- What is PoDoFo?
- Requirements
- Licensing
- Development quickstart
- Doxygen Documentation
- String encoding and buffer conventions
- API Stability
- PoDoFo tools
- TODO
- FAQ
- No warranty
- Contributions
- Authors
PoDoFo is a free portable C++ library to work with the PDF file format.
PoDoFo provides classes to parse a PDF file and modify its content into memory. The changes can be written back to disk easily. Besides PDF parsing PoDoFo also provides facilities to create your own PDF files from scratch. It currently does not support rendering PDF content.
To build PoDoFo lib you'll need a c++17 compiler, CMake 3.16 and the following libraries (tentative minimum versions indicated):
- freetype2 (2.11)
- fontconfig (2.13.94, required for Unix platforms, optional for Windows)
- OpenSSL (1.1 and 3.0 are supported)
- LibXml2 (2.9.12)
- zlib
- libjpeg (9d, optional)
- libtiff (4.0.10, optional)
- libpng (1.6.37, optional)
- libidn (1.38, optional)
For the most popular toolchains, PoDoFo requires the following minimum versions:
- msvc++ 14.16 (VS 2017 15.9)
- gcc 9.0
- clang/llvm 7.0
It is regularly tested with the following IDE/toolchains versions:
- Visual Studio 2017 15.9
- Visual Studio 2019 16.11
- Visual Studio 2022 17.3
- gcc 9.3.1
- XCode 13.3
- NDK r23b
GCC 8.x support broke recently, but it could be reinstanced.
PoDoFo library is licensed under the LGPL 2.0 or later terms. PoDoFo tools are licensed under the GPL 2.0 or later terms.
PoDoFo is known to compile through a multitude of package managers (including apt-get
, brew, vcpkg, Conan), and has public continuous integration working in Ubuntu Linux, MacOS and
Windows, bootstrapping the CMake project, building and testing the library. It's highly recommended to build PoDoFo using such package managers.
There's also a playground area in the repository where you can have access to pre-build dependencies for some popular architectures/operating systems: the playground is the recommended setting to develop the library and reproduce bugs, while it's not recommended for the deployment of your application using PoDoFo. Have a look to the Readme there.
Warning: PoDoFo is known to be working in cross-compilation toolchains (eg. Android/iOS development), but support may not provided in such scenarios. If you decide to manually build dependencies you are assumed to know how to identity possible library clashes/mismatches and how to deal with compilation/linking problems that can arise in your system.
From the source root run:
sudo apt-get install -y libfontconfig1-dev libfreetype-dev libxml2-dev libssl-dev libjpeg-dev libpng-dev libtiff-dev libidn11-dev
mkdir build
cd build
cmake -DCMAKE_BUILD_TYPE=Debug ..
cmake --build . --config Debug
Install brew, then from the source root run:
brew install fontconfig freetype openssl libxml2 jpeg-turbo libpng libtiff libidn
mkdir build
cd build
cmake -DCMAKE_BUILD_TYPE=Debug -DCMAKE_FIND_FRAMEWORK=NEVER -DCMAKE_PREFIX_PATH=`brew --prefix` -DFontconfig_INCLUDE_DIR=`brew --prefix fontconfig`/include -DOPENSSL_ROOT_DIR=`brew --prefix openssl@3` ..
cmake --build . --config Debug
Install conan, then from source root run:
mkdir build
cd build
conan install ..
cmake -DCMAKE_BUILD_TYPE=Debug ..
cmake --build . --config Debug
Follow the vcpkg quickstart guide to setup the package manager repository first.
In Windows, it may be also useful to set the environment variable VCPKG_DEFAULT_TRIPLET
to x64-windows
to default installing 64 bit dependencies
and define a VCPKG_INSTALLATION_ROOT
variable with the location of the repository as created in the quickstart.
Then from source root run:
vcpkg install fontconfig freetype libxml2 openssl libjpeg-turbo libpng tiff zlib
mkdir build
cd build
cmake -DCMAKE_TOOLCHAIN_FILE=C:\vcpkg\scripts\buildsystems\vcpkg.cmake -DCMAKE_BUILD_TYPE=Debug ..
cmake --build . --config Debug
-
PODOFO_BUILD_TEST
: Build the unit tests, defaults to TRUE; -
PODOFO_BUILD_EXAMPLES
: Build the examples, defaults to TRUE; -
PODOFO_BUILD_TOOLS
: Build the PoDoFo tools, defaults to FALSE. See the relevant section in the Readme; -
PODOFO_BUILD_LIB_ONLY
: If TRUE, it will build only the library component. This unconditionally disable building tests, examples and tools; -
PODOFO_BUILD_STATIC
: If TRUE, build the library as a static object and use it in tests, examples and tools. By default a shared library is built.
If you want to use a static build of PoDoFo and you are including the PoDoFo cmake project it's very simple. Do something like the following in your CMake project:
set(PODOFO_BUILD_LIB_ONLY TRUE CACHE BOOL "" FORCE)
set(PODOFO_BUILD_STATIC TRUE CACHE BOOL "" FORCE)
add_subdirectory(podofo)
# ...
target_link_libraries(MyTarget podofo::podofo)
If you are linking against a precompiled static build of PoDoFo this is a scenario where the support is limited, as you are really supposed to be able to identify and fix linking errors. The general steps are:
- Add
PODOFO_STATIC
compilation definition to your project, or before includingpodofo.h
; - Link the libraries
podofo.a
,podofo_private.a
(orpodofo.lib
,podofo_private.lib
with MSVC) and all the dependent libraries.
The API documentation can be found at https://podofo.github.io/podofo/documentation/ .
-
Prerequisite: Ensure you have Doxygen installed on your machine. If not, visit Doxygen's official website to download and install it.
-
Generating Documentation: After completing the build process detailed in the Development quickstart chapter, navigate to the root directory of PoDoFo's source code. Open a terminal or command prompt and run the following command:
doxygen build/Doxyfile
-
Viewing the Documentation: Once the documentation generation completes, you'll find a
documentation
directory that contains the generated documentation. Openindex.html
in your favorite web browser to view the API documentation.cd build/doxygen/documentation open index.html
All std::strings
or std::string_view
in the library are intended
to hold UTF-8 encoded string content. PdfString
and PdfName
constructors
accept UTF-8 encoded strings by default (PdfName
accept only characters in the
PdfDocEncoding
char set, though). charbuff
abd bufferview
instead represent a generic octet buffer.
PoDoFo has an unstable API that is the result of an extensive API review of PoDoFo 0.9.x. At this link you can find an incomplete guide on migrating 0.9.8 code to 0.10.0. It is expected PoDoFo will converge to a stable API as soon as the review process is completed. See API Stability for more details.
Warning: Tools are currently untested and unmaintained.
PoDoFo tools are still available in the source tree
but their compilation is disabled by default because they are unsted/unmaintained,
and will not receive support until their status is cleared. It's not recommended to include them in software distributions.
If you want to build them make sure to bootstrap the CMake project with -DPODOFO_BUILD_TOOLS=TRUE
.
Tools are conveniently enabled in the playground
at least to ensure library changes won't break their compilation.
There's a TODO list, or look at the issue tracker.
Q: How do I sign a document?
A: PoDoFo HEAD now supplies a high level signing procedure which is very powerful
and that allows to sign a document without having to supply a CMS structure manually.
By default, it supports signing a document with the modern PAdES-B
compliance profiles, but there's also a support for the legacy PKCS7 signatures.
Providing you have both ASN.1 encoded X509 certificate and RSA private key, you
can sign a document with the following code:
auto inputOutput = std::make_shared<FileStreamDevice>(filepath, FileMode::Open);
PdfMemDocument doc;
doc.LoadFromDevice(inputOutput);
auto& page = doc.GetPages().GetPageAt(0);
auto& signature = page.CreateField<PdfSignature>("Signature", Rect());
auto signer = PdfSignerCms(x509certbuffer, pkeybuffer);
PoDoFo::SignDocument(doc, *inputOutput, signer, signature);
There's also a support for external signing services and/or signing the document in memory buffers. See the various signing examples in the unit tests.
Q: Can I still use an event based procedure to sign the document?
Yes, the old low level procedure hasn't changed and it's still available.
To describe the procedure briefly, one has to fully Implement a PdfSigner
,
retrieve or create a PdfSignature
field, create an output device (see next question)
and use PoDoFo::SignDocument(doc, device, signer, signature)
. When signing,
the sequence of calls of PdfSignature
works in this way: method PdfSigner::Reset()
is called first, then the PdfSigner::ComputeSignature(buffer, dryrun)
is called with
an empty buffer and the dryrun
argument set to true
. In this call one can just
resize the buffer overestimating the required size for the signature, or just
compute a fake signature that must be saved on the buffer. Then a sequence of
PdfSigner::AppendData(buffer)
are called, receiving all the document data to
be signed. A final PdfSigner::ComputeSignature(buffer, dryrun)
is called, with
the dryrun
parameter set to false
. The buffer on this call is cleared (capacity
is not altered) or not accordingly to the value of PdfSigner::SkipBufferClear()
.
Q: PdfMemDocument::SaveUpdate()
or PoDoFo::SignDocument()
write only a
partial file: why there's no mechanism to seamlessly handle the incremental
update as it was in PoDoFo 0.9.x? What should be done to correctly update/sign
the document?
A: The previous mechanism in PoDoFo 0.9.x required enablement of document for incremental updates, which is a decision step which I believe should be unnecessary. Also:
- In case of file loaded document it still required to perform the update in the same file, and the check was performed on the path of the files being operated to, which is unsafe;
- In case of buffers worked for one update/signing operation but didn't work for following operations, meaning the mechanism was bugged/unreliable.
An alternative strategy that makes clearer the fact that the incremental update must be performed on the same file from where the document was loaded, or that underlying buffer will grow its mememory consumption following subsequent operations in case of buffer loaded documents, is available. It follows a couple of examples showing the correct operations to update a document, loaded from file or buffer:
- Save an update on a file loaded document, by loading and saving the document on the same location:
auto inputOutput = std::make_shared<FileStreamDevice>(filename, FileMode::Open);
PdfMemDocument doc;
doc.LoadFromDevice(inputOutput);
doc.SaveUpdate(*inputOutput);
- Save an update on a buffer, by copying the source first to the buffer that will be also used to load the document:
charbuff outputBuffer;
FileStreamDevice input(filepath);
auto inputOutput = std::make_shared<BufferStreamDevice>(outputBuffer);
input.CopyTo(*inputOutput);
PdfMemDocument doc;
doc.LoadFromDevice(inputOutput);
doc.SaveUpdate(*inputOutput);
Signing documents can be done with same technique, read the other questions for more examples.
Q: Can I sign a document a second time?
A: Yes, this is tested, but to make sure this will work you'll to re-parse the document a second time, as re-using the already loaded document is still untested (this may change later). For example you can do as it follows:
auto inputOutput = std::make_shared<FileStreamDevice>(filepath, FileMode::Open);
{
PdfMemDocument doc;
doc.LoadFromDevice(inputOutput);
auto& page = doc.GetPages().GetPageAt(0);
auto& signature = page.CreateField<PdfSignature>("Signature1", Rect());
PdfSignerCms signer(x509certbuffer, pkeybuffer);
PoDoFo::SignDocument(doc, *inputOutput, signer, signature);
}
{
PdfMemDocument doc;
doc.LoadFromDevice(inputOutput);
auto& page = doc.GetPages().GetPageAt(0);
auto& signature = page.CreateField<PdfSignature>("Signature2", Rect());
PdfSignerCms signer(x509certbuffer, pkeybuffer);
PoDoFo::SignDocument(doc, *inputOutput, signer, signature);
}
PoDoFo may or may not work for your needs and comes with absolutely no warranty. Serious bugs, including security flaws, may be fixed at arbitrary timeframes, or not fixed at all. Priority of implementing new features and bug fixing are decided according to the interests and personal preferences of the maintainers. If you need PoDoFo to integrate a feature or bug fix that is critical to your workflow, the most welcome and fastest approach is to contribute high-quality patches.
Please subscribe to the project mailing list which is still followed by several of the original developers of PoDoFo. A gitter community has also been created to ease some more informal chatter. If you find a bug and know how to fix it, or you want to add a small feature, you're welcome to send a pull request, providing it follows the coding style of the project. As a minimum requisite, any contribution should be:
- valuable for a multitude of people and not only self relevant for the contributor;
- consistent with surrounding code and not result in unpredictable behavior and/or bugs.
Other reasons for the rejection, or hold, of a pull request may be:
- the proposed code is incomplete or hacky;
- the change doesn't fit the scope of PoDoFo;
- the change shows lack of knowledge/mastery of the PDF specification and/or C++ language;
- the change breaks automatic tests performed by the maintainer;
- general lack of time in reviewing and merging the change.
If you need to implement a bigger feature or refactor, ask first if it was already planned. The feature may be up for grabs, meaning that it's open for external contributions. Please write in the relevant issue that you started to work on that, to receive some feedback/coordination. If it's not, it means that the refactor/feature is planned to be implemented later by the maintainer(s). If the feature is not listed in the issues, add it and/or create a discussion to receive some feedback and discuss some basic design choices.
Warning: Please don't use personal email addresses for technical support inquries, but create github issues instead.
PoDoFo is currently developed and maintained by Francesco Pretto, together with Dominik Seichter and others. See the file AUTHORS.md for more details.