const { describe, it, beforeEach } = require('mocha') const assert = require('assert') const Block = require('..').Block const fixtures = require('./fixtures/block') describe('Block', function () { describe('version', function () { it('should be interpreted as an int32le', function () { const blockHex = 'ffffffff0000000000000000000000000000000000000000000000000000000000000000414141414141414141414141414141414141414141414141414141414141414101000000020000000300000000' const block = Block.fromHex(blockHex) assert.equal(-1, block.version) assert.equal(1, block.timestamp) }) }) describe('calculateTarget', function () { fixtures.targets.forEach(function (f) { it('returns ' + f.expected + ' for 0x' + f.bits, function () { const bits = parseInt(f.bits, 16) assert.equal(Block.calculateTarget(bits).toString('hex'), f.expected) }) }) }) describe('fromBuffer/fromHex', function () { fixtures.valid.forEach(function (f) { it('imports ' + f.description, function () { 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) 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) }) }) fixtures.invalid.forEach(function (f) { it('throws on ' + f.exception, function () { assert.throws(function () { Block.fromHex(f.hex) }, new RegExp(f.exception)) }) }) }) describe('toBuffer/toHex', function () { fixtures.valid.forEach(function (f) { let block beforeEach(function () { block = Block.fromHex(f.hex) }) it('exports ' + f.description, function () { assert.strictEqual(block.toHex(true), f.hex.slice(0, 160)) assert.strictEqual(block.toHex(), f.hex) }) }) }) describe('getHash/getId', function () { fixtures.valid.forEach(function (f) { let block beforeEach(function () { block = Block.fromHex(f.hex) }) it('returns ' + f.id + ' for ' + f.description, function () { assert.strictEqual(block.getHash().toString('hex'), f.hash) assert.strictEqual(block.getId(), f.id) }) }) }) describe('getUTCDate', function () { fixtures.valid.forEach(function (f) { let block beforeEach(function () { block = Block.fromHex(f.hex) }) it('returns UTC date of ' + f.id, function () { const utcDate = block.getUTCDate().getTime() assert.strictEqual(utcDate, f.timestamp * 1e3) }) }) }) describe('calculateMerkleRoot', function () { it('should throw on zero-length transaction array', function () { assert.throws(function () { Block.calculateMerkleRoot([]) }, /Cannot compute merkle root for zero transactions/) }) fixtures.valid.forEach(function (f) { if (f.hex.length === 160) return let block beforeEach(function () { block = Block.fromHex(f.hex) }) it('returns ' + f.merkleRoot + ' for ' + f.id, function () { assert.strictEqual(Block.calculateMerkleRoot(block.transactions).toString('hex'), f.merkleRoot) }) }) }) describe('checkMerkleRoot', function () { fixtures.valid.forEach(function (f) { if (f.hex.length === 160) return let block beforeEach(function () { block = Block.fromHex(f.hex) }) it('returns ' + f.valid + ' for ' + f.id, function () { assert.strictEqual(block.checkMerkleRoot(), true) }) }) }) describe('checkProofOfWork', function () { fixtures.valid.forEach(function (f) { let block beforeEach(function () { block = Block.fromHex(f.hex) }) it('returns ' + f.valid + ' for ' + f.id, function () { assert.strictEqual(block.checkProofOfWork(), f.valid) }) }) }) })