/* -*- Mode: C++; tab-width: 4; indent-tabs-mode: nil; c-basic-offset: 4 -*- */ /* * This file is part of the LibreOffice project. * * This Source Code Form is subject to the terms of the Mozilla Public * License, v. 2.0. If a copy of the MPL was not distributed with this * file, You can obtain one at http://mozilla.org/MPL/2.0/. * * This file incorporates work covered by the following license notice: * * Licensed to the Apache Software Foundation (ASF) under one or more * contributor license agreements. See the NOTICE file distributed * with this work for additional information regarding copyright * ownership. The ASF licenses this file to you under the Apache * License, Version 2.0 (the "License"); you may not use this file * except in compliance with the License. You may obtain a copy of * the License at http://www.apache.org/licenses/LICENSE-2.0 . */ #include "sot/stg.hxx" #include "stgelem.hxx" #include "stgcache.hxx" #include "stgstrms.hxx" #include "stgdir.hxx" #include "stgio.hxx" #include ///////////////////////////// class StgIo // This class holds the storage header and all internal streams. StgIo::StgIo() : StgCache() { pTOC = NULL; pDataFAT = NULL; pDataStrm = NULL; pFAT = NULL; bCopied = false; } StgIo::~StgIo() { delete pTOC; delete pDataFAT; delete pDataStrm; delete pFAT; } // Load the header. Do not set an error code if the header is invalid. bool StgIo::Load() { if( pStrm ) { if( aHdr.Load( *this ) ) { if( aHdr.Check() ) SetupStreams(); else return false; } else return false; } return Good(); } // Set up an initial, empty storage bool StgIo::Init() { aHdr.Init(); SetupStreams(); return CommitAll(); } void StgIo::SetupStreams() { delete pTOC; delete pDataFAT; delete pDataStrm; delete pFAT; pTOC = NULL; pDataFAT = NULL; pDataStrm = NULL; pFAT = NULL; ResetError(); SetPhysPageSize( 1 << aHdr.GetPageSize() ); pFAT = new StgFATStrm( *this ); pTOC = new StgDirStrm( *this ); if( !GetError() ) { StgDirEntry* pRoot = pTOC->GetRoot(); if( pRoot ) { pDataFAT = new StgDataStrm( *this, aHdr.GetDataFATStart(), -1 ); pDataStrm = new StgDataStrm( *this, *pRoot ); pDataFAT->SetIncrement( 1 << aHdr.GetPageSize() ); pDataStrm->SetIncrement( GetDataPageSize() ); pDataStrm->SetEntry( *pRoot ); } else SetError( SVSTREAM_FILEFORMAT_ERROR ); } } // get the logical data page size short StgIo::GetDataPageSize() { return 1 << aHdr.GetDataPageSize(); } // Commit everything bool StgIo::CommitAll() { // Store the data (all streams and the TOC) if( pTOC && pTOC->Store() && pDataFAT ) { if( Commit() ) { aHdr.SetDataFATStart( pDataFAT->GetStart() ); aHdr.SetDataFATSize( pDataFAT->GetPages() ); aHdr.SetTOCStart( pTOC->GetStart() ); if( aHdr.Store( *this ) ) { pStrm->Flush(); sal_uLong n = pStrm->GetError(); SetError( n ); #ifdef DBG_UTIL if( n==0 ) ValidateFATs(); #endif return n == 0; } } } SetError( SVSTREAM_WRITE_ERROR ); return false; } class EasyFat { sal_Int32 *pFat; bool *pFree; sal_Int32 nPages; sal_Int32 nPageSize; public: EasyFat( StgIo & rIo, StgStrm *pFatStream, sal_Int32 nPSize ); ~EasyFat() { delete[] pFat; delete[] pFree; } sal_Int32 GetPageSize() { return nPageSize; } sal_uLong Mark( sal_Int32 nPage, sal_Int32 nCount, sal_Int32 nExpect ); bool HasUnrefChains(); }; EasyFat::EasyFat( StgIo& rIo, StgStrm* pFatStream, sal_Int32 nPSize ) { nPages = pFatStream->GetSize() >> 2; nPageSize = nPSize; pFat = new sal_Int32[ nPages ]; pFree = new bool[ nPages ]; rtl::Reference< StgPage > pPage; sal_Int32 nFatPageSize = (1 << rIo.aHdr.GetPageSize()) - 2; for( sal_Int32 nPage = 0; nPage < nPages; nPage++ ) { if( ! (nPage % nFatPageSize) ) { pFatStream->Pos2Page( nPage << 2 ); sal_Int32 nPhysPage = pFatStream->GetPage(); pPage = rIo.Get( nPhysPage, true ); } pFat[ nPage ] = StgCache::GetFromPage( pPage, short( nPage % nFatPageSize ) ); pFree[ nPage ] = true; } } bool EasyFat::HasUnrefChains() { for( sal_Int32 nPage = 0; nPage < nPages; nPage++ ) { if( pFree[ nPage ] && pFat[ nPage ] != -1 ) return true; } return false; } sal_uLong EasyFat::Mark( sal_Int32 nPage, sal_Int32 nCount, sal_Int32 nExpect ) { if( nCount > 0 ) --nCount /= GetPageSize(), nCount++; sal_Int32 nCurPage = nPage; while( nCount != 0 ) { if( nCurPage < 0 || nCurPage >= nPages ) return FAT_OUTOFBOUNDS; pFree[ nCurPage ] = false; nCurPage = pFat[ nCurPage ]; //Stream zu lang if( nCurPage != nExpect && nCount == 1 ) return FAT_WRONGLENGTH; //Stream zu kurz if( nCurPage == nExpect && nCount != 1 && nCount != -1 ) return FAT_WRONGLENGTH; // letzter Block bei Stream ohne Laenge if( nCurPage == nExpect && nCount == -1 ) nCount = 1; if( nCount != -1 ) nCount--; } return FAT_OK; } class Validator { sal_uLong nError; EasyFat aSmallFat; EasyFat aFat; StgIo &rIo; sal_uLong ValidateMasterFATs(); sal_uLong ValidateDirectoryEntries(); sal_uLong FindUnrefedChains(); sal_uLong MarkAll( StgDirEntry *pEntry ); public: Validator( StgIo &rIo ); bool IsError() { return nError != 0; } }; Validator::Validator( StgIo &rIoP ) : aSmallFat( rIoP, rIoP.pDataFAT, 1 << rIoP.aHdr.GetDataPageSize() ), aFat( rIoP, rIoP.pFAT, 1 << rIoP.aHdr.GetPageSize() ), rIo( rIoP ) { sal_uLong nErr = nError = FAT_OK; if( ( nErr = ValidateMasterFATs() ) != FAT_OK ) nError = nErr; else if( ( nErr = ValidateDirectoryEntries() ) != FAT_OK ) nError = nErr; else if( ( nErr = FindUnrefedChains()) != FAT_OK ) nError = nErr; } sal_uLong Validator::ValidateMasterFATs() { sal_Int32 nCount = rIo.aHdr.GetFATSize(); sal_uLong nErr; if ( !rIo.pFAT ) return FAT_INMEMORYERROR; for( sal_Int32 i = 0; i < nCount; i++ ) { if( ( nErr = aFat.Mark(rIo.pFAT->GetPage( short(i), false ), aFat.GetPageSize(), -3 )) != FAT_OK ) return nErr; } if( rIo.aHdr.GetMasters() ) if( ( nErr = aFat.Mark(rIo.aHdr.GetFATChain( ), aFat.GetPageSize(), -4 )) != FAT_OK ) return nErr; return FAT_OK; } sal_uLong Validator::MarkAll( StgDirEntry *pEntry ) { if ( !pEntry ) return FAT_INMEMORYERROR; StgIterator aIter( *pEntry ); sal_uLong nErr = FAT_OK; for( StgDirEntry* p = aIter.First(); p ; p = aIter.Next() ) { if( p->aEntry.GetType() == STG_STORAGE ) { nErr = MarkAll( p ); if( nErr != FAT_OK ) return nErr; } else { sal_Int32 nSize = p->aEntry.GetSize(); if( nSize < rIo.aHdr.GetThreshold() ) nErr = aSmallFat.Mark( p->aEntry.GetStartPage(),nSize, -2 ); else nErr = aFat.Mark( p->aEntry.GetStartPage(),nSize, -2 ); if( nErr != FAT_OK ) return nErr; } } return FAT_OK; } sal_uLong Validator::ValidateDirectoryEntries() { if ( !rIo.pTOC ) return FAT_INMEMORYERROR; // Normale DirEntries sal_uLong nErr = MarkAll( rIo.pTOC->GetRoot() ); if( nErr != FAT_OK ) return nErr; // Small Data nErr = aFat.Mark( rIo.pTOC->GetRoot()->aEntry.GetStartPage(), rIo.pTOC->GetRoot()->aEntry.GetSize(), -2 ); if( nErr != FAT_OK ) return nErr; // Small Data FAT nErr = aFat.Mark( rIo.aHdr.GetDataFATStart(), rIo.aHdr.GetDataFATSize() * aFat.GetPageSize(), -2 ); if( nErr != FAT_OK ) return nErr; // TOC nErr = aFat.Mark( rIo.aHdr.GetTOCStart(), -1, -2 ); return nErr; } sal_uLong Validator::FindUnrefedChains() { if( aSmallFat.HasUnrefChains() || aFat.HasUnrefChains() ) return FAT_UNREFCHAIN; else return FAT_OK; } namespace { struct ErrorLink : public rtl::Static, ErrorLink > {}; } void StgIo::SetErrorLink( const Link<>& rLink ) { ErrorLink::get() = rLink; } const Link<>& StgIo::GetErrorLink() { return ErrorLink::get(); } sal_uLong StgIo::ValidateFATs() { if( bFile ) { Validator *pV = new Validator( *this ); bool bRet1 = !pV->IsError(), bRet2 = true ; delete pV; SvFileStream *pFileStrm = static_cast( GetStrm() ); if ( !pFileStrm ) return FAT_INMEMORYERROR; StgIo aIo; if( aIo.Open( pFileStrm->GetFileName(), StreamMode::READ | StreamMode::SHARE_DENYNONE) && aIo.Load() ) { pV = new Validator( aIo ); bRet2 = !pV->IsError(); delete pV; } sal_uLong nErr; if( bRet1 != bRet2 ) nErr = bRet1 ? FAT_ONFILEERROR : FAT_INMEMORYERROR; else nErr = bRet1 ? FAT_OK : FAT_BOTHERROR; if( nErr != FAT_OK && !bCopied ) { StgLinkArg aArg; aArg.aFile = pFileStrm->GetFileName(); aArg.nErr = nErr; ErrorLink::get().Call( &aArg ); bCopied = true; } // DBG_ASSERT( nErr == FAT_OK ,"Storage kaputt"); return nErr; } // OSL_FAIL("Validiere nicht (kein FileStorage)"); return FAT_OK; } /* vim:set shiftwidth=4 softtabstop=4 expandtab: */