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What it tests no longer applies since tweak_keys now introduces an unspendable script path.
326 lines
10 KiB
Rust
326 lines
10 KiB
Rust
use std::collections::HashMap;
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use rand_core::{RngCore, OsRng};
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use k256::{
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elliptic_curve::{
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group::{ff::Field, Group},
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sec1::{Tag, ToEncodedPoint},
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},
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Scalar, ProjectivePoint,
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};
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use frost::{
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curve::Secp256k1,
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Participant, ThresholdKeys,
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tests::{THRESHOLD, key_gen, sign_without_caching},
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};
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use bitcoin_serai::{
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bitcoin::{
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hashes::Hash as HashTrait,
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blockdata::opcodes::all::OP_RETURN,
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script::{PushBytesBuf, Instruction, Instructions, Script},
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OutPoint, Amount, TxOut, Transaction, Network, Address,
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},
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wallet::{
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tweak_keys, p2tr_script_buf, ReceivedOutput, Scanner, TransactionError, SignableTransaction,
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},
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rpc::Rpc,
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};
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mod runner;
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use runner::rpc;
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const FEE: u64 = 20;
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fn is_even(key: ProjectivePoint) -> bool {
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key.to_encoded_point(true).tag() == Tag::CompressedEvenY
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}
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async fn send_and_get_output(rpc: &Rpc, scanner: &Scanner, key: ProjectivePoint) -> ReceivedOutput {
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let block_number = rpc.get_latest_block_number().await.unwrap() + 1;
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rpc
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.rpc_call::<Vec<String>>(
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"generatetoaddress",
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serde_json::json!([
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1,
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Address::from_script(&p2tr_script_buf(key).unwrap(), Network::Regtest).unwrap()
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]),
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)
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.await
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.unwrap();
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// Mine until maturity
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rpc
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.rpc_call::<Vec<String>>(
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"generatetoaddress",
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serde_json::json!([100, Address::p2sh(Script::new(), Network::Regtest).unwrap()]),
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)
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.await
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.unwrap();
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let block = rpc.get_block(&rpc.get_block_hash(block_number).await.unwrap()).await.unwrap();
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let mut outputs = scanner.scan_block(&block);
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assert_eq!(outputs, scanner.scan_transaction(&block.txdata[0]));
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assert_eq!(outputs.len(), 1);
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assert_eq!(outputs[0].outpoint(), &OutPoint::new(block.txdata[0].compute_txid(), 0));
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assert_eq!(outputs[0].value(), block.txdata[0].output[0].value.to_sat());
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assert_eq!(
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ReceivedOutput::read::<&[u8]>(&mut outputs[0].serialize().as_ref()).unwrap(),
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outputs[0]
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);
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outputs.swap_remove(0)
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}
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fn keys() -> (HashMap<Participant, ThresholdKeys<Secp256k1>>, ProjectivePoint) {
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let mut keys = key_gen(&mut OsRng);
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for keys in keys.values_mut() {
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*keys = tweak_keys(keys);
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}
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let key = keys.values().next().unwrap().group_key();
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(keys, key)
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}
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fn sign(
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keys: &HashMap<Participant, ThresholdKeys<Secp256k1>>,
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tx: &SignableTransaction,
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) -> Transaction {
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let mut machines = HashMap::new();
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for i in (1 ..= THRESHOLD).map(|i| Participant::new(i).unwrap()) {
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machines.insert(i, tx.clone().multisig(&keys[&i].clone()).unwrap());
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}
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sign_without_caching(&mut OsRng, machines, &[])
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}
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async_sequential! {
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async fn test_scanner() {
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// Test Scanners are creatable for even keys.
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for _ in 0 .. 128 {
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let key = ProjectivePoint::random(&mut OsRng);
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assert_eq!(Scanner::new(key).is_some(), is_even(key));
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}
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let mut key = ProjectivePoint::random(&mut OsRng);
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while !is_even(key) {
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key += ProjectivePoint::GENERATOR;
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}
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{
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let mut scanner = Scanner::new(key).unwrap();
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for _ in 0 .. 128 {
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let mut offset = Scalar::random(&mut OsRng);
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let registered = scanner.register_offset(offset).unwrap();
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// Registering this again should return None
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assert!(scanner.register_offset(offset).is_none());
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// We can only register offsets resulting in even keys
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// Make this even
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while !is_even(key + (ProjectivePoint::GENERATOR * offset)) {
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offset += Scalar::ONE;
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}
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// Ensure it matches the registered offset
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assert_eq!(registered, offset);
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// Assert registering this again fails
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assert!(scanner.register_offset(offset).is_none());
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}
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}
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let rpc = rpc().await;
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let mut scanner = Scanner::new(key).unwrap();
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assert_eq!(send_and_get_output(&rpc, &scanner, key).await.offset(), Scalar::ZERO);
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// Register an offset and test receiving to it
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let offset = scanner.register_offset(Scalar::random(&mut OsRng)).unwrap();
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assert_eq!(
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send_and_get_output(&rpc, &scanner, key + (ProjectivePoint::GENERATOR * offset))
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.await
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.offset(),
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offset
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);
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}
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async fn test_transaction_errors() {
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let (_, key) = keys();
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let rpc = rpc().await;
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let scanner = Scanner::new(key).unwrap();
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let output = send_and_get_output(&rpc, &scanner, key).await;
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assert_eq!(output.offset(), Scalar::ZERO);
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let inputs = vec![output];
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let addr = || p2tr_script_buf(key).unwrap();
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let payments = vec![(addr(), 1000)];
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assert!(SignableTransaction::new(inputs.clone(), &payments, None, None, FEE).is_ok());
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assert_eq!(
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SignableTransaction::new(vec![], &payments, None, None, FEE),
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Err(TransactionError::NoInputs)
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);
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// No change
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assert!(SignableTransaction::new(inputs.clone(), &[(addr(), 1000)], None, None, FEE).is_ok());
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// Consolidation TX
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assert!(SignableTransaction::new(inputs.clone(), &[], Some(addr()), None, FEE).is_ok());
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// Data
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assert!(SignableTransaction::new(inputs.clone(), &[], None, Some(vec![]), FEE).is_ok());
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// No outputs
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assert_eq!(
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SignableTransaction::new(inputs.clone(), &[], None, None, FEE),
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Err(TransactionError::NoOutputs),
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);
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assert_eq!(
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SignableTransaction::new(inputs.clone(), &[(addr(), 1)], None, None, FEE),
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Err(TransactionError::DustPayment),
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);
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assert!(
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SignableTransaction::new(inputs.clone(), &payments, None, Some(vec![0; 80]), FEE).is_ok()
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);
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assert_eq!(
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SignableTransaction::new(inputs.clone(), &payments, None, Some(vec![0; 81]), FEE),
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Err(TransactionError::TooMuchData),
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);
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assert_eq!(
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SignableTransaction::new(inputs.clone(), &[], Some(addr()), None, 0),
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Err(TransactionError::TooLowFee),
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);
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assert_eq!(
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SignableTransaction::new(inputs.clone(), &[(addr(), inputs[0].value() * 2)], None, None, FEE),
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Err(TransactionError::NotEnoughFunds),
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);
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assert_eq!(
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SignableTransaction::new(inputs, &vec![(addr(), 1000); 10000], None, None, FEE),
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Err(TransactionError::TooLargeTransaction),
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);
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}
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async fn test_send() {
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let (keys, key) = keys();
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let rpc = rpc().await;
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let mut scanner = Scanner::new(key).unwrap();
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// Get inputs, one not offset and one offset
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let output = send_and_get_output(&rpc, &scanner, key).await;
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assert_eq!(output.offset(), Scalar::ZERO);
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let offset = scanner.register_offset(Scalar::random(&mut OsRng)).unwrap();
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let offset_key = key + (ProjectivePoint::GENERATOR * offset);
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let offset_output = send_and_get_output(&rpc, &scanner, offset_key).await;
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assert_eq!(offset_output.offset(), offset);
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// Declare payments, change, fee
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let payments = [
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(p2tr_script_buf(key).unwrap(), 1005),
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(p2tr_script_buf(offset_key).unwrap(), 1007)
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];
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let change_offset = scanner.register_offset(Scalar::random(&mut OsRng)).unwrap();
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let change_key = key + (ProjectivePoint::GENERATOR * change_offset);
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let change_addr = p2tr_script_buf(change_key).unwrap();
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// Create and sign the TX
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let tx = SignableTransaction::new(
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vec![output.clone(), offset_output.clone()],
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&payments,
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Some(change_addr.clone()),
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None,
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FEE
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).unwrap();
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let needed_fee = tx.needed_fee();
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let expected_id = tx.txid();
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let tx = sign(&keys, &tx);
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assert_eq!(tx.output.len(), 3);
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// Ensure we can scan it
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let outputs = scanner.scan_transaction(&tx);
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for (o, output) in outputs.iter().enumerate() {
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assert_eq!(output.outpoint(), &OutPoint::new(tx.compute_txid(), u32::try_from(o).unwrap()));
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assert_eq!(&ReceivedOutput::read::<&[u8]>(&mut output.serialize().as_ref()).unwrap(), output);
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}
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assert_eq!(outputs[0].offset(), Scalar::ZERO);
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assert_eq!(outputs[1].offset(), offset);
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assert_eq!(outputs[2].offset(), change_offset);
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// Make sure the payments were properly created
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for ((output, scanned), payment) in tx.output.iter().zip(outputs.iter()).zip(payments.iter()) {
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assert_eq!(
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output,
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&TxOut { script_pubkey: payment.0.clone(), value: Amount::from_sat(payment.1) },
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);
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assert_eq!(scanned.value(), payment.1 );
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}
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// Make sure the change is correct
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assert_eq!(needed_fee, u64::try_from(tx.vsize()).unwrap() * FEE);
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let input_value = output.value() + offset_output.value();
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let output_value = tx.output.iter().map(|output| output.value.to_sat()).sum::<u64>();
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assert_eq!(input_value - output_value, needed_fee);
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let change_amount =
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input_value - payments.iter().map(|payment| payment.1).sum::<u64>() - needed_fee;
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assert_eq!(
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tx.output[2],
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TxOut { script_pubkey: change_addr, value: Amount::from_sat(change_amount) },
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);
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// This also tests send_raw_transaction and get_transaction, which the RPC test can't
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// effectively test
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rpc.send_raw_transaction(&tx).await.unwrap();
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let mut hash = *tx.compute_txid().as_raw_hash().as_byte_array();
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hash.reverse();
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assert_eq!(tx, rpc.get_transaction(&hash).await.unwrap());
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assert_eq!(expected_id, hash);
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}
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async fn test_data() {
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let (keys, key) = keys();
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let rpc = rpc().await;
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let scanner = Scanner::new(key).unwrap();
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let output = send_and_get_output(&rpc, &scanner, key).await;
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assert_eq!(output.offset(), Scalar::ZERO);
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let data_len = 60 + usize::try_from(OsRng.next_u64() % 21).unwrap();
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let mut data = vec![0; data_len];
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OsRng.fill_bytes(&mut data);
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let tx = sign(
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&keys,
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&SignableTransaction::new(
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vec![output],
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&[],
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Some(p2tr_script_buf(key).unwrap()),
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Some(data.clone()),
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FEE
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).unwrap()
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);
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assert!(tx.output[0].script_pubkey.is_op_return());
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let check = |mut instructions: Instructions| {
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assert_eq!(instructions.next().unwrap().unwrap(), Instruction::Op(OP_RETURN));
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assert_eq!(
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instructions.next().unwrap().unwrap(),
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Instruction::PushBytes(&PushBytesBuf::try_from(data.clone()).unwrap()),
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);
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assert!(instructions.next().is_none());
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};
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check(tx.output[0].script_pubkey.instructions());
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check(tx.output[0].script_pubkey.instructions_minimal());
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}
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}
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