//+-------------------------------------------------------------------------- // // Microsoft Windows // Copyright (C) Microsoft Corporation, 1994 // // File: ntpropb.cxx // // Contents: Nt property set implementation based on OLE Appendix B. // // History: // 5-Dec-94 vich created // 09-May-96 MikeHill Use the 'boolVal' member of PropVariant, // rather than the member named 'bool' // (which is a reserved keyword). // 22-May-96 MikeHill - Get the OSVersion during a CreatePropSet. // - Let CPropSetStm allocate prop name buffers. // 07-Jun-96 MikeHill - Correct ClipData.cbSize to include // sizeof(ulClipFmt). // - Removed unnecessary Flushes. // - Take the psstm lock on RtlClosePropSet. // 12-Jun-96 MikeHill - Fix locking in RtlClosePropertySet. // - VT_I1 support (under ifdefs) // 25-Jul-96 MikeHill - Removed Win32 SEH. // - BSTRs & prop names: WCHAR => OLECHAR. // - Added RtlOnMappedStreamEvent // - Enabled for use in "iprop.dll". // 03-Mar-98 MikeHill - Chagned "Pr" routines to "Stg". // 06-May-98 MikeHill - Removed UnicodeCallouts. // - Use CoTaskMem rather than new/delete. // - Added support for VT_VECTOR|VT_I1 // 18-May-98 MikeHill - Fixed typos. // 11-June-98 MikeHIll - Removed some old Cairo code. // - Dbg output. // - Add a pCodePage to PrSetProperties. // //--------------------------------------------------------------------------- #include #include "propvar.h" #include #include #define Dbg DEBTRACE_NTPROP #define DbgS(s) (NT_SUCCESS(s)? Dbg : DEBTRACE_ERROR) #if DBG ULONG DebugLevel = DEBTRACE_ERROR; //ULONG DebugLevel = DEBTRACE_ERROR | DEBTRACE_CREATESTREAM; //ULONG DebugLevel = DEBTRACE_ERROR | MAXULONG; ULONG DebugIndent; ULONG cAlloc; ULONG cFree; #endif #if defined(WINNT) && !defined(IPROPERTY_DLL) GUID guidStorage = PSGUID_STORAGE; #endif // #if defined(WINNT) && !defined(IPROPERTY_DLL) //+--------------------------------------------------------------------------- // Function: UnLock, private // // Synopsis: Unlock a PropertySetStream, and return the // more severe of two NTSTATUSs; the result of // the Unlock, or the one passed in by the caller. // // Arguments: [ppsstm] -- The CPropertySetStream to unlock // [Status] -- NTSTATUS // // Returns: NTSTATUS //--------------------------------------------------------------------------- inline NTSTATUS Unlock( CPropertySetStream *ppsstm, NTSTATUS Status ) { NTSTATUS StatusT = ppsstm->Unlock(); // Note that the statement below preserves // success codes in the original Status unless // there was an error in the Unlock. if( NT_SUCCESS(Status) && !NT_SUCCESS(StatusT) ) Status = StatusT; return( Status ); } //+--------------------------------------------------------------------------- // Function: PrCreatePropertySet, public // // Synopsis: Allocate and initialize a property set context // // Arguments: [ms] -- Nt Mapped Stream // [Flags] -- *one* of READ/WRITE/CREATE/CREATEIF/DELETE // [pguid] -- property set guid (create only) // [pclsid] -- CLASSID of propset code (create only) // [ma] -- caller's memory allocator // [LocaleId] -- Locale Id (create only) // [pOSVersion] -- pointer to the OS Version header field // [pCodePage] -- pointer to new/returned CodePage of propset // [pgrfBehavior] -- pointer to PROPSET_BEHAVIOR_* flags // [pnp] -- pointer to returned property set context // // Returns: Status code //--------------------------------------------------------------------------- NTSTATUS PrCreatePropertySet( IN NTMAPPEDSTREAM ms, // Nt Mapped Stream IN USHORT Flags, // *one* of READ/WRITE/CREATE/CREATEIF/DELETE OPTIONAL IN GUID const *pguid, // property set guid (create only) OPTIONAL IN GUID const *pclsid, // CLASSID of propset code (create only) IN NTMEMORYALLOCATOR ma, // caller's memory allocator IN ULONG LocaleId, // Locale Id (create only) OPTIONAL OUT ULONG *pOSVersion, // OS Version from the propset header IN OUT USHORT *pCodePage, // IN: CodePage of property set (create only) // OUT: CodePage of property set (always) IN OUT DWORD *pgrfBehavior, // IN: Behavior of property set (create only) // OUT: Behavior of property set (always) OUT NTPROP *pnp) // pointer to return prop set context { NTSTATUS Status; IMappedStream *pmstm = (IMappedStream *) ms; CPropertySetStream *ppsstm = NULL; BOOLEAN fLocked = FALSE; BOOLEAN fOpened = FALSE; IFDBG( HRESULT &hr = Status ); propITraceStatic( "PrCreatePropertySet" ); propTraceParameters(( "ms=%p, f=0x%x, codepage=0x%x)", ms, Flags, *pCodePage )); *pnp = NULL; Status = STATUS_INVALID_PARAMETER; if( pOSVersion != NULL ) *pOSVersion = PROPSETHDR_OSVERSION_UNKNOWN; // Validate the input flags if (Flags & ~(CREATEPROP_MODEMASK | CREATEPROP_NONSIMPLE)) { propDbg(( DEB_ERROR, "PrCreatePropertySet(ms=%x, Flags=%x) ==> bad flags!\n", ms, Flags)); goto Exit; } PROPASSERT( (0 == *pgrfBehavior) || (CREATEPROP_CREATE & Flags) ); PROPASSERT( !(*pgrfBehavior & ~PROPSET_BEHAVIOR_CASE_SENSITIVE) ); switch (Flags & CREATEPROP_MODEMASK) { case CREATEPROP_DELETE: case CREATEPROP_CREATE: case CREATEPROP_CREATEIF: case CREATEPROP_WRITE: if (!pmstm->IsWriteable()) { Status = STATUS_ACCESS_DENIED; goto Exit; } // FALLTHROUGH case CREATEPROP_READ: case CREATEPROP_UNKNOWN: if (ma == NULL) { goto Exit; } break; default: propDbg(( DEB_ERROR, "PrCreatePropertySet(ms=%x, Flags=%x) ==> invalid mode!\n", ms, Flags)); goto Exit; } Status = pmstm->Lock((Flags & CREATEPROP_MODEMASK) != CREATEPROP_READ); if( !NT_SUCCESS(Status) ) goto Exit; fLocked = TRUE; ppsstm = new CPropertySetStream( Flags, pmstm, (PMemoryAllocator *) ma); if (ppsstm == NULL) { Status = STATUS_INSUFFICIENT_RESOURCES; goto Exit; } else { ppsstm->Open(pguid, pclsid, LocaleId, pOSVersion, *pCodePage, *pgrfBehavior, &Status); if( !NT_SUCCESS(Status) ) goto Exit; } // ---- // Exit // ---- Exit: if (fLocked) { NTSTATUS StatusT = Status; if( ppsstm ) ppsstm->Unlock(); else pmstm->Unlock(); if( NT_SUCCESS(Status) && !NT_SUCCESS(StatusT) ) Status = StatusT; } // If we were successfull with everything, set the // out-parameters. if( NT_SUCCESS(Status) ) { // pOSVersion has already been set. *pCodePage = ppsstm->GetCodePage(); *pgrfBehavior = ppsstm->GetBehavior(); *pnp = (NTPROP) ppsstm; } // Otherwise, if we created a CPropertySetStream object, but // the overall operation failed, we must close/delete // the object. Note that we must do this after // the above unlock, since ppsstm will be gone after // this call. else if( NULL != ppsstm ) { PrClosePropertySet((NTPROP) ppsstm); } if( STATUS_PROPSET_NOT_FOUND == Status ) propSuppressExitErrors(); return(Status); } //+--------------------------------------------------------------------------- // Function: PrClosePropertySet, public // // Synopsis: Delete a property set context // // Arguments: [np] -- property set context // // Returns: Status code //--------------------------------------------------------------------------- NTSTATUS PrClosePropertySet( IN NTPROP np) // property set context { NTSTATUS Status = STATUS_SUCCESS; BOOL fLocked = FALSE; CPropertySetStream *ppsstm = (CPropertySetStream *) np; IFDBG( HRESULT &hr = Status ); propITraceStatic( "PrClosePropertySet" ); propTraceParameters(( "np=%p", np )); // Lock the mapped stream, because this close // may trigger a Write. Status = ppsstm->Lock(TRUE); if( !NT_SUCCESS(Status) ) goto Exit; fLocked = TRUE; // Note that we haven't ReOpen-ed the mapped stream. This // isn't required for the CPropertySetStream::Close method. ppsstm->Close(&Status); if( !NT_SUCCESS(Status) ) goto Exit; // ---- // Exit // ---- Exit: if (fLocked) Status = Unlock( ppsstm, Status ); if( STG_E_REVERTED == Status ) propSuppressExitErrors(); delete ppsstm; return(Status); } //+--------------------------------------------------------------------------- // Function: PrOnMappedStreamEvent, public // // Synopsis: Handle a MappedStream event. Every such // event requires a byte-swap of the property set // headers. // // Arguments: [np] -- property set context // [pbuf] -- property set buffer // [cbstm] -- size of mapped stream (or CBSTM_UNKNOWN) // // NOTE: It is assumed that the caller has already taken // the CPropertySetStream::Lock. // // Returns: Status code //--------------------------------------------------------------------------- NTSTATUS PrOnMappedStreamEvent( IN VOID * np, // property set context (an NTPROP) IN VOID *pbuf, // property set buffer IN ULONG cbstm ) { NTSTATUS Status = STATUS_SUCCESS; CPropertySetStream *ppsstm = (CPropertySetStream *) np; IFDBG( HRESULT &hr = Status ); propITraceStatic( "PrOnMappedStreamEvent" ); propTraceParameters(( "np=%p, pbuf=%p, cbstm=%lu", np, pbuf, cbstm )); // Byte-swap the property set headers. ppsstm->ByteSwapHeaders((PROPERTYSETHEADER*) pbuf, cbstm, &Status ); if( !NT_SUCCESS(Status) ) goto Exit; // ---- // Exit // ---- Exit: return(Status); } // PrOnMappedStreamEvent() //+--------------------------------------------------------------------------- // Function: PrFlushPropertySet, public // // Synopsis: Flush property set changes to disk // // Arguments: [np] -- property set context // // Returns: Status code //--------------------------------------------------------------------------- NTSTATUS PrFlushPropertySet( IN NTPROP np) // property set context { CPropertySetStream *ppsstm = (CPropertySetStream *) np; NTSTATUS Status = STATUS_SUCCESS; BOOL fLocked = FALSE; IFDBG( HRESULT &hr = Status ); propITraceStatic( "PrFlushPropertySet" ); propTraceParameters(( "np=%p", np )); Status = ppsstm->Lock(TRUE); if( !NT_SUCCESS(Status) ) goto Exit; fLocked = TRUE; if (ppsstm->IsModified()) { ppsstm->ReOpen(&Status); // Reload header/size info if( !NT_SUCCESS(Status) ) goto Exit; ppsstm->Validate(&Status); if( !NT_SUCCESS(Status) ) goto Exit; ppsstm->Flush(&Status); if( !NT_SUCCESS(Status) ) goto Exit; ppsstm->Validate(&Status); if( !NT_SUCCESS(Status) ) goto Exit; } Exit: if( fLocked ) Status = Unlock( ppsstm, Status ); return(Status); } //+--------------------------------------------------------------------------- // Function: MapNameToPropId, private // // Synopsis: Find an available propid and map it to the passed name // // Arguments: [ppsstm] -- property set stream // [CodePage] -- property set codepage // [aprs] -- array of property specifiers // [cprop] -- count of property specifiers // [iprop] -- index of propspec with name to map // [pidStart] -- first PROPID to start mapping attempts // [pstatus] -- NTSTATUS code // // Returns: PROPID mapped to passed name // // Note: Find the first unused propid starting at pidStart. //--------------------------------------------------------------------------- PROPID MapNameToPropId( IN CPropertySetStream *ppsstm, // property set stream IN USHORT CodePage, IN PROPSPEC const aprs[], // array of property specifiers IN ULONG cprop, IN ULONG iprop, IN PROPID pidStart, OUT NTSTATUS *pstatus) { PROPID pid = PID_ILLEGAL; const OLECHAR *poszName = NULL; OLECHAR *poszNameFromDictionary = NULL; ULONG cbName; *pstatus = STATUS_SUCCESS; PROPASSERT(aprs[iprop].ulKind == PRSPEC_LPWSTR); poszName = aprs[iprop].lpwstr; PROPASSERT(IsOLECHARString( poszName, MAXULONG )); IFDBG( HRESULT &hr = *pstatus ); propITraceStatic( "MapNameToPropId" ); propTraceParameters(( "ppsstm=%p, CodePage=%d, aprs=%p, cprop=%d, iprop=%d, pidStart=%d", ppsstm, CodePage, aprs, cprop, iprop, pidStart )); // Starting with the caller-provided PID, search sequentially // until we find a PID we can use. for (pid = pidStart; ; pid++) { ULONG i; // The caller must specify a starting propid of 2 or larger, and we // must not increment into the reserved propids. if (pid == PID_DICTIONARY || pid == PID_CODEPAGE || pid < PID_FIRST_USABLE) { *pstatus = STATUS_INVALID_PARAMETER; goto Exit; } // Do not assign any propids that explitly appear in the array of // propspecs involved in this PrSetProperties call, nor any propids // that are associated with any names in the propspec array. for (i = 0; i < cprop; i++) { if (i != iprop) // skip the entry we are mapping { // Is the current PID in the PropSpec[]? if (aprs[i].ulKind == PRSPEC_PROPID && aprs[i].propid == pid) { goto nextpid; // skip colliding pid } // Is the current PID already used in the property set? if (aprs[i].ulKind == PRSPEC_LPWSTR && ppsstm->QueryPropid(aprs[i].lpwstr, pstatus) == pid) { goto nextpid; // skip colliding pid } if( !NT_SUCCESS(*pstatus) ) goto Exit; } } // for (i = 0; i < cprop; i++) // Do not assign any propids that currently map to any name. // Note that the property name we are mapping does not appear in the // dictionary -- the caller checked for this case already. if( ppsstm->QueryPropertyNames( 1, &pid, &poszNameFromDictionary, pstatus )) { CoTaskMemFree( poszNameFromDictionary ); poszNameFromDictionary = NULL; } else { // The property name could not be found in the dictionary. ULONG cbT; SERIALIZEDPROPERTYVALUE const *pprop; PROPASSERT( NULL == poszNameFromDictionary ); // Was the name not found due to an error in QueryPropertyNameBuf? if( !NT_SUCCESS(*pstatus) ) goto Exit; // Do not assign any propids that currently have a property value. pprop = ppsstm->GetValue(pid, &cbT, pstatus); if( !NT_SUCCESS(*pstatus) ) goto Exit; if (pprop == NULL) { // There was no property value corresponding to this PID. DebugTrace(0, Dbg, ( "MapNameToPropId(Set Entry: pid=%x, name=L'%ws')\n", pid, poszName)); // Add the caller-provided name to the dictionary, using // the PID that we now know is nowhere in use. ppsstm->SetPropertyNames(1, &pid, &poszName, pstatus); if( !NT_SUCCESS(*pstatus) ) goto Exit; ppsstm->Validate(pstatus); if( !NT_SUCCESS(*pstatus) ) goto Exit; break; } // if (pprop == NULL) } // if (!ppsstm->QueryPropertyNameBuf(pid, awcName, &cbName, pstatus)) nextpid: ; } // for (pid = pidStart; ; pid++) Exit: if( NULL != poszNameFromDictionary ) CoTaskMemFree( poszNameFromDictionary ); return(pid); } //+--------------------------------------------------------------------------- // Function: ConvertVariantToPropInfo, private // // Synopsis: Convert variant property values to PROPERTY_INFORMATION values // // Arguments: [ppsstm] -- property set stream // [cprop] -- property count // [pidNameFirst] -- first PROPID for new named properties // [aprs] -- array of property specifiers // [apid] -- buffer for array of propids // [avar] -- array of PROPVARIANTs // [apinfo] -- output array of property info // [pcIndirect] -- output count of indirect properties // // Returns: None // // Note: If pcIndirect is NULL, //--------------------------------------------------------------------------- VOID ConvertVariantToPropInfo( IN CPropertySetStream *ppsstm, // property set stream IN ULONG cprop, // property count IN PROPID pidNameFirst, // first PROPID for new named properties IN PROPSPEC const aprs[], // array of property specifiers OPTIONAL OUT PROPID apid[], // buffer for array of propids OPTIONAL IN PROPVARIANT const avar[],// array of properties+values OUT PROPERTY_INFORMATION *apinfo, // output array of property info OUT ULONG *pcIndirect, // output count of indirect properties OUT NTSTATUS *pstatus ) { *pstatus = STATUS_SUCCESS; USHORT CodePage = ppsstm->GetCodePage(); PROPID pidStart = pidNameFirst; ULONG iprop; IFDBG( HRESULT &hr = *pstatus ); propITraceStatic( "ConvertVariantToPropInfo" ); propTraceParameters(( "ppsstm=%p, cprop=%d, pidNameFirst=%d, aprs=%p, apid=%p, avar=%p, apinfo=%p, pcIndirect=%p", ppsstm, cprop, pidNameFirst, aprs, apid, avar, apinfo, pcIndirect )); if (pcIndirect != NULL) { *pcIndirect = 0; } for (iprop = 0; iprop < cprop; iprop++) { PROPID pid; ULONG cbprop; switch(aprs[iprop].ulKind) { case PRSPEC_LPWSTR: { PROPASSERT(IsOLECHARString(aprs[iprop].lpwstr, MAXULONG)); pid = ppsstm->QueryPropid(aprs[iprop].lpwstr, pstatus); if( !NT_SUCCESS(*pstatus) ) goto Exit; if (pid == PID_ILLEGAL && avar != NULL) { pid = MapNameToPropId( ppsstm, CodePage, aprs, cprop, iprop, pidStart, pstatus); if( !NT_SUCCESS(*pstatus) ) goto Exit; pidStart = pid + 1; } break; } case PRSPEC_PROPID: pid = aprs[iprop].propid; break; default: PROPASSERT(!"Bad ulKind"); *pstatus = STATUS_INVALID_PARAMETER; goto Exit; break; } if (apid != NULL) { apid[iprop] = pid; } // StgConvertVariantToProperty returns NULL on overflow and // Raises on bad data. cbprop = 0; // Assume property deletion if (pid != PID_ILLEGAL && avar != NULL) { StgConvertVariantToPropertyNoEH( &avar[iprop], CodePage, NULL, // Don't actualy convert. We just want to calc cbprop. &cbprop, pid, FALSE, FALSE, // Not a vector or array recursive call pcIndirect, NULL, // Don't check for min format version required yet pstatus); if( !NT_SUCCESS(*pstatus) ) goto Exit; PROPASSERT(cbprop == DwordAlign(cbprop)); } apinfo[iprop].cbprop = cbprop; apinfo[iprop].pid = pid; } // for (iprop = 0; iprop < cprop; iprop++) // ---- // Exit // ---- Exit: if( STATUS_NOT_SUPPORTED == *pstatus ) propSuppressExitErrors(); return; } //+--------------------------------------------------------------------------- // Function: BuildIndirectIndexArray, private // // Synopsis: Set property values for a property set // // Arguments: [cprop] -- count of properties in avar // [cAlloc] -- max count of indirect properties // [cIndirect] -- count of indirect properties in avar // [avar] -- array of PROPVARIANTs // [ppip] -- ptr to ptr to Indirect property structures // // Returns: None //--------------------------------------------------------------------------- VOID BuildIndirectIndexArray( IN ULONG cprop, // count of properties in avar IN ULONG cAlloc, // max count of indirect properties IN ULONG cIndirect, // count of indirect properties in avar IN PROPVARIANT const avar[],// array of properties+values OPTIONAL OUT INDIRECTPROPERTY **ppip, // pointer to returned pointer to // MAXULONG terminated array of Indirect // properties w/indexes into aprs & avar OUT NTSTATUS *pstatus) { *pstatus = STATUS_SUCCESS; IFDBG( HRESULT &hr = *pstatus ); propITraceStatic( "BuildIndirectIndexArray" ); propTraceParameters(( "cprop=%d, cAlloc=%d, cIndirect=%d, avar=%p", cprop, cAlloc, cIndirect, avar )); PROPASSERT(cIndirect > 0); PROPASSERT(cAlloc >= cIndirect); PROPASSERT(cprop >= cAlloc); if (ppip != NULL) { INDIRECTPROPERTY *pip; ULONG iprop; if (cprop == 1) { pip = (INDIRECTPROPERTY *) ppip; } else { pip = (INDIRECTPROPERTY *) CoTaskMemAlloc( (cAlloc+1) * sizeof(INDIRECTPROPERTY) ); if (pip == NULL) { *pstatus = STATUS_INSUFFICIENT_RESOURCES; goto Exit; } *ppip = pip; } for (iprop = 0; iprop < cprop; iprop++) { if (IsIndirectVarType(avar[iprop].vt)) { PROPASSERT(cprop == 1 || (ULONG) (pip - *ppip) < cIndirect); pip->Index = iprop; pip->poszName = NULL; pip++; } } if (cprop > 1) { pip->Index = MAXULONG; PROPASSERT((ULONG) (pip - *ppip) == cIndirect); } } // ---- // Exit // ---- Exit: return; } //+--------------------------------------------------------------------------- // Function: PrSetProperties, public // // Synopsis: Set property values for a property set // // Arguments: [np] -- property set context // [cprop] -- property count // [pidNameFirst] -- first PROPID for new named properties // [aprs] -- array of property specifiers // [apid] -- buffer for array of propids // -- values to write in place of indirect properties // [ppip] -- ptr to ptr to Indirect property structures // [avar] -- array of PROPVARIANTs // // Returns: Status code //--------------------------------------------------------------------------- NTSTATUS PrSetProperties( IN NTPROP np, // property set context IN ULONG cprop, // property count IN PROPID pidNameFirst, // first PROPID for new named properties IN PROPSPEC const aprs[], // array of property specifiers OUT USHORT *pCodePage, OPTIONAL OUT PROPID apid[], // buffer for array of propids OPTIONAL OUT INDIRECTPROPERTY **ppip, // pointer to returned pointer to // MAXULONG terminated array of Indirect // properties w/indexes into aprs & avar IN PROPVARIANT const avar[]) // array of properties+values { CPropertySetStream *ppsstm = (CPropertySetStream *) np; NTSTATUS Status = STATUS_SUCCESS; BOOL fLocked = FALSE; PROPERTY_INFORMATION apinfoStack[6]; PROPERTY_INFORMATION *apinfo = apinfoStack; ULONG cIndirect = 0; IFDBG( HRESULT &hr = Status ); propITraceStatic( "PrSetProperties" ); propTraceParameters(( "np=%p, cprop=%d, pidNameFirst=%d, aprs=%p, CodePage=%d, apid=%p, ppip=%p, avar=%p", np, cprop, pidNameFirst, aprs, *pCodePage, apid, ppip, avar )); // Initialize the INDIRECTPROPERTY structure. if (ppip != NULL) { *ppip = NULL; // If cprop is 1, ppip is actually pip (one level // of indirection). if (cprop == 1) { // Default the index. ((INDIRECTPROPERTY *) ppip)->Index = MAXULONG; } } // Lock the property set. Status = ppsstm->Lock(TRUE); if( !NT_SUCCESS(Status) ) goto Exit; fLocked = TRUE; // Is the stack-based apinfo big enough? if (cprop > sizeof(apinfoStack)/sizeof(apinfoStack[0])) { // No - we need to allocate an apinfo. apinfo = reinterpret_cast ( CoTaskMemAlloc( sizeof(PROPERTY_INFORMATION) * cprop )); if( NULL == apinfo ) { Status = STATUS_INSUFFICIENT_RESOURCES; goto Exit; } } ppsstm->ReOpen(&Status); // Reload header/size info if( !NT_SUCCESS(Status) ) goto Exit; ppsstm->Validate(&Status); if( !NT_SUCCESS(Status) ) goto Exit; // Describe the request into the apinfo array. This also writes the names // to the dictionary. ConvertVariantToPropInfo( ppsstm, cprop, pidNameFirst, aprs, apid, avar, apinfo, ppip == NULL? NULL : &cIndirect, &Status); if( !NT_SUCCESS(Status) ) goto Exit; // If the caller wants to know about indirect streams and // storages (and if there were any), allocate memory for a // MAXULONG terminated array of indexes to the indirect // variant structures, and fill it in. ppsstm->SetValue(cprop, ppip, avar, apinfo, pCodePage, &Status); if( !NT_SUCCESS(Status) ) goto Exit; ppsstm->Validate(&Status); if( !NT_SUCCESS(Status) ) goto Exit; // ---- // Exit // ---- Exit: // If we allocated a temporary apinfo buffer, free it. if (apinfo != apinfoStack) { CoTaskMemFree( apinfo ); } if (!NT_SUCCESS(Status)) { if (ppip != NULL) { if (cprop == 1) { ((INDIRECTPROPERTY *) ppip)->Index = MAXULONG; } else if (*ppip != NULL) { CoTaskMemFree( *ppip ); *ppip = NULL; } } } if (fLocked) Status = Unlock( ppsstm, Status ); if( STATUS_NOT_SUPPORTED == Status ) propSuppressExitErrors(); return(Status); } //+--------------------------------------------------------------------------- // Function: PrQueryProperties, public // // Synopsis: Query property values from a property set // // Arguments: [np] -- property set context // [cprop] -- property count // [aprs] -- array of property specifiers // [apid] -- buffer for array of propids // [ppip] -- ptr to ptr to Indirect property structures // [avar] -- array of PROPVARIANTs // // Returns: Status code //--------------------------------------------------------------------------- NTSTATUS PrQueryProperties( IN NTPROP np, // property set context IN ULONG cprop, // property count IN PROPSPEC const aprs[], // array of property specifiers OPTIONAL OUT PROPID apid[], // buffer for array of propids OPTIONAL OUT INDIRECTPROPERTY **ppip, // pointer to returned pointer to // MAXULONG terminated array of Indirect // properties w/indexes into aprs & avar IN OUT PROPVARIANT *avar, // IN: array of uninitialized PROPVARIANTs, // OUT: may contain pointers to alloc'd memory OUT ULONG *pcpropFound) // count of property values retrieved { CPropertySetStream *ppsstm = (CPropertySetStream *) np; SERIALIZEDPROPERTYVALUE const *pprop = NULL; NTSTATUS Status = STATUS_SUCCESS; ULONG cIndirect = 0; ULONG iprop; BOOL fLocked = FALSE; IFDBG( HRESULT &hr = Status ); propITraceStatic( "PrQueryProperties" ); propTraceParameters(( "np=%p, cprop=%d, aprs=%p, apid=%p, ppip=%p)", np, cprop, aprs, apid, ppip )); // Initialize the variant array enough to allow it to be cleaned up // by the caller (even on partial failure). *pcpropFound = 0; if (ppip != NULL) { *ppip = NULL; if (cprop == 1) { ((INDIRECTPROPERTY *) ppip)->Index = MAXULONG; } } // Zero-ing out the caller-provided PropVariants, essentially // sets them all to VT_EMPTY. It also zeros out the data portion, // which prevents cleanup problems in error paths. RtlZeroMemory(avar, cprop * sizeof(avar[0])); Status = ppsstm->Lock(FALSE); if( !NT_SUCCESS(Status) ) goto Exit; fLocked = TRUE; ppsstm->ReOpen(&Status); // Reload header/size info if( !NT_SUCCESS(Status) ) goto Exit; ppsstm->Validate(&Status); if( !NT_SUCCESS(Status) ) goto Exit; for (iprop = 0; iprop < cprop; iprop++) { PROPID pid; ULONG cbprop; switch(aprs[iprop].ulKind) { case PRSPEC_LPWSTR: pid = ppsstm->QueryPropid(aprs[iprop].lpwstr, &Status); if( !NT_SUCCESS(Status) ) goto Exit; break; case PRSPEC_PROPID: pid = aprs[iprop].propid; break; default: PROPASSERT(!"Bad ulKind"); Status = STATUS_INVALID_PARAMETER; goto Exit; } pprop = ppsstm->GetValue(pid, &cbprop, &Status); if( !NT_SUCCESS(Status) ) goto Exit; if (pprop != NULL) { BOOL fIndirect; (*pcpropFound)++; fIndirect = StgConvertPropertyToVariantNoEH( pprop, ppsstm->GetCodePage(), &avar[iprop], ppsstm->GetAllocator(), &Status); if( !NT_SUCCESS(Status) ) goto Exit; PROPASSERT( ( !(VT_ARRAY & avar[iprop].vt) && !(VT_BYREF & avar[iprop].vt) && VT_DECIMAL != avar[iprop].vt && VT_I1 != avar[iprop].vt && VT_INT != avar[iprop].vt && VT_UINT != avar[iprop].vt ) || PROPSET_WFORMAT_EXPANDED_VTS <= ppsstm->GetFormatVersion() ); if( fIndirect ) { cIndirect++; } } if (apid != NULL) { apid[iprop] = pid; } } // for (iprop = 0; iprop < cprop; iprop++) // If the caller wants to know about indirect streams and // storages (and if there were any), allocate memory for a // MAXULONG terminated array of indexes to the indirect // variant structures, and fill it in. if (cIndirect != 0) { BuildIndirectIndexArray( cprop, cIndirect, cIndirect, avar, ppip, &Status); if( !NT_SUCCESS(Status) ) goto Exit; } ppsstm->Validate(&Status); if( !NT_SUCCESS(Status) ) goto Exit; // ---- // Exit // ---- Exit: if( !NT_SUCCESS(Status) ) { if (ppip != NULL) { if (cprop == 1) { ((INDIRECTPROPERTY *) ppip)->Index = MAXULONG; } else if (*ppip != NULL) { CoTaskMemFree( *ppip ); *ppip = NULL; } } CleanupVariants(avar, cprop, ppsstm->GetAllocator()); } if (fLocked) Status = Unlock( ppsstm, Status ); if( STATUS_NOT_SUPPORTED == Status ) propSuppressExitErrors(); return(Status); } //+--------------------------------------------------------------------------- // Function: PrEnumerateProperties, public // // Synopsis: Enumerate properties in a property set // // Arguments: [np] -- property set context // [cskip] -- count of properties to skip // [pcprop] -- pointer to property count // [Flags] -- flags: No Names (propids only), etc. // [asps] -- array of STATPROPSTGs // // Returns: Status code //--------------------------------------------------------------------------- NTSTATUS PrEnumerateProperties( IN NTPROP np, // property set context IN ULONG Flags, // flags: No Names (propids only), etc. IN ULONG *pkey, // count of properties to skip IN OUT ULONG *pcprop, // pointer to property count OPTIONAL OUT PROPSPEC aprs[],// IN: array of uninitialized PROPSPECs // OUT: may contain pointers to alloc'd strings OPTIONAL OUT STATPROPSTG asps[]) // IN: array of uninitialized STATPROPSTGs // OUT: may contain pointers to alloc'd strings { CPropertySetStream *ppsstm = (CPropertySetStream *) np; NTSTATUS Status = STATUS_SUCCESS; SERIALIZEDPROPERTYVALUE const *pprop = NULL; PROPSPEC *pprs; STATPROPSTG *psps; PROPID *ppidBase = NULL; ULONG i; ULONG cpropin; BOOL fLocked = FALSE; PROPID apidStack[20]; PROPID *ppid; ULONG cprop; PMemoryAllocator *pma = ppsstm->GetAllocator(); // PERF: It'd be good to rewrite this name code so that it uses // a default-sized stack buffer where possible, which will be most of // the time. OLECHAR *poszName = NULL; IFDBG( HRESULT &hr = Status ); propITraceStatic( "PrEnumerateProperties" ); propTraceParameters(( "np=%p, Flags=0x%x, key=0x%x, cprop=%d, aprs=%p, asps=%p)\n", np, Flags, *pkey, *pcprop, aprs, asps)); cpropin = *pcprop; // Eliminate confusion for easy cleanup if (aprs != NULL) { // Set all the PropSpecs to PROPID (which require // no cleanup). for (i = 0; i < cpropin; i++) { aprs[i].ulKind = PRSPEC_PROPID; } } // Zero all pointers in the array for easy cleanup if (asps != NULL) { RtlZeroMemory(asps, cpropin * sizeof(asps[0])); } Status = ppsstm->Lock(FALSE); if( !NT_SUCCESS(Status) ) goto Exit; fLocked = TRUE; ppidBase = NULL; cprop = ppsstm->ReOpen(&Status); // Reload header/size info if( !NT_SUCCESS(Status) ) goto Exit; if (cprop > cpropin) { cprop = cpropin; } ppsstm->Validate(&Status); if( !NT_SUCCESS(Status) ) goto Exit; ppid = NULL; if (aprs != NULL || asps != NULL) { ppid = apidStack; if (cprop > sizeof(apidStack)/sizeof(apidStack[0])) { ppidBase = reinterpret_cast( CoTaskMemAlloc( cprop * sizeof(PROPID) )); if (ppidBase == NULL) { Status = STATUS_INSUFFICIENT_RESOURCES; goto Exit; } ppid = ppidBase; } } ppsstm->EnumeratePropids(pkey, &cprop, ppid, &Status); if( !NT_SUCCESS(Status) ) goto Exit; *pcprop = cprop; if (ppid != NULL) { psps = asps; pprs = aprs; while (cprop-- > 0) { ULONG cbprop; BOOLEAN fHasName; PROPASSERT(*ppid != PID_DICTIONARY && *ppid != PID_CODEPAGE); fHasName = FALSE; if ((Flags & ENUMPROP_NONAMES) == 0) { fHasName = ppsstm->QueryPropertyNames( 1, ppid, &poszName, &Status ); if( !NT_SUCCESS(Status) ) goto Exit; } if (pprs != NULL) { PROPASSERT(pprs->ulKind == PRSPEC_PROPID); if (fHasName) { pprs->lpwstr = ppsstm->DuplicatePropertyName( poszName, (ocslen(poszName)+1)*sizeof(OLECHAR), &Status); if( !NT_SUCCESS(Status) ) goto Exit; PROPASSERT(pprs->lpwstr != NULL); // Make this assignment *after* memory allocation // succeeds so we free only valid pointers in below // cleanup code. pprs->ulKind = PRSPEC_LPWSTR; } else { pprs->propid = *ppid; } pprs++; } // if (pprs != NULL) if (psps != NULL) { pprop = ppsstm->GetValue(*ppid, &cbprop, &Status); if( !NT_SUCCESS(Status) ) goto Exit; PROPASSERT(psps->lpwstrName == NULL); if (fHasName) { psps->lpwstrName = ppsstm->DuplicatePropertyName( poszName, (ocslen(poszName)+1)*sizeof(OLECHAR), &Status); if( !NT_SUCCESS(Status) ) goto Exit; PROPASSERT(psps->lpwstrName != NULL); } psps->propid = *ppid; psps->vt = (VARTYPE) PropByteSwap( pprop->dwType ); psps++; } // if (psps != NULL) ppid++; CoTaskMemFree( poszName ); poszName = NULL; } // while (cprop-- > 0) } // if (ppid != NULL) ppsstm->Validate(&Status); if( !NT_SUCCESS(Status) ) goto Exit; // ---- // Exit // ---- Exit: if (fLocked) Status = Unlock( ppsstm, Status ); if( NULL != poszName ) CoTaskMemFree( poszName ); CoTaskMemFree( ppidBase ); if (!NT_SUCCESS(Status)) { PMemoryAllocator *pma = ppsstm->GetAllocator(); if (aprs != NULL) { for (i = 0; i < cpropin; i++) { if (aprs[i].ulKind == PRSPEC_LPWSTR) { pma->Free(aprs[i].lpwstr); aprs[i].ulKind = PRSPEC_PROPID; } } } if (asps != NULL) { for (i = 0; i < cpropin; i++) { if (asps[i].lpwstrName != NULL) { pma->Free(asps[i].lpwstrName); asps[i].lpwstrName = NULL; } } } } // if (!NT_SUCCESS(Status)) #if DBG if (NT_SUCCESS(Status)) { if (aprs != NULL) { for (i = 0; i < cpropin; i++) { if (aprs[i].ulKind == PRSPEC_LPWSTR) { PROPASSERT(aprs[i].lpwstr != NULL); PROPASSERT(ocslen(aprs[i].lpwstr) > 0); } } } if (asps != NULL) { for (i = 0; i < cpropin; i++) { if (asps[i].lpwstrName != NULL) { PROPASSERT(ocslen(asps[i].lpwstrName) > 0); } } } } #endif // DBG return(Status); } //+--------------------------------------------------------------------------- // Function: PrQueryPropertyNames, public // // Synopsis: Read property names for PROPIDs in a property set // // Arguments: [np] -- property set context // [cprop] -- property count // [apid] -- array of PROPIDs // [aposz] -- array of pointers to WCHAR strings // // Returns: Status code //--------------------------------------------------------------------------- NTSTATUS PrQueryPropertyNames( IN NTPROP np, // property set context IN ULONG cprop, // property count IN PROPID const *apid, // PROPID array OUT OLECHAR *aposz[]) // OUT pointers to allocated strings { CPropertySetStream *ppsstm = (CPropertySetStream *) np; NTSTATUS Status = STATUS_SUCCESS; NTSTATUS StatusQuery = STATUS_SUCCESS; BOOL fLocked = FALSE; IFDBG( HRESULT &hr = Status ); propITraceStatic( "PrQueryPropertyNames" ); propTraceParameters(( "np=%p, cprop=%d, apid=%p, aposz=%p)", np, cprop, apid, aposz )); RtlZeroMemory(aposz, cprop * sizeof(aposz[0])); Status = ppsstm->Lock(FALSE); if( !NT_SUCCESS(Status) ) goto Exit; fLocked = TRUE; ppsstm->ReOpen(&Status); // Reload header/size info if( !NT_SUCCESS(Status) ) goto Exit; ppsstm->Validate(&Status); if( !NT_SUCCESS(Status) ) goto Exit; // We'll save the Status from the following call. If there // are no other errors, we'll return it to the caller (it // might contain a useful success code). ppsstm->QueryPropertyNames(cprop, apid, aposz, &StatusQuery); if( !NT_SUCCESS(StatusQuery) ) { Status = StatusQuery; goto Exit; } ppsstm->Validate(&Status); if( !NT_SUCCESS(Status) ) goto Exit; // ---- // Exit // ---- Exit: if (fLocked) Status = Unlock( ppsstm, Status ); if( NT_SUCCESS(Status) ) Status = StatusQuery; return(Status); } // PrQueryPropertyNames() //+--------------------------------------------------------------------------- // Function: PrSetPropertyNames, public // // Synopsis: Write property names for PROPIDs in a property set // // Arguments: [np] -- property set context // [cprop] -- property count // [apid] -- array of PROPIDs // [aposz] -- array of pointers to OLECHAR strings // // Returns: Status code //--------------------------------------------------------------------------- NTSTATUS PrSetPropertyNames( IN NTPROP np, // property set context IN ULONG cprop, // property count IN PROPID const *apid, // PROPID array IN OLECHAR const * const aposz[]) // pointers to property names { CPropertySetStream *ppsstm = (CPropertySetStream *) np; NTSTATUS Status = STATUS_SUCCESS; BOOL fLocked = FALSE; IFDBG( HRESULT &hr = Status ); propITraceStatic( "PrSetPropertyNames" ); propTraceParameters(( "np=%p, cprop=%d, apid=%p, aposz=%p", np, cprop, apid, aposz )); Status = ppsstm->Lock(TRUE); if( !NT_SUCCESS(Status) ) goto Exit; fLocked = TRUE; ppsstm->ReOpen(&Status); // Reload header/size info if( !NT_SUCCESS(Status) ) goto Exit; ppsstm->Validate(&Status); if( !NT_SUCCESS(Status) ) goto Exit; ppsstm->SetPropertyNames(cprop, apid, aposz, &Status); if( !NT_SUCCESS(Status) ) goto Exit; ppsstm->Validate(&Status); if( !NT_SUCCESS(Status) ) goto Exit; // ---- // Exit // ---- Exit: if (fLocked) Status = Unlock( ppsstm, Status ); return(Status); } // PrSetPropertyNames() //+--------------------------------------------------------------------------- // Function: PrSetPropertySetClassId, public // // Synopsis: Set the property set's ClassId // // Arguments: [np] -- property set context // [pspss] -- pointer to STATPROPSETSTG // // Returns: Status code //--------------------------------------------------------------------------- NTSTATUS PrSetPropertySetClassId( IN NTPROP np, // property set context IN GUID const *pclsid) // new CLASSID of propset code { CPropertySetStream *ppsstm = (CPropertySetStream *) np; NTSTATUS Status = STATUS_SUCCESS; BOOL fLocked = FALSE; IFDBG( HRESULT &hr = Status ); propITraceStatic( "PrSetPropertySetClassId" ); propTraceParameters(( "np=%p, pclsid=%p", np, pclsid )); Status = ppsstm->Lock(TRUE); if( !NT_SUCCESS(Status) ) goto Exit; fLocked = TRUE; ppsstm->ReOpen(&Status); // Reload header/size info if( !NT_SUCCESS(Status) ) goto Exit; ppsstm->Validate(&Status); if( !NT_SUCCESS(Status) ) goto Exit; ppsstm->SetClassId(pclsid, &Status); if( !NT_SUCCESS(Status) ) goto Exit; ppsstm->Validate(&Status); if( !NT_SUCCESS(Status) ) goto Exit; // ---- // Exit // ---- Exit: if (fLocked) Status = Unlock( ppsstm, Status ); return(Status); } // PrSetPropertySetClassId() //+--------------------------------------------------------------------------- // Function: PrQueryPropertySet, public // // Synopsis: Query the passed property set // // Arguments: [np] -- property set context // [pspss] -- pointer to STATPROPSETSTG // // Returns: Status code //--------------------------------------------------------------------------- NTSTATUS PrQueryPropertySet( IN NTPROP np, // property set context OUT STATPROPSETSTG *pspss) // buffer for property set stat information { NTSTATUS Status = STATUS_SUCCESS; BOOL fLocked = FALSE; CPropertySetStream *ppsstm = (CPropertySetStream *) np; IFDBG( HRESULT &hr = Status ); propITraceStatic( "PrQueryPropertySet" ); propTraceParameters(( "np=%p, pspss=%p", np, pspss )); RtlZeroMemory(pspss, sizeof(*pspss)); Status = ppsstm->Lock(FALSE); if( !NT_SUCCESS(Status) ) goto Exit; fLocked = TRUE; ppsstm->ReOpen(&Status); // Reload header/size info if( !NT_SUCCESS(Status) ) goto Exit; ppsstm->Validate(&Status); if( !NT_SUCCESS(Status) ) goto Exit; ppsstm->QueryPropertySet(pspss, &Status); if( !NT_SUCCESS(Status) ) goto Exit; ppsstm->Validate(&Status); if( !NT_SUCCESS(Status) ) goto Exit; // ---- // Exit // ---- Exit: if (fLocked) Status = Unlock( ppsstm, Status ); return(Status); } // PrQueryPropertySet() inline BOOLEAN _Compare_VT_BOOL(VARIANT_BOOL bool1, VARIANT_BOOL bool2) { // Allow any non-zero value to match any non-zero value return((bool1 == FALSE) == (bool2 == FALSE)); } BOOLEAN _Compare_VT_CF(CLIPDATA *pclipdata1, CLIPDATA *pclipdata2) { BOOLEAN fSame; if (pclipdata1 != NULL && pclipdata2 != NULL) { fSame = ( pclipdata1->cbSize == pclipdata2->cbSize && pclipdata1->ulClipFmt == pclipdata2->ulClipFmt ); if (fSame) { if (pclipdata1->pClipData != NULL && pclipdata2->pClipData != NULL) { fSame = memcmp( pclipdata1->pClipData, pclipdata2->pClipData, CBPCLIPDATA(*pclipdata1) ) == 0; } else { // They're the same if both are NULL, or if // they have a zero length (if they have a zero // length, either one may or may not be NULL, but they're // still considered the same). // Note that CBPCLIPDATA(*pclipdata1)==CBPCLIPDATA(*pclipdata2). fSame = pclipdata1->pClipData == pclipdata2->pClipData || CBPCLIPDATA(*pclipdata1) == 0; } } } else { fSame = pclipdata1 == pclipdata2; } return(fSame); } //+--------------------------------------------------------------------------- // Function: PrCompareVariants, public // // Synopsis: Compare two passed PROPVARIANTs -- case sensitive for strings // // Arguments: [CodePage] -- CodePage // [pvar1] -- pointer to PROPVARIANT // [pvar2] -- pointer to PROPVARIANT // // Returns: TRUE if identical, else FALSE //--------------------------------------------------------------------------- #ifdef _MAC EXTERN_C // The Mac linker doesn't seem to be able to export with C++ decorations #endif BOOLEAN PrCompareVariants( USHORT CodePage, PROPVARIANT const *pvar1, PROPVARIANT const *pvar2) { if (pvar1->vt != pvar2->vt) { return(FALSE); } BOOLEAN fSame; ULONG i; switch (pvar1->vt) { case VT_EMPTY: case VT_NULL: fSame = TRUE; break; case VT_I1: case VT_UI1: fSame = pvar1->bVal == pvar2->bVal; break; case VT_I2: case VT_UI2: fSame = pvar1->iVal == pvar2->iVal; break; case VT_BOOL: fSame = _Compare_VT_BOOL(pvar1->boolVal, pvar2->boolVal); break; case VT_I4: case VT_UI4: case VT_R4: case VT_ERROR: fSame = pvar1->lVal == pvar2->lVal; break; case VT_I8: case VT_UI8: case VT_R8: case VT_CY: case VT_DATE: case VT_FILETIME: fSame = pvar1->hVal.HighPart == pvar2->hVal.HighPart && pvar1->hVal.LowPart == pvar2->hVal.LowPart; break; case VT_CLSID: fSame = memcmp(pvar1->puuid, pvar2->puuid, sizeof(CLSID)) == 0; break; case VT_BLOB: case VT_BLOB_OBJECT: fSame = ( pvar1->blob.cbSize == pvar2->blob.cbSize ); if (fSame) { fSame = memcmp( pvar1->blob.pBlobData, pvar2->blob.pBlobData, pvar1->blob.cbSize) == 0; } break; case VT_CF: fSame = _Compare_VT_CF(pvar1->pclipdata, pvar2->pclipdata); break; case VT_BSTR: if (pvar1->bstrVal != NULL && pvar2->bstrVal != NULL) { fSame = ( BSTRLEN(pvar1->bstrVal) == BSTRLEN(pvar2->bstrVal) ); if (fSame) { fSame = memcmp( pvar1->bstrVal, pvar2->bstrVal, BSTRLEN(pvar1->bstrVal)) == 0; } } else { fSame = pvar1->bstrVal == pvar2->bstrVal; } break; case VT_LPSTR: if (pvar1->pszVal != NULL && pvar2->pszVal != NULL) { fSame = strcmp(pvar1->pszVal, pvar2->pszVal) == 0; } else { fSame = pvar1->pszVal == pvar2->pszVal; } break; case VT_STREAM: case VT_STREAMED_OBJECT: case VT_STORAGE: case VT_STORED_OBJECT: case VT_LPWSTR: if (pvar1->pwszVal != NULL && pvar2->pwszVal != NULL) { fSame = Prop_wcscmp(pvar1->pwszVal, pvar2->pwszVal) == 0; } else { fSame = pvar1->pwszVal == pvar2->pwszVal; } break; case VT_VECTOR | VT_I1: case VT_VECTOR | VT_UI1: fSame = ( pvar1->caub.cElems == pvar2->caub.cElems ); if (fSame) { fSame = memcmp( pvar1->caub.pElems, pvar2->caub.pElems, pvar1->caub.cElems * sizeof(pvar1->caub.pElems[0])) == 0; } break; case VT_VECTOR | VT_I2: case VT_VECTOR | VT_UI2: fSame = ( pvar1->cai.cElems == pvar2->cai.cElems ); if (fSame) { fSame = memcmp( pvar1->cai.pElems, pvar2->cai.pElems, pvar1->cai.cElems * sizeof(pvar1->cai.pElems[0])) == 0; } break; case VT_VECTOR | VT_BOOL: fSame = ( pvar1->cabool.cElems == pvar2->cabool.cElems ); if (fSame) { for (i = 0; i < pvar1->cabool.cElems; i++) { fSame = _Compare_VT_BOOL( pvar1->cabool.pElems[i], pvar2->cabool.pElems[i]); if (!fSame) { break; } } } break; case VT_VECTOR | VT_I4: case VT_VECTOR | VT_UI4: case VT_VECTOR | VT_R4: case VT_VECTOR | VT_ERROR: fSame = ( pvar1->cal.cElems == pvar2->cal.cElems ); if (fSame) { fSame = memcmp( pvar1->cal.pElems, pvar2->cal.pElems, pvar1->cal.cElems * sizeof(pvar1->cal.pElems[0])) == 0; } break; case VT_VECTOR | VT_I8: case VT_VECTOR | VT_UI8: case VT_VECTOR | VT_R8: case VT_VECTOR | VT_CY: case VT_VECTOR | VT_DATE: case VT_VECTOR | VT_FILETIME: fSame = ( pvar1->cah.cElems == pvar2->cah.cElems ); if (fSame) { fSame = memcmp( pvar1->cah.pElems, pvar2->cah.pElems, pvar1->cah.cElems * sizeof(pvar1->cah.pElems[0])) == 0; } break; case VT_VECTOR | VT_CLSID: fSame = ( pvar1->cauuid.cElems == pvar2->cauuid.cElems ); if (fSame) { fSame = memcmp( pvar1->cauuid.pElems, pvar2->cauuid.pElems, pvar1->cauuid.cElems * sizeof(pvar1->cauuid.pElems[0])) == 0; } break; case VT_VECTOR | VT_CF: fSame = ( pvar1->caclipdata.cElems == pvar2->caclipdata.cElems ); if (fSame) { for (i = 0; i < pvar1->caclipdata.cElems; i++) { fSame = _Compare_VT_CF( &pvar1->caclipdata.pElems[i], &pvar2->caclipdata.pElems[i]); if (!fSame) { break; } } } break; case VT_VECTOR | VT_BSTR: fSame = ( pvar1->cabstr.cElems == pvar2->cabstr.cElems ); if (fSame) { for (i = 0; i < pvar1->cabstr.cElems; i++) { if (pvar1->cabstr.pElems[i] != NULL && pvar2->cabstr.pElems[i] != NULL) { fSame = ( BSTRLEN(pvar1->cabstr.pElems[i]) == BSTRLEN(pvar2->cabstr.pElems[i]) ); if (fSame) { fSame = memcmp( pvar1->cabstr.pElems[i], pvar2->cabstr.pElems[i], BSTRLEN(pvar1->cabstr.pElems[i])) == 0; } } else { fSame = pvar1->cabstr.pElems[i] == pvar2->cabstr.pElems[i]; } if (!fSame) { break; } } } break; case VT_VECTOR | VT_LPSTR: fSame = ( pvar1->calpstr.cElems == pvar2->calpstr.cElems ); if (fSame) { for (i = 0; i < pvar1->calpstr.cElems; i++) { if (pvar1->calpstr.pElems[i] != NULL && pvar2->calpstr.pElems[i] != NULL) { fSame = strcmp( pvar1->calpstr.pElems[i], pvar2->calpstr.pElems[i]) == 0; } else { fSame = pvar1->calpstr.pElems[i] == pvar2->calpstr.pElems[i]; } if (!fSame) { break; } } } break; case VT_VECTOR | VT_LPWSTR: fSame = ( pvar1->calpwstr.cElems == pvar2->calpwstr.cElems ); if (fSame) { for (i = 0; i < pvar1->calpwstr.cElems; i++) { if (pvar1->calpwstr.pElems[i] != NULL && pvar2->calpwstr.pElems[i] != NULL) { fSame = Prop_wcscmp( pvar1->calpwstr.pElems[i], pvar2->calpwstr.pElems[i]) == 0; } else { fSame = pvar1->calpwstr.pElems[i] == pvar2->calpwstr.pElems[i]; } if (!fSame) { break; } } } break; case VT_VECTOR | VT_VARIANT: fSame = ( pvar1->capropvar.cElems == pvar2->capropvar.cElems ); if (fSame) { for (i = 0; i < pvar1->capropvar.cElems; i++) { fSame = PrCompareVariants( CodePage, &pvar1->capropvar.pElems[i], &pvar2->capropvar.pElems[i]); if (!fSame) { break; } } } break; default: PROPASSERT(!"Invalid type for PROPVARIANT Comparison"); fSame = FALSE; break; } return(fSame); }