# Fuzzing LND # The `fuzz` package is organized into subpackages which are named after the `lnd` package they test. Each subpackage has its own set of fuzz targets. ### Setup and Installation ### This section will cover setup and installation of `go-fuzz` and fuzzing binaries. * First, we must get `go-fuzz`. ``` $ go get -u github.com/dvyukov/go-fuzz/... ``` * The following is a command to build all fuzzing harnesses for a specific package. ``` $ cd fuzz/ $ find * -maxdepth 1 -regex '[A-Za-z0-9\-_.]'* -not -name fuzz_utils.go | sed 's/\.go$//1' | xargs -I % sh -c 'go-fuzz-build -func Fuzz_% -o -%-fuzz.zip github.com/lightningnetwork/lnd/fuzz/' ``` * This may take a while since this will create zip files associated with each fuzzing target. * Now, run `go-fuzz` with `workdir` set as below! ``` $ go-fuzz -bin=<.zip archive here> -workdir= -procs= ``` `go-fuzz` will print out log lines every couple of seconds. Example output: ``` 2017/09/19 17:44:23 workers: 8, corpus: 23 (3s ago), crashers: 1, restarts: 1/748, execs: 400690 (16694/sec), cover: 394, uptime: 24s ``` Corpus is the number of items in the corpus. `go-fuzz` may add valid inputs to the corpus in an attempt to gain more coverage. Crashers is the number of inputs resulting in a crash. The inputs, and their outputs are logged in: `fuzz///crashers`. `go-fuzz` also creates a `suppressions` directory of stacktraces to ignore so that it doesn't create duplicate stacktraces. Cover is a number representing edge coverage of the program being fuzzed. ### Brontide ### The brontide fuzzers need to be run with a `-timeout` flag of 20 seconds or greater since there is a lot of machine state that must be printed on panic. ### Corpus ### Fuzzing generally works best with a corpus that is of minimal size while achieving the maximum coverage. However, `go-fuzz` automatically minimizes the corpus in-memory before fuzzing so a large corpus shouldn't make a difference - edge coverage is all that really matters. ### Test Harness ### If you take a look at the test harnesses that are used, you will see that they all consist of one function: ``` func Fuzz(data []byte) int ``` If: - `-1` is returned, the fuzzing input is ignored - `0` is returned, `go-fuzz` will add the input to the corpus and deprioritize it in future mutations. - `1` is returned, `go-fuzz` will add the input to the corpus and prioritize it in future mutations. ### Conclusion ### Citizens, do your part and `go-fuzz` `lnd` today!