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mirror of https://github.com/qpdf/qpdf.git synced 2024-11-15 09:14:03 +00:00
qpdf/include/qpdf/QPDF.hh
Jay Berkenbilt 30f109e244 Read xref table without PCRE
Also accept more errors than before.
2017-08-10 21:30:32 -04:00

1192 lines
40 KiB
C++

// Copyright (c) 2005-2015 Jay Berkenbilt
//
// This file is part of qpdf. This software may be distributed under
// the terms of version 2 of the Artistic License which may be found
// in the source distribution. It is provided "as is" without express
// or implied warranty.
#ifndef __QPDF_HH__
#define __QPDF_HH__
#include <qpdf/DLL.h>
#include <qpdf/Types.h>
#include <stdio.h>
#include <string>
#include <map>
#include <list>
#include <iostream>
#include <qpdf/QPDFExc.hh>
#include <qpdf/QPDFObjGen.hh>
#include <qpdf/QPDFXRefEntry.hh>
#include <qpdf/QPDFObjectHandle.hh>
#include <qpdf/QPDFTokenizer.hh>
#include <qpdf/Buffer.hh>
#include <qpdf/InputSource.hh>
class QPDF_Stream;
class BitStream;
class BitWriter;
class QPDF
{
public:
// Get the current version of the QPDF software
QPDF_DLL
static std::string const& QPDFVersion();
QPDF_DLL
QPDF();
QPDF_DLL
~QPDF();
// Associate a file with a QPDF object and do initial parsing of
// the file. PDF objects are not read until they are needed. A
// QPDF object may be associated with only one file in its
// lifetime. This method must be called before any methods that
// potentially ask for information about the PDF file are called.
// Prior to calling this, the only methods that are allowed are
// those that set parameters. If the input file is not
// encrypted,either a null password or an empty password can be
// used. If the file is encrypted, either the user password or
// the owner password may be supplied.
QPDF_DLL
void processFile(char const* filename, char const* password = 0);
// Parse a PDF from a stdio FILE*. The FILE must be open in
// binary mode and must be seekable. It may be open read only.
// This works exactly like processFile except that the PDF file is
// read from an already opened FILE*. If close_file is true, the
// file will be closed at the end. Otherwise, the caller is
// responsible for closing the file.
QPDF_DLL
void processFile(char const* description, FILE* file,
bool close_file, char const* password = 0);
// Parse a PDF file loaded into a memory buffer. This works
// exactly like processFile except that the PDF file is in memory
// instead of on disk. The description appears in any warning or
// error message in place of the file name.
QPDF_DLL
void processMemoryFile(char const* description,
char const* buf, size_t length,
char const* password = 0);
// Parse a PDF file loaded from a custom InputSource. If you have
// your own method of retrieving a PDF file, you can subclass
// InputSource and use this method.
QPDF_DLL
void processInputSource(PointerHolder<InputSource>,
char const* password = 0);
// Create a QPDF object for an empty PDF. This PDF has no pages
// or objects other than a minimal trailer, a document catalog,
// and a /Pages tree containing zero pages. Pages and other
// objects can be added to the file in the normal way, and the
// trailer and document catalog can be mutated. Calling this
// method is equivalent to calling processFile on an equivalent
// PDF file. See the pdf-create.cc example for a demonstration of
// how to use this method to create a PDF file from scratch.
QPDF_DLL
void emptyPDF();
// Parameter settings
// By default, warning messages are issued to std::cerr and output
// messages printed by certain check calls are issued to
// std::cout. This method allows you to specify alternative
// streams for this purpose. Note that no normal QPDF operations
// generate output to std::cout, so for applications that just
// wish to avoid creating output and don't call any check
// functions, calling setSuppressWarnings(true) is sufficient.
// Applications that wish to present check or warning information
// to users may replace the output and error streams to capture
// the output and errors for other use. A null value for either
// stream will cause QPDF to use std::cout or std::cerr as
// appropriate.
QPDF_DLL
void setOutputStreams(std::ostream* out_stream, std::ostream* err_stream);
// If true, ignore any cross-reference streams in a hybrid file
// (one that contains both cross-reference streams and
// cross-reference tables). This can be useful for testing to
// ensure that a hybrid file would work with an older reader.
QPDF_DLL
void setIgnoreXRefStreams(bool);
// By default, any warnings are issued to std::cerr or the error
// stream specified in a call to setOutputStreams as they are
// encountered. If this is called with a true value, reporting of
// warnings is suppressed. You may still retrieve warnings by
// calling getWarnings.
QPDF_DLL
void setSuppressWarnings(bool);
// By default, QPDF will try to recover if it finds certain types
// of errors in PDF files. If turned off, it will throw an
// exception on the first such problem it finds without attempting
// recovery.
QPDF_DLL
void setAttemptRecovery(bool);
// Other public methods
// Return the list of warnings that have been issued so far and
// clear the list. This method may be called even if processFile
// throws an exception. Note that if setSuppressWarnings was not
// called or was called with a false value, any warnings retrieved
// here will have already been output.
QPDF_DLL
std::vector<QPDFExc> getWarnings();
QPDF_DLL
std::string getFilename() const;
QPDF_DLL
std::string getPDFVersion() const;
QPDF_DLL
int getExtensionLevel();
QPDF_DLL
QPDFObjectHandle getTrailer();
QPDF_DLL
QPDFObjectHandle getRoot();
// Install this object handle as an indirect object and return an
// indirect reference to it.
QPDF_DLL
QPDFObjectHandle makeIndirectObject(QPDFObjectHandle);
// Retrieve an object by object ID and generation. Returns an
// indirect reference to it.
QPDF_DLL
QPDFObjectHandle getObjectByObjGen(QPDFObjGen const&);
QPDF_DLL
QPDFObjectHandle getObjectByID(int objid, int generation);
// Replace the object with the given object id with the given
// object. The object handle passed in must be a direct object,
// though it may contain references to other indirect objects
// within it. Calling this method can have somewhat confusing
// results. Any existing QPDFObjectHandle instances that point to
// the old object and that have been resolved (which happens
// automatically if you access them in any way) will continue to
// point to the old object even though that object will no longer
// be associated with the PDF file. Note that replacing an object
// with QPDFObjectHandle::newNull() effectively removes the object
// from the file since a non-existent object is treated as a null
// object. To replace a reserved object, call replaceReserved
// instead.
QPDF_DLL
void replaceObject(QPDFObjGen const& og, QPDFObjectHandle);
QPDF_DLL
void replaceObject(int objid, int generation, QPDFObjectHandle);
// Swap two objects given by ID. Calling this method can have
// confusing results. After swapping two objects, existing
// QPDFObjectHandle instances that reference them will still
// reference the same underlying objects, at which point those
// existing QPDFObjectHandle instances will have incorrect
// information about the object and generation number of those
// objects. While this does not necessarily cause a problem, it
// can certainly be confusing. It is therefore recommended that
// you replace any existing QPDFObjectHandle instances that point
// to the swapped objects with new ones, possibly by calling
// getObjectByID.
QPDF_DLL
void swapObjects(QPDFObjGen const& og1, QPDFObjGen const& og2);
QPDF_DLL
void swapObjects(int objid1, int generation1,
int objid2, int generation2);
// Replace a reserved object. This is a wrapper around
// replaceObject but it guarantees that the underlying object is a
// reserved object. After this call, reserved will be a reference
// to replacement.
QPDF_DLL
void
replaceReserved(QPDFObjectHandle reserved,
QPDFObjectHandle replacement);
// Copy an object from another QPDF to this one. Please note that
// the QPDF object containing the object being copied must stick
// around because it is still used to retrieve any stream data
// referenced by the copied objects.
//
// The return value is an indirect reference to the copied object
// in this file. This method is intended to be used to copy
// non-page objects and will not copy page objects. To copy page
// objects, pass the foreign page object directly to addPage (or
// addPageAt). If you copy objects that contain references to
// pages, you should copy the pages first using addPage(At).
// Otherwise references to the pages that have not been copied
// will be replaced with nulls.
// When copying objects with this method, object structure will be
// preserved, so all indirectly referenced indirect objects will
// be copied as well. This includes any circular references that
// may exist. The QPDF object keeps a record of what has already
// been copied, so shared objects will not be copied multiple
// times. This also means that if you mutate an object that has
// already been copied and try to copy it again, it won't work
// since the modified object will not be recopied. Therefore, you
// should do all mutation on the original file that you are going
// to do before you start copying its objects to a new file.
QPDF_DLL
QPDFObjectHandle copyForeignObject(QPDFObjectHandle foreign);
// Encryption support
enum encryption_method_e { e_none, e_unknown, e_rc4, e_aes, e_aesv3 };
class EncryptionData
{
public:
// This class holds data read from the encryption dictionary.
EncryptionData(int V, int R, int Length_bytes, int P,
std::string const& O, std::string const& U,
std::string const& OE, std::string const& UE,
std::string const& Perms,
std::string const& id1, bool encrypt_metadata) :
V(V),
R(R),
Length_bytes(Length_bytes),
P(P),
O(O),
U(U),
OE(OE),
UE(UE),
Perms(Perms),
id1(id1),
encrypt_metadata(encrypt_metadata)
{
}
int getV() const;
int getR() const;
int getLengthBytes() const;
int getP() const;
std::string const& getO() const;
std::string const& getU() const;
std::string const& getOE() const;
std::string const& getUE() const;
std::string const& getPerms() const;
std::string const& getId1() const;
bool getEncryptMetadata() const;
void setO(std::string const&);
void setU(std::string const&);
void setV5EncryptionParameters(std::string const& O,
std::string const& OE,
std::string const& U,
std::string const& UE,
std::string const& Perms);
private:
EncryptionData(EncryptionData const&);
EncryptionData& operator=(EncryptionData const&);
int V;
int R;
int Length_bytes;
int P;
std::string O;
std::string U;
std::string OE;
std::string UE;
std::string Perms;
std::string id1;
bool encrypt_metadata;
};
QPDF_DLL
bool isEncrypted() const;
QPDF_DLL
bool isEncrypted(int& R, int& P);
QPDF_DLL
bool isEncrypted(int& R, int& P, int& V,
encryption_method_e& stream_method,
encryption_method_e& string_method,
encryption_method_e& file_method);
// Encryption permissions -- not enforced by QPDF
QPDF_DLL
bool allowAccessibility();
QPDF_DLL
bool allowExtractAll();
QPDF_DLL
bool allowPrintLowRes();
QPDF_DLL
bool allowPrintHighRes();
QPDF_DLL
bool allowModifyAssembly();
QPDF_DLL
bool allowModifyForm();
QPDF_DLL
bool allowModifyAnnotation();
QPDF_DLL
bool allowModifyOther();
QPDF_DLL
bool allowModifyAll();
// Helper function to trim padding from user password. Calling
// trim_user_password on the result of getPaddedUserPassword gives
// getTrimmedUserPassword's result.
QPDF_DLL
static void trim_user_password(std::string& user_password);
QPDF_DLL
static std::string compute_data_key(
std::string const& encryption_key, int objid, int generation,
bool use_aes, int encryption_V, int encryption_R);
QPDF_DLL
static std::string compute_encryption_key(
std::string const& password, EncryptionData const& data);
QPDF_DLL
static void compute_encryption_O_U(
char const* user_password, char const* owner_password,
int V, int R, int key_len, int P, bool encrypt_metadata,
std::string const& id1,
std::string& O, std::string& U);
QPDF_DLL
static void compute_encryption_parameters_V5(
char const* user_password, char const* owner_password,
int V, int R, int key_len, int P, bool encrypt_metadata,
std::string const& id1,
std::string& encryption_key,
std::string& O, std::string& U,
std::string& OE, std::string& UE, std::string& Perms);
// Return the full user password as stored in the PDF file. For
// files encrypted with 40-bit or 128-bit keys, the user password
// can be recovered when the file is opened using the owner
// password. This is not possible with newer encryption formats.
// If you are attempting to recover the user password in a
// user-presentable form, call getTrimmedUserPassword() instead.
QPDF_DLL
std::string const& getPaddedUserPassword() const;
// Return human-readable form of user password subject to same
// limitations as getPaddedUserPassword().
QPDF_DLL
std::string getTrimmedUserPassword() const;
// Return the previously computed or retrieved encryption key for
// this file
QPDF_DLL
std::string getEncryptionKey() const;
// Linearization support
// Returns true iff the file starts with a linearization parameter
// dictionary. Does no additional validation.
QPDF_DLL
bool isLinearized();
// Performs various sanity checks on a linearized file. Return
// true if no errors or warnings. Otherwise, return false and
// output errors and warnings to std::cout or the output stream
// specified in a call to setOutputStreams.
QPDF_DLL
bool checkLinearization();
// Calls checkLinearization() and, if possible, prints normalized
// contents of some of the hints tables to std::cout or the output
// stream specified in a call to setOutputStreams. Normalization
// includes adding min values to delta values and adjusting
// offsets based on the location and size of the primary hint
// stream.
QPDF_DLL
void showLinearizationData();
// Shows the contents of the cross-reference table
QPDF_DLL
void showXRefTable();
// Returns a list of indirect objects for every object in the xref
// table. Useful for discovering objects that are not otherwised
// referenced.
QPDF_DLL
std::vector<QPDFObjectHandle> getAllObjects();
// Optimization support -- see doc/optimization. Implemented in
// QPDF_optimization.cc
// The object_stream_data map maps from a "compressed" object to
// the object stream that contains it. This enables optimize to
// populate the object <-> user maps with only uncompressed
// objects. If allow_changes is false, an exception will be
// thrown if any changes are made during the optimization process.
// This is available so that the test suite can make sure that a
// linearized file is already optimized. When called in this way,
// optimize() still populates the object <-> user maps
QPDF_DLL
void optimize(std::map<int, int> const& object_stream_data,
bool allow_changes = true);
// Convenience routines for common functions. See also
// QPDFObjectHandle.hh for additional convenience routines.
// Page handling API
// Traverse page tree return all /Page objects. Note that calls
// to page manipulation APIs will change the internal vector that
// this routine returns a pointer to. If you don't want that,
// assign this to a regular vector rather than a const reference.
QPDF_DLL
std::vector<QPDFObjectHandle> const& getAllPages();
// This method synchronizes QPDF's cache of the page structure
// with the actual /Pages tree. If you restrict changes to the
// /Pages tree, including addition, removal, or replacement of
// pages or changes to any /Pages objects, to calls to these page
// handling APIs, you never need to call this method. If you
// modify /Pages structures directly, you must call this method
// afterwards. This method updates the internal list of pages, so
// after calling this method, any previous references returned by
// getAllPages() will be valid again. It also resets any state
// about having pushed inherited attributes in /Pages objects down
// to the pages, so if you add any inheritable attributes to a
// /Pages object, you should also call this method.
QPDF_DLL
void updateAllPagesCache();
// The PDF /Pages tree allows inherited values. Working with
// the pages of a pdf is much easier when the inheritance is
// resolved by explicitly setting the values in each /Page.
QPDF_DLL
void pushInheritedAttributesToPage();
// Add new page at the beginning or the end of the current pdf.
// The newpage parameter may be either a direct object, an
// indirect object from this QPDF, or an indirect object from
// another QPDF. If it is a direct object, it will be made
// indirect. If it is an indirect object from another QPDF, this
// method will call pushInheritedAttributesToPage on the other
// file and then copy the page to this QPDF using the same
// underlying code as copyForeignObject.
QPDF_DLL
void addPage(QPDFObjectHandle newpage, bool first);
// Add new page before or after refpage. See comments for addPage
// for details about what newpage should be.
QPDF_DLL
void addPageAt(QPDFObjectHandle newpage, bool before,
QPDFObjectHandle refpage);
// Remove page from the pdf.
QPDF_DLL
void removePage(QPDFObjectHandle page);
// Writer class is restricted to QPDFWriter so that only it can
// call certain methods.
class Writer
{
friend class QPDFWriter;
private:
static void getLinearizedParts(
QPDF& qpdf,
std::map<int, int> const& object_stream_data,
std::vector<QPDFObjectHandle>& part4,
std::vector<QPDFObjectHandle>& part6,
std::vector<QPDFObjectHandle>& part7,
std::vector<QPDFObjectHandle>& part8,
std::vector<QPDFObjectHandle>& part9)
{
qpdf.getLinearizedParts(object_stream_data,
part4, part6, part7, part8, part9);
}
static void generateHintStream(
QPDF& qpdf,
std::map<int, QPDFXRefEntry> const& xref,
std::map<int, qpdf_offset_t> const& lengths,
std::map<int, int> const& obj_renumber,
PointerHolder<Buffer>& hint_stream,
int& S, int& O)
{
return qpdf.generateHintStream(xref, lengths, obj_renumber,
hint_stream, S, O);
}
static void getObjectStreamData(QPDF& qpdf, std::map<int, int>& omap)
{
qpdf.getObjectStreamData(omap);
}
static std::vector<QPDFObjGen> getCompressibleObjGens(QPDF& qpdf)
{
return qpdf.getCompressibleObjGens();
}
};
// Resolver class is restricted to QPDFObjectHandle so that only
// it can resolve indirect references.
class Resolver
{
friend class QPDFObjectHandle;
private:
static PointerHolder<QPDFObject> resolve(
QPDF* qpdf, int objid, int generation)
{
return qpdf->resolve(objid, generation);
}
};
friend class Resolver;
// Warner class allows QPDFObjectHandle to create warnings
class Warner
{
friend class QPDFObjectHandle;
friend class QPDF_Stream;
private:
static void warn(QPDF* qpdf, QPDFExc const& e)
{
qpdf->warn(e);
}
};
friend class Warner;
// Pipe class is restricted to QPDF_Stream
class Pipe
{
friend class QPDF_Stream;
private:
static bool pipeStreamData(QPDF* qpdf, int objid, int generation,
qpdf_offset_t offset, size_t length,
QPDFObjectHandle dict,
Pipeline* pipeline, bool suppress_warnings)
{
return qpdf->pipeStreamData(
objid, generation, offset, length, dict, pipeline,
suppress_warnings);
}
};
friend class Pipe;
private:
static std::string qpdf_version;
class ObjCache
{
public:
ObjCache() :
end_before_space(0),
end_after_space(0)
{
}
ObjCache(PointerHolder<QPDFObject> object,
qpdf_offset_t end_before_space,
qpdf_offset_t end_after_space) :
object(object),
end_before_space(end_before_space),
end_after_space(end_after_space)
{
}
PointerHolder<QPDFObject> object;
qpdf_offset_t end_before_space;
qpdf_offset_t end_after_space;
};
class ObjCopier
{
public:
std::map<QPDFObjGen, QPDFObjectHandle> object_map;
std::vector<QPDFObjectHandle> to_copy;
std::set<QPDFObjGen> visiting;
};
class CopiedStreamDataProvider: public QPDFObjectHandle::StreamDataProvider
{
public:
virtual ~CopiedStreamDataProvider()
{
}
virtual void provideStreamData(int objid, int generation,
Pipeline* pipeline);
void registerForeignStream(QPDFObjGen const& local_og,
QPDFObjectHandle foreign_stream);
private:
std::map<QPDFObjGen, QPDFObjectHandle> foreign_streams;
};
class StringDecrypter: public QPDFObjectHandle::StringDecrypter
{
friend class QPDF;
public:
StringDecrypter(QPDF* qpdf, int objid, int gen);
virtual ~StringDecrypter()
{
}
virtual void decryptString(std::string& val);
private:
QPDF* qpdf;
int objid;
int gen;
};
class ResolveRecorder
{
public:
ResolveRecorder(QPDF* qpdf, QPDFObjGen const& og) :
qpdf(qpdf),
og(og)
{
qpdf->resolving.insert(og);
}
virtual ~ResolveRecorder()
{
this->qpdf->resolving.erase(og);
}
private:
QPDF* qpdf;
QPDFObjGen og;
};
friend class ResolveRecorder;
void parse(char const* password);
void warn(QPDFExc const& e);
void setTrailer(QPDFObjectHandle obj);
void read_xref(qpdf_offset_t offset);
void reconstruct_xref(QPDFExc& e);
bool parse_xrefFirst(std::string const& line,
int& obj, int& num, int& bytes);
bool parse_xrefEntry(std::string const& line,
qpdf_offset_t& f1, int& f2, char& type);
qpdf_offset_t read_xrefTable(qpdf_offset_t offset);
qpdf_offset_t read_xrefStream(qpdf_offset_t offset);
qpdf_offset_t processXRefStream(
qpdf_offset_t offset, QPDFObjectHandle& xref_stream);
void insertXrefEntry(int obj, int f0, qpdf_offset_t f1, int f2,
bool overwrite = false);
void setLastObjectDescription(std::string const& description,
int objid, int generation);
QPDFObjectHandle readObject(
PointerHolder<InputSource>, std::string const& description,
int objid, int generation, bool in_object_stream);
size_t recoverStreamLength(
PointerHolder<InputSource> input, int objid, int generation,
qpdf_offset_t stream_offset);
QPDFTokenizer::Token readToken(PointerHolder<InputSource>,
bool allow_bad = false);
QPDFObjectHandle readObjectAtOffset(
bool attempt_recovery,
qpdf_offset_t offset, std::string const& description,
int exp_objid, int exp_generation,
int& act_objid, int& act_generation);
PointerHolder<QPDFObject> resolve(int objid, int generation);
void resolveObjectsInStream(int obj_stream_number);
void findAttachmentStreams();
// Calls finish() on the pipeline when done but does not delete it
bool pipeStreamData(int objid, int generation,
qpdf_offset_t offset, size_t length,
QPDFObjectHandle dict,
Pipeline* pipeline,
bool suppress_warnings);
// For QPDFWriter:
// Get lists of all objects in order according to the part of a
// linearized file that they belong to.
void getLinearizedParts(
std::map<int, int> const& object_stream_data,
std::vector<QPDFObjectHandle>& part4,
std::vector<QPDFObjectHandle>& part6,
std::vector<QPDFObjectHandle>& part7,
std::vector<QPDFObjectHandle>& part8,
std::vector<QPDFObjectHandle>& part9);
void generateHintStream(std::map<int, QPDFXRefEntry> const& xref,
std::map<int, qpdf_offset_t> const& lengths,
std::map<int, int> const& obj_renumber,
PointerHolder<Buffer>& hint_stream,
int& S, int& O);
// Map object to object stream that contains it
void getObjectStreamData(std::map<int, int>&);
// Get a list of objects that would be permitted in an object
// stream.
std::vector<QPDFObjGen> getCompressibleObjGens();
// methods to support page handling
void getAllPagesInternal(QPDFObjectHandle cur_pages,
std::vector<QPDFObjectHandle>& result);
void getAllPagesInternal2(QPDFObjectHandle cur_pages,
std::vector<QPDFObjectHandle>& result,
std::set<QPDFObjGen>& visited);
void insertPage(QPDFObjectHandle newpage, int pos);
int findPage(QPDFObjGen const& og);
int findPage(QPDFObjectHandle& page);
void flattenPagesTree();
void insertPageobjToPage(QPDFObjectHandle const& obj, int pos,
bool check_duplicate);
// methods to support encryption -- implemented in QPDF_encryption.cc
encryption_method_e interpretCF(QPDFObjectHandle);
void initializeEncryption();
std::string getKeyForObject(int objid, int generation, bool use_aes);
void decryptString(std::string&, int objid, int generation);
static std::string compute_encryption_key_from_password(
std::string const& password, EncryptionData const& data);
static std::string recover_encryption_key_with_password(
std::string const& password, EncryptionData const& data);
static std::string recover_encryption_key_with_password(
std::string const& password, EncryptionData const& data,
bool& perms_valid);
void decryptStream(
Pipeline*& pipeline, int objid, int generation,
QPDFObjectHandle& stream_dict,
std::vector<PointerHolder<Pipeline> >& heap);
// Methods to support object copying
QPDFObjectHandle copyForeignObject(
QPDFObjectHandle foreign, bool allow_page);
void reserveObjects(QPDFObjectHandle foreign, ObjCopier& obj_copier,
bool top);
QPDFObjectHandle replaceForeignIndirectObjects(
QPDFObjectHandle foreign, ObjCopier& obj_copier, bool top);
// Linearization Hint table structures.
// Naming conventions:
// HSomething is the Something Hint Table or table header
// HSomethingEntry is an entry in the Something table
// delta_something + min_something = something
// nbits_something = number of bits required for something
// something_offset is the pre-adjusted offset in the file. If >=
// H0_offset, H0_length must be added to get an actual file
// offset.
// PDF 1.4: Table F.4
struct HPageOffsetEntry
{
HPageOffsetEntry() :
delta_nobjects(0),
delta_page_length(0),
nshared_objects(0),
delta_content_offset(0),
delta_content_length(0)
{
}
int delta_nobjects; // 1
qpdf_offset_t delta_page_length; // 2
int nshared_objects; // 3
// vectors' sizes = nshared_objects
std::vector<int> shared_identifiers; // 4
std::vector<int> shared_numerators; // 5
qpdf_offset_t delta_content_offset; // 6
qpdf_offset_t delta_content_length; // 7
};
// PDF 1.4: Table F.3
struct HPageOffset
{
HPageOffset() :
min_nobjects(0),
first_page_offset(0),
nbits_delta_nobjects(0),
min_page_length(0),
nbits_delta_page_length(0),
min_content_offset(0),
nbits_delta_content_offset(0),
min_content_length(0),
nbits_delta_content_length(0),
nbits_nshared_objects(0),
nbits_shared_identifier(0),
nbits_shared_numerator(0),
shared_denominator(0)
{
}
int min_nobjects; // 1
qpdf_offset_t first_page_offset; // 2
int nbits_delta_nobjects; // 3
int min_page_length; // 4
int nbits_delta_page_length; // 5
int min_content_offset; // 6
int nbits_delta_content_offset; // 7
int min_content_length; // 8
int nbits_delta_content_length; // 9
int nbits_nshared_objects; // 10
int nbits_shared_identifier; // 11
int nbits_shared_numerator; // 12
int shared_denominator; // 13
// vector size is npages
std::vector<HPageOffsetEntry> entries;
};
// PDF 1.4: Table F.6
struct HSharedObjectEntry
{
HSharedObjectEntry() :
delta_group_length(0),
signature_present(0),
nobjects_minus_one(0)
{
}
// Item 3 is a 128-bit signature (unsupported by Acrobat)
int delta_group_length; // 1
int signature_present; // 2 -- always 0
int nobjects_minus_one; // 4 -- always 0
};
// PDF 1.4: Table F.5
struct HSharedObject
{
HSharedObject() :
first_shared_obj(0),
first_shared_offset(0),
nshared_first_page(0),
nshared_total(0),
nbits_nobjects(0),
min_group_length(0),
nbits_delta_group_length(0)
{
}
int first_shared_obj; // 1
qpdf_offset_t first_shared_offset; // 2
int nshared_first_page; // 3
int nshared_total; // 4
int nbits_nobjects; // 5
int min_group_length; // 6
int nbits_delta_group_length; // 7
// vector size is nshared_total
std::vector<HSharedObjectEntry> entries;
};
// PDF 1.4: Table F.9
struct HGeneric
{
HGeneric() :
first_object(0),
first_object_offset(0),
nobjects(0),
group_length(0)
{
}
int first_object; // 1
qpdf_offset_t first_object_offset; // 2
int nobjects; // 3
int group_length; // 4
};
// Other linearization data structures
// Initialized from Linearization Parameter dictionary
struct LinParameters
{
LinParameters() :
file_size(0),
first_page_object(0),
first_page_end(0),
npages(0),
xref_zero_offset(0),
first_page(0),
H_offset(0),
H_length(0)
{
}
qpdf_offset_t file_size; // /L
int first_page_object; // /O
qpdf_offset_t first_page_end; // /E
int npages; // /N
qpdf_offset_t xref_zero_offset; // /T
int first_page; // /P
qpdf_offset_t H_offset; // offset of primary hint stream
qpdf_offset_t H_length; // length of primary hint stream
};
// Computed hint table value data structures. These tables
// contain the computed values on which the hint table values are
// based. They exclude things like number of bits and store
// actual values instead of mins and deltas. File offsets are
// also absolute rather than being offset by the size of the
// primary hint table. We populate the hint table structures from
// these during writing and compare the hint table values with
// these during validation. We ignore some values for various
// reasons described in the code. Those values are omitted from
// these structures. Note also that object numbers are object
// numbers from the input file, not the output file.
// Naming convention: CHSomething is analogous to HSomething
// above. "CH" is computed hint.
struct CHPageOffsetEntry
{
CHPageOffsetEntry() :
nobjects(0),
nshared_objects(0)
{
}
int nobjects;
int nshared_objects;
// vectors' sizes = nshared_objects
std::vector<int> shared_identifiers;
};
struct CHPageOffset
{
// vector size is npages
std::vector<CHPageOffsetEntry> entries;
};
struct CHSharedObjectEntry
{
CHSharedObjectEntry(int object) :
object(object)
{
}
int object;
};
// PDF 1.4: Table F.5
struct CHSharedObject
{
CHSharedObject() :
first_shared_obj(0),
nshared_first_page(0),
nshared_total(0)
{
}
int first_shared_obj;
int nshared_first_page;
int nshared_total;
// vector size is nshared_total
std::vector<CHSharedObjectEntry> entries;
};
// No need for CHGeneric -- HGeneric is fine as is.
// Data structures to support optimization -- implemented in
// QPDF_optimization.cc
class ObjUser
{
public:
enum user_e
{
ou_bad,
ou_page,
ou_thumb,
ou_trailer_key,
ou_root_key,
ou_root
};
// type is set to ou_bad
ObjUser();
// type must be ou_root
ObjUser(user_e type);
// type must be one of ou_page or ou_thumb
ObjUser(user_e type, int pageno);
// type must be one of ou_trailer_key or ou_root_key
ObjUser(user_e type, std::string const& key);
bool operator<(ObjUser const&) const;
user_e ou_type;
int pageno; // if ou_page;
std::string key; // if ou_trailer_key or ou_root_key
};
class PatternFinder: public InputSource::Finder
{
public:
PatternFinder(QPDF& qpdf, bool (QPDF::*checker)()) :
qpdf(qpdf),
checker(checker)
{
}
virtual ~PatternFinder()
{
}
virtual bool check()
{
return (this->qpdf.*checker)();
}
private:
QPDF& qpdf;
bool (QPDF::*checker)();
};
// Methods to support pattern finding
bool findHeader();
bool findStartxref();
bool findEndstream();
// methods to support linearization checking -- implemented in
// QPDF_linearization.cc
void readLinearizationData();
bool checkLinearizationInternal();
void dumpLinearizationDataInternal();
QPDFObjectHandle readHintStream(
Pipeline&, qpdf_offset_t offset, size_t length);
void readHPageOffset(BitStream);
void readHSharedObject(BitStream);
void readHGeneric(BitStream, HGeneric&);
qpdf_offset_t maxEnd(ObjUser const& ou);
qpdf_offset_t getLinearizationOffset(QPDFObjGen const&);
QPDFObjectHandle getUncompressedObject(
QPDFObjectHandle&, std::map<int, int> const& object_stream_data);
int lengthNextN(int first_object, int n,
std::list<std::string>& errors);
void checkHPageOffset(std::list<std::string>& errors,
std::list<std::string>& warnings,
std::vector<QPDFObjectHandle> const& pages,
std::map<int, int>& idx_to_obj);
void checkHSharedObject(std::list<std::string>& warnings,
std::list<std::string>& errors,
std::vector<QPDFObjectHandle> const& pages,
std::map<int, int>& idx_to_obj);
void checkHOutlines(std::list<std::string>& warnings);
void dumpHPageOffset();
void dumpHSharedObject();
void dumpHGeneric(HGeneric&);
int adjusted_offset(int offset);
QPDFObjectHandle objGenToIndirect(QPDFObjGen const&);
void calculateLinearizationData(
std::map<int, int> const& object_stream_data);
void pushOutlinesToPart(
std::vector<QPDFObjectHandle>& part,
std::set<QPDFObjGen>& lc_outlines,
std::map<int, int> const& object_stream_data);
int outputLengthNextN(
int in_object, int n,
std::map<int, qpdf_offset_t> const& lengths,
std::map<int, int> const& obj_renumber);
void calculateHPageOffset(
std::map<int, QPDFXRefEntry> const& xref,
std::map<int, qpdf_offset_t> const& lengths,
std::map<int, int> const& obj_renumber);
void calculateHSharedObject(
std::map<int, QPDFXRefEntry> const& xref,
std::map<int, qpdf_offset_t> const& lengths,
std::map<int, int> const& obj_renumber);
void calculateHOutline(
std::map<int, QPDFXRefEntry> const& xref,
std::map<int, qpdf_offset_t> const& lengths,
std::map<int, int> const& obj_renumber);
void writeHPageOffset(BitWriter&);
void writeHSharedObject(BitWriter&);
void writeHGeneric(BitWriter&, HGeneric&);
// Methods to support optimization
void pushInheritedAttributesToPage(bool allow_changes,
bool warn_skipped_keys);
void pushInheritedAttributesToPageInternal(
QPDFObjectHandle,
std::map<std::string, std::vector<QPDFObjectHandle> >&,
std::vector<QPDFObjectHandle>& all_pages,
bool allow_changes, bool warn_skipped_keys);
void pushInheritedAttributesToPageInternal2(
QPDFObjectHandle,
std::map<std::string, std::vector<QPDFObjectHandle> >&,
std::vector<QPDFObjectHandle>& all_pages,
bool allow_changes, bool warn_skipped_keys,
std::set<QPDFObjGen>& visited);
void updateObjectMaps(ObjUser const& ou, QPDFObjectHandle oh);
void updateObjectMapsInternal(ObjUser const& ou, QPDFObjectHandle oh,
std::set<QPDFObjGen>& visited, bool top);
void filterCompressedObjects(std::map<int, int> const& object_stream_data);
QPDFTokenizer tokenizer;
PointerHolder<InputSource> file;
std::string last_object_description;
bool encrypted;
bool encryption_initialized;
bool ignore_xref_streams;
bool suppress_warnings;
std::ostream* out_stream;
std::ostream* err_stream;
bool attempt_recovery;
int encryption_V;
int encryption_R;
bool encrypt_metadata;
std::map<std::string, encryption_method_e> crypt_filters;
encryption_method_e cf_stream;
encryption_method_e cf_string;
encryption_method_e cf_file;
std::string provided_password;
std::string user_password;
std::string encryption_key;
std::string cached_object_encryption_key;
int cached_key_objid;
int cached_key_generation;
std::string pdf_version;
std::map<QPDFObjGen, QPDFXRefEntry> xref_table;
std::set<int> deleted_objects;
std::map<QPDFObjGen, ObjCache> obj_cache;
std::set<QPDFObjGen> resolving;
QPDFObjectHandle trailer;
std::vector<QPDFObjectHandle> all_pages;
std::map<QPDFObjGen, int> pageobj_to_pages_pos;
bool pushed_inherited_attributes_to_pages;
std::vector<QPDFExc> warnings;
std::map<QPDF*, ObjCopier> object_copiers;
PointerHolder<QPDFObjectHandle::StreamDataProvider> copied_streams;
// copied_stream_data_provider is owned by copied_streams
CopiedStreamDataProvider* copied_stream_data_provider;
std::set<QPDFObjGen> attachment_streams;
bool reconstructed_xref;
// Linearization data
qpdf_offset_t first_xref_item_offset; // actual value from file
bool uncompressed_after_compressed;
// Linearization parameter dictionary and hint table data: may be
// read from file or computed prior to writing a linearized file
QPDFObjectHandle lindict;
LinParameters linp;
HPageOffset page_offset_hints;
HSharedObject shared_object_hints;
HGeneric outline_hints;
// Computed linearization data: used to populate above tables
// during writing and to compare with them during validation. c_
// means computed.
LinParameters c_linp;
CHPageOffset c_page_offset_data;
CHSharedObject c_shared_object_data;
HGeneric c_outline_data;
// Object ordering data for linearized files: initialized by
// calculateLinearizationData(). Part numbers refer to the PDF
// 1.4 specification.
std::vector<QPDFObjectHandle> part4;
std::vector<QPDFObjectHandle> part6;
std::vector<QPDFObjectHandle> part7;
std::vector<QPDFObjectHandle> part8;
std::vector<QPDFObjectHandle> part9;
// Optimization data
std::map<ObjUser, std::set<QPDFObjGen> > obj_user_to_objects;
std::map<QPDFObjGen, std::set<ObjUser> > object_to_obj_users;
};
#endif // __QPDF_HH__