// Copyright (C) 2018-2021 Jakub Melka // // This file is part of PDF4QT. // // PDF4QT is free software: you can redistribute it and/or modify // it under the terms of the GNU Lesser General Public License as published by // the Free Software Foundation, either version 3 of the License, or // with the written consent of the copyright owner, any later version. // // PDF4QT is distributed in the hope that it will be useful, // but WITHOUT ANY WARRANTY; without even the implied warranty of // MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the // GNU Lesser General Public License for more details. // // You should have received a copy of the GNU Lesser General Public License // along with PDF4QT. If not, see . #ifndef PDFDOCUMENT_H #define PDFDOCUMENT_H #include "pdfglobal.h" #include "pdfobject.h" #include "pdfcatalog.h" #include "pdfsecurityhandler.h" #include #include #include #include #include namespace pdf { class PDFDocument; class PDFDocumentBuilder; /// Storage for objects. This class is not thread safe for writing (calling non-const functions). Caller must ensure /// locking, if this object is used from multiple threads. Calling const functions should be thread safe. class PDF4QTLIBSHARED_EXPORT PDFObjectStorage { public: inline PDFObjectStorage() = default; inline PDFObjectStorage(const PDFObjectStorage&) = default; inline PDFObjectStorage(PDFObjectStorage&&) = default; inline PDFObjectStorage& operator=(const PDFObjectStorage&) = default; inline PDFObjectStorage& operator=(PDFObjectStorage&&) = default; bool operator==(const PDFObjectStorage& other) const; bool operator!=(const PDFObjectStorage& other) const { return !(*this == other); } struct Entry { constexpr inline explicit Entry() = default; inline explicit Entry(PDFInteger generation, PDFObject object) : generation(generation), object(std::move(object)) { } inline bool operator==(const Entry& other) const { return generation == other.generation && object == other.object; } inline bool operator!=(const Entry& other) const { return !(*this == other); } PDFInteger generation = 0; PDFObject object; }; using PDFObjects = std::vector; explicit PDFObjectStorage(PDFObjects&& objects, PDFObject&& trailerDictionary, PDFSecurityHandlerPointer&& securityHandler) : m_objects(std::move(objects)), m_trailerDictionary(std::move(trailerDictionary)), m_securityHandler(std::move(securityHandler)) { } /// Returns object from the object storage. If invalid reference is passed, /// then null object is returned (no exception is thrown). const PDFObject& getObject(PDFObjectReference reference) const; /// If object is reference, the dereference attempt is performed /// and object is returned. If it is not a reference, then self /// is returned. If dereference attempt fails, then null object /// is returned (no exception is thrown). const PDFObject& getObject(const PDFObject& object) const; /// Returns dictionary from an object. If object is not a dictionary, /// then nullptr is returned (no exception is thrown). const PDFDictionary* getDictionaryFromObject(const PDFObject& object) const; /// Returns object by reference. If dereference attempt fails, then null object /// is returned (no exception is thrown). const PDFObject& getObjectByReference(PDFObjectReference reference) const; /// Returns array of objects stored in this storage const PDFObjects& getObjects() const { return m_objects; } /// Returns array of objects stored in this storage PDFObjects& getObjects() { return m_objects; } /// Sets array of objects void setObjects(PDFObjects&& objects) { m_objects = qMove(objects); } /// Returns trailer dictionary const PDFObject& getTrailerDictionary() const { return m_trailerDictionary; } /// Returns security handler associated with these objects const PDFSecurityHandler* getSecurityHandler() const { return m_securityHandler.data(); } /// Sets security handler associated with these objects void setSecurityHandler(PDFSecurityHandlerPointer handler) { m_securityHandler = qMove(handler); } /// Adds a new object to the object list. This function /// is not thread safe, do not call it from multiple threads. /// \param object Object to be added /// \returns Reference to new object PDFObjectReference addObject(PDFObject object); /// Sets object to object storage. Reference must exist. /// \param reference Reference to object /// \param object New value of object void setObject(PDFObjectReference reference, PDFObject object); /// Updates trailer dictionary. Preserves items which are not in a new /// dictionary \p trailerDictionary. It merges new dictionary to the /// old one. /// \param trailerDictionary New trailer dictionary void updateTrailerDictionary(PDFObject trailerDictionary); /// Returns the decoded stream. If stream data cannot be decoded, /// then empty byte array is returned. /// \param stream Stream to be decoded QByteArray getDecodedStream(const PDFStream* stream) const; /// Set trailer dictionary /// \param object Object defining trailer dictionary void setTrailerDictionary(const PDFObject& object) { m_trailerDictionary = object; } private: PDFObjects m_objects; PDFObject m_trailerDictionary; PDFSecurityHandlerPointer m_securityHandler; }; /// Loads data from the object contained in the PDF document, such as integers, /// bools, ... This object has two sets of functions - first one with default values, /// then if object with valid data is not found, default value is used, and second one, /// without default value, if valid data are not found, then exception is thrown. /// This class uses Decorator design pattern. class PDF4QTLIBSHARED_EXPORT PDFDocumentDataLoaderDecorator { public: explicit PDFDocumentDataLoaderDecorator(const PDFDocument* document); inline explicit PDFDocumentDataLoaderDecorator(const PDFObjectStorage* storage) : m_storage(storage) { } inline ~PDFDocumentDataLoaderDecorator() = default; /// Reads a name from the object, if it is possible. If object is not a name, /// then empty byte array is returned. /// \param object Object, can be an indirect reference to object (it is dereferenced) QByteArray readName(const PDFObject& object) const; /// Reads a string from the object, if it is possible. If object is not a string, /// then empty byte array is returned. /// \param object Object, can be an indirect reference to object (it is dereferenced) QByteArray readString(const PDFObject& object) const; /// Reads an integer from the object, if it is possible. /// \param object Object, can be an indirect reference to object (it is dereferenced) /// \param defaultValue Default value PDFInteger readInteger(const PDFObject& object, PDFInteger defaultValue) const; /// Reads a real number from the object, if it is possible. If integer appears as object, /// then it is converted to real number. /// \param object Object, can be an indirect reference to object (it is dereferenced) /// \param defaultValue Default value PDFReal readNumber(const PDFObject& object, PDFReal defaultValue) const; /// Reads a boolean from the object, if it is possible. /// \param object Object, can be an indirect reference to object (it is dereferenced) /// \param defaultValue Default value bool readBoolean(const PDFObject& object, bool defaultValue) const; /// Reads a text string from the object, if it is possible. /// \param object Object, can be an indirect reference to object (it is dereferenced) /// \param defaultValue Default value QString readTextString(const PDFObject& object, const QString& defaultValue) const; /// Reads a rectangle from the object, if it is possible. /// \param object Object, can be an indirect reference to object (it is dereferenced) /// \param defaultValue Default value QRectF readRectangle(const PDFObject& object, const QRectF& defaultValue) const; /// Reads enum from name object, if it is possible. /// \param object Object, can be an indirect reference to object (it is dereferenced) /// \param begin Begin of the enum search array /// \param end End of the enum search array /// \param default value Default value template Enum readEnumByName(const PDFObject& object, Iterator begin, Iterator end, Enum defaultValue) const { const PDFObject& dereferencedObject = m_storage->getObject(object); if (dereferencedObject.isName() || dereferencedObject.isString()) { QByteArray name = dereferencedObject.getString(); for (Iterator it = begin; it != end; ++it) { if (name == (*it).first) { return (*it).second; } } } return defaultValue; } /// Tries to read array of real values. Reads as much values as possible. /// If array size differs, then nothing happens. /// \param object Array of integers /// \param first First iterator /// \param second Second iterator template void readNumberArray(const PDFObject& object, T first, T last) { const PDFObject& dereferencedObject = m_storage->getObject(object); if (dereferencedObject.isArray()) { const PDFArray* array = dereferencedObject.getArray(); size_t distance = std::distance(first, last); if (array->getCount() == distance) { T it = first; for (size_t i = 0; i < distance; ++i) { *it = readNumber(array->getItem(i), *it); ++it; } } } } /// Tries to read array of real values from dictionary. Reads as much values as possible. /// If array size differs, or entry dictionary doesn't exist, then nothing happens. /// \param dictionary Dictionary with desired values /// \param key Entry key /// \param first First iterator /// \param second Second iterator template void readNumberArrayFromDictionary(const PDFDictionary* dictionary, const char* key, T first, T last) { if (dictionary->hasKey(key)) { readNumberArray(dictionary->get(key), first, last); } } /// Tries to read matrix from the dictionary. If matrix entry is not present, default value is returned. /// If it is present and invalid, exception is thrown. QMatrix readMatrixFromDictionary(const PDFDictionary* dictionary, const char* key, QMatrix defaultValue) const; /// Tries to read array of real values from dictionary. If entry dictionary doesn't exist, /// or error occurs, default value is returned. std::vector readNumberArrayFromDictionary(const PDFDictionary* dictionary, const char* key, std::vector defaultValue = std::vector()) const; /// Tries to read array of integer values from dictionary. If entry dictionary doesn't exist, /// or error occurs, empty array is returned. std::vector readIntegerArrayFromDictionary(const PDFDictionary* dictionary, const char* key) const; /// Reads number from dictionary. If dictionary entry doesn't exist, or error occurs, default value is returned. /// \param dictionary Dictionary containing desired data /// \param key Entry key /// \param defaultValue Default value PDFReal readNumberFromDictionary(const PDFDictionary* dictionary, const char* key, PDFReal defaultValue) const; /// Reads number from dictionary. If dictionary entry doesn't exist, or error occurs, default value is returned. /// \param dictionary Dictionary containing desired data /// \param key Entry key /// \param defaultValue Default value PDFReal readNumberFromDictionary(const PDFDictionary* dictionary, const QByteArray& key, PDFReal defaultValue) const; /// Reads integer from dictionary. If dictionary entry doesn't exist, or error occurs, default value is returned. /// \param dictionary Dictionary containing desired data /// \param key Entry key /// \param defaultValue Default value PDFInteger readIntegerFromDictionary(const PDFDictionary* dictionary, const char* key, PDFInteger defaultValue) const; /// Reads a text string from the dictionary, if it is possible. /// \param dictionary Dictionary containing desired data /// \param key Entry key /// \param defaultValue Default value QString readTextStringFromDictionary(const PDFDictionary* dictionary, const char* key, const QString& defaultValue) const; /// Tries to read array of references from dictionary. If entry dictionary doesn't exist, /// or error occurs, empty array is returned. std::vector readReferenceArrayFromDictionary(const PDFDictionary* dictionary, const char* key) const; /// Reads number array from dictionary. Reads all values. If some value is not /// real number (or integer number), default value is returned. Default value is also returned, /// if \p object is invalid. /// \param object Object containing array of numbers std::vector readNumberArray(const PDFObject& object, std::vector defaultValue = std::vector()) const; /// Reads integer array from dictionary. Reads all values. If some value is not /// integer number, empty array is returned. Empty array is also returned, /// if \p object is invalid. /// \param object Object containing array of numbers std::vector readIntegerArray(const PDFObject& object) const; /// Reads reference. If error occurs, then invalid reference is returned. /// \param object Object containing reference PDFObjectReference readReference(const PDFObject& object) const; /// Reads reference from dictionary. If error occurs, then invalid reference is returned. /// \param dictionary Dictionary containing desired data /// \param key Entry key PDFObjectReference readReferenceFromDictionary(const PDFDictionary* dictionary, const char* key) const; /// Reads reference array. Reads all values. If error occurs, /// then empty array is returned. /// \param object Object containing array of references std::vector readReferenceArray(const PDFObject& object) const; /// Reads name array. Reads all values. If error occurs, /// then empty array is returned. /// \param object Object containing array of references std::vector readNameArray(const PDFObject& object) const; /// Reads string array. Reads all values. If error occurs, /// then empty array is returned. /// \param object Object containing array of references std::vector readStringArray(const PDFObject& object) const; /// Reads name array from dictionary. Reads all values. If error occurs, /// then empty array is returned. /// \param dictionary Dictionary containing desired data /// \param key Entry key std::vector readNameArrayFromDictionary(const PDFDictionary* dictionary, const char* key) const; /// Reads boolean from dictionary. If dictionary entry doesn't exist, or error occurs, default value is returned. /// \param dictionary Dictionary containing desired data /// \param key Entry key /// \param defaultValue Default value bool readBooleanFromDictionary(const PDFDictionary* dictionary, const char* key, bool defaultValue) const; /// Reads a name from dictionary. If dictionary entry doesn't exist, or error occurs, empty byte array is returned. /// \param dictionary Dictionary containing desired data /// \param key Entry key QByteArray readNameFromDictionary(const PDFDictionary* dictionary, const char* key) const; /// Reads a string from dictionary. If dictionary entry doesn't exist, or error occurs, empty byte array is returned. /// \param dictionary Dictionary containing desired data /// \param key Entry key QByteArray readStringFromDictionary(const PDFDictionary* dictionary, const char* key) const; /// Reads string array from dictionary. Reads all values. If error occurs, /// then empty array is returned. /// \param dictionary Dictionary containing desired data /// \param key Entry key std::vector readStringArrayFromDictionary(const PDFDictionary* dictionary, const char* key) const; /// Reads string list. If error occurs, empty list is returned. QStringList readTextStringList(const PDFObject& object); /// Reads RGB color from dictionary QColor readRGBColorFromDictionary(const PDFDictionary* dictionary, const char* key, QColor defaultColor); /// Reads list of object, using parse function defined in object template std::vector readObjectList(PDFObject object) { std::vector result; object = m_storage->getObject(object); if (object.isArray()) { const PDFArray* array = object.getArray(); const size_t count = array->getCount(); result.reserve(count); for (size_t i = 0; i < count; ++i) { result.emplace_back(Object::parse(m_storage, array->getItem(i))); } } return result; } /// Reads optional string from dictionary. If key is not in dictionary, /// then empty optional is returned. /// \param dictionary Dictionary containing desired data /// \param key Entry key std::optional readOptionalStringFromDictionary(const PDFDictionary* dictionary, const char* key) const; /// Reads optionalinteger from dictionary. If dictionary entry doesn't exist, or error occurs, empty optional is returned. /// \param dictionary Dictionary containing desired data /// \param key Entry key std::optional readOptionalIntegerFromDictionary(const PDFDictionary* dictionary, const char* key) const; private: const PDFObjectStorage* m_storage; }; /// PDF document main class. class PDF4QTLIBSHARED_EXPORT PDFDocument { Q_DECLARE_TR_FUNCTIONS(pdf::PDFDocument) public: explicit PDFDocument() = default; ~PDFDocument(); bool operator==(const PDFDocument& other) const; bool operator!=(const PDFDocument& other) const { return !(*this == other); } const PDFObjectStorage& getStorage() const { return m_pdfObjectStorage; } /// Returns info about the document (title, author, etc.) const PDFDocumentInfo* getInfo() const { return &m_info; } /// Returns document id part with given index. If index is invalid, /// then empty id is returned. QByteArray getIdPart(size_t index) const; /// If object is reference, the dereference attempt is performed /// and object is returned. If it is not a reference, then self /// is returned. If dereference attempt fails, then null object /// is returned (no exception is thrown). const PDFObject& getObject(const PDFObject& object) const; /// Returns dictionary from an object. If object is not a dictionary, /// then nullptr is returned (no exception is thrown). const PDFDictionary* getDictionaryFromObject(const PDFObject& object) const; /// Returns object by reference. If dereference attempt fails, then null object /// is returned (no exception is thrown). const PDFObject& getObjectByReference(PDFObjectReference reference) const; /// Returns the document catalog const PDFCatalog* getCatalog() const { return &m_catalog; } /// Returns the decoded stream. If stream data cannot be decoded, /// then empty byte array is returned. /// \param stream Stream to be decoded QByteArray getDecodedStream(const PDFStream* stream) const; /// Returns the trailer dictionary const PDFDictionary* getTrailerDictionary() const; /// Returns version of the PDF document. Version can be taken from catalog, /// or from PDF file header. Version from catalog has precedence over version from /// header. QByteArray getVersion() const; explicit PDFDocument(PDFObjectStorage&& storage, PDFVersion version) : m_pdfObjectStorage(std::move(storage)) { init(); m_info.version = version; } private: friend class PDFDocumentReader; friend class PDFDocumentBuilder; friend class PDFOptimizer; /// Initialize data based on object in the storage. /// Can throw exception if error is detected. void init(); /// Initialize the document info from the trailer dictionary. /// If document info is not present, then default document /// info is used. If error is detected, exception is thrown. void initInfo(); /// Storage of objects PDFObjectStorage m_pdfObjectStorage; /// Info about the PDF document PDFDocumentInfo m_info; /// Catalog object PDFCatalog m_catalog; }; using PDFDocumentPointer = QSharedPointer; /// Helper class for document updates (for example, add/delete annotations, /// fill form fields, do some other minor operations) and also for major /// updates (document reset). It also contains modification flags, which are /// hints for update operations (for example, if only annotations are changed, /// then rebuilding outline tree is not needed). At least one of the flags /// must be set. Reset flag is conservative, so it should be set, when document /// changes are not known. class PDFModifiedDocument { public: enum ModificationFlag { None = 0x0000, ///< No flag Reset = 0x0001, ///< Whole document content is changed (for example, new document is being set) Annotation = 0x0002, ///< Annotations changed FormField = 0x0004, ///< Form field content changed Authorization = 0x0008, ///< Authorization has changed (for example, old document is granted user access, but for new, owner access) }; Q_DECLARE_FLAGS(ModificationFlags, ModificationFlag) explicit inline PDFModifiedDocument() = default; explicit inline PDFModifiedDocument(PDFDocument* document, PDFOptionalContentActivity* optionalContentActivity) : m_document(document), m_optionalContentActivity(optionalContentActivity), m_flags(Reset) { Q_ASSERT(m_document); } explicit inline PDFModifiedDocument(PDFDocumentPointer document, PDFOptionalContentActivity* optionalContentActivity) : m_documentPointer(qMove(document)), m_document(m_documentPointer.data()), m_optionalContentActivity(optionalContentActivity), m_flags(Reset) { Q_ASSERT(m_document); } explicit inline PDFModifiedDocument(PDFDocument* document, PDFOptionalContentActivity* optionalContentActivity, ModificationFlags flags) : m_document(document), m_optionalContentActivity(optionalContentActivity), m_flags(flags) { Q_ASSERT(m_document); } explicit inline PDFModifiedDocument(PDFDocumentPointer document, PDFOptionalContentActivity* optionalContentActivity, ModificationFlags flags) : m_documentPointer(qMove(document)), m_document(m_documentPointer.data()), m_optionalContentActivity(optionalContentActivity), m_flags(flags) { Q_ASSERT(m_document); } PDFDocument* getDocument() const { return m_document; } PDFOptionalContentActivity* getOptionalContentActivity() const { return m_optionalContentActivity; } void setOptionalContentActivity(PDFOptionalContentActivity* optionalContentActivity) { m_optionalContentActivity = optionalContentActivity; } ModificationFlags getFlags() const { return m_flags; } bool hasReset() const { return m_flags.testFlag(Reset); } bool hasFlag(ModificationFlag flag) const { return m_flags.testFlag(flag); } operator PDFDocument*() const { return m_document; } operator PDFDocumentPointer() const { return m_documentPointer; } private: PDFDocumentPointer m_documentPointer; PDFDocument* m_document = nullptr; PDFOptionalContentActivity* m_optionalContentActivity = nullptr; ModificationFlags m_flags = Reset; }; // Implementation inline const PDFObject& PDFDocument::getObject(const PDFObject& object) const { if (object.isReference()) { // Try to dereference the object return m_pdfObjectStorage.getObject(object.getReference()); } return object; } inline const PDFDictionary* PDFDocument::getDictionaryFromObject(const PDFObject& object) const { const PDFObject& dereferencedObject = getObject(object); if (dereferencedObject.isDictionary()) { return dereferencedObject.getDictionary(); } else if (dereferencedObject.isStream()) { return dereferencedObject.getStream()->getDictionary(); } return nullptr; } inline const PDFObject& PDFDocument::getObjectByReference(PDFObjectReference reference) const { return m_pdfObjectStorage.getObject(reference); } inline const PDFObject& PDFObjectStorage::getObject(const PDFObject& object) const { if (object.isReference()) { // Try to dereference the object return getObject(object.getReference()); } return object; } inline const PDFDictionary* PDFObjectStorage::getDictionaryFromObject(const PDFObject& object) const { const PDFObject& dereferencedObject = getObject(object); if (dereferencedObject.isDictionary()) { return dereferencedObject.getDictionary(); } else if (dereferencedObject.isStream()) { return dereferencedObject.getStream()->getDictionary(); } return nullptr; } inline const PDFObject& PDFObjectStorage::getObjectByReference(PDFObjectReference reference) const { return getObject(reference); } } // namespace pdf #endif // PDFDOCUMENT_H