Add tests for psbt serde

This commit is contained in:
sanket1729 2020-09-01 16:45:34 -05:00
parent 1ab33aa685
commit e97dda0ffe
1 changed files with 114 additions and 1 deletions

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@ -163,6 +163,7 @@ impl Decodable for PartiallySignedTransaction {
#[cfg(test)] #[cfg(test)]
mod tests { mod tests {
use hashes::hex::FromHex; use hashes::hex::FromHex;
use hashes::{sha256, hash160, Hash, ripemd160};
use hash_types::Txid; use hash_types::Txid;
use std::collections::BTreeMap; use std::collections::BTreeMap;
@ -175,7 +176,7 @@ mod tests {
use consensus::encode::{deserialize, serialize, serialize_hex}; use consensus::encode::{deserialize, serialize, serialize_hex};
use util::bip32::{ChildNumber, DerivationPath, ExtendedPrivKey, ExtendedPubKey, Fingerprint}; use util::bip32::{ChildNumber, DerivationPath, ExtendedPrivKey, ExtendedPubKey, Fingerprint};
use util::key::PublicKey; use util::key::PublicKey;
use util::psbt::map::{Global, Output}; use util::psbt::map::{Global, Output, Input};
use util::psbt::raw; use util::psbt::raw;
use super::PartiallySignedTransaction; use super::PartiallySignedTransaction;
@ -561,4 +562,116 @@ mod tests {
assert_eq!(psbt.inputs[0].unknown, unknown) assert_eq!(psbt.inputs[0].unknown, unknown)
} }
} }
#[test]
fn serialize_and_deserialize_preimage_psbt(){
// create a sha preimage map
let mut sha256_preimages = BTreeMap::new();
sha256_preimages.insert(sha256::Hash::hash(&[1u8, 2u8]), vec![1u8, 2u8]);
sha256_preimages.insert(sha256::Hash::hash(&[1u8]), vec![1u8]);
// same for hash160
let mut hash160_preimages = BTreeMap::new();
hash160_preimages.insert(hash160::Hash::hash(&[1u8, 2u8]), vec![1u8, 2u8]);
hash160_preimages.insert(hash160::Hash::hash(&[1u8]), vec![1u8]);
// same vector as valid_vector_1 from BIPs with added
let mut unserialized = PartiallySignedTransaction {
global: Global {
unsigned_tx: Transaction {
version: 2,
lock_time: 1257139,
input: vec![TxIn {
previous_output: OutPoint {
txid: Txid::from_hex(
"f61b1742ca13176464adb3cb66050c00787bb3a4eead37e985f2df1e37718126",
).unwrap(),
vout: 0,
},
script_sig: Script::new(),
sequence: 4294967294,
witness: vec![],
}],
output: vec![
TxOut {
value: 99999699,
script_pubkey: hex_script!("76a914d0c59903c5bac2868760e90fd521a4665aa7652088ac"),
},
TxOut {
value: 100000000,
script_pubkey: hex_script!("a9143545e6e33b832c47050f24d3eeb93c9c03948bc787"),
},
],
},
unknown: BTreeMap::new(),
},
inputs: vec![Input {
non_witness_utxo: Some(Transaction {
version: 1,
lock_time: 0,
input: vec![TxIn {
previous_output: OutPoint {
txid: Txid::from_hex(
"e567952fb6cc33857f392efa3a46c995a28f69cca4bb1b37e0204dab1ec7a389",
).unwrap(),
vout: 1,
},
script_sig: hex_script!("160014be18d152a9b012039daf3da7de4f53349eecb985"),
sequence: 4294967295,
witness: vec![
Vec::from_hex("304402202712be22e0270f394f568311dc7ca9a68970b8025fdd3b240229f07f8a5f3a240220018b38d7dcd314e734c9276bd6fb40f673325bc4baa144c800d2f2f02db2765c01").unwrap(),
Vec::from_hex("03d2e15674941bad4a996372cb87e1856d3652606d98562fe39c5e9e7e413f2105").unwrap(),
],
},
TxIn {
previous_output: OutPoint {
txid: Txid::from_hex(
"b490486aec3ae671012dddb2bb08466bef37720a533a894814ff1da743aaf886",
).unwrap(),
vout: 1,
},
script_sig: hex_script!("160014fe3e9ef1a745e974d902c4355943abcb34bd5353"),
sequence: 4294967295,
witness: vec![
Vec::from_hex("3045022100d12b852d85dcd961d2f5f4ab660654df6eedcc794c0c33ce5cc309ffb5fce58d022067338a8e0e1725c197fb1a88af59f51e44e4255b20167c8684031c05d1f2592a01").unwrap(),
Vec::from_hex("0223b72beef0965d10be0778efecd61fcac6f79a4ea169393380734464f84f2ab3").unwrap(),
],
}],
output: vec![
TxOut {
value: 200000000,
script_pubkey: hex_script!("76a91485cff1097fd9e008bb34af709c62197b38978a4888ac"),
},
TxOut {
value: 190303501938,
script_pubkey: hex_script!("a914339725ba21efd62ac753a9bcd067d6c7a6a39d0587"),
},
],
}),
..Default::default()
},],
outputs: vec![
Output {
..Default::default()
},
Output {
..Default::default()
},
],
};
unserialized.inputs[0].hash160_preimages = hash160_preimages;
unserialized.inputs[0].sha256_preimages = sha256_preimages;
let rtt : PartiallySignedTransaction = hex_psbt!(&serialize_hex(&unserialized)).unwrap();
assert_eq!(rtt, unserialized);
// Now add an ripemd160 with incorrect preimage
let mut ripemd160_preimages = BTreeMap::new();
ripemd160_preimages.insert(ripemd160::Hash::hash(&[17u8]), vec![18u8]);
unserialized.inputs[0].ripemd_preimages = ripemd160_preimages;
// Now the roundtrip should fail as the preimage is incorrect.
let rtt : Result<PartiallySignedTransaction, _> = hex_psbt!(&serialize_hex(&unserialized));
assert!(rtt.is_err());
}
} }