Fuzzing is a testing technique that feeds auto-generated inputs to a piece of target code in an attempt to crash the code. It's one of the most effective methods we have for finding security and stability issues (see go/fuzzing-success). You can learn more about the benefits of fuzzing at go/why-fuzz.
This documentation covers the in-process guided fuzzing approach employed by different fuzzing engines, such as libFuzzer or AFL. To learn more about out-of-process fuzzers, please refer to the Blackbox fuzzing page in the ClusterFuzz documentation.
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In Chromium, you can easily create and submit fuzz targets. The targets are automatically discovered by buildbots, built with different fuzzing engines, then uploaded to the distributed ClusterFuzz fuzzing system to run at scale.
Create your first fuzz target and submit it by stepping through our Getting Started Guide.
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Creating a fuzz target that expects a protobuf instead of a byte stream as input.
*** note Note: You can also fuzz code that needs multiple mutated inputs, or to generate inputs defined by a grammar.
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Reproducing bugs found by libFuzzer/AFL and reported by ClusterFuzz.
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Fuzzing mojo interfaces using automatically generated libprotobuf-mutator fuzzers.
- LibFuzzer integration with Chromium and ClusterFuzz.
- AFL integration with Chromium and ClusterFuzz.
- Detailed references for other integration parts.
- Writing fuzzers for the non-browser parts of Chrome OS.
- Fuzzing browsertests if you need to fuzz multiple Chrome subsystems.
- Issues automatically filed by ClusterFuzz.
- Issues filed manually after running fuzz targets.
- Bugs found in PDFium by manual fuzzing.
- Bugs found in open-source projects with libFuzzer.
- Guided in-process fuzzing of Chrome components blog post.
- ClusterFuzz Stats for fuzz targets built with AddressSanitizer and libFuzzer.