01a905717c
Both the C and Go code were sampling the real clock. With this, two successive iterations of runner transcripts give the same output. Change-Id: I4d9e219e863881bf518c5ac199dce938a49cdfaa Reviewed-on: https://boringssl-review.googlesource.com/11222 Commit-Queue: David Benjamin <davidben@google.com> Commit-Queue: Adam Langley <agl@google.com> Reviewed-by: Adam Langley <agl@google.com> CQ-Verified: CQ bot account: commit-bot@chromium.org <commit-bot@chromium.org>
66 lines
3.3 KiB
Markdown
66 lines
3.3 KiB
Markdown
# Fuzz testing
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Modern fuzz testers are very effective and we wish to use them to ensure that no silly bugs creep into BoringSSL.
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We primarily use Clang's [libFuzzer](http://llvm.org/docs/LibFuzzer.html) for fuzz testing and there are a number of fuzz testing functions in `fuzz/`. They are not built by default because they require libFuzzer at build time.
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In order to build the fuzz tests you will need at least Clang 3.7. Pass `-DFUZZ=1` on the CMake command line to enable building BoringSSL with coverage and AddressSanitizer, and to build the fuzz test binaries. You'll probably need to set the `CC` and `CXX` environment variables too, like this:
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```
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CC=clang CXX=clang++ cmake -GNinja -DFUZZ=1 ..
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```
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In order for the fuzz tests to link, the linker needs to find libFuzzer. This is not commonly provided and you may need to download the [Clang source code](http://llvm.org/releases/download.html) and do the following:
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```
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svn co http://llvm.org/svn/llvm-project/llvm/trunk/lib/Fuzzer
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clang++ -c -g -O2 -std=c++11 Fuzzer/*.cpp -IFuzzer
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ar ruv libFuzzer.a Fuzzer*.o
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```
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Then copy `libFuzzer.a` to the top-level of your BoringSSL source directory.
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From the `build/` directory, you can then run the fuzzers. For example:
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```
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./fuzz/cert -max_len=3072 -jobs=32 -workers=32 ../fuzz/cert_corpus/
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```
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The arguments to `jobs` and `workers` should be the number of cores that you wish to dedicate to fuzzing. By default, libFuzzer uses the largest test in the corpus (or 64 if empty) as the maximum test case length. The `max_len` argument overrides this.
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The recommended values of `max_len` for each test are:
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| Test | `max_len` value |
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|------------|-----------------|
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| `cert` | 3072 |
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| `client` | 20000 |
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| `pkcs8` | 2048 |
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| `privkey` | 2048 |
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| `server` | 4096 |
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| `spki` | 1024 |
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| `read_pem` | 512 |
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These were determined by rounding up the length of the largest case in the corpus.
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There are directories in `fuzz/` for each of the fuzzing tests which contain seed files for fuzzing. Some of the seed files were generated manually but many of them are “interesting” results generated by the fuzzing itself. (Where “interesting” means that it triggered a previously unknown path in the code.)
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## Minimising the corpuses
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When a large number of new seeds are available, it's a good idea to minimise the corpus so that different seeds that trigger the same code paths can be deduplicated.
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In order to minimise all the corpuses, build for fuzzing and run `./fuzz/minimise_corpuses.sh`. Note that minimisation is, oddly, often not idempotent for unknown reasons.
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## Fuzzer mode
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When `-DFUZZ=1` is passed into CMake, BoringSSL builds with `BORINGSSL_UNSAFE_FUZZER_MODE` defined. This modifies the library, particularly the TLS stack, to be more friendly to fuzzers. It will:
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* Replace `RAND_bytes` with a deterministic PRNG. Call `RAND_reset_for_fuzzing()` at the start of fuzzers which use `RAND_bytes` to reset the PRNG state.
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* Modify the TLS stack to perform all signature checks (CertificateVerify and ServerKeyExchange) and the Finished check, but always act as if the check succeeded.
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* Treat every cipher as the NULL cipher.
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* Use a hard-coded time instead of the actual time.
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This is to prevent the fuzzer from getting stuck at a cryptographic invariant in the protocol.
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