poppler/Hints.cc - third_party/poppler - Git at Google

 //========================================================================
 //
 // Hints.cc
 //
 // This file is licensed under the GPLv2 or later
 //
 // Copyright 2010, 2012 Hib Eris <hib@hiberis.nl>
 // Copyright 2010, 2011, 2013, 2014, 2016, 2017 Albert Astals Cid <aacid@kde.org>
 // Copyright 2010, 2013 Pino Toscano <pino@kde.org>
 // Copyright 2013 Adrian Johnson <ajohnson@redneon.com>
 // Copyright 2014 Fabio D'Urso <fabiodurso@hotmail.it>
 // Copyright 2016 Jeffrey Morlan <jmmorlan@sonic.net>
 //
 //========================================================================

 #include <config.h>

 #include "Hints.h"

 #include "Linearization.h"
 #include "Object.h"
 #include "Stream.h"
 #include "XRef.h"
 #include "Parser.h"
 #include "Lexer.h"
 #include "SecurityHandler.h"

 #include <limits.h>

 class StreamBitReader {
 public:
   StreamBitReader(Stream *strA)
     : str(strA)
     , inputBits(0)
     , isAtEof(gFalse)
   {
   }

   void resetInputBits()
   {
     inputBits = 0;
   }

   GBool atEOF() const
   {
     return isAtEof;
   }

   Guint readBit()
   {
     Guint bit;
     int c;

     if (inputBits == 0) {
       if ((c = str->getChar()) == EOF) {
         isAtEof = gTrue;
         return (Guint) -1;
       }
       bitsBuffer = c;
       inputBits = 8;
     }
     bit = (bitsBuffer >> (inputBits - 1)) & 1;
     --inputBits;
     return bit;
   }

   Guint readBits(int n)
   {
     Guint bit, bits;

     if (n < 0) return -1;
     if (n == 0) return 0;

     if (n == 1)
       return readBit();

     bit = readBit();
     if (bit == (Guint) -1)
       return -1;

     bit = bit << (n-1);

     bits = readBits(n - 1);
     if (bits == (Guint) -1)
       return -1;

     return bit | bits;
   }

 private:
   Stream *str;
   int inputBits;
   char bitsBuffer;
   GBool isAtEof;
 };

 //------------------------------------------------------------------------
 // Hints
 //------------------------------------------------------------------------

 Hints::Hints(BaseStream *str, Linearization *linearization, XRef *xref, SecurityHandler *secHdlr)
 {
   mainXRefEntriesOffset = linearization->getMainXRefEntriesOffset();
   nPages = linearization->getNumPages();
   pageFirst = linearization->getPageFirst();
   pageEndFirst = linearization->getEndFirst();
   pageObjectFirst = linearization->getObjectNumberFirst();
   if (pageObjectFirst < 0 || pageObjectFirst >= xref->getNumObjects()) {
     error(errSyntaxWarning, -1,
       "Invalid reference for first page object ({0:d}) in linearization table ",
       pageObjectFirst);
     pageObjectFirst = 0;
   }
   XRefEntry *pageObjectFirstXRefEntry = xref->getEntry(pageObjectFirst);
   if (!pageObjectFirstXRefEntry) {
       error(errSyntaxWarning, -1, "No XRef entry for first page object");
       pageOffsetFirst = 0;
   } else {
       pageOffsetFirst = pageObjectFirstXRefEntry->offset;
   }

   if (nPages >= INT_MAX / (int)sizeof(Guint)) {
      error(errSyntaxWarning, -1, "Invalid number of pages ({0:d}) for hints table", nPages);
      nPages = 0;
   }
   nObjects = (Guint *) gmallocn_checkoverflow(nPages, sizeof(Guint));
   pageObjectNum = (int *) gmallocn_checkoverflow(nPages, sizeof(int));
   xRefOffset = (Guint *) gmallocn_checkoverflow(nPages, sizeof(Guint));
   pageLength = (Guint *) gmallocn_checkoverflow(nPages, sizeof(Guint));
   pageOffset = (Goffset *) gmallocn_checkoverflow(nPages, sizeof(Goffset));
   numSharedObject = (Guint *) gmallocn_checkoverflow(nPages, sizeof(Guint));
   sharedObjectId = (Guint **) gmallocn_checkoverflow(nPages, sizeof(Guint*));
   if (!nObjects || !pageObjectNum || !xRefOffset || !pageLength || !pageOffset ||
       !numSharedObject || !sharedObjectId) {
     error(errSyntaxWarning, -1, "Failed to allocate memory for hints table");
     nPages = 0;
   }

   memset(pageLength, 0, nPages * sizeof(Guint));
   memset(pageOffset, 0, nPages * sizeof(Guint));
   memset(numSharedObject, 0, nPages * sizeof(Guint));
   memset(pageObjectNum, 0, nPages * sizeof(int));

   groupLength = NULL;
   groupOffset = NULL;
   groupHasSignature = NULL;
   groupNumObjects = NULL;
   groupXRefOffset = NULL;

   ok = gTrue;
   readTables(str, linearization, xref, secHdlr);
 }

 Hints::~Hints()
 {
   gfree(nObjects);
   gfree(pageObjectNum);
   gfree(xRefOffset);
   gfree(pageLength);
   gfree(pageOffset);
   for (int i=0; i< nPages; i++) {
     if (numSharedObject[i]) {
        gfree(sharedObjectId[i]);
     }
   }
   gfree(sharedObjectId);
   gfree(numSharedObject);

   gfree(groupLength);
   gfree(groupOffset);
   gfree(groupHasSignature);
   gfree(groupNumObjects);
   gfree(groupXRefOffset);
 }

 void Hints::readTables(BaseStream *str, Linearization *linearization, XRef *xref, SecurityHandler *secHdlr)
 {
   hintsOffset = linearization->getHintsOffset();
   hintsLength = linearization->getHintsLength();
   hintsOffset2 = linearization->getHintsOffset2();
   hintsLength2 = linearization->getHintsLength2();

   Parser *parser;

   int bufLength = hintsLength + hintsLength2;

   std::vector<char> buf(bufLength);
   char *p = &buf[0];

   Stream *s = str->makeSubStream(hintsOffset, gFalse, hintsLength, Object(objNull));
   s->reset();
   for (Guint i=0; i < hintsLength; i++) { *p++ = s->getChar(); }
   delete s;

   if (hintsOffset2 && hintsLength2) {
     s = str->makeSubStream(hintsOffset2, gFalse, hintsLength2, Object(objNull));
     s->reset();
     for (Guint i=0; i < hintsLength2; i++) { *p++ = s->getChar(); }
     delete s;
   }

   MemStream *memStream = new MemStream (&buf[0], 0, bufLength, Object(objNull));

   parser = new Parser(xref, new Lexer(xref, memStream), gTrue);

   int num, gen;
   Object obj;
   if ((obj = parser->getObj(), obj.isInt()) &&
      (num = obj.getInt(), obj = parser->getObj(), obj.isInt()) &&
      (gen = obj.getInt(), obj = parser->getObj(), obj.isCmd("obj")) &&
      (obj = parser->getObj(gFalse,
          secHdlr ? secHdlr->getFileKey() : (Guchar *)NULL,
          secHdlr ? secHdlr->getEncAlgorithm() : cryptRC4,
          secHdlr ? secHdlr->getFileKeyLength() : 0,
          num, gen, 0, gTrue), obj.isStream())) {
     Stream *hintsStream = obj.getStream();
     Dict *hintsDict = obj.streamGetDict();

     int sharedStreamOffset = 0;
     if (hintsDict->lookupInt("S", NULL, &sharedStreamOffset) &&
         sharedStreamOffset > 0) {

         hintsStream->reset();
         ok = readPageOffsetTable(hintsStream);

         if (ok) {
           hintsStream->reset();
           for (int i=0; i<sharedStreamOffset; i++) hintsStream->getChar();
           ok = readSharedObjectsTable(hintsStream);
         }
     } else {
       error(errSyntaxWarning, -1, "Invalid shared object hint table offset");
     }
   } else {
     error(errSyntaxWarning, -1, "Failed parsing hints table object");
   }

   delete parser;
 }

 GBool Hints::readPageOffsetTable(Stream *str)
 {
   if (nPages < 1) {
     error(errSyntaxWarning, -1, "Invalid number of pages reading page offset hints table");
     return gFalse;
   }

   StreamBitReader sbr(str);

   nObjectLeast = sbr.readBits(32);
   if (nObjectLeast < 1) {
     error(errSyntaxWarning, -1, "Invalid least number of objects reading page offset hints table");
     nPages = 0;
     return gFalse;
   }

   objectOffsetFirst = sbr.readBits(32);
   if (objectOffsetFirst >= hintsOffset) objectOffsetFirst += hintsLength;

   nBitsDiffObjects = sbr.readBits(16);

   pageLengthLeast = sbr.readBits(32);

   nBitsDiffPageLength = sbr.readBits(16);

   OffsetStreamLeast = sbr.readBits(32);

   nBitsOffsetStream = sbr.readBits(16);

   lengthStreamLeast = sbr.readBits(32);

   nBitsLengthStream = sbr.readBits(16);

   nBitsNumShared = sbr.readBits(16);

   nBitsShared = sbr.readBits(16);

   nBitsNumerator = sbr.readBits(16);

   denominator = sbr.readBits(16);

   for (int i = 0; i < nPages && !sbr.atEOF(); i++) {
     nObjects[i] = nObjectLeast + sbr.readBits(nBitsDiffObjects);
   }
   if (sbr.atEOF())
     return gFalse;

   nObjects[0] = 0;
   xRefOffset[0] = mainXRefEntriesOffset + 20;
   for (int i=1; i<nPages; i++) {
     xRefOffset[i] = xRefOffset[i-1] + 20*nObjects[i-1];
   }

   pageObjectNum[0] = 1;
   for (int i=1; i<nPages; i++) {
     pageObjectNum[i] = pageObjectNum[i-1] + nObjects[i-1];
   }
   pageObjectNum[0] = pageObjectFirst;

   sbr.resetInputBits(); // reset on byte boundary. Not in specs!
   for (int i = 0; i < nPages && !sbr.atEOF(); i++) {
     pageLength[i] = pageLengthLeast + sbr.readBits(nBitsDiffPageLength);
   }
   if (sbr.atEOF())
     return gFalse;

   sbr.resetInputBits(); // reset on byte boundary. Not in specs!
   numSharedObject[0] = sbr.readBits(nBitsNumShared);
   numSharedObject[0] = 0; // Do not trust the read value to be 0.
   sharedObjectId[0] = NULL;
   for (int i = 1; i < nPages && !sbr.atEOF(); i++) {
     numSharedObject[i] = sbr.readBits(nBitsNumShared);
     if (numSharedObject[i] >= INT_MAX / (int)sizeof(Guint)) {
        error(errSyntaxWarning, -1, "Invalid number of shared objects");
        numSharedObject[i] = 0;
        return gFalse;
     }
     sharedObjectId[i] = (Guint *) gmallocn_checkoverflow(numSharedObject[i], sizeof(Guint));
     if (numSharedObject[i] && !sharedObjectId[i]) {
        error(errSyntaxWarning, -1, "Failed to allocate memory for shared object IDs");
        numSharedObject[i] = 0;
        return gFalse;
     }
   }
   if (sbr.atEOF())
     return gFalse;

   sbr.resetInputBits(); // reset on byte boundary. Not in specs!
   for (int i=1; i<nPages; i++) {
     for (Guint j = 0; j < numSharedObject[i] && !sbr.atEOF(); j++) {
       sharedObjectId[i][j] = sbr.readBits(nBitsShared);
     }
   }

   pageOffset[0] = pageOffsetFirst;
   // find pageOffsets.
   for (int i=1; i<nPages; i++) {
     pageOffset[i] = pageOffset[i-1] + pageLength[i-1];
   }

   return !sbr.atEOF();
 }

 GBool Hints::readSharedObjectsTable(Stream *str)
 {
   StreamBitReader sbr(str);

   const Guint firstSharedObjectNumber = sbr.readBits(32);

   const Guint firstSharedObjectOffset = sbr.readBits(32) + hintsLength;

   const Guint nSharedGroupsFirst = sbr.readBits(32);

   const Guint nSharedGroups = sbr.readBits(32);

   const Guint nBitsNumObjects = sbr.readBits(16);

   const Guint groupLengthLeast = sbr.readBits(32);

   const Guint nBitsDiffGroupLength = sbr.readBits(16);

   if ((!nSharedGroups) || (nSharedGroups >= INT_MAX / (int)sizeof(Guint))) {
      error(errSyntaxWarning, -1, "Invalid number of shared object groups");
      return gFalse;
   }
   if ((!nSharedGroupsFirst) || (nSharedGroupsFirst > nSharedGroups)) {
      error(errSyntaxWarning, -1, "Invalid number of first page shared object groups");
      return gFalse;
   }
   if (nBitsNumObjects > 32 || nBitsDiffGroupLength > 32) {
      error(errSyntaxWarning, -1, "Invalid shared object groups bit length");
      return gFalse;
   }

   groupLength = (Guint *) gmallocn_checkoverflow(nSharedGroups, sizeof(Guint));
   groupOffset = (Guint *) gmallocn_checkoverflow(nSharedGroups, sizeof(Guint));
   groupHasSignature = (Guint *) gmallocn_checkoverflow(nSharedGroups, sizeof(Guint));
   groupNumObjects = (Guint *) gmallocn_checkoverflow(nSharedGroups, sizeof(Guint));
   groupXRefOffset = (Guint *) gmallocn_checkoverflow(nSharedGroups, sizeof(Guint));
   if (!groupLength || !groupOffset || !groupHasSignature ||
       !groupNumObjects || !groupXRefOffset) {
      error(errSyntaxWarning, -1, "Failed to allocate memory for shared object groups");
      return gFalse;
   }

   sbr.resetInputBits(); // reset on byte boundary. Not in specs!
   for (Guint i = 0; i < nSharedGroups && !sbr.atEOF(); i++) {
     groupLength[i] = groupLengthLeast + sbr.readBits(nBitsDiffGroupLength);
   }
   if (sbr.atEOF())
     return gFalse;

   groupOffset[0] = objectOffsetFirst;
   for (Guint i=1; i<nSharedGroupsFirst; i++) {
     groupOffset[i] = groupOffset[i-1] + groupLength[i-1];
   }
   if (nSharedGroups > nSharedGroupsFirst ) {
     groupOffset[nSharedGroupsFirst] = firstSharedObjectOffset;
     for (Guint i=nSharedGroupsFirst+1; i<nSharedGroups; i++) {
       groupOffset[i] = groupOffset[i-1] + groupLength[i-1];
     }
   }

   sbr.resetInputBits(); // reset on byte boundary. Not in specs!
   for (Guint i = 0; i < nSharedGroups && !sbr.atEOF(); i++) {
     groupHasSignature[i] = sbr.readBits(1);
   }
   if (sbr.atEOF())
     return gFalse;

   sbr.resetInputBits(); // reset on byte boundary. Not in specs!
   for (Guint i = 0; i < nSharedGroups && !sbr.atEOF(); i++) {
     if (groupHasSignature[i]) {
        sbr.readBits(128);
     }
   }
   if (sbr.atEOF())
     return gFalse;

   sbr.resetInputBits(); // reset on byte boundary. Not in specs!
   for (Guint i = 0; i < nSharedGroups && !sbr.atEOF(); i++) {
     groupNumObjects[i] =
        nBitsNumObjects ? 1 + sbr.readBits(nBitsNumObjects) : 1;
   }

   for (Guint i=0; i<nSharedGroupsFirst; i++) {
     groupNumObjects[i] = 0;
     groupXRefOffset[i] = 0;
   }
   if (nSharedGroups > nSharedGroupsFirst ) {
     groupXRefOffset[nSharedGroupsFirst] =
         mainXRefEntriesOffset + 20*firstSharedObjectNumber;
     for (Guint i=nSharedGroupsFirst+1; i<nSharedGroups; i++) {
       groupXRefOffset[i] = groupXRefOffset[i-1] + 20*groupNumObjects[i-1];
     }
   }

   return !sbr.atEOF();
 }

 GBool Hints::isOk() const
 {
   return ok;
 }

 Goffset Hints::getPageOffset(int page)
 {
   if ((page < 1) || (page > nPages)) return 0;

   if (page-1 > pageFirst)
     return pageOffset[page-1];
   else if (page-1 < pageFirst)
     return pageOffset[page];
   else
     return pageOffset[0];
 }

 std::vector<ByteRange>* Hints::getPageRanges(int page)
 {
   if ((page < 1) || (page > nPages)) return NULL;

   int idx;
   if (page-1 > pageFirst)
      idx = page-1;
   else if (page-1 < pageFirst)
      idx = page;
   else
      idx = 0;

   ByteRange pageRange;
   std::vector<ByteRange> *v = new std::vector<ByteRange>;

   pageRange.offset = pageOffset[idx];
   pageRange.length = pageLength[idx];
   v->push_back(pageRange);

   pageRange.offset = xRefOffset[idx];
   pageRange.length = 20*nObjects[idx];
   v->push_back(pageRange);

   for (Guint j=0; j<numSharedObject[idx]; j++) {
      Guint k = sharedObjectId[idx][j];

      pageRange.offset = groupOffset[k];
      pageRange.length = groupLength[k];
      v->push_back(pageRange);

      pageRange.offset = groupXRefOffset[k];
      pageRange.length = 20*groupNumObjects[k];
      v->push_back(pageRange);
   }

   return v;
 }

 int Hints::getPageObjectNum(int page) {
   if ((page < 1) || (page > nPages)) return 0;

   if (page-1 > pageFirst)
     return pageObjectNum[page-1];
   else if (page-1 < pageFirst)
     return pageObjectNum[page];
   else
     return pageObjectNum[0];
 }
	//========================================================================
	//
	// Hints.cc
	//
	// This file is licensed under the GPLv2 or later
	//
	// Copyright 2010, 2012 Hib Eris <hib@hiberis.nl>
	// Copyright 2010, 2011, 2013, 2014, 2016, 2017 Albert Astals Cid <aacid@kde.org>
	// Copyright 2010, 2013 Pino Toscano <pino@kde.org>
	// Copyright 2013 Adrian Johnson <ajohnson@redneon.com>
	// Copyright 2014 Fabio D'Urso <fabiodurso@hotmail.it>
	// Copyright 2016 Jeffrey Morlan <jmmorlan@sonic.net>
	//
	//========================================================================

	#include <config.h>

	#include "Hints.h"

	#include "Linearization.h"
	#include "Object.h"
	#include "Stream.h"
	#include "XRef.h"
	#include "Parser.h"
	#include "Lexer.h"
	#include "SecurityHandler.h"

	#include <limits.h>

	class StreamBitReader {
	public:
	StreamBitReader(Stream *strA)
	: str(strA)
	, inputBits(0)
	, isAtEof(gFalse)
	{
	}

	void resetInputBits()
	{
	inputBits = 0;
	}

	GBool atEOF() const
	{
	return isAtEof;
	}

	Guint readBit()
	{
	Guint bit;
	int c;

	if (inputBits == 0) {
	if ((c = str->getChar()) == EOF) {
	isAtEof = gTrue;
	return (Guint) -1;
	}
	bitsBuffer = c;
	inputBits = 8;
	}
	bit = (bitsBuffer >> (inputBits - 1)) & 1;
	--inputBits;
	return bit;
	}

	Guint readBits(int n)
	{
	Guint bit, bits;

	if (n < 0) return -1;
	if (n == 0) return 0;

	if (n == 1)
	return readBit();

	bit = readBit();
	if (bit == (Guint) -1)
	return -1;

	bit = bit << (n-1);

	bits = readBits(n - 1);
	if (bits == (Guint) -1)
	return -1;

	return bit \| bits;
	}

	private:
	Stream *str;
	int inputBits;
	char bitsBuffer;
	GBool isAtEof;
	};

	//------------------------------------------------------------------------
	// Hints
	//------------------------------------------------------------------------

	Hints::Hints(BaseStream str, Linearization linearization, XRef xref, SecurityHandler secHdlr)
	{
	mainXRefEntriesOffset = linearization->getMainXRefEntriesOffset();
	nPages = linearization->getNumPages();
	pageFirst = linearization->getPageFirst();
	pageEndFirst = linearization->getEndFirst();
	pageObjectFirst = linearization->getObjectNumberFirst();
	if (pageObjectFirst < 0 \|\| pageObjectFirst >= xref->getNumObjects()) {
	error(errSyntaxWarning, -1,
	"Invalid reference for first page object ({0:d}) in linearization table ",
	pageObjectFirst);
	pageObjectFirst = 0;
	}
	XRefEntry *pageObjectFirstXRefEntry = xref->getEntry(pageObjectFirst);
	if (!pageObjectFirstXRefEntry) {
	error(errSyntaxWarning, -1, "No XRef entry for first page object");
	pageOffsetFirst = 0;
	} else {
	pageOffsetFirst = pageObjectFirstXRefEntry->offset;
	}

	if (nPages >= INT_MAX / (int)sizeof(Guint)) {
	error(errSyntaxWarning, -1, "Invalid number of pages ({0:d}) for hints table", nPages);
	nPages = 0;
	}
	nObjects = (Guint *) gmallocn_checkoverflow(nPages, sizeof(Guint));
	pageObjectNum = (int *) gmallocn_checkoverflow(nPages, sizeof(int));
	xRefOffset = (Guint *) gmallocn_checkoverflow(nPages, sizeof(Guint));
	pageLength = (Guint *) gmallocn_checkoverflow(nPages, sizeof(Guint));
	pageOffset = (Goffset *) gmallocn_checkoverflow(nPages, sizeof(Goffset));
	numSharedObject = (Guint *) gmallocn_checkoverflow(nPages, sizeof(Guint));
	sharedObjectId = (Guint *) gmallocn_checkoverflow(nPages, sizeof(Guint));
	if (!nObjects \|\| !pageObjectNum \|\| !xRefOffset \|\| !pageLength \|\| !pageOffset \|\|
	!numSharedObject \|\| !sharedObjectId) {
	error(errSyntaxWarning, -1, "Failed to allocate memory for hints table");
	nPages = 0;
	}

	memset(pageLength, 0, nPages * sizeof(Guint));
	memset(pageOffset, 0, nPages * sizeof(Guint));
	memset(numSharedObject, 0, nPages * sizeof(Guint));
	memset(pageObjectNum, 0, nPages * sizeof(int));

	groupLength = NULL;
	groupOffset = NULL;
	groupHasSignature = NULL;
	groupNumObjects = NULL;
	groupXRefOffset = NULL;

	ok = gTrue;
	readTables(str, linearization, xref, secHdlr);
	}

	Hints::~Hints()
	{
	gfree(nObjects);
	gfree(pageObjectNum);
	gfree(xRefOffset);
	gfree(pageLength);
	gfree(pageOffset);
	for (int i=0; i< nPages; i++) {
	if (numSharedObject[i]) {
	gfree(sharedObjectId[i]);
	}
	}
	gfree(sharedObjectId);
	gfree(numSharedObject);

	gfree(groupLength);
	gfree(groupOffset);
	gfree(groupHasSignature);
	gfree(groupNumObjects);
	gfree(groupXRefOffset);
	}

	void Hints::readTables(BaseStream str, Linearization linearization, XRef xref, SecurityHandler secHdlr)
	{
	hintsOffset = linearization->getHintsOffset();
	hintsLength = linearization->getHintsLength();
	hintsOffset2 = linearization->getHintsOffset2();
	hintsLength2 = linearization->getHintsLength2();

	Parser *parser;

	int bufLength = hintsLength + hintsLength2;

	std::vector<char> buf(bufLength);
	char *p = &buf[0];

	Stream *s = str->makeSubStream(hintsOffset, gFalse, hintsLength, Object(objNull));
	s->reset();
	for (Guint i=0; i < hintsLength; i++) { *p++ = s->getChar(); }
	delete s;

	if (hintsOffset2 && hintsLength2) {
	s = str->makeSubStream(hintsOffset2, gFalse, hintsLength2, Object(objNull));
	s->reset();
	for (Guint i=0; i < hintsLength2; i++) { *p++ = s->getChar(); }
	delete s;
	}

	MemStream *memStream = new MemStream (&buf[0], 0, bufLength, Object(objNull));

	parser = new Parser(xref, new Lexer(xref, memStream), gTrue);

	int num, gen;
	Object obj;
	if ((obj = parser->getObj(), obj.isInt()) &&
	(num = obj.getInt(), obj = parser->getObj(), obj.isInt()) &&
	(gen = obj.getInt(), obj = parser->getObj(), obj.isCmd("obj")) &&
	(obj = parser->getObj(gFalse,
	secHdlr ? secHdlr->getFileKey() : (Guchar *)NULL,
	secHdlr ? secHdlr->getEncAlgorithm() : cryptRC4,
	secHdlr ? secHdlr->getFileKeyLength() : 0,
	num, gen, 0, gTrue), obj.isStream())) {
	Stream *hintsStream = obj.getStream();
	Dict *hintsDict = obj.streamGetDict();

	int sharedStreamOffset = 0;
	if (hintsDict->lookupInt("S", NULL, &sharedStreamOffset) &&
	sharedStreamOffset > 0) {

	hintsStream->reset();
	ok = readPageOffsetTable(hintsStream);

	if (ok) {
	hintsStream->reset();
	for (int i=0; i<sharedStreamOffset; i++) hintsStream->getChar();
	ok = readSharedObjectsTable(hintsStream);
	}
	} else {
	error(errSyntaxWarning, -1, "Invalid shared object hint table offset");
	}
	} else {
	error(errSyntaxWarning, -1, "Failed parsing hints table object");
	}

	delete parser;
	}

	GBool Hints::readPageOffsetTable(Stream *str)
	{
	if (nPages < 1) {
	error(errSyntaxWarning, -1, "Invalid number of pages reading page offset hints table");
	return gFalse;
	}

	StreamBitReader sbr(str);

	nObjectLeast = sbr.readBits(32);
	if (nObjectLeast < 1) {
	error(errSyntaxWarning, -1, "Invalid least number of objects reading page offset hints table");
	nPages = 0;
	return gFalse;
	}

	objectOffsetFirst = sbr.readBits(32);
	if (objectOffsetFirst >= hintsOffset) objectOffsetFirst += hintsLength;

	nBitsDiffObjects = sbr.readBits(16);

	pageLengthLeast = sbr.readBits(32);

	nBitsDiffPageLength = sbr.readBits(16);

	OffsetStreamLeast = sbr.readBits(32);

	nBitsOffsetStream = sbr.readBits(16);

	lengthStreamLeast = sbr.readBits(32);

	nBitsLengthStream = sbr.readBits(16);

	nBitsNumShared = sbr.readBits(16);

	nBitsShared = sbr.readBits(16);

	nBitsNumerator = sbr.readBits(16);

	denominator = sbr.readBits(16);

	for (int i = 0; i < nPages && !sbr.atEOF(); i++) {
	nObjects[i] = nObjectLeast + sbr.readBits(nBitsDiffObjects);
	}
	if (sbr.atEOF())
	return gFalse;

	nObjects[0] = 0;
	xRefOffset[0] = mainXRefEntriesOffset + 20;
	for (int i=1; i<nPages; i++) {
	xRefOffset[i] = xRefOffset[i-1] + 20*nObjects[i-1];
	}

	pageObjectNum[0] = 1;
	for (int i=1; i<nPages; i++) {
	pageObjectNum[i] = pageObjectNum[i-1] + nObjects[i-1];
	}
	pageObjectNum[0] = pageObjectFirst;

	sbr.resetInputBits(); // reset on byte boundary. Not in specs!
	for (int i = 0; i < nPages && !sbr.atEOF(); i++) {
	pageLength[i] = pageLengthLeast + sbr.readBits(nBitsDiffPageLength);
	}
	if (sbr.atEOF())
	return gFalse;

	sbr.resetInputBits(); // reset on byte boundary. Not in specs!
	numSharedObject[0] = sbr.readBits(nBitsNumShared);
	numSharedObject[0] = 0; // Do not trust the read value to be 0.
	sharedObjectId[0] = NULL;
	for (int i = 1; i < nPages && !sbr.atEOF(); i++) {
	numSharedObject[i] = sbr.readBits(nBitsNumShared);
	if (numSharedObject[i] >= INT_MAX / (int)sizeof(Guint)) {
	error(errSyntaxWarning, -1, "Invalid number of shared objects");
	numSharedObject[i] = 0;
	return gFalse;
	}
	sharedObjectId[i] = (Guint *) gmallocn_checkoverflow(numSharedObject[i], sizeof(Guint));
	if (numSharedObject[i] && !sharedObjectId[i]) {
	error(errSyntaxWarning, -1, "Failed to allocate memory for shared object IDs");
	numSharedObject[i] = 0;
	return gFalse;
	}
	}
	if (sbr.atEOF())
	return gFalse;

	sbr.resetInputBits(); // reset on byte boundary. Not in specs!
	for (int i=1; i<nPages; i++) {
	for (Guint j = 0; j < numSharedObject[i] && !sbr.atEOF(); j++) {
	sharedObjectId[i][j] = sbr.readBits(nBitsShared);
	}
	}

	pageOffset[0] = pageOffsetFirst;
	// find pageOffsets.
	for (int i=1; i<nPages; i++) {
	pageOffset[i] = pageOffset[i-1] + pageLength[i-1];
	}

	return !sbr.atEOF();
	}

	GBool Hints::readSharedObjectsTable(Stream *str)
	{
	StreamBitReader sbr(str);

	const Guint firstSharedObjectNumber = sbr.readBits(32);

	const Guint firstSharedObjectOffset = sbr.readBits(32) + hintsLength;

	const Guint nSharedGroupsFirst = sbr.readBits(32);

	const Guint nSharedGroups = sbr.readBits(32);

	const Guint nBitsNumObjects = sbr.readBits(16);

	const Guint groupLengthLeast = sbr.readBits(32);

	const Guint nBitsDiffGroupLength = sbr.readBits(16);

	if ((!nSharedGroups) \|\| (nSharedGroups >= INT_MAX / (int)sizeof(Guint))) {
	error(errSyntaxWarning, -1, "Invalid number of shared object groups");
	return gFalse;
	}
	if ((!nSharedGroupsFirst) \|\| (nSharedGroupsFirst > nSharedGroups)) {
	error(errSyntaxWarning, -1, "Invalid number of first page shared object groups");
	return gFalse;
	}
	if (nBitsNumObjects > 32 \|\| nBitsDiffGroupLength > 32) {
	error(errSyntaxWarning, -1, "Invalid shared object groups bit length");
	return gFalse;
	}

	groupLength = (Guint *) gmallocn_checkoverflow(nSharedGroups, sizeof(Guint));
	groupOffset = (Guint *) gmallocn_checkoverflow(nSharedGroups, sizeof(Guint));
	groupHasSignature = (Guint *) gmallocn_checkoverflow(nSharedGroups, sizeof(Guint));
	groupNumObjects = (Guint *) gmallocn_checkoverflow(nSharedGroups, sizeof(Guint));
	groupXRefOffset = (Guint *) gmallocn_checkoverflow(nSharedGroups, sizeof(Guint));
	if (!groupLength \|\| !groupOffset \|\| !groupHasSignature \|\|
	!groupNumObjects \|\| !groupXRefOffset) {
	error(errSyntaxWarning, -1, "Failed to allocate memory for shared object groups");
	return gFalse;
	}

	sbr.resetInputBits(); // reset on byte boundary. Not in specs!
	for (Guint i = 0; i < nSharedGroups && !sbr.atEOF(); i++) {
	groupLength[i] = groupLengthLeast + sbr.readBits(nBitsDiffGroupLength);
	}
	if (sbr.atEOF())
	return gFalse;

	groupOffset[0] = objectOffsetFirst;
	for (Guint i=1; i<nSharedGroupsFirst; i++) {
	groupOffset[i] = groupOffset[i-1] + groupLength[i-1];
	}
	if (nSharedGroups > nSharedGroupsFirst ) {
	groupOffset[nSharedGroupsFirst] = firstSharedObjectOffset;
	for (Guint i=nSharedGroupsFirst+1; i<nSharedGroups; i++) {
	groupOffset[i] = groupOffset[i-1] + groupLength[i-1];
	}
	}

	sbr.resetInputBits(); // reset on byte boundary. Not in specs!
	for (Guint i = 0; i < nSharedGroups && !sbr.atEOF(); i++) {
	groupHasSignature[i] = sbr.readBits(1);
	}
	if (sbr.atEOF())
	return gFalse;

	sbr.resetInputBits(); // reset on byte boundary. Not in specs!
	for (Guint i = 0; i < nSharedGroups && !sbr.atEOF(); i++) {
	if (groupHasSignature[i]) {
	sbr.readBits(128);
	}
	}
	if (sbr.atEOF())
	return gFalse;

	sbr.resetInputBits(); // reset on byte boundary. Not in specs!
	for (Guint i = 0; i < nSharedGroups && !sbr.atEOF(); i++) {
	groupNumObjects[i] =
	nBitsNumObjects ? 1 + sbr.readBits(nBitsNumObjects) : 1;
	}

	for (Guint i=0; i<nSharedGroupsFirst; i++) {
	groupNumObjects[i] = 0;
	groupXRefOffset[i] = 0;
	}
	if (nSharedGroups > nSharedGroupsFirst ) {
	groupXRefOffset[nSharedGroupsFirst] =
	mainXRefEntriesOffset + 20*firstSharedObjectNumber;
	for (Guint i=nSharedGroupsFirst+1; i<nSharedGroups; i++) {
	groupXRefOffset[i] = groupXRefOffset[i-1] + 20*groupNumObjects[i-1];
	}
	}

	return !sbr.atEOF();
	}

	GBool Hints::isOk() const
	{
	return ok;
	}

	Goffset Hints::getPageOffset(int page)
	{
	if ((page < 1) \|\| (page > nPages)) return 0;

	if (page-1 > pageFirst)
	return pageOffset[page-1];
	else if (page-1 < pageFirst)
	return pageOffset[page];
	else
	return pageOffset[0];
	}

	std::vector<ByteRange>* Hints::getPageRanges(int page)
	{
	if ((page < 1) \|\| (page > nPages)) return NULL;

	int idx;
	if (page-1 > pageFirst)
	idx = page-1;
	else if (page-1 < pageFirst)
	idx = page;
	else
	idx = 0;

	ByteRange pageRange;
	std::vector<ByteRange> *v = new std::vector<ByteRange>;

	pageRange.offset = pageOffset[idx];
	pageRange.length = pageLength[idx];
	v->push_back(pageRange);

	pageRange.offset = xRefOffset[idx];
	pageRange.length = 20*nObjects[idx];
	v->push_back(pageRange);

	for (Guint j=0; j<numSharedObject[idx]; j++) {
	Guint k = sharedObjectId[idx][j];

	pageRange.offset = groupOffset[k];
	pageRange.length = groupLength[k];
	v->push_back(pageRange);

	pageRange.offset = groupXRefOffset[k];
	pageRange.length = 20*groupNumObjects[k];
	v->push_back(pageRange);
	}

	return v;
	}

	int Hints::getPageObjectNum(int page) {
	if ((page < 1) \|\| (page > nPages)) return 0;

	if (page-1 > pageFirst)
	return pageObjectNum[page-1];
	else if (page-1 < pageFirst)
	return pageObjectNum[page];
	else
	return pageObjectNum[0];
	}