import { BlockchainLifecycle } from '@0xproject/dev-utils'; import { AssetProxyId, Order, SignatureType, SignedOrder } from '@0xproject/types'; import { BigNumber } from '@0xproject/utils'; import * as chai from 'chai'; import * as ethUtil from 'ethereumjs-util'; import * as Web3 from 'web3'; import { DummyERC20TokenContract } from '../../src/contract_wrappers/generated/dummy_e_r_c20_token'; import { ERC20ProxyContract } from '../../src/contract_wrappers/generated/e_r_c20_proxy'; import { ExchangeContract } from '../../src/contract_wrappers/generated/exchange'; import { artifacts } from '../../src/utils/artifacts'; import { assetProxyUtils } from '@0xproject/order-utils'; import { chaiSetup } from '../../src/utils/chai_setup'; import { constants } from '../../src/utils/constants'; import { ERC20Wrapper } from '../../src/utils/erc20_wrapper'; import { ExchangeWrapper } from '../../src/utils/exchange_wrapper'; import { OrderFactory } from '../../src/utils/order_factory'; import { orderUtils } from '../../src/utils/order_utils'; import { TransactionFactory } from '../../src/utils/transaction_factory'; import { ERC20BalancesByOwner, ExchangeStatus, SignedTransaction } from '../../src/utils/types'; import { provider, txDefaults, web3Wrapper } from '../../src/utils/web3_wrapper'; chaiSetup.configure(); const expect = chai.expect; const blockchainLifecycle = new BlockchainLifecycle(web3Wrapper); describe('Exchange transactions', () => { let senderAddress: string; let owner: string; let makerAddress: string; let takerAddress: string; let feeRecipientAddress: string; let erc20TokenA: DummyERC20TokenContract; let erc20TokenB: DummyERC20TokenContract; let zrxToken: DummyERC20TokenContract; let exchange: ExchangeContract; let erc20Proxy: ERC20ProxyContract; let erc20Balances: ERC20BalancesByOwner; let signedOrder: SignedOrder; let signedTx: SignedTransaction; let order: Order; let orderFactory: OrderFactory; let makerTransactionFactory: TransactionFactory; let takerTransactionFactory: TransactionFactory; let exchangeWrapper: ExchangeWrapper; let erc20Wrapper: ERC20Wrapper; let defaultMakerTokenAddress: string; let defaultTakerTokenAddress: string; before(async () => { await blockchainLifecycle.startAsync(); }); after(async () => { await blockchainLifecycle.revertAsync(); }); before(async () => { const accounts = await web3Wrapper.getAvailableAddressesAsync(); const usedAddresses = ([owner, senderAddress, makerAddress, takerAddress, feeRecipientAddress] = accounts); erc20Wrapper = new ERC20Wrapper(provider, usedAddresses, owner); [erc20TokenA, erc20TokenB, zrxToken] = await erc20Wrapper.deployDummyTokensAsync(); erc20Proxy = await erc20Wrapper.deployProxyAsync(); await erc20Wrapper.setBalancesAndAllowancesAsync(); exchange = await ExchangeContract.deployFrom0xArtifactAsync( artifacts.Exchange, provider, txDefaults, assetProxyUtils.encodeERC20ProxyData(zrxToken.address), ); exchangeWrapper = new ExchangeWrapper(exchange, provider); await exchangeWrapper.registerAssetProxyAsync(AssetProxyId.ERC20, erc20Proxy.address, owner); await web3Wrapper.awaitTransactionSuccessAsync( await erc20Proxy.addAuthorizedAddress.sendTransactionAsync(exchange.address, { from: owner }), constants.AWAIT_TRANSACTION_MINED_MS, ); defaultMakerTokenAddress = erc20TokenA.address; defaultTakerTokenAddress = erc20TokenB.address; const defaultOrderParams = { ...constants.STATIC_ORDER_PARAMS, senderAddress, exchangeAddress: exchange.address, makerAddress, feeRecipientAddress, makerAssetData: assetProxyUtils.encodeERC20ProxyData(defaultMakerTokenAddress), takerAssetData: assetProxyUtils.encodeERC20ProxyData(defaultTakerTokenAddress), }; const makerPrivateKey = constants.TESTRPC_PRIVATE_KEYS[accounts.indexOf(makerAddress)]; const takerPrivateKey = constants.TESTRPC_PRIVATE_KEYS[accounts.indexOf(takerAddress)]; orderFactory = new OrderFactory(makerPrivateKey, defaultOrderParams); makerTransactionFactory = new TransactionFactory(makerPrivateKey, exchange.address); takerTransactionFactory = new TransactionFactory(takerPrivateKey, exchange.address); }); beforeEach(async () => { await blockchainLifecycle.startAsync(); }); afterEach(async () => { await blockchainLifecycle.revertAsync(); }); describe('executeTransaction', () => { describe('fillOrder', () => { let takerAssetFillAmount: BigNumber; beforeEach(async () => { erc20Balances = await erc20Wrapper.getBalancesAsync(); signedOrder = orderFactory.newSignedOrder(); order = orderUtils.getOrderStruct(signedOrder); takerAssetFillAmount = signedOrder.takerAssetAmount.div(2); const data = exchange.fillOrder.getABIEncodedTransactionData( order, takerAssetFillAmount, signedOrder.signature, ); signedTx = takerTransactionFactory.newSignedTransaction(data); }); it('should throw if not called by specified sender', async () => { return expect(exchangeWrapper.executeTransactionAsync(signedTx, takerAddress)).to.be.rejectedWith( constants.REVERT, ); }); it('should transfer the correct amounts when signed by taker and called by sender', async () => { await exchangeWrapper.executeTransactionAsync(signedTx, senderAddress); const newBalances = await erc20Wrapper.getBalancesAsync(); const makerAssetFillAmount = takerAssetFillAmount .times(signedOrder.makerAssetAmount) .dividedToIntegerBy(signedOrder.takerAssetAmount); const makerFeePaid = signedOrder.makerFee .times(makerAssetFillAmount) .dividedToIntegerBy(signedOrder.makerAssetAmount); const takerFeePaid = signedOrder.takerFee .times(makerAssetFillAmount) .dividedToIntegerBy(signedOrder.makerAssetAmount); expect(newBalances[makerAddress][defaultMakerTokenAddress]).to.be.bignumber.equal( erc20Balances[makerAddress][defaultMakerTokenAddress].minus(makerAssetFillAmount), ); expect(newBalances[makerAddress][defaultTakerTokenAddress]).to.be.bignumber.equal( erc20Balances[makerAddress][defaultTakerTokenAddress].add(takerAssetFillAmount), ); expect(newBalances[makerAddress][zrxToken.address]).to.be.bignumber.equal( erc20Balances[makerAddress][zrxToken.address].minus(makerFeePaid), ); expect(newBalances[takerAddress][defaultTakerTokenAddress]).to.be.bignumber.equal( erc20Balances[takerAddress][defaultTakerTokenAddress].minus(takerAssetFillAmount), ); expect(newBalances[takerAddress][defaultMakerTokenAddress]).to.be.bignumber.equal( erc20Balances[takerAddress][defaultMakerTokenAddress].add(makerAssetFillAmount), ); expect(newBalances[takerAddress][zrxToken.address]).to.be.bignumber.equal( erc20Balances[takerAddress][zrxToken.address].minus(takerFeePaid), ); expect(newBalances[feeRecipientAddress][zrxToken.address]).to.be.bignumber.equal( erc20Balances[feeRecipientAddress][zrxToken.address].add(makerFeePaid.add(takerFeePaid)), ); }); it('should throw if the a 0x transaction with the same transactionHash has already been executed', async () => { await exchangeWrapper.executeTransactionAsync(signedTx, senderAddress); return expect(exchangeWrapper.executeTransactionAsync(signedTx, senderAddress)).to.be.rejectedWith( constants.REVERT, ); }); it('should reset the currentContextAddress', async () => { await exchangeWrapper.executeTransactionAsync(signedTx, senderAddress); const currentContextAddress = await exchange.currentContextAddress.callAsync(); expect(currentContextAddress).to.equal(constants.NULL_ADDRESS); }); }); describe('cancelOrder', () => { beforeEach(async () => { const data = exchange.cancelOrder.getABIEncodedTransactionData(order); signedTx = makerTransactionFactory.newSignedTransaction(data); }); it('should throw if not called by specified sender', async () => { return expect(exchangeWrapper.executeTransactionAsync(signedTx, makerAddress)).to.be.rejectedWith( constants.REVERT, ); }); it('should cancel the order when signed by maker and called by sender', async () => { await exchangeWrapper.executeTransactionAsync(signedTx, senderAddress); const res = await exchangeWrapper.fillOrderAsync(signedOrder, senderAddress); const newBalances = await erc20Wrapper.getBalancesAsync(); expect(newBalances).to.deep.equal(erc20Balances); }); }); }); });