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// This test was found by a fuzzer input that crafted a way to provide
// an invalid serialization of ByteClasses that passed our verification.
// Specifically, the verification step in the deserialization of ByteClasses
// used an iterator that depends on part of the serialized bytes being correct.
// (Specifically, the encoding of the number of classes.)
#[test]
fn invalid_byte_classes() {
let data = include_bytes!(
"testdata/deserialize_dense_crash-9486fb7c8a93b12c12a62166b43d31640c0208a9",
);
let _ = fuzz_run(data);
}
#[test]
fn invalid_byte_classes_min() {
let data = include_bytes!(
"testdata/deserialize_dense_minimized-from-9486fb7c8a93b12c12a62166b43d31640c0208a9",
);
let _ = fuzz_run(data);
}
// This is the code from the fuzz target. Kind of sucks to duplicate it here,
// but this is fundamentally how we interpret the date.
fn fuzz_run(given_data: &[u8]) -> Option<()> {
use regex_automata::dfa::Automaton;
if given_data.len() < 2 {
return None;
}
let haystack_len = usize::from(given_data[0]);
let haystack = given_data.get(1..1 + haystack_len)?;
let given_dfa_bytes = given_data.get(1 + haystack_len..)?;
// We help the fuzzer along by adding a preamble to the bytes that should
// at least make these first parts valid. The preamble expects a very
// specific sequence of bytes, so it makes sense to just force this.
let label = "rust-regex-automata-dfa-dense\x00\x00\x00";
assert_eq!(0, label.len() % 4);
let endianness_check = 0xFEFFu32.to_ne_bytes().to_vec();
let version_check = 2u32.to_ne_bytes().to_vec();
let mut dfa_bytes: Vec<u8> = vec![];
dfa_bytes.extend(label.as_bytes());
dfa_bytes.extend(&endianness_check);
dfa_bytes.extend(&version_check);
dfa_bytes.extend(given_dfa_bytes);
// This is the real test: checking that any input we give to
// DFA::from_bytes will never result in a panic.
let (dfa, _) =
regex_automata::dfa::dense::DFA::from_bytes(&dfa_bytes).ok()?;
let _ = dfa.try_search_fwd(&regex_automata::Input::new(haystack));
Some(())
}