/* -*- 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 #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include namespace svt { using namespace ::utl; using namespace ::com::sun::star; using namespace ::com::sun::star::sdbc; using namespace ::com::sun::star::ucb; using namespace ::com::sun::star::uno; //= helpers SvStream& WriteDateTime( SvStream& _rStorage, const util::DateTime& _rDate ) { sal_uInt16 hundredthSeconds = static_cast< sal_uInt16 >( _rDate.NanoSeconds / tools::Time::nanoPerCenti ); _rStorage.WriteUInt16( hundredthSeconds ); _rStorage.WriteUInt16( _rDate.Seconds ); _rStorage.WriteUInt16( _rDate.Minutes ); _rStorage.WriteUInt16( _rDate.Hours ); _rStorage.WriteUInt16( _rDate.Day ); _rStorage.WriteUInt16( _rDate.Month ); _rStorage.WriteInt16( _rDate.Year ); return _rStorage; } SvStream& operator >> ( SvStream& _rStorage, util::DateTime& _rDate ) { sal_uInt16 hundredthSeconds; _rStorage.ReadUInt16( hundredthSeconds ); _rDate.NanoSeconds = static_cast< sal_uInt32 >( hundredthSeconds ) * tools::Time::nanoPerCenti; _rStorage.ReadUInt16( _rDate.Seconds ); _rStorage.ReadUInt16( _rDate.Minutes ); _rStorage.ReadUInt16( _rDate.Hours ); _rStorage.ReadUInt16( _rDate.Day ); _rStorage.ReadUInt16( _rDate.Month ); _rStorage.ReadInt16( _rDate.Year ); return _rStorage; } //= TemplateContent struct TemplateContent; typedef ::std::vector< ::rtl::Reference< TemplateContent > > TemplateFolderContent; typedef TemplateFolderContent::const_iterator ConstFolderIterator; typedef TemplateFolderContent::iterator FolderIterator; /** a struct describing one content in one of the template dirs (or at least it's relevant aspects) */ struct TemplateContent : public ::salhelper::SimpleReferenceObject { public: private: INetURLObject m_aURL; OUString m_sLocalName; // redundant - last segment of m_aURL util::DateTime m_aLastModified; // date of last modification as reported by UCP TemplateFolderContent m_aSubContents; // sorted (by name) list of the children private: inline void implResetDate( ) { m_aLastModified.NanoSeconds = m_aLastModified.Seconds = m_aLastModified.Minutes = m_aLastModified.Hours = 0; m_aLastModified.Day = m_aLastModified.Month = m_aLastModified.Year = 0; } private: virtual ~TemplateContent(); public: explicit TemplateContent( const INetURLObject& _rURL ); // attribute access inline OUString getURL( ) const { return m_aURL.GetMainURL( INetURLObject::DECODE_TO_IURI ); } inline void setModDate( const util::DateTime& _rDate ) { m_aLastModified = _rDate; } inline const util::DateTime& getModDate( ) const { return m_aLastModified; } inline TemplateFolderContent& getSubContents() { return m_aSubContents; } inline const TemplateFolderContent& getSubContents() const { return m_aSubContents; } inline ConstFolderIterator end() const { return m_aSubContents.end(); } inline TemplateFolderContent::size_type size() const { return m_aSubContents.size(); } inline void push_back( const ::rtl::Reference< TemplateContent >& _rxNewElement ) { m_aSubContents.push_back( _rxNewElement ); } }; TemplateContent::TemplateContent( const INetURLObject& _rURL ) :m_aURL( _rURL ) { DBG_ASSERT( INetProtocol::NotValid != m_aURL.GetProtocol(), "TemplateContent::TemplateContent: invalid URL!" ); m_sLocalName = m_aURL.getName(); implResetDate(); } TemplateContent::~TemplateContent() { } //= stl helpers /// compares two TemplateContent by URL struct TemplateContentURLLess :public ::std::binary_function < ::rtl::Reference< TemplateContent > , ::rtl::Reference< TemplateContent > , bool > { bool operator() ( const ::rtl::Reference< TemplateContent >& _rxLHS, const ::rtl::Reference< TemplateContent >& _rxRHS ) const { return _rxLHS->getURL() < _rxRHS->getURL(); } }; /// sorts the sib contents of a TemplateFolderContent struct SubContentSort : public ::std::unary_function< ::rtl::Reference< TemplateContent >, void > { void operator() ( TemplateFolderContent& _rFolder ) const { // sort the directory by name ::std::sort( _rFolder.begin(), _rFolder.end(), TemplateContentURLLess() ); // sort the sub directories by name ::std::for_each( _rFolder.begin(), _rFolder.end(), *this ); } void operator() ( const ::rtl::Reference< TemplateContent >& _rxContent ) const { if ( _rxContent.is() && _rxContent->size() ) { operator()( _rxContent->getSubContents() ); } } }; /** does a deep compare of two template contents */ struct TemplateContentEqual :public ::std::binary_function < ::rtl::Reference< TemplateContent > , ::rtl::Reference< TemplateContent > , bool > { bool operator() (const ::rtl::Reference< TemplateContent >& _rLHS, const ::rtl::Reference< TemplateContent >& _rRHS ) { if ( !_rLHS.is() || !_rRHS.is() ) { OSL_FAIL( "TemplateContentEqual::operator(): invalid contents!" ); return true; // this is not strictly true, in case only one is invalid - but this is a heavy error anyway } if ( _rLHS->getURL() != _rRHS->getURL() ) return false; if ( _rLHS->getModDate() != _rRHS->getModDate() ) return false; if ( _rLHS->getSubContents().size() != _rRHS->getSubContents().size() ) return false; if ( _rLHS->getSubContents().size() ) { // there are children // -> compare them ::std::pair< FolderIterator, FolderIterator > aFirstDifferent = ::std::mismatch( _rLHS->getSubContents().begin(), _rLHS->getSubContents().end(), _rRHS->getSubContents().begin(), *this ); if ( aFirstDifferent.first != _rLHS->getSubContents().end() ) return false;// the sub contents differ } return true; } }; /// base class for functors which act on a SvStream struct StorageHelper { protected: SvStream& m_rStorage; explicit StorageHelper( SvStream& _rStorage ) : m_rStorage( _rStorage ) { } }; /// functor which allows storing a string struct StoreString :public ::std::unary_function< OUString, void > ,public StorageHelper { explicit StoreString( SvStream& _rStorage ) : StorageHelper( _rStorage ) { } void operator() ( const OUString& _rString ) const { m_rStorage.WriteUniOrByteString( _rString, m_rStorage.GetStreamCharSet() ); } }; struct StoreContentURL :public ::std::unary_function< ::rtl::Reference< TemplateContent >, void > ,public StoreString { uno::Reference< util::XOfficeInstallationDirectories > m_xOfficeInstDirs; StoreContentURL( SvStream& _rStorage, const uno::Reference< util::XOfficeInstallationDirectories > & xOfficeInstDirs ) : StoreString( _rStorage ), m_xOfficeInstDirs( xOfficeInstDirs ) { } void operator() ( const ::rtl::Reference< TemplateContent >& _rxContent ) const { // use the base class operator with the local name of the content OUString sURL = _rxContent->getURL(); // #116281# Keep office installtion relocatable. Never store // any direct references to office installation directory. sURL = m_xOfficeInstDirs->makeRelocatableURL( sURL ); StoreString::operator() ( sURL ); } }; /// functor which stores the complete content of a TemplateContent struct StoreFolderContent :public ::std::unary_function< ::rtl::Reference< TemplateContent >, void > ,public StorageHelper { uno::Reference< util::XOfficeInstallationDirectories > m_xOfficeInstDirs; public: StoreFolderContent( SvStream& _rStorage, const uno::Reference< util::XOfficeInstallationDirectories > & xOfficeInstDirs ) : StorageHelper( _rStorage ), m_xOfficeInstDirs( xOfficeInstDirs ) { } void operator() ( const TemplateContent& _rContent ) const { // store the info about this content WriteDateTime( m_rStorage, _rContent.getModDate() ); // store the info about the children // the number m_rStorage.WriteInt32( _rContent.size() ); // their URLs ( the local name is not enough, since URL might be not a hierarchical one, "expand:" for example ) ::std::for_each( _rContent.getSubContents().begin(), _rContent.getSubContents().end(), StoreContentURL( m_rStorage, m_xOfficeInstDirs ) ); // their content ::std::for_each( _rContent.getSubContents().begin(), _rContent.getSubContents().end(), *this ); } void operator() ( const ::rtl::Reference< TemplateContent >& _rxContent ) const { if ( _rxContent.is() ) { operator()( *_rxContent ); } } }; /// functor which reads a complete TemplateContent instance struct ReadFolderContent :public ::std::unary_function< ::rtl::Reference< TemplateContent >, void > ,public StorageHelper { uno::Reference< util::XOfficeInstallationDirectories > m_xOfficeInstDirs; ReadFolderContent( SvStream& _rStorage, const uno::Reference< util::XOfficeInstallationDirectories > & xOfficeInstDirs ) : StorageHelper( _rStorage ), m_xOfficeInstDirs( xOfficeInstDirs ) { } void operator() ( TemplateContent& _rContent ) const { // store the info about this content util::DateTime aModDate; m_rStorage >> aModDate; _rContent.setModDate( aModDate ); // store the info about the children // the number sal_Int32 nChildren = 0; m_rStorage.ReadInt32( nChildren ); TemplateFolderContent& rChildren = _rContent.getSubContents(); rChildren.resize( 0 ); rChildren.reserve( nChildren ); // initialize them with their (local) names while ( nChildren-- ) { OUString sURL = m_rStorage.ReadUniOrByteString(m_rStorage.GetStreamCharSet()); sURL = m_xOfficeInstDirs->makeAbsoluteURL( sURL ); INetURLObject aChildURL( sURL ); rChildren.push_back( new TemplateContent( aChildURL ) ); } // their content ::std::for_each( _rContent.getSubContents().begin(), _rContent.getSubContents().end(), *this ); } void operator() ( const ::rtl::Reference< TemplateContent >& _rxContent ) const { if ( _rxContent.is() ) { operator()( *_rxContent ); } } }; //= TemplateFolderCacheImpl class TemplateFolderCacheImpl { private: TemplateFolderContent m_aPreviousState; // the current state of the template dirs (as found on the HD) TemplateFolderContent m_aCurrentState; // the previous state of the template dirs (as found in the cache file) osl::Mutex m_aMutex; // will be lazy inited; never access directly; use getOfficeInstDirs(). uno::Reference< util::XOfficeInstallationDirectories > m_xOfficeInstDirs; SvStream* m_pCacheStream; bool m_bNeedsUpdate : 1; bool m_bKnowState : 1; bool m_bValidCurrentState : 1; bool m_bAutoStoreState : 1; public: explicit TemplateFolderCacheImpl( bool _bAutoStoreState ); ~TemplateFolderCacheImpl( ); bool needsUpdate(); void storeState(); private: bool openCacheStream( bool _bForRead ); void closeCacheStream( ); /// read the state of the dirs from the cache file bool readPreviousState(); /// read the current state of the dirs bool readCurrentState(); static OUString implParseSmart( const OUString& _rPath ); bool implReadFolder( const ::rtl::Reference< TemplateContent >& _rxRoot ); static OUString getCacheFileName(); static sal_Int32 getMagicNumber(); static void normalize( TemplateFolderContent& _rState ); // @return if the states equal static bool equalStates( const TemplateFolderContent& _rLHS, const TemplateFolderContent& _rRHS ); // late initialize m_xOfficeInstDirs uno::Reference< util::XOfficeInstallationDirectories > getOfficeInstDirs(); }; TemplateFolderCacheImpl::TemplateFolderCacheImpl( bool _bAutoStoreState ) :m_pCacheStream ( nullptr ) ,m_bNeedsUpdate ( true ) ,m_bKnowState ( false ) ,m_bValidCurrentState ( false ) ,m_bAutoStoreState ( _bAutoStoreState ) { } TemplateFolderCacheImpl::~TemplateFolderCacheImpl( ) { // store the current state if possible and required if ( m_bValidCurrentState && m_bAutoStoreState ) storeState(); closeCacheStream( ); } sal_Int32 TemplateFolderCacheImpl::getMagicNumber() { sal_Int32 nMagic = 0; ( nMagic += (sal_Int8)'T' ) <<= 4; ( nMagic += (sal_Int8)'D' ) <<= 4; ( nMagic += (sal_Int8)'S' ) <<= 4; ( nMagic += (sal_Int8)'C' ) <<= 0; return nMagic; } OUString TemplateFolderCacheImpl::getCacheFileName() { return OUString(".templdir.cache"); } void TemplateFolderCacheImpl::normalize( TemplateFolderContent& _rState ) { SubContentSort()( _rState ); } bool TemplateFolderCacheImpl::equalStates( const TemplateFolderContent& _rLHS, const TemplateFolderContent& _rRHS ) { if ( _rLHS.size() != _rRHS.size() ) return false; // as both arrays are sorted (by definition - this is a precondition of this method) // we can simply go from the front to the back and compare the single elements ::std::pair< ConstFolderIterator, ConstFolderIterator > aFirstDifferent = ::std::mismatch( _rLHS.begin(), _rLHS.end(), _rRHS.begin(), TemplateContentEqual() ); return aFirstDifferent.first == _rLHS.end(); } void TemplateFolderCacheImpl::storeState() { if ( !m_bValidCurrentState ) readCurrentState( ); if ( m_bValidCurrentState && openCacheStream( false ) ) { m_pCacheStream->WriteInt32( getMagicNumber() ); // store the template root folders // the size m_pCacheStream->WriteInt32( m_aCurrentState.size() ); // the complete URLs ::std::for_each( m_aCurrentState.begin(), m_aCurrentState.end(), StoreContentURL( *m_pCacheStream, getOfficeInstDirs() ) ); // the contents ::std::for_each( m_aCurrentState.begin(), m_aCurrentState.end(), StoreFolderContent( *m_pCacheStream, getOfficeInstDirs() ) ); } } OUString TemplateFolderCacheImpl::implParseSmart( const OUString& _rPath ) { INetURLObject aParser; aParser.SetSmartProtocol( INetProtocol::File ); aParser.SetURL( _rPath ); if ( INetProtocol::NotValid == aParser.GetProtocol() ) { OUString sURL; osl::FileBase::getFileURLFromSystemPath( _rPath, sURL ); aParser.SetURL( sURL ); } return aParser.GetMainURL( INetURLObject::DECODE_TO_IURI ); } void TemplateFolderCacheImpl::closeCacheStream( ) { DELETEZ( m_pCacheStream ); } bool TemplateFolderCacheImpl::implReadFolder( const ::rtl::Reference< TemplateContent >& _rxRoot ) { try { // create a content for the current folder root Reference< XResultSet > xResultSet; Sequence< OUString > aContentProperties( 4); aContentProperties[0] = "Title"; aContentProperties[1] = "DateModified"; aContentProperties[2] = "DateCreated"; aContentProperties[3] = "IsFolder"; // get the set of sub contents in the folder try { Reference< XDynamicResultSet > xDynResultSet; ::ucbhelper::Content aTemplateRoot( _rxRoot->getURL(), Reference< XCommandEnvironment >(), comphelper::getProcessComponentContext() ); xDynResultSet = aTemplateRoot.createDynamicCursor( aContentProperties ); if ( xDynResultSet.is() ) xResultSet = xDynResultSet->getStaticResultSet(); } catch( CommandAbortedException& ) { SAL_WARN( "svtools.misc", "TemplateFolderCacheImpl::implReadFolder: caught a CommandAbortedException!" ); return false; } catch( css::uno::Exception& ) { } // collect the infos about the sub contents if ( xResultSet.is() ) { Reference< XRow > xRow( xResultSet, UNO_QUERY_THROW ); Reference< XContentAccess > xContentAccess( xResultSet, UNO_QUERY_THROW ); while ( xResultSet->next() ) { INetURLObject aSubContentURL( xContentAccess->queryContentIdentifierString() ); // a new content instance ::rtl::Reference< TemplateContent > xChild = new TemplateContent( aSubContentURL ); // the modified date xChild->setModDate( xRow->getTimestamp( 2 ) ); // date modified if ( xRow->wasNull() ) xChild->setModDate( xRow->getTimestamp( 3 ) ); // fallback: date created // push back this content _rxRoot->push_back( xChild ); // is it a folder? if ( xRow->getBoolean( 4 ) && !xRow->wasNull() ) { // yes -> step down ConstFolderIterator aNextLevelRoot = _rxRoot->end(); --aNextLevelRoot; implReadFolder( *aNextLevelRoot ); } } } } catch( const Exception& ) { OSL_FAIL( "TemplateFolderCacheImpl::implReadFolder: caught an exception!" ); return false; } return true; } bool TemplateFolderCacheImpl::readCurrentState() { // reset m_bValidCurrentState = false; TemplateFolderContent aTemplateFolderContent; m_aCurrentState.swap( aTemplateFolderContent ); // the template directories from the config const SvtPathOptions aPathOptions; OUString aDirs = aPathOptions.GetTemplatePath(); // loop through all the root-level template folders sal_Int32 nIndex = 0; do { OUString sTemplatePath( aDirs.getToken(0, ';', nIndex) ); sTemplatePath = aPathOptions.ExpandMacros( sTemplatePath ); // Make sure excess ".." path segments (from expanding bootstrap // variables in paths) are normalized in the same way they are // normalized for paths read from the .templdir.cache file (where // paths have gone through makeRelocatable URL on writing out and // then through makeAbsoluteURL when reading back in), as otherwise // equalStates() in needsUpdate() could erroneously consider // m_aCurrentState and m_aPreviousState as different: sTemplatePath = getOfficeInstDirs()->makeAbsoluteURL( getOfficeInstDirs()->makeRelocatableURL(sTemplatePath)); // create a new entry m_aCurrentState.push_back( new TemplateContent( INetURLObject( sTemplatePath ) ) ); TemplateFolderContent::iterator aCurrentRoot = m_aCurrentState.end(); --aCurrentRoot; if ( !implReadFolder( *aCurrentRoot ) ) return false; } while ( nIndex >= 0 ); // normalize the array (which basically means "sort it") normalize( m_aCurrentState ); m_bValidCurrentState = true; return m_bValidCurrentState; } bool TemplateFolderCacheImpl::readPreviousState() { DBG_ASSERT( m_pCacheStream, "TemplateFolderCacheImpl::readPreviousState: not to be called without stream!" ); // reset TemplateFolderContent aTemplateFolderContent; m_aPreviousState.swap( aTemplateFolderContent ); // check the magic number sal_Int32 nMagic = 0; m_pCacheStream->ReadInt32( nMagic ); DBG_ASSERT( getMagicNumber() == nMagic, "TemplateFolderCacheImpl::readPreviousState: invalid cache file!" ); if ( getMagicNumber() != nMagic ) return false; // the root directories // their number sal_Int32 nRootDirectories = 0; m_pCacheStream->ReadInt32( nRootDirectories ); // init empty TemplateContens with the URLs m_aPreviousState.reserve( nRootDirectories ); while ( nRootDirectories-- ) { OUString sURL = m_pCacheStream->ReadUniOrByteString(m_pCacheStream->GetStreamCharSet()); // #116281# Keep office installtion relocatable. Never store // any direct references to office installation directory. sURL = getOfficeInstDirs()->makeAbsoluteURL( sURL ); m_aPreviousState.push_back( new TemplateContent( INetURLObject(sURL) ) ); } // read the contents of the root folders ::std::for_each( m_aPreviousState.begin(), m_aPreviousState.end(), ReadFolderContent( *m_pCacheStream, getOfficeInstDirs() ) ); DBG_ASSERT( !m_pCacheStream->GetErrorCode(), "TemplateFolderCacheImpl::readPreviousState: unknown error during reading the state cache!" ); // normalize the array (which basically means "sort it") normalize( m_aPreviousState ); return true; } bool TemplateFolderCacheImpl::openCacheStream( bool _bForRead ) { // close any old stream instance closeCacheStream( ); // get the storage directory OUString sStorageURL = implParseSmart( SvtPathOptions().GetStoragePath() ); INetURLObject aStorageURL( sStorageURL ); if ( INetProtocol::NotValid == aStorageURL.GetProtocol() ) { OSL_FAIL( "TemplateFolderCacheImpl::openCacheStream: invalid storage path!" ); return false; } // append our name aStorageURL.Append( getCacheFileName() ); // open the stream m_pCacheStream = UcbStreamHelper::CreateStream( aStorageURL.GetMainURL( INetURLObject::DECODE_TO_IURI ), _bForRead ? StreamMode::READ | StreamMode::NOCREATE : StreamMode::WRITE | StreamMode::TRUNC ); DBG_ASSERT( m_pCacheStream, "TemplateFolderCacheImpl::openCacheStream: could not open/create the cache stream!" ); if ( m_pCacheStream && m_pCacheStream->GetErrorCode() ) { DELETEZ( m_pCacheStream ); } if ( m_pCacheStream ) m_pCacheStream->SetStreamCharSet( RTL_TEXTENCODING_UTF8 ); return nullptr != m_pCacheStream; } bool TemplateFolderCacheImpl::needsUpdate() { if ( m_bKnowState ) return m_bNeedsUpdate; m_bNeedsUpdate = true; m_bKnowState = true; if ( readCurrentState() ) { // open the stream which contains the cached state of the directories if ( openCacheStream( true ) ) { // opening the stream succeeded if ( readPreviousState() ) { m_bNeedsUpdate = !equalStates( m_aPreviousState, m_aCurrentState ); } else { closeCacheStream(); } } } return m_bNeedsUpdate; } uno::Reference< util::XOfficeInstallationDirectories > TemplateFolderCacheImpl::getOfficeInstDirs() { if ( !m_xOfficeInstDirs.is() ) { osl::MutexGuard aGuard( m_aMutex ); if ( !m_xOfficeInstDirs.is() ) { uno::Reference< uno::XComponentContext > xCtx( comphelper::getProcessComponentContext() ); m_xOfficeInstDirs = util::theOfficeInstallationDirectories::get(xCtx); } } return m_xOfficeInstDirs; } //= TemplateFolderCache TemplateFolderCache::TemplateFolderCache( bool _bAutoStoreState ) :m_pImpl( new TemplateFolderCacheImpl( _bAutoStoreState ) ) { } TemplateFolderCache::~TemplateFolderCache( ) { } bool TemplateFolderCache::needsUpdate() { return m_pImpl->needsUpdate(); } void TemplateFolderCache::storeState() { m_pImpl->storeState(); } } // namespace sfx2 /* vim:set shiftwidth=4 softtabstop=4 expandtab: */