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ReStructuredText
748 lines
37 KiB
ReStructuredText
.. _design:
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Design and Library Notes
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========================
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.. _design.intro:
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Introduction
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------------
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This section was written prior to the implementation of the qpdf package
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and was subsequently modified to reflect the implementation. In some
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cases, for purposes of explanation, it may differ slightly from the
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actual implementation. As always, the source code and test suite are
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authoritative. Even if there are some errors, this document should serve
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as a road map to understanding how this code works.
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In general, one should adhere strictly to a specification when writing
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but be liberal in reading. This way, the product of our software will be
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accepted by the widest range of other programs, and we will accept the
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widest range of input files. This library attempts to conform to that
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philosophy whenever possible but also aims to provide strict checking
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for people who want to validate PDF files. If you don't want to see
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warnings and are trying to write something that is tolerant, you can
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call ``setSuppressWarnings(true)``. If you want to fail on the first
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error, you can call ``setAttemptRecovery(false)``. The default behavior
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is to generating warnings for recoverable problems. Note that recovery
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will not always produce the desired results even if it is able to get
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through the file. Unlike most other PDF files that produce generic
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warnings such as "This file is damaged,", qpdf generally issues a
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detailed error message that would be most useful to a PDF developer.
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This is by design as there seems to be a shortage of PDF validation
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tools out there. This was, in fact, one of the major motivations behind
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the initial creation of qpdf.
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.. _design-goals:
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Design Goals
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------------
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The QPDF package includes support for reading and rewriting PDF files.
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It aims to hide from the user details involving object locations,
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modified (appended) PDF files, the directness/indirectness of objects,
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and stream filters including encryption. It does not aim to hide
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knowledge of the object hierarchy or content stream contents. Put
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another way, a user of the qpdf library is expected to have knowledge
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about how PDF files work, but is not expected to have to keep track of
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bookkeeping details such as file positions.
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A user of the library never has to care whether an object is direct or
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indirect, though it is possible to determine whether an object is direct
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or not if this information is needed. All access to objects deals with
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this transparently. All memory management details are also handled by
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the library.
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The ``PointerHolder`` object is used internally by the library to deal
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with memory management. This is basically a smart pointer object very
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similar in spirit to C++-11's ``std::shared_ptr`` object, but predating
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it by several years. This library also makes use of a technique for
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giving fine-grained access to methods in one class to other classes by
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using public subclasses with friends and only private members that in
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turn call private methods of the containing class. See
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``QPDFObjectHandle::Factory`` as an example.
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The top-level qpdf class is ``QPDF``. A ``QPDF`` object represents a PDF
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file. The library provides methods for both accessing and mutating PDF
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files.
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The primary class for interacting with PDF objects is
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``QPDFObjectHandle``. Instances of this class can be passed around by
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value, copied, stored in containers, etc. with very low overhead.
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Instances of ``QPDFObjectHandle`` created by reading from a file will
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always contain a reference back to the ``QPDF`` object from which they
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were created. A ``QPDFObjectHandle`` may be direct or indirect. If
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indirect, the ``QPDFObject`` the ``PointerHolder`` initially points to
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is a null pointer. In this case, the first attempt to access the
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underlying ``QPDFObject`` will result in the ``QPDFObject`` being
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resolved via a call to the referenced ``QPDF`` instance. This makes it
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essentially impossible to make coding errors in which certain things
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will work for some PDF files and not for others based on which objects
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are direct and which objects are indirect.
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Instances of ``QPDFObjectHandle`` can be directly created and modified
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using static factory methods in the ``QPDFObjectHandle`` class. There
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are factory methods for each type of object as well as a convenience
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method ``QPDFObjectHandle::parse`` that creates an object from a string
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representation of the object. Existing instances of ``QPDFObjectHandle``
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can also be modified in several ways. See comments in
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:file:`QPDFObjectHandle.hh` for details.
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An instance of ``QPDF`` is constructed by using the class's default
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constructor. If desired, the ``QPDF`` object may be configured with
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various methods that change its default behavior. Then the
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``QPDF::processFile()`` method is passed the name of a PDF file, which
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permanently associates the file with that QPDF object. A password may
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also be given for access to password-protected files. QPDF does not
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enforce encryption parameters and will treat user and owner passwords
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equivalently. Either password may be used to access an encrypted file.
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``QPDF`` will allow recovery of a user password given an owner password.
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The input PDF file must be seekable. (Output files written by
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``QPDFWriter`` need not be seekable, even when creating linearized
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files.) During construction, ``QPDF`` validates the PDF file's header,
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and then reads the cross reference tables and trailer dictionaries. The
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``QPDF`` class keeps only the first trailer dictionary though it does
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read all of them so it can check the ``/Prev`` key. ``QPDF`` class users
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may request the root object and the trailer dictionary specifically. The
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cross reference table is kept private. Objects may then be requested by
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number of by walking the object tree.
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When a PDF file has a cross-reference stream instead of a
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cross-reference table and trailer, requesting the document's trailer
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dictionary returns the stream dictionary from the cross-reference stream
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instead.
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There are some convenience routines for very common operations such as
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walking the page tree and returning a vector of all page objects. For
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full details, please see the header files
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:file:`QPDF.hh` and
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:file:`QPDFObjectHandle.hh`. There are also some
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additional helper classes that provide higher level API functions for
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certain document constructions. These are discussed in :ref:`helper-classes`.
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.. _helper-classes:
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Helper Classes
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--------------
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QPDF version 8.1 introduced the concept of helper classes. Helper
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classes are intended to contain higher level APIs that allow developers
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to work with certain document constructs at an abstraction level above
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that of ``QPDFObjectHandle`` while staying true to qpdf's philosophy of
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not hiding document structure from the developer. As with qpdf in
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general, the goal is take away some of the more tedious bookkeeping
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aspects of working with PDF files, not to remove the need for the
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developer to understand how the PDF construction in question works. The
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driving factor behind the creation of helper classes was to allow the
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evolution of higher level interfaces in qpdf without polluting the
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interfaces of the main top-level classes ``QPDF`` and
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``QPDFObjectHandle``.
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There are two kinds of helper classes: *document* helpers and *object*
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helpers. Document helpers are constructed with a reference to a ``QPDF``
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object and provide methods for working with structures that are at the
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document level. Object helpers are constructed with an instance of a
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``QPDFObjectHandle`` and provide methods for working with specific types
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of objects.
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Examples of document helpers include ``QPDFPageDocumentHelper``, which
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contains methods for operating on the document's page trees, such as
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enumerating all pages of a document and adding and removing pages; and
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``QPDFAcroFormDocumentHelper``, which contains document-level methods
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related to interactive forms, such as enumerating form fields and
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creating mappings between form fields and annotations.
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Examples of object helpers include ``QPDFPageObjectHelper`` for
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performing operations on pages such as page rotation and some operations
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on content streams, ``QPDFFormFieldObjectHelper`` for performing
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operations related to interactive form fields, and
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``QPDFAnnotationObjectHelper`` for working with annotations.
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It is always possible to retrieve the underlying ``QPDF`` reference from
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a document helper and the underlying ``QPDFObjectHandle`` reference from
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an object helper. Helpers are designed to be helpers, not wrappers. The
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intention is that, in general, it is safe to freely intermix operations
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that use helpers with operations that use the underlying objects.
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Document and object helpers do not attempt to provide a complete
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interface for working with the things they are helping with, nor do they
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attempt to encapsulate underlying structures. They just provide a few
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methods to help with error-prone, repetitive, or complex tasks. In some
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cases, a helper object may cache some information that is expensive to
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gather. In such cases, the helper classes are implemented so that their
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own methods keep the cache consistent, and the header file will provide
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a method to invalidate the cache and a description of what kinds of
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operations would make the cache invalid. If in doubt, you can always
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discard a helper class and create a new one with the same underlying
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objects, which will ensure that you have discarded any stale
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information.
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By Convention, document helpers are called
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``QPDFSomethingDocumentHelper`` and are derived from
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``QPDFDocumentHelper``, and object helpers are called
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``QPDFSomethingObjectHelper`` and are derived from ``QPDFObjectHelper``.
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For details on specific helpers, please see their header files. You can
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find them by looking at
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:file:`include/qpdf/QPDF*DocumentHelper.hh` and
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:file:`include/qpdf/QPDF*ObjectHelper.hh`.
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In order to avoid creation of circular dependencies, the following
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general guidelines are followed with helper classes:
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- Core class interfaces do not know about helper classes. For example,
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no methods of ``QPDF`` or ``QPDFObjectHandle`` will include helper
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classes in their interfaces.
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- Interfaces of object helpers will usually not use document helpers in
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their interfaces. This is because it is much more useful for document
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helpers to have methods that return object helpers. Most operations
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in PDF files start at the document level and go from there to the
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object level rather than the other way around. It can sometimes be
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useful to map back from object-level structures to document-level
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structures. If there is a desire to do this, it will generally be
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provided by a method in the document helper class.
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- Most of the time, object helpers don't know about other object
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helpers. However, in some cases, one type of object may be a
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container for another type of object, in which case it may make sense
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for the outer object to know about the inner object. For example,
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there are methods in the ``QPDFPageObjectHelper`` that know
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``QPDFAnnotationObjectHelper`` because references to annotations are
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contained in page dictionaries.
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- Any helper or core library class may use helpers in their
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implementations.
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Prior to qpdf version 8.1, higher level interfaces were added as
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"convenience functions" in either ``QPDF`` or ``QPDFObjectHandle``. For
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compatibility, older convenience functions for operating with pages will
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remain in those classes even as alternatives are provided in helper
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classes. Going forward, new higher level interfaces will be provided
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using helper classes.
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.. _implementation-notes:
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Implementation Notes
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--------------------
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This section contains a few notes about QPDF's internal implementation,
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particularly around what it does when it first processes a file. This
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section is a bit of a simplification of what it actually does, but it
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could serve as a starting point to someone trying to understand the
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implementation. There is nothing in this section that you need to know
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to use the qpdf library.
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``QPDFObject`` is the basic PDF Object class. It is an abstract base
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class from which are derived classes for each type of PDF object.
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Clients do not interact with Objects directly but instead interact with
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``QPDFObjectHandle``.
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When the ``QPDF`` class creates a new object, it dynamically allocates
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the appropriate type of ``QPDFObject`` and immediately hands the pointer
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to an instance of ``QPDFObjectHandle``. The parser reads a token from
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the current file position. If the token is a not either a dictionary or
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array opener, an object is immediately constructed from the single token
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and the parser returns. Otherwise, the parser iterates in a special mode
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in which it accumulates objects until it finds a balancing closer.
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During this process, the "``R``" keyword is recognized and an indirect
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``QPDFObjectHandle`` may be constructed.
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The ``QPDF::resolve()`` method, which is used to resolve an indirect
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object, may be invoked from the ``QPDFObjectHandle`` class. It first
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checks a cache to see whether this object has already been read. If not,
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it reads the object from the PDF file and caches it. It the returns the
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resulting ``QPDFObjectHandle``. The calling object handle then replaces
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its ``PointerHolder<QDFObject>`` with the one from the newly returned
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``QPDFObjectHandle``. In this way, only a single copy of any direct
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object need exist and clients can access objects transparently without
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knowing caring whether they are direct or indirect objects.
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Additionally, no object is ever read from the file more than once. That
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means that only the portions of the PDF file that are actually needed
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are ever read from the input file, thus allowing the qpdf package to
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take advantage of this important design goal of PDF files.
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If the requested object is inside of an object stream, the object stream
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itself is first read into memory. Then the tokenizer reads objects from
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the memory stream based on the offset information stored in the stream.
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Those individual objects are cached, after which the temporary buffer
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holding the object stream contents are discarded. In this way, the first
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time an object in an object stream is requested, all objects in the
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stream are cached.
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The following example should clarify how ``QPDF`` processes a simple
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file.
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- Client constructs ``QPDF`` ``pdf`` and calls
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``pdf.processFile("a.pdf");``.
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- The ``QPDF`` class checks the beginning of
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:file:`a.pdf` for a PDF header. It then reads the
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cross reference table mentioned at the end of the file, ensuring that
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it is looking before the last ``%%EOF``. After getting to ``trailer``
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keyword, it invokes the parser.
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- The parser sees "``<<``", so it calls itself recursively in
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dictionary creation mode.
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- In dictionary creation mode, the parser keeps accumulating objects
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until it encounters "``>>``". Each object that is read is pushed onto
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a stack. If "``R``" is read, the last two objects on the stack are
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inspected. If they are integers, they are popped off the stack and
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their values are used to construct an indirect object handle which is
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then pushed onto the stack. When "``>>``" is finally read, the stack
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is converted into a ``QPDF_Dictionary`` which is placed in a
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``QPDFObjectHandle`` and returned.
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- The resulting dictionary is saved as the trailer dictionary.
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- The ``/Prev`` key is searched. If present, ``QPDF`` seeks to that
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point and repeats except that the new trailer dictionary is not
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saved. If ``/Prev`` is not present, the initial parsing process is
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complete.
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If there is an encryption dictionary, the document's encryption
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parameters are initialized.
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- The client requests root object. The ``QPDF`` class gets the value of
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root key from trailer dictionary and returns it. It is an unresolved
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indirect ``QPDFObjectHandle``.
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- The client requests the ``/Pages`` key from root
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``QPDFObjectHandle``. The ``QPDFObjectHandle`` notices that it is
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indirect so it asks ``QPDF`` to resolve it. ``QPDF`` looks in the
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object cache for an object with the root dictionary's object ID and
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generation number. Upon not seeing it, it checks the cross reference
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table, gets the offset, and reads the object present at that offset.
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It stores the result in the object cache and returns the cached
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result. The calling ``QPDFObjectHandle`` replaces its object pointer
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with the one from the resolved ``QPDFObjectHandle``, verifies that it
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a valid dictionary object, and returns the (unresolved indirect)
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``QPDFObject`` handle to the top of the Pages hierarchy.
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As the client continues to request objects, the same process is
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followed for each new requested object.
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.. _casting:
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Casting Policy
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--------------
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This section describes the casting policy followed by qpdf's
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implementation. This is no concern to qpdf's end users and largely of no
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concern to people writing code that uses qpdf, but it could be of
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interest to people who are porting qpdf to a new platform or who are
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making modifications to the code.
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The C++ code in qpdf is free of old-style casts except where unavoidable
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(e.g. where the old-style cast is in a macro provided by a third-party
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header file). When there is a need for a cast, it is handled, in order
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of preference, by rewriting the code to avoid the need for a cast,
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calling ``const_cast``, calling ``static_cast``, calling
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``reinterpret_cast``, or calling some combination of the above. As a
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last resort, a compiler-specific ``#pragma`` may be used to suppress a
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warning that we don't want to fix. Examples may include suppressing
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warnings about the use of old-style casts in code that is shared between
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C and C++ code.
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The ``QIntC`` namespace, provided by
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:file:`include/qpdf/QIntC.hh`, implements safe
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functions for converting between integer types. These functions do range
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checking and throw a ``std::range_error``, which is subclass of
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``std::runtime_error``, if conversion from one integer type to another
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results in loss of information. There are many cases in which we have to
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move between different integer types because of incompatible integer
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types used in interoperable interfaces. Some are unavoidable, such as
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moving between sizes and offsets, and others are there because of old
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code that is too in entrenched to be fixable without breaking source
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compatibility and causing pain for users. QPDF is compiled with extra
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warnings to detect conversions with potential data loss, and all such
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cases should be fixed by either using a function from ``QIntC`` or a
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``static_cast``.
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When the intention is just to switch the type because of exchanging data
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between incompatible interfaces, use ``QIntC``. This is the usual case.
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However, there are some cases in which we are explicitly intending to
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use the exact same bit pattern with a different type. This is most
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common when switching between signed and unsigned characters. A lot of
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qpdf's code uses unsigned characters internally, but ``std::string`` and
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``char`` are signed. Using ``QIntC::to_char`` would be wrong for
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converting from unsigned to signed characters because a negative
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``char`` value and the corresponding ``unsigned char`` value greater
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than 127 *mean the same thing*. There are also
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cases in which we use ``static_cast`` when working with bit fields where
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we are not representing a numerical value but rather a bunch of bits
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packed together in some integer type. Also note that ``size_t`` and
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``long`` both typically differ between 32-bit and 64-bit environments,
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so sometimes an explicit cast may not be needed to avoid warnings on one
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platform but may be needed on another. A conversion with ``QIntC``
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should always be used when the types are different even if the
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underlying size is the same. QPDF's CI build builds on 32-bit and 64-bit
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platforms, and the test suite is very thorough, so it is hard to make
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any of the potential errors here without being caught in build or test.
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Non-const ``unsigned char*`` is used in the ``Pipeline`` interface. The
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pipeline interface has a ``write`` call that uses ``unsigned char*``
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without a ``const`` qualifier. The main reason for this is
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to support pipelines that make calls to third-party libraries, such as
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zlib, that don't include ``const`` in their interfaces. Unfortunately,
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there are many places in the code where it is desirable to have
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``const char*`` with pipelines. None of the pipeline implementations
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in qpdf
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currently modify the data passed to write, and doing so would be counter
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to the intent of ``Pipeline``, but there is nothing in the code to
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prevent this from being done. There are places in the code where
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``const_cast`` is used to remove the const-ness of pointers going into
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``Pipeline``\ s. This could theoretically be unsafe, but there is
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adequate testing to assert that it is safe and will remain safe in
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qpdf's code.
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.. _encryption:
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Encryption
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----------
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Encryption is supported transparently by qpdf. When opening a PDF file,
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if an encryption dictionary exists, the ``QPDF`` object processes this
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dictionary using the password (if any) provided. The primary decryption
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key is computed and cached. No further access is made to the encryption
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dictionary after that time. When an object is read from a file, the
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object ID and generation of the object in which it is contained is
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always known. Using this information along with the stored encryption
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key, all stream and string objects are transparently decrypted. Raw
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encrypted objects are never stored in memory. This way, nothing in the
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library ever has to know or care whether it is reading an encrypted
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file.
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An interface is also provided for writing encrypted streams and strings
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given an encryption key. This is used by ``QPDFWriter`` when it rewrites
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encrypted files.
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When copying encrypted files, unless otherwise directed, qpdf will
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preserve any encryption in force in the original file. qpdf can do this
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with either the user or the owner password. There is no difference in
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capability based on which password is used. When 40 or 128 bit
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encryption keys are used, the user password can be recovered with the
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owner password. With 256 keys, the user and owner passwords are used
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independently to encrypt the actual encryption key, so while either can
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be used, the owner password can no longer be used to recover the user
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password.
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Starting with version 4.0.0, qpdf can read files that are not encrypted
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but that contain encrypted attachments, but it cannot write such files.
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qpdf also requires the password to be specified in order to open the
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file, not just to extract attachments, since once the file is open, all
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decryption is handled transparently. When copying files like this while
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preserving encryption, qpdf will apply the file's encryption to
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everything in the file, not just to the attachments. When decrypting the
|
|
file, qpdf will decrypt the attachments. In general, when copying PDF
|
|
files with multiple encryption formats, qpdf will choose the newest
|
|
format. The only exception to this is that clear-text metadata will be
|
|
preserved as clear-text if it is that way in the original file.
|
|
|
|
One point of confusion some people have about encrypted PDF files is
|
|
that encryption is not the same as password protection. Password
|
|
protected files are always encrypted, but it is also possible to create
|
|
encrypted files that do not have passwords. Internally, such files use
|
|
the empty string as a password, and most readers try the empty string
|
|
first to see if it works and prompt for a password only if the empty
|
|
string doesn't work. Normally such files have an empty user password and
|
|
a non-empty owner password. In that way, if the file is opened by an
|
|
ordinary reader without specification of password, the restrictions
|
|
specified in the encryption dictionary can be enforced. Most users
|
|
wouldn't even realize such a file was encrypted. Since qpdf always
|
|
ignores the restrictions (except for the purpose of reporting what they
|
|
are), qpdf doesn't care which password you use. QPDF will allow you to
|
|
create PDF files with non-empty user passwords and empty owner
|
|
passwords. Some readers will require a password when you open these
|
|
files, and others will open the files without a password and not enforce
|
|
restrictions. Having a non-empty user password and an empty owner
|
|
password doesn't really make sense because it would mean that opening
|
|
the file with the user password would be more restrictive than not
|
|
supplying a password at all. QPDF also allows you to create PDF files
|
|
with the same password as both the user and owner password. Some readers
|
|
will not ever allow such files to be accessed without restrictions
|
|
because they never try the password as the owner password if it works as
|
|
the user password. Nonetheless, one of the powerful aspects of qpdf is
|
|
that it allows you to finely specify the way encrypted files are
|
|
created, even if the results are not useful to some readers. One use
|
|
case for this would be for testing a PDF reader to ensure that it
|
|
handles odd configurations of input files.
|
|
|
|
.. _random-numbers:
|
|
|
|
Random Number Generation
|
|
------------------------
|
|
|
|
QPDF generates random numbers to support generation of encrypted data.
|
|
Starting in qpdf 10.0.0, qpdf uses the crypto provider as its source of
|
|
random numbers. Older versions used the OS-provided source of secure
|
|
random numbers or, if allowed at build time, insecure random numbers
|
|
from stdlib. Starting with version 5.1.0, you can disable use of
|
|
OS-provided secure random numbers at build time. This is especially
|
|
useful on Windows if you want to avoid a dependency on Microsoft's
|
|
cryptography API. You can also supply your own random data provider. For
|
|
details on how to do this, please refer to the top-level README.md file
|
|
in the source distribution and to comments in
|
|
:file:`QUtil.hh`.
|
|
|
|
.. _adding-and-remove-pages:
|
|
|
|
Adding and Removing Pages
|
|
-------------------------
|
|
|
|
While qpdf's API has supported adding and modifying objects for some
|
|
time, version 3.0 introduces specific methods for adding and removing
|
|
pages. These are largely convenience routines that handle two tricky
|
|
issues: pushing inheritable resources from the ``/Pages`` tree down to
|
|
individual pages and manipulation of the ``/Pages`` tree itself. For
|
|
details, see ``addPage`` and surrounding methods in
|
|
:file:`QPDF.hh`.
|
|
|
|
.. _reserved-objects:
|
|
|
|
Reserving Object Numbers
|
|
------------------------
|
|
|
|
Version 3.0 of qpdf introduced the concept of reserved objects. These
|
|
are seldom needed for ordinary operations, but there are cases in which
|
|
you may want to add a series of indirect objects with references to each
|
|
other to a ``QPDF`` object. This causes a problem because you can't
|
|
determine the object ID that a new indirect object will have until you
|
|
add it to the ``QPDF`` object with ``QPDF::makeIndirectObject``. The
|
|
only way to add two mutually referential objects to a ``QPDF`` object
|
|
prior to version 3.0 would be to add the new objects first and then make
|
|
them refer to each other after adding them. Now it is possible to create
|
|
a *reserved object* using
|
|
``QPDFObjectHandle::newReserved``. This is an indirect object that stays
|
|
"unresolved" even if it is queried for its type. So now, if you want to
|
|
create a set of mutually referential objects, you can create
|
|
reservations for each one of them and use those reservations to
|
|
construct the references. When finished, you can call
|
|
``QPDF::replaceReserved`` to replace the reserved objects with the real
|
|
ones. This functionality will never be needed by most applications, but
|
|
it is used internally by QPDF when copying objects from other PDF files,
|
|
as discussed in :ref:`foreign-objects`. For an example of how to use reserved
|
|
objects, search for ``newReserved`` in
|
|
:file:`test_driver.cc` in qpdf's sources.
|
|
|
|
.. _foreign-objects:
|
|
|
|
Copying Objects From Other PDF Files
|
|
------------------------------------
|
|
|
|
Version 3.0 of qpdf introduced the ability to copy objects into a
|
|
``QPDF`` object from a different ``QPDF`` object, which we refer to as
|
|
*foreign objects*. This allows arbitrary
|
|
merging of PDF files. The "from" ``QPDF`` object must remain valid after
|
|
the copy as discussed in the note below. The
|
|
:command:`qpdf` command-line tool provides limited
|
|
support for basic page selection, including merging in pages from other
|
|
files, but the library's API makes it possible to implement arbitrarily
|
|
complex merging operations. The main method for copying foreign objects
|
|
is ``QPDF::copyForeignObject``. This takes an indirect object from
|
|
another ``QPDF`` and copies it recursively into this object while
|
|
preserving all object structure, including circular references. This
|
|
means you can add a direct object that you create from scratch to a
|
|
``QPDF`` object with ``QPDF::makeIndirectObject``, and you can add an
|
|
indirect object from another file with ``QPDF::copyForeignObject``. The
|
|
fact that ``QPDF::makeIndirectObject`` does not automatically detect a
|
|
foreign object and copy it is an explicit design decision. Copying a
|
|
foreign object seems like a sufficiently significant thing to do that it
|
|
should be done explicitly.
|
|
|
|
The other way to copy foreign objects is by passing a page from one
|
|
``QPDF`` to another by calling ``QPDF::addPage``. In contrast to
|
|
``QPDF::makeIndirectObject``, this method automatically distinguishes
|
|
between indirect objects in the current file, foreign objects, and
|
|
direct objects.
|
|
|
|
Please note: when you copy objects from one ``QPDF`` to another, the
|
|
source ``QPDF`` object must remain valid until you have finished with
|
|
the destination object. This is because the original object is still
|
|
used to retrieve any referenced stream data from the copied object.
|
|
|
|
.. _rewriting:
|
|
|
|
Writing PDF Files
|
|
-----------------
|
|
|
|
The qpdf library supports file writing of ``QPDF`` objects to PDF files
|
|
through the ``QPDFWriter`` class. The ``QPDFWriter`` class has two
|
|
writing modes: one for non-linearized files, and one for linearized
|
|
files. See :ref:`linearization` for a description of
|
|
linearization is implemented. This section describes how we write
|
|
non-linearized files including the creation of QDF files (see :ref:`qdf`.
|
|
|
|
This outline was written prior to implementation and is not exactly
|
|
accurate, but it provides a correct "notional" idea of how writing
|
|
works. Look at the code in ``QPDFWriter`` for exact details.
|
|
|
|
- Initialize state:
|
|
|
|
- next object number = 1
|
|
|
|
- object queue = empty
|
|
|
|
- renumber table: old object id/generation to new id/0 = empty
|
|
|
|
- xref table: new id -> offset = empty
|
|
|
|
- Create a QPDF object from a file.
|
|
|
|
- Write header for new PDF file.
|
|
|
|
- Request the trailer dictionary.
|
|
|
|
- For each value that is an indirect object, grab the next object
|
|
number (via an operation that returns and increments the number). Map
|
|
object to new number in renumber table. Push object onto queue.
|
|
|
|
- While there are more objects on the queue:
|
|
|
|
- Pop queue.
|
|
|
|
- Look up object's new number *n* in the renumbering table.
|
|
|
|
- Store current offset into xref table.
|
|
|
|
- Write ``:samp:`{n}` 0 obj``.
|
|
|
|
- If object is null, whether direct or indirect, write out null,
|
|
thus eliminating unresolvable indirect object references.
|
|
|
|
- If the object is a stream stream, write stream contents, piped
|
|
through any filters as required, to a memory buffer. Use this
|
|
buffer to determine the stream length.
|
|
|
|
- If object is not a stream, array, or dictionary, write out its
|
|
contents.
|
|
|
|
- If object is an array or dictionary (including stream), traverse
|
|
its elements (for array) or values (for dictionaries), handling
|
|
recursive dictionaries and arrays, looking for indirect objects.
|
|
When an indirect object is found, if it is not resolvable, ignore.
|
|
(This case is handled when writing it out.) Otherwise, look it up
|
|
in the renumbering table. If not found, grab the next available
|
|
object number, assign to the referenced object in the renumbering
|
|
table, and push the referenced object onto the queue. As a special
|
|
case, when writing out a stream dictionary, replace length,
|
|
filters, and decode parameters as required.
|
|
|
|
Write out dictionary or array, replacing any unresolvable indirect
|
|
object references with null (pdf spec says reference to
|
|
non-existent object is legal and resolves to null) and any
|
|
resolvable ones with references to the renumbered objects.
|
|
|
|
- If the object is a stream, write ``stream\n``, the stream contents
|
|
(from the memory buffer), and ``\nendstream\n``.
|
|
|
|
- When done, write ``endobj``.
|
|
|
|
Once we have finished the queue, all referenced objects will have been
|
|
written out and all deleted objects or unreferenced objects will have
|
|
been skipped. The new cross-reference table will contain an offset for
|
|
every new object number from 1 up to the number of objects written. This
|
|
can be used to write out a new xref table. Finally we can write out the
|
|
trailer dictionary with appropriately computed /ID (see spec, 8.3, File
|
|
Identifiers), the cross reference table offset, and ``%%EOF``.
|
|
|
|
.. _filtered-streams:
|
|
|
|
Filtered Streams
|
|
----------------
|
|
|
|
Support for streams is implemented through the ``Pipeline`` interface
|
|
which was designed for this package.
|
|
|
|
When reading streams, create a series of ``Pipeline`` objects. The
|
|
``Pipeline`` abstract base requires implementation ``write()`` and
|
|
``finish()`` and provides an implementation of ``getNext()``. Each
|
|
pipeline object, upon receiving data, does whatever it is going to do
|
|
and then writes the data (possibly modified) to its successor.
|
|
Alternatively, a pipeline may be an end-of-the-line pipeline that does
|
|
something like store its output to a file or a memory buffer ignoring a
|
|
successor. For additional details, look at
|
|
:file:`Pipeline.hh`.
|
|
|
|
``QPDF`` can read raw or filtered streams. When reading a filtered
|
|
stream, the ``QPDF`` class creates a ``Pipeline`` object for one of each
|
|
appropriate filter object and chains them together. The last filter
|
|
should write to whatever type of output is required. The ``QPDF`` class
|
|
has an interface to write raw or filtered stream contents to a given
|
|
pipeline.
|
|
|
|
.. _object-accessors:
|
|
|
|
Object Accessor Methods
|
|
-----------------------
|
|
|
|
..
|
|
This section is referenced in QPDFObjectHandle.hh
|
|
|
|
For general information about how to access instances of
|
|
``QPDFObjectHandle``, please see the comments in
|
|
:file:`QPDFObjectHandle.hh`. Search for "Accessor
|
|
methods". This section provides a more in-depth discussion of the
|
|
behavior and the rationale for the behavior.
|
|
|
|
*Why were type errors made into warnings?* When type checks were
|
|
introduced into qpdf in the early days, it was expected that type errors
|
|
would only occur as a result of programmer error. However, in practice,
|
|
type errors would occur with malformed PDF files because of assumptions
|
|
made in code, including code within the qpdf library and code written by
|
|
library users. The most common case would be chaining calls to
|
|
``getKey()`` to access keys deep within a dictionary. In many cases,
|
|
qpdf would be able to recover from these situations, but the old
|
|
behavior often resulted in crashes rather than graceful recovery. For
|
|
this reason, the errors were changed to warnings.
|
|
|
|
*Why even warn about type errors when the user can't usually do anything
|
|
about them?* Type warnings are extremely valuable during development.
|
|
Since it's impossible to catch at compile time things like typos in
|
|
dictionary key names or logic errors around what the structure of a PDF
|
|
file might be, the presence of type warnings can save lots of developer
|
|
time. They have also proven useful in exposing issues in qpdf itself
|
|
that would have otherwise gone undetected.
|
|
|
|
*Can there be a type-safe ``QPDFObjectHandle``?* It would be great if
|
|
``QPDFObjectHandle`` could be more strongly typed so that you'd have to
|
|
have check that something was of a particular type before calling
|
|
type-specific accessor methods. However, implementing this at this stage
|
|
of the library's history would be quite difficult, and it would make a
|
|
the common pattern of drilling into an object no longer work. While it
|
|
would be possible to have a parallel interface, it would create a lot of
|
|
extra code. If qpdf were written in a language like rust, an interface
|
|
like this would make a lot of sense, but, for a variety of reasons, the
|
|
qpdf API is consistent with other APIs of its time, relying on exception
|
|
handling to catch errors. The underlying PDF objects are inherently not
|
|
type-safe. Forcing stronger type safety in ``QPDFObjectHandle`` would
|
|
ultimately cause a lot more code to have to be written and would like
|
|
make software that uses qpdf more brittle, and even so, checks would
|
|
have to occur at runtime.
|
|
|
|
*Why do type errors sometimes raise exceptions?* The way warnings work
|
|
in qpdf requires a ``QPDF`` object to be associated with an object
|
|
handle for a warning to be issued. It would be nice if this could be
|
|
fixed, but it would require major changes to the API. Rather than
|
|
throwing away these conditions, we convert them to exceptions. It's not
|
|
that bad though. Since any object handle that was read from a file has
|
|
an associated ``QPDF`` object, it would only be type errors on objects
|
|
that were created explicitly that would cause exceptions, and in that
|
|
case, type errors are much more likely to be the result of a coding
|
|
error than invalid input.
|
|
|
|
*Why does the behavior of a type exception differ between the C and C++
|
|
API?* There is no way to throw and catch exceptions in C short of
|
|
something like ``setjmp`` and ``longjmp``, and that approach is not
|
|
portable across language barriers. Since the C API is often used from
|
|
other languages, it's important to keep things as simple as possible.
|
|
Starting in qpdf 10.5, exceptions that used to crash code using the C
|
|
API will be written to stderr by default, and it is possible to register
|
|
an error handler. There's no reason that the error handler can't
|
|
simulate exception handling in some way, such as by using ``setjmp`` and
|
|
``longjmp`` or by setting some variable that can be checked after
|
|
library calls are made. In retrospect, it might have been better if the
|
|
C API object handle methods returned error codes like the other methods
|
|
and set return values in passed-in pointers, but this would complicate
|
|
both the implementation and the use of the library for a case that is
|
|
actually quite rare and largely avoidable.
|