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215 lines
13 KiB
Markdown
215 lines
13 KiB
Markdown
[](https://qpdf.sourceforge.io)
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[](https://github.com/qpdf/qpdf/actions)
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[](https://qpdf.readthedocs.io/en/latest/?badge=latest)
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qpdf is a command-line tool and C++ library that performs content-preserving transformations on PDF files. It supports
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linearization, encryption, and numerous other features. It can also be used for splitting and merging files, creating
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PDF files (but you have to supply all the content yourself), and inspecting files for study or analysis. qpdf does not
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render PDFs or perform text extraction, and it does not contain higher-level interfaces for working with page contents.
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It is a low-level tool for working with the structure of PDF files and can be a valuable tool for anyone who wants to do
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programmatic or command-line-based manipulation of PDF files.
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The [qpdf Manual](https://qpdf.readthedocs.io) is hosted online at https://qpdf.readthedocs.io. The project website
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is https://qpdf.sourceforge.io. The source code repository is hosted at GitHub: https://github.com/qpdf/qpdf.
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# Verifying Distributions
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The public key used to sign qpdf source distributions has
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fingerprint `C2C9 6B10 011F E009 E6D1 DF82 8A75 D109 9801 2C7E` and can be found at https://q.ql.org/pubkey.asc or
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downloaded from a public key server.
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# Copyright, License
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qpdf is copyright (c) 2005-2024 Jay Berkenbilt
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Licensed under the Apache License, Version 2.0 (the "License"); you may not use this file except in compliance with the
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License. You may obtain a copy of the License at
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https://www.apache.org/licenses/LICENSE-2.0
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Unless required by applicable law or agreed to in writing, software distributed under the License is distributed on an "
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AS IS" BASIS, WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. See the License for the specific
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language governing permissions and limitations under the License.
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You may also see the license in the file [LICENSE.txt](LICENSE.txt) in the source distribution.
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Versions of qpdf prior to version 7 were released under the terms of version 2.0 of the Artistic License. At your
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option, you may continue to consider qpdf to be licensed under those terms. Please see the manual for additional
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information. The Artistic License appears in the file [Artistic-2.0](Artistic-2.0) in the source distribution.
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# Prerequisites
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qpdf requires a C++ compiler that supports C++-17.
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To compile and link something with qpdf, you can use `pkg-config` with package name `libqpdf` or `cmake` with package
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name `qpdf`. Here's an example of a `CMakeLists.txt` file that builds a program with the qpdf library:
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```
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cmake_minimum_required(VERSION 3.16)
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project(some-application LANGUAGES CXX)
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find_package(qpdf)
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add_executable(some-application some-application.cc)
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target_link_libraries(some-application qpdf::libqpdf)
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```
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qpdf depends on the external libraries [zlib](https://www.zlib.net/) and [jpeg](https://www.ijg.org/files/).
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The [libjpeg-turbo](https://libjpeg-turbo.org/) library is also known to work since it is compatible with the regular
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jpeg library, and qpdf doesn't use any interfaces that aren't present in the straight jpeg8 API. These are part of every
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Linux distribution and are readily available. Download information appears in the documentation. For Windows, you can
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download pre-built binary versions of these libraries for some compilers; see [README-windows.md](README-windows.md) for
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additional details.
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Depending on which crypto providers are enabled, then [GnuTLS](https://www.gnutls.org/)
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and [OpenSSL](https://openssl.org) may also be required. This is discussed more in [Crypto providers](#crypto-providers)
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below.
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Detailed information appears in the [manual](https://qpdf.readthedocs.io/en/latest/installation.html).
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# Licensing terms of embedded software
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qpdf makes use of zlib and jpeg libraries for its functionality. These packages can be downloaded separately from their
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own download locations. If the optional GnuTLS or OpenSSL crypto providers are enabled, then GnuTLS and/or OpenSSL are
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also required.
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Please see the [NOTICE](NOTICE.md) file for information on licenses of embedded software.
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# Crypto providers
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qpdf can use different crypto implementations. These can be selected at compile time or at runtime. The native crypto
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implementations that were used in all versions prior to 9.1.0 are still present, but they are not built into qpdf by
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default if any external providers are available at build time.
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The following providers are available:
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* `gnutls`: an implementation that uses the GnuTLS library to provide crypto; causes libqpdf to link with the GnuTLS
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library
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* `openssl`: an implementation that can use the OpenSSL (or BoringSSL) libraries to provide crypto; causes libqpdf to
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link with the OpenSSL library
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* `native`: a native implementation where all the source is embedded in qpdf and no external dependencies are required
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The default behavior is for cmake to discover which other crypto providers can be supported based on available external
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libraries, to build all available external crypto providers, and to use an external provider as the default over the
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native one. By default, the native crypto provider will be used only if no external providers are available. This
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behavior can be changed with various cmake options
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as [described in the manual](https://qpdf.readthedocs.io/en/latest/installation.html#build-time-crypto-selection).
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## Note about weak cryptographic algorithms
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The PDF file format used to rely on RC4 for encryption. Using 256-bit keys always uses AES instead, and with 128-bit
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keys, you can elect to use AES. qpdf does its best to warn when someone is writing a file with weak cryptographic
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algorithms, but qpdf must always retain support for being able to read and even write files with weak encryption to be
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able to fully support older PDF files and older PDF readers.
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# Building from source distribution on UNIX/Linux
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Starting with version 11, qpdf builds with cmake. The default configuration with cmake works on most systems. On
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Windows, you can build qpdf with Visual Studio using cmake without having any additional tools installed. However, to
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run the test suite, you need MSYS2, and you also need MSYS2 to build with mingw.
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Example UNIX/Linux build:
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```
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cmake -S . -B build -DCMAKE_BUILD_TYPE=RelWithDebInfo
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cmake --build build
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```
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Example mingw build from an MSYS2 mingw shell:
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```
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cmake -S . -B build -G 'MSYS Makefiles' -DCMAKE_BUILD_TYPE=RelWithDebInfo
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cmake --build build
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```
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Example MSVC build from an MSYS shell or from a Windows command shell with Visual Studio command-line tools in the path:
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```
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cmake -S . -B build
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cmake --build build --config Release
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```
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Installation can be done with `cmake --install`. Packages can be made with `cpack`.
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The tests use `qtest`, and the test driver is invoked by `ctest`. To see the real underlying tests,
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run `ctest --verbose` so that you can see `qtest`'s output. If you need to turn off qtest's color output,
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pass `-DQTEST_COLOR=0` to cmake.
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For additional information, please refer to the [manual](https://qpdf.readthedocs.io/en/latest/installation.html).
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# Building on Windows
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qpdf is known to build and pass its test suite with mingw and Microsoft Visual C++. Both 32-bit and 64-bit versions
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work. In addition to the manual, see [README-windows.md](README-windows.md) for more details on how to build under
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Windows.
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# Building Documentation
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The qpdf manual is written in reStructured Text format and is build with [sphinx](https://www.sphinx-doc.org). The
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sources to the user manual can be found in the `manual` directory. For more detailed information, consult
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the [Building and Installing qpdf section of the manual](https://qpdf.readthedocs.io/en/latest/installation.html) or
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consult the [build-doc script](build-scripts/build-doc).
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# Additional Notes on Build
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qpdf provides cmake configuration files and pkg-config files. They support static and dynamic linking. In general, you
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do not need the header files from qpdf's dependencies to be available to builds that _use_ qpdf. The only exception to
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this is that, if you include `Pl_DCT.hh`, you need header files from `libjpeg`. Since this is a rare case, qpdf's cmake
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and pkg-config files do not automatically add a JPEG include path to the build. If you are using `Pl_DCT` explicitly,
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you probably already have that configured in your build.
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To learn about using the library, please read comments in the header files in [include/qpdf](include/qpdf/),
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especially [QPDF.hh](include/qpdf/QPDF.hh), [QPDFObjectHandle.hh](include/qpdf/QPDFObjectHandle.hh), and
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[QPDFWriter.hh](include/qpdf/QPDFWriter.hh). These are the best sources of documentation on the API. You can also study
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the code of [QPDFJob.cc](libqpdf/QPDFJob.cc), which exercises most of the public interface. There are additional example
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programs in the [examples](examples/) directory.
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# Additional Notes on Test Suite
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By default, slow tests and tests that require dependencies beyond those needed to build qpdf are disabled. Slow tests
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include image comparison tests and large file tests. Image comparison tests can be enabled by setting
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the `QPDF_TEST_COMPARE_IMAGES` environment variable to `1`. Large file tests can be enabled setting
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the `QPDF_LARGE_FILE_TEST_PATH` environment variable to the absolute path of a directory with at least 11 GB of free
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space that can handle files over 4 GB in size. On Windows, this should be a Windows path (e.g. `C:\LargeFileTemp` even
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if the build is being run from an MSYS2 environment. The test suite provides nearly full coverage even without these
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tests. Unless you are making deep changes to the library that would impact the contents of the generated PDF files or
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testing this on a new platform for the first time, there is no real reason to run these tests. If you're just running
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the test suite to make sure that qpdf works for your build, the default tests are adequate.
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If you are packaging qpdf for a distribution and preparing a build that is run by an autobuilder, you may want to
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pass `-DSHOW_FAILED_TEST_OUTPUT=1` to `cmake` and run `ctest` with the `--verbose` or `--output-on-failure` option. This
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way, if the test suite fails, test failure detail will be included in the build output. Otherwise, you will have to have
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access to the `qtest.log` file from the build to view test failures. The Debian packages for qpdf enable this option.
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More notes for packagers can be found in [the manual](https://qpdf.readthedocs.io/en/latest/packaging.html).
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# Random Number Generation
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By default, qpdf uses the crypto provider for generating random numbers. The rest of this applies only if you are using
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the native crypto provider.
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If the native crypto provider is in use, then, when `qpdf` detects either the Windows cryptography API or the existence
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of `/dev/urandom`, `/dev/arandom`, or `/dev/random`, it uses them to generate cryptographically secure random numbers.
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If none of these conditions are true, the build will fail with an error. This behavior can be modified in several ways:
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* If you use the cmake option `SKIP_OS_SECURE_RANDOM` or define the `SKIP_OS_SECURE_RANDOM` preprocessor symbol, qpdf
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will not attempt to use Windows cryptography or the random device. You must either supply your own random data
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provider or allow use of insecure random numbers.
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* If you turn on the cmake option `USE_INSECURE_RANDOM` or define the `USE_INSECURE_RANDOM` preprocessor symbol, qpdf
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will try insecure random numbers if OS-provided secure random numbers are disabled. This is not a fallback. In order
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for insecure random numbers to be used, you must also disable OS secure random numbers since, otherwise, failure to
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find OS secure random numbers is a compile error. The insecure random number source is stdlib's `random()` or `rand()`
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calls. These random numbers are not cryptography secure, but the qpdf library is fully functional using them. Using
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non-secure random numbers means that it's easier in some cases to guess encryption keys.
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* In all cases, you may supply your own random data provider. To do this, derive a class
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from `qpdf/RandomDataProvider` (since version 5.1.0) and call `QUtil::setRandomDataProvider` before you create
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any `QPDF` objects. If you supply your own random data provider, it will always be used even if support for one of the
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other random data providers is compiled in. If you wish to avoid any possibility of your build of qpdf from using
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anything but a user-supplied random data provider, you can define `SKIP_OS_SECURE_RANDOM` and
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not `USE_INSECURE_RANDOM`. In this case, qpdf will throw a runtime error if any attempt is made to generate random
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numbers and no random data provider has been supplied.
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# Acknowledgments
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The qpdf project has a JetBrains license through
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their [Open Source Program](https://www.jetbrains.com/community/opensource/#support). We are grateful for this program
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and have been enjoying the benefits of their high-quality products.
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