes in function DWORD cdwLocals; // # bytes in locals/4 WORD cdwParams; // # bytes in params/4 WORD cbProlog : 8; // # bytes in prolog WORD cbRegs : 3; // # regs saved WORD fHasSEH : 1; // TRUE if SEH in func WORD fUseBP : 1; // TRUE if EBP has been allocated WORD reserved : 1; // reserved for future use WORD cbFrame : 2; // frame type } FPO_DATA, *PFPO_DATA; #define SIZEOF_RFPO_DATA 16 #define IMAGE_DEBUG_MISC_EXENAME 1 typedef struct _IMAGE_DEBUG_MISC { DWORD DataType; // type of misc data, see defines DWORD Length; // total length of record, rounded to four // byte multiple. BOOLEAN Unicode; // TRUE if data is unicode string BYTE Reserved[ 3 ]; BYTE Data[ 1 ]; // Actual data } IMAGE_DEBUG_MISC, *PIMAGE_DEBUG_MISC; // // Function table extracted from MIPS/ALPHA/IA64 images. Does not contain // information needed only for runtime support. Just those fields for // each entry needed by a debugger. // typedef struct _IMAGE_FUNCTION_ENTRY { DWORD StartingAddress; DWORD EndingAddress; DWORD EndOfPrologue; } IMAGE_FUNCTION_ENTRY, *PIMAGE_FUNCTION_ENTRY; typedef struct _IMAGE_FUNCTION_ENTRY64 { ULONGLONG StartingAddress; ULONGLONG EndingAddress; union { ULONGLONG EndOfPrologue; ULONGLONG UnwindInfoAddress; }; } IMAGE_FUNCTION_ENTRY64, *PIMAGE_FUNCTION_ENTRY64; // // Debugging information can be stripped from an image file and placed // in a separate .DBG file, whose file name part is the same as the // image file name part (e.g. symbols for CMD.EXE could be stripped // and placed in CMD.DBG). This is indicated by the IMAGE_FILE_DEBUG_STRIPPED // flag in the Characteristics field of the file header. The beginning of // the .DBG file contains the following structure which captures certain // information from the image file. This allows a debug to proceed even if // the original image file is not accessable. This header is followed by // zero of more IMAGE_SECTION_HEADER structures, followed by zero or more // IMAGE_DEBUG_DIRECTORY structures. The latter structures and those in // the image file contain file offsets relative to the beginning of the // .DBG file. // // If symbols have been stripped from an image, the IMAGE_DEBUG_MISC structure // is left in the image file, but not mapped. This allows a debugger to // compute the name of the .DBG file, from the name of the image in the // IMAGE_DEBUG_MISC structure. // typedef struct _IMAGE_SEPARATE_DEBUG_HEADER { WORD Signature; WORD Flags; WORD Machine; WORD Characteristics; DWORD TimeDateStamp; DWORD CheckSum; DWORD ImageBase; DWORD SizeOfImage; DWORD NumberOfSections; DWORD ExportedNamesSize; DWORD DebugDirectorySize; DWORD SectionAlignment; DWORD Reserved[2]; } IMAGE_SEPARATE_DEBUG_HEADER, *PIMAGE_SEPARATE_DEBUG_HEADER; typedef struct _NON_PAGED_DEBUG_INFO { WORD Signature; WORD Flags; DWORD Size; WORD Machine; WORD Characteristics; DWORD TimeDateStamp; DWORD CheckSum; DWORD SizeOfImage; ULONGLONG ImageBase; //DebugDirectorySize //IMAGE_DEBUG_DIRECTORY } NON_PAGED_DEBUG_INFO, *PNON_PAGED_DEBUG_INFO; #ifndef _MAC #define IMAGE_SEPARATE_DEBUG_SIGNATURE 0x4944 #define NON_PAGED_DEBUG_SIGNATURE 0x494E #else #define IMAGE_SEPARATE_DEBUG_SIGNATURE 0x4449 // DI #define NON_PAGED_DEBUG_SIGNATURE 0x4E49 // NI #endif #define IMAGE_SEPARATE_DEBUG_FLAGS_MASK 0x8000 #define IMAGE_SEPARATE_DEBUG_MISMATCH 0x8000 // when DBG was updated, the // old checksum didn't match. // // The .arch section is made up of headers, each describing an amask position/value // pointing to an array of IMAGE_ARCHITECTURE_ENTRY's. Each "array" (both the header // and entry arrays) are terminiated by a quadword of 0xffffffffL. // // NOTE: There may be quadwords of 0 sprinkled around and must be skipped. // typedef struct _ImageArchitectureHeader { unsigned int AmaskValue: 1; // 1 -> code section depends on mask bit // 0 -> new instruction depends on mask bit int :7; // MBZ unsigned int AmaskShift: 8; // Amask bit in question for this fixup int :16; // MBZ DWORD FirstEntryRVA; // RVA into .arch section to array of ARCHITECTURE_ENTRY's } IMAGE_ARCHITECTURE_HEADER, *PIMAGE_ARCHITECTURE_HEADER; typedef struct _ImageArchitectureEntry { DWORD FixupInstRVA; // RVA of instruction to fixup DWORD NewInst; // fixup instruction (see alphaops.h) } IMAGE_ARCHITECTURE_ENTRY, *PIMAGE_ARCHITECTURE_ENTRY; #include "poppack.h" // Back to the initial value // The following structure defines the new import object. Note the values of the first two fields, // which must be set as stated in order to differentiate old and new import members. // Following this structure, the linker emits two null-terminated strings used to recreate the // import at the time of use. The first string is the import's name, the second is the dll's name. #define IMPORT_OBJECT_HDR_SIG2 0xffff typedef struct IMPORT_OBJECT_HEADER { WORD Sig1; // Must be IMAGE_FILE_MACHINE_UNKNOWN WORD Sig2; // Must be IMPORT_OBJECT_HDR_SIG2. WORD Version; WORD Machine; DWORD TimeDateStamp; // Time/date stamp DWORD SizeOfData; // particularly useful for incremental links union { WORD Ordinal; // if grf & IMPORT_OBJECT_ORDINAL WORD Hint; }; WORD Type : 2; // IMPORT_TYPE WORD NameType : 3; // IMPORT_NAME_TYPE WORD Reserved : 11; // Reserved. Must be zero. } IMPORT_OBJECT_HEADER; typedef enum IMPORT_OBJECT_TYPE { IMPORT_OBJECT_CODE = 0, IMPORT_OBJECT_DATA = 1, IMPORT_OBJECT_CONST = 2, } IMPORT_OBJECT_TYPE; typedef enum IMPORT_OBJECT_NAME_TYPE { IMPORT_OBJECT_ORDINAL = 0, // Import by ordinal IMPORT_OBJECT_NAME = 1, // Import name == public symbol name. IMPORT_OBJECT_NAME_NO_PREFIX = 2, // Import name == public symbol name skipping leading ?, @, or optionally _. IMPORT_OBJECT_NAME_UNDECORATE = 3, // Import name == public symbol name skipping leading ?, @, or optionally _ // and truncating at first @ } IMPORT_OBJECT_NAME_TYPE; #ifndef __IMAGE_COR20_HEADER_DEFINED__ #define __IMAGE_COR20_HEADER_DEFINED__ typedef enum ReplacesCorHdrNumericDefines { // COM+ Header entry point flags. COMIMAGE_FLAGS_ILONLY =0x00000001, COMIMAGE_FLAGS_32BITREQUIRED =0x00000002, COMIMAGE_FLAGS_IL_LIBRARY =0x00000004, COMIMAGE_FLAGS_STRONGNAMESIGNED =0x00000008, COMIMAGE_FLAGS_TRACKDEBUGDATA =0x00010000, // Version flags for image. COR_VERSION_MAJOR_V2 =2, COR_VERSION_MAJOR =COR_VERSION_MAJOR_V2, COR_VERSION_MINOR =0, COR_DELETED_NAME_LENGTH =8, COR_VTABLEGAP_NAME_LENGTH =8, // Maximum size of a NativeType descriptor. NATIVE_TYPE_MAX_CB =1, COR_ILMETHOD_SECT_SMALL_MAX_DATASIZE=0xFF, // #defines for the MIH FLAGS IMAGE_COR_MIH_METHODRVA =0x01, IMAGE_COR_MIH_EHRVA =0x02, IMAGE_COR_MIH_BASICBLOCK =0x08, // V-table constants COR_VTABLE_32BIT =0x01, // V-table slots are 32-bits in size. COR_VTABLE_64BIT =0x02, // V-table slots are 64-bits in size. COR_VTABLE_FROM_UNMANAGED =0x04, // If set, transition from unmanaged. COR_VTABLE_CALL_MOST_DERIVED =0x10, // Call most derived method described by // EATJ constants IMAGE_COR_EATJ_THUNK_SIZE =32, // Size of a jump thunk reserved range. // Max name lengths //@todo: Change to unlimited name lengths. MAX_CLASS_NAME =1024, MAX_PACKAGE_NAME =1024, } ReplacesCorHdrNumericDefines; // COM+ 2.0 header structure. typedef struct IMAGE_COR20_HEADER { // Header versioning DWORD cb; WORD MajorRuntimeVersion; WORD MinorRuntimeVersion; // Symbol table and startup information IMAGE_DATA_DIRECTORY MetaData; DWORD Flags; DWORD EntryPointToken; // Binding information IMAGE_DATA_DIRECTORY Resources; IMAGE_DATA_DIRECTORY StrongNameSignature; // Regular fixup and binding information IMAGE_DATA_DIRECTORY CodeManagerTable; IMAGE_DATA_DIRECTORY VTableFixups; IMAGE_DATA_DIRECTORY ExportAddressTableJumps; // Precompiled image info (internal use only - set to zero) IMAGE_DATA_DIRECTORY ManagedNativeHeader; } IMAGE_COR20_HEADER, *PIMAGE_COR20_HEADER; #endif // __IMAGE_COR20_HEADER_DEFINED__ // // End Image Format // // // for move macros // #ifdef _MAC #ifndef _INC_STRING #include #endif /* _INC_STRING */ #else #include #endif // _MAC #ifndef _SLIST_HEADER_ #define _SLIST_HEADER_ #if defined(_WIN64) // // The type SINGLE_LIST_ENTRY is not suitable for use with SLISTs. For // WIN64, an entry on an SLIST is required to be 16-byte aligned, while a // SINGLE_LIST_ENTRY structure has only 8 byte alignment. // // Therefore, all SLIST code should use the SLIST_ENTRY type instead of the // SINGLE_LIST_ENTRY type. // #pragma warning(push) #pragma warning(disable:4324) // structure padded due to align() typedef struct DECLSPEC_ALIGN(16) _SLIST_ENTRY *PSLIST_ENTRY; typedef struct DECLSPEC_ALIGN(16) _SLIST_ENTRY { PSLIST_ENTRY Next; } SLIST_ENTRY; #pragma warning(pop) #else #define SLIST_ENTRY SINGLE_LIST_ENTRY #define _SLIST_ENTRY _SINGLE_LIST_ENTRY #define PSLIST_ENTRY PSINGLE_LIST_ENTRY #endif #if defined(_WIN64) typedef struct DECLSPEC_ALIGN(16) _SLIST_HEADER { ULONGLONG Alignment; ULONGLONG Region; } SLIST_HEADER; typedef struct _SLIST_HEADER *PSLIST_HEADER; #else typedef union _SLIST_HEADER { ULONGLONG Alignment; struct { SLIST_ENTRY Next; WORD Depth; WORD Sequence; }; } SLIST_HEADER, *PSLIST_HEADER; #endif #endif NTSYSAPI VOID NTAPI RtlInitializeSListHead ( IN PSLIST_HEADER ListHead ); NTSYSAPI PSLIST_ENTRY RtlFirstEntrySList ( IN const SLIST_HEADER *ListHead ); NTSYSAPI PSLIST_ENTRY NTAPI RtlInterlockedPopEntrySList ( IN PSLIST_HEADER ListHead ); NTSYSAPI PSLIST_ENTRY NTAPI RtlInterlockedPushEntrySList ( IN PSLIST_HEADER ListHead, IN PSLIST_ENTRY ListEntry ); NTSYSAPI PSLIST_ENTRY NTAPI RtlInterlockedFlushSList ( IN PSLIST_HEADER ListHead ); NTSYSAPI WORD NTAPI RtlQueryDepthSList ( IN PSLIST_HEADER ListHead ); #define HEAP_NO_SERIALIZE 0x00000001 #define HEAP_GROWABLE 0x00000002 #define HEAP_GENERATE_EXCEPTIONS 0x00000004 #define HEAP_ZERO_MEMORY 0x00000008 #define HEAP_REALLOC_IN_PLACE_ONLY 0x00000010 #define HEAP_TAIL_CHECKING_ENABLED 0x00000020 #define HEAP_FREE_CHECKING_ENABLED 0x00000040 #define HEAP_DISABLE_COALESCE_ON_FREE 0x00000080 #define HEAP_CREATE_ALIGN_16 0x00010000 #define HEAP_CREATE_ENABLE_TRACING 0x00020000 #define HEAP_MAXIMUM_TAG 0x0FFF #define HEAP_PSEUDO_TAG_FLAG 0x8000 #define HEAP_TAG_SHIFT 18 #define HEAP_MAKE_TAG_FLAGS( b, o ) ((DWORD)((b) + ((o) << 18))) #define IS_TEXT_UNICODE_ASCII16 0x0001 #define IS_TEXT_UNICODE_REVERSE_ASCII16 0x0010 #define IS_TEXT_UNICODE_STATISTICS 0x0002 #define IS_TEXT_UNICODE_REVERSE_STATISTICS 0x0020 #define IS_TEXT_UNICODE_CONTROLS 0x0004 #define IS_TEXT_UNICODE_REVERSE_CONTROLS 0x0040 #define IS_TEXT_UNICODE_SIGNATURE 0x0008 #define IS_TEXT_UNICODE_REVERSE_SIGNATURE 0x0080 #define IS_TEXT_UNICODE_ILLEGAL_CHARS 0x0100 #define IS_TEXT_UNICODE_ODD_LENGTH 0x0200 #define IS_TEXT_UNICODE_DBCS_LEADBYTE 0x0400 #define IS_TEXT_UNICODE_NULL_BYTES 0x1000 #define IS_TEXT_UNICODE_UNICODE_MASK 0x000F #define IS_TEXT_UNICODE_REVERSE_MASK 0x00F0 #define IS_TEXT_UNICODE_NOT_UNICODE_MASK 0x0F00 #define IS_TEXT_UNICODE_NOT_ASCII_MASK 0xF000 #define COMPRESSION_FORMAT_NONE (0x0000) #define COMPRESSION_FORMAT_DEFAULT (0x0001) #define COMPRESSION_FORMAT_LZNT1 (0x0002) #define COMPRESSION_ENGINE_STANDARD (0x0000) #define COMPRESSION_ENGINE_MAXIMUM (0x0100) #define COMPRESSION_ENGINE_HIBER (0x0200) NTSYSAPI SIZE_T NTAPI RtlCompareMemory ( const VOID *Source1, const VOID *Source2, SIZE_T Length ); #define RtlEqualMemory(Destination,Source,Length) (!memcmp((Destination),(Source),(Length))) #if defined(_M_AMD64) NTSYSAPI VOID NTAPI RtlCopyMemory ( VOID UNALIGNED *Destination, CONST VOID UNALIGNED *Source, SIZE_T Length ); NTSYSAPI VOID NTAPI RtlMoveMemory ( VOID UNALIGNED *Destination, CONST VOID UNALIGNED *Source, SIZE_T Length ); NTSYSAPI VOID NTAPI RtlFillMemory ( VOID UNALIGNED *Destination, SIZE_T Length, IN BYTE Fill ); NTSYSAPI VOID NTAPI RtlZeroMemory ( VOID UNALIGNED *Destination, SIZE_T Length ); #else #define RtlMoveMemory(Destination,Source,Length) memmove((Destination),(Source),(Length)) #define RtlCopyMemory(Destination,Source,Length) memcpy((Destination),(Source),(Length)) #define RtlFillMemory(Destination,Length,Fill) memset((Destination),(Fill),(Length)) #define RtlZeroMemory(Destination,Length) memset((Destination),0,(Length)) #endif #if !defined(MIDL_PASS) FORCEINLINE PVOID RtlSecureZeroMemory( IN PVOID ptr, IN SIZE_T cnt ) { volatile char *vptr = (volatile char *)ptr; while (cnt) { *vptr = 0; vptr++; cnt--; } return ptr; } #endif typedef struct _MESSAGE_RESOURCE_ENTRY { WORD Length; WORD Flags; BYTE Text[ 1 ]; } MESSAGE_RESOURCE_ENTRY, *PMESSAGE_RESOURCE_ENTRY; #define MESSAGE_RESOURCE_UNICODE 0x0001 typedef struct _MESSAGE_RESOURCE_BLOCK { DWORD LowId; DWORD HighId; DWORD OffsetToEntries; } MESSAGE_RESOURCE_BLOCK, *PMESSAGE_RESOURCE_BLOCK; typedef struct _MESSAGE_RESOURCE_DATA { DWORD NumberOfBlocks; MESSAGE_RESOURCE_BLOCK Blocks[ 1 ]; } MESSAGE_RESOURCE_DATA, *PMESSAGE_RESOURCE_DATA; typedef struct _OSVERSIONINFOA { DWORD dwOSVersionInfoSize; DWORD dwMajorVersion; DWORD dwMinorVersion; DWORD dwBuildNumber; DWORD dwPlatformId; CHAR szCSDVersion[ 128 ]; // Maintenance string for PSS usage } OSVERSIONINFOA, *POSVERSIONINFOA, *LPOSVERSIONINFOA; typedef struct _OSVERSIONINFOW { DWORD dwOSVersionInfoSize; DWORD dwMajorVersion; DWORD dwMinorVersion; DWORD dwBuildNumber; DWORD dwPlatformId; WCHAR szCSDVersion[ 128 ]; // Maintenance string for PSS usage } OSVERSIONINFOW, *POSVERSIONINFOW, *LPOSVERSIONINFOW, RTL_OSVERSIONINFOW, *PRTL_OSVERSIONINFOW; #ifdef UNICODE typedef OSVERSIONINFOW OSVERSIONINFO; typedef POSVERSIONINFOW POSVERSIONINFO; typedef LPOSVERSIONINFOW LPOSVERSIONINFO; #else typedef OSVERSIONINFOA OSVERSIONINFO; typedef POSVERSIONINFOA POSVERSIONINFO; typedef LPOSVERSIONINFOA LPOSVERSIONINFO; #endif // UNICODE typedef struct _OSVERSIONINFOEXA { DWORD dwOSVersionInfoSize; DWORD dwMajorVersion; DWORD dwMinorVersion; DWORD dwBuildNumber; DWORD dwPlatformId; CHAR szCSDVersion[ 128 ]; // Maintenance string for PSS usage WORD wServicePackMajor; WORD wServicePackMinor; WORD wSuiteMask; BYTE wProductType; BYTE wReserved; } OSVERSIONINFOEXA, *POSVERSIONINFOEXA, *LPOSVERSIONINFOEXA; typedef struct _OSVERSIONINFOEXW { DWORD dwOSVersionInfoSize; DWORD dwMajorVersion; DWORD dwMinorVersion; DWORD dwBuildNumber; DWORD dwPlatformId; WCHAR szCSDVersion[ 128 ]; // Maintenance string for PSS usage WORD wServicePackMajor; WORD wServicePackMinor; WORD wSuiteMask; BYTE wProductType; BYTE wReserved; } OSVERSIONINFOEXW, *POSVERSIONINFOEXW, *LPOSVERSIONINFOEXW, RTL_OSVERSIONINFOEXW, *PRTL_OSVERSIONINFOEXW; #ifdef UNICODE typedef OSVERSIONINFOEXW OSVERSIONINFOEX; typedef POSVERSIONINFOEXW POSVERSIONINFOEX; typedef LPOSVERSIONINFOEXW LPOSVERSIONINFOEX; #else typedef OSVERSIONINFOEXA OSVERSIONINFOEX; typedef POSVERSIONINFOEXA POSVERSIONINFOEX; typedef LPOSVERSIONINFOEXA LPOSVERSIONINFOEX; #endif // UNICODE // // RtlVerifyVersionInfo() conditions // #define VER_EQUAL 1 #define VER_GREATER 2 #define VER_GREATER_EQUAL 3 #define VER_LESS 4 #define VER_LESS_EQUAL 5 #define VER_AND 6 #define VER_OR 7 #define VER_CONDITION_MASK 7 #define VER_NUM_BITS_PER_CONDITION_MASK 3 // // RtlVerifyVersionInfo() type mask bits // #define VER_MINORVERSION 0x0000001 #define VER_MAJORVERSION 0x0000002 #define VER_BUILDNUMBER 0x0000004 #define VER_PLATFORMID 0x0000008 #define VER_SERVICEPACKMINOR 0x0000010 #define VER_SERVICEPACKMAJOR 0x0000020 #define VER_SUITENAME 0x0000040 #define VER_PRODUCT_TYPE 0x0000080 // // RtlVerifyVersionInfo() os product type values // #define VER_NT_WORKSTATION 0x0000001 #define VER_NT_DOMAIN_CONTROLLER 0x0000002 #define VER_NT_SERVER 0x0000003 // // dwPlatformId defines: // #define VER_PLATFORM_WIN32s 0 #define VER_PLATFORM_WIN32_WINDOWS 1 #define VER_PLATFORM_WIN32_NT 2 // // // VerifyVersionInfo() macro to set the condition mask // // For documentation sakes here's the old version of the macro that got // changed to call an API // #define VER_SET_CONDITION(_m_,_t_,_c_) _m_=(_m_|(_c_<<(1<<_t_))) // #define VER_SET_CONDITION(_m_,_t_,_c_) \ ((_m_)=VerSetConditionMask((_m_),(_t_),(_c_))) ULONGLONG NTAPI VerSetConditionMask( IN ULONGLONG ConditionMask, IN DWORD TypeMask, IN BYTE Condition ); // typedef struct _RTL_CRITICAL_SECTION_DEBUG { WORD Type; WORD CreatorBackTraceIndex; struct _RTL_CRITICAL_SECTION *CriticalSection; LIST_ENTRY ProcessLocksList; DWORD EntryCount; DWORD ContentionCount; DWORD Spare[ 2 ]; } RTL_CRITICAL_SECTION_DEBUG, *PRTL_CRITICAL_SECTION_DEBUG, RTL_RESOURCE_DEBUG, *PRTL_RESOURCE_DEBUG; #define RTL_CRITSECT_TYPE 0 #define RTL_RESOURCE_TYPE 1 typedef struct _RTL_CRITICAL_SECTION { PRTL_CRITICAL_SECTION_DEBUG DebugInfo; // // The following three fields control entering and exiting the critical // section for the resource // LONG LockCount; LONG RecursionCount; HANDLE OwningThread; // from the thread's ClientId->UniqueThread HANDLE LockSemaphore; ULONG_PTR SpinCount; // force size on 64-bit systems when packed } RTL_CRITICAL_SECTION, *PRTL_CRITICAL_SECTION; typedef VOID (NTAPI * RTL_VERIFIER_DLL_LOAD_CALLBACK) ( PWSTR DllName, PVOID DllBase, SIZE_T DllSize, PVOID Reserved ); typedef VOID (NTAPI * RTL_VERIFIER_DLL_UNLOAD_CALLBACK) ( PWSTR DllName, PVOID DllBase, SIZE_T DllSize, PVOID Reserved ); typedef struct _RTL_VERIFIER_THUNK_DESCRIPTOR { PCHAR ThunkName; PVOID ThunkOldAddress; PVOID ThunkNewAddress; } RTL_VERIFIER_THUNK_DESCRIPTOR, *PRTL_VERIFIER_THUNK_DESCRIPTOR; typedef struct _RTL_VERIFIER_DLL_DESCRIPTOR { PWCHAR DllName; DWORD DllFlags; PVOID DllAddress; PRTL_VERIFIER_THUNK_DESCRIPTOR DllThunks; } RTL_VERIFIER_DLL_DESCRIPTOR, *PRTL_VERIFIER_DLL_DESCRIPTOR; typedef struct _RTL_VERIFIER_PROVIDER_DESCRIPTOR { // // Filled by verifier provider DLL // DWORD Length; PRTL_VERIFIER_DLL_DESCRIPTOR ProviderDlls; RTL_VERIFIER_DLL_LOAD_CALLBACK ProviderDllLoadCallback; RTL_VERIFIER_DLL_UNLOAD_CALLBACK ProviderDllUnloadCallback; // // Filled by verifier engine // PWSTR VerifierImage; DWORD VerifierFlags; DWORD VerifierDebug; PVOID RtlpGetStackTraceAddress; PVOID RtlpDebugPageHeapCreate; PVOID RtlpDebugPageHeapDestroy; } RTL_VERIFIER_PROVIDER_DESCRIPTOR, *PRTL_VERIFIER_PROVIDER_DESCRIPTOR; // // Application verifier standard flags // #define RTL_VRF_FLG_FULL_PAGE_HEAP 0x00000001 #define RTL_VRF_FLG_RESERVED_DONOTUSE 0x00000002 // old RTL_VRF_FLG_LOCK_CHECKS #define RTL_VRF_FLG_HANDLE_CHECKS 0x00000004 #define RTL_VRF_FLG_STACK_CHECKS 0x00000008 #define RTL_VRF_FLG_APPCOMPAT_CHECKS 0x00000010 #define RTL_VRF_FLG_TLS_CHECKS 0x00000020 #define RTL_VRF_FLG_DIRTY_STACKS 0x00000040 #define RTL_VRF_FLG_RPC_CHECKS 0x00000080 #define RTL_VRF_FLG_COM_CHECKS 0x00000100 #define RTL_VRF_FLG_DANGEROUS_APIS 0x00000200 #define RTL_VRF_FLG_RACE_CHECKS 0x00000400 #define RTL_VRF_FLG_DEADLOCK_CHECKS 0x00000800 #define RTL_VRF_FLG_FIRST_CHANCE_EXCEPTION_CHECKS 0x00001000 #define RTL_VRF_FLG_VIRTUAL_MEM_CHECKS 0x00002000 #define RTL_VRF_FLG_ENABLE_LOGGING 0x00004000 #define RTL_VRF_FLG_FAST_FILL_HEAP 0x00008000 #define RTL_VRF_FLG_VIRTUAL_SPACE_TRACKING 0x00010000 #define RTL_VRF_FLG_ENABLED_SYSTEM_WIDE 0x00020000 #define RTL_VRF_FLG_MISCELLANEOUS_CHECKS 0x00020000 #define RTL_VRF_FLG_LOCK_CHECKS 0x00040000 // // Application verifier standard stop codes // #define APPLICATION_VERIFIER_INTERNAL_ERROR 0x80000000 #define APPLICATION_VERIFIER_INTERNAL_WARNING 0x40000000 #define APPLICATION_VERIFIER_NO_BREAK 0x20000000 #define APPLICATION_VERIFIER_CONTINUABLE_BREAK 0x10000000 #define APPLICATION_VERIFIER_UNKNOWN_ERROR 0x0001 #define APPLICATION_VERIFIER_ACCESS_VIOLATION 0x0002 #define APPLICATION_VERIFIER_UNSYNCHRONIZED_ACCESS 0x0003 #define APPLICATION_VERIFIER_EXTREME_SIZE_REQUEST 0x0004 #define APPLICATION_VERIFIER_BAD_HEAP_HANDLE 0x0005 #define APPLICATION_VERIFIER_SWITCHED_HEAP_HANDLE 0x0006 #define APPLICATION_VERIFIER_DOUBLE_FREE 0x0007 #define APPLICATION_VERIFIER_CORRUPTED_HEAP_BLOCK 0x0008 #define APPLICATION_VERIFIER_DESTROY_PROCESS_HEAP 0x0009 #define APPLICATION_VERIFIER_UNEXPECTED_EXCEPTION 0x000A #define APPLICATION_VERIFIER_STACK_OVERFLOW 0x000B #define APPLICATION_VERIFIER_TERMINATE_THREAD_CALL 0x0100 #define APPLICATION_VERIFIER_INVALID_EXIT_PROCESS_CALL 0x0101 #define APPLICATION_VERIFIER_EXIT_THREAD_OWNS_LOCK 0x0200 #define APPLICATION_VERIFIER_LOCK_IN_UNLOADED_DLL 0x0201 #define APPLICATION_VERIFIER_LOCK_IN_FREED_HEAP 0x0202 #define APPLICATION_VERIFIER_LOCK_DOUBLE_INITIALIZE 0x0203 #define APPLICATION_VERIFIER_LOCK_IN_FREED_MEMORY 0x0204 #define APPLICATION_VERIFIER_LOCK_CORRUPTED 0x0205 #define APPLICATION_VERIFIER_LOCK_INVALID_OWNER 0x0206 #define APPLICATION_VERIFIER_LOCK_INVALID_RECURSION_COUNT 0x0207 #define APPLICATION_VERIFIER_LOCK_INVALID_LOCK_COUNT 0x0208 #define APPLICATION_VERIFIER_LOCK_OVER_RELEASED 0x0209 #define APPLICATION_VERIFIER_LOCK_NOT_INITIALIZED 0x0210 #define APPLICATION_VERIFIER_LOCK_ALREADY_INITIALIZED 0x0211 #define APPLICATION_VERIFIER_INVALID_HANDLE 0x0300 #define APPLICATION_VERIFIER_INVALID_TLS_VALUE 0x0301 #define APPLICATION_VERIFIER_INCORRECT_WAIT_CALL 0x0302 #define APPLICATION_VERIFIER_NULL_HANDLE 0x0303 #define APPLICATION_VERIFIER_WAIT_IN_DLLMAIN 0x0304 #define APPLICATION_VERIFIER_COM_ERROR 0x0400 #define APPLICATION_VERIFIER_COM_API_IN_DLLMAIN 0x0401 #define APPLICATION_VERIFIER_COM_UNHANDLED_EXCEPTION 0x0402 #define APPLICATION_VERIFIER_COM_UNBALANCED_COINIT 0x0403 #define APPLICATION_VERIFIER_COM_UNBALANCED_OLEINIT 0x0404 #define APPLICATION_VERIFIER_COM_UNBALANCED_SWC 0x0405 #define APPLICATION_VERIFIER_COM_NULL_DACL 0x0406 #define APPLICATION_VERIFIER_COM_UNSAFE_IMPERSONATION 0x0407 #define APPLICATION_VERIFIER_COM_SMUGGLED_WRAPPER 0x0408 #define APPLICATION_VERIFIER_COM_SMUGGLED_PROXY 0x0409 #define APPLICATION_VERIFIER_COM_CF_SUCCESS_WITH_NULL 0x040A #define APPLICATION_VERIFIER_COM_GCO_SUCCESS_WITH_NULL 0x040B #define APPLICATION_VERIFIER_COM_OBJECT_IN_FREED_MEMORY 0x040C #define APPLICATION_VERIFIER_COM_OBJECT_IN_UNLOADED_DLL 0x040D #define APPLICATION_VERIFIER_COM_VTBL_IN_FREED_MEMORY 0x040E #define APPLICATION_VERIFIER_COM_VTBL_IN_UNLOADED_DLL 0x040F #define APPLICATION_VERIFIER_COM_HOLDING_LOCKS_ON_CALL 0x0410 #define APPLICATION_VERIFIER_RPC_ERROR 0x0500 #define APPLICATION_VERIFIER_INVALID_FREEMEM 0x0600 #define APPLICATION_VERIFIER_INVALID_ALLOCMEM 0x0601 #define APPLICATION_VERIFIER_INVALID_MAPVIEW 0x0602 #define APPLICATION_VERIFIER_PROBE_INVALID_ADDRESS 0x0603 #define APPLICATION_VERIFIER_PROBE_FREE_MEM 0x0604 #define APPLICATION_VERIFIER_PROBE_GUARD_PAGE 0x0605 #define APPLICATION_VERIFIER_PROBE_NULL 0x0606 #define APPLICATION_VERIFIER_PROBE_INVALID_START_OR_SIZE 0x0607 #define VERIFIER_STOP(Code, Msg, P1, S1, P2, S2, P3, S3, P4, S4) { \ RtlApplicationVerifierStop ((Code), \ (Msg), \ (ULONG_PTR)(P1),(S1), \ (ULONG_PTR)(P2),(S2), \ (ULONG_PTR)(P3),(S3), \ (ULONG_PTR)(P4),(S4)); \ } VOID NTAPI RtlApplicationVerifierStop ( ULONG_PTR Code, PCHAR Message, ULONG_PTR Param1, PCHAR Description1, ULONG_PTR Param2, PCHAR Description2, ULONG_PTR Param3, PCHAR Description3, ULONG_PTR Param4, PCHAR Description4 ); typedef LONG (NTAPI *PVECTORED_EXCEPTION_HANDLER)( struct _EXCEPTION_POINTERS *ExceptionInfo ); #define SEF_DACL_AUTO_INHERIT 0x01 #define SEF_SACL_AUTO_INHERIT 0x02 #define SEF_DEFAULT_DESCRIPTOR_FOR_OBJECT 0x04 #define SEF_AVOID_PRIVILEGE_CHECK 0x08 #define SEF_AVOID_OWNER_CHECK 0x10 #define SEF_DEFAULT_OWNER_FROM_PARENT 0x20 #define SEF_DEFAULT_GROUP_FROM_PARENT 0x40 typedef enum _HEAP_INFORMATION_CLASS { HeapCompatibilityInformation } HEAP_INFORMATION_CLASS; DWORD NTAPI RtlSetHeapInformation ( IN PVOID HeapHandle, IN HEAP_INFORMATION_CLASS HeapInformationClass, IN PVOID HeapInformation OPTIONAL, IN SIZE_T HeapInformationLength OPTIONAL ); DWORD NTAPI RtlQueryHeapInformation ( IN PVOID HeapHandle, IN HEAP_INFORMATION_CLASS HeapInformationClass, OUT PVOID HeapInformation OPTIONAL, IN SIZE_T HeapInformationLength OPTIONAL, OUT PSIZE_T ReturnLength OPTIONAL ); // // Multiple alloc-free APIS // DWORD NTAPI RtlMultipleAllocateHeap ( IN PVOID HeapHandle, IN DWORD Flags, IN SIZE_T Size, IN DWORD Count, OUT PVOID * Array ); DWORD NTAPI RtlMultipleFreeHeap ( IN PVOID HeapHandle, IN DWORD Flags, IN DWORD Count, OUT PVOID * Array ); #define WT_EXECUTEDEFAULT 0x00000000 #define WT_EXECUTEINIOTHREAD 0x00000001 #define WT_EXECUTEINUITHREAD 0x00000002 #define WT_EXECUTEINWAITTHREAD 0x00000004 #define WT_EXECUTEONLYONCE 0x00000008 #define WT_EXECUTEINTIMERTHREAD 0x00000020 #define WT_EXECUTELONGFUNCTION 0x00000010 #define WT_EXECUTEINPERSISTENTIOTHREAD 0x00000040 #define WT_EXECUTEINPERSISTENTTHREAD 0x00000080 #define WT_TRANSFER_IMPERSONATION 0x00000100 #define WT_SET_MAX_THREADPOOL_THREADS(Flags, Limit) ((Flags) |= (Limit)<<16) typedef VOID (NTAPI * WAITORTIMERCALLBACKFUNC) (PVOID, BOOLEAN ); typedef VOID (NTAPI * WORKERCALLBACKFUNC) (PVOID ); typedef VOID (NTAPI * APC_CALLBACK_FUNCTION) (DWORD , PVOID, PVOID); #define WT_EXECUTEINLONGTHREAD 0x00000010 #define WT_EXECUTEDELETEWAIT 0x00000008 typedef enum _ACTIVATION_CONTEXT_INFO_CLASS { ActivationContextBasicInformation = 1, ActivationContextDetailedInformation = 2, AssemblyDetailedInformationInActivationContext = 3, FileInformationInAssemblyOfAssemblyInActivationContext = 4, MaxActivationContextInfoClass, // // compatibility with old names // AssemblyDetailedInformationInActivationContxt = 3, FileInformationInAssemblyOfAssemblyInActivationContxt = 4 } ACTIVATION_CONTEXT_INFO_CLASS; #define ACTIVATIONCONTEXTINFOCLASS ACTIVATION_CONTEXT_INFO_CLASS typedef struct _ACTIVATION_CONTEXT_QUERY_INDEX { DWORD ulAssemblyIndex; DWORD ulFileIndexInAssembly; } ACTIVATION_CONTEXT_QUERY_INDEX, * PACTIVATION_CONTEXT_QUERY_INDEX; typedef const struct _ACTIVATION_CONTEXT_QUERY_INDEX * PCACTIVATION_CONTEXT_QUERY_INDEX; #define ACTIVATION_CONTEXT_PATH_TYPE_NONE (1) #define ACTIVATION_CONTEXT_PATH_TYPE_WIN32_FILE (2) #define ACTIVATION_CONTEXT_PATH_TYPE_URL (3) #define ACTIVATION_CONTEXT_PATH_TYPE_ASSEMBLYREF (4) typedef struct _ASSEMBLY_FILE_DETAILED_INFORMATION { DWORD ulFlags; DWORD ulFilenameLength; DWORD ulPathLength; PCWSTR lpFileName; PCWSTR lpFilePath; } ASSEMBLY_FILE_DETAILED_INFORMATION, *PASSEMBLY_FILE_DETAILED_INFORMATION; typedef const ASSEMBLY_FILE_DETAILED_INFORMATION *PCASSEMBLY_FILE_DETAILED_INFORMATION; // // compatibility with old names // The new names use "file" consistently. // #define _ASSEMBLY_DLL_REDIRECTION_DETAILED_INFORMATION _ASSEMBLY_FILE_DETAILED_INFORMATION #define ASSEMBLY_DLL_REDIRECTION_DETAILED_INFORMATION ASSEMBLY_FILE_DETAILED_INFORMATION #define PASSEMBLY_DLL_REDIRECTION_DETAILED_INFORMATION PASSEMBLY_FILE_DETAILED_INFORMATION #define PCASSEMBLY_DLL_REDIRECTION_DETAILED_INFORMATION PCASSEMBLY_FILE_DETAILED_INFORMATION typedef struct _ACTIVATION_CONTEXT_ASSEMBLY_DETAILED_INFORMATION { DWORD ulFlags; DWORD ulEncodedAssemblyIdentityLength; // in bytes DWORD ulManifestPathType; // ACTIVATION_CONTEXT_PATH_TYPE_* DWORD ulManifestPathLength; // in bytes LARGE_INTEGER liManifestLastWriteTime; // FILETIME DWORD ulPolicyPathType; // ACTIVATION_CONTEXT_PATH_TYPE_* DWORD ulPolicyPathLength; // in bytes LARGE_INTEGER liPolicyLastWriteTime; // FILETIME DWORD ulMetadataSatelliteRosterIndex; DWORD ulManifestVersionMajor; // 1 DWORD ulManifestVersionMinor; // 0 DWORD ulPolicyVersionMajor; // 0 DWORD ulPolicyVersionMinor; // 0 DWORD ulAssemblyDirectoryNameLength; // in bytes PCWSTR lpAssemblyEncodedAssemblyIdentity; PCWSTR lpAssemblyManifestPath; PCWSTR lpAssemblyPolicyPath; PCWSTR lpAssemblyDirectoryName; DWORD ulFileCount; } ACTIVATION_CONTEXT_ASSEMBLY_DETAILED_INFORMATION, * PACTIVATION_CONTEXT_ASSEMBLY_DETAILED_INFORMATION; typedef const struct _ACTIVATION_CONTEXT_ASSEMBLY_DETAILED_INFORMATION * PCACTIVATION_CONTEXT_ASSEMBLY_DETAILED_INFORMATION ; typedef struct _ACTIVATION_CONTEXT_DETAILED_INFORMATION { DWORD dwFlags; DWORD ulFormatVersion; DWORD ulAssemblyCount; DWORD ulRootManifestPathType; DWORD ulRootManifestPathChars; DWORD ulRootConfigurationPathType; DWORD ulRootConfigurationPathChars; DWORD ulAppDirPathType; DWORD ulAppDirPathChars; PCWSTR lpRootManifestPath; PCWSTR lpRootConfigurationPath; PCWSTR lpAppDirPath; } ACTIVATION_CONTEXT_DETAILED_INFORMATION, *PACTIVATION_CONTEXT_DETAILED_INFORMATION; typedef const struct _ACTIVATION_CONTEXT_DETAILED_INFORMATION *PCACTIVATION_CONTEXT_DETAILED_INFORMATION; #define DLL_PROCESS_ATTACH 1 #define DLL_THREAD_ATTACH 2 #define DLL_THREAD_DETACH 3 #define DLL_PROCESS_DETACH 0 #define DLL_PROCESS_VERIFIER 4 // // Defines for the READ flags for Eventlogging // #define EVENTLOG_SEQUENTIAL_READ 0x0001 #define EVENTLOG_SEEK_READ 0x0002 #define EVENTLOG_FORWARDS_READ 0x0004 #define EVENTLOG_BACKWARDS_READ 0x0008 // // The types of events that can be logged. // #define EVENTLOG_SUCCESS 0x0000 #define EVENTLOG_ERROR_TYPE 0x0001 #define EVENTLOG_WARNING_TYPE 0x0002 #define EVENTLOG_INFORMATION_TYPE 0x0004 #define EVENTLOG_AUDIT_SUCCESS 0x0008 #define EVENTLOG_AUDIT_FAILURE 0x0010 // // Defines for the WRITE flags used by Auditing for paired events // These are not implemented in Product 1 // #define EVENTLOG_START_PAIRED_EVENT 0x0001 #define EVENTLOG_END_PAIRED_EVENT 0x0002 #define EVENTLOG_END_ALL_PAIRED_EVENTS 0x0004 #define EVENTLOG_PAIRED_EVENT_ACTIVE 0x0008 #define EVENTLOG_PAIRED_EVENT_INACTIVE 0x0010 // // Structure that defines the header of the Eventlog record. This is the // fixed-sized portion before all the variable-length strings, binary // data and pad bytes. // // TimeGenerated is the time it was generated at the client. // TimeWritten is the time it was put into the log at the server end. // typedef struct _EVENTLOGRECORD { DWORD Length; // Length of full record DWORD Reserved; // Used by the service DWORD RecordNumber; // Absolute record number DWORD TimeGenerated; // Seconds since 1-1-1970 DWORD TimeWritten; // Seconds since 1-1-1970 DWORD EventID; WORD EventType; WORD NumStrings; WORD EventCategory; WORD ReservedFlags; // For use with paired events (auditing) DWORD ClosingRecordNumber; // For use with paired events (auditing) DWORD StringOffset; // Offset from beginning of record DWORD UserSidLength; DWORD UserSidOffset; DWORD DataLength; DWORD DataOffset; // Offset from beginning of record // // Then follow: // // WCHAR SourceName[] // WCHAR Computername[] // SID UserSid // WCHAR Strings[] // BYTE Data[] // CHAR Pad[] // DWORD Length; // } EVENTLOGRECORD, *PEVENTLOGRECORD; //SS: start of changes to support clustering //SS: ideally the #define MAXLOGICALLOGNAMESIZE 256 #if _MSC_VER >= 1200 #pragma warning(push) #endif #pragma warning(disable : 4200) typedef struct _EVENTSFORLOGFILE{ DWORD ulSize; WCHAR szLogicalLogFile[MAXLOGICALLOGNAMESIZE]; //name of the logical file-security/application/system DWORD ulNumRecords; EVENTLOGRECORD pEventLogRecords[]; }EVENTSFORLOGFILE, *PEVENTSFORLOGFILE; typedef struct _PACKEDEVENTINFO{ DWORD ulSize; //total size of the structure DWORD ulNumEventsForLogFile; //number of EventsForLogFile structure that follow DWORD ulOffsets[]; //the offsets from the start of this structure to the EVENTSFORLOGFILE structure }PACKEDEVENTINFO, *PPACKEDEVENTINFO; #if _MSC_VER >= 1200 #pragma warning(pop) #else #pragma warning(default : 4200) #endif //SS: end of changes to support clustering // // begin_ntddk begin_wdm begin_nthal // // Registry Specific Access Rights. // #define KEY_QUERY_VALUE (0x0001) #define KEY_SET_VALUE (0x0002) #define KEY_CREATE_SUB_KEY (0x0004) #define KEY_ENUMERATE_SUB_KEYS (0x0008) #define KEY_NOTIFY (0x0010) #define KEY_CREATE_LINK (0x0020) #define KEY_WOW64_32KEY (0x0200) #define KEY_WOW64_64KEY (0x0100) #define KEY_WOW64_RES (0x0300) #define KEY_READ ((STANDARD_RIGHTS_READ |\ KEY_QUERY_VALUE |\ KEY_ENUMERATE_SUB_KEYS |\ KEY_NOTIFY) \ & \ (~SYNCHRONIZE)) #define KEY_WRITE ((STANDARD_RIGHTS_WRITE |\ KEY_SET_VALUE |\ KEY_CREATE_SUB_KEY) \ & \ (~SYNCHRONIZE)) #define KEY_EXECUTE ((KEY_READ) \ & \ (~SYNCHRONIZE)) #define KEY_ALL_ACCESS ((STANDARD_RIGHTS_ALL |\ KEY_QUERY_VALUE |\ KEY_SET_VALUE |\ KEY_CREATE_SUB_KEY |\ KEY_ENUMERATE_SUB_KEYS |\ KEY_NOTIFY |\ KEY_CREATE_LINK) \ & \ (~SYNCHRONIZE)) // // Open/Create Options // #define REG_OPTION_RESERVED (0x00000000L) // Parameter is reserved #define REG_OPTION_NON_VOLATILE (0x00000000L) // Key is preserved // when system is rebooted #define REG_OPTION_VOLATILE (0x00000001L) // Key is not preserved // when system is rebooted #define REG_OPTION_CREATE_LINK (0x00000002L) // Created key is a // symbolic link #define REG_OPTION_BACKUP_RESTORE (0x00000004L) // open for backup or restore // special access rules // privilege required #define REG_OPTION_OPEN_LINK (0x00000008L) // Open symbolic link #define REG_LEGAL_OPTION \ (REG_OPTION_RESERVED |\ REG_OPTION_NON_VOLATILE |\ REG_OPTION_VOLATILE |\ REG_OPTION_CREATE_LINK |\ REG_OPTION_BACKUP_RESTORE |\ REG_OPTION_OPEN_LINK) // // Key creation/open disposition // #define REG_CREATED_NEW_KEY (0x00000001L) // New Registry Key created #define REG_OPENED_EXISTING_KEY (0x00000002L) // Existing Key opened // // hive format to be used by Reg(Nt)SaveKeyEx // #define REG_STANDARD_FORMAT 1 #define REG_LATEST_FORMAT 2 #define REG_NO_COMPRESSION 4 // // Key restore flags // #define REG_WHOLE_HIVE_VOLATILE (0x00000001L) // Restore whole hive volatile #define REG_REFRESH_HIVE (0x00000002L) // Unwind changes to last flush #define REG_NO_LAZY_FLUSH (0x00000004L) // Never lazy flush this hive #define REG_FORCE_RESTORE (0x00000008L) // Force the restore process even when we have open handles on subkeys // end_ntddk end_wdm end_nthal // // Notify filter values // #define REG_NOTIFY_CHANGE_NAME (0x00000001L) // Create or delete (child) #define REG_NOTIFY_CHANGE_ATTRIBUTES (0x00000002L) #define REG_NOTIFY_CHANGE_LAST_SET (0x00000004L) // time stamp #define REG_NOTIFY_CHANGE_SECURITY (0x00000008L) #define REG_LEGAL_CHANGE_FILTER \ (REG_NOTIFY_CHANGE_NAME |\ REG_NOTIFY_CHANGE_ATTRIBUTES |\ REG_NOTIFY_CHANGE_LAST_SET |\ REG_NOTIFY_CHANGE_SECURITY) // // // Predefined Value Types. // #define REG_NONE ( 0 ) // No value type #define REG_SZ ( 1 ) // Unicode nul terminated string #define REG_EXPAND_SZ ( 2 ) // Unicode nul terminated string // (with environment variable references) #define REG_BINARY ( 3 ) // Free form binary #define REG_DWORD ( 4 ) // 32-bit number #define REG_DWORD_LITTLE_ENDIAN ( 4 ) // 32-bit number (same as REG_DWORD) #define REG_DWORD_BIG_ENDIAN ( 5 ) // 32-bit number #define REG_LINK ( 6 ) // Symbolic Link (unicode) #define REG_MULTI_SZ ( 7 ) // Multiple Unicode strings #define REG_RESOURCE_LIST ( 8 ) // Resource list in the resource map #define REG_FULL_RESOURCE_DESCRIPTOR ( 9 ) // Resource list in the hardware description #define REG_RESOURCE_REQUIREMENTS_LIST ( 10 ) #define REG_QWORD ( 11 ) // 64-bit number #define REG_QWORD_LITTLE_ENDIAN ( 11 ) // 64-bit number (same as REG_QWORD) // end_ntddk end_wdm end_nthal // begin_ntddk begin_wdm begin_nthal // // Service Types (Bit Mask) // #define SERVICE_KERNEL_DRIVER 0x00000001 #define SERVICE_FILE_SYSTEM_DRIVER 0x00000002 #define SERVICE_ADAPTER 0x00000004 #define SERVICE_RECOGNIZER_DRIVER 0x00000008 #define SERVICE_DRIVER (SERVICE_KERNEL_DRIVER | \ SERVICE_FILE_SYSTEM_DRIVER | \ SERVICE_RECOGNIZER_DRIVER) #define SERVICE_WIN32_OWN_PROCESS 0x00000010 #define SERVICE_WIN32_SHARE_PROCESS 0x00000020 #define SERVICE_WIN32 (SERVICE_WIN32_OWN_PROCESS | \ SERVICE_WIN32_SHARE_PROCESS) #define SERVICE_INTERACTIVE_PROCESS 0x00000100 #define SERVICE_TYPE_ALL (SERVICE_WIN32 | \ SERVICE_ADAPTER | \ SERVICE_DRIVER | \ SERVICE_INTERACTIVE_PROCESS) // // Start Type // #define SERVICE_BOOT_START 0x00000000 #define SERVICE_SYSTEM_START 0x00000001 #define SERVICE_AUTO_START 0x00000002 #define SERVICE_DEMAND_START 0x00000003 #define SERVICE_DISABLED 0x00000004 // // Error control type // #define SERVICE_ERROR_IGNORE 0x00000000 #define SERVICE_ERROR_NORMAL 0x00000001 #define SERVICE_ERROR_SEVERE 0x00000002 #define SERVICE_ERROR_CRITICAL 0x00000003 // // // Define the registry driver node enumerations // typedef enum _CM_SERVICE_NODE_TYPE { DriverType = SERVICE_KERNEL_DRIVER, FileSystemType = SERVICE_FILE_SYSTEM_DRIVER, Win32ServiceOwnProcess = SERVICE_WIN32_OWN_PROCESS, Win32ServiceShareProcess = SERVICE_WIN32_SHARE_PROCESS, AdapterType = SERVICE_ADAPTER, RecognizerType = SERVICE_RECOGNIZER_DRIVER } SERVICE_NODE_TYPE; typedef enum _CM_SERVICE_LOAD_TYPE { BootLoad = SERVICE_BOOT_START, SystemLoad = SERVICE_SYSTEM_START, AutoLoad = SERVICE_AUTO_START, DemandLoad = SERVICE_DEMAND_START, DisableLoad = SERVICE_DISABLED } SERVICE_LOAD_TYPE; typedef enum _CM_ERROR_CONTROL_TYPE { IgnoreError = SERVICE_ERROR_IGNORE, NormalError = SERVICE_ERROR_NORMAL, SevereError = SERVICE_ERROR_SEVERE, CriticalError = SERVICE_ERROR_CRITICAL } SERVICE_ERROR_TYPE; // // IOCTL_TAPE_ERASE definitions // #define TAPE_ERASE_SHORT 0L #define TAPE_ERASE_LONG 1L typedef struct _TAPE_ERASE { DWORD Type; BOOLEAN Immediate; } TAPE_ERASE, *PTAPE_ERASE; // // IOCTL_TAPE_PREPARE definitions // #define TAPE_LOAD 0L #define TAPE_UNLOAD 1L #define TAPE_TENSION 2L #define TAPE_LOCK 3L #define TAPE_UNLOCK 4L #define TAPE_FORMAT 5L typedef struct _TAPE_PREPARE { DWORD Operation; BOOLEAN Immediate; } TAPE_PREPARE, *PTAPE_PREPARE; // // IOCTL_TAPE_WRITE_MARKS definitions // #define TAPE_SETMARKS 0L #define TAPE_FILEMARKS 1L #define TAPE_SHORT_FILEMARKS 2L #define TAPE_LONG_FILEMARKS 3L typedef struct _TAPE_WRITE_MARKS { DWORD Type; DWORD Count; BOOLEAN Immediate; } TAPE_WRITE_MARKS, *PTAPE_WRITE_MARKS; // // IOCTL_TAPE_GET_POSITION definitions // #define TAPE_ABSOLUTE_POSITION 0L #define TAPE_LOGICAL_POSITION 1L #define TAPE_PSEUDO_LOGICAL_POSITION 2L typedef struct _TAPE_GET_POSITION { DWORD Type; DWORD Partition; LARGE_INTEGER Offset; } TAPE_GET_POSITION, *PTAPE_GET_POSITION; // // IOCTL_TAPE_SET_POSITION definitions // #define TAPE_REWIND 0L #define TAPE_ABSOLUTE_BLOCK 1L #define TAPE_LOGICAL_BLOCK 2L #define TAPE_PSEUDO_LOGICAL_BLOCK 3L #define TAPE_SPACE_END_OF_DATA 4L #define TAPE_SPACE_RELATIVE_BLOCKS 5L #define TAPE_SPACE_FILEMARKS 6L #define TAPE_SPACE_SEQUENTIAL_FMKS 7L #define TAPE_SPACE_SETMARKS 8L #define TAPE_SPACE_SEQUENTIAL_SMKS 9L typedef struct _TAPE_SET_POSITION { DWORD Method; DWORD Partition; LARGE_INTEGER Offset; BOOLEAN Immediate; } TAPE_SET_POSITION, *PTAPE_SET_POSITION; // // IOCTL_TAPE_GET_DRIVE_PARAMS definitions // // // Definitions for FeaturesLow parameter // #define TAPE_DRIVE_FIXED 0x00000001 #define TAPE_DRIVE_SELECT 0x00000002 #define TAPE_DRIVE_INITIATOR 0x00000004 #define TAPE_DRIVE_ERASE_SHORT 0x00000010 #define TAPE_DRIVE_ERASE_LONG 0x00000020 #define TAPE_DRIVE_ERASE_BOP_ONLY 0x00000040 #define TAPE_DRIVE_ERASE_IMMEDIATE 0x00000080 #define TAPE_DRIVE_TAPE_CAPACITY 0x00000100 #define TAPE_DRIVE_TAPE_REMAINING 0x00000200 #define TAPE_DRIVE_FIXED_BLOCK 0x00000400 #define TAPE_DRIVE_VARIABLE_BLOCK 0x00000800 #define TAPE_DRIVE_WRITE_PROTECT 0x00001000 #define TAPE_DRIVE_EOT_WZ_SIZE 0x00002000 #define TAPE_DRIVE_ECC 0x00010000 #define TAPE_DRIVE_COMPRESSION 0x00020000 #define TAPE_DRIVE_PADDING 0x00040000 #define TAPE_DRIVE_REPORT_SMKS 0x00080000 #define TAPE_DRIVE_GET_ABSOLUTE_BLK 0x00100000 #define TAPE_DRIVE_GET_LOGICAL_BLK 0x00200000 #define TAPE_DRIVE_SET_EOT_WZ_SIZE 0x00400000 #define TAPE_DRIVE_EJECT_MEDIA 0x01000000 #define TAPE_DRIVE_CLEAN_REQUESTS 0x02000000 #define TAPE_DRIVE_SET_CMP_BOP_ONLY 0x04000000 #define TAPE_DRIVE_RESERVED_BIT 0x80000000 //don't use this bit! // //can't be a low features bit! // //reserved; high features only // // Definitions for FeaturesHigh parameter // #define TAPE_DRIVE_LOAD_UNLOAD 0x80000001 #define TAPE_DRIVE_TENSION 0x80000002 #define TAPE_DRIVE_LOCK_UNLOCK 0x80000004 #define TAPE_DRIVE_REWIND_IMMEDIATE 0x80000008 #define TAPE_DRIVE_SET_BLOCK_SIZE 0x80000010 #define TAPE_DRIVE_LOAD_UNLD_IMMED 0x80000020 #define TAPE_DRIVE_TENSION_IMMED 0x80000040 #define TAPE_DRIVE_LOCK_UNLK_IMMED 0x80000080 #define TAPE_DRIVE_SET_ECC 0x80000100 #define TAPE_DRIVE_SET_COMPRESSION 0x80000200 #define TAPE_DRIVE_SET_PADDING 0x80000400 #define TAPE_DRIVE_SET_REPORT_SMKS 0x80000800 #define TAPE_DRIVE_ABSOLUTE_BLK 0x80001000 #define TAPE_DRIVE_ABS_BLK_IMMED 0x80002000 #define TAPE_DRIVE_LOGICAL_BLK 0x80004000 #define TAPE_DRIVE_LOG_BLK_IMMED 0x80008000 #define TAPE_DRIVE_END_OF_DATA 0x80010000 #define TAPE_DRIVE_RELATIVE_BLKS 0x80020000 #define TAPE_DRIVE_FILEMARKS 0x80040000 #define TAPE_DRIVE_SEQUENTIAL_FMKS 0x80080000 #define TAPE_DRIVE_SETMARKS 0x80100000 #define TAPE_DRIVE_SEQUENTIAL_SMKS 0x80200000 #define TAPE_DRIVE_REVERSE_POSITION 0x80400000 #define TAPE_DRIVE_SPACE_IMMEDIATE 0x80800000 #define TAPE_DRIVE_WRITE_SETMARKS 0x81000000 #define TAPE_DRIVE_WRITE_FILEMARKS 0x82000000 #define TAPE_DRIVE_WRITE_SHORT_FMKS 0x84000000 #define TAPE_DRIVE_WRITE_LONG_FMKS 0x88000000 #define TAPE_DRIVE_WRITE_MARK_IMMED 0x90000000 #define TAPE_DRIVE_FORMAT 0xA0000000 #define TAPE_DRIVE_FORMAT_IMMEDIATE 0xC0000000 #define TAPE_DRIVE_HIGH_FEATURES 0x80000000 //mask for high features flag typedef struct _TAPE_GET_DRIVE_PARAMETERS { BOOLEAN ECC; BOOLEAN Compression; BOOLEAN DataPadding; BOOLEAN ReportSetmarks; DWORD DefaultBlockSize; DWORD MaximumBlockSize; DWORD MinimumBlockSize; DWORD MaximumPartitionCount; DWORD FeaturesLow; DWORD FeaturesHigh; DWORD EOTWarningZoneSize; } TAPE_GET_DRIVE_PARAMETERS, *PTAPE_GET_DRIVE_PARAMETERS; // // IOCTL_TAPE_SET_DRIVE_PARAMETERS definitions // typedef struct _TAPE_SET_DRIVE_PARAMETERS { BOOLEAN ECC; BOOLEAN Compression; BOOLEAN DataPadding; BOOLEAN ReportSetmarks; DWORD EOTWarningZoneSize; } TAPE_SET_DRIVE_PARAMETERS, *PTAPE_SET_DRIVE_PARAMETERS; // // IOCTL_TAPE_GET_MEDIA_PARAMETERS definitions // typedef struct _TAPE_GET_MEDIA_PARAMETERS { LARGE_INTEGER Capacity; LARGE_INTEGER Remaining; DWORD BlockSize; DWORD PartitionCount; BOOLEAN WriteProtected; } TAPE_GET_MEDIA_PARAMETERS, *PTAPE_GET_MEDIA_PARAMETERS; // // IOCTL_TAPE_SET_MEDIA_PARAMETERS definitions // typedef struct _TAPE_SET_MEDIA_PARAMETERS { DWORD BlockSize; } TAPE_SET_MEDIA_PARAMETERS, *PTAPE_SET_MEDIA_PARAMETERS; // // IOCTL_TAPE_CREATE_PARTITION definitions // #define TAPE_FIXED_PARTITIONS 0L #define TAPE_SELECT_PARTITIONS 1L #define TAPE_INITIATOR_PARTITIONS 2L typedef struct _TAPE_CREATE_PARTITION { DWORD Method; DWORD Count; DWORD Size; } TAPE_CREATE_PARTITION, *PTAPE_CREATE_PARTITION; // // WMI Methods // #define TAPE_QUERY_DRIVE_PARAMETERS 0L #define TAPE_QUERY_MEDIA_CAPACITY 1L #define TAPE_CHECK_FOR_DRIVE_PROBLEM 2L #define TAPE_QUERY_IO_ERROR_DATA 3L #define TAPE_QUERY_DEVICE_ERROR_DATA 4L typedef struct _TAPE_WMI_OPERATIONS { DWORD Method; DWORD DataBufferSize; PVOID DataBuffer; } TAPE_WMI_OPERATIONS, *PTAPE_WMI_OPERATIONS; // // Type of drive errors // typedef enum _TAPE_DRIVE_PROBLEM_TYPE { TapeDriveProblemNone, TapeDriveReadWriteWarning, TapeDriveReadWriteError, TapeDriveReadWarning, TapeDriveWriteWarning, TapeDriveReadError, TapeDriveWriteError, TapeDriveHardwareError, TapeDriveUnsupportedMedia, TapeDriveScsiConnectionError, TapeDriveTimetoClean, TapeDriveCleanDriveNow, TapeDriveMediaLifeExpired, TapeDriveSnappedTape } TAPE_DRIVE_PROBLEM_TYPE; #if defined(_M_AMD64) && !defined(__midl) __forceinline PVOID GetCurrentFiber ( VOID ) { return (PVOID)__readgsqword(FIELD_OFFSET(NT_TIB, FiberData)); } __forceinline PVOID GetFiberData ( VOID ) { return *(PVOID *)GetCurrentFiber(); } #endif // _M_AMD64 && !defined(__midl) #if (_WIN32_WINNT > 0x0500) || (_WIN32_FUSION >= 0x0100) || ISOLATION_AWARE_ENABLED // winnt_only #define ACTIVATION_CONTEXT_SECTION_ASSEMBLY_INFORMATION (1) #define ACTIVATION_CONTEXT_SECTION_DLL_REDIRECTION (2) #define ACTIVATION_CONTEXT_SECTION_WINDOW_CLASS_REDIRECTION (3) #define ACTIVATION_CONTEXT_SECTION_COM_SERVER_REDIRECTION (4) #define ACTIVATION_CONTEXT_SECTION_COM_INTERFACE_REDIRECTION (5) #define ACTIVATION_CONTEXT_SECTION_COM_TYPE_LIBRARY_REDIRECTION (6) #define ACTIVATION_CONTEXT_SECTION_COM_PROGID_REDIRECTION (7) #define ACTIVATION_CONTEXT_SECTION_GLOBAL_OBJECT_RENAME_TABLE (8) #define ACTIVATION_CONTEXT_SECTION_CLR_SURROGATES (9) #endif // winnt_only #ifdef __cplusplus } #endif #endif /* _WINNT_ */