/* -*- 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 . */ // ============================================================================ #ifndef SC_XESTREAM_HXX #define SC_XESTREAM_HXX #include #include #include #include #include #include #include #include "xlstream.hxx" #include "xestring.hxx" #include "compiler.hxx" #include #include /* ============================================================================ Output stream class for Excel export - CONTINUE record handling ============================================================================ */ class XclExpRoot; class XclExpBiff8Encrypter; typedef boost::shared_ptr< XclExpBiff8Encrypter > XclExpEncrypterRef; /** This class is used to export Excel record streams. @descr An instance is constructed with an SvStream and the maximum size of Excel record contents (in BIFF5: 2080 bytes, in BIFF8: 8224 bytes). To start writing a record call StartRecord(). Parameters are the record identifier and any calculated record size. This is for optimizing the write process: if the real written data has the same size as the calculated, the stream will not seek back and update the record size field. But it is not mandatory to calculate a size. Each record must be closed by calling EndRecord(). This will check (and update) the record size field. If some data exceeds the record size limit, a CONTINUE record is started automatically and the new data will be written to this record. If specific data pieces must not be splitted, use SetSliceLen(). For instance: To write a sequence of 16-bit values, where 4 values form a unit and cannot be split, call SetSliceLen( 8 ) first (4*2 bytes == 8). To write unicode character arrays, call WriteUnicodeBuffer(). It creates CONTINUE records and repeats the unicode string flag byte automatically. This function is used for instance from the class XclExpString which can write complete unicode strings. */ class XclExpStream { public: /** Constructs the Excel record export stream. @param rOutStrm The system output stream to write to. @param nMaxRecSize The maximum allowed size of record content (depending on BIFF type). If 0 is passed, the record size will be set automatically, depending on the current BIFF type. */ XclExpStream( SvStream& rOutStrm, const XclExpRoot& rRoot, sal_uInt16 nMaxRecSize = 0 ); ~XclExpStream(); /** Returns the filter root data. */ inline const XclExpRoot& GetRoot() const { return mrRoot; } /** Starts a new record: writes header data, stores calculated record size. */ void StartRecord( sal_uInt16 nRecId, sal_Size nRecSize ); /** Checks and corrects real record length. Must be called everytime a record is finished. */ void EndRecord(); /** Returns the position inside of current record (starts by 0 in every CONTINUE). */ inline sal_uInt16 GetRawRecPos() const { return mnCurrSize; } /** Returns the maximum size of a record. */ inline sal_uInt16 GetMaxRecSize() const { return mnMaxRecSize; } /** Sets maximum record size (valid only for current record). */ inline void SetMaxRecSize( sal_uInt16 nMax ) { mnCurrMaxSize = nMax; } /** Sets maximum size of CONTINUE records (valid only for current record). */ inline void SetMaxContSize( sal_uInt16 nMax ) { mnMaxContSize = nMax; } /** Sets data slice length. 0 = no slices. */ void SetSliceSize( sal_uInt16 nSize ); XclExpStream& operator<<( sal_Int8 nValue ); XclExpStream& operator<<( sal_uInt8 nValue ); XclExpStream& operator<<( sal_Int16 nValue ); XclExpStream& operator<<( sal_uInt16 nValue ); XclExpStream& operator<<( sal_Int32 nValue ); XclExpStream& operator<<( sal_uInt32 nValue ); XclExpStream& operator<<( float fValue ); XclExpStream& operator<<( double fValue ); /** Writes nBytes bytes from memory. */ sal_Size Write( const void* pData, sal_Size nBytes ); /** Writes a sequence of nBytes zero bytes (respects slice setting). */ void WriteZeroBytes( sal_Size nBytes ); void WriteZeroBytesToRecord( sal_Size nBytes ); /** Copies nBytes bytes from current position of the stream rInStrm. @descr Omitting the second parameter means: read to end of stream. */ sal_Size CopyFromStream( SvStream& rInStrm, sal_Size nBytes = STREAM_SEEK_TO_END ); // *** unicode string export is realized with helper class XclExpString *** // (slice length setting has no effect here -> disabled automatically) /** Writes Unicode buffer as 8/16 bit, repeats nFlags at start of a CONTINUE record. */ void WriteUnicodeBuffer( const ScfUInt16Vec& rBuffer, sal_uInt8 nFlags ); // *** write 8-bit-strings *** // (slice length setting has no effect here -> disabled automatically) /** Writes string length field and OString buffer. */ void WriteByteString( const OString& rString, sal_uInt16 nMaxLen = 0x00FF, bool b16BitCount = false ); /** Writes 8-bit character buffer. */ void WriteCharBuffer( const ScfUInt8Vec& rBuffer ); // *** SvStream access *** /** Sets position of system stream (only allowed outside of records). */ sal_Size SetSvStreamPos( sal_Size nPos ); /** Returns the absolute position of the system stream. */ inline sal_Size GetSvStreamPos() const { return mrStrm.Tell(); } void SetEncrypter( XclExpEncrypterRef xEncrypter ); bool HasValidEncrypter() const; void EnableEncryption( bool bEnable = true ); void DisableEncryption(); private: /** Writes header data, internal setup. */ void InitRecord( sal_uInt16 nRecId ); /** Rewrites correct record length, if different from calculated. */ void UpdateRecSize(); /** Recalculates mnCurrSize and mnSliceSize. */ void UpdateSizeVars( sal_Size nSize ); /** Writes CONTINUE header, internal setup. */ void StartContinue(); /** Refreshes counter vars, creates CONTINUE records. */ void PrepareWrite( sal_uInt16 nSize ); /** Creates CONTINUE record at end of record. @return Maximum data block size remaining. */ sal_uInt16 PrepareWrite(); /** Writes a raw sequence of zero bytes. */ void WriteRawZeroBytes( sal_Size nBytes ); private: SvStream& mrStrm; /// Reference to the system output stream. const XclExpRoot& mrRoot; /// Filter root data. bool mbUseEncrypter; XclExpEncrypterRef mxEncrypter; // length data sal_uInt16 mnMaxRecSize; /// Maximum size of record content. sal_uInt16 mnMaxContSize; /// Maximum size of CONTINUE content. sal_uInt16 mnCurrMaxSize; /// Current maximum, either mnMaxRecSize or mnMaxContSize. sal_uInt16 mnMaxSliceSize; /// Maximum size of data slices (parts that cannot be split). sal_uInt16 mnHeaderSize; /// Record size written in last record header. sal_uInt16 mnCurrSize; /// Count of bytes already written in current record. sal_uInt16 mnSliceSize; /// Count of bytes already written in current slice. sal_Size mnPredictSize; /// Predicted size received from calling function. // stream position data sal_Size mnLastSizePos; /// Stream position of size field in current header. bool mbInRec; /// true = currently writing inside of a record. }; // ============================================================================ class XclExpBiff8Encrypter { public: explicit XclExpBiff8Encrypter( const XclExpRoot& rRoot ); ~XclExpBiff8Encrypter(); bool IsValid() const; void GetSaltDigest( sal_uInt8 pnSaltDigest[16] ) const; void GetSalt( sal_uInt8 pnSalt[16] ) const; void GetDocId( sal_uInt8 pnDocId[16] ) const; void Encrypt( SvStream& rStrm, sal_uInt8 nData ); void Encrypt( SvStream& rStrm, sal_uInt16 nData ); void Encrypt( SvStream& rStrm, sal_uInt32 nData ); void Encrypt( SvStream& rStrm, sal_Int8 nData ); void Encrypt( SvStream& rStrm, sal_Int16 nData ); void Encrypt( SvStream& rStrm, sal_Int32 nData ); void Encrypt( SvStream& rStrm, float fValue ); void Encrypt( SvStream& rStrm, double fValue ); void EncryptBytes( SvStream& rStrm, ::std::vector& aBytes ); private: void Init( const ::com::sun::star::uno::Sequence< ::com::sun::star::beans::NamedValue >& aEncryptionData ); sal_uInt32 GetBlockPos( sal_Size nStrmPos ) const; sal_uInt16 GetOffsetInBlock( sal_Size nStrmPos ) const; private: ::msfilter::MSCodec_Std97 maCodec; /// Crypto algorithm implementation. sal_uInt8 mpnDocId[16]; sal_uInt8 mpnSalt[16]; sal_uInt8 mpnSaltDigest[16]; sal_Size mnOldPos; /// Last known stream position bool mbValid; }; // ---------------------------------------------------------------------------- // ============================================================================ // `s.GetChar(0) != 0` needed because some strings on export only contain NULL. #define XESTRING_TO_PSZ(s) \ (s.Len() && s.GetChar( 0 ) != 0 ? XclXmlUtils::ToOString( s ).getStr() : NULL) class ScAddress; class ScDocShell; class ScDocument; class ScFormulaCell; class ScRange; class ScRangeList; class ScTokenArray; struct XclAddress; struct XclFontData; struct XclRange; class XclRangeList; class XclXmlUtils { XclXmlUtils(); ~XclXmlUtils(); XclXmlUtils(const XclXmlUtils&); XclXmlUtils& operator=(const XclXmlUtils&); public: static void GetFormulaTypeAndValue( ScFormulaCell& rCell, const char*& sType, OUString& rValue); static OUString GetStreamName( const char* sStreamDir, const char* sStream, sal_Int32 nId ); static OString ToOString( const Color& rColor ); static OString ToOString( const OUString& s ); static OString ToOString( const ScfUInt16Vec& rBuffer ); static OString ToOString( const String& s ); static OString ToOString( const ScAddress& rRange ); static OString ToOString( const ScRange& rRange ); static OString ToOString( const ScRangeList& rRangeList ); static OString ToOString( const XclAddress& rAddress ); static OString ToOString( const XclExpString& s ); static OString ToOString( const XclRange& rRange ); static OString ToOString( const XclRangeList& rRangeList ); static OUString ToOUString( const char* s ); static OUString ToOUString( const ScfUInt16Vec& rBuffer, sal_Int32 nStart = 0, sal_Int32 nLength = -1 ); static OUString ToOUString( const String& s ); static OUString ToOUString( ScDocument& rDocument, const ScAddress& rAddress, ScTokenArray* pTokenArray, const ScCompiler::OpCodeMapPtr & xOpCodeMap ); static OUString ToOUString( const XclExpString& s ); static const char* ToPsz( bool b ); static sax_fastparser::FSHelperPtr WriteElement( sax_fastparser::FSHelperPtr pStream, sal_Int32 nElement, sal_Int32 nValue ); static sax_fastparser::FSHelperPtr WriteElement( sax_fastparser::FSHelperPtr pStream, sal_Int32 nElement, sal_Int64 nValue ); static sax_fastparser::FSHelperPtr WriteElement( sax_fastparser::FSHelperPtr pStream, sal_Int32 nElement, const char* sValue ); static sax_fastparser::FSHelperPtr WriteFontData( sax_fastparser::FSHelperPtr pStream, const XclFontData& rFontData, sal_Int32 nNameId ); }; class XclExpXmlStream : public oox::core::XmlFilterBase { public: XclExpXmlStream( const com::sun::star::uno::Reference< com::sun::star::uno::XComponentContext >& rCC ); virtual ~XclExpXmlStream(); /** Returns the filter root data. */ inline const XclExpRoot& GetRoot() const { return *mpRoot; } sax_fastparser::FSHelperPtr& GetCurrentStream(); void PushStream( sax_fastparser::FSHelperPtr aStream ); void PopStream(); sax_fastparser::FSHelperPtr GetStreamForPath( const OUString& rPath ); sax_fastparser::FSHelperPtr& WriteAttributes( sal_Int32 nAttribute, const char* value, FSEND_t ) { return WriteAttributesInternal( nAttribute, value, FSEND_internal ); } sax_fastparser::FSHelperPtr& WriteAttributes( sal_Int32 nAttribute, const OString& value, FSEND_t ) { return WriteAttributesInternal( nAttribute, value.getStr(), FSEND_internal ); } sax_fastparser::FSHelperPtr CreateOutputStream ( const OUString& sFullStream, const OUString& sRelativeStream, const ::com::sun::star::uno::Reference< ::com::sun::star::io::XOutputStream >& xParentRelation, const char* sContentType, const char* sRelationshipType, OUString* pRelationshipId = NULL ); // ignore virtual bool exportDocument() throw(); // only needed for import; ignore virtual bool importDocument() throw(); virtual oox::vml::Drawing* getVmlDrawing(); virtual const oox::drawingml::Theme* getCurrentTheme() const; virtual const oox::drawingml::table::TableStyleListPtr getTableStyles(); virtual oox::drawingml::chart::ChartConverter* getChartConverter(); /* Now create all the overloads in a typesafe way (i.e. without varargs) by creating a number of overloads up to a certain reasonable limit (feel free to raise it). This would be a lot easier with C++11 vararg templates. */ // now overloads for 2 and more pairs #define SAX_ARGS_FUNC_DECL( argsdecl, argsuse ) \ sax_fastparser::FSHelperPtr& WriteAttributes( argsdecl, FSEND_t ) \ { return WriteAttributesInternal( argsuse, FSEND_internal ); } #define SAX_ARGS_FUNC_NUM( decl1, decl2, use1, use2, convert, num ) \ SAX_ARGS_FUNC_DECL( SAX_ARGS_ARG##num( decl1, decl2, ), SAX_ARGS_ARG##num( use1, use2, convert )) #define SAX_ARGS_FUNC_SUBST( type, convert, num ) \ SAX_ARGS_FUNC_NUM( sal_Int32 attribute, type value, attribute, value, convert, num ) #define SAX_ARGS_FUNC( arg, convert ) SAX_ARGS_FUNC_SUBST( arg, convert, 2 ) \ SAX_ARGS_FUNC_SUBST( arg, convert, 3 ) SAX_ARGS_FUNC_SUBST( arg, convert, 4 ) \ SAX_ARGS_FUNC_SUBST( arg, convert, 5 ) SAX_ARGS_FUNC_SUBST( arg, convert, 6 ) \ SAX_ARGS_FUNC_SUBST( arg, convert, 7 ) SAX_ARGS_FUNC_SUBST( arg, convert, 8 ) \ SAX_ARGS_FUNC_SUBST( arg, convert, 9 ) SAX_ARGS_FUNC_SUBST( arg, convert, 10 ) \ SAX_ARGS_FUNC_SUBST( arg, convert, 11 ) SAX_ARGS_FUNC_SUBST( arg, convert, 12 ) \ SAX_ARGS_FUNC_SUBST( arg, convert, 13 ) SAX_ARGS_FUNC_SUBST( arg, convert, 14 ) \ SAX_ARGS_FUNC_SUBST( arg, convert, 15 ) SAX_ARGS_FUNC_SUBST( arg, convert, 16 ) \ SAX_ARGS_FUNC_SUBST( arg, convert, 17 ) SAX_ARGS_FUNC_SUBST( arg, convert, 18 ) \ SAX_ARGS_FUNC_SUBST( arg, convert, 19 ) SAX_ARGS_FUNC_SUBST( arg, convert, 20 ) \ SAX_ARGS_FUNC_SUBST( arg, convert, 21 ) SAX_ARGS_FUNC_SUBST( arg, convert, 22 ) SAX_ARGS_FUNC( const char*, ) SAX_ARGS_FUNC( const OString&, .getStr() ) #undef SAX_ARGS_FUNC_DECL #undef SAX_ARGS_FUNC_NUM #undef SAX_ARGS_FUNC_SUBST #undef SAX_ARGS_FUNC private: virtual ::oox::ole::VbaProject* implCreateVbaProject() const; virtual OUString implGetImplementationName() const; ScDocShell *getDocShell(); sax_fastparser::FSHelperPtr& WriteAttributesInternal( sal_Int32 nAttribute, ... ); typedef std::map< OUString, std::pair< OUString, sax_fastparser::FSHelperPtr > > XclExpXmlPathToStateMap; const XclExpRoot* mpRoot; std::stack< sax_fastparser::FSHelperPtr > maStreams; XclExpXmlPathToStateMap maOpenedStreamMap; }; #endif /* vim:set shiftwidth=4 softtabstop=4 expandtab: */