Merge pull request #390 from instagibbs/bip143_sighash_notall
Add bip143 sighash support for other flags
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commit
930a6ca1dc
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@ -587,7 +587,7 @@ pub enum SigHashType {
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impl SigHashType {
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/// Break the sighash flag into the "real" sighash flag and the ANYONECANPAY boolean
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fn split_anyonecanpay_flag(&self) -> (SigHashType, bool) {
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pub(crate) fn split_anyonecanpay_flag(&self) -> (SigHashType, bool) {
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match *self {
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SigHashType::All => (SigHashType::All, false),
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SigHashType::None => (SigHashType::None, false),
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@ -19,15 +19,16 @@
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//! signatures, which are placed in the scriptSig.
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//!
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use hashes::Hash;
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use hashes::{Hash, sha256d};
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use hash_types::SigHash;
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use blockdata::script::Script;
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use blockdata::transaction::{Transaction, TxIn};
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use blockdata::transaction::{Transaction, TxIn, SigHashType};
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use consensus::encode::Encodable;
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/// Parts of a sighash which are common across inputs or signatures, and which are
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/// sufficient (in conjunction with a private key) to sign the transaction
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#[derive(Clone, PartialEq, Eq, Debug)]
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#[deprecated(since="0.24.0", note="please use `SigHashCache` instead")]
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pub struct SighashComponents {
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tx_version: u32,
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tx_locktime: u32,
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@ -39,6 +40,7 @@ pub struct SighashComponents {
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pub hash_outputs: SigHash,
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}
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#[allow(deprecated)]
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impl SighashComponents {
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/// Compute the sighash components from an unsigned transaction and auxiliary
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/// information about its inputs.
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@ -99,7 +101,122 @@ impl SighashComponents {
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}
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}
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/// A replacement for SigHashComponents which supports all sighash modes
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pub struct SigHashCache<'a> {
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/// Access to transaction required for various introspection
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tx: &'a Transaction,
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/// Hash of all the previous outputs, computed as required
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hash_prevouts: Option<sha256d::Hash>,
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/// Hash of all the input sequence nos, computed as required
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hash_sequence: Option<sha256d::Hash>,
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/// Hash of all the outputs in this transaction, computed as required
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hash_outputs: Option<sha256d::Hash>,
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}
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impl<'a> SigHashCache<'a> {
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/// Compute the sighash components from an unsigned transaction and auxiliary
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/// in a lazy manner when required.
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/// For the generated sighashes to be valid, no fields in the transaction may change except for
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/// script_sig and witnesses.
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pub fn new(tx: &Transaction) -> SigHashCache {
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SigHashCache {
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tx: tx,
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hash_prevouts: None,
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hash_sequence: None,
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hash_outputs: None,
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}
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}
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/// Calculate hash for prevouts
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pub fn hash_prevouts(&mut self) -> sha256d::Hash {
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let hash_prevout = &mut self.hash_prevouts;
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let input = &self.tx.input;
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*hash_prevout.get_or_insert_with(|| {
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let mut enc = sha256d::Hash::engine();
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for txin in input {
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txin.previous_output.consensus_encode(&mut enc).unwrap();
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}
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sha256d::Hash::from_engine(enc)
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})
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}
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/// Calculate hash for input sequence values
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pub fn hash_sequence(&mut self) -> sha256d::Hash {
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let hash_sequence = &mut self.hash_sequence;
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let input = &self.tx.input;
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*hash_sequence.get_or_insert_with(|| {
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let mut enc = sha256d::Hash::engine();
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for txin in input {
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txin.sequence.consensus_encode(&mut enc).unwrap();
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}
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sha256d::Hash::from_engine(enc)
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})
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}
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/// Calculate hash for outputs
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pub fn hash_outputs(&mut self) -> sha256d::Hash {
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let hash_output = &mut self.hash_outputs;
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let output = &self.tx.output;
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*hash_output.get_or_insert_with(|| {
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let mut enc = sha256d::Hash::engine();
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for txout in output {
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txout.consensus_encode(&mut enc).unwrap();
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}
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sha256d::Hash::from_engine(enc)
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})
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}
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/// Compute the BIP143 sighash for any flag type. See SighashComponents::sighash_all simpler
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/// API for the most common case
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pub fn signature_hash(&mut self, input_index: usize, script_code: &Script, value: u64, sighash_type: SigHashType) -> SigHash {
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let zero_hash = sha256d::Hash::default();
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let (sighash, anyone_can_pay) = sighash_type.split_anyonecanpay_flag();
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let mut enc = SigHash::engine();
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self.tx.version.consensus_encode(&mut enc).unwrap();
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if !anyone_can_pay {
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self.hash_prevouts().consensus_encode(&mut enc).unwrap();
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} else {
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zero_hash.consensus_encode(&mut enc).unwrap();
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}
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if !anyone_can_pay && sighash != SigHashType::Single && sighash != SigHashType::None {
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self.hash_sequence().consensus_encode(&mut enc).unwrap();
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} else {
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zero_hash.consensus_encode(&mut enc).unwrap();
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}
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let txin = &self.tx.input[input_index];
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txin
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.previous_output
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.consensus_encode(&mut enc)
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.unwrap();
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script_code.consensus_encode(&mut enc).unwrap();
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value.consensus_encode(&mut enc).unwrap();
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txin.sequence.consensus_encode(&mut enc).unwrap();
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if sighash != SigHashType::Single && sighash != SigHashType::None {
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self.hash_outputs().consensus_encode(&mut enc).unwrap();
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} else if sighash == SigHashType::Single && input_index < self.tx.output.len() {
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let mut single_enc = SigHash::engine();
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self.tx.output[input_index].consensus_encode(&mut single_enc).unwrap();
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SigHash::from_engine(single_enc).consensus_encode(&mut enc).unwrap();
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} else {
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zero_hash.consensus_encode(&mut enc).unwrap();
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}
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self.tx.lock_time.consensus_encode(&mut enc).unwrap();
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sighash_type.as_u32().consensus_encode(&mut enc).unwrap();
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SigHash::from_engine(enc)
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}
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}
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#[cfg(test)]
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#[allow(deprecated)]
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mod tests {
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use hash_types::SigHash;
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use blockdata::script::Script;
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@ -120,6 +237,17 @@ mod tests {
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witness_script
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}
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fn run_test_sighash_bip143(tx: &str, script: &str, input_index: usize, value: u64, hash_type: u32, expected_result: &str) {
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let tx: Transaction = deserialize(&Vec::<u8>::from_hex(tx).unwrap()[..]).unwrap();
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let script = Script::from(Vec::<u8>::from_hex(script).unwrap());
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let raw_expected = SigHash::from_hex(expected_result).unwrap();
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let expected_result = SigHash::from_slice(&raw_expected[..]).unwrap();
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let mut cache = SigHashCache::new(&tx);
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let sighash_type = SigHashType::from_u32(hash_type);
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let actual_result = cache.signature_hash(input_index, &script, value, sighash_type);
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assert_eq!(actual_result, expected_result);
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}
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#[test]
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fn bip143_p2wpkh() {
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let tx = deserialize::<Transaction>(
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@ -237,4 +365,15 @@ mod tests {
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hex_hash!(SigHash, "185c0be5263dce5b4bb50a047973c1b6272bfbd0103a89444597dc40b248ee7c")
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);
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}
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#[test]
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fn bip143_sighash_flags() {
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// All examples generated via Bitcoin Core RPC using signrawtransactionwithwallet
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// with additional debug printing
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run_test_sighash_bip143("0200000001cf309ee0839b8aaa3fbc84f8bd32e9c6357e99b49bf6a3af90308c68e762f1d70100000000feffffff0288528c61000000001600146e8d9e07c543a309dcdeba8b50a14a991a658c5be0aebb0000000000160014698d8419804a5d5994704d47947889ff7620c004db000000", "76a91462744660c6b5133ddeaacbc57d2dc2d7b14d0b0688ac", 0, 1648888940, 0x01, "0a1bc2758dbb5b3a56646f8cafbf63f410cc62b77a482f8b87552683300a7711");
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run_test_sighash_bip143("0200000001cf309ee0839b8aaa3fbc84f8bd32e9c6357e99b49bf6a3af90308c68e762f1d70100000000feffffff0288528c61000000001600146e8d9e07c543a309dcdeba8b50a14a991a658c5be0aebb0000000000160014698d8419804a5d5994704d47947889ff7620c004db000000", "76a91462744660c6b5133ddeaacbc57d2dc2d7b14d0b0688ac", 0, 1648888940, 0x02, "3e275ac8b084f79f756dcd535bffb615cc94a685eefa244d9031eaf22e4cec12");
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run_test_sighash_bip143("0200000001cf309ee0839b8aaa3fbc84f8bd32e9c6357e99b49bf6a3af90308c68e762f1d70100000000feffffff0288528c61000000001600146e8d9e07c543a309dcdeba8b50a14a991a658c5be0aebb0000000000160014698d8419804a5d5994704d47947889ff7620c004db000000", "76a91462744660c6b5133ddeaacbc57d2dc2d7b14d0b0688ac", 0, 1648888940, 0x03, "191a08165ffacc3ea55753b225f323c35fd00d9cc0268081a4a501921fc6ec14");
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run_test_sighash_bip143("0200000001cf309ee0839b8aaa3fbc84f8bd32e9c6357e99b49bf6a3af90308c68e762f1d70100000000feffffff0288528c61000000001600146e8d9e07c543a309dcdeba8b50a14a991a658c5be0aebb0000000000160014698d8419804a5d5994704d47947889ff7620c004db000000", "76a91462744660c6b5133ddeaacbc57d2dc2d7b14d0b0688ac", 0, 1648888940, 0x81, "4b6b612530f94470bbbdef18f57f2990d56b239f41b8728b9a49dc8121de4559");
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run_test_sighash_bip143("0200000001cf309ee0839b8aaa3fbc84f8bd32e9c6357e99b49bf6a3af90308c68e762f1d70100000000feffffff0288528c61000000001600146e8d9e07c543a309dcdeba8b50a14a991a658c5be0aebb0000000000160014698d8419804a5d5994704d47947889ff7620c004db000000", "76a91462744660c6b5133ddeaacbc57d2dc2d7b14d0b0688ac", 0, 1648888940, 0x82, "a7e916d3acd4bb97a21e6793828279aeab02162adf8099ea4f309af81f3d5adb");
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run_test_sighash_bip143("0200000001cf309ee0839b8aaa3fbc84f8bd32e9c6357e99b49bf6a3af90308c68e762f1d70100000000feffffff0288528c61000000001600146e8d9e07c543a309dcdeba8b50a14a991a658c5be0aebb0000000000160014698d8419804a5d5994704d47947889ff7620c004db000000", "76a91462744660c6b5133ddeaacbc57d2dc2d7b14d0b0688ac", 0, 1648888940, 0x83, "d9276e2a48648ddb53a4aaa58314fc2b8067c13013e1913ffb67e0988ce82c78");
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}
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}
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