extern crate bitcoin; fn do_test(data: &[u8]) { let tx_result: Result = bitcoin::consensus::encode::deserialize(data); match tx_result { Err(_) => {}, Ok(mut tx) => { let ser = bitcoin::consensus::encode::serialize(&tx); assert_eq!(&ser[..], data); let len = ser.len(); let calculated_weight = tx.weight().to_wu() as usize; for input in &mut tx.input { input.witness = bitcoin::blockdata::witness::Witness::default(); } let no_witness_len = bitcoin::consensus::encode::serialize(&tx).len(); // For 0-input transactions, `no_witness_len` will be incorrect because // we serialize as segwit even after "stripping the witnesses". We need // to drop two bytes (i.e. eight weight) if tx.input.is_empty() { assert_eq!(no_witness_len * 3 + len - 8, calculated_weight); } else { assert_eq!(no_witness_len * 3 + len, calculated_weight); } }, } } #[cfg(feature = "afl")] #[macro_use] extern crate afl; #[cfg(feature = "afl")] fn main() { fuzz!(|data| { do_test(&data); }); } #[cfg(feature = "honggfuzz")] #[macro_use] extern crate honggfuzz; #[cfg(feature = "honggfuzz")] fn main() { loop { fuzz!(|data| { do_test(data); }); } } #[cfg(test)] mod tests { fn extend_vec_from_hex(hex: &str, out: &mut Vec) { let mut b = 0; for (idx, c) in hex.as_bytes().iter().enumerate() { b <<= 4; match *c { b'A'..=b'F' => b |= c - b'A' + 10, b'a'..=b'f' => b |= c - b'a' + 10, b'0'..=b'9' => b |= c - b'0', _ => panic!("Bad hex"), } if (idx & 1) == 1 { out.push(b); b = 0; } } } #[test] fn duplicate_crash() { let mut a = Vec::new(); extend_vec_from_hex("000700000001000000010000", &mut a); super::do_test(&a); } }