bitcoinjs-lib/test/psbt.spec.ts

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import * as assert from 'assert';
import BIP32Factory from 'bip32';
import * as ecc from 'tiny-secp256k1';
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import * as crypto from 'crypto';
import { ECPair } from 'ecpair';
import { describe, it } from 'mocha';
const bip32 = BIP32Factory(ecc);
import { networks as NETWORKS, payments, Psbt, Signer, SignerAsync } from '..';
import * as preFixtures from './fixtures/psbt.json';
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const validator = (
pubkey: Buffer,
msghash: Buffer,
signature: Buffer,
): boolean => ECPair.fromPublicKey(pubkey).verify(msghash, signature);
const initBuffers = (object: any): typeof preFixtures =>
JSON.parse(JSON.stringify(object), (_, value) => {
const regex = new RegExp(/^Buffer.from\(['"](.*)['"], ['"](.*)['"]\)$/);
const result = regex.exec(value);
if (!result) return value;
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const data = result[1];
const encoding = result[2];
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return Buffer.from(data, encoding as BufferEncoding);
});
const fixtures = initBuffers(preFixtures);
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const upperCaseFirstLetter = (str: string): string =>
str.replace(/^./, s => s.toUpperCase());
const toAsyncSigner = (signer: Signer): SignerAsync => {
const ret: SignerAsync = {
publicKey: signer.publicKey,
sign: (hash: Buffer, lowerR: boolean | undefined): Promise<Buffer> => {
return new Promise(
(resolve, rejects): void => {
setTimeout(() => {
try {
const r = signer.sign(hash, lowerR);
resolve(r);
} catch (e) {
rejects(e);
}
}, 10);
},
);
},
};
return ret;
};
const failedAsyncSigner = (publicKey: Buffer): SignerAsync => {
return {
publicKey,
sign: (__: Buffer): Promise<Buffer> => {
return new Promise(
(_, reject): void => {
setTimeout(() => {
reject(new Error('sign failed'));
}, 10);
},
);
},
};
};
// const b = (hex: string) => Buffer.from(hex, 'hex');
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describe(`Psbt`, () => {
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describe('BIP174 Test Vectors', () => {
fixtures.bip174.invalid.forEach(f => {
it(`Invalid: ${f.description}`, () => {
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assert.throws(() => {
Psbt.fromBase64(f.psbt);
}, new RegExp(f.errorMessage));
});
});
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fixtures.bip174.valid.forEach(f => {
it(`Valid: ${f.description}`, () => {
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assert.doesNotThrow(() => {
Psbt.fromBase64(f.psbt);
});
});
});
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fixtures.bip174.failSignChecks.forEach(f => {
const keyPair = ECPair.makeRandom();
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it(`Fails Signer checks: ${f.description}`, () => {
const psbt = Psbt.fromBase64(f.psbt);
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assert.throws(() => {
psbt.signInput(f.inputToCheck, keyPair);
}, new RegExp(f.errorMessage));
});
});
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fixtures.bip174.creator.forEach(f => {
it('Creates expected PSBT', () => {
const psbt = new Psbt();
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for (const input of f.inputs) {
psbt.addInput(input);
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}
for (const output of f.outputs) {
const script = Buffer.from(output.script, 'hex');
psbt.addOutput({ ...output, script });
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}
assert.strictEqual(psbt.toBase64(), f.result);
});
});
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fixtures.bip174.updater.forEach(f => {
it('Updates PSBT to the expected result', () => {
const psbt = Psbt.fromBase64(f.psbt);
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for (const inputOrOutput of ['input', 'output']) {
const fixtureData = (f as any)[`${inputOrOutput}Data`];
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if (fixtureData) {
for (const [i, data] of fixtureData.entries()) {
const txt = upperCaseFirstLetter(inputOrOutput);
(psbt as any)[`update${txt}`](i, data);
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}
}
}
assert.strictEqual(psbt.toBase64(), f.result);
});
});
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fixtures.bip174.signer.forEach(f => {
it('Signs PSBT to the expected result', () => {
const psbt = Psbt.fromBase64(f.psbt);
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f.keys.forEach(({ inputToSign, WIF }) => {
const keyPair = ECPair.fromWIF(WIF, NETWORKS.testnet);
psbt.signInput(inputToSign, keyPair);
});
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assert.strictEqual(psbt.toBase64(), f.result);
});
});
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fixtures.bip174.combiner.forEach(f => {
it('Combines two PSBTs to the expected result', () => {
const psbts = f.psbts.map(psbt => Psbt.fromBase64(psbt));
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psbts[0].combine(psbts[1]);
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// Produces a different Base64 string due to implemetation specific key-value ordering.
// That means this test will fail:
// assert.strictEqual(psbts[0].toBase64(), f.result)
// However, if we compare the actual PSBT properties we can see they are logically identical:
assert.deepStrictEqual(psbts[0], Psbt.fromBase64(f.result));
});
});
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fixtures.bip174.finalizer.forEach(f => {
it('Finalizes inputs and gives the expected PSBT', () => {
const psbt = Psbt.fromBase64(f.psbt);
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psbt.finalizeAllInputs();
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assert.strictEqual(psbt.toBase64(), f.result);
});
});
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fixtures.bip174.extractor.forEach(f => {
it('Extracts the expected transaction from a PSBT', () => {
const psbt1 = Psbt.fromBase64(f.psbt);
const transaction1 = psbt1.extractTransaction(true).toHex();
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const psbt2 = Psbt.fromBase64(f.psbt);
const transaction2 = psbt2.extractTransaction().toHex();
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assert.strictEqual(transaction1, transaction2);
assert.strictEqual(transaction1, f.transaction);
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const psbt3 = Psbt.fromBase64(f.psbt);
delete psbt3.data.inputs[0].finalScriptSig;
delete psbt3.data.inputs[0].finalScriptWitness;
assert.throws(() => {
psbt3.extractTransaction();
}, new RegExp('Not finalized'));
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const psbt4 = Psbt.fromBase64(f.psbt);
psbt4.setMaximumFeeRate(1);
assert.throws(() => {
psbt4.extractTransaction();
}, new RegExp('Warning: You are paying around [\\d.]+ in fees'));
const psbt5 = Psbt.fromBase64(f.psbt);
psbt5.extractTransaction(true);
const fr1 = psbt5.getFeeRate();
const fr2 = psbt5.getFeeRate();
assert.strictEqual(fr1, fr2);
const psbt6 = Psbt.fromBase64(f.psbt);
const f1 = psbt6.getFee();
const f2 = psbt6.getFee();
assert.strictEqual(f1, f2);
});
});
});
describe('signInputAsync', () => {
fixtures.signInput.checks.forEach(f => {
it(f.description, async () => {
if (f.shouldSign) {
const psbtThatShouldsign = Psbt.fromBase64(f.shouldSign.psbt);
await assert.doesNotReject(async () => {
await psbtThatShouldsign.signInputAsync(
f.shouldSign.inputToCheck,
ECPair.fromWIF(f.shouldSign.WIF),
f.shouldSign.sighashTypes || undefined,
);
});
await assert.rejects(async () => {
await psbtThatShouldsign.signInputAsync(
f.shouldSign.inputToCheck,
failedAsyncSigner(ECPair.fromWIF(f.shouldSign.WIF).publicKey),
f.shouldSign.sighashTypes || undefined,
);
}, /sign failed/);
}
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if (f.shouldThrow) {
const psbtThatShouldThrow = Psbt.fromBase64(f.shouldThrow.psbt);
await assert.rejects(async () => {
await psbtThatShouldThrow.signInputAsync(
f.shouldThrow.inputToCheck,
ECPair.fromWIF(f.shouldThrow.WIF),
(f.shouldThrow as any).sighashTypes || undefined,
);
}, new RegExp(f.shouldThrow.errorMessage));
await assert.rejects(async () => {
await psbtThatShouldThrow.signInputAsync(
f.shouldThrow.inputToCheck,
toAsyncSigner(ECPair.fromWIF(f.shouldThrow.WIF)),
(f.shouldThrow as any).sighashTypes || undefined,
);
}, new RegExp(f.shouldThrow.errorMessage));
await assert.rejects(async () => {
await (psbtThatShouldThrow.signInputAsync as any)(
f.shouldThrow.inputToCheck,
);
}, new RegExp('Need Signer to sign input'));
}
});
});
});
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describe('signInput', () => {
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fixtures.signInput.checks.forEach(f => {
it(f.description, () => {
if (f.shouldSign) {
const psbtThatShouldsign = Psbt.fromBase64(f.shouldSign.psbt);
assert.doesNotThrow(() => {
psbtThatShouldsign.signInput(
f.shouldSign.inputToCheck,
ECPair.fromWIF(f.shouldSign.WIF),
f.shouldSign.sighashTypes || undefined,
);
});
}
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if (f.shouldThrow) {
const psbtThatShouldThrow = Psbt.fromBase64(f.shouldThrow.psbt);
assert.throws(() => {
psbtThatShouldThrow.signInput(
f.shouldThrow.inputToCheck,
ECPair.fromWIF(f.shouldThrow.WIF),
(f.shouldThrow as any).sighashTypes || undefined,
);
}, new RegExp(f.shouldThrow.errorMessage));
assert.throws(() => {
(psbtThatShouldThrow.signInput as any)(f.shouldThrow.inputToCheck);
}, new RegExp('Need Signer to sign input'));
}
});
});
});
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describe('signAllInputsAsync', () => {
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fixtures.signInput.checks.forEach(f => {
if (f.description === 'checks the input exists') return;
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it(f.description, async () => {
if (f.shouldSign) {
const psbtThatShouldsign = Psbt.fromBase64(f.shouldSign.psbt);
await assert.doesNotReject(async () => {
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await psbtThatShouldsign.signAllInputsAsync(
ECPair.fromWIF(f.shouldSign.WIF),
f.shouldSign.sighashTypes || undefined,
);
});
}
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if (f.shouldThrow) {
const psbtThatShouldThrow = Psbt.fromBase64(f.shouldThrow.psbt);
await assert.rejects(async () => {
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await psbtThatShouldThrow.signAllInputsAsync(
ECPair.fromWIF(f.shouldThrow.WIF),
(f.shouldThrow as any).sighashTypes || undefined,
);
}, new RegExp('No inputs were signed'));
await assert.rejects(async () => {
await (psbtThatShouldThrow.signAllInputsAsync as any)();
}, new RegExp('Need Signer to sign input'));
}
});
});
});
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describe('signAllInputs', () => {
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fixtures.signInput.checks.forEach(f => {
if (f.description === 'checks the input exists') return;
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it(f.description, () => {
if (f.shouldSign) {
const psbtThatShouldsign = Psbt.fromBase64(f.shouldSign.psbt);
assert.doesNotThrow(() => {
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psbtThatShouldsign.signAllInputs(
ECPair.fromWIF(f.shouldSign.WIF),
f.shouldSign.sighashTypes || undefined,
);
});
}
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if (f.shouldThrow) {
const psbtThatShouldThrow = Psbt.fromBase64(f.shouldThrow.psbt);
assert.throws(() => {
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psbtThatShouldThrow.signAllInputs(
ECPair.fromWIF(f.shouldThrow.WIF),
(f.shouldThrow as any).sighashTypes || undefined,
);
}, new RegExp('No inputs were signed'));
assert.throws(() => {
(psbtThatShouldThrow.signAllInputs as any)();
}, new RegExp('Need Signer to sign input'));
}
});
});
});
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describe('signInputHDAsync', () => {
fixtures.signInputHD.checks.forEach(f => {
it(f.description, async () => {
if (f.shouldSign) {
const psbtThatShouldsign = Psbt.fromBase64(f.shouldSign.psbt);
await assert.doesNotReject(async () => {
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await psbtThatShouldsign.signInputHDAsync(
f.shouldSign.inputToCheck,
bip32.fromBase58(f.shouldSign.xprv),
(f.shouldSign as any).sighashTypes || undefined,
);
});
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}
if (f.shouldThrow) {
const psbtThatShouldThrow = Psbt.fromBase64(f.shouldThrow.psbt);
await assert.rejects(async () => {
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await psbtThatShouldThrow.signInputHDAsync(
f.shouldThrow.inputToCheck,
bip32.fromBase58(f.shouldThrow.xprv),
(f.shouldThrow as any).sighashTypes || undefined,
);
}, new RegExp(f.shouldThrow.errorMessage));
await assert.rejects(async () => {
await (psbtThatShouldThrow.signInputHDAsync as any)(
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f.shouldThrow.inputToCheck,
);
}, new RegExp('Need HDSigner to sign input'));
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}
});
});
});
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describe('signInputHD', () => {
fixtures.signInputHD.checks.forEach(f => {
it(f.description, () => {
if (f.shouldSign) {
const psbtThatShouldsign = Psbt.fromBase64(f.shouldSign.psbt);
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assert.doesNotThrow(() => {
psbtThatShouldsign.signInputHD(
f.shouldSign.inputToCheck,
bip32.fromBase58(f.shouldSign.xprv),
(f.shouldSign as any).sighashTypes || undefined,
);
});
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}
if (f.shouldThrow) {
const psbtThatShouldThrow = Psbt.fromBase64(f.shouldThrow.psbt);
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assert.throws(() => {
psbtThatShouldThrow.signInputHD(
f.shouldThrow.inputToCheck,
bip32.fromBase58(f.shouldThrow.xprv),
(f.shouldThrow as any).sighashTypes || undefined,
);
}, new RegExp(f.shouldThrow.errorMessage));
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assert.throws(() => {
(psbtThatShouldThrow.signInputHD as any)(
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f.shouldThrow.inputToCheck,
);
}, new RegExp('Need HDSigner to sign input'));
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}
});
});
});
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describe('signAllInputsHDAsync', () => {
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fixtures.signInputHD.checks.forEach(f => {
it(f.description, async () => {
if (f.shouldSign) {
const psbtThatShouldsign = Psbt.fromBase64(f.shouldSign.psbt);
await assert.doesNotReject(async () => {
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await psbtThatShouldsign.signAllInputsHDAsync(
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bip32.fromBase58(f.shouldSign.xprv),
(f.shouldSign as any).sighashTypes || undefined,
);
});
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}
if (f.shouldThrow) {
const psbtThatShouldThrow = Psbt.fromBase64(f.shouldThrow.psbt);
await assert.rejects(async () => {
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await psbtThatShouldThrow.signAllInputsHDAsync(
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bip32.fromBase58(f.shouldThrow.xprv),
(f.shouldThrow as any).sighashTypes || undefined,
);
}, new RegExp('No inputs were signed'));
await assert.rejects(async () => {
await (psbtThatShouldThrow.signAllInputsHDAsync as any)();
}, new RegExp('Need HDSigner to sign input'));
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}
});
});
});
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describe('signAllInputsHD', () => {
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fixtures.signInputHD.checks.forEach(f => {
it(f.description, () => {
if (f.shouldSign) {
const psbtThatShouldsign = Psbt.fromBase64(f.shouldSign.psbt);
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assert.doesNotThrow(() => {
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psbtThatShouldsign.signAllInputsHD(
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bip32.fromBase58(f.shouldSign.xprv),
(f.shouldSign as any).sighashTypes || undefined,
);
});
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}
if (f.shouldThrow) {
const psbtThatShouldThrow = Psbt.fromBase64(f.shouldThrow.psbt);
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assert.throws(() => {
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psbtThatShouldThrow.signAllInputsHD(
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bip32.fromBase58(f.shouldThrow.xprv),
(f.shouldThrow as any).sighashTypes || undefined,
);
}, new RegExp('No inputs were signed'));
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assert.throws(() => {
(psbtThatShouldThrow.signAllInputsHD as any)();
}, new RegExp('Need HDSigner to sign input'));
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}
});
});
});
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describe('finalizeAllInputs', () => {
fixtures.finalizeAllInputs.forEach(f => {
it(`Finalizes inputs of type "${f.type}"`, () => {
const psbt = Psbt.fromBase64(f.psbt);
psbt.finalizeAllInputs();
assert.strictEqual(psbt.toBase64(), f.result);
});
});
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it('fails if no script found', () => {
const psbt = new Psbt();
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psbt.addInput({
hash:
'0000000000000000000000000000000000000000000000000000000000000000',
index: 0,
});
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assert.throws(() => {
psbt.finalizeAllInputs();
}, new RegExp('No script found for input #0'));
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psbt.updateInput(0, {
witnessUtxo: {
script: Buffer.from(
'0014d85c2b71d0060b09c9886aeb815e50991dda124d',
'hex',
),
value: 2e5,
},
});
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assert.throws(() => {
psbt.finalizeAllInputs();
}, new RegExp('Can not finalize input #0'));
});
});
describe('addInput', () => {
fixtures.addInput.checks.forEach(f => {
it(f.description, () => {
const psbt = new Psbt();
if (f.exception) {
assert.throws(() => {
psbt.addInput(f.inputData as any);
}, new RegExp(f.exception));
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assert.throws(() => {
psbt.addInputs([f.inputData as any]);
}, new RegExp(f.exception));
} else {
assert.doesNotThrow(() => {
psbt.addInputs([f.inputData as any]);
if (f.equals) {
assert.strictEqual(psbt.toBase64(), f.equals);
}
});
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assert.throws(() => {
psbt.addInput(f.inputData as any);
}, new RegExp('Duplicate input detected.'));
}
});
});
});
describe('addOutput', () => {
fixtures.addOutput.checks.forEach(f => {
it(f.description, () => {
const psbt = new Psbt();
if (f.exception) {
assert.throws(() => {
psbt.addOutput(f.outputData as any);
}, new RegExp(f.exception));
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assert.throws(() => {
psbt.addOutputs([f.outputData as any]);
}, new RegExp(f.exception));
} else {
assert.doesNotThrow(() => {
psbt.addOutput(f.outputData as any);
});
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assert.doesNotThrow(() => {
psbt.addOutputs([f.outputData as any]);
});
}
});
});
});
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describe('setVersion', () => {
it('Sets the version value of the unsigned transaction', () => {
const psbt = new Psbt();
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assert.strictEqual(psbt.extractTransaction().version, 2);
psbt.setVersion(1);
assert.strictEqual(psbt.extractTransaction().version, 1);
});
});
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describe('setLocktime', () => {
it('Sets the nLockTime value of the unsigned transaction', () => {
const psbt = new Psbt();
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assert.strictEqual(psbt.extractTransaction().locktime, 0);
psbt.setLocktime(1);
assert.strictEqual(psbt.extractTransaction().locktime, 1);
});
});
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describe('setInputSequence', () => {
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it('Sets the sequence number for a given input', () => {
const psbt = new Psbt();
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psbt.addInput({
hash:
'0000000000000000000000000000000000000000000000000000000000000000',
index: 0,
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});
assert.strictEqual(psbt.inputCount, 1);
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assert.strictEqual(psbt.txInputs[0].sequence, 0xffffffff);
psbt.setInputSequence(0, 0);
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assert.strictEqual(psbt.txInputs[0].sequence, 0);
});
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it('throws if input index is too high', () => {
const psbt = new Psbt();
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psbt.addInput({
hash:
'0000000000000000000000000000000000000000000000000000000000000000',
index: 0,
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});
assert.throws(() => {
psbt.setInputSequence(1, 0);
}, new RegExp('Input index too high'));
});
});
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describe('getInputType', () => {
const key = ECPair.makeRandom();
const { publicKey } = key;
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const p2wpkhPub = (pubkey: Buffer): Buffer =>
payments.p2wpkh({
pubkey,
}).output!;
const p2pkhPub = (pubkey: Buffer): Buffer =>
payments.p2pkh({
pubkey,
}).output!;
const p2shOut = (output: Buffer): Buffer =>
payments.p2sh({
redeem: { output },
}).output!;
const p2wshOut = (output: Buffer): Buffer =>
payments.p2wsh({
redeem: { output },
}).output!;
const p2shp2wshOut = (output: Buffer): Buffer => p2shOut(p2wshOut(output));
const noOuter = (output: Buffer): Buffer => output;
function getInputTypeTest({
innerScript,
outerScript,
redeemGetter,
witnessGetter,
expectedType,
finalize,
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}: any): void {
const psbt = new Psbt();
psbt
.addInput({
hash:
'0000000000000000000000000000000000000000000000000000000000000000',
index: 0,
witnessUtxo: {
script: outerScript(innerScript(publicKey)),
value: 2e3,
},
...(redeemGetter ? { redeemScript: redeemGetter(publicKey) } : {}),
...(witnessGetter ? { witnessScript: witnessGetter(publicKey) } : {}),
})
.addOutput({
script: Buffer.from('0014d85c2b71d0060b09c9886aeb815e50991dda124d'),
value: 1800,
});
if (finalize) psbt.signInput(0, key).finalizeInput(0);
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const type = psbt.getInputType(0);
assert.strictEqual(type, expectedType, 'incorrect input type');
}
[
{
innerScript: p2pkhPub,
outerScript: noOuter,
redeemGetter: null,
witnessGetter: null,
expectedType: 'pubkeyhash',
},
{
innerScript: p2wpkhPub,
outerScript: noOuter,
redeemGetter: null,
witnessGetter: null,
expectedType: 'witnesspubkeyhash',
},
{
innerScript: p2pkhPub,
outerScript: p2shOut,
redeemGetter: p2pkhPub,
witnessGetter: null,
expectedType: 'p2sh-pubkeyhash',
},
{
innerScript: p2wpkhPub,
outerScript: p2shOut,
redeemGetter: p2wpkhPub,
witnessGetter: null,
expectedType: 'p2sh-witnesspubkeyhash',
finalize: true,
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},
{
innerScript: p2pkhPub,
outerScript: p2wshOut,
redeemGetter: null,
witnessGetter: p2pkhPub,
expectedType: 'p2wsh-pubkeyhash',
finalize: true,
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},
{
innerScript: p2pkhPub,
outerScript: p2shp2wshOut,
redeemGetter: (pk: Buffer): Buffer => p2wshOut(p2pkhPub(pk)),
witnessGetter: p2pkhPub,
expectedType: 'p2sh-p2wsh-pubkeyhash',
},
].forEach(getInputTypeTest);
});
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describe('inputHasHDKey', () => {
it('should return true if HD key is present', () => {
const root = bip32.fromSeed(crypto.randomBytes(32));
const root2 = bip32.fromSeed(crypto.randomBytes(32));
const path = "m/0'/0";
const psbt = new Psbt();
psbt.addInput({
hash:
'0000000000000000000000000000000000000000000000000000000000000000',
index: 0,
bip32Derivation: [
{
masterFingerprint: root.fingerprint,
path,
pubkey: root.derivePath(path).publicKey,
},
],
});
assert.strictEqual(psbt.inputHasHDKey(0, root), true);
assert.strictEqual(psbt.inputHasHDKey(0, root2), false);
});
});
describe('inputHasPubkey', () => {
it('should throw', () => {
const psbt = new Psbt();
psbt.addInput({
hash:
'0000000000000000000000000000000000000000000000000000000000000000',
index: 0,
});
assert.throws(() => {
psbt.inputHasPubkey(0, Buffer.from([]));
}, new RegExp("Can't find pubkey in input without Utxo data"));
psbt.updateInput(0, {
witnessUtxo: {
value: 1337,
script: payments.p2sh({
redeem: { output: Buffer.from([0x51]) },
}).output!,
},
});
assert.throws(() => {
psbt.inputHasPubkey(0, Buffer.from([]));
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}, new RegExp('scriptPubkey is P2SH but redeemScript missing'));
delete psbt.data.inputs[0].witnessUtxo;
psbt.updateInput(0, {
witnessUtxo: {
value: 1337,
script: payments.p2wsh({
redeem: { output: Buffer.from([0x51]) },
}).output!,
},
});
assert.throws(() => {
psbt.inputHasPubkey(0, Buffer.from([]));
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}, new RegExp('scriptPubkey or redeemScript is P2WSH but witnessScript missing'));
delete psbt.data.inputs[0].witnessUtxo;
psbt.updateInput(0, {
witnessUtxo: {
value: 1337,
script: payments.p2sh({
redeem: payments.p2wsh({
redeem: { output: Buffer.from([0x51]) },
}),
}).output!,
},
redeemScript: payments.p2wsh({
redeem: { output: Buffer.from([0x51]) },
}).output!,
});
assert.throws(() => {
psbt.inputHasPubkey(0, Buffer.from([]));
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}, new RegExp('scriptPubkey or redeemScript is P2WSH but witnessScript missing'));
psbt.updateInput(0, {
witnessScript: Buffer.from([0x51]),
});
assert.doesNotThrow(() => {
psbt.inputHasPubkey(0, Buffer.from([0x51]));
});
});
});
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describe('outputHasHDKey', () => {
it('should return true if HD key is present', () => {
const root = bip32.fromSeed(crypto.randomBytes(32));
const root2 = bip32.fromSeed(crypto.randomBytes(32));
const path = "m/0'/0";
const psbt = new Psbt();
psbt
.addInput({
hash:
'0000000000000000000000000000000000000000000000000000000000000000',
index: 0,
})
.addOutput({
script: Buffer.from(
'0014000102030405060708090a0b0c0d0e0f00010203',
'hex',
),
value: 2000,
bip32Derivation: [
{
masterFingerprint: root.fingerprint,
path,
pubkey: root.derivePath(path).publicKey,
},
],
});
assert.strictEqual(psbt.outputHasHDKey(0, root), true);
assert.strictEqual(psbt.outputHasHDKey(0, root2), false);
});
});
describe('outputHasPubkey', () => {
it('should throw', () => {
const psbt = new Psbt();
psbt
.addInput({
hash:
'0000000000000000000000000000000000000000000000000000000000000000',
index: 0,
})
.addOutput({
script: payments.p2sh({
redeem: { output: Buffer.from([0x51]) },
}).output!,
value: 1337,
});
assert.throws(() => {
psbt.outputHasPubkey(0, Buffer.from([]));
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}, new RegExp('scriptPubkey is P2SH but redeemScript missing'));
(psbt as any).__CACHE.__TX.outs[0].script = payments.p2wsh({
redeem: { output: Buffer.from([0x51]) },
}).output!;
assert.throws(() => {
psbt.outputHasPubkey(0, Buffer.from([]));
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}, new RegExp('scriptPubkey or redeemScript is P2WSH but witnessScript missing'));
(psbt as any).__CACHE.__TX.outs[0].script = payments.p2sh({
redeem: payments.p2wsh({
redeem: { output: Buffer.from([0x51]) },
}),
}).output!;
psbt.updateOutput(0, {
redeemScript: payments.p2wsh({
redeem: { output: Buffer.from([0x51]) },
}).output!,
});
assert.throws(() => {
psbt.outputHasPubkey(0, Buffer.from([]));
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}, new RegExp('scriptPubkey or redeemScript is P2WSH but witnessScript missing'));
delete psbt.data.outputs[0].redeemScript;
psbt.updateOutput(0, {
witnessScript: Buffer.from([0x51]),
});
assert.throws(() => {
psbt.outputHasPubkey(0, Buffer.from([]));
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}, new RegExp('scriptPubkey is P2SH but redeemScript missing'));
psbt.updateOutput(0, {
redeemScript: payments.p2wsh({
redeem: { output: Buffer.from([0x51]) },
}).output!,
});
assert.doesNotThrow(() => {
psbt.outputHasPubkey(0, Buffer.from([0x51]));
});
});
});
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describe('clone', () => {
it('Should clone a psbt exactly with no reference', () => {
const f = fixtures.clone;
const psbt = Psbt.fromBase64(f.psbt);
const notAClone = Object.assign(new Psbt(), psbt); // references still active
const clone = psbt.clone();
assert.strictEqual(psbt.validateSignaturesOfAllInputs(validator), true);
assert.strictEqual(clone.toBase64(), psbt.toBase64());
assert.strictEqual(clone.toBase64(), notAClone.toBase64());
assert.strictEqual(psbt.toBase64(), notAClone.toBase64());
(psbt as any).__CACHE.__TX.version |= 0xff0000;
assert.notStrictEqual(clone.toBase64(), psbt.toBase64());
assert.notStrictEqual(clone.toBase64(), notAClone.toBase64());
assert.strictEqual(psbt.toBase64(), notAClone.toBase64());
});
});
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describe('setMaximumFeeRate', () => {
it('Sets the maximumFeeRate value', () => {
const psbt = new Psbt();
assert.strictEqual((psbt as any).opts.maximumFeeRate, 5000);
psbt.setMaximumFeeRate(6000);
assert.strictEqual((psbt as any).opts.maximumFeeRate, 6000);
});
});
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describe('validateSignaturesOfInput', () => {
const f = fixtures.validateSignaturesOfInput;
it('Correctly validates a signature', () => {
const psbt = Psbt.fromBase64(f.psbt);
assert.strictEqual(
psbt.validateSignaturesOfInput(f.index, validator),
true,
);
assert.throws(() => {
psbt.validateSignaturesOfInput(f.nonExistantIndex, validator);
}, new RegExp('No signatures to validate'));
});
it('Correctly validates a signature against a pubkey', () => {
const psbt = Psbt.fromBase64(f.psbt);
assert.strictEqual(
psbt.validateSignaturesOfInput(f.index, validator, f.pubkey as any),
true,
);
assert.throws(() => {
psbt.validateSignaturesOfInput(
f.index,
validator,
f.incorrectPubkey as any,
);
}, new RegExp('No signatures for this pubkey'));
});
});
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describe('getFeeRate', () => {
it('Throws error if called before inputs are finalized', () => {
const f = fixtures.getFeeRate;
const psbt = Psbt.fromBase64(f.psbt);
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assert.throws(() => {
psbt.getFeeRate();
}, new RegExp('PSBT must be finalized to calculate fee rate'));
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psbt.finalizeAllInputs();
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assert.strictEqual(psbt.getFeeRate(), f.fee);
(psbt as any).__CACHE.__FEE_RATE = undefined;
assert.strictEqual(psbt.getFeeRate(), f.fee);
});
});
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describe('create 1-to-1 transaction', () => {
const alice = ECPair.fromWIF(
'L2uPYXe17xSTqbCjZvL2DsyXPCbXspvcu5mHLDYUgzdUbZGSKrSr',
);
const psbt = new Psbt();
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psbt.addInput({
hash: '7d067b4a697a09d2c3cff7d4d9506c9955e93bff41bf82d439da7d030382bc3e',
index: 0,
nonWitnessUtxo: Buffer.from(
'0200000001f9f34e95b9d5c8abcd20fc5bd4a825d1517be62f0f775e5f36da944d9' +
'452e550000000006b483045022100c86e9a111afc90f64b4904bd609e9eaed80d48' +
'ca17c162b1aca0a788ac3526f002207bb79b60d4fc6526329bf18a77135dc566020' +
'9e761da46e1c2f1152ec013215801210211755115eabf846720f5cb18f248666fec' +
'631e5e1e66009ce3710ceea5b1ad13ffffffff01905f0100000000001976a9148bb' +
'c95d2709c71607c60ee3f097c1217482f518d88ac00000000',
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'hex',
),
sighashType: 1,
});
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psbt.addOutput({
address: '1KRMKfeZcmosxALVYESdPNez1AP1mEtywp',
value: 80000,
});
psbt.signInput(0, alice);
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assert.throws(() => {
psbt.setVersion(3);
}, new RegExp('Can not modify transaction, signatures exist.'));
psbt.validateSignaturesOfInput(0, validator);
psbt.finalizeAllInputs();
assert.throws(() => {
psbt.setVersion(3);
}, new RegExp('Can not modify transaction, signatures exist.'));
assert.strictEqual(psbt.inputHasPubkey(0, alice.publicKey), true);
assert.strictEqual(psbt.outputHasPubkey(0, alice.publicKey), false);
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assert.strictEqual(
psbt.extractTransaction().toHex(),
'02000000013ebc8203037dda39d482bf41ff3be955996c50d9d4f7cfc3d2097a694a7' +
'b067d000000006b483045022100931b6db94aed25d5486884d83fc37160f37f3368c0' +
'd7f48c757112abefec983802205fda64cff98c849577026eb2ce916a50ea70626a766' +
'9f8596dd89b720a26b4d501210365db9da3f8a260078a7e8f8b708a1161468fb2323f' +
'fda5ec16b261ec1056f455ffffffff0180380100000000001976a914ca0d36044e0dc' +
'08a22724efa6f6a07b0ec4c79aa88ac00000000',
);
});
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describe('Method return types', () => {
it('fromBuffer returns Psbt type (not base class)', () => {
const psbt = Psbt.fromBuffer(
Buffer.from(
'70736274ff01000a01000000000000000000000000',
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'hex', // cHNidP8BAAoBAAAAAAAAAAAAAAAA
),
);
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assert.strictEqual(psbt instanceof Psbt, true);
assert.ok((psbt as any).__CACHE.__TX);
});
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it('fromBase64 returns Psbt type (not base class)', () => {
const psbt = Psbt.fromBase64('cHNidP8BAAoBAAAAAAAAAAAAAAAA');
assert.strictEqual(psbt instanceof Psbt, true);
assert.ok((psbt as any).__CACHE.__TX);
});
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it('fromHex returns Psbt type (not base class)', () => {
const psbt = Psbt.fromHex('70736274ff01000a01000000000000000000000000');
assert.strictEqual(psbt instanceof Psbt, true);
assert.ok((psbt as any).__CACHE.__TX);
});
});
describe('Cache', () => {
it('non-witness UTXOs are cached', () => {
const f = fixtures.cache.nonWitnessUtxo;
const psbt = Psbt.fromBase64(f.psbt);
const index = f.inputIndex;
// Cache is empty
assert.strictEqual(
(psbt as any).__CACHE.__NON_WITNESS_UTXO_BUF_CACHE[index],
undefined,
);
// Cache is populated
psbt.updateInput(index, { nonWitnessUtxo: f.nonWitnessUtxo as any });
const value = psbt.data.inputs[index].nonWitnessUtxo;
assert.ok(
(psbt as any).__CACHE.__NON_WITNESS_UTXO_BUF_CACHE[index].equals(value),
);
assert.ok(
(psbt as any).__CACHE.__NON_WITNESS_UTXO_BUF_CACHE[index].equals(
f.nonWitnessUtxo,
),
);
// Cache is rebuilt from internal transaction object when cleared
psbt.data.inputs[index].nonWitnessUtxo = Buffer.from([1, 2, 3]);
(psbt as any).__CACHE.__NON_WITNESS_UTXO_BUF_CACHE[index] = undefined;
assert.ok((psbt as any).data.inputs[index].nonWitnessUtxo.equals(value));
});
});
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describe('Transaction properties', () => {
it('.version is exposed and is settable', () => {
const psbt = new Psbt();
assert.strictEqual(psbt.version, 2);
assert.strictEqual(psbt.version, (psbt as any).__CACHE.__TX.version);
psbt.version = 1;
assert.strictEqual(psbt.version, 1);
assert.strictEqual(psbt.version, (psbt as any).__CACHE.__TX.version);
});
it('.locktime is exposed and is settable', () => {
const psbt = new Psbt();
assert.strictEqual(psbt.locktime, 0);
assert.strictEqual(psbt.locktime, (psbt as any).__CACHE.__TX.locktime);
psbt.locktime = 123;
assert.strictEqual(psbt.locktime, 123);
assert.strictEqual(psbt.locktime, (psbt as any).__CACHE.__TX.locktime);
});
it('.txInputs is exposed as a readonly clone', () => {
const psbt = new Psbt();
const hash = Buffer.alloc(32);
const index = 0;
psbt.addInput({ hash, index });
const input = psbt.txInputs[0];
const internalInput = (psbt as any).__CACHE.__TX.ins[0];
assert.ok(input.hash.equals(internalInput.hash));
assert.strictEqual(input.index, internalInput.index);
assert.strictEqual(input.sequence, internalInput.sequence);
input.hash[0] = 123;
input.index = 123;
input.sequence = 123;
assert.ok(!input.hash.equals(internalInput.hash));
assert.notEqual(input.index, internalInput.index);
assert.notEqual(input.sequence, internalInput.sequence);
});
it('.txOutputs is exposed as a readonly clone', () => {
const psbt = new Psbt();
const address = '1LukeQU5jwebXbMLDVydeH4vFSobRV9rkj';
const value = 100000;
psbt.addOutput({ address, value });
const output = psbt.txOutputs[0];
const internalInput = (psbt as any).__CACHE.__TX.outs[0];
assert.strictEqual(output.address, address);
assert.ok(output.script.equals(internalInput.script));
assert.strictEqual(output.value, internalInput.value);
output.script[0] = 123;
output.value = 123;
assert.ok(!output.script.equals(internalInput.script));
assert.notEqual(output.value, internalInput.value);
});
});
});