bitcoinjs-lib/test/block.spec.ts
2019-11-29 15:30:23 +09:00

179 lines
4.8 KiB
TypeScript

import * as assert from 'assert';
import { beforeEach, describe, it } from 'mocha';
import { Block } from '..';
import * as fixtures from './fixtures/block.json';
describe('Block', () => {
describe('version', () => {
it('should be interpreted as an int32le', () => {
const blockHex =
'ffffffff000000000000000000000000000000000000000000000000000000000000' +
'00004141414141414141414141414141414141414141414141414141414141414141' +
'01000000020000000300000000';
const block = Block.fromHex(blockHex);
assert.strictEqual(-1, block.version);
assert.strictEqual(1, block.timestamp);
});
});
describe('calculateTarget', () => {
fixtures.targets.forEach(f => {
it('returns ' + f.expected + ' for 0x' + f.bits, () => {
const bits = parseInt(f.bits, 16);
assert.strictEqual(
Block.calculateTarget(bits).toString('hex'),
f.expected,
);
});
});
});
describe('fromBuffer/fromHex', () => {
fixtures.valid.forEach(f => {
it('imports ' + f.description, () => {
const block = Block.fromHex(f.hex);
assert.strictEqual(block.version, f.version);
assert.strictEqual(block.prevHash!.toString('hex'), f.prevHash);
assert.strictEqual(block.merkleRoot!.toString('hex'), f.merkleRoot);
if (block.witnessCommit) {
assert.strictEqual(
block.witnessCommit.toString('hex'),
f.witnessCommit,
);
}
assert.strictEqual(block.timestamp, f.timestamp);
assert.strictEqual(block.bits, f.bits);
assert.strictEqual(block.nonce, f.nonce);
assert.strictEqual(!block.transactions, f.hex.length === 160);
if (f.size && f.strippedSize && f.weight) {
assert.strictEqual(block.byteLength(false, true), f.size);
assert.strictEqual(block.byteLength(false, false), f.strippedSize);
assert.strictEqual(block.weight(), f.weight);
}
});
});
fixtures.invalid.forEach(f => {
it('throws on ' + f.exception, () => {
assert.throws(() => {
Block.fromHex(f.hex);
}, new RegExp(f.exception));
});
});
});
describe('toBuffer/toHex', () => {
fixtures.valid.forEach(f => {
let block: Block;
beforeEach(() => {
block = Block.fromHex(f.hex);
});
it('exports ' + f.description, () => {
assert.strictEqual(block.toHex(true), f.hex.slice(0, 160));
assert.strictEqual(block.toHex(), f.hex);
});
});
});
describe('getHash/getId', () => {
fixtures.valid.forEach(f => {
let block: Block;
beforeEach(() => {
block = Block.fromHex(f.hex);
});
it('returns ' + f.id + ' for ' + f.description, () => {
assert.strictEqual(block.getHash().toString('hex'), f.hash);
assert.strictEqual(block.getId(), f.id);
});
});
});
describe('getUTCDate', () => {
fixtures.valid.forEach(f => {
let block: Block;
beforeEach(() => {
block = Block.fromHex(f.hex);
});
it('returns UTC date of ' + f.id, () => {
const utcDate = block.getUTCDate().getTime();
assert.strictEqual(utcDate, f.timestamp * 1e3);
});
});
});
describe('calculateMerkleRoot', () => {
it('should throw on zero-length transaction array', () => {
assert.throws(() => {
Block.calculateMerkleRoot([]);
}, /Cannot compute merkle root for zero transactions/);
});
fixtures.valid.forEach(f => {
if (f.hex.length === 160) return;
let block: Block;
beforeEach(() => {
block = Block.fromHex(f.hex);
});
it('returns ' + f.merkleRoot + ' for ' + f.id, () => {
assert.strictEqual(
Block.calculateMerkleRoot(block.transactions!).toString('hex'),
f.merkleRoot,
);
});
if (f.witnessCommit) {
it('returns witness commit ' + f.witnessCommit + ' for ' + f.id, () => {
assert.strictEqual(
Block.calculateMerkleRoot(block.transactions!, true).toString(
'hex',
),
f.witnessCommit,
);
});
}
});
});
describe('checkTxRoots', () => {
fixtures.valid.forEach(f => {
if (f.hex.length === 160) return;
let block: Block;
beforeEach(() => {
block = Block.fromHex(f.hex);
});
it('returns ' + f.valid + ' for ' + f.id, () => {
assert.strictEqual(block.checkTxRoots(), true);
});
});
});
describe('checkProofOfWork', () => {
fixtures.valid.forEach(f => {
let block: Block;
beforeEach(() => {
block = Block.fromHex(f.hex);
});
it('returns ' + f.valid + ' for ' + f.id, () => {
assert.strictEqual(block.checkProofOfWork(), f.valid);
});
});
});
});