//+------------------------------------------------------------------------- // // Microsoft Windows // Copyright (C) Microsoft Corporation, 1992 - 1993. // // File: psetstg.cxx // // Contents: Implementation of common class DocFile // IPropertySetStorage // // Classes: CPropertySetStorage // CEnumSTATPROPSETSTG // // Notes: // //-------------------------------------------------------------------------- #include "pch.cxx" #include "prophdr.hxx" // // debugging support // #if DBG CHAR * DbgFmtId(REFFMTID rfmtid, CHAR *pszBuf) { PropSprintfA(pszBuf, "rfmtid=%08X.%04X.%04X.%02X.%02X.%02X.%02X.%02X.%02X.%02X.%02X", rfmtid.Data1, rfmtid.Data2, rfmtid.Data3, rfmtid.Data4[0], rfmtid.Data4[1], rfmtid.Data4[2], rfmtid.Data4[3], rfmtid.Data4[4], rfmtid.Data4[5], rfmtid.Data4[6], rfmtid.Data4[7]); return(pszBuf); } CHAR * DbgMode(DWORD grfMode, CHAR *psz) { *psz = 0; if (grfMode & STGM_TRANSACTED) strcat(psz, "STGM_TRANSACTED | "); else strcat(psz, "STGM_DIRECT | "); if (grfMode & STGM_SIMPLE) strcat(psz, "STGM_SIMPLE | "); switch (grfMode & 3) { case STGM_READ: strcat(psz, "STGM_READ |"); break; case STGM_WRITE: strcat(psz, "STGM_WRITE |"); break; case STGM_READWRITE: strcat(psz, "STGM_READWRITE |"); break; default: strcat(psz, "BAD grfMode |"); break; } switch (grfMode & 0x70) { case STGM_SHARE_DENY_NONE: strcat(psz, "STGM_SHARE_DENY_NONE |"); break; case STGM_SHARE_DENY_READ: strcat(psz, "STGM_SHARE_DENY_READ |"); break; case STGM_SHARE_DENY_WRITE: strcat(psz, "STGM_SHARE_DENY_WRITE |"); break; case STGM_SHARE_EXCLUSIVE: strcat(psz, "STGM_SHARE_EXCLUSIVE |"); break; default: strcat(psz, "BAD grfMode | "); break; } if (grfMode & STGM_PRIORITY) strcat(psz, "STGM_PRIORITY | "); if (grfMode & STGM_DELETEONRELEASE) strcat(psz, "STGM_DELETEONRELEASE | "); if (grfMode & STGM_NOSCRATCH) strcat(psz, "STGM_NOSCRATCH | "); if (grfMode & STGM_CREATE) strcat(psz, "STGM_CREATE | "); if (grfMode & STGM_CONVERT) strcat(psz, "STGM_CONVERT | "); if (grfMode & STGM_FAILIFTHERE) strcat(psz, "STGM_FAILIFTHERE | "); return(psz); } CHAR * DbgFlags(DWORD grfFlags, CHAR *psz) { strcpy(psz, "grfFlags="); if (grfFlags & PROPSETFLAG_NONSIMPLE) strcat(psz, "PROPSETFLAG_NONSIMPLE |"); else strcat(psz, "PROPSETFLAG_SIMPLE |"); if (grfFlags & PROPSETFLAG_ANSI) strcat(psz, "PROPSETFLAG_ANSI |"); else strcat(psz, "PROPSETFLAG_WIDECHAR |"); return(psz); } #endif //+------------------------------------------------------------------- // // Member: CPropertySetStorage::QueryInterface, AddRef, Release // // Synopsis: IUnknown members // // Notes: Send the calls to the root. // //-------------------------------------------------------------------- HRESULT CPropertySetStorage::QueryInterface( REFIID riid, void **ppvObject) { HRESULT hr; // ---------- // Validation // ---------- if (S_OK != (hr = Validate())) return(hr); VDATEREADPTRIN( &riid, IID ); VDATEPTROUT( ppvObject, void* ); // ----- // Query // ----- return(_pprivstg->GetStorage()->QueryInterface(riid, ppvObject)); } ULONG CPropertySetStorage::AddRef(void) { if (S_OK != Validate()) return(0); return(_pprivstg->GetStorage()->AddRef()); } ULONG CPropertySetStorage::Release(void) { if (S_OK != Validate()) return(0); return(_pprivstg->GetStorage()->Release()); } //+------------------------------------------------------------------- // // Member: CPropertySetStorage::Create // // Synopsis: Create a property set for outermost client of // IPropertSetStorage. // // Arguments: Passed through to CPropertyStorage ctor. // // Returns: S_OK or failure code. // // Notes: Create a new CPropertyStorage object which will // implement IPropertyStorage. The _pprivstg parameter // passed into CPropertyStorage::CPropertyStorage is // used to create (via QI) a matching type of mapped // stream for docfile properies // //-------------------------------------------------------------------- HRESULT CPropertySetStorage::Create( REFFMTID rfmtid, const CLSID * pclsid, DWORD grfFlags, DWORD grfMode, IPropertyStorage ** ppprstg) { HRESULT hr; DBGBUF(buf1); DBGBUF(buf2); DBGBUF(buf3); // ---------- // Validation // ---------- if (S_OK != (hr = Validate())) goto errRet; GEN_VDATEREADPTRIN_LABEL(&rfmtid, FMTID, E_INVALIDARG, errRet, hr); GEN_VDATEPTRIN_LABEL(pclsid, CLSID, E_INVALIDARG, errRet, hr); GEN_VDATEPTROUT_LABEL( ppprstg, IPropertyStorage*, E_INVALIDARG, errRet, hr); // --------------------------- // Create the Property Storage // --------------------------- hr = STG_E_INSUFFICIENTMEMORY; *ppprstg = NULL; *ppprstg = new CPropertyStorage(_pprivstg, rfmtid, pclsid, grfFlags, grfMode, &hr); if (FAILED(hr)) { delete (CPropertyStorage*) *ppprstg; *ppprstg = NULL; } // ---- // Exit // ---- errRet: if( E_INVALIDARG != hr ) { PropDbg((DEB_PROP_EXIT, "CPropertySetStorage(%08X)::Create(%s, %s, %s, retif=%08X, hr = %08X\n", this, DbgFmtId(rfmtid, buf1), DbgFlags(grfFlags, buf2), DbgMode(grfMode, buf3), *ppprstg, hr)); } else { PropDbg((DEB_PROP_EXIT, "CPropertySetStorage(%08X)::Create(%08X, %s, %s, retif=%08X, hr = %08X\n", this, &rfmtid, DbgFlags(grfFlags, buf2), DbgMode(grfMode, buf3), ppprstg, hr)); } return(hr); } //+------------------------------------------------------------------- // // Member: CPropertySetStorage::Open // // Synopsis: Open a property set for outermost client. // // Arguments: passed through to CPropertyStorage ctor. // // Returns: S_OK or error. // // Notes: Creates a CPropertyStorage which will use the passed // pstg to create a mapped stream of the correct type // in its implementation. // //-------------------------------------------------------------------- HRESULT CPropertySetStorage::Open( REFFMTID rfmtid, DWORD grfMode, IPropertyStorage ** ppprstg) { HRESULT hr; DBGBUF(buf1); DBGBUF(buf2); // ---------- // Validation // ---------- // Validate 'this' if (S_OK != (hr = Validate())) goto errRet; // Validate inputs GEN_VDATEREADPTRIN_LABEL(&rfmtid, FMTID, E_INVALIDARG, errRet, hr); GEN_VDATEPTROUT_LABEL( ppprstg, IPropertyStorage*, E_INVALIDARG, errRet, hr); // ------------------------- // Open the Property Storage // ------------------------- hr = STG_E_INSUFFICIENTMEMORY; *ppprstg = NULL; *ppprstg = new CPropertyStorage(_pprivstg, rfmtid, grfMode, FALSE, // Don't delete this section &hr); if (FAILED(hr)) { delete (CPropertyStorage*) *ppprstg; *ppprstg = NULL; } // ---- // Exit // ---- errRet: if( E_INVALIDARG != hr ) { PropDbg((DEB_PROP_EXIT, "CPropertySetStorage(%08X)::Open(%s, %s) retif=%08X, hr=%08X\n", this, DbgFmtId(rfmtid, buf1), DbgMode(grfMode, buf2), *ppprstg, hr)); } else { PropDbg((DEB_PROP_EXIT, "CPropertySetStorage(%08X)::Open(), hr=%08X\n", this, hr)); } return(hr); } //+------------------------------------------------------------------- // // Member: CPropertySetStorage::Delete // // Synopsis: Delete the specified property set. // // Arguments: [rfmtid] -- format id of property set to delete. // // Returns: S_OK if successful, error otherwise. // // Notes: Get the matching name and try the element deletion. // //-------------------------------------------------------------------- HRESULT CPropertySetStorage::Delete( REFFMTID rfmtid) { HRESULT hr; DBGBUF(buf); // ---------- // Validation // ---------- // Validate 'this' if (S_OK != (hr = Validate())) goto errRet; // Validate the input GEN_VDATEREADPTRIN_LABEL(&rfmtid, FMTID, E_INVALIDARG, errRet, hr); // -------------------------- // Delete the PropertyStorage // -------------------------- // Check for the special-case if( IsEqualIID( rfmtid, FMTID_UserDefinedProperties )) { // This property set is actually the second section of the Document // Summary Information property set. We must delete this // section, but we can't delete the Stream because it // still contain the first section. CPropertyStorage* pprstg; pprstg = new CPropertyStorage(_pprivstg, rfmtid, STGM_READWRITE | STGM_SHARE_EXCLUSIVE, TRUE, // Delete this section. &hr); if (pprstg != NULL) { pprstg->Release(); } pprstg = NULL; } // if( IsEqualIID( rfmtid, FMTID_DocSummaryInformation2 )) else { // This is not a special case, so we can just delete // the Stream. Note that if the rfmtid represents the first // section of the DocumentSummaryInformation set, we might be // deleting the second section here as well. CPropSetName psn(rfmtid); hr = _pprivstg->GetStorage()->DestroyElement(psn.GetPropSetName()); } // if( IsEqualIID( rfmtid, FMTID_DocSummaryInformation2 )) ... else // ---- // Exit // ---- errRet: if( E_INVALIDARG != hr ) { PropDbg((DEB_PROP_EXIT, "CPropertySetStorage(%08X)::Delete(%s) hr = %08X\n", this, DbgFmtId(rfmtid, buf), hr)); } else { PropDbg((DEB_PROP_EXIT, "CPropertySetStorage(%08X)::Delete(%08X) hr = %08X\n", this, &rfmtid, hr)); } return(hr); } //+------------------------------------------------------------------- // // Member: CPropertySetStorage::Enum // // Synopsis: Create an enumerator over the property set // // Arguments: [ppenum] -- where to return the pointer to the // enumerator. // // Returns: S_OK if ok, error otherwise. // // Notes: [ppenum] is NULL on error. // //-------------------------------------------------------------------- HRESULT CPropertySetStorage::Enum( IEnumSTATPROPSETSTG ** ppenum) { HRESULT hr; // ---------- // Validation // ---------- // Validate 'this' if (S_OK != (hr = Validate())) goto errRet; // Validate the input GEN_VDATEPTROUT_LABEL( ppenum, IEnumSTATPROPSETSTG*, E_INVALIDARG, errRet, hr); // -------------------- // Create the enuerator // -------------------- hr = STG_E_INSUFFICIENTMEMORY; *ppenum = NULL; // for access violation *ppenum = new CEnumSTATPROPSETSTG(_pprivstg->GetStorage(), &hr); if (FAILED(hr)) { delete (CEnumSTATPROPSETSTG*) *ppenum; *ppenum = NULL; } // ---- // Exit // ---- errRet: if( E_INVALIDARG != hr ) { PropDbg((DEB_PROP_EXIT, "CPropertySetStorage(%08X)::Enum(retif=%08X), hr = %08X\n", this, *ppenum, hr)); } else { PropDbg((DEB_PROP_EXIT, "CPropertySetStorage(%08X)::Enum(), hr = %08X\n", this, hr)); } return(hr); } //+------------------------------------------------------------------- // // Member: CEnumSTATPROPSETSTG::CEnumSTATPROPSETSTG // // Synopsis: Constructor which is used to implement // IPropertySetStorage::Enum // // Arguments: [pstg] -- the storage of the container to enumerate. // [phr] -- place to return HRESULT, S_OK or error. // // Notes: We use an STATSTG enumerator over the actual storage // to get the information about the property sets. // //-------------------------------------------------------------------- CEnumSTATPROPSETSTG::CEnumSTATPROPSETSTG(IStorage *pstg, HRESULT *phr) { HRESULT & hr = *phr; _ulSig = ENUMSTATPROPSETSTG_SIG; _cRefs = 1; hr = pstg->EnumElements(FALSE, NULL, 0, &_penumSTATSTG); if (FAILED(hr)) _penumSTATSTG = NULL; _cstatTotalInArray = 0; _istatNextToRead = 0; } //+------------------------------------------------------------------- // // Member: CEnumSTATPROPSETSTG::CEnumSTATPROPSETSTG // // Synopsis: Copy constructor which is used to implement // IEnumSTATPROPSETSTG::Clone. // // Arguments: [Other] -- The CEnumSTATPROPSETSTG to clone. // [phr] -- place to return HRESULT, S_OK or error. // //-------------------------------------------------------------------- CEnumSTATPROPSETSTG::CEnumSTATPROPSETSTG( CEnumSTATPROPSETSTG &Other, HRESULT *phr) { HRESULT & hr = *phr; _ulSig = ENUMSTATPROPSETSTG_SIG; _cRefs = 1; _cstatTotalInArray = 0; _istatNextToRead = Other._istatNextToRead; hr = Other._penumSTATSTG->Clone(&_penumSTATSTG); if (hr == S_OK) { // Copy the data in the buffer memcpy(_statarray, Other._statarray, sizeof(_statarray)); _cstatTotalInArray = Other._cstatTotalInArray; // Copy the strings in the buffer for (ULONG i=0; i<_cstatTotalInArray; i++) { _statarray[i].pwcsName = (OLECHAR*)CoTaskMemAlloc(sizeof(OLECHAR)*(ocslen(Other._statarray[i].pwcsName)+1)); if (_statarray[i].pwcsName == NULL) { _cstatTotalInArray = i; hr = STG_E_INSUFFICIENTMEMORY; break; } else { ocscpy(_statarray[i].pwcsName, Other._statarray[i].pwcsName); } } } // note: destructor will cleanup the the strings or enumerator left behind // in the error case } //+------------------------------------------------------------------- // // Member: CEnumSTATPROPSETSTG::~CEnumSTATPROPSETSTG // // Synopsis: Delete the enumerator. // // Notes: Just releases the contained IEnumSTATSTG // //-------------------------------------------------------------------- CEnumSTATPROPSETSTG::~CEnumSTATPROPSETSTG() { _ulSig = ENUMSTATPROPSETSTG_SIGDEL; if (_penumSTATSTG != NULL) _penumSTATSTG->Release(); CleanupStatArray(); } //+------------------------------------------------------------------- // // Member: CEnumSTATPROPSETSTG::QueryInterface, AddRef, Release // // Synopsis: IUnknown // // Arguments: The usual thing. // //-------------------------------------------------------------------- HRESULT CEnumSTATPROPSETSTG::QueryInterface( REFIID riid, void **ppvObject) { HRESULT hr; if (S_OK != (hr = Validate())) return(hr); *ppvObject = NULL; if (IsEqualIID(riid, IID_IEnumSTATPROPSETSTG)) { *ppvObject = (IEnumSTATPROPSETSTG *)this; CEnumSTATPROPSETSTG::AddRef(); } else if (IsEqualIID(riid, IID_IUnknown)) { *ppvObject = (IUnknown *)this; CEnumSTATPROPSETSTG::AddRef(); } else { hr = E_NOINTERFACE; } return(hr); } //+------------------------------------------------------------------- // // Member: CEnumSTATPROPSETSTG::AddRef // //-------------------------------------------------------------------- ULONG CEnumSTATPROPSETSTG::AddRef(void) { if (S_OK != Validate()) return(0); InterlockedIncrement(&_cRefs); return(_cRefs); } //+------------------------------------------------------------------- // // Member: CEnumSTATPROPSETSTG::Release // //-------------------------------------------------------------------- ULONG CEnumSTATPROPSETSTG::Release(void) { LONG lRet; if (S_OK != Validate()) return(0); lRet = InterlockedDecrement(&_cRefs); if (lRet == 0) { delete this; } else if (lRet <0) { lRet = 0; } return(lRet); } //+------------------------------------------------------------------- // // Member: CEnumSTATPROPSETSTG::Next // // Synopsis: Implement IEnumSTATPROPSETSTG for docfile. // // Arguments: [celt] -- Count of elements to attempt to retrieve. // [rgelt] -- Where to put the results. Must be valid for at least // celt * sizeof(STATPROPSETSTG) bytes in length. // [pceltFetched] -- Count of elements returned is put here if // the pointer is non-null. If celt > 1, pceltFetched must // be valid non-NULL. If pcelt is non-NULL, it must be valid. // if pcelt is NULL, celt must be 1. // // Returns: S_OK if ok, error otherwise. // // Notes: We use a stack buffer to get more stuff per call to // underlying storage IEnumSTATSTG::Next. We then copy // data from the STATSTG's to STATPROPSETSTG's. // // An outer loop enumerates into statarray and then an // inner loop copies each batch into the [rgelt] buffer. // //-------------------------------------------------------------------- HRESULT CEnumSTATPROPSETSTG::Next(ULONG celt, STATPROPSETSTG * rgelt, ULONG * pceltFetched) { HRESULT hr; ULONG celtCallerTotal; // ---------- // Validation // ---------- // Validate 'this' if (S_OK != (hr = Validate())) return(hr); // Validate inputs if (NULL == pceltFetched) { if (1 != celt) return(STG_E_INVALIDPARAMETER); } else { VDATEPTROUT( pceltFetched, ULONG ); *pceltFetched = 0; } if (0 == celt) return(hr); if( !IsValidPtrOut(rgelt, celt * sizeof(rgelt[0])) ) return( E_INVALIDARG ); // ----------------------- // Perform the enumeration // ----------------------- celtCallerTotal = 0; // // we do this loop until we have what the caller wanted or error, or // no more. // do { // // If our internal buffer is empty, we (re)load it // if (_istatNextToRead == _cstatTotalInArray) { if (_cstatTotalInArray != 0) CleanupStatArray(); hr = _penumSTATSTG->Next(sizeof(_statarray)/sizeof(_statarray[0]), _statarray, &_cstatTotalInArray); } // S_OK or S_FALSE indicate that we got something if (SUCCEEDED(hr)) { // // we loop reading out of this buffer until either we have // all that the caller asked for, or we have exhausted the // buffer. // for (; celtCallerTotal < celt && _istatNextToRead < _cstatTotalInArray ; _istatNextToRead++) { OLECHAR *pocsName = _statarray[_istatNextToRead].pwcsName; BOOL fDone = FALSE; PROPASSERT(pocsName != NULL); if (pocsName[0] == 5) { // *** get fmtid *** // if (!NT_SUCCESS(RtlPropertySetNameToGuid( ocslen(pocsName), pocsName, &rgelt->fmtid))) { ZeroMemory(&rgelt->fmtid, sizeof(rgelt->fmtid)); } // *** get clsid *** // // *** get grfFlags *** // if (_statarray[_istatNextToRead].type == STGTY_STORAGE) { rgelt->clsid = _statarray[_istatNextToRead].clsid; rgelt->grfFlags = PROPSETFLAG_NONSIMPLE; } else { ZeroMemory(&rgelt->clsid, sizeof(rgelt->clsid)); rgelt->grfFlags = 0; } // *** get mtime *** // rgelt->mtime = _statarray[_istatNextToRead].mtime; // *** get ctime *** // rgelt->ctime = _statarray[_istatNextToRead].ctime; // *** get atime *** // rgelt->atime = _statarray[_istatNextToRead].atime; // *** default the OS Version *** // rgelt->dwOSVersion = PROPSETHDR_OSVERSION_UNKNOWN; rgelt ++; celtCallerTotal ++; } } } } while (celtCallerTotal < celt && hr == S_OK); if (SUCCEEDED(hr)) { hr = celt == celtCallerTotal ? S_OK : S_FALSE; PROPASSERT(hr == S_OK || celtCallerTotal < celt); if (pceltFetched != NULL) *pceltFetched = celtCallerTotal; } return(hr); } //+------------------------------------------------------------------- // // Member: CEnumSTATPROPSETSTG::Skip // // Synopsis: Skip the requested number of elements. // // Arguments: [celt] -- number to skip. // // Returns: S_OK if all skipped, S_FALSE if less than requested // number skipped, error otherwise. // // Notes: // //-------------------------------------------------------------------- HRESULT CEnumSTATPROPSETSTG::Skip(ULONG celt) { HRESULT hr; STATPROPSETSTG stat; ULONG celtCallerTotal = 0; if (S_OK != (hr = Validate())) return(hr); do { hr = Next(1, &stat, NULL); } while ( hr == S_OK && ++celtCallerTotal < celt ); if (SUCCEEDED(hr)) hr = celt == celtCallerTotal ? S_OK : S_FALSE; return(hr); } //+------------------------------------------------------------------- // // Member: CEnumSTATPROPSETSTG::CleanupStatArray // // Synopsis: Free any strings in the array. // //-------------------------------------------------------------------- VOID CEnumSTATPROPSETSTG::CleanupStatArray() { for (ULONG i=0; i<_cstatTotalInArray; i++) { CoTaskMemFree(_statarray[i].pwcsName); _statarray[i].pwcsName = NULL; } _istatNextToRead = 0; _cstatTotalInArray = 0; } //+------------------------------------------------------------------- // // Member: CEnumSTATPROPSETSTG::Reset // // Synopsis: Reset the enumerator. // // Notes: Merely resetting the underlying enumerator should be // adequate, // //-------------------------------------------------------------------- HRESULT CEnumSTATPROPSETSTG::Reset() { HRESULT hr; if (S_OK != (hr = Validate())) return(hr); hr = _penumSTATSTG->Reset(); if (hr == S_OK) { CleanupStatArray(); } return(hr); } //+------------------------------------------------------------------- // // Member: CEnumSTATPROPSETSTG::Clone // // Synopsis: Copy the enumeration state of this enumerator. // // Arguments: [ppenum] -- where to put the pointer to the clone // // Returns: S_OK if ok, error otherwise. // // Notes: We end up just calling IEnumSTATSTG::Clone in the // CEnumSTATPROPSETSTG constructor. // //-------------------------------------------------------------------- HRESULT CEnumSTATPROPSETSTG::Clone(IEnumSTATPROPSETSTG ** ppenum) { HRESULT hr; // ---------- // Validation // ---------- // Validate 'this' if (S_OK != (hr = Validate())) return(hr); // Validate inputs VDATEPTROUT( ppenum, IEnumSTATPROPSETSTG* ); // -------------------- // Clone the enumerator // -------------------- hr = STG_E_INSUFFICIENTMEMORY; *ppenum = new CEnumSTATPROPSETSTG(*this, &hr); if (FAILED(hr)) { delete (CEnumSTATPROPSETSTG*) *ppenum; *ppenum = NULL; } return(hr); }