/* global artifacts, web3, contract, assert */ require('chai') .use(require('bn-chai')(web3.utils.BN)) .use(require('chai-as-promised')) .should() const { takeSnapshot, revertSnapshot } = require('../lib/ganacheHelper') const MerkleTreeWithHistory = artifacts.require('./MerkleTreeWithHistoryMock.sol') const hasherContract = artifacts.require('./Hasher.sol') const MerkleTree = require('../lib/MerkleTree') const hasherImpl = require('../lib/MiMC') const { ETH_AMOUNT, MERKLE_TREE_HEIGHT } = process.env // eslint-disable-next-line no-unused-vars function BNArrayToStringArray(array) { const arrayToPrint = [] array.forEach(item => { arrayToPrint.push(item.toString()) }) return arrayToPrint } contract('MerkleTreeWithHistory', accounts => { let merkleTreeWithHistory let hasherInstance let levels = MERKLE_TREE_HEIGHT || 16 const sender = accounts[0] // eslint-disable-next-line no-unused-vars const value = ETH_AMOUNT || '1000000000000000000' let snapshotId let prefix = 'test' let tree let hasher before(async () => { tree = new MerkleTree( levels, null, prefix, ) hasherInstance = await hasherContract.deployed() await MerkleTreeWithHistory.link(hasherContract, hasherInstance.address) merkleTreeWithHistory = await MerkleTreeWithHistory.new(levels) snapshotId = await takeSnapshot() }) describe('#constructor', () => { it('should initialize', async () => { const zeroValue = await merkleTreeWithHistory.ZERO_VALUE() const firstSubtree = await merkleTreeWithHistory.filledSubtrees(0) firstSubtree.should.be.eq.BN(zeroValue) const firstZero = await merkleTreeWithHistory.zeros(0) firstZero.should.be.eq.BN(zeroValue) }) }) describe('merkleTreeLib', () => { it('index_to_key', () => { assert.equal( MerkleTree.index_to_key('test', 5, 20), 'test_tree_5_20', ) }) it('tests insert', async () => { hasher = new hasherImpl() tree = new MerkleTree( 2, null, prefix, ) await tree.insert('5') let { root, path_elements } = await tree.path(0) const calculated_root = hasher.hash(null, hasher.hash(null, '5', path_elements[0]), path_elements[1] ) // console.log(root) assert.equal(root, calculated_root) }) it('creation odd elements count', async () => { const elements = [12, 13, 14, 15, 16, 17, 18, 19, 20] for(const [, el] of Object.entries(elements)) { await tree.insert(el) } const batchTree = new MerkleTree( levels, elements, prefix, ) for(const [i] of Object.entries(elements)) { const pathViaConstructor = await batchTree.path(i) const pathViaUpdate = await tree.path(i) pathViaConstructor.should.be.deep.equal(pathViaUpdate) } }) it('should find an element', async () => { const elements = [12, 13, 14, 15, 16, 17, 18, 19, 20] for(const [, el] of Object.entries(elements)) { await tree.insert(el) } let index = tree.getIndexByElement(13) index.should.be.equal(1) index = tree.getIndexByElement(19) index.should.be.equal(7) index = tree.getIndexByElement(12) index.should.be.equal(0) index = tree.getIndexByElement(20) index.should.be.equal(8) index = tree.getIndexByElement(42) index.should.be.equal(false) }) it('creation even elements count', async () => { const elements = [12, 13, 14, 15, 16, 17] for(const [, el] of Object.entries(elements)) { await tree.insert(el) } const batchTree = new MerkleTree( levels, elements, prefix, ) for(const [i] of Object.entries(elements)) { const pathViaConstructor = await batchTree.path(i) const pathViaUpdate = await tree.path(i) pathViaConstructor.should.be.deep.equal(pathViaUpdate) } }) it.skip('creation using 30000 elements', () => { const elements = [] for(let i = 1000; i < 31001; i++) { elements.push(i) } console.time('MerkleTree') tree = new MerkleTree( levels, elements, prefix, ) console.timeEnd('MerkleTree') // 2,7 GHz Intel Core i7 // 1000 : 1949.084ms // 10000: 19456.220ms // 30000: 63406.679ms }) }) describe('#insert', () => { it('should insert', async () => { let rootFromContract for (let i = 1; i < 11; i++) { await merkleTreeWithHistory.insert(i, { from: sender }) await tree.insert(i) let { root } = await tree.path(i - 1) rootFromContract = await merkleTreeWithHistory.getLastRoot() root.should.be.equal(rootFromContract.toString()) } }) it('should reject if tree is full', async () => { levels = 6 const merkleTreeWithHistory = await MerkleTreeWithHistory.new(levels) for (let i = 0; i < 2**levels; i++) { await merkleTreeWithHistory.insert(i+42).should.be.fulfilled } let error = await merkleTreeWithHistory.insert(1337).should.be.rejected error.reason.should.be.equal('Merkle tree is full. No more leafs can be added') error = await merkleTreeWithHistory.insert(1).should.be.rejected error.reason.should.be.equal('Merkle tree is full. No more leafs can be added') }) it.skip('hasher gas', async () => { levels = 6 const merkleTreeWithHistory = await MerkleTreeWithHistory.new(levels) const zeroValue = await merkleTreeWithHistory.zeroValue() const gas = await merkleTreeWithHistory.hashLeftRight.estimateGas(zeroValue, zeroValue) console.log('gas', gas - 21000) }) }) describe('#isKnownRoot', () => { it('should work', async () => { let path for (let i = 1; i < 5; i++) { await merkleTreeWithHistory.insert(i, { from: sender }).should.be.fulfilled await tree.insert(i) path = await tree.path(i - 1) let isKnown = await merkleTreeWithHistory.isKnownRoot(path.root) isKnown.should.be.equal(true) } await merkleTreeWithHistory.insert(42, { from: sender }).should.be.fulfilled // check outdated root let isKnown = await merkleTreeWithHistory.isKnownRoot(path.root) isKnown.should.be.equal(true) }) it('should not return uninitialized roots', async () => { await merkleTreeWithHistory.insert(42, { from: sender }).should.be.fulfilled let isKnown = await merkleTreeWithHistory.isKnownRoot(0) isKnown.should.be.equal(false) }) }) afterEach(async () => { await revertSnapshot(snapshotId.result) // eslint-disable-next-line require-atomic-updates snapshotId = await takeSnapshot() hasher = new hasherImpl() tree = new MerkleTree( levels, null, prefix, null, hasher, ) }) })