432 lines
12 KiB
TypeScript
432 lines
12 KiB
TypeScript
import * as assert from 'assert';
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import { before, describe, it } from 'mocha';
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import * as bitcoin from '../..';
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import { regtestUtils } from './_regtest';
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const regtest = regtestUtils.network;
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const bip68 = require('bip68');
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function toOutputScript(address: string): Buffer {
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return bitcoin.address.toOutputScript(address, regtest);
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}
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function idToHash(txid: string): Buffer {
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return Buffer.from(txid, 'hex').reverse();
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}
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const alice = bitcoin.ECPair.fromWIF(
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'cScfkGjbzzoeewVWmU2hYPUHeVGJRDdFt7WhmrVVGkxpmPP8BHWe',
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regtest,
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);
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const bob = bitcoin.ECPair.fromWIF(
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'cMkopUXKWsEzAjfa1zApksGRwjVpJRB3831qM9W4gKZsLwjHXA9x',
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regtest,
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);
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const charles = bitcoin.ECPair.fromWIF(
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'cMkopUXKWsEzAjfa1zApksGRwjVpJRB3831qM9W4gKZsMSb4Ubnf',
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regtest,
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);
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const dave = bitcoin.ECPair.fromWIF(
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'cMkopUXKWsEzAjfa1zApksGRwjVpJRB3831qM9W4gKZsMwS4pqnx',
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regtest,
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);
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describe('bitcoinjs-lib (transactions w/ CSV)', () => {
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// force update MTP
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before(async () => {
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await regtestUtils.mine(11);
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});
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const hashType = bitcoin.Transaction.SIGHASH_ALL;
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interface KeyPair {
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publicKey: Buffer;
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}
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// IF MTP (from when confirmed) > seconds, _alice can redeem
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function csvCheckSigOutput(
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_alice: KeyPair,
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_bob: KeyPair,
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sequence: number,
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): Buffer {
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return bitcoin.script.fromASM(
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`
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OP_IF
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${bitcoin.script.number.encode(sequence).toString('hex')}
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OP_CHECKSEQUENCEVERIFY
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OP_DROP
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OP_ELSE
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${_bob.publicKey.toString('hex')}
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OP_CHECKSIGVERIFY
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OP_ENDIF
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${_alice.publicKey.toString('hex')}
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OP_CHECKSIG
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`
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.trim()
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.replace(/\s+/g, ' '),
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);
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}
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// 2 of 3 multisig of _bob, _charles, _dave,
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// but after sequence1 time, _alice can allow the multisig to become 1 of 3.
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// but after sequence2 time, _alice can sign for the output all by themself.
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/* tslint:disable-next-line */
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// Ref: https://github.com/bitcoinbook/bitcoinbook/blob/f8b883dcd4e3d1b9adf40fed59b7e898fbd9241f/ch07.asciidoc#complex-script-example
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// Note: bitcoinjs-lib will not offer specific support for problems with
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// advanced script usages such as below. Use at your own risk.
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function complexCsvOutput(
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_alice: KeyPair,
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_bob: KeyPair,
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_charles: KeyPair,
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_dave: KeyPair,
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sequence1: number,
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sequence2: number,
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): Buffer {
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return bitcoin.script.fromASM(
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`
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OP_IF
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OP_IF
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OP_2
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OP_ELSE
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${bitcoin.script.number.encode(sequence1).toString('hex')}
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OP_CHECKSEQUENCEVERIFY
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OP_DROP
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${_alice.publicKey.toString('hex')}
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OP_CHECKSIGVERIFY
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OP_1
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OP_ENDIF
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${_bob.publicKey.toString('hex')}
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${_charles.publicKey.toString('hex')}
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${_dave.publicKey.toString('hex')}
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OP_3
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OP_CHECKMULTISIG
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OP_ELSE
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${bitcoin.script.number.encode(sequence2).toString('hex')}
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OP_CHECKSEQUENCEVERIFY
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OP_DROP
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${_alice.publicKey.toString('hex')}
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OP_CHECKSIG
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OP_ENDIF
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`
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.trim()
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.replace(/\s+/g, ' '),
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);
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}
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// expiry will pass, {Alice's signature} OP_TRUE
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it(
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'can create (and broadcast via 3PBP) a Transaction where Alice can redeem ' +
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'the output after the expiry (in the future) (simple CHECKSEQUENCEVERIFY)',
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async () => {
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// 5 blocks from now
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const sequence = bip68.encode({ blocks: 5 });
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const p2sh = bitcoin.payments.p2sh({
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redeem: {
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output: csvCheckSigOutput(alice, bob, sequence),
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},
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network: regtest,
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});
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// fund the P2SH(CSV) address
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const unspent = await regtestUtils.faucet(p2sh.address!, 1e5);
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const tx = new bitcoin.Transaction();
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tx.version = 2;
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tx.addInput(idToHash(unspent.txId), unspent.vout, sequence);
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tx.addOutput(toOutputScript(regtestUtils.RANDOM_ADDRESS), 7e4);
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// {Alice's signature} OP_TRUE
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const signatureHash = tx.hashForSignature(
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0,
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p2sh.redeem!.output!,
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hashType,
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);
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const redeemScriptSig = bitcoin.payments.p2sh({
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network: regtest,
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redeem: {
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network: regtest,
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output: p2sh.redeem!.output,
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input: bitcoin.script.compile([
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bitcoin.script.signature.encode(
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alice.sign(signatureHash),
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hashType,
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),
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bitcoin.opcodes.OP_TRUE,
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]),
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},
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}).input;
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tx.setInputScript(0, redeemScriptSig!);
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// TODO: test that it failures _prior_ to expiry, unfortunately, race conditions when run concurrently
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// ...
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// into the future!
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await regtestUtils.mine(10);
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await regtestUtils.broadcast(tx.toHex());
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await regtestUtils.verify({
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txId: tx.getId(),
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address: regtestUtils.RANDOM_ADDRESS,
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vout: 0,
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value: 7e4,
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});
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},
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);
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// expiry in the future, {Alice's signature} OP_TRUE
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it(
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'can create (but fail to broadcast via 3PBP) a Transaction where Alice ' +
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'attempts to redeem before the expiry (simple CHECKSEQUENCEVERIFY)',
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async () => {
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// two hours after confirmation
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const sequence = bip68.encode({ seconds: 7168 });
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const p2sh = bitcoin.payments.p2sh({
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network: regtest,
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redeem: {
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output: csvCheckSigOutput(alice, bob, sequence),
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},
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});
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// fund the P2SH(CSV) address
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const unspent = await regtestUtils.faucet(p2sh.address!, 2e4);
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const tx = new bitcoin.Transaction();
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tx.version = 2;
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tx.addInput(idToHash(unspent.txId), unspent.vout, sequence);
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tx.addOutput(toOutputScript(regtestUtils.RANDOM_ADDRESS), 1e4);
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// {Alice's signature} OP_TRUE
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const signatureHash = tx.hashForSignature(
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0,
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p2sh.redeem!.output!,
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hashType,
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);
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const redeemScriptSig = bitcoin.payments.p2sh({
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network: regtest,
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redeem: {
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network: regtest,
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output: p2sh.redeem!.output,
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input: bitcoin.script.compile([
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bitcoin.script.signature.encode(
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alice.sign(signatureHash),
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hashType,
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),
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bitcoin.script.signature.encode(bob.sign(signatureHash), hashType),
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bitcoin.opcodes.OP_TRUE,
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]),
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},
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}).input;
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tx.setInputScript(0, redeemScriptSig!);
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await regtestUtils.broadcast(tx.toHex()).catch(err => {
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assert.throws(() => {
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if (err) throw err;
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}, /Error: non-BIP68-final \(code 64\)/);
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});
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},
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);
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// Check first combination of complex CSV, 2 of 3
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it(
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'can create (and broadcast via 3PBP) a Transaction where Bob and Charles ' +
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'can send (complex CHECKSEQUENCEVERIFY)',
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async () => {
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// 2 blocks from now
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const sequence1 = bip68.encode({ blocks: 2 });
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// 5 blocks from now
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const sequence2 = bip68.encode({ blocks: 5 });
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const p2sh = bitcoin.payments.p2sh({
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redeem: {
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output: complexCsvOutput(
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alice,
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bob,
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charles,
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dave,
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sequence1,
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sequence2,
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),
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},
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network: regtest,
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});
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// fund the P2SH(CCSV) address
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const unspent = await regtestUtils.faucet(p2sh.address!, 1e5);
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const tx = new bitcoin.Transaction();
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tx.version = 2;
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tx.addInput(idToHash(unspent.txId), unspent.vout);
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tx.addOutput(toOutputScript(regtestUtils.RANDOM_ADDRESS), 7e4);
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// OP_0 {Bob sig} {Charles sig} OP_TRUE OP_TRUE
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const signatureHash = tx.hashForSignature(
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0,
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p2sh.redeem!.output!,
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hashType,
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);
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const redeemScriptSig = bitcoin.payments.p2sh({
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network: regtest,
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redeem: {
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network: regtest,
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output: p2sh.redeem!.output,
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input: bitcoin.script.compile([
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bitcoin.opcodes.OP_0,
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bitcoin.script.signature.encode(bob.sign(signatureHash), hashType),
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bitcoin.script.signature.encode(
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charles.sign(signatureHash),
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hashType,
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),
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bitcoin.opcodes.OP_TRUE,
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bitcoin.opcodes.OP_TRUE,
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]),
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},
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}).input;
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tx.setInputScript(0, redeemScriptSig!);
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await regtestUtils.broadcast(tx.toHex());
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await regtestUtils.verify({
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txId: tx.getId(),
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address: regtestUtils.RANDOM_ADDRESS,
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vout: 0,
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value: 7e4,
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});
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},
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);
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// Check first combination of complex CSV, mediator + 1 of 3 after 2 blocks
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it(
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'can create (and broadcast via 3PBP) a Transaction where Alice (mediator) ' +
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'and Bob can send after 2 blocks (complex CHECKSEQUENCEVERIFY)',
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async () => {
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// 2 blocks from now
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const sequence1 = bip68.encode({ blocks: 2 });
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// 5 blocks from now
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const sequence2 = bip68.encode({ blocks: 5 });
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const p2sh = bitcoin.payments.p2sh({
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redeem: {
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output: complexCsvOutput(
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alice,
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bob,
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charles,
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dave,
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sequence1,
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sequence2,
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),
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},
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network: regtest,
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});
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// fund the P2SH(CCSV) address
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const unspent = await regtestUtils.faucet(p2sh.address!, 1e5);
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const tx = new bitcoin.Transaction();
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tx.version = 2;
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tx.addInput(idToHash(unspent.txId), unspent.vout, sequence1); // Set sequence1 for input
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tx.addOutput(toOutputScript(regtestUtils.RANDOM_ADDRESS), 7e4);
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// OP_0 {Bob sig} {Alice mediator sig} OP_FALSE OP_TRUE
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const signatureHash = tx.hashForSignature(
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0,
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p2sh.redeem!.output!,
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hashType,
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);
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const redeemScriptSig = bitcoin.payments.p2sh({
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network: regtest,
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redeem: {
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network: regtest,
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output: p2sh.redeem!.output,
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input: bitcoin.script.compile([
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bitcoin.opcodes.OP_0,
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bitcoin.script.signature.encode(bob.sign(signatureHash), hashType),
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bitcoin.script.signature.encode(
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alice.sign(signatureHash),
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hashType,
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),
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bitcoin.opcodes.OP_0,
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bitcoin.opcodes.OP_TRUE,
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]),
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},
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}).input;
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tx.setInputScript(0, redeemScriptSig!);
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// Wait 2 blocks
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await regtestUtils.mine(2);
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await regtestUtils.broadcast(tx.toHex());
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await regtestUtils.verify({
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txId: tx.getId(),
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address: regtestUtils.RANDOM_ADDRESS,
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vout: 0,
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value: 7e4,
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});
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},
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);
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// Check first combination of complex CSV, mediator after 5 blocks
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it(
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'can create (and broadcast via 3PBP) a Transaction where Alice (mediator) ' +
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'can send after 5 blocks (complex CHECKSEQUENCEVERIFY)',
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async () => {
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// 2 blocks from now
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const sequence1 = bip68.encode({ blocks: 2 });
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// 5 blocks from now
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const sequence2 = bip68.encode({ blocks: 5 });
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const p2sh = bitcoin.payments.p2sh({
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redeem: {
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output: complexCsvOutput(
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alice,
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bob,
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charles,
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dave,
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sequence1,
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sequence2,
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),
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},
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network: regtest,
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});
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// fund the P2SH(CCSV) address
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const unspent = await regtestUtils.faucet(p2sh.address!, 1e5);
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const tx = new bitcoin.Transaction();
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tx.version = 2;
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tx.addInput(idToHash(unspent.txId), unspent.vout, sequence2); // Set sequence2 for input
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tx.addOutput(toOutputScript(regtestUtils.RANDOM_ADDRESS), 7e4);
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// {Alice mediator sig} OP_FALSE
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const signatureHash = tx.hashForSignature(
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0,
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p2sh.redeem!.output!,
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hashType,
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);
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const redeemScriptSig = bitcoin.payments.p2sh({
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network: regtest,
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redeem: {
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network: regtest,
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output: p2sh.redeem!.output,
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input: bitcoin.script.compile([
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bitcoin.script.signature.encode(
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alice.sign(signatureHash),
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hashType,
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),
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bitcoin.opcodes.OP_0,
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]),
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},
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}).input;
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tx.setInputScript(0, redeemScriptSig!);
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// Wait 5 blocks
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await regtestUtils.mine(5);
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await regtestUtils.broadcast(tx.toHex());
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await regtestUtils.verify({
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txId: tx.getId(),
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address: regtestUtils.RANDOM_ADDRESS,
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vout: 0,
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value: 7e4,
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});
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},
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);
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});
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