/************************************************************** * * 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 * * Unless required by applicable law or agreed to in writing, * software distributed under the License is distributed on an * "AS IS" BASIS, WITHOUT WARRANTIES OR CONDITIONS OF ANY * KIND, either express or implied. See the License for the * specific language governing permissions and limitations * under the License. * *************************************************************/ // MARKER(update_precomp.py): autogen include statement, do not remove #include "precompiled_sdext.hxx" #if defined __SUNPRO_CC #pragma disable_warn #elif defined _MSC_VER #pragma warning(push, 1) #endif #include "pdfparse.hxx" // workaround windows compiler: do not include multi_pass.hpp //#include #include #include #include #include #include #include #include #include #include // disable warnings again because someone along the line has enabled them #if defined __SUNPRO_CC #pragma disable_warn #elif defined _MSC_VER #pragma warning(push, 1) #endif using namespace boost::spirit; using namespace rtl; using namespace pdfparse; class StringEmitContext : public EmitContext { OStringBuffer m_aBuf; public: StringEmitContext() : EmitContext(), m_aBuf(256) {} virtual ~StringEmitContext() {} virtual bool write( const void* pBuf, unsigned int nLen ) throw() { m_aBuf.append( (const sal_Char*)pBuf, nLen ); return true; } virtual unsigned int getCurPos() throw() { return m_aBuf.getLength(); } virtual bool copyOrigBytes( unsigned int nOrigOffset, unsigned int nLen ) throw() { return (nOrigOffset+nLen < static_cast(m_aBuf.getLength()) ) ? write( m_aBuf.getStr() + nOrigOffset, nLen ) : false; } virtual unsigned int readOrigBytes( unsigned int nOrigOffset, unsigned int nLen, void* pBuf ) throw() { if( nOrigOffset+nLen < static_cast(m_aBuf.getLength()) ) { rtl_copyMemory( pBuf, m_aBuf.getStr()+nOrigOffset, nLen ); return nLen; } return 0; } OString getString() { return m_aBuf.makeStringAndClear(); } }; template< class iteratorT > class PDFGrammar : public grammar< PDFGrammar > { public: PDFGrammar( const iteratorT& first ) : m_fDouble( 0.0 ), m_aGlobalBegin( first ) {} ~PDFGrammar() { if( !m_aObjectStack.empty() ) delete m_aObjectStack.front(); } double m_fDouble; std::vector< unsigned int > m_aUIntStack; std::vector< PDFEntry* > m_aObjectStack; rtl::OString m_aErrorString; iteratorT m_aGlobalBegin; public: struct pdf_string_parser { typedef nil_t result_t; template std::ptrdiff_t operator()(ScannerT const& scan, result_t& result) const { std::ptrdiff_t len = 0; int nBraceLevel = 0; while( ! scan.at_end() ) { char c = *scan; if( c == ')' ) { nBraceLevel--; if( nBraceLevel < 0 ) break; } else if( c == '(' ) nBraceLevel++; else if( c == '\\' ) // ignore escaped braces { ++len; ++scan; if( scan.at_end() ) break; } ++len; ++scan; } return scan.at_end() ? -1 : len; } }; template< typename ScannerT > struct definition { definition( const PDFGrammar& rSelf ) { PDFGrammar* pSelf = const_cast< PDFGrammar* >( &rSelf ); // workaround workshop compiler: comment_p doesn't work // comment = comment_p("%")[boost::bind(&PDFGrammar::pushComment, pSelf, _1, _2 )]; comment = lexeme_d[ (ch_p('%') >> *(~ch_p('\r') & ~ch_p('\n')) >> eol_p)[boost::bind(&PDFGrammar::pushComment, pSelf, _1, _2 )] ]; boolean = (str_p("true") | str_p("false"))[boost::bind(&PDFGrammar::pushBool, pSelf, _1, _2)]; // workaround workshop compiler: confix_p doesn't work //stream = confix_p( "stream", *anychar_p, "endstream" )[boost::bind(&PDFGrammar::emitStream, pSelf, _1, _2 )]; stream = (str_p("stream") >> *(anychar_p - str_p("endstream")) >> str_p("endstream"))[boost::bind(&PDFGrammar::emitStream, pSelf, _1, _2 )]; name = lexeme_d[ ch_p('/') >> (*(anychar_p-chset_p("\t\n\f\r ()<>[]{}/%")-ch_p('\0'))) [boost::bind(&PDFGrammar::pushName, pSelf, _1, _2)] ]; // workaround workshop compiler: confix_p doesn't work //stringtype = ( confix_p("(",*anychar_p, ")") | // confix_p("<",*xdigit_p, ">") ) // [boost::bind(&PDFGrammar::pushString,pSelf, _1, _2)]; stringtype = ( ( ch_p('(') >> functor_parser() >> ch_p(')') ) | ( ch_p('<') >> *xdigit_p >> ch_p('>') ) ) [boost::bind(&PDFGrammar::pushString,pSelf, _1, _2)]; null_object = str_p( "null" )[boost::bind(&PDFGrammar::pushNull, pSelf, _1, _2)]; #ifdef USE_ASSIGN_ACTOR objectref = ( uint_p[push_back_a(pSelf->m_aUIntStack)] >> uint_p[push_back_a(pSelf->m_aUIntStack)] >> ch_p('R') >> eps_p )[boost::bind(&PDFGrammar::pushObjectRef, pSelf, _1, _2)]; #else objectref = ( uint_p[boost::bind(&PDFGrammar::push_back_action_uint, pSelf, _1)] >> uint_p[boost::bind(&PDFGrammar::push_back_action_uint, pSelf, _1)] >> ch_p('R') >> eps_p )[boost::bind(&PDFGrammar::pushObjectRef, pSelf, _1, _2)]; #endif #ifdef USE_ASSIGN_ACTOR simple_type = objectref | name | ( real_p[assign_a(pSelf->m_fDouble)] >> eps_p ) [boost::bind(&PDFGrammar::pushDouble, pSelf, _1, _2)] | stringtype | boolean | null_object; #else simple_type = objectref | name | ( real_p[boost::bind(&PDFGrammar::assign_action_double, pSelf, _1)] >> eps_p ) [boost::bind(&PDFGrammar::pushDouble, pSelf, _1, _2)] | stringtype | boolean | null_object; #endif dict_begin = str_p( "<<" )[boost::bind(&PDFGrammar::beginDict, pSelf, _1, _2)]; dict_end = str_p( ">>" )[boost::bind(&PDFGrammar::endDict, pSelf, _1, _2)]; array_begin = str_p("[")[boost::bind(&PDFGrammar::beginArray,pSelf, _1, _2)]; array_end = str_p("]")[boost::bind(&PDFGrammar::endArray,pSelf, _1, _2)]; #ifdef USE_ASSIGN_ACTOR object_begin= uint_p[push_back_a(pSelf->m_aUIntStack)] >> uint_p[push_back_a(pSelf->m_aUIntStack)] >> str_p("obj" )[boost::bind(&PDFGrammar::beginObject, pSelf, _1, _2)]; #else object_begin= uint_p[boost::bind(&PDFGrammar::push_back_action_uint, pSelf, _1)] >> uint_p[boost::bind(&PDFGrammar::push_back_action_uint, pSelf, _1)] >> str_p("obj" )[boost::bind(&PDFGrammar::beginObject, pSelf, _1, _2)]; #endif object_end = str_p( "endobj" )[boost::bind(&PDFGrammar::endObject, pSelf, _1, _2)]; xref = str_p( "xref" ) >> uint_p >> uint_p >> lexeme_d[ +( repeat_p(10)[digit_p] >> blank_p >> repeat_p(5)[digit_p] >> blank_p >> ( ch_p('n') | ch_p('f') ) >> repeat_p(2)[space_p] ) ]; dict_element= dict_begin | comment | simple_type | array_begin | array_end | dict_end; object = object_begin >> *dict_element >> !stream >> object_end; trailer = str_p( "trailer" )[boost::bind(&PDFGrammar::beginTrailer,pSelf,_1,_2)] >> *dict_element >> str_p("startxref") >> uint_p >> str_p("%%EOF")[boost::bind(&PDFGrammar::endTrailer,pSelf,_1,_2)]; #ifdef USE_ASSIGN_ACTOR pdfrule = ! (lexeme_d[ str_p( "%PDF-" ) >> uint_p[push_back_a(pSelf->m_aUIntStack)] >> ch_p('.') >> uint_p[push_back_a(pSelf->m_aUIntStack)] >> *((~ch_p('\r') & ~ch_p('\n'))) >> eol_p ])[boost::bind(&PDFGrammar::haveFile,pSelf, _1, _2)] >> *( comment | object | ( xref >> trailer ) ); #else pdfrule = ! (lexeme_d[ str_p( "%PDF-" ) >> uint_p[boost::bind(&PDFGrammar::push_back_action_uint, pSelf, _1)] >> ch_p('.') >> uint_p[boost::bind(&PDFGrammar::push_back_action_uint, pSelf, _1)] >> *((~ch_p('\r') & ~ch_p('\n'))) >> eol_p ])[boost::bind(&PDFGrammar::haveFile,pSelf, _1, _2)] >> *( comment | object | ( xref >> trailer ) ); #endif } rule< ScannerT > comment, stream, boolean, name, stringtype, null_object, simple_type, objectref, array, value, dict_element, dict_begin, dict_end, array_begin, array_end, object, object_begin, object_end, xref, trailer, pdfrule; const rule< ScannerT >& start() const { return pdfrule; } }; #ifndef USE_ASSIGN_ACTOR void push_back_action_uint( unsigned int i ) { m_aUIntStack.push_back( i ); } void assign_action_double( double d ) { m_fDouble = d; } #endif void parseError( const char* pMessage, iteratorT pLocation ) { throw_( pLocation, pMessage ); } rtl::OString iteratorToString( iteratorT first, iteratorT last ) const { rtl::OStringBuffer aStr( 32 ); while( first != last ) { aStr.append( *first ); ++first; } return aStr.makeStringAndClear(); } void haveFile( iteratorT pBegin, iteratorT /*pEnd*/ ) { if( m_aObjectStack.empty() ) { PDFFile* pFile = new PDFFile(); pFile->m_nMinor = m_aUIntStack.back(); m_aUIntStack.pop_back(); pFile->m_nMajor = m_aUIntStack.back(); m_aUIntStack.pop_back(); m_aObjectStack.push_back( pFile ); } else parseError( "found file header in unusual place", pBegin ); } void pushComment( iteratorT first, iteratorT last ) { // add a comment to the current stack element PDFComment* pComment = new PDFComment(iteratorToString(first,last)); if( m_aObjectStack.empty() ) m_aObjectStack.push_back( new PDFPart() ); PDFContainer* pContainer = dynamic_cast(m_aObjectStack.back()); if( pContainer == NULL ) parseError( "comment without container", first ); pContainer->m_aSubElements.push_back( pComment ); } void insertNewValue( PDFEntry* pNewValue, iteratorT pPos ) { PDFContainer* pContainer = NULL; const char* pMsg = NULL; if( ! m_aObjectStack.empty() && (pContainer = dynamic_cast(m_aObjectStack.back())) != NULL ) { if( dynamic_cast(pContainer) == NULL && dynamic_cast(pContainer) == NULL ) { PDFObject* pObj = dynamic_cast(pContainer); if( pObj ) { if( pObj->m_pObject == NULL ) pObj->m_pObject = pNewValue; else { pMsg = "second value for object"; pContainer = NULL; } } else if( dynamic_cast(pNewValue) ) { PDFTrailer* pTrailer = dynamic_cast(pContainer); if( pTrailer ) { if( pTrailer->m_pDict == NULL ) pTrailer->m_pDict = dynamic_cast(pNewValue); else pContainer = NULL; } else pContainer = NULL; } else pContainer = NULL; } } if( pContainer ) pContainer->m_aSubElements.push_back( pNewValue ); else { if( ! pMsg ) { if( dynamic_cast(pNewValue) ) pMsg = "array without container"; else pMsg = "value without container"; } delete pNewValue; parseError( pMsg, pPos ); } } void pushName( iteratorT first, iteratorT last ) { insertNewValue( new PDFName(iteratorToString(first,last)), first ); } void pushDouble( iteratorT first, iteratorT /*last*/ ) { insertNewValue( new PDFNumber(m_fDouble), first ); } void pushString( iteratorT first, iteratorT last ) { insertNewValue( new PDFString(iteratorToString(first,last)), first ); } void pushBool( iteratorT first, iteratorT last ) { insertNewValue( new PDFBool( (last-first == 4) ), first ); } void pushNull( iteratorT first, iteratorT ) { insertNewValue( new PDFNull(), first ); } void beginObject( iteratorT first, iteratorT /*last*/ ) { if( m_aObjectStack.empty() ) m_aObjectStack.push_back( new PDFPart() ); unsigned int nGeneration = m_aUIntStack.back(); m_aUIntStack.pop_back(); unsigned int nObject = m_aUIntStack.back(); m_aUIntStack.pop_back(); PDFObject* pObj = new PDFObject( nObject, nGeneration ); pObj->m_nOffset = first - m_aGlobalBegin; PDFContainer* pContainer = dynamic_cast(m_aObjectStack.back()); if( pContainer && ( dynamic_cast(pContainer) || dynamic_cast(pContainer) ) ) { pContainer->m_aSubElements.push_back( pObj ); m_aObjectStack.push_back( pObj ); } else parseError( "object in wrong place", first ); } void endObject( iteratorT first, iteratorT ) { if( m_aObjectStack.empty() ) parseError( "endobj without obj", first ); else if( dynamic_cast(m_aObjectStack.back()) == NULL ) parseError( "spurious endobj", first ); else m_aObjectStack.pop_back(); } void pushObjectRef( iteratorT first, iteratorT ) { unsigned int nGeneration = m_aUIntStack.back(); m_aUIntStack.pop_back(); unsigned int nObject = m_aUIntStack.back(); m_aUIntStack.pop_back(); insertNewValue( new PDFObjectRef(nObject,nGeneration), first ); } void beginDict( iteratorT first, iteratorT ) { PDFDict* pDict = new PDFDict(); pDict->m_nOffset = first - m_aGlobalBegin; insertNewValue( pDict, first ); // will not come here if insertion fails (exception) m_aObjectStack.push_back( pDict ); } void endDict( iteratorT first, iteratorT ) { PDFDict* pDict = NULL; if( m_aObjectStack.empty() ) parseError( "dictionary end without begin", first ); else if( (pDict = dynamic_cast(m_aObjectStack.back())) == NULL ) parseError( "spurious dictionary end", first ); else m_aObjectStack.pop_back(); PDFEntry* pOffender = pDict->buildMap(); if( pOffender ) { StringEmitContext aCtx; aCtx.write( "offending dictionary element: ", 30 ); pOffender->emit( aCtx ); m_aErrorString = aCtx.getString(); parseError( m_aErrorString.getStr(), first ); } } void beginArray( iteratorT first, iteratorT ) { PDFArray* pArray = new PDFArray(); pArray->m_nOffset = first - m_aGlobalBegin; insertNewValue( pArray, first ); // will not come here if insertion fails (exception) m_aObjectStack.push_back( pArray ); } void endArray( iteratorT first, iteratorT ) { if( m_aObjectStack.empty() ) parseError( "array end without begin", first ); else if( dynamic_cast(m_aObjectStack.back()) == NULL ) parseError( "spurious array end", first ); else m_aObjectStack.pop_back(); } void emitStream( iteratorT first, iteratorT last ) { if( m_aObjectStack.empty() ) parseError( "stream without object", first ); PDFObject* pObj = dynamic_cast(m_aObjectStack.back()); if( pObj && pObj->m_pObject ) { if( pObj->m_pStream ) parseError( "multiple streams in object", first ); PDFDict* pDict = dynamic_cast(pObj->m_pObject); if( pDict ) { PDFStream* pStream = new PDFStream( first - m_aGlobalBegin, last - m_aGlobalBegin, pDict ); pObj->m_pStream = pStream; pObj->m_aSubElements.push_back( pStream ); } } else parseError( "stream without object", first ); } void beginTrailer( iteratorT first, iteratorT ) { if( m_aObjectStack.empty() ) m_aObjectStack.push_back( new PDFPart() ); PDFTrailer* pTrailer = new PDFTrailer(); pTrailer->m_nOffset = first - m_aGlobalBegin; PDFContainer* pContainer = dynamic_cast(m_aObjectStack.back()); if( pContainer && ( dynamic_cast(pContainer) || dynamic_cast(pContainer) ) ) { pContainer->m_aSubElements.push_back( pTrailer ); m_aObjectStack.push_back( pTrailer ); } else parseError( "trailer in wrong place", first ); } void endTrailer( iteratorT first, iteratorT ) { if( m_aObjectStack.empty() ) parseError( "%%EOF without trailer", first ); else if( dynamic_cast(m_aObjectStack.back()) == NULL ) parseError( "spurious %%EOF", first ); else m_aObjectStack.pop_back(); } }; PDFEntry* PDFReader::read( const char* pBuffer, unsigned int nLen ) { PDFGrammar aGrammar( pBuffer ); try { boost::spirit::parse_info aInfo = boost::spirit::parse( pBuffer, pBuffer+nLen, aGrammar, boost::spirit::space_p ); #if OSL_DEBUG_LEVEL > 1 fprintf( stderr, "parseinfo: stop = %p (buff=%p, offset = %d), hit = %s, full = %s, length = %d\n", aInfo.stop, pBuffer, aInfo.stop - pBuffer, aInfo.hit ? "true" : "false", aInfo.full ? "true" : "false", (int)aInfo.length ); #endif } catch( parser_error& rError ) { #if OSL_DEBUG_LEVEL > 1 fprintf( stderr, "parse error: %s at buffer pos %u\nobject stack:\n", rError.descriptor, rError.where - pBuffer ); unsigned int nElem = aGrammar.m_aObjectStack.size(); for( unsigned int i = 0; i < nElem; i++ ) { fprintf( stderr, " %s\n", typeid( *(aGrammar.m_aObjectStack[i]) ).name() ); } #endif } PDFEntry* pRet = NULL; unsigned int nEntries = aGrammar.m_aObjectStack.size(); if( nEntries == 1 ) { pRet = aGrammar.m_aObjectStack.back(); aGrammar.m_aObjectStack.pop_back(); } #if OSL_DEBUG_LEVEL > 1 else if( nEntries > 1 ) fprintf( stderr, "error got %u stack objects in parse\n", nEntries ); #endif return pRet; } PDFEntry* PDFReader::read( const char* pFileName ) { #ifdef WIN32 /* #i106583# since converting to boost 1.39 file_iterator does not work anymore on all Windows systems C++ stdlib istream_iterator does not allow "-" apparently using spirit 2.0 doesn't work in our environment with the MSC So for the time being bite the bullet and read the whole file. FIXME: give Spirit 2.x another try when we upgrade boost again. */ PDFEntry* pRet = NULL; FILE* fp = fopen( pFileName, "rb" ); if( fp ) { fseek( fp, 0, SEEK_END ); unsigned int nLen = (unsigned int)ftell( fp ); fseek( fp, 0, SEEK_SET ); char* pBuf = (char*)rtl_allocateMemory( nLen ); if( pBuf ) { fread( pBuf, 1, nLen, fp ); pRet = read( pBuf, nLen ); rtl_freeMemory( pBuf ); } fclose( fp ); } return pRet; #else file_iterator<> file_start( pFileName ); if( ! file_start ) return NULL; file_iterator<> file_end = file_start.make_end(); PDFGrammar< file_iterator<> > aGrammar( file_start ); try { boost::spirit::parse_info< file_iterator<> > aInfo = boost::spirit::parse( file_start, file_end, aGrammar, boost::spirit::space_p ); #if OSL_DEBUG_LEVEL > 1 fprintf( stderr, "parseinfo: stop at offset = %d, hit = %s, full = %s, length = %d\n", aInfo.stop - file_start, aInfo.hit ? "true" : "false", aInfo.full ? "true" : "false", (int)aInfo.length ); #endif } catch( parser_error< const char*, file_iterator<> >& rError ) { #if OSL_DEBUG_LEVEL > 1 fprintf( stderr, "parse error: %s at buffer pos %u\nobject stack:\n", rError.descriptor, rError.where - file_start ); unsigned int nElem = aGrammar.m_aObjectStack.size(); for( unsigned int i = 0; i < nElem; i++ ) { fprintf( stderr, " %s\n", typeid( *(aGrammar.m_aObjectStack[i]) ).name() ); } #endif } PDFEntry* pRet = NULL; unsigned int nEntries = aGrammar.m_aObjectStack.size(); if( nEntries == 1 ) { pRet = aGrammar.m_aObjectStack.back(); aGrammar.m_aObjectStack.pop_back(); } #if OSL_DEBUG_LEVEL > 1 else if( nEntries > 1 ) { fprintf( stderr, "error got %u stack objects in parse\n", nEntries ); for( unsigned int i = 0; i < nEntries; i++ ) { fprintf( stderr, "%s\n", typeid(*aGrammar.m_aObjectStack[i]).name() ); PDFObject* pObj = dynamic_cast(aGrammar.m_aObjectStack[i]); if( pObj ) fprintf( stderr, " -> object %d generation %d\n", pObj->m_nNumber, pObj->m_nGeneration ); else fprintf( stderr, "(type %s)\n", typeid(*aGrammar.m_aObjectStack[i]).name() ); } } #endif return pRet; #endif // WIN32 } #if defined __SUNPRO_CC #pragma enable_warn #elif defined _MSC_VER #pragma warning(pop) #endif