//+-------------------------------------------------------------- // // Microsoft Windows // Copyright (C) Microsoft Corporation, 1991 - 1996. // // File: dir.cxx // // Contents: Directory Functions // //--------------------------------------------------------------- #include "msfhead.cxx" #include "h/dirfunc.hxx" #include "mread.hxx" #define DEB_DIR (DEB_ITRACE | 0x00040000) //+------------------------------------------------------------------------- // // Member: CMStream::KillStream, public // // Synopsis: Eliminate a given chain // // Arguments: [sectStart] -- Beginning of chain to eliminate // // Returns: S_OK if call completed OK. // // Algorithm: // // Notes: // //-------------------------------------------------------------------------- inline SCODE CMStream::KillStream(SECT sectStart, ULONG ulSize) { CFat *pfat; pfat = (ulSize < MINISTREAMSIZE) ?&_fatMini: &_fat; return pfat->SetChainLength(sectStart, 0); } //+------------------------------------------------------------------------- // // Member: GetNewDirEntryArray, public // // Synopsis: Obtain a new array of CDirEntry(s) // // Arguments: [cbSector] -- size of a sector // // Returns: New CDirEntry array // // Algorithm: calculates the number of entries need for the array and // allocate it // // Notes: // //-------------------------------------------------------------------------- inline CDirEntry* GetNewDirEntryArray(USHORT cbSector) { CDirEntry *temp; DIROFFSET cdeEntries = (USHORT) (cbSector / sizeof(CDirEntry)); temp = new CDirEntry[cdeEntries]; return temp; } //+------------------------------------------------------------------------- // // Member: CDirEntry::Init, public // // Synopsis: Initializes member data // // Arguments: [mse] -- multi-stream entry flags for the directory entry // // Returns: void // // Algorithm: // // Notes: // //-------------------------------------------------------------------------- inline void CDirEntry::Init(MSENTRYFLAGS mse) { msfAssert(sizeof(CDirEntry) == DIRENTRYSIZE); msfAssert(mse <= 0xff); _mse = (BYTE) mse; _bflags = 0; _dfn.Set((WORD)0, (BYTE *)NULL); _sidLeftSib = _sidRightSib = _sidChild = NOSTREAM; if (STORAGELIKE(_mse)) { _clsId = IID_NULL; _dwUserFlags = 0; } if (STREAMLIKE(_mse)) { _sectStart = ENDOFCHAIN; _ulSize = 0; } } //+------------------------------------------------------------------------- // // Method: CDirEntry::CDirEntry, public // // Synopsis: Constructor for CDirEntry class // // Effects: // // Notes: // //-------------------------------------------------------------------------- CDirEntry::CDirEntry() { msfAssert(sizeof(CDirEntry) == DIRENTRYSIZE); Init(STGTY_INVALID); } //+------------------------------------------------------------------------- // // Method: CDirSect::Init, public // // Synopsis: Initializer for directory sectors // // Arguments: [cdeEntries] -- Number of DirEntries in the sector // // Returns: S_OK if call completed OK. // // Notes: // //-------------------------------------------------------------------------- SCODE CDirSect::Init(USHORT cbSector) { msfDebugOut((DEB_DIR,"Allocating sector with size %u\n",cbSector)); DIROFFSET cdeEntries = (USHORT) (cbSector / sizeof(CDirEntry)); for (ULONG i = 0; i < cdeEntries; i++) { _adeEntry[i].Init(STGTY_INVALID); } return S_OK; } //+------------------------------------------------------------------------- // // Method: CDirectory::CDirectory // // Synopsis: Default constructor // // Notes: // //-------------------------------------------------------------------------- CDirectory::CDirectory(USHORT cbSector) : _pmsParent(NULL), _dv(cbSector) { _cdsTable = _cdeEntries = 0; _sidFirstFree = 0; } //+--------------------------------------------------------------------------- // // Member: CDirectory::Empty, public // // Synopsis: Empty all the control structures of this instance // // Arguments: None. // // Returns: void. // //---------------------------------------------------------------------------- void CDirectory::Empty(void) { _dv.Empty(); _pmsParent = NULL; _cdsTable = 0; _cdeEntries = 0; _sidFirstFree = 0; } //+------------------------------------------------------------------------- // // Member: CDirectory::GetFree, public // // Synposis: Locates a free directory entry // // Arguments: [psid] Stream ID of free directory entry. // // Returns: S_OK if successful // // Algorithm: Do a linear search of all available directories. // If no free spot is found, resize the directory and // perform the search again. // // Notes: // //--------------------------------------------------------------------------- SCODE CDirectory::GetFree(SID* psid) { msfDebugOut((DEB_DIR,"In CDirectory::GetFree()\n")); SCODE sc = S_OK; SID sidRet = NOSTREAM; CDirSect * pds; DIRINDEX ipdsStart; DIROFFSET ideStart; SidToPair(_sidFirstFree, &ipdsStart, &ideStart); while (TRUE) { DIRINDEX ipds; for (ipds = ipdsStart; ipds < _cdsTable; ipds++) { msfChk(_dv.GetTable(ipds, FB_NONE, &pds)); for (DIROFFSET ide = ideStart; ide < _cdeEntries; ide++) { if (pds->GetEntry(ide)->IsFree()) { msfDebugOut((DEB_ITRACE,"GetFree found sid %lu\n", PairToSid(ipds,ide))); *psid = PairToSid(ipds, ide); _sidFirstFree = *psid + 1; _dv.ReleaseTable(ipds); return S_OK; } } _dv.ReleaseTable(ipds); ideStart = 0; } ipdsStart = ipds; msfChk(Resize(_cdsTable+1)); } Err: return sc; } //+------------------------------------------------------------------------- // // Member: CDirectory::FindGreaterEntry // // Synopsis: finds next entry (for iteration) // // Arguments: [sidStart] -- child sid to start looking // [pdfn] -- previous entry name // [psidResult] -- place holder for returned sid // // Requires: sidStart != NOSTREAM // // Returns: S_OK, STG_E_NOMOREFILES, or other error // // Modifies: psidResult // // Algorithm: Iterate by returning the sid that has a name larger // than the given name. // // Notes: This method is called recursively // //-------------------------------------------------------------------------- SCODE CDirectory::FindGreaterEntry(SID sidStart, CDfName const *pdfn, SID *psidResult) { SCODE sc; CDirEntry *pde; msfAssert(sidStart != NOSTREAM); msfChk(GetDirEntry(sidStart, FB_NONE, &pde)); int iCmp; iCmp = NameCompare(pdfn, pde->GetName()); if (iCmp < 0) { // Since the last name returned is less than this name, // the sid to return must either be to our left or this sid SID sidLeft = pde->GetLeftSib(); // We can't hold onto sidStart as we recurse, (because we'll ask for // a page each time we recurse) ReleaseEntry(sidStart); if (sidLeft == sidStart) { //Corrupt docfile - return error. return STG_E_DOCFILECORRUPT; } if ((sidLeft == NOSTREAM) || (sc = FindGreaterEntry(sidLeft, pdfn, psidResult)) == STG_E_NOMOREFILES) { // There was no left child with a name greater than pdfn, so // we return ourself *psidResult = sidStart; sc = S_OK; } } else { // The last name returned is greater than this one, so we've already // returned this sidStart. Look in the right subtree. SID sidRight = pde->GetRightSib(); // We can't hold onto sidStart as we recurse, (because we'll ask for // a page each time we recurse) ReleaseEntry(sidStart); if (sidRight == sidStart) { //Corrupt docfile - return error. return STG_E_DOCFILECORRUPT; } if (sidRight == NOSTREAM) sc = STG_E_NOMOREFILES; else sc = FindGreaterEntry(sidRight, pdfn, psidResult); } Err: return(sc); } //+------------------------------------------------------------------------- // // Method: CDirectory::SetStart, public // // Synopsis: Set starting sector for a dir entry // // Arguments: [sid] -- SID of entry to be modified // [sect] -- New starting sector for entry // // Returns: SID of modified entry // // Notes: // //-------------------------------------------------------------------------- SCODE CDirectory::SetStart(const SID sid, const SECT sect) { SCODE sc; CDirEntry *pde; msfChk(GetDirEntry(sid, FB_DIRTY, &pde)); pde->SetStart(sect); ReleaseEntry(sid); Err: return sc; } //+------------------------------------------------------------------------- // // Member: CDirectory::SetChild, public // // Synposis: Set the child SID of an entry // // Effects: Modifies a single directory entry. Causes a one sector // stream write. // // Arguments: [sid] -- Stream ID of entry to be set // [sidChild] -- SID of first child of this stream // // Returns: SID of modified entry // // Algorithm: Change child field on entry, then write to stream. // //--------------------------------------------------------------------------- SCODE CDirectory::SetChild(const SID sid, const SID sidChild) { SCODE sc; CDirEntry *pde; msfChk(GetDirEntry(sid, FB_DIRTY, &pde)); pde->SetChild(sidChild); ReleaseEntry(sid); Err: return sc; } //+------------------------------------------------------------------------- // // Member: CDirectory::SetSize, public // // Synposis: Set the size of an entry // // Effects: Modifies a single directory entry. Causes a one sector // stream write. // // Arguments: [sid] -- Stream ID of entry to be set // [cbSize] -- Size // // Returns: SID of modified entry // // Algorithm: Change size field on entry, then write to stream. // //--------------------------------------------------------------------------- SCODE CDirectory::SetSize(const SID sid, const ULONG cbSize) { SCODE sc; CDirEntry *pde; msfChk(GetDirEntry(sid, FB_DIRTY, &pde)); pde->SetSize(cbSize); ReleaseEntry(sid); Err: return sc; } //+------------------------------------------------------------------------- // // Member: CDirectory::SetTime, public // // Synposis: Set the time of an entry // // Effects: Modifies a single directory entry. Causes a one sector // stream write. // // Arguments: [sid] -- Stream ID of entry to be set // [tt] - WT_* // [nt] - New time // // Returns: SID of modified entry // // Algorithm: Change time field on entry, then write to stream. // //--------------------------------------------------------------------------- SCODE CDirectory::SetTime(const SID sid, WHICHTIME tt, TIME_T nt) { SCODE sc; CDirEntry *pde; // We don't support ACCESS times, so just ignore sets if (tt == WT_ACCESS) return S_OK; msfChk(GetDirEntry(sid, FB_DIRTY, &pde)); pde->SetTime(tt, nt); ReleaseEntry(sid); Err: return sc; } //+------------------------------------------------------------------------- // // Member: CDirectory::SetFlags, public // // Synposis: Set the flags of an entry // // Effects: Modifies a single directory entry. Causes a one sector // stream write. // // Arguments: [sid] -- Stream ID of entry to be set // [mse] - New flags // // Returns: Status code // // Algorithm: Change Luid field on entry, then write to stream. // //--------------------------------------------------------------------------- SCODE CDirectory::SetFlags(const SID sid, const MSENTRYFLAGS mse) { SCODE sc; CDirEntry *pde; msfChk(GetDirEntry(sid, FB_DIRTY, &pde)); pde->SetFlags(mse); ReleaseEntry(sid); Err: return sc; } //+------------------------------------------------------------------------- // // Member: CDirectory::SetClassId, public // // Synposis: Set the class ID of an entry // // Effects: Modifies a single directory entry. Causes a one sector // stream write. // // Arguments: [sid] -- Stream ID of entry to be set // [cls] - Class ID // // Returns: Appropriate status code // //--------------------------------------------------------------------------- SCODE CDirectory::SetClassId(const SID sid, const GUID cls) { SCODE sc; CDirEntry *pde; msfChk(GetDirEntry(sid, FB_DIRTY, &pde)); pde->SetClassId(cls); ReleaseEntry(sid); Err: return sc; } //+------------------------------------------------------------------------- // // Member: CDirectory::SetUserFlags, public // // Synposis: Set the user flags of an entry // // Effects: Modifies a single directory entry. Causes a one sector // stream write. // // Arguments: [sid] -- Stream ID of entry to be set // [dwUserFlags] - Flags // [dwMask] - Mask // // Returns: Appropriate status code // //--------------------------------------------------------------------------- SCODE CDirectory::SetUserFlags(SID const sid, DWORD dwUserFlags, DWORD dwMask) { SCODE sc; CDirEntry *pde; msfChk(GetDirEntry(sid, FB_DIRTY, &pde)); pde->SetUserFlags(dwUserFlags, dwMask); ReleaseEntry(sid); Err: return sc; } //+------------------------------------------------------------------------- // // Member: CDirectory::resize, private // // Synposis: Resize a directory. // // Effects: Reallocates space for directory table, copying over // old pointers as necessary. Any new tables needed are // created here. // // Arguments: [uNewsize] -- New size for Directory // // Returns: void // // Algorithm: Allocate a new array of pointers of the necessary size. // Then, copy over all pointers from old array and allocate // new CDirSects for all new tables. // // Notes: // //--------------------------------------------------------------------------- SCODE CDirectory::Resize(DIRINDEX uNewsize) { msfDebugOut((DEB_DIR,"In CDirectory::Resize(%i)\n",uNewsize)); SCODE sc; if (uNewsize == _cdsTable) return S_OK; SECT sect; //GetESect call will make sure we have enough Fat space. msfChk(_pmsParent->GetESect(SIDDIR, uNewsize - 1, §)); msfChk(_pmsParent->SetSize()); msfChk(_dv.Resize(uNewsize)); ULONG ipds; for (ipds = _cdsTable; ipds < uNewsize; ipds++) { CDirSect *pds; msfChk(_dv.GetTable(ipds, FB_NEW, &pds)); SECT sect; msfChk(_pmsParent->GetESect(SIDDIR, ipds, §)); _dv.SetSect(ipds, sect); _dv.ReleaseTable(ipds); } _cdsTable = uNewsize; Err: return sc; } //+------------------------------------------------------------------------- // // Member: CDirectory::Init, public // // Synposis: Sets up a Directory instance and reads in all tables // from the stream // // Arguments: [cSect] -- Number of sectors in directory // // Returns: S_OK if call completed OK. // STG_E_READFAULT if not enough bytes were read for // a DirSector // Error code of read if read returned an error. // // Algorithm: Create array to hold appropriate number of tables. // Read in each table from disk. // //--------------------------------------------------------------------------- SCODE CDirectory::Init( CMStream *pmsParent, DIRINDEX cSect) { msfDebugOut((DEB_DIR,"In CDirectory::Init(%lu)\n",cSect)); SCODE sc; _pmsParent = pmsParent; _cdeEntries = (DIROFFSET) ( _pmsParent->GetSectorSize() / sizeof(CDirEntry)); msfChk(_dv.Init(_pmsParent, cSect)); _cdsTable = cSect; msfDebugOut((DEB_DIR,"Out CDirectory::Init()\n")); Err: return sc; } //+------------------------------------------------------------------------- // // Member: CDirectory::InitNew, public // // Synposis: Sets up a new Directory instance for a new Mstream // // Arguments: None. // // Returns: S_OK if call completed OK. // STG_E_WRITEFAULT if not enough bytes were written. // Error code of write if write failed. // // Algorithm: Write initial DirSector to disk. // // Notes: // //--------------------------------------------------------------------------- SCODE CDirectory::InitNew(CMStream *pmsParent) { SCODE sc; #ifndef _MSC_VER #define ROOT_ENTRY "Root Entry" WCHAR *wcsRoot = new WCHAR[sizeof(ROOT_ENTRY)+1]; _tbstowcs(wcsRoot, ROOT_ENTRY, sizeof(ROOT_ENTRY)); CDfName const dfnRoot(wcsRoot); #else CDfName const dfnRoot(L"Root Entry"); #endif msfDebugOut((DEB_DIR,"In CDirectory::setupnew()\n")); _pmsParent = pmsParent; _cdeEntries = (DIROFFSET) (_pmsParent->GetSectorSize() / sizeof(CDirEntry)); msfChk(_dv.Init(_pmsParent, 1)); CDirSect *pds; msfChk(_dv.GetTable(0, FB_NEW, &pds)); _dv.SetSect(0, _pmsParent->GetHeader()->GetDirStart()); _dv.ReleaseTable(0); _cdsTable = 1; SID sidRoot; msfChk(GetFree(&sidRoot)); CDirEntry *pdeTemp; msfChk(GetDirEntry(sidRoot, FB_DIRTY, &pdeTemp)); pdeTemp->Init(STGTY_ROOT); msfAssert(sidRoot == SIDROOT); pdeTemp->SetName(&dfnRoot); ReleaseEntry(sidRoot); msfDebugOut((DEB_DIR,"Exiting CDirectory::setupnew()\n")); Err: return sc; } //+------------------------------------------------------------------------- // // Method: CDirectory::CreateEntry, public // // Synopsis: Create a new directory entry // // Arguments: [sidParent] -- SID of parent for new entry // [pwcsName] -- Name of new entry // [mef] -- Flags for new entry // [psidNew] -- Return location for new SID // // Returns: S_OK if call completed OK. // // Algorithm: Search directory for entry of the same name. If one // is found, return STG_E_FILEALREADYEXISTS. // If not, create a new entry and return its SID. // //-------------------------------------------------------------------------- SCODE CDirectory::CreateEntry( SID sidParent, CDfName const *pdfn, MSENTRYFLAGS mef, SID *psidNew) { SCODE sc; SID sidNew; CDirEntry *pdeNew; SEntryBuffer eb; sc = IsEntry(sidParent, pdfn, &eb); if (sc != STG_E_FILENOTFOUND) { if (SUCCEEDED(sc)) sc = STG_E_FILEALREADYEXISTS; return(sc); } // Allocate new sid msfChk(GetFree(psidNew)); sidNew = *psidNew; msfChk(GetDirEntry(sidNew, FB_DIRTY, &pdeNew)); // Initialize new entry pdeNew->Init(mef); TIME_T timetemp; DfGetTOD(&timetemp); pdeNew->SetTime(WT_CREATION, timetemp); pdeNew->SetTime(WT_MODIFICATION, timetemp); pdeNew->SetName(pdfn); ReleaseEntry(sidNew); // Insert new entry into the tree msfChk(InsertEntry(sidParent, sidNew, pdfn)); Err: return sc; } //+------------------------------------------------------------------------- // // Member: CDirectory::RenameEntry, public // // Synopsis: Rename an entry // // Arguments: [sidParent] -- Sid of parent of entry to be renamed // [pwcsName] -- Old name of entry to be renamed // [pwcsName] -- New name // // Returns: S_OK if call completed OK. // // Algorithm: Remove old entry // Rename entry // Insert as new entry // // Notes: // //-------------------------------------------------------------------------- SCODE CDirectory::RenameEntry(SID const sidParent, CDfName const *pdfn, CDfName const *pdfnNew) { // Make sure new name doesn't already exist SCODE sc; SEntryBuffer eb; sc = IsEntry(sidParent, pdfnNew, &eb); if (sc != STG_E_FILENOTFOUND) { if (SUCCEEDED(sc)) { // Entry did exist - fail this call sc = STG_E_ACCESSDENIED; } return(sc); } // We can't just rename in place (because the tree is ordered) CDirEntry *pdeRename; SEntryBuffer ebRename; msfChk(FindEntry(sidParent, pdfn, DEOP_REMOVE, &ebRename)); sc = GetDirEntry(ebRename.sid, FB_DIRTY, &pdeRename); msfAssert(SUCCEEDED(sc) && aMsg("Could get dir entry to rename")); msfChk(sc); pdeRename->SetName(pdfnNew); ReleaseEntry(ebRename.sid); // If this InsertEntry fails, we've potentially lost the entry. This // doesn't matter becase: // a) The only way we could fail is if we couldn't read or write // the disk (hard error) // b) No one's going to call RenameEntry anyways // c) If we're transacted, the whole operation is made robust by // CopyOnWrite mode // d) If we're direct, we already know we can fail in ways that leave // the Docfile corrupt. sc = InsertEntry(sidParent, ebRename.sid, pdfnNew); msfAssert(SUCCEEDED(sc) && aMsg("Couldn't reinsert renamed dir entry")); msfChk(sc); Err: return sc; } //+------------------------------------------------------------------------- // // Member: CDirectory::DestroyAllChildren // // Synopsis: destroy all child entries // // Effects: destroys child tree // // Arguments: [sidParent] -- storage entry // // Returns: S_OK or error code // // Modifies: sidParent's entry // // Algorithm: While there's a child // destroy it // // Notes: We may want to consider a more efficient implementation // //-------------------------------------------------------------------------- SCODE CDirectory::DestroyAllChildren( SID const sidParent) { SCODE sc; CDirEntry *pdeParent, *pdeChild; SID sidChild; CDfName dfnChild; for (;;) { CDfName dfnChild; msfChk(GetDirEntry(sidParent, FB_NONE, &pdeParent)); sidChild = pdeParent->GetChild(); ReleaseEntry(sidParent); if (sidChild == NOSTREAM) break; msfChk(GetDirEntry(sidChild, FB_NONE, &pdeChild)); dfnChild.Set(pdeChild->GetName()); ReleaseEntry(sidChild); msfChk(DestroyChild(sidParent, &dfnChild)); } Err: return(sc); } //+------------------------------------------------------------------------- // // Member: CDirectory::DestroyChild // // Synopsis: destroy a named child // // Effects: destroys named child's entry // // Arguments: [sidParent] -- storage entry // [pdfn] -- child name // // Returns: S_OK, STG_E_FILENOTFOUND, or other error code // // Modifies: child's entry // // Algorithm: Find and remove child // Free child entry // //-------------------------------------------------------------------------- SCODE CDirectory::DestroyChild( SID const sidParent, CDfName const *pdfn) { SCODE sc; SEntryBuffer ebChild; msfAssert(pdfn != NULL); // remove the entry from the tree msfChk(FindEntry(sidParent, pdfn, DEOP_REMOVE, &ebChild)); msfAssert(ebChild.sid != NOSTREAM); // Before we remove this entry, we need to destroy it (including all // its children). Note that we can't hold onto the entry because it // might have children which get destroyed, which have children which // get destroyed, etc. if (STORAGELIKE(ebChild.dwType)) { msfChk(DestroyAllChildren(ebChild.sid)); } CDirEntry *pdeChild; msfChk(GetDirEntry(ebChild.sid, FB_DIRTY, &pdeChild)); if (STREAMLIKE(ebChild.dwType)) { // Deallocate any used streams msfChkTo(EH_Rel, _pmsParent->KillStream(pdeChild->GetStart(), pdeChild->GetSize())); } pdeChild->SetFlags(STGTY_INVALID); if (ebChild.sid < _sidFirstFree) { _sidFirstFree = ebChild.sid; } EH_Rel: ReleaseEntry(ebChild.sid); Err: return(sc); } //+------------------------------------------------------------------------- // // Method: CDirectory::StatEntry // // Synopsis: For a given handle, fill in the Multistream specific // information of a STATSTG. // // Arguments: [sid] -- SID that information is requested on. // [pName] -- name of the next key to fill in // [pstatstg] -- STATSTG to fill in. // // Returns: S_OK // // Modifies: [pName] -- if it is not null // [pstatstg] -- if it is not null // // Algorithm: Fill in time information and size and then return // //-------------------------------------------------------------------------- SCODE CDirectory::StatEntry(SID const sid, CDfName *pName, STATSTGW *pstatstg) { SCODE sc; CDirEntry *pde; msfChk(GetDirEntry(sid, FB_NONE, &pde)); if (pName) { pName->Set(pde->GetName()); } if (pstatstg) { pstatstg->type = pde->GetFlags(); // allocate memory msfChk(DfAllocWCS((WCHAR *)pde->GetName()->GetBuffer(), &pstatstg->pwcsName)); wcscpy(pstatstg->pwcsName, (WCHAR*) pde->GetName()->GetBuffer()); pstatstg->mtime = pde->GetTime(WT_MODIFICATION); pstatstg->ctime = pde->GetTime(WT_CREATION); pstatstg->atime = pstatstg->mtime; // don't currently keep access times // Don't use REAL_STGTY here because we want this // to function properly for both property and non-property builds if ((pstatstg->type & STGTY_REAL) == STGTY_STORAGE) { ULISet32(pstatstg->cbSize, 0); pstatstg->clsid = pde->GetClassId(); pstatstg->grfStateBits = pde->GetUserFlags(); } else { ULISet32(pstatstg->cbSize, pde->GetSize()); pstatstg->clsid = CLSID_NULL; pstatstg->grfStateBits = 0; } } Err: ReleaseEntry(sid); return sc; } //+------------------------------------------------------------------------- // // Member: CDirectory::GetDirEntry // // Synopsis: Get a directory entry with given permissions // // Arguments: [sid] -- SID // [dwFlags] -- permissions // [ppde] -- placeholder for directory entry // // Returns: S_OK if call completed OK. // // Algorithm: // //-------------------------------------------------------------------------- SCODE CDirectory::GetDirEntry( const SID sid, const DWORD dwFlags, CDirEntry **ppde) { SCODE sc; CDirSect *pds; DIRINDEX id = sid / _cdeEntries; msfChk(_dv.GetTable(id, dwFlags, &pds)); *ppde = pds->GetEntry((DIROFFSET)(sid % _cdeEntries)); Err: return sc; } //+------------------------------------------------------------------------- // // Member: CDirectory::ReleaseEntry // // Synopsis: Releases a directory entry // // Arguments: [sid] -- SID // // Returns: S_OK if call completed OK. // // Algorithm: // //-------------------------------------------------------------------------- void CDirectory::ReleaseEntry(SID sid) { _dv.ReleaseTable(sid / _cdeEntries); }