1bac1fd518
The `network` module deals with data types and logic related to internetworking bitcoind nodes, this is commonly referred to as the p2p layer. Rename the `network` module to `p2p` and fix all the paths. |
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.. | ||
contrib | ||
fuzz_targets | ||
hfuzz_input | ||
.gitignore | ||
Cargo.toml | ||
README.md | ||
cycle.sh | ||
fuzz-util.sh | ||
fuzz.sh | ||
generate-files.sh |
README.md
Fuzzing
bitcoin
and bitcoin_hashes
have fuzzing harnesses setup for use with
honggfuzz.
To run the fuzz-tests as in CI -- briefly fuzzing every target -- simply run
./fuzz.sh
in this directory.
To build honggfuzz, you must have libunwind on your system, as well as libopcodes and libbfd from binutils 2.38 on your system. The most recently-released binutils 2.39 has changed their API in a breaking way.
On Nix, you can obtain these libraries by running
nix-shell -p libopcodes_2_38 -p libunwind
and then run fuzz.sh as above.
Fuzzing with weak cryptography
You may wish to replace the hashing and signing code with broken crypto, which will be faster and enable the fuzzer to do otherwise impossible things such as forging signatures or finding preimages to hashes.
Doing so may result in spurious bug reports since the broken crypto does not respect the encoding or algebraic invariants upheld by the real crypto. We would like to improve this but it's a nontrivial problem -- though not beyond the abilities of a motivated student with a few months of time. Please let us know if you are interested in taking this on!
Meanwhile, to use the broken crypto, simply compile (and run the fuzzing scripts) with
RUSTFLAGS="--cfg=hashes_fuzz --cfg=secp256k1_fuzz"
which will replace the hashing library with broken hashes, and the secp256k1 library with broken cryptography.
Needless to say, NEVER COMPILE REAL CODE WITH THESE FLAGS because if a fuzzer can break your crypto, so can anybody.
Long-term fuzzing
To see the full list of targets, the most straightforward way is to run
source ./fuzz-util.sh
listTargetNames
To run each of them for an hour, run
./cycle.sh
To run a single fuzztest indefinitely, run
HFUZZ_BUILD_ARGS='--features honggfuzz_fuzz' cargo hfuzz run <target>
This script uses the chrt
utility to try to reduce the priority of the
jobs. If you would like to run for longer, the most straightforward way
is to edit cycle.sh
before starting. To run the fuzz-tests in parallel,
you will need to implement a custom harness.
Adding fuzz tests
All fuzz tests can be found in the fuzz_target/
directory. Adding a new
one is as simple as copying an existing one and editing the do_test
function to do what you want.
If your test clearly belongs to a specific crate, please put it in that
crate's directory. Otherwise you can put it directly in fuzz_target/
.
If you need to add dependencies, edit the file generate-files.sh
to add
it to the generated Cargo.toml
.
Once you've added a fuzztest, regenerate the Cargo.toml
and CI job by
running
./generate-files.sh
Then to test your fuzztest, run
./fuzz.sh <target>
If it is working, you will see a rapid stream of data for many seconds (you can hit Ctrl+C to stop it early). If not, you should quickly see an error.
Reproducing Failures
If a fuzztest fails, it will exit with a summary which looks something like
...
fuzzTarget : hfuzz_target/x86_64-unknown-linux-gnu/release/hashes_sha256
CRASH:
DESCRIPTION:
ORIG_FNAME: 00000000000000000000000000000000.00000000.honggfuzz.cov
FUZZ_FNAME: hfuzz_workspace/hashes_sha256/SIGABRT.PC.7ffff7c8abc7.STACK.18826d9b64.CODE.-6.ADDR.0.INSTR.mov____%eax,%ebp.fuzz
...
=====================================================================
fff400610004
The final line is a hex-encoded version of the input that caused the crash. You
can test this directly by editing the duplicate_crash
test to copy/paste the
hex output into the call to extend_vec_from_hex
. Then run the test with
cargo test
Note that if you set your RUSTFLAGS
while fuzzing (see above) you must make
sure they are set the same way when running cargo test
.