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.. _weak-crypto:
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Weak Cryptography
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=================
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For help with compiler errors in qpdf 11.0 or newer, see
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:ref:`breaking-crypto-api`.
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Since 2006, the PDF specification has offered ways to create encrypted
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PDF files without using weak cryptography, though it took a few years
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for many PDF readers and writers to catch up. It is still necessary to
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support weak encryption algorithms to read encrypted PDF files that
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were created using weak encryption algorithms, including all PDF files
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created before the modern formats were introduced or widely supported.
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Starting with version 10.4, qpdf began taking steps to reduce the
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likelihood of a user *accidentally* creating PDF files with insecure
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cryptography but will continue to allow creation of such files
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indefinitely with explicit acknowledgment. The restrictions on use of
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weak cryptography were made stricter with qpdf 11.
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Definition of Weak Cryptographic Algorithm
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------------------------------------------
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We divide weak cryptographic algorithms into two categories: weak
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encryption and weak hashing. Encryption is encoding data such that a
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key of some sort is required to decode it. Hashing is creating a short
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value from data in such a way that it is extremely improbable to find
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two documents with the same hash (known has a hash collision) and
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extremely difficult to intentionally create a document with a specific
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hash or two documents with the same hash.
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When we say that an encryption algorithm is weak, we either mean that
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a mathematical flaw has been discovered that makes it inherently
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insecure or that it is sufficiently simple that modern computer
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technology makes it possible to use "brute force" to crack. For
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example, when 40-bit keys were originally introduced, it wasn't
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practical to consider trying all possible keys, but today such a thing
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is possible.
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When we say that a hashing algorithm is weak, we mean that, either
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because of mathematical flaw or insufficient complexity, it is
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computationally feasible to intentionally construct a hash collision.
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While weak encryption should always be avoided, there are cases in
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which it is safe to use a weak hashing algorithm when security is not
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a factor. For example, a weak hashing algorithm should not be used as
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the only mechanism to test whether a file has been tampered with. In
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other words, you can't use a weak hash as a digital signature. There
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is no harm, however, in using a weak hash as a way to sort or index
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documents as long as hash collisions are tolerated. It is also common
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to use weak hashes as checksums, which are often used a check that a
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file wasn't damaged in transit or storage, though for true integrity,
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a strong hash would be better.
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Note that qpdf must always retain support for weak cryptographic
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algorithms since this is required for reading older PDF files that use
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it. Additionally, qpdf will always retain the ability to create files
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using weak cryptographic algorithms since, as a development tool, qpdf
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explicitly supports creating older or deprecated types of PDF files
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since these are sometimes needed to test or work with older versions of
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software. Even if other cryptography libraries drop support for RC4 or
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MD5, qpdf can always fall back to its internal implementations of those
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algorithms, so they are not going to disappear from qpdf.
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Uses of Weak Encryption in qpdf
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---------------------------------
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When PDF files are encrypted using 40-bit encryption or 128-bit
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encryption without AES, then the weak *RC4* algorithm is used. You can
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avoid using weak encryption in qpdf by always using 256-bit
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encryption. Unless you are trying to create files that need to be
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opened with PDF readers from before about 2010 (by which time most
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readers had added support for the stronger encryption algorithms) or
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are creating insecure files explicitly for testing or some similar
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purpose, there is no reason to use anything other than 256-bit
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encryption.
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By default, qpdf refuses to write a file that uses weak encryption.
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You can explicitly allow this by specifying the
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:qpdf:ref:`--allow-weak-crypto` option.
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In qpdf 11, all library methods that could potentially cause files to
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be written with weak encryption were deprecated, and methods to enable
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weak encryption were either given explicit names indicating this or
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take required arguments to enable the insecure behavior.
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There is one exception: when encryption parameters are copied from the
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input file or another file to the output file, there is no prohibition
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or even warning against using insecure encryption. The reason is that
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many qpdf operations simply preserve whatever encryption is there, and
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requiring confirmation to *preserve* insecure encryption would cause
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qpdf to break when non-encryption-related operations were performed on
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files that happened to be encrypted. Failing or generating warnings in
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this case would likely have the effect of making people use the
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:qpdf:ref:`--allow-weak-crypto` option blindly, which would be worse
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than just letting those files go so that explicit, conscious selection
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of weak crypto would be more likely to be noticed. Why, you might ask,
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does this apply to :qpdf:ref:`--copy-encryption` as well as to the
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default behavior preserving encryption? The answer is that
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:qpdf:ref:`--copy-encryption` works with an unencrypted file as input,
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which enables workflows where one may start with a file, decrypt it
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*just in case*, perform a series of operations, and then reapply the
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original encryption, *if any*. Also, one may have a template used for
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encryption that one may apply to a variety of output files, and it
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would be annoying to be warned about it for every output file.
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Uses of Weak Hashing In qpdf
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----------------------------
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The PDF specification makes use the weak *MD5* hashing algorithm in
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several places. While it is used in the encryption algorithms,
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breaking MD5 would not be adequate to crack an encrypted file when
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256-bit encryption is in use, so using 256-bit encryption is adequate
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for avoiding the use of MD5 for anything security-sensitive.
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MD5 is used in the following non-security-sensitive ways:
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- Generation of the document ID. The document ID is an input parameter
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to the document encryption but is not itself considered to be
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secure. They are supposed to be unique, but they are not
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tamper-resistent in non-encrypted PDF files, and hash collisions
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must be tolerated.
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The PDF specification recommends but does not require the use of MD5
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in generation of document IDs. Usually there is also a random
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component to document ID generation. There is a qpdf-specific
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feature of generating a *deterministic ID* (see
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:qpdf:ref:`--deterministic-id`) which also uses MD5. While it would
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certainly be possible to change the deterministic ID algorithm to
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not use MD5, doing so would break all previous deterministic IDs
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(which would render the feature useless for many cases) and would
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offer very little benefit since even a securely generated document
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ID is not itself a security-sensitive value.
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- Checksums in embedded file streams -- the PDF specification
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specifies the use of MD5.
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It is therefore not possible completely avoid the use of MD5 with
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qpdf, but as long as you are using 256-bit encryption, it is not used
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in a security-sensitive fashion.
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.. _breaking-crypto-api:
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API-Breaking Changes in qpdf 11.0
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---------------------------------
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In qpdf 11, several deprecated functions and methods were removed.
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These methods provided an incomplete API. Alternatives were added in
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qpdf 8.4.0. The removed functions are
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- C API: ``qpdf_set_r3_encryption_parameters``,
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``qpdf_set_r4_encryption_parameters``,
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``qpdf_set_r5_encryption_parameters``,
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``qpdf_set_r6_encryption_parameters``
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- ``QPDFWriter``: overloaded versions of these methods with fewer
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arguments: ``setR3EncryptionParameters``,
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``setR4EncryptionParameters``, ``setR5EncryptionParameters``, and
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``setR6EncryptionParameters``
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Additionally, remaining functions/methods had their names changed to
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signal that they are insecure and to force developers to make a
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decision. If you intentionally want to continue to use insecure
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cryptographic algorithms and create insecure files, you can change
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your code just add ``_insecure`` or ``Insecure`` to the end of the
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function as needed. (Note the disappearance of ``2`` in some of the C
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functions as well.) Better, you should migrate your code to use more
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secure encryption as documented in :file:`QPDFWriter.hh`. Use the
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``R6`` methods (or their corresponding C functions) to create files
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with 256-bit encryption.
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.. list-table:: Renamed Functions
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:widths: 50 50
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:header-rows: 1
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- - Old Name
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- New Name
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- - qpdf_set_r2_encryption_parameters
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- qpdf_set_r2_encryption_parameters_insecure
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- - qpdf_set_r3_encryption_parameters2
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- qpdf_set_r3_encryption_parameters_insecure
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- - qpdf_set_r4_encryption_parameters2
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- qpdf_set_r2_encryption_parameters_insecure
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- - QPDFWriter::setR2EncryptionParameters
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- QPDFWriter::setR2EncryptionParametersInsecure
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- - QPDFWriter::setR3EncryptionParameters
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- QPDFWriter::setR3EncryptionParametersInsecure
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- - QPDFWriter::setR4EncryptionParameters
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- QPDFWriter::setR4EncryptionParametersInsecure
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