diff --git a/fuzz/fuzz_targets/deserialize_transaction.rs b/fuzz/fuzz_targets/deserialize_transaction.rs index 13c6772e..3334b314 100644 --- a/fuzz/fuzz_targets/deserialize_transaction.rs +++ b/fuzz/fuzz_targets/deserialize_transaction.rs @@ -1,7 +1,19 @@ extern crate bitcoin; type BResult = Result; fn do_test(data: &[u8]) { - let _: BResult = bitcoin::network::serialize::deserialize(data); + let tx_result: BResult = bitcoin::network::serialize::deserialize(data); + match tx_result { + Err(_) => {}, + Ok(mut tx) => { + let len = bitcoin::network::serialize::serialize(&tx).unwrap().len() as u64; + let calculated_weight = tx.get_weight(); + for input in &mut tx.input { + input.witness = vec![]; + } + let no_witness_len = bitcoin::network::serialize::serialize(&tx).unwrap().len() as u64; + assert_eq!(no_witness_len * 3 + len, calculated_weight); + }, + } } #[cfg(feature = "afl")] diff --git a/src/blockdata/transaction.rs b/src/blockdata/transaction.rs index f1077910..70d8b06a 100644 --- a/src/blockdata/transaction.rs +++ b/src/blockdata/transaction.rs @@ -33,7 +33,7 @@ use util::hash::Sha256dHash; #[cfg(feature="bitcoinconsensus")] use blockdata::script; use blockdata::script::Script; use network::serialize::{serialize, BitcoinHash, SimpleEncoder, SimpleDecoder}; -use network::encodable::{ConsensusEncodable, ConsensusDecodable}; +use network::encodable::{ConsensusEncodable, ConsensusDecodable, VarInt}; /// A reference to a transaction output #[derive(Copy, Clone, PartialEq, Eq, PartialOrd, Ord, Debug, Hash)] @@ -209,6 +209,48 @@ impl Transaction { Sha256dHash::from_data(&raw_vec) } + /// Gets the "weight" of this transaction, as defined by BIP141. For transactions with an empty + /// witness, this is simply the consensus-serialized size times 4. For transactions with a + /// witness, this is the non-witness consensus-serialized size multiplied by 3 plus the + /// with-witness consensus-serialized size. + #[inline] + pub fn get_weight(&self) -> u64 { + let mut input_weight = 0; + let mut inputs_with_witnesses = 0; + for input in &self.input { + input_weight += 4*(32 + 4 + 4 + // outpoint (32+4) + nSequence + VarInt(input.script_sig.len() as u64).encoded_length() + + input.script_sig.len() as u64); + if !input.witness.is_empty() { + inputs_with_witnesses += 1; + input_weight += VarInt(input.witness.len() as u64).encoded_length(); + for elem in &input.witness { + input_weight += VarInt(elem.len() as u64).encoded_length() + elem.len() as u64; + } + } + } + let mut output_size = 0; + for output in &self.output { + output_size += 8 + // value + VarInt(output.script_pubkey.len() as u64).encoded_length() + + output.script_pubkey.len() as u64; + } + let non_input_size = + // version: + 4 + + // count varints: + VarInt(self.input.len() as u64).encoded_length() + + VarInt(self.output.len() as u64).encoded_length() + + output_size + + // lock_time + 4; + if inputs_with_witnesses == 0 { + non_input_size * 4 + input_weight + } else { + non_input_size * 4 + input_weight + self.input.len() as u64 - inputs_with_witnesses + 2 + } + } + #[cfg(feature="bitcoinconsensus")] /// Verify that this transaction is able to spend some outputs of spent transactions pub fn verify (&self, spent : &HashMap) -> Result<(), script::Error> { @@ -431,6 +473,7 @@ mod tests { assert_eq!(realtx.bitcoin_hash().be_hex_string(), "a6eab3c14ab5272a58a5ba91505ba1a4b6d7a3a9fcbd187b6cd99a7b6d548cb7".to_string()); + assert_eq!(realtx.get_weight(), 193*4); } #[test] @@ -485,6 +528,7 @@ mod tests { assert_eq!(tx.bitcoin_hash().be_hex_string(), "d6ac4a5e61657c4c604dcde855a1db74ec6b3e54f32695d72c5e11c7761ea1b4"); assert_eq!(tx.txid().be_hex_string(), "9652aa62b0e748caeec40c4cb7bc17c6792435cc3dfe447dd1ca24f912a1c6ec"); + assert_eq!(tx.get_weight(), 2718); // non-segwit tx from my mempool let hex_tx = hex_bytes( @@ -528,6 +572,7 @@ mod tests { fn test_segwit_tx_decode() { let hex_tx = hex_bytes("010000000001010000000000000000000000000000000000000000000000000000000000000000ffffffff3603da1b0e00045503bd5704c7dd8a0d0ced13bb5785010800000000000a636b706f6f6c122f4e696e6a61506f6f6c2f5345475749542fffffffff02b4e5a212000000001976a914876fbb82ec05caa6af7a3b5e5a983aae6c6cc6d688ac0000000000000000266a24aa21a9edf91c46b49eb8a29089980f02ee6b57e7d63d33b18b4fddac2bcd7db2a39837040120000000000000000000000000000000000000000000000000000000000000000000000000").unwrap(); let tx: Transaction = deserialize(&hex_tx).unwrap(); + assert_eq!(tx.get_weight(), 780); let encoded = strason::from_serialize(&tx).unwrap(); let decoded = encoded.into_deserialize().unwrap();