cpython/Modules/_xxtestfuzz
..
dictionaries
fuzz_csv_reader_corpus
fuzz_elementtree_parsewhole_corpus
fuzz_json_loads_corpus
fuzz_pycompile_corpus
fuzz_sre_compile_corpus
fuzz_struct_unpack_corpus
README.rst
_xxtestfuzz.c
fuzz_tests.txt
fuzzer.c

README.rst

Fuzz Tests for CPython
======================

These fuzz tests are designed to be included in Google's `oss-fuzz`_ project.

oss-fuzz works against a library exposing a function of the form
``int LLVMFuzzerTestOneInput(const uint8_t* data, size_t length)``. We provide
that library (``fuzzer.c``), and include a ``_fuzz`` module for testing with
some toy values -- no fuzzing occurs in Python's test suite.

oss-fuzz will regularly pull from CPython, discover all the tests in
``fuzz_tests.txt``, and run them -- so adding a new test here means it will
automatically be run in oss-fuzz, while also being smoke-tested as part of
CPython's test suite.

In addition, the tests are run on GitHub Actions using CIFuzz for PRs to the
main branch changing relevant files.

Adding a new fuzz test
----------------------

Add the test name on a new line in ``fuzz_tests.txt``.

In ``fuzzer.c``, add a function to be run::

    int $test_name (const char* data, size_t size) {
        ...
        return 0;
    }


And invoke it from ``LLVMFuzzerTestOneInput``::

    #if _Py_FUZZ_YES(fuzz_builtin_float)
        rv |= _run_fuzz(data, size, fuzz_builtin_float);
    #endif

``LLVMFuzzerTestOneInput`` will run in oss-fuzz, with each test in
``fuzz_tests.txt`` run separately.

Seed data (corpus) for the test can be provided in a subfolder called
``<test_name>_corpus`` such as ``fuzz_json_loads_corpus``. A wide variety
of good input samples allows the fuzzer to more easily explore a diverse
set of paths and provides a better base to find buggy input from.

Dictionaries of tokens (see oss-fuzz documentation for more details) can
be placed in the ``dictionaries`` folder with the name of the test.
For example, ``dictionaries/fuzz_json_loads.dict`` contains JSON tokens
to guide the fuzzer.

What makes a good fuzz test
---------------------------

Libraries written in C that might handle untrusted data are worthwhile. The
more complex the logic (e.g. parsing), the more likely this is to be a useful
fuzz test. See the existing examples for reference, and refer to the
`oss-fuzz`_ docs.

.. _oss-fuzz: https://github.com/google/oss-fuzz