/* -*- 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 . */ #pragma once #include #include #include #include #include #include #include #include #include class StreamData; inline rtl_TextEncoding GetStoreCharSet( rtl_TextEncoding eEncoding ) { if ( eEncoding == RTL_TEXTENCODING_ISO_8859_1 ) return RTL_TEXTENCODING_MS_1252; else return eEncoding; } // StreamTypes // read, write, create,... options enum class StreamMode { NONE = 0x0000, READ = 0x0001, ///< allow read accesses WRITE = 0x0002, ///< allow write accesses // file i/o NOCREATE = 0x0004, ///< 1 == Don't create file TRUNC = 0x0008, ///< Truncate _existing_ file to zero length COPY_ON_SYMLINK = 0x0010, ///< copy-on-write for symlinks (Unix) TEMPORARY = 0x0020, ///< temporary file attribute (Windows-only) // sharing options SHARE_DENYNONE = 0x0100, SHARE_DENYREAD = 0x0200, // overrides denynone SHARE_DENYWRITE = 0x0400, // overrides denynone SHARE_DENYALL = 0x0800, // overrides denyread,write,none // masks READWRITE = READ | WRITE, STD_READ = READ | SHARE_DENYNONE | NOCREATE, STD_WRITE = WRITE | SHARE_DENYALL, STD_READWRITE = READWRITE | SHARE_DENYALL }; namespace o3tl { template<> struct typed_flags : is_typed_flags {}; } #define STREAM_SEEK_TO_BEGIN 0L #define STREAM_SEEK_TO_END SAL_MAX_UINT64 enum class SvStreamEndian { BIG, LITTLE }; enum class SvStreamCompressFlags { NONE = 0x0000, ZBITMAP = 0x0001, NATIVE = 0x0010, }; namespace o3tl { template<> struct typed_flags : is_typed_flags {}; } class SvStream; typedef SvStream& (*SvStrPtr)( SvStream& ); inline SvStream& operator<<( SvStream& rStr, SvStrPtr f ); // SvLockBytes struct SvLockBytesStat { std::size_t nSize; SvLockBytesStat() : nSize(0) {} }; class TOOLS_DLLPUBLIC SvLockBytes: public virtual SvRefBase { SvStream * m_pStream; bool m_bOwner; bool m_bSync; protected: void close(); public: SvLockBytes() : m_pStream(nullptr), m_bOwner(false), m_bSync(false) {} SvLockBytes(SvStream * pTheStream, bool bTheOwner = false) : m_pStream(pTheStream), m_bOwner(bTheOwner), m_bSync(false) {} virtual ~SvLockBytes() override { close(); } const SvStream * GetStream() const { return m_pStream; } void SetSynchronMode(bool bTheSync = true) { m_bSync = bTheSync; } bool IsSynchronMode() const { return m_bSync; } virtual ErrCode ReadAt(sal_uInt64 nPos, void * pBuffer, std::size_t nCount, std::size_t * pRead) const; virtual ErrCode WriteAt(sal_uInt64 nPos, const void * pBuffer, std::size_t nCount, std::size_t * pWritten); virtual ErrCode Flush() const; virtual ErrCode SetSize(sal_uInt64 nSize); virtual ErrCode Stat(SvLockBytesStat * pStat) const; }; typedef tools::SvRef SvLockBytesRef; // SvStream class TOOLS_DLLPUBLIC SvStream { private: // LockBytes Interface SvLockBytesRef m_xLockBytes; ///< Default implementation sal_uInt64 m_nActPos; // buffer management std::unique_ptr m_pRWBuf; ///< Points to read/write buffer sal_uInt8* m_pBufPos; ///< m_pRWBuf + m_nBufActualPos sal_uInt16 m_nBufSize; ///< Allocated size of buffer sal_uInt16 m_nBufActualLen; ///< Length of used segment of buffer ///< = m_nBufSize, if EOF did not occur sal_uInt16 m_nBufActualPos; ///< current position in buffer (0..m_nBufSize-1) sal_uInt16 m_nBufFree; ///< number of free slots in buffer to IO of type eIOMode bool m_isIoRead; bool m_isIoWrite; // Error codes, conversion, compression, ... bool m_isDirty; ///< true: Stream != buffer content bool m_isSwap; bool m_isEof; ErrCode m_nError; SvStreamEndian m_nEndian; SvStreamCompressFlags m_nCompressMode; LineEnd m_eLineDelimiter; rtl_TextEncoding m_eStreamCharSet; // Encryption OString m_aCryptMaskKey;// aCryptMaskKey.getLength != 0 -> Encryption used unsigned char m_nCryptMask; // Userdata sal_Int32 m_nVersion; // for external use SvStream ( const SvStream& rStream ) = delete; SvStream& operator=( const SvStream& rStream ) = delete; protected: sal_uInt64 m_nBufFilePos; ///< File position of pBuf[0] StreamMode m_eStreamMode; bool m_isWritable; virtual std::size_t GetData( void* pData, std::size_t nSize ); virtual std::size_t PutData( const void* pData, std::size_t nSize ); virtual sal_uInt64 SeekPos( sal_uInt64 nPos ); virtual void FlushData(); virtual void SetSize(sal_uInt64 nSize); void FlushBuffer(); void ClearError(); void ClearBuffer(); // encrypt and write in blocks std::size_t CryptAndWriteBuffer( const void* pStart, std::size_t nLen ); void EncryptBuffer( void* pStart, std::size_t nLen ) const; public: SvStream(); SvStream( SvLockBytes *pLockBytes); virtual ~SvStream(); SvLockBytes* GetLockBytes() const { return m_xLockBytes.get(); } ErrCode GetError() const { return m_nError.IgnoreWarning(); } ErrCode const & GetErrorCode() const { return m_nError; } void SetError( ErrCode nErrorCode ); virtual void ResetError(); void SetEndian( SvStreamEndian SvStreamEndian ); SvStreamEndian GetEndian() const { return m_nEndian; } /// returns status of endian swap flag bool IsEndianSwap() const { return m_isSwap; } void SetCompressMode( SvStreamCompressFlags nNewMode ) { m_nCompressMode = nNewMode; } SvStreamCompressFlags GetCompressMode() const { return m_nCompressMode; } void SetCryptMaskKey(const OString& rCryptMaskKey); void SetStreamCharSet( rtl_TextEncoding eCharSet ) { m_eStreamCharSet = eCharSet; } rtl_TextEncoding GetStreamCharSet() const { return m_eStreamCharSet; } void SetLineDelimiter( LineEnd eLineEnd ) { m_eLineDelimiter = eLineEnd; } LineEnd GetLineDelimiter() const { return m_eLineDelimiter; } SvStream& ReadUInt16( sal_uInt16& rUInt16 ); SvStream& ReadUInt32( sal_uInt32& rUInt32 ); SvStream& ReadUInt64( sal_uInt64& rUInt64 ); SvStream& ReadInt16( sal_Int16& rInt16 ); SvStream& ReadInt32( sal_Int32& rInt32 ); SvStream& ReadInt64(sal_Int64 & rInt64); SvStream& ReadSChar( signed char& rChar ); SvStream& ReadChar( char& rChar ); SvStream& ReadUChar( unsigned char& rChar ); SvStream& ReadUtf16( sal_Unicode& rUtf16 ); SvStream& ReadCharAsBool( bool& rBool ); SvStream& ReadFloat( float& rFloat ); SvStream& ReadDouble( double& rDouble ); SvStream& ReadStream( SvStream& rStream ); SvStream& WriteUInt16( sal_uInt16 nUInt16 ); SvStream& WriteUInt32( sal_uInt32 nUInt32 ); SvStream& WriteUInt64( sal_uInt64 nuInt64 ); SvStream& WriteInt16( sal_Int16 nInt16 ); SvStream& WriteInt32( sal_Int32 nInt32 ); SvStream& WriteInt64( sal_Int64 nInt64 ); SvStream& WriteUInt8( sal_uInt8 nuInt8 ); SvStream& WriteUnicode( sal_Unicode ); SvStream& WriteOString(std::string_view rStr) { WriteBytes(rStr.data(), rStr.size()); return *this; } SvStream& WriteStream( SvStream& rStream ); sal_uInt64 WriteStream( SvStream& rStream, sal_uInt64 nSize ); SvStream& WriteBool( bool b ) { return WriteUChar(static_cast(b)); } SvStream& WriteSChar( signed char nChar ); SvStream& WriteChar( char nChar ); SvStream& WriteUChar( unsigned char nChar ); SvStream& WriteFloat( float nFloat ); SvStream& WriteDouble( const double& rDouble ); SvStream& WriteCharPtr( const char* pBuf ); SvStream& WriteUInt32AsString( sal_uInt32 nUInt32 ); SvStream& WriteInt32AsString( sal_Int32 nInt32 ); std::size_t ReadBytes( void* pData, std::size_t nSize ); std::size_t WriteBytes( const void* pData, std::size_t nSize ); sal_uInt64 Seek( sal_uInt64 nPos ); sal_uInt64 SeekRel( sal_Int64 nPos ); sal_uInt64 Tell() const { return m_nBufFilePos + m_nBufActualPos; } virtual sal_uInt64 TellEnd(); // length between current (Tell()) pos and end of stream sal_uInt64 remainingSize(); void Flush(); // next Tell() <= nSize bool SetStreamSize( sal_uInt64 nSize ); /** Read a line of bytes. @param nMaxBytesToRead Maximum of bytes to read, if line is longer it will be truncated. @note NOTE that the default is one character less than STRING_MAXLEN to prevent problems after conversion to String that may be lurking in various places doing something like @code for (sal_uInt16 i=0; i < aString.Len(); ++i) @endcode causing endless loops ... */ bool ReadLine( OString& rStr, sal_Int32 nMaxBytesToRead = 0xFFFE ); bool WriteLine( std::string_view rStr ); /** Read a line of bytes. @param nMaxBytesToRead Maximum of bytes to read, if line is longer it will be truncated. @note NOTE that the default is one character less than STRING_MAXLEN to prevent problems after conversion to String that may be lurking in various places doing something like @code for (sal_uInt16 i=0; i < aString.Len(); ++i) @endcode causing endless loops ... */ bool ReadByteStringLine( OUString& rStr, rtl_TextEncoding eSrcCharSet, sal_Int32 nMaxBytesToRead = 0xFFFE ); bool WriteByteStringLine( std::u16string_view rStr, rtl_TextEncoding eDestCharSet ); /// Switch to no endian swapping and write 0xfeff void StartWritingUnicodeText(); /** If eReadBomCharSet==RTL_TEXTENCODING_DONTKNOW: read 16bit, if 0xfeff do nothing (UTF-16), if 0xfffe switch endian swapping (UTF-16), if 0xefbb or 0xbbef read another byte and check for UTF-8. If no UTF-* BOM was detected put all read bytes back. This means that if 2 bytes were read it was an UTF-16 BOM, if 3 bytes were read it was an UTF-8 BOM. There is no UTF-7, UTF-32 or UTF-EBCDIC BOM detection! If eReadBomCharSet!=RTL_TEXTENCODING_DONTKNOW: only read a BOM of that encoding and switch endian swapping if UTF-16 and 0xfffe. */ void StartReadingUnicodeText( rtl_TextEncoding eReadBomCharSet ); /** Read a line of Unicode. @param nMaxCodepointsToRead Maximum of codepoints (UCS-2 or UTF-16 pairs, not bytes) to read, if line is longer it will be truncated. */ bool ReadUniStringLine(OUString& rStr, sal_Int32 nMaxCodepointsToRead); /** Read a 32bit length prefixed sequence of utf-16 if eSrcCharSet==RTL_TEXTENCODING_UNICODE, otherwise read a 16bit length prefixed sequence of bytes and convert from eSrcCharSet */ OUString ReadUniOrByteString(rtl_TextEncoding eSrcCharSet); /** Write a 32bit length prefixed sequence of utf-16 if eSrcCharSet==RTL_TEXTENCODING_UNICODE, otherwise convert to eSrcCharSet and write a 16bit length prefixed sequence of bytes */ SvStream& WriteUniOrByteString( std::u16string_view rStr, rtl_TextEncoding eDestCharSet ); /** Read a line of Unicode if eSrcCharSet==RTL_TEXTENCODING_UNICODE, otherwise read a line of Bytecode and convert from eSrcCharSet @param nMaxCodepointsToRead Maximum of codepoints (2 bytes if Unicode, bytes if not Unicode) to read, if line is longer it will be truncated. @note NOTE that the default is one character less than STRING_MAXLEN to prevent problems after conversion to String that may be lurking in various places doing something like @code for (sal_uInt16 i=0; i < aString.Len(); ++i) @endcode causing endless loops ... */ bool ReadUniOrByteStringLine( OUString& rStr, rtl_TextEncoding eSrcCharSet, sal_Int32 nMaxCodepointsToRead = 0xFFFE ); /** Write a sequence of Unicode characters if eDestCharSet==RTL_TEXTENCODING_UNICODE, otherwise write a sequence of Bytecodes converted to eDestCharSet */ bool WriteUnicodeOrByteText(std::u16string_view rStr, rtl_TextEncoding eDestCharSet ); bool WriteUnicodeOrByteText(std::u16string_view rStr ) { return WriteUnicodeOrByteText( rStr, GetStreamCharSet() ); } /** Write a Unicode character if eDestCharSet==RTL_TEXTENCODING_UNICODE, otherwise write as Bytecode converted to eDestCharSet. This may result in more than one byte being written if a multi byte encoding (e.g. UTF7, UTF8) is chosen. */ bool WriteUniOrByteChar( sal_Unicode ch, rtl_TextEncoding eDestCharSet ); bool WriteUniOrByteChar( sal_Unicode ch ) { return WriteUniOrByteChar( ch, GetStreamCharSet() ); } void SetBufferSize( sal_uInt16 m_nBufSize ); sal_uInt16 GetBufferSize() const { return m_nBufSize; } void RefreshBuffer(); bool IsWritable() const { return m_isWritable; } StreamMode GetStreamMode() const { return m_eStreamMode; } sal_Int32 GetVersion() const { return m_nVersion; } void SetVersion( sal_Int32 n ) { m_nVersion = n; } friend SvStream& operator<<( SvStream& rStr, SvStrPtr f ); // for Manips /// end of input seen during previous i/o operation bool eof() const { return m_isEof; } /// stream is broken bool bad() const { return GetError() != ERRCODE_NONE; } /** Get state If the state is good() the previous i/o operation succeeded. If the state is good(), the next input operation might succeed; otherwise, it will fail. Applying an input operation to a stream that is not in the good() state is a null operation as far as the variable being read into is concerned. If we try to read into a variable v and the operation fails, the value of v should be unchanged, */ bool good() const { return !(eof() || bad()); } private: template void readNumberWithoutSwap(T& rDataDest) { readNumberWithoutSwap_(&rDataDest, sizeof(rDataDest)); } void readNumberWithoutSwap_(void * pDataDest, int nDataSize); template void writeNumberWithoutSwap(T const & rDataSrc) { writeNumberWithoutSwap_(&rDataSrc, sizeof(rDataSrc)); } void writeNumberWithoutSwap_(const void * pDataSrc, int nDataSize); }; inline SvStream& operator<<( SvStream& rStr, SvStrPtr f ) { (*f)(rStr); return rStr; } TOOLS_DLLPUBLIC SvStream& endl( SvStream& rStr ); /// same as endl() but Unicode TOOLS_DLLPUBLIC SvStream& endlu( SvStream& rStr ); /// call endlu() if m_eStreamCharSet==RTL_TEXTECODING_UNICODE otherwise endl() TOOLS_DLLPUBLIC SvStream& endlub( SvStream& rStr ); /// Attempt to read nUnits 8bit units to an OString, returned OString's /// length is number of units successfully read TOOLS_DLLPUBLIC OString read_uInt8s_ToOString(SvStream& rStrm, std::size_t nUnits); /// Attempt to read nUnits 8bit units to an OUString inline OUString read_uInt8s_ToOUString(SvStream& rStrm, std::size_t nUnits, rtl_TextEncoding eEnc) { return OStringToOUString(read_uInt8s_ToOString(rStrm, nUnits), eEnc); } /// Attempt to read nUnits 16bit units to an OUString, returned /// OUString's length is number of units successfully read TOOLS_DLLPUBLIC OUString read_uInt16s_ToOUString(SvStream& rStrm, std::size_t nUnits); /// Attempt to read a pascal-style length (of type prefix) prefixed sequence of /// 16bit units to an OUString, returned OString's length is number of /// units successfully read. inline OUString read_uInt16_lenPrefixed_uInt16s_ToOUString(SvStream& rStrm) { sal_uInt16 nUnits = 0; rStrm.ReadUInt16( nUnits ); return read_uInt16s_ToOUString(rStrm, nUnits); } inline OUString read_uInt32_lenPrefixed_uInt16s_ToOUString(SvStream& rStrm) { sal_uInt32 nUnits = 0; rStrm.ReadUInt32( nUnits ); return read_uInt16s_ToOUString(rStrm, nUnits); } /// Attempt to write a prefixed sequence of nUnits 16bit units from an OUString, /// returned value is number of bytes written TOOLS_DLLPUBLIC std::size_t write_uInt16s_FromOUString(SvStream& rStrm, std::u16string_view rStr, std::size_t nUnits); inline std::size_t write_uInt16s_FromOUString(SvStream& rStrm, std::u16string_view rStr) { return write_uInt16s_FromOUString(rStrm, rStr, rStr.size()); } /// Attempt to write a pascal-style length (of type prefix) prefixed sequence /// of 16bit units from an OUString, returned value is number of bytes written /// (including byte-count of prefix) std::size_t write_uInt32_lenPrefixed_uInt16s_FromOUString(SvStream& rStrm, std::u16string_view rStr); /// Attempt to write a pascal-style length (of type prefix) prefixed sequence /// of 16bit units from an OUString, returned value is number of bytes written /// (including byte-count of prefix) TOOLS_DLLPUBLIC std::size_t write_uInt16_lenPrefixed_uInt16s_FromOUString(SvStream& rStrm, std::u16string_view rStr); /// Attempt to read 8bit units to an OString until a zero terminator is /// encountered, returned OString's length is number of units *definitely* /// successfully read, check SvStream::good() to see if null terminator was /// successfully read TOOLS_DLLPUBLIC OString read_zeroTerminated_uInt8s_ToOString(SvStream& rStrm); /// Attempt to read 8bit units assuming source encoding eEnc to an OUString /// until a zero terminator is encountered. Check SvStream::good() to see if /// null terminator was successfully read TOOLS_DLLPUBLIC OUString read_zeroTerminated_uInt8s_ToOUString(SvStream& rStrm, rtl_TextEncoding eEnc); /// Attempt to read a pascal-style length (of type prefix) prefixed sequence of /// 8bit units to an OString, returned OString's length is number of units /// successfully read. inline OString read_uInt32_lenPrefixed_uInt8s_ToOString(SvStream& rStrm) { sal_uInt32 nUnits = 0; rStrm.ReadUInt32(nUnits); return read_uInt8s_ToOString(rStrm, nUnits); } inline OString read_uInt16_lenPrefixed_uInt8s_ToOString(SvStream& rStrm) { sal_uInt16 nUnits = 0; rStrm.ReadUInt16(nUnits); return read_uInt8s_ToOString(rStrm, nUnits); } inline OString read_uInt8_lenPrefixed_uInt8s_ToOString(SvStream& rStrm) { sal_uInt8 nUnits = 0; rStrm.ReadUChar(nUnits); return read_uInt8s_ToOString(rStrm, nUnits); } inline OUString read_uInt16_lenPrefixed_uInt8s_ToOUString(SvStream& rStrm, rtl_TextEncoding eEnc) { return OStringToOUString(read_uInt16_lenPrefixed_uInt8s_ToOString(rStrm), eEnc); } inline OUString read_uInt8_lenPrefixed_uInt8s_ToOUString(SvStream& rStrm, rtl_TextEncoding eEnc) { return OStringToOUString(read_uInt8_lenPrefixed_uInt8s_ToOString(rStrm), eEnc); } /// Attempt to write a prefixed sequence of nUnits 8bit units from an OString, /// returned value is number of bytes written inline std::size_t write_uInt8s_FromOString(SvStream& rStrm, std::string_view rStr, std::size_t nUnits) { return rStrm.WriteBytes(rStr.data(), nUnits); } inline std::size_t write_uInt8s_FromOString(SvStream& rStrm, std::string_view rStr) { return write_uInt8s_FromOString(rStrm, rStr, rStr.size()); } /// Attempt to write a pascal-style length (of type prefix) prefixed /// sequence of units from a string-type, returned value is number of bytes /// written (including byte-count of prefix) TOOLS_DLLPUBLIC std::size_t write_uInt16_lenPrefixed_uInt8s_FromOString(SvStream& rStrm, std::string_view rStr); /// Attempt to write a pascal-style length (of type prefix) prefixed sequence /// of 8bit units from an OUString, returned value is number of bytes written /// (including byte-count of prefix) inline std::size_t write_uInt16_lenPrefixed_uInt8s_FromOUString(SvStream& rStrm, std::u16string_view rStr, rtl_TextEncoding eEnc) { return write_uInt16_lenPrefixed_uInt8s_FromOString(rStrm, OUStringToOString(rStr, eEnc)); } [[nodiscard]] TOOLS_DLLPUBLIC bool checkSeek(SvStream &rSt, sal_uInt64 nOffset); namespace tools { /// Is rUrl a file:// URL with no contents? TOOLS_DLLPUBLIC bool isEmptyFileUrl(const OUString& rUrl); } // FileStream class TOOLS_DLLPUBLIC SvFileStream final : public SvStream { private: std::unique_ptr pInstanceData; OUString aFilename; #if defined(_WIN32) sal_uInt16 nLockCounter; #endif bool bIsOpen; bool mbDontFlushOnClose; ///< used to avoid flushing when closing temporary files SvFileStream (const SvFileStream&) = delete; SvFileStream & operator= (const SvFileStream&) = delete; bool LockFile(); void UnlockFile(); virtual std::size_t GetData( void* pData, std::size_t nSize ) override; virtual std::size_t PutData( const void* pData, std::size_t nSize ) override; virtual sal_uInt64 SeekPos( sal_uInt64 nPos ) override; virtual void SetSize( sal_uInt64 nSize ) override; virtual void FlushData() override; public: // Switches to Read StreamMode on failed attempt of Write opening SvFileStream( const OUString& rFileName, StreamMode eOpenMode ); SvFileStream(); virtual ~SvFileStream() override; virtual void ResetError() override; void Open( const OUString& rFileName, StreamMode eOpenMode ); void Close(); bool IsOpen() const { return bIsOpen; } const OUString& GetFileName() const { return aFilename; } void SetDontFlushOnClose(bool b) { mbDontFlushOnClose = b; } }; // MemoryStream class TOOLS_DLLPUBLIC SvMemoryStream : public SvStream { SvMemoryStream (const SvMemoryStream&) = delete; SvMemoryStream & operator= (const SvMemoryStream&) = delete; protected: std::size_t nSize; std::size_t nResize; std::size_t nPos; std::size_t nEndOfData; sal_uInt8* pBuf; bool bOwnsData; virtual std::size_t GetData( void* pData, std::size_t nSize ) override; virtual std::size_t PutData( const void* pData, std::size_t nSize ) override; virtual sal_uInt64 SeekPos( sal_uInt64 nPos ) override; virtual void SetSize( sal_uInt64 nSize ) override; virtual void FlushData() override; /// AllocateMemory must update pBuf accordingly /// - pBuf: Address of new block void AllocateMemory( std::size_t nSize ); /// ReAllocateMemory must update the following variables: /// - pBuf: Address of new block /// - nEndOfData: Set to nNewSize-1 , if outside of block /// Set to 0 , if new block size is 0 bytes /// - nSize: New block size /// - nPos: Set to 0 if position outside of block bool ReAllocateMemory( tools::Long nDiff ); /// Is called when this stream allocated the buffer or the buffer is /// resized. FreeMemory may need to NULLify handles in derived classes. void FreeMemory(); public: SvMemoryStream( void* pBuf, std::size_t nSize, StreamMode eMode); SvMemoryStream( std::size_t nInitSize=512, std::size_t nResize=64 ); virtual ~SvMemoryStream() override; virtual void ResetError() override; sal_uInt64 GetSize() { return TellEnd(); } std::size_t GetEndOfData() const { return nEndOfData; } const void* GetData() { Flush(); return pBuf; } // return the buffer currently in use, and allocate a new buffer internally void* SwitchBuffer(); // the buffer is not owned by this class void SetBuffer( void* pBuf, std::size_t nSize, std::size_t nEOF ); void ObjectOwnsMemory( bool bOwn ) { bOwnsData = bOwn; } void SetResizeOffset( std::size_t nNewResize ) { nResize = nNewResize; } virtual sal_uInt64 TellEnd() override { FlushBuffer(); return nEndOfData; } }; /* vim:set shiftwidth=4 softtabstop=4 expandtab: */