//+-------------------------------------------------------------------------- // // Microsoft Windows // Copyright (c) Microsoft Corporation. All rights reserved. // // File: propmac.hxx // // Contents: various macros used in property set code // // History: // 2/22/96 MikeHill - Protect from multiple inclusions. // - Made Add2Ptr()'s parms const. // - Copied DwordRemain to this file. // 2/29/96 MikeHill Removed IsDwordAligned. // //--------------------------------------------------------------------------- #ifndef _PROPMAC_HXX_ #define _PROPMAC_HXX_ #include // // As part of moving away from using the C runtime library wherever possible, // use Win32 wide-character functions when they're available. // #ifdef _CHICAGO_ # define Prop_wcslen lstrlenW # define Prop_wcsnicmp _wcsnicmp # define Prop_wcsncmp wcsncmp # define Prop_wcscmp wcscmp # define Prop_wcscpy lstrcpyW #else # define Prop_wcslen wcslen # define Prop_wcsnicmp _wcsnicmp # define Prop_wcsncmp wcsncmp # define Prop_wcscmp wcscmp # define Prop_wcscpy wcscpy #endif // _CHICAGO_ #ifdef OLE2ANSI # define Prop_ocslen strlen #else # define Prop_ocslen Prop_wcslen #endif #ifdef _CAIRO_ extern "C" NTSTATUS SynchronousNtFsControlFile( IN HANDLE h, OUT IO_STATUS_BLOCK *pisb, IN ULONG FsControlCode, IN VOID *pvIn OPTIONAL, IN ULONG cbIn, OUT VOID *pvOut OPTIONAL, IN ULONG cbOut); #endif //+--------------------------------------------------------------------------- // Function: Add2Ptr // // Synopsis: Add an unscaled increment to a ptr regardless of type. // // Arguments: [pv] -- Initial ptr. // [cb] -- Increment // // Returns: Incremented ptr. // //---------------------------------------------------------------------------- inline VOID * Add2Ptr(VOID const *pv, ULONG cb) { return((BYTE *) pv + cb); } //+--------------------------------------------------------------------------- // Function: Add2ConstPtr // // Synopsis: Add an unscaled increment to a ptr regardless of type. // // Arguments: [pv] -- Initial ptr. // [cb] -- Increment // // Returns: Incremented ptr. // //---------------------------------------------------------------------------- inline const VOID * Add2ConstPtr(const VOID UNALIGNED *pv, LONG cb) { return((BYTE*) pv + cb); } //+-------------------------------------------------------------------------- // Function: CopyFileTime, private // // Synopsis: Copy LARGE_INTEGER time to FILETIME structure // // Arguments: [pft] -- pointer to FILETIME // [pli] -- pointer to LARGE_INTEGER // // Returns: Nothing //--------------------------------------------------------------------------- __inline VOID CopyFileTime(OUT FILETIME *pft, IN LARGE_INTEGER *pli) { pft->dwLowDateTime = pli->LowPart; pft->dwHighDateTime = pli->HighPart; } //+-------------------------------------------------------------------------- // Function: ZeroFileTime, private // // Synopsis: Zero FILETIME structure // // Arguments: [pft] -- pointer to FILETIME // // Returns: Nothing //--------------------------------------------------------------------------- __inline VOID ZeroFileTime(OUT FILETIME *pft) { pft->dwLowDateTime = pft->dwHighDateTime = 0; } #define DwordAlign(n) (((DWORD)(n) + sizeof(ULONG) - 1) & ~(sizeof(ULONG) - 1)) #define DwordRemain(cb) ((sizeof(ULONG) - ((cb) % sizeof(ULONG))) % sizeof(ULONG)) #define WordAlign(P) ( ((((ULONG)(P)) + 1) & 0xfffffffe) ) #define QuadAlign(n) (((n) + sizeof(LONGLONG) - 1) & ~(sizeof(LONGLONG) - 1)) // stuff to make Nashville properties build #include #if DBG extern "C" LONG ExceptionFilter(struct _EXCEPTION_POINTERS *pep); #else // DBG #define ExceptionFilter(pep) EXCEPTION_EXECUTE_HANDLER #endif // DBG extern "C" UNICODECALLOUTS UnicodeCallouts; // The CMemSerStream and CDeMemSerStream have different requirements for // handling buffer overflow conditions. In the case of the driver this // is indicative of a corrupted stream and we would like to raise an // exception. On the other hand in Query implementation we deal with // streams whose sizes are precomputed in the user mode. Therefore we // do not wish to incur any additional penalty in handling such situations. // In debug builds this condition is asserted while in retail builds it is // ignored. The CMemSerStream and CMemDeSerStream implementation are // implemented using a macro HANDLE_OVERFLOW(fOverflow) which take the // appropriate action. #define HANDLE_OVERFLOW(fOverflow) \ if (fOverflow) { \ PropRaiseException(STATUS_BUFFER_OVERFLOW); \ } // // Declare or Define the new/delete operators. In NTDLL, the declaration // is provided by ntpropb.cxx and uses the Rtl heap. In OLE32, the // declaration is provided by ole32\com\util\w32new.cxx and uses the IMalloc // heap. In IProp.DLL, the declaration is provided here (as an inline). // #ifdef IPROPERTY_DLL inline void* __cdecl operator new(size_t cb) { return( CoTaskMemAlloc(cb) ); } inline void __cdecl operator delete(void *pv) { CoTaskMemFree( pv ); } inline void __cdecl operator delete[]( void *pv ) { CoTaskMemFree( pv ); } #else // #ifdef IPROPERTY_DLL void* __cdecl operator new(size_t cb); void __cdecl operator delete(void *pv); #endif // #ifdef IPROPERTY_DLL ... #else #define newk(Tag, pCounter) new #if DBG extern "C" ULONG DebugLevel; extern "C" ULONG DebugIndent; #define DEBTRACE_ERROR (ULONG) 0x00000001 #define DEBTRACE_WARN (ULONG) 0x00000002 #define DEBTRACE_CREATESTREAM (ULONG) 0x00000004 #define DEBTRACE_NTPROP (ULONG) 0x00000008 #define DEBTRACE_MAPSTM (ULONG) 0x00000010 #define DEBTRACE_PROPERTY (ULONG) 0x00000020 #define DEBTRACE_SUMCAT (ULONG) 0x00000040 #define DEBTRACE_PROPVALIDATE (ULONG) 0x00010000 // awfully noisy #define DEBTRACE_PROPPATCH (ULONG) 0x00020000 // awfully noisy #ifndef WINNT // in Nashville this is defined in ole32\stg\props\utils.cxx extern ULONG DbgPrint(PCHAR Format, ...); #endif #define DebugTrace(indent, flag, args) \ if ((flag) == 0 || (DebugLevel & (flag))) \ { \ DebugIndent += (ULONG) (indent); \ DbgPrint("PROP: %*s", DebugIndent, ""); \ DbgPrint args; \ } \ else class CDebugTrace { public: inline CDebugTrace(CHAR *psz); inline ~CDebugTrace(); private: CHAR const *const _psz; }; inline CDebugTrace::CDebugTrace(CHAR *psz): _psz(psz) { DebugTrace(+1, 0, ("Entering -- %s\n", _psz)); } inline CDebugTrace::~CDebugTrace() { DebugTrace(-1, 0, ("Exiting -- %s\n", _psz)); } #define DEBUG_TRACE(ProcName) CDebugTrace _trace_(#ProcName); #else #define DebugTrace(indent, flag, args) #define DEBUG_TRACE(ProcName) #endif // Macro to create the OSVersion field of the property // set header. #define MAKEPSVER(oskind, major, minor) \ (((oskind) << 16) | ((minor) << 8) | (major)) //+----------------------------------------------------------------------- //+----------------------------------------------------------------------- // // Byte-swapping functions // //+----------------------------------------------------------------------- //+----------------------------------------------------------------------- // FmtID Byte-Swapped Comparisson. I.e, does rfmtid1 equal // a byte-swapped rfmtid2? inline BOOL IsEqualFMTIDByteSwap( REFFMTID rfmtid1, REFFMTID rfmtid2 ) { return( rfmtid1.Data1 == ByteSwap(rfmtid2.Data1) && rfmtid1.Data2 == ByteSwap(rfmtid2.Data2) && rfmtid1.Data3 == ByteSwap(rfmtid2.Data3) && !memcmp(&rfmtid1.Data4, &rfmtid2.Data4, sizeof(rfmtid1.Data4)) ); } // This define is for a special-case value of cbByteSwap in // PBSBuffer #define CBBYTESWAP_UID ((ULONG) -1) // The following byte-swapping functions mostly forward the call // to the ByteSwap overloads when compiled in a big-endian // system, and NOOP when compiled in a little-endian // system (because property sets are always little-endian). #ifdef BIGENDIAN // This is a big-endian build, property byte-swapping is enabled. // ----------- // Swap a Byte // ----------- // This exists primarily so that PropByteSwap(OLECHAR) will work // whether OLECHAR is Unicode or Ansi. inline BYTE PropByteSwap( UCHAR uc ) { return ByteSwap( (BYTE) uc ); } inline VOID PropByteSwap( UCHAR *puc) { ByteSwap( (BYTE*) puc ); } inline char PropByteSwap( CHAR c ) { return (CHAR) ByteSwap( (BYTE) c ); } inline VOID PropByteSwap( CHAR *pc ) { ByteSwap( (BYTE*) pc ); } // ----------- // Swap a Word // ----------- inline WORD PropByteSwap( WORD w ) { return ByteSwap(w); } inline VOID PropByteSwap( WORD *pw ) { ByteSwap(pw); } inline SHORT PropByteSwap( SHORT s ) { PROPASSERT( sizeof(WORD) == sizeof(SHORT) ); return ByteSwap( (WORD) s ); } inline VOID PropByteSwap( SHORT *ps ) { PROPASSERT( sizeof(WORD) == sizeof(SHORT) ); ByteSwap( (WORD*) ps ); } // ------------ // Swap a DWORD // ------------ inline DWORD PropByteSwap( DWORD dw ) { return ByteSwap(dw); } inline VOID PropByteSwap( DWORD *pdw ) { ByteSwap(pdw); } inline LONG PropByteSwap( LONG l ) { PROPASSERT( sizeof(DWORD) == sizeof(LONG) ); return ByteSwap( (DWORD) l ); } inline VOID PropByteSwap( LONG *pl ) { PROPASSERT( sizeof(DWORD) == sizeof(LONG) ); ByteSwap( (DWORD*) pl ); } // ------------------------- // Swap a LONGLONG (64 bits) // ------------------------- // This routine byte-swaps the LONGLONG's DWORDs independently; // because in the property code, we might swap a // LONGLONG within a property set, which is only // 32 bit aligned. inline VOID PropByteSwap( LONGLONG *pll ) { DWORD dwFirst, dwSecond; PROPASSERT( sizeof(LONGLONG) == 2 * sizeof(DWORD) ); // Get this LONGLONG's two DWORDs dwFirst = *(DWORD*) pll; dwSecond = *( (DWORD*) pll + 1 ); // Swap each of the DWORDs ByteSwap( &dwFirst ); ByteSwap( &dwSecond ); // Put the DWORDs back into the LONGLONG, but with // their order swapped (second the first). *(DWORD*) pll = dwSecond; *( (DWORD*) pll + 1 ) = dwFirst; } inline LONGLONG PropByteSwap( LONGLONG ll ) { PropByteSwap( &ll ); return( ll ); } // ----------- // Swap a GUID // ----------- inline VOID PropByteSwap( GUID *pguid ) { ByteSwap(pguid); return; } #else // Little Endian // This is a little-endian build, property byte-swapping is disabled. inline BYTE PropByteSwap( BYTE b ) { return (b); } inline VOID PropByteSwap( BYTE *pb ) { } inline WORD PropByteSwap( WORD w ) { return (w); } inline VOID PropByteSwap( WORD *pw ) { } inline SHORT PropByteSwap( SHORT s ) { return (s); } inline VOID PropByteSwap( SHORT *ps ) { } inline DWORD PropByteSwap( DWORD dw ) { return (dw); } inline VOID PropByteSwap( DWORD *pdw ) { } inline LONG PropByteSwap( LONG l ) { return (l); } inline VOID PropByteSwap( LONG *pl ) { } inline LONGLONG PropByteSwap( LONGLONG ll ) { return(ll); } inline VOID PropByteSwap( LONGLONG *pll ) { } inline VOID PropByteSwap( GUID *pguid ) { } #endif // #ifdef BIGENDIAN ... #else #endif // _PROPMAC_HXX_