Skip to main content

A coverage-guided fuzzer for Python and Python extensions.

Project description

Atheris: A Coverage-Guided, Native Python Fuzzer

Atheris is a coverage-guided Python fuzzing engine. It supports fuzzing of Python code, but also native extensions written for CPython. Atheris is based off of libFuzzer. When fuzzing native code, Atheris can be used in combination with Address Sanitizer or Undefined Behavior Sanitizer to catch extra bugs.

Installation Instructions

Atheris supports Linux (32- and 64-bit) and Mac OS X.


Atheris relies on libFuzzer, which is distributed with Clang. If you have a sufficiently new version of clang on your path, installation is as simple as:

pip install atheris

If you don't have clang installed or it's too old, you'll need to download and build the latest version of LLVM. Follow the instructions in Installing Against New LLVM below.


Atheris relies on libFuzzer, which is distributed with Clang. However, Apple Clang doesn't come with libFuzzer, so you'll need to install a new version of LLVM from head. Follow the instructions in Installing Against New LLVM below.

Installing Against New LLVM

# Building LLVM
git clone
cd llvm-project
mkdir build
cd build
cmake -DLLVM_ENABLE_PROJECTS='clang;compiler-rt' -G "Unix Makefiles" ../llvm
make -j 10  # This step is very slow

# Installing Atheris
CLANG_BIN="$(pwd)/bin/clang" pip3 install atheris

Using Atheris


import atheris
import sys

def TestOneInput(data):
  if data == b"bad":
    raise RuntimeError("Badness!")
atheris.Setup(sys.argv, TestOneInput)

Atheris supports fuzzing Python code, and uses Python code coverage information for this purpose.

Fuzzing Python Code

While Atheris supports Python 2.7 and Python 3.3+, its Python code coverage support is significantly better when used with Python 3.8+, as it supports opcode-by-opcode coverage. If fuzzing Python code, we strongly recommend using Python 3.8+ where possible.

When fuzzing Python, Atheris will report a failure if the Python code under test throws an uncaught exception.

Be sure to pass enable_python_coverage=True as an argument to Setup(). You can additionally pass enable_python_opcode_coverage=[True/False] to turn on and off opcode coverage. Opcode coverage is typically beneficial, but may provide more performance impact than benefit on large Python projects. This option defaults to True on Python 3.8+, or False otherwise.

Opcode coverage must be enabled to support features like intelligent string comparison fuzzing for Python code.

Fuzzing Native Extensions

In order for native fuzzing to be effective, such native extensions must be built with Clang, using the argument -fsanitize=fuzzer-no-link. They should be built with the same clang as was used when building Atheris.

The mechanics of building with Clang depend on your native extension. However, if your library is built with setuptools (e.g. pip and, the following is often sufficient:

CC="/usr/bin/clang" CFLAGS="-fsanitize=fuzzer-no-link" CXX="/usr/bin/clang++" CXXFLAGS="-fsanitize=fuzzer-no-link" pip install .

When fuzzing a native extension, you must LD_PRELOAD the atheris dynamic library. Otherwise, you will receive an error such as undefined symbol: __sancov_lowest_stack. Atheris provides a feature to do this: you can find the atheris dynamic library with the following command:

python -c "import atheris; print(atheris.path())"

Then, run Python with LD_PRELOAD:

LD_PRELOAD="path/to/" python ./

If fuzzing a native extension without a significant Python component, you'll get better performance by specifying enable_python_coverage=False as an argument to Setup().

Using Sanitizers

We strongly recommend using a Clang sanitizer, such as -fsanitize=address, when fuzzing native extensions. However, there are complexities involved in doing this; see for details.


Main Interface

The atheris module provides two key functions: Setup() and Fuzz().

In your source file, define a fuzzer entry point function, and pass it to atheris.Setup(), along with the fuzzer's arguments (typically sys.argv). Finally, call atheris.Fuzz() to start fuzzing. Here's an example:

def Setup(args, callback, [optional arguments...]):

Configure the Atheris Python Fuzzer. You must call atheris.Setup() before atheris.Fuzz().


  • args: A list of strings: the process arguments to pass to the fuzzer, typically sys.argv. This argument list may be modified in-place, to remove arguments consumed by the fuzzer.
  • test_one_input: your fuzzer's entry point. Must take a single bytes argument (str in Python 2). This will be repeatedly invoked with a single bytes container.

Optional Args:

  • enable_python_coverage: boolean. Controls whether to collect coverage information on Python code. Defaults to True. If fuzzing a native extension with minimal Python code, set to False for a performance increase.
  • enable_python_opcode_coverage: boolean. Controls whether to collect Python opcode trace events. You typically want this enabled. Defaults to True on Python 3.8+, and False otherwise. Ignored if enable_python_coverage=False, or if using a version of Python prior to 3.8.
def Fuzz():

This starts the fuzzer. You must have called Setup() before calling this function. This function does not return.


Often, a bytes object is not convenient input to your code being fuzzed. Similar to libFuzzer, we provide a FuzzedDataProvider to translate these bytes into other input forms.

You can construct the FuzzedDataProvider with:

fdp = atheris.FuzzedDataProvider(input_bytes)

The FuzzedDataProvider then supports the following functions:

def ConsumeBytes(count: int)

Consume count bytes.

def ConsumeUnicode(count: int)

Consume unicode characters. Might contain surrogate pair characters, which according to the specification are invalid in this situation. However, many core software tools (e.g. Windows file paths) support them, so other software often needs to too.

def ConsumeUnicodeNoSurrogates(count: int)

Consume unicode characters, but never generate surrogate pair characters.

def ConsumeString(count: int)

Alias for ConsumeBytes in Python 2, or ConsumeUnicode in Python 3.

def ConsumeInt(int: bytes)

Consume a signed integer of the specified size (when written in two's complement notation).

def ConsumeUInt(int: bytes)

Consume an unsigned integer of the specified size.

def ConsumeIntInRange(min: int, max: int)

Consume an integer in the range [min, max].

def ConsumeIntList(count: int, bytes: int)

Consume a list of count integers of size bytes.

def ConsumeIntListInRange(count: int, min: int, max: int)

Consume a list of count integers in the range [min, max].

def ConsumeFloat()

Consume an arbitrary floating-point value. Might produce weird values like NaN and Inf.

def ConsumeRegularFloat()

Consume an arbitrary numeric floating-point value; never produces a special type like NaN or Inf.

def ConsumeProbability()

Consume a floating-point value in the range [0, 1].

def ConsumeFloatInRange(min: float, max: float)

Consume a floating-point value in the range [min, max].

def ConsumeFloatList(count: int)

Consume a list of count arbitrary floating-point values. Might produce weird values like NaN and Inf.

def ConsumeRegularFloatList(count: int)

Consume a list of count arbitrary numeric floating-point values; never produces special types like NaN or Inf.

def ConsumeProbabilityList(count: int)

Consume a list of count floats in the range [0, 1].

def ConsumeFloatListInRange(count: int, min: float, max: float)

Consume a list of count floats in the range [min, max]

def PickValueInList(l: list)

Given a list, pick a random value

def ConsumeBool()

Consume either True or False.

Use with Hypothesis

The Hypothesis library for property-based testing is also useful for writing fuzz harnesses. As well as a great library of "strategies" which describe the inputs to generate, using Hypothesis makes it trivial to reproduce failures found by the fuzzer - including automatically finding a minimal reproducing input. For example:

import atheris
from hypothesis import given, strategies as st

@given(st.from_regex(r"\w+!?", fullmatch=True))
def test(string):
  assert string != "bad"

atheris.Setup(sys.argv, test.hypothesis.fuzz_one_input)

See here for more details, or here for what you can generate.

Project details

Download files

Download the file for your platform. If you're not sure which to choose, learn more about installing packages.

Source Distribution

atheris-1.0.6.tar.gz (39.7 kB view hashes)

Uploaded Source

Supported by

AWS AWS Cloud computing and Security Sponsor Datadog Datadog Monitoring Fastly Fastly CDN Google Google Download Analytics Microsoft Microsoft PSF Sponsor Pingdom Pingdom Monitoring Sentry Sentry Error logging StatusPage StatusPage Status page