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cmark-gfm is an extended version of the C reference implementation of CommonMark, a rationalized version of Markdown syntax with a spec. This repository adds GitHub Flavored Markdown extensions to the upstream implementation, as defined in the spec.

The rest of the README is preserved as-is from the upstream source. Note that the library and binaries produced by this fork are suffixed with -gfm in order to distinguish them from the upstream.


It provides a shared library (libcmark) with functions for parsing CommonMark documents to an abstract syntax tree (AST), manipulating the AST, and rendering the document to HTML, groff man, LaTeX, CommonMark, or an XML representation of the AST. It also provides a command-line program (cmark) for parsing and rendering CommonMark documents.

Advantages of this library:

It is easy to use libcmark in python, lua, ruby, and other dynamic languages: see the wrappers/ subdirectory for some simple examples.

There are also libraries that wrap libcmark for Go, Haskell, Ruby, Lua, Perl, Python, R, Tcl, Scala and Node.js.

Installing

Building the C program (cmark) and shared library (libcmark) requires cmake. If you modify scanners.re, then you will also need re2c (>= 0.14.2), which is used to generate scanners.c from scanners.re. We have included a pre-generated scanners.c in the repository to reduce build dependencies.

If you have GNU make, you can simply make, make test, and make install. This calls cmake to create a Makefile in the build directory, then uses that Makefile to create the executable and library. The binaries can be found in build/src. The default installation prefix is /usr/local. To change the installation prefix, pass the INSTALL_PREFIX variable if you run make for the first time: make INSTALL_PREFIX=path.

For a more portable method, you can use cmake manually. cmake knows how to create build environments for many build systems. For example, on FreeBSD:

mkdir build
cd build
cmake ..  # optionally: -DCMAKE_INSTALL_PREFIX=path
make      # executable will be created as build/src/cmark
make test
make install

Or, to create Xcode project files on OSX:

mkdir build
cd build
cmake -G Xcode ..
open cmark.xcodeproj

The GNU Makefile also provides a few other targets for developers. To run a benchmark:

make bench

For more detailed benchmarks:

make newbench

To run a test for memory leaks using valgrind:

make leakcheck

To reformat source code using clang-format:

make format

To run a "fuzz test" against ten long randomly generated inputs:

make fuzztest

To do a more systematic fuzz test with american fuzzy lop:

AFL_PATH=/path/to/afl_directory make afl

Fuzzing with libFuzzer is also supported but, because libFuzzer is still under active development, may not work with your system-installed version of clang. Assuming LLVM has been built in $HOME/src/llvm/build the fuzzer can be run with:

CC="$HOME/src/llvm/build/bin/clang" LIB_FUZZER_PATH="$HOME/src/llvm/lib/Fuzzer/libFuzzer.a" make libFuzzer

To make a release tarball and zip archive:

make archive

Installing (Windows)

To compile with MSVC and NMAKE:

nmake

You can cross-compile a Windows binary and dll on linux if you have the mingw32 compiler:

make mingw

The binaries will be in build-mingw/windows/bin.

Usage

Instructions for the use of the command line program and library can be found in the man pages in the man subdirectory.

Security

By default, the library will scrub raw HTML and potentially dangerous links (javascript:, vbscript:, data:, file:).

To allow these, use the option CMARK_OPT_UNSAFE (or --unsafe) with the command line program. If doing so, we recommend you use a HTML sanitizer specific to your needs to protect against XSS attacks.

Contributing

There is a forum for discussing CommonMark; you should use it instead of github issues for questions and possibly open-ended discussions. Use the github issue tracker only for simple, clear, actionable issues.

Authors

John MacFarlane wrote the original library and program. The block parsing algorithm was worked out together with David Greenspan. Vicent Marti optimized the C implementation for performance, increasing its speed tenfold. Kārlis Gaņģis helped work out a better parsing algorithm for links and emphasis, eliminating several worst-case performance issues. Nick Wellnhofer contributed many improvements, including most of the C library's API and its test harness.