//+-------------------------------------------------------------- // // Microsoft Windows // Copyright (C) Microsoft Corporation, 1992 - 1992 // // File: dfmsp.hxx // // Contents: DocFile and MultiStream shared private definitions // // History: 01-Apr-92 DrewB Created // 06-Sep-95 MikeHill Added P_NOSCRATCH // //--------------------------------------------------------------- #ifndef __DFMSP_HXX__ #define __DFMSP_HXX__ #include #include #include // after props is cleaned, remove the no_deprecate define #define STRSAFE_NO_DEPRECATE #include #if !defined(MULTIHEAP) && !defined(_CHICAGO_) #define MULTIHEAP #include #endif #ifdef ASYNC #include #endif //Enable large docfiles (>4GB files and larger sector sizes) #define LARGE_DOCFILE #define LARGE_STREAMS // Target-dependent things // // x86 16-bit build optimizations // // Some function parameters are always stack based pointers, // so we can let the compiler use near addressing via ss by // declaring the parameter stack based. // #if defined(_M_I286) #define STACKBASED __based(__segname("_STACK")) #else #define STACKBASED #endif // // x86 16-bit retail build optimizations // // For the retail build, we group the code segments, // allowing us to make many calls near. // #if defined(_M_I286) && DBG == 0 && defined(USE_NEAR) #define DFBASED #define DIR_CLASS __near #define FAT_CLASS __near #define MSTREAM_CLASS __near #define VECT_CLASS __near #else #define DFBASED #define DIR_CLASS #define FAT_CLASS #define MSTREAM_CLASS #define VECT_CLASS #endif // Compiler pragma define // Currently defined for C7 and C8 // Unused as of 1/18/93 #if ((_MSC_VER == 700) || (_MSC_VER == 800)) #define MS_COMPILER #endif // Segmented memory model definitions #if !defined(HUGEP) #if defined(_M_I286) #define HUGEP __huge #else #define HUGEP #endif #endif #ifndef LISet32 #define LISet32(li, v) ((li).QuadPart = (LONGLONG) (v)) #endif #ifndef ULISet32 #define ULISet32(li, v) ((li).QuadPart = (ULONGLONG) (v)) #endif #define LISetLow(li, v) ((li).LowPart = (v)) #define LISetHigh(li, v) ((li).HighPart = (v)) #define ULISetLow(li, v) ((li).LowPart = (v)) #define ULISetHigh(li, v) ((li).HighPart = (v)) #define LIGetLow(li) ((li).LowPart) #define LIGetHigh(li) ((li).HighPart) #define ULIGetLow(li) ((li).LowPart) #define ULIGetHigh(li) ((li).HighPart) // Fast safe increment/decrement #if !defined(REF) && defined(USEATOMICINC) // Win32 specific functions // Should use #ifdef WIN32 instead of FLAT, but there isn't a WIN32 #define AtomicInc(lp) InterlockedIncrement(lp) #define AtomicDec(lp) InterlockedDecrement(lp) #else #define AtomicInc(lp) (++*(lp)) #define AtomicDec(lp) (--*(lp)) #endif //!REF // Switchable ANSI/Unicode support for TCHAR // Conversion routines assume null termination before max characters #ifdef UNICODE #define ATOT(a, t, max) mbstowcs(t, a, max) #define TTOA(t, a, max) wcstombs(a, t, max) #define WTOT(w, t, max) StringCchCopyW (t, max, w) #define TTOW(t, w, max) StringCchCopyW (w, max, t) #define TSTR(s) L##s // printf format string #define TFMT "%ws" #else #define ATOT(a, t, max) StringCchCopyA (t, max, a) #define TTOA(t, a, max) StringCchCopyA (a, max, t) #define WTOT(w, t, max) wcstombs(t, w, max) #define TTOW(t, w, max) mbstowcs(w, t, max) #define TSTR(s) s // printf format string #define TFMT "%s" #endif // Switchable ANSI/Unicode support for OLECHAR // Conversion routines assume null termination before max characters #define OLEWIDECHAR #ifndef OLECHAR #define LPOLESTR LPWSTR #define LPCOLESTR LPCWSTR #define OLECHAR WCHAR #define OLESTR(str) L##str #endif //OLECHAR #define _OLESTDMETHODIMP STDMETHODIMP #define _OLEAPIDECL STDAPI #define _OLERETURN(sc) ResultFromScode(sc) #define _OLEAPI(name) name #define ATOOLE(a, t, max) mbstowcs(t, a, max) #define OLETOA(t, a, max) wcstombs(a, t, max) #define WTOOLE(w, t, max) StringCchCopyW(t, max, w) #define OLETOW(t, w, max) StringCchCopyW(w, max, t) #define olecscpy(t, f) lstrcpyW(t, f) #define olecslen(t) lstrlenW(t) #define OLESTR(s) L##s // printf format string #define OLEFMT "%ws" #ifdef _CAIRO_ typedef LPSECURITY_ATTRIBUTES LPSTGSECURITY; #else typedef DWORD LPSTGSECURITY; #endif #ifdef _CAIRO_ #define STATSTG_dwStgFmt dwStgFmt #else #define STATSTG_dwStgFmt reserved #endif // For NT 1.0a OLE we need to use based pointers for shared memory objects // since they might not be mapped at the same address in every process #if WIN32 == 100 || WIN32 > 200 #define USEBASED #endif //We need DfInitSharedMemBase even if we aren't using based pointers, // since it sets up the shared mem allocator if one hasn't already // been set up. void DfInitSharedMemBase(void); #ifdef USEBASED #ifdef MULTIHEAP #define DFBASEPTR pvDfSharedMemBase() // The previous declaration of DFBASEPTR was: // extern __declspec(thread) void *DFBASEPTR; // Now, it is an inline function that returns the threadlocal base pointer // Reference to pointer syntax is needed for assignments to DFBASEPTR __forceinline void *& DFBASEPTR { COleTls otls; return otls->pvThreadBase; } #else #define DFBASEPTR pvDfSharedMemBase extern void *DFBASEPTR; #endif // MULTIHEAP #pragma warning(error: 4795 4796) #pragma warning(disable:4714) #undef DFBASED #ifdef MULTIHEAP // based pointers are replaced by CSafeBased... smart pointer macros // macros invoke conversion constructor and conversion operators //#define DFBASED __based(DFBASEDPTR) #define P_TO_BP(t, p) ((t)(p)) #define BP_TO_P(t, bp) ((t)(bp)) #else // MULTIHEAP #define DFBASED __based(DFBASEPTR) #define P_TO_BP(t, p) ((t)((p) ? (int)(t)(char *)(p) : 0)) #define BP_TO_P(t, bp) (t)((bp) != 0 ? (bp) : 0) #endif // MULTIHEAP #else #define P_TO_BP(t, p) p #define BP_TO_P(t, bp) bp #endif //USEBASED //---------------------------------------------------------------------------- // The name of this function might change, so encapsulate it #define DfGetScode(hr) GetScode(hr) // Buffer/pointer validation macros BOOL IsValidStgInterface (void * pv); #define AssertMsg(s) _Win4Assert(__FILE__, __LINE__, s) // MAC - We use Windows functions if available #if (WIN32 == 100 || WIN32 >= 300) #define IsValidHugePtrIn(pv, n) (IsValidPtrIn(pv, n)) #define IsValidHugePtrOut(pv, n) (IsValidPtrOut(pv, n)) #else #define IsValidHugePtrIn(pv, n) 1 #define IsValidHugePtrOut(pv, n) ((pv) != NULL) #endif #define ValidateBuffer(pv, n) \ (((pv) == NULL || !IsValidPtrIn(pv, n)) ? STG_E_INVALIDPOINTER : S_OK) #define ValidatePtrBuffer(pv) \ ValidateBuffer(pv, sizeof(void *)) #define ValidateHugeBuffer(pv, n) \ (((pv) == NULL || !IsValidHugePtrIn(pv, n)) ? STG_E_INVALIDPOINTER : S_OK) #define ValidateOutBuffer(pv, n) \ (!IsValidPtrOut(pv, n) ? STG_E_INVALIDPOINTER : S_OK) #define ValidateOutPtrBuffer(pv) \ ValidateOutBuffer(pv, sizeof(void *)) #define ValidateHugeOutBuffer(pv, n) \ (!IsValidHugePtrOut(pv, n) ? STG_E_INVALIDPOINTER : S_OK) #if DBG==1 #define ValidateIid(riid) \ (!IsValidIid(riid) ? STG_E_INVALIDPOINTER : S_OK) #else // killed this macro in retail build since it used to do no useful work // now we are faster. see comment for ValidateIid. #define ValidateIid(riid) S_OK #endif #define ValidateInterface(punk, riid) \ (!IsValidStgInterface(punk) ? STG_E_INVALIDPOINTER : S_OK) #if defined(OLEWIDECHAR) SCODE ValidateNameW(LPCWSTR pwcsName, UINT cchMax); #else // For non-Unicode builds, we verify all names before converting them // to wide character names, so there's no need to recheck. # define ValidateNameW(pwcs, cchMax) \ S_OK #endif // Enumeration for Get/SetTime enum WHICHTIME { WT_CREATION, WT_MODIFICATION, WT_ACCESS }; // Time type typedef FILETIME TIME_T; // Signature for transactioning typedef DWORD DFSIGNATURE; #define DF_INVALIDSIGNATURE ((DFSIGNATURE)-1) // Convenience macros for signature creation #define LONGSIG(c1, c2, c3, c4) \ (((ULONG) (BYTE) (c1)) | \ (((ULONG) (BYTE) (c2)) << 8) | \ (((ULONG) (BYTE) (c3)) << 16) | \ (((ULONG) (BYTE) (c4)) << 24)) #ifndef min #define min(a, b) ((a)<(b) ? (a) : (b)) #endif #ifndef max #define max(a, b) ((a)>(b) ? (a) : (b)) #endif SCODE DfGetTOD(TIME_T *ptm); // Shared signature validation routine SCODE CheckSignature(BYTE *pb); // Docfile locally unique identity // Every entry in a multistream has a LUID generated and stored for it typedef DWORD DFLUID; #define DF_NOLUID 0 typedef SNB SNBW; typedef STATSTG STATSTGW; #define CBSTORAGENAME (CWCSTORAGENAME*sizeof(WCHAR)) int dfwcsnicmp(const WCHAR *wcsa, const WCHAR *wcsb, size_t len); #include // Fast, fixed space iterator structure struct SIterBuffer { CDfName dfnName; DWORD type; }; //SID is a Stream Identifier #define SID DFSID typedef ULONG SID; // IsEntry entry information struct SEntryBuffer { DFLUID luid; DWORD dwType; SID sid; }; // Destroy flags #define DESTROY_FROM_HANDLE 0 #define DESTROY_FROM_ENTRY 1 #define DESTROY_FROM 0x01 #define DESTROY_SELF 0x40 #define DESTROY_RECURSIVE 0x80 #define DESTROY_HANDLE (DESTROY_FROM_HANDLE | DESTROY_SELF) #define DESTROY_ENTRY (DESTROY_FROM_ENTRY | DESTROY_SELF) // Root startup flags #define RSF_OPEN 0x00 #define RSF_CONVERT 0x01 #define RSF_TRUNCATE 0x02 #define RSF_CREATE 0x04 #define RSF_DELAY 0x08 #define RSF_DELETEONRELEASE 0x10 #define RSF_OPENCREATE 0x20 #define RSF_SCRATCH 0x40 #define RSF_SNAPSHOT 0x80 #define RSF_NO_BUFFERING 0x200 #define RSF_ENCRYPTED 0x400 #define RSF_SECTORSIZE4K 0xC000 #define RSF_SECTORSIZE8K 0xD000 #define RSF_SECTORSIZE16K 0xE000 #define RSF_SECTORSIZE32K 0xF000 #define RSF_SECTORSIZE_MASK 0xF000 // The sector size flags can be converted to sector shifts by >> 12 bits #define RSF_CREATEFLAGS (RSF_CREATE | RSF_TRUNCATE | RSF_OPENCREATE) #define RSF_TEMPFILE (RSF_SCRATCH | RSF_SNAPSHOT) // Stream copy buffer size ULONG const STREAMBUFFERSIZE = 8192; ULONG const LARGESTREAMBUFFERSIZE = 256*1024; // Docfile flags for permissions and other information kept // on streams and docfiles typedef DWORD DFLAGS; #define DF_TRANSACTEDSELF 0x0001 #define DF_TRANSACTED 0x0002 #define DF_DIRECT 0x0000 #define DF_INDEPENDENT 0x0004 #define DF_DEPENDENT 0x0000 #define DF_COMMIT 0x0008 #define DF_ABORT 0x0000 #define DF_INVALID 0x0010 #define DF_REVERTED 0x0020 #define DF_NOTREVERTED 0x0000 #define DF_READ 0x0040 #define DF_WRITE 0x0080 #define DF_READWRITE (DF_READ | DF_WRITE) #define DF_DENYREAD 0x0100 #define DF_DENYWRITE 0x0200 #define DF_DENYALL (DF_DENYREAD | DF_DENYWRITE) #define DF_PRIORITY 0x0400 #define DF_CREATE 0x0800 #define DF_CACHE 0x1000 #define DF_NOUPDATE 0x2000 #define DF_NOSCRATCH 0x4000 #if WIN32 >= 300 #define DF_ACCESSCONTROL 0x8000 #endif #define DF_COORD 0x10000 #define DF_COMMITTING 0x20000 #define DF_NOSNAPSHOT 0x40000 // docfile can be bigger than 4G #define DF_LARGE 0x80000 // Shift required to translate from DF_READWRITE to DF_DENYALL #define DF_DENIALSHIFT 2 // Permission abstraction macros // These only work with DF_* flags #define P_READ(f) ((f) & DF_READ) #define P_WRITE(f) ((f) & DF_WRITE) #define P_READWRITE(f) (((f) & (DF_READ | DF_WRITE)) == (DF_READ | DF_WRITE)) #define P_DENYREAD(f) ((f) & DF_DENYREAD) #define P_DENYWRITE(f) ((f) & DF_DENYWRITE) #define P_DENYALL(f) (((f) & (DF_DENYREAD | DF_DENYWRITE)) == \ (DF_DENYREAD | DF_DENYWRITE)) #define P_PRIORITY(f) ((f) & DF_PRIORITY) #define P_TRANSACTED(f) ((f) & DF_TRANSACTED) #define P_DIRECT(f) (!P_TRANSACTED(f)) #define P_INDEPENDENT(f) (((DFLAGS)f) & DF_INDEPENDENT) #define P_DEPENDENT(f) (!P_INDEPENDENT(f)) #define P_TSELF(f) ((f) & DF_TRANSACTEDSELF) #define P_INVALID(f) ((f) & DF_INVALID) #define P_REVERTED(f) ((f) & DF_REVERTED) #define P_COMMIT(f) ((f) & DF_COMMIT) #define P_ABORT(f) (!P_COMMIT(f)) #define P_CREATE(f) ((f) & DF_CREATE) #define P_CACHE(f) ((f) & DF_CACHE) #define P_NOUPDATE(f) ((f) & DF_NOUPDATE) #define P_COORD(f) ((f) & DF_COORD) #define P_COMMITTING(f) ((f) & DF_COMMITTING) #define P_NOSCRATCH(f) ((f) & DF_NOSCRATCH) #define P_NOSNAPSHOT(f) ((f) & DF_NOSNAPSHOT) // Translation functions DFLAGS ModeToDFlags(DWORD const dwModeFlags); DWORD DFlagsToMode(DFLAGS const df); // Flags for what state has been dirtied #define DIRTY_CREATETIME 0x0001 #define DIRTY_MODIFYTIME 0x0002 #define DIRTY_ACCESSTIME 0x0004 #define DIRTY_CLASS 0x0008 #define DIRTY_STATEBITS 0x0010 // Allow text in asserts #define aMsg(s) ((char *)(s) != NULL) // Indicate that something is a property value // This must not conflict with official STGTY_* flags #define STGTY_REAL (STGTY_STORAGE | STGTY_STREAM | STGTY_LOCKBYTES) #define REAL_STGTY(f) (f) // Buffer management #ifdef LARGE_DOCFILE #define CB_LARGEBUFFER 65536 #else #define CB_LARGEBUFFER 32768 #endif #define CB_PAGEBUFFER 4096 #define CB_SMALLBUFFER 512 extern SCODE GetBuffer(ULONG cbMin, ULONG cbMax, BYTE **ppb, ULONG *pcbActual); extern void GetSafeBuffer(ULONG cbMin, ULONG cbMax, BYTE **ppb, ULONG *pcbActual); extern void FreeBuffer(BYTE *pb); #include #define DfAllocWC(cwc, ppwcs) (*ppwcs = (WCHAR *)\ TaskMemAlloc((cwc)*sizeof(WCHAR)),\ (*ppwcs != NULL) ? S_OK: STG_E_INSUFFICIENTMEMORY) #define DfAllocWCS(pwcs, ppwcs) DfAllocWC(lstrlenW(pwcs)+1, ppwcs) SCODE Win32ErrorToScode(DWORD dwErr); #define STG_SCODE(err) Win32ErrorToScode(err) #ifdef MULTIHEAP //+------------------------------------------------------------------------ // // Macro: SAFE_DFBASED_PTR // // Purpose: Pointer to memory created by shared memory allocator. // This macro replaces the __based() compiler keyword // Only the offset is stored in _p, and conversion operators // return the absolute address (by adding the base address). // The smart pointer can only change through: // construction, assignment operator= // The smart pointer can be read through: // operator->, operator*, (casting to unbased type) // Destroying the smart pointer does not invoke _p's destructor // // Notes: There is special logic to translate a NULL based pointer // into a NULL absolute pointer, and vice versa. // We can do this without ambiguity since DFBASEPTR can // never be returned from CSmAlllocator::Alloc // (DFBASEPTR is really a CHeapHeader pointer, part of the heap) // // Arguments: [SpName] - class name of the smart based pointer // [SpType] - class name of the original unbased type // // History: 22-Feb-96 HenryLee Created // //------------------------------------------------------------------------- #define SAFE_DFBASED_PTR(SpName,SpType) \ class SpName \ { \ public: \ inline SpName () : _p(NULL) \ { \ } \ inline SpName (SpType *p) \ { \ _p = (p) ? (ULONG_PTR)((BYTE*)p - (ULONG_PTR)DFBASEPTR) : NULL; \ } \ inline ~##SpName () \ { \ } \ __forceinline SpType* operator-> () const \ { \ return (SpType *)(_p ? (BYTE *)_p + (ULONG_PTR)DFBASEPTR : NULL); \ } \ __forceinline SpType& operator * () const \ { \ return * (SpType *)(_p ? (BYTE *)_p + (ULONG_PTR)DFBASEPTR : NULL); \ } \ __forceinline operator SpType* () const \ { \ return (SpType *)(_p ? (BYTE *)_p + (ULONG_PTR)DFBASEPTR : NULL); \ } \ __forceinline SpType* operator= (SpType* p) \ { \ _p = (p) ? (ULONG_PTR)((BYTE*)p - (ULONG_PTR)DFBASEPTR) : NULL; \ return p; \ } \ private: \ ULONG_PTR _p; \ }; \ #else #define SAFE_DFBASED_PTR(SpName,SpType) \ typedef SpType DFBASED * SpName; #endif // MULTIHEAP #include #ifndef STG_E_PENDINGCONTROL #define STG_E_PENDINGCONTROL _HRESULT_TYPEDEF_(0x80030204L) #endif #endif // #ifndef __DFMSP_HXX__