//+------------------------------------------------------------------------- // // Microsoft Windows // Copyright (C) Microsoft Corporation, 1992 - 1993. // // File: propstg.hxx // // Contents: Class that directly implements IPropertyStorage // // Classes: CCoTaskAllocator // CPropertyStorage // CEnumSTATPROPSTG // // Functions: // // Notes: // //-------------------------------------------------------------------------- #include "../h/ref.hxx" #include "h/stgprops.hxx" //+------------------------------------------------------------------------- // // Class: CCoTaskAllocator // // Purpose: Class used by RtlQueryProperties to allocate memory. // //-------------------------------------------------------------------------- class CCoTaskAllocator : public PMemoryAllocator { public: virtual void *Allocate(ULONG cbSize); virtual void Free(void *pv); }; //+------------------------------------------------------------------------- // // Class: CPropertyStorage // // Purpose: Implements IPropertyStorage for docfile and native file systems. // // Notes: This class uses the functionality provided by // RtlCreatePropertySet, RtlSetProperties, RtlQueryProperties etc // to manipulate the property set stream. // // The constructors (one for create, one for open) create // an NTPROP (expected by RtlSetProperties etc) with the // correct type of NTMAPPEDSTREAM (CExposedStream::CPubMappedStream // to handle making a docfile stream look like a real memory mapped // stream, and CNtMappedStream, created by RtlCreateMappedStream, // for native file systems.) // //-------------------------------------------------------------------------- #define PROPERTYSTORAGE_SIG LONGSIG('P','R','P','S') #define PROPERTYSTORAGE_SIGDEL LONGSIG('P','R','P','s') #define PROPERTYSTORAGE_SIGZOMBIE LONGSIG('P','R','P','z') #define ENUMSTATPROPSTG_SIG LONGSIG('E','P','S','S') #define ENUMSTATPROPSTG_SIGDEL LONGSIG('E','P','S','s') class CPropertyStorage : public IPropertyStorage { public: CPropertyStorage( // create ctor IPrivateStorage * pprivstg, REFFMTID rfmtid, const CLSID * pclsid, DWORD grfFlags, DWORD grfMode, HRESULT * phr); CPropertyStorage( // open ctor IPrivateStorage * pprivstg, REFFMTID rfmtid, DWORD grfMode, BOOL fDelete, HRESULT * phr); ~CPropertyStorage(); // IUnknown STDMETHOD(QueryInterface)(REFIID riid, void **ppvObject); STDMETHOD_(ULONG, AddRef)(void); STDMETHOD_(ULONG, Release)(void); // IPropertyStorage STDMETHOD(ReadMultiple)( ULONG cpspec, const PROPSPEC rgpspec[], PROPVARIANT rgpropvar[]); STDMETHOD(WriteMultiple)( ULONG cpspec, const PROPSPEC rgpspec[], const PROPVARIANT rgpropvar[], PROPID propidNameFirst); STDMETHOD(DeleteMultiple)( ULONG cpspec, const PROPSPEC rgpspec[]); STDMETHOD(ReadPropertyNames)( ULONG cpropid, const PROPID rgpropid[], LPOLESTR rglpwstrName[]); STDMETHOD(WritePropertyNames)( ULONG cpropid, const PROPID rgpropid[], const LPOLESTR rglpwstrName[]); STDMETHOD(DeletePropertyNames)( ULONG cpropid, const PROPID rgpropid[]); STDMETHOD(Commit)(DWORD grfCommitFlags); STDMETHOD(Revert)(); STDMETHOD(Enum)(IEnumSTATPROPSTG ** ppenum); STDMETHOD(SetTimes)( FILETIME const * pctime, FILETIME const * patime, FILETIME const * pmtime); STDMETHOD(SetClass)(REFCLSID clsid); STDMETHOD(Stat)(STATPROPSETSTG * pstatpsstg); // used by implementation helper classes inline NTPROP GetNtPropSetHandle(void) { return _np; } private: VOID Initialize(); HRESULT InitializePropertyStream( USHORT Flags, const GUID * pguid, GUID const * pclsid); HRESULT _WriteMultiple( ULONG cpspec, const PROPSPEC rgpspec[], const PROPVARIANT rgpropvar[], PROPID propidNameFirst); HRESULT _WritePropertyNames( ULONG cpropid, const PROPID rgpropid[], const LPOLESTR rglpwstrName[]); HRESULT HandleLowMemory(); HRESULT _CreateDocumentSummary2Stream( IStorage * pstg, CPropSetName & psn, DWORD grfMode, BOOL * fCreated); inline HRESULT Validate(); inline HRESULT ValidateRef(); inline HRESULT ValidateRGPROPSPEC( ULONG cpspec, const PROPSPEC rgpropspec[] ); inline HRESULT ValidateInRGPROPVARIANT( ULONG cpspec, const PROPVARIANT rgpropvar[] ); inline HRESULT ValidateOutRGPROPVARIANT( ULONG cpspec, PROPVARIANT rgpropvar[] ); inline HRESULT ValidateRGPROPID( ULONG cpropid, const PROPID rgpropid[] ); inline HRESULT ValidateInRGLPOLESTR( ULONG cpropid, const LPOLESTR rglpwstrName[] ); inline HRESULT ValidateOutRGLPOLESTR( ULONG cpropid, LPOLESTR rglpwstrName[] ); inline BOOL IsSimple(); inline HRESULT IsWriteable(); inline HRESULT IsReadable(); inline DWORD GetCreationMode(); inline HRESULT IsReverted(); private: ULONG _ulSig; LONG _cRefs; IStorage * _pstgPropSet; IStream * _pstmPropSet; NTPROP _np; NTMAPPEDSTREAM _ms; // We need to remember if the property set is the second section // of the DocumentSummaryInformation property set used by Office. This // is the only case where we support a multiple-section property set, and // requires special handling in ::Revert(). BOOL _fUserDefinedProperties; USHORT _usCodePage; // Ansi Codepage or Mac Script // (disambiguate with _dwOSVersion) ULONG _dwOSVersion; // Shows the OS Kind, major/minor version DWORD _grfFlags; // PROPSETFLAG_NONSIMPLE and PROPSETFLAG_ANSI DWORD _grfAccess; // grfMode & 3 DWORD _grfShare; // grfMode & 0xF0 }; //+------------------------------------------------------------------- // // Member: CPropertyStorage::Validate // // Synopsis: S_OK if signature valid and not zombie. // // Notes: If the Revert calls fails due to low memory, then // the object becomes a zombie. // //-------------------------------------------------------------------- inline HRESULT CPropertyStorage::Validate() { if (_ulSig == PROPERTYSTORAGE_SIG) return S_OK; else if (_ulSig == PROPERTYSTORAGE_SIGZOMBIE) return STG_E_INSUFFICIENTMEMORY; else return STG_E_INVALIDHANDLE; } //+------------------------------------------------------------------- // // Member: CPropertyStorage::ValidateRef // // Synopsis: S_OK if signature valid. // //-------------------------------------------------------------------- inline HRESULT CPropertyStorage::ValidateRef() { if (_ulSig == PROPERTYSTORAGE_SIG || _ulSig == PROPERTYSTORAGE_SIGZOMBIE) return(S_OK); else return(STG_E_INVALIDHANDLE); } //+------------------------------------------------------------------- // // Member: CPropertyStorage::ValidateRGPROPSPEC // // Synopsis: S_OK if PROPSPEC[] is valid // E_INVALIDARG otherwise. // //-------------------------------------------------------------------- inline HRESULT CPropertyStorage::ValidateRGPROPSPEC( ULONG cpspec, const PROPSPEC rgpropspec[] ) { HRESULT hr = E_INVALIDARG; // Validate the array itself. VDATESIZEREADPTRIN_LABEL(rgpropspec, cpspec * sizeof(PROPSPEC), errRet, hr); // Validate the elements of the array. for( ; cpspec > 0; cpspec-- ) { // Is this an LPWSTR? if( PRSPEC_LPWSTR == rgpropspec[cpspec-1].ulKind ) { // We better at least be able to read the first // character. VDATEREADPTRIN_LABEL(rgpropspec[cpspec-1].lpwstr, WCHAR, errRet, hr); } // Otherwise, this better be a PROPID. else if( PRSPEC_PROPID != rgpropspec[cpspec-1].ulKind ) { goto errRet; } } hr = S_OK; // ---- // Exit // ---- errRet: return( hr ); } //+------------------------------------------------------------------- // // Member: CPropertyStorage::ValidateInRGPROPVARIANT // // Synopsis: S_OK if PROPVARIANT[] is valid for Read. // E_INVALIDARG otherwise. // //-------------------------------------------------------------------- inline HRESULT CPropertyStorage::ValidateInRGPROPVARIANT( ULONG cpspec, const PROPVARIANT rgpropvar[] ) { UNREFERENCED_PARM(cpspec); // We verify that we can read the whole PropVariant[], but // we don't validate the content of those elements. HRESULT hr; VDATESIZEREADPTRIN_LABEL(rgpropvar, cpspec * sizeof(PROPVARIANT), errRet, hr); hr = S_OK; errRet: return( hr ); } //+------------------------------------------------------------------- // // Member: CPropertyStorage::ValidateOutRGPROPVARIANT // // Synopsis: S_OK if PROPVARIANT[] is valid for Write. // E_INVALIDARG otherwise. // //-------------------------------------------------------------------- inline HRESULT CPropertyStorage::ValidateOutRGPROPVARIANT( ULONG cpspec, PROPVARIANT rgpropvar[] ) { UNREFERENCED_PARM(cpspec); // We verify that we can write the whole PropVariant[], but // we don't validate the content of those elements. HRESULT hr; VDATESIZEPTROUT_LABEL(rgpropvar, cpspec * sizeof(PROPVARIANT), errRet, hr); hr = S_OK; errRet: return( hr ); } //+------------------------------------------------------------------- // // Member: CPropertyStorage::ValidateRGPROPID // // Synopsis: S_OK if RGPROPID[] is valid for Read. // E_INVALIDARG otherwise. // //-------------------------------------------------------------------- inline HRESULT CPropertyStorage::ValidateRGPROPID( ULONG cpropid, const PROPID rgpropid[] ) { HRESULT hr; UNREFERENCED_PARM(cpropid); VDATESIZEREADPTRIN_LABEL( rgpropid, cpropid * sizeof(PROPID), errRet, hr ); hr = S_OK; errRet: return( hr ); } //+------------------------------------------------------------------- // // Member: CPropertyStorage::ValidateOutRGLPOLESTR. // // Synopsis: S_OK if LPOLESTR[] is valid for Write. // E_INVALIDARG otherwise. // //-------------------------------------------------------------------- inline HRESULT CPropertyStorage::ValidateOutRGLPOLESTR( ULONG cpropid, LPOLESTR rglpwstrName[] ) { UNREFERENCED_PARM(cpropid); HRESULT hr; VDATESIZEPTROUT_LABEL( rglpwstrName, cpropid * sizeof(LPOLESTR), errRet, hr ); hr = S_OK; errRet: return( hr ); } //+------------------------------------------------------------------- // // Member: CPropertyStorage::ValidateInRGLPOLESTR // // Synopsis: S_OK if LPOLESTR[] is valid for Read. // E_INVALIDARG otherwise. // //-------------------------------------------------------------------- inline HRESULT CPropertyStorage::ValidateInRGLPOLESTR( ULONG cpropid, const LPOLESTR rglpwstrName[] ) { // Validate that we can read the entire vector. HRESULT hr; VDATESIZEREADPTRIN_LABEL( rglpwstrName, cpropid * sizeof(LPOLESTR), errRet, hr ); // Validate that we can at least read the first character of // each of the strings. for( ; cpropid > 0; cpropid-- ) { VDATEREADPTRIN_LABEL( rglpwstrName[cpropid-1], WCHAR, errRet, hr ); } hr = S_OK; errRet: return( hr ); } //+------------------------------------------------------------------- // // Member: CPropertyStorage::IsSimple // // Synopsis: true if simple // //-------------------------------------------------------------------- inline BOOL CPropertyStorage::IsSimple() { PROPASSERT((_grfFlags & PROPSETFLAG_NONSIMPLE) == 0); return TRUE; // always simple fo reference implementation } //+------------------------------------------------------------------- // // Member: CPropertyStorage::IsWriteable // // Synopsis: S_OK if writeable otherwise STG_E_ACCESSDENIED // //-------------------------------------------------------------------- inline HRESULT CPropertyStorage::IsWriteable() { return (_grfAccess == STGM_WRITE || _grfAccess == STGM_READWRITE) ? S_OK : STG_E_ACCESSDENIED; } //+------------------------------------------------------------------- // // Member: CPropertyStorage::IsReadable // // Synopsis: S_OK if readable otherwise STG_E_ACCESSDENIED // //-------------------------------------------------------------------- inline HRESULT CPropertyStorage::IsReadable() { return (_grfAccess == STGM_READ || _grfAccess == STGM_READWRITE) ? S_OK : STG_E_ACCESSDENIED; } //+------------------------------------------------------------------- // // Member: CPropertyStorage::IsReverted // // Synopsis: S_OK if not reverted, STG_E_REVERTED otherwise. // //-------------------------------------------------------------------- inline HRESULT CPropertyStorage::IsReverted() { // note that although there is no transacted mode in ref, // it could still be possible that the parent has been deleted // and cause STG_E_REVERTED to be returned. IUnknown *punk; HRESULT hr = ((IUnknown*)_pstmPropSet) -> QueryInterface(IID_IUnknown, (void**)&punk); if (hr == S_OK) { punk->Release(); } return(hr); } //+------------------------------------------------------------------------- // // Class: CStatArray // // Purpose: Class to allow sharing of enumeration STATPROPSTG state. // // Interface: CStatArray -- Enumerate entire NTPROP np. // NextAt -- Perform an OLE-type Next operation starting at // specified offset. // AddRef -- for sharing of this by CEnumSTATPROPSTG // Release -- ditto // // Notes: Each IEnumSTATPROPSTG instance has a reference to a // CStatArray. When IEnumSTATPROPSTG::Clone is called, a // new reference to the extant CStatArray is used: no copying. // // The CEnumSTATPROPSTG has a cursor into the CStatArray. // //-------------------------------------------------------------------------- class CStatArray { public: CStatArray(NTPROP np, HRESULT *phr); NTSTATUS NextAt(ULONG ipropNext, STATPROPSTG *pspsDest, ULONG *pceltFetched); inline VOID AddRef(); inline VOID Release(); ~CStatArray(); private: LONG _cRefs; STATPROPSTG * _psps; ULONG _cpropActual; }; //+------------------------------------------------------------------- // // Member: CStatArray::AddRef // // Synopsis: Increment ref count. // //-------------------------------------------------------------------- inline VOID CStatArray::AddRef() { InterlockedIncrement(&_cRefs); } //+------------------------------------------------------------------- // // Member: CStatArray::AddRef // // Synopsis: Decrement ref count and delete object if refs == 0. // //-------------------------------------------------------------------- inline VOID CStatArray::Release() { if (0 == InterlockedDecrement(&_cRefs)) delete this; } //+------------------------------------------------------------------------- // // Class: CEnumSTATPROPSTG // // Purpose: Implement IEnumSTATPROPSTG // // Notes: Just holds a reference to a CStatArray that contains // a static copy of the enumeration when the original // Enum call was made. This object contains the cursor // into the CStatArray. // //-------------------------------------------------------------------------- NTSTATUS CopySTATPROPSTG(ULONG celt, STATPROPSTG * pspsDest, const STATPROPSTG * pspsSrc); VOID CleanupSTATPROPSTG(ULONG celt, STATPROPSTG * psps); class CEnumSTATPROPSTG : public IEnumSTATPROPSTG { public: CEnumSTATPROPSTG(NTPROP np, HRESULT *phr); CEnumSTATPROPSTG(const CEnumSTATPROPSTG &other, HRESULT *phr); ~CEnumSTATPROPSTG(); STDMETHOD(QueryInterface)( REFIID riid, void **ppvObject); STDMETHOD_(ULONG, AddRef)(void); STDMETHOD_(ULONG, Release)(void); STDMETHOD(Next)(ULONG celt, STATPROPSTG * rgelt, ULONG * pceltFetched); // We don't need RemoteNext. STDMETHOD(Skip)(ULONG celt); STDMETHOD(Reset)(); STDMETHOD(Clone)(IEnumSTATPROPSTG ** ppenum); private: HRESULT Validate(); ULONG _ulSig; LONG _cRefs; CStatArray * _psa; ULONG _ipropNext; }; //+------------------------------------------------------------------- // // Member: CEnumSTATPROPSTG::Validate // // Synopsis: S_OK if signature is valid, otherwise error // //-------------------------------------------------------------------- inline HRESULT CEnumSTATPROPSTG::Validate() { return _ulSig == ENUMSTATPROPSTG_SIG ? S_OK : STG_E_INVALIDHANDLE; }