# Fuzzing Litecoin Core using libFuzzer ## Quickstart guide To quickly get started fuzzing Litecoin Core using [libFuzzer](https://llvm.org/docs/LibFuzzer.html): ```sh $ git clone https://github.com/litecoin-project/litecoin $ cd litecoin/ $ ./autogen.sh $ CC=clang CXX=clang++ ./configure --enable-fuzz --with-sanitizers=address,fuzzer,undefined # macOS users: If you have problem with this step then make sure to read "macOS hints for # libFuzzer" on https://github.com/bitcoin/bitcoin/blob/master/doc/fuzzing.md#macos-hints-for-libfuzzer $ make $ src/test/fuzz/process_message # abort fuzzing using ctrl-c ``` ## Fuzzing harnesses, fuzzing output and fuzzing corpora [`process_message`](https://github.com/litecoin-project/litecoin/blob/master/src/test/fuzz/process_message.cpp) is a fuzzing harness for the [`ProcessMessage(...)` function (`net_processing`)](https://github.com/litecoin-project/litecoin/blob/master/src/net_processing.cpp). The available fuzzing harnesses are found in [`src/test/fuzz/`](https://github.com/litecoin-project/litecoin/tree/master/src/test/fuzz). The fuzzer will output `NEW` every time it has created a test input that covers new areas of the code under test. For more information on how to interpret the fuzzer output, see the [libFuzzer documentation](https://llvm.org/docs/LibFuzzer.html). If you specify a corpus directory then any new coverage increasing inputs will be saved there: ```sh $ mkdir -p process_message-seeded-from-thin-air/ $ src/test/fuzz/process_message process_message-seeded-from-thin-air/ INFO: Seed: 840522292 INFO: Loaded 1 modules (424174 inline 8-bit counters): 424174 [0x55e121ef9ab8, 0x55e121f613a6), INFO: Loaded 1 PC tables (424174 PCs): 424174 [0x55e121f613a8,0x55e1225da288), INFO: 0 files found in process_message-seeded-from-thin-air/ INFO: -max_len is not provided; libFuzzer will not generate inputs larger than 4096 bytes INFO: A corpus is not provided, starting from an empty corpus #2 INITED cov: 94 ft: 95 corp: 1/1b exec/s: 0 rss: 150Mb #3 NEW cov: 95 ft: 96 corp: 2/3b lim: 4 exec/s: 0 rss: 150Mb L: 2/2 MS: 1 InsertByte- #4 NEW cov: 96 ft: 98 corp: 3/7b lim: 4 exec/s: 0 rss: 150Mb L: 4/4 MS: 1 CrossOver- #21 NEW cov: 96 ft: 100 corp: 4/11b lim: 4 exec/s: 0 rss: 150Mb L: 4/4 MS: 2 ChangeBit-CrossOver- #324 NEW cov: 101 ft: 105 corp: 5/12b lim: 6 exec/s: 0 rss: 150Mb L: 6/6 MS: 5 CrossOver-ChangeBit-CopyPart-ChangeBit-ChangeBinInt- #1239 REDUCE cov: 102 ft: 106 corp: 6/24b lim: 14 exec/s: 0 rss: 150Mb L: 13/13 MS: 5 ChangeBit-CrossOver-EraseBytes-ChangeBit-InsertRepeatedBytes- #1272 REDUCE cov: 102 ft: 106 corp: 6/23b lim: 14 exec/s: 0 rss: 150Mb L: 12/12 MS: 3 ChangeBinInt-ChangeBit-EraseBytes- NEW_FUNC[1/677]: 0x55e11f456690 in std::_Function_base::~_Function_base() /usr/lib/gcc/x86_64-linux-gnu/8/../../../../include/c++/8/bits/std_function.h:255 NEW_FUNC[2/677]: 0x55e11f465800 in CDataStream::CDataStream(std::vector > const&, int, int) src/./streams.h:248 #2125 REDUCE cov: 4820 ft: 4867 corp: 7/29b lim: 21 exec/s: 0 rss: 155Mb L: 6/12 MS: 2 CopyPart-CMP- DE: "block"- NEW_FUNC[1/9]: 0x55e11f64d790 in std::_Rb_tree > >, std::_Select1st > > >, std::less, std::allocator > > > >::~_Rb_tree() /usr/lib/gcc/x86_64-linux-gnu/8/../../../../include/c++/8/bits/stl_tree.h:972 NEW_FUNC[2/9]: 0x55e11f64d870 in std::_Rb_tree > >, std::_Select1st > > >, std::less, std::allocator > > > >::_M_erase(std::_Rb_tree_node > > >*) /usr/lib/gcc/x86_64-linux-gnu/8/../../../../include/c++/8/bits/stl_tree.h:1875 #2228 NEW cov: 4898 ft: 4971 corp: 8/35b lim: 21 exec/s: 0 rss: 156Mb L: 6/12 MS: 3 EraseBytes-CopyPart-PersAutoDict- DE: "block"- NEW_FUNC[1/5]: 0x55e11f46df70 in std::enable_if<__and_ >::__construct_helper::type>::value, void>::type std::allocator_traits >::_S_construct(zero_after_free_allocator&, char*, unsigned char const&) /usr/lib/gcc/x86_64-linux-gnu/8/../../../../include/c++/8/bits/alloc_traits.h:243 NEW_FUNC[2/5]: 0x55e11f477390 in std::vector >::data() /usr/lib/gcc/x86_64-linux-gnu/8/../../../../include/c++/8/bits/stl_vector.h:1056 #2456 NEW cov: 4933 ft: 5042 corp: 9/55b lim: 21 exec/s: 0 rss: 160Mb L: 20/20 MS: 3 ChangeByte-InsertRepeatedBytes-PersAutoDict- DE: "block"- #2467 NEW cov: 4933 ft: 5043 corp: 10/76b lim: 21 exec/s: 0 rss: 161Mb L: 21/21 MS: 1 InsertByte- #4215 NEW cov: 4941 ft: 5129 corp: 17/205b lim: 29 exec/s: 4215 rss: 350Mb L: 29/29 MS: 5 InsertByte-ChangeBit-CopyPart-InsertRepeatedBytes-CrossOver- #4567 REDUCE cov: 4941 ft: 5129 corp: 17/204b lim: 29 exec/s: 4567 rss: 404Mb L: 24/29 MS: 2 ChangeByte-EraseBytes- #6642 NEW cov: 4941 ft: 5138 corp: 18/244b lim: 43 exec/s: 2214 rss: 450Mb L: 43/43 MS: 3 CopyPart-CMP-CrossOver- DE: "verack"- # abort fuzzing using ctrl-c $ ls process_message-seeded-from-thin-air/ 349ac589fc66a09abc0b72bb4ae445a7a19e2cd8 4df479f1f421f2ea64b383cd4919a272604087a7 a640312c98dcc55d6744730c33e41c5168c55f09 b135de16e4709558c0797c15f86046d31c5d86d7 c000f7b41b05139de8b63f4cbf7d1ad4c6e2aa7f fc52cc00ec1eb1c08470e69f809ae4993fa70082 $ cat --show-nonprinting process_message-seeded-from-thin-air/349ac589fc66a09abc0b72bb4ae445a7a19e2cd8 block^@M-^?M-^?M-^?M-^?M-^?nM-^?M-^? ``` In this case the fuzzer managed to create a `block` message which when passed to `ProcessMessage(...)` increased coverage. The project's collection of seed corpora is found in the [`bitcoin-core/qa-assets`](https://github.com/bitcoin-core/qa-assets) repo. To fuzz `process_message` using the [`bitcoin-core/qa-assets`](https://github.com/bitcoin-core/qa-assets) seed corpus: ```sh $ git clone https://github.com/bitcoin-core/qa-assets $ src/test/fuzz/process_message qa-assets/fuzz_seed_corpus/process_message/ INFO: Seed: 1346407872 INFO: Loaded 1 modules (424174 inline 8-bit counters): 424174 [0x55d8a9004ab8, 0x55d8a906c3a6), INFO: Loaded 1 PC tables (424174 PCs): 424174 [0x55d8a906c3a8,0x55d8a96e5288), INFO: 991 files found in qa-assets/fuzz_seed_corpus/process_message/ INFO: -max_len is not provided; libFuzzer will not generate inputs larger than 4096 bytes INFO: seed corpus: files: 991 min: 1b max: 1858b total: 288291b rss: 150Mb #993 INITED cov: 7063 ft: 8236 corp: 25/3821b exec/s: 0 rss: 181Mb … ``` If you find coverage increasing inputs when fuzzing you are highly encouraged to submit them for inclusion in the [`bitcoin-core/qa-assets`](https://github.com/bitcoin-core/qa-assets) repo. Every single pull request submitted against the Litecoin Core repo is automatically tested against all inputs in the [`bitcoin-core/qa-assets`](https://github.com/bitcoin-core/qa-assets) repo. Contributing new coverage increasing inputs is an easy way to help make Litecoin Core more robust. ## macOS hints for libFuzzer The default Clang/LLVM version supplied by Apple on macOS does not include fuzzing libraries, so macOS users will need to install a full version, for example using `brew install llvm`. Should you run into problems with the address sanitizer, it is possible you may need to run `./configure` with `--disable-asm` to avoid errors with certain assembly code from Litecoin Core's code. See [developer notes on sanitizers](https://github.com/litecoin-project/litecoin/blob/master/doc/developer-notes.md#sanitizers) for more information. You may also need to take care of giving the correct path for `clang` and `clang++`, like `CC=/path/to/clang CXX=/path/to/clang++` if the non-systems `clang` does not come first in your path. Full configure that was tested on macOS Catalina with `brew` installed `llvm`: ```sh ./configure --enable-fuzz --with-sanitizers=fuzzer,address,undefined CC=/usr/local/opt/llvm/bin/clang CXX=/usr/local/opt/llvm/bin/clang++ --disable-asm ``` Read the [libFuzzer documentation](https://llvm.org/docs/LibFuzzer.html) for more information. This [libFuzzer tutorial](https://github.com/google/fuzzing/blob/master/tutorial/libFuzzerTutorial.md) might also be of interest. # Fuzzing Litecoin Core using american fuzzy lop (`afl-fuzz`) ## Quickstart guide To quickly get started fuzzing Litecoin Core using [`afl-fuzz`](https://github.com/google/afl): ```sh $ git clone https://github.com/litecoin-project/litecoin $ cd litecoin/ $ git clone https://github.com/google/afl $ make -C afl/ $ make -C afl/llvm_mode/ $ ./autogen.sh # It is possible to compile with afl-gcc and afl-g++ instead of afl-clang. However, running afl-fuzz # may require more memory via the -m flag. $ CC=$(pwd)/afl/afl-clang-fast CXX=$(pwd)/afl/afl-clang-fast++ ./configure --enable-fuzz $ make # For macOS you may need to ignore x86 compilation checks when running "make". If so, # try compiling using: AFL_NO_X86=1 make $ mkdir -p inputs/ outputs/ $ echo A > inputs/thin-air-input $ afl/afl-fuzz -i inputs/ -o outputs/ -- src/test/fuzz/bech32 # You may have to change a few kernel parameters to test optimally - afl-fuzz # will print an error and suggestion if so. ``` Read the [`afl-fuzz` documentation](https://github.com/google/afl) for more information. # Fuzzing Bitcoin Core using Honggfuzz ## Quickstart guide To quickly get started fuzzing Bitcoin Core using [Honggfuzz](https://github.com/google/honggfuzz): ```sh $ git clone https://github.com/bitcoin/bitcoin $ cd bitcoin/ $ ./autogen.sh $ git clone https://github.com/google/honggfuzz $ cd honggfuzz/ $ make $ cd .. $ CC=$(pwd)/honggfuzz/hfuzz_cc/hfuzz-clang CXX=$(pwd)/honggfuzz/hfuzz_cc/hfuzz-clang++ ./configure --enable-fuzz --with-sanitizers=address,undefined $ make $ mkdir -p inputs/ $ honggfuzz/honggfuzz -i inputs/ -- src/test/fuzz/process_message ``` Read the [Honggfuzz documentation](https://github.com/google/honggfuzz/blob/master/docs/USAGE.md) for more information.