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skia / third_party / poppler / 892433a068a8a11c09a7c4f57c5fc941747c4453 / . / poppler / XRef.h
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//========================================================================
//
// XRef.h
//
// Copyright 1996-2003 Glyph & Cog, LLC
//
//========================================================================
//========================================================================
//
// Modified under the Poppler project - http://poppler.freedesktop.org
//
// All changes made under the Poppler project to this file are licensed
// under GPL version 2 or later
//
// Copyright (C) 2005 Brad Hards <bradh@frogmouth.net>
// Copyright (C) 2006, 2008, 2010-2013 Albert Astals Cid <aacid@kde.org>
// Copyright (C) 2007-2008 Julien Rebetez <julienr@svn.gnome.org>
// Copyright (C) 2007 Carlos Garcia Campos <carlosgc@gnome.org>
// Copyright (C) 2010 Ilya Gorenbein <igorenbein@finjan.com>
// Copyright (C) 2010 Hib Eris <hib@hiberis.nl>
// Copyright (C) 2012, 2013 Thomas Freitag <Thomas.Freitag@kabelmail.de>
// Copyright (C) 2012, 2013 Fabio D'Urso <fabiodurso@hotmail.it>
// Copyright (C) 2013 Adrian Johnson <ajohnson@redneon.com>
//
// To see a description of the changes please see the Changelog file that
// came with your tarball or type make ChangeLog if you are building from git
//
//========================================================================
#ifndef XREF_H
#define XREF_H
#ifdef USE_GCC_PRAGMAS
#pragma interface
#endif
#include "poppler-config.h"
#include "goo/gtypes.h"
#include "goo/GooMutex.h"
#include "Object.h"
#include "Stream.h"
#include <vector>
class Dict;
class Stream;
class Parser;
class PopplerCache;
//------------------------------------------------------------------------
// XRef
//------------------------------------------------------------------------
enum XRefEntryType {
xrefEntryFree,
xrefEntryUncompressed,
xrefEntryCompressed,
xrefEntryNone
};
struct XRefEntry {
Goffset offset;
int gen;
XRefEntryType type;
int flags;
Object obj; //if this entry was updated, obj will contains the updated object
enum Flag {
// Regular flags
Updated, // Entry was modified
// Special flags -- available only after xref->scanSpecialFlags() is run
Unencrypted, // Entry is stored in unencrypted form (meaningless in unencrypted documents)
DontRewrite // Entry must not be written back in case of full rewrite
};
inline GBool getFlag(Flag flag) {
const int mask = (1 << (int)flag);
return (flags & mask) != 0;
}
inline void setFlag(Flag flag, GBool value) {
const int mask = (1 << (int)flag);
if (value) {
flags |= mask;
} else {
flags &= ~mask;
}
}
};
class XRef {
public:
// Constructor, create an empty XRef, used for PDF writing
XRef();
// Constructor, create an empty XRef but with info dict, used for PDF writing
XRef(Object *trailerDictA);
// Constructor. Read xref table from stream.
XRef(BaseStream *strA, Goffset pos, Goffset mainXRefEntriesOffsetA = 0, GBool *wasReconstructed = NULL, GBool reconstruct = false);
// Destructor.
~XRef();
// Copy xref but with new base stream!
XRef *copy();
// Is xref table valid?
GBool isOk() { return ok; }
// Is the last XRef section a stream or a table?
GBool isXRefStream() { return xRefStream; }
// Get the error code (if isOk() returns false).
int getErrorCode() { return errCode; }
// Set the encryption parameters.
void setEncryption(int permFlagsA, GBool ownerPasswordOkA,
Guchar *fileKeyA, int keyLengthA,
int encVersionA, int encRevisionA,
CryptAlgorithm encAlgorithmA);
// Mark Encrypt entry as Unencrypted
void markUnencrypted();
void getEncryptionParameters(Guchar **fileKeyA, CryptAlgorithm *encAlgorithmA, int *keyLengthA);
// Is the file encrypted?
GBool isEncrypted() { return encrypted; }
// Check various permissions.
GBool okToPrint(GBool ignoreOwnerPW = gFalse);
GBool okToPrintHighRes(GBool ignoreOwnerPW = gFalse);
GBool okToChange(GBool ignoreOwnerPW = gFalse);
GBool okToCopy(GBool ignoreOwnerPW = gFalse);
GBool okToAddNotes(GBool ignoreOwnerPW = gFalse);
GBool okToFillForm(GBool ignoreOwnerPW = gFalse);
GBool okToAccessibility(GBool ignoreOwnerPW = gFalse);
GBool okToAssemble(GBool ignoreOwnerPW = gFalse);
int getPermFlags() { return permFlags; }
// Get catalog object.
Object *getCatalog(Object *obj);
// Fetch an indirect reference.
Object *fetch(int num, int gen, Object *obj, int recursion = 0);
// Return the document's Info dictionary (if any).
Object *getDocInfo(Object *obj);
Object *getDocInfoNF(Object *obj);
// Return the number of objects in the xref table.
int getNumObjects() { return size; }
// Return the catalog object reference.
int getRootNum() { return rootNum; }
int getRootGen() { return rootGen; }
// Get end position for a stream in a damaged file.
// Returns false if unknown or file is not damaged.
GBool getStreamEnd(Goffset streamStart, Goffset *streamEnd);
// Retuns the entry that belongs to the offset
int getNumEntry(Goffset offset);
// Scans the document and sets special flags in all xref entries. One of those
// flags is Unencrypted, which affects how the object is fetched. Therefore,
// this function must be called before fetching unencrypted objects (e.g.
// Encrypt dictionary, XRef streams). Note that the code that initializes
// decryption doesn't need to call this function, because it runs before
// decryption is enabled, and therefore the Unencrypted flag is ignored.
void scanSpecialFlags();
// Direct access.
XRefEntry *getEntry(int i, GBool complainIfMissing = gTrue);
Object *getTrailerDict() { return &trailerDict; }
// Write access
void setModifiedObject(Object* o, Ref r);
Ref addIndirectObject (Object* o);
void removeIndirectObject(Ref r);
void add(int num, int gen, Goffset offs, GBool used);
// Output XRef table to stream
void writeTableToFile(OutStream* outStr, GBool writeAllEntries);
// Output XRef stream contents to GooString and fill trailerDict fields accordingly
void writeStreamToBuffer(GooString *stmBuf, Dict *xrefDict, XRef *xref);
// to be thread safe during write where changes are not allowed
void lock();
void unlock();
private:
BaseStream *str; // input stream
Goffset start; // offset in file (to allow for garbage
// at beginning of file)
XRefEntry *entries; // xref entries
int capacity; // size of <entries> array
int size; // number of entries
int rootNum, rootGen; // catalog dict
GBool ok; // true if xref table is valid
int errCode; // error code (if <ok> is false)
Object trailerDict; // trailer dictionary
Goffset *streamEnds; // 'endstream' positions - only used in
// damaged files
int streamEndsLen; // number of valid entries in streamEnds
PopplerCache *objStrs; // cached object streams
GBool encrypted; // true if file is encrypted
int encRevision;
int encVersion; // encryption algorithm
CryptAlgorithm encAlgorithm; // encryption algorithm
int keyLength; // length of key, in bytes
int permFlags; // permission bits
Guchar fileKey[32]; // file decryption key
GBool ownerPasswordOk; // true if owner password is correct
Goffset prevXRefOffset; // position of prev XRef section (= next to read)
Goffset mainXRefEntriesOffset; // offset of entries in main XRef table
GBool xRefStream; // true if last XRef section is a stream
Goffset mainXRefOffset; // position of the main XRef table/stream
GBool scannedSpecialFlags; // true if scanSpecialFlags has been called
GBool strOwner; // true if str is owned by the instance
#if MULTITHREADED
GooMutex mutex;
#endif
void init();
int reserve(int newSize);
int resize(int newSize);
GBool readXRef(Goffset *pos, std::vector<Goffset> *followedXRefStm, std::vector<int> *xrefStreamObjsNum);
GBool readXRefTable(Parser *parser, Goffset *pos, std::vector<Goffset> *followedXRefStm, std::vector<int> *xrefStreamObjsNum);
GBool readXRefStreamSection(Stream *xrefStr, int *w, int first, int n);
GBool readXRefStream(Stream *xrefStr, Goffset *pos);
GBool constructXRef(GBool *wasReconstructed, GBool needCatalogDict = gFalse);
GBool parseEntry(Goffset offset, XRefEntry *entry);
void readXRefUntil(int untilEntryNum, std::vector<int> *xrefStreamObjsNum = NULL);
void markUnencrypted(Object *obj);
class XRefWriter {
public:
virtual void startSection(int first, int count) = 0;
virtual void writeEntry(Goffset offset, int gen, XRefEntryType type) = 0;
virtual ~XRefWriter() {};
};
// XRefWriter subclass that writes a XRef table
class XRefTableWriter: public XRefWriter {
public:
XRefTableWriter(OutStream* outStrA);
void startSection(int first, int count);
void writeEntry(Goffset offset, int gen, XRefEntryType type);
private:
OutStream* outStr;
};
// XRefWriter subclass that writes a XRef stream
class XRefStreamWriter: public XRefWriter {
public:
XRefStreamWriter(Object *index, GooString *stmBuf, int offsetSize);
void startSection(int first, int count);
void writeEntry(Goffset offset, int gen, XRefEntryType type);
private:
Object *index;
GooString *stmBuf;
int offsetSize;
};
// Dummy XRefWriter subclass that only checks if all offsets fit in 4 bytes
class XRefPreScanWriter: public XRefWriter {
public:
XRefPreScanWriter();
void startSection(int first, int count);
void writeEntry(Goffset offset, int gen, XRefEntryType type);
GBool hasOffsetsBeyond4GB;
};
void writeXRef(XRefWriter *writer, GBool writeAllEntries);
};
#endif