commit | 4cce8c759ab033ac9e6479d776113e00163b5b40 | [log] [tgz] |
---|---|---|
author | Fabian Meumertzheim <fabian@meumertzhe.im> | Thu Dec 01 23:36:09 2022 +0100 |
committer | GitHub <noreply@github.com> | Thu Dec 01 17:36:09 2022 -0500 |
tree | 9820c72ece81c3571ea97753ea9ae67ea64f4aad | |
parent | b193df79b10dbfb4c623bda23e825e835f12bada [diff] |
Use Bazel's default `PATH` when running Python actions (#217) * Use Bazel's default `PATH` when running Python actions Without `use_default_shell_env`, `PATH` was not set for Python actions, which resulted in `python` (or `python3`) not being found. * Pin Ubuntu images to 20.04 ubuntu-latest now resolves to ubuntu-22.04, which does not provide clang-10.
This repository contains Bazel Starlark extensions for defining fuzz tests in Bazel projects.
Fuzzing is an effective technique for uncovering security and stability bugs in software. Fuzzing works by invoking the code under test (e.g., a library API) with automatically generated data, and observing its execution to discover incorrect behavior, such as memory corruption or failed invariants. Read more here about fuzzing, additional examples, best practices, and other resources.
The rule library currently provides support for C++ and Java fuzz tests. Support for additional languages may be added in the future.
Contributions are welcome! Please read the contribution guidelines.
This section will walk you through the steps to set up fuzzing in your Bazel project and write your first fuzz test. We assume Bazel is installed on your machine.
The fuzzing rules have been tested on Bazel 4.0.0 or later. Check your Bazel version by running bazel --version
.
C++ fuzzing requires a Clang compiler. The libFuzzer engine requires at least Clang 6.0. In addition, the Honggfuzz engine requires the libunwind-dev
and libblocksruntime-dev
packages:
$ sudo apt-get install clang libunwind-dev libblocksruntime-dev
Java fuzzing requires Clang and the LLD linker:
$ sudo apt-get install clang lld
Add the following to your WORKSPACE
file:
load("@bazel_tools//tools/build_defs/repo:http.bzl", "http_archive") http_archive( name = "rules_fuzzing", sha256 = "23bb074064c6f488d12044934ab1b0631e8e6898d5cf2f6bde087adb01111573", strip_prefix = "rules_fuzzing-0.3.1", urls = ["https://github.com/bazelbuild/rules_fuzzing/archive/v0.3.1.zip"], ) load("@rules_fuzzing//fuzzing:repositories.bzl", "rules_fuzzing_dependencies") rules_fuzzing_dependencies() load("@rules_fuzzing//fuzzing:init.bzl", "rules_fuzzing_init") rules_fuzzing_init()
NOTE: Replace this snippet with the latest release instructions. To get the latest unreleased features, you may need to change the
urls
andsha256
attributes to fetch fromHEAD
. For more complexWORKSPACE
files, you may also need to reconcile conflicting dependencies; read more in the Bazel documentation.
It is best to create command shorthands for the fuzzing configurations you will use during development. In our case, let's create a configuration for libFuzzer + Address Sanitizer. In your .bazelrc
file, add the following:
# Force the use of Clang for C++ builds. build --action_env=CC=clang build --action_env=CXX=clang++ # Define the --config=asan-libfuzzer configuration. build:asan-libfuzzer --@rules_fuzzing//fuzzing:cc_engine=@rules_fuzzing//fuzzing/engines:libfuzzer build:asan-libfuzzer --@rules_fuzzing//fuzzing:cc_engine_instrumentation=libfuzzer build:asan-libfuzzer --@rules_fuzzing//fuzzing:cc_engine_sanitizer=asan
Examples for other combinations of fuzzing engine and sanitizer can be found in the User Guide.
A C++ fuzz test is specified using a cc_fuzz_test
rule. In the most basic form, a fuzz test requires a source file that implements the fuzz driver entry point.
Let's create a fuzz test that exhibits a buffer overflow. Create a fuzz_test.cc
file in your workspace root, as follows:
#include <cstddef> #include <cstdint> #include <cstdio> void TriggerBufferOverflow(const uint8_t *data, size_t size) { if (size >= 3 && data[0] == 'F' && data[1] == 'U' && data[2] == 'Z' && data[size] == 'Z') { fprintf(stderr, "BUFFER OVERFLOW!\n"); } } extern "C" int LLVMFuzzerTestOneInput(const uint8_t *data, size_t size) { TriggerBufferOverflow(data, size); return 0; }
Let's now define its build target in the BUILD
file:
load("@rules_fuzzing//fuzzing:cc_defs.bzl", "cc_fuzz_test") cc_fuzz_test( name = "fuzz_test", srcs = ["fuzz_test.cc"], )
You can now build and run the fuzz test. For each fuzz test <name>
defined, the framework automatically generates a launcher tool <name>_run
that will build and run the fuzz test according to the configuration specified:
$ bazel run --config=asan-libfuzzer //:fuzz_test_run
Our libFuzzer test will start running and immediately discover the buffer overflow issue in the code:
INFO: Seed: 2957541205 INFO: Loaded 1 modules (8 inline 8-bit counters): 8 [0x5aab10, 0x5aab18), INFO: Loaded 1 PC tables (8 PCs): 8 [0x5aab18,0x5aab98), INFO: 755 files found in /tmp/fuzzing/corpus INFO: 0 files found in fuzz_test_corpus INFO: -max_len is not provided; libFuzzer will not generate inputs larger than 35982 bytes INFO: seed corpus: files: 755 min: 1b max: 35982b total: 252654b rss: 35Mb #756 INITED cov: 6 ft: 7 corp: 4/10b exec/s: 0 rss: 47Mb ================================================================= ==724294==ERROR: AddressSanitizer: heap-buffer-overflow on address 0x602000047a74 at pc 0x0000005512d9 bp 0x7fff3049d270 sp 0x7fff3049d268
The crash is saved under /tmp/fuzzing/artifacts
and can be further inspected.
You can write java_fuzz_test
s through the Jazzer fuzzing engine. You will need to enable it in your WORKSPACE rules_fuzzing_dependencies
call:
load("@rules_fuzzing//fuzzing:repositories.bzl", "rules_fuzzing_dependencies") rules_fuzzing_dependencies(jazzer = True) load("@rules_fuzzing//fuzzing:init.bzl", "rules_fuzzing_init") rules_fuzzing_init() load("@jazzer//:repositories.bzl", "jazzer_dependencies") jazzer_dependencies() load("@jazzer//:init.bzl", "jazzer_init") jazzer_init()
To use Jazzer, it is convenient to also define a .bazelrc
configuration, similar to the C++ libFuzzer one above:
# Force the use of Clang for all builds (Jazzer requires at least Clang 9). build --action_env=CC=clang build --action_env=CXX=clang++ # Define --config=jazzer for Jazzer without sanitizer (Java only). build:jazzer --@rules_fuzzing//fuzzing:java_engine=@rules_fuzzing//fuzzing/engines:jazzer build:jazzer --@rules_fuzzing//fuzzing:cc_engine_instrumentation=jazzer build:jazzer --@rules_fuzzing//fuzzing:cc_engine_sanitizer=none # Define --config=asan-jazzer for Jazzer + ASAN. build:asan-jazzer --@rules_fuzzing//fuzzing:java_engine=@rules_fuzzing//fuzzing/engines:jazzer build:asan-jazzer --@rules_fuzzing//fuzzing:cc_engine_instrumentation=jazzer build:asan-jazzer --@rules_fuzzing//fuzzing:cc_engine_sanitizer=asan
A Java fuzz test is specified using a java_fuzz_test
rule. In the most basic form, a Java fuzz test consists of a single .java
file with a class that defines a function public static fuzzerTestOneInput(byte[] input)
.
Create the src/com/example/JavaFuzzTest.java
file in your workspace root, as follows:
package com.example; public class JavaFuzzTest { public static void fuzzerTestOneInput(byte[] data) { if (data.length >= 3 && data[0] == 'F' && data[1] == 'U' && data[2] == 'Z' && data[data.length] == 'Z') { throw new IllegalStateException( "ArrayIndexOutOfBoundException thrown above"); } } }
You should now define the corresponding target in the BUILD
file, which looks very much like a regular java_binary
:
load("@rules_fuzzing//fuzzing:java_defs.bzl", "java_fuzz_test") java_fuzz_test( name = "JavaFuzzTest", srcs = ["src/com/example/JavaFuzzTest.java"], # target_class is not needed if using the Maven directory layout. # target_class = "com.example.JavaFuzzTest", )
You can now start the fuzzer using the Jazzer engine by running:
$ bazel run --config=jazzer //:JavaFuzzTest_run
Jazzer will quickly hit an ArrayIndexOutOfBoundsException
:
INFO: Instrumented com.example.JavaFuzzTest (took 98 ms, size +96%) INFO: Seed: 4010526312 INFO: Loaded 1 modules (512 inline 8-bit counters): 512 [0x7fae23acd800, 0x7fae23acda00), INFO: Loaded 1 PC tables (512 PCs): 512 [0x7fae226c9800,0x7fae226cb800), INFO: 16 files found in /tmp/fuzzing/corpus INFO: 0 files found in test/JavaFuzzTest_corpus INFO: -max_len is not provided; libFuzzer will not generate inputs larger than 4096 bytes INFO: seed corpus: files: 16 min: 1b max: 19b total: 210b rss: 199Mb #18 INITED cov: 3 ft: 3 corp: 2/5b exec/s: 0 rss: 200Mb ... #6665 REDUCE cov: 5 ft: 5 corp: 4/10b lim: 63 exec/s: 0 rss: 202Mb L: 3/3 MS: 3 ChangeBit-ChangeBit-EraseBytes- == Java Exception: java.lang.ArrayIndexOutOfBoundsException: Index 3 out of bounds for length 3 at com.example.JavaFuzzTest.fuzzerTestOneInput(JavaFuzzTest.java:5)
Once you wrote and tested the fuzz test, you should run it on continuous fuzzing infrastructure so it starts generating tests and finding new crashes in your code.
The C++ and Java fuzzing rules provide out-of-the-box support for OSS-Fuzz, free continuous fuzzing infrastructure from Google for open source projects. Read its Bazel project guide for detailed instructions.
Congratulations, you have built and run your first fuzz test with the Bazel rules!
Check out the examples/
directory, which showcases additional features. Read the User Guide for detailed usage instructions.